/* Copyright (C) 2001 Aaron Williams aaronw@home.com (C) 2001 Stefan Westerfeld stefan@space.twc.de This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* * Audio support for Sun Solaris, written by Aaron Williams * * * Please send comments to aaronw@home.com * * This code has been tested with Solaris 7 running on a Sun Ultra 5 * * Note that in Solaris the select support appears to be broken. * Because of this, we use a timer and a dispatcher instead so we * arn't polling (and sucking up most of the CPU). * * Currently read support has not been tested and will likely break * other code * * 8-bit audio support also does not work (which I don't consider a * big deal). */ #ifdef HAVE_CONFIG_H #include #endif /* * Only compile this AudioIO class if we're on Solaris */ #ifdef USE_SOLARIS #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "debug.h" #include "audioio.h" #include "audiosubsys.h" #include "iomanager.h" #include "dispatcher.h" // This looks like the maximum buffer size according to the sys/audio*.h // files on Solaris7 #define SUN_MAX_BUFFER_SIZE (65536) namespace Arts { class AudioIOSun : public AudioIO, public TimeNotify { protected: uint_t bytesRead, bytesWritten, bytesPerSec; uint_t bytesPerSample; timeval start; int audio_fd; int requestedFragmentSize; int requestedFragmentCount; audio_info_t auinfo; #ifdef WORDS_BIGENDIAN static const int defaultFormat = 17; #else static const int defaultFormat = 16; #endif public: AudioIOSun(); // Timer callback void notifyTime(); void setParam(AudioParam param, int& value); int getParam(AudioParam param); bool open(); void close(); int read(void *buffer, int size); int write(void *buffer, int size); }; REGISTER_AUDIO_IO(AudioIOSun,"sun","Sun Audio Input/Output"); }; using namespace std; using namespace Arts; AudioIOSun::AudioIOSun() { /* * default parameters */ param(samplingRate) = 44100; // solaris convention to support SunRays run out-of-the-box const char *audioDev = getenv("AUDIODEV"); paramStr(deviceName) = (audioDev != 0)?audioDev:"/dev/audio"; param(fragmentSize) = 1024; param(fragmentCount) = 7; param(channels) = 2; param(direction) = 2; param(format) = defaultFormat; } // Opens the audio device bool AudioIOSun::open() { string& _error = paramStr(lastError); string& _deviceName = paramStr(deviceName); int& _channels = param(channels); int& _fragmentSize = param(fragmentSize); int& _fragmentCount = param(fragmentCount); int& _samplingRate = param(samplingRate); int& _format = param(format); int mode; if (param(direction) == 3) mode = O_RDWR; else if (param(direction) == 2) mode = O_WRONLY; else { _error = "invalid direction"; return false; } audio_fd = ::open(_deviceName.c_str(), mode, 0); if (audio_fd < 0) { _error = "device "; _error += _deviceName.c_str(); _error += " can't be opened ("; _error += strerror(errno); _error += ")"; return false; } fcntl(audio_fd, F_SETFL, O_NDELAY); AUDIO_INITINFO(&auinfo); if (ioctl(audio_fd, AUDIO_GETINFO, &auinfo) < 0) { _error = "device "; _error += _deviceName.c_str(); _error += " AUDIO_GETINFO failed ("; _error += strerror(errno); _error += ")"; return false; } if(_format != 8) _format = defaultFormat; #if 0 printf("param(direction)=%d\n", param(direction)); printf("format: %d\n", _format); printf("channels: %d\n", _channels); printf("sampling rate: %d\n", _samplingRate); #endif bytesPerSample = ((_format == 8) ? 8 : 16)/8 * _channels; auinfo.play.precision = (_format == 8) ? 8 : 16; if (param(direction) == 3) auinfo.record.precision = (_format == 8) ? 8 : 16; auinfo.play.encoding = AUDIO_ENCODING_LINEAR; if (param(direction) == 3) auinfo.record.encoding = AUDIO_ENCODING_LINEAR; auinfo.play.channels = _channels; if (param(direction) == 3) auinfo.record.channels = _channels; auinfo.play.sample_rate = _samplingRate; if (param(direction) == 3) auinfo.record.sample_rate = _samplingRate; if (ioctl(audio_fd, AUDIO_SETINFO, &auinfo) < 0) { _error = "AUDIO_SETINFO failed - "; _error += strerror(errno); close(); return false; } if (ioctl(audio_fd, AUDIO_GETINFO, &auinfo) < 0) { _error = "device "; _error += _deviceName.c_str(); _error += " AUDIO_GETINFO failed ("; _error += strerror(errno); _error += ")"; return false; } if (auinfo.play.precision != (uint_t)((_format == 8) ? 8 : 16) || (param(direction) == 3 && auinfo.record.precision != (uint_t)((_format == 8) ? 8 : 16))) { char play_details[80]; char record_details[80]; sprintf(play_details, " (_format = %d, asked driver to give %d, got %d)", _format, _format, auinfo.play.precision); if (param(direction) == 3) sprintf(record_details, " (_format = %d, asked driver to give %d, got %d)", _format, _format, auinfo.record.precision); _error = "Can't set playback and/or record format "; _error += "Play format: "; _error += play_details; if (param(direction) == 3) { _error += " Record format: "; _error += record_details; } close(); return false; } if ((auinfo.play.encoding != (uint_t)AUDIO_ENCODING_LINEAR) || (param(direction) == 3 && auinfo.record.encoding != (uint_t)AUDIO_ENCODING_LINEAR)) { char play_encoding[80], record_encoding[80]; sprintf(play_encoding, "(%d bits, %d encoding)", auinfo.play.precision, auinfo.play.encoding); sprintf(record_encoding, "(%d bits, %d encoding)", auinfo.record.precision, auinfo.record.encoding); _error = "Can't set playback and/or record format"; _error += "requested format was "; _error += (_format == 8) ? "8-bit AUDIO_ENCODING_LINEAR" : "16-bit AUDIO_ENCODING_LINEAR"; _error += ", got playback format "; _error += play_encoding; if (param(direction) == 3) { _error += ", record format "; _error += record_encoding; } close(); return false; } if (auinfo.play.channels != (uint_t)_channels) { _error = "Audio device doesn't support number of "; _error += "requested playback channels"; close(); return false; } if (param(direction) == 3 && auinfo.record.channels != (uint_t)_channels) { _error = "Audio device doesn't support number of "; _error += "requested record channels"; close(); return false; } int tolerance = _samplingRate/10+1000; if (abs(int(auinfo.play.sample_rate - _samplingRate)) > tolerance) { _error = "can't set requested playback sampling rate"; char details[80]; sprintf(details," (requested rate %d, got rate %d)", _samplingRate, auinfo.play.sample_rate); _error += details; close(); return false; } if (param(direction) == 3 && abs(int(auinfo.record.sample_rate - _samplingRate)) > tolerance) { _error = "can't set requested record sampling rate"; char details[80]; sprintf(details," (requested rate %d, got rate %d)", _samplingRate, auinfo.play.sample_rate); _error += details; close(); return false; } /* * don't allow unreasonable large fragmentSize/Count combinations, * because "real" hardware also doesn't */ if(_fragmentSize > SUN_MAX_BUFFER_SIZE) _fragmentSize = SUN_MAX_BUFFER_SIZE; while(_fragmentSize * _fragmentCount > SUN_MAX_BUFFER_SIZE) _fragmentCount--; bytesRead = bytesWritten = 0; bytesPerSec = _channels * 2 * _samplingRate; // Install the timer Dispatcher::the()->ioManager()->addTimer(10, this); gettimeofday(&start,0); return true; } void AudioIOSun::close() { ::close(audio_fd); Dispatcher::the()->ioManager()->removeTimer(this); } // This is called on each timer tick void AudioIOSun::notifyTime() { int& _direction = param(direction); int& _fragmentSize = param(fragmentSize); for (;;) { int todo = 0; if ((_direction & directionRead) && getParam(canRead) > _fragmentSize) todo |= AudioSubSystem::ioRead; if ((_direction & directionWrite) && getParam(canWrite) > _fragmentSize) todo |= AudioSubSystem::ioWrite; if (!todo) return; AudioSubSystem::the()->handleIO(todo); } } void AudioIOSun::setParam(AudioParam p, int& value) { switch(p) { case fragmentSize: param(p) = requestedFragmentSize = value; break; case fragmentCount: param(p) = requestedFragmentCount = value; break; default: param(p) = value; break; } } int AudioIOSun::getParam(AudioParam p) { int bytes; int count; switch(p) { case canRead: if (ioctl(audio_fd, AUDIO_GETINFO, &auinfo) < 0) return (0); bytes = (auinfo.record.samples * bytesPerSample) - bytesRead; if (bytes < 0) { printf("Error: bytes %d < 0, samples=%u, bytesRead=%u\n", bytes, auinfo.record.samples, bytesRead); bytes = 0; } return bytes; case canWrite: if (ioctl(audio_fd, AUDIO_GETINFO, &auinfo) < 0) return (0); count = SUN_MAX_BUFFER_SIZE - (bytesWritten - (auinfo.play.samples * bytesPerSample)); return count; case autoDetect: /* * If we're on Solaris, this driver is the one that will work, * and if we're not on Solaris, it won't be compiled anyway. */ return 12; default: return param(p); } } int AudioIOSun::read(void *buffer, int size) { size = ::read(audio_fd, buffer, size); if (size < 0) return 0; bytesRead += size; return size; } int AudioIOSun::write(void *buffer, int size) { size = ::write(audio_fd, buffer, size); bytesWritten += size; return size; } #endif /* USE_SOLARIS */