http2/hpack/decoder/hpack_whole_entry_buffer_test.cc - quiche - Git at Google

 // Copyright 2016 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/http2/hpack/decoder/hpack_whole_entry_buffer.h"

 // Tests of HpackWholeEntryBuffer: does it buffer correctly, and does it
 // detect Huffman decoding errors and oversize string errors?

 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "net/third_party/quiche/src/http2/platform/api/http2_test_helpers.h"

 using ::testing::AllOf;
 using ::testing::InSequence;
 using ::testing::Property;
 using ::testing::StrictMock;

 namespace http2 {
 namespace test {
 namespace {

 constexpr size_t kMaxStringSize = 20;

 class MockHpackWholeEntryListener : public HpackWholeEntryListener {
  public:
   ~MockHpackWholeEntryListener() override = default;

   MOCK_METHOD1(OnIndexedHeader, void(size_t index));
   MOCK_METHOD3(OnNameIndexAndLiteralValue,
                void(HpackEntryType entry_type,
                     size_t name_index,
                     HpackDecoderStringBuffer* value_buffer));
   MOCK_METHOD3(OnLiteralNameAndValue,
                void(HpackEntryType entry_type,
                     HpackDecoderStringBuffer* name_buffer,
                     HpackDecoderStringBuffer* value_buffer));
   MOCK_METHOD1(OnDynamicTableSizeUpdate, void(size_t size));
   MOCK_METHOD1(OnHpackDecodeError, void(HpackDecodingError error));
 };

 class HpackWholeEntryBufferTest : public ::testing::Test {
  protected:
   HpackWholeEntryBufferTest() : entry_buffer_(&listener_, kMaxStringSize) {}
   ~HpackWholeEntryBufferTest() override = default;

   StrictMock<MockHpackWholeEntryListener> listener_;
   HpackWholeEntryBuffer entry_buffer_;
 };

 // OnIndexedHeader is an immediate pass through.
 TEST_F(HpackWholeEntryBufferTest, OnIndexedHeader) {
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnIndexedHeader(17));
     entry_buffer_.OnIndexedHeader(17);
   }
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnIndexedHeader(62));
     entry_buffer_.OnIndexedHeader(62);
   }
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnIndexedHeader(62));
     entry_buffer_.OnIndexedHeader(62);
   }
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnIndexedHeader(128));
     entry_buffer_.OnIndexedHeader(128);
   }
   StrictMock<MockHpackWholeEntryListener> listener2;
   entry_buffer_.set_listener(&listener2);
   {
     InSequence seq;
     EXPECT_CALL(listener2, OnIndexedHeader(100));
     entry_buffer_.OnIndexedHeader(100);
   }
 }

 // OnDynamicTableSizeUpdate is an immediate pass through.
 TEST_F(HpackWholeEntryBufferTest, OnDynamicTableSizeUpdate) {
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(4096));
     entry_buffer_.OnDynamicTableSizeUpdate(4096);
   }
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(0));
     entry_buffer_.OnDynamicTableSizeUpdate(0);
   }
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(1024));
     entry_buffer_.OnDynamicTableSizeUpdate(1024);
   }
   {
     InSequence seq;
     EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(1024));
     entry_buffer_.OnDynamicTableSizeUpdate(1024);
   }
   StrictMock<MockHpackWholeEntryListener> listener2;
   entry_buffer_.set_listener(&listener2);
   {
     InSequence seq;
     EXPECT_CALL(listener2, OnDynamicTableSizeUpdate(0));
     entry_buffer_.OnDynamicTableSizeUpdate(0);
   }
 }

 TEST_F(HpackWholeEntryBufferTest, OnNameIndexAndLiteralValue) {
   entry_buffer_.OnStartLiteralHeader(HpackEntryType::kNeverIndexedLiteralHeader,
                                      123);
   entry_buffer_.OnValueStart(false, 10);
   entry_buffer_.OnValueData("some data.", 10);

   // Force the value to be buffered.
   entry_buffer_.BufferStringsIfUnbuffered();

   EXPECT_CALL(
       listener_,
       OnNameIndexAndLiteralValue(
           HpackEntryType::kNeverIndexedLiteralHeader, 123,
           AllOf(Property(&HpackDecoderStringBuffer::str, "some data."),
                 Property(&HpackDecoderStringBuffer::BufferedLength, 10))));

   entry_buffer_.OnValueEnd();
 }

 TEST_F(HpackWholeEntryBufferTest, OnLiteralNameAndValue) {
   entry_buffer_.OnStartLiteralHeader(HpackEntryType::kIndexedLiteralHeader, 0);
   // Force the name to be buffered by delivering it in two pieces.
   entry_buffer_.OnNameStart(false, 9);
   entry_buffer_.OnNameData("some-", 5);
   entry_buffer_.OnNameData("name", 4);
   entry_buffer_.OnNameEnd();
   entry_buffer_.OnValueStart(false, 12);
   entry_buffer_.OnValueData("Header Value", 12);

   EXPECT_CALL(
       listener_,
       OnLiteralNameAndValue(
           HpackEntryType::kIndexedLiteralHeader,
           AllOf(Property(&HpackDecoderStringBuffer::str, "some-name"),
                 Property(&HpackDecoderStringBuffer::BufferedLength, 9)),
           AllOf(Property(&HpackDecoderStringBuffer::str, "Header Value"),
                 Property(&HpackDecoderStringBuffer::BufferedLength, 0))));

   entry_buffer_.OnValueEnd();
 }

 // Verify that a name longer than the allowed size generates an error.
 TEST_F(HpackWholeEntryBufferTest, NameTooLong) {
   entry_buffer_.OnStartLiteralHeader(HpackEntryType::kIndexedLiteralHeader, 0);
   EXPECT_CALL(listener_, OnHpackDecodeError(HpackDecodingError::kNameTooLong));
   entry_buffer_.OnNameStart(false, kMaxStringSize + 1);
 }

 // Verify that a name longer than the allowed size generates an error.
 TEST_F(HpackWholeEntryBufferTest, ValueTooLong) {
   entry_buffer_.OnStartLiteralHeader(HpackEntryType::kIndexedLiteralHeader, 1);
   EXPECT_CALL(listener_, OnHpackDecodeError(HpackDecodingError::kValueTooLong));
   entry_buffer_.OnValueStart(false, kMaxStringSize + 1);
 }

 // Verify that a Huffman encoded name with an explicit EOS generates an error
 // for an explicit EOS.
 TEST_F(HpackWholeEntryBufferTest, NameHuffmanError) {
   const char data[] = "\xff\xff\xff";
   entry_buffer_.OnStartLiteralHeader(HpackEntryType::kUnindexedLiteralHeader,
                                      0);
   entry_buffer_.OnNameStart(true, 4);
   entry_buffer_.OnNameData(data, 3);

   EXPECT_CALL(listener_,
               OnHpackDecodeError(HpackDecodingError::kNameHuffmanError));

   entry_buffer_.OnNameData(data, 1);

   // After an error is reported, the listener is not called again.
   EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(8096)).Times(0);
   entry_buffer_.OnDynamicTableSizeUpdate(8096);
 }

 // Verify that a Huffman encoded value that isn't properly terminated with
 // a partial EOS symbol generates an error.
 TEST_F(HpackWholeEntryBufferTest, ValueHuffmanError) {
   const char data[] = "\x00\x00\x00";
   entry_buffer_.OnStartLiteralHeader(HpackEntryType::kNeverIndexedLiteralHeader,
                                      61);
   entry_buffer_.OnValueStart(true, 3);
   entry_buffer_.OnValueData(data, 3);

   EXPECT_CALL(listener_,
               OnHpackDecodeError(HpackDecodingError::kValueHuffmanError));

   entry_buffer_.OnValueEnd();

   // After an error is reported, the listener is not called again.
   EXPECT_CALL(listener_, OnIndexedHeader(17)).Times(0);
   entry_buffer_.OnIndexedHeader(17);
 }

 }  // namespace
 }  // namespace test
 }  // namespace http2
	// Copyright 2016 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/http2/hpack/decoder/hpack_whole_entry_buffer.h"

	// Tests of HpackWholeEntryBuffer: does it buffer correctly, and does it
	// detect Huffman decoding errors and oversize string errors?

	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "net/third_party/quiche/src/http2/platform/api/http2_test_helpers.h"

	using ::testing::AllOf;
	using ::testing::InSequence;
	using ::testing::Property;
	using ::testing::StrictMock;

	namespace http2 {
	namespace test {
	namespace {

	constexpr size_t kMaxStringSize = 20;

	class MockHpackWholeEntryListener : public HpackWholeEntryListener {
	public:
	~MockHpackWholeEntryListener() override = default;

	MOCK_METHOD1(OnIndexedHeader, void(size_t index));
	MOCK_METHOD3(OnNameIndexAndLiteralValue,
	void(HpackEntryType entry_type,
	size_t name_index,
	HpackDecoderStringBuffer* value_buffer));
	MOCK_METHOD3(OnLiteralNameAndValue,
	void(HpackEntryType entry_type,
	HpackDecoderStringBuffer* name_buffer,
	HpackDecoderStringBuffer* value_buffer));
	MOCK_METHOD1(OnDynamicTableSizeUpdate, void(size_t size));
	MOCK_METHOD1(OnHpackDecodeError, void(HpackDecodingError error));
	};

	class HpackWholeEntryBufferTest : public ::testing::Test {
	protected:
	HpackWholeEntryBufferTest() : entry_buffer_(&listener_, kMaxStringSize) {}
	~HpackWholeEntryBufferTest() override = default;

	StrictMock<MockHpackWholeEntryListener> listener_;
	HpackWholeEntryBuffer entry_buffer_;
	};

	// OnIndexedHeader is an immediate pass through.
	TEST_F(HpackWholeEntryBufferTest, OnIndexedHeader) {
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnIndexedHeader(17));
	entry_buffer_.OnIndexedHeader(17);
	}
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnIndexedHeader(62));
	entry_buffer_.OnIndexedHeader(62);
	}
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnIndexedHeader(62));
	entry_buffer_.OnIndexedHeader(62);
	}
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnIndexedHeader(128));
	entry_buffer_.OnIndexedHeader(128);
	}
	StrictMock<MockHpackWholeEntryListener> listener2;
	entry_buffer_.set_listener(&listener2);
	{
	InSequence seq;
	EXPECT_CALL(listener2, OnIndexedHeader(100));
	entry_buffer_.OnIndexedHeader(100);
	}
	}

	// OnDynamicTableSizeUpdate is an immediate pass through.
	TEST_F(HpackWholeEntryBufferTest, OnDynamicTableSizeUpdate) {
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(4096));
	entry_buffer_.OnDynamicTableSizeUpdate(4096);
	}
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(0));
	entry_buffer_.OnDynamicTableSizeUpdate(0);
	}
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(1024));
	entry_buffer_.OnDynamicTableSizeUpdate(1024);
	}
	{
	InSequence seq;
	EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(1024));
	entry_buffer_.OnDynamicTableSizeUpdate(1024);
	}
	StrictMock<MockHpackWholeEntryListener> listener2;
	entry_buffer_.set_listener(&listener2);
	{
	InSequence seq;
	EXPECT_CALL(listener2, OnDynamicTableSizeUpdate(0));
	entry_buffer_.OnDynamicTableSizeUpdate(0);
	}
	}

	TEST_F(HpackWholeEntryBufferTest, OnNameIndexAndLiteralValue) {
	entry_buffer_.OnStartLiteralHeader(HpackEntryType::kNeverIndexedLiteralHeader,
	123);
	entry_buffer_.OnValueStart(false, 10);
	entry_buffer_.OnValueData("some data.", 10);

	// Force the value to be buffered.
	entry_buffer_.BufferStringsIfUnbuffered();

	EXPECT_CALL(
	listener_,
	OnNameIndexAndLiteralValue(
	HpackEntryType::kNeverIndexedLiteralHeader, 123,
	AllOf(Property(&HpackDecoderStringBuffer::str, "some data."),
	Property(&HpackDecoderStringBuffer::BufferedLength, 10))));

	entry_buffer_.OnValueEnd();
	}

	TEST_F(HpackWholeEntryBufferTest, OnLiteralNameAndValue) {
	entry_buffer_.OnStartLiteralHeader(HpackEntryType::kIndexedLiteralHeader, 0);
	// Force the name to be buffered by delivering it in two pieces.
	entry_buffer_.OnNameStart(false, 9);
	entry_buffer_.OnNameData("some-", 5);
	entry_buffer_.OnNameData("name", 4);
	entry_buffer_.OnNameEnd();
	entry_buffer_.OnValueStart(false, 12);
	entry_buffer_.OnValueData("Header Value", 12);

	EXPECT_CALL(
	listener_,
	OnLiteralNameAndValue(
	HpackEntryType::kIndexedLiteralHeader,
	AllOf(Property(&HpackDecoderStringBuffer::str, "some-name"),
	Property(&HpackDecoderStringBuffer::BufferedLength, 9)),
	AllOf(Property(&HpackDecoderStringBuffer::str, "Header Value"),
	Property(&HpackDecoderStringBuffer::BufferedLength, 0))));

	entry_buffer_.OnValueEnd();
	}

	// Verify that a name longer than the allowed size generates an error.
	TEST_F(HpackWholeEntryBufferTest, NameTooLong) {
	entry_buffer_.OnStartLiteralHeader(HpackEntryType::kIndexedLiteralHeader, 0);
	EXPECT_CALL(listener_, OnHpackDecodeError(HpackDecodingError::kNameTooLong));
	entry_buffer_.OnNameStart(false, kMaxStringSize + 1);
	}

	// Verify that a name longer than the allowed size generates an error.
	TEST_F(HpackWholeEntryBufferTest, ValueTooLong) {
	entry_buffer_.OnStartLiteralHeader(HpackEntryType::kIndexedLiteralHeader, 1);
	EXPECT_CALL(listener_, OnHpackDecodeError(HpackDecodingError::kValueTooLong));
	entry_buffer_.OnValueStart(false, kMaxStringSize + 1);
	}

	// Verify that a Huffman encoded name with an explicit EOS generates an error
	// for an explicit EOS.
	TEST_F(HpackWholeEntryBufferTest, NameHuffmanError) {
	const char data[] = "\xff\xff\xff";
	entry_buffer_.OnStartLiteralHeader(HpackEntryType::kUnindexedLiteralHeader,
	0);
	entry_buffer_.OnNameStart(true, 4);
	entry_buffer_.OnNameData(data, 3);

	EXPECT_CALL(listener_,
	OnHpackDecodeError(HpackDecodingError::kNameHuffmanError));

	entry_buffer_.OnNameData(data, 1);

	// After an error is reported, the listener is not called again.
	EXPECT_CALL(listener_, OnDynamicTableSizeUpdate(8096)).Times(0);
	entry_buffer_.OnDynamicTableSizeUpdate(8096);
	}

	// Verify that a Huffman encoded value that isn't properly terminated with
	// a partial EOS symbol generates an error.
	TEST_F(HpackWholeEntryBufferTest, ValueHuffmanError) {
	const char data[] = "\x00\x00\x00";
	entry_buffer_.OnStartLiteralHeader(HpackEntryType::kNeverIndexedLiteralHeader,
	61);
	entry_buffer_.OnValueStart(true, 3);
	entry_buffer_.OnValueData(data, 3);

	EXPECT_CALL(listener_,
	OnHpackDecodeError(HpackDecodingError::kValueHuffmanError));

	entry_buffer_.OnValueEnd();

	// After an error is reported, the listener is not called again.
	EXPECT_CALL(listener_, OnIndexedHeader(17)).Times(0);
	entry_buffer_.OnIndexedHeader(17);
	}

	} // namespace
	} // namespace test
	} // namespace http2