webm_parser/tests/master_value_parser_test.cc - platform/external/libwebm - Git at Google

 // Copyright (c) 2016 The WebM project authors. All Rights Reserved.
 //
 // Use of this source code is governed by a BSD-style license
 // that can be found in the LICENSE file in the root of the source
 // tree. An additional intellectual property rights grant can be found
 // in the file PATENTS.  All contributing project authors may
 // be found in the AUTHORS file in the root of the source tree.
 #include "src/master_value_parser.h"

 #include "gmock/gmock.h"
 #include "gtest/gtest.h"

 #include "src/int_parser.h"
 #include "test_utils/element_parser_test.h"
 #include "webm/element.h"
 #include "webm/id.h"
 #include "webm/status.h"

 using testing::_;
 using testing::DoAll;
 using testing::InSequence;
 using testing::NotNull;
 using testing::Return;
 using testing::SetArgPointee;

 using webm::Action;
 using webm::Callback;
 using webm::Cluster;
 using webm::ElementMetadata;
 using webm::ElementParserTest;
 using webm::Id;
 using webm::MasterValueParser;
 using webm::Status;
 using webm::UnsignedIntParser;

 namespace {

 // An instance of MasterValueParser that can actually be used in the tests to
 // parse Cluster structures.
 class FakeClusterParser : public MasterValueParser<Cluster> {
  public:
   FakeClusterParser()
       : MasterValueParser(
             MakeChild<UnsignedIntParser>(Id::kTimecode, &Cluster::timecode),
             MakeChild<UnsignedIntParser>(Id::kPrevSize, &Cluster::previous_size)
                 .UseAsStartEvent()) {}

  protected:
   Status OnParseStarted(Callback* callback, Action* action) override {
     return callback->OnClusterBegin(metadata(Id::kCluster), value(), action);
   }

   Status OnParseCompleted(Callback* callback) override {
     return callback->OnClusterEnd(metadata(Id::kCluster), value());
   }
 };

 class MasterValueParserTest
     : public ElementParserTest<FakeClusterParser, Id::kCluster> {};

 TEST_F(MasterValueParserTest, InvalidId) {
   SetReaderData({
       0x00,  // Invalid ID.
   });

   ParseAndExpectResult(Status::kInvalidElementId);
 }

 TEST_F(MasterValueParserTest, InvalidSize) {
   SetReaderData({
       0xE7,  // ID = 0xE7 (Timecode).
       0xFF,  // Size = unknown.
   });

   ParseAndExpectResult(Status::kInvalidElementSize);
 }

 TEST_F(MasterValueParserTest, DefaultParse) {
   {
     InSequence dummy;

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, Cluster{}, NotNull()))
         .Times(1);

     EXPECT_CALL(callback_, OnClusterEnd(metadata_, Cluster{})).Times(1);
   }

   ParseAndVerify();
 }

 TEST_F(MasterValueParserTest, DefaultValues) {
   SetReaderData({
       0xE7,  // ID = 0xE7 (Timecode).
       0x80,  // Size = 0.

       0xAB,  // ID = 0xAB (PrevSize).
       0x80,  // Size = 0.
   });

   {
     InSequence dummy;

     Cluster cluster{};
     cluster.timecode.Set(0, true);

     ElementMetadata child_metadata = {Id::kTimecode, 2, 0, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     child_metadata = {Id::kPrevSize, 2, 0, 2};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .Times(1);

     cluster.previous_size.Set(0, true);
     EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
   }

   ParseAndVerify();
 }

 TEST_F(MasterValueParserTest, CustomValues) {
   SetReaderData({
       0xE7,  // ID = 0xE7 (Timecode).
       0x82,  // Size = 2.
       0x04, 0x00,  // Body (value = 1024).

       0xAB,  // ID = 0xAB (PrevSize).
       0x40, 0x01,  // Size = 1.
       0x01,  // Body (value = 1).
   });

   {
     InSequence dummy;

     Cluster cluster{};
     cluster.timecode.Set(1024, true);

     ElementMetadata child_metadata = {Id::kTimecode, 2, 2, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     child_metadata = {Id::kPrevSize, 3, 1, 4};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .Times(1);

     cluster.previous_size.Set(1, true);
     EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
   }

   ParseAndVerify();
 }

 TEST_F(MasterValueParserTest, IncrementalParse) {
   SetReaderData({
       0xE7,  // ID = 0xE7 (Timecode).
       0x40, 0x02,  // Size = 2.
       0x04, 0x00,  // Body (value = 1024).

       0x40, 0x00,  // ID = 0x4000 (Unknown).
       0x40, 0x02,  // Size = 2.
       0x00, 0x00,  // Body.

       0xAB,  // ID = 0xAB (PrevSize).
       0x40, 0x02,  // Size = 2.
       0x00, 0x01,  // Body (value = 1).
   });

   {
     InSequence dummy;

     Cluster cluster{};
     cluster.timecode.Set(1024, true);

     ElementMetadata child_metadata = {Id::kTimecode, 3, 2, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     child_metadata = {static_cast<Id>(0x4000), 4, 2, 5};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);
     EXPECT_CALL(callback_,
                 OnUnknownElement(child_metadata, NotNull(), NotNull()))
         .Times(3);

     child_metadata = {Id::kPrevSize, 3, 2, 11};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .Times(1);

     cluster.previous_size.Set(1, true);
     EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
   }

   IncrementalParseAndVerify();
 }

 TEST_F(MasterValueParserTest, StartEventWithoutPreviousSize) {
   SetReaderData({
       0xE7,  // ID = 0xE7 (Timecode).
       0x80,  // Size = 0.
   });

   {
     InSequence dummy;

     Cluster cluster{};

     const ElementMetadata child_metadata = {Id::kTimecode, 2, 0, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     cluster.timecode.Set(0, true);
     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .Times(1);

     EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
   }

   ParseAndVerify();
 }

 TEST_F(MasterValueParserTest, StartEventWithPreviousSize) {
   SetReaderData({
       0xAB,  // ID = 0xAB (PrevSize).
       0x80,  // Size = 0.

       0xE7,  // ID = 0xE7 (Timecode).
       0x80,  // Size = 0.
   });

   {
     InSequence dummy;

     Cluster cluster{};

     ElementMetadata child_metadata = {Id::kPrevSize, 2, 0, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .Times(1);

     child_metadata = {Id::kTimecode, 2, 0, 2};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     cluster.previous_size.Set(0, true);
     cluster.timecode.Set(0, true);
     EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
   }

   ParseAndVerify();
 }

 TEST_F(MasterValueParserTest, PartialStartThenRead) {
   SetReaderData({
       0xAB,  // ID = 0xAB (PrevSize).
       0x81,  // Size = 1.
       0x01,  // Body (value = 1).

       0xE7,  // ID = 0xE7 (Timecode).
       0x81,  // Size = 1.
       0x01,  // Body (value = 1).
   });

   {
     InSequence dummy;

     Cluster cluster{};

     ElementMetadata child_metadata = {Id::kPrevSize, 2, 1, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .WillOnce(Return(Status(Status::kOkPartial)))
         .WillOnce(DoAll(SetArgPointee<2>(Action::kRead),
                         Return(Status(Status::kOkCompleted))));

     child_metadata = {Id::kTimecode, 2, 1, 3};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     cluster.previous_size.Set(1, true);
     cluster.timecode.Set(1, true);
     EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
   }

   IncrementalParseAndVerify();
 }

 TEST_F(MasterValueParserTest, EmptySkip) {
   const Cluster cluster{};

   EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
       .WillOnce(DoAll(SetArgPointee<2>(Action::kSkip),
                       Return(Status(Status::kOkCompleted))));

   EXPECT_CALL(callback_, OnElementBegin(_, _)).Times(0);
   EXPECT_CALL(callback_, OnClusterEnd(_, _)).Times(0);

   ParseAndVerify();

   EXPECT_EQ(cluster, parser_.value());
 }

 TEST_F(MasterValueParserTest, Skip) {
   SetReaderData({
       0xAB,  // ID = 0xAB (PrevSize).
       0x81,  // Size = 1.
       0x01,  // Body (value = 1).

       0xE7,  // ID = 0xE7 (Timecode).
       0x81,  // Size = 1.
       0x01,  // Body (value = 1).
   });

   const Cluster cluster{};

   {
     InSequence dummy;

     const ElementMetadata child_metadata = {Id::kPrevSize, 2, 1, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .WillOnce(DoAll(SetArgPointee<2>(Action::kSkip),
                         Return(Status(Status::kOkCompleted))));

     EXPECT_CALL(callback_, OnClusterEnd(_, _)).Times(0);
   }

   ParseAndVerify();

   EXPECT_EQ(cluster, parser_.value());
 }

 TEST_F(MasterValueParserTest, PartialStartThenSkip) {
   SetReaderData({
       0xAB,  // ID = 0xAB (PrevSize).
       0x81,  // Size = 1.
       0x01,  // Body (value = 1).

       0xE7,  // ID = 0xE7 (Timecode).
       0x81,  // Size = 1.
       0x01,  // Body (value = 1).
   });

   const Cluster cluster{};

   {
     InSequence dummy;

     const ElementMetadata child_metadata = {Id::kPrevSize, 2, 1, 0};
     EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

     EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
         .WillOnce(Return(Status(Status::kOkPartial)))
         .WillOnce(DoAll(SetArgPointee<2>(Action::kSkip),
                         Return(Status(Status::kOkCompleted))));

     EXPECT_CALL(callback_, OnClusterEnd(_, _)).Times(0);
   }

   IncrementalParseAndVerify();

   EXPECT_EQ(cluster, parser_.value());
 }

 }  // namespace
	// Copyright (c) 2016 The WebM project authors. All Rights Reserved.
	//
	// Use of this source code is governed by a BSD-style license
	// that can be found in the LICENSE file in the root of the source
	// tree. An additional intellectual property rights grant can be found
	// in the file PATENTS. All contributing project authors may
	// be found in the AUTHORS file in the root of the source tree.
	#include "src/master_value_parser.h"

	#include "gmock/gmock.h"
	#include "gtest/gtest.h"

	#include "src/int_parser.h"
	#include "test_utils/element_parser_test.h"
	#include "webm/element.h"
	#include "webm/id.h"
	#include "webm/status.h"

	using testing::_;
	using testing::DoAll;
	using testing::InSequence;
	using testing::NotNull;
	using testing::Return;
	using testing::SetArgPointee;

	using webm::Action;
	using webm::Callback;
	using webm::Cluster;
	using webm::ElementMetadata;
	using webm::ElementParserTest;
	using webm::Id;
	using webm::MasterValueParser;
	using webm::Status;
	using webm::UnsignedIntParser;

	namespace {

	// An instance of MasterValueParser that can actually be used in the tests to
	// parse Cluster structures.
	class FakeClusterParser : public MasterValueParser<Cluster> {
	public:
	FakeClusterParser()
	: MasterValueParser(
	MakeChild<UnsignedIntParser>(Id::kTimecode, &Cluster::timecode),
	MakeChild<UnsignedIntParser>(Id::kPrevSize, &Cluster::previous_size)
	.UseAsStartEvent()) {}

	protected:
	Status OnParseStarted(Callback* callback, Action* action) override {
	return callback->OnClusterBegin(metadata(Id::kCluster), value(), action);
	}

	Status OnParseCompleted(Callback* callback) override {
	return callback->OnClusterEnd(metadata(Id::kCluster), value());
	}
	};

	class MasterValueParserTest
	: public ElementParserTest<FakeClusterParser, Id::kCluster> {};

	TEST_F(MasterValueParserTest, InvalidId) {
	SetReaderData({
	0x00, // Invalid ID.
	});

	ParseAndExpectResult(Status::kInvalidElementId);
	}

	TEST_F(MasterValueParserTest, InvalidSize) {
	SetReaderData({
	0xE7, // ID = 0xE7 (Timecode).
	0xFF, // Size = unknown.
	});

	ParseAndExpectResult(Status::kInvalidElementSize);
	}

	TEST_F(MasterValueParserTest, DefaultParse) {
	{
	InSequence dummy;

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, Cluster{}, NotNull()))
	.Times(1);

	EXPECT_CALL(callback_, OnClusterEnd(metadata_, Cluster{})).Times(1);
	}

	ParseAndVerify();
	}

	TEST_F(MasterValueParserTest, DefaultValues) {
	SetReaderData({
	0xE7, // ID = 0xE7 (Timecode).
	0x80, // Size = 0.

	0xAB, // ID = 0xAB (PrevSize).
	0x80, // Size = 0.
	});

	{
	InSequence dummy;

	Cluster cluster{};
	cluster.timecode.Set(0, true);

	ElementMetadata child_metadata = {Id::kTimecode, 2, 0, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	child_metadata = {Id::kPrevSize, 2, 0, 2};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.Times(1);

	cluster.previous_size.Set(0, true);
	EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
	}

	ParseAndVerify();
	}

	TEST_F(MasterValueParserTest, CustomValues) {
	SetReaderData({
	0xE7, // ID = 0xE7 (Timecode).
	0x82, // Size = 2.
	0x04, 0x00, // Body (value = 1024).

	0xAB, // ID = 0xAB (PrevSize).
	0x40, 0x01, // Size = 1.
	0x01, // Body (value = 1).
	});

	{
	InSequence dummy;

	Cluster cluster{};
	cluster.timecode.Set(1024, true);

	ElementMetadata child_metadata = {Id::kTimecode, 2, 2, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	child_metadata = {Id::kPrevSize, 3, 1, 4};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.Times(1);

	cluster.previous_size.Set(1, true);
	EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
	}

	ParseAndVerify();
	}

	TEST_F(MasterValueParserTest, IncrementalParse) {
	SetReaderData({
	0xE7, // ID = 0xE7 (Timecode).
	0x40, 0x02, // Size = 2.
	0x04, 0x00, // Body (value = 1024).

	0x40, 0x00, // ID = 0x4000 (Unknown).
	0x40, 0x02, // Size = 2.
	0x00, 0x00, // Body.

	0xAB, // ID = 0xAB (PrevSize).
	0x40, 0x02, // Size = 2.
	0x00, 0x01, // Body (value = 1).
	});

	{
	InSequence dummy;

	Cluster cluster{};
	cluster.timecode.Set(1024, true);

	ElementMetadata child_metadata = {Id::kTimecode, 3, 2, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	child_metadata = {static_cast<Id>(0x4000), 4, 2, 5};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);
	EXPECT_CALL(callback_,
	OnUnknownElement(child_metadata, NotNull(), NotNull()))
	.Times(3);

	child_metadata = {Id::kPrevSize, 3, 2, 11};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.Times(1);

	cluster.previous_size.Set(1, true);
	EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
	}

	IncrementalParseAndVerify();
	}

	TEST_F(MasterValueParserTest, StartEventWithoutPreviousSize) {
	SetReaderData({
	0xE7, // ID = 0xE7 (Timecode).
	0x80, // Size = 0.
	});

	{
	InSequence dummy;

	Cluster cluster{};

	const ElementMetadata child_metadata = {Id::kTimecode, 2, 0, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	cluster.timecode.Set(0, true);
	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.Times(1);

	EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
	}

	ParseAndVerify();
	}

	TEST_F(MasterValueParserTest, StartEventWithPreviousSize) {
	SetReaderData({
	0xAB, // ID = 0xAB (PrevSize).
	0x80, // Size = 0.

	0xE7, // ID = 0xE7 (Timecode).
	0x80, // Size = 0.
	});

	{
	InSequence dummy;

	Cluster cluster{};

	ElementMetadata child_metadata = {Id::kPrevSize, 2, 0, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.Times(1);

	child_metadata = {Id::kTimecode, 2, 0, 2};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	cluster.previous_size.Set(0, true);
	cluster.timecode.Set(0, true);
	EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
	}

	ParseAndVerify();
	}

	TEST_F(MasterValueParserTest, PartialStartThenRead) {
	SetReaderData({
	0xAB, // ID = 0xAB (PrevSize).
	0x81, // Size = 1.
	0x01, // Body (value = 1).

	0xE7, // ID = 0xE7 (Timecode).
	0x81, // Size = 1.
	0x01, // Body (value = 1).
	});

	{
	InSequence dummy;

	Cluster cluster{};

	ElementMetadata child_metadata = {Id::kPrevSize, 2, 1, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.WillOnce(Return(Status(Status::kOkPartial)))
	.WillOnce(DoAll(SetArgPointee<2>(Action::kRead),
	Return(Status(Status::kOkCompleted))));

	child_metadata = {Id::kTimecode, 2, 1, 3};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	cluster.previous_size.Set(1, true);
	cluster.timecode.Set(1, true);
	EXPECT_CALL(callback_, OnClusterEnd(metadata_, cluster)).Times(1);
	}

	IncrementalParseAndVerify();
	}

	TEST_F(MasterValueParserTest, EmptySkip) {
	const Cluster cluster{};

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.WillOnce(DoAll(SetArgPointee<2>(Action::kSkip),
	Return(Status(Status::kOkCompleted))));

	EXPECT_CALL(callback_, OnElementBegin(_, _)).Times(0);
	EXPECT_CALL(callback_, OnClusterEnd(_, _)).Times(0);

	ParseAndVerify();

	EXPECT_EQ(cluster, parser_.value());
	}

	TEST_F(MasterValueParserTest, Skip) {
	SetReaderData({
	0xAB, // ID = 0xAB (PrevSize).
	0x81, // Size = 1.
	0x01, // Body (value = 1).

	0xE7, // ID = 0xE7 (Timecode).
	0x81, // Size = 1.
	0x01, // Body (value = 1).
	});

	const Cluster cluster{};

	{
	InSequence dummy;

	const ElementMetadata child_metadata = {Id::kPrevSize, 2, 1, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.WillOnce(DoAll(SetArgPointee<2>(Action::kSkip),
	Return(Status(Status::kOkCompleted))));

	EXPECT_CALL(callback_, OnClusterEnd(_, _)).Times(0);
	}

	ParseAndVerify();

	EXPECT_EQ(cluster, parser_.value());
	}

	TEST_F(MasterValueParserTest, PartialStartThenSkip) {
	SetReaderData({
	0xAB, // ID = 0xAB (PrevSize).
	0x81, // Size = 1.
	0x01, // Body (value = 1).

	0xE7, // ID = 0xE7 (Timecode).
	0x81, // Size = 1.
	0x01, // Body (value = 1).
	});

	const Cluster cluster{};

	{
	InSequence dummy;

	const ElementMetadata child_metadata = {Id::kPrevSize, 2, 1, 0};
	EXPECT_CALL(callback_, OnElementBegin(child_metadata, NotNull())).Times(1);

	EXPECT_CALL(callback_, OnClusterBegin(metadata_, cluster, NotNull()))
	.WillOnce(Return(Status(Status::kOkPartial)))
	.WillOnce(DoAll(SetArgPointee<2>(Action::kSkip),
	Return(Status(Status::kOkCompleted))));

	EXPECT_CALL(callback_, OnClusterEnd(_, _)).Times(0);
	}

	IncrementalParseAndVerify();

	EXPECT_EQ(cluster, parser_.value());
	}

	} // namespace