libreoffice-online/loolwsd/MasterProcessSession.cpp
Ashod Nakashian ea0ddcf738 loolwsd: Nominal logger and fixes
Nominal logging interface and a fix to using Poco
Application from LOOLKit, which is not a Poco App,
which caused core dump.

Logs now include process name.
Added logs to strategic places and some cleanups.

Change-Id: Ib7dcc4f1033dddf7c87cd2e786a91f5b482fb312
Reviewed-on: https://gerrit.libreoffice.org/20906
Reviewed-by: Ashod Nakashian <ashnakash@gmail.com>
Tested-by: Ashod Nakashian <ashnakash@gmail.com>
2015-12-23 17:23:10 +00:00

664 lines
22 KiB
C++

/* -*- 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 <iostream>
#include <Poco/FileStream.h>
#include <Poco/JSON/Object.h>
#include <Poco/JSON/Parser.h>
#include <Poco/Process.h>
#include <Poco/Random.h>
#include <Poco/URI.h>
#include <Poco/URIStreamOpener.h>
#include "LOOLProtocol.hpp"
#include "LOOLSession.hpp"
#include "LOOLWSD.hpp"
#include "MasterProcessSession.hpp"
#include "Util.hpp"
using namespace LOOLProtocol;
using Poco::Dynamic::Var;
using Poco::Exception;
using Poco::File;
using Poco::IOException;
using Poco::JSON::Object;
using Poco::JSON::Parser;
using Poco::Net::SocketAddress;
using Poco::Net::WebSocket;
using Poco::Path;
using Poco::Process;
using Poco::ProcessHandle;
using Poco::Random;
using Poco::StringTokenizer;
using Poco::Thread;
using Poco::UInt64;
using Poco::URI;
std::map<Process::PID, UInt64> MasterProcessSession::_childProcesses;
std::map<Thread::TID, std::shared_ptr<MasterProcessSession>> MasterProcessSession::_availableChildSessions;
std::mutex MasterProcessSession::_availableChildSessionMutex;
std::condition_variable MasterProcessSession::_availableChildSessionCV;
MasterProcessSession::MasterProcessSession(std::shared_ptr<WebSocket> ws, const Kind kind) :
LOOLSession(ws, kind),
_childId(0),
_pidChild(0),
_curPart(0),
_loadPart(-1)
{
std::cout << Util::logPrefix() << "MasterProcessSession ctor this=" << this << " ws=" << _ws.get() << std::endl;
}
MasterProcessSession::~MasterProcessSession()
{
std::cout << Util::logPrefix() << "MasterProcessSession dtor this=" << this << " _peer=" << _peer.lock().get() << std::endl;
auto peer = _peer.lock();
if (_kind == Kind::ToClient && peer)
{
Util::shutdownWebSocket(*(peer->_ws));
}
}
bool MasterProcessSession::handleInput(const char *buffer, int length)
{
Log::info(_kindString + ",Recv," + getAbbreviatedMessage(buffer, length));
std::string firstLine = getFirstLine(buffer, length);
StringTokenizer tokens(firstLine, " ", StringTokenizer::TOK_IGNORE_EMPTY | StringTokenizer::TOK_TRIM);
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<std::string::size_type>(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:")
{
std::string stringMsg(buffer, length);
std::string stringJSON = stringMsg.substr(stringMsg.find_first_of("{"));
Parser parser;
Var result = parser.parse(stringJSON);
Object::Ptr object = result.extract<Object::Ptr>();
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(std::string(buffer, length), "cmdValues" + commandName + ".txt");
}
}
else if (tokens[0] == "partpagerectangles:")
{
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<std::string::size_type>(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<std::string::size_type>(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;
}
UInt64 childId = std::stoull(tokens[1]);
Thread::TID tId = std::stoull(tokens[2]);
Process::PID pidChild = std::stoull(tokens[3]);
std::unique_lock<std::mutex> lock(_availableChildSessionMutex);
_availableChildSessions.insert(std::pair<Thread::TID, std::shared_ptr<MasterProcessSession>> (tId, shared_from_this()));
std::cout << Util::logPrefix() << _kindString << ",Inserted " << this << " id=" << childId << " into _availableChildSessions, size=" << _availableChildSessions.size() << std::endl;
std::cout << Util::logPrefix() << "Inserted " << this << " id=" << childId << " into _availableChildSessions, size=" << _availableChildSessions.size() << std::endl;
_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
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] != "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] != "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
{
// 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();
}
}
return true;
}
bool MasterProcessSession::haveSeparateProcess()
{
return _childId != 0;
}
Path MasterProcessSession::getJailPath(UInt64 childId)
{
return Path::forDirectory(LOOLWSD::childRoot + Path::separator() + std::to_string(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
{
URI aUri(_docURL);
// request new URL session
std::string aMessage = "request " + std::to_string(Thread::currentTid()) + " " + _docURL + "\r\n";
Util::writeFIFO(LOOLWSD::writerBroker, aMessage.c_str(), aMessage.length());
}
catch(Poco::SyntaxException&)
{
sendTextFrame("error: cmd=load kind=uriinvalid");
return false;
}
_tileCache.reset(new TileCache(_docURL, timestamp));
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<char> output;
output.resize(response.size());
std::memcpy(output.data(), response.data(), response.size());
std::unique_ptr<std::fstream> 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<char> output;
output.reserve(4 * width * height);
output.resize(response.size());
std::memcpy(output.data(), response.data(), response.size());
std::unique_ptr<std::fstream> 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::dispatchChild()
{
short nRequest = 3;
bool bFound = false;
// Copy document into jail using the fixed name
std::shared_ptr<MasterProcessSession> childSession;
std::unique_lock<std::mutex> lock(_availableChildSessionMutex);
std::cout << Util::logPrefix() << "waiting for a child session permission for " << Thread::currentTid() << std::endl;
while (nRequest-- && !bFound)
{
_availableChildSessionCV.wait_for(
lock,
std::chrono::milliseconds(2000),
[&bFound]
{
return (bFound = _availableChildSessions.find(Thread::currentTid()) != _availableChildSessions.end());
});
if (!bFound)
{
std::cout << Util::logPrefix() << "trying ..." << nRequest << std::endl;
// request again new URL session
std::string aMessage = "request " + std::to_string(Thread::currentTid()) + " " + _docURL + "\r\n";
Util::writeFIFO(LOOLWSD::writerBroker, aMessage.c_str(), aMessage.length());
}
}
if ( bFound )
{
std::cout << Util::logPrefix() << "waiting child session permission, done!" << std::endl;
childSession = _availableChildSessions[Thread::currentTid()];
_availableChildSessions.erase(Thread::currentTid());
}
lock.unlock();
if ( !nRequest && !bFound )
{
// it cannot get connected. shutdown.
Util::shutdownWebSocket(*_ws);
return;
}
// Assume a valid URI
URI aUri(_docURL);
if (aUri.isRelative())
aUri = URI( URI("file://"), aUri.toString() );
if (!aUri.empty() && aUri.getScheme() == "file")
{
std::string aJailDoc = jailDocumentURL.substr(1) + Path::separator() + std::to_string(childSession->_pidChild);
Path aSrcFile(aUri.getPath());
Path aDstFile(Path(getJailPath(childSession->_childId), aJailDoc), aSrcFile.getFileName());
Path aDstPath(getJailPath(childSession->_childId), aJailDoc);
Path aJailFile(aJailDoc, aSrcFile.getFileName());
try
{
File(aDstPath).createDirectories();
}
catch (Exception& exc)
{
Log::error(
"createDirectories(\"" + aDstPath.toString() + "\") failed: " + exc.displayText() );
}
// cleanup potential leftovers from the last time
File aToCleanup(aDstFile);
if (aToCleanup.exists())
aToCleanup.remove();
#ifdef __linux
Log::info("Linking " + aSrcFile.toString() + " to " + aDstFile.toString());
if (!File(aDstFile).exists() && link(aSrcFile.toString().c_str(), aDstFile.toString().c_str()) == -1)
{
// Failed
Log::error(
"link(\"" + aSrcFile.toString() + "\",\"" + aDstFile.toString() + "\") failed: " + strerror(errno) );
}
#endif
try
{
//fallback
if (!File(aDstFile).exists())
{
Log::info(Util::logPrefix() + "Copying " + aSrcFile.toString() + " to " + aDstFile.toString());
File(aSrcFile).copyTo(aDstFile.toString());
}
}
catch (Exception& exc)
{
Log::error(
"copyTo(\"" + aSrcFile.toString() + "\",\"" + aDstFile.toString() + "\") failed: " + exc.displayText());
}
}
_peer = childSession;
childSession->_peer = shared_from_this();
std::string loadRequest = "load" + (_loadPart >= 0 ? " part=" + std::to_string(_loadPart) : "") + " url=" + _docURL + (!_docOptions.empty() ? " options=" + _docOptions : "");
forwardToPeer(loadRequest.c_str(), loadRequest.size());
}
void MasterProcessSession::forwardToPeer(const char *buffer, int length)
{
Log::info(_kindString + ",forwardToPeer," + getAbbreviatedMessage(buffer, length));
auto peer = _peer.lock();
if (!peer)
{
Log::error("no peer to forward to");
return;
}
peer->sendBinaryFrame(buffer, length);
}