mirror of https://github.com/mpv-player/mpv
555 lines
18 KiB
C
555 lines
18 KiB
C
/*
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* This file is part of mpv.
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*
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* mpv is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* mpv is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with mpv. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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* This file contains functions interacting with the CoreAudio framework
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* that are not specific to the AUHAL. These are split in a separate file for
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* the sake of readability. In the future the could be used by other AOs based
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* on CoreAudio but not the AUHAL (such as using AudioQueue services).
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*/
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#include "audio/out/ao_coreaudio_utils.h"
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#include "osdep/timer.h"
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#include "osdep/endian.h"
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#include "osdep/semaphore.h"
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#include "audio/format.h"
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#if HAVE_COREAUDIO
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#include "audio/out/ao_coreaudio_properties.h"
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#include <CoreAudio/HostTime.h>
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#else
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#include <mach/mach_time.h>
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#endif
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CFStringRef cfstr_from_cstr(char *str)
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{
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return CFStringCreateWithCString(NULL, str, CA_CFSTR_ENCODING);
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}
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char *cfstr_get_cstr(CFStringRef cfstr)
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{
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CFIndex size =
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CFStringGetMaximumSizeForEncoding(
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CFStringGetLength(cfstr), CA_CFSTR_ENCODING) + 1;
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char *buffer = talloc_zero_size(NULL, size);
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CFStringGetCString(cfstr, buffer, size, CA_CFSTR_ENCODING);
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return buffer;
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}
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#if HAVE_COREAUDIO
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static bool ca_is_output_device(struct ao *ao, AudioDeviceID dev)
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{
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size_t n_buffers;
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AudioBufferList *buffers;
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const ca_scope scope = kAudioDevicePropertyStreamConfiguration;
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OSStatus err = CA_GET_ARY_O(dev, scope, &buffers, &n_buffers);
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if (err != noErr)
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return false;
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talloc_free(buffers);
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return n_buffers > 0;
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}
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void ca_get_device_list(struct ao *ao, struct ao_device_list *list)
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{
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AudioDeviceID *devs;
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size_t n_devs;
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OSStatus err =
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CA_GET_ARY(kAudioObjectSystemObject, kAudioHardwarePropertyDevices,
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&devs, &n_devs);
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CHECK_CA_ERROR("Failed to get list of output devices.");
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for (int i = 0; i < n_devs; i++) {
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if (!ca_is_output_device(ao, devs[i]))
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continue;
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void *ta_ctx = talloc_new(NULL);
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char *name;
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char *desc;
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err = CA_GET_STR(devs[i], kAudioDevicePropertyDeviceUID, &name);
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if (err != noErr) {
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MP_VERBOSE(ao, "skipping device %d, which has no UID\n", i);
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talloc_free(ta_ctx);
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continue;
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}
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talloc_steal(ta_ctx, name);
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err = CA_GET_STR(devs[i], kAudioObjectPropertyName, &desc);
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if (err != noErr)
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desc = talloc_strdup(NULL, "Unknown");
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talloc_steal(ta_ctx, desc);
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ao_device_list_add(list, ao, &(struct ao_device_desc){name, desc});
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talloc_free(ta_ctx);
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}
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talloc_free(devs);
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coreaudio_error:
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return;
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}
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OSStatus ca_select_device(struct ao *ao, char* name, AudioDeviceID *device)
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{
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OSStatus err = noErr;
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*device = kAudioObjectUnknown;
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if (name && name[0]) {
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CFStringRef uid = cfstr_from_cstr(name);
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AudioValueTranslation v = (AudioValueTranslation) {
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.mInputData = &uid,
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.mInputDataSize = sizeof(CFStringRef),
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.mOutputData = device,
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.mOutputDataSize = sizeof(*device),
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};
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uint32_t size = sizeof(AudioValueTranslation);
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AudioObjectPropertyAddress p_addr = (AudioObjectPropertyAddress) {
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.mSelector = kAudioHardwarePropertyDeviceForUID,
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.mScope = kAudioObjectPropertyScopeGlobal,
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.mElement = kAudioObjectPropertyElementMaster,
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};
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err = AudioObjectGetPropertyData(
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kAudioObjectSystemObject, &p_addr, 0, 0, &size, &v);
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CFRelease(uid);
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CHECK_CA_ERROR("unable to query for device UID");
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uint32_t is_alive = 1;
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err = CA_GET(*device, kAudioDevicePropertyDeviceIsAlive, &is_alive);
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CHECK_CA_ERROR("could not check whether device is alive (invalid device?)");
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if (!is_alive)
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MP_WARN(ao, "device is not alive!\n");
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} else {
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// device not set by user, get the default one
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err = CA_GET(kAudioObjectSystemObject,
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kAudioHardwarePropertyDefaultOutputDevice,
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device);
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CHECK_CA_ERROR("could not get default audio device");
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}
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if (mp_msg_test(ao->log, MSGL_V)) {
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char *desc;
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OSStatus err2 = CA_GET_STR(*device, kAudioObjectPropertyName, &desc);
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if (err2 == noErr) {
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MP_VERBOSE(ao, "selected audio output device: %s (%" PRIu32 ")\n",
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desc, *device);
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talloc_free(desc);
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}
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}
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coreaudio_error:
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return err;
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}
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#endif
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bool check_ca_st(struct ao *ao, int level, OSStatus code, const char *message)
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{
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if (code == noErr) return true;
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mp_msg(ao->log, level, "%s (%s/%d)\n", message, mp_tag_str(code), (int)code);
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return false;
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}
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static void ca_fill_asbd_raw(AudioStreamBasicDescription *asbd, int mp_format,
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int samplerate, int num_channels)
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{
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asbd->mSampleRate = samplerate;
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// Set "AC3" for other spdif formats too - unknown if that works.
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asbd->mFormatID = af_fmt_is_spdif(mp_format) ?
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kAudioFormat60958AC3 :
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kAudioFormatLinearPCM;
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asbd->mChannelsPerFrame = num_channels;
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asbd->mBitsPerChannel = af_fmt_to_bytes(mp_format) * 8;
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asbd->mFormatFlags = kAudioFormatFlagIsPacked;
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int channels_per_buffer = num_channels;
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if (af_fmt_is_planar(mp_format)) {
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asbd->mFormatFlags |= kAudioFormatFlagIsNonInterleaved;
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channels_per_buffer = 1;
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}
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if (af_fmt_is_float(mp_format)) {
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asbd->mFormatFlags |= kAudioFormatFlagIsFloat;
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} else if (!af_fmt_is_unsigned(mp_format)) {
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asbd->mFormatFlags |= kAudioFormatFlagIsSignedInteger;
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}
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if (BYTE_ORDER == BIG_ENDIAN)
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asbd->mFormatFlags |= kAudioFormatFlagIsBigEndian;
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asbd->mFramesPerPacket = 1;
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asbd->mBytesPerPacket = asbd->mBytesPerFrame =
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asbd->mFramesPerPacket * channels_per_buffer *
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(asbd->mBitsPerChannel / 8);
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}
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void ca_fill_asbd(struct ao *ao, AudioStreamBasicDescription *asbd)
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{
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ca_fill_asbd_raw(asbd, ao->format, ao->samplerate, ao->channels.num);
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}
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bool ca_formatid_is_compressed(uint32_t formatid)
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{
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switch (formatid)
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case 'IAC3':
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case 'iac3':
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case kAudioFormat60958AC3:
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case kAudioFormatAC3:
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return true;
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return false;
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}
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// This might be wrong, but for now it's sufficient for us.
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static uint32_t ca_normalize_formatid(uint32_t formatID)
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{
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return ca_formatid_is_compressed(formatID) ? kAudioFormat60958AC3 : formatID;
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}
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bool ca_asbd_equals(const AudioStreamBasicDescription *a,
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const AudioStreamBasicDescription *b)
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{
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int flags = kAudioFormatFlagIsPacked | kAudioFormatFlagIsFloat |
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kAudioFormatFlagIsSignedInteger | kAudioFormatFlagIsBigEndian;
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bool spdif = ca_formatid_is_compressed(a->mFormatID) &&
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ca_formatid_is_compressed(b->mFormatID);
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return (a->mFormatFlags & flags) == (b->mFormatFlags & flags) &&
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a->mBitsPerChannel == b->mBitsPerChannel &&
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ca_normalize_formatid(a->mFormatID) ==
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ca_normalize_formatid(b->mFormatID) &&
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(spdif || a->mBytesPerPacket == b->mBytesPerPacket) &&
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(spdif || a->mChannelsPerFrame == b->mChannelsPerFrame) &&
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a->mSampleRate == b->mSampleRate;
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}
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// Return the AF_FORMAT_* (AF_FORMAT_S16 etc.) corresponding to the asbd.
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int ca_asbd_to_mp_format(const AudioStreamBasicDescription *asbd)
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{
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for (int fmt = 1; fmt < AF_FORMAT_COUNT; fmt++) {
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AudioStreamBasicDescription mp_asbd = {0};
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ca_fill_asbd_raw(&mp_asbd, fmt, asbd->mSampleRate, asbd->mChannelsPerFrame);
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if (ca_asbd_equals(&mp_asbd, asbd))
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return af_fmt_is_spdif(fmt) ? AF_FORMAT_S_AC3 : fmt;
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}
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return 0;
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}
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void ca_print_asbd(struct ao *ao, const char *description,
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const AudioStreamBasicDescription *asbd)
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{
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uint32_t flags = asbd->mFormatFlags;
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char *format = mp_tag_str(asbd->mFormatID);
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int mpfmt = ca_asbd_to_mp_format(asbd);
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MP_VERBOSE(ao,
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"%s %7.1fHz %" PRIu32 "bit %s "
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"[%" PRIu32 "][%" PRIu32 "bpp][%" PRIu32 "fbp]"
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"[%" PRIu32 "bpf][%" PRIu32 "ch] "
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"%s %s %s%s%s%s (%s)\n",
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description, asbd->mSampleRate, asbd->mBitsPerChannel, format,
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asbd->mFormatFlags, asbd->mBytesPerPacket, asbd->mFramesPerPacket,
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asbd->mBytesPerFrame, asbd->mChannelsPerFrame,
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(flags & kAudioFormatFlagIsFloat) ? "float" : "int",
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(flags & kAudioFormatFlagIsBigEndian) ? "BE" : "LE",
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(flags & kAudioFormatFlagIsSignedInteger) ? "S" : "U",
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(flags & kAudioFormatFlagIsPacked) ? " packed" : "",
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(flags & kAudioFormatFlagIsAlignedHigh) ? " aligned" : "",
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(flags & kAudioFormatFlagIsNonInterleaved) ? " P" : "",
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mpfmt ? af_fmt_to_str(mpfmt) : "-");
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}
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// Return whether new is an improvement over old. Assume a higher value means
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// better quality, and we always prefer the value closest to the requested one,
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// which is still larger than the requested one.
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// Equal values prefer the new one (so ca_asbd_is_better() checks other params).
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static bool value_is_better(double req, double old, double new)
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{
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if (new >= req) {
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return old < req || new <= old;
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} else {
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return old < req && new >= old;
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}
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}
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// Return whether new is an improvement over old (req is the requested format).
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bool ca_asbd_is_better(AudioStreamBasicDescription *req,
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AudioStreamBasicDescription *old,
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AudioStreamBasicDescription *new)
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{
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if (new->mChannelsPerFrame > MP_NUM_CHANNELS)
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return false;
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if (old->mChannelsPerFrame > MP_NUM_CHANNELS)
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return true;
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if (req->mFormatID != new->mFormatID)
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return false;
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if (req->mFormatID != old->mFormatID)
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return true;
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if (!value_is_better(req->mBitsPerChannel, old->mBitsPerChannel,
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new->mBitsPerChannel))
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return false;
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if (!value_is_better(req->mSampleRate, old->mSampleRate, new->mSampleRate))
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return false;
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if (!value_is_better(req->mChannelsPerFrame, old->mChannelsPerFrame,
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new->mChannelsPerFrame))
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return false;
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return true;
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}
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int64_t ca_frames_to_us(struct ao *ao, uint32_t frames)
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{
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return frames / (float) ao->samplerate * 1e6;
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}
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int64_t ca_get_latency(const AudioTimeStamp *ts)
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{
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#if HAVE_COREAUDIO
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uint64_t out = AudioConvertHostTimeToNanos(ts->mHostTime);
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uint64_t now = AudioConvertHostTimeToNanos(AudioGetCurrentHostTime());
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if (now > out)
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return 0;
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return (out - now) * 1e-3;
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#else
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static mach_timebase_info_data_t timebase;
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if (timebase.denom == 0)
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mach_timebase_info(&timebase);
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uint64_t out = ts->mHostTime;
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uint64_t now = mach_absolute_time();
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if (now > out)
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return 0;
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return (out - now) * timebase.numer / timebase.denom / 1e3;
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#endif
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}
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#if HAVE_COREAUDIO
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bool ca_stream_supports_compressed(struct ao *ao, AudioStreamID stream)
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{
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AudioStreamRangedDescription *formats = NULL;
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size_t n_formats;
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OSStatus err =
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CA_GET_ARY(stream, kAudioStreamPropertyAvailablePhysicalFormats,
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&formats, &n_formats);
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CHECK_CA_ERROR("Could not get number of stream formats.");
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for (int i = 0; i < n_formats; i++) {
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AudioStreamBasicDescription asbd = formats[i].mFormat;
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ca_print_asbd(ao, "- ", &asbd);
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if (ca_formatid_is_compressed(asbd.mFormatID)) {
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talloc_free(formats);
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return true;
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}
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}
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talloc_free(formats);
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coreaudio_error:
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return false;
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}
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OSStatus ca_lock_device(AudioDeviceID device, pid_t *pid)
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{
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*pid = getpid();
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OSStatus err = CA_SET(device, kAudioDevicePropertyHogMode, pid);
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if (err != noErr)
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*pid = -1;
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return err;
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}
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OSStatus ca_unlock_device(AudioDeviceID device, pid_t *pid)
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{
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if (*pid == getpid()) {
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*pid = -1;
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return CA_SET(device, kAudioDevicePropertyHogMode, &pid);
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}
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return noErr;
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}
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static OSStatus ca_change_mixing(struct ao *ao, AudioDeviceID device,
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uint32_t val, bool *changed)
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{
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*changed = false;
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AudioObjectPropertyAddress p_addr = (AudioObjectPropertyAddress) {
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.mSelector = kAudioDevicePropertySupportsMixing,
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.mScope = kAudioObjectPropertyScopeGlobal,
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.mElement = kAudioObjectPropertyElementMaster,
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};
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if (AudioObjectHasProperty(device, &p_addr)) {
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OSStatus err;
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Boolean writeable = 0;
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err = CA_SETTABLE(device, kAudioDevicePropertySupportsMixing,
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&writeable);
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if (!CHECK_CA_WARN("can't tell if mixing property is settable")) {
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return err;
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}
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if (!writeable)
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return noErr;
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err = CA_SET(device, kAudioDevicePropertySupportsMixing, &val);
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if (err != noErr)
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return err;
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if (!CHECK_CA_WARN("can't set mix mode")) {
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return err;
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}
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*changed = true;
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}
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return noErr;
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}
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OSStatus ca_disable_mixing(struct ao *ao, AudioDeviceID device, bool *changed)
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{
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return ca_change_mixing(ao, device, 0, changed);
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}
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OSStatus ca_enable_mixing(struct ao *ao, AudioDeviceID device, bool changed)
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{
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if (changed) {
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bool dont_care = false;
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return ca_change_mixing(ao, device, 1, &dont_care);
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}
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return noErr;
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}
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int64_t ca_get_device_latency_us(struct ao *ao, AudioDeviceID device)
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{
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uint32_t latency_frames = 0;
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uint32_t latency_properties[] = {
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kAudioDevicePropertyLatency,
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kAudioDevicePropertyBufferFrameSize,
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kAudioDevicePropertySafetyOffset,
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};
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for (int n = 0; n < MP_ARRAY_SIZE(latency_properties); n++) {
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uint32_t temp;
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OSStatus err = CA_GET_O(device, latency_properties[n], &temp);
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CHECK_CA_WARN("cannot get device latency");
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if (err == noErr) {
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latency_frames += temp;
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MP_VERBOSE(ao, "Latency property %s: %d frames\n",
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mp_tag_str(latency_properties[n]), (int)temp);
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}
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}
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double sample_rate = ao->samplerate;
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OSStatus err = CA_GET_O(device, kAudioDevicePropertyNominalSampleRate,
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&sample_rate);
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CHECK_CA_WARN("cannot get device sample rate, falling back to AO sample rate!");
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if (err == noErr) {
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MP_VERBOSE(ao, "Device sample rate: %f\n", sample_rate);
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}
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return latency_frames / sample_rate * 1e6;
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}
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static OSStatus ca_change_format_listener(
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AudioObjectID object, uint32_t n_addresses,
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const AudioObjectPropertyAddress addresses[],
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void *data)
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{
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sem_t *sem = data;
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sem_post(sem);
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return noErr;
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}
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bool ca_change_physical_format_sync(struct ao *ao, AudioStreamID stream,
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AudioStreamBasicDescription change_format)
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{
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OSStatus err = noErr;
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bool format_set = false;
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ca_print_asbd(ao, "setting stream physical format:", &change_format);
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sem_t wakeup;
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if (sem_init(&wakeup, 0, 0)) {
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MP_WARN(ao, "OOM\n");
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return false;
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}
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AudioStreamBasicDescription prev_format;
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err = CA_GET(stream, kAudioStreamPropertyPhysicalFormat, &prev_format);
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|
CHECK_CA_ERROR("can't get current physical format");
|
|
|
|
ca_print_asbd(ao, "format in use before switching:", &prev_format);
|
|
|
|
/* Install the callback. */
|
|
AudioObjectPropertyAddress p_addr = {
|
|
.mSelector = kAudioStreamPropertyPhysicalFormat,
|
|
.mScope = kAudioObjectPropertyScopeGlobal,
|
|
.mElement = kAudioObjectPropertyElementMaster,
|
|
};
|
|
|
|
err = AudioObjectAddPropertyListener(stream, &p_addr,
|
|
ca_change_format_listener,
|
|
&wakeup);
|
|
CHECK_CA_ERROR("can't add property listener during format change");
|
|
|
|
/* Change the format. */
|
|
err = CA_SET(stream, kAudioStreamPropertyPhysicalFormat, &change_format);
|
|
CHECK_CA_WARN("error changing physical format");
|
|
|
|
/* The AudioStreamSetProperty is not only asynchronous,
|
|
* it is also not Atomic, in its behaviour. */
|
|
struct timespec timeout = mp_rel_time_to_timespec(2.0);
|
|
AudioStreamBasicDescription actual_format = {0};
|
|
while (1) {
|
|
err = CA_GET(stream, kAudioStreamPropertyPhysicalFormat, &actual_format);
|
|
if (!CHECK_CA_WARN("could not retrieve physical format"))
|
|
break;
|
|
|
|
format_set = ca_asbd_equals(&change_format, &actual_format);
|
|
if (format_set)
|
|
break;
|
|
|
|
if (sem_timedwait(&wakeup, &timeout)) {
|
|
MP_VERBOSE(ao, "reached timeout\n");
|
|
break;
|
|
}
|
|
}
|
|
|
|
ca_print_asbd(ao, "actual format in use:", &actual_format);
|
|
|
|
if (!format_set) {
|
|
MP_WARN(ao, "changing physical format failed\n");
|
|
// Some drivers just fuck up and get into a broken state. Restore the
|
|
// old format in this case.
|
|
err = CA_SET(stream, kAudioStreamPropertyPhysicalFormat, &prev_format);
|
|
CHECK_CA_WARN("error restoring physical format");
|
|
}
|
|
|
|
err = AudioObjectRemovePropertyListener(stream, &p_addr,
|
|
ca_change_format_listener,
|
|
&wakeup);
|
|
CHECK_CA_ERROR("can't remove property listener");
|
|
|
|
coreaudio_error:
|
|
sem_destroy(&wakeup);
|
|
return format_set;
|
|
}
|
|
#endif
|