/* Copyright (C) 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 #include "pbd/pthread_utils.h" #include "pbd/stacktrace.h" #include "pbd/unknown_type.h" #include "midi++/port.h" #include "midi++/mmc.h" #include "midi++/manager.h" #include "ardour/amp.h" #include "ardour/audio_port.h" #include "ardour/audioengine.h" #include "ardour/buffer.h" #include "ardour/buffer_set.h" #include "ardour/cycle_timer.h" #include "ardour/delivery.h" #include "ardour/event_type_map.h" #include "ardour/internal_return.h" #include "ardour/io.h" #include "ardour/meter.h" #include "ardour/midi_port.h" #include "ardour/process_thread.h" #include "ardour/port.h" #include "ardour/port_set.h" #include "ardour/session.h" #include "ardour/timestamps.h" #include "ardour/utils.h" #include "i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; gint AudioEngine::m_meter_exit; AudioEngine* AudioEngine::_instance = 0; #define GET_PRIVATE_JACK_POINTER(j) jack_client_t* _priv_jack = (jack_client_t*) (j); if (!_priv_jack) { return; } #define GET_PRIVATE_JACK_POINTER_RET(j,r) jack_client_t* _priv_jack = (jack_client_t*) (j); if (!_priv_jack) { return r; } AudioEngine::AudioEngine (string client_name, string session_uuid) : ports (new Ports) { _instance = this; /* singleton */ session_remove_pending = false; _running = false; _has_run = false; last_monitor_check = 0; monitor_check_interval = INT32_MAX; _processed_frames = 0; _usecs_per_cycle = 0; _jack = 0; _frame_rate = 0; _buffer_size = 0; _freewheeling = false; _main_thread = 0; m_meter_thread = 0; g_atomic_int_set (&m_meter_exit, 0); if (connect_to_jack (client_name, session_uuid)) { throw NoBackendAvailable (); } Port::set_engine (this); // Initialize parameter metadata (e.g. ranges) Evoral::Parameter p(NullAutomation); p = EventTypeMap::instance().new_parameter(NullAutomation); p = EventTypeMap::instance().new_parameter(GainAutomation); p = EventTypeMap::instance().new_parameter(PanAutomation); p = EventTypeMap::instance().new_parameter(PluginAutomation); p = EventTypeMap::instance().new_parameter(SoloAutomation); p = EventTypeMap::instance().new_parameter(MuteAutomation); p = EventTypeMap::instance().new_parameter(MidiCCAutomation); p = EventTypeMap::instance().new_parameter(MidiPgmChangeAutomation); p = EventTypeMap::instance().new_parameter(MidiPitchBenderAutomation); p = EventTypeMap::instance().new_parameter(MidiChannelPressureAutomation); p = EventTypeMap::instance().new_parameter(FadeInAutomation); p = EventTypeMap::instance().new_parameter(FadeOutAutomation); p = EventTypeMap::instance().new_parameter(EnvelopeAutomation); p = EventTypeMap::instance().new_parameter(MidiCCAutomation); } AudioEngine::~AudioEngine () { { Glib::Mutex::Lock tm (_process_lock); session_removed.signal (); if (_running) { jack_client_close (_jack); _jack = 0; } stop_metering_thread (); } } jack_client_t* AudioEngine::jack() const { return _jack; } void _thread_init_callback (void * /*arg*/) { /* make sure that anybody who needs to know about this thread knows about it. */ pthread_set_name (X_("audioengine")); PBD::notify_gui_about_thread_creation ("gui", pthread_self(), X_("Audioengine"), 4096); PBD::notify_gui_about_thread_creation ("midiui", pthread_self(), X_("Audioengine"), 128); SessionEvent::create_per_thread_pool (X_("Audioengine"), 512); MIDI::Port::set_process_thread (pthread_self()); } typedef void (*_JackInfoShutdownCallback)(jack_status_t code, const char* reason, void *arg); static void (*on_info_shutdown)(jack_client_t*, _JackInfoShutdownCallback, void *); extern void jack_on_info_shutdown (jack_client_t*, _JackInfoShutdownCallback, void *) __attribute__((weak)); static void check_jack_symbols () __attribute__((constructor)); void check_jack_symbols () { /* use weak linking to see if we really have various late-model JACK function */ on_info_shutdown = jack_on_info_shutdown; } static void ardour_jack_error (const char* msg) { error << "JACK: " << msg << endmsg; } int AudioEngine::start () { GET_PRIVATE_JACK_POINTER_RET (_jack, -1); if (!_running) { nframes_t blocksize = jack_get_buffer_size (_priv_jack); if (_session) { BootMessage (_("Connect session to engine")); _session->set_block_size (blocksize); _session->set_frame_rate (jack_get_sample_rate (_priv_jack)); /* page in as much of the session process code as we can before we really start running. */ _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); } _processed_frames = 0; last_monitor_check = 0; if (on_info_shutdown) { jack_on_info_shutdown (_priv_jack, halted_info, this); } else { jack_on_shutdown (_priv_jack, halted, this); } jack_set_graph_order_callback (_priv_jack, _graph_order_callback, this); jack_set_thread_init_callback (_priv_jack, _thread_init_callback, this); // jack_set_process_callback (_priv_jack, _process_callback, this); jack_set_process_thread (_priv_jack, _process_thread, this); jack_set_sample_rate_callback (_priv_jack, _sample_rate_callback, this); jack_set_buffer_size_callback (_priv_jack, _bufsize_callback, this); jack_set_xrun_callback (_priv_jack, _xrun_callback, this); #ifdef HAVE_JACK_SESSION if( jack_set_session_callback ) jack_set_session_callback (_priv_jack, _session_callback, this); #endif jack_set_sync_callback (_priv_jack, _jack_sync_callback, this); jack_set_freewheel_callback (_priv_jack, _freewheel_callback, this); jack_set_port_registration_callback (_priv_jack, _registration_callback, this); jack_set_port_connect_callback (_priv_jack, _connect_callback, this); if (_session && _session->config.get_jack_time_master()) { jack_set_timebase_callback (_priv_jack, 0, _jack_timebase_callback, this); } jack_set_error_function (ardour_jack_error); if (jack_activate (_priv_jack) == 0) { _running = true; _has_run = true; Running(); /* EMIT SIGNAL */ } else { // error << _("cannot activate JACK client") << endmsg; } _raw_buffer_sizes[DataType::AUDIO] = blocksize * sizeof(float); jack_port_t* midi_port = jack_port_register (_priv_jack, "m", JACK_DEFAULT_MIDI_TYPE, JackPortIsOutput, 0); if (!midi_port) { error << _("Cannot create temporary MIDI port to determine MIDI buffer size") << endmsg; } else { _raw_buffer_sizes[DataType::MIDI] = jack_midi_max_event_size (jack_port_get_buffer(midi_port, blocksize)); jack_port_unregister (_priv_jack, midi_port); } } return _running ? 0 : -1; } int AudioEngine::stop (bool forever) { GET_PRIVATE_JACK_POINTER_RET (_jack, -1); if (_priv_jack) { if (forever) { disconnect_from_jack (); } else { jack_deactivate (_priv_jack); Stopped(); /* EMIT SIGNAL */ MIDI::Port::JackHalted (); /* EMIT SIGNAL */ } } if (forever) { stop_metering_thread (); } return _running ? -1 : 0; } bool AudioEngine::get_sync_offset (nframes_t& offset) const { #ifdef HAVE_JACK_VIDEO_SUPPORT GET_PRIVATE_JACK_POINTER_RET (_jack, false); jack_position_t pos; if (_priv_jack) { (void) jack_transport_query (_priv_jack, &pos); if (pos.valid & JackVideoFrameOffset) { offset = pos.video_offset; return true; } } #else /* keep gcc happy */ offset = 0; #endif return false; } void AudioEngine::_jack_timebase_callback (jack_transport_state_t state, nframes_t nframes, jack_position_t* pos, int new_position, void *arg) { static_cast (arg)->jack_timebase_callback (state, nframes, pos, new_position); } void AudioEngine::jack_timebase_callback (jack_transport_state_t state, nframes_t nframes, jack_position_t* pos, int new_position) { if (_jack && _session && _session->synced_to_jack()) { _session->jack_timebase_callback (state, nframes, pos, new_position); } } int AudioEngine::_jack_sync_callback (jack_transport_state_t state, jack_position_t* pos, void* arg) { return static_cast (arg)->jack_sync_callback (state, pos); } int AudioEngine::jack_sync_callback (jack_transport_state_t state, jack_position_t* pos) { if (_jack && _session) { return _session->jack_sync_callback (state, pos); } return true; } int AudioEngine::_xrun_callback (void *arg) { AudioEngine* ae = static_cast (arg); if (ae->connected()) { ae->Xrun (); /* EMIT SIGNAL */ } return 0; } #ifdef HAVE_JACK_SESSION void AudioEngine::_session_callback (jack_session_event_t *event, void *arg) { printf( "helo.... " ); AudioEngine* ae = static_cast (arg); if (ae->connected()) { ae->JackSessionEvent ( event ); /* EMIT SIGNAL */ } } #endif int AudioEngine::_graph_order_callback (void *arg) { AudioEngine* ae = static_cast (arg); if (ae->connected()) { ae->GraphReordered (); /* EMIT SIGNAL */ } return 0; } /** Wrapped which is called by JACK as its process callback. It is just * here to get us back into C++ land by calling AudioEngine::process_callback() * @param nframes Number of frames passed by JACK. * @param arg User argument passed by JACK, which will be the AudioEngine*. */ int AudioEngine::_process_callback (nframes_t nframes, void *arg) { return static_cast (arg)->process_callback (nframes); } void* AudioEngine::_process_thread (void *arg) { return static_cast (arg)->process_thread (); } void AudioEngine::_freewheel_callback (int onoff, void *arg) { static_cast(arg)->_freewheeling = onoff; } void AudioEngine::_registration_callback (jack_port_id_t /*id*/, int /*reg*/, void* arg) { AudioEngine* ae = static_cast (arg); ae->PortRegisteredOrUnregistered (); /* EMIT SIGNAL */ } void AudioEngine::_connect_callback (jack_port_id_t /*id_a*/, jack_port_id_t /*id_b*/, int /*conn*/, void* arg) { AudioEngine* ae = static_cast (arg); ae->PortConnectedOrDisconnected (); /* EMIT SIGNAL */ } void AudioEngine::split_cycle (nframes_t offset) { /* caller must hold process lock */ AudioPort::increment_port_offset (offset); /* tell all Ports that we're going to start a new (split) cycle */ boost::shared_ptr p = ports.reader(); for (Ports::iterator i = p->begin(); i != p->end(); ++i) { (*i)->cycle_split (); } } void AudioEngine::finish_process_cycle (int /* status*/ ) { GET_PRIVATE_JACK_POINTER(_jack); jack_cycle_signal (_jack, 0); } void* AudioEngine::process_thread () { /* JACK doesn't do this for us when we use the wait API */ _thread_init_callback (0); _main_thread = new ProcessThread; while (1) { GET_PRIVATE_JACK_POINTER_RET(_jack,0); jack_nframes_t nframes = jack_cycle_wait (_jack); if (process_callback (nframes)) { cerr << "--- process\n"; return 0; } finish_process_cycle (0); } return 0; } /** Method called by JACK (via _process_callback) which says that there * is work to be done. * @param nframes Number of frames to process. */ int AudioEngine::process_callback (nframes_t nframes) { GET_PRIVATE_JACK_POINTER_RET(_jack,0); // CycleTimer ct ("AudioEngine::process"); Glib::Mutex::Lock tm (_process_lock, Glib::TRY_LOCK); /// The number of frames that will have been processed when we've finished nframes_t next_processed_frames; /* handle wrap around of total frames counter */ if (max_framepos - _processed_frames < nframes) { next_processed_frames = nframes - (max_framepos - _processed_frames); } else { next_processed_frames = _processed_frames + nframes; } if (!tm.locked() || _session == 0) { /* return having done nothing */ _processed_frames = next_processed_frames; return 0; } if (session_remove_pending) { /* perform the actual session removal */ _session = 0; session_remove_pending = false; session_removed.signal(); _processed_frames = next_processed_frames; return 0; } /* tell all relevant objects that we're starting a new cycle */ Delivery::CycleStart (nframes); AudioPort::set_port_offset (0); InternalReturn::CycleStart (nframes); /* tell all Ports that we're starting a new cycle */ boost::shared_ptr p = ports.reader(); for (Ports::iterator i = p->begin(); i != p->end(); ++i) { (*i)->cycle_start (nframes); } /* test if we are freewheeling and there are freewheel signals connected. ardour should act normally even when freewheeling unless /it/ is exporting */ if (_freewheeling && !Freewheel.empty()) { /* emit the Freewheel signal and stop freewheeling in the event of trouble */ boost::optional r = Freewheel (nframes); if (r.get_value_or (0)) { jack_set_freewheel (_priv_jack, false); } } else { if (_session) { _session->process (nframes); } } if (_freewheeling) { return 0; } if (!_running) { _processed_frames = next_processed_frames; return 0; } if (last_monitor_check + monitor_check_interval < next_processed_frames) { boost::shared_ptr p = ports.reader(); for (Ports::iterator i = p->begin(); i != p->end(); ++i) { Port *port = (*i); bool x; if (port->_last_monitor != (x = port->monitoring_input ())) { port->_last_monitor = x; /* XXX I think this is dangerous, due to a likely mutex in the signal handlers ... */ port->MonitorInputChanged (x); /* EMIT SIGNAL */ } } last_monitor_check = next_processed_frames; } if (_session->silent()) { boost::shared_ptr p = ports.reader(); for (Ports::iterator i = p->begin(); i != p->end(); ++i) { Port *port = (*i); if (port->sends_output()) { port->get_buffer(nframes).silence(nframes); } } } // Finalize ports for (Ports::iterator i = p->begin(); i != p->end(); ++i) { (*i)->cycle_end (nframes); } _processed_frames = next_processed_frames; return 0; } int AudioEngine::_sample_rate_callback (nframes_t nframes, void *arg) { return static_cast (arg)->jack_sample_rate_callback (nframes); } int AudioEngine::jack_sample_rate_callback (nframes_t nframes) { _frame_rate = nframes; _usecs_per_cycle = (int) floor ((((double) frames_per_cycle() / nframes)) * 1000000.0); /* check for monitor input change every 1/10th of second */ monitor_check_interval = nframes / 10; last_monitor_check = 0; if (_session) { _session->set_frame_rate (nframes); } SampleRateChanged (nframes); /* EMIT SIGNAL */ return 0; } int AudioEngine::_bufsize_callback (nframes_t nframes, void *arg) { return static_cast (arg)->jack_bufsize_callback (nframes); } int AudioEngine::jack_bufsize_callback (nframes_t nframes) { bool need_midi_size = true; bool need_audio_size = true; _buffer_size = nframes; _usecs_per_cycle = (int) floor ((((double) nframes / frame_rate())) * 1000000.0); last_monitor_check = 0; boost::shared_ptr p = ports.reader(); /* crude guesses, see below where we try to get the right answers. Note that our guess for MIDI deliberatey tries to overestimate by a little. It would be nicer if we could get the actual size from a port, but we have to use this estimate in the event that there are no MIDI ports currently. If there are the value will be adjusted below. */ _raw_buffer_sizes[DataType::AUDIO] = nframes * sizeof (Sample); _raw_buffer_sizes[DataType::MIDI] = nframes * 4 - (nframes/2); for (Ports::iterator i = p->begin(); i != p->end(); ++i) { if (need_audio_size && (*i)->type() == DataType::AUDIO) { _raw_buffer_sizes[DataType::AUDIO] = (*i)->raw_buffer_size (nframes); need_audio_size = false; } if (need_midi_size && (*i)->type() == DataType::MIDI) { _raw_buffer_sizes[DataType::MIDI] = (*i)->raw_buffer_size (nframes); need_midi_size = false; } (*i)->reset(); } if (_session) { _session->set_block_size (_buffer_size); } return 0; } void AudioEngine::stop_metering_thread () { if (m_meter_thread) { g_atomic_int_set (&m_meter_exit, 1); m_meter_thread->join (); m_meter_thread = 0; } } void AudioEngine::start_metering_thread () { if (m_meter_thread == 0) { g_atomic_int_set (&m_meter_exit, 0); m_meter_thread = Glib::Thread::create (boost::bind (&AudioEngine::meter_thread, this), 500000, true, true, Glib::THREAD_PRIORITY_NORMAL); } } void AudioEngine::meter_thread () { pthread_set_name (X_("meter")); while (true) { Glib::usleep (10000); /* 1/100th sec interval */ if (g_atomic_int_get(&m_meter_exit)) { break; } Metering::Meter (); } } void AudioEngine::set_session (Session *s) { Glib::Mutex::Lock pl (_process_lock); SessionHandlePtr::set_session (s); if (_session) { start_metering_thread (); nframes_t blocksize = jack_get_buffer_size (_jack); /* page in as much of the session process code as we can before we really start running. */ boost::shared_ptr p = ports.reader(); for (Ports::iterator i = p->begin(); i != p->end(); ++i) { (*i)->cycle_start (blocksize); } _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); _session->process (blocksize); for (Ports::iterator i = p->begin(); i != p->end(); ++i) { (*i)->cycle_end (blocksize); } } } void AudioEngine::remove_session () { Glib::Mutex::Lock lm (_process_lock); if (_running) { stop_metering_thread (); if (_session) { session_remove_pending = true; session_removed.wait(_process_lock); } } else { SessionHandlePtr::set_session (0); } remove_all_ports (); } void AudioEngine::port_registration_failure (const std::string& portname) { GET_PRIVATE_JACK_POINTER (_jack); string full_portname = jack_client_name; full_portname += ':'; full_portname += portname; jack_port_t* p = jack_port_by_name (_priv_jack, full_portname.c_str()); string reason; if (p) { reason = string_compose (_("a port with the name \"%1\" already exists: check for duplicated track/bus names"), portname); } else { reason = string_compose (_("No more JACK ports are available. You will need to stop %1 and restart JACK with ports if you need this many tracks."), PROGRAM_NAME); } throw PortRegistrationFailure (string_compose (_("AudioEngine: cannot register port \"%1\": %2"), portname, reason).c_str()); } Port * AudioEngine::register_port (DataType dtype, const string& portname, bool input) { Port* newport = 0; try { if (dtype == DataType::AUDIO) { newport = new AudioPort (portname, (input ? Port::IsInput : Port::IsOutput)); } else if (dtype == DataType::MIDI) { newport = new MidiPort (portname, (input ? Port::IsInput : Port::IsOutput)); } else { throw PortRegistrationFailure("unable to create port (unknown type)"); } size_t& old_buffer_size = _raw_buffer_sizes[newport->type()]; size_t port_buffer_size = newport->raw_buffer_size(0); if (port_buffer_size > old_buffer_size) { old_buffer_size = port_buffer_size; } RCUWriter writer (ports); boost::shared_ptr ps = writer.get_copy (); ps->insert (ps->begin(), newport); /* writer goes out of scope, forces update */ return newport; } catch (PortRegistrationFailure& err) { throw err; } catch (std::exception& e) { throw PortRegistrationFailure(string_compose( _("unable to create port: %1"), e.what()).c_str()); } catch (...) { throw PortRegistrationFailure("unable to create port (unknown error)"); } } Port * AudioEngine::register_input_port (DataType type, const string& portname) { return register_port (type, portname, true); } Port * AudioEngine::register_output_port (DataType type, const string& portname) { return register_port (type, portname, false); } int AudioEngine::unregister_port (Port& port) { /* caller must hold process lock */ if (!_running) { /* probably happening when the engine has been halted by JACK, in which case, there is nothing we can do here. */ return 0; } { RCUWriter writer (ports); boost::shared_ptr ps = writer.get_copy (); for (Ports::iterator i = ps->begin(); i != ps->end(); ++i) { if ((*i) == &port) { delete *i; ps->erase (i); break; } } /* writer goes out of scope, forces update */ } return 0; } int AudioEngine::connect (const string& source, const string& destination) { /* caller must hold process lock */ int ret; if (!_running) { if (!_has_run) { fatal << _("connect called before engine was started") << endmsg; /*NOTREACHED*/ } else { return -1; } } string s = make_port_name_non_relative (source); string d = make_port_name_non_relative (destination); Port* src = get_port_by_name_locked (s); Port* dst = get_port_by_name_locked (d); if (src) { ret = src->connect (d); } else if (dst) { ret = dst->connect (s); } else { /* neither port is known to us, and this API isn't intended for use as a general patch bay */ ret = -1; } if (ret > 0) { /* already exists - no error, no warning */ } else if (ret < 0) { error << string_compose(_("AudioEngine: cannot connect %1 (%2) to %3 (%4)"), source, s, destination, d) << endmsg; } return ret; } int AudioEngine::disconnect (const string& source, const string& destination) { /* caller must hold process lock */ int ret; if (!_running) { if (!_has_run) { fatal << _("disconnect called before engine was started") << endmsg; /*NOTREACHED*/ } else { return -1; } } string s = make_port_name_non_relative (source); string d = make_port_name_non_relative (destination); Port* src = get_port_by_name_locked (s); Port* dst = get_port_by_name_locked (d); if (src) { ret = src->disconnect (d); } else if (dst) { ret = dst->disconnect (s); } else { /* neither port is known to us, and this API isn't intended for use as a general patch bay */ ret = -1; } return ret; } int AudioEngine::disconnect (Port& port) { GET_PRIVATE_JACK_POINTER_RET (_jack,-1); if (!_running) { if (!_has_run) { fatal << _("disconnect called before engine was started") << endmsg; /*NOTREACHED*/ } else { return -1; } } return port.disconnect_all (); } ARDOUR::nframes_t AudioEngine::frame_rate () const { GET_PRIVATE_JACK_POINTER_RET (_jack,0); if (_frame_rate == 0) { return (_frame_rate = jack_get_sample_rate (_priv_jack)); } else { return _frame_rate; } } size_t AudioEngine::raw_buffer_size (DataType t) { std::map::const_iterator s = _raw_buffer_sizes.find(t); return (s != _raw_buffer_sizes.end()) ? s->second : 0; } ARDOUR::nframes_t AudioEngine::frames_per_cycle () const { GET_PRIVATE_JACK_POINTER_RET (_jack,0); if (_buffer_size == 0) { return (_buffer_size = jack_get_buffer_size (_jack)); } else { return _buffer_size; } } /** @param name Full name of port (including prefix:) * @return Corresponding Port*, or 0. This object remains the property of the AudioEngine * so must not be deleted. */ Port * AudioEngine::get_port_by_name (const string& portname) { string s; if (portname.find_first_of (':') == string::npos) { s = make_port_name_non_relative (portname); } else { s = portname; } Glib::Mutex::Lock lm (_process_lock); return get_port_by_name_locked (s); } Port * AudioEngine::get_port_by_name_locked (const string& portname) { /* caller must hold process lock */ if (!_running) { if (!_has_run) { fatal << _("get_port_by_name_locked() called before engine was started") << endmsg; /*NOTREACHED*/ } else { return 0; } } if (portname.substr (0, jack_client_name.length ()) != jack_client_name) { /* not an ardour: port */ return 0; } std::string const rel = make_port_name_relative (portname); boost::shared_ptr pr = ports.reader(); for (Ports::iterator i = pr->begin(); i != pr->end(); ++i) { if (rel == (*i)->name()) { return *i; } } return 0; } const char ** AudioEngine::get_ports (const string& port_name_pattern, const string& type_name_pattern, uint32_t flags) { GET_PRIVATE_JACK_POINTER_RET (_jack,0); if (!_running) { if (!_has_run) { fatal << _("get_ports called before engine was started") << endmsg; /*NOTREACHED*/ } else { return 0; } } return jack_get_ports (_priv_jack, port_name_pattern.c_str(), type_name_pattern.c_str(), flags); } void AudioEngine::halted_info (jack_status_t code, const char* reason, void *arg) { /* called from jack shutdown handler */ AudioEngine* ae = static_cast (arg); bool was_running = ae->_running; ae->stop_metering_thread (); ae->_running = false; ae->_buffer_size = 0; ae->_frame_rate = 0; ae->_jack = 0; if (was_running) { #ifdef HAVE_JACK_ON_INFO_SHUTDOWN switch (code) { case JackBackendError: ae->Halted(reason); /* EMIT SIGNAL */ break; default: ae->Halted(""); /* EMIT SIGNAL */ } #else ae->Halted(""); /* EMIT SIGNAL */ #endif } } void AudioEngine::halted (void *arg) { cerr << "HALTED by JACK\n"; /* called from jack shutdown handler */ AudioEngine* ae = static_cast (arg); bool was_running = ae->_running; ae->stop_metering_thread (); ae->_running = false; ae->_buffer_size = 0; ae->_frame_rate = 0; ae->_jack = 0; if (was_running) { ae->Halted(""); /* EMIT SIGNAL */ MIDI::Port::JackHalted (); /* EMIT SIGNAL */ } } void AudioEngine::died () { /* called from a signal handler for SIGPIPE */ stop_metering_thread (); _running = false; _buffer_size = 0; _frame_rate = 0; _jack = 0; } bool AudioEngine::can_request_hardware_monitoring () { GET_PRIVATE_JACK_POINTER_RET (_jack,false); const char ** ports; if ((ports = jack_get_ports (_priv_jack, NULL, JACK_DEFAULT_AUDIO_TYPE, JackPortCanMonitor)) == 0) { return false; } free (ports); return true; } ChanCount AudioEngine::n_physical (unsigned long flags) const { ChanCount c; GET_PRIVATE_JACK_POINTER_RET (_jack, c); const char ** ports = jack_get_ports (_priv_jack, NULL, NULL, JackPortIsPhysical | flags); if (ports == 0) { return c; } for (uint32_t i = 0; ports[i]; ++i) { if (!strstr (ports[i], "Midi-Through")) { DataType t (jack_port_type (jack_port_by_name (_jack, ports[i]))); c.set (t, c.get (t) + 1); } } free (ports); return c; } ChanCount AudioEngine::n_physical_inputs () const { return n_physical (JackPortIsInput); } ChanCount AudioEngine::n_physical_outputs () const { return n_physical (JackPortIsOutput); } void AudioEngine::get_physical (DataType type, unsigned long flags, vector& phy) { GET_PRIVATE_JACK_POINTER (_jack); const char ** ports; if ((ports = jack_get_ports (_priv_jack, NULL, type.to_jack_type(), JackPortIsPhysical | flags)) == 0) { return; } if (ports) { for (uint32_t i = 0; ports[i]; ++i) { if (strstr (ports[i], "Midi-Through")) { continue; } phy.push_back (ports[i]); } free (ports); } } /** Get physical ports for which JackPortIsOutput is set; ie those that correspond to * a physical input connector. */ void AudioEngine::get_physical_inputs (DataType type, vector& ins) { get_physical (type, JackPortIsOutput, ins); } /** Get physical ports for which JackPortIsInput is set; ie those that correspond to * a physical output connector. */ void AudioEngine::get_physical_outputs (DataType type, vector& outs) { get_physical (type, JackPortIsInput, outs); } void AudioEngine::update_total_latency (const Port& port) { port.recompute_total_latency (); } void AudioEngine::transport_stop () { GET_PRIVATE_JACK_POINTER (_jack); jack_transport_stop (_priv_jack); } void AudioEngine::transport_start () { GET_PRIVATE_JACK_POINTER (_jack); jack_transport_start (_priv_jack); } void AudioEngine::transport_locate (nframes_t where) { GET_PRIVATE_JACK_POINTER (_jack); // cerr << "tell JACK to locate to " << where << endl; jack_transport_locate (_priv_jack, where); } AudioEngine::TransportState AudioEngine::transport_state () { GET_PRIVATE_JACK_POINTER_RET (_jack, ((TransportState) JackTransportStopped)); jack_position_t pos; return (TransportState) jack_transport_query (_priv_jack, &pos); } int AudioEngine::reset_timebase () { GET_PRIVATE_JACK_POINTER_RET (_jack, -1); if (_session) { if (_session->config.get_jack_time_master()) { return jack_set_timebase_callback (_priv_jack, 0, _jack_timebase_callback, this); } else { return jack_release_timebase (_jack); } } return 0; } int AudioEngine::freewheel (bool onoff) { GET_PRIVATE_JACK_POINTER_RET (_jack, -1); if (onoff != _freewheeling) { return jack_set_freewheel (_priv_jack, onoff); } else { /* already doing what has been asked for */ return 0; } } void AudioEngine::remove_all_ports () { /* process lock MUST be held */ { RCUWriter writer (ports); boost::shared_ptr ps = writer.get_copy (); for (Ports::iterator i = ps->begin(); i != ps->end(); ++i) { delete *i; } ps->clear (); } /* clear dead wood list too */ ports.flush (); } int AudioEngine::connect_to_jack (string client_name, string session_uuid) { jack_options_t options = JackNullOption; jack_status_t status; const char *server_name = NULL; jack_client_name = client_name; /* might be reset below */ #ifdef HAVE_JACK_SESSION if (! session_uuid.empty()) _jack = jack_client_open (jack_client_name.c_str(), JackSessionID, &status, session_uuid.c_str()); else #endif _jack = jack_client_open (jack_client_name.c_str(), options, &status, server_name); if (_jack == NULL) { // error message is not useful here return -1; } GET_PRIVATE_JACK_POINTER_RET (_jack, -1); if (status & JackNameNotUnique) { jack_client_name = jack_get_client_name (_priv_jack); } return 0; } int AudioEngine::disconnect_from_jack () { GET_PRIVATE_JACK_POINTER_RET (_jack, 0); if (_running) { stop_metering_thread (); } { Glib::Mutex::Lock lm (_process_lock); jack_client_close (_priv_jack); _jack = 0; } _buffer_size = 0; _frame_rate = 0; _raw_buffer_sizes.clear(); if (_running) { _running = false; Stopped(); /* EMIT SIGNAL */ MIDI::Port::JackHalted (); /* EMIT SIGNAL */ } return 0; } int AudioEngine::reconnect_to_jack () { if (_running) { disconnect_from_jack (); /* XXX give jackd a chance */ Glib::usleep (250000); } if (connect_to_jack (jack_client_name, "")) { error << _("failed to connect to JACK") << endmsg; return -1; } Ports::iterator i; boost::shared_ptr p = ports.reader (); for (i = p->begin(); i != p->end(); ++i) { if ((*i)->reestablish ()) { break; } } if (i != p->end()) { /* failed */ remove_all_ports (); return -1; } GET_PRIVATE_JACK_POINTER_RET (_jack,-1); MIDI::Manager::instance()->reestablish (_priv_jack); if (_session) { _session->reset_jack_connection (_priv_jack); jack_bufsize_callback (jack_get_buffer_size (_priv_jack)); _session->set_frame_rate (jack_get_sample_rate (_priv_jack)); } last_monitor_check = 0; jack_on_shutdown (_priv_jack, halted, this); jack_set_graph_order_callback (_priv_jack, _graph_order_callback, this); jack_set_thread_init_callback (_priv_jack, _thread_init_callback, this); // jack_set_process_callback (_priv_jack, _process_callback, this); jack_set_process_thread (_priv_jack, _process_thread, this); jack_set_sample_rate_callback (_priv_jack, _sample_rate_callback, this); jack_set_buffer_size_callback (_priv_jack, _bufsize_callback, this); jack_set_xrun_callback (_priv_jack, _xrun_callback, this); #ifdef HAVE_JACK_SESSION if( jack_set_session_callback ) jack_set_session_callback (_priv_jack, _session_callback, this); #endif jack_set_sync_callback (_priv_jack, _jack_sync_callback, this); jack_set_freewheel_callback (_priv_jack, _freewheel_callback, this); if (_session && _session->config.get_jack_time_master()) { jack_set_timebase_callback (_priv_jack, 0, _jack_timebase_callback, this); } if (jack_activate (_priv_jack) == 0) { _running = true; _has_run = true; } else { return -1; } /* re-establish connections */ for (i = p->begin(); i != p->end(); ++i) { (*i)->reconnect (); } MIDI::Manager::instance()->reconnect (); Running (); /* EMIT SIGNAL*/ start_metering_thread (); return 0; } int AudioEngine::request_buffer_size (nframes_t nframes) { GET_PRIVATE_JACK_POINTER_RET (_jack, -1); if (nframes == jack_get_buffer_size (_priv_jack)) { return 0; } return jack_set_buffer_size (_priv_jack, nframes); } void AudioEngine::update_total_latencies () { #ifdef HAVE_JACK_RECOMPUTE_LATENCIES GET_PRIVATE_JACK_POINTER (_jack); jack_recompute_total_latencies (_priv_jack); #endif } string AudioEngine::make_port_name_relative (string portname) { string::size_type len; string::size_type n; len = portname.length(); for (n = 0; n < len; ++n) { if (portname[n] == ':') { break; } } if ((n != len) && (portname.substr (0, n) == jack_client_name)) { return portname.substr (n+1); } return portname; } string AudioEngine::make_port_name_non_relative (string portname) { string str; if (portname.find_first_of (':') != string::npos) { return portname; } str = jack_client_name; str += ':'; str += portname; return str; } bool AudioEngine::is_realtime () const { GET_PRIVATE_JACK_POINTER_RET (_jack,false); return jack_is_realtime (_priv_jack); } pthread_t AudioEngine::create_process_thread (boost::function f, size_t stacksize) { GET_PRIVATE_JACK_POINTER_RET (_jack, 0); pthread_t thread; ThreadData* td = new ThreadData (this, f, stacksize); if (jack_client_create_thread (_priv_jack, &thread, jack_client_real_time_priority (_priv_jack), jack_is_realtime (_priv_jack), _start_process_thread, td)) { return -1; } return thread; } void* AudioEngine::_start_process_thread (void* arg) { ThreadData* td = reinterpret_cast (arg); boost::function f = td->f; delete td; f (); return 0; }