432 lines
12 KiB
C
432 lines
12 KiB
C
/***
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This file is part of PulseAudio.
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Copyright 2004-2008 Lennart Poettering
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PulseAudio is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published
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by the Free Software Foundation; either version 2.1 of the License,
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or (at your option) any later version.
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PulseAudio is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with PulseAudio; if not, see <http://www.gnu.org/licenses/>.
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***/
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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#include <stdlib.h>
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#include <stdio.h>
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#include <errno.h>
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#include <unistd.h>
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#include <pulse/rtclock.h>
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#include <pulse/timeval.h>
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#include <pulse/xmalloc.h>
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#include <pulsecore/i18n.h>
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#include <pulsecore/macro.h>
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#include <pulsecore/sink.h>
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#include <pulsecore/module.h>
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#include <pulsecore/core-util.h>
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#include <pulsecore/modargs.h>
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#include <pulsecore/log.h>
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#include <pulsecore/thread.h>
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#include <pulsecore/thread-mq.h>
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#include <pulsecore/rtpoll.h>
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#include <SLES/OpenSLES.h>
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#include "module-sles-sink-symdef.h"
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#ifdef USE_ANDROID_SIMPLE_BUFFER_QUEUE
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#define DATALOCATOR_BUFFERQUEUE SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE
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#define IID_BUFFERQUEUE SL_IID_ANDROIDSIMPLEBUFFERQUEUE
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#define BufferQueueItf SLAndroidSimpleBufferQueueItf
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#define BufferQueueState SLAndroidSimpleBufferQueueState
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#define IID_BUFFERQUEUE_USED SL_IID_ANDROIDSIMPLEBUFFERQUEUE
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#define INDEX index
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#else
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#define DATALOCATOR_BUFFERQUEUE SL_DATALOCATOR_BUFFERQUEUE
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#define IID_BUFFERQUEUE SL_IID_BUFFERQUEUE
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#define BufferQueueItf SLBufferQueueItf
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#define BufferQueueState SLBufferQueueState
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#define IID_BUFFERQUEUE_USED IID_BUFFERQUEUE
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#define INDEX playIndex
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#endif
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#define checkResult(r) do { \
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if ((r) != SL_RESULT_SUCCESS) { \
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if ((r) == SL_RESULT_PARAMETER_INVALID) fprintf(stderr, "error SL_RESULT_PARAMETER_INVALID at %s:%d\n", __FILE__, __LINE__); \
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else if ((r) == SL_RESULT_PRECONDITIONS_VIOLATED ) fprintf(stderr, "error SL_RESULT_PRECONDITIONS_VIOLATED at %s:%d\n", __FILE__, __LINE__); \
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else fprintf(stderr, "error %d at %s:%d\n", (int) r, __FILE__, __LINE__); \
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} \
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} while (0)
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typedef struct {
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short left;
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short right;
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} frame_t;
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PA_MODULE_AUTHOR("Lennart Poettering, Nathan Martynov");
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PA_MODULE_DESCRIPTION("Android OpenSL ES sink");
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PA_MODULE_VERSION(PACKAGE_VERSION);
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PA_MODULE_LOAD_ONCE(false);
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PA_MODULE_USAGE(
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"sink_name=<name for the sink> "
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"sink_properties=<properties for the sink> ");
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#define DEFAULT_SINK_NAME "OpenSL ES sink"
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#define BLOCK_USEC (PA_USEC_PER_SEC * 2)
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struct userdata {
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pa_core *core;
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pa_module *module;
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pa_sink *sink;
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pa_thread *thread;
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pa_thread_mq thread_mq;
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pa_rtpoll *rtpoll;
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pa_usec_t block_usec;
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pa_usec_t timestamp;
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pa_memchunk memchunk;
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SLObjectItf engineObject;
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SLEngineItf engineEngine;
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// output mix interfaces
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SLObjectItf outputMixObject;
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// buffer queue player interfaces
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SLObjectItf bqPlayerObject;
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SLPlayItf bqPlayerPlay;
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BufferQueueItf bqPlayerBufferQueue;
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};
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static const char* const valid_modargs[] = {
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"sink_name",
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"sink_properties",
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NULL
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};
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static int sink_process_msg(
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pa_msgobject *o,
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int code,
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void *data,
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int64_t offset,
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pa_memchunk *chunk) {
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struct userdata *u = PA_SINK(o)->userdata;
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switch (code) {
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case PA_SINK_MESSAGE_SET_STATE:
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if (pa_sink_get_state(u->sink) == PA_SINK_SUSPENDED || pa_sink_get_state(u->sink) == PA_SINK_INIT) {
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if (PA_PTR_TO_UINT(data) == PA_SINK_RUNNING || PA_PTR_TO_UINT(data) == PA_SINK_IDLE)
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u->timestamp = pa_rtclock_now();
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}
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break;
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case PA_SINK_MESSAGE_GET_LATENCY: {
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pa_usec_t now;
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now = pa_rtclock_now();
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*((pa_usec_t*) data) = u->timestamp > now ? u->timestamp - now : 0ULL;
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return 0;
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}
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}
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return pa_sink_process_msg(o, code, data, offset, chunk);
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}
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static void sink_update_requested_latency_cb(pa_sink *s) {
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struct userdata *u;
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size_t nbytes;
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pa_sink_assert_ref(s);
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pa_assert_se(u = s->userdata);
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u->block_usec = pa_sink_get_requested_latency_within_thread(s);
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if (u->block_usec == (pa_usec_t) -1)
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u->block_usec = s->thread_info.max_latency;
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nbytes = pa_usec_to_bytes(u->block_usec, &s->sample_spec);
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pa_sink_set_max_rewind_within_thread(s, nbytes);
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pa_sink_set_max_request_within_thread(s, nbytes);
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}
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void pa_init_sles_player(struct userdata *s)
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{
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if (s == NULL) return;
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SLresult result;
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// create engine
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result = slCreateEngine(&(s->engineObject), 0, NULL, 0, NULL, NULL); checkResult(result);
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result = (*s->engineObject)->Realize(s->engineObject, SL_BOOLEAN_FALSE); checkResult(result);
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result = (*s->engineObject)->GetInterface(s->engineObject, SL_IID_ENGINE, &(s->engineEngine)); checkResult(result);
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// create output mix
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result = (*s->engineEngine)->CreateOutputMix(s->engineEngine, &(s->outputMixObject), 0, NULL, NULL); checkResult(result);
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result = (*s->outputMixObject)->Realize(s->outputMixObject, SL_BOOLEAN_FALSE); checkResult(result);
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// create audio player
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SLDataLocator_OutputMix locator_outputmix;
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locator_outputmix.locatorType = SL_DATALOCATOR_OUTPUTMIX;
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locator_outputmix.outputMix = s->outputMixObject;
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SLDataLocator_BufferQueue locator_bufferqueue;
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locator_bufferqueue.locatorType = DATALOCATOR_BUFFERQUEUE;
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locator_bufferqueue.numBuffers = 50;
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SLDataFormat_PCM pcm;
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pcm.formatType = SL_DATAFORMAT_PCM;
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pcm.numChannels = 2;
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pcm.samplesPerSec = SL_SAMPLINGRATE_32;
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pcm.bitsPerSample = SL_PCMSAMPLEFORMAT_FIXED_16;
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pcm.containerSize = 16;
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pcm.channelMask = SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT;
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pcm.endianness = SL_BYTEORDER_LITTLEENDIAN;
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SLDataSource audiosrc;
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audiosrc.pLocator = &locator_bufferqueue;
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audiosrc.pFormat = &pcm;
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SLDataSink audiosnk;
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audiosnk.pLocator = &locator_outputmix;
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audiosnk.pFormat = NULL;
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SLInterfaceID ids[1] = {IID_BUFFERQUEUE};
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SLboolean flags[1] = {SL_BOOLEAN_TRUE};
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result = (*s->engineEngine)->CreateAudioPlayer(s->engineEngine, &s->bqPlayerObject, &audiosrc, &audiosnk, 1, ids, flags); checkResult(result);
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result = (*s->bqPlayerObject)->Realize(s->bqPlayerObject, SL_BOOLEAN_FALSE); checkResult(result);
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result = (*s->bqPlayerObject)->GetInterface(s->bqPlayerObject, SL_IID_PLAY, &s->bqPlayerPlay); checkResult(result);
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result = (*s->bqPlayerObject)->GetInterface(s->bqPlayerObject, IID_BUFFERQUEUE_USED, &s->bqPlayerBufferQueue); checkResult(result);
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result = (*s->bqPlayerPlay)->SetPlayState(s->bqPlayerPlay, SL_PLAYSTATE_PLAYING); checkResult(result);
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}
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void pa_destroy_sles_player(struct userdata *s){
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if (s == NULL) return;
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(*s->bqPlayerPlay)->SetPlayState(s->bqPlayerPlay, SL_PLAYSTATE_STOPPED);
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(*s->bqPlayerObject)->Destroy(s->bqPlayerObject);
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(*s->outputMixObject)->Destroy(s->outputMixObject);
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(*s->engineObject)->Destroy(s->engineObject);
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}
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static void process_render(struct userdata *u, pa_usec_t now) {
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size_t ate = 0;
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pa_assert(u);
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/* This is the configured latency. Sink inputs connected to us
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might not have a single frame more than the maxrequest value
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queued. Hence: at maximum read this many bytes from the sink
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inputs. */
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/* Fill the buffer up the latency size */
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while (u->timestamp < now + u->block_usec) {
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void *p;
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pa_sink_render(u->sink, u->sink->thread_info.max_request, &u->memchunk);
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p = pa_memblock_acquire(u->memchunk.memblock);
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(*u->bqPlayerBufferQueue)->Enqueue(u->bqPlayerBufferQueue, (uint8_t*) p + u->memchunk.index, u->memchunk.length);
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pa_memblock_release(u->memchunk.memblock);
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/* pa_log_debug("Ate %lu bytes.", (unsigned long) chunk.length); */
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u->timestamp += pa_bytes_to_usec(u->memchunk.length, &u->sink->sample_spec);
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ate += u->memchunk.length;
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if (ate >= u->sink->thread_info.max_request)
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break;
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}
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/* pa_log_debug("Ate in sum %lu bytes (of %lu)", (unsigned long) ate, (unsigned long) nbytes); */
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}
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static void thread_func(void *userdata) {
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struct userdata *u = userdata;
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pa_assert(u);
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pa_log_debug("Thread starting up");
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pa_thread_mq_install(&u->thread_mq);
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u->timestamp = pa_rtclock_now();
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for (;;) {
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pa_usec_t now = 0;
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int ret;
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if (PA_SINK_IS_OPENED(u->sink->thread_info.state))
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now = pa_rtclock_now();
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if (PA_UNLIKELY(u->sink->thread_info.rewind_requested))
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pa_sink_process_rewind(u->sink, 0);
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/* Render some data and drop it immediately */
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if (PA_SINK_IS_OPENED(u->sink->thread_info.state)) {
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if (u->timestamp <= now)
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process_render(u, now);
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pa_rtpoll_set_timer_absolute(u->rtpoll, u->timestamp);
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} else
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pa_rtpoll_set_timer_disabled(u->rtpoll);
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/* Hmm, nothing to do. Let's sleep */
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if ((ret = pa_rtpoll_run(u->rtpoll)) < 0)
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goto fail;
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if (ret == 0)
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goto finish;
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}
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fail:
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/* If this was no regular exit from the loop we have to continue
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* processing messages until we received PA_MESSAGE_SHUTDOWN */
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pa_asyncmsgq_post(u->thread_mq.outq, PA_MSGOBJECT(u->core), PA_CORE_MESSAGE_UNLOAD_MODULE, u->module, 0, NULL, NULL);
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pa_asyncmsgq_wait_for(u->thread_mq.inq, PA_MESSAGE_SHUTDOWN);
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finish:
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pa_log_debug("Thread shutting down");
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}
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int pa__init(pa_module*m) {
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struct userdata *u = NULL;
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pa_sample_spec ss;
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pa_channel_map map;
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pa_modargs *ma = NULL;
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pa_sink_new_data data;
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size_t nbytes;
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pa_assert(m);
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if (!(ma = pa_modargs_new(m->argument, valid_modargs))) {
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pa_log("Failed to parse module arguments.");
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goto fail;
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}
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// High rate causes glitches on some devices, this is needed to prevent it
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ss.rate = 32000;
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ss.channels = 2;
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ss.format = PA_SAMPLE_S16LE;
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map = m->core->default_channel_map;
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m->userdata = u = pa_xnew0(struct userdata, 1);
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u->core = m->core;
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u->module = m;
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u->rtpoll = pa_rtpoll_new();
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pa_thread_mq_init(&u->thread_mq, m->core->mainloop, u->rtpoll);
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pa_init_sles_player(u);
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int buff[2] = {0, 0};
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(*u->bqPlayerBufferQueue)->Enqueue(u->bqPlayerBufferQueue, buff, 1);
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pa_sink_new_data_init(&data);
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data.driver = __FILE__;
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data.module = m;
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pa_sink_new_data_set_name(&data, pa_modargs_get_value(ma, "sink_name", DEFAULT_SINK_NAME));
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pa_sink_new_data_set_sample_spec(&data, &ss);
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pa_sink_new_data_set_channel_map(&data, &map);
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pa_proplist_sets(data.proplist, PA_PROP_DEVICE_DESCRIPTION, _("Null Output"));
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pa_proplist_sets(data.proplist, PA_PROP_DEVICE_CLASS, "abstract");
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if (pa_modargs_get_proplist(ma, "sink_properties", data.proplist, PA_UPDATE_REPLACE) < 0) {
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pa_log("Invalid properties");
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pa_sink_new_data_done(&data);
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goto fail;
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}
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u->sink = pa_sink_new(m->core, &data, PA_SINK_LATENCY|PA_SINK_DYNAMIC_LATENCY);
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pa_sink_new_data_done(&data);
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if (!u->sink) {
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pa_log("Failed to create sink object.");
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goto fail;
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}
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u->sink->parent.process_msg = sink_process_msg;
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u->sink->update_requested_latency = sink_update_requested_latency_cb;
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u->sink->userdata = u;
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pa_sink_set_asyncmsgq(u->sink, u->thread_mq.inq);
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pa_sink_set_rtpoll(u->sink, u->rtpoll);
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u->block_usec = BLOCK_USEC;
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nbytes = pa_usec_to_bytes(u->block_usec, &u->sink->sample_spec);
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pa_sink_set_max_rewind(u->sink, nbytes);
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pa_sink_set_max_request(u->sink, nbytes);
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if (!(u->thread = pa_thread_new("null-sink", thread_func, u))) {
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pa_log("Failed to create thread.");
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goto fail;
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}
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pa_sink_set_latency_range(u->sink, 0, BLOCK_USEC);
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pa_sink_put(u->sink);
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pa_modargs_free(ma);
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return 0;
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fail:
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if (ma)
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pa_modargs_free(ma);
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pa__done(m);
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return -1;
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}
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int pa__get_n_used(pa_module *m) {
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struct userdata *u;
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pa_assert(m);
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pa_assert_se(u = m->userdata);
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return pa_sink_linked_by(u->sink);
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}
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void pa__done(pa_module*m) {
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struct userdata *u;
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pa_assert(m);
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if (!(u = m->userdata))
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return;
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if (u->sink)
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pa_sink_unlink(u->sink);
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if (u->thread) {
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pa_asyncmsgq_send(u->thread_mq.inq, NULL, PA_MESSAGE_SHUTDOWN, NULL, 0, NULL);
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pa_thread_free(u->thread);
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}
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pa_thread_mq_done(&u->thread_mq);
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if (u->sink)
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pa_sink_unref(u->sink);
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if (u->rtpoll)
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pa_rtpoll_free(u->rtpoll);
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pa_xfree(u);
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}
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