http2/hpack/huffman/hpack_huffman_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/huffman/hpack_huffman_decoder.h"

 // Tests of HpackHuffmanDecoder and HuffmanBitBuffer.

 #include <iostream>

 #include "absl/base/macros.h"
 #include "absl/strings/escaping.h"
 #include "http2/decoder/decode_buffer.h"
 #include "http2/decoder/decode_status.h"
 #include "http2/platform/api/http2_test_helpers.h"
 #include "http2/tools/random_decoder_test.h"
 #include "common/platform/api/quiche_test.h"

 using ::testing::AssertionResult;

 namespace http2 {
 namespace test {
 namespace {

 TEST(HuffmanBitBufferTest, Reset) {
   HuffmanBitBuffer bb;
   EXPECT_TRUE(bb.IsEmpty());
   EXPECT_TRUE(bb.InputProperlyTerminated());
   EXPECT_EQ(bb.count(), 0u);
   EXPECT_EQ(bb.free_count(), 64u);
   EXPECT_EQ(bb.value(), 0u);
 }

 TEST(HuffmanBitBufferTest, AppendBytesAligned) {
   std::string s;
   s.push_back('\x11');
   s.push_back('\x22');
   s.push_back('\x33');
   absl::string_view sp(s);

   HuffmanBitBuffer bb;
   sp.remove_prefix(bb.AppendBytes(sp));
   EXPECT_TRUE(sp.empty());
   EXPECT_FALSE(bb.IsEmpty()) << bb;
   EXPECT_FALSE(bb.InputProperlyTerminated());
   EXPECT_EQ(bb.count(), 24u) << bb;
   EXPECT_EQ(bb.free_count(), 40u) << bb;
   EXPECT_EQ(bb.value(), HuffmanAccumulator(0x112233) << 40) << bb;

   s.clear();
   s.push_back('\x44');
   sp = s;

   sp.remove_prefix(bb.AppendBytes(sp));
   EXPECT_TRUE(sp.empty());
   EXPECT_EQ(bb.count(), 32u) << bb;
   EXPECT_EQ(bb.free_count(), 32u) << bb;
   EXPECT_EQ(bb.value(), HuffmanAccumulator(0x11223344) << 32) << bb;

   s.clear();
   s.push_back('\x55');
   s.push_back('\x66');
   s.push_back('\x77');
   s.push_back('\x88');
   s.push_back('\x99');
   sp = s;

   sp.remove_prefix(bb.AppendBytes(sp));
   EXPECT_EQ(sp.size(), 1u);
   EXPECT_EQ('\x99', sp[0]);
   EXPECT_EQ(bb.count(), 64u) << bb;
   EXPECT_EQ(bb.free_count(), 0u) << bb;
   EXPECT_EQ(bb.value(), HuffmanAccumulator(0x1122334455667788LL)) << bb;

   sp.remove_prefix(bb.AppendBytes(sp));
   EXPECT_EQ(sp.size(), 1u);
   EXPECT_EQ('\x99', sp[0]);
   EXPECT_EQ(bb.count(), 64u) << bb;
   EXPECT_EQ(bb.free_count(), 0u) << bb;
   EXPECT_EQ(bb.value(), HuffmanAccumulator(0x1122334455667788LL)) << bb;
 }

 TEST(HuffmanBitBufferTest, ConsumeBits) {
   std::string s;
   s.push_back('\x11');
   s.push_back('\x22');
   s.push_back('\x33');
   absl::string_view sp(s);

   HuffmanBitBuffer bb;
   sp.remove_prefix(bb.AppendBytes(sp));
   EXPECT_TRUE(sp.empty());

   bb.ConsumeBits(1);
   EXPECT_EQ(bb.count(), 23u) << bb;
   EXPECT_EQ(bb.free_count(), 41u) << bb;
   EXPECT_EQ(bb.value(), HuffmanAccumulator(0x112233) << 41) << bb;

   bb.ConsumeBits(20);
   EXPECT_EQ(bb.count(), 3u) << bb;
   EXPECT_EQ(bb.free_count(), 61u) << bb;
   EXPECT_EQ(bb.value(), HuffmanAccumulator(0x3) << 61) << bb;
 }

 TEST(HuffmanBitBufferTest, AppendBytesUnaligned) {
   std::string s;
   s.push_back('\x11');
   s.push_back('\x22');
   s.push_back('\x33');
   s.push_back('\x44');
   s.push_back('\x55');
   s.push_back('\x66');
   s.push_back('\x77');
   s.push_back('\x88');
   s.push_back('\x99');
   s.push_back('\xaa');
   s.push_back('\xbb');
   s.push_back('\xcc');
   s.push_back('\xdd');
   absl::string_view sp(s);

   HuffmanBitBuffer bb;
   sp.remove_prefix(bb.AppendBytes(sp));
   EXPECT_EQ(sp.size(), 5u);
   EXPECT_FALSE(bb.InputProperlyTerminated());

   bb.ConsumeBits(15);
   EXPECT_EQ(bb.count(), 49u) << bb;
   EXPECT_EQ(bb.free_count(), 15u) << bb;

   HuffmanAccumulator expected(0x1122334455667788);
   expected <<= 15;
   EXPECT_EQ(bb.value(), expected);

   sp.remove_prefix(bb.AppendBytes(sp));
   EXPECT_EQ(sp.size(), 4u);
   EXPECT_EQ(bb.count(), 57u) << bb;
   EXPECT_EQ(bb.free_count(), 7u) << bb;

   expected |= (HuffmanAccumulator(0x99) << 7);
   EXPECT_EQ(bb.value(), expected)
       << bb << std::hex << "\n   actual: " << bb.value()
       << "\n expected: " << expected;
 }

 class HpackHuffmanDecoderTest : public RandomDecoderTest {
  protected:
   HpackHuffmanDecoderTest() {
     // The decoder may return true, and its accumulator may be empty, at
     // many boundaries while decoding, and yet the whole string hasn't
     // been decoded.
     stop_decode_on_done_ = false;
   }

   DecodeStatus StartDecoding(DecodeBuffer* b) override {
     input_bytes_seen_ = 0;
     output_buffer_.clear();
     decoder_.Reset();
     return ResumeDecoding(b);
   }

   DecodeStatus ResumeDecoding(DecodeBuffer* b) override {
     input_bytes_seen_ += b->Remaining();
     absl::string_view sp(b->cursor(), b->Remaining());
     if (decoder_.Decode(sp, &output_buffer_)) {
       b->AdvanceCursor(b->Remaining());
       // Successfully decoded (or buffered) the bytes in absl::string_view.
       EXPECT_LE(input_bytes_seen_, input_bytes_expected_);
       // Have we reached the end of the encoded string?
       if (input_bytes_expected_ == input_bytes_seen_) {
         if (decoder_.InputProperlyTerminated()) {
           return DecodeStatus::kDecodeDone;
         } else {
           return DecodeStatus::kDecodeError;
         }
       }
       return DecodeStatus::kDecodeInProgress;
     }
     return DecodeStatus::kDecodeError;
   }

   HpackHuffmanDecoder decoder_;
   std::string output_buffer_;
   size_t input_bytes_seen_;
   size_t input_bytes_expected_;
 };

 TEST_F(HpackHuffmanDecoderTest, SpecRequestExamples) {
   HpackHuffmanDecoder decoder;
   std::string test_table[] = {
       absl::HexStringToBytes("f1e3c2e5f23a6ba0ab90f4ff"),
       "www.example.com",
       absl::HexStringToBytes("a8eb10649cbf"),
       "no-cache",
       absl::HexStringToBytes("25a849e95ba97d7f"),
       "custom-key",
       absl::HexStringToBytes("25a849e95bb8e8b4bf"),
       "custom-value",
   };
   for (size_t i = 0; i != ABSL_ARRAYSIZE(test_table); i += 2) {
     const std::string& huffman_encoded(test_table[i]);
     const std::string& plain_string(test_table[i + 1]);
     std::string buffer;
     decoder.Reset();
     EXPECT_TRUE(decoder.Decode(huffman_encoded, &buffer)) << decoder;
     EXPECT_TRUE(decoder.InputProperlyTerminated()) << decoder;
     EXPECT_EQ(buffer, plain_string);
   }
 }

 TEST_F(HpackHuffmanDecoderTest, SpecResponseExamples) {
   HpackHuffmanDecoder decoder;
   // clang-format off
   std::string test_table[] = {
     absl::HexStringToBytes("6402"),
     "302",
     absl::HexStringToBytes("aec3771a4b"),
     "private",
     absl::HexStringToBytes("d07abe941054d444a8200595040b8166"
             "e082a62d1bff"),
     "Mon, 21 Oct 2013 20:13:21 GMT",
     absl::HexStringToBytes("9d29ad171863c78f0b97c8e9ae82ae43"
             "d3"),
     "https://www.example.com",
     absl::HexStringToBytes("94e7821dd7f2e6c7b335dfdfcd5b3960"
             "d5af27087f3672c1ab270fb5291f9587"
             "316065c003ed4ee5b1063d5007"),
     "foo=ASDJKHQKBZXOQWEOPIUAXQWEOIU; max-age=3600; version=1",
   };
   // clang-format on
   for (size_t i = 0; i != ABSL_ARRAYSIZE(test_table); i += 2) {
     const std::string& huffman_encoded(test_table[i]);
     const std::string& plain_string(test_table[i + 1]);
     std::string buffer;
     decoder.Reset();
     EXPECT_TRUE(decoder.Decode(huffman_encoded, &buffer)) << decoder;
     EXPECT_TRUE(decoder.InputProperlyTerminated()) << decoder;
     EXPECT_EQ(buffer, plain_string);
   }
 }

 }  // 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/huffman/hpack_huffman_decoder.h"

	// Tests of HpackHuffmanDecoder and HuffmanBitBuffer.

	#include <iostream>

	#include "absl/base/macros.h"
	#include "absl/strings/escaping.h"
	#include "http2/decoder/decode_buffer.h"
	#include "http2/decoder/decode_status.h"
	#include "http2/platform/api/http2_test_helpers.h"
	#include "http2/tools/random_decoder_test.h"
	#include "common/platform/api/quiche_test.h"

	using ::testing::AssertionResult;

	namespace http2 {
	namespace test {
	namespace {

	TEST(HuffmanBitBufferTest, Reset) {
	HuffmanBitBuffer bb;
	EXPECT_TRUE(bb.IsEmpty());
	EXPECT_TRUE(bb.InputProperlyTerminated());
	EXPECT_EQ(bb.count(), 0u);
	EXPECT_EQ(bb.free_count(), 64u);
	EXPECT_EQ(bb.value(), 0u);
	}

	TEST(HuffmanBitBufferTest, AppendBytesAligned) {
	std::string s;
	s.push_back('\x11');
	s.push_back('\x22');
	s.push_back('\x33');
	absl::string_view sp(s);

	HuffmanBitBuffer bb;
	sp.remove_prefix(bb.AppendBytes(sp));
	EXPECT_TRUE(sp.empty());
	EXPECT_FALSE(bb.IsEmpty()) << bb;
	EXPECT_FALSE(bb.InputProperlyTerminated());
	EXPECT_EQ(bb.count(), 24u) << bb;
	EXPECT_EQ(bb.free_count(), 40u) << bb;
	EXPECT_EQ(bb.value(), HuffmanAccumulator(0x112233) << 40) << bb;

	s.clear();
	s.push_back('\x44');
	sp = s;

	sp.remove_prefix(bb.AppendBytes(sp));
	EXPECT_TRUE(sp.empty());
	EXPECT_EQ(bb.count(), 32u) << bb;
	EXPECT_EQ(bb.free_count(), 32u) << bb;
	EXPECT_EQ(bb.value(), HuffmanAccumulator(0x11223344) << 32) << bb;

	s.clear();
	s.push_back('\x55');
	s.push_back('\x66');
	s.push_back('\x77');
	s.push_back('\x88');
	s.push_back('\x99');
	sp = s;

	sp.remove_prefix(bb.AppendBytes(sp));
	EXPECT_EQ(sp.size(), 1u);
	EXPECT_EQ('\x99', sp[0]);
	EXPECT_EQ(bb.count(), 64u) << bb;
	EXPECT_EQ(bb.free_count(), 0u) << bb;
	EXPECT_EQ(bb.value(), HuffmanAccumulator(0x1122334455667788LL)) << bb;

	sp.remove_prefix(bb.AppendBytes(sp));
	EXPECT_EQ(sp.size(), 1u);
	EXPECT_EQ('\x99', sp[0]);
	EXPECT_EQ(bb.count(), 64u) << bb;
	EXPECT_EQ(bb.free_count(), 0u) << bb;
	EXPECT_EQ(bb.value(), HuffmanAccumulator(0x1122334455667788LL)) << bb;
	}

	TEST(HuffmanBitBufferTest, ConsumeBits) {
	std::string s;
	s.push_back('\x11');
	s.push_back('\x22');
	s.push_back('\x33');
	absl::string_view sp(s);

	HuffmanBitBuffer bb;
	sp.remove_prefix(bb.AppendBytes(sp));
	EXPECT_TRUE(sp.empty());

	bb.ConsumeBits(1);
	EXPECT_EQ(bb.count(), 23u) << bb;
	EXPECT_EQ(bb.free_count(), 41u) << bb;
	EXPECT_EQ(bb.value(), HuffmanAccumulator(0x112233) << 41) << bb;

	bb.ConsumeBits(20);
	EXPECT_EQ(bb.count(), 3u) << bb;
	EXPECT_EQ(bb.free_count(), 61u) << bb;
	EXPECT_EQ(bb.value(), HuffmanAccumulator(0x3) << 61) << bb;
	}

	TEST(HuffmanBitBufferTest, AppendBytesUnaligned) {
	std::string s;
	s.push_back('\x11');
	s.push_back('\x22');
	s.push_back('\x33');
	s.push_back('\x44');
	s.push_back('\x55');
	s.push_back('\x66');
	s.push_back('\x77');
	s.push_back('\x88');
	s.push_back('\x99');
	s.push_back('\xaa');
	s.push_back('\xbb');
	s.push_back('\xcc');
	s.push_back('\xdd');
	absl::string_view sp(s);

	HuffmanBitBuffer bb;
	sp.remove_prefix(bb.AppendBytes(sp));
	EXPECT_EQ(sp.size(), 5u);
	EXPECT_FALSE(bb.InputProperlyTerminated());

	bb.ConsumeBits(15);
	EXPECT_EQ(bb.count(), 49u) << bb;
	EXPECT_EQ(bb.free_count(), 15u) << bb;

	HuffmanAccumulator expected(0x1122334455667788);
	expected <<= 15;
	EXPECT_EQ(bb.value(), expected);

	sp.remove_prefix(bb.AppendBytes(sp));
	EXPECT_EQ(sp.size(), 4u);
	EXPECT_EQ(bb.count(), 57u) << bb;
	EXPECT_EQ(bb.free_count(), 7u) << bb;

	expected \|= (HuffmanAccumulator(0x99) << 7);
	EXPECT_EQ(bb.value(), expected)
	<< bb << std::hex << "\n actual: " << bb.value()
	<< "\n expected: " << expected;
	}

	class HpackHuffmanDecoderTest : public RandomDecoderTest {
	protected:
	HpackHuffmanDecoderTest() {
	// The decoder may return true, and its accumulator may be empty, at
	// many boundaries while decoding, and yet the whole string hasn't
	// been decoded.
	stop_decode_on_done_ = false;
	}

	DecodeStatus StartDecoding(DecodeBuffer* b) override {
	input_bytes_seen_ = 0;
	output_buffer_.clear();
	decoder_.Reset();
	return ResumeDecoding(b);
	}

	DecodeStatus ResumeDecoding(DecodeBuffer* b) override {
	input_bytes_seen_ += b->Remaining();
	absl::string_view sp(b->cursor(), b->Remaining());
	if (decoder_.Decode(sp, &output_buffer_)) {
	b->AdvanceCursor(b->Remaining());
	// Successfully decoded (or buffered) the bytes in absl::string_view.
	EXPECT_LE(input_bytes_seen_, input_bytes_expected_);
	// Have we reached the end of the encoded string?
	if (input_bytes_expected_ == input_bytes_seen_) {
	if (decoder_.InputProperlyTerminated()) {
	return DecodeStatus::kDecodeDone;
	} else {
	return DecodeStatus::kDecodeError;
	}
	}
	return DecodeStatus::kDecodeInProgress;
	}
	return DecodeStatus::kDecodeError;
	}

	HpackHuffmanDecoder decoder_;
	std::string output_buffer_;
	size_t input_bytes_seen_;
	size_t input_bytes_expected_;
	};

	TEST_F(HpackHuffmanDecoderTest, SpecRequestExamples) {
	HpackHuffmanDecoder decoder;
	std::string test_table[] = {
	absl::HexStringToBytes("f1e3c2e5f23a6ba0ab90f4ff"),
	"www.example.com",
	absl::HexStringToBytes("a8eb10649cbf"),
	"no-cache",
	absl::HexStringToBytes("25a849e95ba97d7f"),
	"custom-key",
	absl::HexStringToBytes("25a849e95bb8e8b4bf"),
	"custom-value",
	};
	for (size_t i = 0; i != ABSL_ARRAYSIZE(test_table); i += 2) {
	const std::string& huffman_encoded(test_table[i]);
	const std::string& plain_string(test_table[i + 1]);
	std::string buffer;
	decoder.Reset();
	EXPECT_TRUE(decoder.Decode(huffman_encoded, &buffer)) << decoder;
	EXPECT_TRUE(decoder.InputProperlyTerminated()) << decoder;
	EXPECT_EQ(buffer, plain_string);
	}
	}

	TEST_F(HpackHuffmanDecoderTest, SpecResponseExamples) {
	HpackHuffmanDecoder decoder;
	// clang-format off
	std::string test_table[] = {
	absl::HexStringToBytes("6402"),
	"302",
	absl::HexStringToBytes("aec3771a4b"),
	"private",
	absl::HexStringToBytes("d07abe941054d444a8200595040b8166"
	"e082a62d1bff"),
	"Mon, 21 Oct 2013 20:13:21 GMT",
	absl::HexStringToBytes("9d29ad171863c78f0b97c8e9ae82ae43"
	"d3"),
	"https://www.example.com",
	absl::HexStringToBytes("94e7821dd7f2e6c7b335dfdfcd5b3960"
	"d5af27087f3672c1ab270fb5291f9587"
	"316065c003ed4ee5b1063d5007"),
	"foo=ASDJKHQKBZXOQWEOPIUAXQWEOIU; max-age=3600; version=1",
	};
	// clang-format on
	for (size_t i = 0; i != ABSL_ARRAYSIZE(test_table); i += 2) {
	const std::string& huffman_encoded(test_table[i]);
	const std::string& plain_string(test_table[i + 1]);
	std::string buffer;
	decoder.Reset();
	EXPECT_TRUE(decoder.Decode(huffman_encoded, &buffer)) << decoder;
	EXPECT_TRUE(decoder.InputProperlyTerminated()) << decoder;
	EXPECT_EQ(buffer, plain_string);
	}
	}

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