#include "private-libwebsockets.h" static int lws_getaddrinfo46(struct lws *wsi, const char *ads, struct addrinfo **result) { struct addrinfo hints; memset(&hints, 0, sizeof(hints)); *result = NULL; #ifdef LWS_WITH_IPV6 if (wsi->ipv6) { #if !defined(__ANDROID__) hints.ai_family = AF_INET6; hints.ai_flags = AI_V4MAPPED; #endif } else #endif { hints.ai_family = PF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_flags = AI_CANONNAME; } return getaddrinfo(ads, NULL, &hints, result); } struct lws * lws_client_connect_2(struct lws *wsi) { sockaddr46 sa46; struct addrinfo *result; struct lws_context *context = wsi->context; struct lws_context_per_thread *pt = &context->pt[(int)wsi->tsi]; struct lws_pollfd pfd; const char *cce = "", *iface; int n, port; ssize_t plen = 0; const char *ads; #ifdef LWS_WITH_IPV6 char ipv6only = lws_check_opt(wsi->vhost->options, LWS_SERVER_OPTION_IPV6_V6ONLY_MODIFY | LWS_SERVER_OPTION_IPV6_V6ONLY_VALUE); #if defined(__ANDROID__) ipv6only = 0; #endif #endif lwsl_client("%s\n", __func__); if (!wsi->u.hdr.ah) { cce = "ah was NULL at cc2"; lwsl_err("%s\n", cce); goto oom4; } /* * start off allowing ipv6 on connection if vhost allows it */ wsi->ipv6 = LWS_IPV6_ENABLED(wsi->vhost); /* Decide what it is we need to connect to: * * Priority 1: connect to http proxy */ if (wsi->vhost->http_proxy_port) { plen = sprintf((char *)pt->serv_buf, "CONNECT %s:%u HTTP/1.0\x0d\x0a" "User-agent: libwebsockets\x0d\x0a", lws_hdr_simple_ptr(wsi, _WSI_TOKEN_CLIENT_PEER_ADDRESS), wsi->c_port); if (wsi->vhost->proxy_basic_auth_token[0]) plen += sprintf((char *)pt->serv_buf + plen, "Proxy-authorization: basic %s\x0d\x0a", wsi->vhost->proxy_basic_auth_token); plen += sprintf((char *)pt->serv_buf + plen, "\x0d\x0a"); ads = wsi->vhost->http_proxy_address; port = wsi->vhost->http_proxy_port; #if defined(LWS_WITH_SOCKS5) /* Priority 2: Connect to SOCK5 Proxy */ } else if (wsi->vhost->socks_proxy_port) { socks_generate_msg(wsi, SOCKS_MSG_GREETING, &plen); lwsl_client("Sending SOCKS Greeting\n"); ads = wsi->vhost->socks_proxy_address; port = wsi->vhost->socks_proxy_port; #endif } else { /* Priority 3: Connect directly */ ads = lws_hdr_simple_ptr(wsi, _WSI_TOKEN_CLIENT_PEER_ADDRESS); port = wsi->c_port; } /* * prepare the actual connection * to whatever we decided to connect to */ lwsl_notice("%s: %p: address %s\n", __func__, wsi, ads); n = lws_getaddrinfo46(wsi, ads, &result); #ifdef LWS_WITH_IPV6 if (wsi->ipv6) { if (n) { /* lws_getaddrinfo46 failed, there is no usable result */ lwsl_notice("%s: lws_getaddrinfo46 failed %d\n", __func__, n); cce = "ipv6 lws_getaddrinfo46 failed"; goto oom4; } memset(&sa46, 0, sizeof(sa46)); sa46.sa6.sin6_family = AF_INET6; switch (result->ai_family) { case AF_INET: if (ipv6only) break; /* map IPv4 to IPv6 */ bzero((char *)&sa46.sa6.sin6_addr, sizeof(sa46.sa6.sin6_addr)); sa46.sa6.sin6_addr.s6_addr[10] = 0xff; sa46.sa6.sin6_addr.s6_addr[11] = 0xff; memcpy(&sa46.sa6.sin6_addr.s6_addr[12], &((struct sockaddr_in *)result->ai_addr)->sin_addr, sizeof(struct in_addr)); lwsl_notice("uplevelling AF_INET to AF_INET6\n"); break; case AF_INET6: memcpy(&sa46.sa6.sin6_addr, &((struct sockaddr_in6 *)result->ai_addr)->sin6_addr, sizeof(struct in6_addr)); sa46.sa6.sin6_scope_id = ((struct sockaddr_in6 *)result->ai_addr)->sin6_scope_id; sa46.sa6.sin6_flowinfo = ((struct sockaddr_in6 *)result->ai_addr)->sin6_flowinfo; break; default: lwsl_err("Unknown address family\n"); freeaddrinfo(result); cce = "unknown address family"; goto oom4; } } else #endif /* use ipv6 */ /* use ipv4 */ { void *p = NULL; if (!n) { struct addrinfo *res = result; /* pick the first AF_INET (IPv4) result */ while (!p && res) { switch (res->ai_family) { case AF_INET: p = &((struct sockaddr_in *)res->ai_addr)->sin_addr; break; } res = res->ai_next; } #if defined(LWS_FALLBACK_GETHOSTBYNAME) } else if (n == EAI_SYSTEM) { struct hostent *host; lwsl_info("getaddrinfo (ipv4) failed, trying gethostbyname\n"); host = gethostbyname(ads); if (host) { p = host->h_addr; } else { lwsl_err("gethostbyname failed\n"); cce = "gethostbyname (ipv4) failed"; goto oom4; } #endif } else { lwsl_err("getaddrinfo failed\n"); cce = "getaddrinfo failed"; goto oom4; } if (!p) { if (result) freeaddrinfo(result); lwsl_err("Couldn't identify address\n"); cce = "unable to lookup address"; goto oom4; } sa46.sa4.sin_family = AF_INET; sa46.sa4.sin_addr = *((struct in_addr *)p); bzero(&sa46.sa4.sin_zero, 8); } if (result) freeaddrinfo(result); /* now we decided on ipv4 or ipv6, set the port */ if (!lws_socket_is_valid(wsi->desc.sockfd)) { #if defined(LWS_WITH_LIBUV) if (LWS_LIBUV_ENABLED(context)) if (lws_libuv_check_watcher_active(wsi)) { lwsl_warn("Waiting for libuv watcher to close\n"); cce = "waiting for libuv watcher to close"; goto oom4; } #endif #ifdef LWS_WITH_IPV6 if (wsi->ipv6) wsi->desc.sockfd = socket(AF_INET6, SOCK_STREAM, 0); else #endif wsi->desc.sockfd = socket(AF_INET, SOCK_STREAM, 0); if (!lws_socket_is_valid(wsi->desc.sockfd)) { lwsl_warn("Unable to open socket\n"); cce = "unable to open socket"; goto oom4; } if (lws_plat_set_socket_options(wsi->vhost, wsi->desc.sockfd)) { lwsl_err("Failed to set wsi socket options\n"); compatible_close(wsi->desc.sockfd); cce = "set socket opts failed"; goto oom4; } wsi->mode = LWSCM_WSCL_WAITING_CONNECT; lws_libev_accept(wsi, wsi->desc); lws_libuv_accept(wsi, wsi->desc); lws_libevent_accept(wsi, wsi->desc); if (insert_wsi_socket_into_fds(context, wsi)) { compatible_close(wsi->desc.sockfd); cce = "insert wsi failed"; goto oom4; } lws_change_pollfd(wsi, 0, LWS_POLLIN); /* * past here, we can't simply free the structs as error * handling as oom4 does. We have to run the whole close flow. */ if (!wsi->protocol) wsi->protocol = &wsi->vhost->protocols[0]; wsi->protocol->callback(wsi, LWS_CALLBACK_WSI_CREATE, wsi->user_space, NULL, 0); lws_set_timeout(wsi, PENDING_TIMEOUT_AWAITING_CONNECT_RESPONSE, AWAITING_TIMEOUT); iface = lws_hdr_simple_ptr(wsi, _WSI_TOKEN_CLIENT_IFACE); if (iface) { n = lws_socket_bind(wsi->vhost, wsi->desc.sockfd, 0, iface); if (n < 0) { cce = "unable to bind socket"; goto failed; } } } #ifdef LWS_WITH_IPV6 if (wsi->ipv6) { sa46.sa6.sin6_port = htons(port); n = sizeof(struct sockaddr_in6); } else #endif { sa46.sa4.sin_port = htons(port); n = sizeof(struct sockaddr); } if (connect(wsi->desc.sockfd, (const struct sockaddr *)&sa46, n) == -1 || LWS_ERRNO == LWS_EISCONN) { if (LWS_ERRNO == LWS_EALREADY || LWS_ERRNO == LWS_EINPROGRESS || LWS_ERRNO == LWS_EWOULDBLOCK #ifdef _WIN32 || LWS_ERRNO == WSAEINVAL #endif ) { lwsl_client("nonblocking connect retry (errno = %d)\n", LWS_ERRNO); if (lws_plat_check_connection_error(wsi)) { cce = "socket connect failed"; goto failed; } /* * must do specifically a POLLOUT poll to hear * about the connect completion */ if (lws_change_pollfd(wsi, 0, LWS_POLLOUT)) { cce = "POLLOUT set failed"; goto failed; } return wsi; } if (LWS_ERRNO != LWS_EISCONN) { lwsl_notice("Connect failed errno=%d\n", LWS_ERRNO); cce = "connect failed"; goto failed; } } lwsl_client("connected\n"); /* we are connected to server, or proxy */ /* http proxy */ if (wsi->vhost->http_proxy_port) { /* * OK from now on we talk via the proxy, so connect to that * * (will overwrite existing pointer, * leaving old string/frag there but unreferenced) */ if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_PEER_ADDRESS, wsi->vhost->http_proxy_address)) goto failed; wsi->c_port = wsi->vhost->http_proxy_port; n = send(wsi->desc.sockfd, (char *)pt->serv_buf, plen, MSG_NOSIGNAL); if (n < 0) { lwsl_debug("ERROR writing to proxy socket\n"); cce = "proxy write failed"; goto failed; } lws_set_timeout(wsi, PENDING_TIMEOUT_AWAITING_PROXY_RESPONSE, AWAITING_TIMEOUT); wsi->mode = LWSCM_WSCL_WAITING_PROXY_REPLY; return wsi; } #if defined(LWS_WITH_SOCKS5) /* socks proxy */ else if (wsi->vhost->socks_proxy_port) { n = send(wsi->desc.sockfd, (char *)pt->serv_buf, plen, MSG_NOSIGNAL); if (n < 0) { lwsl_debug("ERROR writing socks greeting\n"); cce = "socks write failed"; goto failed; } lws_set_timeout(wsi, PENDING_TIMEOUT_AWAITING_SOCKS_GREETING_REPLY, AWAITING_TIMEOUT); wsi->mode = LWSCM_WSCL_WAITING_SOCKS_GREETING_REPLY; return wsi; } #endif /* * provoke service to issue the handshake directly * we need to do it this way because in the proxy case, this is the * next state and executed only if and when we get a good proxy * response inside the state machine... but notice in SSL case this * may not have sent anything yet with 0 return, and won't until some * many retries from main loop. To stop that becoming endless, * cover with a timeout. */ lws_set_timeout(wsi, PENDING_TIMEOUT_SENT_CLIENT_HANDSHAKE, AWAITING_TIMEOUT); wsi->mode = LWSCM_WSCL_ISSUE_HANDSHAKE; pfd.fd = wsi->desc.sockfd; pfd.events = LWS_POLLIN; pfd.revents = LWS_POLLIN; n = lws_service_fd(context, &pfd); if (n < 0) { cce = "first service failed"; goto failed; } if (n) /* returns 1 on failure after closing wsi */ return NULL; return wsi; oom4: /* we're closing, losing some rx is OK */ lws_header_table_force_to_detachable_state(wsi); if (wsi->mode == LWSCM_HTTP_CLIENT || wsi->mode == LWSCM_HTTP_CLIENT_ACCEPTED || wsi->mode == LWSCM_WSCL_WAITING_CONNECT) { wsi->vhost->protocols[0].callback(wsi, LWS_CALLBACK_CLIENT_CONNECTION_ERROR, wsi->user_space, (void *)cce, strlen(cce)); wsi->already_did_cce = 1; } /* take care that we might be inserted in fds already */ if (wsi->position_in_fds_table != -1) goto failed1; lws_remove_from_timeout_list(wsi); lws_header_table_detach(wsi, 0); lws_free(wsi); return NULL; failed: wsi->vhost->protocols[0].callback(wsi, LWS_CALLBACK_CLIENT_CONNECTION_ERROR, wsi->user_space, (void *)cce, strlen(cce)); wsi->already_did_cce = 1; failed1: lws_close_free_wsi(wsi, LWS_CLOSE_STATUS_NOSTATUS); return NULL; } /** * lws_client_reset() - retarget a connected wsi to start over with a new connection (ie, redirect) * this only works if still in HTTP, ie, not upgraded yet * wsi: connection to reset * address: network address of the new server * port: port to connect to * path: uri path to connect to on the new server * host: host header to send to the new server */ LWS_VISIBLE struct lws * lws_client_reset(struct lws **pwsi, int ssl, const char *address, int port, const char *path, const char *host) { char origin[300] = "", protocol[300] = "", method[32] = "", iface[16] = "", *p; struct lws *wsi = *pwsi; if (wsi->redirects == 3) { lwsl_err("%s: Too many redirects\n", __func__); return NULL; } wsi->redirects++; p = lws_hdr_simple_ptr(wsi, _WSI_TOKEN_CLIENT_ORIGIN); if (p) strncpy(origin, p, sizeof(origin) - 1); p = lws_hdr_simple_ptr(wsi, _WSI_TOKEN_CLIENT_SENT_PROTOCOLS); if (p) strncpy(protocol, p, sizeof(protocol) - 1); p = lws_hdr_simple_ptr(wsi, _WSI_TOKEN_CLIENT_METHOD); if (p) strncpy(method, p, sizeof(method) - 1); p = lws_hdr_simple_ptr(wsi, _WSI_TOKEN_CLIENT_IFACE); if (p) strncpy(method, p, sizeof(iface) - 1); lwsl_info("redirect ads='%s', port=%d, path='%s', ssl = %d\n", address, port, path, ssl); /* close the connection by hand */ #ifdef LWS_OPENSSL_SUPPORT lws_ssl_close(wsi); #endif #ifdef LWS_WITH_LIBUV if (LWS_LIBUV_ENABLED(wsi->context)) { lwsl_debug("%s: lws_libuv_closehandle: wsi %p\n", __func__, wsi); /* * libuv has to do his own close handle processing asynchronously * but once it starts we can do everything else synchronously, * including trash wsi->desc.sockfd since it took a copy. * * When it completes it will call compatible_close() */ lws_libuv_closehandle_manually(wsi); } else #else compatible_close(wsi->desc.sockfd); #endif remove_wsi_socket_from_fds(wsi); #ifdef LWS_OPENSSL_SUPPORT wsi->use_ssl = ssl; #else if (ssl) { lwsl_err("%s: not configured for ssl\n", __func__); return NULL; } #endif wsi->desc.sockfd = LWS_SOCK_INVALID; wsi->state = LWSS_CLIENT_UNCONNECTED; wsi->protocol = NULL; wsi->pending_timeout = NO_PENDING_TIMEOUT; wsi->c_port = port; wsi->hdr_parsing_completed = 0; _lws_header_table_reset(wsi->u.hdr.ah); if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_PEER_ADDRESS, address)) return NULL; if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_HOST, host)) return NULL; if (origin[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_ORIGIN, origin)) return NULL; if (protocol[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_SENT_PROTOCOLS, protocol)) return NULL; if (method[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_METHOD, method)) return NULL; if (iface[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_IFACE, iface)) return NULL; origin[0] = '/'; strncpy(&origin[1], path, sizeof(origin) - 2); if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_URI, origin)) return NULL; *pwsi = lws_client_connect_2(wsi); return *pwsi; } #ifdef LWS_WITH_HTTP_PROXY static hubbub_error html_parser_cb(const hubbub_token *token, void *pw) { struct lws_rewrite *r = (struct lws_rewrite *)pw; char buf[1024], *start = buf + LWS_PRE, *p = start, *end = &buf[sizeof(buf) - 1]; size_t i; switch (token->type) { case HUBBUB_TOKEN_DOCTYPE: p += lws_snprintf(p, end - p, "data.doctype.name.len, token->data.doctype.name.ptr, token->data.doctype.force_quirks ? "(force-quirks) " : ""); if (token->data.doctype.public_missing) lwsl_debug("\tpublic: missing\n"); else p += lws_snprintf(p, end - p, "PUBLIC \"%.*s\"\n", (int) token->data.doctype.public_id.len, token->data.doctype.public_id.ptr); if (token->data.doctype.system_missing) lwsl_debug("\tsystem: missing\n"); else p += lws_snprintf(p, end - p, " \"%.*s\">\n", (int) token->data.doctype.system_id.len, token->data.doctype.system_id.ptr); break; case HUBBUB_TOKEN_START_TAG: p += lws_snprintf(p, end - p, "<%.*s", (int)token->data.tag.name.len, token->data.tag.name.ptr); /* (token->data.tag.self_closing) ? "(self-closing) " : "", (token->data.tag.n_attributes > 0) ? "attributes:" : ""); */ for (i = 0; i < token->data.tag.n_attributes; i++) { if (!hstrcmp(&token->data.tag.attributes[i].name, "href", 4) || !hstrcmp(&token->data.tag.attributes[i].name, "action", 6) || !hstrcmp(&token->data.tag.attributes[i].name, "src", 3)) { const char *pp = (const char *)token->data.tag.attributes[i].value.ptr; int plen = (int) token->data.tag.attributes[i].value.len; if (strncmp(pp, "http:", 5) && strncmp(pp, "https:", 6)) { if (!hstrcmp(&token->data.tag.attributes[i].value, r->from, r->from_len)) { pp += r->from_len; plen -= r->from_len; } p += lws_snprintf(p, end - p, " %.*s=\"%s/%.*s\"", (int) token->data.tag.attributes[i].name.len, token->data.tag.attributes[i].name.ptr, r->to, plen, pp); continue; } } p += lws_snprintf(p, end - p, " %.*s=\"%.*s\"", (int) token->data.tag.attributes[i].name.len, token->data.tag.attributes[i].name.ptr, (int) token->data.tag.attributes[i].value.len, token->data.tag.attributes[i].value.ptr); } p += lws_snprintf(p, end - p, ">"); break; case HUBBUB_TOKEN_END_TAG: p += lws_snprintf(p, end - p, "data.tag.name.len, token->data.tag.name.ptr); /* (token->data.tag.self_closing) ? "(self-closing) " : "", (token->data.tag.n_attributes > 0) ? "attributes:" : ""); */ for (i = 0; i < token->data.tag.n_attributes; i++) { p += lws_snprintf(p, end - p, " %.*s='%.*s'\n", (int) token->data.tag.attributes[i].name.len, token->data.tag.attributes[i].name.ptr, (int) token->data.tag.attributes[i].value.len, token->data.tag.attributes[i].value.ptr); } p += lws_snprintf(p, end - p, ">"); break; case HUBBUB_TOKEN_COMMENT: p += lws_snprintf(p, end - p, "\n", (int) token->data.comment.len, token->data.comment.ptr); break; case HUBBUB_TOKEN_CHARACTER: if (token->data.character.len == 1) { if (*token->data.character.ptr == '<') { p += lws_snprintf(p, end - p, "<"); break; } if (*token->data.character.ptr == '>') { p += lws_snprintf(p, end - p, ">"); break; } if (*token->data.character.ptr == '&') { p += lws_snprintf(p, end - p, "&"); break; } } p += lws_snprintf(p, end - p, "%.*s", (int) token->data.character.len, token->data.character.ptr); break; case HUBBUB_TOKEN_EOF: p += lws_snprintf(p, end - p, "\n"); break; } if (user_callback_handle_rxflow(r->wsi->protocol->callback, r->wsi, LWS_CALLBACK_RECEIVE_CLIENT_HTTP_READ, r->wsi->user_space, start, p - start)) return -1; return HUBBUB_OK; } #endif LWS_VISIBLE struct lws * lws_client_connect_via_info(struct lws_client_connect_info *i) { struct lws *wsi; int v = SPEC_LATEST_SUPPORTED; const struct lws_protocols *p; if (i->context->requested_kill) return NULL; if (!i->context->protocol_init_done) lws_protocol_init(i->context); wsi = lws_zalloc(sizeof(struct lws), "client wsi"); if (wsi == NULL) goto bail; wsi->context = i->context; /* assert the mode and union status (hdr) clearly */ lws_union_transition(wsi, LWSCM_HTTP_CLIENT); wsi->desc.sockfd = LWS_SOCK_INVALID; /* 1) fill up the wsi with stuff from the connect_info as far as it * can go. It's because not only is our connection async, we might * not even be able to get ahold of an ah at this point. */ /* -1 means just use latest supported */ if (i->ietf_version_or_minus_one != -1 && i->ietf_version_or_minus_one) v = i->ietf_version_or_minus_one; wsi->ietf_spec_revision = v; wsi->user_space = NULL; wsi->state = LWSS_CLIENT_UNCONNECTED; wsi->pending_timeout = NO_PENDING_TIMEOUT; wsi->position_in_fds_table = -1; wsi->c_port = i->port; wsi->vhost = i->vhost; if (!wsi->vhost) wsi->vhost = i->context->vhost_list; wsi->protocol = &wsi->vhost->protocols[0]; /* for http[s] connection, allow protocol selection by name */ if (i->method && i->vhost && i->protocol) { p = lws_vhost_name_to_protocol(i->vhost, i->protocol); if (p) wsi->protocol = p; } if (wsi && !wsi->user_space && i->userdata) { wsi->user_space_externally_allocated = 1; wsi->user_space = i->userdata; } else /* if we stay in http, we can assign the user space now, * otherwise do it after the protocol negotiated */ if (i->method) if (lws_ensure_user_space(wsi)) goto bail; #ifdef LWS_OPENSSL_SUPPORT wsi->use_ssl = i->ssl_connection; #else if (i->ssl_connection) { lwsl_err("libwebsockets not configured for ssl\n"); goto bail; } #endif /* 2) stash the things from connect_info that we can't process without * an ah. Because if no ah, we will go on the ah waiting list and * process those things later (after the connect_info and maybe the * things pointed to have gone out of scope. */ wsi->u.hdr.stash = lws_malloc(sizeof(*wsi->u.hdr.stash), "client stash"); if (!wsi->u.hdr.stash) { lwsl_err("%s: OOM\n", __func__); goto bail; } wsi->u.hdr.stash->origin[0] = '\0'; wsi->u.hdr.stash->protocol[0] = '\0'; wsi->u.hdr.stash->method[0] = '\0'; wsi->u.hdr.stash->iface[0] = '\0'; strncpy(wsi->u.hdr.stash->address, i->address, sizeof(wsi->u.hdr.stash->address) - 1); strncpy(wsi->u.hdr.stash->path, i->path, sizeof(wsi->u.hdr.stash->path) - 1); strncpy(wsi->u.hdr.stash->host, i->host, sizeof(wsi->u.hdr.stash->host) - 1); if (i->origin) strncpy(wsi->u.hdr.stash->origin, i->origin, sizeof(wsi->u.hdr.stash->origin) - 1); if (i->protocol) strncpy(wsi->u.hdr.stash->protocol, i->protocol, sizeof(wsi->u.hdr.stash->protocol) - 1); if (i->method) strncpy(wsi->u.hdr.stash->method, i->method, sizeof(wsi->u.hdr.stash->method) - 1); if (i->iface) strncpy(wsi->u.hdr.stash->iface, i->iface, sizeof(wsi->u.hdr.stash->iface) - 1); wsi->u.hdr.stash->address[sizeof(wsi->u.hdr.stash->address) - 1] = '\0'; wsi->u.hdr.stash->path[sizeof(wsi->u.hdr.stash->path) - 1] = '\0'; wsi->u.hdr.stash->host[sizeof(wsi->u.hdr.stash->host) - 1] = '\0'; wsi->u.hdr.stash->origin[sizeof(wsi->u.hdr.stash->origin) - 1] = '\0'; wsi->u.hdr.stash->protocol[sizeof(wsi->u.hdr.stash->protocol) - 1] = '\0'; wsi->u.hdr.stash->method[sizeof(wsi->u.hdr.stash->method) - 1] = '\0'; wsi->u.hdr.stash->iface[sizeof(wsi->u.hdr.stash->iface) - 1] = '\0'; if (i->pwsi) *i->pwsi = wsi; /* if we went on the waiting list, no probs just return the wsi * when we get the ah, now or later, he will call * lws_client_connect_via_info2() below. */ if (lws_header_table_attach(wsi, 0) < 0) { /* * if we failed here, the connection is already closed * and freed. */ goto bail1; } if (i->parent_wsi) { lwsl_info("%s: created child %p of parent %p\n", __func__, wsi, i->parent_wsi); wsi->parent = i->parent_wsi; wsi->sibling_list = i->parent_wsi->child_list; i->parent_wsi->child_list = wsi; } #ifdef LWS_WITH_HTTP_PROXY if (i->uri_replace_to) wsi->rw = lws_rewrite_create(wsi, html_parser_cb, i->uri_replace_from, i->uri_replace_to); #endif return wsi; bail: lws_free(wsi); bail1: if (i->pwsi) *i->pwsi = NULL; return NULL; } struct lws * lws_client_connect_via_info2(struct lws *wsi) { struct client_info_stash *stash = wsi->u.hdr.stash; if (!stash) return wsi; /* * we're not necessarily in a position to action these right away, * stash them... we only need during connect phase so u.hdr is fine */ if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_PEER_ADDRESS, stash->address)) goto bail1; /* these only need u.hdr lifetime as well */ if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_URI, stash->path)) goto bail1; if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_HOST, stash->host)) goto bail1; if (stash->origin[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_ORIGIN, stash->origin)) goto bail1; /* * this is a list of protocols we tell the server we're okay with * stash it for later when we compare server response with it */ if (stash->protocol[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_SENT_PROTOCOLS, stash->protocol)) goto bail1; if (stash->method[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_METHOD, stash->method)) goto bail1; if (stash->iface[0]) if (lws_hdr_simple_create(wsi, _WSI_TOKEN_CLIENT_IFACE, stash->iface)) goto bail1; #if defined(LWS_WITH_SOCKS5) if (!wsi->vhost->socks_proxy_port) lws_free_set_NULL(wsi->u.hdr.stash); #endif /* * Check with each extension if it is able to route and proxy this * connection for us. For example, an extension like x-google-mux * can handle this and then we don't need an actual socket for this * connection. */ if (lws_ext_cb_all_exts(wsi->context, wsi, LWS_EXT_CB_CAN_PROXY_CLIENT_CONNECTION, (void *)stash->address, wsi->c_port) > 0) { lwsl_client("lws_client_connect: ext handling conn\n"); lws_set_timeout(wsi, PENDING_TIMEOUT_AWAITING_EXTENSION_CONNECT_RESPONSE, AWAITING_TIMEOUT); wsi->mode = LWSCM_WSCL_WAITING_EXTENSION_CONNECT; return wsi; } lwsl_client("lws_client_connect: direct conn\n"); wsi->context->count_wsi_allocated++; return lws_client_connect_2(wsi); bail1: #if defined(LWS_WITH_SOCKS5) if (!wsi->vhost->socks_proxy_port) lws_free_set_NULL(wsi->u.hdr.stash); #endif return NULL; } LWS_VISIBLE struct lws * lws_client_connect_extended(struct lws_context *context, const char *address, int port, int ssl_connection, const char *path, const char *host, const char *origin, const char *protocol, int ietf_version_or_minus_one, void *userdata) { struct lws_client_connect_info i; memset(&i, 0, sizeof(i)); i.context = context; i.address = address; i.port = port; i.ssl_connection = ssl_connection; i.path = path; i.host = host; i.origin = origin; i.protocol = protocol; i.ietf_version_or_minus_one = ietf_version_or_minus_one; i.userdata = userdata; return lws_client_connect_via_info(&i); } LWS_VISIBLE struct lws * lws_client_connect(struct lws_context *context, const char *address, int port, int ssl_connection, const char *path, const char *host, const char *origin, const char *protocol, int ietf_version_or_minus_one) { struct lws_client_connect_info i; memset(&i, 0, sizeof(i)); i.context = context; i.address = address; i.port = port; i.ssl_connection = ssl_connection; i.path = path; i.host = host; i.origin = origin; i.protocol = protocol; i.ietf_version_or_minus_one = ietf_version_or_minus_one; i.userdata = NULL; return lws_client_connect_via_info(&i); } #if defined(LWS_WITH_SOCKS5) void socks_generate_msg(struct lws *wsi, enum socks_msg_type type, ssize_t *msg_len) { struct lws_context *context = wsi->context; struct lws_context_per_thread *pt = &context->pt[(int)wsi->tsi]; ssize_t len = 0, n, passwd_len; short net_num; char *p; switch (type) { case SOCKS_MSG_GREETING: /* socks version, version 5 only */ pt->serv_buf[len++] = SOCKS_VERSION_5; /* number of methods */ pt->serv_buf[len++] = 2; /* username password method */ pt->serv_buf[len++] = SOCKS_AUTH_USERNAME_PASSWORD; /* no authentication method */ pt->serv_buf[len++] = SOCKS_AUTH_NO_AUTH; break; case SOCKS_MSG_USERNAME_PASSWORD: n = strlen(wsi->vhost->socks_user); passwd_len = strlen(wsi->vhost->socks_password); /* the subnegotiation version */ pt->serv_buf[len++] = SOCKS_SUBNEGOTIATION_VERSION_1; /* length of the user name */ pt->serv_buf[len++] = n; /* user name */ strncpy((char *)&pt->serv_buf[len], wsi->vhost->socks_user, context->pt_serv_buf_size - len); len += n; /* length of the password */ pt->serv_buf[len++] = passwd_len; /* password */ strncpy((char *)&pt->serv_buf[len], wsi->vhost->socks_password, context->pt_serv_buf_size - len); len += passwd_len; break; case SOCKS_MSG_CONNECT: p = (char*)&net_num; /* socks version */ pt->serv_buf[len++] = SOCKS_VERSION_5; /* socks command */ pt->serv_buf[len++] = SOCKS_COMMAND_CONNECT; /* reserved */ pt->serv_buf[len++] = 0; /* address type */ pt->serv_buf[len++] = SOCKS_ATYP_DOMAINNAME; /* skip length, we fill it in at the end */ n = len++; /* the address we tell SOCKS proxy to connect to */ strncpy((char *)&(pt->serv_buf[len]), wsi->u.hdr.stash->address, context->pt_serv_buf_size - len); len += strlen(wsi->u.hdr.stash->address); net_num = htons(wsi->c_port); /* the port we tell SOCKS proxy to connect to */ pt->serv_buf[len++] = p[0]; pt->serv_buf[len++] = p[1]; /* the length of the address, excluding port */ pt->serv_buf[n] = strlen(wsi->u.hdr.stash->address); break; default: return; } *msg_len = len; } #endif