libwebsockets-api-doc.html - platform/external/libwebsockets - Gitiles

 <h2>libwebsocket_create_server - Create the listening websockets server</h2>
 <i>int</i>
 <b>libwebsocket_create_server</b>
 (<i>int</i> <b>port</b>,
 <i>struct libwebsocket_protocols *</i> <b>protocols</b>,
 <i>const char *</i> <b>ssl_cert_filepath</b>,
 <i>const char *</i> <b>ssl_private_key_filepath</b>,
 <i>int</i> <b>gid</b>,
 <i>int</i> <b>uid</b>)
 <h3>Arguments</h3>
 <dl>
 <dt><b>port</b>
 <dd>Port to listen on
 <dt><b>protocols</b>
 <dd>Array of structures listing supported protocols and a protocol-
 specific callback for each one.  The list is ended with an
 entry that has a NULL callback pointer.
 It's not const because we write the owning_server member
 <dt><b>ssl_cert_filepath</b>
 <dd>If libwebsockets was compiled to use ssl, and you want
 to listen using SSL, set to the filepath to fetch the
 server cert from, otherwise NULL for unencrypted
 <dt><b>ssl_private_key_filepath</b>
 <dd>filepath to private key if wanting SSL mode,
 else ignored
 <dt><b>gid</b>
 <dd>group id to change to after setting listen socket, or -1.
 <dt><b>uid</b>
 <dd>user id to change to after setting listen socket, or -1.
 </dl>
 <h3>Description</h3>
 <blockquote>
 This function creates the listening socket and takes care
 of all initialization in one step.
 <p>
 After initialization, it forks a thread that will sits in a service loop
 and returns to the caller.  The actual service actions are performed by
 user code in a per-protocol callback from the appropriate one selected
 by the client from the list in <tt><b>protocols</b></tt>.
 <p>
 The protocol callback functions are called for a handful of events
 including http requests coming in, websocket connections becoming
 established, and data arriving; it's also called periodically to allow
 async transmission.
 <p>
 HTTP requests are sent always to the FIRST protocol in <tt><b>protocol</b></tt>, since
 at that time websocket protocol has not been negotiated.  Other
 protocols after the first one never see any HTTP callack activity.
 <p>
 The server created is a simple http server by default; part of the
 websocket standard is upgrading this http connection to a websocket one.
 <p>
 This allows the same server to provide files like scripts and favicon /
 images or whatever over http and dynamic data over websockets all in
 one place; they're all handled in the user callback.
 </blockquote>
 <hr>
 <h2>libwebsockets_get_protocol - Returns a protocol pointer from a websocket connection.</h2>
 <i>const struct libwebsocket_protocols *</i>
 <b>libwebsockets_get_protocol</b>
 (<i>struct libwebsocket *</i> <b>wsi</b>)
 <h3>Arguments</h3>
 <dl>
 <dt><b>wsi</b>
 <dd>pointer to struct websocket you want to know the protocol of
 </dl>
 <h3>Description</h3>
 <blockquote>
 <p>
 This is useful to get the protocol to broadcast back to from inside
 the callback.
 </blockquote>
 <hr>
 <h2>libwebsockets_broadcast - Sends a buffer to rthe callback for all active connections of the given protocol.</h2>
 <i>int</i>
 <b>libwebsockets_broadcast</b>
 (<i>const struct libwebsocket_protocols *</i> <b>protocol</b>,
 <i>unsigned char *</i> <b>buf</b>,
 <i>size_t</i> <b>len</b>)
 <h3>Arguments</h3>
 <dl>
 <dt><b>protocol</b>
 <dd>pointer to the protocol you will broadcast to all members of
 <dt><b>buf</b>
 <dd>buffer containing the data to be broadcase.  NOTE: this has to be
 allocated with LWS_SEND_BUFFER_PRE_PADDING valid bytes before
 the pointer and LWS_SEND_BUFFER_POST_PADDING afterwards in the
 case you are calling this function from callback context.
 <dt><b>len</b>
 <dd>length of payload data in buf, starting from buf.
 </dl>
 <h3>Description</h3>
 <blockquote>
 This function allows bulk sending of a packet to every connection using
 the given protocol.  It does not send the data directly; instead it calls
 the callback with a reason type of LWS_CALLBACK_BROADCAST.  If the callback
 wants to actually send the data for that connection, the callback itself
 should call <b>libwebsocket_write</b>.
 <p>
 <b>libwebsockets_broadcast</b> can be called from another fork context without
 having to take any care about data visibility between the processes, it'll
 "just work".
 </blockquote>
 <hr>
 <h2>libwebsocket_write - Apply protocol then write data to client</h2>
 <i>int</i>
 <b>libwebsocket_write</b>
 (<i>struct libwebsocket *</i> <b>wsi</b>,
 <i>unsigned char *</i> <b>buf</b>,
 <i>size_t</i> <b>len</b>,
 <i>enum libwebsocket_write_protocol</i> <b>protocol</b>)
 <h3>Arguments</h3>
 <dl>
 <dt><b>wsi</b>
 <dd>Websocket instance (available from user callback)
 <dt><b>buf</b>
 <dd>The data to send.  For data being sent on a websocket
 connection (ie, not default http), this buffer MUST have
 LWS_SEND_BUFFER_PRE_PADDING bytes valid BEFORE the pointer
 and an additional LWS_SEND_BUFFER_POST_PADDING bytes valid
 in the buffer after (buf + len).  This is so the protocol
 header and trailer data can be added in-situ.
 <dt><b>len</b>
 <dd>Count of the data bytes in the payload starting from buf
 <dt><b>protocol</b>
 <dd>Use LWS_WRITE_HTTP to reply to an http connection, and one
 of LWS_WRITE_BINARY or LWS_WRITE_TEXT to send appropriate
 data on a websockets connection.  Remember to allow the extra
 bytes before and after buf if LWS_WRITE_BINARY or LWS_WRITE_TEXT
 are used.
 </dl>
 <h3>Description</h3>
 <blockquote>
 This function provides the way to issue data back to the client
 for both http and websocket protocols.
 <p>
 In the case of sending using websocket protocol, be sure to allocate
 valid storage before and after buf as explained above.  This scheme
 allows maximum efficiency of sending data and protocol in a single
 packet while not burdening the user code with any protocol knowledge.
 </blockquote>
 <hr>
 <h2>libwebsockets_serve_http_file - Send a file back to the client using http</h2>
 <i>int</i>
 <b>libwebsockets_serve_http_file</b>
 (<i>struct libwebsocket *</i> <b>wsi</b>,
 <i>const char *</i> <b>file</b>,
 <i>const char *</i> <b>content_type</b>)
 <h3>Arguments</h3>
 <dl>
 <dt><b>wsi</b>
 <dd>Websocket instance (available from user callback)
 <dt><b>file</b>
 <dd>The file to issue over http
 <dt><b>content_type</b>
 <dd>The http content type, eg, text/html
 </dl>
 <h3>Description</h3>
 <blockquote>
 This function is intended to be called from the callback in response
 to http requests from the client.  It allows the callback to issue
 local files down the http link in a single step.
 </blockquote>
 <hr>
 <h2>libwebsockets_remaining_packet_payload - Bytes to come before "overall" rx packet is complete</h2>
 <i>size_t</i>
 <b>libwebsockets_remaining_packet_payload</b>
 (<i>struct libwebsocket *</i> <b>wsi</b>)
 <h3>Arguments</h3>
 <dl>
 <dt><b>wsi</b>
 <dd>Websocket instance (available from user callback)
 </dl>
 <h3>Description</h3>
 <blockquote>
 This function is intended to be called from the callback if the
 user code is interested in "complete packets" from the client.
 libwebsockets just passes through payload as it comes and issues a buffer
 additionally when it hits a built-in limit.  The LWS_CALLBACK_RECEIVE
 callback handler can use this API to find out if the buffer it has just
 been given is the last piece of a "complete packet" from the client --
 when that is the case <b>libwebsockets_remaining_packet_payload</b> will return
 0.
 <p>
 Many protocols won't care becuse their packets are always small.
 </blockquote>
 <hr>
 <h2>callback - User server actions</h2>
 <i>int</i>
 <b>callback</b>
 (<i>struct libwebsocket *</i> <b>wsi</b>,
 <i>enum libwebsocket_callback_reasons</i> <b>reason</b>,
 <i>void *</i> <b>user</b>,
 <i>void *</i> <b>in</b>,
 <i>size_t</i> <b>len</b>)
 <h3>Arguments</h3>
 <dl>
 <dt><b>wsi</b>
 <dd>Opaque websocket instance pointer
 <dt><b>reason</b>
 <dd>The reason for the call
 <dt><b>user</b>
 <dd>Pointer to per-session user data allocated by library
 <dt><b>in</b>
 <dd>Pointer used for some callback reasons
 <dt><b>len</b>
 <dd>Length set for some callback reasons
 </dl>
 <h3>Description</h3>
 <blockquote>
 This callback is the way the user controls what is served.  All the
 protocol detail is hidden and handled by the library.
 <p>
 For each connection / session there is user data allocated that is
 pointed to by "user".  You set the size of this user data area when
 the library is initialized with libwebsocket_create_server.
 <p>
 You get an opportunity to initialize user data when called back with
 LWS_CALLBACK_ESTABLISHED reason.
 </blockquote>
 <h3>LWS_CALLBACK_ESTABLISHED</h3>
 <blockquote>
 after successful websocket handshake
 </blockquote>
 <h3>LWS_CALLBACK_CLOSED</h3>
 <blockquote>
 when the websocket session ends
 </blockquote>
 <h3>LWS_CALLBACK_BROADCAST</h3>
 <blockquote>
 signal to send to client (you would use
 <b>libwebsocket_write</b> taking care about the
 special buffer requirements
 </blockquote>
 <h3>LWS_CALLBACK_RECEIVE</h3>
 <blockquote>
 data has appeared for the server, it can be
 found at *in and is len bytes long
 </blockquote>
 <h3>LWS_CALLBACK_HTTP</h3>
 <blockquote>
 an http request has come from a client that is not
 asking to upgrade the connection to a websocket
 one.  This is a chance to serve http content,
 for example, to send a script to the client
 which will then open the websockets connection.
 <tt><b>in</b></tt> points to the URI path requested and
 <b>libwebsockets_serve_http_file</b> makes it very
 simple to send back a file to the client.
 </blockquote>
 <hr>
 <h2>struct libwebsocket_protocols - List of protocols and handlers server supports.</h2>
 <b>struct libwebsocket_protocols</b> {<br>
 &nbsp; &nbsp; <i>const char *</i> <b>name</b>;<br>
 &nbsp; &nbsp; <i>int (*</i><b>callback</b>) <i>(struct libwebsocket *wsi,enum libwebsocket_callback_reasons reason, void *user,void *in, size_t len)</i>;<br>
 &nbsp; &nbsp; <i>size_t</i> <b>per_session_data_size</b>;<br>
 &nbsp; &nbsp; <i>struct libwebsocket_context *</i> <b>owning_server</b>;<br>
 &nbsp; &nbsp; <i>int</i> <b>broadcast_socket_port</b>;<br>
 &nbsp; &nbsp; <i>int</i> <b>broadcast_socket_user_fd</b>;<br>
 &nbsp; &nbsp; <i>int</i> <b>protocol_index</b>;<br>
 };<br>
 <h3>Members</h3>
 <dl>
 <dt><b>name</b>
 <dd>Protocol name that must match the one given in the client
 Javascript new WebSocket(url, 'protocol') name
 <dt><b>callback</b>
 <dd>The service callback used for this protocol.  It allows the
 service action for an entire protocol to be encapsulated in
 the protocol-specific callback
 <dt><b>per_session_data_size</b>
 <dd>Each new connection using this protocol gets
 this much memory allocated on connection establishment and
 freed on connection takedown.  A pointer to this per-connection
 allocation is passed into the callback in the 'user' parameter
 <dt><b>owning_server</b>
 <dd>the server init call fills in this opaque pointer when
 registering this protocol with the server.
 <dt><b>broadcast_socket_port</b>
 <dd>the server init call fills this in with the
 localhost port number used to forward broadcasts for this
 protocol
 <dt><b>broadcast_socket_user_fd</b>
 <dd>the server init call fills this in ... the <b>main</b>
 process context can write to this socket to perform broadcasts
 (use the <b>libwebsockets_broadcast</b> api to do this instead,
 it works from any process context)
 <dt><b>protocol_index</b>
 <dd>which protocol we are starting from zero
 </dl>
 <h3>Description</h3>
 <blockquote>
 This structure represents one protocol supported by the server.  An
 array of these structures is passed to <b>libwebsocket_create_server</b>
 allows as many protocols as you like to be handled by one server.
 </blockquote>
 <hr>
	<h2>libwebsocket_create_server - Create the listening websockets server</h2>
	<i>int</i>
	<b>libwebsocket_create_server</b>
	(<i>int</i> <b>port</b>,
	<i>struct libwebsocket_protocols *</i> <b>protocols</b>,
	<i>const char *</i> <b>ssl_cert_filepath</b>,
	<i>const char *</i> <b>ssl_private_key_filepath</b>,
	<i>int</i> <b>gid</b>,
	<i>int</i> <b>uid</b>)
	<h3>Arguments</h3>
	<dl>
	<dt><b>port</b>
	<dd>Port to listen on
	<dt><b>protocols</b>
	<dd>Array of structures listing supported protocols and a protocol-
	specific callback for each one. The list is ended with an
	entry that has a NULL callback pointer.
	It's not const because we write the owning_server member
	<dt><b>ssl_cert_filepath</b>
	<dd>If libwebsockets was compiled to use ssl, and you want
	to listen using SSL, set to the filepath to fetch the
	server cert from, otherwise NULL for unencrypted
	<dt><b>ssl_private_key_filepath</b>
	<dd>filepath to private key if wanting SSL mode,
	else ignored
	<dt><b>gid</b>
	<dd>group id to change to after setting listen socket, or -1.
	<dt><b>uid</b>
	<dd>user id to change to after setting listen socket, or -1.
	</dl>
	<h3>Description</h3>
	<blockquote>
	This function creates the listening socket and takes care
	of all initialization in one step.
	<p>
	After initialization, it forks a thread that will sits in a service loop
	and returns to the caller. The actual service actions are performed by
	user code in a per-protocol callback from the appropriate one selected
	by the client from the list in <tt><b>protocols</b></tt>.
	<p>
	The protocol callback functions are called for a handful of events
	including http requests coming in, websocket connections becoming
	established, and data arriving; it's also called periodically to allow
	async transmission.
	<p>
	HTTP requests are sent always to the FIRST protocol in <tt><b>protocol</b></tt>, since
	at that time websocket protocol has not been negotiated. Other
	protocols after the first one never see any HTTP callack activity.
	<p>
	The server created is a simple http server by default; part of the
	websocket standard is upgrading this http connection to a websocket one.
	<p>
	This allows the same server to provide files like scripts and favicon /
	images or whatever over http and dynamic data over websockets all in
	one place; they're all handled in the user callback.
	</blockquote>
	<hr>
	<h2>libwebsockets_get_protocol - Returns a protocol pointer from a websocket connection.</h2>
	<i>const struct libwebsocket_protocols *</i>
	<b>libwebsockets_get_protocol</b>
	(<i>struct libwebsocket *</i> <b>wsi</b>)
	<h3>Arguments</h3>
	<dl>
	<dt><b>wsi</b>
	<dd>pointer to struct websocket you want to know the protocol of
	</dl>
	<h3>Description</h3>
	<blockquote>
	<p>
	This is useful to get the protocol to broadcast back to from inside
	the callback.
	</blockquote>
	<hr>
	<h2>libwebsockets_broadcast - Sends a buffer to rthe callback for all active connections of the given protocol.</h2>
	<i>int</i>
	<b>libwebsockets_broadcast</b>
	(<i>const struct libwebsocket_protocols *</i> <b>protocol</b>,
	<i>unsigned char *</i> <b>buf</b>,
	<i>size_t</i> <b>len</b>)
	<h3>Arguments</h3>
	<dl>
	<dt><b>protocol</b>
	<dd>pointer to the protocol you will broadcast to all members of
	<dt><b>buf</b>
	<dd>buffer containing the data to be broadcase. NOTE: this has to be
	allocated with LWS_SEND_BUFFER_PRE_PADDING valid bytes before
	the pointer and LWS_SEND_BUFFER_POST_PADDING afterwards in the
	case you are calling this function from callback context.
	<dt><b>len</b>
	<dd>length of payload data in buf, starting from buf.
	</dl>
	<h3>Description</h3>
	<blockquote>
	This function allows bulk sending of a packet to every connection using
	the given protocol. It does not send the data directly; instead it calls
	the callback with a reason type of LWS_CALLBACK_BROADCAST. If the callback
	wants to actually send the data for that connection, the callback itself
	should call <b>libwebsocket_write</b>.
	<p>
	<b>libwebsockets_broadcast</b> can be called from another fork context without
	having to take any care about data visibility between the processes, it'll
	"just work".
	</blockquote>
	<hr>
	<h2>libwebsocket_write - Apply protocol then write data to client</h2>
	<i>int</i>
	<b>libwebsocket_write</b>
	(<i>struct libwebsocket *</i> <b>wsi</b>,
	<i>unsigned char *</i> <b>buf</b>,
	<i>size_t</i> <b>len</b>,
	<i>enum libwebsocket_write_protocol</i> <b>protocol</b>)
	<h3>Arguments</h3>
	<dl>
	<dt><b>wsi</b>
	<dd>Websocket instance (available from user callback)
	<dt><b>buf</b>
	<dd>The data to send. For data being sent on a websocket
	connection (ie, not default http), this buffer MUST have
	LWS_SEND_BUFFER_PRE_PADDING bytes valid BEFORE the pointer
	and an additional LWS_SEND_BUFFER_POST_PADDING bytes valid
	in the buffer after (buf + len). This is so the protocol
	header and trailer data can be added in-situ.
	<dt><b>len</b>
	<dd>Count of the data bytes in the payload starting from buf
	<dt><b>protocol</b>
	<dd>Use LWS_WRITE_HTTP to reply to an http connection, and one
	of LWS_WRITE_BINARY or LWS_WRITE_TEXT to send appropriate
	data on a websockets connection. Remember to allow the extra
	bytes before and after buf if LWS_WRITE_BINARY or LWS_WRITE_TEXT
	are used.
	</dl>
	<h3>Description</h3>
	<blockquote>
	This function provides the way to issue data back to the client
	for both http and websocket protocols.
	<p>
	In the case of sending using websocket protocol, be sure to allocate
	valid storage before and after buf as explained above. This scheme
	allows maximum efficiency of sending data and protocol in a single
	packet while not burdening the user code with any protocol knowledge.
	</blockquote>
	<hr>
	<h2>libwebsockets_serve_http_file - Send a file back to the client using http</h2>
	<i>int</i>
	<b>libwebsockets_serve_http_file</b>
	(<i>struct libwebsocket *</i> <b>wsi</b>,
	<i>const char *</i> <b>file</b>,
	<i>const char *</i> <b>content_type</b>)
	<h3>Arguments</h3>
	<dl>
	<dt><b>wsi</b>
	<dd>Websocket instance (available from user callback)
	<dt><b>file</b>
	<dd>The file to issue over http
	<dt><b>content_type</b>
	<dd>The http content type, eg, text/html
	</dl>
	<h3>Description</h3>
	<blockquote>
	This function is intended to be called from the callback in response
	to http requests from the client. It allows the callback to issue
	local files down the http link in a single step.
	</blockquote>
	<hr>
	<h2>libwebsockets_remaining_packet_payload - Bytes to come before "overall" rx packet is complete</h2>
	<i>size_t</i>
	<b>libwebsockets_remaining_packet_payload</b>
	(<i>struct libwebsocket *</i> <b>wsi</b>)
	<h3>Arguments</h3>
	<dl>
	<dt><b>wsi</b>
	<dd>Websocket instance (available from user callback)
	</dl>
	<h3>Description</h3>
	<blockquote>
	This function is intended to be called from the callback if the
	user code is interested in "complete packets" from the client.
	libwebsockets just passes through payload as it comes and issues a buffer
	additionally when it hits a built-in limit. The LWS_CALLBACK_RECEIVE
	callback handler can use this API to find out if the buffer it has just
	been given is the last piece of a "complete packet" from the client --
	when that is the case <b>libwebsockets_remaining_packet_payload</b> will return
	0.
	<p>
	Many protocols won't care becuse their packets are always small.
	</blockquote>
	<hr>
	<h2>callback - User server actions</h2>
	<i>int</i>
	<b>callback</b>
	(<i>struct libwebsocket *</i> <b>wsi</b>,
	<i>enum libwebsocket_callback_reasons</i> <b>reason</b>,
	<i>void *</i> <b>user</b>,
	<i>void *</i> <b>in</b>,
	<i>size_t</i> <b>len</b>)
	<h3>Arguments</h3>
	<dl>
	<dt><b>wsi</b>
	<dd>Opaque websocket instance pointer
	<dt><b>reason</b>
	<dd>The reason for the call
	<dt><b>user</b>
	<dd>Pointer to per-session user data allocated by library
	<dt><b>in</b>
	<dd>Pointer used for some callback reasons
	<dt><b>len</b>
	<dd>Length set for some callback reasons
	</dl>
	<h3>Description</h3>
	<blockquote>
	This callback is the way the user controls what is served. All the
	protocol detail is hidden and handled by the library.
	<p>
	For each connection / session there is user data allocated that is
	pointed to by "user". You set the size of this user data area when
	the library is initialized with libwebsocket_create_server.
	<p>
	You get an opportunity to initialize user data when called back with
	LWS_CALLBACK_ESTABLISHED reason.
	</blockquote>
	<h3>LWS_CALLBACK_ESTABLISHED</h3>
	<blockquote>
	after successful websocket handshake
	</blockquote>
	<h3>LWS_CALLBACK_CLOSED</h3>
	<blockquote>
	when the websocket session ends
	</blockquote>
	<h3>LWS_CALLBACK_BROADCAST</h3>
	<blockquote>
	signal to send to client (you would use
	<b>libwebsocket_write</b> taking care about the
	special buffer requirements
	</blockquote>
	<h3>LWS_CALLBACK_RECEIVE</h3>
	<blockquote>
	data has appeared for the server, it can be
	found at *in and is len bytes long
	</blockquote>
	<h3>LWS_CALLBACK_HTTP</h3>
	<blockquote>
	an http request has come from a client that is not
	asking to upgrade the connection to a websocket
	one. This is a chance to serve http content,
	for example, to send a script to the client
	which will then open the websockets connection.
	<tt><b>in</b></tt> points to the URI path requested and
	<b>libwebsockets_serve_http_file</b> makes it very
	simple to send back a file to the client.
	</blockquote>
	<hr>
	<h2>struct libwebsocket_protocols - List of protocols and handlers server supports.</h2>
	<b>struct libwebsocket_protocols</b> {<br>
	<i>const char *</i> <b>name</b>;<br>
	<i>int (</i><b>callback</b>) <i>(struct libwebsocket wsi,enum libwebsocket_callback_reasons reason, void user,void in, size_t len)</i>;<br>
	<i>size_t</i> <b>per_session_data_size</b>;<br>
	<i>struct libwebsocket_context *</i> <b>owning_server</b>;<br>
	<i>int</i> <b>broadcast_socket_port</b>;<br>
	<i>int</i> <b>broadcast_socket_user_fd</b>;<br>
	<i>int</i> <b>protocol_index</b>;<br>
	};<br>
	<h3>Members</h3>
	<dl>
	<dt><b>name</b>
	<dd>Protocol name that must match the one given in the client
	Javascript new WebSocket(url, 'protocol') name
	<dt><b>callback</b>
	<dd>The service callback used for this protocol. It allows the
	service action for an entire protocol to be encapsulated in
	the protocol-specific callback
	<dt><b>per_session_data_size</b>
	<dd>Each new connection using this protocol gets
	this much memory allocated on connection establishment and
	freed on connection takedown. A pointer to this per-connection
	allocation is passed into the callback in the 'user' parameter
	<dt><b>owning_server</b>
	<dd>the server init call fills in this opaque pointer when
	registering this protocol with the server.
	<dt><b>broadcast_socket_port</b>
	<dd>the server init call fills this in with the
	localhost port number used to forward broadcasts for this
	protocol
	<dt><b>broadcast_socket_user_fd</b>
	<dd>the server init call fills this in ... the <b>main</b>
	process context can write to this socket to perform broadcasts
	(use the <b>libwebsockets_broadcast</b> api to do this instead,
	it works from any process context)
	<dt><b>protocol_index</b>
	<dd>which protocol we are starting from zero
	</dl>
	<h3>Description</h3>
	<blockquote>
	This structure represents one protocol supported by the server. An
	array of these structures is passed to <b>libwebsocket_create_server</b>
	allows as many protocols as you like to be handled by one server.
	</blockquote>
	<hr>