http2/hpack/decoder/hpack_entry_decoder_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 "http2/hpack/decoder/hpack_entry_decoder.h"

 // Tests of HpackEntryDecoder.

 #include <cstdint>

 #include "http2/hpack/decoder/hpack_entry_collector.h"
 #include "http2/hpack/tools/hpack_block_builder.h"
 #include "http2/platform/api/http2_test_helpers.h"
 #include "http2/test_tools/http2_random.h"
 #include "http2/tools/random_decoder_test.h"
 #include "common/platform/api/quiche_test.h"

 using ::testing::AssertionResult;

 namespace http2 {
 namespace test {
 namespace {

 class HpackEntryDecoderTest : public RandomDecoderTest {
  protected:
   HpackEntryDecoderTest() : listener_(&collector_) {}

   DecodeStatus StartDecoding(DecodeBuffer* b) override {
     collector_.Clear();
     return decoder_.Start(b, &listener_);
   }

   DecodeStatus ResumeDecoding(DecodeBuffer* b) override {
     return decoder_.Resume(b, &listener_);
   }

   AssertionResult DecodeAndValidateSeveralWays(DecodeBuffer* db,
                                                const Validator& validator) {
     // StartDecoding, above, requires the DecodeBuffer be non-empty so that it
     // can call Start with the prefix byte.
     bool return_non_zero_on_first = true;
     return RandomDecoderTest::DecodeAndValidateSeveralWays(
         db, return_non_zero_on_first, validator);
   }

   AssertionResult DecodeAndValidateSeveralWays(const HpackBlockBuilder& hbb,
                                                const Validator& validator) {
     DecodeBuffer db(hbb.buffer());
     return DecodeAndValidateSeveralWays(&db, validator);
   }

   HpackEntryDecoder decoder_;
   HpackEntryCollector collector_;
   HpackEntryDecoderVLoggingListener listener_;
 };

 TEST_F(HpackEntryDecoderTest, IndexedHeader_Literals) {
   {
     const char input[] = {'\x82'};  // == Index 2 ==
     DecodeBuffer b(input);
     auto do_check = [this]() {
       VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(2));
     };
     EXPECT_TRUE(
         DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
     EXPECT_TRUE(do_check());
   }
   collector_.Clear();
   {
     const char input[] = {'\xfe'};  // == Index 126 ==
     DecodeBuffer b(input);
     auto do_check = [this]() {
       VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(126));
     };
     EXPECT_TRUE(
         DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
     EXPECT_TRUE(do_check());
   }
   collector_.Clear();
   {
     const char input[] = {'\xff', '\x00'};  // == Index 127 ==
     DecodeBuffer b(input);
     auto do_check = [this]() {
       VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(127));
     };
     EXPECT_TRUE(
         DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
     EXPECT_TRUE(do_check());
   }
 }

 TEST_F(HpackEntryDecoderTest, IndexedHeader_Various) {
   // Indices chosen to hit encoding and table boundaries.
   for (const uint32_t ndx : {1, 2, 61, 62, 63, 126, 127, 254, 255, 256}) {
     HpackBlockBuilder hbb;
     hbb.AppendIndexedHeader(ndx);

     auto do_check = [this, ndx]() {
       VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(ndx));
     };
     EXPECT_TRUE(
         DecodeAndValidateSeveralWays(hbb, ValidateDoneAndEmpty(do_check)));
     EXPECT_TRUE(do_check());
   }
 }

 TEST_F(HpackEntryDecoderTest, IndexedLiteralValue_Literal) {
   const char input[] =
       "\x7f"            // == Literal indexed, name index 0x40 ==
       "\x01"            // 2nd byte of name index (0x01 + 0x3f == 0x40)
       "\x0d"            // Value length (13)
       "custom-header";  // Value
   DecodeBuffer b(input, sizeof input - 1);
   auto do_check = [this]() {
     VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralValueHeader(
         HpackEntryType::kIndexedLiteralHeader, 0x40, false, "custom-header"));
   };
   EXPECT_TRUE(DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
   EXPECT_TRUE(do_check());
 }

 TEST_F(HpackEntryDecoderTest, IndexedLiteralNameValue_Literal) {
   const char input[] =
       "\x40"            // == Literal indexed ==
       "\x0a"            // Name length (10)
       "custom-key"      // Name
       "\x0d"            // Value length (13)
       "custom-header";  // Value

   DecodeBuffer b(input, sizeof input - 1);
   auto do_check = [this]() {
     VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralNameValueHeader(
         HpackEntryType::kIndexedLiteralHeader, false, "custom-key", false,
         "custom-header"));
   };
   EXPECT_TRUE(DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
   EXPECT_TRUE(do_check());
 }

 TEST_F(HpackEntryDecoderTest, DynamicTableSizeUpdate_Literal) {
   // Size update, length 31.
   const char input[] = "\x3f\x00";
   DecodeBuffer b(input, 2);
   auto do_check = [this]() {
     VERIFY_AND_RETURN_SUCCESS(collector_.ValidateDynamicTableSizeUpdate(31));
   };
   EXPECT_TRUE(DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
   EXPECT_TRUE(do_check());
 }

 class HpackLiteralEntryDecoderTest
     : public HpackEntryDecoderTest,
       public ::testing::WithParamInterface<HpackEntryType> {
  protected:
   HpackLiteralEntryDecoderTest() : entry_type_(GetParam()) {}

   const HpackEntryType entry_type_;
 };

 INSTANTIATE_TEST_SUITE_P(
     AllLiteralTypes, HpackLiteralEntryDecoderTest,
     testing::Values(HpackEntryType::kIndexedLiteralHeader,
                     HpackEntryType::kUnindexedLiteralHeader,
                     HpackEntryType::kNeverIndexedLiteralHeader));

 TEST_P(HpackLiteralEntryDecoderTest, RandNameIndexAndLiteralValue) {
   for (int n = 0; n < 10; n++) {
     const uint32_t ndx = 1 + Random().Rand8();
     const bool value_is_huffman_encoded = (n % 2) == 0;
     const std::string value = Random().RandString(Random().Rand8());
     HpackBlockBuilder hbb;
     hbb.AppendNameIndexAndLiteralValue(entry_type_, ndx,
                                        value_is_huffman_encoded, value);
     auto do_check = [this, ndx, value_is_huffman_encoded,
                      value]() -> AssertionResult {
       VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralValueHeader(
           entry_type_, ndx, value_is_huffman_encoded, value));
     };
     EXPECT_TRUE(
         DecodeAndValidateSeveralWays(hbb, ValidateDoneAndEmpty(do_check)));
     EXPECT_TRUE(do_check());
   }
 }

 TEST_P(HpackLiteralEntryDecoderTest, RandLiteralNameAndValue) {
   for (int n = 0; n < 10; n++) {
     const bool name_is_huffman_encoded = (n & 1) == 0;
     const int name_len = 1 + Random().Rand8();
     const std::string name = Random().RandString(name_len);
     const bool value_is_huffman_encoded = (n & 2) == 0;
     const int value_len = Random().Skewed(10);
     const std::string value = Random().RandString(value_len);
     HpackBlockBuilder hbb;
     hbb.AppendLiteralNameAndValue(entry_type_, name_is_huffman_encoded, name,
                                   value_is_huffman_encoded, value);
     auto do_check = [this, name_is_huffman_encoded, name,
                      value_is_huffman_encoded, value]() -> AssertionResult {
       VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralNameValueHeader(
           entry_type_, name_is_huffman_encoded, name, value_is_huffman_encoded,
           value));
     };
     EXPECT_TRUE(
         DecodeAndValidateSeveralWays(hbb, ValidateDoneAndEmpty(do_check)));
     EXPECT_TRUE(do_check());
   }
 }

 }  // 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 "http2/hpack/decoder/hpack_entry_decoder.h"

	// Tests of HpackEntryDecoder.

	#include <cstdint>

	#include "http2/hpack/decoder/hpack_entry_collector.h"
	#include "http2/hpack/tools/hpack_block_builder.h"
	#include "http2/platform/api/http2_test_helpers.h"
	#include "http2/test_tools/http2_random.h"
	#include "http2/tools/random_decoder_test.h"
	#include "common/platform/api/quiche_test.h"

	using ::testing::AssertionResult;

	namespace http2 {
	namespace test {
	namespace {

	class HpackEntryDecoderTest : public RandomDecoderTest {
	protected:
	HpackEntryDecoderTest() : listener_(&collector_) {}

	DecodeStatus StartDecoding(DecodeBuffer* b) override {
	collector_.Clear();
	return decoder_.Start(b, &listener_);
	}

	DecodeStatus ResumeDecoding(DecodeBuffer* b) override {
	return decoder_.Resume(b, &listener_);
	}

	AssertionResult DecodeAndValidateSeveralWays(DecodeBuffer* db,
	const Validator& validator) {
	// StartDecoding, above, requires the DecodeBuffer be non-empty so that it
	// can call Start with the prefix byte.
	bool return_non_zero_on_first = true;
	return RandomDecoderTest::DecodeAndValidateSeveralWays(
	db, return_non_zero_on_first, validator);
	}

	AssertionResult DecodeAndValidateSeveralWays(const HpackBlockBuilder& hbb,
	const Validator& validator) {
	DecodeBuffer db(hbb.buffer());
	return DecodeAndValidateSeveralWays(&db, validator);
	}

	HpackEntryDecoder decoder_;
	HpackEntryCollector collector_;
	HpackEntryDecoderVLoggingListener listener_;
	};

	TEST_F(HpackEntryDecoderTest, IndexedHeader_Literals) {
	{
	const char input[] = {'\x82'}; // == Index 2 ==
	DecodeBuffer b(input);
	auto do_check = [this]() {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(2));
	};
	EXPECT_TRUE(
	DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}
	collector_.Clear();
	{
	const char input[] = {'\xfe'}; // == Index 126 ==
	DecodeBuffer b(input);
	auto do_check = [this]() {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(126));
	};
	EXPECT_TRUE(
	DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}
	collector_.Clear();
	{
	const char input[] = {'\xff', '\x00'}; // == Index 127 ==
	DecodeBuffer b(input);
	auto do_check = [this]() {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(127));
	};
	EXPECT_TRUE(
	DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}
	}

	TEST_F(HpackEntryDecoderTest, IndexedHeader_Various) {
	// Indices chosen to hit encoding and table boundaries.
	for (const uint32_t ndx : {1, 2, 61, 62, 63, 126, 127, 254, 255, 256}) {
	HpackBlockBuilder hbb;
	hbb.AppendIndexedHeader(ndx);

	auto do_check = [this, ndx]() {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateIndexedHeader(ndx));
	};
	EXPECT_TRUE(
	DecodeAndValidateSeveralWays(hbb, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}
	}

	TEST_F(HpackEntryDecoderTest, IndexedLiteralValue_Literal) {
	const char input[] =
	"\x7f" // == Literal indexed, name index 0x40 ==
	"\x01" // 2nd byte of name index (0x01 + 0x3f == 0x40)
	"\x0d" // Value length (13)
	"custom-header"; // Value
	DecodeBuffer b(input, sizeof input - 1);
	auto do_check = [this]() {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralValueHeader(
	HpackEntryType::kIndexedLiteralHeader, 0x40, false, "custom-header"));
	};
	EXPECT_TRUE(DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}

	TEST_F(HpackEntryDecoderTest, IndexedLiteralNameValue_Literal) {
	const char input[] =
	"\x40" // == Literal indexed ==
	"\x0a" // Name length (10)
	"custom-key" // Name
	"\x0d" // Value length (13)
	"custom-header"; // Value

	DecodeBuffer b(input, sizeof input - 1);
	auto do_check = [this]() {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralNameValueHeader(
	HpackEntryType::kIndexedLiteralHeader, false, "custom-key", false,
	"custom-header"));
	};
	EXPECT_TRUE(DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}

	TEST_F(HpackEntryDecoderTest, DynamicTableSizeUpdate_Literal) {
	// Size update, length 31.
	const char input[] = "\x3f\x00";
	DecodeBuffer b(input, 2);
	auto do_check = [this]() {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateDynamicTableSizeUpdate(31));
	};
	EXPECT_TRUE(DecodeAndValidateSeveralWays(&b, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}

	class HpackLiteralEntryDecoderTest
	: public HpackEntryDecoderTest,
	public ::testing::WithParamInterface<HpackEntryType> {
	protected:
	HpackLiteralEntryDecoderTest() : entry_type_(GetParam()) {}

	const HpackEntryType entry_type_;
	};

	INSTANTIATE_TEST_SUITE_P(
	AllLiteralTypes, HpackLiteralEntryDecoderTest,
	testing::Values(HpackEntryType::kIndexedLiteralHeader,
	HpackEntryType::kUnindexedLiteralHeader,
	HpackEntryType::kNeverIndexedLiteralHeader));

	TEST_P(HpackLiteralEntryDecoderTest, RandNameIndexAndLiteralValue) {
	for (int n = 0; n < 10; n++) {
	const uint32_t ndx = 1 + Random().Rand8();
	const bool value_is_huffman_encoded = (n % 2) == 0;
	const std::string value = Random().RandString(Random().Rand8());
	HpackBlockBuilder hbb;
	hbb.AppendNameIndexAndLiteralValue(entry_type_, ndx,
	value_is_huffman_encoded, value);
	auto do_check = [this, ndx, value_is_huffman_encoded,
	value]() -> AssertionResult {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralValueHeader(
	entry_type_, ndx, value_is_huffman_encoded, value));
	};
	EXPECT_TRUE(
	DecodeAndValidateSeveralWays(hbb, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}
	}

	TEST_P(HpackLiteralEntryDecoderTest, RandLiteralNameAndValue) {
	for (int n = 0; n < 10; n++) {
	const bool name_is_huffman_encoded = (n & 1) == 0;
	const int name_len = 1 + Random().Rand8();
	const std::string name = Random().RandString(name_len);
	const bool value_is_huffman_encoded = (n & 2) == 0;
	const int value_len = Random().Skewed(10);
	const std::string value = Random().RandString(value_len);
	HpackBlockBuilder hbb;
	hbb.AppendLiteralNameAndValue(entry_type_, name_is_huffman_encoded, name,
	value_is_huffman_encoded, value);
	auto do_check = [this, name_is_huffman_encoded, name,
	value_is_huffman_encoded, value]() -> AssertionResult {
	VERIFY_AND_RETURN_SUCCESS(collector_.ValidateLiteralNameValueHeader(
	entry_type_, name_is_huffman_encoded, name, value_is_huffman_encoded,
	value));
	};
	EXPECT_TRUE(
	DecodeAndValidateSeveralWays(hbb, ValidateDoneAndEmpty(do_check)));
	EXPECT_TRUE(do_check());
	}
	}

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