/* Copyright (C) 1999-2002 Paul Davis This program 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 program 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 program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include "midi++/mmc.h" #include "midi++/port.h" #include "midi++/manager.h" #include "pbd/error.h" #include #include "pbd/pthread_utils.h" #include "ardour/configuration.h" #include "ardour/audioengine.h" #include "ardour/session.h" #include "ardour/audio_track.h" #include "ardour/midi_track.h" #include "ardour/audio_diskstream.h" #include "ardour/slave.h" #include "ardour/cycles.h" #include "ardour/smpte.h" #include "i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; using namespace MIDI; MachineControl::CommandSignature MMC_CommandSignature; MachineControl::ResponseSignature MMC_ResponseSignature; void Session::midi_panic() { { boost::shared_ptr r = routes.reader (); for (RouteList::iterator i = r->begin(); i != r->end(); ++i) { MidiTrack *track = dynamic_cast((*i).get()); if (track != 0) { track->midi_panic(); } } } } int Session::use_config_midi_ports () { string port_name; if (default_mmc_port) { set_mmc_port (default_mmc_port->name()); } else { set_mmc_port (""); } if (default_mtc_port) { set_mtc_port (default_mtc_port->name()); } else { set_mtc_port (""); } if (default_midi_port) { set_midi_port (default_midi_port->name()); } else { set_midi_port (""); } if (default_midi_clock_port) { set_midi_clock_port (default_midi_clock_port->name()); } else { set_midi_clock_port (""); } return 0; } /*********************************************************************** MTC, MMC, etc. **********************************************************************/ int Session::set_mtc_port (string port_tag) { MTC_Slave *ms; if (port_tag.length() == 0) { if (_slave && ((ms = dynamic_cast (_slave)) != 0)) { error << _("Ardour is slaved to MTC - port cannot be reset") << endmsg; return -1; } if (_mtc_port == 0) { return 0; } _mtc_port = 0; goto out; } MIDI::Port* port; if ((port = MIDI::Manager::instance()->port (port_tag)) == 0) { error << string_compose (_("unknown port %1 requested for MTC"), port_tag) << endl; return -1; } _mtc_port = port; if (_slave && ((ms = dynamic_cast (_slave)) != 0)) { ms->rebind (*port); } Config->set_mtc_port_name (port_tag); out: MTC_PortChanged(); /* EMIT SIGNAL */ change_midi_ports (); set_dirty(); return 0; } void Session::set_mmc_receive_device_id (uint32_t device_id) { if (mmc) { mmc->set_receive_device_id (device_id); } } void Session::set_mmc_send_device_id (uint32_t device_id) { if (mmc) { mmc->set_send_device_id (device_id); } } int Session::set_mmc_port (string port_tag) { MIDI::byte old_recv_device_id = 0; MIDI::byte old_send_device_id = 0; bool reset_id = false; if (port_tag.length() == 0) { if (_mmc_port == 0) { return 0; } _mmc_port = 0; goto out; } MIDI::Port* port; if ((port = MIDI::Manager::instance()->port (port_tag)) == 0) { return -1; } _mmc_port = port; if (mmc) { old_recv_device_id = mmc->receive_device_id(); old_recv_device_id = mmc->send_device_id(); reset_id = true; delete mmc; } mmc = new MIDI::MachineControl (*_mmc_port, 1.0, MMC_CommandSignature, MMC_ResponseSignature); if (reset_id) { mmc->set_receive_device_id (old_recv_device_id); mmc->set_send_device_id (old_send_device_id); } mmc->Play.connect (mem_fun (*this, &Session::mmc_deferred_play)); mmc->DeferredPlay.connect (mem_fun (*this, &Session::mmc_deferred_play)); mmc->Stop.connect (mem_fun (*this, &Session::mmc_stop)); mmc->FastForward.connect (mem_fun (*this, &Session::mmc_fast_forward)); mmc->Rewind.connect (mem_fun (*this, &Session::mmc_rewind)); mmc->Pause.connect (mem_fun (*this, &Session::mmc_pause)); mmc->RecordPause.connect (mem_fun (*this, &Session::mmc_record_pause)); mmc->RecordStrobe.connect (mem_fun (*this, &Session::mmc_record_strobe)); mmc->RecordExit.connect (mem_fun (*this, &Session::mmc_record_exit)); mmc->Locate.connect (mem_fun (*this, &Session::mmc_locate)); mmc->Step.connect (mem_fun (*this, &Session::mmc_step)); mmc->Shuttle.connect (mem_fun (*this, &Session::mmc_shuttle)); mmc->TrackRecordStatusChange.connect (mem_fun (*this, &Session::mmc_record_enable)); /* also handle MIDI SPP because its so common */ _mmc_port->input()->start.connect (mem_fun (*this, &Session::spp_start)); _mmc_port->input()->contineu.connect (mem_fun (*this, &Session::spp_continue)); _mmc_port->input()->stop.connect (mem_fun (*this, &Session::spp_stop)); Config->set_mmc_port_name (port_tag); out: MMC_PortChanged(); /* EMIT SIGNAL */ change_midi_ports (); set_dirty(); return 0; } int Session::set_midi_port (string /*port_tag*/) { #if 0 if (port_tag.length() == 0) { if (_midi_port == 0) { return 0; } _midi_port = 0; goto out; } MIDI::Port* port; if ((port = MIDI::Manager::instance()->port (port_tag)) == 0) { return -1; } _midi_port = port; /* XXX need something to forward this to control protocols ? or just use the signal below */ Config->set_midi_port_name (port_tag); out: #endif MIDI_PortChanged(); /* EMIT SIGNAL */ change_midi_ports (); set_dirty(); return 0; } int Session::set_midi_clock_port (string port_tag) { MIDIClock_Slave *ms; if (port_tag.length() == 0) { if (_slave && ((ms = dynamic_cast (_slave)) != 0)) { error << _("Ardour is slaved to MIDI Clock - port cannot be reset") << endmsg; return -1; } if (_midi_clock_port == 0) { return 0; } _midi_clock_port = 0; goto out; } MIDI::Port* port; if ((port = MIDI::Manager::instance()->port (port_tag)) == 0) { error << string_compose (_("unknown port %1 requested for MIDI Clock"), port_tag) << endl; return -1; } _midi_clock_port = port; if (_slave && ((ms = dynamic_cast (_slave)) != 0)) { ms->rebind (*port); } Config->set_midi_clock_port_name (port_tag); out: MIDIClock_PortChanged(); /* EMIT SIGNAL */ change_midi_ports (); set_dirty(); return 0; } void Session::set_trace_midi_input (bool yn, MIDI::Port* port) { MIDI::Parser* input_parser; cerr << "enabling tracing: " << yn << " for input port " << port->name() << endl; if (port) { if ((input_parser = port->input()) != 0) { input_parser->trace (yn, &cout, "input: "); } } else { if (_mmc_port) { if ((input_parser = _mmc_port->input()) != 0) { input_parser->trace (yn, &cout, "input: "); } } if (_mtc_port && _mtc_port != _mmc_port) { if ((input_parser = _mtc_port->input()) != 0) { input_parser->trace (yn, &cout, "input: "); } } if (_midi_port && _midi_port != _mmc_port && _midi_port != _mtc_port ) { if ((input_parser = _midi_port->input()) != 0) { input_parser->trace (yn, &cout, "input: "); } } if (_midi_clock_port && _midi_clock_port != _mmc_port && _midi_clock_port != _mtc_port && _midi_clock_port != _midi_port) { if ((input_parser = _midi_clock_port->input()) != 0) { input_parser->trace (yn, &cout, "input: "); } } } Config->set_trace_midi_input (yn); } void Session::set_trace_midi_output (bool yn, MIDI::Port* port) { MIDI::Parser* output_parser; if (port) { if ((output_parser = port->output()) != 0) { output_parser->trace (yn, &cout, "output: "); } } else { if (_mmc_port) { if ((output_parser = _mmc_port->output()) != 0) { output_parser->trace (yn, &cout, "output: "); } } if (_mtc_port && _mtc_port != _mmc_port) { if ((output_parser = _mtc_port->output()) != 0) { output_parser->trace (yn, &cout, "output: "); } } if (_midi_port && _midi_port != _mmc_port && _midi_port != _mtc_port ) { if ((output_parser = _midi_port->output()) != 0) { output_parser->trace (yn, &cout, "output: "); } } } Config->set_trace_midi_output (yn); } bool Session::get_trace_midi_input(MIDI::Port *port) { MIDI::Parser* input_parser; if (port) { if ((input_parser = port->input()) != 0) { return input_parser->tracing(); } } else { if (_mmc_port) { if ((input_parser = _mmc_port->input()) != 0) { return input_parser->tracing(); } } if (_mtc_port) { if ((input_parser = _mtc_port->input()) != 0) { return input_parser->tracing(); } } if (_midi_port) { if ((input_parser = _midi_port->input()) != 0) { return input_parser->tracing(); } } } return false; } bool Session::get_trace_midi_output(MIDI::Port *port) { MIDI::Parser* output_parser; if (port) { if ((output_parser = port->output()) != 0) { return output_parser->tracing(); } } else { if (_mmc_port) { if ((output_parser = _mmc_port->output()) != 0) { return output_parser->tracing(); } } if (_mtc_port) { if ((output_parser = _mtc_port->output()) != 0) { return output_parser->tracing(); } } if (_midi_port) { if ((output_parser = _midi_port->output()) != 0) { return output_parser->tracing(); } } } return false; } void Session::setup_midi_control () { outbound_mtc_smpte_frame = 0; next_quarter_frame_to_send = 0; /* setup the MMC buffer */ mmc_buffer[0] = 0xf0; // SysEx mmc_buffer[1] = 0x7f; // Real Time SysEx ID for MMC mmc_buffer[2] = (mmc ? mmc->send_device_id() : 0x7f); mmc_buffer[3] = 0x6; // MCC /* Set up the qtr frame message */ mtc_msg[0] = 0xf1; mtc_msg[2] = 0xf1; mtc_msg[4] = 0xf1; mtc_msg[6] = 0xf1; mtc_msg[8] = 0xf1; mtc_msg[10] = 0xf1; mtc_msg[12] = 0xf1; mtc_msg[14] = 0xf1; } void Session::spp_start (Parser &, nframes_t /*timestamp*/) { if (Config->get_mmc_control() && (Config->get_slave_source() != MTC)) { request_transport_speed (1.0); } } void Session::spp_continue (Parser& ignored, nframes_t timestamp) { spp_start (ignored, timestamp); } void Session::spp_stop (Parser&, nframes_t /*timestamp*/) { if (Config->get_mmc_control()) { request_stop (); } } /* void Session::midi_clock_start (Parser& ignored, nframes_t timestamp) { if (Config->get_slave_source() == MIDIClock) { request_transport_speed (1.0); } } void Session::midi_clock_continue (Parser& parser, nframes_t timestamp) { midi_clock_start (parser, 0); } void Session::midi_clock_stop (Parser& ignored, nframes_t timestamp) { if (Config->get_slave_source() == MIDIClock) { request_stop (); } } */ void Session::mmc_deferred_play (MIDI::MachineControl &/*mmc*/) { if (Config->get_mmc_control() && (Config->get_slave_source() != MTC)) { request_transport_speed (1.0); } } void Session::mmc_record_pause (MIDI::MachineControl &/*mmc*/) { if (Config->get_mmc_control()) { maybe_enable_record(); } } void Session::mmc_record_strobe (MIDI::MachineControl &/*mmc*/) { if (!Config->get_mmc_control()) return; /* record strobe does an implicit "Play" command */ if (_transport_speed != 1.0) { /* start_transport() will move from Enabled->Recording, so we don't need to do anything here except enable recording. its not the same as maybe_enable_record() though, because that *can* switch to Recording, which we do not want. */ save_state ("", true); g_atomic_int_set (&_record_status, Enabled); RecordStateChanged (); /* EMIT SIGNAL */ request_transport_speed (1.0); } else { enable_record (); } } void Session::mmc_record_exit (MIDI::MachineControl &/*mmc*/) { if (Config->get_mmc_control()) { disable_record (false); } } void Session::mmc_stop (MIDI::MachineControl &/*mmc*/) { if (Config->get_mmc_control()) { request_stop (); } } void Session::mmc_pause (MIDI::MachineControl &/*mmc*/) { if (Config->get_mmc_control()) { /* We support RECORD_PAUSE, so the spec says that we must interpret PAUSE like RECORD_PAUSE if recording. */ if (actively_recording()) { maybe_enable_record (); } else { request_stop (); } } } static bool step_queued = false; void Session::mmc_step (MIDI::MachineControl &/*mmc*/, int steps) { if (!Config->get_mmc_control()) { return; } struct timeval now; struct timeval diff = { 0, 0 }; gettimeofday (&now, 0); timersub (&now, &last_mmc_step, &diff); gettimeofday (&now, 0); timersub (&now, &last_mmc_step, &diff); if (last_mmc_step.tv_sec != 0 && (diff.tv_usec + (diff.tv_sec * 1000000)) < _engine.usecs_per_cycle()) { return; } double diff_secs = diff.tv_sec + (diff.tv_usec / 1000000.0); double cur_speed = (((steps * 0.5) * smpte_frames_per_second()) / diff_secs) / smpte_frames_per_second(); if (_transport_speed == 0 || cur_speed * _transport_speed < 0) { /* change direction */ step_speed = cur_speed; } else { step_speed = (0.6 * step_speed) + (0.4 * cur_speed); } step_speed *= 0.25; #if 0 cerr << "delta = " << diff_secs << " ct = " << _transport_speed << " steps = " << steps << " new speed = " << cur_speed << " speed = " << step_speed << endl; #endif request_transport_speed (step_speed); last_mmc_step = now; if (!step_queued) { midi_timeouts.push_back (mem_fun (*this, &Session::mmc_step_timeout)); step_queued = true; } } void Session::mmc_rewind (MIDI::MachineControl &/*mmc*/) { if (Config->get_mmc_control()) { request_transport_speed(-8.0f); } } void Session::mmc_fast_forward (MIDI::MachineControl &/*mmc*/) { if (Config->get_mmc_control()) { request_transport_speed(8.0f); } } void Session::mmc_locate (MIDI::MachineControl &/*mmc*/, const MIDI::byte* mmc_tc) { if (!Config->get_mmc_control()) { return; } nframes_t target_frame; SMPTE::Time smpte; smpte.hours = mmc_tc[0] & 0xf; smpte.minutes = mmc_tc[1]; smpte.seconds = mmc_tc[2]; smpte.frames = mmc_tc[3]; smpte.rate = smpte_frames_per_second(); smpte.drop = smpte_drop_frames(); // Also takes smpte offset into account: smpte_to_sample( smpte, target_frame, true /* use_offset */, false /* use_subframes */ ); if (target_frame > max_frames) { target_frame = max_frames; } /* Some (all?) MTC/MMC devices do not send a full MTC frame at the end of a locate, instead sending only an MMC locate command. This causes the current position of an MTC slave to become out of date. Catch this. */ MTC_Slave* mtcs = dynamic_cast (_slave); if (mtcs != 0) { // cerr << "Locate *with* MTC slave\n"; mtcs->handle_locate (mmc_tc); } else { // cerr << "Locate without MTC slave\n"; request_locate (target_frame, false); } } void Session::mmc_shuttle (MIDI::MachineControl &/*mmc*/, float speed, bool forw) { if (!Config->get_mmc_control()) { return; } if (Config->get_shuttle_speed_threshold() >= 0 && speed > Config->get_shuttle_speed_threshold()) { speed *= Config->get_shuttle_speed_factor(); } if (forw) { request_transport_speed (speed); } else { request_transport_speed (-speed); } } void Session::mmc_record_enable (MIDI::MachineControl &mmc, size_t trk, bool enabled) { if (Config->get_mmc_control()) { RouteList::iterator i; boost::shared_ptr r = routes.reader(); for (i = r->begin(); i != r->end(); ++i) { AudioTrack *at; if ((at = dynamic_cast((*i).get())) != 0) { if (trk == at->remote_control_id()) { at->set_record_enable (enabled, &mmc); break; } } } } } void Session::change_midi_ports () { MIDIRequest* request = new MIDIRequest; request->type = MIDIRequest::PortChange; midi_requests.write (&request, 1); poke_midi_thread (); } /** Send MTC Full Frame message (complete SMPTE time) for the start of this cycle. * This resets the MTC code, the next quarter frame message that is sent will be * the first one with the beginning of this cycle as the new start point. */ int Session::send_full_time_code(nframes_t /*nframes*/) { /* This function could easily send at a given frame offset, but would * that be useful? Does ardour do sub-block accurate locating? [DR] */ MIDI::byte msg[10]; SMPTE::Time smpte; _send_smpte_update = false; if (_mtc_port == 0 || !session_send_mtc) { return 0; } // Get smpte time for this transport frame sample_to_smpte(_transport_frame, smpte, true /* use_offset */, false /* no subframes */); transmitting_smpte_time = smpte; outbound_mtc_smpte_frame = _transport_frame; // I don't understand this bit yet.. [DR] if (((mtc_smpte_bits >> 5) != MIDI::MTC_25_FPS) && (transmitting_smpte_time.frames % 2)) { // start MTC quarter frame transmission on an even frame SMPTE::increment( transmitting_smpte_time, config.get_subframes_per_frame() ); outbound_mtc_smpte_frame += (nframes_t) _frames_per_smpte_frame; } // Compensate for audio latency outbound_mtc_smpte_frame += _worst_output_latency; next_quarter_frame_to_send = 0; // Sync slave to the same SMPTE time as we are on msg[0] = 0xf0; msg[1] = 0x7f; msg[2] = 0x7f; msg[3] = 0x1; msg[4] = 0x1; msg[9] = 0xf7; msg[5] = mtc_smpte_bits | smpte.hours; msg[6] = smpte.minutes; msg[7] = smpte.seconds; msg[8] = smpte.frames; cerr << "MTC: Sending full time code at " << outbound_mtc_smpte_frame << endl; // Send message at offset 0, sent time is for the start of this cycle if (_mtc_port->midimsg (msg, sizeof (msg), 0)) { error << _("Session: could not send full MIDI time code") << endmsg; return -1; } return 0; } /** Send MTC (quarter-frame) messages for this cycle. * Must be called exactly once per cycle from the audio thread. Realtime safe. * This function assumes the state of full SMPTE is sane, eg. the slave is * expecting quarter frame messages and has the right frame of reference (any * full MTC SMPTE time messages that needed to be sent should have been sent * earlier already this cycle by send_full_time_code) */ int Session::send_midi_time_code_for_cycle(nframes_t nframes) { assert (next_quarter_frame_to_send >= 0); assert (next_quarter_frame_to_send <= 7); if (_mtc_port == 0 || !session_send_mtc || transmitting_smpte_time.negative /*|| (next_quarter_frame_to_send < 0)*/ ) { // cerr << "(MTC) Not sending MTC\n"; return 0; } /* Duration of one quarter frame */ nframes_t quarter_frame_duration = ((long) _frames_per_smpte_frame) >> 2; // cerr << "(MTC) TR: " << _transport_frame << " - SF: " << outbound_mtc_smpte_frame // << " - NQ: " << next_quarter_frame_to_send << " - FD" << quarter_frame_duration << endl; // FIXME: this should always be true //assert((outbound_mtc_smpte_frame + (next_quarter_frame_to_send * quarter_frame_duration)) // > _transport_frame); // Send quarter frames for this cycle while (_transport_frame + nframes > (outbound_mtc_smpte_frame + (next_quarter_frame_to_send * quarter_frame_duration))) { // cerr << "(MTC) Next frame to send: " << next_quarter_frame_to_send << endl; switch (next_quarter_frame_to_send) { case 0: mtc_msg[1] = 0x00 | (transmitting_smpte_time.frames & 0xf); break; case 1: mtc_msg[1] = 0x10 | ((transmitting_smpte_time.frames & 0xf0) >> 4); break; case 2: mtc_msg[1] = 0x20 | (transmitting_smpte_time.seconds & 0xf); break; case 3: mtc_msg[1] = 0x30 | ((transmitting_smpte_time.seconds & 0xf0) >> 4); break; case 4: mtc_msg[1] = 0x40 | (transmitting_smpte_time.minutes & 0xf); break; case 5: mtc_msg[1] = 0x50 | ((transmitting_smpte_time.minutes & 0xf0) >> 4); break; case 6: mtc_msg[1] = 0x60 | ((mtc_smpte_bits|transmitting_smpte_time.hours) & 0xf); break; case 7: mtc_msg[1] = 0x70 | (((mtc_smpte_bits|transmitting_smpte_time.hours) & 0xf0) >> 4); break; } const nframes_t msg_time = (outbound_mtc_smpte_frame + (quarter_frame_duration * next_quarter_frame_to_send)); // This message must fall within this block or something is broken assert(msg_time >= _transport_frame); assert(msg_time < _transport_frame + nframes); nframes_t out_stamp = msg_time - _transport_frame; assert(out_stamp < nframes); if (_mtc_port->midimsg (mtc_msg, 2, out_stamp)) { error << string_compose(_("Session: cannot send quarter-frame MTC message (%1)"), strerror (errno)) << endmsg; return -1; } /*cerr << "(MTC) SMPTE: " << transmitting_smpte_time.hours << ":" << transmitting_smpte_time.minutes << ":" << transmitting_smpte_time.seconds << ":" << transmitting_smpte_time.frames << ", qfm = " << next_quarter_frame_to_send << ", stamp = " << out_stamp << ", delta = " << _transport_frame + out_stamp - last_time << endl;*/ // Increment quarter frame counter next_quarter_frame_to_send++; if (next_quarter_frame_to_send >= 8) { // Wrap quarter frame counter next_quarter_frame_to_send = 0; // Increment smpte time twice SMPTE::increment( transmitting_smpte_time, config.get_subframes_per_frame() ); SMPTE::increment( transmitting_smpte_time, config.get_subframes_per_frame() ); // Re-calculate timing of first quarter frame //smpte_to_sample( transmitting_smpte_time, outbound_mtc_smpte_frame, true /* use_offset */, false ); outbound_mtc_smpte_frame += 8 * quarter_frame_duration; // Compensate for audio latency outbound_mtc_smpte_frame += _worst_output_latency; } } return 0; } /*********************************************************************** OUTBOUND MMC STUFF **********************************************************************/ void Session::deliver_mmc (MIDI::MachineControl::Command cmd, nframes_t where) { using namespace MIDI; int nbytes = 4; SMPTE::Time smpte; if (_mmc_port == 0 || !session_send_mmc) { // cerr << "Not delivering MMC " << _mmc_port << " - " << session_send_mmc << endl; return; } mmc_buffer[nbytes++] = cmd; // cerr << "delivering MMC, cmd = " << hex << (int) cmd << dec << endl; switch (cmd) { case MachineControl::cmdLocate: smpte_time_subframes (where, smpte); mmc_buffer[nbytes++] = 0x6; // byte count mmc_buffer[nbytes++] = 0x1; // "TARGET" subcommand mmc_buffer[nbytes++] = smpte.hours; mmc_buffer[nbytes++] = smpte.minutes; mmc_buffer[nbytes++] = smpte.seconds; mmc_buffer[nbytes++] = smpte.frames; mmc_buffer[nbytes++] = smpte.subframes; break; case MachineControl::cmdStop: break; case MachineControl::cmdPlay: /* always convert Play into Deferred Play */ /* Why? [DR] */ mmc_buffer[4] = MachineControl::cmdDeferredPlay; break; case MachineControl::cmdDeferredPlay: break; case MachineControl::cmdRecordStrobe: break; case MachineControl::cmdRecordExit: break; case MachineControl::cmdRecordPause: break; default: nbytes = 0; }; if (nbytes) { mmc_buffer[nbytes++] = 0xf7; // terminate SysEx/MMC message if (_mmc_port->midimsg (mmc_buffer, nbytes, 0)) { error << string_compose(_("MMC: cannot send command %1%2%3"), &hex, cmd, &dec) << endmsg; } } } bool Session::mmc_step_timeout () { struct timeval now; struct timeval diff; double diff_usecs; gettimeofday (&now, 0); timersub (&now, &last_mmc_step, &diff); diff_usecs = diff.tv_sec * 1000000 + diff.tv_usec; if (diff_usecs > 1000000.0 || fabs (_transport_speed) < 0.0000001) { /* too long or too slow, stop transport */ request_transport_speed (0.0); step_queued = false; return false; } if (diff_usecs < 250000.0) { /* too short, just keep going */ return true; } /* slow it down */ request_transport_speed (_transport_speed * 0.75); return true; } /*--------------------------------------------------------------------------- MIDI THREAD ---------------------------------------------------------------------------*/ int Session::start_midi_thread () { if (pipe (midi_request_pipe)) { error << string_compose(_("Cannot create transport request signal pipe (%1)"), strerror (errno)) << endmsg; return -1; } if (fcntl (midi_request_pipe[0], F_SETFL, O_NONBLOCK)) { error << string_compose(_("UI: cannot set O_NONBLOCK on " "signal read pipe (%1)"), strerror (errno)) << endmsg; return -1; } if (fcntl (midi_request_pipe[1], F_SETFL, O_NONBLOCK)) { error << string_compose(_("UI: cannot set O_NONBLOCK on " "signal write pipe (%1)"), strerror (errno)) << endmsg; return -1; } if (pthread_create_and_store ("transport", &midi_thread, 0, _midi_thread_work, this)) { error << _("Session: could not create transport thread") << endmsg; return -1; } return 0; } void Session::terminate_midi_thread () { if (midi_thread) { MIDIRequest* request = new MIDIRequest; void* status; request->type = MIDIRequest::Quit; midi_requests.write (&request, 1); poke_midi_thread (); pthread_join (midi_thread, &status); } } void Session::poke_midi_thread () { static char c = 0; if (write (midi_request_pipe[1], &c, 1) != 1) { error << string_compose(_("cannot send signal to midi thread! (%1)"), strerror (errno)) << endmsg; } } void * Session::_midi_thread_work (void* arg) { pthread_setcancelstate (PTHREAD_CANCEL_ENABLE, 0); pthread_setcanceltype (PTHREAD_CANCEL_ASYNCHRONOUS, 0); ((Session *) arg)->midi_thread_work (); return 0; } void Session::midi_thread_work () { MIDIRequest* request; struct pollfd pfd[4]; int nfds = 0; int timeout; int fds_ready; struct sched_param rtparam; int x; bool restart; vector ports; PBD::notify_gui_about_thread_creation (pthread_self(), X_("MIDI"), 2048); memset (&rtparam, 0, sizeof (rtparam)); rtparam.sched_priority = 9; /* XXX should be relative to audio (JACK) thread */ if ((x = pthread_setschedparam (pthread_self(), SCHED_FIFO, &rtparam)) != 0) { // do we care? not particularly. } /* set up the port vector; 5 is the largest possible size for now */ ports.assign (5, (MIDI::Port*) 0); while (1) { nfds = 0; pfd[nfds].fd = midi_request_pipe[0]; pfd[nfds].events = POLLIN|POLLHUP|POLLERR; nfds++; if (Config->get_mmc_control() && _mmc_port && _mmc_port->selectable() >= 0) { pfd[nfds].fd = _mmc_port->selectable(); pfd[nfds].events = POLLIN|POLLHUP|POLLERR; ports[nfds] = _mmc_port; //cerr << "MIDI port " << nfds << " = MMC @ " << _mmc_port << endl; nfds++; } /* if MTC is being handled on a different port from MMC or we are not handling MMC at all, poll the relevant port. */ if (_mtc_port && (_mtc_port != _mmc_port || !Config->get_mmc_control()) && _mtc_port->selectable() >= 0) { pfd[nfds].fd = _mtc_port->selectable(); pfd[nfds].events = POLLIN|POLLHUP|POLLERR; ports[nfds] = _mtc_port; //cerr << "MIDI port " << nfds << " = MTC @ " << _mtc_port << endl; nfds++; } if (_midi_clock_port && (_midi_clock_port != _mmc_port || !Config->get_mmc_control()) && _midi_clock_port->selectable() >= 0) { pfd[nfds].fd = _midi_clock_port->selectable(); pfd[nfds].events = POLLIN|POLLHUP|POLLERR; ports[nfds] = _midi_clock_port; nfds++; } /* if we are using MMC control, we obviously have to listen the relevant port. */ if (_midi_port && (_midi_port != _mmc_port || !Config->get_mmc_control()) && (_midi_port != _mtc_port) && _midi_port->selectable() >= 0) { pfd[nfds].fd = _midi_port->selectable(); pfd[nfds].events = POLLIN|POLLHUP|POLLERR; ports[nfds] = _midi_port; // cerr << "MIDI port " << nfds << " = MIDI @ " << _midi_port << endl; nfds++; } if (!midi_timeouts.empty()) { timeout = 100; /* 10msecs */ } else { timeout = -1; /* if there is no data, we don't care */ } again: // cerr << "MIDI poll on " << nfds << " for " << timeout << endl; if (poll (pfd, nfds, timeout) < 0) { if (errno == EINTR) { /* gdb at work, perhaps */ goto again; } error << string_compose(_("MIDI thread poll failed (%1)"), strerror (errno)) << endmsg; break; } // cerr << "MIDI thread wakes at " << get_cycles () << endl; fds_ready = 0; /* check the transport request pipe */ if (pfd[0].revents & ~POLLIN) { error << _("Error on transport thread request pipe") << endmsg; break; } if (pfd[0].revents & POLLIN) { char foo[16]; // cerr << "MIDI request FIFO ready\n"; fds_ready++; /* empty the pipe of all current requests */ while (1) { size_t nread = read (midi_request_pipe[0], &foo, sizeof (foo)); if (nread > 0) { if ((size_t) nread < sizeof (foo)) { break; } else { continue; } } else if (nread == 0) { break; } else if (errno == EAGAIN) { break; } else { fatal << _("Error reading from transport request pipe") << endmsg; /*NOTREACHED*/ } } while (midi_requests.read (&request, 1) == 1) { switch (request->type) { case MIDIRequest::PortChange: /* restart poll with new ports */ // cerr << "rebind\n"; restart = true; break; case MIDIRequest::Quit: delete request; pthread_exit_pbd (0); /*NOTREACHED*/ break; default: break; } delete request; } } if (restart) { continue; } /* now read the rest of the ports */ for (int p = 1; p < nfds; ++p) { if ((pfd[p].revents & ~POLLIN)) { // error << string_compose(_("Transport: error polling MIDI port %1 (revents =%2%3%4"), p, &hex, pfd[p].revents, &dec) << endmsg; break; } if (pfd[p].revents & POLLIN) { fds_ready++; ports[p]->parse (); } } /* timeout driven */ if (fds_ready < 2 && timeout != -1) { for (MidiTimeoutList::iterator i = midi_timeouts.begin(); i != midi_timeouts.end(); ) { MidiTimeoutList::iterator tmp; tmp = i; ++tmp; if (!(*i)()) { midi_timeouts.erase (i); } i = tmp; } } } }