/** * \file Server.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Lars Gullik Bjønnes * \author Jean-Marc Lasgouttes * \author Angus Leeming * \author John Levon * \author Enrico Forestieri * * Full author contact details are available in file CREDITS. */ /** Docu : To use the lyxserver define the name of the pipe in your lyxrc: \serverpipe "/home/myhome/.lyxpipe" Then use .lyxpipe.in and .lyxpipe.out to communicate to LyX. Each message consists of a single line in ASCII. Input lines (client -> LyX) have the following format: "LYXCMD:::" Answers from LyX look like this: "INFO:::" [asierra970531] Or like this in case of error: "ERROR:::" where and are just echoed. If LyX notifies about a user defined extension key-sequence, the line looks like this: "NOTIFY:" [asierra970531] New server-only messages to implement a simple protocol "LYXSRV::" where can be "hello" or "bye". If hello is received LyX will inform the client that it's listening its messages, and 'bye' will inform that lyx is closing. See development/lyxserver/server_monitor.cpp for an example client. Purpose: implement a client/server lib for LyX */ #include #include "Server.h" #include "DispatchResult.h" #include "FuncRequest.h" #include "LyX.h" #include "LyXAction.h" #include "frontends/Application.h" #include "support/debug.h" #include "support/FileName.h" #include "support/filetools.h" #include "support/lassert.h" #include "support/lstrings.h" #include "support/os.h" #include "support/signals.h" #include #ifdef _WIN32 #include #include #endif #include #include #ifdef HAVE_SYS_STAT_H # include #endif #include using namespace std; using namespace lyx::support; using os::external_path; namespace lyx { ///////////////////////////////////////////////////////////////////// // // LyXComm // ///////////////////////////////////////////////////////////////////// #if defined(_WIN32) class ReadReadyEvent : public QEvent { public: /// ReadReadyEvent(DWORD inpipe) : QEvent(QEvent::User), inpipe_(inpipe) {} /// DWORD inpipe() const { return inpipe_; } private: DWORD inpipe_; }; namespace { string errormsg(DWORD const error) { void * msgbuf; string message; if (FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, error, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPTSTR) &msgbuf, 0, NULL)) { message = static_cast(msgbuf); LocalFree(msgbuf); } else message = "Unknown error"; return message; } } // namespace DWORD WINAPI pipeServerWrapper(void * arg) { LyXComm * lyxcomm = reinterpret_cast(arg); if (!lyxcomm->pipeServer()) { // Error exit; perform cleanup. lyxcomm->ready_ = false; lyxcomm->closeHandles(); CloseHandle(lyxcomm->server_thread_); CloseHandle(lyxcomm->stopserver_); CloseHandle(lyxcomm->outbuf_mutex_); lyxerr << "LyXComm: Closing connection" << endl; } return 1; } LyXComm::LyXComm(string const & pip, Server * cli, ClientCallbackfct ccb) : stopserver_(0), ready_(false), pipename_(pip), client_(cli), clientcb_(ccb), deferred_loading_(false) { for (int i = 0; i < MAX_PIPES; ++i) { event_[i] = 0; pipe_[i].handle = INVALID_HANDLE_VALUE; } openConnection(); } bool LyXComm::pipeServer() { DWORD i; DWORD error; for (i = 0; i < MAX_PIPES; ++i) { bool const is_outpipe = i >= MAX_CLIENTS; DWORD const open_mode = is_outpipe ? PIPE_ACCESS_OUTBOUND : PIPE_ACCESS_INBOUND; string const pipename = external_path(pipeName(i)); // Manual-reset event, initial state = signaled event_[i] = CreateEvent(NULL, TRUE, TRUE, NULL); if (!event_[i]) { error = GetLastError(); lyxerr << "LyXComm: Could not create event for pipe " << pipename << "\nLyXComm: " << errormsg(error) << endl; return false; } pipe_[i].overlap.hEvent = event_[i]; pipe_[i].iobuf.erase(); pipe_[i].handle = CreateNamedPipe(pipename.c_str(), open_mode | FILE_FLAG_OVERLAPPED, PIPE_WAIT, MAX_CLIENTS, PIPE_BUFSIZE, PIPE_BUFSIZE, PIPE_TIMEOUT, NULL); if (pipe_[i].handle == INVALID_HANDLE_VALUE) { error = GetLastError(); lyxerr << "LyXComm: Could not create pipe " << pipename << "\nLyXComm: " << errormsg(error) << endl; return false; } if (!startPipe(i)) return false; pipe_[i].state = pipe_[i].pending_io ? CONNECTING_STATE : (is_outpipe ? WRITING_STATE : READING_STATE); } // Add the stopserver_ event event_[MAX_PIPES] = stopserver_; // We made it! LYXERR(Debug::LYXSERVER, "LyXComm: Connection established"); ready_ = true; outbuf_.erase(); DWORD status; bool success; while (!checkStopServer()) { // Indefinitely wait for the completion of an overlapped // read, write, or connect operation. DWORD wait = WaitForMultipleObjects(MAX_PIPES + 1, event_, FALSE, INFINITE); // Determine which pipe instance completed the operation. i = wait - WAIT_OBJECT_0; LASSERT(i <= MAX_PIPES, /**/); // Check whether we were waked up for stopping the pipe server. if (i == MAX_PIPES) break; bool const is_outpipe = i >= MAX_CLIENTS; // Get the result if the operation was pending. if (pipe_[i].pending_io) { success = GetOverlappedResult(pipe_[i].handle, &pipe_[i].overlap, &status, FALSE); switch (pipe_[i].state) { case CONNECTING_STATE: // Pending connect operation if (!success) { error = GetLastError(); lyxerr << "LyXComm: " << errormsg(error) << endl; if (!resetPipe(i, true)) return false; continue; } pipe_[i].state = is_outpipe ? WRITING_STATE : READING_STATE; break; case READING_STATE: // Pending read operation LASSERT(!is_outpipe, /**/); if (!success || status == 0) { if (!resetPipe(i, !success)) return false; continue; } pipe_[i].nbytes = status; pipe_[i].state = WRITING_STATE; break; case WRITING_STATE: // Pending write operation LASSERT(is_outpipe, /**/); // Let's see whether we have a reply if (!outbuf_.empty()) { // Yep. Deliver it to all pipe // instances if we get ownership // of the mutex, otherwise we'll // try again the next round. DWORD result = WaitForSingleObject( outbuf_mutex_, 200); if (result == WAIT_OBJECT_0) { DWORD j = MAX_CLIENTS; while (j < MAX_PIPES) { pipe_[j].iobuf = outbuf_; ++j; } outbuf_.erase(); } ReleaseMutex(outbuf_mutex_); } if (pipe_[i].iobuf.empty()) pipe_[i].pending_io = false; break; } } // Operate according to the pipe state switch (pipe_[i].state) { case READING_STATE: // The pipe instance is connected to a client // and is ready to read a request. LASSERT(!is_outpipe, /**/); success = ReadFile(pipe_[i].handle, pipe_[i].readbuf, PIPE_BUFSIZE - 1, &pipe_[i].nbytes, &pipe_[i].overlap); if (success && pipe_[i].nbytes != 0) { // The read operation completed successfully. pipe_[i].pending_io = false; pipe_[i].state = WRITING_STATE; continue; } error = GetLastError(); if (!success && error == ERROR_IO_PENDING) { // The read operation is still pending. pipe_[i].pending_io = true; continue; } success = error == ERROR_BROKEN_PIPE; // Client closed connection (ERROR_BROKEN_PIPE) or // an error occurred; in either case, reset the pipe. if (!success) { lyxerr << "LyXComm: " << errormsg(error) << endl; if (!pipe_[i].iobuf.empty()) { lyxerr << "LyXComm: truncated command: " << pipe_[i].iobuf << endl; pipe_[i].iobuf.erase(); } } if (!resetPipe(i, !success)) return false; break; case WRITING_STATE: if (!is_outpipe) { // The request was successfully read // from the client; commit it. ReadReadyEvent * event = new ReadReadyEvent(i); QCoreApplication::postEvent(this, static_cast(event)); // Wait for completion while (pipe_[i].nbytes && !checkStopServer(100)) ; pipe_[i].pending_io = false; pipe_[i].state = READING_STATE; continue; } // This is an output pipe instance. Initiate the // overlapped write operation or monitor its progress. if (pipe_[i].pending_io) { success = WriteFile(pipe_[i].handle, pipe_[i].iobuf.c_str(), pipe_[i].iobuf.length(), &status, &pipe_[i].overlap); } if (success && !pipe_[i].iobuf.empty() && status == pipe_[i].iobuf.length()) { // The write operation completed successfully. pipe_[i].iobuf.erase(); pipe_[i].pending_io = false; if (!resetPipe(i)) return false; continue; } error = GetLastError(); if (success && (error == ERROR_IO_PENDING || error == NO_ERROR)) { // The write operation is still pending. // We get here when a reader is started // well before a reply is ready, so delay // a bit in order to not burden the cpu. checkStopServer(100); pipe_[i].pending_io = true; continue; } success = error == ERROR_NO_DATA; // Client closed connection (ERROR_NO_DATA) or // an error occurred; in either case, reset the pipe. if (!success) { lyxerr << "LyXComm: Error sending message: " << pipe_[i].iobuf << "\nLyXComm: " << errormsg(error) << endl; } if (!resetPipe(i, !success)) return false; break; } } ready_ = false; closeHandles(); return true; } void LyXComm::closeHandles() { for (int i = 0; i < MAX_PIPES; ++i) { if (event_[i]) { ResetEvent(event_[i]); CloseHandle(event_[i]); event_[i] = 0; } if (pipe_[i].handle != INVALID_HANDLE_VALUE) { CloseHandle(pipe_[i].handle); pipe_[i].handle = INVALID_HANDLE_VALUE; } } } bool LyXComm::event(QEvent * e) { if (e->type() == QEvent::User) { read_ready(static_cast(e)->inpipe()); return true; } return false; } bool LyXComm::checkStopServer(DWORD timeout) { return WaitForSingleObject(stopserver_, timeout) == WAIT_OBJECT_0; } bool LyXComm::startPipe(DWORD index) { pipe_[index].pending_io = false; pipe_[index].overlap.Offset = 0; pipe_[index].overlap.OffsetHigh = 0; // Overlapped ConnectNamedPipe should return zero. if (ConnectNamedPipe(pipe_[index].handle, &pipe_[index].overlap)) { DWORD const error = GetLastError(); lyxerr << "LyXComm: Could not connect pipe " << external_path(pipeName(index)) << "\nLyXComm: " << errormsg(error) << endl; return false; } switch (GetLastError()) { case ERROR_IO_PENDING: // The overlapped connection is in progress. pipe_[index].pending_io = true; break; case ERROR_PIPE_CONNECTED: // Client is already connected, so signal an event. if (SetEvent(pipe_[index].overlap.hEvent)) break; // fall through default: // Anything else is an error. DWORD const error = GetLastError(); lyxerr << "LyXComm: An error occurred while connecting pipe " << external_path(pipeName(index)) << "\nLyXComm: " << errormsg(error) << endl; return false; } return true; } bool LyXComm::resetPipe(DWORD index, bool close_handle) { // This method is called when an error occurs or when a client // closes the connection. We first disconnect the pipe instance, // then reconnect it, ready to wait for another client. if (!DisconnectNamedPipe(pipe_[index].handle)) { DWORD const error = GetLastError(); lyxerr << "LyXComm: Could not disconnect pipe " << external_path(pipeName(index)) << "\nLyXComm: " << errormsg(error) << endl; // What to do now? Let's try whether re-creating the pipe helps. close_handle = true; } bool const is_outpipe = index >= MAX_CLIENTS; if (close_handle) { DWORD const open_mode = is_outpipe ? PIPE_ACCESS_OUTBOUND : PIPE_ACCESS_INBOUND; string const name = external_path(pipeName(index)); CloseHandle(pipe_[index].handle); pipe_[index].iobuf.erase(); pipe_[index].handle = CreateNamedPipe(name.c_str(), open_mode | FILE_FLAG_OVERLAPPED, PIPE_WAIT, MAX_CLIENTS, PIPE_BUFSIZE, PIPE_BUFSIZE, PIPE_TIMEOUT, NULL); if (pipe_[index].handle == INVALID_HANDLE_VALUE) { DWORD const error = GetLastError(); lyxerr << "LyXComm: Could not reset pipe " << name << "\nLyXComm: " << errormsg(error) << endl; return false; } } if (!startPipe(index)) return false; pipe_[index].state = pipe_[index].pending_io ? CONNECTING_STATE : (is_outpipe ? WRITING_STATE : READING_STATE); return true; } void LyXComm::openConnection() { LYXERR(Debug::LYXSERVER, "LyXComm: Opening connection"); // If we are up, that's an error if (ready_) { LYXERR(Debug::LYXSERVER, "LyXComm: Already connected"); return; } if (pipename_.empty()) { LYXERR(Debug::LYXSERVER, "LyXComm: server is disabled, nothing to do"); return; } // Check whether the pipe name is being used by some other instance. if (!stopserver_ && WaitNamedPipe(inPipeName().c_str(), 0)) { // Tell the running instance to load the files if (run_mode == USE_REMOTE && loadFilesInOtherInstance()) { deferred_loading_ = true; pipename_.erase(); return; } lyxerr << "LyXComm: Pipe " << external_path(inPipeName()) << " already exists.\nMaybe another instance of LyX" " is using it." << endl; pipename_.erase(); return; } // Mutex with no initial owner for synchronized access to outbuf_ outbuf_mutex_ = CreateMutex(NULL, FALSE, NULL); if (!outbuf_mutex_) { DWORD const error = GetLastError(); lyxerr << "LyXComm: Could not create output buffer mutex" << "\nLyXComm: " << errormsg(error) << endl; pipename_.erase(); return; } // Manual-reset event, initial state = not signaled stopserver_ = CreateEvent(NULL, TRUE, FALSE, NULL); if (!stopserver_) { DWORD const error = GetLastError(); lyxerr << "LyXComm: Could not create stop server event" << "\nLyXComm: " << errormsg(error) << endl; pipename_.erase(); CloseHandle(outbuf_mutex_); return; } server_thread_ = CreateThread(NULL, 0, pipeServerWrapper, static_cast(this), 0, NULL); if (!server_thread_) { DWORD const error = GetLastError(); lyxerr << "LyXComm: Could not create pipe server thread" << "\nLyXComm: " << errormsg(error) << endl; pipename_.erase(); CloseHandle(stopserver_); CloseHandle(outbuf_mutex_); return; } } /// Close pipes void LyXComm::closeConnection() { LYXERR(Debug::LYXSERVER, "LyXComm: Closing connection"); if (pipename_.empty()) { LYXERR(Debug::LYXSERVER, "LyXComm: server is disabled, nothing to do"); return; } if (!ready_) { LYXERR(Debug::LYXSERVER, "LyXComm: Already disconnected"); return; } SetEvent(stopserver_); // Wait for the pipe server to finish WaitForSingleObject(server_thread_, INFINITE); CloseHandle(server_thread_); ResetEvent(stopserver_); CloseHandle(stopserver_); CloseHandle(outbuf_mutex_); } void LyXComm::emergencyCleanup() { if (ready_) { SetEvent(stopserver_); // Forcibly terminate the pipe server thread if it does // not finish quickly. if (WaitForSingleObject(server_thread_, 200) != WAIT_OBJECT_0) { TerminateThread(server_thread_, 0); ready_ = false; closeHandles(); } CloseHandle(server_thread_); ResetEvent(stopserver_); CloseHandle(stopserver_); CloseHandle(outbuf_mutex_); } } void LyXComm::read_ready(DWORD inpipe) { // Turn the pipe buffer into a C string DWORD const nbytes = pipe_[inpipe].nbytes; pipe_[inpipe].readbuf[nbytes] = '\0'; pipe_[inpipe].iobuf += rtrim(pipe_[inpipe].readbuf, "\r"); // Commit any commands read while (pipe_[inpipe].iobuf.find('\n') != string::npos) { // split() grabs the entire string if // the delim /wasn't/ found. ?:-P string cmd; pipe_[inpipe].iobuf = split(pipe_[inpipe].iobuf, cmd, '\n'); cmd = rtrim(cmd, "\r"); LYXERR(Debug::LYXSERVER, "LyXComm: nbytes:" << nbytes << ", iobuf:" << pipe_[inpipe].iobuf << ", cmd:" << cmd); if (!cmd.empty()) clientcb_(client_, cmd); //\n or not \n? } // Signal that we are done. pipe_[inpipe].nbytes = 0; } void LyXComm::send(string const & msg) { if (msg.empty()) { lyxerr << "LyXComm: Request to send empty string. Ignoring." << endl; return; } LYXERR(Debug::LYXSERVER, "LyXComm: Sending '" << msg << '\''); if (pipename_.empty()) return; if (!ready_) { lyxerr << "LyXComm: Pipes are closed. Could not send " << msg << endl; return; } // Request ownership of the outbuf_mutex_ DWORD result = WaitForSingleObject(outbuf_mutex_, PIPE_TIMEOUT); if (result == WAIT_OBJECT_0) { // If a client doesn't care to read a reply (JabRef is one // such client), the output buffer could grow without limit. // So, we empty it when its size is larger than PIPE_BUFSIZE. if (outbuf_.size() > PIPE_BUFSIZE) outbuf_.erase(); outbuf_ += msg; ReleaseMutex(outbuf_mutex_); } else { // Something is fishy, better resetting the connection. DWORD const error = GetLastError(); lyxerr << "LyXComm: Error sending message: " << msg << "\nLyXComm: " << errormsg(error) << "\nLyXComm: Resetting connection" << endl; ReleaseMutex(outbuf_mutex_); closeConnection(); openConnection(); } } string const LyXComm::pipeName(DWORD index) const { return index < MAX_CLIENTS ? inPipeName() : outPipeName(); } #elif !defined (HAVE_MKFIFO) // We provide a stub class that disables the lyxserver. LyXComm::LyXComm(string const &, Server *, ClientCallbackfct) {} void LyXComm::openConnection() {} void LyXComm::closeConnection() {} int LyXComm::startPipe(string const & filename, bool write) { return -1; } void LyXComm::endPipe(int & fd, string const & filename, bool write) {} void LyXComm::emergencyCleanup() {} void LyXComm::read_ready() {} void LyXComm::send(string const & msg) {} #else // defined (HAVE_MKFIFO) LyXComm::LyXComm(string const & pip, Server * cli, ClientCallbackfct ccb) : infd_(-1), outfd_(-1), ready_(false), pipename_(pip), client_(cli), clientcb_(ccb), deferred_loading_(false) { openConnection(); } void LyXComm::openConnection() { LYXERR(Debug::LYXSERVER, "LyXComm: Opening connection"); // If we are up, that's an error if (ready_) { lyxerr << "LyXComm: Already connected" << endl; return; } // We assume that we don't make it ready_ = false; if (pipename_.empty()) { LYXERR(Debug::LYXSERVER, "LyXComm: server is disabled, nothing to do"); return; } infd_ = startPipe(inPipeName(), false); if (infd_ == -1) return; outfd_ = startPipe(outPipeName(), true); if (outfd_ == -1) { endPipe(infd_, inPipeName(), false); return; } if (fcntl(outfd_, F_SETFL, O_NONBLOCK) < 0) { lyxerr << "LyXComm: Could not set flags on pipe " << outPipeName() << '\n' << strerror(errno) << endl; return; } // We made it! ready_ = true; LYXERR(Debug::LYXSERVER, "LyXComm: Connection established"); } /// Close pipes void LyXComm::closeConnection() { LYXERR(Debug::LYXSERVER, "LyXComm: Closing connection"); if (pipename_.empty()) { LYXERR(Debug::LYXSERVER, "LyXComm: server is disabled, nothing to do"); return; } if (!ready_) { LYXERR0("LyXComm: Already disconnected"); return; } endPipe(infd_, inPipeName(), false); endPipe(outfd_, outPipeName(), true); ready_ = false; } int LyXComm::startPipe(string const & file, bool write) { static bool stalepipe = false; FileName const filename(file); if (filename.exists()) { if (!write) { // Let's see whether we have a stale pipe. int fd = ::open(filename.toFilesystemEncoding().c_str(), O_WRONLY | O_NONBLOCK); if (fd >= 0) { // Another LyX instance is using it. ::close(fd); // Tell the running instance to load the files if (run_mode == USE_REMOTE && loadFilesInOtherInstance()) { deferred_loading_ = true; pipename_.erase(); return -1; } } else if (errno == ENXIO) { // No process is reading from the other end. stalepipe = true; LYXERR(Debug::LYXSERVER, "LyXComm: trying to remove " << filename); filename.removeFile(); } } else if (stalepipe) { LYXERR(Debug::LYXSERVER, "LyXComm: trying to remove " << filename); filename.removeFile(); stalepipe = false; } if (filename.exists()) { lyxerr << "LyXComm: Pipe " << filename << " already exists.\nIf no other LyX program" " is active, please delete the pipe by hand" " and try again." << endl; pipename_.erase(); return -1; } } if (::mkfifo(filename.toFilesystemEncoding().c_str(), 0600) < 0) { lyxerr << "LyXComm: Could not create pipe " << filename << '\n' << strerror(errno) << endl; return -1; } int const fd = ::open(filename.toFilesystemEncoding().c_str(), write ? (O_RDWR) : (O_RDONLY|O_NONBLOCK)); if (fd < 0) { lyxerr << "LyXComm: Could not open pipe " << filename << '\n' << strerror(errno) << endl; filename.removeFile(); return -1; } if (!write) { // Make sure not to call read_ready after destruction. weak_ptr tracker = tracker_.p(); theApp()->registerSocketCallback(fd, [=](){ if (!tracker.expired()) read_ready(); }); } return fd; } void LyXComm::endPipe(int & fd, string const & filename, bool write) { if (fd < 0) return; if (!write) theApp()->unregisterSocketCallback(fd); if (::close(fd) < 0) { lyxerr << "LyXComm: Could not close pipe " << filename << '\n' << strerror(errno) << endl; } if (!FileName(filename).removeFile()) { lyxerr << "LyXComm: Could not remove pipe " << filename << '\n' << strerror(errno) << endl; } fd = -1; } void LyXComm::emergencyCleanup() { if (!pipename_.empty()) { endPipe(infd_, inPipeName(), false); endPipe(outfd_, outPipeName(), true); } } // Receives messages and sends then to client void LyXComm::read_ready() { // FIXME: make read_buffer_ a class-member for multiple sessions static string read_buffer_; read_buffer_.erase(); int const charbuf_size = 100; char charbuf[charbuf_size]; // As O_NONBLOCK is set, until no data is available for reading, // read() doesn't block but returns -1 and set errno to EAGAIN. // After a client that opened the pipe for writing, closes it // (and no other client is using the pipe), read() would always // return 0 and thus the connection has to be reset. errno = 0; int status; // the single = is intended here. while ((status = ::read(infd_, charbuf, charbuf_size - 1))) { if (status > 0) { charbuf[status] = '\0'; // turn it into a c string read_buffer_ += rtrim(charbuf, "\r"); // commit any commands read while (read_buffer_.find('\n') != string::npos) { // split() grabs the entire string if // the delim /wasn't/ found. ?:-P string cmd; read_buffer_= split(read_buffer_, cmd,'\n'); LYXERR(Debug::LYXSERVER, "LyXComm: status:" << status << ", read_buffer_:" << read_buffer_ << ", cmd:" << cmd); if (!cmd.empty()) clientcb_(client_, cmd); //\n or not \n? } } else { if (errno == EAGAIN) { // Nothing to read, continue errno = 0; return; } // An error occurred, better bailing out LYXERR0("LyXComm: " << strerror(errno)); if (!read_buffer_.empty()) { LYXERR0("LyXComm: truncated command: " << read_buffer_); read_buffer_.erase(); } break; // reset connection } } // The connection gets reset when read() returns 0 (meaning that the // last client closed the pipe) or an error occurred, in which case // read() returns -1 and errno != EAGAIN. closeConnection(); openConnection(); errno = 0; } void LyXComm::send(string const & msg) { if (msg.empty()) { LYXERR0("LyXComm: Request to send empty string. Ignoring."); return; } LYXERR(Debug::LYXSERVER, "LyXComm: Sending '" << msg << '\''); if (pipename_.empty()) return; if (!ready_) { LYXERR0("LyXComm: Pipes are closed. Could not send " << msg); } else if (::write(outfd_, msg.c_str(), msg.length()) < 0) { lyxerr << "LyXComm: Error sending message: " << msg << '\n' << strerror(errno) << "\nLyXComm: Resetting connection" << endl; closeConnection(); openConnection(); } } #endif // defined (HAVE_MKFIFO) namespace { struct Sleep : QThread { static void millisec(unsigned long ms) { QThread::usleep(ms * 1000); } }; } // namespace bool LyXComm::loadFilesInOtherInstance() { int pipefd; int loaded_files = 0; FileName const pipe(inPipeName()); vector::iterator it = theFilesToLoad().begin(); while (it != theFilesToLoad().end()) { FileName fname = fileSearch(string(), os::internal_path(*it), "lyx", may_not_exist); if (fname.empty()) { ++it; continue; } // Wait a while to allow time for the other // instance to reset the connection Sleep::millisec(200); pipefd = ::open(pipe.toFilesystemEncoding().c_str(), O_WRONLY); if (pipefd < 0) break; string const cmd = "LYXCMD:pipe:file-open:" + fname.absFileName() + '\n'; if (::write(pipefd, cmd.c_str(), cmd.length()) < 0) LYXERR0("Cannot write to pipe!"); ::close(pipefd); ++loaded_files; it = theFilesToLoad().erase(it); } return loaded_files > 0; } string const LyXComm::inPipeName() const { return pipename_ + ".in"; } string const LyXComm::outPipeName() const { return pipename_ + ".out"; } ///////////////////////////////////////////////////////////////////// // // Server // ///////////////////////////////////////////////////////////////////// void ServerCallback(Server * server, string const & msg) { server->callback(msg); } Server::Server(string const & pipes) : numclients_(0), pipes_(pipes, this, &ServerCallback) {} Server::~Server() { // say goodbye to clients so they stop sending messages // send as many bye messages as there are clients, // each with client's name. string message; for (int i = 0; i != numclients_; ++i) { message = "LYXSRV:" + clients_[i] + ":bye\n"; pipes_.send(message); } } int compare(char const * a, char const * b, unsigned int len) { return strncmp(a, b, len); } // Handle data gotten from communication, called by LyXComm void Server::callback(string const & msg) { LYXERR(Debug::LYXSERVER, "Server: Received: '" << msg << '\''); char const * p = msg.c_str(); // --- parse the string -------------------------------------------- // // Format: LYXCMD:::\n // bool server_only = false; while (*p) { // --- 1. check 'header' --- if (compare(p, "LYXSRV:", 7) == 0) { server_only = true; } else if (0 != compare(p, "LYXCMD:", 7)) { lyxerr << "Server: Unknown request \"" << p << '"' << endl; return; } p += 7; // --- 2. for the moment ignore the client name --- string client; while (*p && *p != ':') client += char(*p++); if (*p == ':') ++p; if (!*p) return; // --- 3. get function name --- string cmd; while (*p && *p != ':') cmd += char(*p++); // --- 4. parse the argument --- string arg; if (!server_only && *p == ':' && *(++p)) { while (*p && *p != '\n') arg += char(*p++); if (*p) ++p; } LYXERR(Debug::LYXSERVER, "Server: Client: '" << client << "' Command: '" << cmd << "' Argument: '" << arg << '\''); // --- lookup and exec the command ------------------ if (server_only) { string buf; // return the greeting to inform the client that // we are listening. if (cmd == "hello") { // One more client if (numclients_ == MAX_CLIENTS) { //paranoid check LYXERR(Debug::LYXSERVER, "Server: too many clients..."); return; } int i = 0; while (!clients_[i].empty() && i < numclients_) ++i; clients_[i] = client; ++numclients_; buf = "LYXSRV:" + client + ":hello\n"; LYXERR(Debug::LYXSERVER, "Server: Greeting " << client); pipes_.send(buf); } else if (cmd == "bye") { // If clients_ == 0 maybe we should reset the pipes // to prevent fake callbacks int i = 0; //look if client is registered for (; i < numclients_; ++i) { if (clients_[i] == client) break; } if (i < numclients_) { --numclients_; clients_[i].erase(); LYXERR(Debug::LYXSERVER, "Server: Client " << client << " said goodbye"); } else { LYXERR(Debug::LYXSERVER, "Server: ignoring bye message from unregistered client" << client); } } else { LYXERR0("Server: Undefined server command " << cmd << '.'); } return; } if (!cmd.empty()) { // which lyxfunc should we let it connect to? // The correct solution would be to have a // specialized (non-gui) BufferView. But how do // we do it now? Probably we should just let it // connect to the lyxfunc in the single GuiView we // support currently. (Lgb) FuncRequest fr(lyxaction.lookupFunc(cmd), from_utf8(arg)); fr.setOrigin(FuncRequest::LYXSERVER); DispatchResult dr; theApp()->dispatch(fr, dr); string const rval = to_utf8(dr.message()); // all commands produce an INFO or ERROR message // in the output pipe, even if they do not return // anything. See chapter 4 of Customization doc. string buf; if (dr.error()) buf = "ERROR:"; else buf = "INFO:"; buf += client + ':' + cmd + ':' + rval + '\n'; pipes_.send(buf); // !!! we don't do any error checking - // if the client won't listen, the // message is lost and others too // maybe; so the client should empty // the outpipe before issuing a request. // not found } } // while *p } // Send a notify message to a client, called by WorkAreaKeyPress void Server::notifyClient(string const & s) { pipes_.send("NOTIFY:" + s + "\n"); } } // namespace lyx #ifdef _WIN32 #include "moc_Server.cpp" #endif