agent: description: 'The agent fields contain the data about the software entity, if any, that collects, detects, or observes events on a host, or takes measurements on a host. Examples include Beats. Agents may also run on observers. ECS agent.* fields shall be populated with details of the agent running on the host or observer where the event happened or the measurement was taken.' fields: agent.build.original: dashed_name: agent-build-original description: 'Extended build information for the agent. This field is intended to contain any build information that a data source may provide, no specific formatting is required.' example: metricbeat version 7.6.0 (amd64), libbeat 7.6.0 [6a23e8f8f30f5001ba344e4e54d8d9cb82cb107c built 2020-02-05 23:10:10 +0000 UTC] flat_name: agent.build.original ignore_above: 1024 level: core name: build.original normalize: [] short: Extended build information for the agent. type: keyword agent.ephemeral_id: dashed_name: agent-ephemeral-id description: 'Ephemeral identifier of this agent (if one exists). This id normally changes across restarts, but `agent.id` does not.' example: 8a4f500f flat_name: agent.ephemeral_id ignore_above: 1024 level: extended name: ephemeral_id normalize: [] short: Ephemeral identifier of this agent. type: keyword agent.id: dashed_name: agent-id description: 'Unique identifier of this agent (if one exists). Example: For Beats this would be beat.id.' example: 8a4f500d flat_name: agent.id ignore_above: 1024 level: core name: id normalize: [] short: Unique identifier of this agent. type: keyword agent.name: dashed_name: agent-name description: 'Custom name of the agent. This is a name that can be given to an agent. This can be helpful if for example two Filebeat instances are running on the same host but a human readable separation is needed on which Filebeat instance data is coming from.' example: foo flat_name: agent.name ignore_above: 1024 level: core name: name normalize: [] short: Custom name of the agent. type: keyword agent.type: dashed_name: agent-type description: 'Type of the agent. The agent type always stays the same and should be given by the agent used. In case of Filebeat the agent would always be Filebeat also if two Filebeat instances are run on the same machine.' example: filebeat flat_name: agent.type ignore_above: 1024 level: core name: type normalize: [] short: Type of the agent. type: keyword agent.version: dashed_name: agent-version description: Version of the agent. example: 6.0.0-rc2 flat_name: agent.version ignore_above: 1024 level: core name: version normalize: [] short: Version of the agent. type: keyword footnote: 'Examples: In the case of Beats for logs, the agent.name is filebeat. For APM, it is the agent running in the app/service. The agent information does not change if data is sent through queuing systems like Kafka, Redis, or processing systems such as Logstash or APM Server.' group: 2 name: agent prefix: agent. short: Fields about the monitoring agent. title: Agent type: group as: description: An autonomous system (AS) is a collection of connected Internet Protocol (IP) routing prefixes under the control of one or more network operators on behalf of a single administrative entity or domain that presents a common, clearly defined routing policy to the internet. fields: as.number: dashed_name: as-number description: Unique number allocated to the autonomous system. The autonomous system number (ASN) uniquely identifies each network on the Internet. example: 15169 flat_name: as.number level: extended name: number normalize: [] short: Unique number allocated to the autonomous system. type: long as.organization.name: dashed_name: as-organization-name description: Organization name. example: Google LLC flat_name: as.organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: as.organization.name.text name: text type: match_only_text name: organization.name normalize: [] short: Organization name. type: keyword group: 2 name: as prefix: as. reusable: expected: - as: as at: client full: client.as - as: as at: destination full: destination.as - as: as at: server full: server.as - as: as at: source full: source.as - as: as at: threat.indicator full: threat.indicator.as - as: as at: threat.enrichments.indicator full: threat.enrichments.indicator.as top_level: false short: Fields describing an Autonomous System (Internet routing prefix). title: Autonomous System type: group base: description: The `base` field set contains all fields which are at the root of the events. These fields are common across all types of events. fields: '@timestamp': dashed_name: timestamp description: 'Date/time when the event originated. This is the date/time extracted from the event, typically representing when the event was generated by the source. If the event source has no original timestamp, this value is typically populated by the first time the event was received by the pipeline. Required field for all events.' example: '2016-05-23T08:05:34.853Z' flat_name: '@timestamp' level: core name: '@timestamp' normalize: [] required: true short: Date/time when the event originated. type: date labels: dashed_name: labels description: 'Custom key/value pairs. Can be used to add meta information to events. Should not contain nested objects. All values are stored as keyword. Example: `docker` and `k8s` labels.' example: '{"application": "foo-bar", "env": "production"}' flat_name: labels level: core name: labels normalize: [] object_type: keyword short: Custom key/value pairs. type: object message: dashed_name: message description: 'For log events the message field contains the log message, optimized for viewing in a log viewer. For structured logs without an original message field, other fields can be concatenated to form a human-readable summary of the event. If multiple messages exist, they can be combined into one message.' example: Hello World flat_name: message level: core name: message normalize: [] short: Log message optimized for viewing in a log viewer. type: match_only_text tags: dashed_name: tags description: List of keywords used to tag each event. example: '["production", "env2"]' flat_name: tags ignore_above: 1024 level: core name: tags normalize: - array short: List of keywords used to tag each event. type: keyword group: 1 name: base prefix: '' root: true short: All fields defined directly at the root of the events. title: Base type: group client: description: 'A client is defined as the initiator of a network connection for events regarding sessions, connections, or bidirectional flow records. For TCP events, the client is the initiator of the TCP connection that sends the SYN packet(s). For other protocols, the client is generally the initiator or requestor in the network transaction. Some systems use the term "originator" to refer the client in TCP connections. The client fields describe details about the system acting as the client in the network event. Client fields are usually populated in conjunction with server fields. Client fields are generally not populated for packet-level events. Client / server representations can add semantic context to an exchange, which is helpful to visualize the data in certain situations. If your context falls in that category, you should still ensure that source and destination are filled appropriately.' fields: client.address: dashed_name: client-address description: 'Some event client addresses are defined ambiguously. The event will sometimes list an IP, a domain or a unix socket. You should always store the raw address in the `.address` field. Then it should be duplicated to `.ip` or `.domain`, depending on which one it is.' flat_name: client.address ignore_above: 1024 level: extended name: address normalize: [] short: Client network address. type: keyword client.as.number: dashed_name: client-as-number description: Unique number allocated to the autonomous system. The autonomous system number (ASN) uniquely identifies each network on the Internet. example: 15169 flat_name: client.as.number level: extended name: number normalize: [] original_fieldset: as short: Unique number allocated to the autonomous system. type: long client.as.organization.name: dashed_name: client-as-organization-name description: Organization name. example: Google LLC flat_name: client.as.organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: client.as.organization.name.text name: text type: match_only_text name: organization.name normalize: [] original_fieldset: as short: Organization name. type: keyword client.bytes: dashed_name: client-bytes description: Bytes sent from the client to the server. example: 184 flat_name: client.bytes format: bytes level: core name: bytes normalize: [] short: Bytes sent from the client to the server. type: long client.domain: dashed_name: client-domain description: 'The domain name of the client system. This value may be a host name, a fully qualified domain name, or another host naming format. The value may derive from the original event or be added from enrichment.' example: foo.example.com flat_name: client.domain ignore_above: 1024 level: core name: domain normalize: [] short: The domain name of the client. type: keyword client.geo.city_name: dashed_name: client-geo-city-name description: City name. example: Montreal flat_name: client.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword client.geo.continent_code: dashed_name: client-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: client.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword client.geo.continent_name: dashed_name: client-geo-continent-name description: Name of the continent. example: North America flat_name: client.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword client.geo.country_iso_code: dashed_name: client-geo-country-iso-code description: Country ISO code. example: CA flat_name: client.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword client.geo.country_name: dashed_name: client-geo-country-name description: Country name. example: Canada flat_name: client.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword client.geo.location: dashed_name: client-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: client.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point client.geo.name: dashed_name: client-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: client.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword client.geo.postal_code: dashed_name: client-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: client.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword client.geo.region_iso_code: dashed_name: client-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: client.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword client.geo.region_name: dashed_name: client-geo-region-name description: Region name. example: Quebec flat_name: client.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword client.geo.timezone: dashed_name: client-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: client.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword client.ip: dashed_name: client-ip description: IP address of the client (IPv4 or IPv6). flat_name: client.ip level: core name: ip normalize: [] short: IP address of the client. type: ip client.mac: dashed_name: client-mac description: 'MAC address of the client. The notation format from RFC 7042 is suggested: Each octet (that is, 8-bit byte) is represented by two [uppercase] hexadecimal digits giving the value of the octet as an unsigned integer. Successive octets are separated by a hyphen.' example: 00-00-5E-00-53-23 flat_name: client.mac ignore_above: 1024 level: core name: mac normalize: [] pattern: ^[A-F0-9]{2}(-[A-F0-9]{2}){5,}$ short: MAC address of the client. type: keyword client.nat.ip: dashed_name: client-nat-ip description: 'Translated IP of source based NAT sessions (e.g. internal client to internet). Typically connections traversing load balancers, firewalls, or routers.' flat_name: client.nat.ip level: extended name: nat.ip normalize: [] short: Client NAT ip address type: ip client.nat.port: dashed_name: client-nat-port description: 'Translated port of source based NAT sessions (e.g. internal client to internet). Typically connections traversing load balancers, firewalls, or routers.' flat_name: client.nat.port format: string level: extended name: nat.port normalize: [] short: Client NAT port type: long client.packets: dashed_name: client-packets description: Packets sent from the client to the server. example: 12 flat_name: client.packets level: core name: packets normalize: [] short: Packets sent from the client to the server. type: long client.port: dashed_name: client-port description: Port of the client. flat_name: client.port format: string level: core name: port normalize: [] short: Port of the client. type: long client.registered_domain: dashed_name: client-registered-domain description: 'The highest registered client domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: client.registered_domain ignore_above: 1024 level: extended name: registered_domain normalize: [] short: The highest registered client domain, stripped of the subdomain. type: keyword client.subdomain: dashed_name: client-subdomain description: 'The subdomain portion of a fully qualified domain name includes all of the names except the host name under the registered_domain. In a partially qualified domain, or if the the qualification level of the full name cannot be determined, subdomain contains all of the names below the registered domain. For example the subdomain portion of "www.east.mydomain.co.uk" is "east". If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: east flat_name: client.subdomain ignore_above: 1024 level: extended name: subdomain normalize: [] short: The subdomain of the domain. type: keyword client.top_level_domain: dashed_name: client-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: client.top_level_domain ignore_above: 1024 level: extended name: top_level_domain normalize: [] short: The effective top level domain (com, org, net, co.uk). type: keyword client.user.domain: dashed_name: client-user-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: client.user.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: user short: Name of the directory the user is a member of. type: keyword client.user.email: dashed_name: client-user-email description: User email address. flat_name: client.user.email ignore_above: 1024 level: extended name: email normalize: [] original_fieldset: user short: User email address. type: keyword client.user.full_name: dashed_name: client-user-full-name description: User's full name, if available. example: Albert Einstein flat_name: client.user.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: client.user.full_name.text name: text type: match_only_text name: full_name normalize: [] original_fieldset: user short: User's full name, if available. type: keyword client.user.group.domain: dashed_name: client-user-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: client.user.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword client.user.group.id: dashed_name: client-user-group-id description: Unique identifier for the group on the system/platform. flat_name: client.user.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword client.user.group.name: dashed_name: client-user-group-name description: Name of the group. flat_name: client.user.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword client.user.hash: dashed_name: client-user-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: client.user.hash ignore_above: 1024 level: extended name: hash normalize: [] original_fieldset: user short: Unique user hash to correlate information for a user in anonymized form. type: keyword client.user.id: dashed_name: client-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: client.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword client.user.name: dashed_name: client-user-name description: Short name or login of the user. example: a.einstein flat_name: client.user.name ignore_above: 1024 level: core multi_fields: - flat_name: client.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword client.user.roles: dashed_name: client-user-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: client.user.roles ignore_above: 1024 level: extended name: roles normalize: - array original_fieldset: user short: Array of user roles at the time of the event. type: keyword group: 2 name: client nestings: - client.as - client.geo - client.user prefix: client. reused_here: - full: client.as schema_name: as short: Fields describing an Autonomous System (Internet routing prefix). - full: client.geo schema_name: geo short: Fields describing a location. - full: client.user schema_name: user short: Fields to describe the user relevant to the event. short: Fields about the client side of a network connection, used with server. title: Client type: group cloud: description: Fields related to the cloud or infrastructure the events are coming from. fields: cloud.account.id: dashed_name: cloud-account-id description: 'The cloud account or organization id used to identify different entities in a multi-tenant environment. Examples: AWS account id, Google Cloud ORG Id, or other unique identifier.' example: 666777888999 flat_name: cloud.account.id ignore_above: 1024 level: extended name: account.id normalize: [] short: The cloud account or organization id. type: keyword cloud.account.name: dashed_name: cloud-account-name description: 'The cloud account name or alias used to identify different entities in a multi-tenant environment. Examples: AWS account name, Google Cloud ORG display name.' example: elastic-dev flat_name: cloud.account.name ignore_above: 1024 level: extended name: account.name normalize: [] short: The cloud account name. type: keyword cloud.availability_zone: dashed_name: cloud-availability-zone description: Availability zone in which this host, resource, or service is located. example: us-east-1c flat_name: cloud.availability_zone ignore_above: 1024 level: extended name: availability_zone normalize: [] short: Availability zone in which this host, resource, or service is located. type: keyword cloud.instance.id: dashed_name: cloud-instance-id description: Instance ID of the host machine. example: i-1234567890abcdef0 flat_name: cloud.instance.id ignore_above: 1024 level: extended name: instance.id normalize: [] short: Instance ID of the host machine. type: keyword cloud.instance.name: dashed_name: cloud-instance-name description: Instance name of the host machine. flat_name: cloud.instance.name ignore_above: 1024 level: extended name: instance.name normalize: [] short: Instance name of the host machine. type: keyword cloud.machine.type: dashed_name: cloud-machine-type description: Machine type of the host machine. example: t2.medium flat_name: cloud.machine.type ignore_above: 1024 level: extended name: machine.type normalize: [] short: Machine type of the host machine. type: keyword cloud.origin.account.id: dashed_name: cloud-origin-account-id description: 'The cloud account or organization id used to identify different entities in a multi-tenant environment. Examples: AWS account id, Google Cloud ORG Id, or other unique identifier.' example: 666777888999 flat_name: cloud.origin.account.id ignore_above: 1024 level: extended name: account.id normalize: [] original_fieldset: cloud short: The cloud account or organization id. type: keyword cloud.origin.account.name: dashed_name: cloud-origin-account-name description: 'The cloud account name or alias used to identify different entities in a multi-tenant environment. Examples: AWS account name, Google Cloud ORG display name.' example: elastic-dev flat_name: cloud.origin.account.name ignore_above: 1024 level: extended name: account.name normalize: [] original_fieldset: cloud short: The cloud account name. type: keyword cloud.origin.availability_zone: dashed_name: cloud-origin-availability-zone description: Availability zone in which this host, resource, or service is located. example: us-east-1c flat_name: cloud.origin.availability_zone ignore_above: 1024 level: extended name: availability_zone normalize: [] original_fieldset: cloud short: Availability zone in which this host, resource, or service is located. type: keyword cloud.origin.instance.id: dashed_name: cloud-origin-instance-id description: Instance ID of the host machine. example: i-1234567890abcdef0 flat_name: cloud.origin.instance.id ignore_above: 1024 level: extended name: instance.id normalize: [] original_fieldset: cloud short: Instance ID of the host machine. type: keyword cloud.origin.instance.name: dashed_name: cloud-origin-instance-name description: Instance name of the host machine. flat_name: cloud.origin.instance.name ignore_above: 1024 level: extended name: instance.name normalize: [] original_fieldset: cloud short: Instance name of the host machine. type: keyword cloud.origin.machine.type: dashed_name: cloud-origin-machine-type description: Machine type of the host machine. example: t2.medium flat_name: cloud.origin.machine.type ignore_above: 1024 level: extended name: machine.type normalize: [] original_fieldset: cloud short: Machine type of the host machine. type: keyword cloud.origin.project.id: dashed_name: cloud-origin-project-id description: 'The cloud project identifier. Examples: Google Cloud Project id, Azure Project id.' example: my-project flat_name: cloud.origin.project.id ignore_above: 1024 level: extended name: project.id normalize: [] original_fieldset: cloud short: The cloud project id. type: keyword cloud.origin.project.name: dashed_name: cloud-origin-project-name description: 'The cloud project name. Examples: Google Cloud Project name, Azure Project name.' example: my project flat_name: cloud.origin.project.name ignore_above: 1024 level: extended name: project.name normalize: [] original_fieldset: cloud short: The cloud project name. type: keyword cloud.origin.provider: dashed_name: cloud-origin-provider description: Name of the cloud provider. Example values are aws, azure, gcp, or digitalocean. example: aws flat_name: cloud.origin.provider ignore_above: 1024 level: extended name: provider normalize: [] original_fieldset: cloud short: Name of the cloud provider. type: keyword cloud.origin.region: dashed_name: cloud-origin-region description: Region in which this host, resource, or service is located. example: us-east-1 flat_name: cloud.origin.region ignore_above: 1024 level: extended name: region normalize: [] original_fieldset: cloud short: Region in which this host, resource, or service is located. type: keyword cloud.origin.service.name: dashed_name: cloud-origin-service-name description: 'The cloud service name is intended to distinguish services running on different platforms within a provider, eg AWS EC2 vs Lambda, GCP GCE vs App Engine, Azure VM vs App Server. Examples: app engine, app service, cloud run, fargate, lambda.' example: lambda flat_name: cloud.origin.service.name ignore_above: 1024 level: extended name: service.name normalize: [] original_fieldset: cloud short: The cloud service name. type: keyword cloud.project.id: dashed_name: cloud-project-id description: 'The cloud project identifier. Examples: Google Cloud Project id, Azure Project id.' example: my-project flat_name: cloud.project.id ignore_above: 1024 level: extended name: project.id normalize: [] short: The cloud project id. type: keyword cloud.project.name: dashed_name: cloud-project-name description: 'The cloud project name. Examples: Google Cloud Project name, Azure Project name.' example: my project flat_name: cloud.project.name ignore_above: 1024 level: extended name: project.name normalize: [] short: The cloud project name. type: keyword cloud.provider: dashed_name: cloud-provider description: Name of the cloud provider. Example values are aws, azure, gcp, or digitalocean. example: aws flat_name: cloud.provider ignore_above: 1024 level: extended name: provider normalize: [] short: Name of the cloud provider. type: keyword cloud.region: dashed_name: cloud-region description: Region in which this host, resource, or service is located. example: us-east-1 flat_name: cloud.region ignore_above: 1024 level: extended name: region normalize: [] short: Region in which this host, resource, or service is located. type: keyword cloud.service.name: dashed_name: cloud-service-name description: 'The cloud service name is intended to distinguish services running on different platforms within a provider, eg AWS EC2 vs Lambda, GCP GCE vs App Engine, Azure VM vs App Server. Examples: app engine, app service, cloud run, fargate, lambda.' example: lambda flat_name: cloud.service.name ignore_above: 1024 level: extended name: service.name normalize: [] short: The cloud service name. type: keyword cloud.target.account.id: dashed_name: cloud-target-account-id description: 'The cloud account or organization id used to identify different entities in a multi-tenant environment. Examples: AWS account id, Google Cloud ORG Id, or other unique identifier.' example: 666777888999 flat_name: cloud.target.account.id ignore_above: 1024 level: extended name: account.id normalize: [] original_fieldset: cloud short: The cloud account or organization id. type: keyword cloud.target.account.name: dashed_name: cloud-target-account-name description: 'The cloud account name or alias used to identify different entities in a multi-tenant environment. Examples: AWS account name, Google Cloud ORG display name.' example: elastic-dev flat_name: cloud.target.account.name ignore_above: 1024 level: extended name: account.name normalize: [] original_fieldset: cloud short: The cloud account name. type: keyword cloud.target.availability_zone: dashed_name: cloud-target-availability-zone description: Availability zone in which this host, resource, or service is located. example: us-east-1c flat_name: cloud.target.availability_zone ignore_above: 1024 level: extended name: availability_zone normalize: [] original_fieldset: cloud short: Availability zone in which this host, resource, or service is located. type: keyword cloud.target.instance.id: dashed_name: cloud-target-instance-id description: Instance ID of the host machine. example: i-1234567890abcdef0 flat_name: cloud.target.instance.id ignore_above: 1024 level: extended name: instance.id normalize: [] original_fieldset: cloud short: Instance ID of the host machine. type: keyword cloud.target.instance.name: dashed_name: cloud-target-instance-name description: Instance name of the host machine. flat_name: cloud.target.instance.name ignore_above: 1024 level: extended name: instance.name normalize: [] original_fieldset: cloud short: Instance name of the host machine. type: keyword cloud.target.machine.type: dashed_name: cloud-target-machine-type description: Machine type of the host machine. example: t2.medium flat_name: cloud.target.machine.type ignore_above: 1024 level: extended name: machine.type normalize: [] original_fieldset: cloud short: Machine type of the host machine. type: keyword cloud.target.project.id: dashed_name: cloud-target-project-id description: 'The cloud project identifier. Examples: Google Cloud Project id, Azure Project id.' example: my-project flat_name: cloud.target.project.id ignore_above: 1024 level: extended name: project.id normalize: [] original_fieldset: cloud short: The cloud project id. type: keyword cloud.target.project.name: dashed_name: cloud-target-project-name description: 'The cloud project name. Examples: Google Cloud Project name, Azure Project name.' example: my project flat_name: cloud.target.project.name ignore_above: 1024 level: extended name: project.name normalize: [] original_fieldset: cloud short: The cloud project name. type: keyword cloud.target.provider: dashed_name: cloud-target-provider description: Name of the cloud provider. Example values are aws, azure, gcp, or digitalocean. example: aws flat_name: cloud.target.provider ignore_above: 1024 level: extended name: provider normalize: [] original_fieldset: cloud short: Name of the cloud provider. type: keyword cloud.target.region: dashed_name: cloud-target-region description: Region in which this host, resource, or service is located. example: us-east-1 flat_name: cloud.target.region ignore_above: 1024 level: extended name: region normalize: [] original_fieldset: cloud short: Region in which this host, resource, or service is located. type: keyword cloud.target.service.name: dashed_name: cloud-target-service-name description: 'The cloud service name is intended to distinguish services running on different platforms within a provider, eg AWS EC2 vs Lambda, GCP GCE vs App Engine, Azure VM vs App Server. Examples: app engine, app service, cloud run, fargate, lambda.' example: lambda flat_name: cloud.target.service.name ignore_above: 1024 level: extended name: service.name normalize: [] original_fieldset: cloud short: The cloud service name. type: keyword footnote: 'Examples: If Metricbeat is running on an EC2 host and fetches data from its host, the cloud info contains the data about this machine. If Metricbeat runs on a remote machine outside the cloud and fetches data from a service running in the cloud, the field contains cloud data from the machine the service is running on. The cloud fields may be self-nested under cloud.origin.* and cloud.target.* to describe origin or target service''s cloud information in the context of incoming or outgoing requests, respectively. However, the fieldsets cloud.origin.* and cloud.target.* must not be confused with the root cloud fieldset that is used to describe the cloud context of the actual service under observation. The fieldset cloud.origin.* may only be used in the context of incoming requests or events to provide the originating service''s cloud information. The fieldset cloud.target.* may only be used in the context of outgoing requests or events to describe the target service''s cloud information.' group: 2 name: cloud nestings: - cloud.origin - cloud.target prefix: cloud. reusable: expected: - as: origin at: cloud beta: Reusing the `cloud` fields in this location is currently considered beta. full: cloud.origin short_override: Provides the cloud information of the origin entity in case of an incoming request or event. - as: target at: cloud beta: Reusing the `cloud` fields in this location is currently considered beta. full: cloud.target short_override: Provides the cloud information of the target entity in case of an outgoing request or event. top_level: true reused_here: - beta: Reusing the `cloud` fields in this location is currently considered beta. full: cloud.origin schema_name: cloud short: Provides the cloud information of the origin entity in case of an incoming request or event. - beta: Reusing the `cloud` fields in this location is currently considered beta. full: cloud.target schema_name: cloud short: Provides the cloud information of the target entity in case of an outgoing request or event. short: Fields about the cloud resource. title: Cloud type: group code_signature: description: These fields contain information about binary code signatures. fields: code_signature.digest_algorithm: dashed_name: code-signature-digest-algorithm description: 'The hashing algorithm used to sign the process. This value can distinguish signatures when a file is signed multiple times by the same signer but with a different digest algorithm.' example: sha256 flat_name: code_signature.digest_algorithm ignore_above: 1024 level: extended name: digest_algorithm normalize: [] short: Hashing algorithm used to sign the process. type: keyword code_signature.exists: dashed_name: code-signature-exists description: Boolean to capture if a signature is present. example: 'true' flat_name: code_signature.exists level: core name: exists normalize: [] short: Boolean to capture if a signature is present. type: boolean code_signature.signing_id: dashed_name: code-signature-signing-id description: 'The identifier used to sign the process. This is used to identify the application manufactured by a software vendor. The field is relevant to Apple *OS only.' example: com.apple.xpc.proxy flat_name: code_signature.signing_id ignore_above: 1024 level: extended name: signing_id normalize: [] short: The identifier used to sign the process. type: keyword code_signature.status: dashed_name: code-signature-status description: 'Additional information about the certificate status. This is useful for logging cryptographic errors with the certificate validity or trust status. Leave unpopulated if the validity or trust of the certificate was unchecked.' example: ERROR_UNTRUSTED_ROOT flat_name: code_signature.status ignore_above: 1024 level: extended name: status normalize: [] short: Additional information about the certificate status. type: keyword code_signature.subject_name: dashed_name: code-signature-subject-name description: Subject name of the code signer example: Microsoft Corporation flat_name: code_signature.subject_name ignore_above: 1024 level: core name: subject_name normalize: [] short: Subject name of the code signer type: keyword code_signature.team_id: dashed_name: code-signature-team-id description: 'The team identifier used to sign the process. This is used to identify the team or vendor of a software product. The field is relevant to Apple *OS only.' example: EQHXZ8M8AV flat_name: code_signature.team_id ignore_above: 1024 level: extended name: team_id normalize: [] short: The team identifier used to sign the process. type: keyword code_signature.timestamp: dashed_name: code-signature-timestamp description: Date and time when the code signature was generated and signed. example: '2021-01-01T12:10:30Z' flat_name: code_signature.timestamp level: extended name: timestamp normalize: [] short: When the signature was generated and signed. type: date code_signature.trusted: dashed_name: code-signature-trusted description: 'Stores the trust status of the certificate chain. Validating the trust of the certificate chain may be complicated, and this field should only be populated by tools that actively check the status.' example: 'true' flat_name: code_signature.trusted level: extended name: trusted normalize: [] short: Stores the trust status of the certificate chain. type: boolean code_signature.valid: dashed_name: code-signature-valid description: 'Boolean to capture if the digital signature is verified against the binary content. Leave unpopulated if a certificate was unchecked.' example: 'true' flat_name: code_signature.valid level: extended name: valid normalize: [] short: Boolean to capture if the digital signature is verified against the binary content. type: boolean group: 2 name: code_signature prefix: code_signature. reusable: expected: - as: code_signature at: file full: file.code_signature - as: code_signature at: process full: process.code_signature - as: code_signature at: dll full: dll.code_signature top_level: false short: These fields contain information about binary code signatures. title: Code Signature type: group container: description: 'Container fields are used for meta information about the specific container that is the source of information. These fields help correlate data based containers from any runtime.' fields: container.cpu.usage: dashed_name: container-cpu-usage description: 'Percent CPU used which is normalized by the number of CPU cores and it ranges from 0 to 1. Scaling factor: 1000.' flat_name: container.cpu.usage level: extended name: cpu.usage normalize: [] scaling_factor: 1000 short: Percent CPU used, between 0 and 1. type: scaled_float container.disk.read.bytes: dashed_name: container-disk-read-bytes description: The total number of bytes (gauge) read successfully (aggregated from all disks) since the last metric collection. flat_name: container.disk.read.bytes level: extended name: disk.read.bytes normalize: [] short: The number of bytes read by all disks. type: long container.disk.write.bytes: dashed_name: container-disk-write-bytes description: The total number of bytes (gauge) written successfully (aggregated from all disks) since the last metric collection. flat_name: container.disk.write.bytes level: extended name: disk.write.bytes normalize: [] short: The number of bytes written on all disks. type: long container.id: dashed_name: container-id description: Unique container id. flat_name: container.id ignore_above: 1024 level: core name: id normalize: [] short: Unique container id. type: keyword container.image.hash.all: dashed_name: container-image-hash-all description: 'An array of digests of the image the container was built on. Each digest consists of the hash algorithm and value in this format: `algorithm:value`. Algorithm names should align with the field names in the ECS hash field set.' example: '[sha256:f8fefc80e3273dc756f288a63945820d6476ad64883892c771b5e2ece6bf1b26]' flat_name: container.image.hash.all ignore_above: 1024 level: extended name: image.hash.all normalize: - array short: An array of digests of the image the container was built on. type: keyword container.image.name: dashed_name: container-image-name description: Name of the image the container was built on. flat_name: container.image.name ignore_above: 1024 level: extended name: image.name normalize: [] short: Name of the image the container was built on. type: keyword container.image.tag: dashed_name: container-image-tag description: Container image tags. flat_name: container.image.tag ignore_above: 1024 level: extended name: image.tag normalize: - array short: Container image tags. type: keyword container.labels: dashed_name: container-labels description: Image labels. flat_name: container.labels level: extended name: labels normalize: [] object_type: keyword short: Image labels. type: object container.memory.usage: dashed_name: container-memory-usage description: 'Memory usage percentage and it ranges from 0 to 1. Scaling factor: 1000.' flat_name: container.memory.usage level: extended name: memory.usage normalize: [] scaling_factor: 1000 short: Percent memory used, between 0 and 1. type: scaled_float container.name: dashed_name: container-name description: Container name. flat_name: container.name ignore_above: 1024 level: extended name: name normalize: [] short: Container name. type: keyword container.network.egress.bytes: dashed_name: container-network-egress-bytes description: The number of bytes (gauge) sent out on all network interfaces by the container since the last metric collection. flat_name: container.network.egress.bytes level: extended name: network.egress.bytes normalize: [] short: The number of bytes sent on all network interfaces. type: long container.network.ingress.bytes: dashed_name: container-network-ingress-bytes description: The number of bytes received (gauge) on all network interfaces by the container since the last metric collection. flat_name: container.network.ingress.bytes level: extended name: network.ingress.bytes normalize: [] short: The number of bytes received on all network interfaces. type: long container.runtime: dashed_name: container-runtime description: Runtime managing this container. example: docker flat_name: container.runtime ignore_above: 1024 level: extended name: runtime normalize: [] short: Runtime managing this container. type: keyword group: 2 name: container prefix: container. short: Fields describing the container that generated this event. title: Container type: group data_stream: beta: These fields are in beta and are subject to change. description: 'The data_stream fields take part in defining the new data stream naming scheme. In the new data stream naming scheme the value of the data stream fields combine to the name of the actual data stream in the following manner: `{data_stream.type}-{data_stream.dataset}-{data_stream.namespace}`. This means the fields can only contain characters that are valid as part of names of data streams. More details about this can be found in this https://www.elastic.co/blog/an-introduction-to-the-elastic-data-stream-naming-scheme[blog post]. An Elasticsearch data stream consists of one or more backing indices, and a data stream name forms part of the backing indices names. Due to this convention, data streams must also follow index naming restrictions. For example, data stream names cannot include `\`, `/`, `*`, `?`, `"`, `<`, `>`, `|`, ` ` (space character), `,`, or `#`. Please see the Elasticsearch reference for additional https://www.elastic.co/guide/en/elasticsearch/reference/current/indices-create-index.html#indices-create-api-path-params[restrictions].' fields: data_stream.dataset: dashed_name: data-stream-dataset description: "The field can contain anything that makes sense to signify the\ \ source of the data.\nExamples include `nginx.access`, `prometheus`, `endpoint`\ \ etc. For data streams that otherwise fit, but that do not have dataset set\ \ we use the value \"generic\" for the dataset value. `event.dataset` should\ \ have the same value as `data_stream.dataset`.\nBeyond the Elasticsearch\ \ data stream naming criteria noted above, the `dataset` value has additional\ \ restrictions:\n * Must not contain `-`\n * No longer than 100 characters" example: nginx.access flat_name: data_stream.dataset level: extended name: dataset normalize: [] short: The field can contain anything that makes sense to signify the source of the data. type: constant_keyword data_stream.namespace: dashed_name: data-stream-namespace description: "A user defined namespace. Namespaces are useful to allow grouping\ \ of data.\nMany users already organize their indices this way, and the data\ \ stream naming scheme now provides this best practice as a default. Many\ \ users will populate this field with `default`. If no value is used, it falls\ \ back to `default`.\nBeyond the Elasticsearch index naming criteria noted\ \ above, `namespace` value has the additional restrictions:\n * Must not\ \ contain `-`\n * No longer than 100 characters" example: production flat_name: data_stream.namespace level: extended name: namespace normalize: [] short: A user defined namespace. Namespaces are useful to allow grouping of data. type: constant_keyword data_stream.type: dashed_name: data-stream-type description: 'An overarching type for the data stream. Currently allowed values are "logs" and "metrics". We expect to also add "traces" and "synthetics" in the near future.' example: logs flat_name: data_stream.type level: extended name: type normalize: [] short: An overarching type for the data stream. type: constant_keyword group: 2 name: data_stream prefix: data_stream. short: The data_stream fields take part in defining the new data stream naming scheme. title: Data Stream type: group destination: description: 'Destination fields capture details about the receiver of a network exchange/packet. These fields are populated from a network event, packet, or other event containing details of a network transaction. Destination fields are usually populated in conjunction with source fields. The source and destination fields are considered the baseline and should always be filled if an event contains source and destination details from a network transaction. If the event also contains identification of the client and server roles, then the client and server fields should also be populated.' fields: destination.address: dashed_name: destination-address description: 'Some event destination addresses are defined ambiguously. The event will sometimes list an IP, a domain or a unix socket. You should always store the raw address in the `.address` field. Then it should be duplicated to `.ip` or `.domain`, depending on which one it is.' flat_name: destination.address ignore_above: 1024 level: extended name: address normalize: [] short: Destination network address. type: keyword destination.as.number: dashed_name: destination-as-number description: Unique number allocated to the autonomous system. The autonomous system number (ASN) uniquely identifies each network on the Internet. example: 15169 flat_name: destination.as.number level: extended name: number normalize: [] original_fieldset: as short: Unique number allocated to the autonomous system. type: long destination.as.organization.name: dashed_name: destination-as-organization-name description: Organization name. example: Google LLC flat_name: destination.as.organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: destination.as.organization.name.text name: text type: match_only_text name: organization.name normalize: [] original_fieldset: as short: Organization name. type: keyword destination.bytes: dashed_name: destination-bytes description: Bytes sent from the destination to the source. example: 184 flat_name: destination.bytes format: bytes level: core name: bytes normalize: [] short: Bytes sent from the destination to the source. type: long destination.domain: dashed_name: destination-domain description: 'The domain name of the destination system. This value may be a host name, a fully qualified domain name, or another host naming format. The value may derive from the original event or be added from enrichment.' example: foo.example.com flat_name: destination.domain ignore_above: 1024 level: core name: domain normalize: [] short: The domain name of the destination. type: keyword destination.geo.city_name: dashed_name: destination-geo-city-name description: City name. example: Montreal flat_name: destination.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword destination.geo.continent_code: dashed_name: destination-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: destination.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword destination.geo.continent_name: dashed_name: destination-geo-continent-name description: Name of the continent. example: North America flat_name: destination.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword destination.geo.country_iso_code: dashed_name: destination-geo-country-iso-code description: Country ISO code. example: CA flat_name: destination.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword destination.geo.country_name: dashed_name: destination-geo-country-name description: Country name. example: Canada flat_name: destination.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword destination.geo.location: dashed_name: destination-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: destination.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point destination.geo.name: dashed_name: destination-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: destination.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword destination.geo.postal_code: dashed_name: destination-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: destination.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword destination.geo.region_iso_code: dashed_name: destination-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: destination.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword destination.geo.region_name: dashed_name: destination-geo-region-name description: Region name. example: Quebec flat_name: destination.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword destination.geo.timezone: dashed_name: destination-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: destination.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword destination.ip: dashed_name: destination-ip description: IP address of the destination (IPv4 or IPv6). flat_name: destination.ip level: core name: ip normalize: [] short: IP address of the destination. type: ip destination.mac: dashed_name: destination-mac description: 'MAC address of the destination. The notation format from RFC 7042 is suggested: Each octet (that is, 8-bit byte) is represented by two [uppercase] hexadecimal digits giving the value of the octet as an unsigned integer. Successive octets are separated by a hyphen.' example: 00-00-5E-00-53-23 flat_name: destination.mac ignore_above: 1024 level: core name: mac normalize: [] pattern: ^[A-F0-9]{2}(-[A-F0-9]{2}){5,}$ short: MAC address of the destination. type: keyword destination.nat.ip: dashed_name: destination-nat-ip description: 'Translated ip of destination based NAT sessions (e.g. internet to private DMZ) Typically used with load balancers, firewalls, or routers.' flat_name: destination.nat.ip level: extended name: nat.ip normalize: [] short: Destination NAT ip type: ip destination.nat.port: dashed_name: destination-nat-port description: 'Port the source session is translated to by NAT Device. Typically used with load balancers, firewalls, or routers.' flat_name: destination.nat.port format: string level: extended name: nat.port normalize: [] short: Destination NAT Port type: long destination.packets: dashed_name: destination-packets description: Packets sent from the destination to the source. example: 12 flat_name: destination.packets level: core name: packets normalize: [] short: Packets sent from the destination to the source. type: long destination.port: dashed_name: destination-port description: Port of the destination. flat_name: destination.port format: string level: core name: port normalize: [] short: Port of the destination. type: long destination.registered_domain: dashed_name: destination-registered-domain description: 'The highest registered destination domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: destination.registered_domain ignore_above: 1024 level: extended name: registered_domain normalize: [] short: The highest registered destination domain, stripped of the subdomain. type: keyword destination.subdomain: dashed_name: destination-subdomain description: 'The subdomain portion of a fully qualified domain name includes all of the names except the host name under the registered_domain. In a partially qualified domain, or if the the qualification level of the full name cannot be determined, subdomain contains all of the names below the registered domain. For example the subdomain portion of "www.east.mydomain.co.uk" is "east". If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: east flat_name: destination.subdomain ignore_above: 1024 level: extended name: subdomain normalize: [] short: The subdomain of the domain. type: keyword destination.top_level_domain: dashed_name: destination-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: destination.top_level_domain ignore_above: 1024 level: extended name: top_level_domain normalize: [] short: The effective top level domain (com, org, net, co.uk). type: keyword destination.user.domain: dashed_name: destination-user-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: destination.user.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: user short: Name of the directory the user is a member of. type: keyword destination.user.email: dashed_name: destination-user-email description: User email address. flat_name: destination.user.email ignore_above: 1024 level: extended name: email normalize: [] original_fieldset: user short: User email address. type: keyword destination.user.full_name: dashed_name: destination-user-full-name description: User's full name, if available. example: Albert Einstein flat_name: destination.user.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: destination.user.full_name.text name: text type: match_only_text name: full_name normalize: [] original_fieldset: user short: User's full name, if available. type: keyword destination.user.group.domain: dashed_name: destination-user-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: destination.user.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword destination.user.group.id: dashed_name: destination-user-group-id description: Unique identifier for the group on the system/platform. flat_name: destination.user.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword destination.user.group.name: dashed_name: destination-user-group-name description: Name of the group. flat_name: destination.user.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword destination.user.hash: dashed_name: destination-user-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: destination.user.hash ignore_above: 1024 level: extended name: hash normalize: [] original_fieldset: user short: Unique user hash to correlate information for a user in anonymized form. type: keyword destination.user.id: dashed_name: destination-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: destination.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword destination.user.name: dashed_name: destination-user-name description: Short name or login of the user. example: a.einstein flat_name: destination.user.name ignore_above: 1024 level: core multi_fields: - flat_name: destination.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword destination.user.roles: dashed_name: destination-user-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: destination.user.roles ignore_above: 1024 level: extended name: roles normalize: - array original_fieldset: user short: Array of user roles at the time of the event. type: keyword group: 2 name: destination nestings: - destination.as - destination.geo - destination.user prefix: destination. reused_here: - full: destination.as schema_name: as short: Fields describing an Autonomous System (Internet routing prefix). - full: destination.geo schema_name: geo short: Fields describing a location. - full: destination.user schema_name: user short: Fields to describe the user relevant to the event. short: Fields about the destination side of a network connection, used with source. title: Destination type: group device: beta: These fields are in beta and are subject to change. description: 'Fields that describe a device instance and its characteristics. Data collected for applications and processes running on a (mobile) device can be enriched with these fields to describe the identity, type and other characteristics of the device. This field group definition is based on the Device namespace of the OpenTelemetry Semantic Conventions (https://opentelemetry.io/docs/reference/specification/resource/semantic_conventions/device/).' fields: device.id: dashed_name: device-id description: "The unique identifier of a device. The identifier must not change\ \ across application sessions but stay fixex for an instance of a (mobile)\ \ device. \nOn iOS, this value must be equal to the vendor identifier (https://developer.apple.com/documentation/uikit/uidevice/1620059-identifierforvendor).\ \ On Android, this value must be equal to the Firebase Installation ID or\ \ a globally unique UUID which is persisted across sessions in your application.\n\ For GDPR and data protection law reasons this identifier should not carry\ \ information that would allow to identify a user." example: 00000000-54b3-e7c7-0000-000046bffd97 flat_name: device.id ignore_above: 1024 level: extended name: id normalize: [] short: The unique identifier of a device. type: keyword device.manufacturer: dashed_name: device-manufacturer description: The vendor name of the device manufacturer. example: Samsung flat_name: device.manufacturer ignore_above: 1024 level: extended name: manufacturer normalize: [] short: The vendor name of the device manufacturer. type: keyword device.model.identifier: dashed_name: device-model-identifier description: The machine readable identifier of the device model. example: SM-G920F flat_name: device.model.identifier ignore_above: 1024 level: extended name: model.identifier normalize: [] short: The machine readable identifier of the device model. type: keyword device.model.name: dashed_name: device-model-name description: The human readable marketing name of the device model. example: Samsung Galaxy S6 flat_name: device.model.name ignore_above: 1024 level: extended name: model.name normalize: [] short: The human readable marketing name of the device model. type: keyword group: 2 name: device prefix: device. short: Fields characterizing a (mobile) device a process or application is running on. title: Device type: group dll: description: 'These fields contain information about code libraries dynamically loaded into processes. Many operating systems refer to "shared code libraries" with different names, but this field set refers to all of the following: * Dynamic-link library (`.dll`) commonly used on Windows * Shared Object (`.so`) commonly used on Unix-like operating systems * Dynamic library (`.dylib`) commonly used on macOS' fields: dll.code_signature.digest_algorithm: dashed_name: dll-code-signature-digest-algorithm description: 'The hashing algorithm used to sign the process. This value can distinguish signatures when a file is signed multiple times by the same signer but with a different digest algorithm.' example: sha256 flat_name: dll.code_signature.digest_algorithm ignore_above: 1024 level: extended name: digest_algorithm normalize: [] original_fieldset: code_signature short: Hashing algorithm used to sign the process. type: keyword dll.code_signature.exists: dashed_name: dll-code-signature-exists description: Boolean to capture if a signature is present. example: 'true' flat_name: dll.code_signature.exists level: core name: exists normalize: [] original_fieldset: code_signature short: Boolean to capture if a signature is present. type: boolean dll.code_signature.signing_id: dashed_name: dll-code-signature-signing-id description: 'The identifier used to sign the process. This is used to identify the application manufactured by a software vendor. The field is relevant to Apple *OS only.' example: com.apple.xpc.proxy flat_name: dll.code_signature.signing_id ignore_above: 1024 level: extended name: signing_id normalize: [] original_fieldset: code_signature short: The identifier used to sign the process. type: keyword dll.code_signature.status: dashed_name: dll-code-signature-status description: 'Additional information about the certificate status. This is useful for logging cryptographic errors with the certificate validity or trust status. Leave unpopulated if the validity or trust of the certificate was unchecked.' example: ERROR_UNTRUSTED_ROOT flat_name: dll.code_signature.status ignore_above: 1024 level: extended name: status normalize: [] original_fieldset: code_signature short: Additional information about the certificate status. type: keyword dll.code_signature.subject_name: dashed_name: dll-code-signature-subject-name description: Subject name of the code signer example: Microsoft Corporation flat_name: dll.code_signature.subject_name ignore_above: 1024 level: core name: subject_name normalize: [] original_fieldset: code_signature short: Subject name of the code signer type: keyword dll.code_signature.team_id: dashed_name: dll-code-signature-team-id description: 'The team identifier used to sign the process. This is used to identify the team or vendor of a software product. The field is relevant to Apple *OS only.' example: EQHXZ8M8AV flat_name: dll.code_signature.team_id ignore_above: 1024 level: extended name: team_id normalize: [] original_fieldset: code_signature short: The team identifier used to sign the process. type: keyword dll.code_signature.timestamp: dashed_name: dll-code-signature-timestamp description: Date and time when the code signature was generated and signed. example: '2021-01-01T12:10:30Z' flat_name: dll.code_signature.timestamp level: extended name: timestamp normalize: [] original_fieldset: code_signature short: When the signature was generated and signed. type: date dll.code_signature.trusted: dashed_name: dll-code-signature-trusted description: 'Stores the trust status of the certificate chain. Validating the trust of the certificate chain may be complicated, and this field should only be populated by tools that actively check the status.' example: 'true' flat_name: dll.code_signature.trusted level: extended name: trusted normalize: [] original_fieldset: code_signature short: Stores the trust status of the certificate chain. type: boolean dll.code_signature.valid: dashed_name: dll-code-signature-valid description: 'Boolean to capture if the digital signature is verified against the binary content. Leave unpopulated if a certificate was unchecked.' example: 'true' flat_name: dll.code_signature.valid level: extended name: valid normalize: [] original_fieldset: code_signature short: Boolean to capture if the digital signature is verified against the binary content. type: boolean dll.hash.md5: dashed_name: dll-hash-md5 description: MD5 hash. flat_name: dll.hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] original_fieldset: hash short: MD5 hash. type: keyword dll.hash.sha1: dashed_name: dll-hash-sha1 description: SHA1 hash. flat_name: dll.hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] original_fieldset: hash short: SHA1 hash. type: keyword dll.hash.sha256: dashed_name: dll-hash-sha256 description: SHA256 hash. flat_name: dll.hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] original_fieldset: hash short: SHA256 hash. type: keyword dll.hash.sha384: dashed_name: dll-hash-sha384 description: SHA384 hash. flat_name: dll.hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] original_fieldset: hash short: SHA384 hash. type: keyword dll.hash.sha512: dashed_name: dll-hash-sha512 description: SHA512 hash. flat_name: dll.hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] original_fieldset: hash short: SHA512 hash. type: keyword dll.hash.ssdeep: dashed_name: dll-hash-ssdeep description: SSDEEP hash. flat_name: dll.hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] original_fieldset: hash short: SSDEEP hash. type: keyword dll.hash.tlsh: dashed_name: dll-hash-tlsh description: TLSH hash. flat_name: dll.hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] original_fieldset: hash short: TLSH hash. type: keyword dll.name: dashed_name: dll-name description: 'Name of the library. This generally maps to the name of the file on disk.' example: kernel32.dll flat_name: dll.name ignore_above: 1024 level: core name: name normalize: [] short: Name of the library. type: keyword dll.path: dashed_name: dll-path description: Full file path of the library. example: C:\Windows\System32\kernel32.dll flat_name: dll.path ignore_above: 1024 level: extended name: path normalize: [] short: Full file path of the library. type: keyword dll.pe.architecture: dashed_name: dll-pe-architecture description: CPU architecture target for the file. example: x64 flat_name: dll.pe.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: pe short: CPU architecture target for the file. type: keyword dll.pe.company: dashed_name: dll-pe-company description: Internal company name of the file, provided at compile-time. example: Microsoft Corporation flat_name: dll.pe.company ignore_above: 1024 level: extended name: company normalize: [] original_fieldset: pe short: Internal company name of the file, provided at compile-time. type: keyword dll.pe.description: dashed_name: dll-pe-description description: Internal description of the file, provided at compile-time. example: Paint flat_name: dll.pe.description ignore_above: 1024 level: extended name: description normalize: [] original_fieldset: pe short: Internal description of the file, provided at compile-time. type: keyword dll.pe.file_version: dashed_name: dll-pe-file-version description: Internal version of the file, provided at compile-time. example: 6.3.9600.17415 flat_name: dll.pe.file_version ignore_above: 1024 level: extended name: file_version normalize: [] original_fieldset: pe short: Process name. type: keyword dll.pe.imphash: dashed_name: dll-pe-imphash description: 'A hash of the imports in a PE file. An imphash -- or import hash -- can be used to fingerprint binaries even after recompilation or other code-level transformations have occurred, which would change more traditional hash values. Learn more at https://www.fireeye.com/blog/threat-research/2014/01/tracking-malware-import-hashing.html.' example: 0c6803c4e922103c4dca5963aad36ddf flat_name: dll.pe.imphash ignore_above: 1024 level: extended name: imphash normalize: [] original_fieldset: pe short: A hash of the imports in a PE file. type: keyword dll.pe.original_file_name: dashed_name: dll-pe-original-file-name description: Internal name of the file, provided at compile-time. example: MSPAINT.EXE flat_name: dll.pe.original_file_name ignore_above: 1024 level: extended name: original_file_name normalize: [] original_fieldset: pe short: Internal name of the file, provided at compile-time. type: keyword dll.pe.pehash: dashed_name: dll-pe-pehash description: 'A hash of the PE header and data from one or more PE sections. An pehash can be used to cluster files by transforming structural information about a file into a hash value. Learn more at https://www.usenix.org/legacy/events/leet09/tech/full_papers/wicherski/wicherski_html/index.html.' example: 73ff189b63cd6be375a7ff25179a38d347651975 flat_name: dll.pe.pehash ignore_above: 1024 level: extended name: pehash normalize: [] original_fieldset: pe short: A hash of the PE header and data from one or more PE sections. type: keyword dll.pe.product: dashed_name: dll-pe-product description: Internal product name of the file, provided at compile-time. example: "Microsoft\xAE Windows\xAE Operating System" flat_name: dll.pe.product ignore_above: 1024 level: extended name: product normalize: [] original_fieldset: pe short: Internal product name of the file, provided at compile-time. type: keyword group: 2 name: dll nestings: - dll.code_signature - dll.hash - dll.pe prefix: dll. reused_here: - full: dll.hash schema_name: hash short: Hashes, usually file hashes. - full: dll.pe schema_name: pe short: These fields contain Windows Portable Executable (PE) metadata. - full: dll.code_signature schema_name: code_signature short: These fields contain information about binary code signatures. short: These fields contain information about code libraries dynamically loaded into processes. title: DLL type: group dns: description: 'Fields describing DNS queries and answers. DNS events should either represent a single DNS query prior to getting answers (`dns.type:query`) or they should represent a full exchange and contain the query details as well as all of the answers that were provided for this query (`dns.type:answer`).' fields: dns.answers: dashed_name: dns-answers description: 'An array containing an object for each answer section returned by the server. The main keys that should be present in these objects are defined by ECS. Records that have more information may contain more keys than what ECS defines. Not all DNS data sources give all details about DNS answers. At minimum, answer objects must contain the `data` key. If more information is available, map as much of it to ECS as possible, and add any additional fields to the answer objects as custom fields.' flat_name: dns.answers level: extended name: answers normalize: - array short: Array of DNS answers. type: object dns.answers.class: dashed_name: dns-answers-class description: The class of DNS data contained in this resource record. example: IN flat_name: dns.answers.class ignore_above: 1024 level: extended name: answers.class normalize: [] short: The class of DNS data contained in this resource record. type: keyword dns.answers.data: dashed_name: dns-answers-data description: 'The data describing the resource. The meaning of this data depends on the type and class of the resource record.' example: 10.10.10.10 flat_name: dns.answers.data ignore_above: 1024 level: extended name: answers.data normalize: [] short: The data describing the resource. type: keyword dns.answers.name: dashed_name: dns-answers-name description: 'The domain name to which this resource record pertains. If a chain of CNAME is being resolved, each answer''s `name` should be the one that corresponds with the answer''s `data`. It should not simply be the original `question.name` repeated.' example: www.example.com flat_name: dns.answers.name ignore_above: 1024 level: extended name: answers.name normalize: [] short: The domain name to which this resource record pertains. type: keyword dns.answers.ttl: dashed_name: dns-answers-ttl description: The time interval in seconds that this resource record may be cached before it should be discarded. Zero values mean that the data should not be cached. example: 180 flat_name: dns.answers.ttl level: extended name: answers.ttl normalize: [] short: The time interval in seconds that this resource record may be cached before it should be discarded. type: long dns.answers.type: dashed_name: dns-answers-type description: The type of data contained in this resource record. example: CNAME flat_name: dns.answers.type ignore_above: 1024 level: extended name: answers.type normalize: [] short: The type of data contained in this resource record. type: keyword dns.header_flags: dashed_name: dns-header-flags description: Array of 2 letter DNS header flags. example: '["RD", "RA"]' expected_values: - AA - TC - RD - RA - AD - CD - DO flat_name: dns.header_flags ignore_above: 1024 level: extended name: header_flags normalize: - array short: Array of DNS header flags. type: keyword dns.id: dashed_name: dns-id description: The DNS packet identifier assigned by the program that generated the query. The identifier is copied to the response. example: 62111 flat_name: dns.id ignore_above: 1024 level: extended name: id normalize: [] short: The DNS packet identifier assigned by the program that generated the query. The identifier is copied to the response. type: keyword dns.op_code: dashed_name: dns-op-code description: The DNS operation code that specifies the kind of query in the message. This value is set by the originator of a query and copied into the response. example: QUERY flat_name: dns.op_code ignore_above: 1024 level: extended name: op_code normalize: [] short: The DNS operation code that specifies the kind of query in the message. type: keyword dns.question.class: dashed_name: dns-question-class description: The class of records being queried. example: IN flat_name: dns.question.class ignore_above: 1024 level: extended name: question.class normalize: [] short: The class of records being queried. type: keyword dns.question.name: dashed_name: dns-question-name description: 'The name being queried. If the name field contains non-printable characters (below 32 or above 126), those characters should be represented as escaped base 10 integers (\DDD). Back slashes and quotes should be escaped. Tabs, carriage returns, and line feeds should be converted to \t, \r, and \n respectively.' example: www.example.com flat_name: dns.question.name ignore_above: 1024 level: extended name: question.name normalize: [] short: The name being queried. type: keyword dns.question.registered_domain: dashed_name: dns-question-registered-domain description: 'The highest registered domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: dns.question.registered_domain ignore_above: 1024 level: extended name: question.registered_domain normalize: [] short: The highest registered domain, stripped of the subdomain. type: keyword dns.question.subdomain: dashed_name: dns-question-subdomain description: 'The subdomain is all of the labels under the registered_domain. If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: www flat_name: dns.question.subdomain ignore_above: 1024 level: extended name: question.subdomain normalize: [] short: The subdomain of the domain. type: keyword dns.question.top_level_domain: dashed_name: dns-question-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: dns.question.top_level_domain ignore_above: 1024 level: extended name: question.top_level_domain normalize: [] short: The effective top level domain (com, org, net, co.uk). type: keyword dns.question.type: dashed_name: dns-question-type description: The type of record being queried. example: AAAA flat_name: dns.question.type ignore_above: 1024 level: extended name: question.type normalize: [] short: The type of record being queried. type: keyword dns.resolved_ip: dashed_name: dns-resolved-ip description: 'Array containing all IPs seen in `answers.data`. The `answers` array can be difficult to use, because of the variety of data formats it can contain. Extracting all IP addresses seen in there to `dns.resolved_ip` makes it possible to index them as IP addresses, and makes them easier to visualize and query for.' example: '["10.10.10.10", "10.10.10.11"]' flat_name: dns.resolved_ip level: extended name: resolved_ip normalize: - array short: Array containing all IPs seen in answers.data type: ip dns.response_code: dashed_name: dns-response-code description: The DNS response code. example: NOERROR flat_name: dns.response_code ignore_above: 1024 level: extended name: response_code normalize: [] short: The DNS response code. type: keyword dns.type: dashed_name: dns-type description: 'The type of DNS event captured, query or answer. If your source of DNS events only gives you DNS queries, you should only create dns events of type `dns.type:query`. If your source of DNS events gives you answers as well, you should create one event per query (optionally as soon as the query is seen). And a second event containing all query details as well as an array of answers.' example: answer flat_name: dns.type ignore_above: 1024 level: extended name: type normalize: [] short: The type of DNS event captured, query or answer. type: keyword group: 2 name: dns prefix: dns. short: Fields describing DNS queries and answers. title: DNS type: group ecs: description: Meta-information specific to ECS. fields: ecs.version: dashed_name: ecs-version description: 'ECS version this event conforms to. `ecs.version` is a required field and must exist in all events. When querying across multiple indices -- which may conform to slightly different ECS versions -- this field lets integrations adjust to the schema version of the events.' example: 1.0.0 flat_name: ecs.version ignore_above: 1024 level: core name: version normalize: [] required: true short: ECS version this event conforms to. type: keyword group: 2 name: ecs prefix: ecs. short: Meta-information specific to ECS. title: ECS type: group elf: beta: These fields are in beta and are subject to change. description: These fields contain Linux Executable Linkable Format (ELF) metadata. fields: elf.architecture: dashed_name: elf-architecture description: Machine architecture of the ELF file. example: x86-64 flat_name: elf.architecture ignore_above: 1024 level: extended name: architecture normalize: [] short: Machine architecture of the ELF file. type: keyword elf.byte_order: dashed_name: elf-byte-order description: Byte sequence of ELF file. example: Little Endian flat_name: elf.byte_order ignore_above: 1024 level: extended name: byte_order normalize: [] short: Byte sequence of ELF file. type: keyword elf.cpu_type: dashed_name: elf-cpu-type description: CPU type of the ELF file. example: Intel flat_name: elf.cpu_type ignore_above: 1024 level: extended name: cpu_type normalize: [] short: CPU type of the ELF file. type: keyword elf.creation_date: dashed_name: elf-creation-date description: Extracted when possible from the file's metadata. Indicates when it was built or compiled. It can also be faked by malware creators. flat_name: elf.creation_date level: extended name: creation_date normalize: [] short: Build or compile date. type: date elf.exports: dashed_name: elf-exports description: List of exported element names and types. flat_name: elf.exports level: extended name: exports normalize: - array short: List of exported element names and types. type: flattened elf.header.abi_version: dashed_name: elf-header-abi-version description: Version of the ELF Application Binary Interface (ABI). flat_name: elf.header.abi_version ignore_above: 1024 level: extended name: header.abi_version normalize: [] short: Version of the ELF Application Binary Interface (ABI). type: keyword elf.header.class: dashed_name: elf-header-class description: Header class of the ELF file. flat_name: elf.header.class ignore_above: 1024 level: extended name: header.class normalize: [] short: Header class of the ELF file. type: keyword elf.header.data: dashed_name: elf-header-data description: Data table of the ELF header. flat_name: elf.header.data ignore_above: 1024 level: extended name: header.data normalize: [] short: Data table of the ELF header. type: keyword elf.header.entrypoint: dashed_name: elf-header-entrypoint description: Header entrypoint of the ELF file. flat_name: elf.header.entrypoint format: string level: extended name: header.entrypoint normalize: [] short: Header entrypoint of the ELF file. type: long elf.header.object_version: dashed_name: elf-header-object-version description: '"0x1" for original ELF files.' flat_name: elf.header.object_version ignore_above: 1024 level: extended name: header.object_version normalize: [] short: '"0x1" for original ELF files.' type: keyword elf.header.os_abi: dashed_name: elf-header-os-abi description: Application Binary Interface (ABI) of the Linux OS. flat_name: elf.header.os_abi ignore_above: 1024 level: extended name: header.os_abi normalize: [] short: Application Binary Interface (ABI) of the Linux OS. type: keyword elf.header.type: dashed_name: elf-header-type description: Header type of the ELF file. flat_name: elf.header.type ignore_above: 1024 level: extended name: header.type normalize: [] short: Header type of the ELF file. type: keyword elf.header.version: dashed_name: elf-header-version description: Version of the ELF header. flat_name: elf.header.version ignore_above: 1024 level: extended name: header.version normalize: [] short: Version of the ELF header. type: keyword elf.imports: dashed_name: elf-imports description: List of imported element names and types. flat_name: elf.imports level: extended name: imports normalize: - array short: List of imported element names and types. type: flattened elf.sections: dashed_name: elf-sections description: 'An array containing an object for each section of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.sections.*`.' flat_name: elf.sections level: extended name: sections normalize: - array short: Section information of the ELF file. type: nested elf.sections.chi2: dashed_name: elf-sections-chi2 description: Chi-square probability distribution of the section. flat_name: elf.sections.chi2 format: number level: extended name: sections.chi2 normalize: [] short: Chi-square probability distribution of the section. type: long elf.sections.entropy: dashed_name: elf-sections-entropy description: Shannon entropy calculation from the section. flat_name: elf.sections.entropy format: number level: extended name: sections.entropy normalize: [] short: Shannon entropy calculation from the section. type: long elf.sections.flags: dashed_name: elf-sections-flags description: ELF Section List flags. flat_name: elf.sections.flags ignore_above: 1024 level: extended name: sections.flags normalize: [] short: ELF Section List flags. type: keyword elf.sections.name: dashed_name: elf-sections-name description: ELF Section List name. flat_name: elf.sections.name ignore_above: 1024 level: extended name: sections.name normalize: [] short: ELF Section List name. type: keyword elf.sections.physical_offset: dashed_name: elf-sections-physical-offset description: ELF Section List offset. flat_name: elf.sections.physical_offset ignore_above: 1024 level: extended name: sections.physical_offset normalize: [] short: ELF Section List offset. type: keyword elf.sections.physical_size: dashed_name: elf-sections-physical-size description: ELF Section List physical size. flat_name: elf.sections.physical_size format: bytes level: extended name: sections.physical_size normalize: [] short: ELF Section List physical size. type: long elf.sections.type: dashed_name: elf-sections-type description: ELF Section List type. flat_name: elf.sections.type ignore_above: 1024 level: extended name: sections.type normalize: [] short: ELF Section List type. type: keyword elf.sections.virtual_address: dashed_name: elf-sections-virtual-address description: ELF Section List virtual address. flat_name: elf.sections.virtual_address format: string level: extended name: sections.virtual_address normalize: [] short: ELF Section List virtual address. type: long elf.sections.virtual_size: dashed_name: elf-sections-virtual-size description: ELF Section List virtual size. flat_name: elf.sections.virtual_size format: string level: extended name: sections.virtual_size normalize: [] short: ELF Section List virtual size. type: long elf.segments: dashed_name: elf-segments description: 'An array containing an object for each segment of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.segments.*`.' flat_name: elf.segments level: extended name: segments normalize: - array short: ELF object segment list. type: nested elf.segments.sections: dashed_name: elf-segments-sections description: ELF object segment sections. flat_name: elf.segments.sections ignore_above: 1024 level: extended name: segments.sections normalize: [] short: ELF object segment sections. type: keyword elf.segments.type: dashed_name: elf-segments-type description: ELF object segment type. flat_name: elf.segments.type ignore_above: 1024 level: extended name: segments.type normalize: [] short: ELF object segment type. type: keyword elf.shared_libraries: dashed_name: elf-shared-libraries description: List of shared libraries used by this ELF object. flat_name: elf.shared_libraries ignore_above: 1024 level: extended name: shared_libraries normalize: - array short: List of shared libraries used by this ELF object. type: keyword elf.telfhash: dashed_name: elf-telfhash description: telfhash symbol hash for ELF file. flat_name: elf.telfhash ignore_above: 1024 level: extended name: telfhash normalize: [] short: telfhash hash for ELF file. type: keyword group: 2 name: elf prefix: elf. reusable: expected: - as: elf at: file beta: This field reuse is beta and subject to change. full: file.elf - as: elf at: process beta: This field reuse is beta and subject to change. full: process.elf top_level: false short: These fields contain Linux Executable Linkable Format (ELF) metadata. title: ELF Header type: group email: description: 'Event details relating to an email transaction. This field set focuses on the email message header, body, and attachments. Network protocols that send and receive email messages such as SMTP are outside the scope of the `email.*` fields.' fields: email.attachments: dashed_name: email-attachments description: A list of objects describing the attachment files sent along with an email message. flat_name: email.attachments level: extended name: attachments normalize: - array short: List of objects describing the attachments. type: nested email.attachments.file.extension: dashed_name: email-attachments-file-extension description: Attachment file extension, excluding the leading dot. example: txt flat_name: email.attachments.file.extension ignore_above: 1024 level: extended name: attachments.file.extension normalize: [] short: Attachment file extension. type: keyword email.attachments.file.hash.md5: dashed_name: email-attachments-file-hash-md5 description: MD5 hash. flat_name: email.attachments.file.hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] original_fieldset: hash short: MD5 hash. type: keyword email.attachments.file.hash.sha1: dashed_name: email-attachments-file-hash-sha1 description: SHA1 hash. flat_name: email.attachments.file.hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] original_fieldset: hash short: SHA1 hash. type: keyword email.attachments.file.hash.sha256: dashed_name: email-attachments-file-hash-sha256 description: SHA256 hash. flat_name: email.attachments.file.hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] original_fieldset: hash short: SHA256 hash. type: keyword email.attachments.file.hash.sha384: dashed_name: email-attachments-file-hash-sha384 description: SHA384 hash. flat_name: email.attachments.file.hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] original_fieldset: hash short: SHA384 hash. type: keyword email.attachments.file.hash.sha512: dashed_name: email-attachments-file-hash-sha512 description: SHA512 hash. flat_name: email.attachments.file.hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] original_fieldset: hash short: SHA512 hash. type: keyword email.attachments.file.hash.ssdeep: dashed_name: email-attachments-file-hash-ssdeep description: SSDEEP hash. flat_name: email.attachments.file.hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] original_fieldset: hash short: SSDEEP hash. type: keyword email.attachments.file.hash.tlsh: dashed_name: email-attachments-file-hash-tlsh description: TLSH hash. flat_name: email.attachments.file.hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] original_fieldset: hash short: TLSH hash. type: keyword email.attachments.file.mime_type: dashed_name: email-attachments-file-mime-type description: 'The MIME media type of the attachment. This value will typically be extracted from the `Content-Type` MIME header field.' example: text/plain flat_name: email.attachments.file.mime_type ignore_above: 1024 level: extended name: attachments.file.mime_type normalize: [] short: MIME type of the attachment file. type: keyword email.attachments.file.name: dashed_name: email-attachments-file-name description: Name of the attachment file including the file extension. example: attachment.txt flat_name: email.attachments.file.name ignore_above: 1024 level: extended name: attachments.file.name normalize: [] short: Name of the attachment file. type: keyword email.attachments.file.size: dashed_name: email-attachments-file-size description: Attachment file size in bytes. example: 64329 flat_name: email.attachments.file.size level: extended name: attachments.file.size normalize: [] short: Attachment file size. type: long email.bcc.address: dashed_name: email-bcc-address description: The email address of BCC recipient example: bcc.user1@example.com flat_name: email.bcc.address ignore_above: 1024 level: extended name: bcc.address normalize: - array short: Email address of BCC recipient type: keyword email.cc.address: dashed_name: email-cc-address description: The email address of CC recipient example: cc.user1@example.com flat_name: email.cc.address ignore_above: 1024 level: extended name: cc.address normalize: - array short: Email address of CC recipient type: keyword email.content_type: dashed_name: email-content-type description: 'Information about how the message is to be displayed. Typically a MIME type.' example: text/plain flat_name: email.content_type ignore_above: 1024 level: extended name: content_type normalize: [] short: MIME type of the email message. type: keyword email.delivery_timestamp: dashed_name: email-delivery-timestamp description: The date and time when the email message was received by the service or client. example: '2020-11-10T22:12:34.8196921Z' flat_name: email.delivery_timestamp level: extended name: delivery_timestamp normalize: [] short: Date and time when message was delivered. type: date email.direction: dashed_name: email-direction description: The direction of the message based on the sending and receiving domains. example: inbound flat_name: email.direction ignore_above: 1024 level: extended name: direction normalize: [] short: Direction of the message. type: keyword email.from.address: dashed_name: email-from-address description: The email address of the sender, typically from the RFC 5322 `From:` header field. example: sender@example.com flat_name: email.from.address ignore_above: 1024 level: extended name: from.address normalize: - array short: The sender's email address. type: keyword email.local_id: dashed_name: email-local-id description: 'Unique identifier given to the email by the source that created the event. Identifier is not persistent across hops.' example: c26dbea0-80d5-463b-b93c-4e8b708219ce flat_name: email.local_id ignore_above: 1024 level: extended name: local_id normalize: [] short: Unique identifier given by the source. type: keyword email.message_id: dashed_name: email-message-id description: Identifier from the RFC 5322 `Message-ID:` email header that refers to a particular email message. example: 81ce15$8r2j59@mail01.example.com flat_name: email.message_id level: extended name: message_id normalize: [] short: Value from the Message-ID header. type: wildcard email.origination_timestamp: dashed_name: email-origination-timestamp description: The date and time the email message was composed. Many email clients will fill in this value automatically when the message is sent by a user. example: '2020-11-10T22:12:34.8196921Z' flat_name: email.origination_timestamp level: extended name: origination_timestamp normalize: [] short: Date and time the email was composed. type: date email.reply_to.address: dashed_name: email-reply-to-address description: The address that replies should be delivered to based on the value in the RFC 5322 `Reply-To:` header. example: reply.here@example.com flat_name: email.reply_to.address ignore_above: 1024 level: extended name: reply_to.address normalize: - array short: Address replies should be delivered to. type: keyword email.sender.address: dashed_name: email-sender-address description: Per RFC 5322, specifies the address responsible for the actual transmission of the message. flat_name: email.sender.address ignore_above: 1024 level: extended name: sender.address normalize: [] short: Address of the message sender. type: keyword email.subject: dashed_name: email-subject description: A brief summary of the topic of the message. example: Please see this important message. flat_name: email.subject ignore_above: 1024 level: extended multi_fields: - flat_name: email.subject.text name: text type: match_only_text name: subject normalize: [] short: The subject of the email message. type: keyword email.to.address: dashed_name: email-to-address description: The email address of recipient example: user1@example.com flat_name: email.to.address ignore_above: 1024 level: extended name: to.address normalize: - array short: Email address of recipient type: keyword email.x_mailer: dashed_name: email-x-mailer description: The name of the application that was used to draft and send the original email message. example: Spambot v2.5 flat_name: email.x_mailer ignore_above: 1024 level: extended name: x_mailer normalize: [] short: Application that drafted email. type: keyword group: 2 name: email nestings: - email.attachments.file.hash prefix: email. reused_here: - full: email.attachments.file.hash schema_name: hash short: Hashes, usually file hashes. short: Describes an email transaction. title: Email type: group error: description: 'These fields can represent errors of any kind. Use them for errors that happen while fetching events or in cases where the event itself contains an error.' fields: error.code: dashed_name: error-code description: Error code describing the error. flat_name: error.code ignore_above: 1024 level: core name: code normalize: [] short: Error code describing the error. type: keyword error.id: dashed_name: error-id description: Unique identifier for the error. flat_name: error.id ignore_above: 1024 level: core name: id normalize: [] short: Unique identifier for the error. type: keyword error.message: dashed_name: error-message description: Error message. flat_name: error.message level: core name: message normalize: [] short: Error message. type: match_only_text error.stack_trace: dashed_name: error-stack-trace description: The stack trace of this error in plain text. flat_name: error.stack_trace level: extended multi_fields: - flat_name: error.stack_trace.text name: text type: match_only_text name: stack_trace normalize: [] short: The stack trace of this error in plain text. type: wildcard error.type: dashed_name: error-type description: The type of the error, for example the class name of the exception. example: java.lang.NullPointerException flat_name: error.type ignore_above: 1024 level: extended name: type normalize: [] short: The type of the error, for example the class name of the exception. type: keyword group: 2 name: error prefix: error. short: Fields about errors of any kind. title: Error type: group event: description: 'The event fields are used for context information about the log or metric event itself. A log is defined as an event containing details of something that happened. Log events must include the time at which the thing happened. Examples of log events include a process starting on a host, a network packet being sent from a source to a destination, or a network connection between a client and a server being initiated or closed. A metric is defined as an event containing one or more numerical measurements and the time at which the measurement was taken. Examples of metric events include memory pressure measured on a host and device temperature. See the `event.kind` definition in this section for additional details about metric and state events.' fields: event.action: dashed_name: event-action description: 'The action captured by the event. This describes the information in the event. It is more specific than `event.category`. Examples are `group-add`, `process-started`, `file-created`. The value is normally defined by the implementer.' example: user-password-change flat_name: event.action ignore_above: 1024 level: core name: action normalize: [] short: The action captured by the event. type: keyword event.agent_id_status: dashed_name: event-agent-id-status description: 'Agents are normally responsible for populating the `agent.id` field value. If the system receiving events is capable of validating the value based on authentication information for the client then this field can be used to reflect the outcome of that validation. For example if the agent''s connection is authenticated with mTLS and the client cert contains the ID of the agent to which the cert was issued then the `agent.id` value in events can be checked against the certificate. If the values match then `event.agent_id_status: verified` is added to the event, otherwise one of the other allowed values should be used. If no validation is performed then the field should be omitted. The allowed values are: `verified` - The `agent.id` field value matches expected value obtained from auth metadata. `mismatch` - The `agent.id` field value does not match the expected value obtained from auth metadata. `missing` - There was no `agent.id` field in the event to validate. `auth_metadata_missing` - There was no auth metadata or it was missing information about the agent ID.' example: verified flat_name: event.agent_id_status ignore_above: 1024 level: extended name: agent_id_status normalize: [] short: Validation status of the event's agent.id field. type: keyword event.category: allowed_values: - description: Events in this category are related to the challenge and response process in which credentials are supplied and verified to allow the creation of a session. Common sources for these logs are Windows event logs and ssh logs. Visualize and analyze events in this category to look for failed logins, and other authentication-related activity. expected_event_types: - start - end - info name: authentication - description: 'Events in the configuration category have to deal with creating, modifying, or deleting the settings or parameters of an application, process, or system. Example sources include security policy change logs, configuration auditing logging, and system integrity monitoring.' expected_event_types: - access - change - creation - deletion - info name: configuration - description: The database category denotes events and metrics relating to a data storage and retrieval system. Note that use of this category is not limited to relational database systems. Examples include event logs from MS SQL, MySQL, Elasticsearch, MongoDB, etc. Use this category to visualize and analyze database activity such as accesses and changes. expected_event_types: - access - change - info - error name: database - description: 'Events in the driver category have to do with operating system device drivers and similar software entities such as Windows drivers, kernel extensions, kernel modules, etc. Use events and metrics in this category to visualize and analyze driver-related activity and status on hosts.' expected_event_types: - change - end - info - start name: driver - description: 'This category is used for events relating to email messages, email attachments, and email network or protocol activity. Emails events can be produced by email security gateways, mail transfer agents, email cloud service providers, or mail server monitoring applications.' expected_event_types: - info name: email - description: Relating to a set of information that has been created on, or has existed on a filesystem. Use this category of events to visualize and analyze the creation, access, and deletions of files. Events in this category can come from both host-based and network-based sources. An example source of a network-based detection of a file transfer would be the Zeek file.log. expected_event_types: - change - creation - deletion - info name: file - description: 'Use this category to visualize and analyze information such as host inventory or host lifecycle events. Most of the events in this category can usually be observed from the outside, such as from a hypervisor or a control plane''s point of view. Some can also be seen from within, such as "start" or "end". Note that this category is for information about hosts themselves; it is not meant to capture activity "happening on a host".' expected_event_types: - access - change - end - info - start name: host - description: Identity and access management (IAM) events relating to users, groups, and administration. Use this category to visualize and analyze IAM-related logs and data from active directory, LDAP, Okta, Duo, and other IAM systems. expected_event_types: - admin - change - creation - deletion - group - info - user name: iam - description: Relating to intrusion detections from IDS/IPS systems and functions, both network and host-based. Use this category to visualize and analyze intrusion detection alerts from systems such as Snort, Suricata, and Palo Alto threat detections. expected_event_types: - allowed - denied - info name: intrusion_detection - description: Malware detection events and alerts. Use this category to visualize and analyze malware detections from EDR/EPP systems such as Elastic Endpoint Security, Symantec Endpoint Protection, Crowdstrike, and network IDS/IPS systems such as Suricata, or other sources of malware-related events such as Palo Alto Networks threat logs and Wildfire logs. expected_event_types: - info name: malware - description: Relating to all network activity, including network connection lifecycle, network traffic, and essentially any event that includes an IP address. Many events containing decoded network protocol transactions fit into this category. Use events in this category to visualize or analyze counts of network ports, protocols, addresses, geolocation information, etc. expected_event_types: - access - allowed - connection - denied - end - info - protocol - start name: network - description: Relating to software packages installed on hosts. Use this category to visualize and analyze inventory of software installed on various hosts, or to determine host vulnerability in the absence of vulnerability scan data. expected_event_types: - access - change - deletion - info - installation - start name: package - description: Use this category of events to visualize and analyze process-specific information such as lifecycle events or process ancestry. expected_event_types: - access - change - end - info - start name: process - description: Having to do with settings and assets stored in the Windows registry. Use this category to visualize and analyze activity such as registry access and modifications. expected_event_types: - access - change - creation - deletion name: registry - description: The session category is applied to events and metrics regarding logical persistent connections to hosts and services. Use this category to visualize and analyze interactive or automated persistent connections between assets. Data for this category may come from Windows Event logs, SSH logs, or stateless sessions such as HTTP cookie-based sessions, etc. expected_event_types: - start - end - info name: session - description: Use this category to visualize and analyze events describing threat actors' targets, motives, or behaviors. expected_event_types: - indicator name: threat - description: Relating to vulnerability scan results. Use this category to analyze vulnerabilities detected by Tenable, Qualys, internal scanners, and other vulnerability management sources. expected_event_types: - info name: vulnerability - description: 'Relating to web server access. Use this category to create a dashboard of web server/proxy activity from apache, IIS, nginx web servers, etc. Note: events from network observers such as Zeek http log may also be included in this category.' expected_event_types: - access - error - info name: web dashed_name: event-category description: 'This is one of four ECS Categorization Fields, and indicates the second level in the ECS category hierarchy. `event.category` represents the "big buckets" of ECS categories. For example, filtering on `event.category:process` yields all events relating to process activity. This field is closely related to `event.type`, which is used as a subcategory. This field is an array. This will allow proper categorization of some events that fall in multiple categories.' example: authentication flat_name: event.category ignore_above: 1024 level: core name: category normalize: - array short: Event category. The second categorization field in the hierarchy. type: keyword event.code: dashed_name: event-code description: 'Identification code for this event, if one exists. Some event sources use event codes to identify messages unambiguously, regardless of message language or wording adjustments over time. An example of this is the Windows Event ID.' example: 4648 flat_name: event.code ignore_above: 1024 level: extended name: code normalize: [] short: Identification code for this event. type: keyword event.created: dashed_name: event-created description: 'event.created contains the date/time when the event was first read by an agent, or by your pipeline. This field is distinct from @timestamp in that @timestamp typically contain the time extracted from the original event. In most situations, these two timestamps will be slightly different. The difference can be used to calculate the delay between your source generating an event, and the time when your agent first processed it. This can be used to monitor your agent''s or pipeline''s ability to keep up with your event source. In case the two timestamps are identical, @timestamp should be used.' example: '2016-05-23T08:05:34.857Z' flat_name: event.created level: core name: created normalize: [] short: Time when the event was first read by an agent or by your pipeline. type: date event.dataset: dashed_name: event-dataset description: 'Name of the dataset. If an event source publishes more than one type of log or events (e.g. access log, error log), the dataset is used to specify which one the event comes from. It''s recommended but not required to start the dataset name with the module name, followed by a dot, then the dataset name.' example: apache.access flat_name: event.dataset ignore_above: 1024 level: core name: dataset normalize: [] short: Name of the dataset. type: keyword event.duration: dashed_name: event-duration description: 'Duration of the event in nanoseconds. If event.start and event.end are known this value should be the difference between the end and start time.' flat_name: event.duration format: duration input_format: nanoseconds level: core name: duration normalize: [] output_format: asMilliseconds output_precision: 1 short: Duration of the event in nanoseconds. type: long event.end: dashed_name: event-end description: event.end contains the date when the event ended or when the activity was last observed. flat_name: event.end level: extended name: end normalize: [] short: event.end contains the date when the event ended or when the activity was last observed. type: date event.hash: dashed_name: event-hash description: Hash (perhaps logstash fingerprint) of raw field to be able to demonstrate log integrity. example: 123456789012345678901234567890ABCD flat_name: event.hash ignore_above: 1024 level: extended name: hash normalize: [] short: Hash (perhaps logstash fingerprint) of raw field to be able to demonstrate log integrity. type: keyword event.id: dashed_name: event-id description: Unique ID to describe the event. example: 8a4f500d flat_name: event.id ignore_above: 1024 level: core name: id normalize: [] short: Unique ID to describe the event. type: keyword event.ingested: dashed_name: event-ingested description: 'Timestamp when an event arrived in the central data store. This is different from `@timestamp`, which is when the event originally occurred. It''s also different from `event.created`, which is meant to capture the first time an agent saw the event. In normal conditions, assuming no tampering, the timestamps should chronologically look like this: `@timestamp` < `event.created` < `event.ingested`.' example: '2016-05-23T08:05:35.101Z' flat_name: event.ingested level: core name: ingested normalize: [] short: Timestamp when an event arrived in the central data store. type: date event.kind: allowed_values: - description: 'This value indicates an event such as an alert or notable event, triggered by a detection rule executing externally to the Elastic Stack. `event.kind:alert` is often populated for events coming from firewalls, intrusion detection systems, endpoint detection and response systems, and so on. This value is not used by Elastic solutions for alert documents that are created by rules executing within the Kibana alerting framework.' name: alert - description: 'The `enrichment` value indicates an event collected to provide additional context, often to other events. An example is collecting indicators of compromise (IOCs) from a threat intelligence provider with the intent to use those values to enrich other events. The IOC events from the intelligence provider should be categorized as `event.kind:enrichment`.' name: enrichment - description: This value is the most general and most common value for this field. It is used to represent events that indicate that something happened. name: event - description: 'This value is used to indicate that this event describes a numeric measurement taken at given point in time. Examples include CPU utilization, memory usage, or device temperature. Metric events are often collected on a predictable frequency, such as once every few seconds, or once a minute, but can also be used to describe ad-hoc numeric metric queries.' name: metric - description: 'The state value is similar to metric, indicating that this event describes a measurement taken at given point in time, except that the measurement does not result in a numeric value, but rather one of a fixed set of categorical values that represent conditions or states. Examples include periodic events reporting Elasticsearch cluster state (green/yellow/red), the state of a TCP connection (open, closed, fin_wait, etc.), the state of a host with respect to a software vulnerability (vulnerable, not vulnerable), and the state of a system regarding compliance with a regulatory standard (compliant, not compliant). Note that an event that describes a change of state would not use `event.kind:state`, but instead would use ''event.kind:event'' since a state change fits the more general event definition of something that happened. State events are often collected on a predictable frequency, such as once every few seconds, once a minute, once an hour, or once a day, but can also be used to describe ad-hoc state queries.' name: state - description: This value indicates that an error occurred during the ingestion of this event, and that event data may be missing, inconsistent, or incorrect. `event.kind:pipeline_error` is often associated with parsing errors. name: pipeline_error - description: 'This value is used by Elastic solutions (e.g., Security, Observability) for alert documents that are created by rules executing within the Kibana alerting framework. Usage of this value is reserved, and data ingestion pipelines must not populate `event.kind` with the value "signal".' name: signal dashed_name: event-kind description: 'This is one of four ECS Categorization Fields, and indicates the highest level in the ECS category hierarchy. `event.kind` gives high-level information about what type of information the event contains, without being specific to the contents of the event. For example, values of this field distinguish alert events from metric events. The value of this field can be used to inform how these kinds of events should be handled. They may warrant different retention, different access control, it may also help understand whether the data coming in at a regular interval or not.' example: alert flat_name: event.kind ignore_above: 1024 level: core name: kind normalize: [] short: The kind of the event. The highest categorization field in the hierarchy. type: keyword event.module: dashed_name: event-module description: 'Name of the module this data is coming from. If your monitoring agent supports the concept of modules or plugins to process events of a given source (e.g. Apache logs), `event.module` should contain the name of this module.' example: apache flat_name: event.module ignore_above: 1024 level: core name: module normalize: [] short: Name of the module this data is coming from. type: keyword event.original: dashed_name: event-original description: 'Raw text message of entire event. Used to demonstrate log integrity or where the full log message (before splitting it up in multiple parts) may be required, e.g. for reindex. This field is not indexed and doc_values are disabled. It cannot be searched, but it can be retrieved from `_source`. If users wish to override this and index this field, please see `Field data types` in the `Elasticsearch Reference`.' doc_values: false example: Sep 19 08:26:10 host CEF:0|Security| threatmanager|1.0|100| worm successfully stopped|10|src=10.0.0.1 dst=2.1.2.2spt=1232 flat_name: event.original index: false level: core name: original normalize: [] short: Raw text message of entire event. type: keyword event.outcome: allowed_values: - description: Indicates that this event describes a failed result. A common example is `event.category:file AND event.type:access AND event.outcome:failure` to indicate that a file access was attempted, but was not successful. name: failure - description: Indicates that this event describes a successful result. A common example is `event.category:file AND event.type:create AND event.outcome:success` to indicate that a file was successfully created. name: success - description: Indicates that this event describes only an attempt for which the result is unknown from the perspective of the event producer. For example, if the event contains information only about the request side of a transaction that results in a response, populating `event.outcome:unknown` in the request event is appropriate. The unknown value should not be used when an outcome doesn't make logical sense for the event. In such cases `event.outcome` should not be populated. name: unknown dashed_name: event-outcome description: 'This is one of four ECS Categorization Fields, and indicates the lowest level in the ECS category hierarchy. `event.outcome` simply denotes whether the event represents a success or a failure from the perspective of the entity that produced the event. Note that when a single transaction is described in multiple events, each event may populate different values of `event.outcome`, according to their perspective. Also note that in the case of a compound event (a single event that contains multiple logical events), this field should be populated with the value that best captures the overall success or failure from the perspective of the event producer. Further note that not all events will have an associated outcome. For example, this field is generally not populated for metric events, events with `event.type:info`, or any events for which an outcome does not make logical sense.' example: success flat_name: event.outcome ignore_above: 1024 level: core name: outcome normalize: [] short: The outcome of the event. The lowest level categorization field in the hierarchy. type: keyword event.provider: dashed_name: event-provider description: 'Source of the event. Event transports such as Syslog or the Windows Event Log typically mention the source of an event. It can be the name of the software that generated the event (e.g. Sysmon, httpd), or of a subsystem of the operating system (kernel, Microsoft-Windows-Security-Auditing).' example: kernel flat_name: event.provider ignore_above: 1024 level: extended name: provider normalize: [] short: Source of the event. type: keyword event.reason: dashed_name: event-reason description: 'Reason why this event happened, according to the source. This describes the why of a particular action or outcome captured in the event. Where `event.action` captures the action from the event, `event.reason` describes why that action was taken. For example, a web proxy with an `event.action` which denied the request may also populate `event.reason` with the reason why (e.g. `blocked site`).' example: Terminated an unexpected process flat_name: event.reason ignore_above: 1024 level: extended name: reason normalize: [] short: Reason why this event happened, according to the source type: keyword event.reference: dashed_name: event-reference description: 'Reference URL linking to additional information about this event. This URL links to a static definition of this event. Alert events, indicated by `event.kind:alert`, are a common use case for this field.' example: https://system.example.com/event/#0001234 flat_name: event.reference ignore_above: 1024 level: extended name: reference normalize: [] short: Event reference URL type: keyword event.risk_score: dashed_name: event-risk-score description: Risk score or priority of the event (e.g. security solutions). Use your system's original value here. flat_name: event.risk_score level: core name: risk_score normalize: [] short: Risk score or priority of the event (e.g. security solutions). Use your system's original value here. type: float event.risk_score_norm: dashed_name: event-risk-score-norm description: 'Normalized risk score or priority of the event, on a scale of 0 to 100. This is mainly useful if you use more than one system that assigns risk scores, and you want to see a normalized value across all systems.' flat_name: event.risk_score_norm level: extended name: risk_score_norm normalize: [] short: Normalized risk score or priority of the event (0-100). type: float event.sequence: dashed_name: event-sequence description: 'Sequence number of the event. The sequence number is a value published by some event sources, to make the exact ordering of events unambiguous, regardless of the timestamp precision.' flat_name: event.sequence format: string level: extended name: sequence normalize: [] short: Sequence number of the event. type: long event.severity: dashed_name: event-severity description: 'The numeric severity of the event according to your event source. What the different severity values mean can be different between sources and use cases. It''s up to the implementer to make sure severities are consistent across events from the same source. The Syslog severity belongs in `log.syslog.severity.code`. `event.severity` is meant to represent the severity according to the event source (e.g. firewall, IDS). If the event source does not publish its own severity, you may optionally copy the `log.syslog.severity.code` to `event.severity`.' example: 7 flat_name: event.severity format: string level: core name: severity normalize: [] short: Numeric severity of the event. type: long event.start: dashed_name: event-start description: event.start contains the date when the event started or when the activity was first observed. flat_name: event.start level: extended name: start normalize: [] short: event.start contains the date when the event started or when the activity was first observed. type: date event.timezone: dashed_name: event-timezone description: 'This field should be populated when the event''s timestamp does not include timezone information already (e.g. default Syslog timestamps). It''s optional otherwise. Acceptable timezone formats are: a canonical ID (e.g. "Europe/Amsterdam"), abbreviated (e.g. "EST") or an HH:mm differential (e.g. "-05:00").' flat_name: event.timezone ignore_above: 1024 level: extended name: timezone normalize: [] short: Event time zone. type: keyword event.type: allowed_values: - description: The access event type is used for the subset of events within a category that indicate that something was accessed. Common examples include `event.category:database AND event.type:access`, or `event.category:file AND event.type:access`. Note for file access, both directory listings and file opens should be included in this subcategory. You can further distinguish access operations using the ECS `event.action` field. name: access - description: 'The admin event type is used for the subset of events within a category that are related to admin objects. For example, administrative changes within an IAM framework that do not specifically affect a user or group (e.g., adding new applications to a federation solution or connecting discrete forests in Active Directory) would fall into this subcategory. Common example: `event.category:iam AND event.type:change AND event.type:admin`. You can further distinguish admin operations using the ECS `event.action` field.' name: admin - description: The allowed event type is used for the subset of events within a category that indicate that something was allowed. Common examples include `event.category:network AND event.type:connection AND event.type:allowed` (to indicate a network firewall event for which the firewall disposition was to allow the connection to complete) and `event.category:intrusion_detection AND event.type:allowed` (to indicate a network intrusion prevention system event for which the IPS disposition was to allow the connection to complete). You can further distinguish allowed operations using the ECS `event.action` field, populating with values of your choosing, such as "allow", "detect", or "pass". name: allowed - description: The change event type is used for the subset of events within a category that indicate that something has changed. If semantics best describe an event as modified, then include them in this subcategory. Common examples include `event.category:process AND event.type:change`, and `event.category:file AND event.type:change`. You can further distinguish change operations using the ECS `event.action` field. name: change - description: Used primarily with `event.category:network` this value is used for the subset of network traffic that includes sufficient information for the event to be included in flow or connection analysis. Events in this subcategory will contain at least source and destination IP addresses, source and destination TCP/UDP ports, and will usually contain counts of bytes and/or packets transferred. Events in this subcategory may contain unidirectional or bidirectional information, including summary information. Use this subcategory to visualize and analyze network connections. Flow analysis, including Netflow, IPFIX, and other flow-related events fit in this subcategory. Note that firewall events from many Next-Generation Firewall (NGFW) devices will also fit into this subcategory. A common filter for flow/connection information would be `event.category:network AND event.type:connection AND event.type:end` (to view or analyze all completed network connections, ignoring mid-flow reports). You can further distinguish connection events using the ECS `event.action` field, populating with values of your choosing, such as "timeout", or "reset". name: connection - description: The "creation" event type is used for the subset of events within a category that indicate that something was created. A common example is `event.category:file AND event.type:creation`. name: creation - description: The deletion event type is used for the subset of events within a category that indicate that something was deleted. A common example is `event.category:file AND event.type:deletion` to indicate that a file has been deleted. name: deletion - description: The denied event type is used for the subset of events within a category that indicate that something was denied. Common examples include `event.category:network AND event.type:denied` (to indicate a network firewall event for which the firewall disposition was to deny the connection) and `event.category:intrusion_detection AND event.type:denied` (to indicate a network intrusion prevention system event for which the IPS disposition was to deny the connection to complete). You can further distinguish denied operations using the ECS `event.action` field, populating with values of your choosing, such as "blocked", "dropped", or "quarantined". name: denied - description: The end event type is used for the subset of events within a category that indicate something has ended. A common example is `event.category:process AND event.type:end`. name: end - description: The error event type is used for the subset of events within a category that indicate or describe an error. A common example is `event.category:database AND event.type:error`. Note that pipeline errors that occur during the event ingestion process should not use this `event.type` value. Instead, they should use `event.kind:pipeline_error`. name: error - description: 'The group event type is used for the subset of events within a category that are related to group objects. Common example: `event.category:iam AND event.type:creation AND event.type:group`. You can further distinguish group operations using the ECS `event.action` field.' name: group - description: 'The indicator event type is used for the subset of events within a category that contain details about indicators of compromise (IOCs). A common example is `event.category:threat AND event.type:indicator`.' name: indicator - description: The info event type is used for the subset of events within a category that indicate that they are purely informational, and don't report a state change, or any type of action. For example, an initial run of a file integrity monitoring system (FIM), where an agent reports all files under management, would fall into the "info" subcategory. Similarly, an event containing a dump of all currently running processes (as opposed to reporting that a process started/ended) would fall into the "info" subcategory. An additional common examples is `event.category:intrusion_detection AND event.type:info`. name: info - description: The installation event type is used for the subset of events within a category that indicate that something was installed. A common example is `event.category:package` AND `event.type:installation`. name: installation - description: The protocol event type is used for the subset of events within a category that indicate that they contain protocol details or analysis, beyond simply identifying the protocol. Generally, network events that contain specific protocol details will fall into this subcategory. A common example is `event.category:network AND event.type:protocol AND event.type:connection AND event.type:end` (to indicate that the event is a network connection event sent at the end of a connection that also includes a protocol detail breakdown). Note that events that only indicate the name or id of the protocol should not use the protocol value. Further note that when the protocol subcategory is used, the identified protocol is populated in the ECS `network.protocol` field. name: protocol - description: The start event type is used for the subset of events within a category that indicate something has started. A common example is `event.category:process AND event.type:start`. name: start - description: 'The user event type is used for the subset of events within a category that are related to user objects. Common example: `event.category:iam AND event.type:deletion AND event.type:user`. You can further distinguish user operations using the ECS `event.action` field.' name: user dashed_name: event-type description: 'This is one of four ECS Categorization Fields, and indicates the third level in the ECS category hierarchy. `event.type` represents a categorization "sub-bucket" that, when used along with the `event.category` field values, enables filtering events down to a level appropriate for single visualization. This field is an array. This will allow proper categorization of some events that fall in multiple event types.' flat_name: event.type ignore_above: 1024 level: core name: type normalize: - array short: Event type. The third categorization field in the hierarchy. type: keyword event.url: dashed_name: event-url description: 'URL linking to an external system to continue investigation of this event. This URL links to another system where in-depth investigation of the specific occurrence of this event can take place. Alert events, indicated by `event.kind:alert`, are a common use case for this field.' example: https://mysystem.example.com/alert/5271dedb-f5b0-4218-87f0-4ac4870a38fe flat_name: event.url ignore_above: 1024 level: extended name: url normalize: [] short: Event investigation URL type: keyword group: 2 name: event prefix: event. short: Fields breaking down the event details. title: Event type: group faas: beta: These fields are in beta and are subject to change. description: The user fields describe information about the function as a service (FaaS) that is relevant to the event. fields: faas.coldstart: dashed_name: faas-coldstart description: Boolean value indicating a cold start of a function. flat_name: faas.coldstart level: extended name: coldstart normalize: [] short: Boolean value indicating a cold start of a function. type: boolean faas.execution: dashed_name: faas-execution description: The execution ID of the current function execution. example: af9d5aa4-a685-4c5f-a22b-444f80b3cc28 flat_name: faas.execution ignore_above: 1024 level: extended name: execution normalize: [] short: The execution ID of the current function execution. type: keyword faas.id: dashed_name: faas-id description: 'The unique identifier of a serverless function. For AWS Lambda it''s the function ARN (Amazon Resource Name) without a version or alias suffix.' example: arn:aws:lambda:us-west-2:123456789012:function:my-function flat_name: faas.id ignore_above: 1024 level: extended name: id normalize: [] short: The unique identifier of a serverless function. type: keyword faas.name: dashed_name: faas-name description: The name of a serverless function. example: my-function flat_name: faas.name ignore_above: 1024 level: extended name: name normalize: [] short: The name of a serverless function. type: keyword faas.trigger: dashed_name: faas-trigger description: Details about the function trigger. flat_name: faas.trigger level: extended name: trigger normalize: [] short: Details about the function trigger. type: nested faas.trigger.request_id: dashed_name: faas-trigger-request-id description: The ID of the trigger request , message, event, etc. example: 123456789 flat_name: faas.trigger.request_id ignore_above: 1024 level: extended name: trigger.request_id normalize: [] short: The ID of the trigger request , message, event, etc. type: keyword faas.trigger.type: dashed_name: faas-trigger-type description: The trigger for the function execution. example: http expected_values: - http - pubsub - datasource - timer - other flat_name: faas.trigger.type ignore_above: 1024 level: extended name: trigger.type normalize: [] short: The trigger for the function execution. type: keyword faas.version: dashed_name: faas-version description: The version of a serverless function. example: '123' flat_name: faas.version ignore_above: 1024 level: extended name: version normalize: [] short: The version of a serverless function. type: keyword group: 2 name: faas prefix: faas. short: Fields describing functions as a service. title: FaaS type: group file: description: 'A file is defined as a set of information that has been created on, or has existed on a filesystem. File objects can be associated with host events, network events, and/or file events (e.g., those produced by File Integrity Monitoring [FIM] products or services). File fields provide details about the affected file associated with the event or metric.' fields: file.accessed: dashed_name: file-accessed description: 'Last time the file was accessed. Note that not all filesystems keep track of access time.' flat_name: file.accessed level: extended name: accessed normalize: [] short: Last time the file was accessed. type: date file.attributes: dashed_name: file-attributes description: 'Array of file attributes. Attributes names will vary by platform. Here''s a non-exhaustive list of values that are expected in this field: archive, compressed, directory, encrypted, execute, hidden, read, readonly, system, write.' example: '["readonly", "system"]' flat_name: file.attributes ignore_above: 1024 level: extended name: attributes normalize: - array short: Array of file attributes. type: keyword file.code_signature.digest_algorithm: dashed_name: file-code-signature-digest-algorithm description: 'The hashing algorithm used to sign the process. This value can distinguish signatures when a file is signed multiple times by the same signer but with a different digest algorithm.' example: sha256 flat_name: file.code_signature.digest_algorithm ignore_above: 1024 level: extended name: digest_algorithm normalize: [] original_fieldset: code_signature short: Hashing algorithm used to sign the process. type: keyword file.code_signature.exists: dashed_name: file-code-signature-exists description: Boolean to capture if a signature is present. example: 'true' flat_name: file.code_signature.exists level: core name: exists normalize: [] original_fieldset: code_signature short: Boolean to capture if a signature is present. type: boolean file.code_signature.signing_id: dashed_name: file-code-signature-signing-id description: 'The identifier used to sign the process. This is used to identify the application manufactured by a software vendor. The field is relevant to Apple *OS only.' example: com.apple.xpc.proxy flat_name: file.code_signature.signing_id ignore_above: 1024 level: extended name: signing_id normalize: [] original_fieldset: code_signature short: The identifier used to sign the process. type: keyword file.code_signature.status: dashed_name: file-code-signature-status description: 'Additional information about the certificate status. This is useful for logging cryptographic errors with the certificate validity or trust status. Leave unpopulated if the validity or trust of the certificate was unchecked.' example: ERROR_UNTRUSTED_ROOT flat_name: file.code_signature.status ignore_above: 1024 level: extended name: status normalize: [] original_fieldset: code_signature short: Additional information about the certificate status. type: keyword file.code_signature.subject_name: dashed_name: file-code-signature-subject-name description: Subject name of the code signer example: Microsoft Corporation flat_name: file.code_signature.subject_name ignore_above: 1024 level: core name: subject_name normalize: [] original_fieldset: code_signature short: Subject name of the code signer type: keyword file.code_signature.team_id: dashed_name: file-code-signature-team-id description: 'The team identifier used to sign the process. This is used to identify the team or vendor of a software product. The field is relevant to Apple *OS only.' example: EQHXZ8M8AV flat_name: file.code_signature.team_id ignore_above: 1024 level: extended name: team_id normalize: [] original_fieldset: code_signature short: The team identifier used to sign the process. type: keyword file.code_signature.timestamp: dashed_name: file-code-signature-timestamp description: Date and time when the code signature was generated and signed. example: '2021-01-01T12:10:30Z' flat_name: file.code_signature.timestamp level: extended name: timestamp normalize: [] original_fieldset: code_signature short: When the signature was generated and signed. type: date file.code_signature.trusted: dashed_name: file-code-signature-trusted description: 'Stores the trust status of the certificate chain. Validating the trust of the certificate chain may be complicated, and this field should only be populated by tools that actively check the status.' example: 'true' flat_name: file.code_signature.trusted level: extended name: trusted normalize: [] original_fieldset: code_signature short: Stores the trust status of the certificate chain. type: boolean file.code_signature.valid: dashed_name: file-code-signature-valid description: 'Boolean to capture if the digital signature is verified against the binary content. Leave unpopulated if a certificate was unchecked.' example: 'true' flat_name: file.code_signature.valid level: extended name: valid normalize: [] original_fieldset: code_signature short: Boolean to capture if the digital signature is verified against the binary content. type: boolean file.created: dashed_name: file-created description: 'File creation time. Note that not all filesystems store the creation time.' flat_name: file.created level: extended name: created normalize: [] short: File creation time. type: date file.ctime: dashed_name: file-ctime description: 'Last time the file attributes or metadata changed. Note that changes to the file content will update `mtime`. This implies `ctime` will be adjusted at the same time, since `mtime` is an attribute of the file.' flat_name: file.ctime level: extended name: ctime normalize: [] short: Last time the file attributes or metadata changed. type: date file.device: dashed_name: file-device description: Device that is the source of the file. example: sda flat_name: file.device ignore_above: 1024 level: extended name: device normalize: [] short: Device that is the source of the file. type: keyword file.directory: dashed_name: file-directory description: Directory where the file is located. It should include the drive letter, when appropriate. example: /home/alice flat_name: file.directory ignore_above: 1024 level: extended name: directory normalize: [] short: Directory where the file is located. type: keyword file.drive_letter: dashed_name: file-drive-letter description: 'Drive letter where the file is located. This field is only relevant on Windows. The value should be uppercase, and not include the colon.' example: C flat_name: file.drive_letter ignore_above: 1 level: extended name: drive_letter normalize: [] short: Drive letter where the file is located. type: keyword file.elf.architecture: dashed_name: file-elf-architecture description: Machine architecture of the ELF file. example: x86-64 flat_name: file.elf.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: elf short: Machine architecture of the ELF file. type: keyword file.elf.byte_order: dashed_name: file-elf-byte-order description: Byte sequence of ELF file. example: Little Endian flat_name: file.elf.byte_order ignore_above: 1024 level: extended name: byte_order normalize: [] original_fieldset: elf short: Byte sequence of ELF file. type: keyword file.elf.cpu_type: dashed_name: file-elf-cpu-type description: CPU type of the ELF file. example: Intel flat_name: file.elf.cpu_type ignore_above: 1024 level: extended name: cpu_type normalize: [] original_fieldset: elf short: CPU type of the ELF file. type: keyword file.elf.creation_date: dashed_name: file-elf-creation-date description: Extracted when possible from the file's metadata. Indicates when it was built or compiled. It can also be faked by malware creators. flat_name: file.elf.creation_date level: extended name: creation_date normalize: [] original_fieldset: elf short: Build or compile date. type: date file.elf.exports: dashed_name: file-elf-exports description: List of exported element names and types. flat_name: file.elf.exports level: extended name: exports normalize: - array original_fieldset: elf short: List of exported element names and types. type: flattened file.elf.header.abi_version: dashed_name: file-elf-header-abi-version description: Version of the ELF Application Binary Interface (ABI). flat_name: file.elf.header.abi_version ignore_above: 1024 level: extended name: header.abi_version normalize: [] original_fieldset: elf short: Version of the ELF Application Binary Interface (ABI). type: keyword file.elf.header.class: dashed_name: file-elf-header-class description: Header class of the ELF file. flat_name: file.elf.header.class ignore_above: 1024 level: extended name: header.class normalize: [] original_fieldset: elf short: Header class of the ELF file. type: keyword file.elf.header.data: dashed_name: file-elf-header-data description: Data table of the ELF header. flat_name: file.elf.header.data ignore_above: 1024 level: extended name: header.data normalize: [] original_fieldset: elf short: Data table of the ELF header. type: keyword file.elf.header.entrypoint: dashed_name: file-elf-header-entrypoint description: Header entrypoint of the ELF file. flat_name: file.elf.header.entrypoint format: string level: extended name: header.entrypoint normalize: [] original_fieldset: elf short: Header entrypoint of the ELF file. type: long file.elf.header.object_version: dashed_name: file-elf-header-object-version description: '"0x1" for original ELF files.' flat_name: file.elf.header.object_version ignore_above: 1024 level: extended name: header.object_version normalize: [] original_fieldset: elf short: '"0x1" for original ELF files.' type: keyword file.elf.header.os_abi: dashed_name: file-elf-header-os-abi description: Application Binary Interface (ABI) of the Linux OS. flat_name: file.elf.header.os_abi ignore_above: 1024 level: extended name: header.os_abi normalize: [] original_fieldset: elf short: Application Binary Interface (ABI) of the Linux OS. type: keyword file.elf.header.type: dashed_name: file-elf-header-type description: Header type of the ELF file. flat_name: file.elf.header.type ignore_above: 1024 level: extended name: header.type normalize: [] original_fieldset: elf short: Header type of the ELF file. type: keyword file.elf.header.version: dashed_name: file-elf-header-version description: Version of the ELF header. flat_name: file.elf.header.version ignore_above: 1024 level: extended name: header.version normalize: [] original_fieldset: elf short: Version of the ELF header. type: keyword file.elf.imports: dashed_name: file-elf-imports description: List of imported element names and types. flat_name: file.elf.imports level: extended name: imports normalize: - array original_fieldset: elf short: List of imported element names and types. type: flattened file.elf.sections: dashed_name: file-elf-sections description: 'An array containing an object for each section of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.sections.*`.' flat_name: file.elf.sections level: extended name: sections normalize: - array original_fieldset: elf short: Section information of the ELF file. type: nested file.elf.sections.chi2: dashed_name: file-elf-sections-chi2 description: Chi-square probability distribution of the section. flat_name: file.elf.sections.chi2 format: number level: extended name: sections.chi2 normalize: [] original_fieldset: elf short: Chi-square probability distribution of the section. type: long file.elf.sections.entropy: dashed_name: file-elf-sections-entropy description: Shannon entropy calculation from the section. flat_name: file.elf.sections.entropy format: number level: extended name: sections.entropy normalize: [] original_fieldset: elf short: Shannon entropy calculation from the section. type: long file.elf.sections.flags: dashed_name: file-elf-sections-flags description: ELF Section List flags. flat_name: file.elf.sections.flags ignore_above: 1024 level: extended name: sections.flags normalize: [] original_fieldset: elf short: ELF Section List flags. type: keyword file.elf.sections.name: dashed_name: file-elf-sections-name description: ELF Section List name. flat_name: file.elf.sections.name ignore_above: 1024 level: extended name: sections.name normalize: [] original_fieldset: elf short: ELF Section List name. type: keyword file.elf.sections.physical_offset: dashed_name: file-elf-sections-physical-offset description: ELF Section List offset. flat_name: file.elf.sections.physical_offset ignore_above: 1024 level: extended name: sections.physical_offset normalize: [] original_fieldset: elf short: ELF Section List offset. type: keyword file.elf.sections.physical_size: dashed_name: file-elf-sections-physical-size description: ELF Section List physical size. flat_name: file.elf.sections.physical_size format: bytes level: extended name: sections.physical_size normalize: [] original_fieldset: elf short: ELF Section List physical size. type: long file.elf.sections.type: dashed_name: file-elf-sections-type description: ELF Section List type. flat_name: file.elf.sections.type ignore_above: 1024 level: extended name: sections.type normalize: [] original_fieldset: elf short: ELF Section List type. type: keyword file.elf.sections.virtual_address: dashed_name: file-elf-sections-virtual-address description: ELF Section List virtual address. flat_name: file.elf.sections.virtual_address format: string level: extended name: sections.virtual_address normalize: [] original_fieldset: elf short: ELF Section List virtual address. type: long file.elf.sections.virtual_size: dashed_name: file-elf-sections-virtual-size description: ELF Section List virtual size. flat_name: file.elf.sections.virtual_size format: string level: extended name: sections.virtual_size normalize: [] original_fieldset: elf short: ELF Section List virtual size. type: long file.elf.segments: dashed_name: file-elf-segments description: 'An array containing an object for each segment of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.segments.*`.' flat_name: file.elf.segments level: extended name: segments normalize: - array original_fieldset: elf short: ELF object segment list. type: nested file.elf.segments.sections: dashed_name: file-elf-segments-sections description: ELF object segment sections. flat_name: file.elf.segments.sections ignore_above: 1024 level: extended name: segments.sections normalize: [] original_fieldset: elf short: ELF object segment sections. type: keyword file.elf.segments.type: dashed_name: file-elf-segments-type description: ELF object segment type. flat_name: file.elf.segments.type ignore_above: 1024 level: extended name: segments.type normalize: [] original_fieldset: elf short: ELF object segment type. type: keyword file.elf.shared_libraries: dashed_name: file-elf-shared-libraries description: List of shared libraries used by this ELF object. flat_name: file.elf.shared_libraries ignore_above: 1024 level: extended name: shared_libraries normalize: - array original_fieldset: elf short: List of shared libraries used by this ELF object. type: keyword file.elf.telfhash: dashed_name: file-elf-telfhash description: telfhash symbol hash for ELF file. flat_name: file.elf.telfhash ignore_above: 1024 level: extended name: telfhash normalize: [] original_fieldset: elf short: telfhash hash for ELF file. type: keyword file.extension: dashed_name: file-extension description: 'File extension, excluding the leading dot. Note that when the file name has multiple extensions (example.tar.gz), only the last one should be captured ("gz", not "tar.gz").' example: png flat_name: file.extension ignore_above: 1024 level: extended name: extension normalize: [] short: File extension, excluding the leading dot. type: keyword file.fork_name: dashed_name: file-fork-name description: 'A fork is additional data associated with a filesystem object. On Linux, a resource fork is used to store additional data with a filesystem object. A file always has at least one fork for the data portion, and additional forks may exist. On NTFS, this is analogous to an Alternate Data Stream (ADS), and the default data stream for a file is just called $DATA. Zone.Identifier is commonly used by Windows to track contents downloaded from the Internet. An ADS is typically of the form: `C:\path\to\filename.extension:some_fork_name`, and `some_fork_name` is the value that should populate `fork_name`. `filename.extension` should populate `file.name`, and `extension` should populate `file.extension`. The full path, `file.path`, will include the fork name.' example: Zone.Identifer flat_name: file.fork_name ignore_above: 1024 level: extended name: fork_name normalize: [] short: A fork is additional data associated with a filesystem object. type: keyword file.gid: dashed_name: file-gid description: Primary group ID (GID) of the file. example: '1001' flat_name: file.gid ignore_above: 1024 level: extended name: gid normalize: [] short: Primary group ID (GID) of the file. type: keyword file.group: dashed_name: file-group description: Primary group name of the file. example: alice flat_name: file.group ignore_above: 1024 level: extended name: group normalize: [] short: Primary group name of the file. type: keyword file.hash.md5: dashed_name: file-hash-md5 description: MD5 hash. flat_name: file.hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] original_fieldset: hash short: MD5 hash. type: keyword file.hash.sha1: dashed_name: file-hash-sha1 description: SHA1 hash. flat_name: file.hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] original_fieldset: hash short: SHA1 hash. type: keyword file.hash.sha256: dashed_name: file-hash-sha256 description: SHA256 hash. flat_name: file.hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] original_fieldset: hash short: SHA256 hash. type: keyword file.hash.sha384: dashed_name: file-hash-sha384 description: SHA384 hash. flat_name: file.hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] original_fieldset: hash short: SHA384 hash. type: keyword file.hash.sha512: dashed_name: file-hash-sha512 description: SHA512 hash. flat_name: file.hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] original_fieldset: hash short: SHA512 hash. type: keyword file.hash.ssdeep: dashed_name: file-hash-ssdeep description: SSDEEP hash. flat_name: file.hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] original_fieldset: hash short: SSDEEP hash. type: keyword file.hash.tlsh: dashed_name: file-hash-tlsh description: TLSH hash. flat_name: file.hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] original_fieldset: hash short: TLSH hash. type: keyword file.inode: dashed_name: file-inode description: Inode representing the file in the filesystem. example: '256383' flat_name: file.inode ignore_above: 1024 level: extended name: inode normalize: [] short: Inode representing the file in the filesystem. type: keyword file.mime_type: dashed_name: file-mime-type description: MIME type should identify the format of the file or stream of bytes using https://www.iana.org/assignments/media-types/media-types.xhtml[IANA official types], where possible. When more than one type is applicable, the most specific type should be used. flat_name: file.mime_type ignore_above: 1024 level: extended name: mime_type normalize: [] short: Media type of file, document, or arrangement of bytes. type: keyword file.mode: dashed_name: file-mode description: Mode of the file in octal representation. example: '0640' flat_name: file.mode ignore_above: 1024 level: extended name: mode normalize: [] short: Mode of the file in octal representation. type: keyword file.mtime: dashed_name: file-mtime description: Last time the file content was modified. flat_name: file.mtime level: extended name: mtime normalize: [] short: Last time the file content was modified. type: date file.name: dashed_name: file-name description: Name of the file including the extension, without the directory. example: example.png flat_name: file.name ignore_above: 1024 level: extended name: name normalize: [] short: Name of the file including the extension, without the directory. type: keyword file.owner: dashed_name: file-owner description: File owner's username. example: alice flat_name: file.owner ignore_above: 1024 level: extended name: owner normalize: [] short: File owner's username. type: keyword file.path: dashed_name: file-path description: Full path to the file, including the file name. It should include the drive letter, when appropriate. example: /home/alice/example.png flat_name: file.path ignore_above: 1024 level: extended multi_fields: - flat_name: file.path.text name: text type: match_only_text name: path normalize: [] short: Full path to the file, including the file name. type: keyword file.pe.architecture: dashed_name: file-pe-architecture description: CPU architecture target for the file. example: x64 flat_name: file.pe.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: pe short: CPU architecture target for the file. type: keyword file.pe.company: dashed_name: file-pe-company description: Internal company name of the file, provided at compile-time. example: Microsoft Corporation flat_name: file.pe.company ignore_above: 1024 level: extended name: company normalize: [] original_fieldset: pe short: Internal company name of the file, provided at compile-time. type: keyword file.pe.description: dashed_name: file-pe-description description: Internal description of the file, provided at compile-time. example: Paint flat_name: file.pe.description ignore_above: 1024 level: extended name: description normalize: [] original_fieldset: pe short: Internal description of the file, provided at compile-time. type: keyword file.pe.file_version: dashed_name: file-pe-file-version description: Internal version of the file, provided at compile-time. example: 6.3.9600.17415 flat_name: file.pe.file_version ignore_above: 1024 level: extended name: file_version normalize: [] original_fieldset: pe short: Process name. type: keyword file.pe.imphash: dashed_name: file-pe-imphash description: 'A hash of the imports in a PE file. An imphash -- or import hash -- can be used to fingerprint binaries even after recompilation or other code-level transformations have occurred, which would change more traditional hash values. Learn more at https://www.fireeye.com/blog/threat-research/2014/01/tracking-malware-import-hashing.html.' example: 0c6803c4e922103c4dca5963aad36ddf flat_name: file.pe.imphash ignore_above: 1024 level: extended name: imphash normalize: [] original_fieldset: pe short: A hash of the imports in a PE file. type: keyword file.pe.original_file_name: dashed_name: file-pe-original-file-name description: Internal name of the file, provided at compile-time. example: MSPAINT.EXE flat_name: file.pe.original_file_name ignore_above: 1024 level: extended name: original_file_name normalize: [] original_fieldset: pe short: Internal name of the file, provided at compile-time. type: keyword file.pe.pehash: dashed_name: file-pe-pehash description: 'A hash of the PE header and data from one or more PE sections. An pehash can be used to cluster files by transforming structural information about a file into a hash value. Learn more at https://www.usenix.org/legacy/events/leet09/tech/full_papers/wicherski/wicherski_html/index.html.' example: 73ff189b63cd6be375a7ff25179a38d347651975 flat_name: file.pe.pehash ignore_above: 1024 level: extended name: pehash normalize: [] original_fieldset: pe short: A hash of the PE header and data from one or more PE sections. type: keyword file.pe.product: dashed_name: file-pe-product description: Internal product name of the file, provided at compile-time. example: "Microsoft\xAE Windows\xAE Operating System" flat_name: file.pe.product ignore_above: 1024 level: extended name: product normalize: [] original_fieldset: pe short: Internal product name of the file, provided at compile-time. type: keyword file.size: dashed_name: file-size description: 'File size in bytes. Only relevant when `file.type` is "file".' example: 16384 flat_name: file.size level: extended name: size normalize: [] short: File size in bytes. type: long file.target_path: dashed_name: file-target-path description: Target path for symlinks. flat_name: file.target_path ignore_above: 1024 level: extended multi_fields: - flat_name: file.target_path.text name: text type: match_only_text name: target_path normalize: [] short: Target path for symlinks. type: keyword file.type: dashed_name: file-type description: File type (file, dir, or symlink). example: file flat_name: file.type ignore_above: 1024 level: extended name: type normalize: [] short: File type (file, dir, or symlink). type: keyword file.uid: dashed_name: file-uid description: The user ID (UID) or security identifier (SID) of the file owner. example: '1001' flat_name: file.uid ignore_above: 1024 level: extended name: uid normalize: [] short: The user ID (UID) or security identifier (SID) of the file owner. type: keyword file.x509.alternative_names: dashed_name: file-x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: file.x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array original_fieldset: x509 short: List of subject alternative names (SAN). type: keyword file.x509.issuer.common_name: dashed_name: file-x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: file.x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array original_fieldset: x509 short: List of common name (CN) of issuing certificate authority. type: keyword file.x509.issuer.country: dashed_name: file-x509-issuer-country description: List of country \(C) codes example: US flat_name: file.x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array original_fieldset: x509 short: List of country \(C) codes type: keyword file.x509.issuer.distinguished_name: dashed_name: file-x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: file.x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of issuing certificate authority. type: keyword file.x509.issuer.locality: dashed_name: file-x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: file.x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword file.x509.issuer.organization: dashed_name: file-x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: file.x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of issuing certificate authority. type: keyword file.x509.issuer.organizational_unit: dashed_name: file-x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: file.x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of issuing certificate authority. type: keyword file.x509.issuer.state_or_province: dashed_name: file-x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: file.x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword file.x509.not_after: dashed_name: file-x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: file.x509.not_after level: extended name: not_after normalize: [] original_fieldset: x509 short: Time at which the certificate is no longer considered valid. type: date file.x509.not_before: dashed_name: file-x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: file.x509.not_before level: extended name: not_before normalize: [] original_fieldset: x509 short: Time at which the certificate is first considered valid. type: date file.x509.public_key_algorithm: dashed_name: file-x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: file.x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] original_fieldset: x509 short: Algorithm used to generate the public key. type: keyword file.x509.public_key_curve: dashed_name: file-x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: file.x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] original_fieldset: x509 short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword file.x509.public_key_exponent: dashed_name: file-x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: file.x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] original_fieldset: x509 short: Exponent used to derive the public key. This is algorithm specific. type: long file.x509.public_key_size: dashed_name: file-x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: file.x509.public_key_size level: extended name: public_key_size normalize: [] original_fieldset: x509 short: The size of the public key space in bits. type: long file.x509.serial_number: dashed_name: file-x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: file.x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] original_fieldset: x509 short: Unique serial number issued by the certificate authority. type: keyword file.x509.signature_algorithm: dashed_name: file-x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: file.x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] original_fieldset: x509 short: Identifier for certificate signature algorithm. type: keyword file.x509.subject.common_name: dashed_name: file-x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: file.x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array original_fieldset: x509 short: List of common names (CN) of subject. type: keyword file.x509.subject.country: dashed_name: file-x509-subject-country description: List of country \(C) code example: US flat_name: file.x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array original_fieldset: x509 short: List of country \(C) code type: keyword file.x509.subject.distinguished_name: dashed_name: file-x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: file.x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of the certificate subject entity. type: keyword file.x509.subject.locality: dashed_name: file-x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: file.x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword file.x509.subject.organization: dashed_name: file-x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: file.x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of subject. type: keyword file.x509.subject.organizational_unit: dashed_name: file-x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: file.x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of subject. type: keyword file.x509.subject.state_or_province: dashed_name: file-x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: file.x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword file.x509.version_number: dashed_name: file-x509-version-number description: Version of x509 format. example: 3 flat_name: file.x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] original_fieldset: x509 short: Version of x509 format. type: keyword group: 2 name: file nestings: - file.code_signature - file.elf - file.hash - file.pe - file.x509 prefix: file. reusable: expected: - as: file at: threat.indicator full: threat.indicator.file - as: file at: threat.enrichments.indicator full: threat.enrichments.indicator.file top_level: true reused_here: - full: file.hash schema_name: hash short: Hashes, usually file hashes. - full: file.pe schema_name: pe short: These fields contain Windows Portable Executable (PE) metadata. - full: file.x509 schema_name: x509 short: These fields contain x509 certificate metadata. - full: file.code_signature schema_name: code_signature short: These fields contain information about binary code signatures. - beta: This field reuse is beta and subject to change. full: file.elf schema_name: elf short: These fields contain Linux Executable Linkable Format (ELF) metadata. short: Fields describing files. title: File type: group geo: description: 'Geo fields can carry data about a specific location related to an event. This geolocation information can be derived from techniques such as Geo IP, or be user-supplied.' fields: geo.city_name: dashed_name: geo-city-name description: City name. example: Montreal flat_name: geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] short: City name. type: keyword geo.continent_code: dashed_name: geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] short: Continent code. type: keyword geo.continent_name: dashed_name: geo-continent-name description: Name of the continent. example: North America flat_name: geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] short: Name of the continent. type: keyword geo.country_iso_code: dashed_name: geo-country-iso-code description: Country ISO code. example: CA flat_name: geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] short: Country ISO code. type: keyword geo.country_name: dashed_name: geo-country-name description: Country name. example: Canada flat_name: geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] short: Country name. type: keyword geo.location: dashed_name: geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: geo.location level: core name: location normalize: [] short: Longitude and latitude. type: geo_point geo.name: dashed_name: geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: geo.name ignore_above: 1024 level: extended name: name normalize: [] short: User-defined description of a location. type: keyword geo.postal_code: dashed_name: geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] short: Postal code. type: keyword geo.region_iso_code: dashed_name: geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] short: Region ISO code. type: keyword geo.region_name: dashed_name: geo-region-name description: Region name. example: Quebec flat_name: geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] short: Region name. type: keyword geo.timezone: dashed_name: geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] short: Time zone. type: keyword group: 2 name: geo prefix: geo. reusable: expected: - as: geo at: client full: client.geo - as: geo at: destination full: destination.geo - as: geo at: observer full: observer.geo - as: geo at: host full: host.geo - as: geo at: server full: server.geo - as: geo at: source full: source.geo - as: geo at: threat.indicator full: threat.indicator.geo - as: geo at: threat.enrichments.indicator full: threat.enrichments.indicator.geo top_level: false short: Fields describing a location. title: Geo type: group group: description: The group fields are meant to represent groups that are relevant to the event. fields: group.domain: dashed_name: group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: group.domain ignore_above: 1024 level: extended name: domain normalize: [] short: Name of the directory the group is a member of. type: keyword group.id: dashed_name: group-id description: Unique identifier for the group on the system/platform. flat_name: group.id ignore_above: 1024 level: extended name: id normalize: [] short: Unique identifier for the group on the system/platform. type: keyword group.name: dashed_name: group-name description: Name of the group. flat_name: group.name ignore_above: 1024 level: extended name: name normalize: [] short: Name of the group. type: keyword group: 2 name: group prefix: group. reusable: expected: - as: group at: user full: user.group - as: group at: process full: process.group short_override: The effective group (egid). - as: real_group at: process full: process.real_group short_override: The real group (rgid). - as: saved_group at: process full: process.saved_group short_override: The saved group (sgid). - as: supplemental_groups at: process full: process.supplemental_groups normalize: - array short_override: An array of supplemental groups. - as: attested_groups at: process beta: Reusing the `group` fields in this location is currently considered beta. full: process.attested_groups normalize: - array short_override: The externally attested groups based on an external source such as the Kube API. top_level: true short: User's group relevant to the event. title: Group type: group hash: description: 'The hash fields represent different bitwise hash algorithms and their values. Field names for common hashes (e.g. MD5, SHA1) are predefined. Add fields for other hashes by lowercasing the hash algorithm name and using underscore separators as appropriate (snake case, e.g. sha3_512). Note that this fieldset is used for common hashes that may be computed over a range of generic bytes. Entity-specific hashes such as ja3 or imphash are placed in the fieldsets to which they relate (tls and pe, respectively).' fields: hash.md5: dashed_name: hash-md5 description: MD5 hash. flat_name: hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] short: MD5 hash. type: keyword hash.sha1: dashed_name: hash-sha1 description: SHA1 hash. flat_name: hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] short: SHA1 hash. type: keyword hash.sha256: dashed_name: hash-sha256 description: SHA256 hash. flat_name: hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] short: SHA256 hash. type: keyword hash.sha384: dashed_name: hash-sha384 description: SHA384 hash. flat_name: hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] short: SHA384 hash. type: keyword hash.sha512: dashed_name: hash-sha512 description: SHA512 hash. flat_name: hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] short: SHA512 hash. type: keyword hash.ssdeep: dashed_name: hash-ssdeep description: SSDEEP hash. flat_name: hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] short: SSDEEP hash. type: keyword hash.tlsh: dashed_name: hash-tlsh description: TLSH hash. flat_name: hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] short: TLSH hash. type: keyword group: 2 name: hash prefix: hash. reusable: expected: - as: hash at: file full: file.hash - as: hash at: process full: process.hash - as: hash at: dll full: dll.hash - as: hash at: email.attachments.file full: email.attachments.file.hash top_level: false short: Hashes, usually file hashes. title: Hash type: group host: description: 'A host is defined as a general computing instance. ECS host.* fields should be populated with details about the host on which the event happened, or from which the measurement was taken. Host types include hardware, virtual machines, Docker containers, and Kubernetes nodes.' fields: host.architecture: dashed_name: host-architecture description: Operating system architecture. example: x86_64 flat_name: host.architecture ignore_above: 1024 level: core name: architecture normalize: [] short: Operating system architecture. type: keyword host.boot.id: beta: This field is beta and subject to change. dashed_name: host-boot-id description: Linux boot uuid taken from /proc/sys/kernel/random/boot_id. Note the boot_id value from /proc may or may not be the same in containers as on the host. Some container runtimes will bind mount a new boot_id value onto the proc file in each container. example: 88a1f0ed-5ae5-41ee-af6b-41921c311872 flat_name: host.boot.id ignore_above: 1024 level: extended name: boot.id normalize: [] short: Linux boot uuid taken from /proc/sys/kernel/random/boot_id type: keyword host.cpu.usage: dashed_name: host-cpu-usage description: 'Percent CPU used which is normalized by the number of CPU cores and it ranges from 0 to 1. Scaling factor: 1000. For example: For a two core host, this value should be the average of the two cores, between 0 and 1.' flat_name: host.cpu.usage level: extended name: cpu.usage normalize: [] scaling_factor: 1000 short: Percent CPU used, between 0 and 1. type: scaled_float host.disk.read.bytes: dashed_name: host-disk-read-bytes description: The total number of bytes (gauge) read successfully (aggregated from all disks) since the last metric collection. flat_name: host.disk.read.bytes level: extended name: disk.read.bytes normalize: [] short: The number of bytes read by all disks. type: long host.disk.write.bytes: dashed_name: host-disk-write-bytes description: The total number of bytes (gauge) written successfully (aggregated from all disks) since the last metric collection. flat_name: host.disk.write.bytes level: extended name: disk.write.bytes normalize: [] short: The number of bytes written on all disks. type: long host.domain: dashed_name: host-domain description: 'Name of the domain of which the host is a member. For example, on Windows this could be the host''s Active Directory domain or NetBIOS domain name. For Linux this could be the domain of the host''s LDAP provider.' example: CONTOSO flat_name: host.domain ignore_above: 1024 level: extended name: domain normalize: [] short: Name of the directory the group is a member of. type: keyword host.geo.city_name: dashed_name: host-geo-city-name description: City name. example: Montreal flat_name: host.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword host.geo.continent_code: dashed_name: host-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: host.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword host.geo.continent_name: dashed_name: host-geo-continent-name description: Name of the continent. example: North America flat_name: host.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword host.geo.country_iso_code: dashed_name: host-geo-country-iso-code description: Country ISO code. example: CA flat_name: host.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword host.geo.country_name: dashed_name: host-geo-country-name description: Country name. example: Canada flat_name: host.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword host.geo.location: dashed_name: host-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: host.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point host.geo.name: dashed_name: host-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: host.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword host.geo.postal_code: dashed_name: host-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: host.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword host.geo.region_iso_code: dashed_name: host-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: host.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword host.geo.region_name: dashed_name: host-geo-region-name description: Region name. example: Quebec flat_name: host.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword host.geo.timezone: dashed_name: host-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: host.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword host.hostname: dashed_name: host-hostname description: 'Hostname of the host. It normally contains what the `hostname` command returns on the host machine.' flat_name: host.hostname ignore_above: 1024 level: core name: hostname normalize: [] short: Hostname of the host. type: keyword host.id: dashed_name: host-id description: 'Unique host id. As hostname is not always unique, use values that are meaningful in your environment. Example: The current usage of `beat.name`.' flat_name: host.id ignore_above: 1024 level: core name: id normalize: [] short: Unique host id. type: keyword host.ip: dashed_name: host-ip description: Host ip addresses. flat_name: host.ip level: core name: ip normalize: - array short: Host ip addresses. type: ip host.mac: dashed_name: host-mac description: 'Host MAC addresses. The notation format from RFC 7042 is suggested: Each octet (that is, 8-bit byte) is represented by two [uppercase] hexadecimal digits giving the value of the octet as an unsigned integer. Successive octets are separated by a hyphen.' example: '["00-00-5E-00-53-23", "00-00-5E-00-53-24"]' flat_name: host.mac ignore_above: 1024 level: core name: mac normalize: - array pattern: ^[A-F0-9]{2}(-[A-F0-9]{2}){5,}$ short: Host MAC addresses. type: keyword host.name: dashed_name: host-name description: 'Name of the host. It can contain what `hostname` returns on Unix systems, the fully qualified domain name, or a name specified by the user. The sender decides which value to use.' flat_name: host.name ignore_above: 1024 level: core name: name normalize: [] short: Name of the host. type: keyword host.network.egress.bytes: dashed_name: host-network-egress-bytes description: The number of bytes (gauge) sent out on all network interfaces by the host since the last metric collection. flat_name: host.network.egress.bytes level: extended name: network.egress.bytes normalize: [] short: The number of bytes sent on all network interfaces. type: long host.network.egress.packets: dashed_name: host-network-egress-packets description: The number of packets (gauge) sent out on all network interfaces by the host since the last metric collection. flat_name: host.network.egress.packets level: extended name: network.egress.packets normalize: [] short: The number of packets sent on all network interfaces. type: long host.network.ingress.bytes: dashed_name: host-network-ingress-bytes description: The number of bytes received (gauge) on all network interfaces by the host since the last metric collection. flat_name: host.network.ingress.bytes level: extended name: network.ingress.bytes normalize: [] short: The number of bytes received on all network interfaces. type: long host.network.ingress.packets: dashed_name: host-network-ingress-packets description: The number of packets (gauge) received on all network interfaces by the host since the last metric collection. flat_name: host.network.ingress.packets level: extended name: network.ingress.packets normalize: [] short: The number of packets received on all network interfaces. type: long host.os.family: dashed_name: host-os-family description: OS family (such as redhat, debian, freebsd, windows). example: debian flat_name: host.os.family ignore_above: 1024 level: extended name: family normalize: [] original_fieldset: os short: OS family (such as redhat, debian, freebsd, windows). type: keyword host.os.full: dashed_name: host-os-full description: Operating system name, including the version or code name. example: Mac OS Mojave flat_name: host.os.full ignore_above: 1024 level: extended multi_fields: - flat_name: host.os.full.text name: text type: match_only_text name: full normalize: [] original_fieldset: os short: Operating system name, including the version or code name. type: keyword host.os.kernel: dashed_name: host-os-kernel description: Operating system kernel version as a raw string. example: 4.4.0-112-generic flat_name: host.os.kernel ignore_above: 1024 level: extended name: kernel normalize: [] original_fieldset: os short: Operating system kernel version as a raw string. type: keyword host.os.name: dashed_name: host-os-name description: Operating system name, without the version. example: Mac OS X flat_name: host.os.name ignore_above: 1024 level: extended multi_fields: - flat_name: host.os.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: os short: Operating system name, without the version. type: keyword host.os.platform: dashed_name: host-os-platform description: Operating system platform (such centos, ubuntu, windows). example: darwin flat_name: host.os.platform ignore_above: 1024 level: extended name: platform normalize: [] original_fieldset: os short: Operating system platform (such centos, ubuntu, windows). type: keyword host.os.type: dashed_name: host-os-type description: 'Use the `os.type` field to categorize the operating system into one of the broad commercial families. If the OS you''re dealing with is not listed as an expected value, the field should not be populated. Please let us know by opening an issue with ECS, to propose its addition.' example: macos expected_values: - linux - macos - unix - windows - ios - android flat_name: host.os.type ignore_above: 1024 level: extended name: type normalize: [] original_fieldset: os short: 'Which commercial OS family (one of: linux, macos, unix, windows, ios or android).' type: keyword host.os.version: dashed_name: host-os-version description: Operating system version as a raw string. example: 10.14.1 flat_name: host.os.version ignore_above: 1024 level: extended name: version normalize: [] original_fieldset: os short: Operating system version as a raw string. type: keyword host.pid_ns_ino: beta: This field is beta and subject to change. dashed_name: host-pid-ns-ino description: This is the inode number of the namespace in the namespace file system (nsfs). Unsigned int inum in include/linux/ns_common.h. example: 256383 flat_name: host.pid_ns_ino ignore_above: 1024 level: extended name: pid_ns_ino normalize: [] short: Pid namespace inode type: keyword host.risk.calculated_level: dashed_name: host-risk-calculated-level description: A risk classification level calculated by an internal system as part of entity analytics and entity risk scoring. example: High flat_name: host.risk.calculated_level ignore_above: 1024 level: extended name: calculated_level normalize: [] original_fieldset: risk short: A risk classification level calculated by an internal system as part of entity analytics and entity risk scoring. type: keyword host.risk.calculated_score: dashed_name: host-risk-calculated-score description: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring. example: 880.73 flat_name: host.risk.calculated_score level: extended name: calculated_score normalize: [] original_fieldset: risk short: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring. type: float host.risk.calculated_score_norm: dashed_name: host-risk-calculated-score-norm description: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring, and normalized to a range of 0 to 100. example: 88.73 flat_name: host.risk.calculated_score_norm level: extended name: calculated_score_norm normalize: [] original_fieldset: risk short: A normalized risk score calculated by an internal system. type: float host.risk.static_level: dashed_name: host-risk-static-level description: A risk classification level obtained from outside the system, such as from some external Threat Intelligence Platform. example: High flat_name: host.risk.static_level ignore_above: 1024 level: extended name: static_level normalize: [] original_fieldset: risk short: A risk classification level obtained from outside the system, such as from some external Threat Intelligence Platform. type: keyword host.risk.static_score: dashed_name: host-risk-static-score description: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform. example: 830.0 flat_name: host.risk.static_score level: extended name: static_score normalize: [] original_fieldset: risk short: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform. type: float host.risk.static_score_norm: dashed_name: host-risk-static-score-norm description: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform, and normalized to a range of 0 to 100. example: 83.0 flat_name: host.risk.static_score_norm level: extended name: static_score_norm normalize: [] original_fieldset: risk short: A normalized risk score calculated by an external system. type: float host.type: dashed_name: host-type description: 'Type of host. For Cloud providers this can be the machine type like `t2.medium`. If vm, this could be the container, for example, or other information meaningful in your environment.' flat_name: host.type ignore_above: 1024 level: core name: type normalize: [] short: Type of host. type: keyword host.uptime: dashed_name: host-uptime description: Seconds the host has been up. example: 1325 flat_name: host.uptime level: extended name: uptime normalize: [] short: Seconds the host has been up. type: long group: 2 name: host nestings: - host.geo - host.os - host.risk prefix: host. reused_here: - full: host.geo schema_name: geo short: Fields describing a location. - full: host.os schema_name: os short: OS fields contain information about the operating system. - full: host.risk schema_name: risk short: Fields for describing risk score and level. short: Fields describing the relevant computing instance. title: Host type: group http: description: Fields related to HTTP activity. Use the `url` field set to store the url of the request. fields: http.request.body.bytes: dashed_name: http-request-body-bytes description: Size in bytes of the request body. example: 887 flat_name: http.request.body.bytes format: bytes level: extended name: request.body.bytes normalize: [] short: Size in bytes of the request body. type: long http.request.body.content: dashed_name: http-request-body-content description: The full HTTP request body. example: Hello world flat_name: http.request.body.content level: extended multi_fields: - flat_name: http.request.body.content.text name: text type: match_only_text name: request.body.content normalize: [] short: The full HTTP request body. type: wildcard http.request.bytes: dashed_name: http-request-bytes description: Total size in bytes of the request (body and headers). example: 1437 flat_name: http.request.bytes format: bytes level: extended name: request.bytes normalize: [] short: Total size in bytes of the request (body and headers). type: long http.request.id: dashed_name: http-request-id description: 'A unique identifier for each HTTP request to correlate logs between clients and servers in transactions. The id may be contained in a non-standard HTTP header, such as `X-Request-ID` or `X-Correlation-ID`.' example: 123e4567-e89b-12d3-a456-426614174000 flat_name: http.request.id ignore_above: 1024 level: extended name: request.id normalize: [] short: HTTP request ID. type: keyword http.request.method: dashed_name: http-request-method description: 'HTTP request method. The value should retain its casing from the original event. For example, `GET`, `get`, and `GeT` are all considered valid values for this field.' example: POST flat_name: http.request.method ignore_above: 1024 level: extended name: request.method normalize: [] short: HTTP request method. type: keyword http.request.mime_type: dashed_name: http-request-mime-type description: 'Mime type of the body of the request. This value must only be populated based on the content of the request body, not on the `Content-Type` header. Comparing the mime type of a request with the request''s Content-Type header can be helpful in detecting threats or misconfigured clients.' example: image/gif flat_name: http.request.mime_type ignore_above: 1024 level: extended name: request.mime_type normalize: [] short: Mime type of the body of the request. type: keyword http.request.referrer: dashed_name: http-request-referrer description: Referrer for this HTTP request. example: https://blog.example.com/ flat_name: http.request.referrer ignore_above: 1024 level: extended name: request.referrer normalize: [] short: Referrer for this HTTP request. type: keyword http.response.body.bytes: dashed_name: http-response-body-bytes description: Size in bytes of the response body. example: 887 flat_name: http.response.body.bytes format: bytes level: extended name: response.body.bytes normalize: [] short: Size in bytes of the response body. type: long http.response.body.content: dashed_name: http-response-body-content description: The full HTTP response body. example: Hello world flat_name: http.response.body.content level: extended multi_fields: - flat_name: http.response.body.content.text name: text type: match_only_text name: response.body.content normalize: [] short: The full HTTP response body. type: wildcard http.response.bytes: dashed_name: http-response-bytes description: Total size in bytes of the response (body and headers). example: 1437 flat_name: http.response.bytes format: bytes level: extended name: response.bytes normalize: [] short: Total size in bytes of the response (body and headers). type: long http.response.mime_type: dashed_name: http-response-mime-type description: 'Mime type of the body of the response. This value must only be populated based on the content of the response body, not on the `Content-Type` header. Comparing the mime type of a response with the response''s Content-Type header can be helpful in detecting misconfigured servers.' example: image/gif flat_name: http.response.mime_type ignore_above: 1024 level: extended name: response.mime_type normalize: [] short: Mime type of the body of the response. type: keyword http.response.status_code: dashed_name: http-response-status-code description: HTTP response status code. example: 404 flat_name: http.response.status_code format: string level: extended name: response.status_code normalize: [] short: HTTP response status code. type: long http.version: dashed_name: http-version description: HTTP version. example: 1.1 flat_name: http.version ignore_above: 1024 level: extended name: version normalize: [] short: HTTP version. type: keyword group: 2 name: http prefix: http. short: Fields describing an HTTP request. title: HTTP type: group interface: description: The interface fields are used to record ingress and egress interface information when reported by an observer (e.g. firewall, router, load balancer) in the context of the observer handling a network connection. In the case of a single observer interface (e.g. network sensor on a span port) only the observer.ingress information should be populated. fields: interface.alias: dashed_name: interface-alias description: Interface alias as reported by the system, typically used in firewall implementations for e.g. inside, outside, or dmz logical interface naming. example: outside flat_name: interface.alias ignore_above: 1024 level: extended name: alias normalize: [] short: Interface alias type: keyword interface.id: dashed_name: interface-id description: Interface ID as reported by an observer (typically SNMP interface ID). example: 10 flat_name: interface.id ignore_above: 1024 level: extended name: id normalize: [] short: Interface ID type: keyword interface.name: dashed_name: interface-name description: Interface name as reported by the system. example: eth0 flat_name: interface.name ignore_above: 1024 level: extended name: name normalize: [] short: Interface name type: keyword group: 2 name: interface prefix: interface. reusable: expected: - as: interface at: observer.ingress full: observer.ingress.interface - as: interface at: observer.egress full: observer.egress.interface top_level: false short: Fields to describe observer interface information. title: Interface type: group log: description: 'Details about the event''s logging mechanism or logging transport. The log.* fields are typically populated with details about the logging mechanism used to create and/or transport the event. For example, syslog details belong under `log.syslog.*`. The details specific to your event source are typically not logged under `log.*`, but rather in `event.*` or in other ECS fields.' fields: log.file.path: dashed_name: log-file-path description: 'Full path to the log file this event came from, including the file name. It should include the drive letter, when appropriate. If the event wasn''t read from a log file, do not populate this field.' example: /var/log/fun-times.log flat_name: log.file.path ignore_above: 1024 level: extended name: file.path normalize: [] short: Full path to the log file this event came from. type: keyword log.level: dashed_name: log-level description: 'Original log level of the log event. If the source of the event provides a log level or textual severity, this is the one that goes in `log.level`. If your source doesn''t specify one, you may put your event transport''s severity here (e.g. Syslog severity). Some examples are `warn`, `err`, `i`, `informational`.' example: error flat_name: log.level ignore_above: 1024 level: core name: level normalize: [] short: Log level of the log event. type: keyword log.logger: dashed_name: log-logger description: The name of the logger inside an application. This is usually the name of the class which initialized the logger, or can be a custom name. example: org.elasticsearch.bootstrap.Bootstrap flat_name: log.logger ignore_above: 1024 level: core name: logger normalize: [] short: Name of the logger. type: keyword log.origin.file.line: dashed_name: log-origin-file-line description: The line number of the file containing the source code which originated the log event. example: 42 flat_name: log.origin.file.line level: extended name: origin.file.line normalize: [] short: The line number of the file which originated the log event. type: long log.origin.file.name: dashed_name: log-origin-file-name description: 'The name of the file containing the source code which originated the log event. Note that this field is not meant to capture the log file. The correct field to capture the log file is `log.file.path`.' example: Bootstrap.java flat_name: log.origin.file.name ignore_above: 1024 level: extended name: origin.file.name normalize: [] short: The code file which originated the log event. type: keyword log.origin.function: dashed_name: log-origin-function description: The name of the function or method which originated the log event. example: init flat_name: log.origin.function ignore_above: 1024 level: extended name: origin.function normalize: [] short: The function which originated the log event. type: keyword log.syslog: dashed_name: log-syslog description: The Syslog metadata of the event, if the event was transmitted via Syslog. Please see RFCs 5424 or 3164. flat_name: log.syslog level: extended name: syslog normalize: [] short: Syslog metadata type: object log.syslog.appname: dashed_name: log-syslog-appname description: The device or application that originated the Syslog message, if available. example: sshd flat_name: log.syslog.appname ignore_above: 1024 level: extended name: syslog.appname normalize: [] short: The device or application that originated the Syslog message. type: keyword log.syslog.facility.code: dashed_name: log-syslog-facility-code description: 'The Syslog numeric facility of the log event, if available. According to RFCs 5424 and 3164, this value should be an integer between 0 and 23.' example: 23 flat_name: log.syslog.facility.code format: string level: extended name: syslog.facility.code normalize: [] short: Syslog numeric facility of the event. type: long log.syslog.facility.name: dashed_name: log-syslog-facility-name description: The Syslog text-based facility of the log event, if available. example: local7 flat_name: log.syslog.facility.name ignore_above: 1024 level: extended name: syslog.facility.name normalize: [] short: Syslog text-based facility of the event. type: keyword log.syslog.hostname: dashed_name: log-syslog-hostname description: The hostname, FQDN, or IP of the machine that originally sent the Syslog message. This is sourced from the hostname field of the syslog header. Depending on the environment, this value may be different from the host that handled the event, especially if the host handling the events is acting as a collector. example: example-host flat_name: log.syslog.hostname ignore_above: 1024 level: extended name: syslog.hostname normalize: [] short: The host that originated the Syslog message. type: keyword log.syslog.msgid: dashed_name: log-syslog-msgid description: An identifier for the type of Syslog message, if available. Only applicable for RFC 5424 messages. example: ID47 flat_name: log.syslog.msgid ignore_above: 1024 level: extended name: syslog.msgid normalize: [] short: An identifier for the type of Syslog message. type: keyword log.syslog.priority: dashed_name: log-syslog-priority description: 'Syslog numeric priority of the event, if available. According to RFCs 5424 and 3164, the priority is 8 * facility + severity. This number is therefore expected to contain a value between 0 and 191.' example: 135 flat_name: log.syslog.priority format: string level: extended name: syslog.priority normalize: [] short: Syslog priority of the event. type: long log.syslog.procid: dashed_name: log-syslog-procid description: The process name or ID that originated the Syslog message, if available. example: 12345 flat_name: log.syslog.procid ignore_above: 1024 level: extended name: syslog.procid normalize: [] short: The process name or ID that originated the Syslog message. type: keyword log.syslog.severity.code: dashed_name: log-syslog-severity-code description: 'The Syslog numeric severity of the log event, if available. If the event source publishing via Syslog provides a different numeric severity value (e.g. firewall, IDS), your source''s numeric severity should go to `event.severity`. If the event source does not specify a distinct severity, you can optionally copy the Syslog severity to `event.severity`.' example: 3 flat_name: log.syslog.severity.code level: extended name: syslog.severity.code normalize: [] short: Syslog numeric severity of the event. type: long log.syslog.severity.name: dashed_name: log-syslog-severity-name description: 'The Syslog numeric severity of the log event, if available. If the event source publishing via Syslog provides a different severity value (e.g. firewall, IDS), your source''s text severity should go to `log.level`. If the event source does not specify a distinct severity, you can optionally copy the Syslog severity to `log.level`.' example: Error flat_name: log.syslog.severity.name ignore_above: 1024 level: extended name: syslog.severity.name normalize: [] short: Syslog text-based severity of the event. type: keyword log.syslog.structured_data: dashed_name: log-syslog-structured-data description: Structured data expressed in RFC 5424 messages, if available. These are key-value pairs formed from the structured data portion of the syslog message, as defined in RFC 5424 Section 6.3. flat_name: log.syslog.structured_data level: extended name: syslog.structured_data normalize: [] short: Structured data expressed in RFC 5424 messages. type: flattened log.syslog.version: dashed_name: log-syslog-version description: The version of the Syslog protocol specification. Only applicable for RFC 5424 messages. example: 1 flat_name: log.syslog.version ignore_above: 1024 level: extended name: syslog.version normalize: [] short: Syslog protocol version. type: keyword group: 2 name: log prefix: log. short: Details about the event's logging mechanism. title: Log type: group network: description: 'The network is defined as the communication path over which a host or network event happens. The network.* fields should be populated with details about the network activity associated with an event.' fields: network.application: dashed_name: network-application description: 'When a specific application or service is identified from network connection details (source/dest IPs, ports, certificates, or wire format), this field captures the application''s or service''s name. For example, the original event identifies the network connection being from a specific web service in a `https` network connection, like `facebook` or `twitter`. The field value must be normalized to lowercase for querying.' example: aim flat_name: network.application ignore_above: 1024 level: extended name: application normalize: [] short: Application level protocol name. type: keyword network.bytes: dashed_name: network-bytes description: 'Total bytes transferred in both directions. If `source.bytes` and `destination.bytes` are known, `network.bytes` is their sum.' example: 368 flat_name: network.bytes format: bytes level: core name: bytes normalize: [] short: Total bytes transferred in both directions. type: long network.community_id: dashed_name: network-community-id description: 'A hash of source and destination IPs and ports, as well as the protocol used in a communication. This is a tool-agnostic standard to identify flows. Learn more at https://github.com/corelight/community-id-spec.' example: 1:hO+sN4H+MG5MY/8hIrXPqc4ZQz0= flat_name: network.community_id ignore_above: 1024 level: extended name: community_id normalize: [] short: A hash of source and destination IPs and ports. type: keyword network.direction: dashed_name: network-direction description: 'Direction of the network traffic. When mapping events from a host-based monitoring context, populate this field from the host''s point of view, using the values "ingress" or "egress". When mapping events from a network or perimeter-based monitoring context, populate this field from the point of view of the network perimeter, using the values "inbound", "outbound", "internal" or "external". Note that "internal" is not crossing perimeter boundaries, and is meant to describe communication between two hosts within the perimeter. Note also that "external" is meant to describe traffic between two hosts that are external to the perimeter. This could for example be useful for ISPs or VPN service providers.' example: inbound expected_values: - ingress - egress - inbound - outbound - internal - external - unknown flat_name: network.direction ignore_above: 1024 level: core name: direction normalize: [] short: Direction of the network traffic. type: keyword network.forwarded_ip: dashed_name: network-forwarded-ip description: Host IP address when the source IP address is the proxy. example: 192.1.1.2 flat_name: network.forwarded_ip level: core name: forwarded_ip normalize: [] short: Host IP address when the source IP address is the proxy. type: ip network.iana_number: dashed_name: network-iana-number description: IANA Protocol Number (https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml). Standardized list of protocols. This aligns well with NetFlow and sFlow related logs which use the IANA Protocol Number. example: 6 flat_name: network.iana_number ignore_above: 1024 level: extended name: iana_number normalize: [] short: IANA Protocol Number. type: keyword network.inner: dashed_name: network-inner description: Network.inner fields are added in addition to network.vlan fields to describe the innermost VLAN when q-in-q VLAN tagging is present. Allowed fields include vlan.id and vlan.name. Inner vlan fields are typically used when sending traffic with multiple 802.1q encapsulations to a network sensor (e.g. Zeek, Wireshark.) flat_name: network.inner level: extended name: inner normalize: [] short: Inner VLAN tag information type: object network.inner.vlan.id: dashed_name: network-inner-vlan-id description: VLAN ID as reported by the observer. example: 10 flat_name: network.inner.vlan.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: vlan short: VLAN ID as reported by the observer. type: keyword network.inner.vlan.name: dashed_name: network-inner-vlan-name description: Optional VLAN name as reported by the observer. example: outside flat_name: network.inner.vlan.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: vlan short: Optional VLAN name as reported by the observer. type: keyword network.name: dashed_name: network-name description: Name given by operators to sections of their network. example: Guest Wifi flat_name: network.name ignore_above: 1024 level: extended name: name normalize: [] short: Name given by operators to sections of their network. type: keyword network.packets: dashed_name: network-packets description: 'Total packets transferred in both directions. If `source.packets` and `destination.packets` are known, `network.packets` is their sum.' example: 24 flat_name: network.packets level: core name: packets normalize: [] short: Total packets transferred in both directions. type: long network.protocol: dashed_name: network-protocol description: 'In the OSI Model this would be the Application Layer protocol. For example, `http`, `dns`, or `ssh`. The field value must be normalized to lowercase for querying.' example: http flat_name: network.protocol ignore_above: 1024 level: core name: protocol normalize: [] short: Application protocol name. type: keyword network.transport: dashed_name: network-transport description: 'Same as network.iana_number, but instead using the Keyword name of the transport layer (udp, tcp, ipv6-icmp, etc.) The field value must be normalized to lowercase for querying.' example: tcp flat_name: network.transport ignore_above: 1024 level: core name: transport normalize: [] short: Protocol Name corresponding to the field `iana_number`. type: keyword network.type: dashed_name: network-type description: 'In the OSI Model this would be the Network Layer. ipv4, ipv6, ipsec, pim, etc The field value must be normalized to lowercase for querying.' example: ipv4 flat_name: network.type ignore_above: 1024 level: core name: type normalize: [] short: In the OSI Model this would be the Network Layer. ipv4, ipv6, ipsec, pim, etc type: keyword network.vlan.id: dashed_name: network-vlan-id description: VLAN ID as reported by the observer. example: 10 flat_name: network.vlan.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: vlan short: VLAN ID as reported by the observer. type: keyword network.vlan.name: dashed_name: network-vlan-name description: Optional VLAN name as reported by the observer. example: outside flat_name: network.vlan.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: vlan short: Optional VLAN name as reported by the observer. type: keyword group: 2 name: network nestings: - network.inner.vlan - network.vlan prefix: network. reused_here: - full: network.vlan schema_name: vlan short: Fields to describe observed VLAN information. - full: network.inner.vlan schema_name: vlan short: Fields to describe observed VLAN information. short: Fields describing the communication path over which the event happened. title: Network type: group observer: description: 'An observer is defined as a special network, security, or application device used to detect, observe, or create network, security, or application-related events and metrics. This could be a custom hardware appliance or a server that has been configured to run special network, security, or application software. Examples include firewalls, web proxies, intrusion detection/prevention systems, network monitoring sensors, web application firewalls, data loss prevention systems, and APM servers. The observer.* fields shall be populated with details of the system, if any, that detects, observes and/or creates a network, security, or application event or metric. Message queues and ETL components used in processing events or metrics are not considered observers in ECS.' fields: observer.egress: dashed_name: observer-egress description: Observer.egress holds information like interface number and name, vlan, and zone information to classify egress traffic. Single armed monitoring such as a network sensor on a span port should only use observer.ingress to categorize traffic. flat_name: observer.egress level: extended name: egress normalize: [] short: Object field for egress information type: object observer.egress.interface.alias: dashed_name: observer-egress-interface-alias description: Interface alias as reported by the system, typically used in firewall implementations for e.g. inside, outside, or dmz logical interface naming. example: outside flat_name: observer.egress.interface.alias ignore_above: 1024 level: extended name: alias normalize: [] original_fieldset: interface short: Interface alias type: keyword observer.egress.interface.id: dashed_name: observer-egress-interface-id description: Interface ID as reported by an observer (typically SNMP interface ID). example: 10 flat_name: observer.egress.interface.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: interface short: Interface ID type: keyword observer.egress.interface.name: dashed_name: observer-egress-interface-name description: Interface name as reported by the system. example: eth0 flat_name: observer.egress.interface.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: interface short: Interface name type: keyword observer.egress.vlan.id: dashed_name: observer-egress-vlan-id description: VLAN ID as reported by the observer. example: 10 flat_name: observer.egress.vlan.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: vlan short: VLAN ID as reported by the observer. type: keyword observer.egress.vlan.name: dashed_name: observer-egress-vlan-name description: Optional VLAN name as reported by the observer. example: outside flat_name: observer.egress.vlan.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: vlan short: Optional VLAN name as reported by the observer. type: keyword observer.egress.zone: dashed_name: observer-egress-zone description: Network zone of outbound traffic as reported by the observer to categorize the destination area of egress traffic, e.g. Internal, External, DMZ, HR, Legal, etc. example: Public_Internet flat_name: observer.egress.zone ignore_above: 1024 level: extended name: egress.zone normalize: [] short: Observer Egress zone type: keyword observer.geo.city_name: dashed_name: observer-geo-city-name description: City name. example: Montreal flat_name: observer.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword observer.geo.continent_code: dashed_name: observer-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: observer.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword observer.geo.continent_name: dashed_name: observer-geo-continent-name description: Name of the continent. example: North America flat_name: observer.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword observer.geo.country_iso_code: dashed_name: observer-geo-country-iso-code description: Country ISO code. example: CA flat_name: observer.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword observer.geo.country_name: dashed_name: observer-geo-country-name description: Country name. example: Canada flat_name: observer.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword observer.geo.location: dashed_name: observer-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: observer.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point observer.geo.name: dashed_name: observer-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: observer.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword observer.geo.postal_code: dashed_name: observer-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: observer.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword observer.geo.region_iso_code: dashed_name: observer-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: observer.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword observer.geo.region_name: dashed_name: observer-geo-region-name description: Region name. example: Quebec flat_name: observer.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword observer.geo.timezone: dashed_name: observer-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: observer.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword observer.hostname: dashed_name: observer-hostname description: Hostname of the observer. flat_name: observer.hostname ignore_above: 1024 level: core name: hostname normalize: [] short: Hostname of the observer. type: keyword observer.ingress: dashed_name: observer-ingress description: Observer.ingress holds information like interface number and name, vlan, and zone information to classify ingress traffic. Single armed monitoring such as a network sensor on a span port should only use observer.ingress to categorize traffic. flat_name: observer.ingress level: extended name: ingress normalize: [] short: Object field for ingress information type: object observer.ingress.interface.alias: dashed_name: observer-ingress-interface-alias description: Interface alias as reported by the system, typically used in firewall implementations for e.g. inside, outside, or dmz logical interface naming. example: outside flat_name: observer.ingress.interface.alias ignore_above: 1024 level: extended name: alias normalize: [] original_fieldset: interface short: Interface alias type: keyword observer.ingress.interface.id: dashed_name: observer-ingress-interface-id description: Interface ID as reported by an observer (typically SNMP interface ID). example: 10 flat_name: observer.ingress.interface.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: interface short: Interface ID type: keyword observer.ingress.interface.name: dashed_name: observer-ingress-interface-name description: Interface name as reported by the system. example: eth0 flat_name: observer.ingress.interface.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: interface short: Interface name type: keyword observer.ingress.vlan.id: dashed_name: observer-ingress-vlan-id description: VLAN ID as reported by the observer. example: 10 flat_name: observer.ingress.vlan.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: vlan short: VLAN ID as reported by the observer. type: keyword observer.ingress.vlan.name: dashed_name: observer-ingress-vlan-name description: Optional VLAN name as reported by the observer. example: outside flat_name: observer.ingress.vlan.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: vlan short: Optional VLAN name as reported by the observer. type: keyword observer.ingress.zone: dashed_name: observer-ingress-zone description: Network zone of incoming traffic as reported by the observer to categorize the source area of ingress traffic. e.g. internal, External, DMZ, HR, Legal, etc. example: DMZ flat_name: observer.ingress.zone ignore_above: 1024 level: extended name: ingress.zone normalize: [] short: Observer ingress zone type: keyword observer.ip: dashed_name: observer-ip description: IP addresses of the observer. flat_name: observer.ip level: core name: ip normalize: - array short: IP addresses of the observer. type: ip observer.mac: dashed_name: observer-mac description: 'MAC addresses of the observer. The notation format from RFC 7042 is suggested: Each octet (that is, 8-bit byte) is represented by two [uppercase] hexadecimal digits giving the value of the octet as an unsigned integer. Successive octets are separated by a hyphen.' example: '["00-00-5E-00-53-23", "00-00-5E-00-53-24"]' flat_name: observer.mac ignore_above: 1024 level: core name: mac normalize: - array pattern: ^[A-F0-9]{2}(-[A-F0-9]{2}){5,}$ short: MAC addresses of the observer. type: keyword observer.name: dashed_name: observer-name description: 'Custom name of the observer. This is a name that can be given to an observer. This can be helpful for example if multiple firewalls of the same model are used in an organization. If no custom name is needed, the field can be left empty.' example: 1_proxySG flat_name: observer.name ignore_above: 1024 level: extended name: name normalize: [] short: Custom name of the observer. type: keyword observer.os.family: dashed_name: observer-os-family description: OS family (such as redhat, debian, freebsd, windows). example: debian flat_name: observer.os.family ignore_above: 1024 level: extended name: family normalize: [] original_fieldset: os short: OS family (such as redhat, debian, freebsd, windows). type: keyword observer.os.full: dashed_name: observer-os-full description: Operating system name, including the version or code name. example: Mac OS Mojave flat_name: observer.os.full ignore_above: 1024 level: extended multi_fields: - flat_name: observer.os.full.text name: text type: match_only_text name: full normalize: [] original_fieldset: os short: Operating system name, including the version or code name. type: keyword observer.os.kernel: dashed_name: observer-os-kernel description: Operating system kernel version as a raw string. example: 4.4.0-112-generic flat_name: observer.os.kernel ignore_above: 1024 level: extended name: kernel normalize: [] original_fieldset: os short: Operating system kernel version as a raw string. type: keyword observer.os.name: dashed_name: observer-os-name description: Operating system name, without the version. example: Mac OS X flat_name: observer.os.name ignore_above: 1024 level: extended multi_fields: - flat_name: observer.os.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: os short: Operating system name, without the version. type: keyword observer.os.platform: dashed_name: observer-os-platform description: Operating system platform (such centos, ubuntu, windows). example: darwin flat_name: observer.os.platform ignore_above: 1024 level: extended name: platform normalize: [] original_fieldset: os short: Operating system platform (such centos, ubuntu, windows). type: keyword observer.os.type: dashed_name: observer-os-type description: 'Use the `os.type` field to categorize the operating system into one of the broad commercial families. If the OS you''re dealing with is not listed as an expected value, the field should not be populated. Please let us know by opening an issue with ECS, to propose its addition.' example: macos expected_values: - linux - macos - unix - windows - ios - android flat_name: observer.os.type ignore_above: 1024 level: extended name: type normalize: [] original_fieldset: os short: 'Which commercial OS family (one of: linux, macos, unix, windows, ios or android).' type: keyword observer.os.version: dashed_name: observer-os-version description: Operating system version as a raw string. example: 10.14.1 flat_name: observer.os.version ignore_above: 1024 level: extended name: version normalize: [] original_fieldset: os short: Operating system version as a raw string. type: keyword observer.product: dashed_name: observer-product description: The product name of the observer. example: s200 flat_name: observer.product ignore_above: 1024 level: extended name: product normalize: [] short: The product name of the observer. type: keyword observer.serial_number: dashed_name: observer-serial-number description: Observer serial number. flat_name: observer.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] short: Observer serial number. type: keyword observer.type: dashed_name: observer-type description: 'The type of the observer the data is coming from. There is no predefined list of observer types. Some examples are `forwarder`, `firewall`, `ids`, `ips`, `proxy`, `poller`, `sensor`, `APM server`.' example: firewall flat_name: observer.type ignore_above: 1024 level: core name: type normalize: [] short: The type of the observer the data is coming from. type: keyword observer.vendor: dashed_name: observer-vendor description: Vendor name of the observer. example: Symantec flat_name: observer.vendor ignore_above: 1024 level: core name: vendor normalize: [] short: Vendor name of the observer. type: keyword observer.version: dashed_name: observer-version description: Observer version. flat_name: observer.version ignore_above: 1024 level: core name: version normalize: [] short: Observer version. type: keyword group: 2 name: observer nestings: - observer.egress.interface - observer.egress.vlan - observer.geo - observer.ingress.interface - observer.ingress.vlan - observer.os prefix: observer. reused_here: - full: observer.geo schema_name: geo short: Fields describing a location. - full: observer.ingress.interface schema_name: interface short: Fields to describe observer interface information. - full: observer.egress.interface schema_name: interface short: Fields to describe observer interface information. - full: observer.os schema_name: os short: OS fields contain information about the operating system. - full: observer.ingress.vlan schema_name: vlan short: Fields to describe observed VLAN information. - full: observer.egress.vlan schema_name: vlan short: Fields to describe observed VLAN information. short: Fields describing an entity observing the event from outside the host. title: Observer type: group orchestrator: description: Fields that describe the resources which container orchestrators manage or act upon. fields: orchestrator.api_version: dashed_name: orchestrator-api-version description: API version being used to carry out the action example: v1beta1 flat_name: orchestrator.api_version ignore_above: 1024 level: extended name: api_version normalize: [] short: API version being used to carry out the action type: keyword orchestrator.cluster.id: dashed_name: orchestrator-cluster-id description: Unique ID of the cluster. flat_name: orchestrator.cluster.id ignore_above: 1024 level: extended name: cluster.id normalize: [] short: Unique ID of the cluster. type: keyword orchestrator.cluster.name: dashed_name: orchestrator-cluster-name description: Name of the cluster. flat_name: orchestrator.cluster.name ignore_above: 1024 level: extended name: cluster.name normalize: [] short: Name of the cluster. type: keyword orchestrator.cluster.url: dashed_name: orchestrator-cluster-url description: URL of the API used to manage the cluster. flat_name: orchestrator.cluster.url ignore_above: 1024 level: extended name: cluster.url normalize: [] short: URL of the API used to manage the cluster. type: keyword orchestrator.cluster.version: dashed_name: orchestrator-cluster-version description: The version of the cluster. flat_name: orchestrator.cluster.version ignore_above: 1024 level: extended name: cluster.version normalize: [] short: The version of the cluster. type: keyword orchestrator.namespace: dashed_name: orchestrator-namespace description: Namespace in which the action is taking place. example: kube-system flat_name: orchestrator.namespace ignore_above: 1024 level: extended name: namespace normalize: [] short: Namespace in which the action is taking place. type: keyword orchestrator.organization: dashed_name: orchestrator-organization description: Organization affected by the event (for multi-tenant orchestrator setups). example: elastic flat_name: orchestrator.organization ignore_above: 1024 level: extended name: organization normalize: [] short: Organization affected by the event (for multi-tenant orchestrator setups). type: keyword orchestrator.resource.id: dashed_name: orchestrator-resource-id description: Unique ID of the resource being acted upon. flat_name: orchestrator.resource.id ignore_above: 1024 level: extended name: resource.id normalize: [] short: Unique ID of the resource being acted upon. type: keyword orchestrator.resource.ip: dashed_name: orchestrator-resource-ip description: 'IP address assigned to the resource associated with the event being observed. In the case of a Kubernetes Pod, this array would contain only one element: the IP of the Pod (as opposed to the Node on which the Pod is running).' flat_name: orchestrator.resource.ip level: extended name: resource.ip normalize: - array short: IP address assigned to the resource associated with the event being observed. type: ip orchestrator.resource.name: dashed_name: orchestrator-resource-name description: Name of the resource being acted upon. example: test-pod-cdcws flat_name: orchestrator.resource.name ignore_above: 1024 level: extended name: resource.name normalize: [] short: Name of the resource being acted upon. type: keyword orchestrator.resource.parent.type: dashed_name: orchestrator-resource-parent-type description: Type or kind of the parent resource associated with the event being observed. In Kubernetes, this will be the name of a built-in workload resource (e.g., Deployment, StatefulSet, DaemonSet). example: DaemonSet flat_name: orchestrator.resource.parent.type ignore_above: 1024 level: extended name: resource.parent.type normalize: [] short: Type or kind of the parent resource associated with the event being observed. type: keyword orchestrator.resource.type: dashed_name: orchestrator-resource-type description: Type of resource being acted upon. example: service flat_name: orchestrator.resource.type ignore_above: 1024 level: extended name: resource.type normalize: [] short: Type of resource being acted upon. type: keyword orchestrator.type: dashed_name: orchestrator-type description: Orchestrator cluster type (e.g. kubernetes, nomad or cloudfoundry). example: kubernetes flat_name: orchestrator.type ignore_above: 1024 level: extended name: type normalize: [] short: Orchestrator cluster type (e.g. kubernetes, nomad or cloudfoundry). type: keyword group: 2 name: orchestrator prefix: orchestrator. short: Fields relevant to container orchestrators. title: Orchestrator type: group organization: description: 'The organization fields enrich data with information about the company or entity the data is associated with. These fields help you arrange or filter data stored in an index by one or multiple organizations.' fields: organization.id: dashed_name: organization-id description: Unique identifier for the organization. flat_name: organization.id ignore_above: 1024 level: extended name: id normalize: [] short: Unique identifier for the organization. type: keyword organization.name: dashed_name: organization-name description: Organization name. flat_name: organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: organization.name.text name: text type: match_only_text name: name normalize: [] short: Organization name. type: keyword group: 2 name: organization prefix: organization. short: Fields describing the organization or company the event is associated with. title: Organization type: group os: description: The OS fields contain information about the operating system. fields: os.family: dashed_name: os-family description: OS family (such as redhat, debian, freebsd, windows). example: debian flat_name: os.family ignore_above: 1024 level: extended name: family normalize: [] short: OS family (such as redhat, debian, freebsd, windows). type: keyword os.full: dashed_name: os-full description: Operating system name, including the version or code name. example: Mac OS Mojave flat_name: os.full ignore_above: 1024 level: extended multi_fields: - flat_name: os.full.text name: text type: match_only_text name: full normalize: [] short: Operating system name, including the version or code name. type: keyword os.kernel: dashed_name: os-kernel description: Operating system kernel version as a raw string. example: 4.4.0-112-generic flat_name: os.kernel ignore_above: 1024 level: extended name: kernel normalize: [] short: Operating system kernel version as a raw string. type: keyword os.name: dashed_name: os-name description: Operating system name, without the version. example: Mac OS X flat_name: os.name ignore_above: 1024 level: extended multi_fields: - flat_name: os.name.text name: text type: match_only_text name: name normalize: [] short: Operating system name, without the version. type: keyword os.platform: dashed_name: os-platform description: Operating system platform (such centos, ubuntu, windows). example: darwin flat_name: os.platform ignore_above: 1024 level: extended name: platform normalize: [] short: Operating system platform (such centos, ubuntu, windows). type: keyword os.type: dashed_name: os-type description: 'Use the `os.type` field to categorize the operating system into one of the broad commercial families. If the OS you''re dealing with is not listed as an expected value, the field should not be populated. Please let us know by opening an issue with ECS, to propose its addition.' example: macos expected_values: - linux - macos - unix - windows - ios - android flat_name: os.type ignore_above: 1024 level: extended name: type normalize: [] short: 'Which commercial OS family (one of: linux, macos, unix, windows, ios or android).' type: keyword os.version: dashed_name: os-version description: Operating system version as a raw string. example: 10.14.1 flat_name: os.version ignore_above: 1024 level: extended name: version normalize: [] short: Operating system version as a raw string. type: keyword group: 2 name: os prefix: os. reusable: expected: - as: os at: observer full: observer.os - as: os at: host full: host.os - as: os at: user_agent full: user_agent.os top_level: false short: OS fields contain information about the operating system. title: Operating System type: group package: description: These fields contain information about an installed software package. It contains general information about a package, such as name, version or size. It also contains installation details, such as time or location. fields: package.architecture: dashed_name: package-architecture description: Package architecture. example: x86_64 flat_name: package.architecture ignore_above: 1024 level: extended name: architecture normalize: [] short: Package architecture. type: keyword package.build_version: dashed_name: package-build-version description: 'Additional information about the build version of the installed package. For example use the commit SHA of a non-released package.' example: 36f4f7e89dd61b0988b12ee000b98966867710cd flat_name: package.build_version ignore_above: 1024 level: extended name: build_version normalize: [] short: Build version information type: keyword package.checksum: dashed_name: package-checksum description: Checksum of the installed package for verification. example: 68b329da9893e34099c7d8ad5cb9c940 flat_name: package.checksum ignore_above: 1024 level: extended name: checksum normalize: [] short: Checksum of the installed package for verification. type: keyword package.description: dashed_name: package-description description: Description of the package. example: Open source programming language to build simple/reliable/efficient software. flat_name: package.description ignore_above: 1024 level: extended name: description normalize: [] short: Description of the package. type: keyword package.install_scope: dashed_name: package-install-scope description: Indicating how the package was installed, e.g. user-local, global. example: global flat_name: package.install_scope ignore_above: 1024 level: extended name: install_scope normalize: [] short: Indicating how the package was installed, e.g. user-local, global. type: keyword package.installed: dashed_name: package-installed description: Time when package was installed. flat_name: package.installed level: extended name: installed normalize: [] short: Time when package was installed. type: date package.license: dashed_name: package-license description: 'License under which the package was released. Use a short name, e.g. the license identifier from SPDX License List where possible (https://spdx.org/licenses/).' example: Apache License 2.0 flat_name: package.license ignore_above: 1024 level: extended name: license normalize: [] short: Package license type: keyword package.name: dashed_name: package-name description: Package name example: go flat_name: package.name ignore_above: 1024 level: extended name: name normalize: [] short: Package name type: keyword package.path: dashed_name: package-path description: Path where the package is installed. example: /usr/local/Cellar/go/1.12.9/ flat_name: package.path ignore_above: 1024 level: extended name: path normalize: [] short: Path where the package is installed. type: keyword package.reference: dashed_name: package-reference description: Home page or reference URL of the software in this package, if available. example: https://golang.org flat_name: package.reference ignore_above: 1024 level: extended name: reference normalize: [] short: Package home page or reference URL type: keyword package.size: dashed_name: package-size description: Package size in bytes. example: 62231 flat_name: package.size format: string level: extended name: size normalize: [] short: Package size in bytes. type: long package.type: dashed_name: package-type description: 'Type of package. This should contain the package file type, rather than the package manager name. Examples: rpm, dpkg, brew, npm, gem, nupkg, jar.' example: rpm flat_name: package.type ignore_above: 1024 level: extended name: type normalize: [] short: Package type type: keyword package.version: dashed_name: package-version description: Package version example: 1.12.9 flat_name: package.version ignore_above: 1024 level: extended name: version normalize: [] short: Package version type: keyword group: 2 name: package prefix: package. short: These fields contain information about an installed software package. title: Package type: group pe: description: These fields contain Windows Portable Executable (PE) metadata. fields: pe.architecture: dashed_name: pe-architecture description: CPU architecture target for the file. example: x64 flat_name: pe.architecture ignore_above: 1024 level: extended name: architecture normalize: [] short: CPU architecture target for the file. type: keyword pe.company: dashed_name: pe-company description: Internal company name of the file, provided at compile-time. example: Microsoft Corporation flat_name: pe.company ignore_above: 1024 level: extended name: company normalize: [] short: Internal company name of the file, provided at compile-time. type: keyword pe.description: dashed_name: pe-description description: Internal description of the file, provided at compile-time. example: Paint flat_name: pe.description ignore_above: 1024 level: extended name: description normalize: [] short: Internal description of the file, provided at compile-time. type: keyword pe.file_version: dashed_name: pe-file-version description: Internal version of the file, provided at compile-time. example: 6.3.9600.17415 flat_name: pe.file_version ignore_above: 1024 level: extended name: file_version normalize: [] short: Process name. type: keyword pe.imphash: dashed_name: pe-imphash description: 'A hash of the imports in a PE file. An imphash -- or import hash -- can be used to fingerprint binaries even after recompilation or other code-level transformations have occurred, which would change more traditional hash values. Learn more at https://www.fireeye.com/blog/threat-research/2014/01/tracking-malware-import-hashing.html.' example: 0c6803c4e922103c4dca5963aad36ddf flat_name: pe.imphash ignore_above: 1024 level: extended name: imphash normalize: [] short: A hash of the imports in a PE file. type: keyword pe.original_file_name: dashed_name: pe-original-file-name description: Internal name of the file, provided at compile-time. example: MSPAINT.EXE flat_name: pe.original_file_name ignore_above: 1024 level: extended name: original_file_name normalize: [] short: Internal name of the file, provided at compile-time. type: keyword pe.pehash: dashed_name: pe-pehash description: 'A hash of the PE header and data from one or more PE sections. An pehash can be used to cluster files by transforming structural information about a file into a hash value. Learn more at https://www.usenix.org/legacy/events/leet09/tech/full_papers/wicherski/wicherski_html/index.html.' example: 73ff189b63cd6be375a7ff25179a38d347651975 flat_name: pe.pehash ignore_above: 1024 level: extended name: pehash normalize: [] short: A hash of the PE header and data from one or more PE sections. type: keyword pe.product: dashed_name: pe-product description: Internal product name of the file, provided at compile-time. example: "Microsoft\xAE Windows\xAE Operating System" flat_name: pe.product ignore_above: 1024 level: extended name: product normalize: [] short: Internal product name of the file, provided at compile-time. type: keyword group: 2 name: pe prefix: pe. reusable: expected: - as: pe at: file full: file.pe - as: pe at: dll full: dll.pe - as: pe at: process full: process.pe top_level: false short: These fields contain Windows Portable Executable (PE) metadata. title: PE Header type: group process: description: 'These fields contain information about a process. These fields can help you correlate metrics information with a process id/name from a log message. The `process.pid` often stays in the metric itself and is copied to the global field for correlation.' fields: process.args: dashed_name: process-args description: 'Array of process arguments, starting with the absolute path to the executable. May be filtered to protect sensitive information.' example: '["/usr/bin/ssh", "-l", "user", "10.0.0.16"]' flat_name: process.args ignore_above: 1024 level: extended name: args normalize: - array short: Array of process arguments. type: keyword process.args_count: dashed_name: process-args-count description: 'Length of the process.args array. This field can be useful for querying or performing bucket analysis on how many arguments were provided to start a process. More arguments may be an indication of suspicious activity.' example: 4 flat_name: process.args_count level: extended name: args_count normalize: [] short: Length of the process.args array. type: long process.code_signature.digest_algorithm: dashed_name: process-code-signature-digest-algorithm description: 'The hashing algorithm used to sign the process. This value can distinguish signatures when a file is signed multiple times by the same signer but with a different digest algorithm.' example: sha256 flat_name: process.code_signature.digest_algorithm ignore_above: 1024 level: extended name: digest_algorithm normalize: [] original_fieldset: code_signature short: Hashing algorithm used to sign the process. type: keyword process.code_signature.exists: dashed_name: process-code-signature-exists description: Boolean to capture if a signature is present. example: 'true' flat_name: process.code_signature.exists level: core name: exists normalize: [] original_fieldset: code_signature short: Boolean to capture if a signature is present. type: boolean process.code_signature.signing_id: dashed_name: process-code-signature-signing-id description: 'The identifier used to sign the process. This is used to identify the application manufactured by a software vendor. The field is relevant to Apple *OS only.' example: com.apple.xpc.proxy flat_name: process.code_signature.signing_id ignore_above: 1024 level: extended name: signing_id normalize: [] original_fieldset: code_signature short: The identifier used to sign the process. type: keyword process.code_signature.status: dashed_name: process-code-signature-status description: 'Additional information about the certificate status. This is useful for logging cryptographic errors with the certificate validity or trust status. Leave unpopulated if the validity or trust of the certificate was unchecked.' example: ERROR_UNTRUSTED_ROOT flat_name: process.code_signature.status ignore_above: 1024 level: extended name: status normalize: [] original_fieldset: code_signature short: Additional information about the certificate status. type: keyword process.code_signature.subject_name: dashed_name: process-code-signature-subject-name description: Subject name of the code signer example: Microsoft Corporation flat_name: process.code_signature.subject_name ignore_above: 1024 level: core name: subject_name normalize: [] original_fieldset: code_signature short: Subject name of the code signer type: keyword process.code_signature.team_id: dashed_name: process-code-signature-team-id description: 'The team identifier used to sign the process. This is used to identify the team or vendor of a software product. The field is relevant to Apple *OS only.' example: EQHXZ8M8AV flat_name: process.code_signature.team_id ignore_above: 1024 level: extended name: team_id normalize: [] original_fieldset: code_signature short: The team identifier used to sign the process. type: keyword process.code_signature.timestamp: dashed_name: process-code-signature-timestamp description: Date and time when the code signature was generated and signed. example: '2021-01-01T12:10:30Z' flat_name: process.code_signature.timestamp level: extended name: timestamp normalize: [] original_fieldset: code_signature short: When the signature was generated and signed. type: date process.code_signature.trusted: dashed_name: process-code-signature-trusted description: 'Stores the trust status of the certificate chain. Validating the trust of the certificate chain may be complicated, and this field should only be populated by tools that actively check the status.' example: 'true' flat_name: process.code_signature.trusted level: extended name: trusted normalize: [] original_fieldset: code_signature short: Stores the trust status of the certificate chain. type: boolean process.code_signature.valid: dashed_name: process-code-signature-valid description: 'Boolean to capture if the digital signature is verified against the binary content. Leave unpopulated if a certificate was unchecked.' example: 'true' flat_name: process.code_signature.valid level: extended name: valid normalize: [] original_fieldset: code_signature short: Boolean to capture if the digital signature is verified against the binary content. type: boolean process.command_line: dashed_name: process-command-line description: 'Full command line that started the process, including the absolute path to the executable, and all arguments. Some arguments may be filtered to protect sensitive information.' example: /usr/bin/ssh -l user 10.0.0.16 flat_name: process.command_line level: extended multi_fields: - flat_name: process.command_line.text name: text type: match_only_text name: command_line normalize: [] short: Full command line that started the process. type: wildcard process.elf.architecture: dashed_name: process-elf-architecture description: Machine architecture of the ELF file. example: x86-64 flat_name: process.elf.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: elf short: Machine architecture of the ELF file. type: keyword process.elf.byte_order: dashed_name: process-elf-byte-order description: Byte sequence of ELF file. example: Little Endian flat_name: process.elf.byte_order ignore_above: 1024 level: extended name: byte_order normalize: [] original_fieldset: elf short: Byte sequence of ELF file. type: keyword process.elf.cpu_type: dashed_name: process-elf-cpu-type description: CPU type of the ELF file. example: Intel flat_name: process.elf.cpu_type ignore_above: 1024 level: extended name: cpu_type normalize: [] original_fieldset: elf short: CPU type of the ELF file. type: keyword process.elf.creation_date: dashed_name: process-elf-creation-date description: Extracted when possible from the file's metadata. Indicates when it was built or compiled. It can also be faked by malware creators. flat_name: process.elf.creation_date level: extended name: creation_date normalize: [] original_fieldset: elf short: Build or compile date. type: date process.elf.exports: dashed_name: process-elf-exports description: List of exported element names and types. flat_name: process.elf.exports level: extended name: exports normalize: - array original_fieldset: elf short: List of exported element names and types. type: flattened process.elf.header.abi_version: dashed_name: process-elf-header-abi-version description: Version of the ELF Application Binary Interface (ABI). flat_name: process.elf.header.abi_version ignore_above: 1024 level: extended name: header.abi_version normalize: [] original_fieldset: elf short: Version of the ELF Application Binary Interface (ABI). type: keyword process.elf.header.class: dashed_name: process-elf-header-class description: Header class of the ELF file. flat_name: process.elf.header.class ignore_above: 1024 level: extended name: header.class normalize: [] original_fieldset: elf short: Header class of the ELF file. type: keyword process.elf.header.data: dashed_name: process-elf-header-data description: Data table of the ELF header. flat_name: process.elf.header.data ignore_above: 1024 level: extended name: header.data normalize: [] original_fieldset: elf short: Data table of the ELF header. type: keyword process.elf.header.entrypoint: dashed_name: process-elf-header-entrypoint description: Header entrypoint of the ELF file. flat_name: process.elf.header.entrypoint format: string level: extended name: header.entrypoint normalize: [] original_fieldset: elf short: Header entrypoint of the ELF file. type: long process.elf.header.object_version: dashed_name: process-elf-header-object-version description: '"0x1" for original ELF files.' flat_name: process.elf.header.object_version ignore_above: 1024 level: extended name: header.object_version normalize: [] original_fieldset: elf short: '"0x1" for original ELF files.' type: keyword process.elf.header.os_abi: dashed_name: process-elf-header-os-abi description: Application Binary Interface (ABI) of the Linux OS. flat_name: process.elf.header.os_abi ignore_above: 1024 level: extended name: header.os_abi normalize: [] original_fieldset: elf short: Application Binary Interface (ABI) of the Linux OS. type: keyword process.elf.header.type: dashed_name: process-elf-header-type description: Header type of the ELF file. flat_name: process.elf.header.type ignore_above: 1024 level: extended name: header.type normalize: [] original_fieldset: elf short: Header type of the ELF file. type: keyword process.elf.header.version: dashed_name: process-elf-header-version description: Version of the ELF header. flat_name: process.elf.header.version ignore_above: 1024 level: extended name: header.version normalize: [] original_fieldset: elf short: Version of the ELF header. type: keyword process.elf.imports: dashed_name: process-elf-imports description: List of imported element names and types. flat_name: process.elf.imports level: extended name: imports normalize: - array original_fieldset: elf short: List of imported element names and types. type: flattened process.elf.sections: dashed_name: process-elf-sections description: 'An array containing an object for each section of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.sections.*`.' flat_name: process.elf.sections level: extended name: sections normalize: - array original_fieldset: elf short: Section information of the ELF file. type: nested process.elf.sections.chi2: dashed_name: process-elf-sections-chi2 description: Chi-square probability distribution of the section. flat_name: process.elf.sections.chi2 format: number level: extended name: sections.chi2 normalize: [] original_fieldset: elf short: Chi-square probability distribution of the section. type: long process.elf.sections.entropy: dashed_name: process-elf-sections-entropy description: Shannon entropy calculation from the section. flat_name: process.elf.sections.entropy format: number level: extended name: sections.entropy normalize: [] original_fieldset: elf short: Shannon entropy calculation from the section. type: long process.elf.sections.flags: dashed_name: process-elf-sections-flags description: ELF Section List flags. flat_name: process.elf.sections.flags ignore_above: 1024 level: extended name: sections.flags normalize: [] original_fieldset: elf short: ELF Section List flags. type: keyword process.elf.sections.name: dashed_name: process-elf-sections-name description: ELF Section List name. flat_name: process.elf.sections.name ignore_above: 1024 level: extended name: sections.name normalize: [] original_fieldset: elf short: ELF Section List name. type: keyword process.elf.sections.physical_offset: dashed_name: process-elf-sections-physical-offset description: ELF Section List offset. flat_name: process.elf.sections.physical_offset ignore_above: 1024 level: extended name: sections.physical_offset normalize: [] original_fieldset: elf short: ELF Section List offset. type: keyword process.elf.sections.physical_size: dashed_name: process-elf-sections-physical-size description: ELF Section List physical size. flat_name: process.elf.sections.physical_size format: bytes level: extended name: sections.physical_size normalize: [] original_fieldset: elf short: ELF Section List physical size. type: long process.elf.sections.type: dashed_name: process-elf-sections-type description: ELF Section List type. flat_name: process.elf.sections.type ignore_above: 1024 level: extended name: sections.type normalize: [] original_fieldset: elf short: ELF Section List type. type: keyword process.elf.sections.virtual_address: dashed_name: process-elf-sections-virtual-address description: ELF Section List virtual address. flat_name: process.elf.sections.virtual_address format: string level: extended name: sections.virtual_address normalize: [] original_fieldset: elf short: ELF Section List virtual address. type: long process.elf.sections.virtual_size: dashed_name: process-elf-sections-virtual-size description: ELF Section List virtual size. flat_name: process.elf.sections.virtual_size format: string level: extended name: sections.virtual_size normalize: [] original_fieldset: elf short: ELF Section List virtual size. type: long process.elf.segments: dashed_name: process-elf-segments description: 'An array containing an object for each segment of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.segments.*`.' flat_name: process.elf.segments level: extended name: segments normalize: - array original_fieldset: elf short: ELF object segment list. type: nested process.elf.segments.sections: dashed_name: process-elf-segments-sections description: ELF object segment sections. flat_name: process.elf.segments.sections ignore_above: 1024 level: extended name: segments.sections normalize: [] original_fieldset: elf short: ELF object segment sections. type: keyword process.elf.segments.type: dashed_name: process-elf-segments-type description: ELF object segment type. flat_name: process.elf.segments.type ignore_above: 1024 level: extended name: segments.type normalize: [] original_fieldset: elf short: ELF object segment type. type: keyword process.elf.shared_libraries: dashed_name: process-elf-shared-libraries description: List of shared libraries used by this ELF object. flat_name: process.elf.shared_libraries ignore_above: 1024 level: extended name: shared_libraries normalize: - array original_fieldset: elf short: List of shared libraries used by this ELF object. type: keyword process.elf.telfhash: dashed_name: process-elf-telfhash description: telfhash symbol hash for ELF file. flat_name: process.elf.telfhash ignore_above: 1024 level: extended name: telfhash normalize: [] original_fieldset: elf short: telfhash hash for ELF file. type: keyword process.end: dashed_name: process-end description: The time the process ended. example: '2016-05-23T08:05:34.853Z' flat_name: process.end level: extended name: end normalize: [] short: The time the process ended. type: date process.entity_id: dashed_name: process-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] short: Unique identifier for the process. type: keyword process.entry_leader.args: dashed_name: process-entry-leader-args description: 'Array of process arguments, starting with the absolute path to the executable. May be filtered to protect sensitive information.' example: '["/usr/bin/ssh", "-l", "user", "10.0.0.16"]' flat_name: process.entry_leader.args ignore_above: 1024 level: extended name: args normalize: - array original_fieldset: process short: Array of process arguments. type: keyword process.entry_leader.args_count: dashed_name: process-entry-leader-args-count description: 'Length of the process.args array. This field can be useful for querying or performing bucket analysis on how many arguments were provided to start a process. More arguments may be an indication of suspicious activity.' example: 4 flat_name: process.entry_leader.args_count level: extended name: args_count normalize: [] original_fieldset: process short: Length of the process.args array. type: long process.entry_leader.attested_groups.name: dashed_name: process-entry-leader-attested-groups-name description: Name of the group. flat_name: process.entry_leader.attested_groups.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.entry_leader.attested_user.id: dashed_name: process-entry-leader-attested-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.entry_leader.attested_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.entry_leader.attested_user.name: dashed_name: process-entry-leader-attested-user-name description: Short name or login of the user. example: a.einstein flat_name: process.entry_leader.attested_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.entry_leader.attested_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.entry_leader.command_line: dashed_name: process-entry-leader-command-line description: 'Full command line that started the process, including the absolute path to the executable, and all arguments. Some arguments may be filtered to protect sensitive information.' example: /usr/bin/ssh -l user 10.0.0.16 flat_name: process.entry_leader.command_line level: extended multi_fields: - flat_name: process.entry_leader.command_line.text name: text type: match_only_text name: command_line normalize: [] original_fieldset: process short: Full command line that started the process. type: wildcard process.entry_leader.entity_id: dashed_name: process-entry-leader-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.entry_leader.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.entry_leader.entry_meta.source.ip: dashed_name: process-entry-leader-entry-meta-source-ip description: IP address of the source (IPv4 or IPv6). flat_name: process.entry_leader.entry_meta.source.ip level: core name: ip normalize: [] original_fieldset: source short: IP address of the source. type: ip process.entry_leader.entry_meta.type: dashed_name: process-entry-leader-entry-meta-type description: 'The entry type for the entry session leader. Values include: init(e.g systemd), sshd, ssm, kubelet, teleport, terminal, console Note: This field is only set on process.session_leader.' flat_name: process.entry_leader.entry_meta.type ignore_above: 1024 level: extended name: entry_meta.type normalize: [] original_fieldset: process short: The entry type for the entry session leader. type: keyword process.entry_leader.executable: dashed_name: process-entry-leader-executable description: Absolute path to the process executable. example: /usr/bin/ssh flat_name: process.entry_leader.executable ignore_above: 1024 level: extended multi_fields: - flat_name: process.entry_leader.executable.text name: text type: match_only_text name: executable normalize: [] original_fieldset: process short: Absolute path to the process executable. type: keyword process.entry_leader.group.id: dashed_name: process-entry-leader-group-id description: Unique identifier for the group on the system/platform. flat_name: process.entry_leader.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.entry_leader.group.name: dashed_name: process-entry-leader-group-name description: Name of the group. flat_name: process.entry_leader.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.entry_leader.interactive: dashed_name: process-entry-leader-interactive description: 'Whether the process is connected to an interactive shell. Process interactivity is inferred from the processes file descriptors. If the character device for the controlling tty is the same as stdin and stderr for the process, the process is considered interactive. Note: A non-interactive process can belong to an interactive session and is simply one that does not have open file descriptors reading the controlling TTY on FD 0 (stdin) or writing to the controlling TTY on FD 2 (stderr). A backgrounded process is still considered interactive if stdin and stderr are connected to the controlling TTY.' example: true flat_name: process.entry_leader.interactive level: extended name: interactive normalize: [] original_fieldset: process short: Whether the process is connected to an interactive shell. type: boolean process.entry_leader.name: dashed_name: process-entry-leader-name description: 'Process name. Sometimes called program name or similar.' example: ssh flat_name: process.entry_leader.name ignore_above: 1024 level: extended multi_fields: - flat_name: process.entry_leader.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: process short: Process name. type: keyword process.entry_leader.parent.entity_id: dashed_name: process-entry-leader-parent-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.entry_leader.parent.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.entry_leader.parent.pid: dashed_name: process-entry-leader-parent-pid description: Process id. example: 4242 flat_name: process.entry_leader.parent.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.entry_leader.parent.session_leader.entity_id: dashed_name: process-entry-leader-parent-session-leader-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.entry_leader.parent.session_leader.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.entry_leader.parent.session_leader.pid: dashed_name: process-entry-leader-parent-session-leader-pid description: Process id. example: 4242 flat_name: process.entry_leader.parent.session_leader.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.entry_leader.parent.session_leader.start: dashed_name: process-entry-leader-parent-session-leader-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.entry_leader.parent.session_leader.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.entry_leader.parent.start: dashed_name: process-entry-leader-parent-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.entry_leader.parent.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.entry_leader.pid: dashed_name: process-entry-leader-pid description: Process id. example: 4242 flat_name: process.entry_leader.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.entry_leader.real_group.id: dashed_name: process-entry-leader-real-group-id description: Unique identifier for the group on the system/platform. flat_name: process.entry_leader.real_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.entry_leader.real_group.name: dashed_name: process-entry-leader-real-group-name description: Name of the group. flat_name: process.entry_leader.real_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.entry_leader.real_user.id: dashed_name: process-entry-leader-real-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.entry_leader.real_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.entry_leader.real_user.name: dashed_name: process-entry-leader-real-user-name description: Short name or login of the user. example: a.einstein flat_name: process.entry_leader.real_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.entry_leader.real_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.entry_leader.same_as_process: dashed_name: process-entry-leader-same-as-process description: 'This boolean is used to identify if a leader process is the same as the top level process. For example, if `process.group_leader.same_as_process = true`, it means the process event in question is the leader of its process group. Details under `process.*` like `pid` would be the same under `process.group_leader.*` The same applies for both `process.session_leader` and `process.entry_leader`. This field exists to the benefit of EQL and other rule engines since it''s not possible to compare equality between two fields in a single document. e.g `process.entity_id` = `process.group_leader.entity_id` (top level process is the process group leader) OR `process.entity_id` = `process.entry_leader.entity_id` (top level process is the entry session leader) Instead these rules could be written like: `process.group_leader.same_as_process: true` OR `process.entry_leader.same_as_process: true` Note: This field is only set on `process.entry_leader`, `process.session_leader` and `process.group_leader`.' example: true flat_name: process.entry_leader.same_as_process level: extended name: same_as_process normalize: [] original_fieldset: process short: This boolean is used to identify if a leader process is the same as the top level process. type: boolean process.entry_leader.saved_group.id: dashed_name: process-entry-leader-saved-group-id description: Unique identifier for the group on the system/platform. flat_name: process.entry_leader.saved_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.entry_leader.saved_group.name: dashed_name: process-entry-leader-saved-group-name description: Name of the group. flat_name: process.entry_leader.saved_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.entry_leader.saved_user.id: dashed_name: process-entry-leader-saved-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.entry_leader.saved_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.entry_leader.saved_user.name: dashed_name: process-entry-leader-saved-user-name description: Short name or login of the user. example: a.einstein flat_name: process.entry_leader.saved_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.entry_leader.saved_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.entry_leader.start: dashed_name: process-entry-leader-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.entry_leader.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.entry_leader.supplemental_groups.id: dashed_name: process-entry-leader-supplemental-groups-id description: Unique identifier for the group on the system/platform. flat_name: process.entry_leader.supplemental_groups.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.entry_leader.supplemental_groups.name: dashed_name: process-entry-leader-supplemental-groups-name description: Name of the group. flat_name: process.entry_leader.supplemental_groups.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.entry_leader.tty: dashed_name: process-entry-leader-tty description: Information about the controlling TTY device. If set, the process belongs to an interactive session. flat_name: process.entry_leader.tty level: extended name: tty normalize: [] original_fieldset: process short: Information about the controlling TTY device. type: object process.entry_leader.tty.char_device.major: dashed_name: process-entry-leader-tty-char-device-major description: The major number identifies the driver associated with the device. The character device's major and minor numbers can be algorithmically combined to produce the more familiar terminal identifiers such as "ttyS0" and "pts/0". For more details, please refer to the Linux kernel documentation. example: 4 flat_name: process.entry_leader.tty.char_device.major level: extended name: tty.char_device.major normalize: [] original_fieldset: process short: The TTY character device's major number. type: long process.entry_leader.tty.char_device.minor: dashed_name: process-entry-leader-tty-char-device-minor description: "The minor number is used only by the driver specified by the major\ \ number; other parts of the kernel don\u2019t use it, and merely pass it\ \ along to the driver. It is common for a driver to control several devices;\ \ the minor number provides a way for the driver to differentiate among them." example: 1 flat_name: process.entry_leader.tty.char_device.minor level: extended name: tty.char_device.minor normalize: [] original_fieldset: process short: The TTY character device's minor number. type: long process.entry_leader.user.id: dashed_name: process-entry-leader-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.entry_leader.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.entry_leader.user.name: dashed_name: process-entry-leader-user-name description: Short name or login of the user. example: a.einstein flat_name: process.entry_leader.user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.entry_leader.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.entry_leader.working_directory: dashed_name: process-entry-leader-working-directory description: The working directory of the process. example: /home/alice flat_name: process.entry_leader.working_directory ignore_above: 1024 level: extended multi_fields: - flat_name: process.entry_leader.working_directory.text name: text type: match_only_text name: working_directory normalize: [] original_fieldset: process short: The working directory of the process. type: keyword process.env_vars: beta: This field is beta and subject to change. dashed_name: process-env-vars description: 'Array of environment variable bindings. Captured from a snapshot of the environment at the time of execution. May be filtered to protect sensitive information.' example: '["PATH=/usr/local/bin:/usr/bin", "USER=ubuntu"]' flat_name: process.env_vars ignore_above: 1024 level: extended name: env_vars normalize: - array short: Array of environment variable bindings. type: keyword process.executable: dashed_name: process-executable description: Absolute path to the process executable. example: /usr/bin/ssh flat_name: process.executable ignore_above: 1024 level: extended multi_fields: - flat_name: process.executable.text name: text type: match_only_text name: executable normalize: [] short: Absolute path to the process executable. type: keyword process.exit_code: dashed_name: process-exit-code description: 'The exit code of the process, if this is a termination event. The field should be absent if there is no exit code for the event (e.g. process start).' example: 137 flat_name: process.exit_code level: extended name: exit_code normalize: [] short: The exit code of the process. type: long process.group_leader.args: dashed_name: process-group-leader-args description: 'Array of process arguments, starting with the absolute path to the executable. May be filtered to protect sensitive information.' example: '["/usr/bin/ssh", "-l", "user", "10.0.0.16"]' flat_name: process.group_leader.args ignore_above: 1024 level: extended name: args normalize: - array original_fieldset: process short: Array of process arguments. type: keyword process.group_leader.args_count: dashed_name: process-group-leader-args-count description: 'Length of the process.args array. This field can be useful for querying or performing bucket analysis on how many arguments were provided to start a process. More arguments may be an indication of suspicious activity.' example: 4 flat_name: process.group_leader.args_count level: extended name: args_count normalize: [] original_fieldset: process short: Length of the process.args array. type: long process.group_leader.command_line: dashed_name: process-group-leader-command-line description: 'Full command line that started the process, including the absolute path to the executable, and all arguments. Some arguments may be filtered to protect sensitive information.' example: /usr/bin/ssh -l user 10.0.0.16 flat_name: process.group_leader.command_line level: extended multi_fields: - flat_name: process.group_leader.command_line.text name: text type: match_only_text name: command_line normalize: [] original_fieldset: process short: Full command line that started the process. type: wildcard process.group_leader.entity_id: dashed_name: process-group-leader-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.group_leader.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.group_leader.executable: dashed_name: process-group-leader-executable description: Absolute path to the process executable. example: /usr/bin/ssh flat_name: process.group_leader.executable ignore_above: 1024 level: extended multi_fields: - flat_name: process.group_leader.executable.text name: text type: match_only_text name: executable normalize: [] original_fieldset: process short: Absolute path to the process executable. type: keyword process.group_leader.group.id: dashed_name: process-group-leader-group-id description: Unique identifier for the group on the system/platform. flat_name: process.group_leader.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.group_leader.group.name: dashed_name: process-group-leader-group-name description: Name of the group. flat_name: process.group_leader.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.group_leader.interactive: dashed_name: process-group-leader-interactive description: 'Whether the process is connected to an interactive shell. Process interactivity is inferred from the processes file descriptors. If the character device for the controlling tty is the same as stdin and stderr for the process, the process is considered interactive. Note: A non-interactive process can belong to an interactive session and is simply one that does not have open file descriptors reading the controlling TTY on FD 0 (stdin) or writing to the controlling TTY on FD 2 (stderr). A backgrounded process is still considered interactive if stdin and stderr are connected to the controlling TTY.' example: true flat_name: process.group_leader.interactive level: extended name: interactive normalize: [] original_fieldset: process short: Whether the process is connected to an interactive shell. type: boolean process.group_leader.name: dashed_name: process-group-leader-name description: 'Process name. Sometimes called program name or similar.' example: ssh flat_name: process.group_leader.name ignore_above: 1024 level: extended multi_fields: - flat_name: process.group_leader.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: process short: Process name. type: keyword process.group_leader.pid: dashed_name: process-group-leader-pid description: Process id. example: 4242 flat_name: process.group_leader.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.group_leader.real_group.id: dashed_name: process-group-leader-real-group-id description: Unique identifier for the group on the system/platform. flat_name: process.group_leader.real_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.group_leader.real_group.name: dashed_name: process-group-leader-real-group-name description: Name of the group. flat_name: process.group_leader.real_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.group_leader.real_user.id: dashed_name: process-group-leader-real-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.group_leader.real_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.group_leader.real_user.name: dashed_name: process-group-leader-real-user-name description: Short name or login of the user. example: a.einstein flat_name: process.group_leader.real_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.group_leader.real_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.group_leader.same_as_process: dashed_name: process-group-leader-same-as-process description: 'This boolean is used to identify if a leader process is the same as the top level process. For example, if `process.group_leader.same_as_process = true`, it means the process event in question is the leader of its process group. Details under `process.*` like `pid` would be the same under `process.group_leader.*` The same applies for both `process.session_leader` and `process.entry_leader`. This field exists to the benefit of EQL and other rule engines since it''s not possible to compare equality between two fields in a single document. e.g `process.entity_id` = `process.group_leader.entity_id` (top level process is the process group leader) OR `process.entity_id` = `process.entry_leader.entity_id` (top level process is the entry session leader) Instead these rules could be written like: `process.group_leader.same_as_process: true` OR `process.entry_leader.same_as_process: true` Note: This field is only set on `process.entry_leader`, `process.session_leader` and `process.group_leader`.' example: true flat_name: process.group_leader.same_as_process level: extended name: same_as_process normalize: [] original_fieldset: process short: This boolean is used to identify if a leader process is the same as the top level process. type: boolean process.group_leader.saved_group.id: dashed_name: process-group-leader-saved-group-id description: Unique identifier for the group on the system/platform. flat_name: process.group_leader.saved_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.group_leader.saved_group.name: dashed_name: process-group-leader-saved-group-name description: Name of the group. flat_name: process.group_leader.saved_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.group_leader.saved_user.id: dashed_name: process-group-leader-saved-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.group_leader.saved_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.group_leader.saved_user.name: dashed_name: process-group-leader-saved-user-name description: Short name or login of the user. example: a.einstein flat_name: process.group_leader.saved_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.group_leader.saved_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.group_leader.start: dashed_name: process-group-leader-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.group_leader.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.group_leader.supplemental_groups.id: dashed_name: process-group-leader-supplemental-groups-id description: Unique identifier for the group on the system/platform. flat_name: process.group_leader.supplemental_groups.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.group_leader.supplemental_groups.name: dashed_name: process-group-leader-supplemental-groups-name description: Name of the group. flat_name: process.group_leader.supplemental_groups.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.group_leader.tty: dashed_name: process-group-leader-tty description: Information about the controlling TTY device. If set, the process belongs to an interactive session. flat_name: process.group_leader.tty level: extended name: tty normalize: [] original_fieldset: process short: Information about the controlling TTY device. type: object process.group_leader.tty.char_device.major: dashed_name: process-group-leader-tty-char-device-major description: The major number identifies the driver associated with the device. The character device's major and minor numbers can be algorithmically combined to produce the more familiar terminal identifiers such as "ttyS0" and "pts/0". For more details, please refer to the Linux kernel documentation. example: 4 flat_name: process.group_leader.tty.char_device.major level: extended name: tty.char_device.major normalize: [] original_fieldset: process short: The TTY character device's major number. type: long process.group_leader.tty.char_device.minor: dashed_name: process-group-leader-tty-char-device-minor description: "The minor number is used only by the driver specified by the major\ \ number; other parts of the kernel don\u2019t use it, and merely pass it\ \ along to the driver. It is common for a driver to control several devices;\ \ the minor number provides a way for the driver to differentiate among them." example: 1 flat_name: process.group_leader.tty.char_device.minor level: extended name: tty.char_device.minor normalize: [] original_fieldset: process short: The TTY character device's minor number. type: long process.group_leader.user.id: dashed_name: process-group-leader-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.group_leader.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.group_leader.user.name: dashed_name: process-group-leader-user-name description: Short name or login of the user. example: a.einstein flat_name: process.group_leader.user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.group_leader.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.group_leader.working_directory: dashed_name: process-group-leader-working-directory description: The working directory of the process. example: /home/alice flat_name: process.group_leader.working_directory ignore_above: 1024 level: extended multi_fields: - flat_name: process.group_leader.working_directory.text name: text type: match_only_text name: working_directory normalize: [] original_fieldset: process short: The working directory of the process. type: keyword process.hash.md5: dashed_name: process-hash-md5 description: MD5 hash. flat_name: process.hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] original_fieldset: hash short: MD5 hash. type: keyword process.hash.sha1: dashed_name: process-hash-sha1 description: SHA1 hash. flat_name: process.hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] original_fieldset: hash short: SHA1 hash. type: keyword process.hash.sha256: dashed_name: process-hash-sha256 description: SHA256 hash. flat_name: process.hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] original_fieldset: hash short: SHA256 hash. type: keyword process.hash.sha384: dashed_name: process-hash-sha384 description: SHA384 hash. flat_name: process.hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] original_fieldset: hash short: SHA384 hash. type: keyword process.hash.sha512: dashed_name: process-hash-sha512 description: SHA512 hash. flat_name: process.hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] original_fieldset: hash short: SHA512 hash. type: keyword process.hash.ssdeep: dashed_name: process-hash-ssdeep description: SSDEEP hash. flat_name: process.hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] original_fieldset: hash short: SSDEEP hash. type: keyword process.hash.tlsh: dashed_name: process-hash-tlsh description: TLSH hash. flat_name: process.hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] original_fieldset: hash short: TLSH hash. type: keyword process.interactive: dashed_name: process-interactive description: 'Whether the process is connected to an interactive shell. Process interactivity is inferred from the processes file descriptors. If the character device for the controlling tty is the same as stdin and stderr for the process, the process is considered interactive. Note: A non-interactive process can belong to an interactive session and is simply one that does not have open file descriptors reading the controlling TTY on FD 0 (stdin) or writing to the controlling TTY on FD 2 (stderr). A backgrounded process is still considered interactive if stdin and stderr are connected to the controlling TTY.' example: true flat_name: process.interactive level: extended name: interactive normalize: [] short: Whether the process is connected to an interactive shell. type: boolean process.io: beta: This field is beta and subject to change. dashed_name: process-io description: 'A chunk of input or output (IO) from a single process. This field only appears on the top level process object, which is the process that wrote the output or read the input.' flat_name: process.io level: extended name: io normalize: [] short: A chunk of input or output (IO) from a single process. type: object process.io.bytes_skipped: beta: This field is beta and subject to change. dashed_name: process-io-bytes-skipped description: An array of byte offsets and lengths denoting where IO data has been skipped. flat_name: process.io.bytes_skipped level: extended name: io.bytes_skipped normalize: - array short: An array of byte offsets and lengths denoting where IO data has been skipped. type: object process.io.bytes_skipped.length: beta: This field is beta and subject to change. dashed_name: process-io-bytes-skipped-length description: The length of bytes skipped. flat_name: process.io.bytes_skipped.length level: extended name: io.bytes_skipped.length normalize: [] short: The length of bytes skipped. type: long process.io.bytes_skipped.offset: beta: This field is beta and subject to change. dashed_name: process-io-bytes-skipped-offset description: The byte offset into this event's io.text (or io.bytes in the future) where length bytes were skipped. flat_name: process.io.bytes_skipped.offset level: extended name: io.bytes_skipped.offset normalize: [] short: The byte offset into this event's io.text (or io.bytes in the future) where length bytes were skipped. type: long process.io.max_bytes_per_process_exceeded: beta: This field is beta and subject to change. dashed_name: process-io-max-bytes-per-process-exceeded description: If true, the process producing the output has exceeded the max_kilobytes_per_process configuration setting. flat_name: process.io.max_bytes_per_process_exceeded level: extended name: io.max_bytes_per_process_exceeded normalize: [] short: If true, the process producing the output has exceeded the max_kilobytes_per_process configuration setting. type: boolean process.io.text: beta: This field is beta and subject to change. dashed_name: process-io-text description: 'A chunk of output or input sanitized to UTF-8. Best efforts are made to ensure complete lines are captured in these events. Assumptions should NOT be made that multiple lines will appear in the same event. TTY output may contain terminal control codes such as for cursor movement, so some string queries may not match due to terminal codes inserted between characters of a word.' flat_name: process.io.text level: extended name: io.text normalize: [] short: A chunk of output or input sanitized to UTF-8. type: wildcard process.io.total_bytes_captured: beta: This field is beta and subject to change. dashed_name: process-io-total-bytes-captured description: The total number of bytes captured in this event. flat_name: process.io.total_bytes_captured level: extended name: io.total_bytes_captured normalize: [] short: The total number of bytes captured in this event. type: long process.io.total_bytes_skipped: beta: This field is beta and subject to change. dashed_name: process-io-total-bytes-skipped description: The total number of bytes that were not captured due to implementation restrictions such as buffer size limits. Implementors should strive to ensure this value is always zero flat_name: process.io.total_bytes_skipped level: extended name: io.total_bytes_skipped normalize: [] short: The total number of bytes that were not captured due to implementation restrictions such as buffer size limits. type: long process.io.type: beta: This field is beta and subject to change. dashed_name: process-io-type description: 'The type of object on which the IO action (read or write) was taken. Currently only ''tty'' is supported. Other types may be added in the future for ''file'' and ''socket'' support.' flat_name: process.io.type ignore_above: 1024 level: extended name: io.type normalize: [] short: The type of object on which the IO action (read or write) was taken. type: keyword process.name: dashed_name: process-name description: 'Process name. Sometimes called program name or similar.' example: ssh flat_name: process.name ignore_above: 1024 level: extended multi_fields: - flat_name: process.name.text name: text type: match_only_text name: name normalize: [] short: Process name. type: keyword process.parent.args: dashed_name: process-parent-args description: 'Array of process arguments, starting with the absolute path to the executable. May be filtered to protect sensitive information.' example: '["/usr/bin/ssh", "-l", "user", "10.0.0.16"]' flat_name: process.parent.args ignore_above: 1024 level: extended name: args normalize: - array original_fieldset: process short: Array of process arguments. type: keyword process.parent.args_count: dashed_name: process-parent-args-count description: 'Length of the process.args array. This field can be useful for querying or performing bucket analysis on how many arguments were provided to start a process. More arguments may be an indication of suspicious activity.' example: 4 flat_name: process.parent.args_count level: extended name: args_count normalize: [] original_fieldset: process short: Length of the process.args array. type: long process.parent.code_signature.digest_algorithm: dashed_name: process-parent-code-signature-digest-algorithm description: 'The hashing algorithm used to sign the process. This value can distinguish signatures when a file is signed multiple times by the same signer but with a different digest algorithm.' example: sha256 flat_name: process.parent.code_signature.digest_algorithm ignore_above: 1024 level: extended name: digest_algorithm normalize: [] original_fieldset: code_signature short: Hashing algorithm used to sign the process. type: keyword process.parent.code_signature.exists: dashed_name: process-parent-code-signature-exists description: Boolean to capture if a signature is present. example: 'true' flat_name: process.parent.code_signature.exists level: core name: exists normalize: [] original_fieldset: code_signature short: Boolean to capture if a signature is present. type: boolean process.parent.code_signature.signing_id: dashed_name: process-parent-code-signature-signing-id description: 'The identifier used to sign the process. This is used to identify the application manufactured by a software vendor. The field is relevant to Apple *OS only.' example: com.apple.xpc.proxy flat_name: process.parent.code_signature.signing_id ignore_above: 1024 level: extended name: signing_id normalize: [] original_fieldset: code_signature short: The identifier used to sign the process. type: keyword process.parent.code_signature.status: dashed_name: process-parent-code-signature-status description: 'Additional information about the certificate status. This is useful for logging cryptographic errors with the certificate validity or trust status. Leave unpopulated if the validity or trust of the certificate was unchecked.' example: ERROR_UNTRUSTED_ROOT flat_name: process.parent.code_signature.status ignore_above: 1024 level: extended name: status normalize: [] original_fieldset: code_signature short: Additional information about the certificate status. type: keyword process.parent.code_signature.subject_name: dashed_name: process-parent-code-signature-subject-name description: Subject name of the code signer example: Microsoft Corporation flat_name: process.parent.code_signature.subject_name ignore_above: 1024 level: core name: subject_name normalize: [] original_fieldset: code_signature short: Subject name of the code signer type: keyword process.parent.code_signature.team_id: dashed_name: process-parent-code-signature-team-id description: 'The team identifier used to sign the process. This is used to identify the team or vendor of a software product. The field is relevant to Apple *OS only.' example: EQHXZ8M8AV flat_name: process.parent.code_signature.team_id ignore_above: 1024 level: extended name: team_id normalize: [] original_fieldset: code_signature short: The team identifier used to sign the process. type: keyword process.parent.code_signature.timestamp: dashed_name: process-parent-code-signature-timestamp description: Date and time when the code signature was generated and signed. example: '2021-01-01T12:10:30Z' flat_name: process.parent.code_signature.timestamp level: extended name: timestamp normalize: [] original_fieldset: code_signature short: When the signature was generated and signed. type: date process.parent.code_signature.trusted: dashed_name: process-parent-code-signature-trusted description: 'Stores the trust status of the certificate chain. Validating the trust of the certificate chain may be complicated, and this field should only be populated by tools that actively check the status.' example: 'true' flat_name: process.parent.code_signature.trusted level: extended name: trusted normalize: [] original_fieldset: code_signature short: Stores the trust status of the certificate chain. type: boolean process.parent.code_signature.valid: dashed_name: process-parent-code-signature-valid description: 'Boolean to capture if the digital signature is verified against the binary content. Leave unpopulated if a certificate was unchecked.' example: 'true' flat_name: process.parent.code_signature.valid level: extended name: valid normalize: [] original_fieldset: code_signature short: Boolean to capture if the digital signature is verified against the binary content. type: boolean process.parent.command_line: dashed_name: process-parent-command-line description: 'Full command line that started the process, including the absolute path to the executable, and all arguments. Some arguments may be filtered to protect sensitive information.' example: /usr/bin/ssh -l user 10.0.0.16 flat_name: process.parent.command_line level: extended multi_fields: - flat_name: process.parent.command_line.text name: text type: match_only_text name: command_line normalize: [] original_fieldset: process short: Full command line that started the process. type: wildcard process.parent.elf.architecture: dashed_name: process-parent-elf-architecture description: Machine architecture of the ELF file. example: x86-64 flat_name: process.parent.elf.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: elf short: Machine architecture of the ELF file. type: keyword process.parent.elf.byte_order: dashed_name: process-parent-elf-byte-order description: Byte sequence of ELF file. example: Little Endian flat_name: process.parent.elf.byte_order ignore_above: 1024 level: extended name: byte_order normalize: [] original_fieldset: elf short: Byte sequence of ELF file. type: keyword process.parent.elf.cpu_type: dashed_name: process-parent-elf-cpu-type description: CPU type of the ELF file. example: Intel flat_name: process.parent.elf.cpu_type ignore_above: 1024 level: extended name: cpu_type normalize: [] original_fieldset: elf short: CPU type of the ELF file. type: keyword process.parent.elf.creation_date: dashed_name: process-parent-elf-creation-date description: Extracted when possible from the file's metadata. Indicates when it was built or compiled. It can also be faked by malware creators. flat_name: process.parent.elf.creation_date level: extended name: creation_date normalize: [] original_fieldset: elf short: Build or compile date. type: date process.parent.elf.exports: dashed_name: process-parent-elf-exports description: List of exported element names and types. flat_name: process.parent.elf.exports level: extended name: exports normalize: - array original_fieldset: elf short: List of exported element names and types. type: flattened process.parent.elf.header.abi_version: dashed_name: process-parent-elf-header-abi-version description: Version of the ELF Application Binary Interface (ABI). flat_name: process.parent.elf.header.abi_version ignore_above: 1024 level: extended name: header.abi_version normalize: [] original_fieldset: elf short: Version of the ELF Application Binary Interface (ABI). type: keyword process.parent.elf.header.class: dashed_name: process-parent-elf-header-class description: Header class of the ELF file. flat_name: process.parent.elf.header.class ignore_above: 1024 level: extended name: header.class normalize: [] original_fieldset: elf short: Header class of the ELF file. type: keyword process.parent.elf.header.data: dashed_name: process-parent-elf-header-data description: Data table of the ELF header. flat_name: process.parent.elf.header.data ignore_above: 1024 level: extended name: header.data normalize: [] original_fieldset: elf short: Data table of the ELF header. type: keyword process.parent.elf.header.entrypoint: dashed_name: process-parent-elf-header-entrypoint description: Header entrypoint of the ELF file. flat_name: process.parent.elf.header.entrypoint format: string level: extended name: header.entrypoint normalize: [] original_fieldset: elf short: Header entrypoint of the ELF file. type: long process.parent.elf.header.object_version: dashed_name: process-parent-elf-header-object-version description: '"0x1" for original ELF files.' flat_name: process.parent.elf.header.object_version ignore_above: 1024 level: extended name: header.object_version normalize: [] original_fieldset: elf short: '"0x1" for original ELF files.' type: keyword process.parent.elf.header.os_abi: dashed_name: process-parent-elf-header-os-abi description: Application Binary Interface (ABI) of the Linux OS. flat_name: process.parent.elf.header.os_abi ignore_above: 1024 level: extended name: header.os_abi normalize: [] original_fieldset: elf short: Application Binary Interface (ABI) of the Linux OS. type: keyword process.parent.elf.header.type: dashed_name: process-parent-elf-header-type description: Header type of the ELF file. flat_name: process.parent.elf.header.type ignore_above: 1024 level: extended name: header.type normalize: [] original_fieldset: elf short: Header type of the ELF file. type: keyword process.parent.elf.header.version: dashed_name: process-parent-elf-header-version description: Version of the ELF header. flat_name: process.parent.elf.header.version ignore_above: 1024 level: extended name: header.version normalize: [] original_fieldset: elf short: Version of the ELF header. type: keyword process.parent.elf.imports: dashed_name: process-parent-elf-imports description: List of imported element names and types. flat_name: process.parent.elf.imports level: extended name: imports normalize: - array original_fieldset: elf short: List of imported element names and types. type: flattened process.parent.elf.sections: dashed_name: process-parent-elf-sections description: 'An array containing an object for each section of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.sections.*`.' flat_name: process.parent.elf.sections level: extended name: sections normalize: - array original_fieldset: elf short: Section information of the ELF file. type: nested process.parent.elf.sections.chi2: dashed_name: process-parent-elf-sections-chi2 description: Chi-square probability distribution of the section. flat_name: process.parent.elf.sections.chi2 format: number level: extended name: sections.chi2 normalize: [] original_fieldset: elf short: Chi-square probability distribution of the section. type: long process.parent.elf.sections.entropy: dashed_name: process-parent-elf-sections-entropy description: Shannon entropy calculation from the section. flat_name: process.parent.elf.sections.entropy format: number level: extended name: sections.entropy normalize: [] original_fieldset: elf short: Shannon entropy calculation from the section. type: long process.parent.elf.sections.flags: dashed_name: process-parent-elf-sections-flags description: ELF Section List flags. flat_name: process.parent.elf.sections.flags ignore_above: 1024 level: extended name: sections.flags normalize: [] original_fieldset: elf short: ELF Section List flags. type: keyword process.parent.elf.sections.name: dashed_name: process-parent-elf-sections-name description: ELF Section List name. flat_name: process.parent.elf.sections.name ignore_above: 1024 level: extended name: sections.name normalize: [] original_fieldset: elf short: ELF Section List name. type: keyword process.parent.elf.sections.physical_offset: dashed_name: process-parent-elf-sections-physical-offset description: ELF Section List offset. flat_name: process.parent.elf.sections.physical_offset ignore_above: 1024 level: extended name: sections.physical_offset normalize: [] original_fieldset: elf short: ELF Section List offset. type: keyword process.parent.elf.sections.physical_size: dashed_name: process-parent-elf-sections-physical-size description: ELF Section List physical size. flat_name: process.parent.elf.sections.physical_size format: bytes level: extended name: sections.physical_size normalize: [] original_fieldset: elf short: ELF Section List physical size. type: long process.parent.elf.sections.type: dashed_name: process-parent-elf-sections-type description: ELF Section List type. flat_name: process.parent.elf.sections.type ignore_above: 1024 level: extended name: sections.type normalize: [] original_fieldset: elf short: ELF Section List type. type: keyword process.parent.elf.sections.virtual_address: dashed_name: process-parent-elf-sections-virtual-address description: ELF Section List virtual address. flat_name: process.parent.elf.sections.virtual_address format: string level: extended name: sections.virtual_address normalize: [] original_fieldset: elf short: ELF Section List virtual address. type: long process.parent.elf.sections.virtual_size: dashed_name: process-parent-elf-sections-virtual-size description: ELF Section List virtual size. flat_name: process.parent.elf.sections.virtual_size format: string level: extended name: sections.virtual_size normalize: [] original_fieldset: elf short: ELF Section List virtual size. type: long process.parent.elf.segments: dashed_name: process-parent-elf-segments description: 'An array containing an object for each segment of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.segments.*`.' flat_name: process.parent.elf.segments level: extended name: segments normalize: - array original_fieldset: elf short: ELF object segment list. type: nested process.parent.elf.segments.sections: dashed_name: process-parent-elf-segments-sections description: ELF object segment sections. flat_name: process.parent.elf.segments.sections ignore_above: 1024 level: extended name: segments.sections normalize: [] original_fieldset: elf short: ELF object segment sections. type: keyword process.parent.elf.segments.type: dashed_name: process-parent-elf-segments-type description: ELF object segment type. flat_name: process.parent.elf.segments.type ignore_above: 1024 level: extended name: segments.type normalize: [] original_fieldset: elf short: ELF object segment type. type: keyword process.parent.elf.shared_libraries: dashed_name: process-parent-elf-shared-libraries description: List of shared libraries used by this ELF object. flat_name: process.parent.elf.shared_libraries ignore_above: 1024 level: extended name: shared_libraries normalize: - array original_fieldset: elf short: List of shared libraries used by this ELF object. type: keyword process.parent.elf.telfhash: dashed_name: process-parent-elf-telfhash description: telfhash symbol hash for ELF file. flat_name: process.parent.elf.telfhash ignore_above: 1024 level: extended name: telfhash normalize: [] original_fieldset: elf short: telfhash hash for ELF file. type: keyword process.parent.end: dashed_name: process-parent-end description: The time the process ended. example: '2016-05-23T08:05:34.853Z' flat_name: process.parent.end level: extended name: end normalize: [] original_fieldset: process short: The time the process ended. type: date process.parent.entity_id: dashed_name: process-parent-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.parent.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.parent.executable: dashed_name: process-parent-executable description: Absolute path to the process executable. example: /usr/bin/ssh flat_name: process.parent.executable ignore_above: 1024 level: extended multi_fields: - flat_name: process.parent.executable.text name: text type: match_only_text name: executable normalize: [] original_fieldset: process short: Absolute path to the process executable. type: keyword process.parent.exit_code: dashed_name: process-parent-exit-code description: 'The exit code of the process, if this is a termination event. The field should be absent if there is no exit code for the event (e.g. process start).' example: 137 flat_name: process.parent.exit_code level: extended name: exit_code normalize: [] original_fieldset: process short: The exit code of the process. type: long process.parent.group.id: dashed_name: process-parent-group-id description: Unique identifier for the group on the system/platform. flat_name: process.parent.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.parent.group.name: dashed_name: process-parent-group-name description: Name of the group. flat_name: process.parent.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.parent.group_leader.entity_id: dashed_name: process-parent-group-leader-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.parent.group_leader.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.parent.group_leader.pid: dashed_name: process-parent-group-leader-pid description: Process id. example: 4242 flat_name: process.parent.group_leader.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.parent.group_leader.start: dashed_name: process-parent-group-leader-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.parent.group_leader.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.parent.hash.md5: dashed_name: process-parent-hash-md5 description: MD5 hash. flat_name: process.parent.hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] original_fieldset: hash short: MD5 hash. type: keyword process.parent.hash.sha1: dashed_name: process-parent-hash-sha1 description: SHA1 hash. flat_name: process.parent.hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] original_fieldset: hash short: SHA1 hash. type: keyword process.parent.hash.sha256: dashed_name: process-parent-hash-sha256 description: SHA256 hash. flat_name: process.parent.hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] original_fieldset: hash short: SHA256 hash. type: keyword process.parent.hash.sha384: dashed_name: process-parent-hash-sha384 description: SHA384 hash. flat_name: process.parent.hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] original_fieldset: hash short: SHA384 hash. type: keyword process.parent.hash.sha512: dashed_name: process-parent-hash-sha512 description: SHA512 hash. flat_name: process.parent.hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] original_fieldset: hash short: SHA512 hash. type: keyword process.parent.hash.ssdeep: dashed_name: process-parent-hash-ssdeep description: SSDEEP hash. flat_name: process.parent.hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] original_fieldset: hash short: SSDEEP hash. type: keyword process.parent.hash.tlsh: dashed_name: process-parent-hash-tlsh description: TLSH hash. flat_name: process.parent.hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] original_fieldset: hash short: TLSH hash. type: keyword process.parent.interactive: dashed_name: process-parent-interactive description: 'Whether the process is connected to an interactive shell. Process interactivity is inferred from the processes file descriptors. If the character device for the controlling tty is the same as stdin and stderr for the process, the process is considered interactive. Note: A non-interactive process can belong to an interactive session and is simply one that does not have open file descriptors reading the controlling TTY on FD 0 (stdin) or writing to the controlling TTY on FD 2 (stderr). A backgrounded process is still considered interactive if stdin and stderr are connected to the controlling TTY.' example: true flat_name: process.parent.interactive level: extended name: interactive normalize: [] original_fieldset: process short: Whether the process is connected to an interactive shell. type: boolean process.parent.name: dashed_name: process-parent-name description: 'Process name. Sometimes called program name or similar.' example: ssh flat_name: process.parent.name ignore_above: 1024 level: extended multi_fields: - flat_name: process.parent.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: process short: Process name. type: keyword process.parent.pe.architecture: dashed_name: process-parent-pe-architecture description: CPU architecture target for the file. example: x64 flat_name: process.parent.pe.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: pe short: CPU architecture target for the file. type: keyword process.parent.pe.company: dashed_name: process-parent-pe-company description: Internal company name of the file, provided at compile-time. example: Microsoft Corporation flat_name: process.parent.pe.company ignore_above: 1024 level: extended name: company normalize: [] original_fieldset: pe short: Internal company name of the file, provided at compile-time. type: keyword process.parent.pe.description: dashed_name: process-parent-pe-description description: Internal description of the file, provided at compile-time. example: Paint flat_name: process.parent.pe.description ignore_above: 1024 level: extended name: description normalize: [] original_fieldset: pe short: Internal description of the file, provided at compile-time. type: keyword process.parent.pe.file_version: dashed_name: process-parent-pe-file-version description: Internal version of the file, provided at compile-time. example: 6.3.9600.17415 flat_name: process.parent.pe.file_version ignore_above: 1024 level: extended name: file_version normalize: [] original_fieldset: pe short: Process name. type: keyword process.parent.pe.imphash: dashed_name: process-parent-pe-imphash description: 'A hash of the imports in a PE file. An imphash -- or import hash -- can be used to fingerprint binaries even after recompilation or other code-level transformations have occurred, which would change more traditional hash values. Learn more at https://www.fireeye.com/blog/threat-research/2014/01/tracking-malware-import-hashing.html.' example: 0c6803c4e922103c4dca5963aad36ddf flat_name: process.parent.pe.imphash ignore_above: 1024 level: extended name: imphash normalize: [] original_fieldset: pe short: A hash of the imports in a PE file. type: keyword process.parent.pe.original_file_name: dashed_name: process-parent-pe-original-file-name description: Internal name of the file, provided at compile-time. example: MSPAINT.EXE flat_name: process.parent.pe.original_file_name ignore_above: 1024 level: extended name: original_file_name normalize: [] original_fieldset: pe short: Internal name of the file, provided at compile-time. type: keyword process.parent.pe.pehash: dashed_name: process-parent-pe-pehash description: 'A hash of the PE header and data from one or more PE sections. An pehash can be used to cluster files by transforming structural information about a file into a hash value. Learn more at https://www.usenix.org/legacy/events/leet09/tech/full_papers/wicherski/wicherski_html/index.html.' example: 73ff189b63cd6be375a7ff25179a38d347651975 flat_name: process.parent.pe.pehash ignore_above: 1024 level: extended name: pehash normalize: [] original_fieldset: pe short: A hash of the PE header and data from one or more PE sections. type: keyword process.parent.pe.product: dashed_name: process-parent-pe-product description: Internal product name of the file, provided at compile-time. example: "Microsoft\xAE Windows\xAE Operating System" flat_name: process.parent.pe.product ignore_above: 1024 level: extended name: product normalize: [] original_fieldset: pe short: Internal product name of the file, provided at compile-time. type: keyword process.parent.pgid: dashed_name: process-parent-pgid description: 'Deprecated for removal in next major version release. This field is superseded by `process.group_leader.pid`. Identifier of the group of processes the process belongs to.' flat_name: process.parent.pgid format: string level: extended name: pgid normalize: [] original_fieldset: process short: Deprecated identifier of the group of processes the process belongs to. type: long process.parent.pid: dashed_name: process-parent-pid description: Process id. example: 4242 flat_name: process.parent.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.parent.real_group.id: dashed_name: process-parent-real-group-id description: Unique identifier for the group on the system/platform. flat_name: process.parent.real_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.parent.real_group.name: dashed_name: process-parent-real-group-name description: Name of the group. flat_name: process.parent.real_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.parent.real_user.id: dashed_name: process-parent-real-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.parent.real_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.parent.real_user.name: dashed_name: process-parent-real-user-name description: Short name or login of the user. example: a.einstein flat_name: process.parent.real_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.parent.real_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.parent.saved_group.id: dashed_name: process-parent-saved-group-id description: Unique identifier for the group on the system/platform. flat_name: process.parent.saved_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.parent.saved_group.name: dashed_name: process-parent-saved-group-name description: Name of the group. flat_name: process.parent.saved_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.parent.saved_user.id: dashed_name: process-parent-saved-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.parent.saved_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.parent.saved_user.name: dashed_name: process-parent-saved-user-name description: Short name or login of the user. example: a.einstein flat_name: process.parent.saved_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.parent.saved_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.parent.start: dashed_name: process-parent-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.parent.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.parent.supplemental_groups.id: dashed_name: process-parent-supplemental-groups-id description: Unique identifier for the group on the system/platform. flat_name: process.parent.supplemental_groups.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.parent.supplemental_groups.name: dashed_name: process-parent-supplemental-groups-name description: Name of the group. flat_name: process.parent.supplemental_groups.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.parent.thread.id: dashed_name: process-parent-thread-id description: Thread ID. example: 4242 flat_name: process.parent.thread.id format: string level: extended name: thread.id normalize: [] original_fieldset: process short: Thread ID. type: long process.parent.thread.name: dashed_name: process-parent-thread-name description: Thread name. example: thread-0 flat_name: process.parent.thread.name ignore_above: 1024 level: extended name: thread.name normalize: [] original_fieldset: process short: Thread name. type: keyword process.parent.title: dashed_name: process-parent-title description: 'Process title. The proctitle, some times the same as process name. Can also be different: for example a browser setting its title to the web page currently opened.' flat_name: process.parent.title ignore_above: 1024 level: extended multi_fields: - flat_name: process.parent.title.text name: text type: match_only_text name: title normalize: [] original_fieldset: process short: Process title. type: keyword process.parent.tty: dashed_name: process-parent-tty description: Information about the controlling TTY device. If set, the process belongs to an interactive session. flat_name: process.parent.tty level: extended name: tty normalize: [] original_fieldset: process short: Information about the controlling TTY device. type: object process.parent.tty.char_device.major: dashed_name: process-parent-tty-char-device-major description: The major number identifies the driver associated with the device. The character device's major and minor numbers can be algorithmically combined to produce the more familiar terminal identifiers such as "ttyS0" and "pts/0". For more details, please refer to the Linux kernel documentation. example: 4 flat_name: process.parent.tty.char_device.major level: extended name: tty.char_device.major normalize: [] original_fieldset: process short: The TTY character device's major number. type: long process.parent.tty.char_device.minor: dashed_name: process-parent-tty-char-device-minor description: "The minor number is used only by the driver specified by the major\ \ number; other parts of the kernel don\u2019t use it, and merely pass it\ \ along to the driver. It is common for a driver to control several devices;\ \ the minor number provides a way for the driver to differentiate among them." example: 1 flat_name: process.parent.tty.char_device.minor level: extended name: tty.char_device.minor normalize: [] original_fieldset: process short: The TTY character device's minor number. type: long process.parent.uptime: dashed_name: process-parent-uptime description: Seconds the process has been up. example: 1325 flat_name: process.parent.uptime level: extended name: uptime normalize: [] original_fieldset: process short: Seconds the process has been up. type: long process.parent.user.id: dashed_name: process-parent-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.parent.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.parent.user.name: dashed_name: process-parent-user-name description: Short name or login of the user. example: a.einstein flat_name: process.parent.user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.parent.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.parent.working_directory: dashed_name: process-parent-working-directory description: The working directory of the process. example: /home/alice flat_name: process.parent.working_directory ignore_above: 1024 level: extended multi_fields: - flat_name: process.parent.working_directory.text name: text type: match_only_text name: working_directory normalize: [] original_fieldset: process short: The working directory of the process. type: keyword process.pe.architecture: dashed_name: process-pe-architecture description: CPU architecture target for the file. example: x64 flat_name: process.pe.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: pe short: CPU architecture target for the file. type: keyword process.pe.company: dashed_name: process-pe-company description: Internal company name of the file, provided at compile-time. example: Microsoft Corporation flat_name: process.pe.company ignore_above: 1024 level: extended name: company normalize: [] original_fieldset: pe short: Internal company name of the file, provided at compile-time. type: keyword process.pe.description: dashed_name: process-pe-description description: Internal description of the file, provided at compile-time. example: Paint flat_name: process.pe.description ignore_above: 1024 level: extended name: description normalize: [] original_fieldset: pe short: Internal description of the file, provided at compile-time. type: keyword process.pe.file_version: dashed_name: process-pe-file-version description: Internal version of the file, provided at compile-time. example: 6.3.9600.17415 flat_name: process.pe.file_version ignore_above: 1024 level: extended name: file_version normalize: [] original_fieldset: pe short: Process name. type: keyword process.pe.imphash: dashed_name: process-pe-imphash description: 'A hash of the imports in a PE file. An imphash -- or import hash -- can be used to fingerprint binaries even after recompilation or other code-level transformations have occurred, which would change more traditional hash values. Learn more at https://www.fireeye.com/blog/threat-research/2014/01/tracking-malware-import-hashing.html.' example: 0c6803c4e922103c4dca5963aad36ddf flat_name: process.pe.imphash ignore_above: 1024 level: extended name: imphash normalize: [] original_fieldset: pe short: A hash of the imports in a PE file. type: keyword process.pe.original_file_name: dashed_name: process-pe-original-file-name description: Internal name of the file, provided at compile-time. example: MSPAINT.EXE flat_name: process.pe.original_file_name ignore_above: 1024 level: extended name: original_file_name normalize: [] original_fieldset: pe short: Internal name of the file, provided at compile-time. type: keyword process.pe.pehash: dashed_name: process-pe-pehash description: 'A hash of the PE header and data from one or more PE sections. An pehash can be used to cluster files by transforming structural information about a file into a hash value. Learn more at https://www.usenix.org/legacy/events/leet09/tech/full_papers/wicherski/wicherski_html/index.html.' example: 73ff189b63cd6be375a7ff25179a38d347651975 flat_name: process.pe.pehash ignore_above: 1024 level: extended name: pehash normalize: [] original_fieldset: pe short: A hash of the PE header and data from one or more PE sections. type: keyword process.pe.product: dashed_name: process-pe-product description: Internal product name of the file, provided at compile-time. example: "Microsoft\xAE Windows\xAE Operating System" flat_name: process.pe.product ignore_above: 1024 level: extended name: product normalize: [] original_fieldset: pe short: Internal product name of the file, provided at compile-time. type: keyword process.pgid: dashed_name: process-pgid description: 'Deprecated for removal in next major version release. This field is superseded by `process.group_leader.pid`. Identifier of the group of processes the process belongs to.' flat_name: process.pgid format: string level: extended name: pgid normalize: [] short: Deprecated identifier of the group of processes the process belongs to. type: long process.pid: dashed_name: process-pid description: Process id. example: 4242 flat_name: process.pid format: string level: core name: pid normalize: [] short: Process id. type: long process.previous.args: dashed_name: process-previous-args description: 'Array of process arguments, starting with the absolute path to the executable. May be filtered to protect sensitive information.' example: '["/usr/bin/ssh", "-l", "user", "10.0.0.16"]' flat_name: process.previous.args ignore_above: 1024 level: extended name: args normalize: - array original_fieldset: process short: Array of process arguments. type: keyword process.previous.args_count: dashed_name: process-previous-args-count description: 'Length of the process.args array. This field can be useful for querying or performing bucket analysis on how many arguments were provided to start a process. More arguments may be an indication of suspicious activity.' example: 4 flat_name: process.previous.args_count level: extended name: args_count normalize: [] original_fieldset: process short: Length of the process.args array. type: long process.previous.executable: dashed_name: process-previous-executable description: Absolute path to the process executable. example: /usr/bin/ssh flat_name: process.previous.executable ignore_above: 1024 level: extended multi_fields: - flat_name: process.previous.executable.text name: text type: match_only_text name: executable normalize: [] original_fieldset: process short: Absolute path to the process executable. type: keyword process.real_group.id: dashed_name: process-real-group-id description: Unique identifier for the group on the system/platform. flat_name: process.real_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.real_group.name: dashed_name: process-real-group-name description: Name of the group. flat_name: process.real_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.real_user.id: dashed_name: process-real-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.real_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.real_user.name: dashed_name: process-real-user-name description: Short name or login of the user. example: a.einstein flat_name: process.real_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.real_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.saved_group.id: dashed_name: process-saved-group-id description: Unique identifier for the group on the system/platform. flat_name: process.saved_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.saved_group.name: dashed_name: process-saved-group-name description: Name of the group. flat_name: process.saved_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.saved_user.id: dashed_name: process-saved-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.saved_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.saved_user.name: dashed_name: process-saved-user-name description: Short name or login of the user. example: a.einstein flat_name: process.saved_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.saved_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.session_leader.args: dashed_name: process-session-leader-args description: 'Array of process arguments, starting with the absolute path to the executable. May be filtered to protect sensitive information.' example: '["/usr/bin/ssh", "-l", "user", "10.0.0.16"]' flat_name: process.session_leader.args ignore_above: 1024 level: extended name: args normalize: - array original_fieldset: process short: Array of process arguments. type: keyword process.session_leader.args_count: dashed_name: process-session-leader-args-count description: 'Length of the process.args array. This field can be useful for querying or performing bucket analysis on how many arguments were provided to start a process. More arguments may be an indication of suspicious activity.' example: 4 flat_name: process.session_leader.args_count level: extended name: args_count normalize: [] original_fieldset: process short: Length of the process.args array. type: long process.session_leader.command_line: dashed_name: process-session-leader-command-line description: 'Full command line that started the process, including the absolute path to the executable, and all arguments. Some arguments may be filtered to protect sensitive information.' example: /usr/bin/ssh -l user 10.0.0.16 flat_name: process.session_leader.command_line level: extended multi_fields: - flat_name: process.session_leader.command_line.text name: text type: match_only_text name: command_line normalize: [] original_fieldset: process short: Full command line that started the process. type: wildcard process.session_leader.entity_id: dashed_name: process-session-leader-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.session_leader.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.session_leader.executable: dashed_name: process-session-leader-executable description: Absolute path to the process executable. example: /usr/bin/ssh flat_name: process.session_leader.executable ignore_above: 1024 level: extended multi_fields: - flat_name: process.session_leader.executable.text name: text type: match_only_text name: executable normalize: [] original_fieldset: process short: Absolute path to the process executable. type: keyword process.session_leader.group.id: dashed_name: process-session-leader-group-id description: Unique identifier for the group on the system/platform. flat_name: process.session_leader.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.session_leader.group.name: dashed_name: process-session-leader-group-name description: Name of the group. flat_name: process.session_leader.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.session_leader.interactive: dashed_name: process-session-leader-interactive description: 'Whether the process is connected to an interactive shell. Process interactivity is inferred from the processes file descriptors. If the character device for the controlling tty is the same as stdin and stderr for the process, the process is considered interactive. Note: A non-interactive process can belong to an interactive session and is simply one that does not have open file descriptors reading the controlling TTY on FD 0 (stdin) or writing to the controlling TTY on FD 2 (stderr). A backgrounded process is still considered interactive if stdin and stderr are connected to the controlling TTY.' example: true flat_name: process.session_leader.interactive level: extended name: interactive normalize: [] original_fieldset: process short: Whether the process is connected to an interactive shell. type: boolean process.session_leader.name: dashed_name: process-session-leader-name description: 'Process name. Sometimes called program name or similar.' example: ssh flat_name: process.session_leader.name ignore_above: 1024 level: extended multi_fields: - flat_name: process.session_leader.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: process short: Process name. type: keyword process.session_leader.parent.entity_id: dashed_name: process-session-leader-parent-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.session_leader.parent.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.session_leader.parent.pid: dashed_name: process-session-leader-parent-pid description: Process id. example: 4242 flat_name: process.session_leader.parent.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.session_leader.parent.session_leader.entity_id: dashed_name: process-session-leader-parent-session-leader-entity-id description: 'Unique identifier for the process. The implementation of this is specified by the data source, but some examples of what could be used here are a process-generated UUID, Sysmon Process GUIDs, or a hash of some uniquely identifying components of a process. Constructing a globally unique identifier is a common practice to mitigate PID reuse as well as to identify a specific process over time, across multiple monitored hosts.' example: c2c455d9f99375d flat_name: process.session_leader.parent.session_leader.entity_id ignore_above: 1024 level: extended name: entity_id normalize: [] original_fieldset: process short: Unique identifier for the process. type: keyword process.session_leader.parent.session_leader.pid: dashed_name: process-session-leader-parent-session-leader-pid description: Process id. example: 4242 flat_name: process.session_leader.parent.session_leader.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.session_leader.parent.session_leader.start: dashed_name: process-session-leader-parent-session-leader-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.session_leader.parent.session_leader.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.session_leader.parent.start: dashed_name: process-session-leader-parent-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.session_leader.parent.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.session_leader.pid: dashed_name: process-session-leader-pid description: Process id. example: 4242 flat_name: process.session_leader.pid format: string level: core name: pid normalize: [] original_fieldset: process short: Process id. type: long process.session_leader.real_group.id: dashed_name: process-session-leader-real-group-id description: Unique identifier for the group on the system/platform. flat_name: process.session_leader.real_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.session_leader.real_group.name: dashed_name: process-session-leader-real-group-name description: Name of the group. flat_name: process.session_leader.real_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.session_leader.real_user.id: dashed_name: process-session-leader-real-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.session_leader.real_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.session_leader.real_user.name: dashed_name: process-session-leader-real-user-name description: Short name or login of the user. example: a.einstein flat_name: process.session_leader.real_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.session_leader.real_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.session_leader.same_as_process: dashed_name: process-session-leader-same-as-process description: 'This boolean is used to identify if a leader process is the same as the top level process. For example, if `process.group_leader.same_as_process = true`, it means the process event in question is the leader of its process group. Details under `process.*` like `pid` would be the same under `process.group_leader.*` The same applies for both `process.session_leader` and `process.entry_leader`. This field exists to the benefit of EQL and other rule engines since it''s not possible to compare equality between two fields in a single document. e.g `process.entity_id` = `process.group_leader.entity_id` (top level process is the process group leader) OR `process.entity_id` = `process.entry_leader.entity_id` (top level process is the entry session leader) Instead these rules could be written like: `process.group_leader.same_as_process: true` OR `process.entry_leader.same_as_process: true` Note: This field is only set on `process.entry_leader`, `process.session_leader` and `process.group_leader`.' example: true flat_name: process.session_leader.same_as_process level: extended name: same_as_process normalize: [] original_fieldset: process short: This boolean is used to identify if a leader process is the same as the top level process. type: boolean process.session_leader.saved_group.id: dashed_name: process-session-leader-saved-group-id description: Unique identifier for the group on the system/platform. flat_name: process.session_leader.saved_group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.session_leader.saved_group.name: dashed_name: process-session-leader-saved-group-name description: Name of the group. flat_name: process.session_leader.saved_group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.session_leader.saved_user.id: dashed_name: process-session-leader-saved-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.session_leader.saved_user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.session_leader.saved_user.name: dashed_name: process-session-leader-saved-user-name description: Short name or login of the user. example: a.einstein flat_name: process.session_leader.saved_user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.session_leader.saved_user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.session_leader.start: dashed_name: process-session-leader-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.session_leader.start level: extended name: start normalize: [] original_fieldset: process short: The time the process started. type: date process.session_leader.supplemental_groups.id: dashed_name: process-session-leader-supplemental-groups-id description: Unique identifier for the group on the system/platform. flat_name: process.session_leader.supplemental_groups.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.session_leader.supplemental_groups.name: dashed_name: process-session-leader-supplemental-groups-name description: Name of the group. flat_name: process.session_leader.supplemental_groups.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.session_leader.tty: dashed_name: process-session-leader-tty description: Information about the controlling TTY device. If set, the process belongs to an interactive session. flat_name: process.session_leader.tty level: extended name: tty normalize: [] original_fieldset: process short: Information about the controlling TTY device. type: object process.session_leader.tty.char_device.major: dashed_name: process-session-leader-tty-char-device-major description: The major number identifies the driver associated with the device. The character device's major and minor numbers can be algorithmically combined to produce the more familiar terminal identifiers such as "ttyS0" and "pts/0". For more details, please refer to the Linux kernel documentation. example: 4 flat_name: process.session_leader.tty.char_device.major level: extended name: tty.char_device.major normalize: [] original_fieldset: process short: The TTY character device's major number. type: long process.session_leader.tty.char_device.minor: dashed_name: process-session-leader-tty-char-device-minor description: "The minor number is used only by the driver specified by the major\ \ number; other parts of the kernel don\u2019t use it, and merely pass it\ \ along to the driver. It is common for a driver to control several devices;\ \ the minor number provides a way for the driver to differentiate among them." example: 1 flat_name: process.session_leader.tty.char_device.minor level: extended name: tty.char_device.minor normalize: [] original_fieldset: process short: The TTY character device's minor number. type: long process.session_leader.user.id: dashed_name: process-session-leader-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.session_leader.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.session_leader.user.name: dashed_name: process-session-leader-user-name description: Short name or login of the user. example: a.einstein flat_name: process.session_leader.user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.session_leader.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.session_leader.working_directory: dashed_name: process-session-leader-working-directory description: The working directory of the process. example: /home/alice flat_name: process.session_leader.working_directory ignore_above: 1024 level: extended multi_fields: - flat_name: process.session_leader.working_directory.text name: text type: match_only_text name: working_directory normalize: [] original_fieldset: process short: The working directory of the process. type: keyword process.start: dashed_name: process-start description: The time the process started. example: '2016-05-23T08:05:34.853Z' flat_name: process.start level: extended name: start normalize: [] short: The time the process started. type: date process.supplemental_groups.id: dashed_name: process-supplemental-groups-id description: Unique identifier for the group on the system/platform. flat_name: process.supplemental_groups.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword process.supplemental_groups.name: dashed_name: process-supplemental-groups-name description: Name of the group. flat_name: process.supplemental_groups.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword process.thread.id: dashed_name: process-thread-id description: Thread ID. example: 4242 flat_name: process.thread.id format: string level: extended name: thread.id normalize: [] short: Thread ID. type: long process.thread.name: dashed_name: process-thread-name description: Thread name. example: thread-0 flat_name: process.thread.name ignore_above: 1024 level: extended name: thread.name normalize: [] short: Thread name. type: keyword process.title: dashed_name: process-title description: 'Process title. The proctitle, some times the same as process name. Can also be different: for example a browser setting its title to the web page currently opened.' flat_name: process.title ignore_above: 1024 level: extended multi_fields: - flat_name: process.title.text name: text type: match_only_text name: title normalize: [] short: Process title. type: keyword process.tty: dashed_name: process-tty description: Information about the controlling TTY device. If set, the process belongs to an interactive session. flat_name: process.tty level: extended name: tty normalize: [] short: Information about the controlling TTY device. type: object process.tty.char_device.major: dashed_name: process-tty-char-device-major description: The major number identifies the driver associated with the device. The character device's major and minor numbers can be algorithmically combined to produce the more familiar terminal identifiers such as "ttyS0" and "pts/0". For more details, please refer to the Linux kernel documentation. example: 4 flat_name: process.tty.char_device.major level: extended name: tty.char_device.major normalize: [] short: The TTY character device's major number. type: long process.tty.char_device.minor: dashed_name: process-tty-char-device-minor description: "The minor number is used only by the driver specified by the major\ \ number; other parts of the kernel don\u2019t use it, and merely pass it\ \ along to the driver. It is common for a driver to control several devices;\ \ the minor number provides a way for the driver to differentiate among them." example: 1 flat_name: process.tty.char_device.minor level: extended name: tty.char_device.minor normalize: [] short: The TTY character device's minor number. type: long process.tty.columns: beta: This field is beta and subject to change. dashed_name: process-tty-columns description: 'The number of character columns per line. e.g terminal width Terminal sizes can change, so this value reflects the maximum value for a given IO event. i.e. where event.action = ''text_output''' example: 80 flat_name: process.tty.columns level: extended name: tty.columns normalize: [] short: The number of character columns per line. e.g terminal width type: long process.tty.rows: beta: This field is beta and subject to change. dashed_name: process-tty-rows description: 'The number of character rows in the terminal. e.g terminal height Terminal sizes can change, so this value reflects the maximum value for a given IO event. i.e. where event.action = ''text_output''' example: 24 flat_name: process.tty.rows level: extended name: tty.rows normalize: [] short: The number of character rows in the terminal. e.g terminal height type: long process.uptime: dashed_name: process-uptime description: Seconds the process has been up. example: 1325 flat_name: process.uptime level: extended name: uptime normalize: [] short: Seconds the process has been up. type: long process.user.id: dashed_name: process-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: process.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword process.user.name: dashed_name: process-user-name description: Short name or login of the user. example: a.einstein flat_name: process.user.name ignore_above: 1024 level: core multi_fields: - flat_name: process.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword process.working_directory: dashed_name: process-working-directory description: The working directory of the process. example: /home/alice flat_name: process.working_directory ignore_above: 1024 level: extended multi_fields: - flat_name: process.working_directory.text name: text type: match_only_text name: working_directory normalize: [] short: The working directory of the process. type: keyword group: 2 name: process nestings: - process.attested_groups - process.attested_user - process.code_signature - process.elf - process.entry_leader - process.entry_leader.parent - process.entry_leader.parent.session_leader - process.entry_meta.source - process.group - process.group_leader - process.hash - process.parent - process.parent.group_leader - process.pe - process.previous - process.real_group - process.real_user - process.saved_group - process.saved_user - process.session_leader - process.session_leader.parent - process.session_leader.parent.session_leader - process.supplemental_groups - process.user prefix: process. reusable: expected: - as: parent at: process full: process.parent short_override: Information about the parent process. - as: entry_leader at: process full: process.entry_leader short_override: First process from terminal or remote access via SSH, SSM, etc OR a service directly started by the init process. - as: session_leader at: process full: process.session_leader short_override: Often the same as entry_leader. When it differs, it represents a session started within another session. e.g. using tmux - as: group_leader at: process full: process.group_leader short_override: Information about the process group leader. In some cases this may be the same as the top level process. - as: group_leader at: process.parent full: process.parent.group_leader short_override: Information about the parent's process group leader. Only pid, start and entity_id fields are set. - as: parent at: process.entry_leader full: process.entry_leader.parent short_override: Information about the entry leader's parent process. Only pid, start and entity_id fields are set. - as: parent at: process.session_leader full: process.session_leader.parent short_override: Information about the session leader's parent process. Only pid, start and entity_id fields are set. - as: session_leader at: process.entry_leader.parent full: process.entry_leader.parent.session_leader short_override: Information about the parent session of the entry leader. Only pid, start and entity_id fields are set. - as: session_leader at: process.session_leader.parent full: process.session_leader.parent.session_leader short_override: Information about the parent session of the session leader. Only pid, start and entity_id fields are set. - as: previous at: process full: process.previous normalize: &id001 - array short_override: An array of previous executions for the process, including the initial fork. Only executable and args are set. top_level: true reused_here: - full: process.group schema_name: group short: The effective group (egid). - full: process.real_group schema_name: group short: The real group (rgid). - full: process.saved_group schema_name: group short: The saved group (sgid). - full: process.supplemental_groups normalize: - array schema_name: group short: An array of supplemental groups. - beta: Reusing the `group` fields in this location is currently considered beta. full: process.attested_groups normalize: - array schema_name: group short: The externally attested groups based on an external source such as the Kube API. - full: process.hash schema_name: hash short: Hashes, usually file hashes. - full: process.pe schema_name: pe short: These fields contain Windows Portable Executable (PE) metadata. - full: process.code_signature schema_name: code_signature short: These fields contain information about binary code signatures. - beta: This field reuse is beta and subject to change. full: process.elf schema_name: elf short: These fields contain Linux Executable Linkable Format (ELF) metadata. - full: process.entry_meta.source schema_name: source short: Remote client information such as ip, port and geo location. - full: process.user schema_name: user short: The effective user (euid). - full: process.saved_user schema_name: user short: The saved user (suid). - full: process.real_user schema_name: user short: The real user (ruid). Identifies the real owner of the process. - beta: Reusing the `user` fields in this location is currently considered beta. full: process.attested_user schema_name: user short: The externally attested user based on an external source such as the Kube API. - full: process.parent schema_name: process short: Information about the parent process. - full: process.entry_leader schema_name: process short: First process from terminal or remote access via SSH, SSM, etc OR a service directly started by the init process. - full: process.session_leader schema_name: process short: Often the same as entry_leader. When it differs, it represents a session started within another session. e.g. using tmux - full: process.group_leader schema_name: process short: Information about the process group leader. In some cases this may be the same as the top level process. - full: process.parent.group_leader schema_name: process short: Information about the parent's process group leader. Only pid, start and entity_id fields are set. - full: process.entry_leader.parent schema_name: process short: Information about the entry leader's parent process. Only pid, start and entity_id fields are set. - full: process.session_leader.parent schema_name: process short: Information about the session leader's parent process. Only pid, start and entity_id fields are set. - full: process.entry_leader.parent.session_leader schema_name: process short: Information about the parent session of the entry leader. Only pid, start and entity_id fields are set. - full: process.session_leader.parent.session_leader schema_name: process short: Information about the parent session of the session leader. Only pid, start and entity_id fields are set. - full: process.previous normalize: *id001 schema_name: process short: An array of previous executions for the process, including the initial fork. Only executable and args are set. short: These fields contain information about a process. title: Process type: group registry: description: Fields related to Windows Registry operations. fields: registry.data.bytes: dashed_name: registry-data-bytes description: 'Original bytes written with base64 encoding. For Windows registry operations, such as SetValueEx and RegQueryValueEx, this corresponds to the data pointed by `lp_data`. This is optional but provides better recoverability and should be populated for REG_BINARY encoded values.' example: ZQBuAC0AVQBTAAAAZQBuAAAAAAA= flat_name: registry.data.bytes ignore_above: 1024 level: extended name: data.bytes normalize: [] short: Original bytes written with base64 encoding. type: keyword registry.data.strings: dashed_name: registry-data-strings description: 'Content when writing string types. Populated as an array when writing string data to the registry. For single string registry types (REG_SZ, REG_EXPAND_SZ), this should be an array with one string. For sequences of string with REG_MULTI_SZ, this array will be variable length. For numeric data, such as REG_DWORD and REG_QWORD, this should be populated with the decimal representation (e.g `"1"`).' example: '["C:\rta\red_ttp\bin\myapp.exe"]' flat_name: registry.data.strings level: core name: data.strings normalize: - array short: List of strings representing what was written to the registry. type: wildcard registry.data.type: dashed_name: registry-data-type description: Standard registry type for encoding contents example: REG_SZ flat_name: registry.data.type ignore_above: 1024 level: core name: data.type normalize: [] short: Standard registry type for encoding contents type: keyword registry.hive: dashed_name: registry-hive description: Abbreviated name for the hive. example: HKLM flat_name: registry.hive ignore_above: 1024 level: core name: hive normalize: [] short: Abbreviated name for the hive. type: keyword registry.key: dashed_name: registry-key description: Hive-relative path of keys. example: SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\winword.exe flat_name: registry.key ignore_above: 1024 level: core name: key normalize: [] short: Hive-relative path of keys. type: keyword registry.path: dashed_name: registry-path description: Full path, including hive, key and value example: HKLM\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\winword.exe\Debugger flat_name: registry.path ignore_above: 1024 level: core name: path normalize: [] short: Full path, including hive, key and value type: keyword registry.value: dashed_name: registry-value description: Name of the value written. example: Debugger flat_name: registry.value ignore_above: 1024 level: core name: value normalize: [] short: Name of the value written. type: keyword group: 2 name: registry prefix: registry. reusable: expected: - as: registry at: threat.indicator full: threat.indicator.registry - as: registry at: threat.enrichments.indicator full: threat.enrichments.indicator.registry top_level: true short: Fields related to Windows Registry operations. title: Registry type: group related: description: 'This field set is meant to facilitate pivoting around a piece of data. Some pieces of information can be seen in many places in an ECS event. To facilitate searching for them, store an array of all seen values to their corresponding field in `related.`. A concrete example is IP addresses, which can be under host, observer, source, destination, client, server, and network.forwarded_ip. If you append all IPs to `related.ip`, you can then search for a given IP trivially, no matter where it appeared, by querying `related.ip:192.0.2.15`.' fields: related.hash: dashed_name: related-hash description: All the hashes seen on your event. Populating this field, then using it to search for hashes can help in situations where you're unsure what the hash algorithm is (and therefore which key name to search). flat_name: related.hash ignore_above: 1024 level: extended name: hash normalize: - array short: All the hashes seen on your event. type: keyword related.hosts: dashed_name: related-hosts description: All hostnames or other host identifiers seen on your event. Example identifiers include FQDNs, domain names, workstation names, or aliases. flat_name: related.hosts ignore_above: 1024 level: extended name: hosts normalize: - array short: All the host identifiers seen on your event. type: keyword related.ip: dashed_name: related-ip description: All of the IPs seen on your event. flat_name: related.ip level: extended name: ip normalize: - array short: All of the IPs seen on your event. type: ip related.user: dashed_name: related-user description: All the user names or other user identifiers seen on the event. flat_name: related.user ignore_above: 1024 level: extended name: user normalize: - array short: All the user names or other user identifiers seen on the event. type: keyword group: 2 name: related prefix: related. short: Fields meant to facilitate pivoting around a piece of data. title: Related type: group risk: beta: These fields are in beta and are subject to change. description: Fields for describing risk score and risk level of entities such as hosts and users. These fields are not allowed to be nested under `event.*`. Please continue to use `event.risk_score` and `event.risk_score_norm` for event risk. fields: risk.calculated_level: dashed_name: risk-calculated-level description: A risk classification level calculated by an internal system as part of entity analytics and entity risk scoring. example: High flat_name: risk.calculated_level ignore_above: 1024 level: extended name: calculated_level normalize: [] short: A risk classification level calculated by an internal system as part of entity analytics and entity risk scoring. type: keyword risk.calculated_score: dashed_name: risk-calculated-score description: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring. example: 880.73 flat_name: risk.calculated_score level: extended name: calculated_score normalize: [] short: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring. type: float risk.calculated_score_norm: dashed_name: risk-calculated-score-norm description: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring, and normalized to a range of 0 to 100. example: 88.73 flat_name: risk.calculated_score_norm level: extended name: calculated_score_norm normalize: [] short: A normalized risk score calculated by an internal system. type: float risk.static_level: dashed_name: risk-static-level description: A risk classification level obtained from outside the system, such as from some external Threat Intelligence Platform. example: High flat_name: risk.static_level ignore_above: 1024 level: extended name: static_level normalize: [] short: A risk classification level obtained from outside the system, such as from some external Threat Intelligence Platform. type: keyword risk.static_score: dashed_name: risk-static-score description: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform. example: 830.0 flat_name: risk.static_score level: extended name: static_score normalize: [] short: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform. type: float risk.static_score_norm: dashed_name: risk-static-score-norm description: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform, and normalized to a range of 0 to 100. example: 83.0 flat_name: risk.static_score_norm level: extended name: static_score_norm normalize: [] short: A normalized risk score calculated by an external system. type: float group: 2 name: risk prefix: risk. reusable: expected: - as: risk at: host full: host.risk - as: risk at: user full: user.risk top_level: false short: Fields for describing risk score and level. title: Risk information type: group rule: description: 'Rule fields are used to capture the specifics of any observer or agent rules that generate alerts or other notable events. Examples of data sources that would populate the rule fields include: network admission control platforms, network or host IDS/IPS, network firewalls, web application firewalls, url filters, endpoint detection and response (EDR) systems, etc.' fields: rule.author: dashed_name: rule-author description: Name, organization, or pseudonym of the author or authors who created the rule used to generate this event. example: '["Star-Lord"]' flat_name: rule.author ignore_above: 1024 level: extended name: author normalize: - array short: Rule author type: keyword rule.category: dashed_name: rule-category description: A categorization value keyword used by the entity using the rule for detection of this event. example: Attempted Information Leak flat_name: rule.category ignore_above: 1024 level: extended name: category normalize: [] short: Rule category type: keyword rule.description: dashed_name: rule-description description: The description of the rule generating the event. example: Block requests to public DNS over HTTPS / TLS protocols flat_name: rule.description ignore_above: 1024 level: extended name: description normalize: [] short: Rule description type: keyword rule.id: dashed_name: rule-id description: A rule ID that is unique within the scope of an agent, observer, or other entity using the rule for detection of this event. example: 101 flat_name: rule.id ignore_above: 1024 level: extended name: id normalize: [] short: Rule ID type: keyword rule.license: dashed_name: rule-license description: Name of the license under which the rule used to generate this event is made available. example: Apache 2.0 flat_name: rule.license ignore_above: 1024 level: extended name: license normalize: [] short: Rule license type: keyword rule.name: dashed_name: rule-name description: The name of the rule or signature generating the event. example: BLOCK_DNS_over_TLS flat_name: rule.name ignore_above: 1024 level: extended name: name normalize: [] short: Rule name type: keyword rule.reference: dashed_name: rule-reference description: 'Reference URL to additional information about the rule used to generate this event. The URL can point to the vendor''s documentation about the rule. If that''s not available, it can also be a link to a more general page describing this type of alert.' example: https://en.wikipedia.org/wiki/DNS_over_TLS flat_name: rule.reference ignore_above: 1024 level: extended name: reference normalize: [] short: Rule reference URL type: keyword rule.ruleset: dashed_name: rule-ruleset description: Name of the ruleset, policy, group, or parent category in which the rule used to generate this event is a member. example: Standard_Protocol_Filters flat_name: rule.ruleset ignore_above: 1024 level: extended name: ruleset normalize: [] short: Rule ruleset type: keyword rule.uuid: dashed_name: rule-uuid description: A rule ID that is unique within the scope of a set or group of agents, observers, or other entities using the rule for detection of this event. example: 1100110011 flat_name: rule.uuid ignore_above: 1024 level: extended name: uuid normalize: [] short: Rule UUID type: keyword rule.version: dashed_name: rule-version description: The version / revision of the rule being used for analysis. example: 1.1 flat_name: rule.version ignore_above: 1024 level: extended name: version normalize: [] short: Rule version type: keyword group: 2 name: rule prefix: rule. short: Fields to capture details about rules used to generate alerts or other notable events. title: Rule type: group server: description: 'A Server is defined as the responder in a network connection for events regarding sessions, connections, or bidirectional flow records. For TCP events, the server is the receiver of the initial SYN packet(s) of the TCP connection. For other protocols, the server is generally the responder in the network transaction. Some systems actually use the term "responder" to refer the server in TCP connections. The server fields describe details about the system acting as the server in the network event. Server fields are usually populated in conjunction with client fields. Server fields are generally not populated for packet-level events. Client / server representations can add semantic context to an exchange, which is helpful to visualize the data in certain situations. If your context falls in that category, you should still ensure that source and destination are filled appropriately.' fields: server.address: dashed_name: server-address description: 'Some event server addresses are defined ambiguously. The event will sometimes list an IP, a domain or a unix socket. You should always store the raw address in the `.address` field. Then it should be duplicated to `.ip` or `.domain`, depending on which one it is.' flat_name: server.address ignore_above: 1024 level: extended name: address normalize: [] short: Server network address. type: keyword server.as.number: dashed_name: server-as-number description: Unique number allocated to the autonomous system. The autonomous system number (ASN) uniquely identifies each network on the Internet. example: 15169 flat_name: server.as.number level: extended name: number normalize: [] original_fieldset: as short: Unique number allocated to the autonomous system. type: long server.as.organization.name: dashed_name: server-as-organization-name description: Organization name. example: Google LLC flat_name: server.as.organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: server.as.organization.name.text name: text type: match_only_text name: organization.name normalize: [] original_fieldset: as short: Organization name. type: keyword server.bytes: dashed_name: server-bytes description: Bytes sent from the server to the client. example: 184 flat_name: server.bytes format: bytes level: core name: bytes normalize: [] short: Bytes sent from the server to the client. type: long server.domain: dashed_name: server-domain description: 'The domain name of the server system. This value may be a host name, a fully qualified domain name, or another host naming format. The value may derive from the original event or be added from enrichment.' example: foo.example.com flat_name: server.domain ignore_above: 1024 level: core name: domain normalize: [] short: The domain name of the server. type: keyword server.geo.city_name: dashed_name: server-geo-city-name description: City name. example: Montreal flat_name: server.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword server.geo.continent_code: dashed_name: server-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: server.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword server.geo.continent_name: dashed_name: server-geo-continent-name description: Name of the continent. example: North America flat_name: server.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword server.geo.country_iso_code: dashed_name: server-geo-country-iso-code description: Country ISO code. example: CA flat_name: server.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword server.geo.country_name: dashed_name: server-geo-country-name description: Country name. example: Canada flat_name: server.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword server.geo.location: dashed_name: server-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: server.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point server.geo.name: dashed_name: server-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: server.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword server.geo.postal_code: dashed_name: server-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: server.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword server.geo.region_iso_code: dashed_name: server-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: server.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword server.geo.region_name: dashed_name: server-geo-region-name description: Region name. example: Quebec flat_name: server.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword server.geo.timezone: dashed_name: server-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: server.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword server.ip: dashed_name: server-ip description: IP address of the server (IPv4 or IPv6). flat_name: server.ip level: core name: ip normalize: [] short: IP address of the server. type: ip server.mac: dashed_name: server-mac description: 'MAC address of the server. The notation format from RFC 7042 is suggested: Each octet (that is, 8-bit byte) is represented by two [uppercase] hexadecimal digits giving the value of the octet as an unsigned integer. Successive octets are separated by a hyphen.' example: 00-00-5E-00-53-23 flat_name: server.mac ignore_above: 1024 level: core name: mac normalize: [] pattern: ^[A-F0-9]{2}(-[A-F0-9]{2}){5,}$ short: MAC address of the server. type: keyword server.nat.ip: dashed_name: server-nat-ip description: 'Translated ip of destination based NAT sessions (e.g. internet to private DMZ) Typically used with load balancers, firewalls, or routers.' flat_name: server.nat.ip level: extended name: nat.ip normalize: [] short: Server NAT ip type: ip server.nat.port: dashed_name: server-nat-port description: 'Translated port of destination based NAT sessions (e.g. internet to private DMZ) Typically used with load balancers, firewalls, or routers.' flat_name: server.nat.port format: string level: extended name: nat.port normalize: [] short: Server NAT port type: long server.packets: dashed_name: server-packets description: Packets sent from the server to the client. example: 12 flat_name: server.packets level: core name: packets normalize: [] short: Packets sent from the server to the client. type: long server.port: dashed_name: server-port description: Port of the server. flat_name: server.port format: string level: core name: port normalize: [] short: Port of the server. type: long server.registered_domain: dashed_name: server-registered-domain description: 'The highest registered server domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: server.registered_domain ignore_above: 1024 level: extended name: registered_domain normalize: [] short: The highest registered server domain, stripped of the subdomain. type: keyword server.subdomain: dashed_name: server-subdomain description: 'The subdomain portion of a fully qualified domain name includes all of the names except the host name under the registered_domain. In a partially qualified domain, or if the the qualification level of the full name cannot be determined, subdomain contains all of the names below the registered domain. For example the subdomain portion of "www.east.mydomain.co.uk" is "east". If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: east flat_name: server.subdomain ignore_above: 1024 level: extended name: subdomain normalize: [] short: The subdomain of the domain. type: keyword server.top_level_domain: dashed_name: server-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: server.top_level_domain ignore_above: 1024 level: extended name: top_level_domain normalize: [] short: The effective top level domain (com, org, net, co.uk). type: keyword server.user.domain: dashed_name: server-user-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: server.user.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: user short: Name of the directory the user is a member of. type: keyword server.user.email: dashed_name: server-user-email description: User email address. flat_name: server.user.email ignore_above: 1024 level: extended name: email normalize: [] original_fieldset: user short: User email address. type: keyword server.user.full_name: dashed_name: server-user-full-name description: User's full name, if available. example: Albert Einstein flat_name: server.user.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: server.user.full_name.text name: text type: match_only_text name: full_name normalize: [] original_fieldset: user short: User's full name, if available. type: keyword server.user.group.domain: dashed_name: server-user-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: server.user.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword server.user.group.id: dashed_name: server-user-group-id description: Unique identifier for the group on the system/platform. flat_name: server.user.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword server.user.group.name: dashed_name: server-user-group-name description: Name of the group. flat_name: server.user.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword server.user.hash: dashed_name: server-user-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: server.user.hash ignore_above: 1024 level: extended name: hash normalize: [] original_fieldset: user short: Unique user hash to correlate information for a user in anonymized form. type: keyword server.user.id: dashed_name: server-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: server.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword server.user.name: dashed_name: server-user-name description: Short name or login of the user. example: a.einstein flat_name: server.user.name ignore_above: 1024 level: core multi_fields: - flat_name: server.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword server.user.roles: dashed_name: server-user-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: server.user.roles ignore_above: 1024 level: extended name: roles normalize: - array original_fieldset: user short: Array of user roles at the time of the event. type: keyword group: 2 name: server nestings: - server.as - server.geo - server.user prefix: server. reused_here: - full: server.as schema_name: as short: Fields describing an Autonomous System (Internet routing prefix). - full: server.geo schema_name: geo short: Fields describing a location. - full: server.user schema_name: user short: Fields to describe the user relevant to the event. short: Fields about the server side of a network connection, used with client. title: Server type: group service: description: 'The service fields describe the service for or from which the data was collected. These fields help you find and correlate logs for a specific service and version.' fields: service.address: dashed_name: service-address description: 'Address where data about this service was collected from. This should be a URI, network address (ipv4:port or [ipv6]:port) or a resource path (sockets).' example: 172.26.0.2:5432 flat_name: service.address ignore_above: 1024 level: extended name: address normalize: [] short: Address of this service. type: keyword service.environment: beta: This field is beta and subject to change. dashed_name: service-environment description: 'Identifies the environment where the service is running. If the same service runs in different environments (production, staging, QA, development, etc.), the environment can identify other instances of the same service. Can also group services and applications from the same environment.' example: production flat_name: service.environment ignore_above: 1024 level: extended name: environment normalize: [] short: Environment of the service. type: keyword service.ephemeral_id: dashed_name: service-ephemeral-id description: 'Ephemeral identifier of this service (if one exists). This id normally changes across restarts, but `service.id` does not.' example: 8a4f500f flat_name: service.ephemeral_id ignore_above: 1024 level: extended name: ephemeral_id normalize: [] short: Ephemeral identifier of this service. type: keyword service.id: dashed_name: service-id description: 'Unique identifier of the running service. If the service is comprised of many nodes, the `service.id` should be the same for all nodes. This id should uniquely identify the service. This makes it possible to correlate logs and metrics for one specific service, no matter which particular node emitted the event. Note that if you need to see the events from one specific host of the service, you should filter on that `host.name` or `host.id` instead.' example: d37e5ebfe0ae6c4972dbe9f0174a1637bb8247f6 flat_name: service.id ignore_above: 1024 level: core name: id normalize: [] short: Unique identifier of the running service. type: keyword service.name: dashed_name: service-name description: 'Name of the service data is collected from. The name of the service is normally user given. This allows for distributed services that run on multiple hosts to correlate the related instances based on the name. In the case of Elasticsearch the `service.name` could contain the cluster name. For Beats the `service.name` is by default a copy of the `service.type` field if no name is specified.' example: elasticsearch-metrics flat_name: service.name ignore_above: 1024 level: core name: name normalize: [] short: Name of the service. type: keyword service.node.name: dashed_name: service-node-name description: 'Name of a service node. This allows for two nodes of the same service running on the same host to be differentiated. Therefore, `service.node.name` should typically be unique across nodes of a given service. In the case of Elasticsearch, the `service.node.name` could contain the unique node name within the Elasticsearch cluster. In cases where the service doesn''t have the concept of a node name, the host name or container name can be used to distinguish running instances that make up this service. If those do not provide uniqueness (e.g. multiple instances of the service running on the same host) - the node name can be manually set.' example: instance-0000000016 flat_name: service.node.name ignore_above: 1024 level: extended name: node.name normalize: [] short: Name of the service node. type: keyword service.node.role: dashed_name: service-node-role description: 'Deprecated for removal in next major version release. This field will be superseded by `node.roles`. Role of a service node. This allows for distinction between different running roles of the same service. In the case of Kibana, the `service.node.role` could be `ui` or `background_tasks`. In the case of Elasticsearch, the `service.node.role` could be `master` or `data`. Other services could use this to distinguish between a `web` and `worker` role running as part of the service.' example: background_tasks flat_name: service.node.role ignore_above: 1024 level: extended name: node.role normalize: [] short: Deprecated role (singular) of the service node. type: keyword service.node.roles: dashed_name: service-node-roles description: 'Roles of a service node. This allows for distinction between different running roles of the same service. In the case of Kibana, the `service.node.role` could be `ui` or `background_tasks` or both. In the case of Elasticsearch, the `service.node.role` could be `master` or `data` or both. Other services could use this to distinguish between a `web` and `worker` role running as part of the service.' example: '["ui", "background_tasks"]' flat_name: service.node.roles ignore_above: 1024 level: extended name: node.roles normalize: - array short: Roles of the service node. type: keyword service.origin.address: dashed_name: service-origin-address description: 'Address where data about this service was collected from. This should be a URI, network address (ipv4:port or [ipv6]:port) or a resource path (sockets).' example: 172.26.0.2:5432 flat_name: service.origin.address ignore_above: 1024 level: extended name: address normalize: [] original_fieldset: service short: Address of this service. type: keyword service.origin.environment: beta: This field is beta and subject to change. dashed_name: service-origin-environment description: 'Identifies the environment where the service is running. If the same service runs in different environments (production, staging, QA, development, etc.), the environment can identify other instances of the same service. Can also group services and applications from the same environment.' example: production flat_name: service.origin.environment ignore_above: 1024 level: extended name: environment normalize: [] original_fieldset: service short: Environment of the service. type: keyword service.origin.ephemeral_id: dashed_name: service-origin-ephemeral-id description: 'Ephemeral identifier of this service (if one exists). This id normally changes across restarts, but `service.id` does not.' example: 8a4f500f flat_name: service.origin.ephemeral_id ignore_above: 1024 level: extended name: ephemeral_id normalize: [] original_fieldset: service short: Ephemeral identifier of this service. type: keyword service.origin.id: dashed_name: service-origin-id description: 'Unique identifier of the running service. If the service is comprised of many nodes, the `service.id` should be the same for all nodes. This id should uniquely identify the service. This makes it possible to correlate logs and metrics for one specific service, no matter which particular node emitted the event. Note that if you need to see the events from one specific host of the service, you should filter on that `host.name` or `host.id` instead.' example: d37e5ebfe0ae6c4972dbe9f0174a1637bb8247f6 flat_name: service.origin.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: service short: Unique identifier of the running service. type: keyword service.origin.name: dashed_name: service-origin-name description: 'Name of the service data is collected from. The name of the service is normally user given. This allows for distributed services that run on multiple hosts to correlate the related instances based on the name. In the case of Elasticsearch the `service.name` could contain the cluster name. For Beats the `service.name` is by default a copy of the `service.type` field if no name is specified.' example: elasticsearch-metrics flat_name: service.origin.name ignore_above: 1024 level: core name: name normalize: [] original_fieldset: service short: Name of the service. type: keyword service.origin.node.name: dashed_name: service-origin-node-name description: 'Name of a service node. This allows for two nodes of the same service running on the same host to be differentiated. Therefore, `service.node.name` should typically be unique across nodes of a given service. In the case of Elasticsearch, the `service.node.name` could contain the unique node name within the Elasticsearch cluster. In cases where the service doesn''t have the concept of a node name, the host name or container name can be used to distinguish running instances that make up this service. If those do not provide uniqueness (e.g. multiple instances of the service running on the same host) - the node name can be manually set.' example: instance-0000000016 flat_name: service.origin.node.name ignore_above: 1024 level: extended name: node.name normalize: [] original_fieldset: service short: Name of the service node. type: keyword service.origin.node.role: dashed_name: service-origin-node-role description: 'Deprecated for removal in next major version release. This field will be superseded by `node.roles`. Role of a service node. This allows for distinction between different running roles of the same service. In the case of Kibana, the `service.node.role` could be `ui` or `background_tasks`. In the case of Elasticsearch, the `service.node.role` could be `master` or `data`. Other services could use this to distinguish between a `web` and `worker` role running as part of the service.' example: background_tasks flat_name: service.origin.node.role ignore_above: 1024 level: extended name: node.role normalize: [] original_fieldset: service short: Deprecated role (singular) of the service node. type: keyword service.origin.node.roles: dashed_name: service-origin-node-roles description: 'Roles of a service node. This allows for distinction between different running roles of the same service. In the case of Kibana, the `service.node.role` could be `ui` or `background_tasks` or both. In the case of Elasticsearch, the `service.node.role` could be `master` or `data` or both. Other services could use this to distinguish between a `web` and `worker` role running as part of the service.' example: '["ui", "background_tasks"]' flat_name: service.origin.node.roles ignore_above: 1024 level: extended name: node.roles normalize: - array original_fieldset: service short: Roles of the service node. type: keyword service.origin.state: dashed_name: service-origin-state description: Current state of the service. flat_name: service.origin.state ignore_above: 1024 level: core name: state normalize: [] original_fieldset: service short: Current state of the service. type: keyword service.origin.type: dashed_name: service-origin-type description: 'The type of the service data is collected from. The type can be used to group and correlate logs and metrics from one service type. Example: If logs or metrics are collected from Elasticsearch, `service.type` would be `elasticsearch`.' example: elasticsearch flat_name: service.origin.type ignore_above: 1024 level: core name: type normalize: [] original_fieldset: service short: The type of the service. type: keyword service.origin.version: dashed_name: service-origin-version description: 'Version of the service the data was collected from. This allows to look at a data set only for a specific version of a service.' example: 3.2.4 flat_name: service.origin.version ignore_above: 1024 level: core name: version normalize: [] original_fieldset: service short: Version of the service. type: keyword service.state: dashed_name: service-state description: Current state of the service. flat_name: service.state ignore_above: 1024 level: core name: state normalize: [] short: Current state of the service. type: keyword service.target.address: dashed_name: service-target-address description: 'Address where data about this service was collected from. This should be a URI, network address (ipv4:port or [ipv6]:port) or a resource path (sockets).' example: 172.26.0.2:5432 flat_name: service.target.address ignore_above: 1024 level: extended name: address normalize: [] original_fieldset: service short: Address of this service. type: keyword service.target.environment: beta: This field is beta and subject to change. dashed_name: service-target-environment description: 'Identifies the environment where the service is running. If the same service runs in different environments (production, staging, QA, development, etc.), the environment can identify other instances of the same service. Can also group services and applications from the same environment.' example: production flat_name: service.target.environment ignore_above: 1024 level: extended name: environment normalize: [] original_fieldset: service short: Environment of the service. type: keyword service.target.ephemeral_id: dashed_name: service-target-ephemeral-id description: 'Ephemeral identifier of this service (if one exists). This id normally changes across restarts, but `service.id` does not.' example: 8a4f500f flat_name: service.target.ephemeral_id ignore_above: 1024 level: extended name: ephemeral_id normalize: [] original_fieldset: service short: Ephemeral identifier of this service. type: keyword service.target.id: dashed_name: service-target-id description: 'Unique identifier of the running service. If the service is comprised of many nodes, the `service.id` should be the same for all nodes. This id should uniquely identify the service. This makes it possible to correlate logs and metrics for one specific service, no matter which particular node emitted the event. Note that if you need to see the events from one specific host of the service, you should filter on that `host.name` or `host.id` instead.' example: d37e5ebfe0ae6c4972dbe9f0174a1637bb8247f6 flat_name: service.target.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: service short: Unique identifier of the running service. type: keyword service.target.name: dashed_name: service-target-name description: 'Name of the service data is collected from. The name of the service is normally user given. This allows for distributed services that run on multiple hosts to correlate the related instances based on the name. In the case of Elasticsearch the `service.name` could contain the cluster name. For Beats the `service.name` is by default a copy of the `service.type` field if no name is specified.' example: elasticsearch-metrics flat_name: service.target.name ignore_above: 1024 level: core name: name normalize: [] original_fieldset: service short: Name of the service. type: keyword service.target.node.name: dashed_name: service-target-node-name description: 'Name of a service node. This allows for two nodes of the same service running on the same host to be differentiated. Therefore, `service.node.name` should typically be unique across nodes of a given service. In the case of Elasticsearch, the `service.node.name` could contain the unique node name within the Elasticsearch cluster. In cases where the service doesn''t have the concept of a node name, the host name or container name can be used to distinguish running instances that make up this service. If those do not provide uniqueness (e.g. multiple instances of the service running on the same host) - the node name can be manually set.' example: instance-0000000016 flat_name: service.target.node.name ignore_above: 1024 level: extended name: node.name normalize: [] original_fieldset: service short: Name of the service node. type: keyword service.target.node.role: dashed_name: service-target-node-role description: 'Deprecated for removal in next major version release. This field will be superseded by `node.roles`. Role of a service node. This allows for distinction between different running roles of the same service. In the case of Kibana, the `service.node.role` could be `ui` or `background_tasks`. In the case of Elasticsearch, the `service.node.role` could be `master` or `data`. Other services could use this to distinguish between a `web` and `worker` role running as part of the service.' example: background_tasks flat_name: service.target.node.role ignore_above: 1024 level: extended name: node.role normalize: [] original_fieldset: service short: Deprecated role (singular) of the service node. type: keyword service.target.node.roles: dashed_name: service-target-node-roles description: 'Roles of a service node. This allows for distinction between different running roles of the same service. In the case of Kibana, the `service.node.role` could be `ui` or `background_tasks` or both. In the case of Elasticsearch, the `service.node.role` could be `master` or `data` or both. Other services could use this to distinguish between a `web` and `worker` role running as part of the service.' example: '["ui", "background_tasks"]' flat_name: service.target.node.roles ignore_above: 1024 level: extended name: node.roles normalize: - array original_fieldset: service short: Roles of the service node. type: keyword service.target.state: dashed_name: service-target-state description: Current state of the service. flat_name: service.target.state ignore_above: 1024 level: core name: state normalize: [] original_fieldset: service short: Current state of the service. type: keyword service.target.type: dashed_name: service-target-type description: 'The type of the service data is collected from. The type can be used to group and correlate logs and metrics from one service type. Example: If logs or metrics are collected from Elasticsearch, `service.type` would be `elasticsearch`.' example: elasticsearch flat_name: service.target.type ignore_above: 1024 level: core name: type normalize: [] original_fieldset: service short: The type of the service. type: keyword service.target.version: dashed_name: service-target-version description: 'Version of the service the data was collected from. This allows to look at a data set only for a specific version of a service.' example: 3.2.4 flat_name: service.target.version ignore_above: 1024 level: core name: version normalize: [] original_fieldset: service short: Version of the service. type: keyword service.type: dashed_name: service-type description: 'The type of the service data is collected from. The type can be used to group and correlate logs and metrics from one service type. Example: If logs or metrics are collected from Elasticsearch, `service.type` would be `elasticsearch`.' example: elasticsearch flat_name: service.type ignore_above: 1024 level: core name: type normalize: [] short: The type of the service. type: keyword service.version: dashed_name: service-version description: 'Version of the service the data was collected from. This allows to look at a data set only for a specific version of a service.' example: 3.2.4 flat_name: service.version ignore_above: 1024 level: core name: version normalize: [] short: Version of the service. type: keyword footnote: The service fields may be self-nested under service.origin.* and service.target.* to describe origin or target services in the context of incoming or outgoing requests, respectively. However, the fieldsets service.origin.* and service.target.* must not be confused with the root service fieldset that is used to describe the actual service under observation. The fieldset service.origin.* may only be used in the context of incoming requests or events to describe the originating service of the request. The fieldset service.target.* may only be used in the context of outgoing requests or events to describe the target service of the request. group: 2 name: service nestings: - service.origin - service.target prefix: service. reusable: expected: - as: origin at: service beta: Reusing the `service` fields in this location is currently considered beta. full: service.origin short_override: Describes the origin service in case of an incoming request or event. - as: target at: service beta: Reusing the `service` fields in this location is currently considered beta. full: service.target short_override: Describes the target service in case of an outgoing request or event. top_level: true reused_here: - beta: Reusing the `service` fields in this location is currently considered beta. full: service.origin schema_name: service short: Describes the origin service in case of an incoming request or event. - beta: Reusing the `service` fields in this location is currently considered beta. full: service.target schema_name: service short: Describes the target service in case of an outgoing request or event. short: Fields describing the service for or from which the data was collected. title: Service type: group source: description: 'Source fields capture details about the sender of a network exchange/packet. These fields are populated from a network event, packet, or other event containing details of a network transaction. Source fields are usually populated in conjunction with destination fields. The source and destination fields are considered the baseline and should always be filled if an event contains source and destination details from a network transaction. If the event also contains identification of the client and server roles, then the client and server fields should also be populated.' fields: source.address: dashed_name: source-address description: 'Some event source addresses are defined ambiguously. The event will sometimes list an IP, a domain or a unix socket. You should always store the raw address in the `.address` field. Then it should be duplicated to `.ip` or `.domain`, depending on which one it is.' flat_name: source.address ignore_above: 1024 level: extended name: address normalize: [] short: Source network address. type: keyword source.as.number: dashed_name: source-as-number description: Unique number allocated to the autonomous system. The autonomous system number (ASN) uniquely identifies each network on the Internet. example: 15169 flat_name: source.as.number level: extended name: number normalize: [] original_fieldset: as short: Unique number allocated to the autonomous system. type: long source.as.organization.name: dashed_name: source-as-organization-name description: Organization name. example: Google LLC flat_name: source.as.organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: source.as.organization.name.text name: text type: match_only_text name: organization.name normalize: [] original_fieldset: as short: Organization name. type: keyword source.bytes: dashed_name: source-bytes description: Bytes sent from the source to the destination. example: 184 flat_name: source.bytes format: bytes level: core name: bytes normalize: [] short: Bytes sent from the source to the destination. type: long source.domain: dashed_name: source-domain description: 'The domain name of the source system. This value may be a host name, a fully qualified domain name, or another host naming format. The value may derive from the original event or be added from enrichment.' example: foo.example.com flat_name: source.domain ignore_above: 1024 level: core name: domain normalize: [] short: The domain name of the source. type: keyword source.geo.city_name: dashed_name: source-geo-city-name description: City name. example: Montreal flat_name: source.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword source.geo.continent_code: dashed_name: source-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: source.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword source.geo.continent_name: dashed_name: source-geo-continent-name description: Name of the continent. example: North America flat_name: source.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword source.geo.country_iso_code: dashed_name: source-geo-country-iso-code description: Country ISO code. example: CA flat_name: source.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword source.geo.country_name: dashed_name: source-geo-country-name description: Country name. example: Canada flat_name: source.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword source.geo.location: dashed_name: source-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: source.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point source.geo.name: dashed_name: source-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: source.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword source.geo.postal_code: dashed_name: source-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: source.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword source.geo.region_iso_code: dashed_name: source-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: source.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword source.geo.region_name: dashed_name: source-geo-region-name description: Region name. example: Quebec flat_name: source.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword source.geo.timezone: dashed_name: source-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: source.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword source.ip: dashed_name: source-ip description: IP address of the source (IPv4 or IPv6). flat_name: source.ip level: core name: ip normalize: [] short: IP address of the source. type: ip source.mac: dashed_name: source-mac description: 'MAC address of the source. The notation format from RFC 7042 is suggested: Each octet (that is, 8-bit byte) is represented by two [uppercase] hexadecimal digits giving the value of the octet as an unsigned integer. Successive octets are separated by a hyphen.' example: 00-00-5E-00-53-23 flat_name: source.mac ignore_above: 1024 level: core name: mac normalize: [] pattern: ^[A-F0-9]{2}(-[A-F0-9]{2}){5,}$ short: MAC address of the source. type: keyword source.nat.ip: dashed_name: source-nat-ip description: 'Translated ip of source based NAT sessions (e.g. internal client to internet) Typically connections traversing load balancers, firewalls, or routers.' flat_name: source.nat.ip level: extended name: nat.ip normalize: [] short: Source NAT ip type: ip source.nat.port: dashed_name: source-nat-port description: 'Translated port of source based NAT sessions. (e.g. internal client to internet) Typically used with load balancers, firewalls, or routers.' flat_name: source.nat.port format: string level: extended name: nat.port normalize: [] short: Source NAT port type: long source.packets: dashed_name: source-packets description: Packets sent from the source to the destination. example: 12 flat_name: source.packets level: core name: packets normalize: [] short: Packets sent from the source to the destination. type: long source.port: dashed_name: source-port description: Port of the source. flat_name: source.port format: string level: core name: port normalize: [] short: Port of the source. type: long source.registered_domain: dashed_name: source-registered-domain description: 'The highest registered source domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: source.registered_domain ignore_above: 1024 level: extended name: registered_domain normalize: [] short: The highest registered source domain, stripped of the subdomain. type: keyword source.subdomain: dashed_name: source-subdomain description: 'The subdomain portion of a fully qualified domain name includes all of the names except the host name under the registered_domain. In a partially qualified domain, or if the the qualification level of the full name cannot be determined, subdomain contains all of the names below the registered domain. For example the subdomain portion of "www.east.mydomain.co.uk" is "east". If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: east flat_name: source.subdomain ignore_above: 1024 level: extended name: subdomain normalize: [] short: The subdomain of the domain. type: keyword source.top_level_domain: dashed_name: source-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: source.top_level_domain ignore_above: 1024 level: extended name: top_level_domain normalize: [] short: The effective top level domain (com, org, net, co.uk). type: keyword source.user.domain: dashed_name: source-user-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: source.user.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: user short: Name of the directory the user is a member of. type: keyword source.user.email: dashed_name: source-user-email description: User email address. flat_name: source.user.email ignore_above: 1024 level: extended name: email normalize: [] original_fieldset: user short: User email address. type: keyword source.user.full_name: dashed_name: source-user-full-name description: User's full name, if available. example: Albert Einstein flat_name: source.user.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: source.user.full_name.text name: text type: match_only_text name: full_name normalize: [] original_fieldset: user short: User's full name, if available. type: keyword source.user.group.domain: dashed_name: source-user-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: source.user.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword source.user.group.id: dashed_name: source-user-group-id description: Unique identifier for the group on the system/platform. flat_name: source.user.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword source.user.group.name: dashed_name: source-user-group-name description: Name of the group. flat_name: source.user.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword source.user.hash: dashed_name: source-user-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: source.user.hash ignore_above: 1024 level: extended name: hash normalize: [] original_fieldset: user short: Unique user hash to correlate information for a user in anonymized form. type: keyword source.user.id: dashed_name: source-user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: source.user.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword source.user.name: dashed_name: source-user-name description: Short name or login of the user. example: a.einstein flat_name: source.user.name ignore_above: 1024 level: core multi_fields: - flat_name: source.user.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword source.user.roles: dashed_name: source-user-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: source.user.roles ignore_above: 1024 level: extended name: roles normalize: - array original_fieldset: user short: Array of user roles at the time of the event. type: keyword group: 2 name: source nestings: - source.as - source.geo - source.user prefix: source. reusable: expected: - as: source at: process.entry_meta full: process.entry_meta.source short_override: Remote client information such as ip, port and geo location. top_level: true reused_here: - full: source.as schema_name: as short: Fields describing an Autonomous System (Internet routing prefix). - full: source.geo schema_name: geo short: Fields describing a location. - full: source.user schema_name: user short: Fields to describe the user relevant to the event. short: Fields about the source side of a network connection, used with destination. title: Source type: group threat: description: "Fields to classify events and alerts according to a threat taxonomy\ \ such as the MITRE ATT&CK\xAE framework.\nThese fields are for users to classify\ \ alerts from all of their sources (e.g. IDS, NGFW, etc.) within a common taxonomy.\ \ The threat.tactic.* fields are meant to capture the high level category of the\ \ threat (e.g. \"impact\"). The threat.technique.* fields are meant to capture\ \ which kind of approach is used by this detected threat, to accomplish the goal\ \ (e.g. \"endpoint denial of service\")." fields: threat.enrichments: dashed_name: threat-enrichments description: A list of associated indicators objects enriching the event, and the context of that association/enrichment. flat_name: threat.enrichments level: extended name: enrichments normalize: - array short: List of objects containing indicators enriching the event. type: nested threat.enrichments.indicator: dashed_name: threat-enrichments-indicator description: Object containing associated indicators enriching the event. flat_name: threat.enrichments.indicator level: extended name: enrichments.indicator normalize: [] short: Object containing indicators enriching the event. type: object threat.enrichments.indicator.as.number: dashed_name: threat-enrichments-indicator-as-number description: Unique number allocated to the autonomous system. The autonomous system number (ASN) uniquely identifies each network on the Internet. example: 15169 flat_name: threat.enrichments.indicator.as.number level: extended name: number normalize: [] original_fieldset: as short: Unique number allocated to the autonomous system. type: long threat.enrichments.indicator.as.organization.name: dashed_name: threat-enrichments-indicator-as-organization-name description: Organization name. example: Google LLC flat_name: threat.enrichments.indicator.as.organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: threat.enrichments.indicator.as.organization.name.text name: text type: match_only_text name: organization.name normalize: [] original_fieldset: as short: Organization name. type: keyword threat.enrichments.indicator.confidence: dashed_name: threat-enrichments-indicator-confidence description: Identifies the vendor-neutral confidence rating using the None/Low/Medium/High scale defined in Appendix A of the STIX 2.1 framework. Vendor-specific confidence scales may be added as custom fields. example: Medium expected_values: - Not Specified - None - Low - Medium - High flat_name: threat.enrichments.indicator.confidence ignore_above: 1024 level: extended name: enrichments.indicator.confidence normalize: [] short: Indicator confidence rating type: keyword threat.enrichments.indicator.description: dashed_name: threat-enrichments-indicator-description description: Describes the type of action conducted by the threat. example: IP x.x.x.x was observed delivering the Angler EK. flat_name: threat.enrichments.indicator.description ignore_above: 1024 level: extended name: enrichments.indicator.description normalize: [] short: Indicator description type: keyword threat.enrichments.indicator.email.address: dashed_name: threat-enrichments-indicator-email-address description: Identifies a threat indicator as an email address (irrespective of direction). example: phish@example.com flat_name: threat.enrichments.indicator.email.address ignore_above: 1024 level: extended name: enrichments.indicator.email.address normalize: [] short: Indicator email address type: keyword threat.enrichments.indicator.file.accessed: dashed_name: threat-enrichments-indicator-file-accessed description: 'Last time the file was accessed. Note that not all filesystems keep track of access time.' flat_name: threat.enrichments.indicator.file.accessed level: extended name: accessed normalize: [] original_fieldset: file short: Last time the file was accessed. type: date threat.enrichments.indicator.file.attributes: dashed_name: threat-enrichments-indicator-file-attributes description: 'Array of file attributes. Attributes names will vary by platform. Here''s a non-exhaustive list of values that are expected in this field: archive, compressed, directory, encrypted, execute, hidden, read, readonly, system, write.' example: '["readonly", "system"]' flat_name: threat.enrichments.indicator.file.attributes ignore_above: 1024 level: extended name: attributes normalize: - array original_fieldset: file short: Array of file attributes. type: keyword threat.enrichments.indicator.file.code_signature.digest_algorithm: dashed_name: threat-enrichments-indicator-file-code-signature-digest-algorithm description: 'The hashing algorithm used to sign the process. This value can distinguish signatures when a file is signed multiple times by the same signer but with a different digest algorithm.' example: sha256 flat_name: threat.enrichments.indicator.file.code_signature.digest_algorithm ignore_above: 1024 level: extended name: digest_algorithm normalize: [] original_fieldset: code_signature short: Hashing algorithm used to sign the process. type: keyword threat.enrichments.indicator.file.code_signature.exists: dashed_name: threat-enrichments-indicator-file-code-signature-exists description: Boolean to capture if a signature is present. example: 'true' flat_name: threat.enrichments.indicator.file.code_signature.exists level: core name: exists normalize: [] original_fieldset: code_signature short: Boolean to capture if a signature is present. type: boolean threat.enrichments.indicator.file.code_signature.signing_id: dashed_name: threat-enrichments-indicator-file-code-signature-signing-id description: 'The identifier used to sign the process. This is used to identify the application manufactured by a software vendor. The field is relevant to Apple *OS only.' example: com.apple.xpc.proxy flat_name: threat.enrichments.indicator.file.code_signature.signing_id ignore_above: 1024 level: extended name: signing_id normalize: [] original_fieldset: code_signature short: The identifier used to sign the process. type: keyword threat.enrichments.indicator.file.code_signature.status: dashed_name: threat-enrichments-indicator-file-code-signature-status description: 'Additional information about the certificate status. This is useful for logging cryptographic errors with the certificate validity or trust status. Leave unpopulated if the validity or trust of the certificate was unchecked.' example: ERROR_UNTRUSTED_ROOT flat_name: threat.enrichments.indicator.file.code_signature.status ignore_above: 1024 level: extended name: status normalize: [] original_fieldset: code_signature short: Additional information about the certificate status. type: keyword threat.enrichments.indicator.file.code_signature.subject_name: dashed_name: threat-enrichments-indicator-file-code-signature-subject-name description: Subject name of the code signer example: Microsoft Corporation flat_name: threat.enrichments.indicator.file.code_signature.subject_name ignore_above: 1024 level: core name: subject_name normalize: [] original_fieldset: code_signature short: Subject name of the code signer type: keyword threat.enrichments.indicator.file.code_signature.team_id: dashed_name: threat-enrichments-indicator-file-code-signature-team-id description: 'The team identifier used to sign the process. This is used to identify the team or vendor of a software product. The field is relevant to Apple *OS only.' example: EQHXZ8M8AV flat_name: threat.enrichments.indicator.file.code_signature.team_id ignore_above: 1024 level: extended name: team_id normalize: [] original_fieldset: code_signature short: The team identifier used to sign the process. type: keyword threat.enrichments.indicator.file.code_signature.timestamp: dashed_name: threat-enrichments-indicator-file-code-signature-timestamp description: Date and time when the code signature was generated and signed. example: '2021-01-01T12:10:30Z' flat_name: threat.enrichments.indicator.file.code_signature.timestamp level: extended name: timestamp normalize: [] original_fieldset: code_signature short: When the signature was generated and signed. type: date threat.enrichments.indicator.file.code_signature.trusted: dashed_name: threat-enrichments-indicator-file-code-signature-trusted description: 'Stores the trust status of the certificate chain. Validating the trust of the certificate chain may be complicated, and this field should only be populated by tools that actively check the status.' example: 'true' flat_name: threat.enrichments.indicator.file.code_signature.trusted level: extended name: trusted normalize: [] original_fieldset: code_signature short: Stores the trust status of the certificate chain. type: boolean threat.enrichments.indicator.file.code_signature.valid: dashed_name: threat-enrichments-indicator-file-code-signature-valid description: 'Boolean to capture if the digital signature is verified against the binary content. Leave unpopulated if a certificate was unchecked.' example: 'true' flat_name: threat.enrichments.indicator.file.code_signature.valid level: extended name: valid normalize: [] original_fieldset: code_signature short: Boolean to capture if the digital signature is verified against the binary content. type: boolean threat.enrichments.indicator.file.created: dashed_name: threat-enrichments-indicator-file-created description: 'File creation time. Note that not all filesystems store the creation time.' flat_name: threat.enrichments.indicator.file.created level: extended name: created normalize: [] original_fieldset: file short: File creation time. type: date threat.enrichments.indicator.file.ctime: dashed_name: threat-enrichments-indicator-file-ctime description: 'Last time the file attributes or metadata changed. Note that changes to the file content will update `mtime`. This implies `ctime` will be adjusted at the same time, since `mtime` is an attribute of the file.' flat_name: threat.enrichments.indicator.file.ctime level: extended name: ctime normalize: [] original_fieldset: file short: Last time the file attributes or metadata changed. type: date threat.enrichments.indicator.file.device: dashed_name: threat-enrichments-indicator-file-device description: Device that is the source of the file. example: sda flat_name: threat.enrichments.indicator.file.device ignore_above: 1024 level: extended name: device normalize: [] original_fieldset: file short: Device that is the source of the file. type: keyword threat.enrichments.indicator.file.directory: dashed_name: threat-enrichments-indicator-file-directory description: Directory where the file is located. It should include the drive letter, when appropriate. example: /home/alice flat_name: threat.enrichments.indicator.file.directory ignore_above: 1024 level: extended name: directory normalize: [] original_fieldset: file short: Directory where the file is located. type: keyword threat.enrichments.indicator.file.drive_letter: dashed_name: threat-enrichments-indicator-file-drive-letter description: 'Drive letter where the file is located. This field is only relevant on Windows. The value should be uppercase, and not include the colon.' example: C flat_name: threat.enrichments.indicator.file.drive_letter ignore_above: 1 level: extended name: drive_letter normalize: [] original_fieldset: file short: Drive letter where the file is located. type: keyword threat.enrichments.indicator.file.elf.architecture: dashed_name: threat-enrichments-indicator-file-elf-architecture description: Machine architecture of the ELF file. example: x86-64 flat_name: threat.enrichments.indicator.file.elf.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: elf short: Machine architecture of the ELF file. type: keyword threat.enrichments.indicator.file.elf.byte_order: dashed_name: threat-enrichments-indicator-file-elf-byte-order description: Byte sequence of ELF file. example: Little Endian flat_name: threat.enrichments.indicator.file.elf.byte_order ignore_above: 1024 level: extended name: byte_order normalize: [] original_fieldset: elf short: Byte sequence of ELF file. type: keyword threat.enrichments.indicator.file.elf.cpu_type: dashed_name: threat-enrichments-indicator-file-elf-cpu-type description: CPU type of the ELF file. example: Intel flat_name: threat.enrichments.indicator.file.elf.cpu_type ignore_above: 1024 level: extended name: cpu_type normalize: [] original_fieldset: elf short: CPU type of the ELF file. type: keyword threat.enrichments.indicator.file.elf.creation_date: dashed_name: threat-enrichments-indicator-file-elf-creation-date description: Extracted when possible from the file's metadata. Indicates when it was built or compiled. It can also be faked by malware creators. flat_name: threat.enrichments.indicator.file.elf.creation_date level: extended name: creation_date normalize: [] original_fieldset: elf short: Build or compile date. type: date threat.enrichments.indicator.file.elf.exports: dashed_name: threat-enrichments-indicator-file-elf-exports description: List of exported element names and types. flat_name: threat.enrichments.indicator.file.elf.exports level: extended name: exports normalize: - array original_fieldset: elf short: List of exported element names and types. type: flattened threat.enrichments.indicator.file.elf.header.abi_version: dashed_name: threat-enrichments-indicator-file-elf-header-abi-version description: Version of the ELF Application Binary Interface (ABI). flat_name: threat.enrichments.indicator.file.elf.header.abi_version ignore_above: 1024 level: extended name: header.abi_version normalize: [] original_fieldset: elf short: Version of the ELF Application Binary Interface (ABI). type: keyword threat.enrichments.indicator.file.elf.header.class: dashed_name: threat-enrichments-indicator-file-elf-header-class description: Header class of the ELF file. flat_name: threat.enrichments.indicator.file.elf.header.class ignore_above: 1024 level: extended name: header.class normalize: [] original_fieldset: elf short: Header class of the ELF file. type: keyword threat.enrichments.indicator.file.elf.header.data: dashed_name: threat-enrichments-indicator-file-elf-header-data description: Data table of the ELF header. flat_name: threat.enrichments.indicator.file.elf.header.data ignore_above: 1024 level: extended name: header.data normalize: [] original_fieldset: elf short: Data table of the ELF header. type: keyword threat.enrichments.indicator.file.elf.header.entrypoint: dashed_name: threat-enrichments-indicator-file-elf-header-entrypoint description: Header entrypoint of the ELF file. flat_name: threat.enrichments.indicator.file.elf.header.entrypoint format: string level: extended name: header.entrypoint normalize: [] original_fieldset: elf short: Header entrypoint of the ELF file. type: long threat.enrichments.indicator.file.elf.header.object_version: dashed_name: threat-enrichments-indicator-file-elf-header-object-version description: '"0x1" for original ELF files.' flat_name: threat.enrichments.indicator.file.elf.header.object_version ignore_above: 1024 level: extended name: header.object_version normalize: [] original_fieldset: elf short: '"0x1" for original ELF files.' type: keyword threat.enrichments.indicator.file.elf.header.os_abi: dashed_name: threat-enrichments-indicator-file-elf-header-os-abi description: Application Binary Interface (ABI) of the Linux OS. flat_name: threat.enrichments.indicator.file.elf.header.os_abi ignore_above: 1024 level: extended name: header.os_abi normalize: [] original_fieldset: elf short: Application Binary Interface (ABI) of the Linux OS. type: keyword threat.enrichments.indicator.file.elf.header.type: dashed_name: threat-enrichments-indicator-file-elf-header-type description: Header type of the ELF file. flat_name: threat.enrichments.indicator.file.elf.header.type ignore_above: 1024 level: extended name: header.type normalize: [] original_fieldset: elf short: Header type of the ELF file. type: keyword threat.enrichments.indicator.file.elf.header.version: dashed_name: threat-enrichments-indicator-file-elf-header-version description: Version of the ELF header. flat_name: threat.enrichments.indicator.file.elf.header.version ignore_above: 1024 level: extended name: header.version normalize: [] original_fieldset: elf short: Version of the ELF header. type: keyword threat.enrichments.indicator.file.elf.imports: dashed_name: threat-enrichments-indicator-file-elf-imports description: List of imported element names and types. flat_name: threat.enrichments.indicator.file.elf.imports level: extended name: imports normalize: - array original_fieldset: elf short: List of imported element names and types. type: flattened threat.enrichments.indicator.file.elf.sections: dashed_name: threat-enrichments-indicator-file-elf-sections description: 'An array containing an object for each section of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.sections.*`.' flat_name: threat.enrichments.indicator.file.elf.sections level: extended name: sections normalize: - array original_fieldset: elf short: Section information of the ELF file. type: nested threat.enrichments.indicator.file.elf.sections.chi2: dashed_name: threat-enrichments-indicator-file-elf-sections-chi2 description: Chi-square probability distribution of the section. flat_name: threat.enrichments.indicator.file.elf.sections.chi2 format: number level: extended name: sections.chi2 normalize: [] original_fieldset: elf short: Chi-square probability distribution of the section. type: long threat.enrichments.indicator.file.elf.sections.entropy: dashed_name: threat-enrichments-indicator-file-elf-sections-entropy description: Shannon entropy calculation from the section. flat_name: threat.enrichments.indicator.file.elf.sections.entropy format: number level: extended name: sections.entropy normalize: [] original_fieldset: elf short: Shannon entropy calculation from the section. type: long threat.enrichments.indicator.file.elf.sections.flags: dashed_name: threat-enrichments-indicator-file-elf-sections-flags description: ELF Section List flags. flat_name: threat.enrichments.indicator.file.elf.sections.flags ignore_above: 1024 level: extended name: sections.flags normalize: [] original_fieldset: elf short: ELF Section List flags. type: keyword threat.enrichments.indicator.file.elf.sections.name: dashed_name: threat-enrichments-indicator-file-elf-sections-name description: ELF Section List name. flat_name: threat.enrichments.indicator.file.elf.sections.name ignore_above: 1024 level: extended name: sections.name normalize: [] original_fieldset: elf short: ELF Section List name. type: keyword threat.enrichments.indicator.file.elf.sections.physical_offset: dashed_name: threat-enrichments-indicator-file-elf-sections-physical-offset description: ELF Section List offset. flat_name: threat.enrichments.indicator.file.elf.sections.physical_offset ignore_above: 1024 level: extended name: sections.physical_offset normalize: [] original_fieldset: elf short: ELF Section List offset. type: keyword threat.enrichments.indicator.file.elf.sections.physical_size: dashed_name: threat-enrichments-indicator-file-elf-sections-physical-size description: ELF Section List physical size. flat_name: threat.enrichments.indicator.file.elf.sections.physical_size format: bytes level: extended name: sections.physical_size normalize: [] original_fieldset: elf short: ELF Section List physical size. type: long threat.enrichments.indicator.file.elf.sections.type: dashed_name: threat-enrichments-indicator-file-elf-sections-type description: ELF Section List type. flat_name: threat.enrichments.indicator.file.elf.sections.type ignore_above: 1024 level: extended name: sections.type normalize: [] original_fieldset: elf short: ELF Section List type. type: keyword threat.enrichments.indicator.file.elf.sections.virtual_address: dashed_name: threat-enrichments-indicator-file-elf-sections-virtual-address description: ELF Section List virtual address. flat_name: threat.enrichments.indicator.file.elf.sections.virtual_address format: string level: extended name: sections.virtual_address normalize: [] original_fieldset: elf short: ELF Section List virtual address. type: long threat.enrichments.indicator.file.elf.sections.virtual_size: dashed_name: threat-enrichments-indicator-file-elf-sections-virtual-size description: ELF Section List virtual size. flat_name: threat.enrichments.indicator.file.elf.sections.virtual_size format: string level: extended name: sections.virtual_size normalize: [] original_fieldset: elf short: ELF Section List virtual size. type: long threat.enrichments.indicator.file.elf.segments: dashed_name: threat-enrichments-indicator-file-elf-segments description: 'An array containing an object for each segment of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.segments.*`.' flat_name: threat.enrichments.indicator.file.elf.segments level: extended name: segments normalize: - array original_fieldset: elf short: ELF object segment list. type: nested threat.enrichments.indicator.file.elf.segments.sections: dashed_name: threat-enrichments-indicator-file-elf-segments-sections description: ELF object segment sections. flat_name: threat.enrichments.indicator.file.elf.segments.sections ignore_above: 1024 level: extended name: segments.sections normalize: [] original_fieldset: elf short: ELF object segment sections. type: keyword threat.enrichments.indicator.file.elf.segments.type: dashed_name: threat-enrichments-indicator-file-elf-segments-type description: ELF object segment type. flat_name: threat.enrichments.indicator.file.elf.segments.type ignore_above: 1024 level: extended name: segments.type normalize: [] original_fieldset: elf short: ELF object segment type. type: keyword threat.enrichments.indicator.file.elf.shared_libraries: dashed_name: threat-enrichments-indicator-file-elf-shared-libraries description: List of shared libraries used by this ELF object. flat_name: threat.enrichments.indicator.file.elf.shared_libraries ignore_above: 1024 level: extended name: shared_libraries normalize: - array original_fieldset: elf short: List of shared libraries used by this ELF object. type: keyword threat.enrichments.indicator.file.elf.telfhash: dashed_name: threat-enrichments-indicator-file-elf-telfhash description: telfhash symbol hash for ELF file. flat_name: threat.enrichments.indicator.file.elf.telfhash ignore_above: 1024 level: extended name: telfhash normalize: [] original_fieldset: elf short: telfhash hash for ELF file. type: keyword threat.enrichments.indicator.file.extension: dashed_name: threat-enrichments-indicator-file-extension description: 'File extension, excluding the leading dot. Note that when the file name has multiple extensions (example.tar.gz), only the last one should be captured ("gz", not "tar.gz").' example: png flat_name: threat.enrichments.indicator.file.extension ignore_above: 1024 level: extended name: extension normalize: [] original_fieldset: file short: File extension, excluding the leading dot. type: keyword threat.enrichments.indicator.file.fork_name: dashed_name: threat-enrichments-indicator-file-fork-name description: 'A fork is additional data associated with a filesystem object. On Linux, a resource fork is used to store additional data with a filesystem object. A file always has at least one fork for the data portion, and additional forks may exist. On NTFS, this is analogous to an Alternate Data Stream (ADS), and the default data stream for a file is just called $DATA. Zone.Identifier is commonly used by Windows to track contents downloaded from the Internet. An ADS is typically of the form: `C:\path\to\filename.extension:some_fork_name`, and `some_fork_name` is the value that should populate `fork_name`. `filename.extension` should populate `file.name`, and `extension` should populate `file.extension`. The full path, `file.path`, will include the fork name.' example: Zone.Identifer flat_name: threat.enrichments.indicator.file.fork_name ignore_above: 1024 level: extended name: fork_name normalize: [] original_fieldset: file short: A fork is additional data associated with a filesystem object. type: keyword threat.enrichments.indicator.file.gid: dashed_name: threat-enrichments-indicator-file-gid description: Primary group ID (GID) of the file. example: '1001' flat_name: threat.enrichments.indicator.file.gid ignore_above: 1024 level: extended name: gid normalize: [] original_fieldset: file short: Primary group ID (GID) of the file. type: keyword threat.enrichments.indicator.file.group: dashed_name: threat-enrichments-indicator-file-group description: Primary group name of the file. example: alice flat_name: threat.enrichments.indicator.file.group ignore_above: 1024 level: extended name: group normalize: [] original_fieldset: file short: Primary group name of the file. type: keyword threat.enrichments.indicator.file.hash.md5: dashed_name: threat-enrichments-indicator-file-hash-md5 description: MD5 hash. flat_name: threat.enrichments.indicator.file.hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] original_fieldset: hash short: MD5 hash. type: keyword threat.enrichments.indicator.file.hash.sha1: dashed_name: threat-enrichments-indicator-file-hash-sha1 description: SHA1 hash. flat_name: threat.enrichments.indicator.file.hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] original_fieldset: hash short: SHA1 hash. type: keyword threat.enrichments.indicator.file.hash.sha256: dashed_name: threat-enrichments-indicator-file-hash-sha256 description: SHA256 hash. flat_name: threat.enrichments.indicator.file.hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] original_fieldset: hash short: SHA256 hash. type: keyword threat.enrichments.indicator.file.hash.sha384: dashed_name: threat-enrichments-indicator-file-hash-sha384 description: SHA384 hash. flat_name: threat.enrichments.indicator.file.hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] original_fieldset: hash short: SHA384 hash. type: keyword threat.enrichments.indicator.file.hash.sha512: dashed_name: threat-enrichments-indicator-file-hash-sha512 description: SHA512 hash. flat_name: threat.enrichments.indicator.file.hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] original_fieldset: hash short: SHA512 hash. type: keyword threat.enrichments.indicator.file.hash.ssdeep: dashed_name: threat-enrichments-indicator-file-hash-ssdeep description: SSDEEP hash. flat_name: threat.enrichments.indicator.file.hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] original_fieldset: hash short: SSDEEP hash. type: keyword threat.enrichments.indicator.file.hash.tlsh: dashed_name: threat-enrichments-indicator-file-hash-tlsh description: TLSH hash. flat_name: threat.enrichments.indicator.file.hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] original_fieldset: hash short: TLSH hash. type: keyword threat.enrichments.indicator.file.inode: dashed_name: threat-enrichments-indicator-file-inode description: Inode representing the file in the filesystem. example: '256383' flat_name: threat.enrichments.indicator.file.inode ignore_above: 1024 level: extended name: inode normalize: [] original_fieldset: file short: Inode representing the file in the filesystem. type: keyword threat.enrichments.indicator.file.mime_type: dashed_name: threat-enrichments-indicator-file-mime-type description: MIME type should identify the format of the file or stream of bytes using https://www.iana.org/assignments/media-types/media-types.xhtml[IANA official types], where possible. When more than one type is applicable, the most specific type should be used. flat_name: threat.enrichments.indicator.file.mime_type ignore_above: 1024 level: extended name: mime_type normalize: [] original_fieldset: file short: Media type of file, document, or arrangement of bytes. type: keyword threat.enrichments.indicator.file.mode: dashed_name: threat-enrichments-indicator-file-mode description: Mode of the file in octal representation. example: '0640' flat_name: threat.enrichments.indicator.file.mode ignore_above: 1024 level: extended name: mode normalize: [] original_fieldset: file short: Mode of the file in octal representation. type: keyword threat.enrichments.indicator.file.mtime: dashed_name: threat-enrichments-indicator-file-mtime description: Last time the file content was modified. flat_name: threat.enrichments.indicator.file.mtime level: extended name: mtime normalize: [] original_fieldset: file short: Last time the file content was modified. type: date threat.enrichments.indicator.file.name: dashed_name: threat-enrichments-indicator-file-name description: Name of the file including the extension, without the directory. example: example.png flat_name: threat.enrichments.indicator.file.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: file short: Name of the file including the extension, without the directory. type: keyword threat.enrichments.indicator.file.owner: dashed_name: threat-enrichments-indicator-file-owner description: File owner's username. example: alice flat_name: threat.enrichments.indicator.file.owner ignore_above: 1024 level: extended name: owner normalize: [] original_fieldset: file short: File owner's username. type: keyword threat.enrichments.indicator.file.path: dashed_name: threat-enrichments-indicator-file-path description: Full path to the file, including the file name. It should include the drive letter, when appropriate. example: /home/alice/example.png flat_name: threat.enrichments.indicator.file.path ignore_above: 1024 level: extended multi_fields: - flat_name: threat.enrichments.indicator.file.path.text name: text type: match_only_text name: path normalize: [] original_fieldset: file short: Full path to the file, including the file name. type: keyword threat.enrichments.indicator.file.pe.architecture: dashed_name: threat-enrichments-indicator-file-pe-architecture description: CPU architecture target for the file. example: x64 flat_name: threat.enrichments.indicator.file.pe.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: pe short: CPU architecture target for the file. type: keyword threat.enrichments.indicator.file.pe.company: dashed_name: threat-enrichments-indicator-file-pe-company description: Internal company name of the file, provided at compile-time. example: Microsoft Corporation flat_name: threat.enrichments.indicator.file.pe.company ignore_above: 1024 level: extended name: company normalize: [] original_fieldset: pe short: Internal company name of the file, provided at compile-time. type: keyword threat.enrichments.indicator.file.pe.description: dashed_name: threat-enrichments-indicator-file-pe-description description: Internal description of the file, provided at compile-time. example: Paint flat_name: threat.enrichments.indicator.file.pe.description ignore_above: 1024 level: extended name: description normalize: [] original_fieldset: pe short: Internal description of the file, provided at compile-time. type: keyword threat.enrichments.indicator.file.pe.file_version: dashed_name: threat-enrichments-indicator-file-pe-file-version description: Internal version of the file, provided at compile-time. example: 6.3.9600.17415 flat_name: threat.enrichments.indicator.file.pe.file_version ignore_above: 1024 level: extended name: file_version normalize: [] original_fieldset: pe short: Process name. type: keyword threat.enrichments.indicator.file.pe.imphash: dashed_name: threat-enrichments-indicator-file-pe-imphash description: 'A hash of the imports in a PE file. An imphash -- or import hash -- can be used to fingerprint binaries even after recompilation or other code-level transformations have occurred, which would change more traditional hash values. Learn more at https://www.fireeye.com/blog/threat-research/2014/01/tracking-malware-import-hashing.html.' example: 0c6803c4e922103c4dca5963aad36ddf flat_name: threat.enrichments.indicator.file.pe.imphash ignore_above: 1024 level: extended name: imphash normalize: [] original_fieldset: pe short: A hash of the imports in a PE file. type: keyword threat.enrichments.indicator.file.pe.original_file_name: dashed_name: threat-enrichments-indicator-file-pe-original-file-name description: Internal name of the file, provided at compile-time. example: MSPAINT.EXE flat_name: threat.enrichments.indicator.file.pe.original_file_name ignore_above: 1024 level: extended name: original_file_name normalize: [] original_fieldset: pe short: Internal name of the file, provided at compile-time. type: keyword threat.enrichments.indicator.file.pe.pehash: dashed_name: threat-enrichments-indicator-file-pe-pehash description: 'A hash of the PE header and data from one or more PE sections. An pehash can be used to cluster files by transforming structural information about a file into a hash value. Learn more at https://www.usenix.org/legacy/events/leet09/tech/full_papers/wicherski/wicherski_html/index.html.' example: 73ff189b63cd6be375a7ff25179a38d347651975 flat_name: threat.enrichments.indicator.file.pe.pehash ignore_above: 1024 level: extended name: pehash normalize: [] original_fieldset: pe short: A hash of the PE header and data from one or more PE sections. type: keyword threat.enrichments.indicator.file.pe.product: dashed_name: threat-enrichments-indicator-file-pe-product description: Internal product name of the file, provided at compile-time. example: "Microsoft\xAE Windows\xAE Operating System" flat_name: threat.enrichments.indicator.file.pe.product ignore_above: 1024 level: extended name: product normalize: [] original_fieldset: pe short: Internal product name of the file, provided at compile-time. type: keyword threat.enrichments.indicator.file.size: dashed_name: threat-enrichments-indicator-file-size description: 'File size in bytes. Only relevant when `file.type` is "file".' example: 16384 flat_name: threat.enrichments.indicator.file.size level: extended name: size normalize: [] original_fieldset: file short: File size in bytes. type: long threat.enrichments.indicator.file.target_path: dashed_name: threat-enrichments-indicator-file-target-path description: Target path for symlinks. flat_name: threat.enrichments.indicator.file.target_path ignore_above: 1024 level: extended multi_fields: - flat_name: threat.enrichments.indicator.file.target_path.text name: text type: match_only_text name: target_path normalize: [] original_fieldset: file short: Target path for symlinks. type: keyword threat.enrichments.indicator.file.type: dashed_name: threat-enrichments-indicator-file-type description: File type (file, dir, or symlink). example: file flat_name: threat.enrichments.indicator.file.type ignore_above: 1024 level: extended name: type normalize: [] original_fieldset: file short: File type (file, dir, or symlink). type: keyword threat.enrichments.indicator.file.uid: dashed_name: threat-enrichments-indicator-file-uid description: The user ID (UID) or security identifier (SID) of the file owner. example: '1001' flat_name: threat.enrichments.indicator.file.uid ignore_above: 1024 level: extended name: uid normalize: [] original_fieldset: file short: The user ID (UID) or security identifier (SID) of the file owner. type: keyword threat.enrichments.indicator.file.x509.alternative_names: dashed_name: threat-enrichments-indicator-file-x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: threat.enrichments.indicator.file.x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array original_fieldset: x509 short: List of subject alternative names (SAN). type: keyword threat.enrichments.indicator.file.x509.issuer.common_name: dashed_name: threat-enrichments-indicator-file-x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: threat.enrichments.indicator.file.x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array original_fieldset: x509 short: List of common name (CN) of issuing certificate authority. type: keyword threat.enrichments.indicator.file.x509.issuer.country: dashed_name: threat-enrichments-indicator-file-x509-issuer-country description: List of country \(C) codes example: US flat_name: threat.enrichments.indicator.file.x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array original_fieldset: x509 short: List of country \(C) codes type: keyword threat.enrichments.indicator.file.x509.issuer.distinguished_name: dashed_name: threat-enrichments-indicator-file-x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: threat.enrichments.indicator.file.x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of issuing certificate authority. type: keyword threat.enrichments.indicator.file.x509.issuer.locality: dashed_name: threat-enrichments-indicator-file-x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: threat.enrichments.indicator.file.x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.enrichments.indicator.file.x509.issuer.organization: dashed_name: threat-enrichments-indicator-file-x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: threat.enrichments.indicator.file.x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of issuing certificate authority. type: keyword threat.enrichments.indicator.file.x509.issuer.organizational_unit: dashed_name: threat-enrichments-indicator-file-x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: threat.enrichments.indicator.file.x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of issuing certificate authority. type: keyword threat.enrichments.indicator.file.x509.issuer.state_or_province: dashed_name: threat-enrichments-indicator-file-x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.enrichments.indicator.file.x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.enrichments.indicator.file.x509.not_after: dashed_name: threat-enrichments-indicator-file-x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: threat.enrichments.indicator.file.x509.not_after level: extended name: not_after normalize: [] original_fieldset: x509 short: Time at which the certificate is no longer considered valid. type: date threat.enrichments.indicator.file.x509.not_before: dashed_name: threat-enrichments-indicator-file-x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: threat.enrichments.indicator.file.x509.not_before level: extended name: not_before normalize: [] original_fieldset: x509 short: Time at which the certificate is first considered valid. type: date threat.enrichments.indicator.file.x509.public_key_algorithm: dashed_name: threat-enrichments-indicator-file-x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: threat.enrichments.indicator.file.x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] original_fieldset: x509 short: Algorithm used to generate the public key. type: keyword threat.enrichments.indicator.file.x509.public_key_curve: dashed_name: threat-enrichments-indicator-file-x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: threat.enrichments.indicator.file.x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] original_fieldset: x509 short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword threat.enrichments.indicator.file.x509.public_key_exponent: dashed_name: threat-enrichments-indicator-file-x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: threat.enrichments.indicator.file.x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] original_fieldset: x509 short: Exponent used to derive the public key. This is algorithm specific. type: long threat.enrichments.indicator.file.x509.public_key_size: dashed_name: threat-enrichments-indicator-file-x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: threat.enrichments.indicator.file.x509.public_key_size level: extended name: public_key_size normalize: [] original_fieldset: x509 short: The size of the public key space in bits. type: long threat.enrichments.indicator.file.x509.serial_number: dashed_name: threat-enrichments-indicator-file-x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: threat.enrichments.indicator.file.x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] original_fieldset: x509 short: Unique serial number issued by the certificate authority. type: keyword threat.enrichments.indicator.file.x509.signature_algorithm: dashed_name: threat-enrichments-indicator-file-x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: threat.enrichments.indicator.file.x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] original_fieldset: x509 short: Identifier for certificate signature algorithm. type: keyword threat.enrichments.indicator.file.x509.subject.common_name: dashed_name: threat-enrichments-indicator-file-x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: threat.enrichments.indicator.file.x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array original_fieldset: x509 short: List of common names (CN) of subject. type: keyword threat.enrichments.indicator.file.x509.subject.country: dashed_name: threat-enrichments-indicator-file-x509-subject-country description: List of country \(C) code example: US flat_name: threat.enrichments.indicator.file.x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array original_fieldset: x509 short: List of country \(C) code type: keyword threat.enrichments.indicator.file.x509.subject.distinguished_name: dashed_name: threat-enrichments-indicator-file-x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: threat.enrichments.indicator.file.x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of the certificate subject entity. type: keyword threat.enrichments.indicator.file.x509.subject.locality: dashed_name: threat-enrichments-indicator-file-x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: threat.enrichments.indicator.file.x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.enrichments.indicator.file.x509.subject.organization: dashed_name: threat-enrichments-indicator-file-x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: threat.enrichments.indicator.file.x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of subject. type: keyword threat.enrichments.indicator.file.x509.subject.organizational_unit: dashed_name: threat-enrichments-indicator-file-x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: threat.enrichments.indicator.file.x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of subject. type: keyword threat.enrichments.indicator.file.x509.subject.state_or_province: dashed_name: threat-enrichments-indicator-file-x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.enrichments.indicator.file.x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.enrichments.indicator.file.x509.version_number: dashed_name: threat-enrichments-indicator-file-x509-version-number description: Version of x509 format. example: 3 flat_name: threat.enrichments.indicator.file.x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] original_fieldset: x509 short: Version of x509 format. type: keyword threat.enrichments.indicator.first_seen: dashed_name: threat-enrichments-indicator-first-seen description: The date and time when intelligence source first reported sighting this indicator. example: '2020-11-05T17:25:47.000Z' flat_name: threat.enrichments.indicator.first_seen level: extended name: enrichments.indicator.first_seen normalize: [] short: Date/time indicator was first reported. type: date threat.enrichments.indicator.geo.city_name: dashed_name: threat-enrichments-indicator-geo-city-name description: City name. example: Montreal flat_name: threat.enrichments.indicator.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword threat.enrichments.indicator.geo.continent_code: dashed_name: threat-enrichments-indicator-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: threat.enrichments.indicator.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword threat.enrichments.indicator.geo.continent_name: dashed_name: threat-enrichments-indicator-geo-continent-name description: Name of the continent. example: North America flat_name: threat.enrichments.indicator.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword threat.enrichments.indicator.geo.country_iso_code: dashed_name: threat-enrichments-indicator-geo-country-iso-code description: Country ISO code. example: CA flat_name: threat.enrichments.indicator.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword threat.enrichments.indicator.geo.country_name: dashed_name: threat-enrichments-indicator-geo-country-name description: Country name. example: Canada flat_name: threat.enrichments.indicator.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword threat.enrichments.indicator.geo.location: dashed_name: threat-enrichments-indicator-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: threat.enrichments.indicator.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point threat.enrichments.indicator.geo.name: dashed_name: threat-enrichments-indicator-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: threat.enrichments.indicator.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword threat.enrichments.indicator.geo.postal_code: dashed_name: threat-enrichments-indicator-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: threat.enrichments.indicator.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword threat.enrichments.indicator.geo.region_iso_code: dashed_name: threat-enrichments-indicator-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: threat.enrichments.indicator.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword threat.enrichments.indicator.geo.region_name: dashed_name: threat-enrichments-indicator-geo-region-name description: Region name. example: Quebec flat_name: threat.enrichments.indicator.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword threat.enrichments.indicator.geo.timezone: dashed_name: threat-enrichments-indicator-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: threat.enrichments.indicator.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword threat.enrichments.indicator.ip: dashed_name: threat-enrichments-indicator-ip description: Identifies a threat indicator as an IP address (irrespective of direction). example: 1.2.3.4 flat_name: threat.enrichments.indicator.ip level: extended name: enrichments.indicator.ip normalize: [] short: Indicator IP address type: ip threat.enrichments.indicator.last_seen: dashed_name: threat-enrichments-indicator-last-seen description: The date and time when intelligence source last reported sighting this indicator. example: '2020-11-05T17:25:47.000Z' flat_name: threat.enrichments.indicator.last_seen level: extended name: enrichments.indicator.last_seen normalize: [] short: Date/time indicator was last reported. type: date threat.enrichments.indicator.marking.tlp.version: dashed_name: threat-enrichments-indicator-marking-tlp-version description: Traffic Light Protocol version. example: 2.0 flat_name: threat.enrichments.indicator.marking.tlp.version ignore_above: 1024 level: extended name: enrichments.indicator.marking.tlp.version normalize: [] short: Indicator TLP version type: keyword threat.enrichments.indicator.modified_at: dashed_name: threat-enrichments-indicator-modified-at description: The date and time when intelligence source last modified information for this indicator. example: '2020-11-05T17:25:47.000Z' flat_name: threat.enrichments.indicator.modified_at level: extended name: enrichments.indicator.modified_at normalize: [] short: Date/time indicator was last updated. type: date threat.enrichments.indicator.port: dashed_name: threat-enrichments-indicator-port description: Identifies a threat indicator as a port number (irrespective of direction). example: 443 flat_name: threat.enrichments.indicator.port level: extended name: enrichments.indicator.port normalize: [] short: Indicator port type: long threat.enrichments.indicator.provider: dashed_name: threat-enrichments-indicator-provider description: The name of the indicator's provider. example: lrz_urlhaus flat_name: threat.enrichments.indicator.provider ignore_above: 1024 level: extended name: enrichments.indicator.provider normalize: [] short: Indicator provider type: keyword threat.enrichments.indicator.reference: dashed_name: threat-enrichments-indicator-reference description: Reference URL linking to additional information about this indicator. example: https://system.example.com/indicator/0001234 flat_name: threat.enrichments.indicator.reference ignore_above: 1024 level: extended name: enrichments.indicator.reference normalize: [] short: Indicator reference URL type: keyword threat.enrichments.indicator.registry.data.bytes: dashed_name: threat-enrichments-indicator-registry-data-bytes description: 'Original bytes written with base64 encoding. For Windows registry operations, such as SetValueEx and RegQueryValueEx, this corresponds to the data pointed by `lp_data`. This is optional but provides better recoverability and should be populated for REG_BINARY encoded values.' example: ZQBuAC0AVQBTAAAAZQBuAAAAAAA= flat_name: threat.enrichments.indicator.registry.data.bytes ignore_above: 1024 level: extended name: data.bytes normalize: [] original_fieldset: registry short: Original bytes written with base64 encoding. type: keyword threat.enrichments.indicator.registry.data.strings: dashed_name: threat-enrichments-indicator-registry-data-strings description: 'Content when writing string types. Populated as an array when writing string data to the registry. For single string registry types (REG_SZ, REG_EXPAND_SZ), this should be an array with one string. For sequences of string with REG_MULTI_SZ, this array will be variable length. For numeric data, such as REG_DWORD and REG_QWORD, this should be populated with the decimal representation (e.g `"1"`).' example: '["C:\rta\red_ttp\bin\myapp.exe"]' flat_name: threat.enrichments.indicator.registry.data.strings level: core name: data.strings normalize: - array original_fieldset: registry short: List of strings representing what was written to the registry. type: wildcard threat.enrichments.indicator.registry.data.type: dashed_name: threat-enrichments-indicator-registry-data-type description: Standard registry type for encoding contents example: REG_SZ flat_name: threat.enrichments.indicator.registry.data.type ignore_above: 1024 level: core name: data.type normalize: [] original_fieldset: registry short: Standard registry type for encoding contents type: keyword threat.enrichments.indicator.registry.hive: dashed_name: threat-enrichments-indicator-registry-hive description: Abbreviated name for the hive. example: HKLM flat_name: threat.enrichments.indicator.registry.hive ignore_above: 1024 level: core name: hive normalize: [] original_fieldset: registry short: Abbreviated name for the hive. type: keyword threat.enrichments.indicator.registry.key: dashed_name: threat-enrichments-indicator-registry-key description: Hive-relative path of keys. example: SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\winword.exe flat_name: threat.enrichments.indicator.registry.key ignore_above: 1024 level: core name: key normalize: [] original_fieldset: registry short: Hive-relative path of keys. type: keyword threat.enrichments.indicator.registry.path: dashed_name: threat-enrichments-indicator-registry-path description: Full path, including hive, key and value example: HKLM\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\winword.exe\Debugger flat_name: threat.enrichments.indicator.registry.path ignore_above: 1024 level: core name: path normalize: [] original_fieldset: registry short: Full path, including hive, key and value type: keyword threat.enrichments.indicator.registry.value: dashed_name: threat-enrichments-indicator-registry-value description: Name of the value written. example: Debugger flat_name: threat.enrichments.indicator.registry.value ignore_above: 1024 level: core name: value normalize: [] original_fieldset: registry short: Name of the value written. type: keyword threat.enrichments.indicator.scanner_stats: dashed_name: threat-enrichments-indicator-scanner-stats description: Count of AV/EDR vendors that successfully detected malicious file or URL. example: 4 flat_name: threat.enrichments.indicator.scanner_stats level: extended name: enrichments.indicator.scanner_stats normalize: [] short: Scanner statistics type: long threat.enrichments.indicator.sightings: dashed_name: threat-enrichments-indicator-sightings description: Number of times this indicator was observed conducting threat activity. example: 20 flat_name: threat.enrichments.indicator.sightings level: extended name: enrichments.indicator.sightings normalize: [] short: Number of times indicator observed type: long threat.enrichments.indicator.type: dashed_name: threat-enrichments-indicator-type description: Type of indicator as represented by Cyber Observable in STIX 2.0. example: ipv4-addr expected_values: - autonomous-system - artifact - directory - domain-name - email-addr - file - ipv4-addr - ipv6-addr - mac-addr - mutex - port - process - software - url - user-account - windows-registry-key - x509-certificate flat_name: threat.enrichments.indicator.type ignore_above: 1024 level: extended name: enrichments.indicator.type normalize: [] short: Type of indicator type: keyword threat.enrichments.indicator.url.domain: dashed_name: threat-enrichments-indicator-url-domain description: 'Domain of the url, such as "www.elastic.co". In some cases a URL may refer to an IP and/or port directly, without a domain name. In this case, the IP address would go to the `domain` field. If the URL contains a literal IPv6 address enclosed by `[` and `]` (IETF RFC 2732), the `[` and `]` characters should also be captured in the `domain` field.' example: www.elastic.co flat_name: threat.enrichments.indicator.url.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: url short: Domain of the url. type: keyword threat.enrichments.indicator.url.extension: dashed_name: threat-enrichments-indicator-url-extension description: 'The field contains the file extension from the original request url, excluding the leading dot. The file extension is only set if it exists, as not every url has a file extension. The leading period must not be included. For example, the value must be "png", not ".png". Note that when the file name has multiple extensions (example.tar.gz), only the last one should be captured ("gz", not "tar.gz").' example: png flat_name: threat.enrichments.indicator.url.extension ignore_above: 1024 level: extended name: extension normalize: [] original_fieldset: url short: File extension from the request url, excluding the leading dot. type: keyword threat.enrichments.indicator.url.fragment: dashed_name: threat-enrichments-indicator-url-fragment description: 'Portion of the url after the `#`, such as "top". The `#` is not part of the fragment.' flat_name: threat.enrichments.indicator.url.fragment ignore_above: 1024 level: extended name: fragment normalize: [] original_fieldset: url short: Portion of the url after the `#`. type: keyword threat.enrichments.indicator.url.full: dashed_name: threat-enrichments-indicator-url-full description: If full URLs are important to your use case, they should be stored in `url.full`, whether this field is reconstructed or present in the event source. example: https://www.elastic.co:443/search?q=elasticsearch#top flat_name: threat.enrichments.indicator.url.full level: extended multi_fields: - flat_name: threat.enrichments.indicator.url.full.text name: text type: match_only_text name: full normalize: [] original_fieldset: url short: Full unparsed URL. type: wildcard threat.enrichments.indicator.url.original: dashed_name: threat-enrichments-indicator-url-original description: 'Unmodified original url as seen in the event source. Note that in network monitoring, the observed URL may be a full URL, whereas in access logs, the URL is often just represented as a path. This field is meant to represent the URL as it was observed, complete or not.' example: https://www.elastic.co:443/search?q=elasticsearch#top or /search?q=elasticsearch flat_name: threat.enrichments.indicator.url.original level: extended multi_fields: - flat_name: threat.enrichments.indicator.url.original.text name: text type: match_only_text name: original normalize: [] original_fieldset: url short: Unmodified original url as seen in the event source. type: wildcard threat.enrichments.indicator.url.password: dashed_name: threat-enrichments-indicator-url-password description: Password of the request. flat_name: threat.enrichments.indicator.url.password ignore_above: 1024 level: extended name: password normalize: [] original_fieldset: url short: Password of the request. type: keyword threat.enrichments.indicator.url.path: dashed_name: threat-enrichments-indicator-url-path description: Path of the request, such as "/search". flat_name: threat.enrichments.indicator.url.path level: extended name: path normalize: [] original_fieldset: url short: Path of the request, such as "/search". type: wildcard threat.enrichments.indicator.url.port: dashed_name: threat-enrichments-indicator-url-port description: Port of the request, such as 443. example: 443 flat_name: threat.enrichments.indicator.url.port format: string level: extended name: port normalize: [] original_fieldset: url short: Port of the request, such as 443. type: long threat.enrichments.indicator.url.query: dashed_name: threat-enrichments-indicator-url-query description: 'The query field describes the query string of the request, such as "q=elasticsearch". The `?` is excluded from the query string. If a URL contains no `?`, there is no query field. If there is a `?` but no query, the query field exists with an empty string. The `exists` query can be used to differentiate between the two cases.' flat_name: threat.enrichments.indicator.url.query ignore_above: 1024 level: extended name: query normalize: [] original_fieldset: url short: Query string of the request. type: keyword threat.enrichments.indicator.url.registered_domain: dashed_name: threat-enrichments-indicator-url-registered-domain description: 'The highest registered url domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: threat.enrichments.indicator.url.registered_domain ignore_above: 1024 level: extended name: registered_domain normalize: [] original_fieldset: url short: The highest registered url domain, stripped of the subdomain. type: keyword threat.enrichments.indicator.url.scheme: dashed_name: threat-enrichments-indicator-url-scheme description: 'Scheme of the request, such as "https". Note: The `:` is not part of the scheme.' example: https flat_name: threat.enrichments.indicator.url.scheme ignore_above: 1024 level: extended name: scheme normalize: [] original_fieldset: url short: Scheme of the url. type: keyword threat.enrichments.indicator.url.subdomain: dashed_name: threat-enrichments-indicator-url-subdomain description: 'The subdomain portion of a fully qualified domain name includes all of the names except the host name under the registered_domain. In a partially qualified domain, or if the the qualification level of the full name cannot be determined, subdomain contains all of the names below the registered domain. For example the subdomain portion of "www.east.mydomain.co.uk" is "east". If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: east flat_name: threat.enrichments.indicator.url.subdomain ignore_above: 1024 level: extended name: subdomain normalize: [] original_fieldset: url short: The subdomain of the domain. type: keyword threat.enrichments.indicator.url.top_level_domain: dashed_name: threat-enrichments-indicator-url-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: threat.enrichments.indicator.url.top_level_domain ignore_above: 1024 level: extended name: top_level_domain normalize: [] original_fieldset: url short: The effective top level domain (com, org, net, co.uk). type: keyword threat.enrichments.indicator.url.username: dashed_name: threat-enrichments-indicator-url-username description: Username of the request. flat_name: threat.enrichments.indicator.url.username ignore_above: 1024 level: extended name: username normalize: [] original_fieldset: url short: Username of the request. type: keyword threat.enrichments.indicator.x509.alternative_names: dashed_name: threat-enrichments-indicator-x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: threat.enrichments.indicator.x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array original_fieldset: x509 short: List of subject alternative names (SAN). type: keyword threat.enrichments.indicator.x509.issuer.common_name: dashed_name: threat-enrichments-indicator-x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: threat.enrichments.indicator.x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array original_fieldset: x509 short: List of common name (CN) of issuing certificate authority. type: keyword threat.enrichments.indicator.x509.issuer.country: dashed_name: threat-enrichments-indicator-x509-issuer-country description: List of country \(C) codes example: US flat_name: threat.enrichments.indicator.x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array original_fieldset: x509 short: List of country \(C) codes type: keyword threat.enrichments.indicator.x509.issuer.distinguished_name: dashed_name: threat-enrichments-indicator-x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: threat.enrichments.indicator.x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of issuing certificate authority. type: keyword threat.enrichments.indicator.x509.issuer.locality: dashed_name: threat-enrichments-indicator-x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: threat.enrichments.indicator.x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.enrichments.indicator.x509.issuer.organization: dashed_name: threat-enrichments-indicator-x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: threat.enrichments.indicator.x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of issuing certificate authority. type: keyword threat.enrichments.indicator.x509.issuer.organizational_unit: dashed_name: threat-enrichments-indicator-x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: threat.enrichments.indicator.x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of issuing certificate authority. type: keyword threat.enrichments.indicator.x509.issuer.state_or_province: dashed_name: threat-enrichments-indicator-x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.enrichments.indicator.x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.enrichments.indicator.x509.not_after: dashed_name: threat-enrichments-indicator-x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: threat.enrichments.indicator.x509.not_after level: extended name: not_after normalize: [] original_fieldset: x509 short: Time at which the certificate is no longer considered valid. type: date threat.enrichments.indicator.x509.not_before: dashed_name: threat-enrichments-indicator-x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: threat.enrichments.indicator.x509.not_before level: extended name: not_before normalize: [] original_fieldset: x509 short: Time at which the certificate is first considered valid. type: date threat.enrichments.indicator.x509.public_key_algorithm: dashed_name: threat-enrichments-indicator-x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: threat.enrichments.indicator.x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] original_fieldset: x509 short: Algorithm used to generate the public key. type: keyword threat.enrichments.indicator.x509.public_key_curve: dashed_name: threat-enrichments-indicator-x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: threat.enrichments.indicator.x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] original_fieldset: x509 short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword threat.enrichments.indicator.x509.public_key_exponent: dashed_name: threat-enrichments-indicator-x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: threat.enrichments.indicator.x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] original_fieldset: x509 short: Exponent used to derive the public key. This is algorithm specific. type: long threat.enrichments.indicator.x509.public_key_size: dashed_name: threat-enrichments-indicator-x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: threat.enrichments.indicator.x509.public_key_size level: extended name: public_key_size normalize: [] original_fieldset: x509 short: The size of the public key space in bits. type: long threat.enrichments.indicator.x509.serial_number: dashed_name: threat-enrichments-indicator-x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: threat.enrichments.indicator.x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] original_fieldset: x509 short: Unique serial number issued by the certificate authority. type: keyword threat.enrichments.indicator.x509.signature_algorithm: dashed_name: threat-enrichments-indicator-x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: threat.enrichments.indicator.x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] original_fieldset: x509 short: Identifier for certificate signature algorithm. type: keyword threat.enrichments.indicator.x509.subject.common_name: dashed_name: threat-enrichments-indicator-x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: threat.enrichments.indicator.x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array original_fieldset: x509 short: List of common names (CN) of subject. type: keyword threat.enrichments.indicator.x509.subject.country: dashed_name: threat-enrichments-indicator-x509-subject-country description: List of country \(C) code example: US flat_name: threat.enrichments.indicator.x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array original_fieldset: x509 short: List of country \(C) code type: keyword threat.enrichments.indicator.x509.subject.distinguished_name: dashed_name: threat-enrichments-indicator-x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: threat.enrichments.indicator.x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of the certificate subject entity. type: keyword threat.enrichments.indicator.x509.subject.locality: dashed_name: threat-enrichments-indicator-x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: threat.enrichments.indicator.x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.enrichments.indicator.x509.subject.organization: dashed_name: threat-enrichments-indicator-x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: threat.enrichments.indicator.x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of subject. type: keyword threat.enrichments.indicator.x509.subject.organizational_unit: dashed_name: threat-enrichments-indicator-x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: threat.enrichments.indicator.x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of subject. type: keyword threat.enrichments.indicator.x509.subject.state_or_province: dashed_name: threat-enrichments-indicator-x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.enrichments.indicator.x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.enrichments.indicator.x509.version_number: dashed_name: threat-enrichments-indicator-x509-version-number description: Version of x509 format. example: 3 flat_name: threat.enrichments.indicator.x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] original_fieldset: x509 short: Version of x509 format. type: keyword threat.enrichments.matched.atomic: dashed_name: threat-enrichments-matched-atomic description: Identifies the atomic indicator value that matched a local environment endpoint or network event. example: bad-domain.com flat_name: threat.enrichments.matched.atomic ignore_above: 1024 level: extended name: enrichments.matched.atomic normalize: [] short: Matched indicator value type: keyword threat.enrichments.matched.field: dashed_name: threat-enrichments-matched-field description: Identifies the field of the atomic indicator that matched a local environment endpoint or network event. example: file.hash.sha256 flat_name: threat.enrichments.matched.field ignore_above: 1024 level: extended name: enrichments.matched.field normalize: [] short: Matched indicator field type: keyword threat.enrichments.matched.id: dashed_name: threat-enrichments-matched-id description: Identifies the _id of the indicator document enriching the event. example: ff93aee5-86a1-4a61-b0e6-0cdc313d01b5 flat_name: threat.enrichments.matched.id ignore_above: 1024 level: extended name: enrichments.matched.id normalize: [] short: Matched indicator identifier type: keyword threat.enrichments.matched.index: dashed_name: threat-enrichments-matched-index description: Identifies the _index of the indicator document enriching the event. example: filebeat-8.0.0-2021.05.23-000011 flat_name: threat.enrichments.matched.index ignore_above: 1024 level: extended name: enrichments.matched.index normalize: [] short: Matched indicator index type: keyword threat.enrichments.matched.occurred: dashed_name: threat-enrichments-matched-occurred description: Indicates when the indicator match was generated example: '2021-10-05T17:00:58.326Z' flat_name: threat.enrichments.matched.occurred level: extended name: enrichments.matched.occurred normalize: [] short: Date of match type: date threat.enrichments.matched.type: dashed_name: threat-enrichments-matched-type description: Identifies the type of match that caused the event to be enriched with the given indicator example: indicator_match_rule flat_name: threat.enrichments.matched.type ignore_above: 1024 level: extended name: enrichments.matched.type normalize: [] short: Type of indicator match type: keyword threat.feed.dashboard_id: dashed_name: threat-feed-dashboard-id description: The saved object ID of the dashboard belonging to the threat feed for displaying dashboard links to threat feeds in Kibana. example: 5ba16340-72e6-11eb-a3e3-b3cc7c78a70f flat_name: threat.feed.dashboard_id ignore_above: 1024 level: extended name: feed.dashboard_id normalize: [] short: Feed dashboard ID. type: keyword threat.feed.description: dashed_name: threat-feed-description description: Description of the threat feed in a UI friendly format. example: Threat feed from the AlienVault Open Threat eXchange network. flat_name: threat.feed.description ignore_above: 1024 level: extended name: feed.description normalize: [] short: Description of the threat feed. type: keyword threat.feed.name: dashed_name: threat-feed-name description: The name of the threat feed in UI friendly format. example: AlienVault OTX flat_name: threat.feed.name ignore_above: 1024 level: extended name: feed.name normalize: [] short: Name of the threat feed. type: keyword threat.feed.reference: dashed_name: threat-feed-reference description: Reference information for the threat feed in a UI friendly format. example: https://otx.alienvault.com flat_name: threat.feed.reference ignore_above: 1024 level: extended name: feed.reference normalize: [] short: Reference for the threat feed. type: keyword threat.framework: dashed_name: threat-framework description: Name of the threat framework used to further categorize and classify the tactic and technique of the reported threat. Framework classification can be provided by detecting systems, evaluated at ingest time, or retrospectively tagged to events. example: MITRE ATT&CK flat_name: threat.framework ignore_above: 1024 level: extended name: framework normalize: [] short: Threat classification framework. type: keyword threat.group.alias: dashed_name: threat-group-alias description: "The alias(es) of the group for a set of related intrusion activity\ \ that are tracked by a common name in the security community.\nWhile not\ \ required, you can use a MITRE ATT&CK\xAE group alias(es)." example: '[ "Magecart Group 6" ]' flat_name: threat.group.alias ignore_above: 1024 level: extended name: group.alias normalize: - array short: Alias of the group. type: keyword threat.group.id: dashed_name: threat-group-id description: "The id of the group for a set of related intrusion activity that\ \ are tracked by a common name in the security community.\nWhile not required,\ \ you can use a MITRE ATT&CK\xAE group id." example: G0037 flat_name: threat.group.id ignore_above: 1024 level: extended name: group.id normalize: [] short: ID of the group. type: keyword threat.group.name: dashed_name: threat-group-name description: "The name of the group for a set of related intrusion activity\ \ that are tracked by a common name in the security community.\nWhile not\ \ required, you can use a MITRE ATT&CK\xAE group name." example: FIN6 flat_name: threat.group.name ignore_above: 1024 level: extended name: group.name normalize: [] short: Name of the group. type: keyword threat.group.reference: dashed_name: threat-group-reference description: "The reference URL of the group for a set of related intrusion\ \ activity that are tracked by a common name in the security community.\n\ While not required, you can use a MITRE ATT&CK\xAE group reference URL." example: https://attack.mitre.org/groups/G0037/ flat_name: threat.group.reference ignore_above: 1024 level: extended name: group.reference normalize: [] short: Reference URL of the group. type: keyword threat.indicator.as.number: dashed_name: threat-indicator-as-number description: Unique number allocated to the autonomous system. The autonomous system number (ASN) uniquely identifies each network on the Internet. example: 15169 flat_name: threat.indicator.as.number level: extended name: number normalize: [] original_fieldset: as short: Unique number allocated to the autonomous system. type: long threat.indicator.as.organization.name: dashed_name: threat-indicator-as-organization-name description: Organization name. example: Google LLC flat_name: threat.indicator.as.organization.name ignore_above: 1024 level: extended multi_fields: - flat_name: threat.indicator.as.organization.name.text name: text type: match_only_text name: organization.name normalize: [] original_fieldset: as short: Organization name. type: keyword threat.indicator.confidence: dashed_name: threat-indicator-confidence description: Identifies the vendor-neutral confidence rating using the None/Low/Medium/High scale defined in Appendix A of the STIX 2.1 framework. Vendor-specific confidence scales may be added as custom fields. example: Medium expected_values: - Not Specified - None - Low - Medium - High flat_name: threat.indicator.confidence ignore_above: 1024 level: extended name: indicator.confidence normalize: [] short: Indicator confidence rating type: keyword threat.indicator.description: dashed_name: threat-indicator-description description: Describes the type of action conducted by the threat. example: IP x.x.x.x was observed delivering the Angler EK. flat_name: threat.indicator.description ignore_above: 1024 level: extended name: indicator.description normalize: [] short: Indicator description type: keyword threat.indicator.email.address: dashed_name: threat-indicator-email-address description: Identifies a threat indicator as an email address (irrespective of direction). example: phish@example.com flat_name: threat.indicator.email.address ignore_above: 1024 level: extended name: indicator.email.address normalize: [] short: Indicator email address type: keyword threat.indicator.file.accessed: dashed_name: threat-indicator-file-accessed description: 'Last time the file was accessed. Note that not all filesystems keep track of access time.' flat_name: threat.indicator.file.accessed level: extended name: accessed normalize: [] original_fieldset: file short: Last time the file was accessed. type: date threat.indicator.file.attributes: dashed_name: threat-indicator-file-attributes description: 'Array of file attributes. Attributes names will vary by platform. Here''s a non-exhaustive list of values that are expected in this field: archive, compressed, directory, encrypted, execute, hidden, read, readonly, system, write.' example: '["readonly", "system"]' flat_name: threat.indicator.file.attributes ignore_above: 1024 level: extended name: attributes normalize: - array original_fieldset: file short: Array of file attributes. type: keyword threat.indicator.file.code_signature.digest_algorithm: dashed_name: threat-indicator-file-code-signature-digest-algorithm description: 'The hashing algorithm used to sign the process. This value can distinguish signatures when a file is signed multiple times by the same signer but with a different digest algorithm.' example: sha256 flat_name: threat.indicator.file.code_signature.digest_algorithm ignore_above: 1024 level: extended name: digest_algorithm normalize: [] original_fieldset: code_signature short: Hashing algorithm used to sign the process. type: keyword threat.indicator.file.code_signature.exists: dashed_name: threat-indicator-file-code-signature-exists description: Boolean to capture if a signature is present. example: 'true' flat_name: threat.indicator.file.code_signature.exists level: core name: exists normalize: [] original_fieldset: code_signature short: Boolean to capture if a signature is present. type: boolean threat.indicator.file.code_signature.signing_id: dashed_name: threat-indicator-file-code-signature-signing-id description: 'The identifier used to sign the process. This is used to identify the application manufactured by a software vendor. The field is relevant to Apple *OS only.' example: com.apple.xpc.proxy flat_name: threat.indicator.file.code_signature.signing_id ignore_above: 1024 level: extended name: signing_id normalize: [] original_fieldset: code_signature short: The identifier used to sign the process. type: keyword threat.indicator.file.code_signature.status: dashed_name: threat-indicator-file-code-signature-status description: 'Additional information about the certificate status. This is useful for logging cryptographic errors with the certificate validity or trust status. Leave unpopulated if the validity or trust of the certificate was unchecked.' example: ERROR_UNTRUSTED_ROOT flat_name: threat.indicator.file.code_signature.status ignore_above: 1024 level: extended name: status normalize: [] original_fieldset: code_signature short: Additional information about the certificate status. type: keyword threat.indicator.file.code_signature.subject_name: dashed_name: threat-indicator-file-code-signature-subject-name description: Subject name of the code signer example: Microsoft Corporation flat_name: threat.indicator.file.code_signature.subject_name ignore_above: 1024 level: core name: subject_name normalize: [] original_fieldset: code_signature short: Subject name of the code signer type: keyword threat.indicator.file.code_signature.team_id: dashed_name: threat-indicator-file-code-signature-team-id description: 'The team identifier used to sign the process. This is used to identify the team or vendor of a software product. The field is relevant to Apple *OS only.' example: EQHXZ8M8AV flat_name: threat.indicator.file.code_signature.team_id ignore_above: 1024 level: extended name: team_id normalize: [] original_fieldset: code_signature short: The team identifier used to sign the process. type: keyword threat.indicator.file.code_signature.timestamp: dashed_name: threat-indicator-file-code-signature-timestamp description: Date and time when the code signature was generated and signed. example: '2021-01-01T12:10:30Z' flat_name: threat.indicator.file.code_signature.timestamp level: extended name: timestamp normalize: [] original_fieldset: code_signature short: When the signature was generated and signed. type: date threat.indicator.file.code_signature.trusted: dashed_name: threat-indicator-file-code-signature-trusted description: 'Stores the trust status of the certificate chain. Validating the trust of the certificate chain may be complicated, and this field should only be populated by tools that actively check the status.' example: 'true' flat_name: threat.indicator.file.code_signature.trusted level: extended name: trusted normalize: [] original_fieldset: code_signature short: Stores the trust status of the certificate chain. type: boolean threat.indicator.file.code_signature.valid: dashed_name: threat-indicator-file-code-signature-valid description: 'Boolean to capture if the digital signature is verified against the binary content. Leave unpopulated if a certificate was unchecked.' example: 'true' flat_name: threat.indicator.file.code_signature.valid level: extended name: valid normalize: [] original_fieldset: code_signature short: Boolean to capture if the digital signature is verified against the binary content. type: boolean threat.indicator.file.created: dashed_name: threat-indicator-file-created description: 'File creation time. Note that not all filesystems store the creation time.' flat_name: threat.indicator.file.created level: extended name: created normalize: [] original_fieldset: file short: File creation time. type: date threat.indicator.file.ctime: dashed_name: threat-indicator-file-ctime description: 'Last time the file attributes or metadata changed. Note that changes to the file content will update `mtime`. This implies `ctime` will be adjusted at the same time, since `mtime` is an attribute of the file.' flat_name: threat.indicator.file.ctime level: extended name: ctime normalize: [] original_fieldset: file short: Last time the file attributes or metadata changed. type: date threat.indicator.file.device: dashed_name: threat-indicator-file-device description: Device that is the source of the file. example: sda flat_name: threat.indicator.file.device ignore_above: 1024 level: extended name: device normalize: [] original_fieldset: file short: Device that is the source of the file. type: keyword threat.indicator.file.directory: dashed_name: threat-indicator-file-directory description: Directory where the file is located. It should include the drive letter, when appropriate. example: /home/alice flat_name: threat.indicator.file.directory ignore_above: 1024 level: extended name: directory normalize: [] original_fieldset: file short: Directory where the file is located. type: keyword threat.indicator.file.drive_letter: dashed_name: threat-indicator-file-drive-letter description: 'Drive letter where the file is located. This field is only relevant on Windows. The value should be uppercase, and not include the colon.' example: C flat_name: threat.indicator.file.drive_letter ignore_above: 1 level: extended name: drive_letter normalize: [] original_fieldset: file short: Drive letter where the file is located. type: keyword threat.indicator.file.elf.architecture: dashed_name: threat-indicator-file-elf-architecture description: Machine architecture of the ELF file. example: x86-64 flat_name: threat.indicator.file.elf.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: elf short: Machine architecture of the ELF file. type: keyword threat.indicator.file.elf.byte_order: dashed_name: threat-indicator-file-elf-byte-order description: Byte sequence of ELF file. example: Little Endian flat_name: threat.indicator.file.elf.byte_order ignore_above: 1024 level: extended name: byte_order normalize: [] original_fieldset: elf short: Byte sequence of ELF file. type: keyword threat.indicator.file.elf.cpu_type: dashed_name: threat-indicator-file-elf-cpu-type description: CPU type of the ELF file. example: Intel flat_name: threat.indicator.file.elf.cpu_type ignore_above: 1024 level: extended name: cpu_type normalize: [] original_fieldset: elf short: CPU type of the ELF file. type: keyword threat.indicator.file.elf.creation_date: dashed_name: threat-indicator-file-elf-creation-date description: Extracted when possible from the file's metadata. Indicates when it was built or compiled. It can also be faked by malware creators. flat_name: threat.indicator.file.elf.creation_date level: extended name: creation_date normalize: [] original_fieldset: elf short: Build or compile date. type: date threat.indicator.file.elf.exports: dashed_name: threat-indicator-file-elf-exports description: List of exported element names and types. flat_name: threat.indicator.file.elf.exports level: extended name: exports normalize: - array original_fieldset: elf short: List of exported element names and types. type: flattened threat.indicator.file.elf.header.abi_version: dashed_name: threat-indicator-file-elf-header-abi-version description: Version of the ELF Application Binary Interface (ABI). flat_name: threat.indicator.file.elf.header.abi_version ignore_above: 1024 level: extended name: header.abi_version normalize: [] original_fieldset: elf short: Version of the ELF Application Binary Interface (ABI). type: keyword threat.indicator.file.elf.header.class: dashed_name: threat-indicator-file-elf-header-class description: Header class of the ELF file. flat_name: threat.indicator.file.elf.header.class ignore_above: 1024 level: extended name: header.class normalize: [] original_fieldset: elf short: Header class of the ELF file. type: keyword threat.indicator.file.elf.header.data: dashed_name: threat-indicator-file-elf-header-data description: Data table of the ELF header. flat_name: threat.indicator.file.elf.header.data ignore_above: 1024 level: extended name: header.data normalize: [] original_fieldset: elf short: Data table of the ELF header. type: keyword threat.indicator.file.elf.header.entrypoint: dashed_name: threat-indicator-file-elf-header-entrypoint description: Header entrypoint of the ELF file. flat_name: threat.indicator.file.elf.header.entrypoint format: string level: extended name: header.entrypoint normalize: [] original_fieldset: elf short: Header entrypoint of the ELF file. type: long threat.indicator.file.elf.header.object_version: dashed_name: threat-indicator-file-elf-header-object-version description: '"0x1" for original ELF files.' flat_name: threat.indicator.file.elf.header.object_version ignore_above: 1024 level: extended name: header.object_version normalize: [] original_fieldset: elf short: '"0x1" for original ELF files.' type: keyword threat.indicator.file.elf.header.os_abi: dashed_name: threat-indicator-file-elf-header-os-abi description: Application Binary Interface (ABI) of the Linux OS. flat_name: threat.indicator.file.elf.header.os_abi ignore_above: 1024 level: extended name: header.os_abi normalize: [] original_fieldset: elf short: Application Binary Interface (ABI) of the Linux OS. type: keyword threat.indicator.file.elf.header.type: dashed_name: threat-indicator-file-elf-header-type description: Header type of the ELF file. flat_name: threat.indicator.file.elf.header.type ignore_above: 1024 level: extended name: header.type normalize: [] original_fieldset: elf short: Header type of the ELF file. type: keyword threat.indicator.file.elf.header.version: dashed_name: threat-indicator-file-elf-header-version description: Version of the ELF header. flat_name: threat.indicator.file.elf.header.version ignore_above: 1024 level: extended name: header.version normalize: [] original_fieldset: elf short: Version of the ELF header. type: keyword threat.indicator.file.elf.imports: dashed_name: threat-indicator-file-elf-imports description: List of imported element names and types. flat_name: threat.indicator.file.elf.imports level: extended name: imports normalize: - array original_fieldset: elf short: List of imported element names and types. type: flattened threat.indicator.file.elf.sections: dashed_name: threat-indicator-file-elf-sections description: 'An array containing an object for each section of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.sections.*`.' flat_name: threat.indicator.file.elf.sections level: extended name: sections normalize: - array original_fieldset: elf short: Section information of the ELF file. type: nested threat.indicator.file.elf.sections.chi2: dashed_name: threat-indicator-file-elf-sections-chi2 description: Chi-square probability distribution of the section. flat_name: threat.indicator.file.elf.sections.chi2 format: number level: extended name: sections.chi2 normalize: [] original_fieldset: elf short: Chi-square probability distribution of the section. type: long threat.indicator.file.elf.sections.entropy: dashed_name: threat-indicator-file-elf-sections-entropy description: Shannon entropy calculation from the section. flat_name: threat.indicator.file.elf.sections.entropy format: number level: extended name: sections.entropy normalize: [] original_fieldset: elf short: Shannon entropy calculation from the section. type: long threat.indicator.file.elf.sections.flags: dashed_name: threat-indicator-file-elf-sections-flags description: ELF Section List flags. flat_name: threat.indicator.file.elf.sections.flags ignore_above: 1024 level: extended name: sections.flags normalize: [] original_fieldset: elf short: ELF Section List flags. type: keyword threat.indicator.file.elf.sections.name: dashed_name: threat-indicator-file-elf-sections-name description: ELF Section List name. flat_name: threat.indicator.file.elf.sections.name ignore_above: 1024 level: extended name: sections.name normalize: [] original_fieldset: elf short: ELF Section List name. type: keyword threat.indicator.file.elf.sections.physical_offset: dashed_name: threat-indicator-file-elf-sections-physical-offset description: ELF Section List offset. flat_name: threat.indicator.file.elf.sections.physical_offset ignore_above: 1024 level: extended name: sections.physical_offset normalize: [] original_fieldset: elf short: ELF Section List offset. type: keyword threat.indicator.file.elf.sections.physical_size: dashed_name: threat-indicator-file-elf-sections-physical-size description: ELF Section List physical size. flat_name: threat.indicator.file.elf.sections.physical_size format: bytes level: extended name: sections.physical_size normalize: [] original_fieldset: elf short: ELF Section List physical size. type: long threat.indicator.file.elf.sections.type: dashed_name: threat-indicator-file-elf-sections-type description: ELF Section List type. flat_name: threat.indicator.file.elf.sections.type ignore_above: 1024 level: extended name: sections.type normalize: [] original_fieldset: elf short: ELF Section List type. type: keyword threat.indicator.file.elf.sections.virtual_address: dashed_name: threat-indicator-file-elf-sections-virtual-address description: ELF Section List virtual address. flat_name: threat.indicator.file.elf.sections.virtual_address format: string level: extended name: sections.virtual_address normalize: [] original_fieldset: elf short: ELF Section List virtual address. type: long threat.indicator.file.elf.sections.virtual_size: dashed_name: threat-indicator-file-elf-sections-virtual-size description: ELF Section List virtual size. flat_name: threat.indicator.file.elf.sections.virtual_size format: string level: extended name: sections.virtual_size normalize: [] original_fieldset: elf short: ELF Section List virtual size. type: long threat.indicator.file.elf.segments: dashed_name: threat-indicator-file-elf-segments description: 'An array containing an object for each segment of the ELF file. The keys that should be present in these objects are defined by sub-fields underneath `elf.segments.*`.' flat_name: threat.indicator.file.elf.segments level: extended name: segments normalize: - array original_fieldset: elf short: ELF object segment list. type: nested threat.indicator.file.elf.segments.sections: dashed_name: threat-indicator-file-elf-segments-sections description: ELF object segment sections. flat_name: threat.indicator.file.elf.segments.sections ignore_above: 1024 level: extended name: segments.sections normalize: [] original_fieldset: elf short: ELF object segment sections. type: keyword threat.indicator.file.elf.segments.type: dashed_name: threat-indicator-file-elf-segments-type description: ELF object segment type. flat_name: threat.indicator.file.elf.segments.type ignore_above: 1024 level: extended name: segments.type normalize: [] original_fieldset: elf short: ELF object segment type. type: keyword threat.indicator.file.elf.shared_libraries: dashed_name: threat-indicator-file-elf-shared-libraries description: List of shared libraries used by this ELF object. flat_name: threat.indicator.file.elf.shared_libraries ignore_above: 1024 level: extended name: shared_libraries normalize: - array original_fieldset: elf short: List of shared libraries used by this ELF object. type: keyword threat.indicator.file.elf.telfhash: dashed_name: threat-indicator-file-elf-telfhash description: telfhash symbol hash for ELF file. flat_name: threat.indicator.file.elf.telfhash ignore_above: 1024 level: extended name: telfhash normalize: [] original_fieldset: elf short: telfhash hash for ELF file. type: keyword threat.indicator.file.extension: dashed_name: threat-indicator-file-extension description: 'File extension, excluding the leading dot. Note that when the file name has multiple extensions (example.tar.gz), only the last one should be captured ("gz", not "tar.gz").' example: png flat_name: threat.indicator.file.extension ignore_above: 1024 level: extended name: extension normalize: [] original_fieldset: file short: File extension, excluding the leading dot. type: keyword threat.indicator.file.fork_name: dashed_name: threat-indicator-file-fork-name description: 'A fork is additional data associated with a filesystem object. On Linux, a resource fork is used to store additional data with a filesystem object. A file always has at least one fork for the data portion, and additional forks may exist. On NTFS, this is analogous to an Alternate Data Stream (ADS), and the default data stream for a file is just called $DATA. Zone.Identifier is commonly used by Windows to track contents downloaded from the Internet. An ADS is typically of the form: `C:\path\to\filename.extension:some_fork_name`, and `some_fork_name` is the value that should populate `fork_name`. `filename.extension` should populate `file.name`, and `extension` should populate `file.extension`. The full path, `file.path`, will include the fork name.' example: Zone.Identifer flat_name: threat.indicator.file.fork_name ignore_above: 1024 level: extended name: fork_name normalize: [] original_fieldset: file short: A fork is additional data associated with a filesystem object. type: keyword threat.indicator.file.gid: dashed_name: threat-indicator-file-gid description: Primary group ID (GID) of the file. example: '1001' flat_name: threat.indicator.file.gid ignore_above: 1024 level: extended name: gid normalize: [] original_fieldset: file short: Primary group ID (GID) of the file. type: keyword threat.indicator.file.group: dashed_name: threat-indicator-file-group description: Primary group name of the file. example: alice flat_name: threat.indicator.file.group ignore_above: 1024 level: extended name: group normalize: [] original_fieldset: file short: Primary group name of the file. type: keyword threat.indicator.file.hash.md5: dashed_name: threat-indicator-file-hash-md5 description: MD5 hash. flat_name: threat.indicator.file.hash.md5 ignore_above: 1024 level: extended name: md5 normalize: [] original_fieldset: hash short: MD5 hash. type: keyword threat.indicator.file.hash.sha1: dashed_name: threat-indicator-file-hash-sha1 description: SHA1 hash. flat_name: threat.indicator.file.hash.sha1 ignore_above: 1024 level: extended name: sha1 normalize: [] original_fieldset: hash short: SHA1 hash. type: keyword threat.indicator.file.hash.sha256: dashed_name: threat-indicator-file-hash-sha256 description: SHA256 hash. flat_name: threat.indicator.file.hash.sha256 ignore_above: 1024 level: extended name: sha256 normalize: [] original_fieldset: hash short: SHA256 hash. type: keyword threat.indicator.file.hash.sha384: dashed_name: threat-indicator-file-hash-sha384 description: SHA384 hash. flat_name: threat.indicator.file.hash.sha384 ignore_above: 1024 level: extended name: sha384 normalize: [] original_fieldset: hash short: SHA384 hash. type: keyword threat.indicator.file.hash.sha512: dashed_name: threat-indicator-file-hash-sha512 description: SHA512 hash. flat_name: threat.indicator.file.hash.sha512 ignore_above: 1024 level: extended name: sha512 normalize: [] original_fieldset: hash short: SHA512 hash. type: keyword threat.indicator.file.hash.ssdeep: dashed_name: threat-indicator-file-hash-ssdeep description: SSDEEP hash. flat_name: threat.indicator.file.hash.ssdeep ignore_above: 1024 level: extended name: ssdeep normalize: [] original_fieldset: hash short: SSDEEP hash. type: keyword threat.indicator.file.hash.tlsh: dashed_name: threat-indicator-file-hash-tlsh description: TLSH hash. flat_name: threat.indicator.file.hash.tlsh ignore_above: 1024 level: extended name: tlsh normalize: [] original_fieldset: hash short: TLSH hash. type: keyword threat.indicator.file.inode: dashed_name: threat-indicator-file-inode description: Inode representing the file in the filesystem. example: '256383' flat_name: threat.indicator.file.inode ignore_above: 1024 level: extended name: inode normalize: [] original_fieldset: file short: Inode representing the file in the filesystem. type: keyword threat.indicator.file.mime_type: dashed_name: threat-indicator-file-mime-type description: MIME type should identify the format of the file or stream of bytes using https://www.iana.org/assignments/media-types/media-types.xhtml[IANA official types], where possible. When more than one type is applicable, the most specific type should be used. flat_name: threat.indicator.file.mime_type ignore_above: 1024 level: extended name: mime_type normalize: [] original_fieldset: file short: Media type of file, document, or arrangement of bytes. type: keyword threat.indicator.file.mode: dashed_name: threat-indicator-file-mode description: Mode of the file in octal representation. example: '0640' flat_name: threat.indicator.file.mode ignore_above: 1024 level: extended name: mode normalize: [] original_fieldset: file short: Mode of the file in octal representation. type: keyword threat.indicator.file.mtime: dashed_name: threat-indicator-file-mtime description: Last time the file content was modified. flat_name: threat.indicator.file.mtime level: extended name: mtime normalize: [] original_fieldset: file short: Last time the file content was modified. type: date threat.indicator.file.name: dashed_name: threat-indicator-file-name description: Name of the file including the extension, without the directory. example: example.png flat_name: threat.indicator.file.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: file short: Name of the file including the extension, without the directory. type: keyword threat.indicator.file.owner: dashed_name: threat-indicator-file-owner description: File owner's username. example: alice flat_name: threat.indicator.file.owner ignore_above: 1024 level: extended name: owner normalize: [] original_fieldset: file short: File owner's username. type: keyword threat.indicator.file.path: dashed_name: threat-indicator-file-path description: Full path to the file, including the file name. It should include the drive letter, when appropriate. example: /home/alice/example.png flat_name: threat.indicator.file.path ignore_above: 1024 level: extended multi_fields: - flat_name: threat.indicator.file.path.text name: text type: match_only_text name: path normalize: [] original_fieldset: file short: Full path to the file, including the file name. type: keyword threat.indicator.file.pe.architecture: dashed_name: threat-indicator-file-pe-architecture description: CPU architecture target for the file. example: x64 flat_name: threat.indicator.file.pe.architecture ignore_above: 1024 level: extended name: architecture normalize: [] original_fieldset: pe short: CPU architecture target for the file. type: keyword threat.indicator.file.pe.company: dashed_name: threat-indicator-file-pe-company description: Internal company name of the file, provided at compile-time. example: Microsoft Corporation flat_name: threat.indicator.file.pe.company ignore_above: 1024 level: extended name: company normalize: [] original_fieldset: pe short: Internal company name of the file, provided at compile-time. type: keyword threat.indicator.file.pe.description: dashed_name: threat-indicator-file-pe-description description: Internal description of the file, provided at compile-time. example: Paint flat_name: threat.indicator.file.pe.description ignore_above: 1024 level: extended name: description normalize: [] original_fieldset: pe short: Internal description of the file, provided at compile-time. type: keyword threat.indicator.file.pe.file_version: dashed_name: threat-indicator-file-pe-file-version description: Internal version of the file, provided at compile-time. example: 6.3.9600.17415 flat_name: threat.indicator.file.pe.file_version ignore_above: 1024 level: extended name: file_version normalize: [] original_fieldset: pe short: Process name. type: keyword threat.indicator.file.pe.imphash: dashed_name: threat-indicator-file-pe-imphash description: 'A hash of the imports in a PE file. An imphash -- or import hash -- can be used to fingerprint binaries even after recompilation or other code-level transformations have occurred, which would change more traditional hash values. Learn more at https://www.fireeye.com/blog/threat-research/2014/01/tracking-malware-import-hashing.html.' example: 0c6803c4e922103c4dca5963aad36ddf flat_name: threat.indicator.file.pe.imphash ignore_above: 1024 level: extended name: imphash normalize: [] original_fieldset: pe short: A hash of the imports in a PE file. type: keyword threat.indicator.file.pe.original_file_name: dashed_name: threat-indicator-file-pe-original-file-name description: Internal name of the file, provided at compile-time. example: MSPAINT.EXE flat_name: threat.indicator.file.pe.original_file_name ignore_above: 1024 level: extended name: original_file_name normalize: [] original_fieldset: pe short: Internal name of the file, provided at compile-time. type: keyword threat.indicator.file.pe.pehash: dashed_name: threat-indicator-file-pe-pehash description: 'A hash of the PE header and data from one or more PE sections. An pehash can be used to cluster files by transforming structural information about a file into a hash value. Learn more at https://www.usenix.org/legacy/events/leet09/tech/full_papers/wicherski/wicherski_html/index.html.' example: 73ff189b63cd6be375a7ff25179a38d347651975 flat_name: threat.indicator.file.pe.pehash ignore_above: 1024 level: extended name: pehash normalize: [] original_fieldset: pe short: A hash of the PE header and data from one or more PE sections. type: keyword threat.indicator.file.pe.product: dashed_name: threat-indicator-file-pe-product description: Internal product name of the file, provided at compile-time. example: "Microsoft\xAE Windows\xAE Operating System" flat_name: threat.indicator.file.pe.product ignore_above: 1024 level: extended name: product normalize: [] original_fieldset: pe short: Internal product name of the file, provided at compile-time. type: keyword threat.indicator.file.size: dashed_name: threat-indicator-file-size description: 'File size in bytes. Only relevant when `file.type` is "file".' example: 16384 flat_name: threat.indicator.file.size level: extended name: size normalize: [] original_fieldset: file short: File size in bytes. type: long threat.indicator.file.target_path: dashed_name: threat-indicator-file-target-path description: Target path for symlinks. flat_name: threat.indicator.file.target_path ignore_above: 1024 level: extended multi_fields: - flat_name: threat.indicator.file.target_path.text name: text type: match_only_text name: target_path normalize: [] original_fieldset: file short: Target path for symlinks. type: keyword threat.indicator.file.type: dashed_name: threat-indicator-file-type description: File type (file, dir, or symlink). example: file flat_name: threat.indicator.file.type ignore_above: 1024 level: extended name: type normalize: [] original_fieldset: file short: File type (file, dir, or symlink). type: keyword threat.indicator.file.uid: dashed_name: threat-indicator-file-uid description: The user ID (UID) or security identifier (SID) of the file owner. example: '1001' flat_name: threat.indicator.file.uid ignore_above: 1024 level: extended name: uid normalize: [] original_fieldset: file short: The user ID (UID) or security identifier (SID) of the file owner. type: keyword threat.indicator.file.x509.alternative_names: dashed_name: threat-indicator-file-x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: threat.indicator.file.x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array original_fieldset: x509 short: List of subject alternative names (SAN). type: keyword threat.indicator.file.x509.issuer.common_name: dashed_name: threat-indicator-file-x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: threat.indicator.file.x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array original_fieldset: x509 short: List of common name (CN) of issuing certificate authority. type: keyword threat.indicator.file.x509.issuer.country: dashed_name: threat-indicator-file-x509-issuer-country description: List of country \(C) codes example: US flat_name: threat.indicator.file.x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array original_fieldset: x509 short: List of country \(C) codes type: keyword threat.indicator.file.x509.issuer.distinguished_name: dashed_name: threat-indicator-file-x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: threat.indicator.file.x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of issuing certificate authority. type: keyword threat.indicator.file.x509.issuer.locality: dashed_name: threat-indicator-file-x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: threat.indicator.file.x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.indicator.file.x509.issuer.organization: dashed_name: threat-indicator-file-x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: threat.indicator.file.x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of issuing certificate authority. type: keyword threat.indicator.file.x509.issuer.organizational_unit: dashed_name: threat-indicator-file-x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: threat.indicator.file.x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of issuing certificate authority. type: keyword threat.indicator.file.x509.issuer.state_or_province: dashed_name: threat-indicator-file-x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.indicator.file.x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.indicator.file.x509.not_after: dashed_name: threat-indicator-file-x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: threat.indicator.file.x509.not_after level: extended name: not_after normalize: [] original_fieldset: x509 short: Time at which the certificate is no longer considered valid. type: date threat.indicator.file.x509.not_before: dashed_name: threat-indicator-file-x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: threat.indicator.file.x509.not_before level: extended name: not_before normalize: [] original_fieldset: x509 short: Time at which the certificate is first considered valid. type: date threat.indicator.file.x509.public_key_algorithm: dashed_name: threat-indicator-file-x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: threat.indicator.file.x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] original_fieldset: x509 short: Algorithm used to generate the public key. type: keyword threat.indicator.file.x509.public_key_curve: dashed_name: threat-indicator-file-x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: threat.indicator.file.x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] original_fieldset: x509 short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword threat.indicator.file.x509.public_key_exponent: dashed_name: threat-indicator-file-x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: threat.indicator.file.x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] original_fieldset: x509 short: Exponent used to derive the public key. This is algorithm specific. type: long threat.indicator.file.x509.public_key_size: dashed_name: threat-indicator-file-x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: threat.indicator.file.x509.public_key_size level: extended name: public_key_size normalize: [] original_fieldset: x509 short: The size of the public key space in bits. type: long threat.indicator.file.x509.serial_number: dashed_name: threat-indicator-file-x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: threat.indicator.file.x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] original_fieldset: x509 short: Unique serial number issued by the certificate authority. type: keyword threat.indicator.file.x509.signature_algorithm: dashed_name: threat-indicator-file-x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: threat.indicator.file.x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] original_fieldset: x509 short: Identifier for certificate signature algorithm. type: keyword threat.indicator.file.x509.subject.common_name: dashed_name: threat-indicator-file-x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: threat.indicator.file.x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array original_fieldset: x509 short: List of common names (CN) of subject. type: keyword threat.indicator.file.x509.subject.country: dashed_name: threat-indicator-file-x509-subject-country description: List of country \(C) code example: US flat_name: threat.indicator.file.x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array original_fieldset: x509 short: List of country \(C) code type: keyword threat.indicator.file.x509.subject.distinguished_name: dashed_name: threat-indicator-file-x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: threat.indicator.file.x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of the certificate subject entity. type: keyword threat.indicator.file.x509.subject.locality: dashed_name: threat-indicator-file-x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: threat.indicator.file.x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.indicator.file.x509.subject.organization: dashed_name: threat-indicator-file-x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: threat.indicator.file.x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of subject. type: keyword threat.indicator.file.x509.subject.organizational_unit: dashed_name: threat-indicator-file-x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: threat.indicator.file.x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of subject. type: keyword threat.indicator.file.x509.subject.state_or_province: dashed_name: threat-indicator-file-x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.indicator.file.x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.indicator.file.x509.version_number: dashed_name: threat-indicator-file-x509-version-number description: Version of x509 format. example: 3 flat_name: threat.indicator.file.x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] original_fieldset: x509 short: Version of x509 format. type: keyword threat.indicator.first_seen: dashed_name: threat-indicator-first-seen description: The date and time when intelligence source first reported sighting this indicator. example: '2020-11-05T17:25:47.000Z' flat_name: threat.indicator.first_seen level: extended name: indicator.first_seen normalize: [] short: Date/time indicator was first reported. type: date threat.indicator.geo.city_name: dashed_name: threat-indicator-geo-city-name description: City name. example: Montreal flat_name: threat.indicator.geo.city_name ignore_above: 1024 level: core name: city_name normalize: [] original_fieldset: geo short: City name. type: keyword threat.indicator.geo.continent_code: dashed_name: threat-indicator-geo-continent-code description: Two-letter code representing continent's name. example: NA flat_name: threat.indicator.geo.continent_code ignore_above: 1024 level: core name: continent_code normalize: [] original_fieldset: geo short: Continent code. type: keyword threat.indicator.geo.continent_name: dashed_name: threat-indicator-geo-continent-name description: Name of the continent. example: North America flat_name: threat.indicator.geo.continent_name ignore_above: 1024 level: core name: continent_name normalize: [] original_fieldset: geo short: Name of the continent. type: keyword threat.indicator.geo.country_iso_code: dashed_name: threat-indicator-geo-country-iso-code description: Country ISO code. example: CA flat_name: threat.indicator.geo.country_iso_code ignore_above: 1024 level: core name: country_iso_code normalize: [] original_fieldset: geo short: Country ISO code. type: keyword threat.indicator.geo.country_name: dashed_name: threat-indicator-geo-country-name description: Country name. example: Canada flat_name: threat.indicator.geo.country_name ignore_above: 1024 level: core name: country_name normalize: [] original_fieldset: geo short: Country name. type: keyword threat.indicator.geo.location: dashed_name: threat-indicator-geo-location description: Longitude and latitude. example: '{ "lon": -73.614830, "lat": 45.505918 }' flat_name: threat.indicator.geo.location level: core name: location normalize: [] original_fieldset: geo short: Longitude and latitude. type: geo_point threat.indicator.geo.name: dashed_name: threat-indicator-geo-name description: 'User-defined description of a location, at the level of granularity they care about. Could be the name of their data centers, the floor number, if this describes a local physical entity, city names. Not typically used in automated geolocation.' example: boston-dc flat_name: threat.indicator.geo.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: geo short: User-defined description of a location. type: keyword threat.indicator.geo.postal_code: dashed_name: threat-indicator-geo-postal-code description: 'Postal code associated with the location. Values appropriate for this field may also be known as a postcode or ZIP code and will vary widely from country to country.' example: 94040 flat_name: threat.indicator.geo.postal_code ignore_above: 1024 level: core name: postal_code normalize: [] original_fieldset: geo short: Postal code. type: keyword threat.indicator.geo.region_iso_code: dashed_name: threat-indicator-geo-region-iso-code description: Region ISO code. example: CA-QC flat_name: threat.indicator.geo.region_iso_code ignore_above: 1024 level: core name: region_iso_code normalize: [] original_fieldset: geo short: Region ISO code. type: keyword threat.indicator.geo.region_name: dashed_name: threat-indicator-geo-region-name description: Region name. example: Quebec flat_name: threat.indicator.geo.region_name ignore_above: 1024 level: core name: region_name normalize: [] original_fieldset: geo short: Region name. type: keyword threat.indicator.geo.timezone: dashed_name: threat-indicator-geo-timezone description: The time zone of the location, such as IANA time zone name. example: America/Argentina/Buenos_Aires flat_name: threat.indicator.geo.timezone ignore_above: 1024 level: core name: timezone normalize: [] original_fieldset: geo short: Time zone. type: keyword threat.indicator.ip: dashed_name: threat-indicator-ip description: Identifies a threat indicator as an IP address (irrespective of direction). example: 1.2.3.4 flat_name: threat.indicator.ip level: extended name: indicator.ip normalize: [] short: Indicator IP address type: ip threat.indicator.last_seen: dashed_name: threat-indicator-last-seen description: The date and time when intelligence source last reported sighting this indicator. example: '2020-11-05T17:25:47.000Z' flat_name: threat.indicator.last_seen level: extended name: indicator.last_seen normalize: [] short: Date/time indicator was last reported. type: date threat.indicator.marking.tlp: dashed_name: threat-indicator-marking-tlp description: Traffic Light Protocol sharing markings. example: CLEAR expected_values: - WHITE - CLEAR - GREEN - AMBER - AMBER+STRICT - RED flat_name: threat.indicator.marking.tlp ignore_above: 1024 level: extended name: indicator.marking.tlp normalize: [] short: Indicator TLP marking type: keyword threat.indicator.modified_at: dashed_name: threat-indicator-modified-at description: The date and time when intelligence source last modified information for this indicator. example: '2020-11-05T17:25:47.000Z' flat_name: threat.indicator.modified_at level: extended name: indicator.modified_at normalize: [] short: Date/time indicator was last updated. type: date threat.indicator.port: dashed_name: threat-indicator-port description: Identifies a threat indicator as a port number (irrespective of direction). example: 443 flat_name: threat.indicator.port level: extended name: indicator.port normalize: [] short: Indicator port type: long threat.indicator.provider: dashed_name: threat-indicator-provider description: The name of the indicator's provider. example: lrz_urlhaus flat_name: threat.indicator.provider ignore_above: 1024 level: extended name: indicator.provider normalize: [] short: Indicator provider type: keyword threat.indicator.reference: dashed_name: threat-indicator-reference description: Reference URL linking to additional information about this indicator. example: https://system.example.com/indicator/0001234 flat_name: threat.indicator.reference ignore_above: 1024 level: extended name: indicator.reference normalize: [] short: Indicator reference URL type: keyword threat.indicator.registry.data.bytes: dashed_name: threat-indicator-registry-data-bytes description: 'Original bytes written with base64 encoding. For Windows registry operations, such as SetValueEx and RegQueryValueEx, this corresponds to the data pointed by `lp_data`. This is optional but provides better recoverability and should be populated for REG_BINARY encoded values.' example: ZQBuAC0AVQBTAAAAZQBuAAAAAAA= flat_name: threat.indicator.registry.data.bytes ignore_above: 1024 level: extended name: data.bytes normalize: [] original_fieldset: registry short: Original bytes written with base64 encoding. type: keyword threat.indicator.registry.data.strings: dashed_name: threat-indicator-registry-data-strings description: 'Content when writing string types. Populated as an array when writing string data to the registry. For single string registry types (REG_SZ, REG_EXPAND_SZ), this should be an array with one string. For sequences of string with REG_MULTI_SZ, this array will be variable length. For numeric data, such as REG_DWORD and REG_QWORD, this should be populated with the decimal representation (e.g `"1"`).' example: '["C:\rta\red_ttp\bin\myapp.exe"]' flat_name: threat.indicator.registry.data.strings level: core name: data.strings normalize: - array original_fieldset: registry short: List of strings representing what was written to the registry. type: wildcard threat.indicator.registry.data.type: dashed_name: threat-indicator-registry-data-type description: Standard registry type for encoding contents example: REG_SZ flat_name: threat.indicator.registry.data.type ignore_above: 1024 level: core name: data.type normalize: [] original_fieldset: registry short: Standard registry type for encoding contents type: keyword threat.indicator.registry.hive: dashed_name: threat-indicator-registry-hive description: Abbreviated name for the hive. example: HKLM flat_name: threat.indicator.registry.hive ignore_above: 1024 level: core name: hive normalize: [] original_fieldset: registry short: Abbreviated name for the hive. type: keyword threat.indicator.registry.key: dashed_name: threat-indicator-registry-key description: Hive-relative path of keys. example: SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\winword.exe flat_name: threat.indicator.registry.key ignore_above: 1024 level: core name: key normalize: [] original_fieldset: registry short: Hive-relative path of keys. type: keyword threat.indicator.registry.path: dashed_name: threat-indicator-registry-path description: Full path, including hive, key and value example: HKLM\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\winword.exe\Debugger flat_name: threat.indicator.registry.path ignore_above: 1024 level: core name: path normalize: [] original_fieldset: registry short: Full path, including hive, key and value type: keyword threat.indicator.registry.value: dashed_name: threat-indicator-registry-value description: Name of the value written. example: Debugger flat_name: threat.indicator.registry.value ignore_above: 1024 level: core name: value normalize: [] original_fieldset: registry short: Name of the value written. type: keyword threat.indicator.scanner_stats: dashed_name: threat-indicator-scanner-stats description: Count of AV/EDR vendors that successfully detected malicious file or URL. example: 4 flat_name: threat.indicator.scanner_stats level: extended name: indicator.scanner_stats normalize: [] short: Scanner statistics type: long threat.indicator.sightings: dashed_name: threat-indicator-sightings description: Number of times this indicator was observed conducting threat activity. example: 20 flat_name: threat.indicator.sightings level: extended name: indicator.sightings normalize: [] short: Number of times indicator observed type: long threat.indicator.type: dashed_name: threat-indicator-type description: Type of indicator as represented by Cyber Observable in STIX 2.0. example: ipv4-addr expected_values: - autonomous-system - artifact - directory - domain-name - email-addr - file - ipv4-addr - ipv6-addr - mac-addr - mutex - port - process - software - url - user-account - windows-registry-key - x509-certificate flat_name: threat.indicator.type ignore_above: 1024 level: extended name: indicator.type normalize: [] short: Type of indicator type: keyword threat.indicator.url.domain: dashed_name: threat-indicator-url-domain description: 'Domain of the url, such as "www.elastic.co". In some cases a URL may refer to an IP and/or port directly, without a domain name. In this case, the IP address would go to the `domain` field. If the URL contains a literal IPv6 address enclosed by `[` and `]` (IETF RFC 2732), the `[` and `]` characters should also be captured in the `domain` field.' example: www.elastic.co flat_name: threat.indicator.url.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: url short: Domain of the url. type: keyword threat.indicator.url.extension: dashed_name: threat-indicator-url-extension description: 'The field contains the file extension from the original request url, excluding the leading dot. The file extension is only set if it exists, as not every url has a file extension. The leading period must not be included. For example, the value must be "png", not ".png". Note that when the file name has multiple extensions (example.tar.gz), only the last one should be captured ("gz", not "tar.gz").' example: png flat_name: threat.indicator.url.extension ignore_above: 1024 level: extended name: extension normalize: [] original_fieldset: url short: File extension from the request url, excluding the leading dot. type: keyword threat.indicator.url.fragment: dashed_name: threat-indicator-url-fragment description: 'Portion of the url after the `#`, such as "top". The `#` is not part of the fragment.' flat_name: threat.indicator.url.fragment ignore_above: 1024 level: extended name: fragment normalize: [] original_fieldset: url short: Portion of the url after the `#`. type: keyword threat.indicator.url.full: dashed_name: threat-indicator-url-full description: If full URLs are important to your use case, they should be stored in `url.full`, whether this field is reconstructed or present in the event source. example: https://www.elastic.co:443/search?q=elasticsearch#top flat_name: threat.indicator.url.full level: extended multi_fields: - flat_name: threat.indicator.url.full.text name: text type: match_only_text name: full normalize: [] original_fieldset: url short: Full unparsed URL. type: wildcard threat.indicator.url.original: dashed_name: threat-indicator-url-original description: 'Unmodified original url as seen in the event source. Note that in network monitoring, the observed URL may be a full URL, whereas in access logs, the URL is often just represented as a path. This field is meant to represent the URL as it was observed, complete or not.' example: https://www.elastic.co:443/search?q=elasticsearch#top or /search?q=elasticsearch flat_name: threat.indicator.url.original level: extended multi_fields: - flat_name: threat.indicator.url.original.text name: text type: match_only_text name: original normalize: [] original_fieldset: url short: Unmodified original url as seen in the event source. type: wildcard threat.indicator.url.password: dashed_name: threat-indicator-url-password description: Password of the request. flat_name: threat.indicator.url.password ignore_above: 1024 level: extended name: password normalize: [] original_fieldset: url short: Password of the request. type: keyword threat.indicator.url.path: dashed_name: threat-indicator-url-path description: Path of the request, such as "/search". flat_name: threat.indicator.url.path level: extended name: path normalize: [] original_fieldset: url short: Path of the request, such as "/search". type: wildcard threat.indicator.url.port: dashed_name: threat-indicator-url-port description: Port of the request, such as 443. example: 443 flat_name: threat.indicator.url.port format: string level: extended name: port normalize: [] original_fieldset: url short: Port of the request, such as 443. type: long threat.indicator.url.query: dashed_name: threat-indicator-url-query description: 'The query field describes the query string of the request, such as "q=elasticsearch". The `?` is excluded from the query string. If a URL contains no `?`, there is no query field. If there is a `?` but no query, the query field exists with an empty string. The `exists` query can be used to differentiate between the two cases.' flat_name: threat.indicator.url.query ignore_above: 1024 level: extended name: query normalize: [] original_fieldset: url short: Query string of the request. type: keyword threat.indicator.url.registered_domain: dashed_name: threat-indicator-url-registered-domain description: 'The highest registered url domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: threat.indicator.url.registered_domain ignore_above: 1024 level: extended name: registered_domain normalize: [] original_fieldset: url short: The highest registered url domain, stripped of the subdomain. type: keyword threat.indicator.url.scheme: dashed_name: threat-indicator-url-scheme description: 'Scheme of the request, such as "https". Note: The `:` is not part of the scheme.' example: https flat_name: threat.indicator.url.scheme ignore_above: 1024 level: extended name: scheme normalize: [] original_fieldset: url short: Scheme of the url. type: keyword threat.indicator.url.subdomain: dashed_name: threat-indicator-url-subdomain description: 'The subdomain portion of a fully qualified domain name includes all of the names except the host name under the registered_domain. In a partially qualified domain, or if the the qualification level of the full name cannot be determined, subdomain contains all of the names below the registered domain. For example the subdomain portion of "www.east.mydomain.co.uk" is "east". If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: east flat_name: threat.indicator.url.subdomain ignore_above: 1024 level: extended name: subdomain normalize: [] original_fieldset: url short: The subdomain of the domain. type: keyword threat.indicator.url.top_level_domain: dashed_name: threat-indicator-url-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: threat.indicator.url.top_level_domain ignore_above: 1024 level: extended name: top_level_domain normalize: [] original_fieldset: url short: The effective top level domain (com, org, net, co.uk). type: keyword threat.indicator.url.username: dashed_name: threat-indicator-url-username description: Username of the request. flat_name: threat.indicator.url.username ignore_above: 1024 level: extended name: username normalize: [] original_fieldset: url short: Username of the request. type: keyword threat.indicator.x509.alternative_names: dashed_name: threat-indicator-x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: threat.indicator.x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array original_fieldset: x509 short: List of subject alternative names (SAN). type: keyword threat.indicator.x509.issuer.common_name: dashed_name: threat-indicator-x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: threat.indicator.x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array original_fieldset: x509 short: List of common name (CN) of issuing certificate authority. type: keyword threat.indicator.x509.issuer.country: dashed_name: threat-indicator-x509-issuer-country description: List of country \(C) codes example: US flat_name: threat.indicator.x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array original_fieldset: x509 short: List of country \(C) codes type: keyword threat.indicator.x509.issuer.distinguished_name: dashed_name: threat-indicator-x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: threat.indicator.x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of issuing certificate authority. type: keyword threat.indicator.x509.issuer.locality: dashed_name: threat-indicator-x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: threat.indicator.x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.indicator.x509.issuer.organization: dashed_name: threat-indicator-x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: threat.indicator.x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of issuing certificate authority. type: keyword threat.indicator.x509.issuer.organizational_unit: dashed_name: threat-indicator-x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: threat.indicator.x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of issuing certificate authority. type: keyword threat.indicator.x509.issuer.state_or_province: dashed_name: threat-indicator-x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.indicator.x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.indicator.x509.not_after: dashed_name: threat-indicator-x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: threat.indicator.x509.not_after level: extended name: not_after normalize: [] original_fieldset: x509 short: Time at which the certificate is no longer considered valid. type: date threat.indicator.x509.not_before: dashed_name: threat-indicator-x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: threat.indicator.x509.not_before level: extended name: not_before normalize: [] original_fieldset: x509 short: Time at which the certificate is first considered valid. type: date threat.indicator.x509.public_key_algorithm: dashed_name: threat-indicator-x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: threat.indicator.x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] original_fieldset: x509 short: Algorithm used to generate the public key. type: keyword threat.indicator.x509.public_key_curve: dashed_name: threat-indicator-x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: threat.indicator.x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] original_fieldset: x509 short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword threat.indicator.x509.public_key_exponent: dashed_name: threat-indicator-x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: threat.indicator.x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] original_fieldset: x509 short: Exponent used to derive the public key. This is algorithm specific. type: long threat.indicator.x509.public_key_size: dashed_name: threat-indicator-x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: threat.indicator.x509.public_key_size level: extended name: public_key_size normalize: [] original_fieldset: x509 short: The size of the public key space in bits. type: long threat.indicator.x509.serial_number: dashed_name: threat-indicator-x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: threat.indicator.x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] original_fieldset: x509 short: Unique serial number issued by the certificate authority. type: keyword threat.indicator.x509.signature_algorithm: dashed_name: threat-indicator-x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: threat.indicator.x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] original_fieldset: x509 short: Identifier for certificate signature algorithm. type: keyword threat.indicator.x509.subject.common_name: dashed_name: threat-indicator-x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: threat.indicator.x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array original_fieldset: x509 short: List of common names (CN) of subject. type: keyword threat.indicator.x509.subject.country: dashed_name: threat-indicator-x509-subject-country description: List of country \(C) code example: US flat_name: threat.indicator.x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array original_fieldset: x509 short: List of country \(C) code type: keyword threat.indicator.x509.subject.distinguished_name: dashed_name: threat-indicator-x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: threat.indicator.x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of the certificate subject entity. type: keyword threat.indicator.x509.subject.locality: dashed_name: threat-indicator-x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: threat.indicator.x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword threat.indicator.x509.subject.organization: dashed_name: threat-indicator-x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: threat.indicator.x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of subject. type: keyword threat.indicator.x509.subject.organizational_unit: dashed_name: threat-indicator-x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: threat.indicator.x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of subject. type: keyword threat.indicator.x509.subject.state_or_province: dashed_name: threat-indicator-x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: threat.indicator.x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword threat.indicator.x509.version_number: dashed_name: threat-indicator-x509-version-number description: Version of x509 format. example: 3 flat_name: threat.indicator.x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] original_fieldset: x509 short: Version of x509 format. type: keyword threat.software.alias: dashed_name: threat-software-alias description: "The alias(es) of the software for a set of related intrusion activity\ \ that are tracked by a common name in the security community.\nWhile not\ \ required, you can use a MITRE ATT&CK\xAE associated software description." example: '[ "X-Agent" ]' flat_name: threat.software.alias ignore_above: 1024 level: extended name: software.alias normalize: - array short: Alias of the software type: keyword threat.software.id: dashed_name: threat-software-id description: "The id of the software used by this threat to conduct behavior\ \ commonly modeled using MITRE ATT&CK\xAE.\nWhile not required, you can use\ \ a MITRE ATT&CK\xAE software id." example: S0552 flat_name: threat.software.id ignore_above: 1024 level: extended name: software.id normalize: [] short: ID of the software type: keyword threat.software.name: dashed_name: threat-software-name description: "The name of the software used by this threat to conduct behavior\ \ commonly modeled using MITRE ATT&CK\xAE.\nWhile not required, you can use\ \ a MITRE ATT&CK\xAE software name." example: AdFind flat_name: threat.software.name ignore_above: 1024 level: extended name: software.name normalize: [] short: Name of the software. type: keyword threat.software.platforms: dashed_name: threat-software-platforms description: "The platforms of the software used by this threat to conduct behavior\ \ commonly modeled using MITRE ATT&CK\xAE.\nWhile not required, you can use\ \ MITRE ATT&CK\xAE software platform values." example: '[ "Windows" ]' expected_values: - AWS - Azure - Azure AD - GCP - Linux - macOS - Network - Office 365 - SaaS - Windows flat_name: threat.software.platforms ignore_above: 1024 level: extended name: software.platforms normalize: - array short: Platforms of the software. type: keyword threat.software.reference: dashed_name: threat-software-reference description: "The reference URL of the software used by this threat to conduct\ \ behavior commonly modeled using MITRE ATT&CK\xAE.\nWhile not required, you\ \ can use a MITRE ATT&CK\xAE software reference URL." example: https://attack.mitre.org/software/S0552/ flat_name: threat.software.reference ignore_above: 1024 level: extended name: software.reference normalize: [] short: Software reference URL. type: keyword threat.software.type: dashed_name: threat-software-type description: "The type of software used by this threat to conduct behavior commonly\ \ modeled using MITRE ATT&CK\xAE.\nWhile not required, you can use a MITRE\ \ ATT&CK\xAE software type." example: Tool expected_values: - Malware - Tool flat_name: threat.software.type ignore_above: 1024 level: extended name: software.type normalize: [] short: Software type. type: keyword threat.tactic.id: dashed_name: threat-tactic-id description: "The id of tactic used by this threat. You can use a MITRE ATT&CK\xAE\ \ tactic, for example. (ex. https://attack.mitre.org/tactics/TA0002/ )" example: TA0002 flat_name: threat.tactic.id ignore_above: 1024 level: extended name: tactic.id normalize: - array short: Threat tactic id. type: keyword threat.tactic.name: dashed_name: threat-tactic-name description: "Name of the type of tactic used by this threat. You can use a\ \ MITRE ATT&CK\xAE tactic, for example. (ex. https://attack.mitre.org/tactics/TA0002/)" example: Execution flat_name: threat.tactic.name ignore_above: 1024 level: extended name: tactic.name normalize: - array short: Threat tactic. type: keyword threat.tactic.reference: dashed_name: threat-tactic-reference description: "The reference url of tactic used by this threat. You can use a\ \ MITRE ATT&CK\xAE tactic, for example. (ex. https://attack.mitre.org/tactics/TA0002/\ \ )" example: https://attack.mitre.org/tactics/TA0002/ flat_name: threat.tactic.reference ignore_above: 1024 level: extended name: tactic.reference normalize: - array short: Threat tactic URL reference. type: keyword threat.technique.id: dashed_name: threat-technique-id description: "The id of technique used by this threat. You can use a MITRE ATT&CK\xAE\ \ technique, for example. (ex. https://attack.mitre.org/techniques/T1059/)" example: T1059 flat_name: threat.technique.id ignore_above: 1024 level: extended name: technique.id normalize: - array short: Threat technique id. type: keyword threat.technique.name: dashed_name: threat-technique-name description: "The name of technique used by this threat. You can use a MITRE\ \ ATT&CK\xAE technique, for example. (ex. https://attack.mitre.org/techniques/T1059/)" example: Command and Scripting Interpreter flat_name: threat.technique.name ignore_above: 1024 level: extended multi_fields: - flat_name: threat.technique.name.text name: text type: match_only_text name: technique.name normalize: - array short: Threat technique name. type: keyword threat.technique.reference: dashed_name: threat-technique-reference description: "The reference url of technique used by this threat. You can use\ \ a MITRE ATT&CK\xAE technique, for example. (ex. https://attack.mitre.org/techniques/T1059/)" example: https://attack.mitre.org/techniques/T1059/ flat_name: threat.technique.reference ignore_above: 1024 level: extended name: technique.reference normalize: - array short: Threat technique URL reference. type: keyword threat.technique.subtechnique.id: dashed_name: threat-technique-subtechnique-id description: "The full id of subtechnique used by this threat. You can use a\ \ MITRE ATT&CK\xAE subtechnique, for example. (ex. https://attack.mitre.org/techniques/T1059/001/)" example: T1059.001 flat_name: threat.technique.subtechnique.id ignore_above: 1024 level: extended name: technique.subtechnique.id normalize: - array short: Threat subtechnique id. type: keyword threat.technique.subtechnique.name: dashed_name: threat-technique-subtechnique-name description: "The name of subtechnique used by this threat. You can use a MITRE\ \ ATT&CK\xAE subtechnique, for example. (ex. https://attack.mitre.org/techniques/T1059/001/)" example: PowerShell flat_name: threat.technique.subtechnique.name ignore_above: 1024 level: extended multi_fields: - flat_name: threat.technique.subtechnique.name.text name: text type: match_only_text name: technique.subtechnique.name normalize: - array short: Threat subtechnique name. type: keyword threat.technique.subtechnique.reference: dashed_name: threat-technique-subtechnique-reference description: "The reference url of subtechnique used by this threat. You can\ \ use a MITRE ATT&CK\xAE subtechnique, for example. (ex. https://attack.mitre.org/techniques/T1059/001/)" example: https://attack.mitre.org/techniques/T1059/001/ flat_name: threat.technique.subtechnique.reference ignore_above: 1024 level: extended name: technique.subtechnique.reference normalize: - array short: Threat subtechnique URL reference. type: keyword threat.threat.indicator.marking.tlp.version: dashed_name: threat-threat-indicator-marking-tlp-version description: Traffic Light Protocol version. example: 2.0 flat_name: threat.threat.indicator.marking.tlp.version ignore_above: 1024 level: extended name: threat.indicator.marking.tlp.version normalize: [] short: Indicator TLP version type: keyword group: 2 name: threat nestings: - threat.enrichments.indicator.as - threat.enrichments.indicator.file - threat.enrichments.indicator.geo - threat.enrichments.indicator.registry - threat.enrichments.indicator.url - threat.enrichments.indicator.x509 - threat.indicator.as - threat.indicator.file - threat.indicator.geo - threat.indicator.registry - threat.indicator.url - threat.indicator.x509 prefix: threat. reused_here: - full: threat.indicator.x509 schema_name: x509 short: These fields contain x509 certificate metadata. - full: threat.enrichments.indicator.x509 schema_name: x509 short: These fields contain x509 certificate metadata. - full: threat.indicator.as schema_name: as short: Fields describing an Autonomous System (Internet routing prefix). - full: threat.enrichments.indicator.as schema_name: as short: Fields describing an Autonomous System (Internet routing prefix). - full: threat.indicator.file schema_name: file short: Fields describing files. - full: threat.enrichments.indicator.file schema_name: file short: Fields describing files. - full: threat.indicator.geo schema_name: geo short: Fields describing a location. - full: threat.enrichments.indicator.geo schema_name: geo short: Fields describing a location. - full: threat.indicator.registry schema_name: registry short: Fields related to Windows Registry operations. - full: threat.enrichments.indicator.registry schema_name: registry short: Fields related to Windows Registry operations. - full: threat.indicator.url schema_name: url short: Fields that let you store URLs in various forms. - full: threat.enrichments.indicator.url schema_name: url short: Fields that let you store URLs in various forms. short: Fields to classify events and alerts according to a threat taxonomy. title: Threat type: group tls: description: Fields related to a TLS connection. These fields focus on the TLS protocol itself and intentionally avoids in-depth analysis of the related x.509 certificate files. fields: tls.cipher: dashed_name: tls-cipher description: String indicating the cipher used during the current connection. example: TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 flat_name: tls.cipher ignore_above: 1024 level: extended name: cipher normalize: [] short: String indicating the cipher used during the current connection. type: keyword tls.client.certificate: dashed_name: tls-client-certificate description: PEM-encoded stand-alone certificate offered by the client. This is usually mutually-exclusive of `client.certificate_chain` since this value also exists in that list. example: MII... flat_name: tls.client.certificate ignore_above: 1024 level: extended name: client.certificate normalize: [] short: PEM-encoded stand-alone certificate offered by the client. type: keyword tls.client.certificate_chain: dashed_name: tls-client-certificate-chain description: Array of PEM-encoded certificates that make up the certificate chain offered by the client. This is usually mutually-exclusive of `client.certificate` since that value should be the first certificate in the chain. example: '["MII...", "MII..."]' flat_name: tls.client.certificate_chain ignore_above: 1024 level: extended name: client.certificate_chain normalize: - array short: Array of PEM-encoded certificates that make up the certificate chain offered by the client. type: keyword tls.client.hash.md5: dashed_name: tls-client-hash-md5 description: Certificate fingerprint using the MD5 digest of DER-encoded version of certificate offered by the client. For consistency with other hash values, this value should be formatted as an uppercase hash. example: 0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC flat_name: tls.client.hash.md5 ignore_above: 1024 level: extended name: client.hash.md5 normalize: [] short: Certificate fingerprint using the MD5 digest of DER-encoded version of certificate offered by the client. type: keyword tls.client.hash.sha1: dashed_name: tls-client-hash-sha1 description: Certificate fingerprint using the SHA1 digest of DER-encoded version of certificate offered by the client. For consistency with other hash values, this value should be formatted as an uppercase hash. example: 9E393D93138888D288266C2D915214D1D1CCEB2A flat_name: tls.client.hash.sha1 ignore_above: 1024 level: extended name: client.hash.sha1 normalize: [] short: Certificate fingerprint using the SHA1 digest of DER-encoded version of certificate offered by the client. type: keyword tls.client.hash.sha256: dashed_name: tls-client-hash-sha256 description: Certificate fingerprint using the SHA256 digest of DER-encoded version of certificate offered by the client. For consistency with other hash values, this value should be formatted as an uppercase hash. example: 0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0 flat_name: tls.client.hash.sha256 ignore_above: 1024 level: extended name: client.hash.sha256 normalize: [] short: Certificate fingerprint using the SHA256 digest of DER-encoded version of certificate offered by the client. type: keyword tls.client.issuer: dashed_name: tls-client-issuer description: Distinguished name of subject of the issuer of the x.509 certificate presented by the client. example: CN=Example Root CA, OU=Infrastructure Team, DC=example, DC=com flat_name: tls.client.issuer ignore_above: 1024 level: extended name: client.issuer normalize: [] short: Distinguished name of subject of the issuer of the x.509 certificate presented by the client. type: keyword tls.client.ja3: dashed_name: tls-client-ja3 description: A hash that identifies clients based on how they perform an SSL/TLS handshake. example: d4e5b18d6b55c71272893221c96ba240 flat_name: tls.client.ja3 ignore_above: 1024 level: extended name: client.ja3 normalize: [] short: A hash that identifies clients based on how they perform an SSL/TLS handshake. type: keyword tls.client.not_after: dashed_name: tls-client-not-after description: Date/Time indicating when client certificate is no longer considered valid. example: '2021-01-01T00:00:00.000Z' flat_name: tls.client.not_after level: extended name: client.not_after normalize: [] short: Date/Time indicating when client certificate is no longer considered valid. type: date tls.client.not_before: dashed_name: tls-client-not-before description: Date/Time indicating when client certificate is first considered valid. example: '1970-01-01T00:00:00.000Z' flat_name: tls.client.not_before level: extended name: client.not_before normalize: [] short: Date/Time indicating when client certificate is first considered valid. type: date tls.client.server_name: dashed_name: tls-client-server-name description: Also called an SNI, this tells the server which hostname to which the client is attempting to connect to. When this value is available, it should get copied to `destination.domain`. example: www.elastic.co flat_name: tls.client.server_name ignore_above: 1024 level: extended name: client.server_name normalize: [] short: Hostname the client is trying to connect to. Also called the SNI. type: keyword tls.client.subject: dashed_name: tls-client-subject description: Distinguished name of subject of the x.509 certificate presented by the client. example: CN=myclient, OU=Documentation Team, DC=example, DC=com flat_name: tls.client.subject ignore_above: 1024 level: extended name: client.subject normalize: [] short: Distinguished name of subject of the x.509 certificate presented by the client. type: keyword tls.client.supported_ciphers: dashed_name: tls-client-supported-ciphers description: Array of ciphers offered by the client during the client hello. example: '["TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384", "TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384", "..."]' flat_name: tls.client.supported_ciphers ignore_above: 1024 level: extended name: client.supported_ciphers normalize: - array short: Array of ciphers offered by the client during the client hello. type: keyword tls.client.x509.alternative_names: dashed_name: tls-client-x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: tls.client.x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array original_fieldset: x509 short: List of subject alternative names (SAN). type: keyword tls.client.x509.issuer.common_name: dashed_name: tls-client-x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: tls.client.x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array original_fieldset: x509 short: List of common name (CN) of issuing certificate authority. type: keyword tls.client.x509.issuer.country: dashed_name: tls-client-x509-issuer-country description: List of country \(C) codes example: US flat_name: tls.client.x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array original_fieldset: x509 short: List of country \(C) codes type: keyword tls.client.x509.issuer.distinguished_name: dashed_name: tls-client-x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: tls.client.x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of issuing certificate authority. type: keyword tls.client.x509.issuer.locality: dashed_name: tls-client-x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: tls.client.x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword tls.client.x509.issuer.organization: dashed_name: tls-client-x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: tls.client.x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of issuing certificate authority. type: keyword tls.client.x509.issuer.organizational_unit: dashed_name: tls-client-x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: tls.client.x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of issuing certificate authority. type: keyword tls.client.x509.issuer.state_or_province: dashed_name: tls-client-x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: tls.client.x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword tls.client.x509.not_after: dashed_name: tls-client-x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: tls.client.x509.not_after level: extended name: not_after normalize: [] original_fieldset: x509 short: Time at which the certificate is no longer considered valid. type: date tls.client.x509.not_before: dashed_name: tls-client-x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: tls.client.x509.not_before level: extended name: not_before normalize: [] original_fieldset: x509 short: Time at which the certificate is first considered valid. type: date tls.client.x509.public_key_algorithm: dashed_name: tls-client-x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: tls.client.x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] original_fieldset: x509 short: Algorithm used to generate the public key. type: keyword tls.client.x509.public_key_curve: dashed_name: tls-client-x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: tls.client.x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] original_fieldset: x509 short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword tls.client.x509.public_key_exponent: dashed_name: tls-client-x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: tls.client.x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] original_fieldset: x509 short: Exponent used to derive the public key. This is algorithm specific. type: long tls.client.x509.public_key_size: dashed_name: tls-client-x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: tls.client.x509.public_key_size level: extended name: public_key_size normalize: [] original_fieldset: x509 short: The size of the public key space in bits. type: long tls.client.x509.serial_number: dashed_name: tls-client-x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: tls.client.x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] original_fieldset: x509 short: Unique serial number issued by the certificate authority. type: keyword tls.client.x509.signature_algorithm: dashed_name: tls-client-x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: tls.client.x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] original_fieldset: x509 short: Identifier for certificate signature algorithm. type: keyword tls.client.x509.subject.common_name: dashed_name: tls-client-x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: tls.client.x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array original_fieldset: x509 short: List of common names (CN) of subject. type: keyword tls.client.x509.subject.country: dashed_name: tls-client-x509-subject-country description: List of country \(C) code example: US flat_name: tls.client.x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array original_fieldset: x509 short: List of country \(C) code type: keyword tls.client.x509.subject.distinguished_name: dashed_name: tls-client-x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: tls.client.x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of the certificate subject entity. type: keyword tls.client.x509.subject.locality: dashed_name: tls-client-x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: tls.client.x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword tls.client.x509.subject.organization: dashed_name: tls-client-x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: tls.client.x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of subject. type: keyword tls.client.x509.subject.organizational_unit: dashed_name: tls-client-x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: tls.client.x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of subject. type: keyword tls.client.x509.subject.state_or_province: dashed_name: tls-client-x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: tls.client.x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword tls.client.x509.version_number: dashed_name: tls-client-x509-version-number description: Version of x509 format. example: 3 flat_name: tls.client.x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] original_fieldset: x509 short: Version of x509 format. type: keyword tls.curve: dashed_name: tls-curve description: String indicating the curve used for the given cipher, when applicable. example: secp256r1 flat_name: tls.curve ignore_above: 1024 level: extended name: curve normalize: [] short: String indicating the curve used for the given cipher, when applicable. type: keyword tls.established: dashed_name: tls-established description: Boolean flag indicating if the TLS negotiation was successful and transitioned to an encrypted tunnel. flat_name: tls.established level: extended name: established normalize: [] short: Boolean flag indicating if the TLS negotiation was successful and transitioned to an encrypted tunnel. type: boolean tls.next_protocol: dashed_name: tls-next-protocol description: String indicating the protocol being tunneled. Per the values in the IANA registry (https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids), this string should be lower case. example: http/1.1 flat_name: tls.next_protocol ignore_above: 1024 level: extended name: next_protocol normalize: [] short: String indicating the protocol being tunneled. type: keyword tls.resumed: dashed_name: tls-resumed description: Boolean flag indicating if this TLS connection was resumed from an existing TLS negotiation. flat_name: tls.resumed level: extended name: resumed normalize: [] short: Boolean flag indicating if this TLS connection was resumed from an existing TLS negotiation. type: boolean tls.server.certificate: dashed_name: tls-server-certificate description: PEM-encoded stand-alone certificate offered by the server. This is usually mutually-exclusive of `server.certificate_chain` since this value also exists in that list. example: MII... flat_name: tls.server.certificate ignore_above: 1024 level: extended name: server.certificate normalize: [] short: PEM-encoded stand-alone certificate offered by the server. type: keyword tls.server.certificate_chain: dashed_name: tls-server-certificate-chain description: Array of PEM-encoded certificates that make up the certificate chain offered by the server. This is usually mutually-exclusive of `server.certificate` since that value should be the first certificate in the chain. example: '["MII...", "MII..."]' flat_name: tls.server.certificate_chain ignore_above: 1024 level: extended name: server.certificate_chain normalize: - array short: Array of PEM-encoded certificates that make up the certificate chain offered by the server. type: keyword tls.server.hash.md5: dashed_name: tls-server-hash-md5 description: Certificate fingerprint using the MD5 digest of DER-encoded version of certificate offered by the server. For consistency with other hash values, this value should be formatted as an uppercase hash. example: 0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC flat_name: tls.server.hash.md5 ignore_above: 1024 level: extended name: server.hash.md5 normalize: [] short: Certificate fingerprint using the MD5 digest of DER-encoded version of certificate offered by the server. type: keyword tls.server.hash.sha1: dashed_name: tls-server-hash-sha1 description: Certificate fingerprint using the SHA1 digest of DER-encoded version of certificate offered by the server. For consistency with other hash values, this value should be formatted as an uppercase hash. example: 9E393D93138888D288266C2D915214D1D1CCEB2A flat_name: tls.server.hash.sha1 ignore_above: 1024 level: extended name: server.hash.sha1 normalize: [] short: Certificate fingerprint using the SHA1 digest of DER-encoded version of certificate offered by the server. type: keyword tls.server.hash.sha256: dashed_name: tls-server-hash-sha256 description: Certificate fingerprint using the SHA256 digest of DER-encoded version of certificate offered by the server. For consistency with other hash values, this value should be formatted as an uppercase hash. example: 0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0 flat_name: tls.server.hash.sha256 ignore_above: 1024 level: extended name: server.hash.sha256 normalize: [] short: Certificate fingerprint using the SHA256 digest of DER-encoded version of certificate offered by the server. type: keyword tls.server.issuer: dashed_name: tls-server-issuer description: Subject of the issuer of the x.509 certificate presented by the server. example: CN=Example Root CA, OU=Infrastructure Team, DC=example, DC=com flat_name: tls.server.issuer ignore_above: 1024 level: extended name: server.issuer normalize: [] short: Subject of the issuer of the x.509 certificate presented by the server. type: keyword tls.server.ja3s: dashed_name: tls-server-ja3s description: A hash that identifies servers based on how they perform an SSL/TLS handshake. example: 394441ab65754e2207b1e1b457b3641d flat_name: tls.server.ja3s ignore_above: 1024 level: extended name: server.ja3s normalize: [] short: A hash that identifies servers based on how they perform an SSL/TLS handshake. type: keyword tls.server.not_after: dashed_name: tls-server-not-after description: Timestamp indicating when server certificate is no longer considered valid. example: '2021-01-01T00:00:00.000Z' flat_name: tls.server.not_after level: extended name: server.not_after normalize: [] short: Timestamp indicating when server certificate is no longer considered valid. type: date tls.server.not_before: dashed_name: tls-server-not-before description: Timestamp indicating when server certificate is first considered valid. example: '1970-01-01T00:00:00.000Z' flat_name: tls.server.not_before level: extended name: server.not_before normalize: [] short: Timestamp indicating when server certificate is first considered valid. type: date tls.server.subject: dashed_name: tls-server-subject description: Subject of the x.509 certificate presented by the server. example: CN=www.example.com, OU=Infrastructure Team, DC=example, DC=com flat_name: tls.server.subject ignore_above: 1024 level: extended name: server.subject normalize: [] short: Subject of the x.509 certificate presented by the server. type: keyword tls.server.x509.alternative_names: dashed_name: tls-server-x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: tls.server.x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array original_fieldset: x509 short: List of subject alternative names (SAN). type: keyword tls.server.x509.issuer.common_name: dashed_name: tls-server-x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: tls.server.x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array original_fieldset: x509 short: List of common name (CN) of issuing certificate authority. type: keyword tls.server.x509.issuer.country: dashed_name: tls-server-x509-issuer-country description: List of country \(C) codes example: US flat_name: tls.server.x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array original_fieldset: x509 short: List of country \(C) codes type: keyword tls.server.x509.issuer.distinguished_name: dashed_name: tls-server-x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: tls.server.x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of issuing certificate authority. type: keyword tls.server.x509.issuer.locality: dashed_name: tls-server-x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: tls.server.x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword tls.server.x509.issuer.organization: dashed_name: tls-server-x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: tls.server.x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of issuing certificate authority. type: keyword tls.server.x509.issuer.organizational_unit: dashed_name: tls-server-x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: tls.server.x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of issuing certificate authority. type: keyword tls.server.x509.issuer.state_or_province: dashed_name: tls-server-x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: tls.server.x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword tls.server.x509.not_after: dashed_name: tls-server-x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: tls.server.x509.not_after level: extended name: not_after normalize: [] original_fieldset: x509 short: Time at which the certificate is no longer considered valid. type: date tls.server.x509.not_before: dashed_name: tls-server-x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: tls.server.x509.not_before level: extended name: not_before normalize: [] original_fieldset: x509 short: Time at which the certificate is first considered valid. type: date tls.server.x509.public_key_algorithm: dashed_name: tls-server-x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: tls.server.x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] original_fieldset: x509 short: Algorithm used to generate the public key. type: keyword tls.server.x509.public_key_curve: dashed_name: tls-server-x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: tls.server.x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] original_fieldset: x509 short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword tls.server.x509.public_key_exponent: dashed_name: tls-server-x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: tls.server.x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] original_fieldset: x509 short: Exponent used to derive the public key. This is algorithm specific. type: long tls.server.x509.public_key_size: dashed_name: tls-server-x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: tls.server.x509.public_key_size level: extended name: public_key_size normalize: [] original_fieldset: x509 short: The size of the public key space in bits. type: long tls.server.x509.serial_number: dashed_name: tls-server-x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: tls.server.x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] original_fieldset: x509 short: Unique serial number issued by the certificate authority. type: keyword tls.server.x509.signature_algorithm: dashed_name: tls-server-x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: tls.server.x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] original_fieldset: x509 short: Identifier for certificate signature algorithm. type: keyword tls.server.x509.subject.common_name: dashed_name: tls-server-x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: tls.server.x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array original_fieldset: x509 short: List of common names (CN) of subject. type: keyword tls.server.x509.subject.country: dashed_name: tls-server-x509-subject-country description: List of country \(C) code example: US flat_name: tls.server.x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array original_fieldset: x509 short: List of country \(C) code type: keyword tls.server.x509.subject.distinguished_name: dashed_name: tls-server-x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: tls.server.x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] original_fieldset: x509 short: Distinguished name (DN) of the certificate subject entity. type: keyword tls.server.x509.subject.locality: dashed_name: tls-server-x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: tls.server.x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array original_fieldset: x509 short: List of locality names (L) type: keyword tls.server.x509.subject.organization: dashed_name: tls-server-x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: tls.server.x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array original_fieldset: x509 short: List of organizations (O) of subject. type: keyword tls.server.x509.subject.organizational_unit: dashed_name: tls-server-x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: tls.server.x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array original_fieldset: x509 short: List of organizational units (OU) of subject. type: keyword tls.server.x509.subject.state_or_province: dashed_name: tls-server-x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: tls.server.x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array original_fieldset: x509 short: List of state or province names (ST, S, or P) type: keyword tls.server.x509.version_number: dashed_name: tls-server-x509-version-number description: Version of x509 format. example: 3 flat_name: tls.server.x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] original_fieldset: x509 short: Version of x509 format. type: keyword tls.version: dashed_name: tls-version description: Numeric part of the version parsed from the original string. example: '1.2' flat_name: tls.version ignore_above: 1024 level: extended name: version normalize: [] short: Numeric part of the version parsed from the original string. type: keyword tls.version_protocol: dashed_name: tls-version-protocol description: Normalized lowercase protocol name parsed from original string. example: tls flat_name: tls.version_protocol ignore_above: 1024 level: extended name: version_protocol normalize: [] short: Normalized lowercase protocol name parsed from original string. type: keyword group: 2 name: tls nestings: - tls.client.x509 - tls.server.x509 prefix: tls. reused_here: - full: tls.client.x509 schema_name: x509 short: These fields contain x509 certificate metadata. - full: tls.server.x509 schema_name: x509 short: These fields contain x509 certificate metadata. short: Fields describing a TLS connection. title: TLS type: group tracing: description: 'Distributed tracing makes it possible to analyze performance throughout a microservice architecture all in one view. This is accomplished by tracing all of the requests - from the initial web request in the front-end service - to queries made through multiple back-end services. Unlike most field sets in ECS, the tracing fields are *not* nested under the field set name. In other words, the correct field name is `trace.id`, not `tracing.trace.id`, and so on.' fields: span.id: dashed_name: span-id description: 'Unique identifier of the span within the scope of its trace. A span represents an operation within a transaction, such as a request to another service, or a database query.' example: 3ff9a8981b7ccd5a flat_name: span.id ignore_above: 1024 level: extended name: span.id normalize: [] short: Unique identifier of the span within the scope of its trace. type: keyword trace.id: dashed_name: trace-id description: 'Unique identifier of the trace. A trace groups multiple events like transactions that belong together. For example, a user request handled by multiple inter-connected services.' example: 4bf92f3577b34da6a3ce929d0e0e4736 flat_name: trace.id ignore_above: 1024 level: extended name: trace.id normalize: [] short: Unique identifier of the trace. type: keyword transaction.id: dashed_name: transaction-id description: 'Unique identifier of the transaction within the scope of its trace. A transaction is the highest level of work measured within a service, such as a request to a server.' example: 00f067aa0ba902b7 flat_name: transaction.id ignore_above: 1024 level: extended name: transaction.id normalize: [] short: Unique identifier of the transaction within the scope of its trace. type: keyword group: 2 name: tracing prefix: '' root: true short: Fields related to distributed tracing. title: Tracing type: group url: description: URL fields provide support for complete or partial URLs, and supports the breaking down into scheme, domain, path, and so on. fields: url.domain: dashed_name: url-domain description: 'Domain of the url, such as "www.elastic.co". In some cases a URL may refer to an IP and/or port directly, without a domain name. In this case, the IP address would go to the `domain` field. If the URL contains a literal IPv6 address enclosed by `[` and `]` (IETF RFC 2732), the `[` and `]` characters should also be captured in the `domain` field.' example: www.elastic.co flat_name: url.domain ignore_above: 1024 level: extended name: domain normalize: [] short: Domain of the url. type: keyword url.extension: dashed_name: url-extension description: 'The field contains the file extension from the original request url, excluding the leading dot. The file extension is only set if it exists, as not every url has a file extension. The leading period must not be included. For example, the value must be "png", not ".png". Note that when the file name has multiple extensions (example.tar.gz), only the last one should be captured ("gz", not "tar.gz").' example: png flat_name: url.extension ignore_above: 1024 level: extended name: extension normalize: [] short: File extension from the request url, excluding the leading dot. type: keyword url.fragment: dashed_name: url-fragment description: 'Portion of the url after the `#`, such as "top". The `#` is not part of the fragment.' flat_name: url.fragment ignore_above: 1024 level: extended name: fragment normalize: [] short: Portion of the url after the `#`. type: keyword url.full: dashed_name: url-full description: If full URLs are important to your use case, they should be stored in `url.full`, whether this field is reconstructed or present in the event source. example: https://www.elastic.co:443/search?q=elasticsearch#top flat_name: url.full level: extended multi_fields: - flat_name: url.full.text name: text type: match_only_text name: full normalize: [] short: Full unparsed URL. type: wildcard url.original: dashed_name: url-original description: 'Unmodified original url as seen in the event source. Note that in network monitoring, the observed URL may be a full URL, whereas in access logs, the URL is often just represented as a path. This field is meant to represent the URL as it was observed, complete or not.' example: https://www.elastic.co:443/search?q=elasticsearch#top or /search?q=elasticsearch flat_name: url.original level: extended multi_fields: - flat_name: url.original.text name: text type: match_only_text name: original normalize: [] short: Unmodified original url as seen in the event source. type: wildcard url.password: dashed_name: url-password description: Password of the request. flat_name: url.password ignore_above: 1024 level: extended name: password normalize: [] short: Password of the request. type: keyword url.path: dashed_name: url-path description: Path of the request, such as "/search". flat_name: url.path level: extended name: path normalize: [] short: Path of the request, such as "/search". type: wildcard url.port: dashed_name: url-port description: Port of the request, such as 443. example: 443 flat_name: url.port format: string level: extended name: port normalize: [] short: Port of the request, such as 443. type: long url.query: dashed_name: url-query description: 'The query field describes the query string of the request, such as "q=elasticsearch". The `?` is excluded from the query string. If a URL contains no `?`, there is no query field. If there is a `?` but no query, the query field exists with an empty string. The `exists` query can be used to differentiate between the two cases.' flat_name: url.query ignore_above: 1024 level: extended name: query normalize: [] short: Query string of the request. type: keyword url.registered_domain: dashed_name: url-registered-domain description: 'The highest registered url domain, stripped of the subdomain. For example, the registered domain for "foo.example.com" is "example.com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last two labels will not work well for TLDs such as "co.uk".' example: example.com flat_name: url.registered_domain ignore_above: 1024 level: extended name: registered_domain normalize: [] short: The highest registered url domain, stripped of the subdomain. type: keyword url.scheme: dashed_name: url-scheme description: 'Scheme of the request, such as "https". Note: The `:` is not part of the scheme.' example: https flat_name: url.scheme ignore_above: 1024 level: extended name: scheme normalize: [] short: Scheme of the url. type: keyword url.subdomain: dashed_name: url-subdomain description: 'The subdomain portion of a fully qualified domain name includes all of the names except the host name under the registered_domain. In a partially qualified domain, or if the the qualification level of the full name cannot be determined, subdomain contains all of the names below the registered domain. For example the subdomain portion of "www.east.mydomain.co.uk" is "east". If the domain has multiple levels of subdomain, such as "sub2.sub1.example.com", the subdomain field should contain "sub2.sub1", with no trailing period.' example: east flat_name: url.subdomain ignore_above: 1024 level: extended name: subdomain normalize: [] short: The subdomain of the domain. type: keyword url.top_level_domain: dashed_name: url-top-level-domain description: 'The effective top level domain (eTLD), also known as the domain suffix, is the last part of the domain name. For example, the top level domain for example.com is "com". This value can be determined precisely with a list like the public suffix list (http://publicsuffix.org). Trying to approximate this by simply taking the last label will not work well for effective TLDs such as "co.uk".' example: co.uk flat_name: url.top_level_domain ignore_above: 1024 level: extended name: top_level_domain normalize: [] short: The effective top level domain (com, org, net, co.uk). type: keyword url.username: dashed_name: url-username description: Username of the request. flat_name: url.username ignore_above: 1024 level: extended name: username normalize: [] short: Username of the request. type: keyword group: 2 name: url prefix: url. reusable: expected: - as: url at: threat.indicator full: threat.indicator.url - as: url at: threat.enrichments.indicator full: threat.enrichments.indicator.url top_level: true short: Fields that let you store URLs in various forms. title: URL type: group user: description: 'The user fields describe information about the user that is relevant to the event. Fields can have one entry or multiple entries. If a user has more than one id, provide an array that includes all of them.' fields: user.changes.domain: dashed_name: user-changes-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.changes.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: user short: Name of the directory the user is a member of. type: keyword user.changes.email: dashed_name: user-changes-email description: User email address. flat_name: user.changes.email ignore_above: 1024 level: extended name: email normalize: [] original_fieldset: user short: User email address. type: keyword user.changes.full_name: dashed_name: user-changes-full-name description: User's full name, if available. example: Albert Einstein flat_name: user.changes.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: user.changes.full_name.text name: text type: match_only_text name: full_name normalize: [] original_fieldset: user short: User's full name, if available. type: keyword user.changes.group.domain: dashed_name: user-changes-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.changes.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword user.changes.group.id: dashed_name: user-changes-group-id description: Unique identifier for the group on the system/platform. flat_name: user.changes.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword user.changes.group.name: dashed_name: user-changes-group-name description: Name of the group. flat_name: user.changes.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword user.changes.hash: dashed_name: user-changes-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: user.changes.hash ignore_above: 1024 level: extended name: hash normalize: [] original_fieldset: user short: Unique user hash to correlate information for a user in anonymized form. type: keyword user.changes.id: dashed_name: user-changes-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: user.changes.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword user.changes.name: dashed_name: user-changes-name description: Short name or login of the user. example: a.einstein flat_name: user.changes.name ignore_above: 1024 level: core multi_fields: - flat_name: user.changes.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword user.changes.roles: dashed_name: user-changes-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: user.changes.roles ignore_above: 1024 level: extended name: roles normalize: - array original_fieldset: user short: Array of user roles at the time of the event. type: keyword user.domain: dashed_name: user-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.domain ignore_above: 1024 level: extended name: domain normalize: [] short: Name of the directory the user is a member of. type: keyword user.effective.domain: dashed_name: user-effective-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.effective.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: user short: Name of the directory the user is a member of. type: keyword user.effective.email: dashed_name: user-effective-email description: User email address. flat_name: user.effective.email ignore_above: 1024 level: extended name: email normalize: [] original_fieldset: user short: User email address. type: keyword user.effective.full_name: dashed_name: user-effective-full-name description: User's full name, if available. example: Albert Einstein flat_name: user.effective.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: user.effective.full_name.text name: text type: match_only_text name: full_name normalize: [] original_fieldset: user short: User's full name, if available. type: keyword user.effective.group.domain: dashed_name: user-effective-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.effective.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword user.effective.group.id: dashed_name: user-effective-group-id description: Unique identifier for the group on the system/platform. flat_name: user.effective.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword user.effective.group.name: dashed_name: user-effective-group-name description: Name of the group. flat_name: user.effective.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword user.effective.hash: dashed_name: user-effective-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: user.effective.hash ignore_above: 1024 level: extended name: hash normalize: [] original_fieldset: user short: Unique user hash to correlate information for a user in anonymized form. type: keyword user.effective.id: dashed_name: user-effective-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: user.effective.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword user.effective.name: dashed_name: user-effective-name description: Short name or login of the user. example: a.einstein flat_name: user.effective.name ignore_above: 1024 level: core multi_fields: - flat_name: user.effective.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword user.effective.roles: dashed_name: user-effective-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: user.effective.roles ignore_above: 1024 level: extended name: roles normalize: - array original_fieldset: user short: Array of user roles at the time of the event. type: keyword user.email: dashed_name: user-email description: User email address. flat_name: user.email ignore_above: 1024 level: extended name: email normalize: [] short: User email address. type: keyword user.full_name: dashed_name: user-full-name description: User's full name, if available. example: Albert Einstein flat_name: user.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: user.full_name.text name: text type: match_only_text name: full_name normalize: [] short: User's full name, if available. type: keyword user.group.domain: dashed_name: user-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword user.group.id: dashed_name: user-group-id description: Unique identifier for the group on the system/platform. flat_name: user.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword user.group.name: dashed_name: user-group-name description: Name of the group. flat_name: user.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword user.hash: dashed_name: user-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: user.hash ignore_above: 1024 level: extended name: hash normalize: [] short: Unique user hash to correlate information for a user in anonymized form. type: keyword user.id: dashed_name: user-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: user.id ignore_above: 1024 level: core name: id normalize: [] short: Unique identifier of the user. type: keyword user.name: dashed_name: user-name description: Short name or login of the user. example: a.einstein flat_name: user.name ignore_above: 1024 level: core multi_fields: - flat_name: user.name.text name: text type: match_only_text name: name normalize: [] short: Short name or login of the user. type: keyword user.risk.calculated_level: dashed_name: user-risk-calculated-level description: A risk classification level calculated by an internal system as part of entity analytics and entity risk scoring. example: High flat_name: user.risk.calculated_level ignore_above: 1024 level: extended name: calculated_level normalize: [] original_fieldset: risk short: A risk classification level calculated by an internal system as part of entity analytics and entity risk scoring. type: keyword user.risk.calculated_score: dashed_name: user-risk-calculated-score description: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring. example: 880.73 flat_name: user.risk.calculated_score level: extended name: calculated_score normalize: [] original_fieldset: risk short: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring. type: float user.risk.calculated_score_norm: dashed_name: user-risk-calculated-score-norm description: A risk classification score calculated by an internal system as part of entity analytics and entity risk scoring, and normalized to a range of 0 to 100. example: 88.73 flat_name: user.risk.calculated_score_norm level: extended name: calculated_score_norm normalize: [] original_fieldset: risk short: A normalized risk score calculated by an internal system. type: float user.risk.static_level: dashed_name: user-risk-static-level description: A risk classification level obtained from outside the system, such as from some external Threat Intelligence Platform. example: High flat_name: user.risk.static_level ignore_above: 1024 level: extended name: static_level normalize: [] original_fieldset: risk short: A risk classification level obtained from outside the system, such as from some external Threat Intelligence Platform. type: keyword user.risk.static_score: dashed_name: user-risk-static-score description: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform. example: 830.0 flat_name: user.risk.static_score level: extended name: static_score normalize: [] original_fieldset: risk short: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform. type: float user.risk.static_score_norm: dashed_name: user-risk-static-score-norm description: A risk classification score obtained from outside the system, such as from some external Threat Intelligence Platform, and normalized to a range of 0 to 100. example: 83.0 flat_name: user.risk.static_score_norm level: extended name: static_score_norm normalize: [] original_fieldset: risk short: A normalized risk score calculated by an external system. type: float user.roles: dashed_name: user-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: user.roles ignore_above: 1024 level: extended name: roles normalize: - array short: Array of user roles at the time of the event. type: keyword user.target.domain: dashed_name: user-target-domain description: 'Name of the directory the user is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.target.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: user short: Name of the directory the user is a member of. type: keyword user.target.email: dashed_name: user-target-email description: User email address. flat_name: user.target.email ignore_above: 1024 level: extended name: email normalize: [] original_fieldset: user short: User email address. type: keyword user.target.full_name: dashed_name: user-target-full-name description: User's full name, if available. example: Albert Einstein flat_name: user.target.full_name ignore_above: 1024 level: extended multi_fields: - flat_name: user.target.full_name.text name: text type: match_only_text name: full_name normalize: [] original_fieldset: user short: User's full name, if available. type: keyword user.target.group.domain: dashed_name: user-target-group-domain description: 'Name of the directory the group is a member of. For example, an LDAP or Active Directory domain name.' flat_name: user.target.group.domain ignore_above: 1024 level: extended name: domain normalize: [] original_fieldset: group short: Name of the directory the group is a member of. type: keyword user.target.group.id: dashed_name: user-target-group-id description: Unique identifier for the group on the system/platform. flat_name: user.target.group.id ignore_above: 1024 level: extended name: id normalize: [] original_fieldset: group short: Unique identifier for the group on the system/platform. type: keyword user.target.group.name: dashed_name: user-target-group-name description: Name of the group. flat_name: user.target.group.name ignore_above: 1024 level: extended name: name normalize: [] original_fieldset: group short: Name of the group. type: keyword user.target.hash: dashed_name: user-target-hash description: 'Unique user hash to correlate information for a user in anonymized form. Useful if `user.id` or `user.name` contain confidential information and cannot be used.' flat_name: user.target.hash ignore_above: 1024 level: extended name: hash normalize: [] original_fieldset: user short: Unique user hash to correlate information for a user in anonymized form. type: keyword user.target.id: dashed_name: user-target-id description: Unique identifier of the user. example: S-1-5-21-202424912787-2692429404-2351956786-1000 flat_name: user.target.id ignore_above: 1024 level: core name: id normalize: [] original_fieldset: user short: Unique identifier of the user. type: keyword user.target.name: dashed_name: user-target-name description: Short name or login of the user. example: a.einstein flat_name: user.target.name ignore_above: 1024 level: core multi_fields: - flat_name: user.target.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: user short: Short name or login of the user. type: keyword user.target.roles: dashed_name: user-target-roles description: Array of user roles at the time of the event. example: '["kibana_admin", "reporting_user"]' flat_name: user.target.roles ignore_above: 1024 level: extended name: roles normalize: - array original_fieldset: user short: Array of user roles at the time of the event. type: keyword group: 2 name: user nestings: - user.changes - user.effective - user.group - user.risk - user.target prefix: user. reusable: expected: - as: user at: client full: client.user - as: user at: destination full: destination.user - as: user at: server full: server.user - as: user at: source full: source.user - as: target at: user full: user.target short_override: Targeted user of action taken. - as: effective at: user full: user.effective short_override: User whose privileges were assumed. - as: changes at: user full: user.changes short_override: Captures changes made to a user. - as: user at: process full: process.user short_override: The effective user (euid). - as: saved_user at: process full: process.saved_user short_override: The saved user (suid). - as: real_user at: process full: process.real_user short_override: The real user (ruid). Identifies the real owner of the process. - as: attested_user at: process beta: Reusing the `user` fields in this location is currently considered beta. full: process.attested_user short_override: The externally attested user based on an external source such as the Kube API. top_level: true reused_here: - full: user.group schema_name: group short: User's group relevant to the event. - full: user.risk schema_name: risk short: Fields for describing risk score and level. - full: user.target schema_name: user short: Targeted user of action taken. - full: user.effective schema_name: user short: User whose privileges were assumed. - full: user.changes schema_name: user short: Captures changes made to a user. short: Fields to describe the user relevant to the event. title: User type: group user_agent: description: 'The user_agent fields normally come from a browser request. They often show up in web service logs coming from the parsed user agent string.' fields: user_agent.device.name: dashed_name: user-agent-device-name description: Name of the device. example: iPhone flat_name: user_agent.device.name ignore_above: 1024 level: extended name: device.name normalize: [] short: Name of the device. type: keyword user_agent.name: dashed_name: user-agent-name description: Name of the user agent. example: Safari flat_name: user_agent.name ignore_above: 1024 level: extended name: name normalize: [] short: Name of the user agent. type: keyword user_agent.original: dashed_name: user-agent-original description: Unparsed user_agent string. example: Mozilla/5.0 (iPhone; CPU iPhone OS 12_1 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) Version/12.0 Mobile/15E148 Safari/604.1 flat_name: user_agent.original ignore_above: 1024 level: extended multi_fields: - flat_name: user_agent.original.text name: text type: match_only_text name: original normalize: [] short: Unparsed user_agent string. type: keyword user_agent.os.family: dashed_name: user-agent-os-family description: OS family (such as redhat, debian, freebsd, windows). example: debian flat_name: user_agent.os.family ignore_above: 1024 level: extended name: family normalize: [] original_fieldset: os short: OS family (such as redhat, debian, freebsd, windows). type: keyword user_agent.os.full: dashed_name: user-agent-os-full description: Operating system name, including the version or code name. example: Mac OS Mojave flat_name: user_agent.os.full ignore_above: 1024 level: extended multi_fields: - flat_name: user_agent.os.full.text name: text type: match_only_text name: full normalize: [] original_fieldset: os short: Operating system name, including the version or code name. type: keyword user_agent.os.kernel: dashed_name: user-agent-os-kernel description: Operating system kernel version as a raw string. example: 4.4.0-112-generic flat_name: user_agent.os.kernel ignore_above: 1024 level: extended name: kernel normalize: [] original_fieldset: os short: Operating system kernel version as a raw string. type: keyword user_agent.os.name: dashed_name: user-agent-os-name description: Operating system name, without the version. example: Mac OS X flat_name: user_agent.os.name ignore_above: 1024 level: extended multi_fields: - flat_name: user_agent.os.name.text name: text type: match_only_text name: name normalize: [] original_fieldset: os short: Operating system name, without the version. type: keyword user_agent.os.platform: dashed_name: user-agent-os-platform description: Operating system platform (such centos, ubuntu, windows). example: darwin flat_name: user_agent.os.platform ignore_above: 1024 level: extended name: platform normalize: [] original_fieldset: os short: Operating system platform (such centos, ubuntu, windows). type: keyword user_agent.os.type: dashed_name: user-agent-os-type description: 'Use the `os.type` field to categorize the operating system into one of the broad commercial families. If the OS you''re dealing with is not listed as an expected value, the field should not be populated. Please let us know by opening an issue with ECS, to propose its addition.' example: macos expected_values: - linux - macos - unix - windows - ios - android flat_name: user_agent.os.type ignore_above: 1024 level: extended name: type normalize: [] original_fieldset: os short: 'Which commercial OS family (one of: linux, macos, unix, windows, ios or android).' type: keyword user_agent.os.version: dashed_name: user-agent-os-version description: Operating system version as a raw string. example: 10.14.1 flat_name: user_agent.os.version ignore_above: 1024 level: extended name: version normalize: [] original_fieldset: os short: Operating system version as a raw string. type: keyword user_agent.version: dashed_name: user-agent-version description: Version of the user agent. example: 12.0 flat_name: user_agent.version ignore_above: 1024 level: extended name: version normalize: [] short: Version of the user agent. type: keyword group: 2 name: user_agent nestings: - user_agent.os prefix: user_agent. reused_here: - full: user_agent.os schema_name: os short: OS fields contain information about the operating system. short: Fields to describe a browser user_agent string. title: User agent type: group vlan: description: 'The VLAN fields are used to identify 802.1q tag(s) of a packet, as well as ingress and egress VLAN associations of an observer in relation to a specific packet or connection. Network.vlan fields are used to record a single VLAN tag, or the outer tag in the case of q-in-q encapsulations, for a packet or connection as observed, typically provided by a network sensor (e.g. Zeek, Wireshark) passively reporting on traffic. Network.inner VLAN fields are used to report inner q-in-q 802.1q tags (multiple 802.1q encapsulations) as observed, typically provided by a network sensor (e.g. Zeek, Wireshark) passively reporting on traffic. Network.inner VLAN fields should only be used in addition to network.vlan fields to indicate q-in-q tagging. Observer.ingress and observer.egress VLAN values are used to record observer specific information when observer events contain discrete ingress and egress VLAN information, typically provided by firewalls, routers, or load balancers.' fields: vlan.id: dashed_name: vlan-id description: VLAN ID as reported by the observer. example: 10 flat_name: vlan.id ignore_above: 1024 level: extended name: id normalize: [] short: VLAN ID as reported by the observer. type: keyword vlan.name: dashed_name: vlan-name description: Optional VLAN name as reported by the observer. example: outside flat_name: vlan.name ignore_above: 1024 level: extended name: name normalize: [] short: Optional VLAN name as reported by the observer. type: keyword group: 2 name: vlan prefix: vlan. reusable: expected: - as: vlan at: observer.ingress full: observer.ingress.vlan - as: vlan at: observer.egress full: observer.egress.vlan - as: vlan at: network full: network.vlan - as: vlan at: network.inner full: network.inner.vlan top_level: false short: Fields to describe observed VLAN information. title: VLAN type: group vulnerability: description: The vulnerability fields describe information about a vulnerability that is relevant to an event. fields: vulnerability.category: dashed_name: vulnerability-category description: 'The type of system or architecture that the vulnerability affects. These may be platform-specific (for example, Debian or SUSE) or general (for example, Database or Firewall). For example (https://qualysguard.qualys.com/qwebhelp/fo_portal/knowledgebase/vulnerability_categories.htm[Qualys vulnerability categories]) This field must be an array.' example: '["Firewall"]' flat_name: vulnerability.category ignore_above: 1024 level: extended name: category normalize: - array short: Category of a vulnerability. type: keyword vulnerability.classification: dashed_name: vulnerability-classification description: The classification of the vulnerability scoring system. For example (https://www.first.org/cvss/) example: CVSS flat_name: vulnerability.classification ignore_above: 1024 level: extended name: classification normalize: [] short: Classification of the vulnerability. type: keyword vulnerability.description: dashed_name: vulnerability-description description: The description of the vulnerability that provides additional context of the vulnerability. For example (https://cve.mitre.org/about/faqs.html#cve_entry_descriptions_created[Common Vulnerabilities and Exposure CVE description]) example: In macOS before 2.12.6, there is a vulnerability in the RPC... flat_name: vulnerability.description ignore_above: 1024 level: extended multi_fields: - flat_name: vulnerability.description.text name: text type: match_only_text name: description normalize: [] short: Description of the vulnerability. type: keyword vulnerability.enumeration: dashed_name: vulnerability-enumeration description: The type of identifier used for this vulnerability. For example (https://cve.mitre.org/about/) example: CVE flat_name: vulnerability.enumeration ignore_above: 1024 level: extended name: enumeration normalize: [] short: Identifier of the vulnerability. type: keyword vulnerability.id: dashed_name: vulnerability-id description: The identification (ID) is the number portion of a vulnerability entry. It includes a unique identification number for the vulnerability. For example (https://cve.mitre.org/about/faqs.html#what_is_cve_id)[Common Vulnerabilities and Exposure CVE ID] example: CVE-2019-00001 flat_name: vulnerability.id ignore_above: 1024 level: extended name: id normalize: [] short: ID of the vulnerability. type: keyword vulnerability.reference: dashed_name: vulnerability-reference description: A resource that provides additional information, context, and mitigations for the identified vulnerability. example: https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2019-6111 flat_name: vulnerability.reference ignore_above: 1024 level: extended name: reference normalize: [] short: Reference of the vulnerability. type: keyword vulnerability.report_id: dashed_name: vulnerability-report-id description: The report or scan identification number. example: 20191018.0001 flat_name: vulnerability.report_id ignore_above: 1024 level: extended name: report_id normalize: [] short: Scan identification number. type: keyword vulnerability.scanner.vendor: dashed_name: vulnerability-scanner-vendor description: The name of the vulnerability scanner vendor. example: Tenable flat_name: vulnerability.scanner.vendor ignore_above: 1024 level: extended name: scanner.vendor normalize: [] short: Name of the scanner vendor. type: keyword vulnerability.score.base: dashed_name: vulnerability-score-base description: 'Scores can range from 0.0 to 10.0, with 10.0 being the most severe. Base scores cover an assessment for exploitability metrics (attack vector, complexity, privileges, and user interaction), impact metrics (confidentiality, integrity, and availability), and scope. For example (https://www.first.org/cvss/specification-document)' example: 5.5 flat_name: vulnerability.score.base level: extended name: score.base normalize: [] short: Vulnerability Base score. type: float vulnerability.score.environmental: dashed_name: vulnerability-score-environmental description: 'Scores can range from 0.0 to 10.0, with 10.0 being the most severe. Environmental scores cover an assessment for any modified Base metrics, confidentiality, integrity, and availability requirements. For example (https://www.first.org/cvss/specification-document)' example: 5.5 flat_name: vulnerability.score.environmental level: extended name: score.environmental normalize: [] short: Vulnerability Environmental score. type: float vulnerability.score.temporal: dashed_name: vulnerability-score-temporal description: 'Scores can range from 0.0 to 10.0, with 10.0 being the most severe. Temporal scores cover an assessment for code maturity, remediation level, and confidence. For example (https://www.first.org/cvss/specification-document)' flat_name: vulnerability.score.temporal level: extended name: score.temporal normalize: [] short: Vulnerability Temporal score. type: float vulnerability.score.version: dashed_name: vulnerability-score-version description: 'The National Vulnerability Database (NVD) provides qualitative severity rankings of "Low", "Medium", and "High" for CVSS v2.0 base score ranges in addition to the severity ratings for CVSS v3.0 as they are defined in the CVSS v3.0 specification. CVSS is owned and managed by FIRST.Org, Inc. (FIRST), a US-based non-profit organization, whose mission is to help computer security incident response teams across the world. For example (https://nvd.nist.gov/vuln-metrics/cvss)' example: 2.0 flat_name: vulnerability.score.version ignore_above: 1024 level: extended name: score.version normalize: [] short: CVSS version. type: keyword vulnerability.severity: dashed_name: vulnerability-severity description: The severity of the vulnerability can help with metrics and internal prioritization regarding remediation. For example (https://nvd.nist.gov/vuln-metrics/cvss) example: Critical flat_name: vulnerability.severity ignore_above: 1024 level: extended name: severity normalize: [] short: Severity of the vulnerability. type: keyword group: 2 name: vulnerability prefix: vulnerability. short: Fields to describe the vulnerability relevant to an event. title: Vulnerability type: group x509: description: 'This implements the common core fields for x509 certificates. This information is likely logged with TLS sessions, digital signatures found in executable binaries, S/MIME information in email bodies, or analysis of files on disk. When the certificate relates to a file, use the fields at `file.x509`. When hashes of the DER-encoded certificate are available, the `hash` data set should be populated as well (e.g. `file.hash.sha256`). Events that contain certificate information about network connections, should use the x509 fields under the relevant TLS fields: `tls.server.x509` and/or `tls.client.x509`.' fields: x509.alternative_names: dashed_name: x509-alternative-names description: List of subject alternative names (SAN). Name types vary by certificate authority and certificate type but commonly contain IP addresses, DNS names (and wildcards), and email addresses. example: '*.elastic.co' flat_name: x509.alternative_names ignore_above: 1024 level: extended name: alternative_names normalize: - array short: List of subject alternative names (SAN). type: keyword x509.issuer.common_name: dashed_name: x509-issuer-common-name description: List of common name (CN) of issuing certificate authority. example: Example SHA2 High Assurance Server CA flat_name: x509.issuer.common_name ignore_above: 1024 level: extended name: issuer.common_name normalize: - array short: List of common name (CN) of issuing certificate authority. type: keyword x509.issuer.country: dashed_name: x509-issuer-country description: List of country \(C) codes example: US flat_name: x509.issuer.country ignore_above: 1024 level: extended name: issuer.country normalize: - array short: List of country \(C) codes type: keyword x509.issuer.distinguished_name: dashed_name: x509-issuer-distinguished-name description: Distinguished name (DN) of issuing certificate authority. example: C=US, O=Example Inc, OU=www.example.com, CN=Example SHA2 High Assurance Server CA flat_name: x509.issuer.distinguished_name ignore_above: 1024 level: extended name: issuer.distinguished_name normalize: [] short: Distinguished name (DN) of issuing certificate authority. type: keyword x509.issuer.locality: dashed_name: x509-issuer-locality description: List of locality names (L) example: Mountain View flat_name: x509.issuer.locality ignore_above: 1024 level: extended name: issuer.locality normalize: - array short: List of locality names (L) type: keyword x509.issuer.organization: dashed_name: x509-issuer-organization description: List of organizations (O) of issuing certificate authority. example: Example Inc flat_name: x509.issuer.organization ignore_above: 1024 level: extended name: issuer.organization normalize: - array short: List of organizations (O) of issuing certificate authority. type: keyword x509.issuer.organizational_unit: dashed_name: x509-issuer-organizational-unit description: List of organizational units (OU) of issuing certificate authority. example: www.example.com flat_name: x509.issuer.organizational_unit ignore_above: 1024 level: extended name: issuer.organizational_unit normalize: - array short: List of organizational units (OU) of issuing certificate authority. type: keyword x509.issuer.state_or_province: dashed_name: x509-issuer-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: x509.issuer.state_or_province ignore_above: 1024 level: extended name: issuer.state_or_province normalize: - array short: List of state or province names (ST, S, or P) type: keyword x509.not_after: dashed_name: x509-not-after description: Time at which the certificate is no longer considered valid. example: '2020-07-16T03:15:39Z' flat_name: x509.not_after level: extended name: not_after normalize: [] short: Time at which the certificate is no longer considered valid. type: date x509.not_before: dashed_name: x509-not-before description: Time at which the certificate is first considered valid. example: '2019-08-16T01:40:25Z' flat_name: x509.not_before level: extended name: not_before normalize: [] short: Time at which the certificate is first considered valid. type: date x509.public_key_algorithm: dashed_name: x509-public-key-algorithm description: Algorithm used to generate the public key. example: RSA flat_name: x509.public_key_algorithm ignore_above: 1024 level: extended name: public_key_algorithm normalize: [] short: Algorithm used to generate the public key. type: keyword x509.public_key_curve: dashed_name: x509-public-key-curve description: The curve used by the elliptic curve public key algorithm. This is algorithm specific. example: nistp521 flat_name: x509.public_key_curve ignore_above: 1024 level: extended name: public_key_curve normalize: [] short: The curve used by the elliptic curve public key algorithm. This is algorithm specific. type: keyword x509.public_key_exponent: dashed_name: x509-public-key-exponent description: Exponent used to derive the public key. This is algorithm specific. doc_values: false example: 65537 flat_name: x509.public_key_exponent index: false level: extended name: public_key_exponent normalize: [] short: Exponent used to derive the public key. This is algorithm specific. type: long x509.public_key_size: dashed_name: x509-public-key-size description: The size of the public key space in bits. example: 2048 flat_name: x509.public_key_size level: extended name: public_key_size normalize: [] short: The size of the public key space in bits. type: long x509.serial_number: dashed_name: x509-serial-number description: Unique serial number issued by the certificate authority. For consistency, if this value is alphanumeric, it should be formatted without colons and uppercase characters. example: 55FBB9C7DEBF09809D12CCAA flat_name: x509.serial_number ignore_above: 1024 level: extended name: serial_number normalize: [] short: Unique serial number issued by the certificate authority. type: keyword x509.signature_algorithm: dashed_name: x509-signature-algorithm description: Identifier for certificate signature algorithm. We recommend using names found in Go Lang Crypto library. See https://github.com/golang/go/blob/go1.14/src/crypto/x509/x509.go#L337-L353. example: SHA256-RSA flat_name: x509.signature_algorithm ignore_above: 1024 level: extended name: signature_algorithm normalize: [] short: Identifier for certificate signature algorithm. type: keyword x509.subject.common_name: dashed_name: x509-subject-common-name description: List of common names (CN) of subject. example: shared.global.example.net flat_name: x509.subject.common_name ignore_above: 1024 level: extended name: subject.common_name normalize: - array short: List of common names (CN) of subject. type: keyword x509.subject.country: dashed_name: x509-subject-country description: List of country \(C) code example: US flat_name: x509.subject.country ignore_above: 1024 level: extended name: subject.country normalize: - array short: List of country \(C) code type: keyword x509.subject.distinguished_name: dashed_name: x509-subject-distinguished-name description: Distinguished name (DN) of the certificate subject entity. example: C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net flat_name: x509.subject.distinguished_name ignore_above: 1024 level: extended name: subject.distinguished_name normalize: [] short: Distinguished name (DN) of the certificate subject entity. type: keyword x509.subject.locality: dashed_name: x509-subject-locality description: List of locality names (L) example: San Francisco flat_name: x509.subject.locality ignore_above: 1024 level: extended name: subject.locality normalize: - array short: List of locality names (L) type: keyword x509.subject.organization: dashed_name: x509-subject-organization description: List of organizations (O) of subject. example: Example, Inc. flat_name: x509.subject.organization ignore_above: 1024 level: extended name: subject.organization normalize: - array short: List of organizations (O) of subject. type: keyword x509.subject.organizational_unit: dashed_name: x509-subject-organizational-unit description: List of organizational units (OU) of subject. flat_name: x509.subject.organizational_unit ignore_above: 1024 level: extended name: subject.organizational_unit normalize: - array short: List of organizational units (OU) of subject. type: keyword x509.subject.state_or_province: dashed_name: x509-subject-state-or-province description: List of state or province names (ST, S, or P) example: California flat_name: x509.subject.state_or_province ignore_above: 1024 level: extended name: subject.state_or_province normalize: - array short: List of state or province names (ST, S, or P) type: keyword x509.version_number: dashed_name: x509-version-number description: Version of x509 format. example: 3 flat_name: x509.version_number ignore_above: 1024 level: extended name: version_number normalize: [] short: Version of x509 format. type: keyword group: 2 name: x509 prefix: x509. reusable: expected: - as: x509 at: file full: file.x509 - as: x509 at: threat.indicator full: threat.indicator.x509 - as: x509 at: threat.enrichments.indicator full: threat.enrichments.indicator.x509 - as: x509 at: tls.client full: tls.client.x509 - as: x509 at: tls.server full: tls.server.x509 top_level: false short: These fields contain x509 certificate metadata. title: x509 Certificate type: group