/*************************************************************************** * * * LinuxSampler - modular, streaming capable sampler * * * * Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck * * Copyright (C) 2005 - 2008 Christian Schoenebeck * * * * This library is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This library is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this library; if not, write to the Free Software * * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * * MA 02111-1307 USA * ***************************************************************************/ #include "lscpserver.h" #include "lscpresultset.h" #include "lscpevent.h" #if defined(WIN32) #include #else #include #endif #if ! HAVE_SQLITE3 #define DOESNT_HAVE_SQLITE3 "No database support. SQLITE3 was not installed when linuxsampler was built." #endif #include "../engines/EngineFactory.h" #include "../engines/EngineChannelFactory.h" #include "../drivers/audio/AudioOutputDeviceFactory.h" #include "../drivers/midi/MidiInputDeviceFactory.h" /** * Returns a copy of the given string where all special characters are * replaced by LSCP escape sequences ("\xHH"). This function shall be used * to escape LSCP response fields in case the respective response field is * actually defined as using escape sequences in the LSCP specs. * * @e Caution: DO NOT use this function for escaping path based responses, * use the Path class (src/common/Path.h) for this instead! */ static String _escapeLscpResponse(String txt) { for (int i = 0; i < txt.length(); i++) { const char c = txt.c_str()[i]; if ( !(c >= '0' && c <= '9') && !(c >= 'a' && c <= 'z') && !(c >= 'A' && c <= 'Z') && !(c == ' ') && !(c == '!') && !(c == '#') && !(c == '$') && !(c == '%') && !(c == '&') && !(c == '(') && !(c == ')') && !(c == '*') && !(c == '+') && !(c == ',') && !(c == '-') && !(c == '.') && !(c == '/') && !(c == ':') && !(c == ';') && !(c == '<') && !(c == '=') && !(c == '>') && !(c == '?') && !(c == '@') && !(c == '[') && !(c == ']') && !(c == '^') && !(c == '_') && !(c == '`') && !(c == '{') && !(c == '|') && !(c == '}') && !(c == '~') ) { // convert the "special" character into a "\xHH" LSCP escape sequence char buf[5]; snprintf(buf, sizeof(buf), "\\x%02x", static_cast(c)); txt.replace(i, 1, buf); i += 3; } } return txt; } /** * Below are a few static members of the LSCPServer class. * The big assumption here is that LSCPServer is going to remain a singleton. * These members are used to support client connections. * Class handles multiple connections at the same time using select() and non-blocking recv() * Commands are processed by a single LSCPServer thread. * Notifications are delivered either by the thread that originated them * or (if the resultset is currently in progress) by the LSCPServer thread * after the resultset was sent out. * This makes sure that resultsets can not be interrupted by notifications. * This also makes sure that the thread sending notification is not blocked * by the LSCPServer thread. */ fd_set LSCPServer::fdSet; int LSCPServer::currentSocket = -1; std::vector LSCPServer::Sessions = std::vector(); std::vector::iterator itCurrentSession = std::vector::iterator(); std::map LSCPServer::bufferedNotifies = std::map(); std::map LSCPServer::bufferedCommands = std::map(); std::map< LSCPEvent::event_t, std::list > LSCPServer::eventSubscriptions = std::map< LSCPEvent::event_t, std::list >(); Mutex LSCPServer::NotifyMutex = Mutex(); Mutex LSCPServer::NotifyBufferMutex = Mutex(); Mutex LSCPServer::SubscriptionMutex = Mutex(); Mutex LSCPServer::RTNotifyMutex = Mutex(); LSCPServer::LSCPServer(Sampler* pSampler, long int addr, short int port) : Thread(true, false, 0, -4), eventHandler(this) { SocketAddress.sin_family = AF_INET; SocketAddress.sin_addr.s_addr = addr; SocketAddress.sin_port = port; this->pSampler = pSampler; LSCPEvent::RegisterEvent(LSCPEvent::event_audio_device_count, "AUDIO_OUTPUT_DEVICE_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_audio_device_info, "AUDIO_OUTPUT_DEVICE_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_midi_device_count, "MIDI_INPUT_DEVICE_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_midi_device_info, "MIDI_INPUT_DEVICE_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_channel_count, "CHANNEL_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_voice_count, "VOICE_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_stream_count, "STREAM_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_buffer_fill, "BUFFER_FILL"); LSCPEvent::RegisterEvent(LSCPEvent::event_channel_info, "CHANNEL_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_fx_send_count, "FX_SEND_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_fx_send_info, "FX_SEND_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_midi_instr_map_count, "MIDI_INSTRUMENT_MAP_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_midi_instr_map_info, "MIDI_INSTRUMENT_MAP_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_midi_instr_count, "MIDI_INSTRUMENT_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_midi_instr_info, "MIDI_INSTRUMENT_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_db_instr_dir_count, "DB_INSTRUMENT_DIRECTORY_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_db_instr_dir_info, "DB_INSTRUMENT_DIRECTORY_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_db_instr_count, "DB_INSTRUMENT_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_db_instr_info, "DB_INSTRUMENT_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_db_instrs_job_info, "DB_INSTRUMENTS_JOB_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_misc, "MISCELLANEOUS"); LSCPEvent::RegisterEvent(LSCPEvent::event_total_stream_count, "TOTAL_STREAM_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_total_voice_count, "TOTAL_VOICE_COUNT"); LSCPEvent::RegisterEvent(LSCPEvent::event_global_info, "GLOBAL_INFO"); LSCPEvent::RegisterEvent(LSCPEvent::event_channel_midi, "CHANNEL_MIDI"); hSocket = -1; } LSCPServer::~LSCPServer() { #if defined(WIN32) if (hSocket >= 0) closesocket(hSocket); #else if (hSocket >= 0) close(hSocket); #endif } LSCPServer::EventHandler::EventHandler(LSCPServer* pParent) { this->pParent = pParent; } LSCPServer::EventHandler::~EventHandler() { std::vector l = channelMidiListeners; channelMidiListeners.clear(); for (int i = 0; i < l.size(); i++) delete l[i].pMidiListener; } void LSCPServer::EventHandler::ChannelCountChanged(int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_channel_count, NewCount)); } void LSCPServer::EventHandler::ChannelAdded(SamplerChannel* pChannel) { pChannel->AddEngineChangeListener(this); } void LSCPServer::EventHandler::ChannelToBeRemoved(SamplerChannel* pChannel) { if (!pChannel->GetEngineChannel()) return; EngineToBeChanged(pChannel->Index()); } void LSCPServer::EventHandler::EngineToBeChanged(int ChannelId) { SamplerChannel* pSamplerChannel = pParent->pSampler->GetSamplerChannel(ChannelId); if (!pSamplerChannel) return; EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) return; for (std::vector::iterator iter = channelMidiListeners.begin(); iter != channelMidiListeners.end(); ++iter) { if ((*iter).pEngineChannel == pEngineChannel) { VirtualMidiDevice* pMidiListener = (*iter).pMidiListener; pEngineChannel->Disconnect(pMidiListener); channelMidiListeners.erase(iter); delete pMidiListener; return; } } } void LSCPServer::EventHandler::EngineChanged(int ChannelId) { SamplerChannel* pSamplerChannel = pParent->pSampler->GetSamplerChannel(ChannelId); if (!pSamplerChannel) return; EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) return; VirtualMidiDevice* pMidiListener = new VirtualMidiDevice; pEngineChannel->Connect(pMidiListener); midi_listener_entry entry = { pSamplerChannel, pEngineChannel, pMidiListener }; channelMidiListeners.push_back(entry); } void LSCPServer::EventHandler::AudioDeviceCountChanged(int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_audio_device_count, NewCount)); } void LSCPServer::EventHandler::MidiDeviceCountChanged(int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_midi_device_count, NewCount)); } void LSCPServer::EventHandler::MidiInstrumentCountChanged(int MapId, int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_midi_instr_count, MapId, NewCount)); } void LSCPServer::EventHandler::MidiInstrumentInfoChanged(int MapId, int Bank, int Program) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_midi_instr_info, MapId, Bank, Program)); } void LSCPServer::EventHandler::MidiInstrumentMapCountChanged(int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_midi_instr_map_count, NewCount)); } void LSCPServer::EventHandler::MidiInstrumentMapInfoChanged(int MapId) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_midi_instr_map_info, MapId)); } void LSCPServer::EventHandler::FxSendCountChanged(int ChannelId, int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_fx_send_count, ChannelId, NewCount)); } void LSCPServer::EventHandler::VoiceCountChanged(int ChannelId, int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_voice_count, ChannelId, NewCount)); } void LSCPServer::EventHandler::StreamCountChanged(int ChannelId, int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_stream_count, ChannelId, NewCount)); } void LSCPServer::EventHandler::BufferFillChanged(int ChannelId, String FillData) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_buffer_fill, ChannelId, FillData)); } void LSCPServer::EventHandler::TotalVoiceCountChanged(int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_total_voice_count, NewCount)); } void LSCPServer::EventHandler::TotalStreamCountChanged(int NewCount) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_total_stream_count, NewCount)); } #if HAVE_SQLITE3 void LSCPServer::DbInstrumentsEventHandler::DirectoryCountChanged(String Dir) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_db_instr_dir_count, InstrumentsDb::toEscapedPath(Dir))); } void LSCPServer::DbInstrumentsEventHandler::DirectoryInfoChanged(String Dir) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_db_instr_dir_info, InstrumentsDb::toEscapedPath(Dir))); } void LSCPServer::DbInstrumentsEventHandler::DirectoryNameChanged(String Dir, String NewName) { Dir = "'" + InstrumentsDb::toEscapedPath(Dir) + "'"; NewName = "'" + InstrumentsDb::toEscapedPath(NewName) + "'"; LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_db_instr_dir_info, "NAME", Dir, NewName)); } void LSCPServer::DbInstrumentsEventHandler::InstrumentCountChanged(String Dir) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_db_instr_count, InstrumentsDb::toEscapedPath(Dir))); } void LSCPServer::DbInstrumentsEventHandler::InstrumentInfoChanged(String Instr) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_db_instr_info, InstrumentsDb::toEscapedPath(Instr))); } void LSCPServer::DbInstrumentsEventHandler::InstrumentNameChanged(String Instr, String NewName) { Instr = "'" + InstrumentsDb::toEscapedPath(Instr) + "'"; NewName = "'" + InstrumentsDb::toEscapedPath(NewName) + "'"; LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_db_instr_info, "NAME", Instr, NewName)); } void LSCPServer::DbInstrumentsEventHandler::JobStatusChanged(int JobId) { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_db_instrs_job_info, JobId)); } #endif // HAVE_SQLITE3 /** * Blocks the calling thread until the LSCP Server is initialized and * accepting socket connections, if the server is already initialized then * this method will return immediately. * @param TimeoutSeconds - optional: max. wait time in seconds * (default: 0s) * @param TimeoutNanoSeconds - optional: max wait time in nano seconds * (default: 0ns) * @returns 0 on success, a value less than 0 if timeout exceeded */ int LSCPServer::WaitUntilInitialized(long TimeoutSeconds, long TimeoutNanoSeconds) { return Initialized.WaitAndUnlockIf(false, TimeoutSeconds, TimeoutNanoSeconds); } int LSCPServer::Main() { #if defined(WIN32) WSADATA wsaData; int iResult; iResult = WSAStartup(MAKEWORD(2,2), &wsaData); if (iResult != 0) { std::cerr << "LSCPServer: WSAStartup failed: " << iResult << "\n"; exit(EXIT_FAILURE); } #endif hSocket = socket(AF_INET, SOCK_STREAM, 0); if (hSocket < 0) { std::cerr << "LSCPServer: Could not create server socket." << std::endl; //return -1; exit(EXIT_FAILURE); } if (bind(hSocket, (sockaddr*) &SocketAddress, sizeof(sockaddr_in)) < 0) { std::cerr << "LSCPServer: Could not bind server socket, retrying for " << ToString(LSCP_SERVER_BIND_TIMEOUT) << " seconds..."; for (int trial = 0; true; trial++) { // retry for LSCP_SERVER_BIND_TIMEOUT seconds if (bind(hSocket, (sockaddr*) &SocketAddress, sizeof(sockaddr_in)) < 0) { if (trial > LSCP_SERVER_BIND_TIMEOUT) { std::cerr << "gave up!" << std::endl; #if defined(WIN32) closesocket(hSocket); #else close(hSocket); #endif //return -1; exit(EXIT_FAILURE); } else sleep(1); // sleep 1s } else break; // success } } listen(hSocket, 1); Initialized.Set(true); // Registering event listeners pSampler->AddChannelCountListener(&eventHandler); pSampler->AddAudioDeviceCountListener(&eventHandler); pSampler->AddMidiDeviceCountListener(&eventHandler); pSampler->AddVoiceCountListener(&eventHandler); pSampler->AddStreamCountListener(&eventHandler); pSampler->AddBufferFillListener(&eventHandler); pSampler->AddTotalStreamCountListener(&eventHandler); pSampler->AddTotalVoiceCountListener(&eventHandler); pSampler->AddFxSendCountListener(&eventHandler); MidiInstrumentMapper::AddMidiInstrumentCountListener(&eventHandler); MidiInstrumentMapper::AddMidiInstrumentInfoListener(&eventHandler); MidiInstrumentMapper::AddMidiInstrumentMapCountListener(&eventHandler); MidiInstrumentMapper::AddMidiInstrumentMapInfoListener(&eventHandler); #if HAVE_SQLITE3 InstrumentsDb::GetInstrumentsDb()->AddInstrumentsDbListener(&dbInstrumentsEventHandler); #endif // now wait for client connections and handle their requests sockaddr_in client; int length = sizeof(client); FD_ZERO(&fdSet); FD_SET(hSocket, &fdSet); int maxSessions = hSocket; timeval timeout; while (true) { #if CONFIG_PTHREAD_TESTCANCEL TestCancel(); #endif // check if some engine channel's parameter / status changed, if so notify the respective LSCP event subscribers { std::set engineChannels = EngineChannelFactory::EngineChannelInstances(); std::set::iterator itEngineChannel = engineChannels.begin(); std::set::iterator itEnd = engineChannels.end(); for (; itEngineChannel != itEnd; ++itEngineChannel) { if ((*itEngineChannel)->StatusChanged()) { SendLSCPNotify(LSCPEvent(LSCPEvent::event_channel_info, (*itEngineChannel)->iSamplerChannelIndex)); } for (int i = 0; i < (*itEngineChannel)->GetFxSendCount(); i++) { FxSend* fxs = (*itEngineChannel)->GetFxSend(i); if(fxs != NULL && fxs->IsInfoChanged()) { int chn = (*itEngineChannel)->iSamplerChannelIndex; LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_fx_send_info, chn, fxs->Id())); fxs->SetInfoChanged(false); } } } } // check if MIDI data arrived on some engine channel for (int i = 0; i < eventHandler.channelMidiListeners.size(); ++i) { const EventHandler::midi_listener_entry entry = eventHandler.channelMidiListeners[i]; VirtualMidiDevice* pMidiListener = entry.pMidiListener; if (pMidiListener->NotesChanged()) { for (int iNote = 0; iNote < 128; iNote++) { if (pMidiListener->NoteChanged(iNote)) { const bool bActive = pMidiListener->NoteIsActive(iNote); LSCPServer::SendLSCPNotify( LSCPEvent( LSCPEvent::event_channel_midi, entry.pSamplerChannel->Index(), std::string(bActive ? "NOTE_ON" : "NOTE_OFF"), iNote, bActive ? pMidiListener->NoteOnVelocity(iNote) : pMidiListener->NoteOffVelocity(iNote) ) ); } } } } //Now let's deliver late notifies (if any) NotifyBufferMutex.Lock(); for (std::map::iterator iterNotify = bufferedNotifies.begin(); iterNotify != bufferedNotifies.end(); iterNotify++) { #ifdef MSG_NOSIGNAL send(iterNotify->first, iterNotify->second.c_str(), iterNotify->second.size(), MSG_NOSIGNAL); #else send(iterNotify->first, iterNotify->second.c_str(), iterNotify->second.size(), 0); #endif } bufferedNotifies.clear(); NotifyBufferMutex.Unlock(); fd_set selectSet = fdSet; timeout.tv_sec = 0; timeout.tv_usec = 100000; int retval = select(maxSessions+1, &selectSet, NULL, NULL, &timeout); if (retval == 0) continue; //Nothing try again if (retval == -1) { std::cerr << "LSCPServer: Socket select error." << std::endl; #if defined(WIN32) closesocket(hSocket); #else close(hSocket); #endif exit(EXIT_FAILURE); } //Accept new connections now (if any) if (FD_ISSET(hSocket, &selectSet)) { int socket = accept(hSocket, (sockaddr*) &client, (socklen_t*) &length); if (socket < 0) { std::cerr << "LSCPServer: Client connection failed." << std::endl; exit(EXIT_FAILURE); } #if defined(WIN32) u_long nonblock_io = 1; if( ioctlsocket(socket, FIONBIO, &nonblock_io) ) { std::cerr << "LSCPServer: ioctlsocket: set FIONBIO failed. Error " << WSAGetLastError() << std::endl; exit(EXIT_FAILURE); } #else if (fcntl(socket, F_SETFL, O_NONBLOCK)) { std::cerr << "LSCPServer: F_SETFL O_NONBLOCK failed." << std::endl; exit(EXIT_FAILURE); } #endif // Parser initialization yyparse_param_t yyparse_param; yyparse_param.pServer = this; yyparse_param.hSession = socket; Sessions.push_back(yyparse_param); FD_SET(socket, &fdSet); if (socket > maxSessions) maxSessions = socket; dmsg(1,("LSCPServer: Client connection established on socket:%d.\n", socket)); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_misc, "Client connection established on socket", socket)); continue; //Maybe this was the only selected socket, better select again } //Something was selected and it was not the hSocket, so it must be some command(s) coming. for (std::vector::iterator iter = Sessions.begin(); iter != Sessions.end(); iter++) { if (FD_ISSET((*iter).hSession, &selectSet)) { //Was it this socket? if (GetLSCPCommand(iter)) { //Have we read the entire command? dmsg(3,("LSCPServer: Got command on socket %d, calling parser.\n", currentSocket)); int dummy; // just a temporary hack to fulfill the restart() function prototype restart(NULL, dummy); // restart the 'scanner' currentSocket = (*iter).hSession; //a hack itCurrentSession = iter; // another hack dmsg(2,("LSCPServer: [%s]\n",bufferedCommands[currentSocket].c_str())); if ((*iter).bVerbose) { // if echo mode enabled AnswerClient(bufferedCommands[currentSocket]); } int result = yyparse(&(*iter)); currentSocket = -1; //continuation of a hack itCurrentSession = Sessions.end(); // hack as well dmsg(3,("LSCPServer: Done parsing on socket %d.\n", currentSocket)); if (result == LSCP_QUIT) { //Was it a quit command by any chance? CloseConnection(iter); } } //socket may have been closed, iter may be invalid, get out of the loop for now. //we'll be back if there is data. break; } } } } void LSCPServer::CloseConnection( std::vector::iterator iter ) { int socket = (*iter).hSession; dmsg(1,("LSCPServer: Client connection terminated on socket:%d.\n",socket)); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_misc, "Client connection terminated on socket", socket)); Sessions.erase(iter); FD_CLR(socket, &fdSet); SubscriptionMutex.Lock(); //Must unsubscribe this socket from all events (if any) for (std::map< LSCPEvent::event_t, std::list >::iterator iter = eventSubscriptions.begin(); iter != eventSubscriptions.end(); iter++) { iter->second.remove(socket); } SubscriptionMutex.Unlock(); NotifyMutex.Lock(); bufferedCommands.erase(socket); bufferedNotifies.erase(socket); #if defined(WIN32) closesocket(socket); #else close(socket); #endif NotifyMutex.Unlock(); } void LSCPServer::LockRTNotify() { RTNotifyMutex.Lock(); } void LSCPServer::UnlockRTNotify() { RTNotifyMutex.Unlock(); } int LSCPServer::EventSubscribers( std::list events ) { int subs = 0; SubscriptionMutex.Lock(); for( std::list::iterator iter = events.begin(); iter != events.end(); iter++) { subs += eventSubscriptions.count(*iter); } SubscriptionMutex.Unlock(); return subs; } void LSCPServer::SendLSCPNotify( LSCPEvent event ) { SubscriptionMutex.Lock(); if (eventSubscriptions.count(event.GetType()) == 0) { SubscriptionMutex.Unlock(); //Nobody is subscribed to this event return; } std::list::iterator iter = eventSubscriptions[event.GetType()].begin(); std::list::iterator end = eventSubscriptions[event.GetType()].end(); String notify = event.Produce(); while (true) { if (NotifyMutex.Trylock()) { for(;iter != end; iter++) #ifdef MSG_NOSIGNAL send(*iter, notify.c_str(), notify.size(), MSG_NOSIGNAL); #else send(*iter, notify.c_str(), notify.size(), 0); #endif NotifyMutex.Unlock(); break; } else { if (NotifyBufferMutex.Trylock()) { for(;iter != end; iter++) bufferedNotifies[*iter] += notify; NotifyBufferMutex.Unlock(); break; } } } SubscriptionMutex.Unlock(); } extern int GetLSCPCommand( void *buf, int max_size ) { String command = LSCPServer::bufferedCommands[LSCPServer::currentSocket]; if (command.size() == 0) { //Parser wants input but we have nothing. strcpy((char*) buf, "\n"); //So give it an empty command return 1; //to keep it happy. } if (max_size < command.size()) { std::cerr << "getLSCPCommand: Flex buffer too small, ignoring the command." << std::endl; return 0; //This will never happen } strcpy((char*) buf, command.c_str()); LSCPServer::bufferedCommands.erase(LSCPServer::currentSocket); return command.size(); } extern yyparse_param_t* GetCurrentYaccSession() { return &(*itCurrentSession); } /** * Will be called to try to read the command from the socket * If command is read, it will return true. Otherwise false is returned. * In any case the received portion (complete or incomplete) is saved into bufferedCommand map. */ bool LSCPServer::GetLSCPCommand( std::vector::iterator iter ) { int socket = (*iter).hSession; char c; int i = 0; while (true) { #if defined(WIN32) int result = recv(socket, (char *)&c, 1, 0); //Read one character at a time for now #else int result = recv(socket, (void *)&c, 1, 0); //Read one character at a time for now #endif if (result == 0) { //socket was selected, so 0 here means client has closed the connection CloseConnection(iter); break; } if (result == 1) { if (c == '\r') continue; //Ignore CR if (c == '\n') { LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_misc, "Received \'" + bufferedCommands[socket] + "\' on socket", socket)); bufferedCommands[socket] += "\r\n"; return true; //Complete command was read } bufferedCommands[socket] += c; } #if defined(WIN32) if (result == SOCKET_ERROR) { int wsa_lasterror = WSAGetLastError(); if (wsa_lasterror == WSAEWOULDBLOCK) //Would block, try again later. return false; dmsg(2,("LSCPScanner: Socket error after recv() Error %d.\n", wsa_lasterror)); CloseConnection(iter); break; } #else if (result == -1) { if (errno == EAGAIN) //Would block, try again later. return false; switch(errno) { case EBADF: dmsg(2,("LSCPScanner: The argument s is an invalid descriptor.\n")); break; case ECONNREFUSED: dmsg(2,("LSCPScanner: A remote host refused to allow the network connection (typically because it is not running the requested service).\n")); break; case ENOTCONN: dmsg(2,("LSCPScanner: The socket is associated with a connection-oriented protocol and has not been connected (see connect(2) and accept(2)).\n")); break; case ENOTSOCK: dmsg(2,("LSCPScanner: The argument s does not refer to a socket.\n")); break; case EAGAIN: dmsg(2,("LSCPScanner: The socket is marked non-blocking and the receive operation would block, or a receive timeout had been set and the timeout expired before data was received.\n")); break; case EINTR: dmsg(2,("LSCPScanner: The receive was interrupted by delivery of a signal before any data were available.\n")); break; case EFAULT: dmsg(2,("LSCPScanner: The receive buffer pointer(s) point outside the process's address space.\n")); break; case EINVAL: dmsg(2,("LSCPScanner: Invalid argument passed.\n")); break; case ENOMEM: dmsg(2,("LSCPScanner: Could not allocate memory for recvmsg.\n")); break; default: dmsg(2,("LSCPScanner: Unknown recv() error.\n")); break; } CloseConnection(iter); break; } #endif } return false; } /** * Will be called by the parser whenever it wants to send an answer to the * client / frontend. * * @param ReturnMessage - message that will be send to the client */ void LSCPServer::AnswerClient(String ReturnMessage) { dmsg(2,("LSCPServer::AnswerClient(ReturnMessage=%s)", ReturnMessage.c_str())); if (currentSocket != -1) { NotifyMutex.Lock(); #ifdef MSG_NOSIGNAL send(currentSocket, ReturnMessage.c_str(), ReturnMessage.size(), MSG_NOSIGNAL); #else send(currentSocket, ReturnMessage.c_str(), ReturnMessage.size(), 0); #endif NotifyMutex.Unlock(); } } /** * Find a created audio output device index. */ int LSCPServer::GetAudioOutputDeviceIndex ( AudioOutputDevice *pDevice ) { // Search for the created device to get its index std::map devices = pSampler->GetAudioOutputDevices(); std::map::iterator iter = devices.begin(); for (; iter != devices.end(); iter++) { if (iter->second == pDevice) return iter->first; } // Not found. return -1; } /** * Find a created midi input device index. */ int LSCPServer::GetMidiInputDeviceIndex ( MidiInputDevice *pDevice ) { // Search for the created device to get its index std::map devices = pSampler->GetMidiInputDevices(); std::map::iterator iter = devices.begin(); for (; iter != devices.end(); iter++) { if (iter->second == pDevice) return iter->first; } // Not found. return -1; } String LSCPServer::CreateAudioOutputDevice(String Driver, std::map Parameters) { dmsg(2,("LSCPServer: CreateAudioOutputDevice(Driver=%s)\n", Driver.c_str())); LSCPResultSet result; try { AudioOutputDevice* pDevice = pSampler->CreateAudioOutputDevice(Driver, Parameters); // search for the created device to get its index int index = GetAudioOutputDeviceIndex(pDevice); if (index == -1) throw Exception("Internal error: could not find created audio output device."); result = index; // success } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::CreateMidiInputDevice(String Driver, std::map Parameters) { dmsg(2,("LSCPServer: CreateMidiInputDevice(Driver=%s)\n", Driver.c_str())); LSCPResultSet result; try { MidiInputDevice* pDevice = pSampler->CreateMidiInputDevice(Driver, Parameters); // search for the created device to get its index int index = GetMidiInputDeviceIndex(pDevice); if (index == -1) throw Exception("Internal error: could not find created midi input device."); result = index; // success } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::DestroyAudioOutputDevice(uint DeviceIndex) { dmsg(2,("LSCPServer: DestroyAudioOutputDevice(DeviceIndex=%d)\n", DeviceIndex)); LSCPResultSet result; try { std::map devices = pSampler->GetAudioOutputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no audio output device with index " + ToString(DeviceIndex) + "."); AudioOutputDevice* pDevice = devices[DeviceIndex]; pSampler->DestroyAudioOutputDevice(pDevice); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::DestroyMidiInputDevice(uint DeviceIndex) { dmsg(2,("LSCPServer: DestroyMidiInputDevice(DeviceIndex=%d)\n", DeviceIndex)); LSCPResultSet result; try { std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no audio output device with index " + ToString(DeviceIndex) + "."); MidiInputDevice* pDevice = devices[DeviceIndex]; pSampler->DestroyMidiInputDevice(pDevice); } catch (Exception e) { result.Error(e); } return result.Produce(); } EngineChannel* LSCPServer::GetEngineChannel(uint uiSamplerChannel) { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("There is no engine deployed on this sampler channel yet"); return pEngineChannel; } /** * Will be called by the parser to load an instrument. */ String LSCPServer::LoadInstrument(String Filename, uint uiInstrument, uint uiSamplerChannel, bool bBackground) { dmsg(2,("LSCPServer: LoadInstrument(Filename=%s,Instrument=%d,SamplerChannel=%d)\n", Filename.c_str(), uiInstrument, uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel yet"); if (!pSamplerChannel->GetAudioOutputDevice()) throw Exception("No audio output device connected to sampler channel"); if (bBackground) { InstrumentManager::instrument_id_t id; id.FileName = Filename; id.Index = uiInstrument; InstrumentManager::LoadInstrumentInBackground(id, pEngineChannel); } else { // tell the engine channel which instrument to load pEngineChannel->PrepareLoadInstrument(Filename.c_str(), uiInstrument); // actually start to load the instrument (blocks until completed) pEngineChannel->LoadInstrument(); } } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to assign a sampler engine type to a * sampler channel. */ String LSCPServer::SetEngineType(String EngineName, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetEngineType(EngineName=%s,uiSamplerChannel=%d)\n", EngineName.c_str(), uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); LockRTNotify(); pSamplerChannel->SetEngineType(EngineName); if(HasSoloChannel()) pSamplerChannel->GetEngineChannel()->SetMute(-1); UnlockRTNotify(); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to get the amount of sampler channels. */ String LSCPServer::GetChannels() { dmsg(2,("LSCPServer: GetChannels()\n")); LSCPResultSet result; result.Add(pSampler->SamplerChannels()); return result.Produce(); } /** * Will be called by the parser to get the list of sampler channels. */ String LSCPServer::ListChannels() { dmsg(2,("LSCPServer: ListChannels()\n")); String list; std::map channels = pSampler->GetSamplerChannels(); std::map::iterator iter = channels.begin(); for (; iter != channels.end(); iter++) { if (list != "") list += ","; list += ToString(iter->first); } LSCPResultSet result; result.Add(list); return result.Produce(); } /** * Will be called by the parser to add a sampler channel. */ String LSCPServer::AddChannel() { dmsg(2,("LSCPServer: AddChannel()\n")); LockRTNotify(); SamplerChannel* pSamplerChannel = pSampler->AddSamplerChannel(); UnlockRTNotify(); LSCPResultSet result(pSamplerChannel->Index()); return result.Produce(); } /** * Will be called by the parser to remove a sampler channel. */ String LSCPServer::RemoveChannel(uint uiSamplerChannel) { dmsg(2,("LSCPServer: RemoveChannel(SamplerChannel=%d)\n", uiSamplerChannel)); LSCPResultSet result; LockRTNotify(); pSampler->RemoveSamplerChannel(uiSamplerChannel); UnlockRTNotify(); return result.Produce(); } /** * Will be called by the parser to get the amount of all available engines. */ String LSCPServer::GetAvailableEngines() { dmsg(2,("LSCPServer: GetAvailableEngines()\n")); LSCPResultSet result; try { int n = EngineFactory::AvailableEngineTypes().size(); result.Add(n); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to get a list of all available engines. */ String LSCPServer::ListAvailableEngines() { dmsg(2,("LSCPServer: ListAvailableEngines()\n")); LSCPResultSet result; try { String s = EngineFactory::AvailableEngineTypesAsString(); result.Add(s); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to get descriptions for a particular * sampler engine. */ String LSCPServer::GetEngineInfo(String EngineName) { dmsg(2,("LSCPServer: GetEngineInfo(EngineName=%s)\n", EngineName.c_str())); LSCPResultSet result; LockRTNotify(); try { Engine* pEngine = EngineFactory::Create(EngineName); result.Add("DESCRIPTION", _escapeLscpResponse(pEngine->Description())); result.Add("VERSION", pEngine->Version()); EngineFactory::Destroy(pEngine); } catch (Exception e) { result.Error(e); } UnlockRTNotify(); return result.Produce(); } /** * Will be called by the parser to get informations about a particular * sampler channel. */ String LSCPServer::GetChannelInfo(uint uiSamplerChannel) { dmsg(2,("LSCPServer: GetChannelInfo(SamplerChannel=%d)\n", uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); //Defaults values String EngineName = "NONE"; float Volume = 0.0f; String InstrumentFileName = "NONE"; String InstrumentName = "NONE"; int InstrumentIndex = -1; int InstrumentStatus = -1; int AudioOutputChannels = 0; String AudioRouting; int Mute = 0; bool Solo = false; String MidiInstrumentMap = "NONE"; if (pEngineChannel) { EngineName = pEngineChannel->EngineName(); AudioOutputChannels = pEngineChannel->Channels(); Volume = pEngineChannel->Volume(); InstrumentStatus = pEngineChannel->InstrumentStatus(); InstrumentIndex = pEngineChannel->InstrumentIndex(); if (InstrumentIndex != -1) { InstrumentFileName = pEngineChannel->InstrumentFileName(); InstrumentName = pEngineChannel->InstrumentName(); } for (int chan = 0; chan < pEngineChannel->Channels(); chan++) { if (AudioRouting != "") AudioRouting += ","; AudioRouting += ToString(pEngineChannel->OutputChannel(chan)); } Mute = pEngineChannel->GetMute(); Solo = pEngineChannel->GetSolo(); if (pEngineChannel->UsesNoMidiInstrumentMap()) MidiInstrumentMap = "NONE"; else if (pEngineChannel->UsesDefaultMidiInstrumentMap()) MidiInstrumentMap = "DEFAULT"; else MidiInstrumentMap = ToString(pEngineChannel->GetMidiInstrumentMap()); } result.Add("ENGINE_NAME", EngineName); result.Add("VOLUME", Volume); //Some not-so-hardcoded stuff to make GUI look good result.Add("AUDIO_OUTPUT_DEVICE", GetAudioOutputDeviceIndex(pSamplerChannel->GetAudioOutputDevice())); result.Add("AUDIO_OUTPUT_CHANNELS", AudioOutputChannels); result.Add("AUDIO_OUTPUT_ROUTING", AudioRouting); result.Add("MIDI_INPUT_DEVICE", GetMidiInputDeviceIndex(pSamplerChannel->GetMidiInputDevice())); result.Add("MIDI_INPUT_PORT", pSamplerChannel->GetMidiInputPort()); if (pSamplerChannel->GetMidiInputChannel() == midi_chan_all) result.Add("MIDI_INPUT_CHANNEL", "ALL"); else result.Add("MIDI_INPUT_CHANNEL", pSamplerChannel->GetMidiInputChannel()); // convert the filename into the correct encoding as defined for LSCP // (especially in terms of special characters -> escape sequences) if (InstrumentFileName != "NONE" && InstrumentFileName != "") { #if WIN32 InstrumentFileName = Path::fromWindows(InstrumentFileName).toLscp(); #else // assuming POSIX InstrumentFileName = Path::fromPosix(InstrumentFileName).toLscp(); #endif } result.Add("INSTRUMENT_FILE", InstrumentFileName); result.Add("INSTRUMENT_NR", InstrumentIndex); result.Add("INSTRUMENT_NAME", _escapeLscpResponse(InstrumentName)); result.Add("INSTRUMENT_STATUS", InstrumentStatus); result.Add("MUTE", Mute == -1 ? "MUTED_BY_SOLO" : (Mute ? "true" : "false")); result.Add("SOLO", Solo); result.Add("MIDI_INSTRUMENT_MAP", MidiInstrumentMap); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to get the amount of active voices on a * particular sampler channel. */ String LSCPServer::GetVoiceCount(uint uiSamplerChannel) { dmsg(2,("LSCPServer: GetVoiceCount(SamplerChannel=%d)\n", uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine loaded on sampler channel"); if (!pEngineChannel->GetEngine()) throw Exception("No audio output device connected to sampler channel"); result.Add(pEngineChannel->GetEngine()->VoiceCount()); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to get the amount of active disk streams on a * particular sampler channel. */ String LSCPServer::GetStreamCount(uint uiSamplerChannel) { dmsg(2,("LSCPServer: GetStreamCount(SamplerChannel=%d)\n", uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel"); if (!pEngineChannel->GetEngine()) throw Exception("No audio output device connected to sampler channel"); result.Add(pEngineChannel->GetEngine()->DiskStreamCount()); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to get the buffer fill states of all disk * streams on a particular sampler channel. */ String LSCPServer::GetBufferFill(fill_response_t ResponseType, uint uiSamplerChannel) { dmsg(2,("LSCPServer: GetBufferFill(ResponseType=%d, SamplerChannel=%d)\n", ResponseType, uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel"); if (!pEngineChannel->GetEngine()) throw Exception("No audio output device connected to sampler channel"); if (!pEngineChannel->GetEngine()->DiskStreamSupported()) result.Add("NA"); else { switch (ResponseType) { case fill_response_bytes: result.Add(pEngineChannel->GetEngine()->DiskStreamBufferFillBytes()); break; case fill_response_percentage: result.Add(pEngineChannel->GetEngine()->DiskStreamBufferFillPercentage()); break; default: throw Exception("Unknown fill response type"); } } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAvailableAudioOutputDrivers() { dmsg(2,("LSCPServer: GetAvailableAudioOutputDrivers()\n")); LSCPResultSet result; try { int n = AudioOutputDeviceFactory::AvailableDrivers().size(); result.Add(n); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ListAvailableAudioOutputDrivers() { dmsg(2,("LSCPServer: ListAvailableAudioOutputDrivers()\n")); LSCPResultSet result; try { String s = AudioOutputDeviceFactory::AvailableDriversAsString(); result.Add(s); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAvailableMidiInputDrivers() { dmsg(2,("LSCPServer: GetAvailableMidiInputDrivers()\n")); LSCPResultSet result; try { int n = MidiInputDeviceFactory::AvailableDrivers().size(); result.Add(n); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ListAvailableMidiInputDrivers() { dmsg(2,("LSCPServer: ListAvailableMidiInputDrivers()\n")); LSCPResultSet result; try { String s = MidiInputDeviceFactory::AvailableDriversAsString(); result.Add(s); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInputDriverInfo(String Driver) { dmsg(2,("LSCPServer: GetMidiInputDriverInfo(Driver=%s)\n",Driver.c_str())); LSCPResultSet result; try { result.Add("DESCRIPTION", MidiInputDeviceFactory::GetDriverDescription(Driver)); result.Add("VERSION", MidiInputDeviceFactory::GetDriverVersion(Driver)); std::map parameters = MidiInputDeviceFactory::GetAvailableDriverParameters(Driver); if (parameters.size()) { // if there are parameters defined for this driver String s; std::map::iterator iter = parameters.begin(); for (;iter != parameters.end(); iter++) { if (s != "") s += ","; s += iter->first; } result.Add("PARAMETERS", s); } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAudioOutputDriverInfo(String Driver) { dmsg(2,("LSCPServer: GetAudioOutputDriverInfo(Driver=%s)\n",Driver.c_str())); LSCPResultSet result; try { result.Add("DESCRIPTION", AudioOutputDeviceFactory::GetDriverDescription(Driver)); result.Add("VERSION", AudioOutputDeviceFactory::GetDriverVersion(Driver)); std::map parameters = AudioOutputDeviceFactory::GetAvailableDriverParameters(Driver); if (parameters.size()) { // if there are parameters defined for this driver String s; std::map::iterator iter = parameters.begin(); for (;iter != parameters.end(); iter++) { if (s != "") s += ","; s += iter->first; } result.Add("PARAMETERS", s); } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInputDriverParameterInfo(String Driver, String Parameter, std::map DependencyList) { dmsg(2,("LSCPServer: GetMidiInputDriverParameterInfo(Driver=%s,Parameter=%s,DependencyListSize=%d)\n",Driver.c_str(),Parameter.c_str(),DependencyList.size())); LSCPResultSet result; try { DeviceCreationParameter* pParameter = MidiInputDeviceFactory::GetDriverParameter(Driver, Parameter); result.Add("TYPE", pParameter->Type()); result.Add("DESCRIPTION", pParameter->Description()); result.Add("MANDATORY", pParameter->Mandatory()); result.Add("FIX", pParameter->Fix()); result.Add("MULTIPLICITY", pParameter->Multiplicity()); optional oDepends = pParameter->Depends(); optional oDefault = pParameter->Default(DependencyList); optional oRangeMin = pParameter->RangeMin(DependencyList); optional oRangeMax = pParameter->RangeMax(DependencyList); optional oPossibilities = pParameter->Possibilities(DependencyList); if (oDepends) result.Add("DEPENDS", *oDepends); if (oDefault) result.Add("DEFAULT", *oDefault); if (oRangeMin) result.Add("RANGE_MIN", *oRangeMin); if (oRangeMax) result.Add("RANGE_MAX", *oRangeMax); if (oPossibilities) result.Add("POSSIBILITIES", *oPossibilities); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAudioOutputDriverParameterInfo(String Driver, String Parameter, std::map DependencyList) { dmsg(2,("LSCPServer: GetAudioOutputDriverParameterInfo(Driver=%s,Parameter=%s,DependencyListSize=%d)\n",Driver.c_str(),Parameter.c_str(),DependencyList.size())); LSCPResultSet result; try { DeviceCreationParameter* pParameter = AudioOutputDeviceFactory::GetDriverParameter(Driver, Parameter); result.Add("TYPE", pParameter->Type()); result.Add("DESCRIPTION", pParameter->Description()); result.Add("MANDATORY", pParameter->Mandatory()); result.Add("FIX", pParameter->Fix()); result.Add("MULTIPLICITY", pParameter->Multiplicity()); optional oDepends = pParameter->Depends(); optional oDefault = pParameter->Default(DependencyList); optional oRangeMin = pParameter->RangeMin(DependencyList); optional oRangeMax = pParameter->RangeMax(DependencyList); optional oPossibilities = pParameter->Possibilities(DependencyList); if (oDepends) result.Add("DEPENDS", *oDepends); if (oDefault) result.Add("DEFAULT", *oDefault); if (oRangeMin) result.Add("RANGE_MIN", *oRangeMin); if (oRangeMax) result.Add("RANGE_MAX", *oRangeMax); if (oPossibilities) result.Add("POSSIBILITIES", *oPossibilities); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAudioOutputDeviceCount() { dmsg(2,("LSCPServer: GetAudioOutputDeviceCount()\n")); LSCPResultSet result; try { uint count = pSampler->AudioOutputDevices(); result.Add(count); // success } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInputDeviceCount() { dmsg(2,("LSCPServer: GetMidiInputDeviceCount()\n")); LSCPResultSet result; try { uint count = pSampler->MidiInputDevices(); result.Add(count); // success } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAudioOutputDevices() { dmsg(2,("LSCPServer: GetAudioOutputDevices()\n")); LSCPResultSet result; try { String s; std::map devices = pSampler->GetAudioOutputDevices(); std::map::iterator iter = devices.begin(); for (; iter != devices.end(); iter++) { if (s != "") s += ","; s += ToString(iter->first); } result.Add(s); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInputDevices() { dmsg(2,("LSCPServer: GetMidiInputDevices()\n")); LSCPResultSet result; try { String s; std::map devices = pSampler->GetMidiInputDevices(); std::map::iterator iter = devices.begin(); for (; iter != devices.end(); iter++) { if (s != "") s += ","; s += ToString(iter->first); } result.Add(s); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAudioOutputDeviceInfo(uint DeviceIndex) { dmsg(2,("LSCPServer: GetAudioOutputDeviceInfo(DeviceIndex=%d)\n",DeviceIndex)); LSCPResultSet result; try { std::map devices = pSampler->GetAudioOutputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no audio output device with index " + ToString(DeviceIndex) + "."); AudioOutputDevice* pDevice = devices[DeviceIndex]; result.Add("DRIVER", pDevice->Driver()); std::map parameters = pDevice->DeviceParameters(); std::map::iterator iter = parameters.begin(); for (; iter != parameters.end(); iter++) { result.Add(iter->first, iter->second->Value()); } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInputDeviceInfo(uint DeviceIndex) { dmsg(2,("LSCPServer: GetMidiInputDeviceInfo(DeviceIndex=%d)\n",DeviceIndex)); LSCPResultSet result; try { std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no MIDI input device with index " + ToString(DeviceIndex) + "."); MidiInputDevice* pDevice = devices[DeviceIndex]; result.Add("DRIVER", pDevice->Driver()); std::map parameters = pDevice->DeviceParameters(); std::map::iterator iter = parameters.begin(); for (; iter != parameters.end(); iter++) { result.Add(iter->first, iter->second->Value()); } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInputPortInfo(uint DeviceIndex, uint PortIndex) { dmsg(2,("LSCPServer: GetMidiInputPortInfo(DeviceIndex=%d, PortIndex=%d)\n",DeviceIndex, PortIndex)); LSCPResultSet result; try { // get MIDI input device std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no MIDI input device with index " + ToString(DeviceIndex) + "."); MidiInputDevice* pDevice = devices[DeviceIndex]; // get MIDI port MidiInputPort* pMidiInputPort = pDevice->GetPort(PortIndex); if (!pMidiInputPort) throw Exception("There is no MIDI input port with index " + ToString(PortIndex) + "."); // return the values of all MIDI port parameters std::map parameters = pMidiInputPort->PortParameters(); std::map::iterator iter = parameters.begin(); for (; iter != parameters.end(); iter++) { result.Add(iter->first, iter->second->Value()); } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAudioOutputChannelInfo(uint DeviceId, uint ChannelId) { dmsg(2,("LSCPServer: GetAudioOutputChannelInfo(DeviceId=%d,ChannelId)\n",DeviceId,ChannelId)); LSCPResultSet result; try { // get audio output device std::map devices = pSampler->GetAudioOutputDevices(); if (!devices.count(DeviceId)) throw Exception("There is no audio output device with index " + ToString(DeviceId) + "."); AudioOutputDevice* pDevice = devices[DeviceId]; // get audio channel AudioChannel* pChannel = pDevice->Channel(ChannelId); if (!pChannel) throw Exception("Audio output device does not have audio channel " + ToString(ChannelId) + "."); // return the values of all audio channel parameters std::map parameters = pChannel->ChannelParameters(); std::map::iterator iter = parameters.begin(); for (; iter != parameters.end(); iter++) { result.Add(iter->first, iter->second->Value()); } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInputPortParameterInfo(uint DeviceId, uint PortId, String ParameterName) { dmsg(2,("LSCPServer: GetMidiInputPortParameterInfo(DeviceId=%d,PortId=%d,ParameterName=%s)\n",DeviceId,PortId,ParameterName.c_str())); LSCPResultSet result; try { // get MIDI input device std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(DeviceId)) throw Exception("There is no midi input device with index " + ToString(DeviceId) + "."); MidiInputDevice* pDevice = devices[DeviceId]; // get midi port MidiInputPort* pPort = pDevice->GetPort(PortId); if (!pPort) throw Exception("Midi input device does not have port " + ToString(PortId) + "."); // get desired port parameter std::map parameters = pPort->PortParameters(); if (!parameters.count(ParameterName)) throw Exception("Midi port does not provide a parameter '" + ParameterName + "'."); DeviceRuntimeParameter* pParameter = parameters[ParameterName]; // return all fields of this audio channel parameter result.Add("TYPE", pParameter->Type()); result.Add("DESCRIPTION", pParameter->Description()); result.Add("FIX", pParameter->Fix()); result.Add("MULTIPLICITY", pParameter->Multiplicity()); if (pParameter->RangeMin()) result.Add("RANGE_MIN", *pParameter->RangeMin()); if (pParameter->RangeMax()) result.Add("RANGE_MAX", *pParameter->RangeMax()); if (pParameter->Possibilities()) result.Add("POSSIBILITIES", *pParameter->Possibilities()); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAudioOutputChannelParameterInfo(uint DeviceId, uint ChannelId, String ParameterName) { dmsg(2,("LSCPServer: GetAudioOutputChannelParameterInfo(DeviceId=%d,ChannelId=%d,ParameterName=%s)\n",DeviceId,ChannelId,ParameterName.c_str())); LSCPResultSet result; try { // get audio output device std::map devices = pSampler->GetAudioOutputDevices(); if (!devices.count(DeviceId)) throw Exception("There is no audio output device with index " + ToString(DeviceId) + "."); AudioOutputDevice* pDevice = devices[DeviceId]; // get audio channel AudioChannel* pChannel = pDevice->Channel(ChannelId); if (!pChannel) throw Exception("Audio output device does not have audio channel " + ToString(ChannelId) + "."); // get desired audio channel parameter std::map parameters = pChannel->ChannelParameters(); if (!parameters.count(ParameterName)) throw Exception("Audio channel does not provide a parameter '" + ParameterName + "'."); DeviceRuntimeParameter* pParameter = parameters[ParameterName]; // return all fields of this audio channel parameter result.Add("TYPE", pParameter->Type()); result.Add("DESCRIPTION", pParameter->Description()); result.Add("FIX", pParameter->Fix()); result.Add("MULTIPLICITY", pParameter->Multiplicity()); if (pParameter->RangeMin()) result.Add("RANGE_MIN", *pParameter->RangeMin()); if (pParameter->RangeMax()) result.Add("RANGE_MAX", *pParameter->RangeMax()); if (pParameter->Possibilities()) result.Add("POSSIBILITIES", *pParameter->Possibilities()); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetAudioOutputChannelParameter(uint DeviceId, uint ChannelId, String ParamKey, String ParamVal) { dmsg(2,("LSCPServer: SetAudioOutputChannelParameter(DeviceId=%d,ChannelId=%d,ParamKey=%s,ParamVal=%s)\n",DeviceId,ChannelId,ParamKey.c_str(),ParamVal.c_str())); LSCPResultSet result; try { // get audio output device std::map devices = pSampler->GetAudioOutputDevices(); if (!devices.count(DeviceId)) throw Exception("There is no audio output device with index " + ToString(DeviceId) + "."); AudioOutputDevice* pDevice = devices[DeviceId]; // get audio channel AudioChannel* pChannel = pDevice->Channel(ChannelId); if (!pChannel) throw Exception("Audio output device does not have audio channel " + ToString(ChannelId) + "."); // get desired audio channel parameter std::map parameters = pChannel->ChannelParameters(); if (!parameters.count(ParamKey)) throw Exception("Audio channel does not provide a parameter '" + ParamKey + "'."); DeviceRuntimeParameter* pParameter = parameters[ParamKey]; // set new channel parameter value pParameter->SetValue(ParamVal); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_audio_device_info, DeviceId)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetAudioOutputDeviceParameter(uint DeviceIndex, String ParamKey, String ParamVal) { dmsg(2,("LSCPServer: SetAudioOutputDeviceParameter(DeviceIndex=%d,ParamKey=%s,ParamVal=%s)\n",DeviceIndex,ParamKey.c_str(),ParamVal.c_str())); LSCPResultSet result; try { std::map devices = pSampler->GetAudioOutputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no audio output device with index " + ToString(DeviceIndex) + "."); AudioOutputDevice* pDevice = devices[DeviceIndex]; std::map parameters = pDevice->DeviceParameters(); if (!parameters.count(ParamKey)) throw Exception("Audio output device " + ToString(DeviceIndex) + " does not have a device parameter '" + ParamKey + "'"); parameters[ParamKey]->SetValue(ParamVal); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_audio_device_info, DeviceIndex)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetMidiInputDeviceParameter(uint DeviceIndex, String ParamKey, String ParamVal) { dmsg(2,("LSCPServer: SetMidiOutputDeviceParameter(DeviceIndex=%d,ParamKey=%s,ParamVal=%s)\n",DeviceIndex,ParamKey.c_str(),ParamVal.c_str())); LSCPResultSet result; try { std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no MIDI input device with index " + ToString(DeviceIndex) + "."); MidiInputDevice* pDevice = devices[DeviceIndex]; std::map parameters = pDevice->DeviceParameters(); if (!parameters.count(ParamKey)) throw Exception("MIDI input device " + ToString(DeviceIndex) + " does not have a device parameter '" + ParamKey + "'"); parameters[ParamKey]->SetValue(ParamVal); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_midi_device_info, DeviceIndex)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetMidiInputPortParameter(uint DeviceIndex, uint PortIndex, String ParamKey, String ParamVal) { dmsg(2,("LSCPServer: SetMidiOutputDeviceParameter(DeviceIndex=%d,ParamKey=%s,ParamVal=%s)\n",DeviceIndex,ParamKey.c_str(),ParamVal.c_str())); LSCPResultSet result; try { // get MIDI input device std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(DeviceIndex)) throw Exception("There is no MIDI input device with index " + ToString(DeviceIndex) + "."); MidiInputDevice* pDevice = devices[DeviceIndex]; // get MIDI port MidiInputPort* pMidiInputPort = pDevice->GetPort(PortIndex); if (!pMidiInputPort) throw Exception("There is no MIDI input port with index " + ToString(PortIndex) + "."); // set port parameter value std::map parameters = pMidiInputPort->PortParameters(); if (!parameters.count(ParamKey)) throw Exception("MIDI input device " + ToString(PortIndex) + " does not have a parameter '" + ParamKey + "'"); parameters[ParamKey]->SetValue(ParamVal); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_midi_device_info, DeviceIndex)); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to change the audio output channel for * playback on a particular sampler channel. */ String LSCPServer::SetAudioOutputChannel(uint ChannelAudioOutputChannel, uint AudioOutputDeviceInputChannel, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetAudioOutputChannel(ChannelAudioOutputChannel=%d, AudioOutputDeviceInputChannel=%d, SamplerChannel=%d)\n",ChannelAudioOutputChannel,AudioOutputDeviceInputChannel,uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type yet assigned to sampler channel " + ToString(uiSamplerChannel)); if (!pSamplerChannel->GetAudioOutputDevice()) throw Exception("No audio output device connected to sampler channel " + ToString(uiSamplerChannel)); pEngineChannel->SetOutputChannel(ChannelAudioOutputChannel, AudioOutputDeviceInputChannel); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetAudioOutputDevice(uint AudioDeviceId, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetAudiotOutputDevice(AudioDeviceId=%d, SamplerChannel=%d)\n",AudioDeviceId,uiSamplerChannel)); LSCPResultSet result; LockRTNotify(); try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); std::map devices = pSampler->GetAudioOutputDevices(); if (!devices.count(AudioDeviceId)) throw Exception("There is no audio output device with index " + ToString(AudioDeviceId)); AudioOutputDevice* pDevice = devices[AudioDeviceId]; pSamplerChannel->SetAudioOutputDevice(pDevice); } catch (Exception e) { result.Error(e); } UnlockRTNotify(); return result.Produce(); } String LSCPServer::SetAudioOutputType(String AudioOutputDriver, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetAudioOutputType(String AudioOutputDriver=%s, SamplerChannel=%d)\n",AudioOutputDriver.c_str(),uiSamplerChannel)); LSCPResultSet result; LockRTNotify(); try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); // Driver type name aliasing... if (AudioOutputDriver == "Alsa") AudioOutputDriver = "ALSA"; if (AudioOutputDriver == "Jack") AudioOutputDriver = "JACK"; // Check if there's one audio output device already created // for the intended audio driver type (AudioOutputDriver)... AudioOutputDevice *pDevice = NULL; std::map devices = pSampler->GetAudioOutputDevices(); std::map::iterator iter = devices.begin(); for (; iter != devices.end(); iter++) { if ((iter->second)->Driver() == AudioOutputDriver) { pDevice = iter->second; break; } } // If it doesn't exist, create a new one with default parameters... if (pDevice == NULL) { std::map params; pDevice = pSampler->CreateAudioOutputDevice(AudioOutputDriver, params); } // Must have a device... if (pDevice == NULL) throw Exception("Internal error: could not create audio output device."); // Set it as the current channel device... pSamplerChannel->SetAudioOutputDevice(pDevice); } catch (Exception e) { result.Error(e); } UnlockRTNotify(); return result.Produce(); } String LSCPServer::SetMIDIInputPort(uint MIDIPort, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetMIDIInputPort(MIDIPort=%d, SamplerChannel=%d)\n",MIDIPort,uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); pSamplerChannel->SetMidiInputPort(MIDIPort); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetMIDIInputChannel(uint MIDIChannel, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetMIDIInputChannel(MIDIChannel=%d, SamplerChannel=%d)\n",MIDIChannel,uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); pSamplerChannel->SetMidiInputChannel((midi_chan_t) MIDIChannel); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetMIDIInputDevice(uint MIDIDeviceId, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetMIDIInputDevice(MIDIDeviceId=%d, SamplerChannel=%d)\n",MIDIDeviceId,uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(MIDIDeviceId)) throw Exception("There is no MIDI input device with index " + ToString(MIDIDeviceId)); MidiInputDevice* pDevice = devices[MIDIDeviceId]; pSamplerChannel->SetMidiInputDevice(pDevice); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetMIDIInputType(String MidiInputDriver, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetMIDIInputType(String MidiInputDriver=%s, SamplerChannel=%d)\n",MidiInputDriver.c_str(),uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); // Driver type name aliasing... if (MidiInputDriver == "Alsa") MidiInputDriver = "ALSA"; // Check if there's one MIDI input device already created // for the intended MIDI driver type (MidiInputDriver)... MidiInputDevice *pDevice = NULL; std::map devices = pSampler->GetMidiInputDevices(); std::map::iterator iter = devices.begin(); for (; iter != devices.end(); iter++) { if ((iter->second)->Driver() == MidiInputDriver) { pDevice = iter->second; break; } } // If it doesn't exist, create a new one with default parameters... if (pDevice == NULL) { std::map params; pDevice = pSampler->CreateMidiInputDevice(MidiInputDriver, params); // Make it with at least one initial port. std::map parameters = pDevice->DeviceParameters(); parameters["PORTS"]->SetValue("1"); } // Must have a device... if (pDevice == NULL) throw Exception("Internal error: could not create MIDI input device."); // Set it as the current channel device... pSamplerChannel->SetMidiInputDevice(pDevice); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to change the MIDI input device, port and channel on which * engine of a particular sampler channel should listen to. */ String LSCPServer::SetMIDIInput(uint MIDIDeviceId, uint MIDIPort, uint MIDIChannel, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetMIDIInput(MIDIDeviceId=%d, MIDIPort=%d, MIDIChannel=%d, SamplerChannel=%d)\n", MIDIDeviceId, MIDIPort, MIDIChannel, uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); std::map devices = pSampler->GetMidiInputDevices(); if (!devices.count(MIDIDeviceId)) throw Exception("There is no MIDI input device with index " + ToString(MIDIDeviceId)); MidiInputDevice* pDevice = devices[MIDIDeviceId]; pSamplerChannel->SetMidiInput(pDevice, MIDIPort, (midi_chan_t) MIDIChannel); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to change the global volume factor on a * particular sampler channel. */ String LSCPServer::SetVolume(double dVolume, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetVolume(Volume=%f, SamplerChannel=%d)\n", dVolume, uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel"); pEngineChannel->Volume(dVolume); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to mute/unmute particular sampler channel. */ String LSCPServer::SetChannelMute(bool bMute, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetChannelMute(bMute=%d,uiSamplerChannel=%d)\n",bMute,uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel"); if(!bMute) pEngineChannel->SetMute((HasSoloChannel() && !pEngineChannel->GetSolo()) ? -1 : 0); else pEngineChannel->SetMute(1); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to solo particular sampler channel. */ String LSCPServer::SetChannelSolo(bool bSolo, uint uiSamplerChannel) { dmsg(2,("LSCPServer: SetChannelSolo(bSolo=%d,uiSamplerChannel=%d)\n",bSolo,uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel"); bool oldSolo = pEngineChannel->GetSolo(); bool hadSoloChannel = HasSoloChannel(); pEngineChannel->SetSolo(bSolo); if(!oldSolo && bSolo) { if(pEngineChannel->GetMute() == -1) pEngineChannel->SetMute(0); if(!hadSoloChannel) MuteNonSoloChannels(); } if(oldSolo && !bSolo) { if(!HasSoloChannel()) UnmuteChannels(); else if(!pEngineChannel->GetMute()) pEngineChannel->SetMute(-1); } } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Determines whether there is at least one solo channel in the channel list. * * @returns true if there is at least one solo channel in the channel list, * false otherwise. */ bool LSCPServer::HasSoloChannel() { std::map channels = pSampler->GetSamplerChannels(); std::map::iterator iter = channels.begin(); for (; iter != channels.end(); iter++) { EngineChannel* c = iter->second->GetEngineChannel(); if(c && c->GetSolo()) return true; } return false; } /** * Mutes all unmuted non-solo channels. Notice that the channels are muted * with -1 which indicates that they are muted because of the presence * of a solo channel(s). Channels muted with -1 will be automatically unmuted * when there are no solo channels left. */ void LSCPServer::MuteNonSoloChannels() { dmsg(2,("LSCPServer: MuteNonSoloChannels()\n")); std::map channels = pSampler->GetSamplerChannels(); std::map::iterator iter = channels.begin(); for (; iter != channels.end(); iter++) { EngineChannel* c = iter->second->GetEngineChannel(); if(c && !c->GetSolo() && !c->GetMute()) c->SetMute(-1); } } /** * Unmutes all channels that are muted because of the presence * of a solo channel(s). */ void LSCPServer::UnmuteChannels() { dmsg(2,("LSCPServer: UnmuteChannels()\n")); std::map channels = pSampler->GetSamplerChannels(); std::map::iterator iter = channels.begin(); for (; iter != channels.end(); iter++) { EngineChannel* c = iter->second->GetEngineChannel(); if(c && c->GetMute() == -1) c->SetMute(0); } } String LSCPServer::AddOrReplaceMIDIInstrumentMapping(uint MidiMapID, uint MidiBank, uint MidiProg, String EngineType, String InstrumentFile, uint InstrumentIndex, float Volume, MidiInstrumentMapper::mode_t LoadMode, String Name, bool bModal) { dmsg(2,("LSCPServer: AddOrReplaceMIDIInstrumentMapping()\n")); midi_prog_index_t idx; idx.midi_bank_msb = (MidiBank >> 7) & 0x7f; idx.midi_bank_lsb = MidiBank & 0x7f; idx.midi_prog = MidiProg; MidiInstrumentMapper::entry_t entry; entry.EngineName = EngineType; entry.InstrumentFile = InstrumentFile; entry.InstrumentIndex = InstrumentIndex; entry.LoadMode = LoadMode; entry.Volume = Volume; entry.Name = Name; LSCPResultSet result; try { // PERSISTENT mapping commands might block for a long time, so in // that case we add/replace the mapping in another thread in case // the NON_MODAL argument was supplied, non persistent mappings // should return immediately, so we don't need to do that for them bool bInBackground = (entry.LoadMode == MidiInstrumentMapper::PERSISTENT && !bModal); MidiInstrumentMapper::AddOrReplaceEntry(MidiMapID, idx, entry, bInBackground); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::RemoveMIDIInstrumentMapping(uint MidiMapID, uint MidiBank, uint MidiProg) { dmsg(2,("LSCPServer: RemoveMIDIInstrumentMapping()\n")); midi_prog_index_t idx; idx.midi_bank_msb = (MidiBank >> 7) & 0x7f; idx.midi_bank_lsb = MidiBank & 0x7f; idx.midi_prog = MidiProg; LSCPResultSet result; try { MidiInstrumentMapper::RemoveEntry(MidiMapID, idx); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInstrumentMappings(uint MidiMapID) { dmsg(2,("LSCPServer: GetMidiInstrumentMappings()\n")); LSCPResultSet result; try { result.Add(MidiInstrumentMapper::Entries(MidiMapID).size()); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetAllMidiInstrumentMappings() { dmsg(2,("LSCPServer: GetAllMidiInstrumentMappings()\n")); LSCPResultSet result; std::vector maps = MidiInstrumentMapper::Maps(); int totalMappings = 0; for (int i = 0; i < maps.size(); i++) { try { totalMappings += MidiInstrumentMapper::Entries(maps[i]).size(); } catch (Exception e) { /*NOOP*/ } } result.Add(totalMappings); return result.Produce(); } String LSCPServer::GetMidiInstrumentMapping(uint MidiMapID, uint MidiBank, uint MidiProg) { dmsg(2,("LSCPServer: GetMidiIstrumentMapping()\n")); LSCPResultSet result; try { midi_prog_index_t idx; idx.midi_bank_msb = (MidiBank >> 7) & 0x7f; idx.midi_bank_lsb = MidiBank & 0x7f; idx.midi_prog = MidiProg; std::map mappings = MidiInstrumentMapper::Entries(MidiMapID); std::map::iterator iter = mappings.find(idx); if (iter == mappings.end()) result.Error("there is no map entry with that index"); else { // found // convert the filename into the correct encoding as defined for LSCP // (especially in terms of special characters -> escape sequences) #if WIN32 const String instrumentFileName = Path::fromWindows(iter->second.InstrumentFile).toLscp(); #else // assuming POSIX const String instrumentFileName = Path::fromPosix(iter->second.InstrumentFile).toLscp(); #endif result.Add("NAME", _escapeLscpResponse(iter->second.Name)); result.Add("ENGINE_NAME", iter->second.EngineName); result.Add("INSTRUMENT_FILE", instrumentFileName); result.Add("INSTRUMENT_NR", (int) iter->second.InstrumentIndex); String instrumentName; Engine* pEngine = EngineFactory::Create(iter->second.EngineName); if (pEngine) { if (pEngine->GetInstrumentManager()) { InstrumentManager::instrument_id_t instrID; instrID.FileName = iter->second.InstrumentFile; instrID.Index = iter->second.InstrumentIndex; instrumentName = pEngine->GetInstrumentManager()->GetInstrumentName(instrID); } EngineFactory::Destroy(pEngine); } result.Add("INSTRUMENT_NAME", _escapeLscpResponse(instrumentName)); switch (iter->second.LoadMode) { case MidiInstrumentMapper::ON_DEMAND: result.Add("LOAD_MODE", "ON_DEMAND"); break; case MidiInstrumentMapper::ON_DEMAND_HOLD: result.Add("LOAD_MODE", "ON_DEMAND_HOLD"); break; case MidiInstrumentMapper::PERSISTENT: result.Add("LOAD_MODE", "PERSISTENT"); break; default: throw Exception("entry reflects invalid LOAD_MODE, consider this as a bug!"); } result.Add("VOLUME", iter->second.Volume); } } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ListMidiInstrumentMappings(uint MidiMapID) { dmsg(2,("LSCPServer: ListMidiInstrumentMappings()\n")); LSCPResultSet result; try { String s; std::map mappings = MidiInstrumentMapper::Entries(MidiMapID); std::map::iterator iter = mappings.begin(); for (; iter != mappings.end(); iter++) { if (s.size()) s += ","; s += "{" + ToString(MidiMapID) + "," + ToString((int(iter->first.midi_bank_msb) << 7) | int(iter->first.midi_bank_lsb)) + "," + ToString(int(iter->first.midi_prog)) + "}"; } result.Add(s); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ListAllMidiInstrumentMappings() { dmsg(2,("LSCPServer: ListAllMidiInstrumentMappings()\n")); LSCPResultSet result; try { std::vector maps = MidiInstrumentMapper::Maps(); String s; for (int i = 0; i < maps.size(); i++) { std::map mappings = MidiInstrumentMapper::Entries(maps[i]); std::map::iterator iter = mappings.begin(); for (; iter != mappings.end(); iter++) { if (s.size()) s += ","; s += "{" + ToString(maps[i]) + "," + ToString((int(iter->first.midi_bank_msb) << 7) | int(iter->first.midi_bank_lsb)) + "," + ToString(int(iter->first.midi_prog)) + "}"; } } result.Add(s); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ClearMidiInstrumentMappings(uint MidiMapID) { dmsg(2,("LSCPServer: ClearMidiInstrumentMappings()\n")); LSCPResultSet result; try { MidiInstrumentMapper::RemoveAllEntries(MidiMapID); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ClearAllMidiInstrumentMappings() { dmsg(2,("LSCPServer: ClearAllMidiInstrumentMappings()\n")); LSCPResultSet result; try { std::vector maps = MidiInstrumentMapper::Maps(); for (int i = 0; i < maps.size(); i++) MidiInstrumentMapper::RemoveAllEntries(maps[i]); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::AddMidiInstrumentMap(String MapName) { dmsg(2,("LSCPServer: AddMidiInstrumentMap()\n")); LSCPResultSet result; try { int MapID = MidiInstrumentMapper::AddMap(MapName); result = LSCPResultSet(MapID); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::RemoveMidiInstrumentMap(uint MidiMapID) { dmsg(2,("LSCPServer: RemoveMidiInstrumentMap()\n")); LSCPResultSet result; try { MidiInstrumentMapper::RemoveMap(MidiMapID); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::RemoveAllMidiInstrumentMaps() { dmsg(2,("LSCPServer: RemoveAllMidiInstrumentMaps()\n")); LSCPResultSet result; try { MidiInstrumentMapper::RemoveAllMaps(); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInstrumentMaps() { dmsg(2,("LSCPServer: GetMidiInstrumentMaps()\n")); LSCPResultSet result; try { result.Add(MidiInstrumentMapper::Maps().size()); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ListMidiInstrumentMaps() { dmsg(2,("LSCPServer: ListMidiInstrumentMaps()\n")); LSCPResultSet result; try { std::vector maps = MidiInstrumentMapper::Maps(); String sList; for (int i = 0; i < maps.size(); i++) { if (sList != "") sList += ","; sList += ToString(maps[i]); } result.Add(sList); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetMidiInstrumentMap(uint MidiMapID) { dmsg(2,("LSCPServer: GetMidiInstrumentMap()\n")); LSCPResultSet result; try { result.Add("NAME", _escapeLscpResponse(MidiInstrumentMapper::MapName(MidiMapID))); result.Add("DEFAULT", MidiInstrumentMapper::GetDefaultMap() == MidiMapID); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetMidiInstrumentMapName(uint MidiMapID, String NewName) { dmsg(2,("LSCPServer: SetMidiInstrumentMapName()\n")); LSCPResultSet result; try { MidiInstrumentMapper::RenameMap(MidiMapID, NewName); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Set the MIDI instrument map the given sampler channel shall use for * handling MIDI program change messages. There are the following two * special (negative) values: * * - (-1) : set to NONE (ignore program changes) * - (-2) : set to DEFAULT map */ String LSCPServer::SetChannelMap(uint uiSamplerChannel, int MidiMapID) { dmsg(2,("LSCPServer: SetChannelMap()\n")); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("There is no engine deployed on this sampler channel yet"); if (MidiMapID == -1) pEngineChannel->SetMidiInstrumentMapToNone(); else if (MidiMapID == -2) pEngineChannel->SetMidiInstrumentMapToDefault(); else pEngineChannel->SetMidiInstrumentMap(MidiMapID); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::CreateFxSend(uint uiSamplerChannel, uint MidiCtrl, String Name) { dmsg(2,("LSCPServer: CreateFxSend()\n")); LSCPResultSet result; try { EngineChannel* pEngineChannel = GetEngineChannel(uiSamplerChannel); FxSend* pFxSend = pEngineChannel->AddFxSend(MidiCtrl, Name); if (!pFxSend) throw Exception("Could not add FxSend, don't ask, I don't know why (probably a bug)"); result = LSCPResultSet(pFxSend->Id()); // success } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::DestroyFxSend(uint uiSamplerChannel, uint FxSendID) { dmsg(2,("LSCPServer: DestroyFxSend()\n")); LSCPResultSet result; try { EngineChannel* pEngineChannel = GetEngineChannel(uiSamplerChannel); FxSend* pFxSend = NULL; for (int i = 0; i < pEngineChannel->GetFxSendCount(); i++) { if (pEngineChannel->GetFxSend(i)->Id() == FxSendID) { pFxSend = pEngineChannel->GetFxSend(i); break; } } if (!pFxSend) throw Exception("There is no FxSend with that ID on the given sampler channel"); pEngineChannel->RemoveFxSend(pFxSend); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetFxSends(uint uiSamplerChannel) { dmsg(2,("LSCPServer: GetFxSends()\n")); LSCPResultSet result; try { EngineChannel* pEngineChannel = GetEngineChannel(uiSamplerChannel); result.Add(pEngineChannel->GetFxSendCount()); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::ListFxSends(uint uiSamplerChannel) { dmsg(2,("LSCPServer: ListFxSends()\n")); LSCPResultSet result; String list; try { EngineChannel* pEngineChannel = GetEngineChannel(uiSamplerChannel); for (int i = 0; i < pEngineChannel->GetFxSendCount(); i++) { FxSend* pFxSend = pEngineChannel->GetFxSend(i); if (list != "") list += ","; list += ToString(pFxSend->Id()); } result.Add(list); } catch (Exception e) { result.Error(e); } return result.Produce(); } FxSend* LSCPServer::GetFxSend(uint uiSamplerChannel, uint FxSendID) { EngineChannel* pEngineChannel = GetEngineChannel(uiSamplerChannel); FxSend* pFxSend = NULL; for (int i = 0; i < pEngineChannel->GetFxSendCount(); i++) { if (pEngineChannel->GetFxSend(i)->Id() == FxSendID) { pFxSend = pEngineChannel->GetFxSend(i); break; } } if (!pFxSend) throw Exception("There is no FxSend with that ID on the given sampler channel"); return pFxSend; } String LSCPServer::GetFxSendInfo(uint uiSamplerChannel, uint FxSendID) { dmsg(2,("LSCPServer: GetFxSendInfo()\n")); LSCPResultSet result; try { EngineChannel* pEngineChannel = GetEngineChannel(uiSamplerChannel); FxSend* pFxSend = GetFxSend(uiSamplerChannel, FxSendID); // gather audio routing informations String AudioRouting; for (int chan = 0; chan < pEngineChannel->Channels(); chan++) { if (AudioRouting != "") AudioRouting += ","; AudioRouting += ToString(pFxSend->DestinationChannel(chan)); } // success result.Add("NAME", _escapeLscpResponse(pFxSend->Name())); result.Add("MIDI_CONTROLLER", pFxSend->MidiController()); result.Add("LEVEL", ToString(pFxSend->Level())); result.Add("AUDIO_OUTPUT_ROUTING", AudioRouting); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetFxSendName(uint uiSamplerChannel, uint FxSendID, String Name) { dmsg(2,("LSCPServer: SetFxSendName()\n")); LSCPResultSet result; try { FxSend* pFxSend = GetFxSend(uiSamplerChannel, FxSendID); pFxSend->SetName(Name); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_fx_send_info, uiSamplerChannel, FxSendID)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetFxSendAudioOutputChannel(uint uiSamplerChannel, uint FxSendID, uint FxSendChannel, uint DeviceChannel) { dmsg(2,("LSCPServer: SetFxSendAudioOutputChannel()\n")); LSCPResultSet result; try { FxSend* pFxSend = GetFxSend(uiSamplerChannel, FxSendID); pFxSend->SetDestinationChannel(FxSendChannel, DeviceChannel); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_fx_send_info, uiSamplerChannel, FxSendID)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetFxSendMidiController(uint uiSamplerChannel, uint FxSendID, uint MidiController) { dmsg(2,("LSCPServer: SetFxSendMidiController()\n")); LSCPResultSet result; try { FxSend* pFxSend = GetFxSend(uiSamplerChannel, FxSendID); pFxSend->SetMidiController(MidiController); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_fx_send_info, uiSamplerChannel, FxSendID)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::SetFxSendLevel(uint uiSamplerChannel, uint FxSendID, double dLevel) { dmsg(2,("LSCPServer: SetFxSendLevel()\n")); LSCPResultSet result; try { FxSend* pFxSend = GetFxSend(uiSamplerChannel, FxSendID); pFxSend->SetLevel((float)dLevel); LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_fx_send_info, uiSamplerChannel, FxSendID)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::EditSamplerChannelInstrument(uint uiSamplerChannel) { dmsg(2,("LSCPServer: EditSamplerChannelInstrument(SamplerChannel=%d)\n", uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel"); if (pEngineChannel->InstrumentStatus() < 0) throw Exception("No instrument loaded to sampler channel"); Engine* pEngine = pEngineChannel->GetEngine(); InstrumentManager* pInstrumentManager = pEngine->GetInstrumentManager(); if (!pInstrumentManager) throw Exception("Engine does not provide an instrument manager"); InstrumentManager::instrument_id_t instrumentID; instrumentID.FileName = pEngineChannel->InstrumentFileName(); instrumentID.Index = pEngineChannel->InstrumentIndex(); pInstrumentManager->LaunchInstrumentEditor(instrumentID); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to reset a particular sampler channel. */ String LSCPServer::ResetChannel(uint uiSamplerChannel) { dmsg(2,("LSCPServer: ResetChannel(SamplerChannel=%d)\n", uiSamplerChannel)); LSCPResultSet result; try { SamplerChannel* pSamplerChannel = pSampler->GetSamplerChannel(uiSamplerChannel); if (!pSamplerChannel) throw Exception("Invalid sampler channel number " + ToString(uiSamplerChannel)); EngineChannel* pEngineChannel = pSamplerChannel->GetEngineChannel(); if (!pEngineChannel) throw Exception("No engine type assigned to sampler channel"); pEngineChannel->Reset(); } catch (Exception e) { result.Error(e); } return result.Produce(); } /** * Will be called by the parser to reset the whole sampler. */ String LSCPServer::ResetSampler() { dmsg(2,("LSCPServer: ResetSampler()\n")); pSampler->Reset(); LSCPResultSet result; return result.Produce(); } /** * Will be called by the parser to return general informations about this * sampler. */ String LSCPServer::GetServerInfo() { dmsg(2,("LSCPServer: GetServerInfo()\n")); const std::string description = _escapeLscpResponse("LinuxSampler - modular, streaming capable sampler"); LSCPResultSet result; result.Add("DESCRIPTION", description); result.Add("VERSION", VERSION); result.Add("PROTOCOL_VERSION", ToString(LSCP_RELEASE_MAJOR) + "." + ToString(LSCP_RELEASE_MINOR)); #if HAVE_SQLITE3 result.Add("INSTRUMENTS_DB_SUPPORT", "yes"); #else result.Add("INSTRUMENTS_DB_SUPPORT", "no"); #endif return result.Produce(); } /** * Will be called by the parser to return the current number of all active streams. */ String LSCPServer::GetTotalStreamCount() { dmsg(2,("LSCPServer: GetTotalStreamCount()\n")); LSCPResultSet result; result.Add(pSampler->GetDiskStreamCount()); return result.Produce(); } /** * Will be called by the parser to return the current number of all active voices. */ String LSCPServer::GetTotalVoiceCount() { dmsg(2,("LSCPServer: GetTotalVoiceCount()\n")); LSCPResultSet result; result.Add(pSampler->GetVoiceCount()); return result.Produce(); } /** * Will be called by the parser to return the maximum number of voices. */ String LSCPServer::GetTotalVoiceCountMax() { dmsg(2,("LSCPServer: GetTotalVoiceCountMax()\n")); LSCPResultSet result; result.Add(EngineFactory::EngineInstances().size() * CONFIG_MAX_VOICES); return result.Produce(); } String LSCPServer::GetGlobalVolume() { LSCPResultSet result; result.Add(ToString(GLOBAL_VOLUME)); // see common/global.cpp return result.Produce(); } String LSCPServer::SetGlobalVolume(double dVolume) { LSCPResultSet result; try { if (dVolume < 0) throw Exception("Volume may not be negative"); GLOBAL_VOLUME = dVolume; // see common/global.cpp LSCPServer::SendLSCPNotify(LSCPEvent(LSCPEvent::event_global_info, "VOLUME", GLOBAL_VOLUME)); } catch (Exception e) { result.Error(e); } return result.Produce(); } String LSCPServer::GetFileInstruments(String Filename) { dmsg(2,("LSCPServer: GetFileInstruments(String Filename=%s)\n",Filename.c_str())); LSCPResultSet result; try { VerifyFile(Filename); } catch (Exception e) { result.Error(e); return result.Produce(); } // try to find a sampler engine that can handle the file bool bFound = false; std::vector engineTypes = EngineFactory::AvailableEngineTypes(); for (int i = 0; !bFound && i < engineTypes.size(); i++) { Engine* pEngine = NULL; try { pEngine = EngineFactory::Create(engineTypes[i]); if (!pEngine) throw Exception("Internal error: could not create '" + engineTypes[i] + "' engine"); InstrumentManager* pManager = pEngine->GetInstrumentManager(); if (pManager) { std::vector IDs = pManager->GetInstrumentFileContent(Filename); // return the amount of instruments in the file result.Add(IDs.size()); // no more need to ask other engine types bFound = true; } else dmsg(1,("Warning: engine '%s' does not provide an instrument manager\n", engineTypes[i].c_str())); } catch (Exception e) { // NOOP, as exception is thrown if engine doesn't support file } if (pEngine) EngineFactory::Destroy(pEngine); } if (!bFound) result.Error("Unknown file format"); return result.Produce(); } String LSCPServer::ListFileInstruments(String Filename) { dmsg(2,("LSCPServer: ListFileInstruments(String Filename=%s)\n",Filename.c_str())); LSCPResultSet result; try { VerifyFile(Filename); } catch (Exception e) { result.Error(e); return result.Produce(); } // try to find a sampler engine that can handle the file bool bFound = false; std::vector engineTypes = EngineFactory::AvailableEngineTypes(); for (int i = 0; !bFound && i < engineTypes.size(); i++) { Engine* pEngine = NULL; try { pEngine = EngineFactory::Create(engineTypes[i]); if (!pEngine) throw Exception("Internal error: could not create '" + engineTypes[i] + "' engine"); InstrumentManager* pManager = pEngine->GetInstrumentManager(); if (pManager) { std::vector IDs = pManager->GetInstrumentFileContent(Filename); // return a list of IDs of the instruments in the file String s; for (int j = 0; j < IDs.size(); j++) { if (s.size()) s += ","; s += ToString(IDs[j].Index); } result.Add(s); // no more need to ask other engine types bFound = true; } else dmsg(1,("Warning: engine '%s' does not provide an instrument manager\n", engineTypes[i].c_str())); } catch (Exception e) { // NOOP, as exception is thrown if engine doesn't support file } if (pEngine) EngineFactory::Destroy(pEngine); } if (!bFound) result.Error("Unknown file format"); return result.Produce(); } String LSCPServer::GetFileInstrumentInfo(String Filename, uint InstrumentID) { dmsg(2,("LSCPServer: GetFileInstrumentInfo(String Filename=%s, InstrumentID=%d)\n",Filename.c_str(),InstrumentID)); LSCPResultSet result; try { VerifyFile(Filename); } catch (Exception e) { result.Error(e); return result.Produce(); } InstrumentManager::instrument_id_t id; id.FileName = Filename; id.Index = InstrumentID; // try to find a sampler engine that can handle the file bool bFound = false; bool bFatalErr = false; std::vector engineTypes = EngineFactory::AvailableEngineTypes(); for (int i = 0; !bFound && !bFatalErr && i < engineTypes.size(); i++) { Engine* pEngine = NULL; try { pEngine = EngineFactory::Create(engineTypes[i]); if (!pEngine) throw Exception("Internal error: could not create '" + engineTypes[i] + "' engine"); InstrumentManager* pManager = pEngine->GetInstrumentManager(); if (pManager) { // check if the instrument index is valid // FIXME: this won't work if an engine only supports parts of the instrument file std::vector IDs = pManager->GetInstrumentFileContent(Filename); if (std::find(IDs.begin(), IDs.end(), id) == IDs.end()) { std::stringstream ss; ss << "Invalid instrument index " << InstrumentID << " for instrument file '" << Filename << "'"; bFatalErr = true; throw Exception(ss.str()); } // get the info of the requested instrument InstrumentManager::instrument_info_t info = pManager->GetInstrumentInfo(id); // return detailed informations about the file result.Add("NAME", info.InstrumentName); result.Add("FORMAT_FAMILY", engineTypes[i]); result.Add("FORMAT_VERSION", info.FormatVersion); result.Add("PRODUCT", info.Product); result.Add("ARTISTS", info.Artists); // no more need to ask other engine types bFound = true; } else dmsg(1,("Warning: engine '%s' does not provide an instrument manager\n", engineTypes[i].c_str())); } catch (Exception e) { // usually NOOP, as exception is thrown if engine doesn't support file if (bFatalErr) result.Error(e); } if (pEngine) EngineFactory::Destroy(pEngine); } if (!bFound && !bFatalErr) result.Error("Unknown file format"); return result.Produce(); } void LSCPServer::VerifyFile(String Filename) { #if WIN32 WIN32_FIND_DATA win32FileAttributeData; BOOL res = GetFileAttributesEx( Filename.c_str(), GetFileExInfoStandard, &win32FileAttributeData ); if (!res) { std::stringstream ss; ss << "File does not exist, GetFileAttributesEx failed `" << Filename << "`: Error " << GetLastError(); throw Exception(ss.str()); } if ( win32FileAttributeData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY ) { throw Exception("Directory is specified"); } #else struct stat statBuf; int res = stat(Filename.c_str(), &statBuf); if (res) { std::stringstream ss; ss << "Fail to stat `" << Filename << "`: " << strerror(errno); throw Exception(ss.str()); } if (S_ISDIR(statBuf.st_mode)) { throw Exception("Directory is specified"); } #endif } /** * Will be called by the parser to subscribe a client (frontend) on the * server for receiving event messages. */ String LSCPServer::SubscribeNotification(LSCPEvent::event_t type) { dmsg(2,("LSCPServer: SubscribeNotification(Event=%s)\n", LSCPEvent::Name(type).c_str())); LSCPResultSet result; SubscriptionMutex.Lock(); eventSubscriptions[type].push_back(currentSocket); SubscriptionMutex.Unlock(); return result.Produce(); } /** * Will be called by the parser to unsubscribe a client on the server * for not receiving further event messages. */ String LSCPServer::UnsubscribeNotification(LSCPEvent::event_t type) { dmsg(2,("LSCPServer: UnsubscribeNotification(Event=%s)\n", LSCPEvent::Name(type).c_str())); LSCPResultSet result; SubscriptionMutex.Lock(); eventSubscriptions[type].remove(currentSocket); SubscriptionMutex.Unlock(); return result.Produce(); } String LSCPServer::AddDbInstrumentDirectory(String Dir) { dmsg(2,("LSCPServer: AddDbInstrumentDirectory(Dir=%s)\n", Dir.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->AddDirectory(Dir); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::RemoveDbInstrumentDirectory(String Dir, bool Force) { dmsg(2,("LSCPServer: RemoveDbInstrumentDirectory(Dir=%s,Force=%d)\n", Dir.c_str(), Force)); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->RemoveDirectory(Dir, Force); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::GetDbInstrumentDirectoryCount(String Dir, bool Recursive) { dmsg(2,("LSCPServer: GetDbInstrumentDirectoryCount(Dir=%s,Recursive=%d)\n", Dir.c_str(), Recursive)); LSCPResultSet result; #if HAVE_SQLITE3 try { result.Add(InstrumentsDb::GetInstrumentsDb()->GetDirectoryCount(Dir, Recursive)); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::GetDbInstrumentDirectories(String Dir, bool Recursive) { dmsg(2,("LSCPServer: GetDbInstrumentDirectories(Dir=%s,Recursive=%d)\n", Dir.c_str(), Recursive)); LSCPResultSet result; #if HAVE_SQLITE3 try { String list; StringListPtr dirs = InstrumentsDb::GetInstrumentsDb()->GetDirectories(Dir, Recursive); for (int i = 0; i < dirs->size(); i++) { if (list != "") list += ","; list += "'" + InstrumentsDb::toEscapedPath(dirs->at(i)) + "'"; } result.Add(list); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::GetDbInstrumentDirectoryInfo(String Dir) { dmsg(2,("LSCPServer: GetDbInstrumentDirectoryInfo(Dir=%s)\n", Dir.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { DbDirectory info = InstrumentsDb::GetInstrumentsDb()->GetDirectoryInfo(Dir); result.Add("DESCRIPTION", _escapeLscpResponse(info.Description)); result.Add("CREATED", info.Created); result.Add("MODIFIED", info.Modified); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::SetDbInstrumentDirectoryName(String Dir, String Name) { dmsg(2,("LSCPServer: SetDbInstrumentDirectoryName(Dir=%s,Name=%s)\n", Dir.c_str(), Name.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->RenameDirectory(Dir, Name); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::MoveDbInstrumentDirectory(String Dir, String Dst) { dmsg(2,("LSCPServer: MoveDbInstrumentDirectory(Dir=%s,Dst=%s)\n", Dir.c_str(), Dst.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->MoveDirectory(Dir, Dst); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::CopyDbInstrumentDirectory(String Dir, String Dst) { dmsg(2,("LSCPServer: CopyDbInstrumentDirectory(Dir=%s,Dst=%s)\n", Dir.c_str(), Dst.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->CopyDirectory(Dir, Dst); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::SetDbInstrumentDirectoryDescription(String Dir, String Desc) { dmsg(2,("LSCPServer: SetDbInstrumentDirectoryDescription(Dir=%s,Desc=%s)\n", Dir.c_str(), Desc.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->SetDirectoryDescription(Dir, Desc); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::AddDbInstruments(String DbDir, String FilePath, int Index, bool bBackground) { dmsg(2,("LSCPServer: AddDbInstruments(DbDir=%s,FilePath=%s,Index=%d,bBackground=%d)\n", DbDir.c_str(), FilePath.c_str(), Index, bBackground)); LSCPResultSet result; #if HAVE_SQLITE3 try { int id; InstrumentsDb* db = InstrumentsDb::GetInstrumentsDb(); id = db->AddInstruments(DbDir, FilePath, Index, bBackground); if (bBackground) result = id; } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::AddDbInstruments(String ScanMode, String DbDir, String FsDir, bool bBackground) { dmsg(2,("LSCPServer: AddDbInstruments(ScanMode=%s,DbDir=%s,FsDir=%s,bBackground=%d)\n", ScanMode.c_str(), DbDir.c_str(), FsDir.c_str(), bBackground)); LSCPResultSet result; #if HAVE_SQLITE3 try { int id; InstrumentsDb* db = InstrumentsDb::GetInstrumentsDb(); if (ScanMode.compare("RECURSIVE") == 0) { id = db->AddInstruments(RECURSIVE, DbDir, FsDir, bBackground); } else if (ScanMode.compare("NON_RECURSIVE") == 0) { id = db->AddInstruments(NON_RECURSIVE, DbDir, FsDir, bBackground); } else if (ScanMode.compare("FLAT") == 0) { id = db->AddInstruments(FLAT, DbDir, FsDir, bBackground); } else { throw Exception("Unknown scan mode: " + ScanMode); } if (bBackground) result = id; } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::RemoveDbInstrument(String Instr) { dmsg(2,("LSCPServer: RemoveDbInstrument(Instr=%s)\n", Instr.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->RemoveInstrument(Instr); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::GetDbInstrumentCount(String Dir, bool Recursive) { dmsg(2,("LSCPServer: GetDbInstrumentCount(Dir=%s,Recursive=%d)\n", Dir.c_str(), Recursive)); LSCPResultSet result; #if HAVE_SQLITE3 try { result.Add(InstrumentsDb::GetInstrumentsDb()->GetInstrumentCount(Dir, Recursive)); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::GetDbInstruments(String Dir, bool Recursive) { dmsg(2,("LSCPServer: GetDbInstruments(Dir=%s,Recursive=%d)\n", Dir.c_str(), Recursive)); LSCPResultSet result; #if HAVE_SQLITE3 try { String list; StringListPtr instrs = InstrumentsDb::GetInstrumentsDb()->GetInstruments(Dir, Recursive); for (int i = 0; i < instrs->size(); i++) { if (list != "") list += ","; list += "'" + InstrumentsDb::toEscapedPath(instrs->at(i)) + "'"; } result.Add(list); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::GetDbInstrumentInfo(String Instr) { dmsg(2,("LSCPServer: GetDbInstrumentInfo(Instr=%s)\n", Instr.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { DbInstrument info = InstrumentsDb::GetInstrumentsDb()->GetInstrumentInfo(Instr); result.Add("INSTRUMENT_FILE", info.InstrFile); result.Add("INSTRUMENT_NR", info.InstrNr); result.Add("FORMAT_FAMILY", info.FormatFamily); result.Add("FORMAT_VERSION", info.FormatVersion); result.Add("SIZE", (int)info.Size); result.Add("CREATED", info.Created); result.Add("MODIFIED", info.Modified); result.Add("DESCRIPTION", _escapeLscpResponse(info.Description)); result.Add("IS_DRUM", info.IsDrum); result.Add("PRODUCT", _escapeLscpResponse(info.Product)); result.Add("ARTISTS", _escapeLscpResponse(info.Artists)); result.Add("KEYWORDS", _escapeLscpResponse(info.Keywords)); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::GetDbInstrumentsJobInfo(int JobId) { dmsg(2,("LSCPServer: GetDbInstrumentsJobInfo(JobId=%d)\n", JobId)); LSCPResultSet result; #if HAVE_SQLITE3 try { ScanJob job = InstrumentsDb::GetInstrumentsDb()->Jobs.GetJobById(JobId); result.Add("FILES_TOTAL", job.FilesTotal); result.Add("FILES_SCANNED", job.FilesScanned); result.Add("SCANNING", job.Scanning); result.Add("STATUS", job.Status); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::SetDbInstrumentName(String Instr, String Name) { dmsg(2,("LSCPServer: SetDbInstrumentName(Instr=%s,Name=%s)\n", Instr.c_str(), Name.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->RenameInstrument(Instr, Name); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::MoveDbInstrument(String Instr, String Dst) { dmsg(2,("LSCPServer: MoveDbInstrument(Instr=%s,Dst=%s)\n", Instr.c_str(), Dst.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->MoveInstrument(Instr, Dst); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::CopyDbInstrument(String Instr, String Dst) { dmsg(2,("LSCPServer: CopyDbInstrument(Instr=%s,Dst=%s)\n", Instr.c_str(), Dst.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->CopyInstrument(Instr, Dst); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::SetDbInstrumentDescription(String Instr, String Desc) { dmsg(2,("LSCPServer: SetDbInstrumentDescription(Instr=%s,Desc=%s)\n", Instr.c_str(), Desc.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->SetInstrumentDescription(Instr, Desc); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::FindDbInstrumentDirectories(String Dir, std::map Parameters, bool Recursive) { dmsg(2,("LSCPServer: FindDbInstrumentDirectories(Dir=%s)\n", Dir.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { SearchQuery Query; std::map::iterator iter; for (iter = Parameters.begin(); iter != Parameters.end(); iter++) { if (iter->first.compare("NAME") == 0) { Query.Name = iter->second; } else if (iter->first.compare("CREATED") == 0) { Query.SetCreated(iter->second); } else if (iter->first.compare("MODIFIED") == 0) { Query.SetModified(iter->second); } else if (iter->first.compare("DESCRIPTION") == 0) { Query.Description = iter->second; } else { throw Exception("Unknown search criteria: " + iter->first); } } String list; StringListPtr pDirectories = InstrumentsDb::GetInstrumentsDb()->FindDirectories(Dir, &Query, Recursive); for (int i = 0; i < pDirectories->size(); i++) { if (list != "") list += ","; list += "'" + InstrumentsDb::toEscapedPath(pDirectories->at(i)) + "'"; } result.Add(list); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::FindDbInstruments(String Dir, std::map Parameters, bool Recursive) { dmsg(2,("LSCPServer: FindDbInstruments(Dir=%s)\n", Dir.c_str())); LSCPResultSet result; #if HAVE_SQLITE3 try { SearchQuery Query; std::map::iterator iter; for (iter = Parameters.begin(); iter != Parameters.end(); iter++) { if (iter->first.compare("NAME") == 0) { Query.Name = iter->second; } else if (iter->first.compare("FORMAT_FAMILIES") == 0) { Query.SetFormatFamilies(iter->second); } else if (iter->first.compare("SIZE") == 0) { Query.SetSize(iter->second); } else if (iter->first.compare("CREATED") == 0) { Query.SetCreated(iter->second); } else if (iter->first.compare("MODIFIED") == 0) { Query.SetModified(iter->second); } else if (iter->first.compare("DESCRIPTION") == 0) { Query.Description = iter->second; } else if (iter->first.compare("IS_DRUM") == 0) { if (!strcasecmp(iter->second.c_str(), "true")) { Query.InstrType = SearchQuery::DRUM; } else { Query.InstrType = SearchQuery::CHROMATIC; } } else if (iter->first.compare("PRODUCT") == 0) { Query.Product = iter->second; } else if (iter->first.compare("ARTISTS") == 0) { Query.Artists = iter->second; } else if (iter->first.compare("KEYWORDS") == 0) { Query.Keywords = iter->second; } else { throw Exception("Unknown search criteria: " + iter->first); } } String list; StringListPtr pInstruments = InstrumentsDb::GetInstrumentsDb()->FindInstruments(Dir, &Query, Recursive); for (int i = 0; i < pInstruments->size(); i++) { if (list != "") list += ","; list += "'" + InstrumentsDb::toEscapedPath(pInstruments->at(i)) + "'"; } result.Add(list); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } String LSCPServer::FormatInstrumentsDb() { dmsg(2,("LSCPServer: FormatInstrumentsDb()\n")); LSCPResultSet result; #if HAVE_SQLITE3 try { InstrumentsDb::GetInstrumentsDb()->Format(); } catch (Exception e) { result.Error(e); } #else result.Error(String(DOESNT_HAVE_SQLITE3), 0); #endif return result.Produce(); } /** * Will be called by the parser to enable or disable echo mode; if echo * mode is enabled, all commands from the client will (immediately) be * echoed back to the client. */ String LSCPServer::SetEcho(yyparse_param_t* pSession, double boolean_value) { dmsg(2,("LSCPServer: SetEcho(val=%f)\n", boolean_value)); LSCPResultSet result; try { if (boolean_value == 0) pSession->bVerbose = false; else if (boolean_value == 1) pSession->bVerbose = true; else throw Exception("Not a boolean value, must either be 0 or 1"); } catch (Exception e) { result.Error(e); } return result.Produce(); }