/* Copyright (C) 2006 Paul Davis Written by Dave Robillard, 2006 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 #include #include #include #include #include "i18n.h" using namespace ARDOUR; string SMFSource::_search_path; /*sigc::signal SMFSource::HeaderPositionOffsetChanged; bool SMFSource::header_position_negative; uint64_t SMFSource::header_position_offset; */ SMFSource::SMFSource (Session& s, std::string path, Flag flags) : MidiSource (s, region_name_from_path(path, false)) , _channel(0) , _flags (Flag(flags | Writable)) // FIXME: this needs to be writable for now , _allow_remove_if_empty(true) , _timeline_position (0) , _fd (0) , _last_ev_time(0) , _track_size(4) // 4 bytes for the ever-present EOT event , _header_size(22) { /* constructor used for new internal-to-session files. file cannot exist */ if (init (path, false)) { throw failed_constructor (); } if (open()) { throw failed_constructor (); } assert(_name.find("/") == string::npos); } SMFSource::SMFSource (Session& s, const XMLNode& node) : MidiSource (s, node) , _channel(0) , _flags (Flag (Writable|CanRename)) , _allow_remove_if_empty(true) , _timeline_position (0) , _fd (0) , _last_ev_time(0) , _track_size(4) // 4 bytes for the ever-present EOT event , _header_size(22) { /* constructor used for existing internal-to-session files. file must exist */ if (set_state (node)) { throw failed_constructor (); } if (init (_name, true)) { throw failed_constructor (); } if (open()) { throw failed_constructor (); } assert(_name.find("/") == string::npos); } SMFSource::~SMFSource () { if (removable()) { unlink (_path.c_str()); } } bool SMFSource::removable () const { return (_flags & Removable) && ((_flags & RemoveAtDestroy) || ((_flags & RemovableIfEmpty) && is_empty (_path))); } int SMFSource::init (string pathstr, bool must_exist) { bool is_new = false; if (!find (pathstr, must_exist, is_new)) { cerr << "cannot find " << pathstr << " with me = " << must_exist << endl; return -1; } if (is_new && must_exist) { return -1; } assert(_name.find("/") == string::npos); return 0; } int SMFSource::open() { cerr << "Opening SMF file " << path() << " writeable: " << writable() << endl; assert(writable()); // FIXME; _fd = fopen(path().c_str(), "r+"); // File already exists if (_fd) { fseek(_fd, _header_size - 4, 0); uint32_t track_size_be = 0; fread(&track_size_be, 4, 1, _fd); _track_size = GUINT32_FROM_BE(track_size_be); cerr << "SMF - read track size " << _track_size; // We're making a new file } else { _fd = fopen(path().c_str(), "w+"); _track_size = 0; // write a tentative header just to pad things out so writing happens in the right spot flush_header(); // FIXME: write the footer here too so it's a valid SMF (screw up writing ATM though) } return (_fd == 0) ? -1 : 0; } int SMFSource::update_header (jack_nframes_t when, struct tm&, time_t) { _timeline_position = when; return flush_header(); } int SMFSource::flush_header () { // FIXME: write timeline position somehow? cerr << "SMF Flushing header\n"; assert(_fd); const uint16_t type = GUINT16_TO_BE(0); // SMF Type 0 (single track) const uint16_t ntracks = GUINT16_TO_BE(1); // Number of tracks (always 1 for Type 0) const uint16_t division = GUINT16_TO_BE(1920); // FIXME FIXME FIXME PPQN char data[6]; memcpy(data, &type, 2); memcpy(data+2, &ntracks, 2); memcpy(data+4, &division, 2); _fd = freopen(path().c_str(), "r+", _fd); assert(_fd); fseek(_fd, 0, 0); write_chunk("MThd", 6, data); //if (_track_size > 0) { write_chunk_header("MTrk", _track_size); //} fflush(_fd); return 0; } int SMFSource::flush_footer() { cerr << "SMF - Writing EOT\n"; fseek(_fd, 0, SEEK_END); write_var_len(1); // whatever... char eot[4] = { 0xFF, 0x2F, 0x00 }; // end-of-track meta-event fwrite(eot, 1, 4, _fd); fflush(_fd); return 0; } /** Returns the offset of the first event in the file with a time past @a start, * relative to the start of the source. * * Returns -1 if not found. */ /* long SMFSource::find_first_event_after(jack_nframes_t start) { // FIXME: obviously this is slooow fseek(_fd, _header_size, 0); while ( ! feof(_fd) ) { const uint32_t delta_time = read_var_len(); if (delta_time > start) return delta_time; } return -1; } */ /** Read an event from the current position in file. * * File position MUST be at the beginning of a delta time, or this will die very messily. * ev.buffer must be of size ev.size, and large enough for the event. The returned event * will have it's time field set to it's delta time (so it's the caller's responsibility * to calculate a real time for the event). * * Returns event length (including status byte) on success, 0 if event was * skipped (eg a meta event), or -1 on EOF (or end of track). */ int SMFSource::read_event(MidiEvent& ev) const { // - 4 is for the EOT event, which we don't actually want to read //if (feof(_fd) || ftell(_fd) >= _header_size + _track_size - 4) { if (feof(_fd)) { return -1; } uint32_t delta_time = read_var_len(); int status = fgetc(_fd); assert(status != EOF); // FIXME die gracefully if (status == 0xFF) { assert(!feof(_fd)); int type = fgetc(_fd); if ((unsigned char)type == 0x2F) { //cerr << "SMF - hit EOT" << endl; return -1; // we hit the logical EOF anyway... } else { ev.size = 0; ev.time = delta_time; // this is needed regardless return 0; } } ev.buffer[0] = (unsigned char)status; ev.size = midi_event_size(ev.buffer[0]) + 1; fread(ev.buffer+1, 1, ev.size - 1, _fd); ev.time = delta_time; /*printf("SMF - read event, delta = %u, size = %zu, data = ", delta_time, ev.size); for (size_t i=0; i < ev.size; ++i) { printf("%X ", ev.buffer[i]); } printf("\n");*/ return ev.size; } jack_nframes_t SMFSource::read_unlocked (MidiRingBuffer& dst, jack_nframes_t start, jack_nframes_t cnt, jack_nframes_t stamp_offset) const { //cerr << "SMF - read " << start << ", count=" << cnt << ", offset=" << stamp_offset << endl; jack_nframes_t time = 0; // FIXME: ugh unsigned char ev_buf[MidiBuffer::max_event_size()]; MidiEvent ev; ev.time = 0; ev.size = MidiBuffer::max_event_size(); ev.buffer = ev_buf; // FIXME: it would be an impressive feat to actually make this any slower :) fseek(_fd, _header_size, 0); while (!feof(_fd)) { int ret = read_event(ev); if (ret == -1) { // EOF //cerr << "SMF - EOF\n"; break; } if (ret == 0) { // meta-event (skipped) //cerr << "SMF - META\n"; time += ev.time; // just accumulate delta time and ignore event continue; } time += ev.time; // accumulate delta time ev.time = time; // set ev.time to actual time (relative to source start) if (ev.time >= start) { if (ev.time > start + cnt) { break; } else { ev.time += stamp_offset; dst.write(ev); } } } return cnt; } jack_nframes_t SMFSource::write_unlocked (MidiRingBuffer& src, jack_nframes_t cnt) { //cerr << "SMF WRITE -- " << _length << "--" << cnt << endl; MidiBuffer buf(1024); // FIXME: allocation, size? src.read(buf, /*_length*/0, _length + cnt); // FIXME? fseek(_fd, 0, SEEK_END); // FIXME: start of source time? for (size_t i=0; i < buf.size(); ++i) { const MidiEvent& ev = buf[i]; assert(ev.time >= _timeline_position); uint32_t delta_time = (ev.time - _timeline_position) - _last_ev_time; /*printf("SMF - writing event, delta = %u, size = %zu, data = ", delta_time, ev.size); for (size_t i=0; i < ev.size; ++i) { printf("%X ", ev.buffer[i]); } printf("\n"); */ size_t stamp_size = write_var_len(delta_time); fwrite(ev.buffer, 1, ev.size, _fd); _last_ev_time += delta_time; _track_size += stamp_size + ev.size; } fflush(_fd); if (buf.size() > 0) { ViewDataRangeReady (_length, cnt); /* EMIT SIGNAL */ } update_length(_length, cnt); return cnt; } XMLNode& SMFSource::get_state () { XMLNode& root (MidiSource::get_state()); char buf[16]; snprintf (buf, sizeof (buf), "0x%x", (int)_flags); root.add_property ("flags", buf); return root; } int SMFSource::set_state (const XMLNode& node) { const XMLProperty* prop; if (MidiSource::set_state (node)) { return -1; } if ((prop = node.property (X_("flags"))) != 0) { int ival; sscanf (prop->value().c_str(), "0x%x", &ival); _flags = Flag (ival); } else { _flags = Flag (0); } assert(_name.find("/") == string::npos); return 0; } void SMFSource::mark_for_remove () { if (!writable()) { return; } _flags = Flag (_flags | RemoveAtDestroy); } void SMFSource::mark_streaming_write_completed () { if (!writable()) { return; } flush_footer(); #if 0 Glib::Mutex::Lock lm (_lock); next_peak_clear_should_notify = true; if (_peaks_built || pending_peak_builds.empty()) { _peaks_built = true; PeaksReady (); /* EMIT SIGNAL */ } #endif } void SMFSource::mark_take (string id) { if (writable()) { _take_id = id; } } int SMFSource::move_to_trash (const string trash_dir_name) { string newpath; if (!writable()) { return -1; } /* don't move the file across filesystems, just stick it in the 'trash_dir_name' directory on whichever filesystem it was already on. */ newpath = Glib::path_get_dirname (_path); newpath = Glib::path_get_dirname (newpath); newpath += '/'; newpath += trash_dir_name; newpath += '/'; newpath += Glib::path_get_basename (_path); 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) { PBD::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 (_path.c_str(), newpath.c_str()) != 0) { PBD::error << string_compose (_("cannot rename midi file source from %1 to %2 (%3)"), _path, newpath, strerror (errno)) << endmsg; return -1; } #if 0 if (::unlink (peakpath.c_str()) != 0) { PBD::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()); return -1; } _path = newpath; peakpath = ""; #endif /* file can not be removed twice, since the operation is not idempotent */ _flags = Flag (_flags & ~(RemoveAtDestroy|Removable|RemovableIfEmpty)); return 0; } // FIXME: Merge this with audiofilesource somehow (make a generic filesource?) bool SMFSource::find (string pathstr, bool must_exist, bool& isnew) { string::size_type pos; bool ret = false; isnew = false; /* clean up PATH:CHANNEL notation so that we are looking for the correct path */ if ((pos = pathstr.find_last_of (':')) == string::npos) { pathstr = pathstr; } else { pathstr = pathstr.substr (0, pos); } if (pathstr[0] != '/') { /* non-absolute pathname: find pathstr in search path */ vector dirs; int cnt; string fullpath; string keeppath; if (_search_path.length() == 0) { PBD::error << _("FileSource: search path not set") << endmsg; goto out; } split (_search_path, dirs, ':'); cnt = 0; for (vector::iterator i = dirs.begin(); i != dirs.end(); ++i) { fullpath = *i; if (fullpath[fullpath.length()-1] != '/') { fullpath += '/'; } fullpath += pathstr; if (access (fullpath.c_str(), R_OK) == 0) { keeppath = fullpath; ++cnt; } } if (cnt > 1) { PBD::error << string_compose (_("FileSource: \"%1\" is ambigous when searching %2\n\t"), pathstr, _search_path) << endmsg; goto out; } else if (cnt == 0) { if (must_exist) { PBD::error << string_compose(_("Filesource: cannot find required file (%1): while searching %2"), pathstr, _search_path) << endmsg; goto out; } else { isnew = true; } } _name = pathstr; _path = keeppath; ret = true; } else { /* external files and/or very very old style sessions include full paths */ _path = pathstr; _name = pathstr.substr (pathstr.find_last_of ('/') + 1); if (access (_path.c_str(), R_OK) != 0) { /* file does not exist or we cannot read it */ if (must_exist) { PBD::error << string_compose(_("Filesource: cannot find required file (%1): %2"), _path, strerror (errno)) << endmsg; goto out; } if (errno != ENOENT) { PBD::error << string_compose(_("Filesource: cannot check for existing file (%1): %2"), _path, strerror (errno)) << endmsg; goto out; } /* a new file */ isnew = true; ret = true; } else { /* already exists */ ret = true; } } out: return ret; } void SMFSource::set_search_path (string p) { _search_path = p; } void SMFSource::set_allow_remove_if_empty (bool yn) { if (writable()) { _allow_remove_if_empty = yn; } } int SMFSource::set_name (string newname, bool destructive) { //Glib::Mutex::Lock lm (_lock); FIXME string oldpath = _path; string newpath = Session::change_midi_path_by_name (oldpath, _name, newname, destructive); if (newpath.empty()) { PBD::error << string_compose (_("programming error: %1"), "cannot generate a changed midi path") << endmsg; return -1; } if (rename (oldpath.c_str(), newpath.c_str()) != 0) { PBD::error << string_compose (_("cannot rename midi file for %1 to %2"), _name, newpath) << endmsg; return -1; } _name = Glib::path_get_basename (newpath); _path = newpath; return 0;//rename_peakfile (peak_path (_path)); } bool SMFSource::is_empty (string path) { /* XXX fix me */ return false; } void SMFSource::write_chunk_header(char id[4], uint32_t length) { const uint32_t length_be = GUINT32_TO_BE(length); fwrite(id, 1, 4, _fd); fwrite(&length_be, 4, 1, _fd); } void SMFSource::write_chunk(char id[4], uint32_t length, void* data) { write_chunk_header(id, length); fwrite(data, 1, length, _fd); } /** Returns the size (in bytes) of the value written. */ size_t SMFSource::write_var_len(uint32_t value) { size_t ret = 0; uint32_t buffer = value & 0x7F; while ( (value >>= 7) ) { buffer <<= 8; buffer |= ((value & 0x7F) | 0x80); } while (true) { //printf("Writing var len byte %X\n", (unsigned char)buffer); ++ret; fputc(buffer, _fd); if (buffer & 0x80) buffer >>= 8; else break; } return ret; } uint32_t SMFSource::read_var_len() const { assert(!feof(_fd)); //int offset = ftell(_fd); //cerr << "SMF - reading var len at " << offset << endl; uint32_t value; unsigned char c; if ( (value = getc(_fd)) & 0x80 ) { value &= 0x7F; do { assert(!feof(_fd)); value = (value << 7) + ((c = getc(_fd)) & 0x7F); } while (c & 0x80); } return value; }