#ifdef __AVR__
#include "avrsupport.h"
#endif
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
* This software is dual-licensed: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. For the terms of this
* license, see .
*
* You are free to use this software under the terms of the GNU General
* Public License, 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.
*
* Alternatively, you can license this software under a commercial
* license, as set out in .
*/
#define NS_FOSSA_VERSION "2.0.0"
/*
* Copyright (c) 2015 Cesanta Software Limited
* All rights reserved
*/
#ifndef OSDEP_HEADER_INCLUDED
#define OSDEP_HEADER_INCLUDED
#if !defined(NS_DISABLE_FILESYSTEM) && defined(AVR_NOFS)
#define NS_DISABLE_FILESYSTEM
#endif
#undef UNICODE /* Use ANSI WinAPI functions */
#undef _UNICODE /* Use multibyte encoding on Windows */
#define _MBCS /* Use multibyte encoding on Windows */
#define _INTEGRAL_MAX_BITS 64 /* Enable _stati64() on Windows */
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS /* Disable deprecation warning in VS2005+ */
#endif
#undef WIN32_LEAN_AND_MEAN /* Let windows.h always include winsock2.h */
#undef _XOPEN_SOURCE
#define _XOPEN_SOURCE 600 /* For flockfile() on Linux */
#define __STDC_FORMAT_MACROS /* wants this for C++ */
#define __STDC_LIMIT_MACROS /* C++ wants that for INT64_MAX */
#ifndef _LARGEFILE_SOURCE
#define _LARGEFILE_SOURCE /* Enable fseeko() and ftello() functions */
#endif
#define _FILE_OFFSET_BITS 64 /* Enable 64-bit file offsets */
#if !(defined(AVR_LIBC) || defined(PICOTCP))
#include
#include
#include
#include
#include
#endif
#ifndef BYTE_ORDER
#define LITTLE_ENDIAN 0x41424344
#define BIG_ENDIAN 0x44434241
#define PDP_ENDIAN 0x42414443
/* TODO(lsm): fix for big-endian machines. 'ABCD' is not portable */
/*#define BYTE_ORDER 'ABCD'*/
#define BYTE_ORDER LITTLE_ENDIAN
#endif
/*
* MSVC++ 12.0 _MSC_VER == 1800 (Visual Studio 2013)
* MSVC++ 11.0 _MSC_VER == 1700 (Visual Studio 2012)
* MSVC++ 10.0 _MSC_VER == 1600 (Visual Studio 2010)
* MSVC++ 9.0 _MSC_VER == 1500 (Visual Studio 2008)
* MSVC++ 8.0 _MSC_VER == 1400 (Visual Studio 2005)
* MSVC++ 7.1 _MSC_VER == 1310 (Visual Studio 2003)
* MSVC++ 7.0 _MSC_VER == 1300
* MSVC++ 6.0 _MSC_VER == 1200
* MSVC++ 5.0 _MSC_VER == 1100
*/
#ifdef _MSC_VER
#pragma warning(disable : 4127) /* FD_SET() emits warning, disable it */
#pragma warning(disable : 4204) /* missing c99 support */
#endif
#ifdef PICOTCP
#define time(x) PICO_TIME()
#ifndef SOMAXCONN
#define SOMAXCONN (16)
#endif
#ifdef _POSIX_VERSION
#define signal(...)
#endif
#endif
#include
#include
#include
#include
#include
#include
#include
#include
#ifndef va_copy
#ifdef __va_copy
#define va_copy __va_copy
#else
#define va_copy(x, y) (x) = (y)
#endif
#endif
#ifdef _WIN32
#define random() rand()
#ifdef _MSC_VER
#pragma comment(lib, "ws2_32.lib") /* Linking with winsock library */
#endif
#include
#include
#ifndef EINPROGRESS
#define EINPROGRESS WSAEINPROGRESS
#endif
#ifndef EWOULDBLOCK
#define EWOULDBLOCK WSAEWOULDBLOCK
#endif
#ifndef __func__
#define STRX(x) #x
#define STR(x) STRX(x)
#define __func__ __FILE__ ":" STR(__LINE__)
#endif
#define snprintf _snprintf
#define vsnprintf _vsnprintf
#define sleep(x) Sleep((x) *1000)
#define to64(x) _atoi64(x)
#define popen(x, y) _popen((x), (y))
#define pclose(x) _pclose(x)
#if defined(_MSC_VER) && _MSC_VER >= 1400
#define fseeko(x, y, z) _fseeki64((x), (y), (z))
#else
#define fseeko(x, y, z) fseek((x), (y), (z))
#endif
#define random() rand()
typedef int socklen_t;
typedef unsigned char uint8_t;
typedef unsigned int uint32_t;
typedef unsigned short uint16_t;
typedef unsigned __int64 uint64_t;
typedef __int64 int64_t;
typedef SOCKET sock_t;
typedef uint32_t in_addr_t;
#ifndef UINT16_MAX
#define UINT16_MAX 65535
#endif
#ifndef UINT32_MAX
#define UINT32_MAX 4294967295
#endif
#ifndef pid_t
#define pid_t HANDLE
#endif
#define INT64_FMT "I64d"
#define SIZE_T_FMT "Iu"
#ifdef __MINGW32__
typedef struct stat ns_stat_t;
#else
typedef struct _stati64 ns_stat_t;
#endif
#ifndef S_ISDIR
#define S_ISDIR(x) ((x) &_S_IFDIR)
#endif
#define DIRSEP '\\'
/* POSIX opendir/closedir/readdir API for Windows. */
struct dirent {
char d_name[MAX_PATH];
};
typedef struct DIR {
HANDLE handle;
WIN32_FIND_DATAW info;
struct dirent result;
} DIR;
DIR *opendir(const char *name);
int closedir(DIR *dir);
struct dirent *readdir(DIR *dir);
#elif /* not _WIN32 */ defined(NS_CC3200)
#include
#include
#include
#include
#elif /* not CC3200 */ defined(NS_ESP8266) && defined(RTOS_SDK)
#include
#include
#include
#include
#define random() os_random()
/* TODO(alashkin): check if zero is OK */
#define SOMAXCONN 0
#include
#elif /* not ESP8266 RTOS */ !defined(NO_LIBC) && !defined(NO_BSD_SOCKETS)
#include
#include
#include
#include
#include
#include /* For inet_pton() when NS_ENABLE_IPV6 is defined */
#include
#include
#include
#endif
#ifndef _WIN32
#include
#include
#include
#ifndef AVR_LIBC
#ifndef NS_ESP8266
#define closesocket(x) close(x)
#endif
#ifndef __cdecl
#define __cdecl
#endif
#define INVALID_SOCKET (-1)
#define INT64_FMT PRId64
#define SIZE_T_FMT "zu"
#define to64(x) strtoll(x, NULL, 10)
typedef int sock_t;
typedef struct stat ns_stat_t;
#define DIRSEP '/'
#endif /* !AVR_LIBC */
#ifdef __APPLE__
int64_t strtoll(const char *str, char **endptr, int base);
#endif
#endif /* !_WIN32 */
#define __DBG(x) \
do { \
printf("%-20s ", __func__); \
printf x; \
putchar('\n'); \
fflush(stdout); \
} while (0)
#ifdef NS_ENABLE_DEBUG
#define DBG __DBG
#else
#define DBG(x)
#endif
#ifndef ARRAY_SIZE
#define ARRAY_SIZE(array) (sizeof(array) / sizeof(array[0]))
#endif
#endif /* OSDEP_HEADER_INCLUDED */
/*
* Copyright (c) 2015 Cesanta Software Limited
* All rights reserved
*/
/*
* === Memory Buffers
*
* Mbufs are mutable/growing memory buffers, like C++ strings.
* Mbuf can append data to the end of a buffer, or insert data into arbitrary
* position in the middle of a buffer. The buffer grows automatically when
* needed.
*/
#ifndef MBUF_H_INCLUDED
#define MBUF_H_INCLUDED
#if defined(__cplusplus)
extern "C" {
#endif
#include
#ifndef MBUF_SIZE_MULTIPLIER
#define MBUF_SIZE_MULTIPLIER 1.5
#endif
/* Memory buffer descriptor */
struct mbuf {
char *buf; /* Buffer pointer */
size_t len; /* Data length. Data is located between offset 0 and len. */
size_t size; /* Buffer size allocated by realloc(1). Must be >= len */
};
/*
* Initialize an Mbuf.
* `initial_capacity` specifies the initial capacity of the mbuf.
*/
void mbuf_init(struct mbuf *, size_t initial_capacity);
/* Free the space allocated for the mbuffer and resets the mbuf structure. */
void mbuf_free(struct mbuf *);
/*
* Appends data to the Mbuf.
*
* Return the number of bytes appended, or 0 if out of memory.
*/
size_t mbuf_append(struct mbuf *, const void *data, size_t data_size);
/*
* Insert data at a specified offset in the Mbuf.
*
* Existing data will be shifted forwards and the buffer will
* be grown if necessary.
* Return the number of bytes inserted.
*/
size_t mbuf_insert(struct mbuf *, size_t, const void *, size_t);
/* Remove `data_size` bytes from the beginning of the buffer. */
void mbuf_remove(struct mbuf *, size_t data_size);
/*
* Resize an Mbuf.
*
* If `new_size` is smaller than buffer's `len`, the
* resize is not performed.
*/
void mbuf_resize(struct mbuf *, size_t new_size);
/* Shrink an Mbuf by resizing its `size` to `len`. */
void mbuf_trim(struct mbuf *);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MBUF_H_INCLUDED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
#if !defined(NS_SHA1_HEADER_INCLUDED) && !defined(DISABLE_SHA1)
#define NS_SHA1_HEADER_INCLUDED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
typedef struct {
uint32_t state[5];
uint32_t count[2];
unsigned char buffer[64];
} cs_sha1_ctx;
void cs_sha1_init(cs_sha1_ctx *);
void cs_sha1_update(cs_sha1_ctx *, const unsigned char *data, uint32_t len);
void cs_sha1_final(unsigned char digest[20], cs_sha1_ctx *);
void hmac_sha1(const unsigned char *key, size_t key_len,
const unsigned char *text, size_t text_len,
unsigned char out[20]);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_SHA1_HEADER_INCLUDED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
#ifndef MD5_HEADER_DEFINED
#define MD5_HEADER_DEFINED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
typedef struct MD5Context {
uint32_t buf[4];
uint32_t bits[2];
unsigned char in[64];
} MD5_CTX;
void MD5_Init(MD5_CTX *c);
void MD5_Update(MD5_CTX *c, const unsigned char *data, size_t len);
void MD5_Final(unsigned char *md, MD5_CTX *c);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
#if !defined(BASE64_H_INCLUDED) && !defined(DISABLE_BASE64)
#define BASE64_H_INCLUDED
#ifdef __cplusplus
extern "C" {
#endif
void cs_base64_encode(const unsigned char *src, int src_len, char *dst);
int cs_base64_decode(const unsigned char *s, int len, char *dst);
#ifdef __cplusplus
}
#endif
#endif
/*
* Copyright (c) 2015 Cesanta Software Limited
* All rights reserved
*/
#ifndef STR_UTIL_H
#define STR_UTIL_H
#include
#include
#ifdef __cplusplus
extern "C" {
#endif
int c_snprintf(char *buf, size_t buf_size, const char *format, ...);
int c_vsnprintf(char *buf, size_t buf_size, const char *format, va_list ap);
#if !(_XOPEN_SOURCE >= 700 || _POSIX_C_SOURCE >= 200809L) && \
!(__DARWIN_C_LEVEL >= 200809L) && !defined(RTOS_SDK) || \
defined(_WIN32)
int strnlen(const char *s, size_t maxlen);
#endif
#ifdef __cplusplus
}
#endif
#endif
/*
* Copyright (c) 2004-2013 Sergey Lyubka
* Copyright (c) 2013 Cesanta Software Limited
* All rights reserved
*
* This library is dual-licensed: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. For the terms of this
* license, see .
*
* You are free to use this library under the terms of the GNU General
* Public License, 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.
*
* Alternatively, you can license this library under a commercial
* license, as set out in .
*/
#ifndef FROZEN_HEADER_INCLUDED
#define FROZEN_HEADER_INCLUDED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
#include
enum json_type {
JSON_TYPE_EOF = 0, /* End of parsed tokens marker */
JSON_TYPE_STRING = 1,
JSON_TYPE_NUMBER = 2,
JSON_TYPE_OBJECT = 3,
JSON_TYPE_TRUE = 4,
JSON_TYPE_FALSE = 5,
JSON_TYPE_NULL = 6,
JSON_TYPE_ARRAY = 7
};
struct json_token {
const char *ptr; /* Points to the beginning of the token */
int len; /* Token length */
int num_desc; /* For arrays and object, total number of descendants */
enum json_type type; /* Type of the token, possible values above */
};
/* Error codes */
#define JSON_STRING_INVALID -1
#define JSON_STRING_INCOMPLETE -2
#define JSON_TOKEN_ARRAY_TOO_SMALL -3
int parse_json(const char *json_string, int json_string_length,
struct json_token *tokens_array, int size_of_tokens_array);
struct json_token *parse_json2(const char *json_string, int string_length);
struct json_token *find_json_token(struct json_token *toks, const char *path);
int json_emit_long(char *buf, int buf_len, long value);
int json_emit_double(char *buf, int buf_len, double value);
int json_emit_quoted_str(char *buf, int buf_len, const char *str, int len);
int json_emit_unquoted_str(char *buf, int buf_len, const char *str, int len);
int json_emit(char *buf, int buf_len, const char *fmt, ...);
int json_emit_va(char *buf, int buf_len, const char *fmt, va_list);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* FROZEN_HEADER_INCLUDED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
* This software is dual-licensed: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. For the terms of this
* license, see .
*
* You are free to use this software under the terms of the GNU General
* Public License, 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.
*
* Alternatively, you can license this software under a commercial
* license, as set out in .
*/
/*
* === Core: TCP/UDP/SSL
*
* NOTE: Fossa manager is single threaded. It does not protect
* its data structures by mutexes, therefore all functions that are dealing
* with particular event manager should be called from the same thread,
* with exception of `mg_broadcast()` function. It is fine to have different
* event managers handled by different threads.
*/
#ifndef NS_NET_HEADER_INCLUDED
#define NS_NET_HEADER_INCLUDED
#ifdef NS_ENABLE_SSL
#ifdef __APPLE__
#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
#endif
#include
#else
typedef void *SSL;
typedef void *SSL_CTX;
#endif
#ifdef NS_USE_READ_WRITE
#define NS_RECV_FUNC(s, b, l, f) read(s, b, l)
#define NS_SEND_FUNC(s, b, l, f) write(s, b, l)
#else
#define NS_RECV_FUNC(s, b, l, f) recv(s, b, l, f)
#define NS_SEND_FUNC(s, b, l, f) send(s, b, l, f)
#endif
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
union socket_address {
struct sockaddr sa;
struct sockaddr_in sin;
#ifdef NS_ENABLE_IPV6
struct sockaddr_in6 sin6;
#else
struct sockaddr sin6;
#endif
};
/* Describes chunk of memory */
struct ns_str {
const char *p; /* Memory chunk pointer */
size_t len; /* Memory chunk length */
};
#define NS_STR(str_literal) \
{ str_literal, sizeof(str_literal) - 1 }
/*
* Callback function (event handler) prototype, must be defined by user.
* Fossa calls event handler, passing events defined below.
*/
struct ns_connection;
typedef void (*ns_event_handler_t)(struct ns_connection *, int ev, void *);
/* Events. Meaning of event parameter (evp) is given in the comment. */
#define NS_POLL 0 /* Sent to each connection on each ns_mgr_poll() call */
#define NS_ACCEPT 1 /* New connection accepted. union socket_address *addr */
#define NS_CONNECT 2 /* connect() succeeded or failed. int *success_status */
#define NS_RECV 3 /* Data has benn received. int *num_bytes */
#define NS_SEND 4 /* Data has been written to a socket. int *num_bytes */
#define NS_CLOSE 5 /* Connection is closed. NULL */
/*
* Fossa event manager.
*/
struct ns_mgr {
struct ns_connection *active_connections;
const char *hexdump_file; /* Debug hexdump file path */
sock_t ctl[2]; /* Socketpair for mg_wakeup() */
void *user_data; /* User data */
void *mgr_data; /* Implementation-specific event manager's data. */
};
/*
* Fossa connection.
*/
struct ns_connection {
struct ns_connection *next, *prev; /* ns_mgr::active_connections linkage */
struct ns_connection *listener; /* Set only for accept()-ed connections */
struct ns_mgr *mgr; /* Pointer to containing manager */
sock_t sock; /* Socket to the remote peer */
union socket_address sa; /* Remote peer address */
size_t recv_mbuf_limit; /* Max size of recv buffer */
struct mbuf recv_mbuf; /* Received data */
struct mbuf send_mbuf; /* Data scheduled for sending */
SSL *ssl;
SSL_CTX *ssl_ctx;
time_t last_io_time; /* Timestamp of the last socket IO */
ns_event_handler_t proto_handler; /* Protocol-specific event handler */
void *proto_data; /* Protocol-specific data */
ns_event_handler_t handler; /* Event handler function */
void *user_data; /* User-specific data */
void *priv_1; /* Used by ns_enable_multithreading() */
void *priv_2; /* Used by ns_enable_multithreading() */
void *mgr_data; /* Implementation-specific event manager's data. */
unsigned long flags;
/* Flags set by Fossa */
#define NSF_LISTENING (1 << 0) /* This connection is listening */
#define NSF_UDP (1 << 1) /* This connection is UDP */
#define NSF_RESOLVING (1 << 2) /* Waiting for async resolver */
#define NSF_CONNECTING (1 << 3) /* connect() call in progress */
#define NSF_SSL_HANDSHAKE_DONE (1 << 4) /* SSL specific */
#define NSF_WANT_READ (1 << 5) /* SSL specific */
#define NSF_WANT_WRITE (1 << 6) /* SSL specific */
#define NSF_IS_WEBSOCKET (1 << 7) /* Websocket specific */
/* Flags that are settable by user */
#define NSF_SEND_AND_CLOSE (1 << 10) /* Push remaining data and close */
#define NSF_DONT_SEND (1 << 11) /* Do not send data to peer */
#define NSF_CLOSE_IMMEDIATELY (1 << 12) /* Disconnect */
#define NSF_WEBSOCKET_NO_DEFRAG (1 << 13) /* Websocket specific */
#define NSF_DELETE_CHUNK (1 << 14) /* HTTP specific */
#define NSF_USER_1 (1 << 20) /* Flags left for application */
#define NSF_USER_2 (1 << 21)
#define NSF_USER_3 (1 << 22)
#define NSF_USER_4 (1 << 23)
#define NSF_USER_5 (1 << 24)
#define NSF_USER_6 (1 << 25)
};
/*
* Initialize Fossa manager. Side effect: ignores SIGPIPE signal.
* `mgr->user_data` field will be initialized with `user_data` parameter.
* That is an arbitrary pointer, where user code can associate some data
* with the particular Fossa manager. For example, a C++ wrapper class
* could be written, in which case `user_data` can hold a pointer to the
* class instance.
*/
void ns_mgr_init(struct ns_mgr *mgr, void *user_data);
/*
* De-initializes Fossa manager.
*
* Close and deallocate all active connections.
*/
void ns_mgr_free(struct ns_mgr *);
/*
* This function performs the actual IO, and must be called in a loop
* (an event loop). Returns the current timestamp.
* `milli` is the maximum number of milliseconds to sleep.
* `ns_mgr_poll()` checks all connection for IO readiness. If at least one
* of the connections is IO-ready, `ns_mgr_poll()` triggers respective
* event handlers and returns.
*/
time_t ns_mgr_poll(struct ns_mgr *, int milli);
/*
* Pass a message of a given length to all connections.
*
* Must be called from a thread that does NOT call `ns_mgr_poll()`.
* Note that `ns_broadcast()` is the only function
* that can be, and must be, called from a different (non-IO) thread.
*
* `func` callback function will be called by the IO thread for each
* connection. When called, event would be `NS_POLL`, and message will
* be passed as `ev_data` pointer. Maximum message size is capped
* by `NS_CTL_MSG_MESSAGE_SIZE` which is set to 8192 bytes.
*/
void ns_broadcast(struct ns_mgr *, ns_event_handler_t func, void *, size_t);
/*
* Iterate over all active connections.
*
* Returns next connection from the list
* of active connections, or `NULL` if there is no more connections. Below
* is the iteration idiom:
*
* [source,c]
* ----
* for (c = ns_next(srv, NULL); c != NULL; c = ns_next(srv, c)) {
* // Do something with connection `c`
* }
* ----
*/
struct ns_connection *ns_next(struct ns_mgr *, struct ns_connection *);
/*
* Optional parameters to ns_add_sock_opt()
* `flags` is an initial `struct ns_connection::flags` bitmask to set,
* see `NSF_*` flags definitions.
*/
struct ns_add_sock_opts {
void *user_data; /* Initial value for connection's user_data */
unsigned int flags; /* Initial connection flags */
const char **error_string; /* Placeholder for the error string */
};
/*
* Create a connection, associate it with the given socket and event handler,
* and add it to the manager.
*
* For more options see the `ns_add_sock_opt` variant.
*/
struct ns_connection *ns_add_sock(struct ns_mgr *, sock_t, ns_event_handler_t);
/*
* Create a connection, associate it with the given socket and event handler,
* and add to the manager.
*
* See the `ns_add_sock_opts` structure for a description of the options.
*/
struct ns_connection *ns_add_sock_opt(struct ns_mgr *, sock_t,
ns_event_handler_t,
struct ns_add_sock_opts);
/*
* Optional parameters to ns_bind_opt()
* `flags` is an initial `struct ns_connection::flags` bitmask to set,
* see `NSF_*` flags definitions.
*/
struct ns_bind_opts {
void *user_data; /* Initial value for connection's user_data */
unsigned int flags; /* Extra connection flags */
const char **error_string; /* Placeholder for the error string */
};
/*
* Create listening connection.
*
* See `ns_bind_opt` for full documentation.
*/
struct ns_connection *ns_bind(struct ns_mgr *, const char *,
ns_event_handler_t);
/*
* Create listening connection.
*
* `address` parameter tells which address to bind to. It's format is the same
* as for the `ns_connect()` call, where `HOST` part is optional. `address`
* can be just a port number, e.g. `:8000`. To bind to a specific interface,
* an IP address can be specified, e.g. `1.2.3.4:8000`. By default, a TCP
* connection is created. To create UDP connection, prepend `udp://` prefix,
* e.g. `udp://:8000`. To summarize, `address` paramer has following format:
* `[PROTO://][IP_ADDRESS]:PORT`, where `PROTO` could be `tcp` or `udp`.
*
* See the `ns_bind_opts` structure for a description of the optional
* parameters.
*
* Return a new listening connection, or `NULL` on error.
* NOTE: Connection remains owned by the manager, do not free().
*/
struct ns_connection *ns_bind_opt(struct ns_mgr *, const char *,
ns_event_handler_t, struct ns_bind_opts);
/* Optional parameters to ns_connect_opt() */
struct ns_connect_opts {
void *user_data; /* Initial value for connection's user_data */
unsigned int flags; /* Extra connection flags */
const char **error_string; /* Placeholder for the error string */
};
/*
* Connect to a remote host.
*
* See `ns_connect_opt()` for full documentation.
*/
struct ns_connection *ns_connect(struct ns_mgr *, const char *,
ns_event_handler_t);
/*
* Connect to a remote host.
*
* `address` format is `[PROTO://]HOST:PORT`. `PROTO` could be `tcp` or `udp`.
* `HOST` could be an IP address,
* IPv6 address (if Fossa is compiled with `-DNS_ENABLE_IPV6`), or a host name.
* If `HOST` is a name, Fossa will resolve it asynchronously. Examples of
* valid addresses: `google.com:80`, `udp://1.2.3.4:53`, `10.0.0.1:443`,
* `[::1]:80`
*
* See the `ns_connect_opts` structure for a description of the optional
* parameters.
*
* Returns a new outbound connection, or `NULL` on error.
*
* NOTE: Connection remains owned by the manager, do not free().
*
* NOTE: To enable IPv6 addresses, `-DNS_ENABLE_IPV6` should be specified
* in the compilation flags.
*
* NOTE: New connection will receive `NS_CONNECT` as it's first event
* which will report connect success status.
* If asynchronous resolution fail, or `connect()` syscall fail for whatever
* reason (e.g. with `ECONNREFUSED` or `ENETUNREACH`), then `NS_CONNECT`
* event report failure. Code example below:
*
* [source,c]
* ----
* static void ev_handler(struct ns_connection *nc, int ev, void *ev_data) {
* int connect_status;
*
* switch (ev) {
* case NS_CONNECT:
* connect_status = * (int *) ev_data;
* if (connect_status == 0) {
* // Success
* } else {
* // Error
* printf("connect() error: %s\n", strerror(connect_status));
* }
* break;
* ...
* }
* }
*
* ...
* ns_connect(mgr, "my_site.com:80", ev_handler);
* ----
*/
struct ns_connection *ns_connect_opt(struct ns_mgr *, const char *,
ns_event_handler_t,
struct ns_connect_opts);
/*
* Enable SSL for a given connection.
* `cert` is a server certificate file name for a listening connection,
* or a client certificate file name for an outgoing connection.
* Certificate files must be in PEM format. Server certificate file
* must contain a certificate, concatenated with a private key, optionally
* concatenated with parameters.
* `ca_cert` is a CA certificate, or NULL if peer verification is not
* required.
* Return: NULL on success, or error message on error.
*/
const char *ns_set_ssl(struct ns_connection *nc, const char *cert,
const char *ca_cert);
/*
* Send data to the connection.
*
* Return number of written bytes. Note that sending
* functions do not actually push data to the socket. They just append data
* to the output buffer. The exception is UDP connections. For UDP, data is
* sent immediately, and returned value indicates an actual number of bytes
* sent to the socket.
*/
int ns_send(struct ns_connection *, const void *buf, int len);
/*
* Send `printf`-style formatted data to the connection.
*
* See `ns_send` for more details on send semantics.
*/
int ns_printf(struct ns_connection *, const char *fmt, ...);
/* Same as `ns_printf()`, but takes `va_list ap` as an argument. */
int ns_vprintf(struct ns_connection *, const char *fmt, va_list ap);
/*
* Create a socket pair.
* `sock_type` can be either `SOCK_STREAM` or `SOCK_DGRAM`.
* Return 0 on failure, 1 on success.
*/
int ns_socketpair(sock_t[2], int sock_type);
/*
* Convert domain name into IP address.
*
* This is a utility function. If compilation flags have
* `-DNS_ENABLE_GETADDRINFO`, then `getaddrinfo()` call is used for name
* resolution. Otherwise, `gethostbyname()` is used.
*
* CAUTION: this function can block.
* Return 1 on success, 0 on failure.
*/
int ns_resolve(const char *domain_name, char *ip_addr_buf, size_t buf_len);
/*
* Verify given IP address against the ACL.
*
* `remote_ip` - an IPv4 address to check, in host byte order
* `acl` - a comma separated list of IP subnets: `x.x.x.x/x` or `x.x.x.x`.
* Each subnet is
* prepended by either a - or a + sign. A plus sign means allow, where a
* minus sign means deny. If a subnet mask is omitted, such as `-1.2.3.4`,
* this means to deny only that single IP address.
* Subnet masks may vary from 0 to 32, inclusive. The default setting
* is to allow all accesses. On each request the full list is traversed,
* and the last match wins. Example:
*
* `-0.0.0.0/0,+192.168/16` - deny all acccesses, only allow 192.168/16 subnet
*
* To learn more about subnet masks, see the
* link:https://en.wikipedia.org/wiki/Subnetwork[Wikipedia page on Subnetwork]
*
* Return -1 if ACL is malformed, 0 if address is disallowed, 1 if allowed.
*/
int ns_check_ip_acl(const char *acl, uint32_t remote_ip);
/*
* Enable multi-threaded handling for the given listening connection `nc`.
* For each accepted connection, Mongoose will create a separate thread
* and run event handler in that thread. Thus, if an event hanler is doing
* a blocking call or some long computation, that will not slow down
* other connections.
*/
void ns_enable_multithreading(struct ns_connection *nc);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_NET_HEADER_INCLUDED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
/*
* === Utilities
*/
#ifndef NS_UTIL_HEADER_DEFINED
#define NS_UTIL_HEADER_DEFINED
#include
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
#ifndef MAX_PATH_SIZE
#define MAX_PATH_SIZE 500
#endif
/*
* Fetch substring from input string `s`, `end` into `v`.
* Skips initial delimiter characters. Records first non-delimiter character
* as the beginning of substring `v`. Then scans the rest of the string
* until a delimiter character or end-of-string is found.
* `delimiters` is a 0-terminated string containing delimiter characters.
* Either one of `delimiters` or `end_string` terminates the search.
* Return an `s` pointer, advanced forward where parsing stopped.
*/
const char *ns_skip(const char *s, const char *end_string,
const char *delimiters, struct ns_str *v);
/*
* Cross-platform version of `strncasecmp()`.
*/
int ns_ncasecmp(const char *s1, const char *s2, size_t len);
/*
* Cross-platform version of `strcasecmp()`.
*/
int ns_casecmp(const char *s1, const char *s2);
/*
* Cross-platform version of `strcmp()` where where first string is
* specified by `struct ns_str`.
*/
int ns_vcmp(const struct ns_str *str2, const char *str1);
/*
* Cross-platform version of `strncasecmp()` where first string is
* specified by `struct ns_str`.
*/
int ns_vcasecmp(const struct ns_str *str2, const char *str1);
/*
* Decode base64-encoded string `s`, `len` into the destination `dst`.
* Destination has to have enough space to hold decoded buffer.
* Decoding stops either when all string has been decoded, or invalid
* character appeared.
* Destination is '\0'-terminated.
* Return number of decoded characters. On success, that should be equal to
* `len`. On error (invalid character) the return value is smaller then `len`.
*/
int ns_base64_decode(const unsigned char *s, int len, char *dst);
/*
* Base64-encode chunk of memory `src`, `src_len` into the destination `dst`.
* Destination has to have enough space to hold encoded buffer.
* Destination is '\0'-terminated.
*/
void ns_base64_encode(const unsigned char *src, int src_len, char *dst);
#ifndef NS_DISABLE_FILESYSTEM
/*
* Perform a 64-bit `stat()` call against given file.
*
* `path` should be UTF8 encoded.
*
* Return value is the same as for `stat()` syscall.
*/
int ns_stat(const char *path, ns_stat_t *st);
/*
* Open the given file and return a file stream.
*
* `path` and `mode` should be UTF8 encoded.
*
* Return value is the same as for the `fopen()` call.
*/
FILE *ns_fopen(const char *path, const char *mode);
/*
* Open the given file and return a file stream.
*
* `path` should be UTF8 encoded.
*
* Return value is the same as for the `open()` syscall.
*/
int ns_open(const char *path, int flag, int mode);
#endif /* NS_DISABLE_FILESYSTEM */
#ifdef NS_ENABLE_THREADS
/*
* Start a new detached thread.
* Arguments and semantic is the same as pthead's `pthread_create()`.
* `thread_func` is a thread function, `thread_func_param` is a parameter
* that is passed to the thread function.
*/
void *ns_start_thread(void *(*thread_func)(void *), void *thread_func_param);
#endif
void ns_set_close_on_exec(sock_t);
#define NS_SOCK_STRINGIFY_IP 1
#define NS_SOCK_STRINGIFY_PORT 2
#define NS_SOCK_STRINGIFY_REMOTE 4
/*
* Convert socket's local or remote address into string.
*
* The `flags` parameter is a bit mask that controls the behavior,
* see `NS_SOCK_STRINGIFY_*` definitions.
*
* - NS_SOCK_STRINGIFY_IP - print IP address
* - NS_SOCK_STRINGIFY_PORT - print port number
* - NS_SOCK_STRINGIFY_REMOTE - print remote peer's IP/port, not local address
*
* If both port number and IP address are printed, they are separated by `:`.
* If compiled with `-DNS_ENABLE_IPV6`, IPv6 addresses are supported.
*/
void ns_sock_to_str(sock_t sock, char *buf, size_t len, int flags);
/*
* Convert socket's address into string.
*
* `flags` is NS_SOCK_STRINGIFY_IP and/or NS_SOCK_STRINGIFY_PORT.
*/
void ns_sock_addr_to_str(const union socket_address *sa, char *buf, size_t len,
int flags);
/*
* Generates human-readable hexdump of memory chunk.
*
* Takes a memory buffer `buf` of length `len` and creates a hex dump of that
* buffer in `dst`. Generated output is a-la hexdump(1).
* Return length of generated string, excluding terminating `\0`. If returned
* length is bigger than `dst_len`, overflow bytes are discarded.
*/
int ns_hexdump(const void *buf, int len, char *dst, int dst_len);
/*
* Generates human-readable hexdump of the data sent or received by connection.
* `path` is a file name where hexdump should be written. `num_bytes` is
* a number of bytes sent/received. `ev` is one of the `NS_*` events sent to
* an event handler. This function is supposed to be called from the
* event handler.
*/
void ns_hexdump_connection(struct ns_connection *nc, const char *path,
int num_bytes, int ev);
/*
* Print message to buffer. If buffer is large enough to hold the message,
* return buffer. If buffer is to small, allocate large enough buffer on heap,
* and return allocated buffer.
* This is a supposed use case:
*
* char buf[5], *p = buf;
* p = ns_avprintf(&p, sizeof(buf), "%s", "hi there");
* use_p_somehow(p);
* if (p != buf) {
* free(p);
* }
*
* The purpose of this is to avoid malloc-ing if generated strings are small.
*/
int ns_avprintf(char **buf, size_t size, const char *fmt, va_list ap);
/*
* Return true if target platform is big endian.
*/
int ns_is_big_endian(void);
/*
* A helper function for traversing a comma separated list of values.
* It returns a list pointer shifted to the next value, or NULL if the end
* of the list found.
* Value is stored in val vector. If value has form "x=y", then eq_val
* vector is initialized to point to the "y" part, and val vector length
* is adjusted to point only to "x".
* If list is just a comma separated list of entries, like "aa,bb,cc" then
* `eq_val` will contain zero-length string.
*
* The purpose of this function is to parse comma separated string without
* any copying/memory allocation.
*/
const char *ns_next_comma_list_entry(const char *list, struct ns_str *val,
struct ns_str *eq_val);
/*
* Match 0-terminated string against a glob pattern.
* Match is case-insensitive. Return number of bytes matched, or -1 if no match.
*/
int ns_match_prefix(const char *pattern, int pattern_len, const char *str);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_UTIL_HEADER_DEFINED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
/*
* === HTTP + Websocket
*/
#ifndef NS_HTTP_HEADER_DEFINED
#define NS_HTTP_HEADER_DEFINED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
#ifndef NS_MAX_HTTP_HEADERS
#define NS_MAX_HTTP_HEADERS 40
#endif
#ifndef NS_MAX_HTTP_REQUEST_SIZE
#define NS_MAX_HTTP_REQUEST_SIZE 8192
#endif
#ifndef NS_MAX_PATH
#define NS_MAX_PATH 1024
#endif
#ifndef NS_MAX_HTTP_SEND_IOBUF
#define NS_MAX_HTTP_SEND_IOBUF 4096
#endif
#ifndef NS_WEBSOCKET_PING_INTERVAL_SECONDS
#define NS_WEBSOCKET_PING_INTERVAL_SECONDS 5
#endif
#ifndef NS_CGI_ENVIRONMENT_SIZE
#define NS_CGI_ENVIRONMENT_SIZE 8192
#endif
#ifndef NS_MAX_CGI_ENVIR_VARS
#define NS_MAX_CGI_ENVIR_VARS 64
#endif
#ifndef NS_ENV_EXPORT_TO_CGI
#define NS_ENV_EXPORT_TO_CGI "FOSSA_CGI"
#endif
/* HTTP message */
struct http_message {
struct ns_str message; /* Whole message: request line + headers + body */
struct ns_str proto; /* "HTTP/1.1" -- for both request and response */
/* HTTP Request line (or HTTP response line) */
struct ns_str method; /* "GET" */
struct ns_str uri; /* "/my_file.html" */
/* For responses, code and response status message are set */
int resp_code;
struct ns_str resp_status_msg;
/*
* Query-string part of the URI. For example, for HTTP request
* GET /foo/bar?param1=val1¶m2=val2
* | uri | query_string |
*
* Note that question mark character doesn't belong neither to the uri,
* nor to the query_string
*/
struct ns_str query_string;
/* Headers */
struct ns_str header_names[NS_MAX_HTTP_HEADERS];
struct ns_str header_values[NS_MAX_HTTP_HEADERS];
/* Message body */
struct ns_str body; /* Zero-length for requests with no body */
};
struct websocket_message {
unsigned char *data;
size_t size;
unsigned char flags;
};
/* HTTP and websocket events. void *ev_data is described in a comment. */
#define NS_HTTP_REQUEST 100 /* struct http_message * */
#define NS_HTTP_REPLY 101 /* struct http_message * */
#define NS_HTTP_CHUNK 102 /* struct http_message * */
#define NS_SSI_CALL 105 /* char * */
#define NS_WEBSOCKET_HANDSHAKE_REQUEST 111 /* NULL */
#define NS_WEBSOCKET_HANDSHAKE_DONE 112 /* NULL */
#define NS_WEBSOCKET_FRAME 113 /* struct websocket_message * */
#define NS_WEBSOCKET_CONTROL_FRAME 114 /* struct websocket_message * */
/*
* Attach built-in HTTP event handler to the given connection.
* User-defined event handler will receive following extra events:
*
* - NS_HTTP_REQUEST: HTTP request has arrived. Parsed HTTP request is passed as
* `struct http_message` through the handler's `void *ev_data` pointer.
* - NS_HTTP_REPLY: HTTP reply has arrived. Parsed HTTP reply is passed as
* `struct http_message` through the handler's `void *ev_data` pointer.
* - NS_HTTP_CHUNK: HTTP chunked-encoding chunk has arrived.
* Parsed HTTP reply is passed as `struct http_message` through the
* handler's `void *ev_data` pointer. `http_message::body` would contain
* incomplete, reassembled HTTP body.
* It will grow with every new chunk arrived, and
* potentially can consume a lot of memory. An event handler may process
* the body as chunks are coming, and signal Fossa to delete processed
* body by setting `NSF_DELETE_CHUNK` in `ns_connection::flags`. When
* the last zero chunk is received, Fossa sends `NS_HTTP_REPLY` event will
* full reassembled body (if handler did not signal to delete chunks) or
* with empty body (if handler did signal to delete chunks).
* - NS_WEBSOCKET_HANDSHAKE_REQUEST: server has received websocket handshake
* request. `ev_data` contains parsed HTTP request.
* - NS_WEBSOCKET_HANDSHAKE_DONE: server has completed Websocket handshake.
* `ev_data` is `NULL`.
* - NS_WEBSOCKET_FRAME: new websocket frame has arrived. `ev_data` is
* `struct websocket_message *`
*/
void ns_set_protocol_http_websocket(struct ns_connection *nc);
/*
* Send websocket handshake to the server.
*
* `nc` must be a valid connection, connected to a server. `uri` is an URI
* to fetch, extra_headers` is extra HTTP headers to send or `NULL`.
*
* This function is intended to be used by websocket client.
*/
void ns_send_websocket_handshake(struct ns_connection *nc, const char *uri,
const char *extra_headers);
/*
* Send websocket frame to the remote end.
*
* `op` specifies frame's type , one of:
*
* - WEBSOCKET_OP_CONTINUE
* - WEBSOCKET_OP_TEXT
* - WEBSOCKET_OP_BINARY
* - WEBSOCKET_OP_CLOSE
* - WEBSOCKET_OP_PING
* - WEBSOCKET_OP_PONG
* `data` and `data_len` contain frame data.
*/
void ns_send_websocket_frame(struct ns_connection *nc, int op, const void *data,
size_t data_len);
/*
* Send multiple websocket frames.
*
* Like `ns_send_websocket_frame()`, but composes a frame from multiple buffers.
*/
void ns_send_websocket_framev(struct ns_connection *nc, int op,
const struct ns_str *strings, int num_strings);
/*
* Send websocket frame to the remote end.
*
* Like `ns_send_websocket_frame()`, but allows to create formatted message
* with `printf()`-like semantics.
*/
void ns_printf_websocket_frame(struct ns_connection *nc, int op,
const char *fmt, ...);
/*
* Send buffer `buf` of size `len` to the client using chunked HTTP encoding.
* This function first sends buffer size as hex number + newline, then
* buffer itself, then newline. For example,
* `ns_send_http_chunk(nc, "foo", 3)` whill append `3\r\nfoo\r\n` string to
* the `nc->send_mbuf` output IO buffer.
*
* NOTE: HTTP header "Transfer-Encoding: chunked" should be sent prior to
* using this function.
*
* NOTE: do not forget to send empty chunk at the end of the response,
* to tell the client that everything was sent. Example:
*
* ```
* ns_printf_http_chunk(nc, "%s", "my response!");
* ns_send_http_chunk(nc, "", 0); // Tell the client we're finished
* ```
*/
void ns_send_http_chunk(struct ns_connection *nc, const char *buf, size_t len);
/*
* Send printf-formatted HTTP chunk.
* Functionality is similar to `ns_send_http_chunk()`.
*/
void ns_printf_http_chunk(struct ns_connection *, const char *, ...);
/*
* Send printf-formatted HTTP chunk, escaping HTML tags.
*/
void ns_printf_html_escape(struct ns_connection *, const char *, ...);
/* Websocket opcodes, from http://tools.ietf.org/html/rfc6455 */
#define WEBSOCKET_OP_CONTINUE 0
#define WEBSOCKET_OP_TEXT 1
#define WEBSOCKET_OP_BINARY 2
#define WEBSOCKET_OP_CLOSE 8
#define WEBSOCKET_OP_PING 9
#define WEBSOCKET_OP_PONG 10
/*
* Parse a HTTP message.
*
* `is_req` should be set to 1 if parsing request, 0 if reply.
*
* Return number of bytes parsed. If HTTP message is
* incomplete, `0` is returned. On parse error, negative number is returned.
*/
int ns_parse_http(const char *s, int n, struct http_message *hm, int is_req);
/*
* Search and return header `name` in parsed HTTP message `hm`.
* If header is not found, NULL is returned. Example:
*
* struct ns_str *host_hdr = ns_get_http_header(hm, "Host");
*/
struct ns_str *ns_get_http_header(struct http_message *hm, const char *name);
/*
* Parse HTTP header `hdr`. Find variable `var_name` and store it's value
* in the buffer `buf`, `buf_size`. Return 0 if variable not found, non-zero
* otherwise.
*
* This function is supposed to parse
* cookies, authentication headers, etcetera. Example (error handling omitted):
*
* char user[20];
* struct ns_str *hdr = ns_get_http_header(hm, "Authorization");
* ns_http_parse_header(hdr, "username", user, sizeof(user));
*
* Return length of the variable's value. If buffer is not large enough,
* or variable not found, 0 is returned.
*/
int ns_http_parse_header(struct ns_str *hdr, const char *var_name, char *buf,
size_t buf_size);
/*
* Parse buffer `buf`, `buf_len` that contains multipart form data chunks.
* Store chunk name in a `var_name`, `var_name_len` buffer.
* If a chunk is an uploaded file, then `file_name`, `file_name_len` is
* filled with an uploaded file name. `chunk`, `chunk_len`
* points to the chunk data.
*
* Return: number of bytes to skip to the next chunk, or 0 if there are
* no more chunks.
*
* Usage example:
*
* static void ev_handler(struct ns_connection *nc, int ev, void *ev_data) {
* switch(ev) {
* case NS_HTTP_REQUEST: {
* struct http_message *hm = (struct http_message *) ev_data;
* char var_name[100], file_name[100];
* const char *chunk;
* size_t chunk_len, n1, n2;
*
* n1 = n2 = 0;
* while ((n2 = ns_parse_multipart(hm->body.p + n1,
* hm->body.len - n1,
* var_name, sizeof(var_name),
* file_name, sizeof(file_name),
* &chunk, &chunk_len)) > 0) {
* printf("var: %s, file_name: %s, size: %d, chunk: [%.*s]\n",
* var_name, file_name, (int) chunk_len,
* (int) chunk_len, chunk);
* n1 += n2;
* }
* }
* break;
*
*/
size_t ns_parse_multipart(const char *buf, size_t buf_len, char *var_name,
size_t var_name_len, char *file_name,
size_t file_name_len, const char **chunk,
size_t *chunk_len);
/*
* Fetch an HTTP form variable.
*
* Fetch a variable `name` from a `buf` into a buffer specified by
* `dst`, `dst_len`. Destination is always zero-terminated. Return length
* of a fetched variable. If not found, 0 is returned. `buf` must be
* valid url-encoded buffer. If destination is too small, `-1` is returned.
*/
int ns_get_http_var(const struct ns_str *, const char *, char *dst, size_t);
/* Create Digest authentication header for client request. */
int ns_http_create_digest_auth_header(char *buf, size_t buf_len,
const char *method, const char *uri,
const char *auth_domain, const char *user,
const char *passwd);
/*
* Helper function that creates outbound HTTP connection.
*
* `url` is a URL to fetch. It must be properly URL-encoded, e.g. have
* no spaces, etc. By default, `ns_connect_http()` sends Connection and
* Host headers. `extra_headers` is an extra HTTP headers to send, e.g.
* `"User-Agent: my-app\r\n"`.
* If `post_data` is NULL, then GET request is created. Otherwise, POST request
* is created with the specified POST data. Examples:
*
* [source,c]
* ----
* nc1 = ns_connect_http(mgr, ev_handler_1, "http://www.google.com", NULL,
* NULL);
* nc2 = ns_connect_http(mgr, ev_handler_1, "https://github.com", NULL, NULL);
* nc3 = ns_connect_http(mgr, ev_handler_1, "my_server:8000/form_submit/",
* NULL, "var_1=value_1&var_2=value_2");
* ----
*/
struct ns_connection *ns_connect_http(struct ns_mgr *,
ns_event_handler_t event_handler,
const char *url,
const char *extra_headers,
const char *post_data);
/*
* This structure defines how `ns_serve_http()` works.
* Best practice is to set only required settings, and leave the rest as NULL.
*/
struct ns_serve_http_opts {
/* Path to web root directory */
const char *document_root;
/* List of index files. Default is "" */
const char *index_files;
/*
* Leave as NULL to disable authentication.
* To enable directory protection with authentication, set this to ".htpasswd"
* Then, creating ".htpasswd" file in any directory automatically protects
* it with digest authentication.
* Use `mongoose` web server binary, or `htdigest` Apache utility to
* create/manipulate passwords file.
* Make sure `auth_domain` is set to a valid domain name.
*/
const char *per_directory_auth_file;
/* Authorization domain (domain name of this web server) */
const char *auth_domain;
/*
* Leave as NULL to disable authentication.
* Normally, only selected directories in the document root are protected.
* If absolutely every access to the web server needs to be authenticated,
* regardless of the URI, set this option to the path to the passwords file.
* Format of that file is the same as ".htpasswd" file. Make sure that file
* is located outside document root to prevent people fetching it.
*/
const char *global_auth_file;
/* Set to "no" to disable directory listing. Enabled by default. */
const char *enable_directory_listing;
/* SSI files pattern. If not set, "**.shtml$|**.shtm$" is used. */
const char *ssi_pattern;
/* IP ACL. By default, NULL, meaning all IPs are allowed to connect */
const char *ip_acl;
/* URL rewrites.
*
* Comma-separated list of `uri_pattern=file_or_directory_path` rewrites.
* When HTTP request is received, Fossa constructs a file name from the
* requested URI by combining `document_root` and the URI. However, if the
* rewrite option is used and `uri_pattern` matches requested URI, then
* `document_root` is ignored. Instead, `file_or_directory_path` is used,
* which should be a full path name or a path relative to the web server's
* current working directory. Note that `uri_pattern`, as all Fossa patterns,
* is a prefix pattern.
*
* If uri_pattern starts with `@` symbol, then Fossa compares it with the
* HOST header of the request. If they are equal, Fossa sets document root
* to `file_or_directory_path`, implementing virtual hosts support.
*/
const char *url_rewrites;
/* DAV document root. If NULL, DAV requests are going to fail. */
const char *dav_document_root;
/* Glob pattern for the files to hide. */
const char *hidden_file_pattern;
/* Set to non-NULL to enable CGI, e.g. **.cgi$|**.php$" */
const char *cgi_file_pattern;
/* If not NULL, ignore CGI script hashbang and use this interpreter */
const char *cgi_interpreter;
/*
* Comma-separated list of Content-Type overrides for path suffixes, e.g.
* ".txt=text/plain; charset=utf-8,.c=text/plain"
*/
const char *custom_mime_types;
};
/*
* Serve given HTTP request according to the `options`.
*
* Example code snippet:
*
* [source,c]
* .web_server.c
* ----
* static void ev_handler(struct ns_connection *nc, int ev, void *ev_data) {
* struct http_message *hm = (struct http_message *) ev_data;
* struct ns_serve_http_opts opts = { .document_root = "/var/www" }; // C99
*
* switch (ev) {
* case NS_HTTP_REQUEST:
* ns_serve_http(nc, hm, opts);
* break;
* default:
* break;
* }
* }
* ----
*/
void ns_serve_http(struct ns_connection *, struct http_message *,
struct ns_serve_http_opts);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_HTTP_HEADER_DEFINED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
/*
* === JSON-RPC
*/
#ifndef NS_JSON_RPC_HEADER_DEFINED
#define NS_JSON_RPC_HEADER_DEFINED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/* JSON-RPC request */
struct ns_rpc_request {
struct json_token *message; /* Whole RPC message */
struct json_token *id; /* Message ID */
struct json_token *method; /* Method name */
struct json_token *params; /* Method params */
};
/* JSON-RPC response */
struct ns_rpc_reply {
struct json_token *message; /* Whole RPC message */
struct json_token *id; /* Message ID */
struct json_token *result; /* Remote call result */
};
/* JSON-RPC error */
struct ns_rpc_error {
struct json_token *message; /* Whole RPC message */
struct json_token *id; /* Message ID */
struct json_token *error_code; /* error.code */
struct json_token *error_message; /* error.message */
struct json_token *error_data; /* error.data, can be NULL */
};
/*
* Parse JSON-RPC reply contained in `buf`, `len` into JSON tokens array
* `toks`, `max_toks`. If buffer contains valid reply, `reply` structure is
* populated. The result of RPC call is located in `reply.result`. On error,
* `error` structure is populated. Returns: the result of calling
* `parse_json(buf, len, toks, max_toks)`:
*
* On success, an offset inside `json_string` is returned
* where parsing has finished. On failure, a negative number is
* returned, one of:
*
* - #define JSON_STRING_INVALID -1
* - #define JSON_STRING_INCOMPLETE -2
* - #define JSON_TOKEN_ARRAY_TOO_SMALL -3
*/
int ns_rpc_parse_reply(const char *buf, int len, struct json_token *toks,
int max_toks, struct ns_rpc_reply *,
struct ns_rpc_error *);
/*
* Create JSON-RPC request in a given buffer.
*
* Return length of the request, which
* can be larger then `len` that indicates an overflow.
* `params_fmt` format string should conform to `json_emit()` API,
* see https://github.com/cesanta/frozen
*/
int ns_rpc_create_request(char *buf, int len, const char *method,
const char *id, const char *params_fmt, ...);
/*
* Create JSON-RPC reply in a given buffer.
*
* Return length of the reply, which
* can be larger then `len` that indicates an overflow.
* `result_fmt` format string should conform to `json_emit()` API,
* see https://github.com/cesanta/frozen
*/
int ns_rpc_create_reply(char *buf, int len, const struct ns_rpc_request *req,
const char *result_fmt, ...);
/*
* Create JSON-RPC error reply in a given buffer.
*
* Return length of the error, which
* can be larger then `len` that indicates an overflow.
* `fmt` format string should conform to `json_emit()` API,
* see https://github.com/cesanta/frozen
*/
int ns_rpc_create_error(char *buf, int len, struct ns_rpc_request *req,
int code, const char *message, const char *fmt, ...);
/* JSON-RPC standard error codes */
#define JSON_RPC_PARSE_ERROR (-32700)
#define JSON_RPC_INVALID_REQUEST_ERROR (-32600)
#define JSON_RPC_METHOD_NOT_FOUND_ERROR (-32601)
#define JSON_RPC_INVALID_PARAMS_ERROR (-32602)
#define JSON_RPC_INTERNAL_ERROR (-32603)
#define JSON_RPC_SERVER_ERROR (-32000)
/*
* Create JSON-RPC error in a given buffer.
*
* Return length of the error, which
* can be larger then `len` that indicates an overflow. See
* JSON_RPC_*_ERROR definitions for standard error values:
*
* - #define JSON_RPC_PARSE_ERROR (-32700)
* - #define JSON_RPC_INVALID_REQUEST_ERROR (-32600)
* - #define JSON_RPC_METHOD_NOT_FOUND_ERROR (-32601)
* - #define JSON_RPC_INVALID_PARAMS_ERROR (-32602)
* - #define JSON_RPC_INTERNAL_ERROR (-32603)
* - #define JSON_RPC_SERVER_ERROR (-32000)
*/
int ns_rpc_create_std_error(char *, int, struct ns_rpc_request *, int code);
typedef int (*ns_rpc_handler_t)(char *buf, int len, struct ns_rpc_request *);
/*
* Dispatches a JSON-RPC request.
*
* Parses JSON-RPC request contained in `buf`, `len`.
* Then, dispatches the request to the correct handler method.
* Valid method names should be specified in NULL
* terminated array `methods`, and corresponding handlers in `handlers`.
* Result is put in `dst`, `dst_len`. Return: length of the result, which
* can be larger then `dst_len` that indicates an overflow.
* Overflown bytes are not written to the buffer.
* If method is not found, an error is automatically generated.
*/
int ns_rpc_dispatch(const char *buf, int, char *dst, int dst_len,
const char **methods, ns_rpc_handler_t *handlers);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_JSON_RPC_HEADER_DEFINED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
* This software is dual-licensed: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. For the terms of this
* license, see .
*
* You are free to use this software under the terms of the GNU General
* Public License, 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.
*
* Alternatively, you can license this software under a commercial
* license, as set out in .
*/
/*
* === MQTT
*/
#ifndef NS_MQTT_HEADER_INCLUDED
#define NS_MQTT_HEADER_INCLUDED
struct ns_mqtt_message {
int cmd;
struct ns_str payload;
int qos;
uint8_t connack_ret_code; /* connack */
uint16_t message_id; /* puback */
char *topic;
};
struct ns_mqtt_topic_expression {
const char *topic;
uint8_t qos;
};
struct ns_send_mqtt_handshake_opts {
unsigned char flags; /* connection flags */
uint16_t keep_alive;
const char *will_topic;
const char *will_message;
const char *user_name;
const char *password;
};
/* Message types */
#define NS_MQTT_CMD_CONNECT 1
#define NS_MQTT_CMD_CONNACK 2
#define NS_MQTT_CMD_PUBLISH 3
#define NS_MQTT_CMD_PUBACK 4
#define NS_MQTT_CMD_PUBREC 5
#define NS_MQTT_CMD_PUBREL 6
#define NS_MQTT_CMD_PUBCOMP 7
#define NS_MQTT_CMD_SUBSCRIBE 8
#define NS_MQTT_CMD_SUBACK 9
#define NS_MQTT_CMD_UNSUBSCRIBE 10
#define NS_MQTT_CMD_UNSUBACK 11
#define NS_MQTT_CMD_PINGREQ 12
#define NS_MQTT_CMD_PINGRESP 13
#define NS_MQTT_CMD_DISCONNECT 14
/* MQTT event types */
#define NS_MQTT_EVENT_BASE 200
#define NS_MQTT_CONNECT (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_CONNECT)
#define NS_MQTT_CONNACK (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_CONNACK)
#define NS_MQTT_PUBLISH (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_PUBLISH)
#define NS_MQTT_PUBACK (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_PUBACK)
#define NS_MQTT_PUBREC (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_PUBREC)
#define NS_MQTT_PUBREL (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_PUBREL)
#define NS_MQTT_PUBCOMP (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_PUBCOMP)
#define NS_MQTT_SUBSCRIBE (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_SUBSCRIBE)
#define NS_MQTT_SUBACK (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_SUBACK)
#define NS_MQTT_UNSUBSCRIBE (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_UNSUBSCRIBE)
#define NS_MQTT_UNSUBACK (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_UNSUBACK)
#define NS_MQTT_PINGREQ (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_PINGREQ)
#define NS_MQTT_PINGRESP (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_PINGRESP)
#define NS_MQTT_DISCONNECT (NS_MQTT_EVENT_BASE + NS_MQTT_CMD_DISCONNECT)
/* Message flags */
#define NS_MQTT_RETAIN 0x1
#define NS_MQTT_DUP 0x4
#define NS_MQTT_QOS(qos) ((qos) << 1)
#define NS_MQTT_GET_QOS(flags) (((flags) &0x6) >> 1)
#define NS_MQTT_SET_QOS(flags, qos) (flags) = ((flags) & ~0x6) | ((qos) << 1)
/* Connection flags */
#define NS_MQTT_CLEAN_SESSION 0x02
#define NS_MQTT_HAS_WILL 0x04
#define NS_MQTT_WILL_RETAIN 0x20
#define NS_MQTT_HAS_PASSWORD 0x40
#define NS_MQTT_HAS_USER_NAME 0x80
#define NS_MQTT_GET_WILL_QOS(flags) (((flags) &0x18) >> 3)
#define NS_MQTT_SET_WILL_QOS(flags, qos) \
(flags) = ((flags) & ~0x18) | ((qos) << 3)
/* CONNACK return codes */
#define NS_MQTT_CONNACK_ACCEPTED 0
#define NS_MQTT_CONNACK_UNACCEPTABLE_VERSION 1
#define NS_MQTT_CONNACK_IDENTIFIER_REJECTED 2
#define NS_MQTT_CONNACK_SERVER_UNAVAILABLE 3
#define NS_MQTT_CONNACK_BAD_AUTH 4
#define NS_MQTT_CONNACK_NOT_AUTHORIZED 5
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/*
* Attach built-in MQTT event handler to the given connection.
*
* The user-defined event handler will receive following extra events:
*
* - NS_MQTT_CONNACK
* - NS_MQTT_PUBLISH
* - NS_MQTT_PUBACK
* - NS_MQTT_PUBREC
* - NS_MQTT_PUBREL
* - NS_MQTT_PUBCOMP
* - NS_MQTT_SUBACK
*/
void ns_set_protocol_mqtt(struct ns_connection *);
/* Send MQTT handshake. */
void ns_send_mqtt_handshake(struct ns_connection *nc, const char *client_id);
/* Send MQTT handshake with optional parameters. */
void ns_send_mqtt_handshake_opt(struct ns_connection *, const char *client_id,
struct ns_send_mqtt_handshake_opts);
/* Publish a message to a given topic. */
void ns_mqtt_publish(struct ns_connection *nc, const char *topic,
uint16_t message_id, int flags, const void *data,
size_t len);
/* Subscribe to a bunch of topics. */
void ns_mqtt_subscribe(struct ns_connection *nc,
const struct ns_mqtt_topic_expression *topics,
size_t topics_len, uint16_t message_id);
/* Unsubscribe from a bunch of topics. */
void ns_mqtt_unsubscribe(struct ns_connection *nc, char **topics,
size_t topics_len, uint16_t message_id);
/* Send a DISCONNECT command. */
void ns_mqtt_disconnect(struct ns_connection *nc);
/* Send a CONNACK command with a given `return_code`. */
void ns_mqtt_connack(struct ns_connection *, uint8_t);
/* Send a PUBACK command with a given `message_id`. */
void ns_mqtt_puback(struct ns_connection *, uint16_t);
/* Send a PUBREC command with a given `message_id`. */
void ns_mqtt_pubrec(struct ns_connection *, uint16_t);
/* Send a PUBREL command with a given `message_id`. */
void ns_mqtt_pubrel(struct ns_connection *, uint16_t);
/* Send a PUBCOMP command with a given `message_id`. */
void ns_mqtt_pubcomp(struct ns_connection *, uint16_t);
/*
* Send a SUBACK command with a given `message_id`
* and a sequence of granted QoSs.
*/
void ns_mqtt_suback(struct ns_connection *, uint8_t *, size_t, uint16_t);
/* Send a UNSUBACK command with a given `message_id`. */
void ns_mqtt_unsuback(struct ns_connection *, uint16_t);
/* Send a PINGREQ command. */
void ns_mqtt_ping(struct ns_connection *);
/* Send a PINGRESP command. */
void ns_mqtt_pong(struct ns_connection *);
/*
* Extract the next topic expression from a SUBSCRIBE command payload.
*
* Topic expression name will point to a string in the payload buffer.
* Return the pos of the next topic expression or -1 when the list
* of topics is exhausted.
*/
int ns_mqtt_next_subscribe_topic(struct ns_mqtt_message *, struct ns_str *,
uint8_t *, int);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_MQTT_HEADER_INCLUDED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
* This software is dual-licensed: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. For the terms of this
* license, see .
*
* You are free to use this software under the terms of the GNU General
* Public License, 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.
*
* Alternatively, you can license this software under a commercial
* license, as set out in .
*/
/*
* === MQTT Broker
*/
#ifndef NS_MQTT_BROKER_HEADER_INCLUDED
#define NS_MQTT_BROKER_HEADER_INCLUDED
#ifdef NS_ENABLE_MQTT_BROKER
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
#define NS_MQTT_MAX_SESSION_SUBSCRIPTIONS 512;
struct ns_mqtt_broker;
/* MQTT session (Broker side). */
struct ns_mqtt_session {
struct ns_mqtt_broker *brk; /* Broker */
struct ns_mqtt_session *next, *prev; /* ns_mqtt_broker::sessions linkage */
struct ns_connection *nc; /* Connection with the client */
size_t num_subscriptions; /* Size of `subscriptions` array */
struct ns_mqtt_topic_expression *subscriptions;
void *user_data; /* User data */
};
/* MQTT broker. */
struct ns_mqtt_broker {
struct ns_mqtt_session *sessions; /* Session list */
void *user_data; /* User data */
};
/* Initialize a MQTT broker. */
void ns_mqtt_broker_init(struct ns_mqtt_broker *, void *);
/*
* Process a MQTT broker message.
*
* Listening connection expects a pointer to an initialized `ns_mqtt_broker`
* structure in the `user_data` field.
*
* Basic usage:
*
* [source,c]
* -----
* ns_mqtt_broker_init(&brk, NULL);
*
* if ((nc = ns_bind(&mgr, address, ns_mqtt_broker)) == NULL) {
* // fail;
* }
* nc->user_data = &brk;
* -----
*
* New incoming connections will receive a `ns_mqtt_session` structure
* in the connection `user_data`. The original `user_data` will be stored
* in the `user_data` field of the session structure. This allows the user
* handler to store user data before `ns_mqtt_broker` creates the session.
*
* Since only the NS_ACCEPT message is processed by the listening socket,
* for most events the `user_data` will thus point to a `ns_mqtt_session`.
*/
void ns_mqtt_broker(struct ns_connection *, int, void *);
/*
* Iterate over all mqtt sessions connections. Example:
*
* struct ns_mqtt_session *s;
* for (s = ns_mqtt_next(brk, NULL); s != NULL; s = ns_mqtt_next(brk, s)) {
* // Do something
* }
*/
struct ns_mqtt_session *ns_mqtt_next(struct ns_mqtt_broker *,
struct ns_mqtt_session *);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_ENABLE_MQTT_BROKER */
#endif /* NS_MQTT_HEADER_INCLUDED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
/*
* === DNS
*/
#ifndef NS_DNS_HEADER_DEFINED
#define NS_DNS_HEADER_DEFINED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
#define NS_DNS_A_RECORD 0x01 /* Lookup IP address */
#define NS_DNS_CNAME_RECORD 0x05 /* Lookup CNAME */
#define NS_DNS_AAAA_RECORD 0x1c /* Lookup IPv6 address */
#define NS_DNS_MX_RECORD 0x0f /* Lookup mail server for domain */
#define NS_MAX_DNS_QUESTIONS 32
#define NS_MAX_DNS_ANSWERS 32
#define NS_DNS_MESSAGE 100 /* High-level DNS message event */
enum ns_dns_resource_record_kind {
NS_DNS_INVALID_RECORD = 0,
NS_DNS_QUESTION,
NS_DNS_ANSWER
};
/* DNS resource record. */
struct ns_dns_resource_record {
struct ns_str name; /* buffer with compressed name */
int rtype;
int rclass;
int ttl;
enum ns_dns_resource_record_kind kind;
struct ns_str rdata; /* protocol data (can be a compressed name) */
};
/* DNS message (request and response). */
struct ns_dns_message {
struct ns_str pkt; /* packet body */
uint16_t flags;
uint16_t transaction_id;
int num_questions;
int num_answers;
struct ns_dns_resource_record questions[NS_MAX_DNS_QUESTIONS];
struct ns_dns_resource_record answers[NS_MAX_DNS_ANSWERS];
};
struct ns_dns_resource_record *ns_dns_next_record(
struct ns_dns_message *, int, struct ns_dns_resource_record *);
/*
* Parse the record data from a DNS resource record.
*
* - A: struct in_addr *ina
* - AAAA: struct in6_addr *ina
* - CNAME: char buffer
*
* Returns -1 on error.
*
* TODO(mkm): MX
*/
int ns_dns_parse_record_data(struct ns_dns_message *,
struct ns_dns_resource_record *, void *, size_t);
/*
* Send a DNS query to the remote end.
*/
void ns_send_dns_query(struct ns_connection *, const char *, int);
/*
* Insert a DNS header to an IO buffer.
*
* Return number of bytes inserted.
*/
int ns_dns_insert_header(struct mbuf *, size_t, struct ns_dns_message *);
/*
* Append already encoded body from an existing message.
*
* This is useful when generating a DNS reply message which includes
* all question records.
*
* Return number of appened bytes.
*/
int ns_dns_copy_body(struct mbuf *, struct ns_dns_message *);
/*
* Encode and append a DNS resource record to an IO buffer.
*
* The record metadata is taken from the `rr` parameter, while the name and data
* are taken from the parameters, encoded in the appropriate format depending on
* record type, and stored in the IO buffer. The encoded values might contain
* offsets within the IO buffer. It's thus important that the IO buffer doesn't
* get trimmed while a sequence of records are encoded while preparing a DNS
*reply.
*
* This function doesn't update the `name` and `rdata` pointers in the `rr`
*struct
* because they might be invalidated as soon as the IO buffer grows again.
*
* Return the number of bytes appened or -1 in case of error.
*/
int ns_dns_encode_record(struct mbuf *, struct ns_dns_resource_record *,
const char *, size_t, const void *, size_t);
/* Low-level: parses a DNS response. */
int ns_parse_dns(const char *, int, struct ns_dns_message *);
/*
* Uncompress a DNS compressed name.
*
* The containing dns message is required because the compressed encoding
* and reference suffixes present elsewhere in the packet.
*
* If name is less than `dst_len` characters long, the remainder
* of `dst` is terminated with `\0' characters. Otherwise, `dst` is not
*terminated.
*
* If `dst_len` is 0 `dst` can be NULL.
* Return the uncompressed name length.
*/
size_t ns_dns_uncompress_name(struct ns_dns_message *, struct ns_str *, char *,
int);
/*
* Attach built-in DNS event handler to the given listening connection.
*
* DNS event handler parses incoming UDP packets, treating them as DNS
* requests. If incoming packet gets successfully parsed by the DNS event
* handler, a user event handler will receive `NS_DNS_REQUEST` event, with
* `ev_data` pointing to the parsed `struct ns_dns_message`.
*
* See
* https://github.com/cesanta/fossa/tree/master/examples/captive_dns_server[captive_dns_server]
* example on how to handle DNS request and send DNS reply.
*/
void ns_set_protocol_dns(struct ns_connection *);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_HTTP_HEADER_DEFINED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
/*
* === DNS server
*
* Disabled by default; enable with `-DNS_ENABLE_DNS_SERVER`.
*/
#ifndef NS_DNS_SERVER_HEADER_DEFINED
#define NS_DNS_SERVER_HEADER_DEFINED
#ifdef NS_ENABLE_DNS_SERVER
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
#define NS_DNS_SERVER_DEFAULT_TTL 3600
struct ns_dns_reply {
struct ns_dns_message *msg;
struct mbuf *io;
size_t start;
};
/*
* Create a DNS reply.
*
* The reply will be based on an existing query message `msg`.
* The query body will be appended to the output buffer.
* "reply + recursion allowed" will be added to the message flags and
* message's num_answers will be set to 0.
*
* Answer records can be appended with `ns_dns_send_reply` or by lower
* level function defined in the DNS API.
*
* In order to send the reply use `ns_dns_send_reply`.
* It's possible to use a connection's send buffer as reply buffers,
* and it will work for both UDP and TCP connections.
*
* Example:
*
* [source,c]
* -----
* reply = ns_dns_create_reply(&nc->send_mbuf, msg);
* for (i = 0; i < msg->num_questions; i++) {
* rr = &msg->questions[i];
* if (rr->rtype == NS_DNS_A_RECORD) {
* ns_dns_reply_record(&reply, rr, 3600, &dummy_ip_addr, 4);
* }
* }
* ns_dns_send_reply(nc, &reply);
* -----
*/
struct ns_dns_reply ns_dns_create_reply(struct mbuf *, struct ns_dns_message *);
/*
* Append a DNS reply record to the IO buffer and to the DNS message.
*
* The message num_answers field will be incremented. It's caller's duty
* to ensure num_answers is propertly initialized.
*
* Returns -1 on error.
*/
int ns_dns_reply_record(struct ns_dns_reply *, struct ns_dns_resource_record *,
const char *, int, int, const void *, size_t);
/*
* Send a DNS reply through a connection.
*
* The DNS data is stored in an IO buffer pointed by reply structure in `r`.
* This function mutates the content of that buffer in order to ensure that
* the DNS header reflects size and flags of the mssage, that might have been
* updated either with `ns_dns_reply_record` or by direct manipulation of
* `r->message`.
*
* Once sent, the IO buffer will be trimmed unless the reply IO buffer
* is the connection's send buffer and the connection is not in UDP mode.
*/
int ns_dns_send_reply(struct ns_connection *, struct ns_dns_reply *);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_ENABLE_DNS_SERVER */
#endif /* NS_HTTP_HEADER_DEFINED */
/*
* Copyright (c) 2014 Cesanta Software Limited
* All rights reserved
*/
/*
* === Asynchronouns DNS resolver
*/
#ifndef NS_RESOLV_HEADER_DEFINED
#define NS_RESOLV_HEADER_DEFINED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
typedef void (*ns_resolve_callback_t)(struct ns_dns_message *, void *);
/* Options for `ns_resolve_async_opt`. */
struct ns_resolve_async_opts {
const char *nameserver_url;
int max_retries; /* defaults to 2 if zero */
int timeout; /* in seconds; defaults to 5 if zero */
int accept_literal; /* pseudo-resolve literal ipv4 and ipv6 addrs */
int only_literal; /* only resolves literal addrs; sync cb invocation */
};
/* See `ns_resolve_async_opt()` */
int ns_resolve_async(struct ns_mgr *, const char *, int, ns_resolve_callback_t,
void *data);
/*
* Resolved a DNS name asynchronously.
*
* Upon successful resolution, the user callback will be invoked
* with the full DNS response message and a pointer to the user's
* context `data`.
*
* In case of timeout while performing the resolution the callback
* will receive a NULL `msg`.
*
* The DNS answers can be extracted with `ns_next_record` and
* `ns_dns_parse_record_data`:
*
* [source,c]
* ----
* struct in_addr ina;
* struct ns_dns_resource_record *rr = ns_next_record(msg, NS_DNS_A_RECORD,
* NULL);
* ns_dns_parse_record_data(msg, rr, &ina, sizeof(ina));
* ----
*/
int ns_resolve_async_opt(struct ns_mgr *, const char *, int,
ns_resolve_callback_t, void *data,
struct ns_resolve_async_opts opts);
/*
* Resolve a name from `/etc/hosts`.
*
* Returns 0 on success, -1 on failure.
*/
int ns_resolve_from_hosts_file(const char *host, union socket_address *usa);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_RESOLV_HEADER_DEFINED */
/*
* Copyright (c) 2015 Cesanta Software Limited
* All rights reserved
* This software is dual-licensed: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. For the terms of this
* license, see .
*
* You are free to use this software under the terms of the GNU General
* Public License, 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.
*
* Alternatively, you can license this software under a commercial
* license, as set out in .
*/
/*
* === CoAP
*
* CoAP message format:
*
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
* |Ver| T | TKL | Code | Message ID | Token (if any, TKL bytes) ...
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
* | Options (if any) ... |1 1 1 1 1 1 1 1| Payload (if any) ...
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
*/
#ifndef NS_COAP_HEADER_INCLUDED
#define NS_COAP_HEADER_INCLUDED
#ifdef NS_ENABLE_COAP
#define NS_COAP_MSG_TYPE_FIELD 0x2
#define NS_COAP_CODE_CLASS_FIELD 0x4
#define NS_COAP_CODE_DETAIL_FIELD 0x8
#define NS_COAP_MSG_ID_FIELD 0x10
#define NS_COAP_TOKEN_FIELD 0x20
#define NS_COAP_OPTIONS_FIELD 0x40
#define NS_COAP_PAYLOAD_FIELD 0x80
#define NS_COAP_ERROR 0x10000
#define NS_COAP_FORMAT_ERROR (NS_COAP_ERROR | 0x20000)
#define NS_COAP_IGNORE (NS_COAP_ERROR | 0x40000)
#define NS_COAP_NOT_ENOUGH_DATA (NS_COAP_ERROR | 0x80000)
#define NS_COAP_NETWORK_ERROR (NS_COAP_ERROR | 0x100000)
#define NS_COAP_MSG_CON 0
#define NS_COAP_MSG_NOC 1
#define NS_COAP_MSG_ACK 2
#define NS_COAP_MSG_RST 3
#define NS_COAP_MSG_MAX 3
#define NS_COAP_CODECLASS_REQUEST 0
#define NS_COAP_CODECLASS_RESP_OK 2
#define NS_COAP_CODECLASS_CLIENT_ERR 4
#define NS_COAP_CODECLASS_SRV_ERR 5
#define NS_COAP_EVENT_BASE 300
#define NS_COAP_CON (NS_COAP_EVENT_BASE + NS_COAP_MSG_CON)
#define NS_COAP_NOC (NS_COAP_EVENT_BASE + NS_COAP_MSG_NOC)
#define NS_COAP_ACK (NS_COAP_EVENT_BASE + NS_COAP_MSG_ACK)
#define NS_COAP_RST (NS_COAP_EVENT_BASE + NS_COAP_MSG_RST)
/*
* CoAP options.
* Use ns_coap_add_option and ns_coap_free_options
* for creation and destruction.
*/
struct ns_coap_option {
struct ns_coap_option *next;
uint32_t number;
struct ns_str value;
};
/* CoAP message. See RFC 7252 for details. */
struct ns_coap_message {
uint32_t flags;
uint8_t msg_type;
uint8_t code_class;
uint8_t code_detail;
uint16_t msg_id;
struct ns_str token;
struct ns_coap_option *options;
struct ns_str payload;
struct ns_coap_option *options_tail;
};
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/* Set CoAP protocol handler - trigger CoAP specific events */
int ns_set_protocol_coap(struct ns_connection *nc);
/*
* Add new option to ns_coap_message structure.
* Returns pointer to the newly created option.
*/
struct ns_coap_option *ns_coap_add_option(struct ns_coap_message *cm,
uint32_t number, char *value,
size_t len);
/*
* Free the memory allocated for options,
* if cm paramater doesn't contain any option does nothing.
*/
void ns_coap_free_options(struct ns_coap_message *cm);
/*
* Compose CoAP message from `ns_coap_message`
* and send it into `nc` connection.
* Return 0 on success. On error, it is a bitmask:
*
* - #define NS_COAP_ERROR 0x10000
* - #define NS_COAP_FORMAT_ERROR (NS_COAP_ERROR | 0x20000)
* - #define NS_COAP_IGNORE (NS_COAP_ERROR | 0x40000)
* - #define NS_COAP_NOT_ENOUGH_DATA (NS_COAP_ERROR | 0x80000)
* - #define NS_COAP_NETWORK_ERROR (NS_COAP_ERROR | 0x100000)
*/
uint32_t ns_coap_send_message(struct ns_connection *nc,
struct ns_coap_message *cm);
/*
* Compose CoAP acknowledgement from `ns_coap_message`
* and send it into `nc` connection.
* Return value: see `ns_coap_send_message()`
*/
uint32_t ns_coap_send_ack(struct ns_connection *nc, uint16_t msg_id);
/*
* Parse COAP message and fills ns_coap_message and returns cm->flags.
* This is a helper function.
*
* NOTE: usually CoAP work over UDP, so lack of data means format error,
* but in theory it is possible to use CoAP over TCP (according to RFC)
*
* The caller have to check results and treat COAP_NOT_ENOUGH_DATA according to
* underlying protocol:
*
* - in case of UDP COAP_NOT_ENOUGH_DATA means COAP_FORMAT_ERROR,
* - in case of TCP client can try to recieve more data
*
* Return value: see `ns_coap_send_message()`
*/
uint32_t ns_coap_parse(struct mbuf *io, struct ns_coap_message *cm);
/*
* Composes CoAP message from ns_coap_message structure.
* This is a helper function.
* Return value: see `ns_coap_send_message()`
*/
uint32_t ns_coap_compose(struct ns_coap_message *cm, struct mbuf *io);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* NS_ENABLE_COAP */
#endif /* NS_COAP_HEADER_INCLUDED */