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android / platform / external / chromium_org / d57369d / . / net / quic / quic_packet_creator_test.cc
blob: 33f2e5c3010aa94bcf0307d634f571f325a7be9f [file] [log] [blame]
// Copyright (c) 2012 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_packet_creator.h"
#include "base/stl_util.h"
#include "net/quic/crypto/null_encrypter.h"
#include "net/quic/crypto/quic_decrypter.h"
#include "net/quic/crypto/quic_encrypter.h"
#include "net/quic/quic_utils.h"
#include "net/quic/test_tools/mock_random.h"
#include "net/quic/test_tools/quic_packet_creator_peer.h"
#include "net/quic/test_tools/quic_test_utils.h"
#include "testing/gmock/include/gmock/gmock.h"
using base::StringPiece;
using std::string;
using std::vector;
using testing::DoAll;
using testing::InSequence;
using testing::Return;
using testing::SaveArg;
using testing::_;
namespace net {
namespace test {
namespace {
class QuicPacketCreatorTest : public ::testing::TestWithParam<bool> {
protected:
QuicPacketCreatorTest()
: server_framer_(QuicSupportedVersions(), QuicTime::Zero(), true),
client_framer_(QuicSupportedVersions(), QuicTime::Zero(), false),
sequence_number_(0),
guid_(2),
data_("foo"),
creator_(guid_, &client_framer_, &mock_random_, false) {
client_framer_.set_visitor(&framer_visitor_);
server_framer_.set_visitor(&framer_visitor_);
}
~QuicPacketCreatorTest() {
}
void ProcessPacket(QuicPacket* packet) {
scoped_ptr<QuicEncryptedPacket> encrypted(
server_framer_.EncryptPacket(ENCRYPTION_NONE, sequence_number_,
*packet));
server_framer_.ProcessPacket(*encrypted);
}
void CheckStreamFrame(const QuicFrame& frame,
QuicStreamId stream_id,
const string& data,
QuicStreamOffset offset,
bool fin) {
EXPECT_EQ(STREAM_FRAME, frame.type);
ASSERT_TRUE(frame.stream_frame);
EXPECT_EQ(stream_id, frame.stream_frame->stream_id);
scoped_ptr<string> frame_data(frame.stream_frame->GetDataAsString());
EXPECT_EQ(data, *frame_data);
EXPECT_EQ(offset, frame.stream_frame->offset);
EXPECT_EQ(fin, frame.stream_frame->fin);
}
// Returns the number of bytes consumed by the header of packet, including
// the version, that is not in an FEC group.
size_t GetPacketHeaderOverhead() {
return GetPacketHeaderSize(creator_.options()->send_guid_length,
kIncludeVersion,
creator_.options()->send_sequence_number_length,
NOT_IN_FEC_GROUP);
}
// Returns the number of bytes of overhead that will be added to a packet
// of maximum length.
size_t GetEncryptionOverhead() {
return creator_.options()->max_packet_length -
client_framer_.GetMaxPlaintextSize(
creator_.options()->max_packet_length);
}
// Returns the number of bytes consumed by the non-data fields of a stream
// frame, assuming it is the last frame in the packet
size_t GetStreamFrameOverhead() {
return QuicFramer::GetMinStreamFrameSize(
client_framer_.version(), kStreamId, kOffset, true);
}
static const QuicStreamId kStreamId = 1u;
static const QuicStreamOffset kOffset = 1u;
QuicFrames frames_;
QuicFramer server_framer_;
QuicFramer client_framer_;
testing::StrictMock<MockFramerVisitor> framer_visitor_;
QuicPacketSequenceNumber sequence_number_;
QuicGuid guid_;
string data_;
MockRandom mock_random_;
QuicPacketCreator creator_;
};
TEST_F(QuicPacketCreatorTest, SerializeFrames) {
frames_.push_back(QuicFrame(new QuicAckFrame(0u, QuicTime::Zero(), 0u)));
frames_.push_back(QuicFrame(new QuicStreamFrame(0u, false, 0u, IOVector())));
frames_.push_back(QuicFrame(new QuicStreamFrame(0u, true, 0u, IOVector())));
SerializedPacket serialized = creator_.SerializeAllFrames(frames_);
delete frames_[0].ack_frame;
delete frames_[1].stream_frame;
delete frames_[2].stream_frame;
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnAckFrame(_));
EXPECT_CALL(framer_visitor_, OnStreamFrame(_));
EXPECT_CALL(framer_visitor_, OnStreamFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
}
TEST_F(QuicPacketCreatorTest, SerializeWithFEC) {
creator_.options()->max_packets_per_fec_group = 6;
ASSERT_FALSE(creator_.ShouldSendFec(false));
frames_.push_back(QuicFrame(new QuicStreamFrame(0u, false, 0u, IOVector())));
SerializedPacket serialized = creator_.SerializeAllFrames(frames_);
delete frames_[0].stream_frame;
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnFecProtectedPayload(_));
EXPECT_CALL(framer_visitor_, OnStreamFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
ASSERT_FALSE(creator_.ShouldSendFec(false));
ASSERT_TRUE(creator_.ShouldSendFec(true));
serialized = creator_.SerializeFec();
ASSERT_EQ(2u, serialized.sequence_number);
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnFecData(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
}
TEST_F(QuicPacketCreatorTest, SerializeChangingSequenceNumberLength) {
frames_.push_back(QuicFrame(new QuicAckFrame(0u, QuicTime::Zero(), 0u)));
creator_.AddSavedFrame(frames_[0]);
creator_.options()->send_sequence_number_length =
PACKET_4BYTE_SEQUENCE_NUMBER;
SerializedPacket serialized = creator_.SerializePacket();
// The sequence number length will not change mid-packet.
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER, serialized.sequence_number_length);
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnAckFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
creator_.AddSavedFrame(frames_[0]);
serialized = creator_.SerializePacket();
// Now the actual sequence number length should have changed.
EXPECT_EQ(PACKET_4BYTE_SEQUENCE_NUMBER, serialized.sequence_number_length);
delete frames_[0].ack_frame;
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnAckFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
}
TEST_F(QuicPacketCreatorTest, SerializeWithFECChangingSequenceNumberLength) {
creator_.options()->max_packets_per_fec_group = 6;
ASSERT_FALSE(creator_.ShouldSendFec(false));
frames_.push_back(QuicFrame(new QuicAckFrame(0u, QuicTime::Zero(), 0u)));
creator_.AddSavedFrame(frames_[0]);
// Change the sequence number length mid-FEC group and it should not change.
creator_.options()->send_sequence_number_length =
PACKET_4BYTE_SEQUENCE_NUMBER;
SerializedPacket serialized = creator_.SerializePacket();
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER, serialized.sequence_number_length);
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnFecProtectedPayload(_));
EXPECT_CALL(framer_visitor_, OnAckFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
ASSERT_FALSE(creator_.ShouldSendFec(false));
ASSERT_TRUE(creator_.ShouldSendFec(true));
serialized = creator_.SerializeFec();
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER, serialized.sequence_number_length);
ASSERT_EQ(2u, serialized.sequence_number);
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnFecData(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
// Ensure the next FEC group starts using the new sequence number length.
serialized = creator_.SerializeAllFrames(frames_);
EXPECT_EQ(PACKET_4BYTE_SEQUENCE_NUMBER, serialized.sequence_number_length);
delete frames_[0].ack_frame;
delete serialized.packet;
}
TEST_F(QuicPacketCreatorTest, ReserializeFramesWithSequenceNumberLength) {
// If the original packet sequence number length, the current sequence number
// length, and the configured send sequence number length are different, the
// retransmit must sent with the original length and the others do not change.
creator_.options()->send_sequence_number_length =
PACKET_4BYTE_SEQUENCE_NUMBER;
QuicPacketCreatorPeer::SetSequenceNumberLength(&creator_,
PACKET_2BYTE_SEQUENCE_NUMBER);
frames_.push_back(QuicFrame(new QuicStreamFrame(0u, false, 0u, IOVector())));
SerializedPacket serialized =
creator_.ReserializeAllFrames(frames_, PACKET_1BYTE_SEQUENCE_NUMBER);
EXPECT_EQ(PACKET_4BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
EXPECT_EQ(PACKET_2BYTE_SEQUENCE_NUMBER,
QuicPacketCreatorPeer::GetSequenceNumberLength(&creator_));
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER, serialized.sequence_number_length);
delete frames_[0].stream_frame;
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnStreamFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
delete serialized.packet;
}
TEST_F(QuicPacketCreatorTest, SerializeConnectionClose) {
QuicConnectionCloseFrame frame;
frame.error_code = QUIC_NO_ERROR;
frame.error_details = "error";
SerializedPacket serialized = creator_.SerializeConnectionClose(&frame);
ASSERT_EQ(1u, serialized.sequence_number);
ASSERT_EQ(1u, creator_.sequence_number());
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_));
EXPECT_CALL(framer_visitor_, OnConnectionCloseFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
ProcessPacket(serialized.packet);
delete serialized.packet;
}
TEST_F(QuicPacketCreatorTest, CreateStreamFrame) {
QuicFrame frame;
size_t consumed = creator_.CreateStreamFrame(1u, MakeIOVector("test"), 0u,
false, &frame);
EXPECT_EQ(4u, consumed);
CheckStreamFrame(frame, 1u, "test", 0u, false);
delete frame.stream_frame;
}
TEST_F(QuicPacketCreatorTest, CreateStreamFrameFin) {
QuicFrame frame;
size_t consumed = creator_.CreateStreamFrame(1u, MakeIOVector("test"), 10u,
true, &frame);
EXPECT_EQ(4u, consumed);
CheckStreamFrame(frame, 1u, "test", 10u, true);
delete frame.stream_frame;
}
TEST_F(QuicPacketCreatorTest, CreateStreamFrameFinOnly) {
QuicFrame frame;
size_t consumed = creator_.CreateStreamFrame(1u, IOVector(), 0u, true,
&frame);
EXPECT_EQ(0u, consumed);
CheckStreamFrame(frame, 1u, string(), 0u, true);
delete frame.stream_frame;
}
TEST_F(QuicPacketCreatorTest, CreateAllFreeBytesForStreamFrames) {
const size_t overhead = GetPacketHeaderOverhead() + GetEncryptionOverhead();
for (size_t i = overhead; i < overhead + 100; ++i) {
creator_.options()->max_packet_length = i;
const bool should_have_room = i > overhead + GetStreamFrameOverhead();
ASSERT_EQ(should_have_room,
creator_.HasRoomForStreamFrame(kStreamId, kOffset));
if (should_have_room) {
QuicFrame frame;
size_t bytes_consumed = creator_.CreateStreamFrame(
kStreamId, MakeIOVector("testdata"), kOffset, false, &frame);
EXPECT_LT(0u, bytes_consumed);
ASSERT_TRUE(creator_.AddSavedFrame(frame));
SerializedPacket serialized_packet = creator_.SerializePacket();
ASSERT_TRUE(serialized_packet.packet);
delete serialized_packet.packet;
delete serialized_packet.retransmittable_frames;
}
}
}
TEST_F(QuicPacketCreatorTest, StreamFrameConsumption) {
// Compute the total overhead for a single frame in packet.
const size_t overhead = GetPacketHeaderOverhead() + GetEncryptionOverhead()
+ GetStreamFrameOverhead();
size_t capacity = kDefaultMaxPacketSize - overhead;
// Now, test various sizes around this size.
for (int delta = -5; delta <= 5; ++delta) {
string data(capacity + delta, 'A');
size_t bytes_free = delta > 0 ? 0 : 0 - delta;
QuicFrame frame;
size_t bytes_consumed = creator_.CreateStreamFrame(
kStreamId, MakeIOVector(data), kOffset, false, &frame);
EXPECT_EQ(capacity - bytes_free, bytes_consumed);
ASSERT_TRUE(creator_.AddSavedFrame(frame));
// BytesFree() returns bytes available for the next frame, which will
// be two bytes smaller since the stream frame would need to be grown.
size_t expected_bytes_free = bytes_free < 3 ? 0 : bytes_free - 2;
EXPECT_EQ(expected_bytes_free, creator_.BytesFree()) << "delta: " << delta;
SerializedPacket serialized_packet = creator_.SerializePacket();
ASSERT_TRUE(serialized_packet.packet);
delete serialized_packet.packet;
delete serialized_packet.retransmittable_frames;
}
}
TEST_F(QuicPacketCreatorTest, CryptoStreamFramePacketPadding) {
// Compute the total overhead for a single frame in packet.
const size_t overhead = GetPacketHeaderOverhead() + GetEncryptionOverhead()
+ GetStreamFrameOverhead();
ASSERT_GT(kMaxPacketSize, overhead);
size_t capacity = kDefaultMaxPacketSize - overhead;
// Now, test various sizes around this size.
for (int delta = -5; delta <= 5; ++delta) {
string data(capacity + delta, 'A');
size_t bytes_free = delta > 0 ? 0 : 0 - delta;
QuicFrame frame;
size_t bytes_consumed = creator_.CreateStreamFrame(
kStreamId, MakeIOVector(data), kOffset, false, &frame);
EXPECT_LT(0u, bytes_consumed);
ASSERT_TRUE(creator_.AddSavedFrame(frame));
SerializedPacket serialized_packet = creator_.SerializePacket();
ASSERT_TRUE(serialized_packet.packet);
// If there is not enough space in the packet to fit a padding frame
// (1 byte) and to expand the stream frame (another 2 bytes) the packet
// will not be padded.
if (bytes_free < 3) {
EXPECT_EQ(client_framer_.GetMaxPlaintextSize(kDefaultMaxPacketSize)
- bytes_free, serialized_packet.packet->length());
} else {
EXPECT_EQ(client_framer_.GetMaxPlaintextSize(kDefaultMaxPacketSize),
serialized_packet.packet->length());
}
delete serialized_packet.packet;
delete serialized_packet.retransmittable_frames;
}
}
TEST_F(QuicPacketCreatorTest, NonCryptoStreamFramePacketNonPadding) {
// Compute the total overhead for a single frame in packet.
const size_t overhead = GetPacketHeaderOverhead() + GetEncryptionOverhead()
+ GetStreamFrameOverhead();
ASSERT_GT(kDefaultMaxPacketSize, overhead);
size_t capacity = kDefaultMaxPacketSize - overhead;
// Now, test various sizes around this size.
for (int delta = -5; delta <= 5; ++delta) {
string data(capacity + delta, 'A');
size_t bytes_free = delta > 0 ? 0 : 0 - delta;
QuicFrame frame;
size_t bytes_consumed = creator_.CreateStreamFrame(
kStreamId + 2, MakeIOVector(data), kOffset, false, &frame);
EXPECT_LT(0u, bytes_consumed);
ASSERT_TRUE(creator_.AddSavedFrame(frame));
SerializedPacket serialized_packet = creator_.SerializePacket();
ASSERT_TRUE(serialized_packet.packet);
if (bytes_free > 0) {
EXPECT_EQ(client_framer_.GetMaxPlaintextSize(kDefaultMaxPacketSize)
- bytes_free, serialized_packet.packet->length());
} else {
EXPECT_EQ(client_framer_.GetMaxPlaintextSize(kDefaultMaxPacketSize),
serialized_packet.packet->length());
}
delete serialized_packet.packet;
delete serialized_packet.retransmittable_frames;
}
}
TEST_F(QuicPacketCreatorTest, SerializeVersionNegotiationPacket) {
QuicPacketCreatorPeer::SetIsServer(&creator_, true);
QuicVersionVector versions;
versions.push_back(test::QuicVersionMax());
scoped_ptr<QuicEncryptedPacket> encrypted(
creator_.SerializeVersionNegotiationPacket(versions));
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnVersionNegotiationPacket(_));
}
client_framer_.ProcessPacket(*encrypted.get());
}
TEST_F(QuicPacketCreatorTest, UpdatePacketSequenceNumberLengthLeastAwaiting) {
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.set_sequence_number(64);
creator_.UpdateSequenceNumberLength(2, 10000);
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.set_sequence_number(64 * 256);
creator_.UpdateSequenceNumberLength(2, 10000);
EXPECT_EQ(PACKET_2BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.set_sequence_number(64 * 256 * 256);
creator_.UpdateSequenceNumberLength(2, 10000);
EXPECT_EQ(PACKET_4BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.set_sequence_number(GG_UINT64_C(64) * 256 * 256 * 256 * 256);
creator_.UpdateSequenceNumberLength(2, 10000);
EXPECT_EQ(PACKET_6BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
}
TEST_F(QuicPacketCreatorTest, UpdatePacketSequenceNumberLengthBandwidth) {
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.UpdateSequenceNumberLength(1, 10000);
EXPECT_EQ(PACKET_1BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.UpdateSequenceNumberLength(1, 10000 * 256);
EXPECT_EQ(PACKET_2BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.UpdateSequenceNumberLength(1, 10000 * 256 * 256);
EXPECT_EQ(PACKET_4BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
creator_.UpdateSequenceNumberLength(
1, GG_UINT64_C(1000) * 256 * 256 * 256 * 256);
EXPECT_EQ(PACKET_6BYTE_SEQUENCE_NUMBER,
creator_.options()->send_sequence_number_length);
}
TEST_F(QuicPacketCreatorTest, CreateStreamFrameWithNotifier) {
// Ensure that if CreateStreamFrame does not consume any data (e.g. a FIN only
// frame) then any QuicAckNotifier that is passed in still gets attached to
// the frame.
MockAckNotifierDelegate delegate;
QuicAckNotifier notifier(&delegate);
QuicFrame frame;
IOVector empty_iovector;
bool fin = true;
size_t consumed_bytes = creator_.CreateStreamFrameWithNotifier(
1u, empty_iovector, 0u, fin, &notifier, &frame);
EXPECT_EQ(0u, consumed_bytes);
EXPECT_EQ(&notifier, frame.stream_frame->notifier);
delete frame.stream_frame;
}
INSTANTIATE_TEST_CASE_P(ToggleVersionSerialization,
QuicPacketCreatorTest,
::testing::Values(false, true));
TEST_P(QuicPacketCreatorTest, SerializeFrame) {
if (!GetParam()) {
creator_.StopSendingVersion();
}
frames_.push_back(QuicFrame(new QuicStreamFrame(0u, false, 0u, IOVector())));
SerializedPacket serialized = creator_.SerializeAllFrames(frames_);
delete frames_[0].stream_frame;
QuicPacketHeader header;
{
InSequence s;
EXPECT_CALL(framer_visitor_, OnPacket());
EXPECT_CALL(framer_visitor_, OnUnauthenticatedHeader(_));
EXPECT_CALL(framer_visitor_, OnPacketHeader(_)).WillOnce(
DoAll(SaveArg<0>(&header), Return(true)));
EXPECT_CALL(framer_visitor_, OnStreamFrame(_));
EXPECT_CALL(framer_visitor_, OnPacketComplete());
}
ProcessPacket(serialized.packet);
EXPECT_EQ(GetParam(), header.public_header.version_flag);
delete serialized.packet;
}
TEST_P(QuicPacketCreatorTest, CreateStreamFrameTooLarge) {
if (!GetParam()) {
creator_.StopSendingVersion();
}
// A string larger than fits into a frame.
size_t payload_length;
creator_.options()->max_packet_length = GetPacketLengthForOneStream(
client_framer_.version(),
QuicPacketCreatorPeer::SendVersionInPacket(&creator_),
PACKET_1BYTE_SEQUENCE_NUMBER, NOT_IN_FEC_GROUP, &payload_length);
QuicFrame frame;
const string too_long_payload(payload_length * 2, 'a');
size_t consumed = creator_.CreateStreamFrame(
1u, MakeIOVector(too_long_payload), 0u, true, &frame);
EXPECT_EQ(payload_length, consumed);
const string payload(payload_length, 'a');
CheckStreamFrame(frame, 1u, payload, 0u, false);
delete frame.stream_frame;
}
TEST_P(QuicPacketCreatorTest, AddFrameAndSerialize) {
if (!GetParam()) {
creator_.StopSendingVersion();
}
const size_t max_plaintext_size =
client_framer_.GetMaxPlaintextSize(creator_.options()->max_packet_length);
EXPECT_FALSE(creator_.HasPendingFrames());
EXPECT_EQ(max_plaintext_size -
GetPacketHeaderSize(
creator_.options()->send_guid_length,
QuicPacketCreatorPeer::SendVersionInPacket(&creator_),
PACKET_1BYTE_SEQUENCE_NUMBER, NOT_IN_FEC_GROUP),
creator_.BytesFree());
// Add a variety of frame types and then a padding frame.
QuicAckFrame ack_frame(0u, QuicTime::Zero(), 0u);
EXPECT_TRUE(creator_.AddSavedFrame(QuicFrame(&ack_frame)));
EXPECT_TRUE(creator_.HasPendingFrames());
QuicCongestionFeedbackFrame congestion_feedback;
congestion_feedback.type = kFixRate;
EXPECT_TRUE(creator_.AddSavedFrame(QuicFrame(&congestion_feedback)));
EXPECT_TRUE(creator_.HasPendingFrames());
QuicFrame frame;
size_t consumed = creator_.CreateStreamFrame(
1u, MakeIOVector("test"), 0u, false, &frame);
EXPECT_EQ(4u, consumed);
ASSERT_TRUE(frame.stream_frame);
EXPECT_TRUE(creator_.AddSavedFrame(frame));
EXPECT_TRUE(creator_.HasPendingFrames());
QuicPaddingFrame padding_frame;
EXPECT_TRUE(creator_.AddSavedFrame(QuicFrame(&padding_frame)));
EXPECT_TRUE(creator_.HasPendingFrames());
EXPECT_EQ(0u, creator_.BytesFree());
EXPECT_FALSE(creator_.AddSavedFrame(QuicFrame(&ack_frame)));
// Ensure the packet is successfully created.
SerializedPacket serialized = creator_.SerializePacket();
ASSERT_TRUE(serialized.packet);
delete serialized.packet;
ASSERT_TRUE(serialized.retransmittable_frames);
RetransmittableFrames* retransmittable = serialized.retransmittable_frames;
ASSERT_EQ(1u, retransmittable->frames().size());
EXPECT_EQ(STREAM_FRAME, retransmittable->frames()[0].type);
ASSERT_TRUE(retransmittable->frames()[0].stream_frame);
delete serialized.retransmittable_frames;
EXPECT_FALSE(creator_.HasPendingFrames());
EXPECT_EQ(max_plaintext_size -
GetPacketHeaderSize(
creator_.options()->send_guid_length,
QuicPacketCreatorPeer::SendVersionInPacket(&creator_),
PACKET_1BYTE_SEQUENCE_NUMBER,
NOT_IN_FEC_GROUP),
creator_.BytesFree());
}
TEST_F(QuicPacketCreatorTest, EntropyFlag) {
frames_.push_back(QuicFrame(new QuicStreamFrame(0u, false, 0u, IOVector())));
for (int i = 0; i < 2; ++i) {
for (int j = 0; j < 64; ++j) {
SerializedPacket serialized = creator_.SerializeAllFrames(frames_);
// Verify both BoolSource and hash algorithm.
bool expected_rand_bool =
(mock_random_.RandUint64() & (GG_UINT64_C(1) << j)) != 0;
bool observed_rand_bool =
(serialized.entropy_hash & (1 << ((j+1) % 8))) != 0;
uint8 rest_of_hash = serialized.entropy_hash & ~(1 << ((j+1) % 8));
EXPECT_EQ(expected_rand_bool, observed_rand_bool);
EXPECT_EQ(0, rest_of_hash);
delete serialized.packet;
}
// After 64 calls, BoolSource will refresh the bucket - make sure it does.
mock_random_.ChangeValue();
}
delete frames_[0].stream_frame;
}
} // namespace
} // namespace test
} // namespace net