/*
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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 "testing/gmock/include/gmock/gmock.h"
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#include "testing/gtest/include/gtest/gtest.h"
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#include "webrtc/base/scoped_ptr.h"
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#include "webrtc/call.h"
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#include "webrtc/system_wrappers/include/clock.h"
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#include "webrtc/test/fake_network_pipe.h"
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using ::testing::_;
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using ::testing::AnyNumber;
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using ::testing::Return;
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using ::testing::Invoke;
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namespace webrtc {
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class MockReceiver : public PacketReceiver {
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public:
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MockReceiver() {}
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virtual ~MockReceiver() {}
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void IncomingPacket(const uint8_t* data, size_t length) {
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DeliverPacket(MediaType::ANY, data, length, PacketTime());
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delete [] data;
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}
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MOCK_METHOD4(
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DeliverPacket,
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DeliveryStatus(MediaType, const uint8_t*, size_t, const PacketTime&));
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};
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class FakeNetworkPipeTest : public ::testing::Test {
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public:
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FakeNetworkPipeTest() : fake_clock_(12345) {}
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protected:
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virtual void SetUp() {
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receiver_.reset(new MockReceiver());
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ON_CALL(*receiver_, DeliverPacket(_, _, _, _))
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.WillByDefault(Return(PacketReceiver::DELIVERY_OK));
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}
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virtual void TearDown() {
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}
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void SendPackets(FakeNetworkPipe* pipe, int number_packets, int kPacketSize) {
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rtc::scoped_ptr<uint8_t[]> packet(new uint8_t[kPacketSize]);
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for (int i = 0; i < number_packets; ++i) {
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pipe->SendPacket(packet.get(), kPacketSize);
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}
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}
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int PacketTimeMs(int capacity_kbps, int kPacketSize) const {
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return 8 * kPacketSize / capacity_kbps;
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}
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SimulatedClock fake_clock_;
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rtc::scoped_ptr<MockReceiver> receiver_;
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};
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void DeleteMemory(uint8_t* data, int length) { delete [] data; }
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// Test the capacity link and verify we get as many packets as we expect.
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TEST_F(FakeNetworkPipeTest, CapacityTest) {
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FakeNetworkPipe::Config config;
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config.queue_length_packets = 20;
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config.link_capacity_kbps = 80;
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rtc::scoped_ptr<FakeNetworkPipe> pipe(
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new FakeNetworkPipe(&fake_clock_, config));
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pipe->SetReceiver(receiver_.get());
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// Add 10 packets of 1000 bytes, = 80 kb, and verify it takes one second to
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// get through the pipe.
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const int kNumPackets = 10;
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const int kPacketSize = 1000;
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SendPackets(pipe.get(), kNumPackets , kPacketSize);
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// Time to get one packet through the link.
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const int kPacketTimeMs = PacketTimeMs(config.link_capacity_kbps,
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kPacketSize);
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// Time haven't increased yet, so we souldn't get any packets.
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(0);
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pipe->Process();
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// Advance enough time to release one packet.
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fake_clock_.AdvanceTimeMilliseconds(kPacketTimeMs);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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// Release all but one packet
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fake_clock_.AdvanceTimeMilliseconds(9 * kPacketTimeMs - 1);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(8);
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pipe->Process();
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// And the last one.
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fake_clock_.AdvanceTimeMilliseconds(1);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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}
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// Test the extra network delay.
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TEST_F(FakeNetworkPipeTest, ExtraDelayTest) {
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FakeNetworkPipe::Config config;
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config.queue_length_packets = 20;
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config.queue_delay_ms = 100;
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config.link_capacity_kbps = 80;
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rtc::scoped_ptr<FakeNetworkPipe> pipe(
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new FakeNetworkPipe(&fake_clock_, config));
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pipe->SetReceiver(receiver_.get());
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const int kNumPackets = 2;
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const int kPacketSize = 1000;
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SendPackets(pipe.get(), kNumPackets , kPacketSize);
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// Time to get one packet through the link.
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const int kPacketTimeMs = PacketTimeMs(config.link_capacity_kbps,
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kPacketSize);
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// Increase more than kPacketTimeMs, but not more than the extra delay.
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fake_clock_.AdvanceTimeMilliseconds(kPacketTimeMs);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(0);
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pipe->Process();
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// Advance the network delay to get the first packet.
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fake_clock_.AdvanceTimeMilliseconds(config.queue_delay_ms);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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// Advance one more kPacketTimeMs to get the last packet.
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fake_clock_.AdvanceTimeMilliseconds(kPacketTimeMs);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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}
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// Test the number of buffers and packets are dropped when sending too many
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// packets too quickly.
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TEST_F(FakeNetworkPipeTest, QueueLengthTest) {
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FakeNetworkPipe::Config config;
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config.queue_length_packets = 2;
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config.link_capacity_kbps = 80;
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rtc::scoped_ptr<FakeNetworkPipe> pipe(
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new FakeNetworkPipe(&fake_clock_, config));
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pipe->SetReceiver(receiver_.get());
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const int kPacketSize = 1000;
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const int kPacketTimeMs = PacketTimeMs(config.link_capacity_kbps,
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kPacketSize);
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// Send three packets and verify only 2 are delivered.
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SendPackets(pipe.get(), 3, kPacketSize);
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// Increase time enough to deliver all three packets, verify only two are
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// delivered.
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fake_clock_.AdvanceTimeMilliseconds(3 * kPacketTimeMs);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(2);
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pipe->Process();
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}
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// Test we get statistics as expected.
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TEST_F(FakeNetworkPipeTest, StatisticsTest) {
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FakeNetworkPipe::Config config;
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config.queue_length_packets = 2;
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config.queue_delay_ms = 20;
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config.link_capacity_kbps = 80;
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rtc::scoped_ptr<FakeNetworkPipe> pipe(
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new FakeNetworkPipe(&fake_clock_, config));
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pipe->SetReceiver(receiver_.get());
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const int kPacketSize = 1000;
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const int kPacketTimeMs = PacketTimeMs(config.link_capacity_kbps,
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kPacketSize);
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// Send three packets and verify only 2 are delivered.
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SendPackets(pipe.get(), 3, kPacketSize);
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fake_clock_.AdvanceTimeMilliseconds(3 * kPacketTimeMs +
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config.queue_delay_ms);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(2);
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pipe->Process();
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// Packet 1: kPacketTimeMs + config.queue_delay_ms,
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// packet 2: 2 * kPacketTimeMs + config.queue_delay_ms => 170 ms average.
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EXPECT_EQ(pipe->AverageDelay(), 170);
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EXPECT_EQ(pipe->sent_packets(), 2u);
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EXPECT_EQ(pipe->dropped_packets(), 1u);
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EXPECT_EQ(pipe->PercentageLoss(), 1/3.f);
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}
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// Change the link capacity half-way through the test and verify that the
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// delivery times change accordingly.
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TEST_F(FakeNetworkPipeTest, ChangingCapacityWithEmptyPipeTest) {
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FakeNetworkPipe::Config config;
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config.queue_length_packets = 20;
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config.link_capacity_kbps = 80;
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rtc::scoped_ptr<FakeNetworkPipe> pipe(
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new FakeNetworkPipe(&fake_clock_, config));
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pipe->SetReceiver(receiver_.get());
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// Add 10 packets of 1000 bytes, = 80 kb, and verify it takes one second to
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// get through the pipe.
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const int kNumPackets = 10;
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const int kPacketSize = 1000;
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SendPackets(pipe.get(), kNumPackets, kPacketSize);
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// Time to get one packet through the link.
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int packet_time_ms = PacketTimeMs(config.link_capacity_kbps, kPacketSize);
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// Time hasn't increased yet, so we souldn't get any packets.
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(0);
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pipe->Process();
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// Advance time in steps to release one packet at a time.
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for (int i = 0; i < kNumPackets; ++i) {
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fake_clock_.AdvanceTimeMilliseconds(packet_time_ms);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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}
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// Change the capacity.
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config.link_capacity_kbps /= 2; // Reduce to 50%.
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pipe->SetConfig(config);
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// Add another 10 packets of 1000 bytes, = 80 kb, and verify it takes two
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// seconds to get them through the pipe.
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SendPackets(pipe.get(), kNumPackets, kPacketSize);
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// Time to get one packet through the link.
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packet_time_ms = PacketTimeMs(config.link_capacity_kbps, kPacketSize);
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// Time hasn't increased yet, so we souldn't get any packets.
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(0);
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pipe->Process();
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// Advance time in steps to release one packet at a time.
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for (int i = 0; i < kNumPackets; ++i) {
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fake_clock_.AdvanceTimeMilliseconds(packet_time_ms);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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}
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// Check that all the packets were sent.
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EXPECT_EQ(static_cast<size_t>(2 * kNumPackets), pipe->sent_packets());
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fake_clock_.AdvanceTimeMilliseconds(pipe->TimeUntilNextProcess());
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(0);
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pipe->Process();
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}
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// Change the link capacity half-way through the test and verify that the
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// delivery times change accordingly.
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TEST_F(FakeNetworkPipeTest, ChangingCapacityWithPacketsInPipeTest) {
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FakeNetworkPipe::Config config;
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config.queue_length_packets = 20;
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config.link_capacity_kbps = 80;
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rtc::scoped_ptr<FakeNetworkPipe> pipe(
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new FakeNetworkPipe(&fake_clock_, config));
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pipe->SetReceiver(receiver_.get());
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// Add 10 packets of 1000 bytes, = 80 kb.
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const int kNumPackets = 10;
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const int kPacketSize = 1000;
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SendPackets(pipe.get(), kNumPackets, kPacketSize);
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// Time to get one packet through the link at the initial speed.
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int packet_time_1_ms = PacketTimeMs(config.link_capacity_kbps, kPacketSize);
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// Change the capacity.
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config.link_capacity_kbps *= 2; // Double the capacity.
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pipe->SetConfig(config);
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// Add another 10 packets of 1000 bytes, = 80 kb, and verify it takes two
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// seconds to get them through the pipe.
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SendPackets(pipe.get(), kNumPackets, kPacketSize);
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// Time to get one packet through the link at the new capacity.
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int packet_time_2_ms = PacketTimeMs(config.link_capacity_kbps, kPacketSize);
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// Time hasn't increased yet, so we souldn't get any packets.
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(0);
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pipe->Process();
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// Advance time in steps to release one packet at a time.
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for (int i = 0; i < kNumPackets; ++i) {
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fake_clock_.AdvanceTimeMilliseconds(packet_time_1_ms);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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}
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// Advance time in steps to release one packet at a time.
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for (int i = 0; i < kNumPackets; ++i) {
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fake_clock_.AdvanceTimeMilliseconds(packet_time_2_ms);
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(1);
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pipe->Process();
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}
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// Check that all the packets were sent.
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EXPECT_EQ(static_cast<size_t>(2 * kNumPackets), pipe->sent_packets());
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fake_clock_.AdvanceTimeMilliseconds(pipe->TimeUntilNextProcess());
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EXPECT_CALL(*receiver_, DeliverPacket(_, _, _, _)).Times(0);
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pipe->Process();
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}
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} // namespace webrtc
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