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gerrit-public.fairphone.software / platform / external / libwebsockets / b21497732db71060166ac59eeb7f64cef2b5fbfd / . / libwebsockets.c
blob: d680a08ebe34c54618f5aef8dba4a50be9f4c8f2 [file] [log] [blame]
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <unistd.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <poll.h>
#include <sys/mman.h>
#include "libwebsockets.h"
void md5(const unsigned char *input, int ilen, unsigned char output[16]);
static void libwebsocket_service(struct libwebsocket *wsi, int sock);
#define LWS_MAX_HEADER_NAME_LENGTH 64
#define LWS_MAX_HEADER_LEN 4096
#define LWS_INITIAL_HDR_ALLOC 256
#define LWS_ADDITIONAL_HDR_ALLOC 64
enum lws_connection_states {
WSI_STATE_HTTP,
WSI_STATE_HTTP_HEADERS,
WSI_STATE_DEAD_SOCKET,
WSI_STATE_ESTABLISHED
};
enum lws_token_indexes {
WSI_TOKEN_GET_URI,
WSI_TOKEN_HOST,
WSI_TOKEN_CONNECTION,
WSI_TOKEN_KEY1,
WSI_TOKEN_KEY2,
WSI_TOKEN_PROTOCOL,
WSI_TOKEN_UPGRADE,
WSI_TOKEN_ORIGIN,
WSI_TOKEN_CHALLENGE,
/* always last real token index*/
WSI_TOKEN_COUNT,
/* parser state additions */
WSI_TOKEN_NAME_PART,
WSI_TOKEN_SKIPPING,
WSI_TOKEN_SKIPPING_SAW_CR,
WSI_PARSING_COMPLETE
};
enum lws_rx_parse_state {
LWS_RXPS_NEW,
LWS_RXPS_SEEN_76_FF,
LWS_RXPS_PULLING_76_LENGTH,
LWS_RXPS_PAYLOAD_UNTIL_LENGTH_EXHAUSTED
};
struct lws_tokens {
char * token;
int token_len;
};
/*
* This is totally opaque to code using the library. It's exported as a
* forward-reference pointer-only declaration; the user can use the pointer with
* other APIs to get information out of it.
*/
struct libwebsocket {
int (*callback)(struct libwebsocket *,
enum libwebsocket_callback_reasons reason, void *, size_t);
enum lws_connection_states state;
char name_buffer[LWS_MAX_HEADER_NAME_LENGTH];
int name_buffer_pos;
int current_alloc_len;
enum lws_token_indexes parser_state;
struct lws_tokens utf8_token[WSI_TOKEN_COUNT];
int ietf_spec_revision;
int sock;
enum lws_rx_parse_state lws_rx_parse_state;
size_t rx_packet_length;
};
const struct lws_tokens lws_tokens[WSI_TOKEN_COUNT] = {
{ "GET ", 4 },
{ "Host:", 5 },
{ "Connection:", 11 },
{ "Sec-WebSocket-Key1:", 19 },
{ "Sec-WebSocket-Key2:", 19 },
{ "Sec-WebSocket-Protocol:", 23 },
{ "Upgrade:", 8 },
{ "Origin:", 7 },
{ "\x0d\x0a", 2 },
};
/**
* libwebsocket_create_server() - Create the listening websockets server
* @port: Port to listen on
* @callback: The callback in user code to perform actual serving
* @protocol: Which version of the websockets protocol (currently 76)
*
* This function forks to create the listening socket and takes care
* of all initialization in one step.
*
* The callback function is 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.
*
* The server created is a simple http server by default; part of the
* websocket standard is upgrading this http connection to a websocket one.
*
* 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.
*/
int libwebsocket_create_server(int port,
int (*callback)(struct libwebsocket *,
enum libwebsocket_callback_reasons, void *, size_t),
int protocol)
{
int n;
int sockfd, newsockfd;
unsigned int clilen;
struct sockaddr_in serv_addr, cli_addr;
int pid;
struct libwebsocket *wsi = malloc(sizeof(struct libwebsocket));
if (!wsi)
return -1;
wsi->state = WSI_STATE_HTTP;
wsi->name_buffer_pos = 0;
for (n = 0; n < WSI_TOKEN_COUNT; n++) {
wsi->utf8_token[n].token = NULL;
wsi->utf8_token[n].token_len = 0;
}
wsi->callback = callback;
switch (protocol) {
case 0:
case 2:
case 76:
fprintf(stderr, " Using protocol v%d\n", protocol);
wsi->ietf_spec_revision = protocol;
break;
default:
fprintf(stderr, "protocol %d not supported (try 0 2 or 76)\n",
protocol);
return -1;
}
/* sit there listening for connects, accept and spawn session servers */
sockfd = socket(AF_INET, SOCK_STREAM, 0);
if (sockfd < 0) {
fprintf(stderr, "ERROR opening socket");
}
bzero((char *) &serv_addr, sizeof(serv_addr));
serv_addr.sin_family = AF_INET;
serv_addr.sin_addr.s_addr = INADDR_ANY;
serv_addr.sin_port = htons(port);
n = bind(sockfd, (struct sockaddr *) &serv_addr, sizeof(serv_addr));
if (n < 0) {
fprintf(stderr, "ERROR on binding to port %d (%d %d)\n", port, n,
errno);
return -1;
}
/* fork off a master server for this websocket server */
n = fork();
if (n < 0) {
fprintf(stderr, "Failed on forking server thread: %d\n", n);
exit(1);
}
/* we are done as far as the caller is concerned */
if (n)
return 0;
fprintf(stderr, " Listening on port %d\n", port);
listen(sockfd, 5);
while (1) {
clilen = sizeof(cli_addr);
newsockfd = accept(sockfd, (struct sockaddr *)&cli_addr,
&clilen);
if (newsockfd < 0) {
fprintf(stderr, "ERROR on accept");
continue;
}
// fcntl(newsockfd, F_SETFL, O_NONBLOCK);
/* fork off a new server instance */
pid = fork();
if (pid < 0) {
fprintf(stderr, "ERROR on fork");
continue;
}
if (pid) {
close(newsockfd);
continue;
}
/* we are the session process */
close(sockfd);
/* sit in libwebsocket_service() until session socket closed */
libwebsocket_service(wsi, newsockfd);
exit(0);
}
}
static void libwebsocket_close(struct libwebsocket *wsi)
{
int n;
wsi->state = WSI_STATE_DEAD_SOCKET;
if (wsi->callback)
wsi->callback(wsi, LWS_CALLBACK_CLOSED, NULL, 0);
for (n = 0; n < WSI_TOKEN_COUNT; n++)
if (wsi->utf8_token[n].token)
free(wsi->utf8_token[n].token);
}
/**
* libwebsocket_get_uri() - Return the URI path being requested
* @wsi: Websocket instance
*
* The user code can find out the local path being opened from this
* call, it's valid on HTTP or established websocket connections.
* If the client opened the connection with "http://127.0.0.1/xyz/abc.d"
* then this call will return a pointer to "/xyz/abc.d"
*/
const char * libwebsocket_get_uri(struct libwebsocket *wsi)
{
if (wsi->utf8_token[WSI_TOKEN_GET_URI].token)
return wsi->utf8_token[WSI_TOKEN_GET_URI].token;
return NULL;
}
static int libwebsocket_parse(struct libwebsocket *wsi, unsigned char c)
{
int n;
switch (wsi->parser_state) {
case WSI_TOKEN_GET_URI:
case WSI_TOKEN_HOST:
case WSI_TOKEN_CONNECTION:
case WSI_TOKEN_KEY1:
case WSI_TOKEN_KEY2:
case WSI_TOKEN_PROTOCOL:
case WSI_TOKEN_UPGRADE:
case WSI_TOKEN_ORIGIN:
case WSI_TOKEN_CHALLENGE:
// fprintf(stderr, "WSI_TOKEN_(%d) '%c'\n", wsi->parser_state, c);
/* collect into malloc'd buffers */
/* optional space swallow */
if (!wsi->utf8_token[wsi->parser_state].token_len && c == ' ')
break;
/* special case space terminator for get-uri */
if (wsi->parser_state == WSI_TOKEN_GET_URI && c == ' ') {
wsi->utf8_token[wsi->parser_state].token[
wsi->utf8_token[wsi->parser_state].token_len] = '\0';
wsi->parser_state = WSI_TOKEN_SKIPPING;
break;
}
/* allocate appropriate memory */
if (wsi->utf8_token[wsi->parser_state].token_len ==
wsi->current_alloc_len - 1) {
/* need to extend */
wsi->current_alloc_len += LWS_ADDITIONAL_HDR_ALLOC;
if (wsi->current_alloc_len >= LWS_MAX_HEADER_LEN) {
/* it's waaay to much payload, fail it */
strcpy(wsi->utf8_token[wsi->parser_state].token,
"!!! Length exceeded maximum supported !!!");
wsi->parser_state = WSI_TOKEN_SKIPPING;
break;
}
wsi->utf8_token[wsi->parser_state].token =
realloc(wsi->utf8_token[wsi->parser_state].token,
wsi->current_alloc_len);
}
/* bail at EOL */
if (wsi->parser_state != WSI_TOKEN_CHALLENGE && c == '\x0d') {
wsi->utf8_token[wsi->parser_state].token[
wsi->utf8_token[wsi->parser_state].token_len] = '\0';
wsi->parser_state = WSI_TOKEN_SKIPPING_SAW_CR;
break;
}
wsi->utf8_token[wsi->parser_state].token[
wsi->utf8_token[wsi->parser_state].token_len++] = c;
/* special payload limiting */
if (wsi->parser_state == WSI_TOKEN_CHALLENGE &&
wsi->utf8_token[wsi->parser_state].token_len == 8) {
// fprintf(stderr, "Setting WSI_PARSING_COMPLETE\n");
wsi->parser_state = WSI_PARSING_COMPLETE;
break;
}
break;
/* collecting and checking a name part */
case WSI_TOKEN_NAME_PART:
// fprintf(stderr, "WSI_TOKEN_NAME_PART '%c'\n", c);
if (wsi->name_buffer_pos == sizeof(wsi->name_buffer) - 1) {
/* name bigger than we can handle, skip until next */
wsi->parser_state = WSI_TOKEN_SKIPPING;
break;
}
wsi->name_buffer[wsi->name_buffer_pos++] = c;
wsi->name_buffer[wsi->name_buffer_pos] = '\0';
for (n = 0; n < WSI_TOKEN_COUNT; n++) {
if (wsi->name_buffer_pos != lws_tokens[n].token_len)
continue;
if (strcmp(lws_tokens[n].token, wsi->name_buffer))
continue;
// fprintf(stderr, "known hdr '%s'\n", wsi->name_buffer);
wsi->parser_state = WSI_TOKEN_GET_URI + n;
wsi->current_alloc_len = LWS_INITIAL_HDR_ALLOC;
wsi->utf8_token[wsi->parser_state].token =
malloc(wsi->current_alloc_len);
wsi->utf8_token[wsi->parser_state].token_len = 0;
n = WSI_TOKEN_COUNT;
}
/* colon delimiter means we just don't know this name */
if (wsi->parser_state == WSI_TOKEN_NAME_PART && c == ':') {
// fprintf(stderr, "skipping unknown header '%s'\n",
// wsi->name_buffer);
wsi->parser_state = WSI_TOKEN_SKIPPING;
break;
}
/* don't look for payload when it can just be http headers */
if (wsi->parser_state == WSI_TOKEN_CHALLENGE &&
!wsi->utf8_token[WSI_TOKEN_UPGRADE].token_len) {
/* they're HTTP headers, not websocket upgrade! */
// fprintf(stderr, "Setting WSI_PARSING_COMPLETE "
// "from http headers\n");
wsi->parser_state = WSI_PARSING_COMPLETE;
}
break;
/* skipping arg part of a name we didn't recognize */
case WSI_TOKEN_SKIPPING:
// fprintf(stderr, "WSI_TOKEN_SKIPPING '%c'\n", c);
if (c == '\x0d')
wsi->parser_state = WSI_TOKEN_SKIPPING_SAW_CR;
break;
case WSI_TOKEN_SKIPPING_SAW_CR:
// fprintf(stderr, "WSI_TOKEN_SKIPPING_SAW_CR '%c'\n", c);
if (c == '\x0a')
wsi->parser_state = WSI_TOKEN_NAME_PART;
else
wsi->parser_state = WSI_TOKEN_SKIPPING;
wsi->name_buffer_pos = 0;
break;
/* we're done, ignore anything else */
case WSI_PARSING_COMPLETE:
// fprintf(stderr, "WSI_PARSING_COMPLETE '%c'\n", c);
break;
default: /* keep gcc happy */
break;
}
return 0;
}
static int interpret_key(const char *key, unsigned int *result)
{
char digits[20];
int digit_pos = 0;
const char *p = key;
int spaces = 0;
while (*p) {
if (isdigit(*p)) {
if (digit_pos == sizeof(digits) - 1)
return -1;
digits[digit_pos++] = *p;
}
p++;
}
digits[digit_pos] = '\0';
if (!digit_pos)
return -2;
while (*key) {
if (*key == ' ')
spaces++;
key++;
}
if (!spaces)
return -3;
*result = atol(digits) / spaces;
return 0;
}
static int libwebsocket_rx_sm(struct libwebsocket *wsi, unsigned char c)
{
int n;
unsigned char buf[2];
switch (wsi->lws_rx_parse_state) {
case LWS_RXPS_NEW:
switch (wsi->ietf_spec_revision) {
/* Firefox 4.0b6 likes this as of 30 Oct */
case 76:
if (c == 0xff)
wsi->lws_rx_parse_state = LWS_RXPS_SEEN_76_FF;
break;
case 0:
break;
}
break;
case LWS_RXPS_SEEN_76_FF:
if (c != 0) {
break;
}
fprintf(stderr, "Seen that client is requesting "
"a v76 close, sending ack\n");
buf[0] = 0xff;
buf[1] = 0;
n = write(wsi->sock, buf, 2);
if (n < 0) {
fprintf(stderr, "ERROR writing to socket");
return -1;
}
fprintf(stderr, " v76 close ack sent, server closing skt\n");
/* returning < 0 will get it closed in parent */
return -1;
case LWS_RXPS_PULLING_76_LENGTH:
break;
case LWS_RXPS_PAYLOAD_UNTIL_LENGTH_EXHAUSTED:
break;
}
return 0;
}
static int libwebsocket_interpret_incoming_packet(struct libwebsocket *wsi,
unsigned char *buf, size_t len)
{
int n;
fprintf(stderr, "received %d byte packet\n", (int)len);
for (n = 0; n < len; n++)
fprintf(stderr, "%02X ", buf[n]);
fprintf(stderr, "\n");
/* let the rx protocol state machine have as much as it needs */
n = 0;
while (wsi->lws_rx_parse_state !=
LWS_RXPS_PAYLOAD_UNTIL_LENGTH_EXHAUSTED && n < len)
if (libwebsocket_rx_sm(wsi, buf[n++]) < 0)
return -1;
if (n != len && wsi->callback)
wsi->callback(wsi, LWS_CALLBACK_RECEIVE, &buf[n], len - n);
return -0;
}
/*
* We have to take care about parsing because the headers may be split
* into multiple fragments. They may contain unknown headers with arbitrary
* argument lengths. So, we parse using a single-character at a time state
* machine that is completely independent of packet size.
*/
static int
libwebsocket_read(struct libwebsocket *wsi, unsigned char * buf, size_t len)
{
size_t n;
char *p;
unsigned int key1, key2;
unsigned char sum[16];
char *response;
switch (wsi->state) {
case WSI_STATE_HTTP:
wsi->state = WSI_STATE_HTTP_HEADERS;
wsi->parser_state = WSI_TOKEN_NAME_PART;
/* fallthru */
case WSI_STATE_HTTP_HEADERS:
// fprintf(stderr, "issuing %d bytes to parser\n", (int)len);
// fwrite(buf, 1, len, stderr);
for (n = 0; n< len; n++)
libwebsocket_parse(wsi, *buf++);
if (wsi->parser_state != WSI_PARSING_COMPLETE)
break;
/* is this websocket protocol or normal http 1.0? */
if (!wsi->utf8_token[WSI_TOKEN_UPGRADE].token_len ||
!wsi->utf8_token[WSI_TOKEN_CONNECTION].token_len) {
if (wsi->callback)
(wsi->callback)(wsi, LWS_CALLBACK_HTTP,
NULL, 0);
wsi->state = WSI_STATE_HTTP;
return 0;
}
// fprintf(stderr, "Preparing return packet\n");
/* Websocket - confirm we have all the necessary pieces */
if (!wsi->utf8_token[WSI_TOKEN_ORIGIN].token_len ||
!wsi->utf8_token[WSI_TOKEN_HOST].token_len ||
!wsi->utf8_token[WSI_TOKEN_CHALLENGE].token_len ||
!wsi->utf8_token[WSI_TOKEN_KEY1].token_len ||
!wsi->utf8_token[WSI_TOKEN_KEY2].token_len)
/* completed header processing, but missing some bits */
goto bail;
/* create the response packet */
/* make a buffer big enough for everything */
response = malloc(256 +
wsi->utf8_token[WSI_TOKEN_UPGRADE].token_len +
wsi->utf8_token[WSI_TOKEN_CONNECTION].token_len +
wsi->utf8_token[WSI_TOKEN_HOST].token_len +
wsi->utf8_token[WSI_TOKEN_ORIGIN].token_len +
wsi->utf8_token[WSI_TOKEN_GET_URI].token_len +
wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len);
if (!response) {
fprintf(stderr, "Out of memory for response buffer\n");
goto bail;
}
p = response;
strcpy(p, "HTTP/1.1 101 WebSocket Protocol Handshake\x0d\x0a"
"Upgrade: WebSocket\x0d\x0a");
p += strlen("HTTP/1.1 101 WebSocket Protocol Handshake\x0d\x0a"
"Upgrade: WebSocket\x0d\x0a");
strcpy(p, "Connection: Upgrade\x0d\x0a"
"Sec-WebSocket-Origin: ");
p += strlen("Connection: Upgrade\x0d\x0a"
"Sec-WebSocket-Origin: ");
strcpy(p, wsi->utf8_token[WSI_TOKEN_ORIGIN].token);
p += wsi->utf8_token[WSI_TOKEN_ORIGIN].token_len;
strcpy(p, "\x0d\x0aSec-WebSocket-Location: ws://");
p += strlen("\x0d\x0aSec-WebSocket-Location: ws://");
strcpy(p, wsi->utf8_token[WSI_TOKEN_HOST].token);
p += wsi->utf8_token[WSI_TOKEN_HOST].token_len;
strcpy(p, wsi->utf8_token[WSI_TOKEN_GET_URI].token);
p += wsi->utf8_token[WSI_TOKEN_GET_URI].token_len;
if (wsi->utf8_token[WSI_TOKEN_PROTOCOL].token) {
strcpy(p, "\x0d\x0aSec-WebSocket-Protocol: ");
p += strlen("\x0d\x0aSec-WebSocket-Protocol: ");
strcpy(p, wsi->utf8_token[WSI_TOKEN_PROTOCOL].token);
p += wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len;
}
strcpy(p, "\x0d\x0a\x0d\x0a");
p += strlen("\x0d\x0a\x0d\x0a");
/* convert the two keys into 32-bit integers */
if (interpret_key(wsi->utf8_token[WSI_TOKEN_KEY1].token, &key1))
goto bail;
if (interpret_key(wsi->utf8_token[WSI_TOKEN_KEY2].token, &key2))
goto bail;
/* lay them out in network byte order (MSB first */
sum[0] = key1 >> 24;
sum[1] = key1 >> 16;
sum[2] = key1 >> 8;
sum[3] = key1;
sum[4] = key2 >> 24;
sum[5] = key2 >> 16;
sum[6] = key2 >> 8;
sum[7] = key2;
/* follow them with the challenge token we were sent */
memcpy(&sum[8], wsi->utf8_token[WSI_TOKEN_CHALLENGE].token, 8);
/*
* compute the md5sum of that 16-byte series and use as our
* payload after our headers
*/
md5(sum, 16, (unsigned char *)p);
p += 16;
/* it's complete: go ahead and send it */
// fprintf(stderr, "issuing response packet %d len\n",
// (int)(p - response));
// fwrite(response, 1, p - response, stderr);
n = write(wsi->sock, response, p - response);
if (n < 0) {
fprintf(stderr, "ERROR writing to socket");
goto bail;
}
/* alright clean up and set ourselves into established state */
free(response);
wsi->state = WSI_STATE_ESTABLISHED;
wsi->lws_rx_parse_state = LWS_RXPS_NEW;
/* notify user code that we're ready to roll */
if (wsi->callback)
wsi->callback(wsi, LWS_CALLBACK_ESTABLISHED, NULL, 0);
break;
case WSI_STATE_ESTABLISHED:
if (libwebsocket_interpret_incoming_packet(wsi, buf, len) < 0)
goto bail;
break;
default:
break;
}
return 0;
bail:
libwebsocket_close(wsi);
return -1;
}
/**
* libwebsocket_write() - Apply protocol then write data to client
* @wsi: Websocket instance (available from user callback)
* @buf: 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.
* @len: Count of the data bytes in the payload starting from buf
* @protocol: 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.
*
* This function provides the way to issue data back to the client
* for both http and websocket protocols.
*
* 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.
*/
int libwebsocket_write(struct libwebsocket * wsi, unsigned char *buf,
size_t len, enum libwebsocket_write_protocol protocol)
{
int n;
int pre = 0;
int post = 0;
unsigned int shift = 7;
if (protocol == LWS_WRITE_HTTP)
goto send_raw;
/* websocket protocol, either binary or text */
if (wsi->state != WSI_STATE_ESTABLISHED)
return -1;
switch (wsi->ietf_spec_revision) {
/* Firefox 4.0b6 likes this as of 30 Oct */
case 76:
if (protocol == LWS_WRITE_BINARY) {
/* in binary mode we send 7-bit used length blocks */
pre = 1;
while (len & (127 << shift)) {
pre++;
shift += 7;
}
n = 0;
shift -= 7;
while (shift >= 0) {
if (shift)
buf[0 - pre + n] =
((len >> shift) & 127) | 0x80;
else
buf[0 - pre + n] =
((len >> shift) & 127);
n++;
shift -= 7;
}
break;
}
/* frame type = text, length-free spam mode */
buf[-1] = 0;
buf[len] = 0xff; /* EOT marker */
pre = 1;
post = 1;
break;
/* chrome likes this as of 30 Oct */
case 0:
buf[-9] = 0xff;
#if defined __LP64__
buf[-8] = len >> 56;
buf[-7] = len >> 48;
buf[-6] = len >> 40;
buf[-5] = len >> 32;
#else
buf[-8] = 0;
buf[-7] = 0;
buf[-6] = 0;
buf[-5] = 0;
#endif
buf[-4] = len >> 24;
buf[-3] = len >> 16;
buf[-2] = len >> 8;
buf[-1] = len;
pre = 9;
break;
/* just an unimplemented spec right now apparently */
case 2:
n = 4; /* text */
if (protocol == LWS_WRITE_BINARY)
n = 5; /* binary */
if (len < 126) {
buf[-2] = n;
buf[-1] = len;
pre = 2;
} else {
if (len < 65536) {
buf[-4] = n;
buf[-3] = 126;
buf[-2] = len >> 8;
buf[-1] = len;
pre = 4;
} else {
buf[-10] = n;
buf[-9] = 127;
#if defined __LP64__
buf[-8] = (len >> 56) & 0x7f;
buf[-7] = len >> 48;
buf[-6] = len >> 40;
buf[-5] = len >> 32;
#else
buf[-8] = 0;
buf[-7] = 0;
buf[-6] = 0;
buf[-5] = 0;
#endif
buf[-4] = len >> 24;
buf[-3] = len >> 16;
buf[-2] = len >> 8;
buf[-1] = len;
pre = 10;
}
}
break;
}
// for (n = 0; n < (len + pre + post); n++)
// fprintf(stderr, "%02X ", buf[n - pre]);
//
// fprintf(stderr, "\n");
send_raw:
n = send(wsi->sock, buf - pre, len + pre + post, 0);
if (n < 0) {
fprintf(stderr, "ERROR writing to socket");
return -1;
}
// fprintf(stderr, "written %d bytes to client\n", (int)len);
return 0;
}
static void libwebsocket_service(struct libwebsocket *wsi, int sock)
{
int n;
unsigned char buf[256];
struct pollfd fds;
wsi->sock = sock;
while (1) {
fds.fd = sock;
fds.events = POLLIN;
fds.revents = 0;
n = poll(&fds, 1, 50);
/*
* we seem to get a ton of POLLINs coming when there's nothing
* to read (at least, 0 bytes read)... don't understand why yet
* but I stuck a usleep() in the 0 byte read case to regulate
* CPU
*/
if (n < 0) {
fprintf(stderr, "Socket dead (poll = %d)\n", n);
return;
}
if (n == 0)
goto pout;
if (fds.revents & (POLLERR | POLLHUP)) {
fprintf(stderr, "Socket dead\n");
return;
}
if (wsi->state == WSI_STATE_DEAD_SOCKET) {
fprintf(stderr, "Seen socket dead, returning\n");
return;
}
if (fds.revents & POLLIN) {
// fprintf(stderr, "POLLIN\n");
n = recv(sock, buf, sizeof(buf), 0);
if (n < 0) {
fprintf(stderr, "Socket read returned %d\n", n);
continue;
}
if (n)
libwebsocket_read(wsi, buf, n);
else {
// fprintf(stderr, "POLLIN with 0 len waiting\n");
usleep(50000);
}
}
pout:
if (wsi->state != WSI_STATE_ESTABLISHED)
continue;
// fprintf(stderr, "POLLOUT\n");
if (wsi->callback)
wsi->callback(wsi, LWS_CALLBACK_SEND, NULL, 0);
}
}
/**
* libwebsockets_serve_http_file() - Send a file back to the client using http
* @wsi: Websocket instance (available from user callback)
* @file: The file to issue over http
* @content_type: The http content type, eg, text/html
*
* 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.
*/
int libwebsockets_serve_http_file(struct libwebsocket *wsi, const char * file,
const char * content_type)
{
int fd;
struct stat stat;
char buf[512];
char *p = buf;
int n;
fd = open(file, O_RDONLY);
if (fd < 1) {
p += sprintf(p, "HTTP/1.0 400 Bad\x0d\x0a"
"Server: libwebsockets\x0d\x0a"
"\x0d\x0a"
);
libwebsocket_write(wsi, (unsigned char *)buf, p - buf,
LWS_WRITE_HTTP);
return -1;
}
fstat(fd, &stat);
p += sprintf(p, "HTTP/1.0 200 OK\x0d\x0a"
"Server: libwebsockets\x0d\x0a"
"Content-Type: %s\x0d\x0a"
"Content-Length: %u\x0d\x0a"
"\x0d\x0a", content_type, (unsigned int)stat.st_size);
libwebsocket_write(wsi, (unsigned char *)buf, p - buf, LWS_WRITE_HTTP);
n = 1;
while (n > 0) {
n = read(fd, buf, 512);
libwebsocket_write(wsi, (unsigned char *)buf, n,
LWS_WRITE_HTTP);
}
close(fd);
return 0;
}