forked from Green-Sky/tomato
Green Sky
227425b90e
git-subtree-dir: external/toxcore/c-toxcore git-subtree-split: 67badf69416a74e74f6d7eb51dd96f37282b8455
505 lines
15 KiB
C
505 lines
15 KiB
C
/* SPDX-License-Identifier: GPL-3.0-or-later
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* Copyright © 2016-2018 The TokTok team.
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* Copyright © 2013-2015 Tox project.
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*/
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#include "audio.h"
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#include <assert.h>
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#include <stdlib.h>
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#include <string.h>
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#include "rtp.h"
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#include "../toxcore/ccompat.h"
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#include "../toxcore/logger.h"
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#include "../toxcore/mono_time.h"
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static struct JitterBuffer *jbuf_new(uint32_t capacity);
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static void jbuf_clear(struct JitterBuffer *q);
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static void jbuf_free(struct JitterBuffer *q);
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static int jbuf_write(const Logger *log, struct JitterBuffer *q, struct RTPMessage *m);
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static struct RTPMessage *jbuf_read(struct JitterBuffer *q, int32_t *success);
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static OpusEncoder *create_audio_encoder(const Logger *log, uint32_t bit_rate, uint32_t sampling_rate,
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uint8_t channel_count);
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static bool reconfigure_audio_encoder(const Logger *log, OpusEncoder **e, uint32_t new_br, uint32_t new_sr,
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uint8_t new_ch, uint32_t *old_br, uint32_t *old_sr, uint8_t *old_ch);
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static bool reconfigure_audio_decoder(ACSession *ac, uint32_t sampling_rate, uint8_t channels);
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ACSession *ac_new(Mono_Time *mono_time, const Logger *log, ToxAV *av, uint32_t friend_number,
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toxav_audio_receive_frame_cb *cb, void *cb_data)
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{
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ACSession *ac = (ACSession *)calloc(1, sizeof(ACSession));
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if (ac == nullptr) {
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LOGGER_WARNING(log, "Allocation failed! Application might misbehave!");
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return nullptr;
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}
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if (create_recursive_mutex(ac->queue_mutex) != 0) {
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LOGGER_WARNING(log, "Failed to create recursive mutex!");
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free(ac);
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return nullptr;
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}
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int status;
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ac->decoder = opus_decoder_create(AUDIO_DECODER_START_SAMPLE_RATE, AUDIO_DECODER_START_CHANNEL_COUNT, &status);
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if (status != OPUS_OK) {
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LOGGER_ERROR(log, "Error while starting audio decoder: %s", opus_strerror(status));
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goto BASE_CLEANUP;
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}
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ac->j_buf = jbuf_new(AUDIO_JITTERBUFFER_COUNT);
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if (ac->j_buf == nullptr) {
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LOGGER_WARNING(log, "Jitter buffer creaton failed!");
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opus_decoder_destroy(ac->decoder);
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goto BASE_CLEANUP;
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}
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ac->mono_time = mono_time;
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ac->log = log;
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/* Initialize encoders with default values */
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ac->encoder = create_audio_encoder(log, AUDIO_START_BITRATE, AUDIO_START_SAMPLE_RATE, AUDIO_START_CHANNEL_COUNT);
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if (ac->encoder == nullptr) {
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goto DECODER_CLEANUP;
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}
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ac->le_bit_rate = AUDIO_START_BITRATE;
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ac->le_sample_rate = AUDIO_START_SAMPLE_RATE;
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ac->le_channel_count = AUDIO_START_CHANNEL_COUNT;
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ac->ld_channel_count = AUDIO_DECODER_START_CHANNEL_COUNT;
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ac->ld_sample_rate = AUDIO_DECODER_START_SAMPLE_RATE;
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ac->ldrts = 0; /* Make it possible to reconfigure straight away */
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/* These need to be set in order to properly
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* do error correction with opus */
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ac->lp_frame_duration = AUDIO_MAX_FRAME_DURATION_MS;
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ac->lp_sampling_rate = AUDIO_DECODER_START_SAMPLE_RATE;
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ac->lp_channel_count = AUDIO_DECODER_START_CHANNEL_COUNT;
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ac->av = av;
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ac->friend_number = friend_number;
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ac->acb = cb;
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ac->acb_user_data = cb_data;
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return ac;
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DECODER_CLEANUP:
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opus_decoder_destroy(ac->decoder);
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jbuf_free((struct JitterBuffer *)ac->j_buf);
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BASE_CLEANUP:
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pthread_mutex_destroy(ac->queue_mutex);
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free(ac);
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return nullptr;
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}
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void ac_kill(ACSession *ac)
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{
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if (ac == nullptr) {
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return;
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}
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opus_encoder_destroy(ac->encoder);
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opus_decoder_destroy(ac->decoder);
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jbuf_free((struct JitterBuffer *)ac->j_buf);
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pthread_mutex_destroy(ac->queue_mutex);
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LOGGER_DEBUG(ac->log, "Terminated audio handler: %p", (void *)ac);
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free(ac);
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}
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void ac_iterate(ACSession *ac)
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{
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if (ac == nullptr) {
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return;
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}
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/* TODO: fix this and jitter buffering */
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/* Enough space for the maximum frame size (120 ms 48 KHz stereo audio) */
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int16_t *temp_audio_buffer = (int16_t *)malloc(AUDIO_MAX_BUFFER_SIZE_PCM16 * AUDIO_MAX_CHANNEL_COUNT * sizeof(int16_t));
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if (temp_audio_buffer == nullptr) {
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LOGGER_ERROR(ac->log, "Failed to allocate memory for audio buffer");
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return;
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}
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pthread_mutex_lock(ac->queue_mutex);
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struct JitterBuffer *const j_buf = (struct JitterBuffer *)ac->j_buf;
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int rc = 0;
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for (struct RTPMessage *msg = jbuf_read(j_buf, &rc); msg != nullptr || rc == 2; msg = jbuf_read(j_buf, &rc)) {
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pthread_mutex_unlock(ac->queue_mutex);
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if (rc == 2) {
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LOGGER_DEBUG(ac->log, "OPUS correction");
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const int fs = (ac->lp_sampling_rate * ac->lp_frame_duration) / 1000;
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rc = opus_decode(ac->decoder, nullptr, 0, temp_audio_buffer, fs, 1);
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} else {
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assert(msg->len > 4);
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/* Pick up sampling rate from packet */
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memcpy(&ac->lp_sampling_rate, msg->data, 4);
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ac->lp_sampling_rate = net_ntohl(ac->lp_sampling_rate);
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ac->lp_channel_count = opus_packet_get_nb_channels(msg->data + 4);
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/* NOTE: even though OPUS supports decoding mono frames with stereo decoder and vice versa,
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* it didn't work quite well.
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*/
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if (!reconfigure_audio_decoder(ac, ac->lp_sampling_rate, ac->lp_channel_count)) {
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LOGGER_WARNING(ac->log, "Failed to reconfigure decoder!");
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free(msg);
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pthread_mutex_lock(ac->queue_mutex);
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continue;
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}
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/*
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* frame_size = opus_decode(dec, packet, len, decoded, max_size, 0);
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* where
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* packet is the byte array containing the compressed data
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* len is the exact number of bytes contained in the packet
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* decoded is the decoded audio data in opus_int16 (or float for opus_decode_float())
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* max_size is the max duration of the frame in samples (per channel) that can fit
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* into the decoded_frame array
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*/
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rc = opus_decode(ac->decoder, msg->data + 4, msg->len - 4, temp_audio_buffer, 5760, 0);
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free(msg);
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}
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if (rc < 0) {
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LOGGER_WARNING(ac->log, "Decoding error: %s", opus_strerror(rc));
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} else if (ac->acb != nullptr) {
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ac->lp_frame_duration = (rc * 1000) / ac->lp_sampling_rate;
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ac->acb(ac->av, ac->friend_number, temp_audio_buffer, rc, ac->lp_channel_count,
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ac->lp_sampling_rate, ac->acb_user_data);
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}
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free(temp_audio_buffer);
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return;
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}
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pthread_mutex_unlock(ac->queue_mutex);
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free(temp_audio_buffer);
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}
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int ac_queue_message(Mono_Time *mono_time, void *acp, struct RTPMessage *msg)
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{
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if (acp == nullptr || msg == nullptr) {
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free(msg);
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return -1;
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}
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ACSession *ac = (ACSession *)acp;
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if ((msg->header.pt & 0x7f) == (RTP_TYPE_AUDIO + 2) % 128) {
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LOGGER_WARNING(ac->log, "Got dummy!");
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free(msg);
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return 0;
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}
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if ((msg->header.pt & 0x7f) != RTP_TYPE_AUDIO % 128) {
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LOGGER_WARNING(ac->log, "Invalid payload type!");
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free(msg);
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return -1;
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}
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pthread_mutex_lock(ac->queue_mutex);
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const int rc = jbuf_write(ac->log, (struct JitterBuffer *)ac->j_buf, msg);
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pthread_mutex_unlock(ac->queue_mutex);
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if (rc == -1) {
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LOGGER_WARNING(ac->log, "Could not queue the message!");
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free(msg);
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return -1;
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}
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return 0;
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}
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int ac_reconfigure_encoder(ACSession *ac, uint32_t bit_rate, uint32_t sampling_rate, uint8_t channels)
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{
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if (ac == nullptr || !reconfigure_audio_encoder(
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ac->log, &ac->encoder, bit_rate,
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sampling_rate, channels,
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&ac->le_bit_rate,
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&ac->le_sample_rate,
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&ac->le_channel_count)) {
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return -1;
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}
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return 0;
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}
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struct JitterBuffer {
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struct RTPMessage **queue;
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uint32_t size;
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uint32_t capacity;
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uint16_t bottom;
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uint16_t top;
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};
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static struct JitterBuffer *jbuf_new(uint32_t capacity)
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{
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unsigned int size = 1;
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while (size <= (capacity * 4)) {
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size *= 2;
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}
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struct JitterBuffer *q = (struct JitterBuffer *)calloc(1, sizeof(struct JitterBuffer));
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if (q == nullptr) {
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return nullptr;
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}
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q->queue = (struct RTPMessage **)calloc(size, sizeof(struct RTPMessage *));
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if (q->queue == nullptr) {
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free(q);
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return nullptr;
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}
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q->size = size;
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q->capacity = capacity;
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return q;
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}
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static void jbuf_clear(struct JitterBuffer *q)
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{
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while (q->bottom != q->top) {
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free(q->queue[q->bottom % q->size]);
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q->queue[q->bottom % q->size] = nullptr;
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++q->bottom;
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}
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}
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static void jbuf_free(struct JitterBuffer *q)
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{
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if (q == nullptr) {
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return;
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}
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jbuf_clear(q);
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free(q->queue);
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free(q);
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}
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static int jbuf_write(const Logger *log, struct JitterBuffer *q, struct RTPMessage *m)
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{
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const uint16_t sequnum = m->header.sequnum;
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const unsigned int num = sequnum % q->size;
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if ((uint32_t)(sequnum - q->bottom) > q->size) {
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LOGGER_DEBUG(log, "Clearing filled jitter buffer: %p", (void *)q);
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jbuf_clear(q);
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q->bottom = sequnum - q->capacity;
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q->queue[num] = m;
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q->top = sequnum + 1;
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return 0;
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}
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if (q->queue[num] != nullptr) {
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return -1;
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}
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q->queue[num] = m;
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if ((sequnum - q->bottom) >= (q->top - q->bottom)) {
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q->top = sequnum + 1;
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}
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return 0;
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}
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static struct RTPMessage *jbuf_read(struct JitterBuffer *q, int32_t *success)
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{
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if (q->top == q->bottom) {
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*success = 0;
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return nullptr;
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}
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const unsigned int num = q->bottom % q->size;
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if (q->queue[num] != nullptr) {
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struct RTPMessage *ret = q->queue[num];
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q->queue[num] = nullptr;
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++q->bottom;
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*success = 1;
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return ret;
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}
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if ((uint32_t)(q->top - q->bottom) > q->capacity) {
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++q->bottom;
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*success = 2;
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return nullptr;
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}
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*success = 0;
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return nullptr;
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}
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static OpusEncoder *create_audio_encoder(const Logger *log, uint32_t bit_rate, uint32_t sampling_rate,
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uint8_t channel_count)
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{
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int status = OPUS_OK;
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/*
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* OPUS_APPLICATION_VOIP Process signal for improved speech intelligibility
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* OPUS_APPLICATION_AUDIO Favor faithfulness to the original input
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* OPUS_APPLICATION_RESTRICTED_LOWDELAY Configure the minimum possible coding delay
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*/
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OpusEncoder *rc = opus_encoder_create(sampling_rate, channel_count, OPUS_APPLICATION_VOIP, &status);
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if (status != OPUS_OK) {
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LOGGER_ERROR(log, "Error while starting audio encoder: %s", opus_strerror(status));
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return nullptr;
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}
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/*
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* Rates from 500 to 512000 bits per second are meaningful as well as the special
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* values OPUS_BITRATE_AUTO and OPUS_BITRATE_MAX. The value OPUS_BITRATE_MAX can
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* be used to cause the codec to use as much rate as it can, which is useful for
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* controlling the rate by adjusting the output buffer size.
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*
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* Parameters:
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* `[in]` `x` `opus_int32`: bitrate in bits per second.
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*/
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status = opus_encoder_ctl(rc, OPUS_SET_BITRATE(bit_rate));
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if (status != OPUS_OK) {
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LOGGER_ERROR(log, "Error while setting encoder ctl: %s", opus_strerror(status));
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goto FAILURE;
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}
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/*
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* Configures the encoder's use of inband forward error correction.
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* Note:
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* This is only applicable to the LPC layer
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* Parameters:
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* `[in]` `x` `int`: FEC flag, 0 (disabled) is default
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*/
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/* Enable in-band forward error correction in codec */
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status = opus_encoder_ctl(rc, OPUS_SET_INBAND_FEC(1));
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if (status != OPUS_OK) {
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LOGGER_ERROR(log, "Error while setting encoder ctl: %s", opus_strerror(status));
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goto FAILURE;
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}
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/*
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* Configures the encoder's expected packet loss percentage.
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* Higher values with trigger progressively more loss resistant behavior in
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* the encoder at the expense of quality at a given bitrate in the lossless case,
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* but greater quality under loss.
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* Parameters:
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* `[in]` `x` `int`: Loss percentage in the range 0-100, inclusive.
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*/
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/* Make codec resistant to up to 10% packet loss
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* NOTE This could also be adjusted on the fly, rather than hard-coded,
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* with feedback from the receiving client.
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*/
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status = opus_encoder_ctl(rc, OPUS_SET_PACKET_LOSS_PERC(AUDIO_OPUS_PACKET_LOSS_PERC));
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if (status != OPUS_OK) {
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LOGGER_ERROR(log, "Error while setting encoder ctl: %s", opus_strerror(status));
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goto FAILURE;
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}
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/*
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* Configures the encoder's computational complexity.
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*
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* The supported range is 0-10 inclusive with 10 representing the highest complexity.
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* The default value is 10.
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*
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* Parameters:
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* `[in]` `x` `int`: 0-10, inclusive
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*/
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/* Set algorithm to the highest complexity, maximizing compression */
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status = opus_encoder_ctl(rc, OPUS_SET_COMPLEXITY(AUDIO_OPUS_COMPLEXITY));
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if (status != OPUS_OK) {
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LOGGER_ERROR(log, "Error while setting encoder ctl: %s", opus_strerror(status));
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goto FAILURE;
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}
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return rc;
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FAILURE:
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opus_encoder_destroy(rc);
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return nullptr;
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}
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static bool reconfigure_audio_encoder(const Logger *log, OpusEncoder **e, uint32_t new_br, uint32_t new_sr,
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uint8_t new_ch, uint32_t *old_br, uint32_t *old_sr, uint8_t *old_ch)
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{
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/* Values are checked in toxav.c */
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if (*old_sr != new_sr || *old_ch != new_ch) {
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OpusEncoder *new_encoder = create_audio_encoder(log, new_br, new_sr, new_ch);
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if (new_encoder == nullptr) {
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return false;
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}
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opus_encoder_destroy(*e);
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*e = new_encoder;
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} else if (*old_br == new_br) {
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return true; /* Nothing changed */
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}
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const int status = opus_encoder_ctl(*e, OPUS_SET_BITRATE(new_br));
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if (status != OPUS_OK) {
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LOGGER_ERROR(log, "Error while setting encoder ctl: %s", opus_strerror(status));
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return false;
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}
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*old_br = new_br;
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*old_sr = new_sr;
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*old_ch = new_ch;
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LOGGER_DEBUG(log, "Reconfigured audio encoder br: %d sr: %d cc:%d", new_br, new_sr, new_ch);
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return true;
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}
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static bool reconfigure_audio_decoder(ACSession *ac, uint32_t sampling_rate, uint8_t channels)
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{
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if (sampling_rate != ac->ld_sample_rate || channels != ac->ld_channel_count) {
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if (current_time_monotonic(ac->mono_time) - ac->ldrts < 500) {
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return false;
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}
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int status;
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OpusDecoder *new_dec = opus_decoder_create(sampling_rate, channels, &status);
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if (status != OPUS_OK) {
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LOGGER_ERROR(ac->log, "Error while starting audio decoder(%d %d): %s", sampling_rate, channels, opus_strerror(status));
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return false;
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}
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ac->ld_sample_rate = sampling_rate;
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ac->ld_channel_count = channels;
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ac->ldrts = current_time_monotonic(ac->mono_time);
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opus_decoder_destroy(ac->decoder);
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ac->decoder = new_dec;
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LOGGER_DEBUG(ac->log, "Reconfigured audio decoder sr: %d cc: %d", sampling_rate, channels);
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}
|
|
|
|
return true;
|
|
}
|