/* Copyright (C) 2006 Paul Davis Written by Dave Robillard 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 using namespace std; using namespace MIDI; using namespace PBD; pthread_t JACK_MidiPort::_process_thread; JACK_MidiPort::JACK_MidiPort(const XMLNode& node, jack_client_t* jack_client) : Port(node) , _jack_client(jack_client) , _jack_input_port(NULL) , _jack_output_port(NULL) , _last_read_index(0) , non_process_thread_fifo (512) { int err = create_ports (node); if (!err) { _ok = true; } } JACK_MidiPort::~JACK_MidiPort() { // FIXME: remove port } void JACK_MidiPort::cycle_start (nframes_t nframes) { Port::cycle_start(nframes); assert(_nframes_this_cycle == nframes); _last_read_index = 0; _last_write_timestamp = 0; void *buffer = jack_port_get_buffer (_jack_output_port, nframes); jack_midi_clear_buffer (buffer); flush (buffer); } int JACK_MidiPort::write(byte * msg, size_t msglen, timestamp_t timestamp) { int ret = 0; if (!is_process_thread()) { Glib::Mutex::Lock lm (non_process_thread_fifo_lock); RingBuffer::rw_vector vec; non_process_thread_fifo.get_write_vector (&vec); if (vec.len[0] + vec.len[1] < 1) { error << "no space in FIFO for non-process thread MIDI write" << endmsg; return 0; } if (vec.len[0]) { vec.buf[0]->set (msg, msglen, timestamp); } else { vec.buf[1]->set (msg, msglen, timestamp); } non_process_thread_fifo.increment_write_idx (1); ret = msglen; } else { assert(_jack_output_port); assert(timestamp < _nframes_this_cycle); if (_currently_in_cycle) { if (timestamp == 0) { timestamp = _last_write_timestamp; } if (jack_midi_event_write (jack_port_get_buffer (_jack_output_port, _nframes_this_cycle), timestamp, msg, msglen) == 0) { ret = msglen; _last_write_timestamp = timestamp; } else { ret = 0; cerr << "write of " << msglen << " failed, port holds " << jack_midi_get_event_count (jack_port_get_buffer (_jack_output_port, _nframes_this_cycle)) << endl; } } else { cerr << "write to JACK midi port failed: not currently in a process cycle." << endl; } } if (ret > 0 && output_parser) { output_parser->raw_preparse (*output_parser, msg, ret); for (int i = 0; i < ret; i++) { output_parser->scanner (msg[i]); } output_parser->raw_postparse (*output_parser, msg, ret); } return ret; } void JACK_MidiPort::flush (void* jack_port_buffer) { RingBuffer::rw_vector vec; size_t written; non_process_thread_fifo.get_read_vector (&vec); if (vec.len[0] + vec.len[1]) { cerr << "Flush " << vec.len[0] + vec.len[1] << " events from non-process FIFO\n"; } if (vec.len[0]) { Event* evp = vec.buf[0]; for (size_t n = 0; n < vec.len[0]; ++n, ++evp) { jack_midi_event_write (jack_port_buffer, (timestamp_t) evp->time(), evp->buffer(), evp->size()); } } if (vec.len[1]) { Event* evp = vec.buf[1]; for (size_t n = 0; n < vec.len[1]; ++n, ++evp) { jack_midi_event_write (jack_port_buffer, (timestamp_t) evp->time(), evp->buffer(), evp->size()); } } if ((written = vec.len[0] + vec.len[1]) != 0) { non_process_thread_fifo.increment_read_idx (written); } } int JACK_MidiPort::read(byte * buf, size_t bufsize) { assert(_currently_in_cycle); assert(_jack_input_port); jack_midi_event_t ev; int err = jack_midi_event_get (&ev, jack_port_get_buffer(_jack_input_port, _nframes_this_cycle), _last_read_index++); // XXX this doesn't handle ev.size > max if (!err) { size_t limit = min (bufsize, ev.size); memcpy(buf, ev.buffer, limit); if (input_parser) { input_parser->raw_preparse (*input_parser, buf, limit); for (size_t i = 0; i < limit; i++) { input_parser->scanner (buf[i]); } input_parser->raw_postparse (*input_parser, buf, limit); } return limit; } else { return 0; } } int JACK_MidiPort::create_ports(const XMLNode& node) { Descriptor desc (node); assert(!_jack_input_port); assert(!_jack_output_port); jack_nframes_t nframes = jack_get_buffer_size(_jack_client); bool ret = true; if (desc.mode == O_RDWR || desc.mode == O_WRONLY) { _jack_output_port = jack_port_register(_jack_client, string(desc.tag).append("_out").c_str(), JACK_DEFAULT_MIDI_TYPE, JackPortIsOutput, 0); jack_midi_clear_buffer(jack_port_get_buffer(_jack_output_port, nframes)); ret = ret && (_jack_output_port != NULL); } if (desc.mode == O_RDWR || desc.mode == O_RDONLY) { _jack_input_port = jack_port_register(_jack_client, string(desc.tag).append("_in").c_str(), JACK_DEFAULT_MIDI_TYPE, JackPortIsInput, 0); jack_midi_clear_buffer(jack_port_get_buffer(_jack_input_port, nframes)); ret = ret && (_jack_input_port != NULL); } return ret ? 0 : -1; } XMLNode& JACK_MidiPort::get_state () const { XMLNode& root (Port::get_state ()); return root; } void JACK_MidiPort::set_state (const XMLNode& node) { } void JACK_MidiPort::set_process_thread (pthread_t thr) { _process_thread = thr; } bool JACK_MidiPort::is_process_thread() { return (pthread_self() == _process_thread); }