/* * Wslay - The WebSocket Library * * Copyright (c) 2011, 2012 Tatsuhiro Tsujikawa * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef WSLAY_H #define WSLAY_H #ifdef __cplusplus extern "C" { #endif #include #include #include /* * wslay/wslayver.h is generated from wslay/wslayver.h.in by * configure. The projects which do not use autotools can set * WSLAY_VERSION macro from outside to avoid to generating wslayver.h */ #ifndef WSLAY_VERSION # include #endif /* WSLAY_VERSION */ enum wslay_error { WSLAY_ERR_WANT_READ = -100, WSLAY_ERR_WANT_WRITE = -101, WSLAY_ERR_PROTO = -200, WSLAY_ERR_INVALID_ARGUMENT = -300, WSLAY_ERR_INVALID_CALLBACK = -301, WSLAY_ERR_NO_MORE_MSG = -302, WSLAY_ERR_CALLBACK_FAILURE = -400, WSLAY_ERR_WOULDBLOCK = -401, WSLAY_ERR_NOMEM = -500 }; /* * Status codes defined in RFC6455 */ enum wslay_status_code { WSLAY_CODE_NORMAL_CLOSURE = 1000, WSLAY_CODE_GOING_AWAY = 1001, WSLAY_CODE_PROTOCOL_ERROR = 1002, WSLAY_CODE_UNSUPPORTED_DATA = 1003, WSLAY_CODE_NO_STATUS_RCVD = 1005, WSLAY_CODE_ABNORMAL_CLOSURE = 1006, WSLAY_CODE_INVALID_FRAME_PAYLOAD_DATA = 1007, WSLAY_CODE_POLICY_VIOLATION = 1008, WSLAY_CODE_MESSAGE_TOO_BIG = 1009, WSLAY_CODE_MANDATORY_EXT = 1010, WSLAY_CODE_INTERNAL_SERVER_ERROR = 1011, WSLAY_CODE_TLS_HANDSHAKE = 1015 }; enum wslay_io_flags { /* * There is more data to send. */ WSLAY_MSG_MORE = 1 }; /* * Callback function used by wslay_frame_send() function when it needs * to send data. The implementation of this function must send at most * len bytes of data in data. flags is the bitwise OR of zero or more * of the following flag: * * WSLAY_MSG_MORE * There is more data to send * * It provides some hints to tune performance and behaviour. user_data * is one given in wslay_frame_context_init() function. The * implementation of this function must return the number of bytes * sent. If there is an error, return -1. The return value 0 is also * treated an error by the library. */ typedef ssize_t (*wslay_frame_send_callback)(const uint8_t *data, size_t len, int flags, void *user_data); /* * Callback function used by wslay_frame_recv() function when it needs * more data. The implementation of this function must fill at most * len bytes of data into buf. The memory area of buf is allocated by * library and not be freed by the application code. flags is always 0 * in this version. user_data is one given in * wslay_frame_context_init() function. The implementation of this * function must return the number of bytes filled. If there is an * error, return -1. The return value 0 is also treated an error by * the library. */ typedef ssize_t (*wslay_frame_recv_callback)(uint8_t *buf, size_t len, int flags, void *user_data); /* * Callback function used by wslay_frame_send() function when it needs * new mask key. The implementation of this function must write * exactly len bytes of mask key to buf. user_data is one given in * wslay_frame_context_init() function. The implementation of this * function return 0 on success. If there is an error, return -1. */ typedef int (*wslay_frame_genmask_callback)(uint8_t *buf, size_t len, void *user_data); struct wslay_frame_callbacks { wslay_frame_send_callback send_callback; wslay_frame_recv_callback recv_callback; wslay_frame_genmask_callback genmask_callback; }; /* * The opcode defined in RFC6455. */ enum wslay_opcode { WSLAY_CONTINUATION_FRAME = 0x0u, WSLAY_TEXT_FRAME = 0x1u, WSLAY_BINARY_FRAME = 0x2u, WSLAY_CONNECTION_CLOSE = 0x8u, WSLAY_PING = 0x9u, WSLAY_PONG = 0xau }; /* * Macro that returns 1 if opcode is control frame opcode, otherwise * returns 0. */ #define wslay_is_ctrl_frame(opcode) ((opcode >> 3) & 1) /* * Macros that represent and return reserved bits: RSV1, RSV2, RSV3. * These macros assume that rsv is constructed by ((RSV1 << 2) | * (RSV2 << 1) | RSV3) */ #define WSLAY_RSV_NONE ((uint8_t) 0) #define WSLAY_RSV1_BIT (((uint8_t) 1) << 2) #define WSLAY_RSV2_BIT (((uint8_t) 1) << 1) #define WSLAY_RSV3_BIT (((uint8_t) 1) << 0) #define wslay_get_rsv1(rsv) ((rsv >> 2) & 1) #define wslay_get_rsv2(rsv) ((rsv >> 1) & 1) #define wslay_get_rsv3(rsv) (rsv & 1) struct wslay_frame_iocb { /* 1 for fragmented final frame, 0 for otherwise */ uint8_t fin; /* * reserved 3 bits. rsv = ((RSV1 << 2) | (RSV << 1) | RSV3). * RFC6455 requires 0 unless extensions are negotiated. */ uint8_t rsv; /* 4 bit opcode */ uint8_t opcode; /* payload length [0, 2**63-1] */ uint64_t payload_length; /* 1 for masked frame, 0 for unmasked */ uint8_t mask; /* part of payload data */ const uint8_t *data; /* bytes of data defined above */ size_t data_length; }; struct wslay_frame_context; typedef struct wslay_frame_context *wslay_frame_context_ptr; /* * Initializes ctx using given callbacks and user_data. This function * allocates memory for struct wslay_frame_context and stores the * result to *ctx. The callback functions specified in callbacks are * copied to ctx. user_data is stored in ctx and it will be passed to * callback functions. When the user code finished using ctx, it must * call wslay_frame_context_free to deallocate memory. */ int wslay_frame_context_init(wslay_frame_context_ptr *ctx, const struct wslay_frame_callbacks *callbacks, void *user_data); /* * Deallocates memory pointed by ctx. */ void wslay_frame_context_free(wslay_frame_context_ptr ctx); /* * Send WebSocket frame specified in iocb. ctx must be initialized * using wslay_frame_context_init() function. iocb->fin must be 1 if * this is a fin frame, otherwise 0. iocb->rsv is reserved bits. * iocb->opcode must be the opcode of this frame. iocb->mask must be * 1 if this is masked frame, otherwise 0. iocb->payload_length is * the payload_length of this frame. iocb->data must point to the * payload data to be sent. iocb->data_length must be the length of * the data. This function calls send_callback function if it needs * to send bytes. This function calls gen_mask_callback function if * it needs new mask key. This function returns the number of payload * bytes sent. Please note that it does not include any number of * header bytes. If it cannot send any single bytes of payload, it * returns WSLAY_ERR_WANT_WRITE. If the library detects error in iocb, * this function returns WSLAY_ERR_INVALID_ARGUMENT. If callback * functions report a failure, this function returns * WSLAY_ERR_INVALID_CALLBACK. This function does not always send all * given data in iocb. If there are remaining data to be sent, adjust * data and data_length in iocb accordingly and call this function * again. */ ssize_t wslay_frame_send(wslay_frame_context_ptr ctx, struct wslay_frame_iocb *iocb); /* * Receives WebSocket frame and stores it in iocb. This function * returns the number of payload bytes received. This does not * include header bytes. In this case, iocb will be populated as * follows: iocb->fin is 1 if received frame is fin frame, otherwise * 0. iocb->rsv is reserved bits of received frame. iocb->opcode is * opcode of received frame. iocb->mask is 1 if received frame is * masked, otherwise 0. iocb->payload_length is the payload length of * received frame. iocb->data is pointed to the buffer containing * received payload data. This buffer is allocated by the library and * must be read-only. iocb->data_length is the number of payload * bytes recieved. This function calls recv_callback if it needs to * receive additional bytes. If it cannot receive any single bytes of * payload, it returns WSLAY_ERR_WANT_READ. If the library detects * protocol violation in a received frame, this function returns * WSLAY_ERR_PROTO. If callback functions report a failure, this * function returns WSLAY_ERR_INVALID_CALLBACK. This function does * not always receive whole frame in a single call. If there are * remaining data to be received, call this function again. This * function ensures frame alignment. */ ssize_t wslay_frame_recv(wslay_frame_context_ptr ctx, struct wslay_frame_iocb *iocb); struct wslay_event_context; /* Pointer to the event-based API context */ typedef struct wslay_event_context *wslay_event_context_ptr; struct wslay_event_on_msg_recv_arg { /* reserved bits: rsv = (RSV1 << 2) | (RSV2 << 1) | RSV3 */ uint8_t rsv; /* opcode */ uint8_t opcode; /* received message */ const uint8_t *msg; /* message length */ size_t msg_length; /* * Status code iff opcode == WSLAY_CONNECTION_CLOSE. If no status * code is included in the close control frame, it is set to 0. */ uint16_t status_code; }; /* * Callback function invoked by wslay_event_recv() when a message is * completely received. */ typedef void (*wslay_event_on_msg_recv_callback) (wslay_event_context_ptr ctx, const struct wslay_event_on_msg_recv_arg *arg, void *user_data); struct wslay_event_on_frame_recv_start_arg { /* fin bit; 1 for final frame, or 0. */ uint8_t fin; /* reserved bits: rsv = (RSV1 << 2) | (RSV2 << 1) | RSV3 */ uint8_t rsv; /* opcode of the frame */ uint8_t opcode; /* payload length of ths frame */ uint64_t payload_length; }; /* * Callback function invoked by wslay_event_recv() when a new frame * starts to be received. This callback function is only invoked once * for each frame. */ typedef void (*wslay_event_on_frame_recv_start_callback) (wslay_event_context_ptr ctx, const struct wslay_event_on_frame_recv_start_arg *arg, void *user_data); struct wslay_event_on_frame_recv_chunk_arg { /* chunk of payload data */ const uint8_t *data; /* length of data */ size_t data_length; }; /* * Callback function invoked by wslay_event_recv() when a chunk of * frame payload is received. */ typedef void (*wslay_event_on_frame_recv_chunk_callback) (wslay_event_context_ptr ctx, const struct wslay_event_on_frame_recv_chunk_arg *arg, void *user_data); /* * Callback function invoked by wslay_event_recv() when a frame is * completely received. */ typedef void (*wslay_event_on_frame_recv_end_callback) (wslay_event_context_ptr ctx, void *user_data); /* * Callback function invoked by wslay_event_recv() when it wants to * receive more data from peer. The implementation of this callback * function must read data at most len bytes from peer and store them * in buf and return the number of bytes read. flags is always 0 in * this version. * * If there is an error, return -1 and set error code * WSLAY_ERR_CALLBACK_FAILURE using wslay_event_set_error(). Wslay * event-based API on the whole assumes non-blocking I/O. If the cause * of error is EAGAIN or EWOULDBLOCK, set WSLAY_ERR_WOULDBLOCK * instead. This is important because it tells wslay_event_recv() to * stop receiving further data and return. */ typedef ssize_t (*wslay_event_recv_callback)(wslay_event_context_ptr ctx, uint8_t *buf, size_t len, int flags, void *user_data); /* * Callback function invoked by wslay_event_send() when it wants to * send more data to peer. The implementation of this callback * function must send data at most len bytes to peer and return the * number of bytes sent. flags is the bitwise OR of zero or more of * the following flag: * * WSLAY_MSG_MORE * There is more data to send * * It provides some hints to tune performance and behaviour. * * If there is an error, return -1 and set error code * WSLAY_ERR_CALLBACK_FAILURE using wslay_event_set_error(). Wslay * event-based API on the whole assumes non-blocking I/O. If the cause * of error is EAGAIN or EWOULDBLOCK, set WSLAY_ERR_WOULDBLOCK * instead. This is important because it tells wslay_event_send() to * stop sending data and return. */ typedef ssize_t (*wslay_event_send_callback)(wslay_event_context_ptr ctx, const uint8_t *data, size_t len, int flags, void *user_data); /* * Callback function invoked by wslay_event_send() when it wants new * mask key. As described in RFC6455, only the traffic from WebSocket * client is masked, so this callback function is only needed if an * event-based API is initialized for WebSocket client use. */ typedef int (*wslay_event_genmask_callback)(wslay_event_context_ptr ctx, uint8_t *buf, size_t len, void *user_data); struct wslay_event_callbacks { wslay_event_recv_callback recv_callback; wslay_event_send_callback send_callback; wslay_event_genmask_callback genmask_callback; wslay_event_on_frame_recv_start_callback on_frame_recv_start_callback; wslay_event_on_frame_recv_chunk_callback on_frame_recv_chunk_callback; wslay_event_on_frame_recv_end_callback on_frame_recv_end_callback; wslay_event_on_msg_recv_callback on_msg_recv_callback; }; /* * Initializes ctx as WebSocket Server. user_data is an arbitrary * pointer, which is directly passed to each callback functions as * user_data argument. * * On success, returns 0. On error, returns one of following negative * values: * * WSLAY_ERR_NOMEM * Out of memory. */ int wslay_event_context_server_init (wslay_event_context_ptr *ctx, const struct wslay_event_callbacks *callbacks, void *user_data); /* * Initializes ctx as WebSocket client. user_data is an arbitrary * pointer, which is directly passed to each callback functions as * user_data argument. * * On success, returns 0. On error, returns one of following negative * values: * * WSLAY_ERR_NOMEM * Out of memory. */ int wslay_event_context_client_init (wslay_event_context_ptr *ctx, const struct wslay_event_callbacks *callbacks, void *user_data); /* * Releases allocated resources for ctx. */ void wslay_event_context_free(wslay_event_context_ptr ctx); /* * Sets a bit mask of allowed reserved bits. * Currently only permitted values are WSLAY_RSV1_BIT to allow PMCE * extension (see RFC-7692) or WSLAY_RSV_NONE to disable. * * Default: WSLAY_RSV_NONE */ void wslay_event_config_set_allowed_rsv_bits(wslay_event_context_ptr ctx, uint8_t rsv); /* * Enables or disables buffering of an entire message for non-control * frames. If val is 0, buffering is enabled. Otherwise, buffering is * disabled. If wslay_event_on_msg_recv_callback is invoked when * buffering is disabled, the msg_length member of struct * wslay_event_on_msg_recv_arg is set to 0. * * The control frames are always buffered regardless of this function call. * * This function must not be used after the first invocation of * wslay_event_recv() function. */ void wslay_event_config_set_no_buffering(wslay_event_context_ptr ctx, int val); /* * Sets maximum length of a message that can be received. The length * of message is checked by wslay_event_recv() function. If the length * of a message is larger than this value, reading operation is * disabled (same effect with wslay_event_shutdown_read() call) and * close control frame with WSLAY_CODE_MESSAGE_TOO_BIG is queued. If * buffering for non-control frames is disabled, the library checks * each frame payload length and does not check length of entire * message. * * The default value is (1u << 31)-1. */ void wslay_event_config_set_max_recv_msg_length(wslay_event_context_ptr ctx, uint64_t val); /* * Sets callbacks to ctx. The callbacks previouly set by this function * or wslay_event_context_server_init() or * wslay_event_context_client_init() are replaced with callbacks. */ void wslay_event_config_set_callbacks (wslay_event_context_ptr ctx, const struct wslay_event_callbacks *callbacks); /* * Receives messages from peer. When receiving * messages, it uses wslay_event_recv_callback function. Single call * of this function receives multiple messages until * wslay_event_recv_callback function sets error code * WSLAY_ERR_WOULDBLOCK. * * When close control frame is received, this function automatically * queues close control frame. Also this function calls * wslay_event_set_read_enabled() with second argument 0 to disable * further read from peer. * * When ping control frame is received, this function automatically * queues pong control frame. * * In case of a fatal errror which leads to negative return code, this * function calls wslay_event_set_read_enabled() with second argument * 0 to disable further read from peer. * * wslay_event_recv() returns 0 if it succeeds, or one of the * following negative error codes: * * WSLAY_ERR_CALLBACK_FAILURE * User defined callback function is failed. * * WSLAY_ERR_NOMEM * Out of memory. * * When negative error code is returned, application must not make any * further call of wslay_event_recv() and must close WebSocket * connection. */ int wslay_event_recv(wslay_event_context_ptr ctx); /* * Sends queued messages to peer. When sending a * message, it uses wslay_event_send_callback function. Single call of * wslay_event_send() sends multiple messages until * wslay_event_send_callback sets error code WSLAY_ERR_WOULDBLOCK. * * If ctx is initialized for WebSocket client use, wslay_event_send() * uses wslay_event_genmask_callback to get new mask key. * * When a message queued using wslay_event_queue_fragmented_msg() is * sent, wslay_event_send() invokes * wslay_event_fragmented_msg_callback for that message. * * After close control frame is sent, this function calls * wslay_event_set_write_enabled() with second argument 0 to disable * further transmission to peer. * * If there are any pending messages, wslay_event_want_write() returns * 1, otherwise returns 0. * * In case of a fatal errror which leads to negative return code, this * function calls wslay_event_set_write_enabled() with second argument * 0 to disable further transmission to peer. * * wslay_event_send() returns 0 if it succeeds, or one of the * following negative error codes: * * WSLAY_ERR_CALLBACK_FAILURE * User defined callback function is failed. * * WSLAY_ERR_NOMEM * Out of memory. * * When negative error code is returned, application must not make any * further call of wslay_event_send() and must close WebSocket * connection. */ int wslay_event_send(wslay_event_context_ptr ctx); struct wslay_event_msg { uint8_t opcode; const uint8_t *msg; size_t msg_length; }; /* * Queues message specified in arg. * * This function supports both control and non-control messages and * the given message is sent without fragmentation. If fragmentation * is needed, use wslay_event_queue_fragmented_msg() function instead. * * This function just queues a message and does not send * it. wslay_event_send() function call sends these queued messages. * * wslay_event_queue_msg() returns 0 if it succeeds, or returns the * following negative error codes: * * WSLAY_ERR_NO_MORE_MSG * Could not queue given message. The one of possible reason is that * close control frame has been queued/sent and no further queueing * message is not allowed. * * WSLAY_ERR_INVALID_ARGUMENT * The given message is invalid. * * WSLAY_ERR_NOMEM * Out of memory. */ int wslay_event_queue_msg(wslay_event_context_ptr ctx, const struct wslay_event_msg *arg); /* * Extended version of wslay_event_queue_msg which allows to set reserved bits. */ int wslay_event_queue_msg_ex(wslay_event_context_ptr ctx, const struct wslay_event_msg *arg, uint8_t rsv); /* * Specify "source" to generate message. */ union wslay_event_msg_source { int fd; void *data; }; /* * Callback function called by wslay_event_send() to read message data * from source. The implementation of * wslay_event_fragmented_msg_callback must store at most len bytes of * data to buf and return the number of stored bytes. If all data is * read (i.e., EOF), set *eof to 1. If no data can be generated at the * moment, return 0. If there is an error, return -1 and set error * code WSLAY_ERR_CALLBACK_FAILURE using wslay_event_set_error(). */ typedef ssize_t (*wslay_event_fragmented_msg_callback) (wslay_event_context_ptr ctx, uint8_t *buf, size_t len, const union wslay_event_msg_source *source, int *eof, void *user_data); struct wslay_event_fragmented_msg { /* opcode */ uint8_t opcode; /* "source" to generate message data */ union wslay_event_msg_source source; /* Callback function to read message data from source. */ wslay_event_fragmented_msg_callback read_callback; }; /* * Queues a fragmented message specified in arg. * * This function supports non-control messages only. For control frames, * use wslay_event_queue_msg() or wslay_event_queue_close(). * * This function just queues a message and does not send * it. wslay_event_send() function call sends these queued messages. * * wslay_event_queue_fragmented_msg() returns 0 if it succeeds, or * returns the following negative error codes: * * WSLAY_ERR_NO_MORE_MSG * Could not queue given message. The one of possible reason is that * close control frame has been queued/sent and no further queueing * message is not allowed. * * WSLAY_ERR_INVALID_ARGUMENT * The given message is invalid. * * WSLAY_ERR_NOMEM * Out of memory. */ int wslay_event_queue_fragmented_msg (wslay_event_context_ptr ctx, const struct wslay_event_fragmented_msg *arg); /* * Extended version of wslay_event_queue_fragmented_msg which allows to set * reserved bits. */ int wslay_event_queue_fragmented_msg_ex(wslay_event_context_ptr ctx, const struct wslay_event_fragmented_msg *arg, uint8_t rsv); /* * Queues close control frame. This function is provided just for * convenience. wslay_event_queue_msg() can queue a close control * frame as well. status_code is the status code of close control * frame. reason is the close reason encoded in UTF-8. reason_length * is the length of reason in bytes. reason_length must be less than * 123 bytes. * * If status_code is 0, reason and reason_length is not used and close * control frame with zero-length payload will be queued. * * This function just queues a message and does not send * it. wslay_event_send() function call sends these queued messages. * * wslay_event_queue_close() returns 0 if it succeeds, or returns the * following negative error codes: * * WSLAY_ERR_NO_MORE_MSG * Could not queue given message. The one of possible reason is that * close control frame has been queued/sent and no further queueing * message is not allowed. * * WSLAY_ERR_INVALID_ARGUMENT * The given message is invalid. * * WSLAY_ERR_NOMEM * Out of memory. */ int wslay_event_queue_close(wslay_event_context_ptr ctx, uint16_t status_code, const uint8_t *reason, size_t reason_length); /* * Sets error code to tell the library there is an error. This * function is typically used in user defined callback functions. See * the description of callback function to know which error code * should be used. */ void wslay_event_set_error(wslay_event_context_ptr ctx, int val); /* * Query whehter the library want to read more data from peer. * * wslay_event_want_read() returns 1 if the library want to read more * data from peer, or returns 0. */ int wslay_event_want_read(wslay_event_context_ptr ctx); /* * Query whehter the library want to send more data to peer. * * wslay_event_want_write() returns 1 if the library want to send more * data to peer, or returns 0. */ int wslay_event_want_write(wslay_event_context_ptr ctx); /* * Prevents the event-based API context from reading any further data * from peer. * * This function may be used with wslay_event_queue_close() if the * application detects error in the data received and wants to fail * WebSocket connection. */ void wslay_event_shutdown_read(wslay_event_context_ptr ctx); /* * Prevents the event-based API context from sending any further data * to peer. */ void wslay_event_shutdown_write(wslay_event_context_ptr ctx); /* * Returns 1 if the event-based API context allows read operation, or * return 0. * * After wslay_event_shutdown_read() is called, * wslay_event_get_read_enabled() returns 0. */ int wslay_event_get_read_enabled(wslay_event_context_ptr ctx); /* * Returns 1 if the event-based API context allows write operation, or * return 0. * * After wslay_event_shutdown_write() is called, * wslay_event_get_write_enabled() returns 0. */ int wslay_event_get_write_enabled(wslay_event_context_ptr ctx); /* * Returns 1 if a close control frame has been received from peer, or * returns 0. */ int wslay_event_get_close_received(wslay_event_context_ptr ctx); /* * Returns 1 if a close control frame has been sent to peer, or * returns 0. */ int wslay_event_get_close_sent(wslay_event_context_ptr ctx); /* * Returns status code received in close control frame. If no close * control frame has not been received, returns * WSLAY_CODE_ABNORMAL_CLOSURE. If received close control frame has no * status code, returns WSLAY_CODE_NO_STATUS_RCVD. */ uint16_t wslay_event_get_status_code_received(wslay_event_context_ptr ctx); /* * Returns status code sent in close control frame. If no close * control frame has not been sent, returns * WSLAY_CODE_ABNORMAL_CLOSURE. If sent close control frame has no * status code, returns WSLAY_CODE_NO_STATUS_RCVD. */ uint16_t wslay_event_get_status_code_sent(wslay_event_context_ptr ctx); /* * Returns the number of queued messages. */ size_t wslay_event_get_queued_msg_count(wslay_event_context_ptr ctx); /* * Returns the sum of queued message length. It only counts the * message length queued using wslay_event_queue_msg() or * wslay_event_queue_close(). */ size_t wslay_event_get_queued_msg_length(wslay_event_context_ptr ctx); #ifdef __cplusplus } #endif #endif /* WSLAY_H */