http2/hpack/decoder/hpack_decoder_tables_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_decoder_tables.h"

 #include <algorithm>
 #include <string>
 #include <tuple>
 #include <vector>

 #include "http2/hpack/http2_hpack_constants.h"
 #include "http2/platform/api/http2_logging.h"
 #include "http2/platform/api/http2_test_helpers.h"
 #include "http2/test_tools/http2_random.h"
 #include "http2/tools/random_util.h"
 #include "common/platform/api/quiche_test.h"

 using ::testing::AssertionResult;
 using ::testing::AssertionSuccess;

 namespace http2 {
 namespace test {
 class HpackDecoderTablesPeer {
  public:
   static size_t num_dynamic_entries(const HpackDecoderTables& tables) {
     return tables.dynamic_table_.table_.size();
   }
 };

 namespace {
 struct StaticEntry {
   const char* name;
   const char* value;
   size_t index;
 };

 std::vector<StaticEntry> MakeSpecStaticEntries() {
   std::vector<StaticEntry> static_entries;

 #define STATIC_TABLE_ENTRY(name, value, index)                             \
   QUICHE_DCHECK_EQ(static_entries.size() + 1, static_cast<size_t>(index)); \
   static_entries.push_back({name, value, index});

 #include "http2/hpack/hpack_static_table_entries.inc"

 #undef STATIC_TABLE_ENTRY

   return static_entries;
 }

 template <class C>
 void ShuffleCollection(C* collection, Http2Random* r) {
   std::shuffle(collection->begin(), collection->end(), *r);
 }

 class HpackDecoderStaticTableTest : public QuicheTest {
  protected:
   HpackDecoderStaticTableTest() = default;

   std::vector<StaticEntry> shuffled_static_entries() {
     std::vector<StaticEntry> entries = MakeSpecStaticEntries();
     ShuffleCollection(&entries, &random_);
     return entries;
   }

   // This test is in a function so that it can be applied to both the static
   // table and the combined static+dynamic tables.
   AssertionResult VerifyStaticTableContents() {
     for (const auto& expected : shuffled_static_entries()) {
       const HpackStringPair* found = Lookup(expected.index);
       VERIFY_NE(found, nullptr);
       VERIFY_EQ(expected.name, found->name) << expected.index;
       VERIFY_EQ(expected.value, found->value) << expected.index;
     }

     // There should be no entry with index 0.
     VERIFY_EQ(nullptr, Lookup(0));
     return AssertionSuccess();
   }

   virtual const HpackStringPair* Lookup(size_t index) {
     return static_table_.Lookup(index);
   }

   Http2Random* RandomPtr() { return &random_; }

   Http2Random random_;

  private:
   HpackDecoderStaticTable static_table_;
 };

 TEST_F(HpackDecoderStaticTableTest, StaticTableContents) {
   EXPECT_TRUE(VerifyStaticTableContents());
 }

 size_t Size(const std::string& name, const std::string& value) {
   return name.size() + value.size() + 32;
 }

 // To support tests with more than a few of hand crafted changes to the dynamic
 // table, we have another, exceedingly simple, implementation of the HPACK
 // dynamic table containing FakeHpackEntry instances. We can thus compare the
 // contents of the actual table with those in fake_dynamic_table_.

 typedef std::tuple<std::string, std::string, size_t> FakeHpackEntry;
 const std::string& Name(const FakeHpackEntry& entry) {
   return std::get<0>(entry);
 }
 const std::string& Value(const FakeHpackEntry& entry) {
   return std::get<1>(entry);
 }
 size_t Size(const FakeHpackEntry& entry) {
   return std::get<2>(entry);
 }

 class HpackDecoderTablesTest : public HpackDecoderStaticTableTest {
  protected:
   const HpackStringPair* Lookup(size_t index) override {
     return tables_.Lookup(index);
   }

   size_t dynamic_size_limit() const {
     return tables_.header_table_size_limit();
   }
   size_t current_dynamic_size() const {
     return tables_.current_header_table_size();
   }
   size_t num_dynamic_entries() const {
     return HpackDecoderTablesPeer::num_dynamic_entries(tables_);
   }

   // Insert the name and value into fake_dynamic_table_.
   void FakeInsert(const std::string& name, const std::string& value) {
     FakeHpackEntry entry(name, value, Size(name, value));
     fake_dynamic_table_.insert(fake_dynamic_table_.begin(), entry);
   }

   // Add up the size of all entries in fake_dynamic_table_.
   size_t FakeSize() {
     size_t sz = 0;
     for (const auto& entry : fake_dynamic_table_) {
       sz += Size(entry);
     }
     return sz;
   }

   // If the total size of the fake_dynamic_table_ is greater than limit,
   // keep the first N entries such that those N entries have a size not
   // greater than limit, and such that keeping entry N+1 would have a size
   // greater than limit. Returns the count of removed bytes.
   size_t FakeTrim(size_t limit) {
     size_t original_size = FakeSize();
     size_t total_size = 0;
     for (size_t ndx = 0; ndx < fake_dynamic_table_.size(); ++ndx) {
       total_size += Size(fake_dynamic_table_[ndx]);
       if (total_size > limit) {
         // Need to get rid of ndx and all following entries.
         fake_dynamic_table_.erase(fake_dynamic_table_.begin() + ndx,
                                   fake_dynamic_table_.end());
         return original_size - FakeSize();
       }
     }
     return 0;
   }

   // Verify that the contents of the actual dynamic table match those in
   // fake_dynamic_table_.
   AssertionResult VerifyDynamicTableContents() {
     VERIFY_EQ(current_dynamic_size(), FakeSize());
     VERIFY_EQ(num_dynamic_entries(), fake_dynamic_table_.size());

     for (size_t ndx = 0; ndx < fake_dynamic_table_.size(); ++ndx) {
       const HpackStringPair* found = Lookup(ndx + kFirstDynamicTableIndex);
       VERIFY_NE(found, nullptr);

       const auto& expected = fake_dynamic_table_[ndx];
       VERIFY_EQ(Name(expected), found->name);
       VERIFY_EQ(Value(expected), found->value);
     }

     // Make sure there are no more entries.
     VERIFY_EQ(nullptr,
               Lookup(fake_dynamic_table_.size() + kFirstDynamicTableIndex));
     return AssertionSuccess();
   }

   // Apply an update to the limit on the maximum size of the dynamic table.
   AssertionResult DynamicTableSizeUpdate(size_t size_limit) {
     VERIFY_EQ(current_dynamic_size(), FakeSize());
     if (size_limit < current_dynamic_size()) {
       // Will need to trim the dynamic table's oldest entries.
       tables_.DynamicTableSizeUpdate(size_limit);
       FakeTrim(size_limit);
       return VerifyDynamicTableContents();
     }
     // Shouldn't change the size.
     tables_.DynamicTableSizeUpdate(size_limit);
     return VerifyDynamicTableContents();
   }

   // Insert an entry into the dynamic table, confirming that trimming of entries
   // occurs if the total size is greater than the limit, and that older entries
   // move up by 1 index.
   AssertionResult Insert(const std::string& name, const std::string& value) {
     size_t old_count = num_dynamic_entries();
     tables_.Insert(name, value);
     FakeInsert(name, value);
     VERIFY_EQ(old_count + 1, fake_dynamic_table_.size());
     FakeTrim(dynamic_size_limit());
     VERIFY_EQ(current_dynamic_size(), FakeSize());
     VERIFY_EQ(num_dynamic_entries(), fake_dynamic_table_.size());
     return VerifyDynamicTableContents();
   }

  private:
   HpackDecoderTables tables_;

   std::vector<FakeHpackEntry> fake_dynamic_table_;
 };

 TEST_F(HpackDecoderTablesTest, StaticTableContents) {
   EXPECT_TRUE(VerifyStaticTableContents());
 }

 // Generate a bunch of random header entries, insert them, and confirm they
 // present, as required by the RFC, using VerifyDynamicTableContents above on
 // each Insert. Also apply various resizings of the dynamic table.
 TEST_F(HpackDecoderTablesTest, RandomDynamicTable) {
   EXPECT_EQ(0u, current_dynamic_size());
   EXPECT_TRUE(VerifyStaticTableContents());
   EXPECT_TRUE(VerifyDynamicTableContents());

   std::vector<size_t> table_sizes;
   table_sizes.push_back(dynamic_size_limit());
   table_sizes.push_back(0);
   table_sizes.push_back(dynamic_size_limit() / 2);
   table_sizes.push_back(dynamic_size_limit());
   table_sizes.push_back(dynamic_size_limit() / 2);
   table_sizes.push_back(0);
   table_sizes.push_back(dynamic_size_limit());

   for (size_t limit : table_sizes) {
     ASSERT_TRUE(DynamicTableSizeUpdate(limit));
     for (int insert_count = 0; insert_count < 100; ++insert_count) {
       std::string name =
           GenerateHttp2HeaderName(random_.UniformInRange(2, 40), RandomPtr());
       std::string value =
           GenerateWebSafeString(random_.UniformInRange(2, 600), RandomPtr());
       ASSERT_TRUE(Insert(name, value));
     }
     EXPECT_TRUE(VerifyStaticTableContents());
   }
 }

 }  // 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_decoder_tables.h"

	#include <algorithm>
	#include <string>
	#include <tuple>
	#include <vector>

	#include "http2/hpack/http2_hpack_constants.h"
	#include "http2/platform/api/http2_logging.h"
	#include "http2/platform/api/http2_test_helpers.h"
	#include "http2/test_tools/http2_random.h"
	#include "http2/tools/random_util.h"
	#include "common/platform/api/quiche_test.h"

	using ::testing::AssertionResult;
	using ::testing::AssertionSuccess;

	namespace http2 {
	namespace test {
	class HpackDecoderTablesPeer {
	public:
	static size_t num_dynamic_entries(const HpackDecoderTables& tables) {
	return tables.dynamic_table_.table_.size();
	}
	};

	namespace {
	struct StaticEntry {
	const char* name;
	const char* value;
	size_t index;
	};

	std::vector<StaticEntry> MakeSpecStaticEntries() {
	std::vector<StaticEntry> static_entries;

	#define STATIC_TABLE_ENTRY(name, value, index) \
	QUICHE_DCHECK_EQ(static_entries.size() + 1, static_cast<size_t>(index)); \
	static_entries.push_back({name, value, index});

	#include "http2/hpack/hpack_static_table_entries.inc"

	#undef STATIC_TABLE_ENTRY

	return static_entries;
	}

	template <class C>
	void ShuffleCollection(C* collection, Http2Random* r) {
	std::shuffle(collection->begin(), collection->end(), *r);
	}

	class HpackDecoderStaticTableTest : public QuicheTest {
	protected:
	HpackDecoderStaticTableTest() = default;

	std::vector<StaticEntry> shuffled_static_entries() {
	std::vector<StaticEntry> entries = MakeSpecStaticEntries();
	ShuffleCollection(&entries, &random_);
	return entries;
	}

	// This test is in a function so that it can be applied to both the static
	// table and the combined static+dynamic tables.
	AssertionResult VerifyStaticTableContents() {
	for (const auto& expected : shuffled_static_entries()) {
	const HpackStringPair* found = Lookup(expected.index);
	VERIFY_NE(found, nullptr);
	VERIFY_EQ(expected.name, found->name) << expected.index;
	VERIFY_EQ(expected.value, found->value) << expected.index;
	}

	// There should be no entry with index 0.
	VERIFY_EQ(nullptr, Lookup(0));
	return AssertionSuccess();
	}

	virtual const HpackStringPair* Lookup(size_t index) {
	return static_table_.Lookup(index);
	}

	Http2Random* RandomPtr() { return &random_; }

	Http2Random random_;

	private:
	HpackDecoderStaticTable static_table_;
	};

	TEST_F(HpackDecoderStaticTableTest, StaticTableContents) {
	EXPECT_TRUE(VerifyStaticTableContents());
	}

	size_t Size(const std::string& name, const std::string& value) {
	return name.size() + value.size() + 32;
	}

	// To support tests with more than a few of hand crafted changes to the dynamic
	// table, we have another, exceedingly simple, implementation of the HPACK
	// dynamic table containing FakeHpackEntry instances. We can thus compare the
	// contents of the actual table with those in fake_dynamic_table_.

	typedef std::tuple<std::string, std::string, size_t> FakeHpackEntry;
	const std::string& Name(const FakeHpackEntry& entry) {
	return std::get<0>(entry);
	}
	const std::string& Value(const FakeHpackEntry& entry) {
	return std::get<1>(entry);
	}
	size_t Size(const FakeHpackEntry& entry) {
	return std::get<2>(entry);
	}

	class HpackDecoderTablesTest : public HpackDecoderStaticTableTest {
	protected:
	const HpackStringPair* Lookup(size_t index) override {
	return tables_.Lookup(index);
	}

	size_t dynamic_size_limit() const {
	return tables_.header_table_size_limit();
	}
	size_t current_dynamic_size() const {
	return tables_.current_header_table_size();
	}
	size_t num_dynamic_entries() const {
	return HpackDecoderTablesPeer::num_dynamic_entries(tables_);
	}

	// Insert the name and value into fake_dynamic_table_.
	void FakeInsert(const std::string& name, const std::string& value) {
	FakeHpackEntry entry(name, value, Size(name, value));
	fake_dynamic_table_.insert(fake_dynamic_table_.begin(), entry);
	}

	// Add up the size of all entries in fake_dynamic_table_.
	size_t FakeSize() {
	size_t sz = 0;
	for (const auto& entry : fake_dynamic_table_) {
	sz += Size(entry);
	}
	return sz;
	}

	// If the total size of the fake_dynamic_table_ is greater than limit,
	// keep the first N entries such that those N entries have a size not
	// greater than limit, and such that keeping entry N+1 would have a size
	// greater than limit. Returns the count of removed bytes.
	size_t FakeTrim(size_t limit) {
	size_t original_size = FakeSize();
	size_t total_size = 0;
	for (size_t ndx = 0; ndx < fake_dynamic_table_.size(); ++ndx) {
	total_size += Size(fake_dynamic_table_[ndx]);
	if (total_size > limit) {
	// Need to get rid of ndx and all following entries.
	fake_dynamic_table_.erase(fake_dynamic_table_.begin() + ndx,
	fake_dynamic_table_.end());
	return original_size - FakeSize();
	}
	}
	return 0;
	}

	// Verify that the contents of the actual dynamic table match those in
	// fake_dynamic_table_.
	AssertionResult VerifyDynamicTableContents() {
	VERIFY_EQ(current_dynamic_size(), FakeSize());
	VERIFY_EQ(num_dynamic_entries(), fake_dynamic_table_.size());

	for (size_t ndx = 0; ndx < fake_dynamic_table_.size(); ++ndx) {
	const HpackStringPair* found = Lookup(ndx + kFirstDynamicTableIndex);
	VERIFY_NE(found, nullptr);

	const auto& expected = fake_dynamic_table_[ndx];
	VERIFY_EQ(Name(expected), found->name);
	VERIFY_EQ(Value(expected), found->value);
	}

	// Make sure there are no more entries.
	VERIFY_EQ(nullptr,
	Lookup(fake_dynamic_table_.size() + kFirstDynamicTableIndex));
	return AssertionSuccess();
	}

	// Apply an update to the limit on the maximum size of the dynamic table.
	AssertionResult DynamicTableSizeUpdate(size_t size_limit) {
	VERIFY_EQ(current_dynamic_size(), FakeSize());
	if (size_limit < current_dynamic_size()) {
	// Will need to trim the dynamic table's oldest entries.
	tables_.DynamicTableSizeUpdate(size_limit);
	FakeTrim(size_limit);
	return VerifyDynamicTableContents();
	}
	// Shouldn't change the size.
	tables_.DynamicTableSizeUpdate(size_limit);
	return VerifyDynamicTableContents();
	}

	// Insert an entry into the dynamic table, confirming that trimming of entries
	// occurs if the total size is greater than the limit, and that older entries
	// move up by 1 index.
	AssertionResult Insert(const std::string& name, const std::string& value) {
	size_t old_count = num_dynamic_entries();
	tables_.Insert(name, value);
	FakeInsert(name, value);
	VERIFY_EQ(old_count + 1, fake_dynamic_table_.size());
	FakeTrim(dynamic_size_limit());
	VERIFY_EQ(current_dynamic_size(), FakeSize());
	VERIFY_EQ(num_dynamic_entries(), fake_dynamic_table_.size());
	return VerifyDynamicTableContents();
	}

	private:
	HpackDecoderTables tables_;

	std::vector<FakeHpackEntry> fake_dynamic_table_;
	};

	TEST_F(HpackDecoderTablesTest, StaticTableContents) {
	EXPECT_TRUE(VerifyStaticTableContents());
	}

	// Generate a bunch of random header entries, insert them, and confirm they
	// present, as required by the RFC, using VerifyDynamicTableContents above on
	// each Insert. Also apply various resizings of the dynamic table.
	TEST_F(HpackDecoderTablesTest, RandomDynamicTable) {
	EXPECT_EQ(0u, current_dynamic_size());
	EXPECT_TRUE(VerifyStaticTableContents());
	EXPECT_TRUE(VerifyDynamicTableContents());

	std::vector<size_t> table_sizes;
	table_sizes.push_back(dynamic_size_limit());
	table_sizes.push_back(0);
	table_sizes.push_back(dynamic_size_limit() / 2);
	table_sizes.push_back(dynamic_size_limit());
	table_sizes.push_back(dynamic_size_limit() / 2);
	table_sizes.push_back(0);
	table_sizes.push_back(dynamic_size_limit());

	for (size_t limit : table_sizes) {
	ASSERT_TRUE(DynamicTableSizeUpdate(limit));
	for (int insert_count = 0; insert_count < 100; ++insert_count) {
	std::string name =
	GenerateHttp2HeaderName(random_.UniformInRange(2, 40), RandomPtr());
	std::string value =
	GenerateWebSafeString(random_.UniformInRange(2, 600), RandomPtr());
	ASSERT_TRUE(Insert(name, value));
	}
	EXPECT_TRUE(VerifyStaticTableContents());
	}
	}

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