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android / platform / external / chromium_org / 1081061 / . / net / quic / quic_unacked_packet_map_test.cc
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// Copyright 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/quic/quic_unacked_packet_map.h"
#include "net/quic/test_tools/quic_test_utils.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace net {
namespace test {
namespace {
// Default packet length.
const uint32 kDefaultAckLength = 50;
const uint32 kDefaultLength = 1000;
class QuicUnackedPacketMapTest : public ::testing::Test {
protected:
QuicUnackedPacketMapTest()
: now_(QuicTime::Zero().Add(QuicTime::Delta::FromMilliseconds(1000))) {
}
SerializedPacket CreateRetransmittablePacket(
QuicPacketSequenceNumber sequence_number) {
return SerializedPacket(sequence_number, PACKET_1BYTE_SEQUENCE_NUMBER, NULL,
0, new RetransmittableFrames());
}
SerializedPacket CreateNonRetransmittablePacket(
QuicPacketSequenceNumber sequence_number) {
return SerializedPacket(
sequence_number, PACKET_1BYTE_SEQUENCE_NUMBER, NULL, 0, NULL);
}
void VerifyPendingPackets(QuicPacketSequenceNumber* packets,
size_t num_packets) {
if (num_packets == 0) {
EXPECT_FALSE(unacked_packets_.HasInFlightPackets());
EXPECT_FALSE(unacked_packets_.HasMultipleInFlightPackets());
return;
}
if (num_packets == 1) {
EXPECT_TRUE(unacked_packets_.HasInFlightPackets());
EXPECT_FALSE(unacked_packets_.HasMultipleInFlightPackets());
}
for (size_t i = 0; i < num_packets; ++i) {
ASSERT_TRUE(unacked_packets_.IsUnacked(packets[i]));
EXPECT_TRUE(unacked_packets_.GetTransmissionInfo(packets[i]).in_flight);
}
}
void VerifyUnackedPackets(QuicPacketSequenceNumber* packets,
size_t num_packets) {
if (num_packets == 0) {
EXPECT_FALSE(unacked_packets_.HasUnackedPackets());
EXPECT_FALSE(unacked_packets_.HasUnackedRetransmittableFrames());
return;
}
EXPECT_TRUE(unacked_packets_.HasUnackedPackets());
for (size_t i = 0; i < num_packets; ++i) {
EXPECT_TRUE(unacked_packets_.IsUnacked(packets[i])) << packets[i];
}
}
void VerifyRetransmittablePackets(QuicPacketSequenceNumber* packets,
size_t num_packets) {
size_t num_retransmittable_packets = 0;
for (QuicUnackedPacketMap::const_iterator it = unacked_packets_.begin();
it != unacked_packets_.end(); ++it) {
if (it->second.retransmittable_frames != NULL) {
++num_retransmittable_packets;
}
}
EXPECT_EQ(num_packets, num_retransmittable_packets);
for (size_t i = 0; i < num_packets; ++i) {
EXPECT_TRUE(unacked_packets_.HasRetransmittableFrames(packets[i]))
<< " packets[" << i << "]:" << packets[i];
}
}
QuicUnackedPacketMap unacked_packets_;
QuicTime now_;
};
TEST_F(QuicUnackedPacketMapTest, RttOnly) {
// Acks are only tracked for RTT measurement purposes.
unacked_packets_.AddPacket(CreateNonRetransmittablePacket(1));
unacked_packets_.SetSent(1, now_, kDefaultAckLength, false);
QuicPacketSequenceNumber unacked[] = { 1 };
VerifyUnackedPackets(unacked, arraysize(unacked));
VerifyPendingPackets(NULL, 0);
VerifyRetransmittablePackets(NULL, 0);
unacked_packets_.IncreaseLargestObserved(1);
VerifyUnackedPackets(NULL, 0);
VerifyPendingPackets(NULL, 0);
VerifyRetransmittablePackets(NULL, 0);
}
TEST_F(QuicUnackedPacketMapTest, RetransmittableInflightAndRtt) {
// Simulate a retransmittable packet being sent and acked.
unacked_packets_.AddPacket(CreateRetransmittablePacket(1));
unacked_packets_.SetSent(1, now_, kDefaultLength, true);
QuicPacketSequenceNumber unacked[] = { 1 };
VerifyUnackedPackets(unacked, arraysize(unacked));
VerifyPendingPackets(unacked, arraysize(unacked));
VerifyRetransmittablePackets(unacked, arraysize(unacked));
unacked_packets_.RemoveRetransmittability(1);
VerifyUnackedPackets(unacked, arraysize(unacked));
VerifyPendingPackets(unacked, arraysize(unacked));
VerifyRetransmittablePackets(NULL, 0);
unacked_packets_.IncreaseLargestObserved(1);
VerifyUnackedPackets(unacked, arraysize(unacked));
VerifyPendingPackets(unacked, arraysize(unacked));
VerifyRetransmittablePackets(NULL, 0);
unacked_packets_.RemoveFromInFlight(1);
VerifyUnackedPackets(NULL, 0);
VerifyPendingPackets(NULL, 0);
VerifyRetransmittablePackets(NULL, 0);
}
TEST_F(QuicUnackedPacketMapTest, RetransmittedPacket) {
// Simulate a retransmittable packet being sent, retransmitted, and the first
// transmission being acked.
unacked_packets_.AddPacket(CreateRetransmittablePacket(1));
unacked_packets_.SetSent(1, now_, kDefaultLength, true);
unacked_packets_.OnRetransmittedPacket(1, 2, LOSS_RETRANSMISSION);
unacked_packets_.SetSent(2, now_, kDefaultLength, true);
QuicPacketSequenceNumber unacked[] = { 1, 2 };
VerifyUnackedPackets(unacked, arraysize(unacked));
VerifyPendingPackets(unacked, arraysize(unacked));
QuicPacketSequenceNumber retransmittable[] = { 2 };
VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable));
unacked_packets_.RemoveRetransmittability(1);
VerifyUnackedPackets(unacked, arraysize(unacked));
VerifyPendingPackets(unacked, arraysize(unacked));
VerifyRetransmittablePackets(NULL, 0);
unacked_packets_.IncreaseLargestObserved(2);
VerifyUnackedPackets(unacked, arraysize(unacked));
VerifyPendingPackets(unacked, arraysize(unacked));
VerifyRetransmittablePackets(NULL, 0);
unacked_packets_.RemoveFromInFlight(2);
QuicPacketSequenceNumber unacked2[] = { 1 };
VerifyUnackedPackets(unacked, arraysize(unacked2));
VerifyPendingPackets(unacked, arraysize(unacked2));
VerifyRetransmittablePackets(NULL, 0);
unacked_packets_.RemoveFromInFlight(1);
VerifyUnackedPackets(NULL, 0);
VerifyPendingPackets(NULL, 0);
VerifyRetransmittablePackets(NULL, 0);
}
} // namespace
} // namespace test
} // namespace net