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freeswitch/libs/libwebsockets/lib/libwebsockets.c

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/*
* libwebsockets - small server side websockets and web server implementation
*
* Copyright (C) 2010 Andy Green <andy@warmcat.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation:
* version 2.1 of the License.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301 USA
*/
#include "private-libwebsockets.h"
#ifdef WIN32
#else
#include <ifaddrs.h>
#include <sys/un.h>
#include <sys/socket.h>
#include <netdb.h>
#endif
#ifdef LWS_OPENSSL_SUPPORT
int openssl_websocket_private_data_index;
#endif
#ifdef __MINGW32__
#include "../win32port/win32helpers/websock-w32.c"
#else
#ifdef __MINGW64__
#include "../win32port/win32helpers/websock-w32.c"
#endif
#endif
/*
* In-place str to lower case
*/
static void
strtolower(char *s)
{
while (*s) {
*s = tolower(*s);
s++;
}
}
/* file descriptor hash management */
struct libwebsocket *
wsi_from_fd(struct libwebsocket_context *context, int fd)
{
int h = LWS_FD_HASH(fd);
int n = 0;
for (n = 0; n < context->fd_hashtable[h].length; n++)
if (context->fd_hashtable[h].wsi[n]->sock == fd)
return context->fd_hashtable[h].wsi[n];
return NULL;
}
int
insert_wsi(struct libwebsocket_context *context, struct libwebsocket *wsi)
{
int h = LWS_FD_HASH(wsi->sock);
if (context->fd_hashtable[h].length == MAX_CLIENTS - 1) {
fprintf(stderr, "hash table overflow\n");
return 1;
}
context->fd_hashtable[h].wsi[context->fd_hashtable[h].length++] = wsi;
return 0;
}
int
delete_from_fd(struct libwebsocket_context *context, int fd)
{
int h = LWS_FD_HASH(fd);
int n = 0;
for (n = 0; n < context->fd_hashtable[h].length; n++)
if (context->fd_hashtable[h].wsi[n]->sock == fd) {
while (n < context->fd_hashtable[h].length) {
context->fd_hashtable[h].wsi[n] =
context->fd_hashtable[h].wsi[n + 1];
n++;
}
context->fd_hashtable[h].length--;
return 0;
}
fprintf(stderr, "Failed to find fd %d requested for "
"delete in hashtable\n", fd);
return 1;
}
#ifdef LWS_OPENSSL_SUPPORT
static void
libwebsockets_decode_ssl_error(void)
{
char buf[256];
u_long err;
while ((err = ERR_get_error()) != 0) {
ERR_error_string_n(err, buf, sizeof(buf));
fprintf(stderr, "*** %s\n", buf);
}
}
#endif
static int
interface_to_sa(const char *ifname, struct sockaddr_in *addr, size_t addrlen)
{
int rc = -1;
#ifdef WIN32
/* TODO */
#else
struct ifaddrs *ifr;
struct ifaddrs *ifc;
struct sockaddr_in *sin;
getifaddrs(&ifr);
for (ifc = ifr; ifc != NULL; ifc = ifc->ifa_next) {
if (strcmp(ifc->ifa_name, ifname))
continue;
if (ifc->ifa_addr == NULL)
continue;
sin = (struct sockaddr_in *)ifc->ifa_addr;
if (sin->sin_family != AF_INET)
continue;
memcpy(addr, sin, addrlen);
rc = 0;
}
freeifaddrs(ifr);
#endif
return rc;
}
void
libwebsocket_close_and_free_session(struct libwebsocket_context *context,
struct libwebsocket *wsi, enum lws_close_status reason)
{
int n;
int old_state;
unsigned char buf[LWS_SEND_BUFFER_PRE_PADDING + 2 +
LWS_SEND_BUFFER_POST_PADDING];
int ret;
int m;
struct lws_tokens eff_buf;
struct libwebsocket_extension *ext;
if (!wsi)
return;
old_state = wsi->state;
if (old_state == WSI_STATE_DEAD_SOCKET)
return;
wsi->close_reason = reason;
/*
* are his extensions okay with him closing? Eg he might be a mux
* parent and just his ch1 aspect is closing?
*/
for (n = 0; n < wsi->count_active_extensions; n++) {
if (!wsi->active_extensions[n]->callback)
continue;
m = wsi->active_extensions[n]->callback(context,
wsi->active_extensions[n], wsi,
LWS_EXT_CALLBACK_CHECK_OK_TO_REALLY_CLOSE,
wsi->active_extensions_user[n], NULL, 0);
/*
* if somebody vetoed actually closing him at this time....
* up to the extension to track the attempted close, let's
* just bail
*/
if (m) {
debug("extension vetoed close\n");
return;
}
}
/*
* flush any tx pending from extensions, since we may send close packet
* if there are problems with send, just nuke the connection
*/
ret = 1;
while (ret == 1) {
/* default to nobody has more to spill */
ret = 0;
eff_buf.token = NULL;
eff_buf.token_len = 0;
/* show every extension the new incoming data */
for (n = 0; n < wsi->count_active_extensions; n++) {
m = wsi->active_extensions[n]->callback(
wsi->protocol->owning_server,
wsi->active_extensions[n], wsi,
LWS_EXT_CALLBACK_FLUSH_PENDING_TX,
wsi->active_extensions_user[n], &eff_buf, 0);
if (m < 0) {
fprintf(stderr, "Extension reports "
"fatal error\n");
goto just_kill_connection;
}
if (m)
/*
* at least one extension told us he has more
* to spill, so we will go around again after
*/
ret = 1;
}
/* assuming they left us something to send, send it */
if (eff_buf.token_len)
if (lws_issue_raw(wsi, (unsigned char *)eff_buf.token,
eff_buf.token_len))
goto just_kill_connection;
}
/*
* signal we are closing, libsocket_write will
* add any necessary version-specific stuff. If the write fails,
* no worries we are closing anyway. If we didn't initiate this
* close, then our state has been changed to
* WSI_STATE_RETURNED_CLOSE_ALREADY and we will skip this.
*
* Likewise if it's a second call to close this connection after we
* sent the close indication to the peer already, we are in state
* WSI_STATE_AWAITING_CLOSE_ACK and will skip doing this a second time.
*/
if (old_state == WSI_STATE_ESTABLISHED &&
reason != LWS_CLOSE_STATUS_NOSTATUS) {
debug("sending close indication...\n");
n = libwebsocket_write(wsi, &buf[LWS_SEND_BUFFER_PRE_PADDING],
0, LWS_WRITE_CLOSE);
if (!n) {
/*
* we have sent a nice protocol level indication we
* now wish to close, we should not send anything more
*/
wsi->state = WSI_STATE_AWAITING_CLOSE_ACK;
/* and we should wait for a reply for a bit */
libwebsocket_set_timeout(wsi,
PENDING_TIMEOUT_CLOSE_ACK, 5);
debug("sent close indication, awaiting ack\n");
return;
}
/* else, the send failed and we should just hang up */
}
just_kill_connection:
debug("libwebsocket_close_and_free_session: just_kill_connection\n");
/*
* we won't be servicing or receiving anything further from this guy
* remove this fd from wsi mapping hashtable
*/
if (wsi->sock)
delete_from_fd(context, wsi->sock);
/* delete it from the internal poll list if still present */
for (n = 0; n < context->fds_count; n++) {
if (context->fds[n].fd != wsi->sock)
continue;
while (n < context->fds_count - 1) {
context->fds[n] = context->fds[n + 1];
n++;
}
context->fds_count--;
/* we only have to deal with one */
n = context->fds_count;
}
/* remove also from external POLL support via protocol 0 */
if (wsi->sock)
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_DEL_POLL_FD, (void *)(long)wsi->sock, NULL, 0);
wsi->state = WSI_STATE_DEAD_SOCKET;
/* tell the user it's all over for this guy */
if (wsi->protocol && wsi->protocol->callback &&
((old_state == WSI_STATE_ESTABLISHED) ||
(old_state == WSI_STATE_RETURNED_CLOSE_ALREADY) ||
(old_state == WSI_STATE_AWAITING_CLOSE_ACK))) {
debug("calling back CLOSED\n");
wsi->protocol->callback(context, wsi, LWS_CALLBACK_CLOSED,
wsi->user_space, NULL, 0);
} else
debug("not calling back closed, old_state=%d\n", old_state);
/* deallocate any active extension contexts */
for (n = 0; n < wsi->count_active_extensions; n++) {
if (!wsi->active_extensions[n]->callback)
continue;
wsi->active_extensions[n]->callback(context,
wsi->active_extensions[n], wsi,
LWS_EXT_CALLBACK_DESTROY,
wsi->active_extensions_user[n], NULL, 0);
free(wsi->active_extensions_user[n]);
}
/*
* inform all extensions in case they tracked this guy out of band
* even though not active on him specifically
*/
ext = context->extensions;
while (ext && ext->callback) {
ext->callback(context, ext, wsi,
LWS_EXT_CALLBACK_DESTROY_ANY_WSI_CLOSING,
NULL, NULL, 0);
ext++;
}
/* free up his parsing allocations */
for (n = 0; n < WSI_TOKEN_COUNT; n++)
if (wsi->utf8_token[n].token)
free(wsi->utf8_token[n].token);
if (wsi->c_address)
free(wsi->c_address);
/* fprintf(stderr, "closing fd=%d\n", wsi->sock); */
#ifdef LWS_OPENSSL_SUPPORT
if (wsi->ssl) {
n = SSL_get_fd(wsi->ssl);
SSL_shutdown(wsi->ssl);
#ifdef WIN32
closesocket(n);
#else
close(n);
#endif
SSL_free(wsi->ssl);
} else {
#endif
shutdown(wsi->sock, SHUT_RDWR);
#ifdef WIN32
if (wsi->sock)
closesocket(wsi->sock);
#else
if (wsi->sock)
close(wsi->sock);
#endif
#ifdef LWS_OPENSSL_SUPPORT
}
#endif
if (wsi->protocol && wsi->protocol->per_session_data_size && wsi->user_space) /* user code may own */
free(wsi->user_space);
free(wsi);
}
/**
* libwebsockets_hangup_on_client() - Server calls to terminate client
* connection
* @context: libwebsockets context
* @fd: Connection socket descriptor
*/
void
libwebsockets_hangup_on_client(struct libwebsocket_context *context, int fd)
{
struct libwebsocket *wsi = wsi_from_fd(context, fd);
if (wsi == NULL)
return;
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
}
/**
* libwebsockets_get_peer_addresses() - Get client address information
* @fd: Connection socket descriptor
* @name: Buffer to take client address name
* @name_len: Length of client address name buffer
* @rip: Buffer to take client address IP qotted quad
* @rip_len: Length of client address IP buffer
*
* This function fills in @name and @rip with the name and IP of
* the client connected with socket descriptor @fd. Names may be
* truncated if there is not enough room. If either cannot be
* determined, they will be returned as valid zero-length strings.
*/
void
libwebsockets_get_peer_addresses(int fd, char *name, int name_len,
char *rip, int rip_len)
{
unsigned int len;
struct sockaddr_in sin;
struct hostent *host;
struct hostent *host1;
char ip[128];
unsigned char *p;
int n;
struct sockaddr_un *un;
rip[0] = '\0';
name[0] = '\0';
len = sizeof sin;
if (getpeername(fd, (struct sockaddr *) &sin, &len) < 0) {
perror("getpeername");
return;
}
host = gethostbyaddr((char *) &sin.sin_addr, sizeof sin.sin_addr,
AF_INET);
if (host == NULL) {
perror("gethostbyaddr");
return;
}
strncpy(name, host->h_name, name_len);
name[name_len - 1] = '\0';
host1 = gethostbyname(host->h_name);
if (host1 == NULL)
return;
p = (unsigned char *)host1;
n = 0;
while (p != NULL) {
p = (unsigned char *)host1->h_addr_list[n++];
if (p == NULL)
continue;
if ((host1->h_addrtype != AF_INET)
#ifdef AF_LOCAL
&& (host1->h_addrtype != AF_LOCAL)
#endif
)
continue;
if (host1->h_addrtype == AF_INET)
sprintf(ip, "%u.%u.%u.%u", p[0], p[1], p[2], p[3]);
#ifdef AF_LOCAL
else {
un = (struct sockaddr_un *)p;
strncpy(ip, un->sun_path, sizeof(ip) - 1);
ip[sizeof(ip) - 1] = '\0';
}
#endif
p = NULL;
strncpy(rip, ip, rip_len);
rip[rip_len - 1] = '\0';
}
}
int libwebsockets_get_random(struct libwebsocket_context *context,
void *buf, int len)
{
int n;
char *p = buf;
#ifdef WIN32
for (n = 0; n < len; n++)
p[n] = (unsigned char)rand();
#else
n = read(context->fd_random, p, len);
#endif
return n;
}
unsigned char *
libwebsockets_SHA1(const unsigned char *d, size_t n, unsigned char *md)
{
return SHA1(d, n, md);
}
void libwebsockets_00_spaceout(char *key, int spaces, int seed)
{
char *p;
key++;
while (spaces--) {
if (*key && (seed & 1))
key++;
seed >>= 1;
p = key + strlen(key);
while (p >= key) {
p[1] = p[0];
p--;
}
*key++ = ' ';
}
}
void libwebsockets_00_spam(char *key, int count, int seed)
{
char *p;
key++;
while (count--) {
if (*key && (seed & 1))
key++;
seed >>= 1;
p = key + strlen(key);
while (p >= key) {
p[1] = p[0];
p--;
}
*key++ = 0x21 + ((seed & 0xffff) % 15);
/* 4 would use it up too fast.. not like it matters */
seed >>= 1;
}
}
int lws_send_pipe_choked(struct libwebsocket *wsi)
{
struct pollfd fds;
fds.fd = wsi->sock;
fds.events = POLLOUT;
fds.revents = 0;
if (poll(&fds, 1, 0) != 1)
return 1;
if ((fds.revents & POLLOUT) == 0)
return 1;
/* okay to send another packet without blocking */
return 0;
}
int
lws_handle_POLLOUT_event(struct libwebsocket_context *context,
struct libwebsocket *wsi, struct pollfd *pollfd)
{
struct lws_tokens eff_buf;
int n;
int ret;
int m;
int handled = 0;
for (n = 0; n < wsi->count_active_extensions; n++) {
if (!wsi->active_extensions[n]->callback)
continue;
m = wsi->active_extensions[n]->callback(context,
wsi->active_extensions[n], wsi,
LWS_EXT_CALLBACK_IS_WRITEABLE,
wsi->active_extensions_user[n], NULL, 0);
if (m > handled)
handled = m;
}
if (handled == 1)
goto notify_action;
if (!wsi->extension_data_pending || handled == 2)
goto user_service;
/*
* check in on the active extensions, see if they
* had pending stuff to spill... they need to get the
* first look-in otherwise sequence will be disordered
*
* NULL, zero-length eff_buf means just spill pending
*/
ret = 1;
while (ret == 1) {
/* default to nobody has more to spill */
ret = 0;
eff_buf.token = NULL;
eff_buf.token_len = 0;
/* give every extension a chance to spill */
for (n = 0; n < wsi->count_active_extensions; n++) {
m = wsi->active_extensions[n]->callback(
wsi->protocol->owning_server,
wsi->active_extensions[n], wsi,
LWS_EXT_CALLBACK_PACKET_TX_PRESEND,
wsi->active_extensions_user[n], &eff_buf, 0);
if (m < 0) {
fprintf(stderr, "ext reports fatal error\n");
return -1;
}
if (m)
/*
* at least one extension told us he has more
* to spill, so we will go around again after
*/
ret = 1;
}
/* assuming they gave us something to send, send it */
if (eff_buf.token_len) {
if (lws_issue_raw(wsi, (unsigned char *)eff_buf.token,
eff_buf.token_len))
return -1;
} else
continue;
/* no extension has more to spill */
if (!ret)
continue;
/*
* There's more to spill from an extension, but we just sent
* something... did that leave the pipe choked?
*/
if (!lws_send_pipe_choked(wsi))
/* no we could add more */
continue;
debug("choked in POLLOUT service\n");
/*
* Yes, he's choked. Leave the POLLOUT masked on so we will
* come back here when he is unchoked. Don't call the user
* callback to enforce ordering of spilling, he'll get called
* when we come back here and there's nothing more to spill.
*/
return 0;
}
wsi->extension_data_pending = 0;
user_service:
/* one shot */
if (pollfd) {
pollfd->events &= ~POLLOUT;
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_CLEAR_MODE_POLL_FD,
(void *)(long)wsi->sock, NULL, POLLOUT);
}
notify_action:
if (wsi->mode == LWS_CONNMODE_WS_CLIENT)
n = LWS_CALLBACK_CLIENT_WRITEABLE;
else
n = LWS_CALLBACK_SERVER_WRITEABLE;
wsi->protocol->callback(context, wsi, n, wsi->user_space, NULL, 0);
return 0;
}
void
libwebsocket_service_timeout_check(struct libwebsocket_context *context,
struct libwebsocket *wsi, unsigned int sec)
{
int n;
/*
* if extensions want in on it (eg, we are a mux parent)
* give them a chance to service child timeouts
*/
for (n = 0; n < wsi->count_active_extensions; n++)
wsi->active_extensions[n]->callback(
context, wsi->active_extensions[n],
wsi, LWS_EXT_CALLBACK_1HZ,
wsi->active_extensions_user[n], NULL, sec);
if (!wsi->pending_timeout)
return;
/*
* if we went beyond the allowed time, kill the
* connection
*/
if (sec > wsi->pending_timeout_limit) {
debug("TIMEDOUT WAITING\n");
libwebsocket_close_and_free_session(context,
wsi, LWS_CLOSE_STATUS_NOSTATUS);
}
}
struct libwebsocket *
libwebsocket_create_new_server_wsi(struct libwebsocket_context *context)
{
struct libwebsocket *new_wsi;
int n;
new_wsi = malloc(sizeof(struct libwebsocket));
if (new_wsi == NULL) {
fprintf(stderr, "Out of memory for new connection\n");
return NULL;
}
memset(new_wsi, 0, sizeof(struct libwebsocket));
new_wsi->count_active_extensions = 0;
new_wsi->pending_timeout = NO_PENDING_TIMEOUT;
/* intialize the instance struct */
new_wsi->state = WSI_STATE_HTTP;
new_wsi->name_buffer_pos = 0;
new_wsi->mode = LWS_CONNMODE_WS_SERVING;
for (n = 0; n < WSI_TOKEN_COUNT; n++) {
new_wsi->utf8_token[n].token = NULL;
new_wsi->utf8_token[n].token_len = 0;
}
/*
* these can only be set once the protocol is known
* we set an unestablished connection's protocol pointer
* to the start of the supported list, so it can look
* for matching ones during the handshake
*/
new_wsi->protocol = context->protocols;
new_wsi->user_space = NULL;
/*
* Default protocol is 76 / 00
* After 76, there's a header specified to inform which
* draft the client wants, when that's seen we modify
* the individual connection's spec revision accordingly
*/
new_wsi->ietf_spec_revision = 0;
return new_wsi;
}
char *
libwebsockets_generate_client_handshake(struct libwebsocket_context *context,
struct libwebsocket *wsi, char *pkt)
{
char hash[20];
char *p = pkt;
int n;
struct libwebsocket_extension *ext;
struct libwebsocket_extension *ext1;
int ext_count = 0;
unsigned char buf[LWS_SEND_BUFFER_PRE_PADDING + 1 +
MAX_BROADCAST_PAYLOAD + LWS_SEND_BUFFER_POST_PADDING];
static const char magic_websocket_guid[] =
"258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
/*
* create the random key
*/
n = libwebsockets_get_random(context, hash, 16);
if (n != 16) {
fprintf(stderr, "Unable to read from random dev %s\n",
SYSTEM_RANDOM_FILEPATH);
free(wsi->c_path);
free(wsi->c_host);
if (wsi->c_origin)
free(wsi->c_origin);
if (wsi->c_protocol)
free(wsi->c_protocol);
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
return NULL;
}
lws_b64_encode_string(hash, 16, wsi->key_b64,
sizeof wsi->key_b64);
/*
* 00 example client handshake
*
* GET /socket.io/websocket HTTP/1.1
* Upgrade: WebSocket
* Connection: Upgrade
* Host: 127.0.0.1:9999
* Origin: http://127.0.0.1
* Sec-WebSocket-Key1: 1 0 2#0W 9 89 7 92 ^
* Sec-WebSocket-Key2: 7 7Y 4328 B2v[8(z1
* Cookie: socketio=websocket
*
* (Á®Ä0¶†≥
*
* 04 example client handshake
*
* GET /chat HTTP/1.1
* Host: server.example.com
* Upgrade: websocket
* Connection: Upgrade
* Sec-WebSocket-Key: dGhlIHNhbXBsZSBub25jZQ==
* Sec-WebSocket-Origin: http://example.com
* Sec-WebSocket-Protocol: chat, superchat
* Sec-WebSocket-Version: 4
*/
p += sprintf(p, "GET %s HTTP/1.1\x0d\x0a", wsi->c_path);
if (wsi->ietf_spec_revision == 0) {
unsigned char spaces_1, spaces_2;
unsigned int max_1, max_2;
unsigned int num_1, num_2;
unsigned long product_1, product_2;
char key_1[40];
char key_2[40];
unsigned int seed;
unsigned int count;
char challenge[16];
libwebsockets_get_random(context, &spaces_1, sizeof(char));
libwebsockets_get_random(context, &spaces_2, sizeof(char));
spaces_1 = (spaces_1 % 12) + 1;
spaces_2 = (spaces_2 % 12) + 1;
max_1 = 4294967295 / spaces_1;
max_2 = 4294967295 / spaces_2;
libwebsockets_get_random(context, &num_1, sizeof(int));
libwebsockets_get_random(context, &num_2, sizeof(int));
num_1 = (num_1 % max_1);
num_2 = (num_2 % max_2);
challenge[0] = num_1 >> 24;
challenge[1] = num_1 >> 16;
challenge[2] = num_1 >> 8;
challenge[3] = num_1;
challenge[4] = num_2 >> 24;
challenge[5] = num_2 >> 16;
challenge[6] = num_2 >> 8;
challenge[7] = num_2;
product_1 = num_1 * spaces_1;
product_2 = num_2 * spaces_2;
sprintf(key_1, "%lu", product_1);
sprintf(key_2, "%lu", product_2);
libwebsockets_get_random(context, &seed, sizeof(int));
libwebsockets_get_random(context, &count, sizeof(int));
libwebsockets_00_spam(key_1, (count % 12) + 1, seed);
libwebsockets_get_random(context, &seed, sizeof(int));
libwebsockets_get_random(context, &count, sizeof(int));
libwebsockets_00_spam(key_2, (count % 12) + 1, seed);
libwebsockets_get_random(context, &seed, sizeof(int));
libwebsockets_00_spaceout(key_1, spaces_1, seed);
libwebsockets_00_spaceout(key_2, spaces_2, seed >> 16);
p += sprintf(p, "Upgrade: WebSocket\x0d\x0a"
"Connection: Upgrade\x0d\x0aHost: %s\x0d\x0a",
wsi->c_host);
if (wsi->c_origin)
p += sprintf(p, "Origin: %s\x0d\x0a", wsi->c_origin);
if (wsi->c_protocol)
p += sprintf(p, "Sec-WebSocket-Protocol: %s"
"\x0d\x0a", wsi->c_protocol);
p += sprintf(p, "Sec-WebSocket-Key1: %s\x0d\x0a", key_1);
p += sprintf(p, "Sec-WebSocket-Key2: %s\x0d\x0a", key_2);
/* give userland a chance to append, eg, cookies */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_CLIENT_APPEND_HANDSHAKE_HEADER,
NULL, &p, (pkt + sizeof(pkt)) - p - 12);
p += sprintf(p, "\x0d\x0a");
if (libwebsockets_get_random(context, p, 8) != 8)
return NULL;
memcpy(&challenge[8], p, 8);
p += 8;
/* precompute what we want to see from the server */
MD5((unsigned char *)challenge, 16,
(unsigned char *)wsi->initial_handshake_hash_base64);
goto issue_hdr;
}
p += sprintf(p, "Host: %s\x0d\x0a", wsi->c_host);
p += sprintf(p, "Upgrade: websocket\x0d\x0a");
p += sprintf(p, "Connection: Upgrade\x0d\x0a"
"Sec-WebSocket-Key: ");
strcpy(p, wsi->key_b64);
p += strlen(wsi->key_b64);
p += sprintf(p, "\x0d\x0a");
if (wsi->c_origin)
p += sprintf(p, "Sec-WebSocket-Origin: %s\x0d\x0a",
wsi->c_origin);
if (wsi->c_protocol)
p += sprintf(p, "Sec-WebSocket-Protocol: %s\x0d\x0a",
wsi->c_protocol);
/* tell the server what extensions we could support */
p += sprintf(p, "Sec-WebSocket-Extensions: ");
ext = context->extensions;
while (ext && ext->callback) {
n = 0;
ext1 = context->extensions;
while (ext1 && ext1->callback) {
n |= ext1->callback(context, ext1, wsi,
LWS_EXT_CALLBACK_CHECK_OK_TO_PROPOSE_EXTENSION,
NULL, (char *)ext->name, 0);
ext1++;
}
if (n) { /* an extension vetos us */
debug("ext %s vetoed\n", (char *)ext->name);
ext++;
continue;
}
n = context->protocols[0].callback(context, wsi,
LWS_CALLBACK_CLIENT_CONFIRM_EXTENSION_SUPPORTED,
wsi->user_space, (char *)ext->name, 0);
/*
* zero return from callback means
* go ahead and allow the extension,
* it's what we get if the callback is
* unhandled
*/
if (n) {
ext++;
continue;
}
/* apply it */
if (ext_count)
*p++ = ',';
p += sprintf(p, "%s", ext->name);
ext_count++;
ext++;
}
p += sprintf(p, "\x0d\x0a");
if (wsi->ietf_spec_revision)
p += sprintf(p, "Sec-WebSocket-Version: %d\x0d\x0a",
wsi->ietf_spec_revision);
/* give userland a chance to append, eg, cookies */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_CLIENT_APPEND_HANDSHAKE_HEADER,
NULL, &p, (pkt + sizeof(pkt)) - p - 12);
p += sprintf(p, "\x0d\x0a");
/* prepare the expected server accept response */
strcpy((char *)buf, wsi->key_b64);
strcpy((char *)&buf[strlen((char *)buf)], magic_websocket_guid);
SHA1(buf, strlen((char *)buf), (unsigned char *)hash);
lws_b64_encode_string(hash, 20,
wsi->initial_handshake_hash_base64,
sizeof wsi->initial_handshake_hash_base64);
issue_hdr:
#if 0
puts(pkt);
#endif
/* done with these now */
free(wsi->c_path);
free(wsi->c_host);
if (wsi->c_origin)
free(wsi->c_origin);
return p;
}
int
lws_client_interpret_server_handshake(struct libwebsocket_context *context,
struct libwebsocket *wsi)
{
unsigned char buf[LWS_SEND_BUFFER_PRE_PADDING + 1 +
MAX_BROADCAST_PAYLOAD + LWS_SEND_BUFFER_POST_PADDING];
char pkt[1024];
char *p = &pkt[0];
const char *pc;
const char *c;
int more = 1;
int okay = 0;
char ext_name[128];
struct libwebsocket_extension *ext;
void *v;
int len = 0;
int n;
static const char magic_websocket_04_masking_guid[] =
"61AC5F19-FBBA-4540-B96F-6561F1AB40A8";
/*
* 00 / 76 -->
*
* HTTP/1.1 101 WebSocket Protocol Handshake
* Upgrade: WebSocket
* Connection: Upgrade
* Sec-WebSocket-Origin: http://127.0.0.1
* Sec-WebSocket-Location: ws://127.0.0.1:9999/socket.io/websocket
*
* xxxxxxxxxxxxxxxx
*/
if (wsi->ietf_spec_revision == 0) {
if (!wsi->utf8_token[WSI_TOKEN_HTTP].token_len ||
!wsi->utf8_token[WSI_TOKEN_UPGRADE].token_len ||
!wsi->utf8_token[WSI_TOKEN_CHALLENGE].token_len ||
!wsi->utf8_token[WSI_TOKEN_CONNECTION].token_len ||
(!wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len &&
wsi->c_protocol != NULL)) {
debug("libwebsocket_client_handshake "
"missing required header(s)\n");
pkt[len] = '\0';
debug("%s", pkt);
goto bail3;
}
strtolower(wsi->utf8_token[WSI_TOKEN_HTTP].token);
if (strncmp(wsi->utf8_token[WSI_TOKEN_HTTP].token, "101", 3)) {
fprintf(stderr, "libwebsocket_client_handshake "
"server sent bad HTTP response '%s'\n",
wsi->utf8_token[WSI_TOKEN_HTTP].token);
goto bail3;
}
if (wsi->utf8_token[WSI_TOKEN_CHALLENGE].token_len < 16) {
fprintf(stderr, "libwebsocket_client_handshake "
"challenge reply too short %d\n",
wsi->utf8_token[
WSI_TOKEN_CHALLENGE].token_len);
pkt[len] = '\0';
debug("%s", pkt);
goto bail3;
}
goto select_protocol;
}
/*
* well, what the server sent looked reasonable for syntax.
* Now let's confirm it sent all the necessary headers
*/
#if 0
fprintf(stderr, "WSI_TOKEN_HTTP: %d\n",
wsi->utf8_token[WSI_TOKEN_HTTP].token_len);
fprintf(stderr, "WSI_TOKEN_UPGRADE: %d\n",
wsi->utf8_token[WSI_TOKEN_UPGRADE].token_len);
fprintf(stderr, "WSI_TOKEN_CONNECTION: %d\n",
wsi->utf8_token[WSI_TOKEN_CONNECTION].token_len);
fprintf(stderr, "WSI_TOKEN_ACCEPT: %d\n",
wsi->utf8_token[WSI_TOKEN_ACCEPT].token_len);
fprintf(stderr, "WSI_TOKEN_NONCE: %d\n",
wsi->utf8_token[WSI_TOKEN_NONCE].token_len);
fprintf(stderr, "WSI_TOKEN_PROTOCOL: %d\n",
wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len);
#endif
if (!wsi->utf8_token[WSI_TOKEN_HTTP].token_len ||
!wsi->utf8_token[WSI_TOKEN_UPGRADE].token_len ||
!wsi->utf8_token[WSI_TOKEN_CONNECTION].token_len ||
!wsi->utf8_token[WSI_TOKEN_ACCEPT].token_len ||
(!wsi->utf8_token[WSI_TOKEN_NONCE].token_len &&
wsi->ietf_spec_revision == 4) ||
(!wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len &&
wsi->c_protocol != NULL)) {
debug("libwebsocket_client_handshake "
"missing required header(s)\n");
pkt[len] = '\0';
debug("%s", pkt);
goto bail3;
}
/*
* Everything seems to be there, now take a closer look at what
* is in each header
*/
strtolower(wsi->utf8_token[WSI_TOKEN_HTTP].token);
if (strncmp(wsi->utf8_token[WSI_TOKEN_HTTP].token, "101", 3)) {
fprintf(stderr, "libwebsocket_client_handshake "
"server sent bad HTTP response '%s'\n",
wsi->utf8_token[WSI_TOKEN_HTTP].token);
goto bail3;
}
strtolower(wsi->utf8_token[WSI_TOKEN_UPGRADE].token);
if (strcmp(wsi->utf8_token[WSI_TOKEN_UPGRADE].token,
"websocket")) {
fprintf(stderr, "libwebsocket_client_handshake server "
"sent bad Upgrade header '%s'\n",
wsi->utf8_token[WSI_TOKEN_UPGRADE].token);
goto bail3;
}
strtolower(wsi->utf8_token[WSI_TOKEN_CONNECTION].token);
if (strcmp(wsi->utf8_token[WSI_TOKEN_CONNECTION].token,
"upgrade")) {
fprintf(stderr, "libwebsocket_client_handshake server "
"sent bad Connection hdr '%s'\n",
wsi->utf8_token[WSI_TOKEN_CONNECTION].token);
goto bail3;
}
select_protocol:
pc = wsi->c_protocol;
if (pc == NULL)
fprintf(stderr, "lws_client_interpret_server_handshake: "
"NULL c_protocol\n");
else
debug("lws_client_interpret_server_handshake: "
"cPprotocol='%s'\n", pc);
/*
* confirm the protocol the server wants to talk was in the list
* of protocols we offered
*/
if (!wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len) {
fprintf(stderr, "lws_client_interpret_server_handshake "
"WSI_TOKEN_PROTOCOL is null\n");
/*
* no protocol name to work from,
* default to first protocol
*/
wsi->protocol = &context->protocols[0];
wsi->c_callback = wsi->protocol->callback;
free(wsi->c_protocol);
goto check_accept;
}
while (*pc && !okay) {
if ((!strncmp(pc, wsi->utf8_token[WSI_TOKEN_PROTOCOL].token,
wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len)) &&
(pc[wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len] == ',' ||
pc[wsi->utf8_token[WSI_TOKEN_PROTOCOL].token_len] == '\0')) {
okay = 1;
continue;
}
while (*pc && *pc != ',')
pc++;
while (*pc && *pc != ' ')
pc++;
}
/* done with him now */
if (wsi->c_protocol)
free(wsi->c_protocol);
if (!okay) {
fprintf(stderr, "libwebsocket_client_handshake server "
"sent bad protocol '%s'\n",
wsi->utf8_token[WSI_TOKEN_PROTOCOL].token);
goto bail2;
}
/*
* identify the selected protocol struct and set it
*/
n = 0;
wsi->protocol = NULL;
while (context->protocols[n].callback && !wsi->protocol) { /* Stop after finding first one?? */
if (strcmp(wsi->utf8_token[WSI_TOKEN_PROTOCOL].token,
context->protocols[n].name) == 0) {
wsi->protocol = &context->protocols[n];
wsi->c_callback = wsi->protocol->callback;
}
n++;
}
if (wsi->protocol == NULL) {
fprintf(stderr, "libwebsocket_client_handshake server "
"requested protocol '%s', which we "
"said we supported but we don't!\n",
wsi->utf8_token[WSI_TOKEN_PROTOCOL].token);
goto bail2;
}
/* instantiate the accepted extensions */
if (!wsi->utf8_token[WSI_TOKEN_EXTENSIONS].token_len) {
debug("no client extenstions allowed by server\n");
goto check_accept;
}
/*
* break down the list of server accepted extensions
* and go through matching them or identifying bogons
*/
c = wsi->utf8_token[WSI_TOKEN_EXTENSIONS].token;
n = 0;
while (more) {
if (*c && (*c != ',' && *c != ' ' && *c != '\t')) {
ext_name[n] = *c++;
if (n < sizeof(ext_name) - 1)
n++;
continue;
}
ext_name[n] = '\0';
if (!*c)
more = 0;
else {
c++;
if (!n)
continue;
}
/* check we actually support it */
debug("checking client ext %s\n", ext_name);
n = 0;
ext = wsi->protocol->owning_server->extensions;
while (ext && ext->callback) {
if (strcmp(ext_name, ext->name)) {
ext++;
continue;
}
n = 1;
debug("instantiating client ext %s\n", ext_name);
/* instantiate the extension on this conn */
wsi->active_extensions_user[
wsi->count_active_extensions] =
malloc(ext->per_session_data_size);
memset(wsi->active_extensions_user[
wsi->count_active_extensions], 0,
ext->per_session_data_size);
wsi->active_extensions[
wsi->count_active_extensions] = ext;
/* allow him to construct his context */
ext->callback(wsi->protocol->owning_server,
ext, wsi,
LWS_EXT_CALLBACK_CLIENT_CONSTRUCT,
wsi->active_extensions_user[
wsi->count_active_extensions],
NULL, 0);
wsi->count_active_extensions++;
ext++;
}
if (n == 0) {
fprintf(stderr, "Server said we should use"
"an unknown extension '%s'!\n", ext_name);
goto bail2;
}
n = 0;
}
check_accept:
if (wsi->ietf_spec_revision == 0) {
if (memcmp(wsi->initial_handshake_hash_base64,
wsi->utf8_token[WSI_TOKEN_CHALLENGE].token, 16)) {
fprintf(stderr, "libwebsocket_client_handshake "
"failed 00 challenge compare\n");
pkt[len] = '\0';
fprintf(stderr, "%s", pkt);
goto bail2;
}
goto accept_ok;
}
/*
* Confirm his accept token is the one we precomputed
*/
if (strcmp(wsi->utf8_token[WSI_TOKEN_ACCEPT].token,
wsi->initial_handshake_hash_base64)) {
fprintf(stderr, "libwebsocket_client_handshake server "
"sent bad ACCEPT '%s' vs computed '%s'\n",
wsi->utf8_token[WSI_TOKEN_ACCEPT].token,
wsi->initial_handshake_hash_base64);
goto bail2;
}
if (wsi->ietf_spec_revision == 4) {
/*
* Calculate the 04 masking key to use when
* sending data to server
*/
strcpy((char *)buf, wsi->key_b64);
p = (char *)buf + strlen(wsi->key_b64);
strcpy(p, wsi->utf8_token[WSI_TOKEN_NONCE].token);
p += wsi->utf8_token[WSI_TOKEN_NONCE].token_len;
strcpy(p, magic_websocket_04_masking_guid);
SHA1(buf, strlen((char *)buf), wsi->masking_key_04);
}
accept_ok:
/* allocate the per-connection user memory (if any) */
if (wsi->protocol->per_session_data_size &&
!libwebsocket_ensure_user_space(wsi))
goto bail2;
/* clear his proxy connection timeout */
libwebsocket_set_timeout(wsi, NO_PENDING_TIMEOUT, 0);
/* mark him as being alive */
wsi->state = WSI_STATE_ESTABLISHED;
wsi->mode = LWS_CONNMODE_WS_CLIENT;
debug("handshake OK for protocol %s\n", wsi->protocol->name);
/* call him back to inform him he is up */
wsi->protocol->callback(context, wsi,
LWS_CALLBACK_CLIENT_ESTABLISHED,
wsi->user_space, NULL, 0);
/*
* inform all extensions, not just active ones since they
* already know
*/
ext = context->extensions;
while (ext && ext->callback) {
v = NULL;
for (n = 0; n < wsi->count_active_extensions; n++)
if (wsi->active_extensions[n] == ext)
v = wsi->active_extensions_user[n];
ext->callback(context, ext, wsi,
LWS_EXT_CALLBACK_ANY_WSI_ESTABLISHED, v, NULL, 0);
ext++;
}
return 0;
bail3:
if (wsi->c_protocol)
free(wsi->c_protocol);
bail2:
if (wsi->c_callback) wsi->c_callback(context, wsi,
LWS_CALLBACK_CLIENT_CONNECTION_ERROR,
wsi->user_space,
NULL, 0);
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS); // But this should be LWS_CLOSE_STATUS_PROTOCOL_ERR
return 1;
}
/**
* libwebsocket_service_fd() - Service polled socket with something waiting
* @context: Websocket context
* @pollfd: The pollfd entry describing the socket fd and which events
* happened.
*
* This function closes any active connections and then frees the
* context. After calling this, any further use of the context is
* undefined.
*/
int
libwebsocket_service_fd(struct libwebsocket_context *context,
struct pollfd *pollfd)
{
unsigned char buf[LWS_SEND_BUFFER_PRE_PADDING + 1 +
MAX_BROADCAST_PAYLOAD + LWS_SEND_BUFFER_POST_PADDING];
struct libwebsocket *wsi;
struct libwebsocket *new_wsi;
int n;
int m;
ssize_t len;
int accept_fd;
unsigned int clilen;
struct sockaddr_in cli_addr;
struct timeval tv;
char pkt[1024];
char *p = &pkt[0];
int more = 1;
struct lws_tokens eff_buf;
int opt = 1;
char c;
#ifdef LWS_OPENSSL_SUPPORT
char ssl_err_buf[512];
#endif
/*
* you can call us with pollfd = NULL to just allow the once-per-second
* global timeout checks; if less than a second since the last check
* it returns immediately then.
*/
gettimeofday(&tv, NULL);
if (context->last_timeout_check_s != tv.tv_sec) {
context->last_timeout_check_s = tv.tv_sec;
/* global timeout check once per second */
for (n = 0; n < context->fds_count; n++) {
wsi = wsi_from_fd(context, context->fds[n].fd);
libwebsocket_service_timeout_check(context, wsi,
tv.tv_sec);
}
}
/* just here for timeout management? */
if (pollfd == NULL)
return 0;
/* no, here to service a socket descriptor */
wsi = wsi_from_fd(context, pollfd->fd);
if (wsi == NULL)
return 1;
switch (wsi->mode) {
case LWS_CONNMODE_SERVER_LISTENER:
/* pollin means a client has connected to us then */
if (!pollfd->revents & POLLIN)
break;
if (context->fds_count >= MAX_CLIENTS) {
fprintf(stderr, "too busy to accept new client\n");
break;
}
/* listen socket got an unencrypted connection... */
clilen = sizeof(cli_addr);
accept_fd = accept(pollfd->fd, (struct sockaddr *)&cli_addr,
&clilen);
if (accept_fd < 0) {
debug("ERROR on accept\n");
return -1;
}
/* Disable Nagle */
opt = 1;
setsockopt(accept_fd, IPPROTO_TCP, TCP_NODELAY,
(const void *)&opt, sizeof(opt));
/*
* look at who we connected to and give user code a chance
* to reject based on client IP. There's no protocol selected
* yet so we issue this to protocols[0]
*/
if ((context->protocols[0].callback)(context, wsi,
LWS_CALLBACK_FILTER_NETWORK_CONNECTION,
(void *)(long)accept_fd, NULL, 0)) {
debug("Callback denied network connection\n");
#ifdef WIN32
closesocket(accept_fd);
#else
close(accept_fd);
#endif
break;
}
/* accepting connection to main listener */
new_wsi = libwebsocket_create_new_server_wsi(context);
if (new_wsi == NULL)
break;
new_wsi->sock = accept_fd;
#ifdef LWS_OPENSSL_SUPPORT
new_wsi->ssl = NULL;
if (context->use_ssl) {
new_wsi->ssl = SSL_new(context->ssl_ctx);
if (new_wsi->ssl == NULL) {
fprintf(stderr, "SSL_new failed: %s\n",
ERR_error_string(SSL_get_error(
new_wsi->ssl, 0), NULL));
libwebsockets_decode_ssl_error();
free(new_wsi);
break;
}
SSL_set_fd(new_wsi->ssl, accept_fd);
n = SSL_accept(new_wsi->ssl);
if (n != 1) {
/*
* browsers seem to probe with various
* ssl params which fail then retry
* and succeed
*/
debug("SSL_accept failed skt %u: %s\n",
pollfd->fd,
ERR_error_string(SSL_get_error(
new_wsi->ssl, n), NULL));
SSL_free(
new_wsi->ssl);
free(new_wsi);
break;
}
debug("accepted new SSL conn "
"port %u on fd=%d SSL ver %s\n",
ntohs(cli_addr.sin_port), accept_fd,
SSL_get_version(new_wsi->ssl));
} else
#endif
debug("accepted new conn port %u on fd=%d\n",
ntohs(cli_addr.sin_port), accept_fd);
insert_wsi(context, new_wsi);
/*
* make sure NO events are seen yet on this new socket
* (otherwise we inherit old fds[client].revents from
* previous socket there and die mysteriously! )
*/
context->fds[context->fds_count].revents = 0;
context->fds[context->fds_count].events = POLLIN;
context->fds[context->fds_count++].fd = accept_fd;
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, new_wsi,
LWS_CALLBACK_ADD_POLL_FD,
(void *)(long)accept_fd, NULL, POLLIN);
break;
case LWS_CONNMODE_BROADCAST_PROXY_LISTENER:
/* as we are listening, POLLIN means accept() is needed */
if (!pollfd->revents & POLLIN)
break;
/* listen socket got an unencrypted connection... */
clilen = sizeof(cli_addr);
accept_fd = accept(pollfd->fd, (struct sockaddr *)&cli_addr,
&clilen);
if (accept_fd < 0) {
debug("ERROR on accept\n");
return -1;
}
if (context->fds_count >= MAX_CLIENTS) {
fprintf(stderr, "too busy to accept new broadcast "
"proxy client\n");
#ifdef WIN32
closesocket(accept_fd);
#else
close(accept_fd);
#endif
break;
}
/* create a dummy wsi for the connection and add it */
new_wsi = malloc(sizeof(struct libwebsocket));
memset(new_wsi, 0, sizeof(struct libwebsocket));
new_wsi->sock = accept_fd;
new_wsi->mode = LWS_CONNMODE_BROADCAST_PROXY;
new_wsi->state = WSI_STATE_ESTABLISHED;
new_wsi->count_active_extensions = 0;
/* note which protocol we are proxying */
new_wsi->protocol_index_for_broadcast_proxy =
wsi->protocol_index_for_broadcast_proxy;
insert_wsi(context, new_wsi);
/* add connected socket to internal poll array */
context->fds[context->fds_count].revents = 0;
context->fds[context->fds_count].events = POLLIN;
context->fds[context->fds_count++].fd = accept_fd;
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, new_wsi,
LWS_CALLBACK_ADD_POLL_FD,
(void *)(long)accept_fd, NULL, POLLIN);
break;
case LWS_CONNMODE_BROADCAST_PROXY:
/* handle session socket closed */
if (pollfd->revents & (POLLERR | POLLHUP)) {
debug("Session Socket %p (fd=%d) dead\n",
(void *)wsi, pollfd->fd);
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NORMAL);
return 1;
}
/*
* either extension code with stuff to spill, or the user code,
* requested a callback when it was OK to write
*/
if (pollfd->revents & POLLOUT)
if (lws_handle_POLLOUT_event(context, wsi,
pollfd) < 0) {
libwebsocket_close_and_free_session(
context, wsi, LWS_CLOSE_STATUS_NORMAL);
return 1;
}
/* any incoming data ready? */
if (!(pollfd->revents & POLLIN))
break;
/* get the issued broadcast payload from the socket */
len = read(pollfd->fd, buf + LWS_SEND_BUFFER_PRE_PADDING,
MAX_BROADCAST_PAYLOAD);
if (len < 0) {
fprintf(stderr, "Error reading broadcast payload\n");
break;
}
/* broadcast it to all guys with this protocol index */
for (n = 0; n < FD_HASHTABLE_MODULUS; n++) {
for (m = 0; m < context->fd_hashtable[n].length; m++) {
new_wsi = context->fd_hashtable[n].wsi[m];
/* only to clients we are serving to */
if (new_wsi->mode != LWS_CONNMODE_WS_SERVING)
continue;
/*
* never broadcast to non-established
* connection
*/
if (new_wsi->state != WSI_STATE_ESTABLISHED)
continue;
/*
* only broadcast to connections using
* the requested protocol
*/
if (new_wsi->protocol->protocol_index !=
wsi->protocol_index_for_broadcast_proxy)
continue;
/* broadcast it to this connection */
new_wsi->protocol->callback(context, new_wsi,
LWS_CALLBACK_BROADCAST,
new_wsi->user_space,
buf + LWS_SEND_BUFFER_PRE_PADDING, len);
}
}
break;
case LWS_CONNMODE_WS_CLIENT_WAITING_PROXY_REPLY:
/* handle proxy hung up on us */
if (pollfd->revents & (POLLERR | POLLHUP)) {
fprintf(stderr, "Proxy connection %p (fd=%d) dead\n",
(void *)wsi, pollfd->fd);
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
return 1;
}
n = recv(wsi->sock, pkt, sizeof pkt, 0);
if (n < 0) {
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
fprintf(stderr, "ERROR reading from proxy socket\n");
return 1;
}
pkt[13] = '\0';
if (strcmp(pkt, "HTTP/1.0 200 ") != 0) {
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
fprintf(stderr, "ERROR from proxy: %s\n", pkt);
return 1;
}
/* clear his proxy connection timeout */
libwebsocket_set_timeout(wsi, NO_PENDING_TIMEOUT, 0);
/* fallthru */
case LWS_CONNMODE_WS_CLIENT_ISSUE_HANDSHAKE:
#ifdef LWS_OPENSSL_SUPPORT
if (wsi->use_ssl && !wsi->ssl) {
wsi->ssl = SSL_new(context->ssl_client_ctx);
wsi->client_bio = BIO_new_socket(wsi->sock,
BIO_NOCLOSE);
SSL_set_bio(wsi->ssl, wsi->client_bio, wsi->client_bio);
SSL_set_ex_data(wsi->ssl,
openssl_websocket_private_data_index,
context);
}
if (wsi->use_ssl) {
if (SSL_connect(wsi->ssl) <= 0) {
/*
* retry if new data comes until we
* run into the connection timeout or win
*/
fprintf(stderr, "SSL connect error %s\n",
ERR_error_string(ERR_get_error(),
ssl_err_buf));
return 0;
}
n = SSL_get_verify_result(wsi->ssl);
if ((n != X509_V_OK) && (
n != X509_V_ERR_DEPTH_ZERO_SELF_SIGNED_CERT ||
wsi->use_ssl != 2)) {
fprintf(stderr, "server's cert didn't "
"look good %d\n", n);
libwebsocket_close_and_free_session(context,
wsi, LWS_CLOSE_STATUS_NOSTATUS);
return 1;
}
} else
wsi->ssl = NULL;
#endif
p = libwebsockets_generate_client_handshake(context, wsi, p);
if (p == NULL)
return 1;
/* send our request to the server */
#ifdef LWS_OPENSSL_SUPPORT
if (wsi->use_ssl)
n = SSL_write(wsi->ssl, pkt, p - pkt);
else
#endif
n = send(wsi->sock, pkt, p - pkt, 0);
if (n < 0) {
fprintf(stderr, "ERROR writing to client socket\n");
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
return 1;
}
wsi->parser_state = WSI_TOKEN_NAME_PART;
wsi->mode = LWS_CONNMODE_WS_CLIENT_WAITING_SERVER_REPLY;
libwebsocket_set_timeout(wsi,
PENDING_TIMEOUT_AWAITING_SERVER_RESPONSE, 5);
break;
case LWS_CONNMODE_WS_CLIENT_WAITING_SERVER_REPLY:
/* handle server hung up on us */
if (pollfd->revents & (POLLERR | POLLHUP)) {
fprintf(stderr, "Server connection %p (fd=%d) dead\n",
(void *)wsi, pollfd->fd);
goto bail3;
}
/* interpret the server response */
/*
* HTTP/1.1 101 Switching Protocols
* Upgrade: websocket
* Connection: Upgrade
* Sec-WebSocket-Accept: me89jWimTRKTWwrS3aRrL53YZSo=
* Sec-WebSocket-Nonce: AQIDBAUGBwgJCgsMDQ4PEC==
* Sec-WebSocket-Protocol: chat
*/
/*
* we have to take some care here to only take from the
* socket bytewise. The browser may (and has been seen to
* in the case that onopen() performs websocket traffic)
* coalesce both handshake response and websocket traffic
* in one packet, since at that point the connection is
* definitively ready from browser pov.
*/
len = 1;
while (wsi->parser_state != WSI_PARSING_COMPLETE && len > 0) {
#ifdef LWS_OPENSSL_SUPPORT
if (wsi->use_ssl)
len = SSL_read(wsi->ssl, &c, 1);
else
#endif
len = recv(wsi->sock, &c, 1, 0);
libwebsocket_parse(wsi, c);
}
/*
* hs may also be coming in multiple packets, there is a 5-sec
* libwebsocket timeout still active here too, so if parsing did
* not complete just wait for next packet coming in this state
*/
if (wsi->parser_state != WSI_PARSING_COMPLETE)
break;
/*
* otherwise deal with the handshake. If there's any
* packet traffic already arrived we'll trigger poll() again
* right away and deal with it that way
*/
return lws_client_interpret_server_handshake(context, wsi);
bail3:
if (wsi->c_protocol)
free(wsi->c_protocol);
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
return 1;
case LWS_CONNMODE_WS_CLIENT_WAITING_EXTENSION_CONNECT:
fprintf(stderr,
"LWS_CONNMODE_WS_CLIENT_WAITING_EXTENSION_CONNECT\n");
break;
case LWS_CONNMODE_WS_CLIENT_PENDING_CANDIDATE_CHILD:
fprintf(stderr,
"LWS_CONNMODE_WS_CLIENT_PENDING_CANDIDATE_CHILD\n");
break;
case LWS_CONNMODE_WS_SERVING:
case LWS_CONNMODE_WS_CLIENT:
/* handle session socket closed */
if (pollfd->revents & (POLLERR | POLLHUP)) {
fprintf(stderr, "Session Socket %p (fd=%d) dead\n",
(void *)wsi, pollfd->fd);
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
return 1;
}
/* the guy requested a callback when it was OK to write */
if ((pollfd->revents & POLLOUT) &&
wsi->state == WSI_STATE_ESTABLISHED)
if (lws_handle_POLLOUT_event(context, wsi,
pollfd) < 0) {
libwebsocket_close_and_free_session(
context, wsi, LWS_CLOSE_STATUS_NORMAL);
return 1;
}
/* any incoming data ready? */
if (!(pollfd->revents & POLLIN))
break;
#ifdef LWS_OPENSSL_SUPPORT
if (wsi->ssl)
eff_buf.token_len = SSL_read(wsi->ssl, buf, sizeof buf);
else
#endif
eff_buf.token_len =
recv(pollfd->fd, buf, sizeof buf, 0);
if (eff_buf.token_len < 0) {
fprintf(stderr, "Socket read returned %d\n",
eff_buf.token_len);
if (errno != EINTR)
libwebsocket_close_and_free_session(context,
wsi, LWS_CLOSE_STATUS_NOSTATUS);
return 1;
}
if (!eff_buf.token_len) {
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
return 1;
}
/*
* give any active extensions a chance to munge the buffer
* before parse. We pass in a pointer to an lws_tokens struct
* prepared with the default buffer and content length that's in
* there. Rather than rewrite the default buffer, extensions
* that expect to grow the buffer can adapt .token to
* point to their own per-connection buffer in the extension
* user allocation. By default with no extensions or no
* extension callback handling, just the normal input buffer is
* used then so it is efficient.
*/
eff_buf.token = (char *)buf;
more = 1;
while (more) {
more = 0;
for (n = 0; n < wsi->count_active_extensions; n++) {
m = wsi->active_extensions[n]->callback(context,
wsi->active_extensions[n], wsi,
LWS_EXT_CALLBACK_PACKET_RX_PREPARSE,
wsi->active_extensions_user[n],
&eff_buf, 0);
if (m < 0) {
fprintf(stderr,
"Extension reports fatal error\n");
libwebsocket_close_and_free_session(
context, wsi,
LWS_CLOSE_STATUS_NOSTATUS);
return 1;
}
if (m)
more = 1;
}
/* service incoming data */
if (eff_buf.token_len) {
n = libwebsocket_read(context, wsi,
(unsigned char *)eff_buf.token,
eff_buf.token_len);
if (n < 0)
/* we closed wsi */
return 1;
}
eff_buf.token = NULL;
eff_buf.token_len = 0;
}
break;
}
return 0;
}
/**
* libwebsocket_context_destroy() - Destroy the websocket context
* @context: Websocket context
*
* This function closes any active connections and then frees the
* context. After calling this, any further use of the context is
* undefined.
*/
void
libwebsocket_context_destroy(struct libwebsocket_context *context)
{
int n;
int m;
struct libwebsocket *wsi;
struct libwebsocket_extension *ext;
for (n = 0; n < FD_HASHTABLE_MODULUS; n++)
for (m = 0; m < context->fd_hashtable[n].length; m++) {
wsi = context->fd_hashtable[n].wsi[m];
libwebsocket_close_and_free_session(context, wsi,
LWS_CLOSE_STATUS_GOINGAWAY);
}
/*
* give all extensions a chance to clean up any per-context
* allocations they might have made
*/
ext = context->extensions;
m = LWS_EXT_CALLBACK_CLIENT_CONTEXT_DESTRUCT;
if (context->listen_port)
m = LWS_EXT_CALLBACK_SERVER_CONTEXT_DESTRUCT;
while (ext && ext->callback) {
ext->callback(context, ext, NULL, m, NULL, NULL, 0);
ext++;
}
#ifdef WIN32
#else
close(context->fd_random);
#endif
#ifdef LWS_OPENSSL_SUPPORT
if (context->ssl_ctx)
SSL_CTX_free(context->ssl_ctx);
if (context->ssl_client_ctx)
SSL_CTX_free(context->ssl_client_ctx);
#endif
free(context);
#ifdef WIN32
WSACleanup();
#endif
}
/**
* libwebsocket_service() - Service any pending websocket activity
* @context: Websocket context
* @timeout_ms: Timeout for poll; 0 means return immediately if nothing needed
* service otherwise block and service immediately, returning
* after the timeout if nothing needed service.
*
* This function deals with any pending websocket traffic, for three
* kinds of event. It handles these events on both server and client
* types of connection the same.
*
* 1) Accept new connections to our context's server
*
* 2) Perform pending broadcast writes initiated from other forked
* processes (effectively serializing asynchronous broadcasts)
*
* 3) Call the receive callback for incoming frame data received by
* server or client connections.
*
* You need to call this service function periodically to all the above
* functions to happen; if your application is single-threaded you can
* just call it in your main event loop.
*
* Alternatively you can fork a new process that asynchronously handles
* calling this service in a loop. In that case you are happy if this
* call blocks your thread until it needs to take care of something and
* would call it with a large nonzero timeout. Your loop then takes no
* CPU while there is nothing happening.
*
* If you are calling it in a single-threaded app, you don't want it to
* wait around blocking other things in your loop from happening, so you
* would call it with a timeout_ms of 0, so it returns immediately if
* nothing is pending, or as soon as it services whatever was pending.
*/
int
libwebsocket_service(struct libwebsocket_context *context, int timeout_ms)
{
int n;
/* stay dead once we are dead */
if (context == NULL)
return 1;
/* wait for something to need service */
n = poll(context->fds, context->fds_count, timeout_ms);
if (n == 0) /* poll timeout */
return 0;
if (n < 0) {
/*
fprintf(stderr, "Listen Socket dead\n");
*/
return -1;
}
/* handle accept on listening socket? */
for (n = 0; n < context->fds_count; n++)
if (context->fds[n].revents)
if (libwebsocket_service_fd(context,
&context->fds[n]) < 0)
return -1;
return 0;
}
int
lws_any_extension_handled(struct libwebsocket_context *context,
struct libwebsocket *wsi,
enum libwebsocket_extension_callback_reasons r,
void *v, size_t len)
{
int n;
int handled = 0;
/* maybe an extension will take care of it for us */
for (n = 0; n < wsi->count_active_extensions && !handled; n++) {
if (!wsi->active_extensions[n]->callback)
continue;
handled |= wsi->active_extensions[n]->callback(context,
wsi->active_extensions[n], wsi,
r, wsi->active_extensions_user[n], v, len);
}
return handled;
}
void *
lws_get_extension_user_matching_ext(struct libwebsocket *wsi,
struct libwebsocket_extension *ext)
{
int n = 0;
if (wsi == NULL)
return NULL;
while (n < wsi->count_active_extensions) {
if (wsi->active_extensions[n] != ext) {
n++;
continue;
}
return wsi->active_extensions_user[n];
}
return NULL;
}
/**
* libwebsocket_callback_on_writable() - Request a callback when this socket
* becomes able to be written to without
* blocking
*
* @context: libwebsockets context
* @wsi: Websocket connection instance to get callback for
*/
int
libwebsocket_callback_on_writable(struct libwebsocket_context *context,
struct libwebsocket *wsi)
{
int n;
int handled = 0;
/* maybe an extension will take care of it for us */
for (n = 0; n < wsi->count_active_extensions; n++) {
if (!wsi->active_extensions[n]->callback)
continue;
handled |= wsi->active_extensions[n]->callback(context,
wsi->active_extensions[n], wsi,
LWS_EXT_CALLBACK_REQUEST_ON_WRITEABLE,
wsi->active_extensions_user[n], NULL, 0);
}
if (handled)
return 1;
for (n = 0; n < context->fds_count; n++)
if (context->fds[n].fd == wsi->sock) {
context->fds[n].events |= POLLOUT;
n = context->fds_count + 1;
}
if (n == context->fds_count)
fprintf(stderr, "libwebsocket_callback_on_writable: "
"failed to find socket %d\n", wsi->sock);
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_SET_MODE_POLL_FD,
(void *)(long)wsi->sock, NULL, POLLOUT);
return 1;
}
/**
* libwebsocket_callback_on_writable_all_protocol() - Request a callback for
* all connections using the given protocol when it
* becomes possible to write to each socket without
* blocking in turn.
*
* @protocol: Protocol whose connections will get callbacks
*/
int
libwebsocket_callback_on_writable_all_protocol(
const struct libwebsocket_protocols *protocol)
{
struct libwebsocket_context *context = protocol->owning_server;
int n;
int m;
struct libwebsocket *wsi;
for (n = 0; n < FD_HASHTABLE_MODULUS; n++) {
for (m = 0; m < context->fd_hashtable[n].length; m++) {
wsi = context->fd_hashtable[n].wsi[m];
if (wsi->protocol == protocol)
libwebsocket_callback_on_writable(context, wsi);
}
}
return 0;
}
/**
* libwebsocket_set_timeout() - marks the wsi as subject to a timeout
*
* You will not need this unless you are doing something special
*
* @wsi: Websocket connection instance
* @reason: timeout reason
* @secs: how many seconds
*/
void
libwebsocket_set_timeout(struct libwebsocket *wsi,
enum pending_timeout reason, int secs)
{
struct timeval tv;
gettimeofday(&tv, NULL);
wsi->pending_timeout_limit = tv.tv_sec + secs;
wsi->pending_timeout = reason;
}
/**
* libwebsocket_get_socket_fd() - returns the socket file descriptor
*
* You will not need this unless you are doing something special
*
* @wsi: Websocket connection instance
*/
int
libwebsocket_get_socket_fd(struct libwebsocket *wsi)
{
return wsi->sock;
}
/**
* libwebsocket_rx_flow_control() - Enable and disable socket servicing for
* receieved packets.
*
* If the output side of a server process becomes choked, this allows flow
* control for the input side.
*
* @wsi: Websocket connection instance to get callback for
* @enable: 0 = disable read servicing for this connection, 1 = enable
*/
int
libwebsocket_rx_flow_control(struct libwebsocket *wsi, int enable)
{
struct libwebsocket_context *context = wsi->protocol->owning_server;
int n;
for (n = 0; n < context->fds_count; n++)
if (context->fds[n].fd == wsi->sock) {
if (enable)
context->fds[n].events |= POLLIN;
else
context->fds[n].events &= ~POLLIN;
return 0;
}
if (enable)
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_SET_MODE_POLL_FD,
(void *)(long)wsi->sock, NULL, POLLIN);
else
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_CLEAR_MODE_POLL_FD,
(void *)(long)wsi->sock, NULL, POLLIN);
#if 0
fprintf(stderr, "libwebsocket_rx_flow_control "
"unable to find socket\n");
#endif
return 1;
}
/**
* libwebsocket_canonical_hostname() - returns this host's hostname
*
* This is typically used by client code to fill in the host parameter
* when making a client connection. You can only call it after the context
* has been created.
*
* @context: Websocket context
*/
extern const char *
libwebsocket_canonical_hostname(struct libwebsocket_context *context)
{
return (const char *)context->canonical_hostname;
}
static void sigpipe_handler(int x)
{
}
#ifdef LWS_OPENSSL_SUPPORT
static int
OpenSSL_verify_callback(int preverify_ok, X509_STORE_CTX *x509_ctx)
{
SSL *ssl;
int n;
struct libwebsocket_context *context;
ssl = X509_STORE_CTX_get_ex_data(x509_ctx,
SSL_get_ex_data_X509_STORE_CTX_idx());
/*
* !!! nasty openssl requires the index to come as a library-scope
* static
*/
context = SSL_get_ex_data(ssl, openssl_websocket_private_data_index);
n = context->protocols[0].callback(NULL, NULL,
LWS_CALLBACK_OPENSSL_PERFORM_CLIENT_CERT_VERIFICATION,
x509_ctx, ssl, preverify_ok);
/* convert return code from 0 = OK to 1 = OK */
if (!n)
n = 1;
else
n = 0;
return n;
}
#endif
/**
* libwebsocket_create_context() - Create the websocket handler
* @port: Port to listen on... you can use 0 to suppress listening on
* any port, that's what you want if you are not running a
* websocket server at all but just using it as a client
* @interf: NULL to bind the listen socket to all interfaces, or the
* interface name, eg, "eth2"
* @protocols: 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
* @extensions: NULL or array of libwebsocket_extension structs listing the
* extensions this context supports
* @ssl_cert_filepath: 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
* @ssl_private_key_filepath: filepath to private key if wanting SSL mode,
* else ignored
* @gid: group id to change to after setting listen socket, or -1.
* @uid: user id to change to after setting listen socket, or -1.
* @options: 0, or LWS_SERVER_OPTION_DEFEAT_CLIENT_MASK
*
* This function creates the listening socket and takes care
* of all initialization in one step.
*
* After initialization, it returns a struct libwebsocket_context * that
* represents this server. After calling, user code needs to take care
* of calling libwebsocket_service() with the context pointer to get the
* server's sockets serviced. This can be done in the same process context
* or a forked process, or another thread,
*
* 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.
*
* HTTP requests are sent always to the FIRST protocol in @protocol, since
* at that time websocket protocol has not been negotiated. Other
* protocols after the first one never see any HTTP callack activity.
*
* 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.
*/
struct libwebsocket_context *
libwebsocket_create_context(int port, const char *interf,
struct libwebsocket_protocols *protocols,
struct libwebsocket_extension *extensions,
const char *ssl_cert_filepath,
const char *ssl_private_key_filepath,
int gid, int uid, unsigned int options)
{
int n;
int m;
int sockfd = 0;
int fd;
struct sockaddr_in serv_addr, cli_addr;
int opt = 1;
struct libwebsocket_context *context = NULL;
unsigned int slen;
char *p;
char hostname[1024] = "";
// struct hostent *he;
struct libwebsocket *wsi;
struct sockaddr sa;
#ifdef LWS_OPENSSL_SUPPORT
SSL_METHOD *method;
char ssl_err_buf[512];
#endif
#ifdef _WIN32
{
WORD wVersionRequested;
WSADATA wsaData;
int err;
HMODULE wsdll;
/* Use the MAKEWORD(lowbyte, highbyte) macro from Windef.h */
wVersionRequested = MAKEWORD(2, 2);
err = WSAStartup(wVersionRequested, &wsaData);
if (err != 0) {
/* Tell the user that we could not find a usable */
/* Winsock DLL. */
fprintf(stderr, "WSAStartup failed with error: %d\n",
err);
return NULL;
}
/* default to a poll() made out of select() */
poll = emulated_poll;
/* if windows socket lib available, use his WSAPoll */
wsdll = GetModuleHandle("Ws2_32.dll");
if (wsdll)
poll = (PFNWSAPOLL)GetProcAddress(wsdll, "WSAPoll");
}
#endif
context = malloc(sizeof(struct libwebsocket_context));
if (!context) {
fprintf(stderr, "No memory for websocket context\n");
return NULL;
}
context->protocols = protocols;
context->listen_port = port;
context->http_proxy_port = 0;
context->http_proxy_address[0] = '\0';
context->options = options;
context->fds_count = 0;
context->extensions = extensions;
context->last_timeout_check_s = 0;
#ifdef WIN32
context->fd_random = 0;
#else
context->fd_random = open(SYSTEM_RANDOM_FILEPATH, O_RDONLY);
if (context->fd_random < 0) {
fprintf(stderr, "Unable to open random device %s %d\n",
SYSTEM_RANDOM_FILEPATH, context->fd_random);
return NULL;
}
#endif
#ifdef LWS_OPENSSL_SUPPORT
context->use_ssl = 0;
context->ssl_ctx = NULL;
context->ssl_client_ctx = NULL;
openssl_websocket_private_data_index = 0;
#endif
/* find canonical hostname */
hostname[(sizeof hostname) - 1] = '\0';
memset(&sa, 0, sizeof(sa));
sa.sa_family = AF_INET;
sa.sa_data[(sizeof sa.sa_data) - 1] = '\0';
gethostname(hostname, (sizeof hostname) - 1);
n = 0;
if (strlen(hostname) < sizeof(sa.sa_data) - 1) {
strcpy(sa.sa_data, hostname);
// fprintf(stderr, "my host name is %s\n", sa.sa_data);
n = getnameinfo(&sa, sizeof(sa), hostname,
(sizeof hostname) - 1, NULL, 0, 0);
}
if (!n) {
strncpy(context->canonical_hostname, hostname,
sizeof context->canonical_hostname - 1);
context->canonical_hostname[
sizeof context->canonical_hostname - 1] = '\0';
} else
strncpy(context->canonical_hostname, hostname,
sizeof context->canonical_hostname - 1);
// fprintf(stderr, "context->canonical_hostname = %s\n",
// context->canonical_hostname);
/* split the proxy ads:port if given */
p = getenv("http_proxy");
if (p) {
strncpy(context->http_proxy_address, p,
sizeof context->http_proxy_address - 1);
context->http_proxy_address[
sizeof context->http_proxy_address - 1] = '\0';
p = strchr(context->http_proxy_address, ':');
if (p == NULL) {
fprintf(stderr, "http_proxy needs to be ads:port\n");
return NULL;
}
*p = '\0';
context->http_proxy_port = atoi(p + 1);
fprintf(stderr, "Using proxy %s:%u\n",
context->http_proxy_address,
context->http_proxy_port);
}
if (port) {
#ifdef LWS_OPENSSL_SUPPORT
context->use_ssl = ssl_cert_filepath != NULL &&
ssl_private_key_filepath != NULL;
if (context->use_ssl)
fprintf(stderr, " Compiled with SSL support, "
"using it\n");
else
fprintf(stderr, " Compiled with SSL support, "
"not using it\n");
#else
if (ssl_cert_filepath != NULL &&
ssl_private_key_filepath != NULL) {
fprintf(stderr, " Not compiled for OpenSSl support!\n");
return NULL;
}
fprintf(stderr, " Compiled without SSL support, "
"serving unencrypted\n");
#endif
}
/* ignore SIGPIPE */
#ifdef WIN32
#else
signal(SIGPIPE, sigpipe_handler);
#endif
#ifdef LWS_OPENSSL_SUPPORT
/* basic openssl init */
SSL_library_init();
OpenSSL_add_all_algorithms();
SSL_load_error_strings();
openssl_websocket_private_data_index =
SSL_get_ex_new_index(0, "libwebsockets", NULL, NULL, NULL);
/*
* Firefox insists on SSLv23 not SSLv3
* Konq disables SSLv2 by default now, SSLv23 works
*/
method = (SSL_METHOD *)SSLv23_server_method();
if (!method) {
fprintf(stderr, "problem creating ssl method: %s\n",
ERR_error_string(ERR_get_error(), ssl_err_buf));
return NULL;
}
context->ssl_ctx = SSL_CTX_new(method); /* create context */
if (!context->ssl_ctx) {
fprintf(stderr, "problem creating ssl context: %s\n",
ERR_error_string(ERR_get_error(), ssl_err_buf));
return NULL;
}
/* client context */
if (port == CONTEXT_PORT_NO_LISTEN) {
method = (SSL_METHOD *)SSLv23_client_method();
if (!method) {
fprintf(stderr, "problem creating ssl method: %s\n",
ERR_error_string(ERR_get_error(), ssl_err_buf));
return NULL;
}
/* create context */
context->ssl_client_ctx = SSL_CTX_new(method);
if (!context->ssl_client_ctx) {
fprintf(stderr, "problem creating ssl context: %s\n",
ERR_error_string(ERR_get_error(), ssl_err_buf));
return NULL;
}
/* openssl init for cert verification (for client sockets) */
if (!SSL_CTX_load_verify_locations(
context->ssl_client_ctx, NULL,
LWS_OPENSSL_CLIENT_CERTS))
fprintf(stderr,
"Unable to load SSL Client certs from %s "
"(set by --with-client-cert-dir= in configure) -- "
" client ssl isn't going to work",
LWS_OPENSSL_CLIENT_CERTS);
/*
* callback allowing user code to load extra verification certs
* helping the client to verify server identity
*/
context->protocols[0].callback(context, NULL,
LWS_CALLBACK_OPENSSL_LOAD_EXTRA_CLIENT_VERIFY_CERTS,
context->ssl_client_ctx, NULL, 0);
}
/* as a server, are we requiring clients to identify themselves? */
if (options & LWS_SERVER_OPTION_REQUIRE_VALID_OPENSSL_CLIENT_CERT) {
/* absolutely require the client cert */
SSL_CTX_set_verify(context->ssl_ctx,
SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT,
OpenSSL_verify_callback);
/*
* give user code a chance to load certs into the server
* allowing it to verify incoming client certs
*/
context->protocols[0].callback(context, NULL,
LWS_CALLBACK_OPENSSL_LOAD_EXTRA_SERVER_VERIFY_CERTS,
context->ssl_ctx, NULL, 0);
}
if (context->use_ssl) {
/* openssl init for server sockets */
/* set the local certificate from CertFile */
n = SSL_CTX_use_certificate_file(context->ssl_ctx,
ssl_cert_filepath, SSL_FILETYPE_PEM);
if (n != 1) {
fprintf(stderr, "problem getting cert '%s': %s\n",
ssl_cert_filepath,
ERR_error_string(ERR_get_error(), ssl_err_buf));
return NULL;
}
/* set the private key from KeyFile */
if (SSL_CTX_use_PrivateKey_file(context->ssl_ctx,
ssl_private_key_filepath, SSL_FILETYPE_PEM) != 1) {
fprintf(stderr, "ssl problem getting key '%s': %s\n",
ssl_private_key_filepath,
ERR_error_string(ERR_get_error(), ssl_err_buf));
return NULL;
}
/* verify private key */
if (!SSL_CTX_check_private_key(context->ssl_ctx)) {
fprintf(stderr, "Private SSL key doesn't match cert\n");
return NULL;
}
/* SSL is happy and has a cert it's content with */
}
#endif
/* selftest */
if (lws_b64_selftest())
return NULL;
/* fd hashtable init */
for (n = 0; n < FD_HASHTABLE_MODULUS; n++)
context->fd_hashtable[n].length = 0;
/* set up our external listening socket we serve on */
if (port) {
sockfd = socket(AF_INET, SOCK_STREAM, 0);
if (sockfd < 0) {
fprintf(stderr, "ERROR opening socket");
return NULL;
}
/* allow us to restart even if old sockets in TIME_WAIT */
setsockopt(sockfd, SOL_SOCKET, SO_REUSEADDR,
(const void *)&opt, sizeof(opt));
/* Disable Nagle */
opt = 1;
setsockopt(sockfd, IPPROTO_TCP, TCP_NODELAY,
(const void *)&opt, sizeof(opt));
bzero((char *) &serv_addr, sizeof(serv_addr));
serv_addr.sin_family = AF_INET;
if (interf == NULL)
serv_addr.sin_addr.s_addr = INADDR_ANY;
else
interface_to_sa(interf, &serv_addr,
sizeof(serv_addr));
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 NULL;
}
wsi = malloc(sizeof(struct libwebsocket));
memset(wsi, 0, sizeof(struct libwebsocket));
wsi->sock = sockfd;
wsi->count_active_extensions = 0;
wsi->mode = LWS_CONNMODE_SERVER_LISTENER;
insert_wsi(context, wsi);
listen(sockfd, 5);
fprintf(stderr, " Listening on port %d\n", port);
/* list in the internal poll array */
context->fds[context->fds_count].fd = sockfd;
context->fds[context->fds_count++].events = POLLIN;
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_ADD_POLL_FD,
(void *)(long)sockfd, NULL, POLLIN);
}
/*
* drop any root privs for this process
* to listen on port < 1023 we would have needed root, but now we are
* listening, we don't want the power for anything else
*/
#ifdef WIN32
#else
if (gid != -1)
if (setgid(gid))
fprintf(stderr, "setgid: %s\n", strerror(errno));
if (uid != -1)
if (setuid(uid))
fprintf(stderr, "setuid: %s\n", strerror(errno));
#endif
/* set up our internal broadcast trigger sockets per-protocol */
for (context->count_protocols = 0;
protocols[context->count_protocols].callback;
context->count_protocols++) {
debug(" Protocol: %s\n", protocols[context->count_protocols].name);
protocols[context->count_protocols].owning_server = context;
protocols[context->count_protocols].protocol_index =
context->count_protocols;
fd = socket(AF_INET, SOCK_STREAM, 0);
if (fd < 0) {
fprintf(stderr, "ERROR opening socket");
return NULL;
}
/* allow us to restart even if old sockets in TIME_WAIT */
setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, (const void *)&opt,
sizeof(opt));
bzero((char *) &serv_addr, sizeof(serv_addr));
serv_addr.sin_family = AF_INET;
serv_addr.sin_addr.s_addr = inet_addr("127.0.0.1");
serv_addr.sin_port = 0; /* pick the port for us */
n = bind(fd, (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 NULL;
}
slen = sizeof cli_addr;
n = getsockname(fd, (struct sockaddr *)&cli_addr, &slen);
if (n < 0) {
fprintf(stderr, "getsockname failed\n");
return NULL;
}
protocols[context->count_protocols].broadcast_socket_port =
ntohs(cli_addr.sin_port);
listen(fd, 5);
debug(" Protocol %s broadcast socket %d\n",
protocols[context->count_protocols].name,
ntohs(cli_addr.sin_port));
/* dummy wsi per broadcast proxy socket */
wsi = malloc(sizeof(struct libwebsocket));
memset(wsi, 0, sizeof(struct libwebsocket));
wsi->sock = fd;
wsi->mode = LWS_CONNMODE_BROADCAST_PROXY_LISTENER;
wsi->count_active_extensions = 0;
/* note which protocol we are proxying */
wsi->protocol_index_for_broadcast_proxy =
context->count_protocols;
insert_wsi(context, wsi);
/* list in internal poll array */
context->fds[context->fds_count].fd = fd;
context->fds[context->fds_count].events = POLLIN;
context->fds[context->fds_count].revents = 0;
context->fds_count++;
/* external POLL support via protocol 0 */
context->protocols[0].callback(context, wsi,
LWS_CALLBACK_ADD_POLL_FD,
(void *)(long)fd, NULL, POLLIN);
}
/*
* give all extensions a chance to create any per-context
* allocations they need
*/
m = LWS_EXT_CALLBACK_CLIENT_CONTEXT_CONSTRUCT;
if (port)
m = LWS_EXT_CALLBACK_SERVER_CONTEXT_CONSTRUCT;
if (extensions) {
while (extensions->callback) {
debug(" Extension: %s\n", extensions->name);
extensions->callback(context, extensions,
NULL, m, NULL, NULL, 0);
extensions++;
}
}
return context;
}
#ifndef LWS_NO_FORK
/**
* libwebsockets_fork_service_loop() - Optional helper function forks off
* a process for the websocket server loop.
* You don't have to use this but if not, you
* have to make sure you are calling
* libwebsocket_service periodically to service
* the websocket traffic
* @context: server context returned by creation function
*/
int
libwebsockets_fork_service_loop(struct libwebsocket_context *context)
{
int fd;
struct sockaddr_in cli_addr;
int n;
int p;
n = fork();
if (n < 0)
return n;
if (!n) {
/* main process context */
/*
* set up the proxy sockets to allow broadcast from
* service process context
*/
for (p = 0; p < context->count_protocols; p++) {
fd = socket(AF_INET, SOCK_STREAM, 0);
if (fd < 0) {
fprintf(stderr, "Unable to create socket\n");
return -1;
}
cli_addr.sin_family = AF_INET;
cli_addr.sin_port = htons(
context->protocols[p].broadcast_socket_port);
cli_addr.sin_addr.s_addr = inet_addr("127.0.0.1");
n = connect(fd, (struct sockaddr *)&cli_addr,
sizeof cli_addr);
if (n < 0) {
fprintf(stderr, "Unable to connect to "
"broadcast socket %d, %s\n",
n, strerror(errno));
return -1;
}
context->protocols[p].broadcast_socket_user_fd = fd;
}
return 0;
}
#ifdef HAVE_SYS_PRCTL_H
/* we want a SIGHUP when our parent goes down */
prctl(PR_SET_PDEATHSIG, SIGHUP);
#endif
/* in this forked process, sit and service websocket connections */
while (1) {
if (libwebsocket_service(context, 1000))
break;
#ifndef HAVE_SYS_PRCTL_H
/*
* on systems without prctl() (i.e. anything but linux) we can notice that our
* parent is dead if getppid() returns 1. FIXME apparently this is not true for
* solaris, could remember ppid right after fork and wait for it to change.
*/
if (getppid() == 1)
break;
#endif
}
return 1;
}
#endif
/**
* libwebsockets_get_protocol() - Returns a protocol pointer from a websocket
* connection.
* @wsi: pointer to struct websocket you want to know the protocol of
*
*
* This is useful to get the protocol to broadcast back to from inside
* the callback.
*/
const struct libwebsocket_protocols *
libwebsockets_get_protocol(struct libwebsocket *wsi)
{
return wsi->protocol;
}
/**
* libwebsockets_broadcast() - Sends a buffer to the callback for all active
* connections of the given protocol.
* @protocol: pointer to the protocol you will broadcast to all members of
* @buf: 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.
* @len: length of payload data in buf, starting from buf.
*
* 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 libwebsocket_write().
*
* libwebsockets_broadcast() can be called from another fork context without
* having to take any care about data visibility between the processes, it'll
* "just work".
*/
int
libwebsockets_broadcast(const struct libwebsocket_protocols *protocol,
unsigned char *buf, size_t len)
{
struct libwebsocket_context *context = protocol->owning_server;
int n;
int m;
struct libwebsocket *wsi;
if (!protocol->broadcast_socket_user_fd) {
/*
* We are either running unforked / flat, or we are being
* called from poll thread context
* eg, from a callback. In that case don't use sockets for
* broadcast IPC (since we can't open a socket connection to
* a socket listening on our own thread) but directly do the
* send action.
*
* Locking is not needed because we are by definition being
* called in the poll thread context and are serialized.
*/
for (n = 0; n < FD_HASHTABLE_MODULUS; n++) {
for (m = 0; m < context->fd_hashtable[n].length; m++) {
wsi = context->fd_hashtable[n].wsi[m];
if (wsi->mode != LWS_CONNMODE_WS_SERVING)
continue;
/*
* never broadcast to
* non-established connections
*/
if (wsi->state != WSI_STATE_ESTABLISHED)
continue;
/* only broadcast to guys using
* requested protocol
*/
if (wsi->protocol != protocol)
continue;
wsi->protocol->callback(context, wsi,
LWS_CALLBACK_BROADCAST,
wsi->user_space,
buf, len);
}
}
return 0;
}
/*
* We're being called from a different process context than the server
* loop. Instead of broadcasting directly, we send our
* payload on a socket to do the IPC; the server process will serialize
* the broadcast action in its main poll() loop.
*
* There's one broadcast socket listening for each protocol supported
* set up when the websocket server initializes
*/
n = send(protocol->broadcast_socket_user_fd, buf, len, MSG_NOSIGNAL);
return n;
}
int
libwebsocket_is_final_fragment(struct libwebsocket *wsi)
{
return wsi->final;
}
void *
libwebsocket_ensure_user_space(struct libwebsocket *wsi)
{
/* allocate the per-connection user memory (if any) */
if (wsi->protocol->per_session_data_size && !wsi->user_space) {
wsi->user_space = malloc(
wsi->protocol->per_session_data_size);
if (wsi->user_space == NULL) {
fprintf(stderr, "Out of memory for "
"conn user space\n");
return NULL;
}
memset(wsi->user_space, 0,
wsi->protocol->per_session_data_size);
}
return wsi->user_space;
}
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