/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Common.hpp" #include "LOOLProtocol.hpp" #include "IoUtil.hpp" #include "Util.hpp" using Poco::Net::NetException; using Poco::Net::Socket; using Poco::Net::WebSocket; using Poco::Net::WebSocketException; namespace IoUtil { // Synchronously process WebSocket requests and dispatch to handler. // Handler returns false to end. void SocketProcessor(std::shared_ptr ws, std::function&)> handler, std::function stopPredicate) { Log::info("SocketProcessor starting."); // Timeout given is in microseconds. const Poco::Timespan waitTime(POLL_TIMEOUT_MS * 1000); try { ws->setReceiveTimeout(0); int flags = 0; int n = 0; bool stop = false; std::vector payload(READ_BUFFER_SIZE * 100); payload.resize(0); for (;;) { stop = stopPredicate(); if (stop) { Log::info("Termination flagged. Finishing."); break; } if (!ws->poll(waitTime, Poco::Net::Socket::SELECT_READ)) { // Wait some more. continue; } payload.resize(payload.capacity()); n = ws->receiveFrame(payload.data(), payload.capacity(), flags); payload.resize(n > 0 ? n : 0); if ((flags & WebSocket::FRAME_OP_BITMASK) == WebSocket::FRAME_OP_PING) { // Echo back the ping payload as pong. // Technically, we should send back a PONG control frame. // However Firefox (probably) or Node.js (possibly) doesn't // like that and closes the socket when we do. // Echoing the payload as a normal frame works with Firefox. ws->sendFrame(payload.data(), n /*, WebSocket::FRAME_OP_PONG*/); continue; } else if ((flags & WebSocket::FRAME_OP_BITMASK) == WebSocket::FRAME_OP_PONG) { // In case we do send pings in the future. continue; } else if (n <= 0 || ((flags & WebSocket::FRAME_OP_BITMASK) == WebSocket::FRAME_OP_CLOSE)) { Log::warn("Connection closed."); break; } assert(n > 0); const std::string firstLine = LOOLProtocol::getFirstLine(payload); if ((flags & WebSocket::FrameFlags::FRAME_FLAG_FIN) != WebSocket::FrameFlags::FRAME_FLAG_FIN) { // One WS message split into multiple frames. while (true) { char buffer[READ_BUFFER_SIZE * 10]; n = ws->receiveFrame(buffer, sizeof(buffer), flags); if (n <= 0 || (flags & WebSocket::FRAME_OP_BITMASK) == WebSocket::FRAME_OP_CLOSE) { Log::warn("Connection closed while reading multiframe message."); break; } payload.insert(payload.end(), buffer, buffer + n); if ((flags & WebSocket::FrameFlags::FRAME_FLAG_FIN) == WebSocket::FrameFlags::FRAME_FLAG_FIN) { // No more frames. break; } } } else { int size = 0; Poco::StringTokenizer tokens(firstLine, " ", Poco::StringTokenizer::TOK_IGNORE_EMPTY | Poco::StringTokenizer::TOK_TRIM); if (tokens.count() == 2 && tokens[0] == "nextmessage:" && LOOLProtocol::getTokenInteger(tokens[1], "size", size) && size > 0) { // Check if it is a "nextmessage:" and in that case read the large // follow-up message separately, and handle that only. payload.resize(size); n = ws->receiveFrame(payload.data(), size, flags); } } if (n <= 0 || (flags & WebSocket::FRAME_OP_BITMASK) == WebSocket::FRAME_OP_CLOSE) { Log::warn("Connection closed."); break; } // Call the handler. const auto success = handler(payload); payload.resize(0); if (!success) { Log::info("Socket handler flagged to finish."); break; } } Log::info() << "SocketProcessor finishing. TerminationFlag: " << stop << ", n: " << n << ", payload size: " << payload.size() << ", flags: " << std::hex << flags << Log::end; if ((flags & WebSocket::FRAME_OP_BITMASK) != WebSocket::FRAME_OP_CLOSE && payload.size() > 1) { std::string msg; Poco::URI::encode(std::string(payload.data(), payload.size()), "", msg); Log::warn("Last message (" + std::to_string(payload.size()) + " bytes) will not be processed: [" + msg + "]."); } } catch (const Poco::Exception& exc) { Log::error("SocketProcessor: Exception: " + exc.message()); } catch (const std::exception& exc) { Log::error("SocketProcessor: std::exception: " + std::string(exc.what())); } Log::info("SocketProcessor finished."); } void shutdownWebSocket(std::shared_ptr ws) { try { // Calling WebSocket::shutdown, in case of error, would try to send a 'close' frame // which won't work in case of broken pipe or timeout from peer. Just close the // socket in that case preventing 'close' frame from being sent. if (ws && ws->poll(Poco::Timespan(0), Socket::SelectMode::SELECT_ERROR)) ws->close(); else if (ws) ws->shutdown(); } catch (const Poco::Exception& exc) { Log::warn("Util::shutdownWebSocket: Exception: " + exc.displayText() + (exc.nested() ? " (" + exc.nested()->displayText() + ")" : "")); } } ssize_t writeFIFO(int pipe, const char* buffer, ssize_t size) { ssize_t count = 0; while(true) { Log::trace("Writing to pipe. Data: [" + Util::formatLinesForLog(std::string(buffer, size)) + "]."); const auto bytes = write(pipe, buffer + count, size - count); if (bytes < 0) { if (errno == EINTR || errno == EAGAIN) continue; Log::syserror("Failed to write to pipe. Data: [" + std::string(buffer, size) + "]."); count = -1; break; } else if (count + bytes < size) { count += bytes; } else { count += bytes; break; } } return count; } ssize_t readFIFO(int pipe, char* buffer, ssize_t size) { ssize_t bytes; do { bytes = read(pipe, buffer, size); } while (bytes < 0 && errno == EINTR); return bytes; } /// Reads a single line from a pipe. /// Returns 0 for timeout, <0 for error, and >0 on success. /// On success, line will contain the read message. int PipeReader::readLine(std::string& line, std::function stopPredicate) { const char *endOfLine = static_cast(std::memchr(_data.data(), '\n', _data.size())); if (endOfLine != nullptr) { // We have a line cached, return it. line += std::string(_data.data(), endOfLine); _data.erase(0, endOfLine - _data.data() + 1); // Including the '\n'. Log::trace() << "Read existing line from pipe: " << _name << ", line: [" << line << "], data: [" << Util::formatLinesForLog(_data) << "]." << Log::end; return 1; } // Poll in short intervals to check for stop condition. const auto pollTimeoutMs = 500; auto maxPollCount = POLL_TIMEOUT_MS / pollTimeoutMs; while (maxPollCount-- > 0) { if (stopPredicate()) { Log::info() << "Stop requested for pipe: " << _name << '.' << Log::end; return -1; } struct pollfd pipe; pipe.fd = _pipe; pipe.events = POLLIN; pipe.revents = 0; const int ready = poll(&pipe, 1, pollTimeoutMs); if (ready == 0) { // Timeout. continue; } else if (ready < 0) { // error. return ready; } else if (pipe.revents & (POLLIN | POLLPRI)) { char buffer[READ_BUFFER_SIZE]; const auto bytes = readFIFO(_pipe, buffer, sizeof(buffer)); Log::trace() << "readFIFO for pipe: " << _name << " returned: " << bytes << Log::end; if (bytes < 0) { return -1; } endOfLine = static_cast(std::memchr(buffer, '\n', bytes)); if (endOfLine != nullptr) { // Got end of line. line = _data; const auto tail = std::string(static_cast(buffer), endOfLine); line += tail; _data = std::string(endOfLine + 1, bytes - tail.size() - 1); // Exclude the '\n'. Log::trace() << "Read line from pipe: " << _name << ", line: [" << line << "], data: [" << Util::formatLinesForLog(_data) << "]." << Log::end; return 1; } else { // More data, keep going. _data += std::string(buffer, bytes); Log::trace() << "data appended to pipe: " << _name << ", data: " << _data << Log::end; } } else if (pipe.revents & (POLLERR | POLLHUP | POLLNVAL)) { return -1; } } // Timeout. return 0; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */