Mercurial > sdl-ios-xcode
view src/audio/nto/SDL_nto_audio.c @ 4159:a1b03ba2fcd0 SDL-1.2
Updated copyright date
| author | Sam Lantinga <slouken@libsdl.org> |
|---|---|
| date | Mon, 08 Dec 2008 00:25:42 +0000 |
| parents | d910939febfa |
| children |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 Sam Lantinga 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; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" #include <errno.h> #include <unistd.h> #include <fcntl.h> #include <signal.h> #include <sys/types.h> #include <sys/time.h> #include <sched.h> #include <sys/select.h> #include <sys/neutrino.h> #include <sys/asoundlib.h> #include "SDL_timer.h" #include "SDL_audio.h" #include "../SDL_audiomem.h" #include "../SDL_audio_c.h" #include "SDL_nto_audio.h" /* The tag name used by NTO audio */ #define DRIVER_NAME "qsa-nto" /* default channel communication parameters */ #define DEFAULT_CPARAMS_RATE 22050 #define DEFAULT_CPARAMS_VOICES 1 /* FIXME: need to add in the near future flexible logic with frag_size and frags count */ #define DEFAULT_CPARAMS_FRAG_SIZE 4096 #define DEFAULT_CPARAMS_FRAGS_MIN 1 #define DEFAULT_CPARAMS_FRAGS_MAX 1 /* Open the audio device for playback, and don't block if busy */ #define OPEN_FLAGS SND_PCM_OPEN_PLAYBACK #define QSA_NO_WORKAROUNDS 0x00000000 #define QSA_MMAP_WORKAROUND 0x00000001 struct BuggyCards { char* cardname; unsigned long bugtype; }; #define QSA_WA_CARDS 3 struct BuggyCards buggycards[QSA_WA_CARDS]= { {"Sound Blaster Live!", QSA_MMAP_WORKAROUND}, {"Vortex 8820", QSA_MMAP_WORKAROUND}, {"Vortex 8830", QSA_MMAP_WORKAROUND}, }; /* Audio driver functions */ static void NTO_ThreadInit(_THIS); static int NTO_OpenAudio(_THIS, SDL_AudioSpec* spec); static void NTO_WaitAudio(_THIS); static void NTO_PlayAudio(_THIS); static Uint8* NTO_GetAudioBuf(_THIS); static void NTO_CloseAudio(_THIS); /* card names check to apply the workarounds */ static int NTO_CheckBuggyCards(_THIS, unsigned long checkfor) { char scardname[33]; int it; if (snd_card_get_name(cardno, scardname, 32)<0) { return 0; } for (it=0; it<QSA_WA_CARDS; it++) { if (SDL_strcmp(buggycards[it].cardname, scardname)==0) { if (buggycards[it].bugtype==checkfor) { return 1; } } } return 0; } static void NTO_ThreadInit(_THIS) { int status; struct sched_param param; /* increasing default 10 priority to 25 to avoid jerky sound */ status=SchedGet(0, 0, ¶m); param.sched_priority=param.sched_curpriority+15; status=SchedSet(0, 0, SCHED_NOCHANGE, ¶m); } /* PCM transfer channel parameters initialize function */ static void NTO_InitAudioParams(snd_pcm_channel_params_t* cpars) { SDL_memset(cpars, 0, sizeof(snd_pcm_channel_params_t)); cpars->channel = SND_PCM_CHANNEL_PLAYBACK; cpars->mode = SND_PCM_MODE_BLOCK; cpars->start_mode = SND_PCM_START_DATA; cpars->stop_mode = SND_PCM_STOP_STOP; cpars->format.format = SND_PCM_SFMT_S16_LE; cpars->format.interleave = 1; cpars->format.rate = DEFAULT_CPARAMS_RATE; cpars->format.voices = DEFAULT_CPARAMS_VOICES; cpars->buf.block.frag_size = DEFAULT_CPARAMS_FRAG_SIZE; cpars->buf.block.frags_min = DEFAULT_CPARAMS_FRAGS_MIN; cpars->buf.block.frags_max = DEFAULT_CPARAMS_FRAGS_MAX; } static int NTO_AudioAvailable(void) { /* See if we can open a nonblocking channel. Return value '1' means we can. Return value '0' means we cannot. */ int available; int rval; snd_pcm_t* handle; available = 0; handle = NULL; rval = snd_pcm_open_preferred(&handle, NULL, NULL, OPEN_FLAGS); if (rval >= 0) { available = 1; if ((rval = snd_pcm_close(handle)) < 0) { SDL_SetError("NTO_AudioAvailable(): snd_pcm_close failed: %s\n", snd_strerror(rval)); available = 0; } } else { SDL_SetError("NTO_AudioAvailable(): there are no available audio devices.\n"); } return (available); } static void NTO_DeleteAudioDevice(SDL_AudioDevice *device) { if ((device)&&(device->hidden)) { SDL_free(device->hidden); } if (device) { SDL_free(device); } } static SDL_AudioDevice* NTO_CreateAudioDevice(int devindex) { SDL_AudioDevice *this; /* Initialize all variables that we clean on shutdown */ this = (SDL_AudioDevice *)SDL_malloc(sizeof(SDL_AudioDevice)); if (this) { SDL_memset(this, 0, sizeof(SDL_AudioDevice)); this->hidden = (struct SDL_PrivateAudioData *)SDL_malloc(sizeof(struct SDL_PrivateAudioData)); } if ((this == NULL) || (this->hidden == NULL)) { SDL_OutOfMemory(); if (this) { SDL_free(this); } return (0); } SDL_memset(this->hidden, 0, sizeof(struct SDL_PrivateAudioData)); audio_handle = NULL; /* Set the function pointers */ this->ThreadInit = NTO_ThreadInit; this->OpenAudio = NTO_OpenAudio; this->WaitAudio = NTO_WaitAudio; this->PlayAudio = NTO_PlayAudio; this->GetAudioBuf = NTO_GetAudioBuf; this->CloseAudio = NTO_CloseAudio; this->free = NTO_DeleteAudioDevice; return this; } AudioBootStrap QNXNTOAUDIO_bootstrap = { DRIVER_NAME, "QNX6 QSA-NTO Audio", NTO_AudioAvailable, NTO_CreateAudioDevice }; /* This function waits until it is possible to write a full sound buffer */ static void NTO_WaitAudio(_THIS) { fd_set wfds; int selectret; FD_ZERO(&wfds); FD_SET(audio_fd, &wfds); do { selectret=select(audio_fd + 1, NULL, &wfds, NULL, NULL); switch (selectret) { case -1: case 0: SDL_SetError("NTO_WaitAudio(): select() failed: %s\n", strerror(errno)); return; default: if (FD_ISSET(audio_fd, &wfds)) { return; } break; } } while(1); } static void NTO_PlayAudio(_THIS) { int written, rval; int towrite; void* pcmbuffer; if (!this->enabled) { return; } towrite = this->spec.size; pcmbuffer = pcm_buf; /* Write the audio data, checking for EAGAIN (buffer full) and underrun */ do { written = snd_pcm_plugin_write(audio_handle, pcm_buf, towrite); if (written != towrite) { if ((errno == EAGAIN) || (errno == EWOULDBLOCK)) { /* Let a little CPU time go by and try to write again */ SDL_Delay(1); /* if we wrote some data */ towrite -= written; pcmbuffer += written * this->spec.channels; continue; } else { if ((errno == EINVAL) || (errno == EIO)) { SDL_memset(&cstatus, 0, sizeof(cstatus)); cstatus.channel = SND_PCM_CHANNEL_PLAYBACK; if ((rval = snd_pcm_plugin_status(audio_handle, &cstatus)) < 0) { SDL_SetError("NTO_PlayAudio(): snd_pcm_plugin_status failed: %s\n", snd_strerror(rval)); return; } if ((cstatus.status == SND_PCM_STATUS_UNDERRUN) || (cstatus.status == SND_PCM_STATUS_READY)) { if ((rval = snd_pcm_plugin_prepare(audio_handle, SND_PCM_CHANNEL_PLAYBACK)) < 0) { SDL_SetError("NTO_PlayAudio(): snd_pcm_plugin_prepare failed: %s\n", snd_strerror(rval)); return; } } continue; } else { return; } } } else { /* we wrote all remaining data */ towrite -= written; pcmbuffer += written * this->spec.channels; } } while ((towrite > 0) && (this->enabled)); /* If we couldn't write, assume fatal error for now */ if (towrite != 0) { this->enabled = 0; } return; } static Uint8* NTO_GetAudioBuf(_THIS) { return pcm_buf; } static void NTO_CloseAudio(_THIS) { int rval; this->enabled = 0; if (audio_handle != NULL) { if ((rval = snd_pcm_plugin_flush(audio_handle, SND_PCM_CHANNEL_PLAYBACK)) < 0) { SDL_SetError("NTO_CloseAudio(): snd_pcm_plugin_flush failed: %s\n", snd_strerror(rval)); return; } if ((rval = snd_pcm_close(audio_handle)) < 0) { SDL_SetError("NTO_CloseAudio(): snd_pcm_close failed: %s\n",snd_strerror(rval)); return; } audio_handle = NULL; } } static int NTO_OpenAudio(_THIS, SDL_AudioSpec* spec) { int rval; int format; Uint16 test_format; int found; audio_handle = NULL; this->enabled = 0; if (pcm_buf != NULL) { SDL_FreeAudioMem(pcm_buf); pcm_buf = NULL; } /* initialize channel transfer parameters to default */ NTO_InitAudioParams(&cparams); /* Open the audio device */ rval = snd_pcm_open_preferred(&audio_handle, &cardno, &deviceno, OPEN_FLAGS); if (rval < 0) { SDL_SetError("NTO_OpenAudio(): snd_pcm_open failed: %s\n", snd_strerror(rval)); return (-1); } if (!NTO_CheckBuggyCards(this, QSA_MMAP_WORKAROUND)) { /* enable count status parameter */ if ((rval = snd_pcm_plugin_set_disable(audio_handle, PLUGIN_DISABLE_MMAP)) < 0) { SDL_SetError("snd_pcm_plugin_set_disable failed: %s\n", snd_strerror(rval)); return (-1); } } /* Try for a closest match on audio format */ format = 0; /* can't use format as SND_PCM_SFMT_U8 = 0 in nto */ found = 0; for (test_format=SDL_FirstAudioFormat(spec->format); !found ;) { /* if match found set format to equivalent ALSA format */ switch (test_format) { case AUDIO_U8: format = SND_PCM_SFMT_U8; found = 1; break; case AUDIO_S8: format = SND_PCM_SFMT_S8; found = 1; break; case AUDIO_S16LSB: format = SND_PCM_SFMT_S16_LE; found = 1; break; case AUDIO_S16MSB: format = SND_PCM_SFMT_S16_BE; found = 1; break; case AUDIO_U16LSB: format = SND_PCM_SFMT_U16_LE; found = 1; break; case AUDIO_U16MSB: format = SND_PCM_SFMT_U16_BE; found = 1; break; default: break; } if (!found) { test_format = SDL_NextAudioFormat(); } } /* assumes test_format not 0 on success */ if (test_format == 0) { SDL_SetError("NTO_OpenAudio(): Couldn't find any hardware audio formats"); return (-1); } spec->format = test_format; /* Set the audio format */ cparams.format.format = format; /* Set mono or stereo audio (currently only two channels supported) */ cparams.format.voices = spec->channels; /* Set rate */ cparams.format.rate = spec->freq; /* Setup the transfer parameters according to cparams */ rval = snd_pcm_plugin_params(audio_handle, &cparams); if (rval < 0) { SDL_SetError("NTO_OpenAudio(): snd_pcm_channel_params failed: %s\n", snd_strerror(rval)); return (-1); } /* Make sure channel is setup right one last time */ SDL_memset(&csetup, 0x00, sizeof(csetup)); csetup.channel = SND_PCM_CHANNEL_PLAYBACK; if (snd_pcm_plugin_setup(audio_handle, &csetup) < 0) { SDL_SetError("NTO_OpenAudio(): Unable to setup playback channel\n"); return -1; } /* Calculate the final parameters for this audio specification */ SDL_CalculateAudioSpec(spec); pcm_len = spec->size; if (pcm_len==0) { pcm_len = csetup.buf.block.frag_size * spec->channels * (snd_pcm_format_width(format)/8); } /* Allocate memory to the audio buffer and initialize with silence (Note that buffer size must be a multiple of fragment size, so find closest multiple) */ pcm_buf = (Uint8*)SDL_AllocAudioMem(pcm_len); if (pcm_buf == NULL) { SDL_SetError("NTO_OpenAudio(): pcm buffer allocation failed\n"); return (-1); } SDL_memset(pcm_buf, spec->silence, pcm_len); /* get the file descriptor */ if ((audio_fd = snd_pcm_file_descriptor(audio_handle, SND_PCM_CHANNEL_PLAYBACK)) < 0) { SDL_SetError("NTO_OpenAudio(): snd_pcm_file_descriptor failed with error code: %s\n", snd_strerror(rval)); return (-1); } /* Trigger audio playback */ rval = snd_pcm_plugin_prepare(audio_handle, SND_PCM_CHANNEL_PLAYBACK); if (rval < 0) { SDL_SetError("snd_pcm_plugin_prepare failed: %s\n", snd_strerror(rval)); return (-1); } this->enabled = 1; /* Get the parent process id (we're the parent of the audio thread) */ parent = getpid(); /* We're really ready to rock and roll. :-) */ return (0); }