/* -*- 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 "Common.hpp" #include "LOOLProtocol.hpp" #include "LOOLSession.hpp" #include "LOOLWSD.hpp" #include "MasterProcessSession.hpp" #include "Util.hpp" #include "Rectangle.hpp" using namespace LOOLProtocol; using Poco::Net::SocketAddress; using Poco::Net::WebSocket; using Poco::Path; using Poco::Process; using Poco::StringTokenizer; using Poco::UInt64; std::map MasterProcessSession::ChildProcesses; std::map> MasterProcessSession::AvailableChildSessions; std::mutex MasterProcessSession::AvailableChildSessionMutex; std::condition_variable MasterProcessSession::AvailableChildSessionCV; MasterProcessSession::MasterProcessSession(const std::string& id, const Kind kind, std::shared_ptr ws) : LOOLSession(id, kind, ws), _pidChild(0), _curPart(0), _loadPart(-1) { Log::info("MasterProcessSession ctor [" + getName() + "]."); } MasterProcessSession::~MasterProcessSession() { Log::info("~MasterProcessSession dtor [" + getName() + "]."); try { // We could be unwinding because our peer's connection // died. Handle I/O errors in that case. disconnect(); } catch (const std::exception& exc) { Log::error(std::string("Exception: ") + exc.what()); } } void MasterProcessSession::disconnect(const std::string& reason) { if (!isDisconnected()) { LOOLSession::disconnect(reason); auto peer = _peer.lock(); if (peer) { peer->disconnect(reason); } } } bool MasterProcessSession::handleDisconnect(Poco::StringTokenizer& tokens) { Log::info("Graceful disconnect on " + getName() + " [" + (tokens.count() > 1 ? tokens[1] : std::string("no reason")) + "]."); LOOLSession::handleDisconnect(tokens); disconnect(tokens.count() > 1 ? tokens[1] : std::string()); auto peer = _peer.lock(); if (peer) { const auto reason = (tokens.count() > 1 ? tokens[1] : std::string()); peer->disconnect(reason); } return false; } bool MasterProcessSession::_handleInput(const char *buffer, int length) { const std::string firstLine = getFirstLine(buffer, length); StringTokenizer tokens(firstLine, " ", StringTokenizer::TOK_IGNORE_EMPTY | StringTokenizer::TOK_TRIM); if (tokens[0] == "loolclient") { const auto versionTuple = ParseVersion(tokens[1]); if (std::get<0>(versionTuple) != ProtocolMajorVersionNumber || std::get<1>(versionTuple) != ProtocolMinorVersionNumber) { sendTextFrame("error: cmd=loolclient kind=badversion"); return false; } sendTextFrame("loolserver " + GetProtocolVersion()); return true; } if (haveSeparateProcess()) { // Note that this handles both forwarding requests from the client to the child process, and // forwarding replies from the child process to the client. Or does it? // Snoop at some messages and manipulate tile cache information as needed auto peer = _peer.lock(); if (_kind == Kind::ToPrisoner) { if (tokens[0] == "curpart:" && tokens.count() == 2 && getTokenInteger(tokens[1], "part", _curPart)) { return true; } if (tokens.count() == 2 && tokens[0] == "saveas:") { std::string url; if (!getTokenString(tokens[1], "url", url)) return true; if (peer) { // Save as completed, inform the other (Kind::ToClient) // MasterProcessSession about it. const std::string filePrefix("file:///"); if (url.find(filePrefix) == 0) { // Rewrite file:// URLs, as they are visible to the outside world. Path path(MasterProcessSession::getJailPath(_childId), url.substr(filePrefix.length())); url = filePrefix + path.toString().substr(1); } peer->_saveAsQueue.put(url); } return true; } } if (_kind == Kind::ToPrisoner && peer && peer->_tileCache) { if (tokens[0] == "tile:") { int part, width, height, tilePosX, tilePosY, tileWidth, tileHeight; if (tokens.count() < 8 || !getTokenInteger(tokens[1], "part", part) || !getTokenInteger(tokens[2], "width", width) || !getTokenInteger(tokens[3], "height", height) || !getTokenInteger(tokens[4], "tileposx", tilePosX) || !getTokenInteger(tokens[5], "tileposy", tilePosY) || !getTokenInteger(tokens[6], "tilewidth", tileWidth) || !getTokenInteger(tokens[7], "tileheight", tileHeight)) assert(false); assert(firstLine.size() < static_cast(length)); peer->_tileCache->saveTile(part, width, height, tilePosX, tilePosY, tileWidth, tileHeight, buffer + firstLine.size() + 1, length - firstLine.size() - 1); } else if (tokens[0] == "status:") { peer->_tileCache->saveTextFile(std::string(buffer, length), "status.txt"); } else if (tokens[0] == "commandvalues:") { const std::string stringMsg(buffer, length); const auto index = stringMsg.find_first_of("{"); if (index != std::string::npos) { const std::string stringJSON = stringMsg.substr(index); Poco::JSON::Parser parser; const auto result = parser.parse(stringJSON); const auto object = result.extract(); const std::string commandName = object->get("commandName").toString(); if (commandName.find(".uno:CharFontName") != std::string::npos || commandName.find(".uno:StyleApply") != std::string::npos) { // other commands should not be cached peer->_tileCache->saveTextFile(stringMsg, "cmdValues" + commandName + ".txt"); } } } else if (tokens[0] == "partpagerectangles:") { if (tokens.count() > 1 && !tokens[1].empty()) peer->_tileCache->saveTextFile(std::string(buffer, length), "partpagerectangles.txt"); } else if (tokens[0] == "invalidatecursor:") { peer->_tileCache->setEditing(true); } else if (tokens[0] == "invalidatetiles:") { // FIXME temporarily, set the editing on the 1st invalidate, TODO extend // the protocol so that the client can set the editing or view only. peer->_tileCache->setEditing(true); assert(firstLine.size() == static_cast(length)); peer->_tileCache->invalidateTiles(firstLine); } else if (tokens[0] == "renderfont:") { std::string font; if (tokens.count() < 2 || !getTokenString(tokens[1], "font", font)) assert(false); assert(firstLine.size() < static_cast(length)); peer->_tileCache->saveRendering(font, "font", buffer + firstLine.size() + 1, length - firstLine.size() - 1); } } forwardToPeer(buffer, length); return true; } if (tokens[0] == "child") { if (_kind != Kind::ToPrisoner) { sendTextFrame("error: cmd=child kind=invalid"); return false; } if (!_peer.expired()) { sendTextFrame("error: cmd=child kind=invalid"); return false; } if (tokens.count() != 4) { sendTextFrame("error: cmd=child kind=syntax"); return false; } const auto childId = tokens[1]; setId(tokens[2]); const Process::PID pidChild = std::stoull(tokens[3]); std::unique_lock lock(AvailableChildSessionMutex); AvailableChildSessions.emplace(getId(), shared_from_this()); Log::info() << getName() << " mapped " << this << " childId=" << childId << ", id=" << getId() << " into _availableChildSessions, size=" << AvailableChildSessions.size() << Log::end; _childId = childId; _pidChild = pidChild; lock.unlock(); AvailableChildSessionCV.notify_one(); // log first lokit child pid information if ( LOOLWSD::DoTest ) { Poco::FileOutputStream filePID(LOOLWSD::LOKIT_PIDLOG); if (filePID.good()) filePID << pidChild; } } else if (_kind == Kind::ToPrisoner) { // Message from child process to be forwarded to client. // I think we should never get here Log::error(getName() + ": Unexpected request [" + tokens[0] + "]."); assert(false); } else if (tokens[0] == "load") { if (_docURL != "") { sendTextFrame("error: cmd=load kind=docalreadyloaded"); return false; } return loadDocument(buffer, length, tokens); } else if (tokens[0] != "canceltiles" && tokens[0] != "clientzoom" && tokens[0] != "commandvalues" && tokens[0] != "disconnect" && tokens[0] != "downloadas" && tokens[0] != "getchildid" && tokens[0] != "gettextselection" && tokens[0] != "paste" && tokens[0] != "insertfile" && tokens[0] != "invalidatetiles" && tokens[0] != "key" && tokens[0] != "mouse" && tokens[0] != "partpagerectangles" && tokens[0] != "renderfont" && tokens[0] != "requestloksession" && tokens[0] != "resetselection" && tokens[0] != "saveas" && tokens[0] != "selectgraphic" && tokens[0] != "selecttext" && tokens[0] != "setclientpart" && tokens[0] != "setpage" && tokens[0] != "status" && tokens[0] != "tile" && tokens[0] != "tilecombine" && tokens[0] != "unload" && tokens[0] != "uno") { sendTextFrame("error: cmd=" + tokens[0] + " kind=unknown"); return false; } else if (_docURL == "") { sendTextFrame("error: cmd=" + tokens[0] + " kind=nodocloaded"); return false; } else if (tokens[0] == "canceltiles") { if (!_peer.expired()) forwardToPeer(buffer, length); } else if (tokens[0] == "commandvalues") { return getCommandValues(buffer, length, tokens); } else if (tokens[0] == "partpagerectangles") { return getPartPageRectangles(buffer, length); } else if (tokens[0] == "invalidatetiles") { return invalidateTiles(buffer, length, tokens); } else if (tokens[0] == "renderfont") { sendFontRendering(buffer, length, tokens); } else if (tokens[0] == "status") { return getStatus(buffer, length); } else if (tokens[0] == "tile") { sendTile(buffer, length, tokens); } else if (tokens[0] == "tilecombine") { sendCombinedTiles(buffer, length, tokens); } else { // All other commands are such that they always require a // LibreOfficeKitDocument session, i.e. need to be handled in // a child process. if (_peer.expired()) dispatchChild(); if (tokens[0] != "requestloksession") { forwardToPeer(buffer, length); } if ((tokens.count() > 1 && tokens[0] == "uno" && tokens[1] == ".uno:Save")) { _tileCache->documentSaved(); } else if (tokens[0] == "disconnect") { // This was the last we would hear from the client on this socket. return handleDisconnect(tokens); } } return true; } bool MasterProcessSession::haveSeparateProcess() { return !_childId.empty(); } Poco::Path MasterProcessSession::getJailPath(const std::string& childId) { return Path::forDirectory(LOOLWSD::ChildRoot + Path::separator() + childId); } bool MasterProcessSession::invalidateTiles(const char* /*buffer*/, int /*length*/, StringTokenizer& tokens) { int part, tilePosX, tilePosY, tileWidth, tileHeight; if (tokens.count() != 6 || !getTokenInteger(tokens[1], "part", part) || !getTokenInteger(tokens[2], "tileposx", tilePosX) || !getTokenInteger(tokens[3], "tileposy", tilePosY) || !getTokenInteger(tokens[4], "tilewidth", tileWidth) || !getTokenInteger(tokens[5], "tileheight", tileHeight)) { sendTextFrame("error: cmd=invalidatetiles kind=syntax"); return false; } // FIXME temporarily, set the editing on the 1st invalidate, TODO extend // the protocol so that the client can set the editing or view only. _tileCache->setEditing(true); _tileCache->invalidateTiles(_curPart, tilePosX, tilePosY, tileWidth, tileHeight); return true; } bool MasterProcessSession::loadDocument(const char* /*buffer*/, int /*length*/, StringTokenizer& tokens) { if (tokens.count() < 2) { sendTextFrame("error: cmd=load kind=syntax"); return false; } std::string timestamp; parseDocOptions(tokens, _loadPart, timestamp); try { Poco::URI aUri(_docURL); // request new URL session const std::string aMessage = "request " + getId() + " " + _docURL + "\r\n"; Log::debug("Sending to Broker: " + aMessage); Util::writeFIFO(LOOLWSD::BrokerWritePipe, aMessage); } catch (const Poco::SyntaxException&) { sendTextFrame("error: cmd=load kind=uriinvalid"); return false; } _tileCache.reset(new TileCache(_docURL, timestamp)); // Finally, wait for the Child to connect to Master, // link the document in jail and dispatch load to child. dispatchChild(); return true; } bool MasterProcessSession::getStatus(const char *buffer, int length) { std::string status; status = _tileCache->getTextFile("status.txt"); if (status.size() > 0) { sendTextFrame(status); return true; } if (_peer.expired()) dispatchChild(); forwardToPeer(buffer, length); return true; } bool MasterProcessSession::getCommandValues(const char *buffer, int length, StringTokenizer& tokens) { std::string command; if (tokens.count() != 2 || !getTokenString(tokens[1], "command", command)) { sendTextFrame("error: cmd=commandvalues kind=syntax"); return false; } std::string cmdValues = _tileCache->getTextFile("cmdValues" + command + ".txt"); if (cmdValues.size() > 0) { sendTextFrame(cmdValues); return true; } if (_peer.expired()) dispatchChild(); forwardToPeer(buffer, length); return true; } bool MasterProcessSession::getPartPageRectangles(const char *buffer, int length) { std::string partPageRectangles = _tileCache->getTextFile("partpagerectangles.txt"); if (partPageRectangles.size() > 0) { sendTextFrame(partPageRectangles); return true; } if (_peer.expired()) dispatchChild(); forwardToPeer(buffer, length); return true; } std::string MasterProcessSession::getSaveAs() { return _saveAsQueue.get(); } void MasterProcessSession::sendFontRendering(const char *buffer, int length, StringTokenizer& tokens) { std::string font; if (tokens.count() < 2 || !getTokenString(tokens[1], "font", font)) { sendTextFrame("error: cmd=renderfont kind=syntax"); return; } std::string response = "renderfont: " + Poco::cat(std::string(" "), tokens.begin() + 1, tokens.end()) + "\n"; std::vector output; output.resize(response.size()); std::memcpy(output.data(), response.data(), response.size()); std::unique_ptr cachedRendering = _tileCache->lookupRendering(font, "font"); if (cachedRendering && cachedRendering->is_open()) { cachedRendering->seekg(0, std::ios_base::end); size_t pos = output.size(); std::streamsize size = cachedRendering->tellg(); output.resize(pos + size); cachedRendering->seekg(0, std::ios_base::beg); cachedRendering->read(output.data() + pos, size); cachedRendering->close(); sendBinaryFrame(output.data(), output.size()); return; } if (_peer.expired()) dispatchChild(); forwardToPeer(buffer, length); } void MasterProcessSession::sendTile(const char *buffer, int length, StringTokenizer& tokens) { int part, width, height, tilePosX, tilePosY, tileWidth, tileHeight; if (tokens.count() < 8 || !getTokenInteger(tokens[1], "part", part) || !getTokenInteger(tokens[2], "width", width) || !getTokenInteger(tokens[3], "height", height) || !getTokenInteger(tokens[4], "tileposx", tilePosX) || !getTokenInteger(tokens[5], "tileposy", tilePosY) || !getTokenInteger(tokens[6], "tilewidth", tileWidth) || !getTokenInteger(tokens[7], "tileheight", tileHeight)) { sendTextFrame("error: cmd=tile kind=syntax"); return; } if (part < 0 || width <= 0 || height <= 0 || tilePosX < 0 || tilePosY < 0 || tileWidth <= 0 || tileHeight <= 0) { sendTextFrame("error: cmd=tile kind=invalid"); return; } std::string response = "tile: " + Poco::cat(std::string(" "), tokens.begin() + 1, tokens.end()) + "\n"; std::vector output; output.reserve(4 * width * height); output.resize(response.size()); std::memcpy(output.data(), response.data(), response.size()); std::unique_ptr cachedTile = _tileCache->lookupTile(part, width, height, tilePosX, tilePosY, tileWidth, tileHeight); if (cachedTile && cachedTile->is_open()) { cachedTile->seekg(0, std::ios_base::end); size_t pos = output.size(); std::streamsize size = cachedTile->tellg(); output.resize(pos + size); cachedTile->seekg(0, std::ios_base::beg); cachedTile->read(output.data() + pos, size); cachedTile->close(); sendBinaryFrame(output.data(), output.size()); return; } if (_peer.expired()) dispatchChild(); forwardToPeer(buffer, length); } void MasterProcessSession::sendCombinedTiles(const char* /*buffer*/, int /*length*/, StringTokenizer& tokens) { int part, pixelWidth, pixelHeight, tileWidth, tileHeight; std::string tilePositionsX, tilePositionsY; if (tokens.count() < 8 || !getTokenInteger(tokens[1], "part", part) || !getTokenInteger(tokens[2], "width", pixelWidth) || !getTokenInteger(tokens[3], "height", pixelHeight) || !getTokenString (tokens[4], "tileposx", tilePositionsX) || !getTokenString (tokens[5], "tileposy", tilePositionsY) || !getTokenInteger(tokens[6], "tilewidth", tileWidth) || !getTokenInteger(tokens[7], "tileheight", tileHeight)) { sendTextFrame("error: cmd=tilecombine kind=syntax"); return; } if (part < 0 || pixelWidth <= 0 || pixelHeight <= 0 || tileWidth <= 0 || tileHeight <= 0 || tilePositionsX.empty() || tilePositionsY.empty()) { sendTextFrame("error: cmd=tilecombine kind=invalid"); return; } Util::Rectangle renderArea; StringTokenizer positionXtokens(tilePositionsX, ",", StringTokenizer::TOK_IGNORE_EMPTY | StringTokenizer::TOK_TRIM); StringTokenizer positionYtokens(tilePositionsY, ",", StringTokenizer::TOK_IGNORE_EMPTY | StringTokenizer::TOK_TRIM); size_t numberOfPositions = positionYtokens.count(); // check that number of positions for X and Y is the same if (numberOfPositions != positionYtokens.count()) { sendTextFrame("error: cmd=tilecombine kind=invalid"); return; } std::string forwardTileX; std::string forwardTileY; for (size_t i = 0; i < numberOfPositions; i++) { int x, y; if (!stringToInteger(positionXtokens[i], x)) { sendTextFrame("error: cmd=tilecombine kind=syntax"); return; } if (!stringToInteger(positionYtokens[i], y)) { sendTextFrame("error: cmd=tilecombine kind=syntax"); return; } std::unique_ptr cachedTile = _tileCache->lookupTile(part, pixelWidth, pixelHeight, x, y, tileWidth, tileHeight); if (cachedTile && cachedTile->is_open()) { std::string response = "tile: part=" + std::to_string(part) + " width=" + std::to_string(pixelWidth) + " height=" + std::to_string(pixelHeight) + " tileposx=" + std::to_string(x) + " tileposy=" + std::to_string(y) + " tilewidth=" + std::to_string(tileWidth) + " tileheight=" + std::to_string(tileHeight) + "\n"; std::vector output; output.reserve(4 * pixelWidth * pixelHeight); output.resize(response.size()); std::memcpy(output.data(), response.data(), response.size()); cachedTile->seekg(0, std::ios_base::end); size_t pos = output.size(); std::streamsize size = cachedTile->tellg(); output.resize(pos + size); cachedTile->seekg(0, std::ios_base::beg); cachedTile->read(output.data() + pos, size); cachedTile->close(); sendBinaryFrame(output.data(), output.size()); } else { if (!forwardTileX.empty()) forwardTileX += ","; forwardTileX += std::to_string(x); if (!forwardTileY.empty()) forwardTileY += ","; forwardTileY += std::to_string(y); } } if (forwardTileX.empty() && forwardTileY.empty()) return; if (_peer.expired()) dispatchChild(); std::string forward = "tilecombine part=" + std::to_string(part) + " width=" + std::to_string(pixelWidth) + " height=" + std::to_string(pixelHeight) + " tileposx=" + forwardTileX + " tileposy=" + forwardTileY + " tilewidth=" + std::to_string(tileWidth) + " tileheight=" + std::to_string(tileHeight); forwardToPeer(forward.c_str(), forward.size()); } void MasterProcessSession::dispatchChild() { short nRequest = 3; bool bFound = false; if (_bShutdown) return; // Wait until the child has connected with Master. std::shared_ptr childSession; std::unique_lock lock(AvailableChildSessionMutex); Log::debug() << "Waiting for a child session permission for thread [" << getId() << "]." << Log::end; while (nRequest-- && !bFound) { AvailableChildSessionCV.wait_for( lock, std::chrono::milliseconds(2000), [&bFound, this] { return (bFound = AvailableChildSessions.find(getId()) != AvailableChildSessions.end()); }); if (!bFound) { Log::info() << "Retrying child permission... " << nRequest << Log::end; // request again new URL session const std::string aMessage = "request " + getId() + " " + _docURL + "\r\n"; Util::writeFIFO(LOOLWSD::BrokerWritePipe, aMessage); } } if (bFound) { Log::debug("Waiting child session permission, done!"); childSession = AvailableChildSessions[getId()]; AvailableChildSessions.erase(getId()); } lock.unlock(); if (nRequest < 0 && !bFound) { Log::error(getName() + ": Failed to connect to child. Shutting down socket."); Util::shutdownWebSocket(_ws); return; } const auto jailRoot = Poco::Path(LOOLWSD::ChildRoot, LOOLWSD::JailId); const auto childId = std::to_string(childSession->_pidChild); auto document = DocumentURI::create(_docURL, jailRoot.toString(), childId); _peer = childSession; childSession->_peer = shared_from_this(); std::ostringstream oss; oss << "load"; oss << " url=" << document->getPublicUri().toString(); oss << " jail=" << document->getJailedUri().toString(); if (_loadPart >= 0) oss << " part=" + std::to_string(_loadPart); if (!_docOptions.empty()) oss << " options=" << _docOptions; const auto loadRequest = oss.str(); forwardToPeer(loadRequest.c_str(), loadRequest.size()); } void MasterProcessSession::forwardToPeer(const char *buffer, int length) { const auto message = getAbbreviatedMessage(buffer, length); Log::trace(_kindString + ",forwardToPeer," + message); auto peer = _peer.lock(); if (!peer) { Log::error(getName() + ": no peer to forward to."); return; } peer->sendBinaryFrame(buffer, length); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */