/* 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. */ #ifdef WAF_BUILD #include "libardour-config.h" #endif #define __STDC_FORMAT_MACROS 1 #include #include #include #include #include #include #include /* snprintf(3) ... grrr */ #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_SYS_VFS_H #include #else #include #include #endif #include #include #include "midi++/mmc.h" #include "midi++/port.h" #include "pbd/error.h" #include "pbd/pathscanner.h" #include "pbd/pthread_utils.h" #include "pbd/search_path.h" #include "pbd/stacktrace.h" #include "ardour/audio_diskstream.h" #include "ardour/audio_track.h" #include "ardour/audioengine.h" #include "ardour/audiofilesource.h" #include "ardour/audioplaylist.h" #include "ardour/audioregion.h" #include "ardour/auditioner.h" #include "ardour/buffer.h" #include "ardour/configuration.h" #include "ardour/control_protocol_manager.h" #include "ardour/crossfade.h" #include "ardour/cycle_timer.h" #include "ardour/directory_names.h" #include "ardour/filename_extensions.h" #include "ardour/io_processor.h" #include "ardour/location.h" #include "ardour/midi_diskstream.h" #include "ardour/midi_patch_manager.h" #include "ardour/midi_playlist.h" #include "ardour/midi_region.h" #include "ardour/midi_source.h" #include "ardour/midi_track.h" #include "ardour/named_selection.h" #include "ardour/playlist_factory.h" #include "ardour/processor.h" #include "ardour/region_factory.h" #include "ardour/route_group.h" #include "ardour/send.h" #include "ardour/session.h" #include "ardour/session_directory.h" #include "ardour/session_metadata.h" #include "ardour/session_state_utils.h" #include "ardour/session_utils.h" #include "ardour/silentfilesource.h" #include "ardour/slave.h" #include "ardour/smf_source.h" #include "ardour/sndfile_helpers.h" #include "ardour/sndfilesource.h" #include "ardour/source_factory.h" #include "ardour/template_utils.h" #include "ardour/tempo.h" #include "ardour/ticker.h" #include "ardour/user_bundle.h" #include "ardour/utils.h" #include "ardour/utils.h" #include "ardour/version.h" #include "control_protocol/control_protocol.h" #include "i18n.h" #include using namespace std; using namespace ARDOUR; using namespace PBD; void Session::first_stage_init (string fullpath, string snapshot_name) { if (fullpath.length() == 0) { destroy (); throw failed_constructor(); } char buf[PATH_MAX+1]; if (!realpath (fullpath.c_str(), buf) && (errno != ENOENT)) { error << string_compose(_("Could not use path %1 (%s)"), buf, strerror(errno)) << endmsg; destroy (); throw failed_constructor(); } _path = string(buf); if (_path[_path.length()-1] != '/') { _path += '/'; } if (Glib::file_test (_path, Glib::FILE_TEST_EXISTS) && ::access (_path.c_str(), W_OK)) { cerr << "Session non-writable based on " << _path << endl; _writable = false; } else { cerr << "Session writable based on " << _path << endl; _writable = true; } /* these two are just provisional settings. set_state() will likely override them. */ _name = _current_snapshot_name = snapshot_name; set_history_depth (Config->get_history_depth()); _current_frame_rate = _engine.frame_rate (); _nominal_frame_rate = _current_frame_rate; _base_frame_rate = _current_frame_rate; _tempo_map = new TempoMap (_current_frame_rate); _tempo_map->StateChanged.connect (mem_fun (*this, &Session::tempo_map_changed)); _non_soloed_outs_muted = false; _listen_cnt = 0; g_atomic_int_set (&processing_prohibited, 0); _transport_speed = 0; _last_transport_speed = 0; _target_transport_speed = 0; auto_play_legal = false; transport_sub_state = 0; _transport_frame = 0; end_location = new Location (0, 0, _("end"), Location::Flags ((Location::IsMark|Location::IsEnd))); start_location = new Location (0, 0, _("start"), Location::Flags ((Location::IsMark|Location::IsStart))); g_atomic_int_set (&_record_status, Disabled); loop_changing = false; play_loop = false; have_looped = false; _last_roll_location = 0; _last_record_location = 0; pending_locate_frame = 0; pending_locate_roll = false; pending_locate_flush = false; audio_dstream_buffer_size = 0; midi_dstream_buffer_size = 0; state_was_pending = false; set_next_event (); outbound_mtc_smpte_frame = 0; next_quarter_frame_to_send = -1; current_block_size = 0; solo_update_disabled = false; _have_captured = false; _worst_output_latency = 0; _worst_input_latency = 0; _worst_track_latency = 0; _state_of_the_state = StateOfTheState(CannotSave|InitialConnecting|Loading); _slave = 0; session_send_mmc = false; session_send_mtc = false; post_transport_work = PostTransportWork (0); g_atomic_int_set (&butler_should_do_transport_work, 0); g_atomic_int_set (&_playback_load, 100); g_atomic_int_set (&_capture_load, 100); g_atomic_int_set (&_playback_load_min, 100); g_atomic_int_set (&_capture_load_min, 100); _play_range = false; _exporting = false; _exporting_realtime = false; _gain_automation_buffer = 0; _pan_automation_buffer = 0; _npan_buffers = 0; pending_abort = false; destructive_index = 0; first_file_data_format_reset = true; first_file_header_format_reset = true; butler_thread = (pthread_t) 0; //midi_thread = (pthread_t) 0; AudioDiskstream::allocate_working_buffers(); /* default short fade = 15ms */ Crossfade::set_short_xfade_length ((nframes_t) floor (config.get_short_xfade_seconds() * frame_rate())); SndFileSource::setup_standard_crossfades (*this, frame_rate()); last_mmc_step.tv_sec = 0; last_mmc_step.tv_usec = 0; step_speed = 0.0; /* click sounds are unset by default, which causes us to internal waveforms for clicks. */ click_length = 0; click_emphasis_length = 0; _clicking = false; process_function = &Session::process_with_events; if (config.get_use_video_sync()) { waiting_for_sync_offset = true; } else { waiting_for_sync_offset = false; } last_smpte_when = 0; _smpte_offset = 0; _smpte_offset_negative = true; last_smpte_valid = false; sync_time_vars (); last_rr_session_dir = session_dirs.begin(); refresh_disk_space (); // set_default_fade (0.2, 5.0); /* steepness, millisecs */ /* slave stuff */ average_slave_delta = 1800; // !!! why 1800 ???? have_first_delta_accumulator = false; delta_accumulator_cnt = 0; slave_state = Stopped; _engine.GraphReordered.connect (mem_fun (*this, &Session::graph_reordered)); /* These are all static "per-class" signals */ RegionFactory::CheckNewRegion.connect (mem_fun (*this, &Session::add_region)); SourceFactory::SourceCreated.connect (mem_fun (*this, &Session::add_source)); PlaylistFactory::PlaylistCreated.connect (mem_fun (*this, &Session::add_playlist)); Processor::ProcessorCreated.connect (mem_fun (*this, &Session::add_processor)); NamedSelection::NamedSelectionCreated.connect (mem_fun (*this, &Session::add_named_selection)); AutomationList::AutomationListCreated.connect (mem_fun (*this, &Session::add_automation_list)); Controllable::Destroyed.connect (mem_fun (*this, &Session::remove_controllable)); IO::PortCountChanged.connect (mem_fun (*this, &Session::ensure_buffers)); /* stop IO objects from doing stuff until we're ready for them */ Delivery::disable_panners (); IO::disable_connecting (); } int Session::second_stage_init (bool new_session) { AudioFileSource::set_peak_dir (_session_dir->peak_path().to_string()); if (!new_session) { if (load_state (_current_snapshot_name)) { return -1; } remove_empty_sounds (); } if (start_butler_thread()) { return -1; } if (start_midi_thread ()) { return -1; } // set_state() will call setup_raid_path(), but if it's a new session we need // to call setup_raid_path() here. if (state_tree) { if (set_state (*state_tree->root(), Stateful::loading_state_version)) { return -1; } } else { setup_raid_path(_path); } /* we can't save till after ::when_engine_running() is called, because otherwise we save state with no connections made. therefore, we reset _state_of_the_state because ::set_state() will have cleared it. we also have to include Loading so that any events that get generated between here and the end of ::when_engine_running() will be processed directly rather than queued. */ _state_of_the_state = StateOfTheState (_state_of_the_state|CannotSave|Loading); _locations.changed.connect (mem_fun (this, &Session::locations_changed)); _locations.added.connect (mem_fun (this, &Session::locations_added)); setup_click_sounds (0); setup_midi_control (); /* Pay attention ... */ _engine.Halted.connect (mem_fun (*this, &Session::engine_halted)); _engine.Xrun.connect (mem_fun (*this, &Session::xrun_recovery)); try { when_engine_running(); } /* handle this one in a different way than all others, so that its clear what happened */ catch (AudioEngine::PortRegistrationFailure& err) { error << err.what() << endmsg; return -1; } catch (...) { return -1; } BootMessage (_("Reset Remote Controls")); send_full_time_code (0); _engine.transport_locate (0); deliver_mmc (MIDI::MachineControl::cmdMmcReset, 0); deliver_mmc (MIDI::MachineControl::cmdLocate, 0); MidiClockTicker::instance().set_session(*this); MIDI::Name::MidiPatchManager::instance().set_session(*this); /* initial program change will be delivered later; see ::config_changed() */ BootMessage (_("Reset Control Protocols")); ControlProtocolManager::instance().set_session (*this); config.set_end_marker_is_free (new_session); _state_of_the_state = Clean; DirtyChanged (); /* EMIT SIGNAL */ if (state_was_pending) { save_state (_current_snapshot_name); remove_pending_capture_state (); state_was_pending = false; } BootMessage (_("Session loading complete")); return 0; } string Session::raid_path () const { SearchPath raid_search_path; for (vector::const_iterator i = session_dirs.begin(); i != session_dirs.end(); ++i) { raid_search_path += sys::path((*i).path); } return raid_search_path.to_string (); } void Session::setup_raid_path (string path) { if (path.empty()) { return; } space_and_path sp; string fspath; session_dirs.clear (); SearchPath search_path(path); SearchPath sound_search_path; SearchPath midi_search_path; for (SearchPath::const_iterator i = search_path.begin(); i != search_path.end(); ++i) { sp.path = (*i).to_string (); sp.blocks = 0; // not needed session_dirs.push_back (sp); SessionDirectory sdir(sp.path); sound_search_path += sdir.sound_path (); midi_search_path += sdir.midi_path (); } // set the search path for each data type FileSource::set_search_path (DataType::AUDIO, sound_search_path.to_string ()); SMFSource::set_search_path (DataType::MIDI, midi_search_path.to_string ()); // reset the round-robin soundfile path thingie last_rr_session_dir = session_dirs.begin(); } int Session::ensure_subdirs () { string dir; dir = session_directory().peak_path().to_string(); if (g_mkdir_with_parents (dir.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session peakfile folder \"%1\" (%2)"), dir, strerror (errno)) << endmsg; return -1; } dir = session_directory().sound_path().to_string(); if (g_mkdir_with_parents (dir.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session sounds dir \"%1\" (%2)"), dir, strerror (errno)) << endmsg; return -1; } dir = session_directory().midi_path().to_string(); if (g_mkdir_with_parents (dir.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session midi dir \"%1\" (%2)"), dir, strerror (errno)) << endmsg; return -1; } dir = session_directory().dead_sound_path().to_string(); if (g_mkdir_with_parents (dir.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session dead sounds folder \"%1\" (%2)"), dir, strerror (errno)) << endmsg; return -1; } dir = session_directory().export_path().to_string(); if (g_mkdir_with_parents (dir.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session export folder \"%1\" (%2)"), dir, strerror (errno)) << endmsg; return -1; } dir = analysis_dir (); if (g_mkdir_with_parents (dir.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session analysis folder \"%1\" (%2)"), dir, strerror (errno)) << endmsg; return -1; } return 0; } int Session::create (bool& new_session, const string& mix_template, nframes_t initial_length) { if (g_mkdir_with_parents (_path.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session folder \"%1\" (%2)"), _path, strerror (errno)) << endmsg; return -1; } if (ensure_subdirs ()) { return -1; } /* check new_session so we don't overwrite an existing one */ if (!mix_template.empty()) { std::string in_path = mix_template; ifstream in(in_path.c_str()); if (in){ string out_path = _path; out_path += _name; out_path += statefile_suffix; ofstream out(out_path.c_str()); if (out){ out << in.rdbuf(); // okay, session is set up. Treat like normal saved // session from now on. new_session = false; return 0; } else { error << string_compose (_("Could not open %1 for writing mix template"), out_path) << endmsg; return -1; } } else { error << string_compose (_("Could not open mix template %1 for reading"), in_path) << endmsg; return -1; } } /* Instantiate metadata */ _metadata = new SessionMetadata (); /* set initial start + end point */ start_location->set_end (0); _locations.add (start_location); end_location->set_end (initial_length); _locations.add (end_location); _state_of_the_state = Clean; save_state (""); return 0; } int Session::load_diskstreams (const XMLNode& node) { XMLNodeList clist; XMLNodeConstIterator citer; clist = node.children(); for (citer = clist.begin(); citer != clist.end(); ++citer) { try { /* diskstreams added automatically by DiskstreamCreated handler */ if ((*citer)->name() == "AudioDiskstream" || (*citer)->name() == "DiskStream") { boost::shared_ptr dstream (new AudioDiskstream (*this, **citer)); add_diskstream (dstream); } else if ((*citer)->name() == "MidiDiskstream") { boost::shared_ptr dstream (new MidiDiskstream (*this, **citer)); add_diskstream (dstream); } else { error << _("Session: unknown diskstream type in XML") << endmsg; } } catch (failed_constructor& err) { error << _("Session: could not load diskstream via XML state") << endmsg; return -1; } } return 0; } void Session::maybe_write_autosave() { if (dirty() && record_status() != Recording) { save_state("", true); } } void Session::remove_pending_capture_state () { sys::path pending_state_file_path(_session_dir->root_path()); pending_state_file_path /= legalize_for_path (_current_snapshot_name) + pending_suffix; try { sys::remove (pending_state_file_path); } catch(sys::filesystem_error& ex) { error << string_compose(_("Could remove pending capture state at path \"%1\" (%2)"), pending_state_file_path.to_string(), ex.what()) << endmsg; } } /** Rename a state file. * @param snapshot_name Snapshot name. */ void Session::rename_state (string old_name, string new_name) { if (old_name == _current_snapshot_name || old_name == _name) { /* refuse to rename the current snapshot or the "main" one */ return; } const string old_xml_filename = legalize_for_path (old_name) + statefile_suffix; const string new_xml_filename = legalize_for_path (new_name) + statefile_suffix; const sys::path old_xml_path = _session_dir->root_path() / old_xml_filename; const sys::path new_xml_path = _session_dir->root_path() / new_xml_filename; try { sys::rename (old_xml_path, new_xml_path); } catch (const sys::filesystem_error& err) { error << string_compose(_("could not rename snapshot %1 to %2 (%3)"), old_name, new_name, err.what()) << endmsg; } } /** Remove a state file. * @param snapshot_name Snapshot name. */ void Session::remove_state (string snapshot_name) { if (snapshot_name == _current_snapshot_name || snapshot_name == _name) { // refuse to remove the current snapshot or the "main" one return; } sys::path xml_path(_session_dir->root_path()); xml_path /= legalize_for_path (snapshot_name) + statefile_suffix; if (!create_backup_file (xml_path)) { // don't remove it if a backup can't be made // create_backup_file will log the error. return; } // and delete it sys::remove (xml_path); } int Session::save_state (string snapshot_name, bool pending) { XMLTree tree; sys::path xml_path(_session_dir->root_path()); if (!_writable || (_state_of_the_state & CannotSave)) { return 1; } if (!_engine.connected ()) { error << _("Ardour's audio engine is not connected and state saving would lose all I/O connections. Session not saved") << endmsg; return 1; } /* tell sources we're saving first, in case they write out to a new file * which should be saved with the state rather than the old one */ for (SourceMap::const_iterator i = sources.begin(); i != sources.end(); ++i) i->second->session_saved(); tree.set_root (&get_state()); if (snapshot_name.empty()) { snapshot_name = _current_snapshot_name; } if (!pending) { /* proper save: use statefile_suffix (.ardour in English) */ xml_path /= legalize_for_path (snapshot_name) + statefile_suffix; /* make a backup copy of the old file */ if (sys::exists(xml_path) && !create_backup_file (xml_path)) { // create_backup_file will log the error return -1; } } else { /* pending save: use pending_suffix (.pending in English) */ xml_path /= legalize_for_path (snapshot_name) + pending_suffix; } sys::path tmp_path(_session_dir->root_path()); tmp_path /= legalize_for_path (snapshot_name) + temp_suffix; // cerr << "actually writing state to " << xml_path.to_string() << endl; if (!tree.write (tmp_path.to_string())) { error << string_compose (_("state could not be saved to %1"), tmp_path.to_string()) << endmsg; sys::remove (tmp_path); return -1; } else { if (rename (tmp_path.to_string().c_str(), xml_path.to_string().c_str()) != 0) { error << string_compose (_("could not rename temporary session file %1 to %2"), tmp_path.to_string(), xml_path.to_string()) << endmsg; sys::remove (tmp_path); return -1; } } if (!pending) { save_history (snapshot_name); bool was_dirty = dirty(); _state_of_the_state = StateOfTheState (_state_of_the_state & ~Dirty); if (was_dirty) { DirtyChanged (); /* EMIT SIGNAL */ } StateSaved (snapshot_name); /* EMIT SIGNAL */ } return 0; } int Session::restore_state (string snapshot_name) { if (load_state (snapshot_name) == 0) { set_state (*state_tree->root(), Stateful::loading_state_version); } return 0; } int Session::load_state (string snapshot_name) { delete state_tree; state_tree = 0; state_was_pending = false; /* check for leftover pending state from a crashed capture attempt */ sys::path xmlpath(_session_dir->root_path()); xmlpath /= legalize_for_path (snapshot_name) + pending_suffix; if (sys::exists (xmlpath)) { /* there is pending state from a crashed capture attempt */ if (AskAboutPendingState()) { state_was_pending = true; } } if (!state_was_pending) { xmlpath = _session_dir->root_path(); xmlpath /= legalize_for_path (snapshot_name) + statefile_suffix; } if (!sys::exists (xmlpath)) { error << string_compose(_("%1: session state information file \"%2\" doesn't exist!"), _name, xmlpath.to_string()) << endmsg; return 1; } state_tree = new XMLTree; set_dirty(); /* writable() really reflects the whole folder, but if for any reason the session state file can't be written to, still make us unwritable. */ if (::access (xmlpath.to_string().c_str(), W_OK) != 0) { _writable = false; } if (!state_tree->read (xmlpath.to_string())) { error << string_compose(_("Could not understand ardour file %1"), xmlpath.to_string()) << endmsg; delete state_tree; state_tree = 0; return -1; } XMLNode& root (*state_tree->root()); if (root.name() != X_("Session")) { error << string_compose (_("Session file %1 is not an Ardour session"), xmlpath.to_string()) << endmsg; delete state_tree; state_tree = 0; return -1; } const XMLProperty* prop; if ((prop = root.property ("version")) == 0) { /* no version implies very old version of Ardour */ Stateful::loading_state_version = 1000; } else { int major; int minor; int micro; sscanf (prop->value().c_str(), "%d.%d.%d", &major, &minor, µ); Stateful::loading_state_version = (major * 1000) + minor; } if (Stateful::loading_state_version < CURRENT_SESSION_FILE_VERSION) { sys::path backup_path(_session_dir->root_path()); backup_path /= legalize_for_path (snapshot_name) + "-1" + statefile_suffix; // only create a backup once if (sys::exists (backup_path)) { return 0; } info << string_compose (_("Copying old session file %1 to %2\nUse %2 with Ardour versions before 2.0 from now on"), xmlpath.to_string(), backup_path.to_string()) << endmsg; try { sys::copy_file (xmlpath, backup_path); } catch(sys::filesystem_error& ex) { error << string_compose (_("Unable to make backup of state file %1 (%2)"), xmlpath.to_string(), ex.what()) << endmsg; return -1; } } return 0; } int Session::load_options (const XMLNode& node) { LocaleGuard lg (X_("POSIX")); config.set_variables (node); /* now reset MIDI ports because the session can have its own MIDI configuration. */ setup_midi (); return 0; } XMLNode& Session::get_state() { return state(true); } XMLNode& Session::get_template() { /* if we don't disable rec-enable, diskstreams will believe they need to store their capture sources in their state node. */ disable_record (false); return state(false); } XMLNode& Session::state(bool full_state) { XMLNode* node = new XMLNode("Session"); XMLNode* child; // store libardour version, just in case char buf[16]; snprintf(buf, sizeof(buf), "%d.%d.%d", libardour3_major_version, libardour3_minor_version, libardour3_micro_version); node->add_property("version", string(buf)); /* store configuration settings */ if (full_state) { node->add_property ("name", _name); snprintf (buf, sizeof (buf), "%" PRId32, _nominal_frame_rate); node->add_property ("sample-rate", buf); if (session_dirs.size() > 1) { string p; vector::iterator i = session_dirs.begin(); vector::iterator next; ++i; /* skip the first one */ next = i; ++next; while (i != session_dirs.end()) { p += (*i).path; if (next != session_dirs.end()) { p += ':'; } else { break; } ++next; ++i; } child = node->add_child ("Path"); child->add_content (p); } } /* save the ID counter */ snprintf (buf, sizeof (buf), "%" PRIu64, ID::counter()); node->add_property ("id-counter", buf); /* various options */ node->add_child_nocopy (config.get_variables ()); node->add_child_nocopy (_metadata->get_state()); child = node->add_child ("Sources"); if (full_state) { Glib::Mutex::Lock sl (source_lock); for (SourceMap::iterator siter = sources.begin(); siter != sources.end(); ++siter) { /* Don't save information about non-destructive file sources that are empty */ /* FIXME: MIDI breaks if this is made FileSource like it should be... */ boost::shared_ptr fs; if ((fs = boost::dynamic_pointer_cast (siter->second)) != 0) { if (!fs->destructive()) { if (fs->length(fs->timeline_position()) == 0) { continue; } } } child->add_child_nocopy (siter->second->get_state()); } } child = node->add_child ("Regions"); if (full_state) { Glib::Mutex::Lock rl (region_lock); for (RegionList::const_iterator i = regions.begin(); i != regions.end(); ++i) { /* only store regions not attached to playlists */ if (i->second->playlist() == 0) { child->add_child_nocopy (i->second->state (true)); } } } child = node->add_child ("DiskStreams"); { boost::shared_ptr dsl = diskstreams.reader(); for (DiskstreamList::iterator i = dsl->begin(); i != dsl->end(); ++i) { if (!(*i)->hidden()) { child->add_child_nocopy ((*i)->get_state()); } } } if (full_state) { node->add_child_nocopy (_locations.get_state()); } else { // for a template, just create a new Locations, populate it // with the default start and end, and get the state for that. Locations loc; Location* start = new Location(0, 0, _("start"), Location::Flags ((Location::IsMark|Location::IsStart))); Location* end = new Location(0, 0, _("end"), Location::Flags ((Location::IsMark|Location::IsEnd))); start->set_end(0); loc.add (start); end->set_end(compute_initial_length()); loc.add (end); node->add_child_nocopy (loc.get_state()); } child = node->add_child ("Bundles"); { boost::shared_ptr bundles = _bundles.reader (); for (BundleList::iterator i = bundles->begin(); i != bundles->end(); ++i) { boost::shared_ptr b = boost::dynamic_pointer_cast (*i); if (b) { child->add_child_nocopy (b->get_state()); } } } child = node->add_child ("Routes"); { boost::shared_ptr r = routes.reader (); RoutePublicOrderSorter cmp; RouteList public_order (*r); public_order.sort (cmp); for (RouteList::iterator i = public_order.begin(); i != public_order.end(); ++i) { if (!(*i)->is_hidden()) { if (full_state) { child->add_child_nocopy ((*i)->get_state()); } else { child->add_child_nocopy ((*i)->get_template()); } } } } child = node->add_child ("RouteGroups"); for (list::iterator i = _route_groups.begin(); i != _route_groups.end(); ++i) { child->add_child_nocopy ((*i)->get_state()); } child = node->add_child ("Playlists"); for (PlaylistList::iterator i = playlists.begin(); i != playlists.end(); ++i) { if (!(*i)->hidden()) { if (!(*i)->empty()) { if (full_state) { child->add_child_nocopy ((*i)->get_state()); } else { child->add_child_nocopy ((*i)->get_template()); } } } } child = node->add_child ("UnusedPlaylists"); for (PlaylistList::iterator i = unused_playlists.begin(); i != unused_playlists.end(); ++i) { if (!(*i)->hidden()) { if (!(*i)->empty()) { if (full_state) { child->add_child_nocopy ((*i)->get_state()); } else { child->add_child_nocopy ((*i)->get_template()); } } } } if (_click_io) { child = node->add_child ("Click"); child->add_child_nocopy (_click_io->state (full_state)); } if (full_state) { child = node->add_child ("NamedSelections"); for (NamedSelectionList::iterator i = named_selections.begin(); i != named_selections.end(); ++i) { if (full_state) { child->add_child_nocopy ((*i)->get_state()); } } } node->add_child_nocopy (_tempo_map->get_state()); node->add_child_nocopy (get_control_protocol_state()); if (_extra_xml) { node->add_child_copy (*_extra_xml); } return *node; } XMLNode& Session::get_control_protocol_state () { ControlProtocolManager& cpm (ControlProtocolManager::instance()); return cpm.get_state(); } int Session::set_state (const XMLNode& node, int version) { XMLNodeList nlist; XMLNode* child; const XMLProperty* prop; int ret = -1; _state_of_the_state = StateOfTheState (_state_of_the_state|CannotSave); if (node.name() != X_("Session")){ fatal << _("programming error: Session: incorrect XML node sent to set_state()") << endmsg; return -1; } if ((prop = node.property ("version")) != 0) { version = atoi (prop->value ()) * 1000; } if ((prop = node.property ("name")) != 0) { _name = prop->value (); } if ((prop = node.property (X_("sample-rate"))) != 0) { _nominal_frame_rate = atoi (prop->value()); if (_nominal_frame_rate != _current_frame_rate) { if (AskAboutSampleRateMismatch (_nominal_frame_rate, _current_frame_rate)) { return -1; } } } setup_raid_path(_session_dir->root_path().to_string()); if ((prop = node.property (X_("id-counter"))) != 0) { uint64_t x; sscanf (prop->value().c_str(), "%" PRIu64, &x); ID::init_counter (x); } else { /* old sessions used a timebased counter, so fake the startup ID counter based on a standard timestamp. */ time_t now; time (&now); ID::init_counter (now); } IO::disable_connecting (); /* Object loading order: Path Extra Options/Config MIDI Control // relies on data from Options/Config Metadata Locations Sources AudioRegions AudioDiskstreams Connections Routes RouteGroups MixGroups Click ControlProtocols */ if ((child = find_named_node (node, "Extra")) != 0) { _extra_xml = new XMLNode (*child); } if (((child = find_named_node (node, "Options")) != 0)) { /* old style */ load_options (*child); } else if ((child = find_named_node (node, "Config")) != 0) { /* new style */ load_options (*child); } else { error << _("Session: XML state has no options section") << endmsg; } if (use_config_midi_ports ()) { } if (version >= 3000) { if ((child = find_named_node (node, "Metadata")) == 0) { warning << _("Session: XML state has no metadata section") << endmsg; } else if (_metadata->set_state (*child, version)) { goto out; } } if ((child = find_named_node (node, "Locations")) == 0) { error << _("Session: XML state has no locations section") << endmsg; goto out; } else if (_locations.set_state (*child, version)) { goto out; } Location* location; if ((location = _locations.auto_loop_location()) != 0) { set_auto_loop_location (location); } if ((location = _locations.auto_punch_location()) != 0) { set_auto_punch_location (location); } if ((location = _locations.end_location()) == 0) { _locations.add (end_location); } else { delete end_location; end_location = location; } if ((location = _locations.start_location()) == 0) { _locations.add (start_location); } else { delete start_location; start_location = location; } AudioFileSource::set_header_position_offset (start_location->start()); if ((child = find_named_node (node, "Sources")) == 0) { error << _("Session: XML state has no sources section") << endmsg; goto out; } else if (load_sources (*child)) { goto out; } if ((child = find_named_node (node, "Regions")) == 0) { error << _("Session: XML state has no Regions section") << endmsg; goto out; } else if (load_regions (*child)) { goto out; } if ((child = find_named_node (node, "Playlists")) == 0) { error << _("Session: XML state has no playlists section") << endmsg; goto out; } else if (load_playlists (*child)) { goto out; } if ((child = find_named_node (node, "UnusedPlaylists")) == 0) { // this is OK } else if (load_unused_playlists (*child)) { goto out; } if ((child = find_named_node (node, "NamedSelections")) != 0) { if (load_named_selections (*child)) { goto out; } } if ((child = find_named_node (node, "DiskStreams")) == 0) { error << _("Session: XML state has no diskstreams section") << endmsg; goto out; } else if (load_diskstreams (*child)) { goto out; } if (version >= 3000) { if ((child = find_named_node (node, "Bundles")) == 0) { warning << _("Session: XML state has no bundles section") << endmsg; //goto out; } else { /* We can't load Bundles yet as they need to be able to convert from port names to Port objects, which can't happen until later */ _bundle_xml_node = new XMLNode (*child); } } if (version >= 3000) { if ((child = find_named_node (node, "RouteGroups")) == 0) { error << _("Session: XML state has no route groups section") << endmsg; goto out; } else if (load_route_groups (*child, version)) { goto out; } } else if (version < 3000) { if ((child = find_named_node (node, "EditGroups")) == 0) { error << _("Session: XML state has no edit groups section") << endmsg; goto out; } else if (load_route_groups (*child, version)) { goto out; } if ((child = find_named_node (node, "MixGroups")) == 0) { error << _("Session: XML state has no mix groups section") << endmsg; goto out; } else if (load_route_groups (*child, version)) { goto out; } } if ((child = find_named_node (node, "TempoMap")) == 0) { error << _("Session: XML state has no Tempo Map section") << endmsg; goto out; } else if (_tempo_map->set_state (*child, version)) { goto out; } if ((child = find_named_node (node, "Routes")) == 0) { error << _("Session: XML state has no routes section") << endmsg; goto out; } else if (load_routes (*child, version)) { goto out; } if ((child = find_named_node (node, "Click")) == 0) { warning << _("Session: XML state has no click section") << endmsg; } else if (_click_io) { _click_io->set_state (*child, version); } if ((child = find_named_node (node, "ControlProtocols")) != 0) { ControlProtocolManager::instance().set_protocol_states (*child); } /* here beginneth the second phase ... */ StateReady (); /* EMIT SIGNAL */ return 0; out: return ret; } int Session::load_routes (const XMLNode& node, int version) { XMLNodeList nlist; XMLNodeConstIterator niter; RouteList new_routes; nlist = node.children(); set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { boost::shared_ptr route (XMLRouteFactory (**niter, version)); if (route == 0) { error << _("Session: cannot create Route from XML description.") << endmsg; return -1; } BootMessage (string_compose (_("Loaded track/bus %1"), route->name())); new_routes.push_back (route); } add_routes (new_routes, false); return 0; } boost::shared_ptr Session::XMLRouteFactory (const XMLNode& node, int version) { if (node.name() != "Route") { return boost::shared_ptr ((Route*) 0); } bool has_diskstream = (node.property ("diskstream") != 0 || node.property ("diskstream-id") != 0); DataType type = DataType::AUDIO; const XMLProperty* prop = node.property("default-type"); if (prop) { type = DataType(prop->value()); } assert(type != DataType::NIL); if (has_diskstream) { if (type == DataType::AUDIO) { boost::shared_ptr ret (new AudioTrack (*this, node, version)); return ret; } else { boost::shared_ptr ret (new MidiTrack (*this, node, version)); return ret; } } else { boost::shared_ptr ret (new Route (*this, node)); return ret; } } int Session::load_regions (const XMLNode& node) { XMLNodeList nlist; XMLNodeConstIterator niter; boost::shared_ptr region; nlist = node.children(); set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((region = XMLRegionFactory (**niter, false)) == 0) { error << _("Session: cannot create Region from XML description."); const XMLProperty *name = (**niter).property("name"); if (name) { error << " " << string_compose (_("Can not load state for region '%1'"), name->value()); } error << endmsg; } } return 0; } boost::shared_ptr Session::XMLRegionFactory (const XMLNode& node, bool full) { const XMLProperty* type = node.property("type"); try { if ( !type || type->value() == "audio" ) { return boost::shared_ptr(XMLAudioRegionFactory (node, full)); } else if (type->value() == "midi") { return boost::shared_ptr(XMLMidiRegionFactory (node, full)); } } catch (failed_constructor& err) { return boost::shared_ptr (); } return boost::shared_ptr (); } boost::shared_ptr Session::XMLAudioRegionFactory (const XMLNode& node, bool /*full*/) { const XMLProperty* prop; boost::shared_ptr source; boost::shared_ptr as; SourceList sources; SourceList master_sources; uint32_t nchans = 1; char buf[128]; if (node.name() != X_("Region")) { return boost::shared_ptr(); } if ((prop = node.property (X_("channels"))) != 0) { nchans = atoi (prop->value().c_str()); } if ((prop = node.property ("name")) == 0) { cerr << "no name for this region\n"; abort (); } if ((prop = node.property (X_("source-0"))) == 0) { if ((prop = node.property ("source")) == 0) { error << _("Session: XMLNode describing a AudioRegion is incomplete (no source)") << endmsg; return boost::shared_ptr(); } } PBD::ID s_id (prop->value()); if ((source = source_by_id (s_id)) == 0) { error << string_compose(_("Session: XMLNode describing a AudioRegion references an unknown source id =%1"), s_id) << endmsg; return boost::shared_ptr(); } as = boost::dynamic_pointer_cast(source); if (!as) { error << string_compose(_("Session: XMLNode describing a AudioRegion references a non-audio source id =%1"), s_id) << endmsg; return boost::shared_ptr(); } sources.push_back (as); /* pickup other channels */ for (uint32_t n=1; n < nchans; ++n) { snprintf (buf, sizeof(buf), X_("source-%d"), n); if ((prop = node.property (buf)) != 0) { PBD::ID id2 (prop->value()); if ((source = source_by_id (id2)) == 0) { error << string_compose(_("Session: XMLNode describing a AudioRegion references an unknown source id =%1"), id2) << endmsg; return boost::shared_ptr(); } as = boost::dynamic_pointer_cast(source); if (!as) { error << string_compose(_("Session: XMLNode describing a AudioRegion references a non-audio source id =%1"), id2) << endmsg; return boost::shared_ptr(); } sources.push_back (as); } } for (uint32_t n = 0; n < nchans; ++n) { snprintf (buf, sizeof(buf), X_("master-source-%d"), n); if ((prop = node.property (buf)) != 0) { PBD::ID id2 (prop->value()); if ((source = source_by_id (id2)) == 0) { error << string_compose(_("Session: XMLNode describing a AudioRegion references an unknown source id =%1"), id2) << endmsg; return boost::shared_ptr(); } as = boost::dynamic_pointer_cast(source); if (!as) { error << string_compose(_("Session: XMLNode describing a AudioRegion references a non-audio source id =%1"), id2) << endmsg; return boost::shared_ptr(); } master_sources.push_back (as); } } try { boost::shared_ptr region (boost::dynamic_pointer_cast (RegionFactory::create (sources, node))); /* a final detail: this is the one and only place that we know how long missing files are */ if (region->whole_file()) { for (SourceList::iterator sx = sources.begin(); sx != sources.end(); ++sx) { boost::shared_ptr sfp = boost::dynamic_pointer_cast (*sx); if (sfp) { sfp->set_length (region->length()); } } } if (!master_sources.empty()) { if (master_sources.size() != nchans) { error << _("Session: XMLNode describing an AudioRegion is missing some master sources; ignored") << endmsg; } else { region->set_master_sources (master_sources); } } return region; } catch (failed_constructor& err) { return boost::shared_ptr(); } } boost::shared_ptr Session::XMLMidiRegionFactory (const XMLNode& node, bool /*full*/) { const XMLProperty* prop; boost::shared_ptr source; boost::shared_ptr ms; SourceList sources; uint32_t nchans = 1; if (node.name() != X_("Region")) { return boost::shared_ptr(); } if ((prop = node.property (X_("channels"))) != 0) { nchans = atoi (prop->value().c_str()); } if ((prop = node.property ("name")) == 0) { cerr << "no name for this region\n"; abort (); } // Multiple midi channels? that's just crazy talk assert(nchans == 1); if ((prop = node.property (X_("source-0"))) == 0) { if ((prop = node.property ("source")) == 0) { error << _("Session: XMLNode describing a MidiRegion is incomplete (no source)") << endmsg; return boost::shared_ptr(); } } PBD::ID s_id (prop->value()); if ((source = source_by_id (s_id)) == 0) { error << string_compose(_("Session: XMLNode describing a MidiRegion references an unknown source id =%1"), s_id) << endmsg; return boost::shared_ptr(); } ms = boost::dynamic_pointer_cast(source); if (!ms) { error << string_compose(_("Session: XMLNode describing a MidiRegion references a non-midi source id =%1"), s_id) << endmsg; return boost::shared_ptr(); } sources.push_back (ms); try { boost::shared_ptr region (boost::dynamic_pointer_cast (RegionFactory::create (sources, node))); /* a final detail: this is the one and only place that we know how long missing files are */ if (region->whole_file()) { for (SourceList::iterator sx = sources.begin(); sx != sources.end(); ++sx) { boost::shared_ptr sfp = boost::dynamic_pointer_cast (*sx); if (sfp) { sfp->set_length (region->length()); } } } return region; } catch (failed_constructor& err) { return boost::shared_ptr(); } } XMLNode& Session::get_sources_as_xml () { XMLNode* node = new XMLNode (X_("Sources")); Glib::Mutex::Lock lm (source_lock); for (SourceMap::iterator i = sources.begin(); i != sources.end(); ++i) { node->add_child_nocopy (i->second->get_state()); } return *node; } string Session::path_from_region_name (DataType type, string name, string identifier) { char buf[PATH_MAX+1]; uint32_t n; SessionDirectory sdir(get_best_session_directory_for_new_source()); sys::path source_dir = ((type == DataType::AUDIO) ? sdir.sound_path() : sdir.midi_path()); string ext = ((type == DataType::AUDIO) ? ".wav" : ".mid"); for (n = 0; n < 999999; ++n) { if (identifier.length()) { snprintf (buf, sizeof(buf), "%s%s%" PRIu32 "%s", name.c_str(), identifier.c_str(), n, ext.c_str()); } else { snprintf (buf, sizeof(buf), "%s-%" PRIu32 "%s", name.c_str(), n, ext.c_str()); } sys::path source_path = source_dir / buf; if (!sys::exists (source_path)) { return source_path.to_string(); } } error << string_compose (_("cannot create new file from region name \"%1\" with ident = \"%2\": too many existing files with similar names"), name, identifier) << endmsg; return ""; } int Session::load_sources (const XMLNode& node) { XMLNodeList nlist; XMLNodeConstIterator niter; boost::shared_ptr source; nlist = node.children(); set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { try { if ((source = XMLSourceFactory (**niter)) == 0) { error << _("Session: cannot create Source from XML description.") << endmsg; } } catch (MissingSource& err) { warning << _("A sound file is missing. It will be replaced by silence.") << endmsg; source = SourceFactory::createSilent (*this, **niter, max_frames, _current_frame_rate); } } return 0; } boost::shared_ptr Session::XMLSourceFactory (const XMLNode& node) { if (node.name() != "Source") { return boost::shared_ptr(); } try { /* note: do peak building in another thread when loading session state */ return SourceFactory::create (*this, node, true); } catch (failed_constructor& err) { error << _("Found a sound file that cannot be used by Ardour. Talk to the progammers.") << endmsg; return boost::shared_ptr(); } } int Session::save_template (string template_name) { XMLTree tree; if (_state_of_the_state & CannotSave) { return -1; } sys::path user_template_dir(user_template_directory()); try { sys::create_directories (user_template_dir); } catch(sys::filesystem_error& ex) { error << string_compose(_("Could not create mix templates directory \"%1\" (%2)"), user_template_dir.to_string(), ex.what()) << endmsg; return -1; } tree.set_root (&get_template()); sys::path template_file_path(user_template_dir); template_file_path /= template_name + template_suffix; if (sys::exists (template_file_path)) { warning << string_compose(_("Template \"%1\" already exists - new version not created"), template_file_path.to_string()) << endmsg; return -1; } if (!tree.write (template_file_path.to_string())) { error << _("mix template not saved") << endmsg; return -1; } return 0; } int Session::rename_template (string old_name, string new_name) { sys::path old_path (user_template_directory()); old_path /= old_name + template_suffix; sys::path new_path(user_template_directory()); new_path /= new_name + template_suffix; if (sys::exists (new_path)) { warning << string_compose(_("Template \"%1\" already exists - template not renamed"), new_path.to_string()) << endmsg; return -1; } try { sys::rename (old_path, new_path); return 0; } catch (...) { return -1; } } int Session::delete_template (string name) { sys::path path = user_template_directory(); path /= name + template_suffix; try { sys::remove (path); return 0; } catch (...) { return -1; } } void Session::refresh_disk_space () { #if HAVE_SYS_VFS_H struct statfs statfsbuf; vector::iterator i; Glib::Mutex::Lock lm (space_lock); double scale; /* get freespace on every FS that is part of the session path */ _total_free_4k_blocks = 0; for (i = session_dirs.begin(); i != session_dirs.end(); ++i) { statfs ((*i).path.c_str(), &statfsbuf); scale = statfsbuf.f_bsize/4096.0; (*i).blocks = (uint32_t) floor (statfsbuf.f_bavail * scale); _total_free_4k_blocks += (*i).blocks; } #endif } string Session::get_best_session_directory_for_new_source () { vector::iterator i; string result = _session_dir->root_path().to_string(); /* handle common case without system calls */ if (session_dirs.size() == 1) { return result; } /* OK, here's the algorithm we're following here: We want to select which directory to use for the next file source to be created. Ideally, we'd like to use a round-robin process so as to get maximum performance benefits from splitting the files across multiple disks. However, in situations without much diskspace, an RR approach may end up filling up a filesystem with new files while others still have space. Its therefore important to pay some attention to the freespace in the filesystem holding each directory as well. However, if we did that by itself, we'd keep creating new files in the file system with the most space until it was as full as all others, thus negating any performance benefits of this RAID-1 like approach. So, we use a user-configurable space threshold. If there are at least 2 filesystems with more than this much space available, we use RR selection between them. If not, then we pick the filesystem with the most space. This gets a good balance between the two approaches. */ refresh_disk_space (); int free_enough = 0; for (i = session_dirs.begin(); i != session_dirs.end(); ++i) { if ((*i).blocks * 4096 >= Config->get_disk_choice_space_threshold()) { free_enough++; } } if (free_enough >= 2) { /* use RR selection process, ensuring that the one picked works OK. */ i = last_rr_session_dir; do { if (++i == session_dirs.end()) { i = session_dirs.begin(); } if ((*i).blocks * 4096 >= Config->get_disk_choice_space_threshold()) { if (create_session_directory ((*i).path)) { result = (*i).path; last_rr_session_dir = i; return result; } } } while (i != last_rr_session_dir); } else { /* pick FS with the most freespace (and that seems to actually work ...) */ vector sorted; space_and_path_ascending_cmp cmp; sorted = session_dirs; sort (sorted.begin(), sorted.end(), cmp); for (i = sorted.begin(); i != sorted.end(); ++i) { if (create_session_directory ((*i).path)) { result = (*i).path; last_rr_session_dir = i; return result; } } } return result; } int Session::load_playlists (const XMLNode& node) { XMLNodeList nlist; XMLNodeConstIterator niter; boost::shared_ptr playlist; nlist = node.children(); set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((playlist = XMLPlaylistFactory (**niter)) == 0) { error << _("Session: cannot create Playlist from XML description.") << endmsg; } } return 0; } int Session::load_unused_playlists (const XMLNode& node) { XMLNodeList nlist; XMLNodeConstIterator niter; boost::shared_ptr playlist; nlist = node.children(); set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((playlist = XMLPlaylistFactory (**niter)) == 0) { error << _("Session: cannot create Playlist from XML description.") << endmsg; continue; } // now manually untrack it track_playlist (false, boost::weak_ptr (playlist)); } return 0; } boost::shared_ptr Session::XMLPlaylistFactory (const XMLNode& node) { try { return PlaylistFactory::create (*this, node); } catch (failed_constructor& err) { return boost::shared_ptr(); } } int Session::load_named_selections (const XMLNode& node) { XMLNodeList nlist; XMLNodeConstIterator niter; NamedSelection *ns; nlist = node.children(); set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((ns = XMLNamedSelectionFactory (**niter)) == 0) { error << _("Session: cannot create Named Selection from XML description.") << endmsg; } } return 0; } NamedSelection * Session::XMLNamedSelectionFactory (const XMLNode& node) { try { return new NamedSelection (*this, node); } catch (failed_constructor& err) { return 0; } } string Session::automation_dir () const { return Glib::build_filename (_path, "automation"); } string Session::analysis_dir () const { return Glib::build_filename (_path, "analysis"); } int Session::load_bundles (XMLNode const & node) { XMLNodeList nlist = node.children(); XMLNodeConstIterator niter; set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((*niter)->name() == "InputBundle") { add_bundle (boost::shared_ptr (new UserBundle (**niter, true))); } else if ((*niter)->name() == "OutputBundle") { add_bundle (boost::shared_ptr (new UserBundle (**niter, false))); } else { error << string_compose(_("Unknown node \"%1\" found in Bundles list from state file"), (*niter)->name()) << endmsg; return -1; } } return 0; } int Session::load_route_groups (const XMLNode& node, int version) { XMLNodeList nlist = node.children(); XMLNodeConstIterator niter; set_dirty (); if (version >= 3000) { for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((*niter)->name() == "RouteGroup") { RouteGroup* rg = new RouteGroup (*this, ""); add_route_group (rg); rg->set_state (**niter, version); } } } else if (version < 3000) { for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((*niter)->name() == "EditGroup" || (*niter)->name() == "MixGroup") { RouteGroup* rg = new RouteGroup (*this, ""); add_route_group (rg); rg->set_state (**niter, version); } } } return 0; } void Session::auto_save() { save_state (_current_snapshot_name); } static bool state_file_filter (const string &str, void */*arg*/) { return (str.length() > strlen(statefile_suffix) && str.find (statefile_suffix) == (str.length() - strlen (statefile_suffix))); } struct string_cmp { bool operator()(const string* a, const string* b) { return *a < *b; } }; static string* remove_end(string* state) { string statename(*state); string::size_type start,end; if ((start = statename.find_last_of ('/')) != string::npos) { statename = statename.substr (start+1); } if ((end = statename.rfind(".ardour")) == string::npos) { end = statename.length(); } return new string(statename.substr (0, end)); } vector * Session::possible_states (string path) { PathScanner scanner; vector* states = scanner (path, state_file_filter, 0, false, false); transform(states->begin(), states->end(), states->begin(), remove_end); string_cmp cmp; sort (states->begin(), states->end(), cmp); return states; } vector * Session::possible_states () const { return possible_states(_path); } void Session::add_route_group (RouteGroup* g) { _route_groups.push_back (g); route_group_added (g); /* EMIT SIGNAL */ set_dirty (); } void Session::remove_route_group (RouteGroup& rg) { list::iterator i; if ((i = find (_route_groups.begin(), _route_groups.end(), &rg)) != _route_groups.end()) { (*i)->apply (&Route::drop_route_group, this); _route_groups.erase (i); route_group_removed (); /* EMIT SIGNAL */ } delete &rg; } RouteGroup * Session::route_group_by_name (string name) { list::iterator i; for (i = _route_groups.begin(); i != _route_groups.end(); ++i) { if ((*i)->name() == name) { return* i; } } return 0; } void Session::begin_reversible_command(const string& name) { UndoTransaction* trans = new UndoTransaction(); trans->set_name(name); if (!_current_trans.empty()) { _current_trans.top()->add_command (trans); } else { _current_trans.push(trans); } } void Session::commit_reversible_command(Command *cmd) { assert(!_current_trans.empty()); struct timeval now; if (cmd) { _current_trans.top()->add_command(cmd); } if (_current_trans.top()->empty()) { _current_trans.pop(); return; } gettimeofday(&now, 0); _current_trans.top()->set_timestamp(now); _history.add(_current_trans.top()); _current_trans.pop(); } Session::GlobalRouteBooleanState Session::get_global_route_boolean (bool (Route::*method)(void) const) { GlobalRouteBooleanState s; boost::shared_ptr r = routes.reader (); for (RouteList::iterator i = r->begin(); i != r->end(); ++i) { if (!(*i)->is_hidden()) { RouteBooleanState v; v.first =* i; Route* r = (*i).get(); v.second = (r->*method)(); s.push_back (v); } } return s; } Session::GlobalRouteMeterState Session::get_global_route_metering () { GlobalRouteMeterState s; boost::shared_ptr r = routes.reader (); for (RouteList::iterator i = r->begin(); i != r->end(); ++i) { if (!(*i)->is_hidden()) { RouteMeterState v; v.first =* i; v.second = (*i)->meter_point(); s.push_back (v); } } return s; } void Session::set_global_route_metering (GlobalRouteMeterState s, void* arg) { for (GlobalRouteMeterState::iterator i = s.begin(); i != s.end(); ++i) { boost::shared_ptr r = (i->first.lock()); if (r) { r->set_meter_point (i->second, arg); } } } void Session::set_global_route_boolean (GlobalRouteBooleanState s, void (Route::*method)(bool, void*), void* arg) { for (GlobalRouteBooleanState::iterator i = s.begin(); i != s.end(); ++i) { boost::shared_ptr r = (i->first.lock()); if (r) { Route* rp = r.get(); (rp->*method) (i->second, arg); } } } void Session::set_global_mute (GlobalRouteBooleanState s, void* src) { set_global_route_boolean (s, &Route::set_mute, src); } void Session::set_global_solo (GlobalRouteBooleanState s, void* src) { set_global_route_boolean (s, &Route::set_solo, src); } void Session::set_global_record_enable (GlobalRouteBooleanState s, void* src) { set_global_route_boolean (s, &Route::set_record_enable, src); } static bool accept_all_non_peak_files (const string& path, void */*arg*/) { return (path.length() > 5 && path.find (peakfile_suffix) != (path.length() - 5)); } static bool accept_all_state_files (const string& path, void */*arg*/) { return (path.length() > 7 && path.find (".ardour") == (path.length() - 7)); } int Session::find_all_sources (string path, set& result) { XMLTree tree; XMLNode* node; if (!tree.read (path)) { return -1; } if ((node = find_named_node (*tree.root(), "Sources")) == 0) { return -2; } XMLNodeList nlist; XMLNodeConstIterator niter; nlist = node->children(); set_dirty(); for (niter = nlist.begin(); niter != nlist.end(); ++niter) { XMLProperty* prop; if ((prop = (*niter)->property (X_("type"))) == 0) { continue; } DataType type (prop->value()); if ((prop = (*niter)->property (X_("name"))) == 0) { continue; } if (prop->value()[0] == '/') { /* external file, ignore */ continue; } Glib::ustring found_path; bool is_new; uint16_t chan; if (FileSource::find (type, prop->value(), true, is_new, chan, found_path)) { result.insert (found_path); } } return 0; } int Session::find_all_sources_across_snapshots (set& result, bool exclude_this_snapshot) { PathScanner scanner; vector* state_files; string ripped; string this_snapshot_path; result.clear (); ripped = _path; if (ripped[ripped.length()-1] == '/') { ripped = ripped.substr (0, ripped.length() - 1); } state_files = scanner (ripped, accept_all_state_files, (void *) 0, false, true); if (state_files == 0) { /* impossible! */ return 0; } this_snapshot_path = _path; this_snapshot_path += legalize_for_path (_current_snapshot_name); this_snapshot_path += statefile_suffix; for (vector::iterator i = state_files->begin(); i != state_files->end(); ++i) { if (exclude_this_snapshot && **i == this_snapshot_path) { continue; } if (find_all_sources (**i, result) < 0) { return -1; } } return 0; } struct RegionCounter { typedef std::map > AudioSourceList; AudioSourceList::iterator iter; boost::shared_ptr region; uint32_t count; RegionCounter() : count (0) {} }; int Session::cleanup_sources (Session::cleanup_report& rep) { // FIXME: needs adaptation to midi vector > dead_sources; vector > playlists_tbd; PathScanner scanner; string sound_path; vector::iterator i; vector::iterator nexti; vector* soundfiles; vector unused; set all_sources; bool used; string spath; int ret = -1; _state_of_the_state = (StateOfTheState) (_state_of_the_state | InCleanup); /* step 1: consider deleting all unused playlists */ for (PlaylistList::iterator x = unused_playlists.begin(); x != unused_playlists.end(); ++x) { int status; status = AskAboutPlaylistDeletion (*x); switch (status) { case -1: ret = 0; goto out; break; case 0: playlists_tbd.push_back (*x); break; default: /* leave it alone */ break; } } /* now delete any that were marked for deletion */ for (vector >::iterator x = playlists_tbd.begin(); x != playlists_tbd.end(); ++x) { (*x)->drop_references (); } playlists_tbd.clear (); /* step 2: find all un-used sources */ rep.paths.clear (); rep.space = 0; for (SourceMap::iterator i = sources.begin(); i != sources.end(); ) { SourceMap::iterator tmp; tmp = i; ++tmp; /* do not bother with files that are zero size, otherwise we remove the current "nascent" capture files. */ if (!i->second->used() && i->second->length(i->second->timeline_position()) > 0) { dead_sources.push_back (i->second); i->second->GoingAway(); } i = tmp; } /* build a list of all the possible sound directories for the session */ for (i = session_dirs.begin(); i != session_dirs.end(); ) { nexti = i; ++nexti; SessionDirectory sdir ((*i).path); sound_path += sdir.sound_path().to_string(); if (nexti != session_dirs.end()) { sound_path += ':'; } i = nexti; } /* now do the same thing for the files that ended up in the sounds dir(s) but are not referenced as sources in any snapshot. */ soundfiles = scanner (sound_path, accept_all_non_peak_files, (void *) 0, false, true); if (soundfiles == 0) { return 0; } /* find all sources, but don't use this snapshot because the state file on disk still references sources we may have already dropped. */ find_all_sources_across_snapshots (all_sources, true); /* add our current source list */ for (SourceMap::iterator i = sources.begin(); i != sources.end(); ++i) { boost::shared_ptr fs; if ((fs = boost::dynamic_pointer_cast (i->second)) != 0) { all_sources.insert (fs->path()); } } char tmppath1[PATH_MAX+1]; char tmppath2[PATH_MAX+1]; for (vector::iterator x = soundfiles->begin(); x != soundfiles->end(); ++x) { used = false; spath = **x; for (set::iterator i = all_sources.begin(); i != all_sources.end(); ++i) { realpath(spath.c_str(), tmppath1); realpath((*i).c_str(), tmppath2); if (strcmp(tmppath1, tmppath2) == 0) { used = true; break; } } if (!used) { unused.push_back (spath); } } /* now try to move all unused files into the "dead_sounds" directory(ies) */ for (vector::iterator x = unused.begin(); x != unused.end(); ++x) { struct stat statbuf; rep.paths.push_back (*x); if (stat ((*x).c_str(), &statbuf) == 0) { rep.space += statbuf.st_size; } string newpath; /* don't move the file across filesystems, just stick it in the `dead_sound_dir_name' directory on whichever filesystem it was already on. */ if ((*x).find ("/sounds/") != string::npos) { /* old school, go up 1 level */ newpath = Glib::path_get_dirname (*x); // "sounds" newpath = Glib::path_get_dirname (newpath); // "session-name" } else { /* new school, go up 4 levels */ newpath = Glib::path_get_dirname (*x); // "audiofiles" newpath = Glib::path_get_dirname (newpath); // "session-name" newpath = Glib::path_get_dirname (newpath); // "interchange" newpath = Glib::path_get_dirname (newpath); // "session-dir" } newpath += '/'; newpath += dead_sound_dir_name; if (g_mkdir_with_parents (newpath.c_str(), 0755) < 0) { error << string_compose(_("Session: cannot create session peakfile folder \"%1\" (%2)"), newpath, strerror (errno)) << endmsg; return -1; } newpath += '/'; newpath += Glib::path_get_basename ((*x)); if (access (newpath.c_str(), F_OK) == 0) { /* the new path already exists, try versioning */ char buf[PATH_MAX+1]; int version = 1; string newpath_v; snprintf (buf, sizeof (buf), "%s.%d", newpath.c_str(), version); newpath_v = buf; while (access (newpath_v.c_str(), F_OK) == 0 && version < 999) { snprintf (buf, sizeof (buf), "%s.%d", newpath.c_str(), ++version); newpath_v = buf; } if (version == 999) { error << string_compose (_("there are already 1000 files with names like %1; versioning discontinued"), newpath) << endmsg; } else { newpath = newpath_v; } } else { /* it doesn't exist, or we can't read it or something */ } if (::rename ((*x).c_str(), newpath.c_str()) != 0) { error << string_compose (_("cannot rename audio file source from %1 to %2 (%3)"), (*x), newpath, strerror (errno)) << endmsg; goto out; } /* see if there an easy to find peakfile for this file, and remove it. */ string peakpath = (*x).substr (0, (*x).find_last_of ('.')); peakpath += peakfile_suffix; if (access (peakpath.c_str(), W_OK) == 0) { if (::unlink (peakpath.c_str()) != 0) { error << string_compose (_("cannot remove peakfile %1 for %2 (%3)"), peakpath, _path, strerror (errno)) << endmsg; /* try to back out */ rename (newpath.c_str(), _path.c_str()); goto out; } } } ret = 0; /* dump the history list */ _history.clear (); /* save state so we don't end up a session file referring to non-existent sources. */ save_state (""); out: _state_of_the_state = (StateOfTheState) (_state_of_the_state & ~InCleanup); return ret; } int Session::cleanup_trash_sources (Session::cleanup_report& rep) { // FIXME: needs adaptation for MIDI vector::iterator i; string dead_sound_dir; struct dirent* dentry; struct stat statbuf; DIR* dead; rep.paths.clear (); rep.space = 0; for (i = session_dirs.begin(); i != session_dirs.end(); ++i) { dead_sound_dir = (*i).path; dead_sound_dir += dead_sound_dir_name; if ((dead = opendir (dead_sound_dir.c_str())) == 0) { continue; } while ((dentry = readdir (dead)) != 0) { /* avoid '.' and '..' */ if ((dentry->d_name[0] == '.' && dentry->d_name[1] == '\0') || (dentry->d_name[2] == '\0' && dentry->d_name[0] == '.' && dentry->d_name[1] == '.')) { continue; } string fullpath; fullpath = dead_sound_dir; fullpath += '/'; fullpath += dentry->d_name; if (stat (fullpath.c_str(), &statbuf)) { continue; } if (!S_ISREG (statbuf.st_mode)) { continue; } if (unlink (fullpath.c_str())) { error << string_compose (_("cannot remove dead sound file %1 (%2)"), fullpath, strerror (errno)) << endmsg; } rep.paths.push_back (dentry->d_name); rep.space += statbuf.st_size; } closedir (dead); } return 0; } void Session::set_dirty () { bool was_dirty = dirty(); _state_of_the_state = StateOfTheState (_state_of_the_state | Dirty); if (!was_dirty) { DirtyChanged(); /* EMIT SIGNAL */ } } void Session::set_clean () { bool was_dirty = dirty(); _state_of_the_state = Clean; if (was_dirty) { DirtyChanged(); /* EMIT SIGNAL */ } } void Session::set_deletion_in_progress () { _state_of_the_state = StateOfTheState (_state_of_the_state | Deletion); } void Session::clear_deletion_in_progress () { _state_of_the_state = StateOfTheState (_state_of_the_state & (~Deletion)); } void Session::add_controllable (boost::shared_ptr c) { /* this adds a controllable to the list managed by the Session. this is a subset of those managed by the Controllable class itself, and represents the only ones whose state will be saved as part of the session. */ Glib::Mutex::Lock lm (controllables_lock); controllables.insert (c); } struct null_deleter { void operator()(void const *) const {} }; void Session::remove_controllable (Controllable* c) { if (_state_of_the_state | Deletion) { return; } Glib::Mutex::Lock lm (controllables_lock); Controllables::iterator x = controllables.find( boost::shared_ptr(c, null_deleter())); if (x != controllables.end()) { controllables.erase (x); } } boost::shared_ptr Session::controllable_by_id (const PBD::ID& id) { Glib::Mutex::Lock lm (controllables_lock); for (Controllables::iterator i = controllables.begin(); i != controllables.end(); ++i) { if ((*i)->id() == id) { return *i; } } return boost::shared_ptr(); } void Session::add_instant_xml (XMLNode& node, bool write_to_config) { if (_writable) { Stateful::add_instant_xml (node, _path); } if (write_to_config) { Config->add_instant_xml (node); } } XMLNode* Session::instant_xml (const string& node_name) { return Stateful::instant_xml (node_name, _path); } int Session::save_history (string snapshot_name) { XMLTree tree; if (!_writable) { return 0; } if (snapshot_name.empty()) { snapshot_name = _current_snapshot_name; } const string history_filename = legalize_for_path (snapshot_name) + history_suffix; const string backup_filename = history_filename + backup_suffix; const sys::path xml_path = _session_dir->root_path() / history_filename; const sys::path backup_path = _session_dir->root_path() / backup_filename; if (sys::exists (xml_path)) { try { sys::rename (xml_path, backup_path); } catch (const sys::filesystem_error& err) { error << _("could not backup old history file, current history not saved") << endmsg; return -1; } } if (!Config->get_save_history() || Config->get_saved_history_depth() < 0) { return 0; } tree.set_root (&_history.get_state (Config->get_saved_history_depth())); if (!tree.write (xml_path.to_string())) { error << string_compose (_("history could not be saved to %1"), xml_path.to_string()) << endmsg; try { sys::remove (xml_path); sys::rename (backup_path, xml_path); } catch (const sys::filesystem_error& err) { error << string_compose (_("could not restore history file from backup %1 (%2)"), backup_path.to_string(), err.what()) << endmsg; } return -1; } return 0; } int Session::restore_history (string snapshot_name) { XMLTree tree; if (snapshot_name.empty()) { snapshot_name = _current_snapshot_name; } const string xml_filename = legalize_for_path (snapshot_name) + history_suffix; const sys::path xml_path = _session_dir->root_path() / xml_filename; cerr << "Loading history from " << xml_path.to_string() << endmsg; if (!sys::exists (xml_path)) { info << string_compose (_("%1: no history file \"%2\" for this session."), _name, xml_path.to_string()) << endmsg; return 1; } if (!tree.read (xml_path.to_string())) { error << string_compose (_("Could not understand session history file \"%1\""), xml_path.to_string()) << endmsg; return -1; } // replace history _history.clear(); for (XMLNodeConstIterator it = tree.root()->children().begin(); it != tree.root()->children().end(); it++) { XMLNode *t = *it; UndoTransaction* ut = new UndoTransaction (); struct timeval tv; ut->set_name(t->property("name")->value()); stringstream ss(t->property("tv-sec")->value()); ss >> tv.tv_sec; ss.str(t->property("tv-usec")->value()); ss >> tv.tv_usec; ut->set_timestamp(tv); for (XMLNodeConstIterator child_it = t->children().begin(); child_it != t->children().end(); child_it++) { XMLNode *n = *child_it; Command *c; if (n->name() == "MementoCommand" || n->name() == "MementoUndoCommand" || n->name() == "MementoRedoCommand") { if ((c = memento_command_factory(n))) { ut->add_command(c); } } else if (n->name() == X_("GlobalRouteStateCommand")) { if ((c = global_state_command_factory (*n))) { ut->add_command (c); } } else if (n->name() == "DeltaCommand") { PBD::ID id(n->property("midi-source")->value()); boost::shared_ptr midi_source = boost::dynamic_pointer_cast(source_by_id(id)); if (midi_source) { ut->add_command(new MidiModel::DeltaCommand(midi_source->model(), *n)); } else { error << _("Failed to downcast MidiSource for DeltaCommand") << endmsg; } } else if (n->name() == "DiffCommand") { PBD::ID id(n->property("midi-source")->value()); boost::shared_ptr midi_source = boost::dynamic_pointer_cast(source_by_id(id)); if (midi_source) { ut->add_command(new MidiModel::DiffCommand(midi_source->model(), *n)); } else { error << _("Failed to downcast MidiSource for DeltaCommand") << endmsg; } } else { error << string_compose(_("Couldn't figure out how to make a Command out of a %1 XMLNode."), n->name()) << endmsg; } } _history.add (ut); } return 0; } void Session::config_changed (std::string p, bool ours) { if (ours) { set_dirty (); } if (p == "seamless-loop") { } else if (p == "rf-speed") { } else if (p == "auto-loop") { } else if (p == "auto-input") { if (Config->get_monitoring_model() == HardwareMonitoring && transport_rolling()) { /* auto-input only makes a difference if we're rolling */ boost::shared_ptr dsl = diskstreams.reader(); for (DiskstreamList::iterator i = dsl->begin(); i != dsl->end(); ++i) { if ((*i)->record_enabled ()) { (*i)->monitor_input (!config.get_auto_input()); } } } } else if (p == "punch-in") { Location* location; if ((location = _locations.auto_punch_location()) != 0) { if (config.get_punch_in ()) { replace_event (Event::PunchIn, location->start()); } else { remove_event (location->start(), Event::PunchIn); } } } else if (p == "punch-out") { Location* location; if ((location = _locations.auto_punch_location()) != 0) { if (config.get_punch_out()) { replace_event (Event::PunchOut, location->end()); } else { clear_events (Event::PunchOut); } } } else if (p == "edit-mode") { Glib::Mutex::Lock lm (playlist_lock); for (PlaylistList::iterator i = playlists.begin(); i != playlists.end(); ++i) { (*i)->set_edit_mode (Config->get_edit_mode ()); } } else if (p == "use-video-sync") { waiting_for_sync_offset = config.get_use_video_sync(); } else if (p == "mmc-control") { //poke_midi_thread (); } else if (p == "mmc-device-id" || p == "mmc-receive-id") { if (mmc) { mmc->set_receive_device_id (Config->get_mmc_receive_device_id()); } } else if (p == "mmc-send-id") { if (mmc) { mmc->set_send_device_id (Config->get_mmc_send_device_id()); } } else if (p == "midi-control") { //poke_midi_thread (); } else if (p == "raid-path") { setup_raid_path (config.get_raid_path()); } else if (p == "smpte-format") { sync_time_vars (); } else if (p == "video-pullup") { sync_time_vars (); } else if (p == "seamless-loop") { if (play_loop && transport_rolling()) { // to reset diskstreams etc request_play_loop (true); } } else if (p == "rf-speed") { cumulative_rf_motion = 0; reset_rf_scale (0); } else if (p == "click-sound") { setup_click_sounds (1); } else if (p == "click-emphasis-sound") { setup_click_sounds (-1); } else if (p == "clicking") { if (Config->get_clicking()) { if (_click_io && click_data) { // don't require emphasis data _clicking = true; } } else { _clicking = false; } } else if (p == "send-mtc") { /* only set the internal flag if we have a port. */ if (_mtc_port != 0) { session_send_mtc = Config->get_send_mtc(); if (session_send_mtc) { /* mark us ready to send */ next_quarter_frame_to_send = 0; } } else { session_send_mtc = false; } } else if (p == "send-mmc") { /* only set the internal flag if we have a port. */ if (_mmc_port != 0) { session_send_mmc = Config->get_send_mmc(); } else { mmc = 0; session_send_mmc = false; } } else if (p == "midi-feedback") { /* only set the internal flag if we have a port. */ if (_mtc_port != 0) { session_midi_feedback = Config->get_midi_feedback(); } } else if (p == "jack-time-master") { engine().reset_timebase (); } else if (p == "native-file-header-format") { if (!first_file_header_format_reset) { reset_native_file_format (); } first_file_header_format_reset = false; } else if (p == "native-file-data-format") { if (!first_file_data_format_reset) { reset_native_file_format (); } first_file_data_format_reset = false; } else if (p == "slave-source") { set_slave_source (Config->get_slave_source()); } else if (p == "remote-model") { set_remote_control_ids (); } else if (p == "denormal-model") { setup_fpu (); } else if (p == "history-depth") { set_history_depth (Config->get_history_depth()); } else if (p == "sync-all-route-ordering") { sync_order_keys ("session"); } else if (p == "initial-program-change") { if (_mmc_port && Config->get_initial_program_change() >= 0) { MIDI::byte buf[2]; buf[0] = MIDI::program; // channel zero by default buf[1] = (Config->get_initial_program_change() & 0x7f); _mmc_port->midimsg (buf, sizeof (buf), 0); } } else if (p == "initial-program-change") { if (_mmc_port && Config->get_initial_program_change() >= 0) { MIDI::byte* buf = new MIDI::byte[2]; buf[0] = MIDI::program; // channel zero by default buf[1] = (Config->get_initial_program_change() & 0x7f); // deliver_midi (_mmc_port, buf, 2); } } else if (p == "solo-mute-override") { // catch_up_on_solo_mute_override (); } else if (p == "listen-position") { listen_position_changed (); } else if (p == "solo-control-is-listen-control") { solo_control_mode_changed (); } set_dirty (); } void Session::set_history_depth (uint32_t d) { _history.set_depth (d); }