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// Copyright (c) 2018 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/quic_stream_id_manager.h"
#include <cstdint>
#include <string>
#include <utility>
#include "absl/strings/str_cat.h"
#include "net/third_party/quiche/src/quic/core/quic_constants.h"
#include "net/third_party/quiche/src/quic/core/quic_utils.h"
#include "net/third_party/quiche/src/quic/core/quic_versions.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_expect_bug.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_test.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_stream_id_manager_peer.h"
using testing::_;
using testing::StrictMock;
namespace quic {
namespace test {
namespace {
class MockDelegate : public QuicStreamIdManager::DelegateInterface {
public:
MOCK_METHOD(void,
SendMaxStreams,
(QuicStreamCount stream_count, bool unidirectional),
(override));
};
struct TestParams {
TestParams(ParsedQuicVersion version,
Perspective perspective,
bool is_unidirectional)
: version(version),
perspective(perspective),
is_unidirectional(is_unidirectional) {}
ParsedQuicVersion version;
Perspective perspective;
bool is_unidirectional;
};
// Used by ::testing::PrintToStringParamName().
std::string PrintToString(const TestParams& p) {
return absl::StrCat(
ParsedQuicVersionToString(p.version), "_",
(p.perspective == Perspective::IS_CLIENT ? "Client" : "Server"),
(p.is_unidirectional ? "Unidirectional" : "Bidirectional"));
}
std::vector<TestParams> GetTestParams() {
std::vector<TestParams> params;
for (const ParsedQuicVersion& version : AllSupportedVersions()) {
if (!version.HasIetfQuicFrames()) {
continue;
}
for (Perspective perspective :
{Perspective::IS_CLIENT, Perspective::IS_SERVER}) {
for (bool is_unidirectional : {true, false}) {
params.push_back(TestParams(version, perspective, is_unidirectional));
}
}
}
return params;
}
class QuicStreamIdManagerTest : public QuicTestWithParam<TestParams> {
protected:
QuicStreamIdManagerTest()
: stream_id_manager_(&delegate_,
IsUnidirectional(),
perspective(),
GetParam().version,
0,
kDefaultMaxStreamsPerConnection) {
DCHECK(VersionHasIetfQuicFrames(transport_version()));
}
QuicTransportVersion transport_version() const {
return GetParam().version.transport_version;
}
// Returns the stream ID for the Nth incoming stream (created by the peer)
// of the corresponding directionality of this manager.
QuicStreamId GetNthIncomingStreamId(int n) {
return QuicUtils::StreamIdDelta(transport_version()) * n +
(IsUnidirectional()
? QuicUtils::GetFirstUnidirectionalStreamId(
transport_version(),
QuicUtils::InvertPerspective(perspective()))
: QuicUtils::GetFirstBidirectionalStreamId(
transport_version(),
QuicUtils::InvertPerspective(perspective())));
}
bool IsUnidirectional() { return GetParam().is_unidirectional; }
Perspective perspective() { return GetParam().perspective; }
StrictMock<MockDelegate> delegate_;
QuicStreamIdManager stream_id_manager_;
};
INSTANTIATE_TEST_SUITE_P(Tests,
QuicStreamIdManagerTest,
::testing::ValuesIn(GetTestParams()),
::testing::PrintToStringParamName());
TEST_P(QuicStreamIdManagerTest, Initialization) {
EXPECT_EQ(0u, stream_id_manager_.outgoing_max_streams());
EXPECT_EQ(kDefaultMaxStreamsPerConnection,
stream_id_manager_.incoming_actual_max_streams());
EXPECT_EQ(kDefaultMaxStreamsPerConnection,
stream_id_manager_.incoming_advertised_max_streams());
EXPECT_EQ(kDefaultMaxStreamsPerConnection,
stream_id_manager_.incoming_initial_max_open_streams());
}
// This test checks that the stream advertisement window is set to 1
// if the number of stream ids is 1. This is a special case in the code.
TEST_P(QuicStreamIdManagerTest, CheckMaxStreamsWindowForSingleStream) {
stream_id_manager_.SetMaxOpenIncomingStreams(1);
EXPECT_EQ(1u, stream_id_manager_.incoming_initial_max_open_streams());
EXPECT_EQ(1u, stream_id_manager_.incoming_actual_max_streams());
}
TEST_P(QuicStreamIdManagerTest, CheckMaxStreamsBadValuesOverMaxFailsOutgoing) {
QuicStreamCount implementation_max = QuicUtils::GetMaxStreamCount();
// Ensure that the limit is less than the implementation maximum.
EXPECT_LT(stream_id_manager_.outgoing_max_streams(), implementation_max);
EXPECT_TRUE(
stream_id_manager_.MaybeAllowNewOutgoingStreams(implementation_max + 1));
// Should be pegged at the max.
EXPECT_EQ(implementation_max, stream_id_manager_.outgoing_max_streams());
}
// Check the case of the stream count in a STREAMS_BLOCKED frame is less than
// the count most recently advertised in a MAX_STREAMS frame.
TEST_P(QuicStreamIdManagerTest, ProcessStreamsBlockedOk) {
QuicStreamCount stream_count =
stream_id_manager_.incoming_initial_max_open_streams();
QuicStreamsBlockedFrame frame(0, stream_count - 1, IsUnidirectional());
// We have notified peer about current max.
EXPECT_CALL(delegate_, SendMaxStreams(stream_count, IsUnidirectional()))
.Times(0);
std::string error_details;
EXPECT_TRUE(stream_id_manager_.OnStreamsBlockedFrame(frame, &error_details));
}
// Check the case of the stream count in a STREAMS_BLOCKED frame is equal to the
// count most recently advertised in a MAX_STREAMS frame. No MAX_STREAMS
// should be generated.
TEST_P(QuicStreamIdManagerTest, ProcessStreamsBlockedNoOp) {
QuicStreamCount stream_count =
stream_id_manager_.incoming_initial_max_open_streams();
QuicStreamsBlockedFrame frame(0, stream_count, IsUnidirectional());
EXPECT_CALL(delegate_, SendMaxStreams(_, _)).Times(0);
}
// Check the case of the stream count in a STREAMS_BLOCKED frame is greater than
// the count most recently advertised in a MAX_STREAMS frame. Expect a
// connection close with an error.
TEST_P(QuicStreamIdManagerTest, ProcessStreamsBlockedTooBig) {
EXPECT_CALL(delegate_, SendMaxStreams(_, _)).Times(0);
QuicStreamCount stream_count =
stream_id_manager_.incoming_initial_max_open_streams() + 1;
QuicStreamsBlockedFrame frame(0, stream_count, IsUnidirectional());
std::string error_details;
EXPECT_FALSE(stream_id_manager_.OnStreamsBlockedFrame(frame, &error_details));
EXPECT_EQ(
error_details,
"StreamsBlockedFrame's stream count 101 exceeds incoming max stream 100");
}
// Same basic tests as above, but calls
// QuicStreamIdManager::MaybeIncreaseLargestPeerStreamId directly, avoiding the
// call chain. The intent is that if there is a problem, the following tests
// will point to either the stream ID manager or the call chain. They also
// provide specific, small scale, tests of a public QuicStreamIdManager method.
// First test make sure that streams with ids below the limit are accepted.
TEST_P(QuicStreamIdManagerTest, IsIncomingStreamIdValidBelowLimit) {
QuicStreamId stream_id = GetNthIncomingStreamId(
stream_id_manager_.incoming_actual_max_streams() - 2);
EXPECT_TRUE(
stream_id_manager_.MaybeIncreaseLargestPeerStreamId(stream_id, nullptr));
}
// Accept a stream with an ID that equals the limit.
TEST_P(QuicStreamIdManagerTest, IsIncomingStreamIdValidAtLimit) {
QuicStreamId stream_id = GetNthIncomingStreamId(
stream_id_manager_.incoming_actual_max_streams() - 1);
EXPECT_TRUE(
stream_id_manager_.MaybeIncreaseLargestPeerStreamId(stream_id, nullptr));
}
// Close the connection if the id exceeds the limit.
TEST_P(QuicStreamIdManagerTest, IsIncomingStreamIdInValidAboveLimit) {
QuicStreamId stream_id =
GetNthIncomingStreamId(stream_id_manager_.incoming_actual_max_streams());
std::string error_details;
EXPECT_FALSE(stream_id_manager_.MaybeIncreaseLargestPeerStreamId(
stream_id, &error_details));
EXPECT_EQ(error_details,
absl::StrCat("Stream id ", stream_id,
" would exceed stream count limit 100"));
}
TEST_P(QuicStreamIdManagerTest, OnStreamsBlockedFrame) {
// Get the current maximum allowed incoming stream count.
QuicStreamCount advertised_stream_count =
stream_id_manager_.incoming_advertised_max_streams();
QuicStreamsBlockedFrame frame;
frame.unidirectional = IsUnidirectional();
// If the peer is saying it's blocked on the stream count that
// we've advertised, it's a noop since the peer has the correct information.
frame.stream_count = advertised_stream_count;
std::string error_details;
EXPECT_TRUE(stream_id_manager_.OnStreamsBlockedFrame(frame, &error_details));
// If the peer is saying it's blocked on a stream count that is larger
// than what we've advertised, the connection should get closed.
frame.stream_count = advertised_stream_count + 1;
EXPECT_FALSE(stream_id_manager_.OnStreamsBlockedFrame(frame, &error_details));
EXPECT_EQ(
error_details,
"StreamsBlockedFrame's stream count 101 exceeds incoming max stream 100");
// If the peer is saying it's blocked on a count that is less than
// our actual count, we send a MAX_STREAMS frame and update
// the advertised value.
// First, need to bump up the actual max so there is room for the MAX
// STREAMS frame to send a larger ID.
QuicStreamCount actual_stream_count =
stream_id_manager_.incoming_actual_max_streams();
// Closing a stream will result in the ability to initiate one more
// stream
stream_id_manager_.OnStreamClosed(
QuicStreamIdManagerPeer::GetFirstIncomingStreamId(&stream_id_manager_));
EXPECT_EQ(actual_stream_count + 1u,
stream_id_manager_.incoming_actual_max_streams());
EXPECT_EQ(stream_id_manager_.incoming_actual_max_streams(),
stream_id_manager_.incoming_advertised_max_streams() + 1u);
// Now simulate receiving a STREAMS_BLOCKED frame...
// Changing the actual maximum, above, forces a MAX_STREAMS frame to be
// sent, so the logic for that (SendMaxStreamsFrame(), etc) is tested.
// The STREAMS_BLOCKED frame contains the previous advertised count,
// not the one that the peer would have received as a result of the
// MAX_STREAMS sent earler.
frame.stream_count = advertised_stream_count;
EXPECT_CALL(delegate_,
SendMaxStreams(stream_id_manager_.incoming_actual_max_streams(),
IsUnidirectional()));
EXPECT_TRUE(stream_id_manager_.OnStreamsBlockedFrame(frame, &error_details));
// Check that the saved frame is correct.
EXPECT_EQ(stream_id_manager_.incoming_actual_max_streams(),
stream_id_manager_.incoming_advertised_max_streams());
}
TEST_P(QuicStreamIdManagerTest, GetNextOutgoingStream) {
// Number of streams we can open and the first one we should get when
// opening...
size_t number_of_streams = kDefaultMaxStreamsPerConnection;
EXPECT_TRUE(
stream_id_manager_.MaybeAllowNewOutgoingStreams(number_of_streams));
QuicStreamId stream_id = IsUnidirectional()
? QuicUtils::GetFirstUnidirectionalStreamId(
transport_version(), perspective())
: QuicUtils::GetFirstBidirectionalStreamId(
transport_version(), perspective());
EXPECT_EQ(number_of_streams, stream_id_manager_.outgoing_max_streams());
while (number_of_streams) {
EXPECT_TRUE(stream_id_manager_.CanOpenNextOutgoingStream());
EXPECT_EQ(stream_id, stream_id_manager_.GetNextOutgoingStreamId());
stream_id += QuicUtils::StreamIdDelta(transport_version());
number_of_streams--;
}
// If we try to check that the next outgoing stream id is available it should
// fail.
EXPECT_FALSE(stream_id_manager_.CanOpenNextOutgoingStream());
// If we try to get the next id (above the limit), it should cause a quic-bug.
EXPECT_QUIC_BUG(
stream_id_manager_.GetNextOutgoingStreamId(),
"Attempt to allocate a new outgoing stream that would exceed the limit");
}
TEST_P(QuicStreamIdManagerTest, MaybeIncreaseLargestPeerStreamId) {
QuicStreamId max_stream_id = GetNthIncomingStreamId(
stream_id_manager_.incoming_actual_max_streams() - 1);
EXPECT_TRUE(stream_id_manager_.MaybeIncreaseLargestPeerStreamId(max_stream_id,
nullptr));
QuicStreamId first_stream_id = GetNthIncomingStreamId(0);
EXPECT_TRUE(stream_id_manager_.MaybeIncreaseLargestPeerStreamId(
first_stream_id, nullptr));
// A bad stream ID results in a closed connection.
std::string error_details;
EXPECT_FALSE(stream_id_manager_.MaybeIncreaseLargestPeerStreamId(
max_stream_id + QuicUtils::StreamIdDelta(transport_version()),
&error_details));
EXPECT_EQ(error_details,
absl::StrCat(
"Stream id ",
max_stream_id + QuicUtils::StreamIdDelta(transport_version()),
" would exceed stream count limit 100"));
}
TEST_P(QuicStreamIdManagerTest, MaxStreamsWindow) {
// Open and then close a number of streams to get close to the threshold of
// sending a MAX_STREAM_FRAME.
int stream_count = stream_id_manager_.incoming_initial_max_open_streams() /
GetQuicFlag(FLAGS_quic_max_streams_window_divisor) -
1;
// Should not get a control-frame transmission since the peer should have
// "plenty" of stream IDs to use.
EXPECT_CALL(delegate_, SendMaxStreams(_, _)).Times(0);
// Get the first incoming stream ID to try and allocate.
QuicStreamId stream_id = GetNthIncomingStreamId(0);
size_t old_available_incoming_streams =
stream_id_manager_.available_incoming_streams();
auto i = stream_count;
while (i) {
EXPECT_TRUE(stream_id_manager_.MaybeIncreaseLargestPeerStreamId(stream_id,
nullptr));
// This node should think that the peer believes it has one fewer
// stream it can create.
old_available_incoming_streams--;
EXPECT_EQ(old_available_incoming_streams,
stream_id_manager_.available_incoming_streams());
i--;
stream_id += QuicUtils::StreamIdDelta(transport_version());
}
// Now close them, still should get no MAX_STREAMS
stream_id = GetNthIncomingStreamId(0);
QuicStreamCount expected_actual_max =
stream_id_manager_.incoming_actual_max_streams();
QuicStreamCount expected_advertised_max_streams =
stream_id_manager_.incoming_advertised_max_streams();
while (stream_count) {
stream_id_manager_.OnStreamClosed(stream_id);
stream_count--;
stream_id += QuicUtils::StreamIdDelta(transport_version());
expected_actual_max++;
EXPECT_EQ(expected_actual_max,
stream_id_manager_.incoming_actual_max_streams());
// Advertised maximum should remain the same.
EXPECT_EQ(expected_advertised_max_streams,
stream_id_manager_.incoming_advertised_max_streams());
}
// This should not change.
EXPECT_EQ(old_available_incoming_streams,
stream_id_manager_.available_incoming_streams());
// Now whenever we close a stream we should get a MAX_STREAMS frame.
// Above code closed all the open streams, so we have to open/close
// EXPECT_CALL(delegate_,
// SendMaxStreams(stream_id_manager_.incoming_actual_max_streams(),
// IsUnidirectional()));
EXPECT_CALL(delegate_, SendMaxStreams(_, IsUnidirectional()));
EXPECT_TRUE(
stream_id_manager_.MaybeIncreaseLargestPeerStreamId(stream_id, nullptr));
stream_id_manager_.OnStreamClosed(stream_id);
}
TEST_P(QuicStreamIdManagerTest, StreamsBlockedEdgeConditions) {
QuicStreamsBlockedFrame frame;
frame.unidirectional = IsUnidirectional();
// Check that receipt of a STREAMS BLOCKED with stream-count = 0 does nothing
// when max_allowed_incoming_streams is 0.
EXPECT_CALL(delegate_, SendMaxStreams(_, _)).Times(0);
stream_id_manager_.SetMaxOpenIncomingStreams(0);
frame.stream_count = 0;
std::string error_details;
EXPECT_TRUE(stream_id_manager_.OnStreamsBlockedFrame(frame, &error_details));
// Check that receipt of a STREAMS BLOCKED with stream-count = 0 invokes a
// MAX STREAMS, count = 123, when the MaxOpen... is set to 123.
EXPECT_CALL(delegate_, SendMaxStreams(123u, IsUnidirectional()));
QuicStreamIdManagerPeer::set_incoming_actual_max_streams(&stream_id_manager_,
123);
frame.stream_count = 0;
EXPECT_TRUE(stream_id_manager_.OnStreamsBlockedFrame(frame, &error_details));
}
// Test that a MAX_STREAMS frame is generated when half the stream ids become
// available. This has a useful side effect of testing that when streams are
// closed, the number of available stream ids increases.
TEST_P(QuicStreamIdManagerTest, MaxStreamsSlidingWindow) {
QuicStreamCount first_advert =
stream_id_manager_.incoming_advertised_max_streams();
// Open/close enough streams to shrink the window without causing a MAX
// STREAMS to be generated. The loop
// will make that many stream IDs available, so the last CloseStream should
// cause a MAX STREAMS frame to be generated.
int i =
static_cast<int>(stream_id_manager_.incoming_initial_max_open_streams() /
GetQuicFlag(FLAGS_quic_max_streams_window_divisor));
QuicStreamId id =
QuicStreamIdManagerPeer::GetFirstIncomingStreamId(&stream_id_manager_);
EXPECT_CALL(delegate_, SendMaxStreams(first_advert + i, IsUnidirectional()));
while (i) {
EXPECT_TRUE(
stream_id_manager_.MaybeIncreaseLargestPeerStreamId(id, nullptr));
stream_id_manager_.OnStreamClosed(id);
i--;
id += QuicUtils::StreamIdDelta(transport_version());
}
}
TEST_P(QuicStreamIdManagerTest, NewStreamDoesNotExceedLimit) {
EXPECT_TRUE(stream_id_manager_.MaybeAllowNewOutgoingStreams(100));
size_t stream_count = stream_id_manager_.outgoing_max_streams();
EXPECT_NE(0u, stream_count);
while (stream_count) {
EXPECT_TRUE(stream_id_manager_.CanOpenNextOutgoingStream());
stream_id_manager_.GetNextOutgoingStreamId();
stream_count--;
}
EXPECT_EQ(stream_id_manager_.outgoing_stream_count(),
stream_id_manager_.outgoing_max_streams());
// Create another, it should fail.
EXPECT_FALSE(stream_id_manager_.CanOpenNextOutgoingStream());
}
TEST_P(QuicStreamIdManagerTest, AvailableStreams) {
stream_id_manager_.MaybeIncreaseLargestPeerStreamId(GetNthIncomingStreamId(3),
nullptr);
EXPECT_TRUE(stream_id_manager_.IsAvailableStream(GetNthIncomingStreamId(1)));
EXPECT_TRUE(stream_id_manager_.IsAvailableStream(GetNthIncomingStreamId(2)));
EXPECT_FALSE(stream_id_manager_.IsAvailableStream(GetNthIncomingStreamId(3)));
EXPECT_TRUE(stream_id_manager_.IsAvailableStream(GetNthIncomingStreamId(4)));
}
// Tests that if MaybeIncreaseLargestPeerStreamId is given an extremely
// large stream ID (larger than the limit) it is rejected.
// This is a regression for Chromium bugs 909987 and 910040
TEST_P(QuicStreamIdManagerTest, ExtremeMaybeIncreaseLargestPeerStreamId) {
QuicStreamId too_big_stream_id = GetNthIncomingStreamId(
stream_id_manager_.incoming_actual_max_streams() + 20);
std::string error_details;
EXPECT_FALSE(stream_id_manager_.MaybeIncreaseLargestPeerStreamId(
too_big_stream_id, &error_details));
EXPECT_EQ(error_details,
absl::StrCat("Stream id ", too_big_stream_id,
" would exceed stream count limit 100"));
}
} // namespace
} // namespace test
} // namespace quic