#!/usr/bin/python # -*- coding: utf-8 -*- # (c) 2014, Kevin Carter # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . ANSIBLE_METADATA = {'status': ['preview'], 'supported_by': 'community', 'version': '1.0'} DOCUMENTATION = """ --- module: lxc_container short_description: Manage LXC Containers version_added: 1.8.0 description: - Management of LXC containers author: "Kevin Carter (@cloudnull)" options: name: description: - Name of a container. required: true backing_store: choices: - dir - lvm - loop - btrfs - overlayfs - zfs description: - Backend storage type for the container. required: false default: dir template: description: - Name of the template to use within an LXC create. required: false default: ubuntu template_options: description: - Template options when building the container. required: false config: description: - Path to the LXC configuration file. required: false default: null lv_name: description: - Name of the logical volume, defaults to the container name. default: $CONTAINER_NAME required: false vg_name: description: - If Backend store is lvm, specify the name of the volume group. default: lxc required: false thinpool: description: - Use LVM thin pool called TP. required: false fs_type: description: - Create fstype TYPE. default: ext4 required: false fs_size: description: - File system Size. default: 5G required: false directory: description: - Place rootfs directory under DIR. required: false zfs_root: description: - Create zfs under given zfsroot. required: false container_command: description: - Run a command within a container. required: false lxc_path: description: - Place container under PATH required: false container_log: choices: - true - false description: - Enable a container log for host actions to the container. default: false container_log_level: choices: - INFO - ERROR - DEBUG description: - Set the log level for a container where *container_log* was set. required: false default: INFO clone_name: version_added: "2.0" description: - Name of the new cloned server. This is only used when state is clone. required: false default: false clone_snapshot: version_added: "2.0" required: false choices: - true - false description: - Create a snapshot a container when cloning. This is not supported by all container storage backends. Enabling this may fail if the backing store does not support snapshots. default: false archive: choices: - true - false description: - Create an archive of a container. This will create a tarball of the running container. default: false archive_path: description: - Path the save the archived container. If the path does not exist the archive method will attempt to create it. default: null archive_compression: choices: - gzip - bzip2 - none description: - Type of compression to use when creating an archive of a running container. default: gzip state: choices: - started - stopped - restarted - absent - frozen description: - Define the state of a container. If you clone a container using `clone_name` the newly cloned container created in a stopped state. The running container will be stopped while the clone operation is happening and upon completion of the clone the original container state will be restored. required: false default: started container_config: description: - list of 'key=value' options to use when configuring a container. required: false requirements: - 'lxc >= 1.0 # OS package' - 'python >= 2.6 # OS Package' - 'lxc-python2 >= 0.1 # PIP Package from https://github.com/lxc/python2-lxc' notes: - Containers must have a unique name. If you attempt to create a container with a name that already exists in the users namespace the module will simply return as "unchanged". - The "container_command" can be used with any state except "absent". If used with state "stopped" the container will be "started", the command executed, and then the container "stopped" again. Likewise if the state is "stopped" and the container does not exist it will be first created, "started", the command executed, and then "stopped". If you use a "|" in the variable you can use common script formatting within the variable iteself The "container_command" option will always execute as BASH. When using "container_command" a log file is created in the /tmp/ directory which contains both stdout and stderr of any command executed. - If "archive" is **true** the system will attempt to create a compressed tarball of the running container. The "archive" option supports LVM backed containers and will create a snapshot of the running container when creating the archive. - If your distro does not have a package for "python2-lxc", which is a requirement for this module, it can be installed from source at "https://github.com/lxc/python2-lxc" or installed via pip using the package name lxc-python2. """ EXAMPLES = """ - name: Create a started container lxc_container: name: test-container-started container_log: true template: ubuntu state: started template_options: --release trusty - name: Create a stopped container lxc_container: name: test-container-stopped container_log: true template: ubuntu state: stopped template_options: --release trusty - name: Create a frozen container lxc_container: name: test-container-frozen container_log: true template: ubuntu state: frozen template_options: --release trusty container_command: | echo 'hello world.' | tee /opt/started-frozen # Create filesystem container, configure it, and archive it, and start it. - name: Create filesystem container lxc_container: name: test-container-config backing_store: dir container_log: true template: ubuntu state: started archive: true archive_compression: none container_config: - "lxc.aa_profile=unconfined" - "lxc.cgroup.devices.allow=a *:* rmw" template_options: --release trusty # Create an lvm container, run a complex command in it, add additional # configuration to it, create an archive of it, and finally leave the container # in a frozen state. The container archive will be compressed using bzip2 - name: Create a frozen lvm container lxc_container: name: test-container-lvm container_log: true template: ubuntu state: frozen backing_store: lvm template_options: --release trusty container_command: | apt-get update apt-get install -y vim lxc-dev echo 'hello world.' | tee /opt/started if [[ -f "/opt/started" ]]; then echo 'hello world.' | tee /opt/found-started fi container_config: - "lxc.aa_profile=unconfined" - "lxc.cgroup.devices.allow=a *:* rmw" archive: true archive_compression: bzip2 register: lvm_container_info - name: Debug info on container "test-container-lvm" debug: var: lvm_container_info - name: Run a command in a container and ensure its in a "stopped" state. lxc_container: name: test-container-started state: stopped container_command: | echo 'hello world.' | tee /opt/stopped - name: Run a command in a container and ensure its it in a "frozen" state. lxc_container: name: test-container-stopped state: frozen container_command: | echo 'hello world.' | tee /opt/frozen - name: Start a container lxc_container: name: test-container-stopped state: started - name: Run a command in a container and then restart it lxc_container: name: test-container-started state: restarted container_command: | echo 'hello world.' | tee /opt/restarted - name: Run a complex command within a "running" container lxc_container: name: test-container-started container_command: | apt-get update apt-get install -y curl wget vim apache2 echo 'hello world.' | tee /opt/started if [[ -f "/opt/started" ]]; then echo 'hello world.' | tee /opt/found-started fi # Create an archive of an existing container, save the archive to a defined # path and then destroy it. - name: Archive container lxc_container: name: test-container-started state: absent archive: true archive_path: /opt/archives # Create a container using overlayfs, create an archive of it, create a # snapshot clone of the container and and finally leave the container # in a frozen state. The container archive will be compressed using gzip. - name: Create an overlayfs container archive and clone it lxc_container: name: test-container-overlayfs container_log: true template: ubuntu state: started backing_store: overlayfs template_options: --release trusty clone_snapshot: true clone_name: test-container-overlayfs-clone-snapshot archive: true archive_compression: gzip register: clone_container_info - name: debug info on container "test-container" debug: var: clone_container_info - name: Clone a container using snapshot lxc_container: name: test-container-overlayfs-clone-snapshot backing_store: overlayfs clone_name: test-container-overlayfs-clone-snapshot2 clone_snapshot: true - name: Create a new container and clone it lxc_container: name: test-container-new-archive backing_store: dir clone_name: test-container-new-archive-clone - name: Archive and clone a container then destroy it lxc_container: name: test-container-new-archive state: absent clone_name: test-container-new-archive-destroyed-clone archive: true archive_compression: gzip - name: Start a cloned container. lxc_container: name: test-container-new-archive-destroyed-clone state: started - name: Destroy a container lxc_container: name: '{{ item }}' state: absent with_items: - test-container-stopped - test-container-started - test-container-frozen - test-container-lvm - test-container-config - test-container-overlayfs - test-container-overlayfs-clone - test-container-overlayfs-clone-snapshot - test-container-overlayfs-clone-snapshot2 - test-container-new-archive - test-container-new-archive-clone - test-container-new-archive-destroyed-clone """ RETURN=""" lxc_container: description: container information returned: success type: list contains: name: description: name of the lxc container returned: success type: string sample: test_host init_pid: description: pid of the lxc init process returned: success type: int sample: 19786 interfaces: description: list of the container's network interfaces returned: success type: list sample: [ "eth0", "lo" ] ips: description: list of ips returned: success type: list sample: [ "10.0.3.3" ] state: description: resulting state of the container returned: success type: string sample: "running" archive: description: resulting state of the container returned: success, when archive is true type: string sample: "/tmp/test-container-config.tar" clone: description: if the container was cloned returned: success, when clone_name is specified type: boolean sample: True """ import re try: import lxc except ImportError: HAS_LXC = False else: HAS_LXC = True # LXC_COMPRESSION_MAP is a map of available compression types when creating # an archive of a container. LXC_COMPRESSION_MAP = { 'gzip': { 'extension': 'tar.tgz', 'argument': '-czf' }, 'bzip2': { 'extension': 'tar.bz2', 'argument': '-cjf' }, 'none': { 'extension': 'tar', 'argument': '-cf' } } # LXC_COMMAND_MAP is a map of variables that are available to a method based # on the state the container is in. LXC_COMMAND_MAP = { 'create': { 'variables': { 'config': '--config', 'template': '--template', 'backing_store': '--bdev', 'lxc_path': '--lxcpath', 'lv_name': '--lvname', 'vg_name': '--vgname', 'thinpool': '--thinpool', 'fs_type': '--fstype', 'fs_size': '--fssize', 'directory': '--dir', 'zfs_root': '--zfsroot' } }, 'clone': { 'variables': { 'backing_store': '--backingstore', 'lxc_path': '--lxcpath', 'fs_size': '--fssize', 'name': '--orig', 'clone_name': '--new' } } } # LXC_BACKING_STORE is a map of available storage backends and options that # are incompatible with the given storage backend. LXC_BACKING_STORE = { 'dir': [ 'lv_name', 'vg_name', 'fs_type', 'fs_size', 'thinpool' ], 'lvm': [ 'zfs_root' ], 'btrfs': [ 'lv_name', 'vg_name', 'thinpool', 'zfs_root', 'fs_type', 'fs_size' ], 'loop': [ 'lv_name', 'vg_name', 'thinpool', 'zfs_root' ], 'overlayfs': [ 'lv_name', 'vg_name', 'fs_type', 'fs_size', 'thinpool', 'zfs_root' ], 'zfs': [ 'lv_name', 'vg_name', 'fs_type', 'fs_size', 'thinpool' ] } # LXC_LOGGING_LEVELS is a map of available log levels LXC_LOGGING_LEVELS = { 'INFO': ['info', 'INFO', 'Info'], 'ERROR': ['error', 'ERROR', 'Error'], 'DEBUG': ['debug', 'DEBUG', 'Debug'] } # LXC_ANSIBLE_STATES is a map of states that contain values of methods used # when a particular state is evoked. LXC_ANSIBLE_STATES = { 'started': '_started', 'stopped': '_stopped', 'restarted': '_restarted', 'absent': '_destroyed', 'frozen': '_frozen', 'clone': '_clone' } # This is used to attach to a running container and execute commands from # within the container on the host. This will provide local access to a # container without using SSH. The template will attempt to work within the # home directory of the user that was attached to the container and source # that users environment variables by default. ATTACH_TEMPLATE = """#!/usr/bin/env bash pushd "$(getent passwd $(whoami)|cut -f6 -d':')" if [[ -f ".bashrc" ]];then source .bashrc fi popd # User defined command %(container_command)s """ def create_script(command): """Write out a script onto a target. This method should be backward compatible with Python 2.4+ when executing from within the container. :param command: command to run, this can be a script and can use spacing with newlines as separation. :type command: ``str`` """ import os import os.path as path import subprocess import tempfile (fd, script_file) = tempfile.mkstemp(prefix='lxc-attach-script') f = os.fdopen(fd, 'wb') try: f.write(ATTACH_TEMPLATE % {'container_command': command}) f.flush() finally: f.close() # Ensure the script is executable. os.chmod(script_file, int('0700',8)) # Output log file. stdout_file = os.fdopen(tempfile.mkstemp(prefix='lxc-attach-script-log')[0], 'ab') # Error log file. stderr_file = os.fdopen(tempfile.mkstemp(prefix='lxc-attach-script-err')[0], 'ab') # Execute the script command. try: subprocess.Popen( [script_file], stdout=stdout_file, stderr=stderr_file ).communicate() finally: # Close the log files. stderr_file.close() stdout_file.close() # Remove the script file upon completion of execution. os.remove(script_file) class LxcContainerManagement(object): def __init__(self, module): """Management of LXC containers via Ansible. :param module: Processed Ansible Module. :type module: ``object`` """ self.module = module self.state = self.module.params.get('state', None) self.state_change = False self.lxc_vg = None self.lxc_path = self.module.params.get('lxc_path', None) self.container_name = self.module.params['name'] self.container = self.get_container_bind() self.archive_info = None self.clone_info = None def get_container_bind(self): return lxc.Container(name=self.container_name) @staticmethod def _roundup(num): """Return a rounded floating point number. :param num: Number to round up. :type: ``float`` :returns: Rounded up number. :rtype: ``int`` """ num, part = str(num).split('.') num = int(num) if int(part) != 0: num += 1 return num @staticmethod def _container_exists(container_name, lxc_path=None): """Check if a container exists. :param container_name: Name of the container. :type: ``str`` :returns: True or False if the container is found. :rtype: ``bol`` """ if [i for i in lxc.list_containers(config_path=lxc_path) if i == container_name]: return True else: return False @staticmethod def _add_variables(variables_dict, build_command): """Return a command list with all found options. :param variables_dict: Pre-parsed optional variables used from a seed command. :type variables_dict: ``dict`` :param build_command: Command to run. :type build_command: ``list`` :returns: list of command options. :rtype: ``list`` """ for key, value in variables_dict.items(): build_command.append( '%s %s' % (key, value) ) else: return build_command def _get_vars(self, variables): """Return a dict of all variables as found within the module. :param variables: Hash of all variables to find. :type variables: ``dict`` """ # Remove incompatible storage backend options. variables = variables.copy() for v in LXC_BACKING_STORE[self.module.params['backing_store']]: variables.pop(v, None) return_dict = dict() false_values = [None, ''] + BOOLEANS_FALSE for k, v in variables.items(): _var = self.module.params.get(k) if _var not in false_values: return_dict[v] = _var else: return return_dict def _run_command(self, build_command, unsafe_shell=False): """Return information from running an Ansible Command. This will squash the build command list into a string and then execute the command via Ansible. The output is returned to the method. This output is returned as `return_code`, `stdout`, `stderr`. :param build_command: Used for the command and all options. :type build_command: ``list`` :param unsafe_shell: Enable or Disable unsafe sell commands. :type unsafe_shell: ``bol`` """ return self.module.run_command( ' '.join(build_command), use_unsafe_shell=unsafe_shell ) def _config(self): """Configure an LXC container. Write new configuration values to the lxc config file. This will stop the container if it's running write the new options and then restart the container upon completion. """ _container_config = self.module.params.get('container_config') if not _container_config: return False container_config_file = self.container.config_file_name with open(container_config_file, 'rb') as f: container_config = f.readlines() # Note used ast literal_eval because AnsibleModule does not provide for # adequate dictionary parsing. # Issue: https://github.com/ansible/ansible/issues/7679 # TODO(cloudnull) adjust import when issue has been resolved. import ast options_dict = ast.literal_eval(_container_config) parsed_options = [i.split('=', 1) for i in options_dict] config_change = False for key, value in parsed_options: key = key.strip() value = value.strip() new_entry = '%s = %s\n' % (key, value) keyre = re.compile(r'%s(\s+)?=' % key) for option_line in container_config: # Look for key in config if keyre.match(option_line): _, _value = option_line.split('=', 1) config_value = ' '.join(_value.split()) line_index = container_config.index(option_line) # If the sanitized values don't match replace them if value != config_value: line_index += 1 if new_entry not in container_config: config_change = True container_config.insert(line_index, new_entry) # Break the flow as values are written or not at this point break else: config_change = True container_config.append(new_entry) # If the config changed restart the container. if config_change: container_state = self._get_state() if container_state != 'stopped': self.container.stop() with open(container_config_file, 'wb') as f: f.writelines(container_config) self.state_change = True if container_state == 'running': self._container_startup() elif container_state == 'frozen': self._container_startup() self.container.freeze() def _container_create_clone(self): """Clone a new LXC container from an existing container. This method will clone an existing container to a new container using the `clone_name` variable as the new container name. The method will create a container if the container `name` does not exist. Note that cloning a container will ensure that the original container is "stopped" before the clone can be done. Because this operation can require a state change the method will return the original container to its prior state upon completion of the clone. Once the clone is complete the new container will be left in a stopped state. """ # Ensure that the state of the original container is stopped container_state = self._get_state() if container_state != 'stopped': self.state_change = True self.container.stop() build_command = [ self.module.get_bin_path('lxc-clone', True), ] build_command = self._add_variables( variables_dict=self._get_vars( variables=LXC_COMMAND_MAP['clone']['variables'] ), build_command=build_command ) # Load logging for the instance when creating it. if self.module.params.get('clone_snapshot') in BOOLEANS_TRUE: build_command.append('--snapshot') # Check for backing_store == overlayfs if so force the use of snapshot # If overlay fs is used and snapshot is unset the clone command will # fail with an unsupported type. elif self.module.params.get('backing_store') == 'overlayfs': build_command.append('--snapshot') rc, return_data, err = self._run_command(build_command) if rc != 0: message = "Failed executing lxc-clone." self.failure( err=err, rc=rc, msg=message, command=' '.join( build_command ) ) else: self.state_change = True # Restore the original state of the origin container if it was # not in a stopped state. if container_state == 'running': self.container.start() elif container_state == 'frozen': self.container.start() self.container.freeze() return True def _create(self): """Create a new LXC container. This method will build and execute a shell command to build the container. It would have been nice to simply use the lxc python library however at the time this was written the python library, in both py2 and py3 didn't support some of the more advanced container create processes. These missing processes mainly revolve around backing LXC containers with block devices. """ build_command = [ self.module.get_bin_path('lxc-create', True), '--name %s' % self.container_name, '--quiet' ] build_command = self._add_variables( variables_dict=self._get_vars( variables=LXC_COMMAND_MAP['create']['variables'] ), build_command=build_command ) # Load logging for the instance when creating it. if self.module.params.get('container_log') in BOOLEANS_TRUE: # Set the logging path to the /var/log/lxc if uid is root. else # set it to the home folder of the user executing. try: if os.getuid() != 0: log_path = os.getenv('HOME') else: if not os.path.isdir('/var/log/lxc/'): os.makedirs('/var/log/lxc/') log_path = '/var/log/lxc/' except OSError: log_path = os.getenv('HOME') build_command.extend([ '--logfile %s' % os.path.join( log_path, 'lxc-%s.log' % self.container_name ), '--logpriority %s' % self.module.params.get( 'container_log_level' ).upper() ]) # Add the template commands to the end of the command if there are any template_options = self.module.params.get('template_options', None) if template_options: build_command.append('-- %s' % template_options) rc, return_data, err = self._run_command(build_command) if rc != 0: message = "Failed executing lxc-create." self.failure( err=err, rc=rc, msg=message, command=' '.join(build_command) ) else: self.state_change = True def _container_data(self): """Returns a dict of container information. :returns: container data :rtype: ``dict`` """ return { 'interfaces': self.container.get_interfaces(), 'ips': self.container.get_ips(), 'state': self._get_state(), 'init_pid': int(self.container.init_pid), 'name' : self.container_name, } def _unfreeze(self): """Unfreeze a container. :returns: True or False based on if the container was unfrozen. :rtype: ``bol`` """ unfreeze = self.container.unfreeze() if unfreeze: self.state_change = True return unfreeze def _get_state(self): """Return the state of a container. If the container is not found the state returned is "absent" :returns: state of a container as a lower case string. :rtype: ``str`` """ if self._container_exists(container_name=self.container_name, lxc_path=self.lxc_path): return str(self.container.state).lower() else: return str('absent') def _execute_command(self): """Execute a shell command.""" container_command = self.module.params.get('container_command') if container_command: container_state = self._get_state() if container_state == 'frozen': self._unfreeze() elif container_state == 'stopped': self._container_startup() self.container.attach_wait(create_script, container_command) self.state_change = True def _container_startup(self, timeout=60): """Ensure a container is started. :param timeout: Time before the destroy operation is abandoned. :type timeout: ``int`` """ self.container = self.get_container_bind() for _ in xrange(timeout): if self._get_state() != 'running': self.container.start() self.state_change = True # post startup sleep for 1 second. time.sleep(1) else: return True else: self.failure( lxc_container=self._container_data(), error='Failed to start container' ' [ %s ]' % self.container_name, rc=1, msg='The container [ %s ] failed to start. Check to lxc is' ' available and that the container is in a functional' ' state.' % self.container_name ) def _check_archive(self): """Create a compressed archive of a container. This will store archive_info in as self.archive_info """ if self.module.params.get('archive') in BOOLEANS_TRUE: self.archive_info = { 'archive': self._container_create_tar() } def _check_clone(self): """Create a compressed archive of a container. This will store archive_info in as self.archive_info """ clone_name = self.module.params.get('clone_name') if clone_name: if not self._container_exists(container_name=clone_name, lxc_path=self.lxc_path): self.clone_info = { 'cloned': self._container_create_clone() } else: self.clone_info = { 'cloned': False } def _destroyed(self, timeout=60): """Ensure a container is destroyed. :param timeout: Time before the destroy operation is abandoned. :type timeout: ``int`` """ for _ in xrange(timeout): if not self._container_exists(container_name=self.container_name, lxc_path=self.lxc_path): break # Check if the container needs to have an archive created. self._check_archive() # Check if the container is to be cloned self._check_clone() if self._get_state() != 'stopped': self.state_change = True self.container.stop() if self.container.destroy(): self.state_change = True # post destroy attempt sleep for 1 second. time.sleep(1) else: self.failure( lxc_container=self._container_data(), error='Failed to destroy container' ' [ %s ]' % self.container_name, rc=1, msg='The container [ %s ] failed to be destroyed. Check' ' that lxc is available and that the container is in a' ' functional state.' % self.container_name ) def _frozen(self, count=0): """Ensure a container is frozen. If the container does not exist the container will be created. :param count: number of times this command has been called by itself. :type count: ``int`` """ self.check_count(count=count, method='frozen') if self._container_exists(container_name=self.container_name, lxc_path=self.lxc_path): self._execute_command() # Perform any configuration updates self._config() container_state = self._get_state() if container_state == 'frozen': pass elif container_state == 'running': self.container.freeze() self.state_change = True else: self._container_startup() self.container.freeze() self.state_change = True # Check if the container needs to have an archive created. self._check_archive() # Check if the container is to be cloned self._check_clone() else: self._create() count += 1 self._frozen(count) def _restarted(self, count=0): """Ensure a container is restarted. If the container does not exist the container will be created. :param count: number of times this command has been called by itself. :type count: ``int`` """ self.check_count(count=count, method='restart') if self._container_exists(container_name=self.container_name, lxc_path=self.lxc_path): self._execute_command() # Perform any configuration updates self._config() if self._get_state() != 'stopped': self.container.stop() self.state_change = True # Run container startup self._container_startup() # Check if the container needs to have an archive created. self._check_archive() # Check if the container is to be cloned self._check_clone() else: self._create() count += 1 self._restarted(count) def _stopped(self, count=0): """Ensure a container is stopped. If the container does not exist the container will be created. :param count: number of times this command has been called by itself. :type count: ``int`` """ self.check_count(count=count, method='stop') if self._container_exists(container_name=self.container_name, lxc_path=self.lxc_path): self._execute_command() # Perform any configuration updates self._config() if self._get_state() != 'stopped': self.container.stop() self.state_change = True # Check if the container needs to have an archive created. self._check_archive() # Check if the container is to be cloned self._check_clone() else: self._create() count += 1 self._stopped(count) def _started(self, count=0): """Ensure a container is started. If the container does not exist the container will be created. :param count: number of times this command has been called by itself. :type count: ``int`` """ self.check_count(count=count, method='start') if self._container_exists(container_name=self.container_name, lxc_path=self.lxc_path): container_state = self._get_state() if container_state == 'running': pass elif container_state == 'frozen': self._unfreeze() elif not self._container_startup(): self.failure( lxc_container=self._container_data(), error='Failed to start container' ' [ %s ]' % self.container_name, rc=1, msg='The container [ %s ] failed to start. Check to lxc is' ' available and that the container is in a functional' ' state.' % self.container_name ) # Return data self._execute_command() # Perform any configuration updates self._config() # Check if the container needs to have an archive created. self._check_archive() # Check if the container is to be cloned self._check_clone() else: self._create() count += 1 self._started(count) def _get_lxc_vg(self): """Return the name of the Volume Group used in LXC.""" build_command = [ self.module.get_bin_path('lxc-config', True), "lxc.bdev.lvm.vg" ] rc, vg, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='Failed to read LVM VG from LXC config', command=' '.join(build_command) ) else: return str(vg.strip()) def _lvm_lv_list(self): """Return a list of all lv in a current vg.""" vg = self._get_lxc_vg() build_command = [ self.module.get_bin_path('lvs', True) ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='Failed to get list of LVs', command=' '.join(build_command) ) all_lvms = [i.split() for i in stdout.splitlines()][1:] return [lv_entry[0] for lv_entry in all_lvms if lv_entry[1] == vg] def _get_vg_free_pe(self, vg_name): """Return the available size of a given VG. :param vg_name: Name of volume. :type vg_name: ``str`` :returns: size and measurement of an LV :type: ``tuple`` """ build_command = [ 'vgdisplay', vg_name, '--units', 'g' ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='failed to read vg %s' % vg_name, command=' '.join(build_command) ) vg_info = [i.strip() for i in stdout.splitlines()][1:] free_pe = [i for i in vg_info if i.startswith('Free')] _free_pe = free_pe[0].split() return float(_free_pe[-2]), _free_pe[-1] def _get_lv_size(self, lv_name): """Return the available size of a given LV. :param lv_name: Name of volume. :type lv_name: ``str`` :returns: size and measurement of an LV :type: ``tuple`` """ vg = self._get_lxc_vg() lv = os.path.join(vg, lv_name) build_command = [ 'lvdisplay', lv, '--units', 'g' ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='failed to read lv %s' % lv, command=' '.join(build_command) ) lv_info = [i.strip() for i in stdout.splitlines()][1:] _free_pe = [i for i in lv_info if i.startswith('LV Size')] free_pe = _free_pe[0].split() return self._roundup(float(free_pe[-2])), free_pe[-1] def _lvm_snapshot_create(self, source_lv, snapshot_name, snapshot_size_gb=5): """Create an LVM snapshot. :param source_lv: Name of lv to snapshot :type source_lv: ``str`` :param snapshot_name: Name of lv snapshot :type snapshot_name: ``str`` :param snapshot_size_gb: Size of snapshot to create :type snapshot_size_gb: ``int`` """ vg = self._get_lxc_vg() free_space, messurement = self._get_vg_free_pe(vg_name=vg) if free_space < float(snapshot_size_gb): message = ( 'Snapshot size [ %s ] is > greater than [ %s ] on volume group' ' [ %s ]' % (snapshot_size_gb, free_space, vg) ) self.failure( error='Not enough space to create snapshot', rc=2, msg=message ) # Create LVM Snapshot build_command = [ self.module.get_bin_path('lvcreate', True), "-n", snapshot_name, "-s", os.path.join(vg, source_lv), "-L%sg" % snapshot_size_gb ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='Failed to Create LVM snapshot %s/%s --> %s' % (vg, source_lv, snapshot_name) ) def _lvm_lv_mount(self, lv_name, mount_point): """mount an lv. :param lv_name: name of the logical volume to mount :type lv_name: ``str`` :param mount_point: path on the file system that is mounted. :type mount_point: ``str`` """ vg = self._get_lxc_vg() build_command = [ self.module.get_bin_path('mount', True), "/dev/%s/%s" % (vg, lv_name), mount_point, ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='failed to mountlvm lv %s/%s to %s' % (vg, lv_name, mount_point) ) def _create_tar(self, source_dir): """Create an archive of a given ``source_dir`` to ``output_path``. :param source_dir: Path to the directory to be archived. :type source_dir: ``str`` """ old_umask = os.umask(int('0077',8)) archive_path = self.module.params.get('archive_path') if not os.path.isdir(archive_path): os.makedirs(archive_path) archive_compression = self.module.params.get('archive_compression') compression_type = LXC_COMPRESSION_MAP[archive_compression] # remove trailing / if present. archive_name = '%s.%s' % ( os.path.join( archive_path, self.container_name ), compression_type['extension'] ) build_command = [ self.module.get_bin_path('tar', True), '--directory=%s' % os.path.realpath( os.path.expanduser(source_dir) ), compression_type['argument'], archive_name, '.' ] rc, stdout, err = self._run_command( build_command=build_command, unsafe_shell=True ) os.umask(old_umask) if rc != 0: self.failure( err=err, rc=rc, msg='failed to create tar archive', command=' '.join(build_command) ) return archive_name def _lvm_lv_remove(self, lv_name): """Remove an LV. :param lv_name: The name of the logical volume :type lv_name: ``str`` """ vg = self._get_lxc_vg() build_command = [ self.module.get_bin_path('lvremove', True), "-f", "%s/%s" % (vg, lv_name), ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='Failed to remove LVM LV %s/%s' % (vg, lv_name), command=' '.join(build_command) ) def _rsync_data(self, container_path, temp_dir): """Sync the container directory to the temp directory. :param container_path: path to the container container :type container_path: ``str`` :param temp_dir: path to the temporary local working directory :type temp_dir: ``str`` """ # This loop is created to support overlayfs archives. This should # squash all of the layers into a single archive. fs_paths = container_path.split(':') if 'overlayfs' in fs_paths: fs_paths.pop(fs_paths.index('overlayfs')) for fs_path in fs_paths: # Set the path to the container data fs_path = os.path.dirname(fs_path) # Run the sync command build_command = [ self.module.get_bin_path('rsync', True), '-aHAX', fs_path, temp_dir ] rc, stdout, err = self._run_command( build_command, unsafe_shell=True ) if rc != 0: self.failure( err=err, rc=rc, msg='failed to perform archive', command=' '.join(build_command) ) def _unmount(self, mount_point): """Unmount a file system. :param mount_point: path on the file system that is mounted. :type mount_point: ``str`` """ build_command = [ self.module.get_bin_path('umount', True), mount_point, ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='failed to unmount [ %s ]' % mount_point, command=' '.join(build_command) ) def _overlayfs_mount(self, lowerdir, upperdir, mount_point): """mount an lv. :param lowerdir: name/path of the lower directory :type lowerdir: ``str`` :param upperdir: name/path of the upper directory :type upperdir: ``str`` :param mount_point: path on the file system that is mounted. :type mount_point: ``str`` """ build_command = [ self.module.get_bin_path('mount', True), '-t overlayfs', '-o lowerdir=%s,upperdir=%s' % (lowerdir, upperdir), 'overlayfs', mount_point, ] rc, stdout, err = self._run_command(build_command) if rc != 0: self.failure( err=err, rc=rc, msg='failed to mount overlayfs:%s:%s to %s -- Command: %s' % (lowerdir, upperdir, mount_point, build_command) ) def _container_create_tar(self): """Create a tar archive from an LXC container. The process is as follows: * Stop or Freeze the container * Create temporary dir * Copy container and config to temporary directory * If LVM backed: * Create LVM snapshot of LV backing the container * Mount the snapshot to tmpdir/rootfs * Restore the state of the container * Create tar of tmpdir * Clean up """ # Create a temp dir temp_dir = tempfile.mkdtemp() # Set the name of the working dir, temp + container_name work_dir = os.path.join(temp_dir, self.container_name) # LXC container rootfs lxc_rootfs = self.container.get_config_item('lxc.rootfs') # Test if the containers rootfs is a block device block_backed = lxc_rootfs.startswith(os.path.join(os.sep, 'dev')) # Test if the container is using overlayfs overlayfs_backed = lxc_rootfs.startswith('overlayfs') mount_point = os.path.join(work_dir, 'rootfs') # Set the snapshot name if needed snapshot_name = '%s_lxc_snapshot' % self.container_name container_state = self._get_state() try: # Ensure the original container is stopped or frozen if container_state not in ['stopped', 'frozen']: if container_state == 'running': self.container.freeze() else: self.container.stop() # Sync the container data from the container_path to work_dir self._rsync_data(lxc_rootfs, temp_dir) if block_backed: if snapshot_name not in self._lvm_lv_list(): if not os.path.exists(mount_point): os.makedirs(mount_point) # Take snapshot size, measurement = self._get_lv_size( lv_name=self.container_name ) self._lvm_snapshot_create( source_lv=self.container_name, snapshot_name=snapshot_name, snapshot_size_gb=size ) # Mount snapshot self._lvm_lv_mount( lv_name=snapshot_name, mount_point=mount_point ) else: self.failure( err='snapshot [ %s ] already exists' % snapshot_name, rc=1, msg='The snapshot [ %s ] already exists. Please clean' ' up old snapshot of containers before continuing.' % snapshot_name ) elif overlayfs_backed: lowerdir, upperdir = lxc_rootfs.split(':')[1:] self._overlayfs_mount( lowerdir=lowerdir, upperdir=upperdir, mount_point=mount_point ) # Set the state as changed and set a new fact self.state_change = True return self._create_tar(source_dir=work_dir) finally: if block_backed or overlayfs_backed: # unmount snapshot self._unmount(mount_point) if block_backed: # Remove snapshot self._lvm_lv_remove(snapshot_name) # Restore original state of container if container_state == 'running': if self._get_state() == 'frozen': self.container.unfreeze() else: self.container.start() # Remove tmpdir shutil.rmtree(temp_dir) def check_count(self, count, method): if count > 1: self.failure( error='Failed to %s container' % method, rc=1, msg='The container [ %s ] failed to %s. Check to lxc is' ' available and that the container is in a functional' ' state.' % (self.container_name, method) ) def failure(self, **kwargs): """Return a Failure when running an Ansible command. :param error: ``str`` Error that occurred. :param rc: ``int`` Return code while executing an Ansible command. :param msg: ``str`` Message to report. """ self.module.fail_json(**kwargs) def run(self): """Run the main method.""" action = getattr(self, LXC_ANSIBLE_STATES[self.state]) action() outcome = self._container_data() if self.archive_info: outcome.update(self.archive_info) if self.clone_info: outcome.update(self.clone_info) self.module.exit_json( changed=self.state_change, lxc_container=outcome ) def main(): """Ansible Main module.""" module = AnsibleModule( argument_spec=dict( name=dict( type='str', required=True ), template=dict( type='str', default='ubuntu' ), backing_store=dict( type='str', choices=LXC_BACKING_STORE.keys(), default='dir' ), template_options=dict( type='str' ), config=dict( type='path', ), vg_name=dict( type='str', default='lxc' ), thinpool=dict( type='str' ), fs_type=dict( type='str', default='ext4' ), fs_size=dict( type='str', default='5G' ), directory=dict( type='path' ), zfs_root=dict( type='str' ), lv_name=dict( type='str' ), lxc_path=dict( type='path' ), state=dict( choices=LXC_ANSIBLE_STATES.keys(), default='started' ), container_command=dict( type='str' ), container_config=dict( type='str' ), container_log=dict( type='bool', default='false' ), container_log_level=dict( choices=[n for i in LXC_LOGGING_LEVELS.values() for n in i], default='INFO' ), clone_name=dict( type='str', required=False ), clone_snapshot=dict( type='bool', default='false' ), archive=dict( type='bool', default='false' ), archive_path=dict( type='path', ), archive_compression=dict( choices=LXC_COMPRESSION_MAP.keys(), default='gzip' ) ), supports_check_mode=False, required_if = ([ ('archive', True, ['archive_path']) ]), ) if not HAS_LXC: module.fail_json( msg='The `lxc` module is not importable. Check the requirements.' ) lv_name = module.params.get('lv_name') if not lv_name: module.params['lv_name'] = module.params.get('name') lxc_manage = LxcContainerManagement(module=module) lxc_manage.run() # import module bits from ansible.module_utils.basic import * if __name__ == '__main__': main()