/* * Copyright (c) 2011 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "peerconnection/samples/server/data_socket.h" #include #include #include #include "peerconnection/samples/server/utils.h" static const char kHeaderTerminator[] = "\r\n\r\n"; static const int kHeaderTerminatorLength = sizeof(kHeaderTerminator) - 1; // static const char DataSocket::kCrossOriginAllowHeaders[] = "Access-Control-Allow-Origin: *\r\n" "Access-Control-Allow-Credentials: true\r\n" "Access-Control-Allow-Methods: POST, GET, OPTIONS\r\n" "Access-Control-Allow-Headers: Content-Type, " "Content-Length, Connection, Cache-Control\r\n" "Access-Control-Expose-Headers: Content-Length, X-Peer-Id\r\n"; #if defined(WIN32) class WinsockInitializer { static WinsockInitializer singleton; WinsockInitializer() { WSADATA data; WSAStartup(MAKEWORD(1, 0), &data); } public: ~WinsockInitializer() { WSACleanup(); } }; WinsockInitializer WinsockInitializer::singleton; #endif // // SocketBase // bool SocketBase::Create() { assert(!valid()); socket_ = ::socket(AF_INET, SOCK_STREAM, 0); return valid(); } void SocketBase::Close() { if (socket_ != INVALID_SOCKET) { closesocket(socket_); socket_ = INVALID_SOCKET; } } // // DataSocket // std::string DataSocket::request_arguments() const { size_t args = request_path_.find('?'); if (args != std::string::npos) return request_path_.substr(args + 1); return ""; } bool DataSocket::PathEquals(const char* path) const { assert(path); size_t args = request_path_.find('?'); if (args != std::string::npos) return request_path_.substr(0, args).compare(path) == 0; return request_path_.compare(path) == 0; } bool DataSocket::OnDataAvailable(bool* close_socket) { assert(valid()); char buffer[0xfff] = {0}; int bytes = recv(socket_, buffer, sizeof(buffer), 0); if (bytes == SOCKET_ERROR || bytes == 0) { *close_socket = true; return false; } *close_socket = false; bool ret = true; if (headers_received()) { if (method_ != POST) { // unexpectedly received data. ret = false; } else { data_.append(buffer, bytes); } } else { request_headers_.append(buffer, bytes); size_t found = request_headers_.find(kHeaderTerminator); if (found != std::string::npos) { data_ = request_headers_.substr(found + kHeaderTerminatorLength); request_headers_.resize(found + kHeaderTerminatorLength); ret = ParseHeaders(); } } return ret; } bool DataSocket::Send(const std::string& data) const { return send(socket_, data.data(), data.length(), 0) != SOCKET_ERROR; } bool DataSocket::Send(const std::string& status, bool connection_close, const std::string& content_type, const std::string& extra_headers, const std::string& data) const { assert(valid()); assert(!status.empty()); std::string buffer("HTTP/1.1 " + status + "\r\n"); buffer += "Server: PeerConnectionTestServer/0.1\r\n" "Cache-Control: no-cache\r\n"; if (connection_close) buffer += "Connection: close\r\n"; if (!content_type.empty()) buffer += "Content-Type: " + content_type + "\r\n"; buffer += "Content-Length: " + int2str(data.size()) + "\r\n"; if (!extra_headers.empty()) { buffer += extra_headers; // Extra headers are assumed to have a separator per header. } buffer += kCrossOriginAllowHeaders; buffer += "\r\n"; buffer += data; return Send(buffer); } void DataSocket::Clear() { method_ = INVALID; content_length_ = 0; content_type_.clear(); request_path_.clear(); request_headers_.clear(); data_.clear(); } bool DataSocket::ParseHeaders() { assert(!request_headers_.empty()); assert(method_ == INVALID); size_t i = request_headers_.find("\r\n"); if (i == std::string::npos) return false; if (!ParseMethodAndPath(request_headers_.data(), i)) return false; assert(method_ != INVALID); assert(!request_path_.empty()); if (method_ == POST) { const char* headers = request_headers_.data() + i + 2; size_t len = request_headers_.length() - i - 2; if (!ParseContentLengthAndType(headers, len)) return false; } return true; } bool DataSocket::ParseMethodAndPath(const char* begin, size_t len) { struct { const char* method_name; size_t method_name_len; RequestMethod id; } supported_methods[] = { { "GET", 3, GET }, { "POST", 4, POST }, { "OPTIONS", 7, OPTIONS }, }; const char* path = NULL; for (size_t i = 0; i < ARRAYSIZE(supported_methods); ++i) { if (len > supported_methods[i].method_name_len && isspace(begin[supported_methods[i].method_name_len]) && strncmp(begin, supported_methods[i].method_name, supported_methods[i].method_name_len) == 0) { method_ = supported_methods[i].id; path = begin + supported_methods[i].method_name_len; break; } } const char* end = begin + len; if (!path || path >= end) return false; ++path; begin = path; while (!isspace(*path) && path < end) ++path; request_path_.assign(begin, path - begin); return true; } bool DataSocket::ParseContentLengthAndType(const char* headers, size_t length) { assert(content_length_ == 0); assert(content_type_.empty()); const char* end = headers + length; while (headers && headers < end) { if (!isspace(headers[0])) { static const char kContentLength[] = "Content-Length:"; static const char kContentType[] = "Content-Type:"; if ((headers + ARRAYSIZE(kContentLength)) < end && strncmp(headers, kContentLength, ARRAYSIZE(kContentLength) - 1) == 0) { headers += ARRAYSIZE(kContentLength) - 1; while (headers[0] == ' ') ++headers; content_length_ = atoi(headers); } else if ((headers + ARRAYSIZE(kContentType)) < end && strncmp(headers, kContentType, ARRAYSIZE(kContentType) - 1) == 0) { headers += ARRAYSIZE(kContentType) - 1; while (headers[0] == ' ') ++headers; const char* type_end = strstr(headers, "\r\n"); if (type_end == NULL) type_end = end; content_type_.assign(headers, type_end); } } else { ++headers; } headers = strstr(headers, "\r\n"); if (headers) headers += 2; } return !content_type_.empty() && content_length_ != 0; } // // ListeningSocket // bool ListeningSocket::Listen(unsigned short port) { assert(valid()); int enabled = 1; setsockopt(socket_, SOL_SOCKET, SO_REUSEADDR, reinterpret_cast(&enabled), sizeof(enabled)); struct sockaddr_in addr = {0}; addr.sin_family = AF_INET; addr.sin_addr.s_addr = htonl(INADDR_ANY); addr.sin_port = htons(port); if (bind(socket_, reinterpret_cast(&addr), sizeof(addr)) == SOCKET_ERROR) { printf("bind failed\n"); return false; } return listen(socket_, 5) != SOCKET_ERROR; } DataSocket* ListeningSocket::Accept() const { assert(valid()); struct sockaddr_in addr = {0}; socklen_t size = sizeof(addr); int client = accept(socket_, reinterpret_cast(&addr), &size); if (client == INVALID_SOCKET) return NULL; return new DataSocket(client); }