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AuroraOpenALSoft/Alc/backends/solaris.c
Chris Robinson f94fa5d5cf Use separate atomic macros for pointers
2017-04-14 17:47:55 -07:00

364 lines
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/**
* OpenAL cross platform audio library
* Copyright (C) 1999-2007 by authors.
* 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 Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
* Or go to http://www.gnu.org/copyleft/lgpl.html
*/
#include "config.h"
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdlib.h>
#include <stdio.h>
#include <memory.h>
#include <unistd.h>
#include <errno.h>
#include <math.h>
#include "alMain.h"
#include "alu.h"
#include "threads.h"
#include "compat.h"
#include "backends/base.h"
#include <sys/audioio.h>
typedef struct ALCsolarisBackend {
DERIVE_FROM_TYPE(ALCbackend);
int fd;
ALubyte *mix_data;
int data_size;
ATOMIC(ALenum) killNow;
althrd_t thread;
} ALCsolarisBackend;
static int ALCsolarisBackend_mixerProc(void *ptr);
static void ALCsolarisBackend_Construct(ALCsolarisBackend *self, ALCdevice *device);
static void ALCsolarisBackend_Destruct(ALCsolarisBackend *self);
static ALCenum ALCsolarisBackend_open(ALCsolarisBackend *self, const ALCchar *name);
static void ALCsolarisBackend_close(ALCsolarisBackend *self);
static ALCboolean ALCsolarisBackend_reset(ALCsolarisBackend *self);
static ALCboolean ALCsolarisBackend_start(ALCsolarisBackend *self);
static void ALCsolarisBackend_stop(ALCsolarisBackend *self);
static DECLARE_FORWARD2(ALCsolarisBackend, ALCbackend, ALCenum, captureSamples, void*, ALCuint)
static DECLARE_FORWARD(ALCsolarisBackend, ALCbackend, ALCuint, availableSamples)
static DECLARE_FORWARD(ALCsolarisBackend, ALCbackend, ClockLatency, getClockLatency)
static DECLARE_FORWARD(ALCsolarisBackend, ALCbackend, void, lock)
static DECLARE_FORWARD(ALCsolarisBackend, ALCbackend, void, unlock)
DECLARE_DEFAULT_ALLOCATORS(ALCsolarisBackend)
DEFINE_ALCBACKEND_VTABLE(ALCsolarisBackend);
static const ALCchar solaris_device[] = "Solaris Default";
static const char *solaris_driver = "/dev/audio";
static void ALCsolarisBackend_Construct(ALCsolarisBackend *self, ALCdevice *device)
{
ALCbackend_Construct(STATIC_CAST(ALCbackend, self), device);
SET_VTABLE2(ALCsolarisBackend, ALCbackend, self);
self->fd = -1;
ATOMIC_INIT(&self->killNow, AL_FALSE);
}
static void ALCsolarisBackend_Destruct(ALCsolarisBackend *self)
{
if(self->fd != -1)
close(self->fd);
self->fd = -1;
free(self->mix_data);
self->mix_data = NULL;
self->data_size = 0;
ALCbackend_Destruct(STATIC_CAST(ALCbackend, self));
}
static int ALCsolarisBackend_mixerProc(void *ptr)
{
ALCsolarisBackend *self = ptr;
ALCdevice *device = STATIC_CAST(ALCbackend, self)->mDevice;
struct timeval timeout;
ALubyte *write_ptr;
ALint frame_size;
ALint to_write;
ssize_t wrote;
fd_set wfds;
int sret;
SetRTPriority();
althrd_setname(althrd_current(), MIXER_THREAD_NAME);
frame_size = FrameSizeFromDevFmt(device->FmtChans, device->FmtType, device->AmbiOrder);
ALCsolarisBackend_lock(self);
while(!ATOMIC_LOAD_SEQ(&self->killNow) && device->Connected)
{
FD_ZERO(&wfds);
FD_SET(self->fd, &wfds);
timeout.tv_sec = 1;
timeout.tv_usec = 0;
ALCsolarisBackend_unlock(self);
sret = select(self->fd+1, NULL, &wfds, NULL, &timeout);
ALCsolarisBackend_lock(self);
if(sret < 0)
{
if(errno == EINTR)
continue;
ERR("select failed: %s\n", strerror(errno));
aluHandleDisconnect(device);
break;
}
else if(sret == 0)
{
WARN("select timeout\n");
continue;
}
write_ptr = self->mix_data;
to_write = self->data_size;
aluMixData(device, write_ptr, to_write/frame_size);
while(to_write > 0 && !ATOMIC_LOAD_SEQ(&self->killNow))
{
wrote = write(self->fd, write_ptr, to_write);
if(wrote < 0)
{
if(errno == EAGAIN || errno == EWOULDBLOCK || errno == EINTR)
continue;
ERR("write failed: %s\n", strerror(errno));
aluHandleDisconnect(device);
break;
}
to_write -= wrote;
write_ptr += wrote;
}
}
ALCsolarisBackend_unlock(self);
return 0;
}
static ALCenum ALCsolarisBackend_open(ALCsolarisBackend *self, const ALCchar *name)
{
ALCdevice *device;
if(!name)
name = solaris_device;
else if(strcmp(name, solaris_device) != 0)
return ALC_INVALID_VALUE;
self->fd = open(solaris_driver, O_WRONLY);
if(self->fd == -1)
{
ERR("Could not open %s: %s\n", solaris_driver, strerror(errno));
return ALC_INVALID_VALUE;
}
device = STATIC_CAST(ALCbackend,self)->mDevice;
alstr_copy_cstr(&device->DeviceName, name);
return ALC_NO_ERROR;
}
static void ALCsolarisBackend_close(ALCsolarisBackend *self)
{
close(self->fd);
self->fd = -1;
}
static ALCboolean ALCsolarisBackend_reset(ALCsolarisBackend *self)
{
ALCdevice *device = STATIC_CAST(ALCbackend,self)->mDevice;
audio_info_t info;
ALsizei frameSize;
ALsizei numChannels;
AUDIO_INITINFO(&info);
info.play.sample_rate = device->Frequency;
if(device->FmtChans != DevFmtMono)
device->FmtChans = DevFmtStereo;
numChannels = ChannelsFromDevFmt(device->FmtChans, device->AmbiOrder);
info.play.channels = numChannels;
switch(device->FmtType)
{
case DevFmtByte:
info.play.precision = 8;
info.play.encoding = AUDIO_ENCODING_LINEAR;
break;
case DevFmtUByte:
info.play.precision = 8;
info.play.encoding = AUDIO_ENCODING_LINEAR8;
break;
case DevFmtUShort:
case DevFmtInt:
case DevFmtUInt:
case DevFmtFloat:
device->FmtType = DevFmtShort;
/* fall-through */
case DevFmtShort:
info.play.precision = 16;
info.play.encoding = AUDIO_ENCODING_LINEAR;
break;
}
frameSize = numChannels * BytesFromDevFmt(device->FmtType);
info.play.buffer_size = device->UpdateSize*device->NumUpdates * frameSize;
if(ioctl(self->fd, AUDIO_SETINFO, &info) < 0)
{
ERR("ioctl failed: %s\n", strerror(errno));
return ALC_FALSE;
}
if(ChannelsFromDevFmt(device->FmtChans, device->AmbiOrder) != (ALsizei)info.play.channels)
{
ERR("Failed to set %s, got %u channels instead\n", DevFmtChannelsString(device->FmtChans), info.play.channels);
return ALC_FALSE;
}
if(!((info.play.precision == 8 && info.play.encoding == AUDIO_ENCODING_LINEAR8 && device->FmtType == DevFmtUByte) ||
(info.play.precision == 8 && info.play.encoding == AUDIO_ENCODING_LINEAR && device->FmtType == DevFmtByte) ||
(info.play.precision == 16 && info.play.encoding == AUDIO_ENCODING_LINEAR && device->FmtType == DevFmtShort) ||
(info.play.precision == 32 && info.play.encoding == AUDIO_ENCODING_LINEAR && device->FmtType == DevFmtInt)))
{
ERR("Could not set %s samples, got %d (0x%x)\n", DevFmtTypeString(device->FmtType),
info.play.precision, info.play.encoding);
return ALC_FALSE;
}
device->Frequency = info.play.sample_rate;
device->UpdateSize = (info.play.buffer_size/device->NumUpdates) + 1;
SetDefaultChannelOrder(device);
free(self->mix_data);
self->data_size = device->UpdateSize * FrameSizeFromDevFmt(
device->FmtChans, device->FmtType, device->AmbiOrder
);
self->mix_data = calloc(1, self->data_size);
return ALC_TRUE;
}
static ALCboolean ALCsolarisBackend_start(ALCsolarisBackend *self)
{
ATOMIC_STORE_SEQ(&self->killNow, AL_FALSE);
if(althrd_create(&self->thread, ALCsolarisBackend_mixerProc, self) != althrd_success)
return ALC_FALSE;
return ALC_TRUE;
}
static void ALCsolarisBackend_stop(ALCsolarisBackend *self)
{
int res;
if(ATOMIC_EXCHANGE_SEQ(&self->killNow, AL_TRUE))
return;
althrd_join(self->thread, &res);
if(ioctl(self->fd, AUDIO_DRAIN) < 0)
ERR("Error draining device: %s\n", strerror(errno));
}
typedef struct ALCsolarisBackendFactory {
DERIVE_FROM_TYPE(ALCbackendFactory);
} ALCsolarisBackendFactory;
#define ALCSOLARISBACKENDFACTORY_INITIALIZER { { GET_VTABLE2(ALCsolarisBackendFactory, ALCbackendFactory) } }
ALCbackendFactory *ALCsolarisBackendFactory_getFactory(void);
static ALCboolean ALCsolarisBackendFactory_init(ALCsolarisBackendFactory *self);
static DECLARE_FORWARD(ALCsolarisBackendFactory, ALCbackendFactory, void, deinit)
static ALCboolean ALCsolarisBackendFactory_querySupport(ALCsolarisBackendFactory *self, ALCbackend_Type type);
static void ALCsolarisBackendFactory_probe(ALCsolarisBackendFactory *self, enum DevProbe type);
static ALCbackend* ALCsolarisBackendFactory_createBackend(ALCsolarisBackendFactory *self, ALCdevice *device, ALCbackend_Type type);
DEFINE_ALCBACKENDFACTORY_VTABLE(ALCsolarisBackendFactory);
ALCbackendFactory *ALCsolarisBackendFactory_getFactory(void)
{
static ALCsolarisBackendFactory factory = ALCSOLARISBACKENDFACTORY_INITIALIZER;
return STATIC_CAST(ALCbackendFactory, &factory);
}
static ALCboolean ALCsolarisBackendFactory_init(ALCsolarisBackendFactory* UNUSED(self))
{
ConfigValueStr(NULL, "solaris", "device", &solaris_driver);
return ALC_TRUE;
}
static ALCboolean ALCsolarisBackendFactory_querySupport(ALCsolarisBackendFactory* UNUSED(self), ALCbackend_Type type)
{
if(type == ALCbackend_Playback)
return ALC_TRUE;
return ALC_FALSE;
}
static void ALCsolarisBackendFactory_probe(ALCsolarisBackendFactory* UNUSED(self), enum DevProbe type)
{
switch(type)
{
case ALL_DEVICE_PROBE:
{
#ifdef HAVE_STAT
struct stat buf;
if(stat(solaris_driver, &buf) == 0)
#endif
AppendAllDevicesList(solaris_device);
}
break;
case CAPTURE_DEVICE_PROBE:
break;
}
}
ALCbackend* ALCsolarisBackendFactory_createBackend(ALCsolarisBackendFactory* UNUSED(self), ALCdevice *device, ALCbackend_Type type)
{
if(type == ALCbackend_Playback)
{
ALCsolarisBackend *backend;
NEW_OBJ(backend, ALCsolarisBackend)(device);
if(!backend) return NULL;
return STATIC_CAST(ALCbackend, backend);
}
return NULL;
}
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