quic/core/qpack/qpack_instruction_decoder_test.cc - quiche.git - Git at Google

 // Copyright 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/qpack/qpack_instruction_decoder.h"

 #include <algorithm>

 #include "net/third_party/quiche/src/quic/core/qpack/qpack_constants.h"
 #include "net/third_party/quiche/src/quic/core/qpack/qpack_test_utils.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_test.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_text_utils.h"

 using ::testing::_;
 using ::testing::Eq;
 using ::testing::Expectation;
 using ::testing::Return;
 using ::testing::StrictMock;
 using ::testing::Values;

 namespace quic {
 namespace test {
 namespace {

 // This instruction has three fields: an S bit and two varints.
 const QpackInstruction* TestInstruction1() {
   static const QpackInstruction* const instruction =
       new QpackInstruction{QpackInstructionOpcode{0x00, 0x80},
                            {{QpackInstructionFieldType::kSbit, 0x40},
                             {QpackInstructionFieldType::kVarint, 6},
                             {QpackInstructionFieldType::kVarint2, 8}}};
   return instruction;
 }

 // This instruction has two fields: a header name with a 6-bit prefix, and a
 // header value with a 7-bit prefix, both preceded by a Huffman bit.
 const QpackInstruction* TestInstruction2() {
   static const QpackInstruction* const instruction =
       new QpackInstruction{QpackInstructionOpcode{0x80, 0x80},
                            {{QpackInstructionFieldType::kName, 6},
                             {QpackInstructionFieldType::kValue, 7}}};
   return instruction;
 }

 const QpackLanguage* TestLanguage() {
   static const QpackLanguage* const language =
       new QpackLanguage{TestInstruction1(), TestInstruction2()};
   return language;
 }

 class MockDelegate : public QpackInstructionDecoder::Delegate {
  public:
   MockDelegate() {
     ON_CALL(*this, OnInstructionDecoded(_)).WillByDefault(Return(true));
   }

   MockDelegate(const MockDelegate&) = delete;
   MockDelegate& operator=(const MockDelegate&) = delete;
   ~MockDelegate() override = default;

   MOCK_METHOD1(OnInstructionDecoded, bool(const QpackInstruction* instruction));
   MOCK_METHOD1(OnError, void(QuicStringPiece error_message));
 };

 class QpackInstructionDecoderTest : public QuicTestWithParam<FragmentMode> {
  public:
   QpackInstructionDecoderTest()
       : decoder_(TestLanguage(), &delegate_), fragment_mode_(GetParam()) {}
   ~QpackInstructionDecoderTest() override = default;

  protected:
   // Decode one full instruction with fragment sizes dictated by
   // |fragment_mode_|.
   // Verifies that AtInstructionBoundary() returns true before and after the
   // instruction, and returns false while decoding is in progress.
   void DecodeInstruction(QuicStringPiece data) {
     EXPECT_TRUE(decoder_.AtInstructionBoundary());

     FragmentSizeGenerator fragment_size_generator =
         FragmentModeToFragmentSizeGenerator(fragment_mode_);

     while (!data.empty()) {
       size_t fragment_size = std::min(fragment_size_generator(), data.size());
       decoder_.Decode(data.substr(0, fragment_size));
       data = data.substr(fragment_size);
       if (!data.empty()) {
         EXPECT_FALSE(decoder_.AtInstructionBoundary());
       }
     }

     EXPECT_TRUE(decoder_.AtInstructionBoundary());
   }

   StrictMock<MockDelegate> delegate_;
   QpackInstructionDecoder decoder_;

  private:
   const FragmentMode fragment_mode_;
 };

 INSTANTIATE_TEST_SUITE_P(,
                          QpackInstructionDecoderTest,
                          Values(FragmentMode::kSingleChunk,
                                 FragmentMode::kOctetByOctet));

 TEST_P(QpackInstructionDecoderTest, SBitAndVarint2) {
   EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()));
   DecodeInstruction(QuicTextUtils::HexDecode("7f01ff65"));

   EXPECT_TRUE(decoder_.s_bit());
   EXPECT_EQ(64u, decoder_.varint());
   EXPECT_EQ(356u, decoder_.varint2());

   EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()));
   DecodeInstruction(QuicTextUtils::HexDecode("05c8"));

   EXPECT_FALSE(decoder_.s_bit());
   EXPECT_EQ(5u, decoder_.varint());
   EXPECT_EQ(200u, decoder_.varint2());
 }

 TEST_P(QpackInstructionDecoderTest, NameAndValue) {
   EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction2()));
   DecodeInstruction(QuicTextUtils::HexDecode("83666f6f03626172"));

   EXPECT_EQ("foo", decoder_.name());
   EXPECT_EQ("bar", decoder_.value());

   EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction2()));
   DecodeInstruction(QuicTextUtils::HexDecode("8000"));

   EXPECT_EQ("", decoder_.name());
   EXPECT_EQ("", decoder_.value());

   EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction2()));
   DecodeInstruction(QuicTextUtils::HexDecode("c294e7838c767f"));

   EXPECT_EQ("foo", decoder_.name());
   EXPECT_EQ("bar", decoder_.value());
 }

 TEST_P(QpackInstructionDecoderTest, InvalidHuffmanEncoding) {
   EXPECT_CALL(delegate_, OnError(Eq("Error in Huffman-encoded string.")));
   decoder_.Decode(QuicTextUtils::HexDecode("c1ff"));
 }

 TEST_P(QpackInstructionDecoderTest, InvalidVarintEncoding) {
   EXPECT_CALL(delegate_, OnError(Eq("Encoded integer too large.")));
   decoder_.Decode(QuicTextUtils::HexDecode("ffffffffffffffffffffff"));
 }

 TEST_P(QpackInstructionDecoderTest, DelegateSignalsError) {
   // First instruction is valid.
   Expectation first_call =
       EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()))
           .WillOnce(Return(true));
   // Second instruction is invalid.  Decoding must halt.
   EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()))
       .After(first_call)
       .WillOnce(Return(false));
   decoder_.Decode(QuicTextUtils::HexDecode("01000200030004000500"));

   EXPECT_EQ(2u, decoder_.varint());
 }

 }  // namespace
 }  // namespace test
 }  // namespace quic
	// Copyright 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/qpack/qpack_instruction_decoder.h"

	#include <algorithm>

	#include "net/third_party/quiche/src/quic/core/qpack/qpack_constants.h"
	#include "net/third_party/quiche/src/quic/core/qpack/qpack_test_utils.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_test.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_text_utils.h"

	using ::testing::_;
	using ::testing::Eq;
	using ::testing::Expectation;
	using ::testing::Return;
	using ::testing::StrictMock;
	using ::testing::Values;

	namespace quic {
	namespace test {
	namespace {

	// This instruction has three fields: an S bit and two varints.
	const QpackInstruction* TestInstruction1() {
	static const QpackInstruction* const instruction =
	new QpackInstruction{QpackInstructionOpcode{0x00, 0x80},
	{{QpackInstructionFieldType::kSbit, 0x40},
	{QpackInstructionFieldType::kVarint, 6},
	{QpackInstructionFieldType::kVarint2, 8}}};
	return instruction;
	}

	// This instruction has two fields: a header name with a 6-bit prefix, and a
	// header value with a 7-bit prefix, both preceded by a Huffman bit.
	const QpackInstruction* TestInstruction2() {
	static const QpackInstruction* const instruction =
	new QpackInstruction{QpackInstructionOpcode{0x80, 0x80},
	{{QpackInstructionFieldType::kName, 6},
	{QpackInstructionFieldType::kValue, 7}}};
	return instruction;
	}

	const QpackLanguage* TestLanguage() {
	static const QpackLanguage* const language =
	new QpackLanguage{TestInstruction1(), TestInstruction2()};
	return language;
	}

	class MockDelegate : public QpackInstructionDecoder::Delegate {
	public:
	MockDelegate() {
	ON_CALL(*this, OnInstructionDecoded(_)).WillByDefault(Return(true));
	}

	MockDelegate(const MockDelegate&) = delete;
	MockDelegate& operator=(const MockDelegate&) = delete;
	~MockDelegate() override = default;

	MOCK_METHOD1(OnInstructionDecoded, bool(const QpackInstruction* instruction));
	MOCK_METHOD1(OnError, void(QuicStringPiece error_message));
	};

	class QpackInstructionDecoderTest : public QuicTestWithParam<FragmentMode> {
	public:
	QpackInstructionDecoderTest()
	: decoder_(TestLanguage(), &delegate_), fragment_mode_(GetParam()) {}
	~QpackInstructionDecoderTest() override = default;

	protected:
	// Decode one full instruction with fragment sizes dictated by
	// \|fragment_mode_\|.
	// Verifies that AtInstructionBoundary() returns true before and after the
	// instruction, and returns false while decoding is in progress.
	void DecodeInstruction(QuicStringPiece data) {
	EXPECT_TRUE(decoder_.AtInstructionBoundary());

	FragmentSizeGenerator fragment_size_generator =
	FragmentModeToFragmentSizeGenerator(fragment_mode_);

	while (!data.empty()) {
	size_t fragment_size = std::min(fragment_size_generator(), data.size());
	decoder_.Decode(data.substr(0, fragment_size));
	data = data.substr(fragment_size);
	if (!data.empty()) {
	EXPECT_FALSE(decoder_.AtInstructionBoundary());
	}
	}

	EXPECT_TRUE(decoder_.AtInstructionBoundary());
	}

	StrictMock<MockDelegate> delegate_;
	QpackInstructionDecoder decoder_;

	private:
	const FragmentMode fragment_mode_;
	};

	INSTANTIATE_TEST_SUITE_P(,
	QpackInstructionDecoderTest,
	Values(FragmentMode::kSingleChunk,
	FragmentMode::kOctetByOctet));

	TEST_P(QpackInstructionDecoderTest, SBitAndVarint2) {
	EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()));
	DecodeInstruction(QuicTextUtils::HexDecode("7f01ff65"));

	EXPECT_TRUE(decoder_.s_bit());
	EXPECT_EQ(64u, decoder_.varint());
	EXPECT_EQ(356u, decoder_.varint2());

	EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()));
	DecodeInstruction(QuicTextUtils::HexDecode("05c8"));

	EXPECT_FALSE(decoder_.s_bit());
	EXPECT_EQ(5u, decoder_.varint());
	EXPECT_EQ(200u, decoder_.varint2());
	}

	TEST_P(QpackInstructionDecoderTest, NameAndValue) {
	EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction2()));
	DecodeInstruction(QuicTextUtils::HexDecode("83666f6f03626172"));

	EXPECT_EQ("foo", decoder_.name());
	EXPECT_EQ("bar", decoder_.value());

	EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction2()));
	DecodeInstruction(QuicTextUtils::HexDecode("8000"));

	EXPECT_EQ("", decoder_.name());
	EXPECT_EQ("", decoder_.value());

	EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction2()));
	DecodeInstruction(QuicTextUtils::HexDecode("c294e7838c767f"));

	EXPECT_EQ("foo", decoder_.name());
	EXPECT_EQ("bar", decoder_.value());
	}

	TEST_P(QpackInstructionDecoderTest, InvalidHuffmanEncoding) {
	EXPECT_CALL(delegate_, OnError(Eq("Error in Huffman-encoded string.")));
	decoder_.Decode(QuicTextUtils::HexDecode("c1ff"));
	}

	TEST_P(QpackInstructionDecoderTest, InvalidVarintEncoding) {
	EXPECT_CALL(delegate_, OnError(Eq("Encoded integer too large.")));
	decoder_.Decode(QuicTextUtils::HexDecode("ffffffffffffffffffffff"));
	}

	TEST_P(QpackInstructionDecoderTest, DelegateSignalsError) {
	// First instruction is valid.
	Expectation first_call =
	EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()))
	.WillOnce(Return(true));
	// Second instruction is invalid. Decoding must halt.
	EXPECT_CALL(delegate_, OnInstructionDecoded(TestInstruction1()))
	.After(first_call)
	.WillOnce(Return(false));
	decoder_.Decode(QuicTextUtils::HexDecode("01000200030004000500"));

	EXPECT_EQ(2u, decoder_.varint());
	}

	} // namespace
	} // namespace test
	} // namespace quic