quic/core/congestion_control/prr_sender_test.cc - quiche - Git at Google

 // Copyright (c) 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "net/third_party/quiche/src/quic/core/congestion_control/prr_sender.h"

 #include <algorithm>

 #include "net/third_party/quiche/src/quic/core/crypto/crypto_protocol.h"
 #include "net/third_party/quiche/src/quic/core/quic_constants.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_test.h"

 namespace quic {
 namespace test {

 namespace {
 // Constant based on TCP defaults.
 const QuicByteCount kMaxSegmentSize = kDefaultTCPMSS;
 }  // namespace

 class PrrSenderTest : public QuicTest {};

 TEST_F(PrrSenderTest, SingleLossResultsInSendOnEveryOtherAck) {
   PrrSender prr;
   QuicPacketCount num_packets_in_flight = 50;
   QuicByteCount bytes_in_flight = num_packets_in_flight * kMaxSegmentSize;
   const QuicPacketCount ssthresh_after_loss = num_packets_in_flight / 2;
   const QuicByteCount congestion_window = ssthresh_after_loss * kMaxSegmentSize;

   prr.OnPacketLost(bytes_in_flight);
   // Ack a packet. PRR allows one packet to leave immediately.
   prr.OnPacketAcked(kMaxSegmentSize);
   bytes_in_flight -= kMaxSegmentSize;
   EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
                           ssthresh_after_loss * kMaxSegmentSize));
   // Send retransmission.
   prr.OnPacketSent(kMaxSegmentSize);
   // PRR shouldn't allow sending any more packets.
   EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
                            ssthresh_after_loss * kMaxSegmentSize));

   // One packet is lost, and one ack was consumed above. PRR now paces
   // transmissions through the remaining 48 acks. PRR will alternatively
   // disallow and allow a packet to be sent in response to an ack.
   for (uint64_t i = 0; i < ssthresh_after_loss - 1; ++i) {
     // Ack a packet. PRR shouldn't allow sending a packet in response.
     prr.OnPacketAcked(kMaxSegmentSize);
     bytes_in_flight -= kMaxSegmentSize;
     EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
                              ssthresh_after_loss * kMaxSegmentSize));
     // Ack another packet. PRR should now allow sending a packet in response.
     prr.OnPacketAcked(kMaxSegmentSize);
     bytes_in_flight -= kMaxSegmentSize;
     EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
                             ssthresh_after_loss * kMaxSegmentSize));
     // Send a packet in response.
     prr.OnPacketSent(kMaxSegmentSize);
     bytes_in_flight += kMaxSegmentSize;
   }

   // Since bytes_in_flight is now equal to congestion_window, PRR now maintains
   // packet conservation, allowing one packet to be sent in response to an ack.
   EXPECT_EQ(congestion_window, bytes_in_flight);
   for (int i = 0; i < 10; ++i) {
     // Ack a packet.
     prr.OnPacketAcked(kMaxSegmentSize);
     bytes_in_flight -= kMaxSegmentSize;
     EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
                             ssthresh_after_loss * kMaxSegmentSize));
     // Send a packet in response, since PRR allows it.
     prr.OnPacketSent(kMaxSegmentSize);
     bytes_in_flight += kMaxSegmentSize;

     // Since bytes_in_flight is equal to the congestion_window,
     // PRR disallows sending.
     EXPECT_EQ(congestion_window, bytes_in_flight);
     EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
                              ssthresh_after_loss * kMaxSegmentSize));
   }
 }

 TEST_F(PrrSenderTest, BurstLossResultsInSlowStart) {
   PrrSender prr;
   QuicByteCount bytes_in_flight = 20 * kMaxSegmentSize;
   const QuicPacketCount num_packets_lost = 13;
   const QuicPacketCount ssthresh_after_loss = 10;
   const QuicByteCount congestion_window = ssthresh_after_loss * kMaxSegmentSize;

   // Lose 13 packets.
   bytes_in_flight -= num_packets_lost * kMaxSegmentSize;
   prr.OnPacketLost(bytes_in_flight);

   // PRR-SSRB will allow the following 3 acks to send up to 2 packets.
   for (int i = 0; i < 3; ++i) {
     prr.OnPacketAcked(kMaxSegmentSize);
     bytes_in_flight -= kMaxSegmentSize;
     // PRR-SSRB should allow two packets to be sent.
     for (int j = 0; j < 2; ++j) {
       EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
                               ssthresh_after_loss * kMaxSegmentSize));
       // Send a packet in response.
       prr.OnPacketSent(kMaxSegmentSize);
       bytes_in_flight += kMaxSegmentSize;
     }
     // PRR should allow no more than 2 packets in response to an ack.
     EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
                              ssthresh_after_loss * kMaxSegmentSize));
   }

   // Out of SSRB mode, PRR allows one send in response to each ack.
   for (int i = 0; i < 10; ++i) {
     prr.OnPacketAcked(kMaxSegmentSize);
     bytes_in_flight -= kMaxSegmentSize;
     EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
                             ssthresh_after_loss * kMaxSegmentSize));
     // Send a packet in response.
     prr.OnPacketSent(kMaxSegmentSize);
     bytes_in_flight += kMaxSegmentSize;
   }
 }

 }  // namespace test
 }  // namespace quic
	// Copyright (c) 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "net/third_party/quiche/src/quic/core/congestion_control/prr_sender.h"

	#include <algorithm>

	#include "net/third_party/quiche/src/quic/core/crypto/crypto_protocol.h"
	#include "net/third_party/quiche/src/quic/core/quic_constants.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_test.h"

	namespace quic {
	namespace test {

	namespace {
	// Constant based on TCP defaults.
	const QuicByteCount kMaxSegmentSize = kDefaultTCPMSS;
	} // namespace

	class PrrSenderTest : public QuicTest {};

	TEST_F(PrrSenderTest, SingleLossResultsInSendOnEveryOtherAck) {
	PrrSender prr;
	QuicPacketCount num_packets_in_flight = 50;
	QuicByteCount bytes_in_flight = num_packets_in_flight * kMaxSegmentSize;
	const QuicPacketCount ssthresh_after_loss = num_packets_in_flight / 2;
	const QuicByteCount congestion_window = ssthresh_after_loss * kMaxSegmentSize;

	prr.OnPacketLost(bytes_in_flight);
	// Ack a packet. PRR allows one packet to leave immediately.
	prr.OnPacketAcked(kMaxSegmentSize);
	bytes_in_flight -= kMaxSegmentSize;
	EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	// Send retransmission.
	prr.OnPacketSent(kMaxSegmentSize);
	// PRR shouldn't allow sending any more packets.
	EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));

	// One packet is lost, and one ack was consumed above. PRR now paces
	// transmissions through the remaining 48 acks. PRR will alternatively
	// disallow and allow a packet to be sent in response to an ack.
	for (uint64_t i = 0; i < ssthresh_after_loss - 1; ++i) {
	// Ack a packet. PRR shouldn't allow sending a packet in response.
	prr.OnPacketAcked(kMaxSegmentSize);
	bytes_in_flight -= kMaxSegmentSize;
	EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	// Ack another packet. PRR should now allow sending a packet in response.
	prr.OnPacketAcked(kMaxSegmentSize);
	bytes_in_flight -= kMaxSegmentSize;
	EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	// Send a packet in response.
	prr.OnPacketSent(kMaxSegmentSize);
	bytes_in_flight += kMaxSegmentSize;
	}

	// Since bytes_in_flight is now equal to congestion_window, PRR now maintains
	// packet conservation, allowing one packet to be sent in response to an ack.
	EXPECT_EQ(congestion_window, bytes_in_flight);
	for (int i = 0; i < 10; ++i) {
	// Ack a packet.
	prr.OnPacketAcked(kMaxSegmentSize);
	bytes_in_flight -= kMaxSegmentSize;
	EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	// Send a packet in response, since PRR allows it.
	prr.OnPacketSent(kMaxSegmentSize);
	bytes_in_flight += kMaxSegmentSize;

	// Since bytes_in_flight is equal to the congestion_window,
	// PRR disallows sending.
	EXPECT_EQ(congestion_window, bytes_in_flight);
	EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	}
	}

	TEST_F(PrrSenderTest, BurstLossResultsInSlowStart) {
	PrrSender prr;
	QuicByteCount bytes_in_flight = 20 * kMaxSegmentSize;
	const QuicPacketCount num_packets_lost = 13;
	const QuicPacketCount ssthresh_after_loss = 10;
	const QuicByteCount congestion_window = ssthresh_after_loss * kMaxSegmentSize;

	// Lose 13 packets.
	bytes_in_flight -= num_packets_lost * kMaxSegmentSize;
	prr.OnPacketLost(bytes_in_flight);

	// PRR-SSRB will allow the following 3 acks to send up to 2 packets.
	for (int i = 0; i < 3; ++i) {
	prr.OnPacketAcked(kMaxSegmentSize);
	bytes_in_flight -= kMaxSegmentSize;
	// PRR-SSRB should allow two packets to be sent.
	for (int j = 0; j < 2; ++j) {
	EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	// Send a packet in response.
	prr.OnPacketSent(kMaxSegmentSize);
	bytes_in_flight += kMaxSegmentSize;
	}
	// PRR should allow no more than 2 packets in response to an ack.
	EXPECT_FALSE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	}

	// Out of SSRB mode, PRR allows one send in response to each ack.
	for (int i = 0; i < 10; ++i) {
	prr.OnPacketAcked(kMaxSegmentSize);
	bytes_in_flight -= kMaxSegmentSize;
	EXPECT_TRUE(prr.CanSend(congestion_window, bytes_in_flight,
	ssthresh_after_loss * kMaxSegmentSize));
	// Send a packet in response.
	prr.OnPacketSent(kMaxSegmentSize);
	bytes_in_flight += kMaxSegmentSize;
	}
	}

	} // namespace test
	} // namespace quic