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499 lines
19 KiB
C++
499 lines
19 KiB
C++
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/*
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* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "webrtc/modules/audio_coding/neteq/interface/neteq.h"
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#include "webrtc/modules/audio_coding/neteq/neteq_impl.h"
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#include "gmock/gmock.h"
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#include "gtest/gtest.h"
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#include "webrtc/modules/audio_coding/neteq/accelerate.h"
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#include "webrtc/modules/audio_coding/neteq/expand.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_audio_decoder.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_buffer_level_filter.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_decoder_database.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_delay_manager.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_delay_peak_detector.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_dtmf_buffer.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_dtmf_tone_generator.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_packet_buffer.h"
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#include "webrtc/modules/audio_coding/neteq/mock/mock_payload_splitter.h"
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#include "webrtc/modules/audio_coding/neteq/preemptive_expand.h"
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#include "webrtc/modules/audio_coding/neteq/sync_buffer.h"
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#include "webrtc/modules/audio_coding/neteq/timestamp_scaler.h"
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using ::testing::Return;
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using ::testing::ReturnNull;
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using ::testing::_;
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using ::testing::SetArgPointee;
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using ::testing::InSequence;
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using ::testing::Invoke;
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using ::testing::WithArg;
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namespace webrtc {
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// This function is called when inserting a packet list into the mock packet
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// buffer. The purpose is to delete all inserted packets properly, to avoid
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// memory leaks in the test.
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int DeletePacketsAndReturnOk(PacketList* packet_list) {
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PacketBuffer::DeleteAllPackets(packet_list);
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return PacketBuffer::kOK;
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}
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class NetEqImplTest : public ::testing::Test {
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protected:
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NetEqImplTest()
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: neteq_(NULL),
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config_(),
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mock_buffer_level_filter_(NULL),
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buffer_level_filter_(NULL),
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use_mock_buffer_level_filter_(true),
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mock_decoder_database_(NULL),
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decoder_database_(NULL),
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use_mock_decoder_database_(true),
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mock_delay_peak_detector_(NULL),
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delay_peak_detector_(NULL),
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use_mock_delay_peak_detector_(true),
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mock_delay_manager_(NULL),
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delay_manager_(NULL),
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use_mock_delay_manager_(true),
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mock_dtmf_buffer_(NULL),
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dtmf_buffer_(NULL),
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use_mock_dtmf_buffer_(true),
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mock_dtmf_tone_generator_(NULL),
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dtmf_tone_generator_(NULL),
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use_mock_dtmf_tone_generator_(true),
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mock_packet_buffer_(NULL),
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packet_buffer_(NULL),
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use_mock_packet_buffer_(true),
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mock_payload_splitter_(NULL),
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payload_splitter_(NULL),
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use_mock_payload_splitter_(true),
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timestamp_scaler_(NULL) {
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config_.sample_rate_hz = 8000;
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}
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void CreateInstance() {
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if (use_mock_buffer_level_filter_) {
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mock_buffer_level_filter_ = new MockBufferLevelFilter;
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buffer_level_filter_ = mock_buffer_level_filter_;
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} else {
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buffer_level_filter_ = new BufferLevelFilter;
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}
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if (use_mock_decoder_database_) {
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mock_decoder_database_ = new MockDecoderDatabase;
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EXPECT_CALL(*mock_decoder_database_, GetActiveCngDecoder())
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.WillOnce(ReturnNull());
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decoder_database_ = mock_decoder_database_;
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} else {
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decoder_database_ = new DecoderDatabase;
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}
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if (use_mock_delay_peak_detector_) {
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mock_delay_peak_detector_ = new MockDelayPeakDetector;
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EXPECT_CALL(*mock_delay_peak_detector_, Reset()).Times(1);
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delay_peak_detector_ = mock_delay_peak_detector_;
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} else {
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delay_peak_detector_ = new DelayPeakDetector;
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}
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if (use_mock_delay_manager_) {
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mock_delay_manager_ = new MockDelayManager(config_.max_packets_in_buffer,
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delay_peak_detector_);
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EXPECT_CALL(*mock_delay_manager_, set_streaming_mode(false)).Times(1);
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delay_manager_ = mock_delay_manager_;
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} else {
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delay_manager_ =
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new DelayManager(config_.max_packets_in_buffer, delay_peak_detector_);
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}
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if (use_mock_dtmf_buffer_) {
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mock_dtmf_buffer_ = new MockDtmfBuffer(config_.sample_rate_hz);
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dtmf_buffer_ = mock_dtmf_buffer_;
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} else {
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dtmf_buffer_ = new DtmfBuffer(config_.sample_rate_hz);
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}
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if (use_mock_dtmf_tone_generator_) {
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mock_dtmf_tone_generator_ = new MockDtmfToneGenerator;
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dtmf_tone_generator_ = mock_dtmf_tone_generator_;
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} else {
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dtmf_tone_generator_ = new DtmfToneGenerator;
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}
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if (use_mock_packet_buffer_) {
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mock_packet_buffer_ = new MockPacketBuffer(config_.max_packets_in_buffer);
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packet_buffer_ = mock_packet_buffer_;
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} else {
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packet_buffer_ = new PacketBuffer(config_.max_packets_in_buffer);
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}
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if (use_mock_payload_splitter_) {
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mock_payload_splitter_ = new MockPayloadSplitter;
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payload_splitter_ = mock_payload_splitter_;
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} else {
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payload_splitter_ = new PayloadSplitter;
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}
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timestamp_scaler_ = new TimestampScaler(*decoder_database_);
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AccelerateFactory* accelerate_factory = new AccelerateFactory;
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ExpandFactory* expand_factory = new ExpandFactory;
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PreemptiveExpandFactory* preemptive_expand_factory =
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new PreemptiveExpandFactory;
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neteq_ = new NetEqImpl(config_,
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buffer_level_filter_,
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decoder_database_,
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delay_manager_,
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delay_peak_detector_,
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dtmf_buffer_,
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dtmf_tone_generator_,
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packet_buffer_,
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payload_splitter_,
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timestamp_scaler_,
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accelerate_factory,
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expand_factory,
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preemptive_expand_factory);
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ASSERT_TRUE(neteq_ != NULL);
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}
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void UseNoMocks() {
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ASSERT_TRUE(neteq_ == NULL) << "Must call UseNoMocks before CreateInstance";
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use_mock_buffer_level_filter_ = false;
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use_mock_decoder_database_ = false;
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use_mock_delay_peak_detector_ = false;
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use_mock_delay_manager_ = false;
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use_mock_dtmf_buffer_ = false;
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use_mock_dtmf_tone_generator_ = false;
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use_mock_packet_buffer_ = false;
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use_mock_payload_splitter_ = false;
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}
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virtual ~NetEqImplTest() {
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if (use_mock_buffer_level_filter_) {
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EXPECT_CALL(*mock_buffer_level_filter_, Die()).Times(1);
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}
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if (use_mock_decoder_database_) {
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EXPECT_CALL(*mock_decoder_database_, Die()).Times(1);
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}
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if (use_mock_delay_manager_) {
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EXPECT_CALL(*mock_delay_manager_, Die()).Times(1);
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}
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if (use_mock_delay_peak_detector_) {
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EXPECT_CALL(*mock_delay_peak_detector_, Die()).Times(1);
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}
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if (use_mock_dtmf_buffer_) {
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EXPECT_CALL(*mock_dtmf_buffer_, Die()).Times(1);
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}
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if (use_mock_dtmf_tone_generator_) {
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EXPECT_CALL(*mock_dtmf_tone_generator_, Die()).Times(1);
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}
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if (use_mock_packet_buffer_) {
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EXPECT_CALL(*mock_packet_buffer_, Die()).Times(1);
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}
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delete neteq_;
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}
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NetEqImpl* neteq_;
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NetEq::Config config_;
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MockBufferLevelFilter* mock_buffer_level_filter_;
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BufferLevelFilter* buffer_level_filter_;
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bool use_mock_buffer_level_filter_;
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MockDecoderDatabase* mock_decoder_database_;
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DecoderDatabase* decoder_database_;
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bool use_mock_decoder_database_;
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MockDelayPeakDetector* mock_delay_peak_detector_;
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DelayPeakDetector* delay_peak_detector_;
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bool use_mock_delay_peak_detector_;
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MockDelayManager* mock_delay_manager_;
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DelayManager* delay_manager_;
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bool use_mock_delay_manager_;
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MockDtmfBuffer* mock_dtmf_buffer_;
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DtmfBuffer* dtmf_buffer_;
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bool use_mock_dtmf_buffer_;
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MockDtmfToneGenerator* mock_dtmf_tone_generator_;
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DtmfToneGenerator* dtmf_tone_generator_;
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bool use_mock_dtmf_tone_generator_;
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MockPacketBuffer* mock_packet_buffer_;
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PacketBuffer* packet_buffer_;
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bool use_mock_packet_buffer_;
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MockPayloadSplitter* mock_payload_splitter_;
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PayloadSplitter* payload_splitter_;
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bool use_mock_payload_splitter_;
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TimestampScaler* timestamp_scaler_;
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};
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// This tests the interface class NetEq.
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// TODO(hlundin): Move to separate file?
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TEST(NetEq, CreateAndDestroy) {
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NetEq::Config config;
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NetEq* neteq = NetEq::Create(config);
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delete neteq;
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}
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TEST_F(NetEqImplTest, RegisterPayloadType) {
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CreateInstance();
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uint8_t rtp_payload_type = 0;
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NetEqDecoder codec_type = kDecoderPCMu;
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EXPECT_CALL(*mock_decoder_database_,
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RegisterPayload(rtp_payload_type, codec_type));
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neteq_->RegisterPayloadType(codec_type, rtp_payload_type);
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}
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TEST_F(NetEqImplTest, RemovePayloadType) {
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CreateInstance();
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uint8_t rtp_payload_type = 0;
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EXPECT_CALL(*mock_decoder_database_, Remove(rtp_payload_type))
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.WillOnce(Return(DecoderDatabase::kDecoderNotFound));
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// Check that kFail is returned when database returns kDecoderNotFound.
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EXPECT_EQ(NetEq::kFail, neteq_->RemovePayloadType(rtp_payload_type));
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}
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TEST_F(NetEqImplTest, InsertPacket) {
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CreateInstance();
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const int kPayloadLength = 100;
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const uint8_t kPayloadType = 0;
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const uint16_t kFirstSequenceNumber = 0x1234;
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const uint32_t kFirstTimestamp = 0x12345678;
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const uint32_t kSsrc = 0x87654321;
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const uint32_t kFirstReceiveTime = 17;
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uint8_t payload[kPayloadLength] = {0};
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WebRtcRTPHeader rtp_header;
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rtp_header.header.payloadType = kPayloadType;
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rtp_header.header.sequenceNumber = kFirstSequenceNumber;
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rtp_header.header.timestamp = kFirstTimestamp;
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rtp_header.header.ssrc = kSsrc;
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// Create a mock decoder object.
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MockAudioDecoder mock_decoder;
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// BWE update function called with first packet.
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EXPECT_CALL(mock_decoder, IncomingPacket(_,
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kPayloadLength,
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kFirstSequenceNumber,
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kFirstTimestamp,
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kFirstReceiveTime));
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// BWE update function called with second packet.
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EXPECT_CALL(mock_decoder, IncomingPacket(_,
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kPayloadLength,
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kFirstSequenceNumber + 1,
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kFirstTimestamp + 160,
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kFirstReceiveTime + 155));
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EXPECT_CALL(mock_decoder, Die()).Times(1); // Called when deleted.
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// Expectations for decoder database.
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EXPECT_CALL(*mock_decoder_database_, IsRed(kPayloadType))
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.WillRepeatedly(Return(false)); // This is not RED.
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EXPECT_CALL(*mock_decoder_database_, CheckPayloadTypes(_))
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.Times(2)
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.WillRepeatedly(Return(DecoderDatabase::kOK)); // Payload type is valid.
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EXPECT_CALL(*mock_decoder_database_, IsDtmf(kPayloadType))
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.WillRepeatedly(Return(false)); // This is not DTMF.
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EXPECT_CALL(*mock_decoder_database_, GetDecoder(kPayloadType))
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.Times(3)
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.WillRepeatedly(Return(&mock_decoder));
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EXPECT_CALL(*mock_decoder_database_, IsComfortNoise(kPayloadType))
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.WillRepeatedly(Return(false)); // This is not CNG.
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DecoderDatabase::DecoderInfo info;
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info.codec_type = kDecoderPCMu;
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EXPECT_CALL(*mock_decoder_database_, GetDecoderInfo(kPayloadType))
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.WillRepeatedly(Return(&info));
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// Expectations for packet buffer.
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EXPECT_CALL(*mock_packet_buffer_, NumPacketsInBuffer())
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.WillOnce(Return(0)) // First packet.
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.WillOnce(Return(1)) // Second packet.
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.WillOnce(Return(2)); // Second packet, checking after it was inserted.
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EXPECT_CALL(*mock_packet_buffer_, Empty())
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.WillOnce(Return(false)); // Called once after first packet is inserted.
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EXPECT_CALL(*mock_packet_buffer_, Flush())
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.Times(1);
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EXPECT_CALL(*mock_packet_buffer_, InsertPacketList(_, _, _, _))
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.Times(2)
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.WillRepeatedly(DoAll(SetArgPointee<2>(kPayloadType),
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WithArg<0>(Invoke(DeletePacketsAndReturnOk))));
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// SetArgPointee<2>(kPayloadType) means that the third argument (zero-based
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// index) is a pointer, and the variable pointed to is set to kPayloadType.
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// Also invoke the function DeletePacketsAndReturnOk to properly delete all
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// packets in the list (to avoid memory leaks in the test).
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EXPECT_CALL(*mock_packet_buffer_, NextRtpHeader())
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.Times(1)
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.WillOnce(Return(&rtp_header.header));
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// Expectations for DTMF buffer.
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EXPECT_CALL(*mock_dtmf_buffer_, Flush())
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.Times(1);
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// Expectations for delay manager.
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{
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// All expectations within this block must be called in this specific order.
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InSequence sequence; // Dummy variable.
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// Expectations when the first packet is inserted.
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EXPECT_CALL(*mock_delay_manager_, LastDecoderType(kDecoderPCMu))
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.Times(1);
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EXPECT_CALL(*mock_delay_manager_, last_pack_cng_or_dtmf())
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.Times(2)
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.WillRepeatedly(Return(-1));
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EXPECT_CALL(*mock_delay_manager_, set_last_pack_cng_or_dtmf(0))
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.Times(1);
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EXPECT_CALL(*mock_delay_manager_, ResetPacketIatCount()).Times(1);
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// Expectations when the second packet is inserted. Slightly different.
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EXPECT_CALL(*mock_delay_manager_, LastDecoderType(kDecoderPCMu))
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.Times(1);
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EXPECT_CALL(*mock_delay_manager_, last_pack_cng_or_dtmf())
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.WillOnce(Return(0));
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EXPECT_CALL(*mock_delay_manager_, SetPacketAudioLength(30))
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.WillOnce(Return(0));
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}
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// Expectations for payload splitter.
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EXPECT_CALL(*mock_payload_splitter_, SplitAudio(_, _))
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.Times(2)
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.WillRepeatedly(Return(PayloadSplitter::kOK));
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// Insert first packet.
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neteq_->InsertPacket(rtp_header, payload, kPayloadLength, kFirstReceiveTime);
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// Insert second packet.
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rtp_header.header.timestamp += 160;
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rtp_header.header.sequenceNumber += 1;
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neteq_->InsertPacket(rtp_header, payload, kPayloadLength,
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kFirstReceiveTime + 155);
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}
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TEST_F(NetEqImplTest, InsertPacketsUntilBufferIsFull) {
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UseNoMocks();
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CreateInstance();
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const int kPayloadLengthSamples = 80;
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const size_t kPayloadLengthBytes = 2 * kPayloadLengthSamples; // PCM 16-bit.
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const uint8_t kPayloadType = 17; // Just an arbitrary number.
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const uint32_t kReceiveTime = 17; // Value doesn't matter for this test.
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uint8_t payload[kPayloadLengthBytes] = {0};
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WebRtcRTPHeader rtp_header;
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rtp_header.header.payloadType = kPayloadType;
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rtp_header.header.sequenceNumber = 0x1234;
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rtp_header.header.timestamp = 0x12345678;
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rtp_header.header.ssrc = 0x87654321;
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EXPECT_EQ(NetEq::kOK,
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neteq_->RegisterPayloadType(kDecoderPCM16B, kPayloadType));
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// Insert packets. The buffer should not flush.
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||
|
for (int i = 1; i <= config_.max_packets_in_buffer; ++i) {
|
||
|
EXPECT_EQ(NetEq::kOK,
|
||
|
neteq_->InsertPacket(
|
||
|
rtp_header, payload, kPayloadLengthBytes, kReceiveTime));
|
||
|
rtp_header.header.timestamp += kPayloadLengthSamples;
|
||
|
rtp_header.header.sequenceNumber += 1;
|
||
|
EXPECT_EQ(i, packet_buffer_->NumPacketsInBuffer());
|
||
|
}
|
||
|
|
||
|
// Insert one more packet and make sure the buffer got flushed. That is, it
|
||
|
// should only hold one single packet.
|
||
|
EXPECT_EQ(NetEq::kOK,
|
||
|
neteq_->InsertPacket(
|
||
|
rtp_header, payload, kPayloadLengthBytes, kReceiveTime));
|
||
|
EXPECT_EQ(1, packet_buffer_->NumPacketsInBuffer());
|
||
|
const RTPHeader* test_header = packet_buffer_->NextRtpHeader();
|
||
|
EXPECT_EQ(rtp_header.header.timestamp, test_header->timestamp);
|
||
|
EXPECT_EQ(rtp_header.header.sequenceNumber, test_header->sequenceNumber);
|
||
|
}
|
||
|
|
||
|
// This test verifies that timestamps propagate from the incoming packets
|
||
|
// through to the sync buffer and to the playout timestamp.
|
||
|
TEST_F(NetEqImplTest, VerifyTimestampPropagation) {
|
||
|
UseNoMocks();
|
||
|
CreateInstance();
|
||
|
|
||
|
const uint8_t kPayloadType = 17; // Just an arbitrary number.
|
||
|
const uint32_t kReceiveTime = 17; // Value doesn't matter for this test.
|
||
|
const int kSampleRateHz = 8000;
|
||
|
const int kPayloadLengthSamples = 10 * kSampleRateHz / 1000; // 10 ms.
|
||
|
const size_t kPayloadLengthBytes = kPayloadLengthSamples;
|
||
|
uint8_t payload[kPayloadLengthBytes] = {0};
|
||
|
WebRtcRTPHeader rtp_header;
|
||
|
rtp_header.header.payloadType = kPayloadType;
|
||
|
rtp_header.header.sequenceNumber = 0x1234;
|
||
|
rtp_header.header.timestamp = 0x12345678;
|
||
|
rtp_header.header.ssrc = 0x87654321;
|
||
|
|
||
|
// This is a dummy decoder that produces as many output samples as the input
|
||
|
// has bytes. The output is an increasing series, starting at 1 for the first
|
||
|
// sample, and then increasing by 1 for each sample.
|
||
|
class CountingSamplesDecoder : public AudioDecoder {
|
||
|
public:
|
||
|
explicit CountingSamplesDecoder(enum NetEqDecoder type)
|
||
|
: AudioDecoder(type), next_value_(1) {}
|
||
|
|
||
|
// Produce as many samples as input bytes (|encoded_len|).
|
||
|
virtual int Decode(const uint8_t* encoded,
|
||
|
size_t encoded_len,
|
||
|
int16_t* decoded,
|
||
|
SpeechType* speech_type) {
|
||
|
for (size_t i = 0; i < encoded_len; ++i) {
|
||
|
decoded[i] = next_value_++;
|
||
|
}
|
||
|
*speech_type = kSpeech;
|
||
|
return encoded_len;
|
||
|
}
|
||
|
|
||
|
virtual int Init() {
|
||
|
next_value_ = 1;
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
uint16_t next_value() const { return next_value_; }
|
||
|
|
||
|
private:
|
||
|
int16_t next_value_;
|
||
|
} decoder_(kDecoderPCM16B);
|
||
|
|
||
|
EXPECT_EQ(NetEq::kOK,
|
||
|
neteq_->RegisterExternalDecoder(
|
||
|
&decoder_, kDecoderPCM16B, kPayloadType));
|
||
|
|
||
|
// Insert one packet.
|
||
|
EXPECT_EQ(NetEq::kOK,
|
||
|
neteq_->InsertPacket(
|
||
|
rtp_header, payload, kPayloadLengthBytes, kReceiveTime));
|
||
|
|
||
|
// Pull audio once.
|
||
|
const int kMaxOutputSize = 10 * kSampleRateHz / 1000;
|
||
|
int16_t output[kMaxOutputSize];
|
||
|
int samples_per_channel;
|
||
|
int num_channels;
|
||
|
NetEqOutputType type;
|
||
|
EXPECT_EQ(
|
||
|
NetEq::kOK,
|
||
|
neteq_->GetAudio(
|
||
|
kMaxOutputSize, output, &samples_per_channel, &num_channels, &type));
|
||
|
ASSERT_EQ(kMaxOutputSize, samples_per_channel);
|
||
|
EXPECT_EQ(1, num_channels);
|
||
|
EXPECT_EQ(kOutputNormal, type);
|
||
|
|
||
|
// Start with a simple check that the fake decoder is behaving as expected.
|
||
|
EXPECT_EQ(kPayloadLengthSamples, decoder_.next_value() - 1);
|
||
|
|
||
|
// The value of the last of the output samples is the same as the number of
|
||
|
// samples played from the decoded packet. Thus, this number + the RTP
|
||
|
// timestamp should match the playout timestamp.
|
||
|
uint32_t timestamp = 0;
|
||
|
EXPECT_TRUE(neteq_->GetPlayoutTimestamp(×tamp));
|
||
|
EXPECT_EQ(rtp_header.header.timestamp + output[samples_per_channel - 1],
|
||
|
timestamp);
|
||
|
|
||
|
// Check the timestamp for the last value in the sync buffer. This should
|
||
|
// be one full frame length ahead of the RTP timestamp.
|
||
|
const SyncBuffer* sync_buffer = neteq_->sync_buffer_for_test();
|
||
|
ASSERT_TRUE(sync_buffer != NULL);
|
||
|
EXPECT_EQ(rtp_header.header.timestamp + kPayloadLengthSamples,
|
||
|
sync_buffer->end_timestamp());
|
||
|
|
||
|
// Check that the number of samples still to play from the sync buffer add
|
||
|
// up with what was already played out.
|
||
|
EXPECT_EQ(kPayloadLengthSamples - output[samples_per_channel - 1],
|
||
|
static_cast<int>(sync_buffer->FutureLength()));
|
||
|
}
|
||
|
|
||
|
} // namespace webrtc
|