mojo/apps/js/test/js_to_cpp_unittest.cc - platform/external/chromium_org - Git at Google

 // Copyright 2014 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 "base/at_exit.h"
 #include "base/file_util.h"
 #include "base/files/file_path.h"
 #include "base/message_loop/message_loop.h"
 #include "base/run_loop.h"
 #include "base/strings/utf_string_conversions.h"
 #include "gin/public/isolate_holder.h"
 #include "mojo/apps/js/mojo_runner_delegate.h"
 #include "mojo/apps/js/test/js_to_cpp.mojom.h"
 #include "mojo/common/common_type_converters.h"
 #include "mojo/common/test/test_utils.h"
 #include "mojo/public/cpp/system/core.h"
 #include "mojo/public/cpp/system/macros.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace mojo {
 namespace js {

 // Global value updated by some checks to prevent compilers from optimizing
 // reads out of existence.
 uint32 g_waste_accumulator = 0;

 namespace {

 // Negative numbers with different values in each byte, the last of
 // which can survive promotion to double and back.
 const int8  kExpectedInt8Value = -65;
 const int16 kExpectedInt16Value = -16961;
 const int32 kExpectedInt32Value = -1145258561;
 const int64 kExpectedInt64Value = -77263311946305LL;

 // Positive numbers with different values in each byte, the last of
 // which can survive promotion to double and back.
 const uint8  kExpectedUInt8Value = 65;
 const uint16 kExpectedUInt16Value = 16961;
 const uint32 kExpectedUInt32Value = 1145258561;
 const uint64 kExpectedUInt64Value = 77263311946305LL;

 // Double/float values, including special case constants.
 const double kExpectedDoubleVal = 3.14159265358979323846;
 const double kExpectedDoubleInf = std::numeric_limits<double>::infinity();
 const double kExpectedDoubleNan = std::numeric_limits<double>::quiet_NaN();
 const float kExpectedFloatVal = static_cast<float>(kExpectedDoubleVal);
 const float kExpectedFloatInf = std::numeric_limits<float>::infinity();
 const float kExpectedFloatNan = std::numeric_limits<float>::quiet_NaN();

 // NaN has the property that it is not equal to itself.
 #define EXPECT_NAN(x) EXPECT_NE(x, x)

 bool IsRunningOnIsolatedBot() {
   // TODO(yzshen): Remove this check once isolated tests are supported on the
   // Chromium waterfall. (http://crbug.com/351214)
   const base::FilePath test_file_path(
       test::GetFilePathForJSResource(
           "mojo/public/interfaces/bindings/tests/sample_interfaces.mojom"));
   if (!base::PathExists(test_file_path)) {
     LOG(WARNING) << "Mojom binding files don't exist. Skipping the test.";
     return true;
   }
   return false;
 }

 void CheckDataPipe(MojoHandle data_pipe_handle) {
   unsigned char buffer[100];
   uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
   MojoResult result = MojoReadData(
       data_pipe_handle, buffer, &buffer_size, MOJO_READ_DATA_FLAG_NONE);
   EXPECT_EQ(MOJO_RESULT_OK, result);
   EXPECT_EQ(64u, buffer_size);
   for (int i = 0; i < 64; ++i) {
     EXPECT_EQ(i, buffer[i]);
   }
 }

 void CheckMessagePipe(MojoHandle message_pipe_handle) {
   unsigned char buffer[100];
   uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
   MojoResult result = MojoReadMessage(
       message_pipe_handle, buffer, &buffer_size, 0, 0, 0);
   EXPECT_EQ(MOJO_RESULT_OK, result);
   EXPECT_EQ(64u, buffer_size);
   for (int i = 0; i < 64; ++i) {
     EXPECT_EQ(255 - i, buffer[i]);
   }
 }

 js_to_cpp::EchoArgsPtr BuildSampleEchoArgs() {
   js_to_cpp::EchoArgsPtr args(js_to_cpp::EchoArgs::New());
   args->si64 = kExpectedInt64Value;
   args->si32 = kExpectedInt32Value;
   args->si16 = kExpectedInt16Value;
   args->si8 = kExpectedInt8Value;
   args->ui64 = kExpectedUInt64Value;
   args->ui32 = kExpectedUInt32Value;
   args->ui16 = kExpectedUInt16Value;
   args->ui8 = kExpectedUInt8Value;
   args->float_val = kExpectedFloatVal;
   args->float_inf = kExpectedFloatInf;
   args->float_nan = kExpectedFloatNan;
   args->double_val = kExpectedDoubleVal;
   args->double_inf = kExpectedDoubleInf;
   args->double_nan = kExpectedDoubleNan;
   args->name = "coming";
   Array<String> string_array(3);
   string_array[0] = "one";
   string_array[1] = "two";
   string_array[2] = "three";
   args->string_array = string_array.Pass();
   return args.Pass();
 }

 void CheckSampleEchoArgs(const js_to_cpp::EchoArgs& arg) {
   EXPECT_EQ(kExpectedInt64Value, arg.si64);
   EXPECT_EQ(kExpectedInt32Value, arg.si32);
   EXPECT_EQ(kExpectedInt16Value, arg.si16);
   EXPECT_EQ(kExpectedInt8Value, arg.si8);
   EXPECT_EQ(kExpectedUInt64Value, arg.ui64);
   EXPECT_EQ(kExpectedUInt32Value, arg.ui32);
   EXPECT_EQ(kExpectedUInt16Value, arg.ui16);
   EXPECT_EQ(kExpectedUInt8Value, arg.ui8);
   EXPECT_EQ(kExpectedFloatVal, arg.float_val);
   EXPECT_EQ(kExpectedFloatInf, arg.float_inf);
   EXPECT_NAN(arg.float_nan);
   EXPECT_EQ(kExpectedDoubleVal, arg.double_val);
   EXPECT_EQ(kExpectedDoubleInf, arg.double_inf);
   EXPECT_NAN(arg.double_nan);
   EXPECT_EQ(std::string("coming"), arg.name.get());
   EXPECT_EQ(std::string("one"), arg.string_array[0].get());
   EXPECT_EQ(std::string("two"), arg.string_array[1].get());
   EXPECT_EQ(std::string("three"), arg.string_array[2].get());
   CheckDataPipe(arg.data_handle.get().value());
   CheckMessagePipe(arg.message_handle.get().value());
 }

 void CheckSampleEchoArgsList(const js_to_cpp::EchoArgsListPtr& list) {
   if (list.is_null())
     return;
   CheckSampleEchoArgs(*list->item);
   CheckSampleEchoArgsList(list->next);
 }

 // More forgiving checks are needed in the face of potentially corrupt
 // messages. The values don't matter so long as all accesses are within
 // bounds.
 void CheckCorruptedString(const String& arg) {
   if (arg.is_null())
     return;
   for (size_t i = 0; i < arg.size(); ++i)
     g_waste_accumulator += arg[i];
 }

 void CheckCorruptedStringArray(const Array<String>& string_array) {
   if (string_array.is_null())
     return;
   for (size_t i = 0; i < string_array.size(); ++i)
     CheckCorruptedString(string_array[i]);
 }

 void CheckCorruptedDataPipe(MojoHandle data_pipe_handle) {
   unsigned char buffer[100];
   uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
   MojoResult result = MojoReadData(
       data_pipe_handle, buffer, &buffer_size, MOJO_READ_DATA_FLAG_NONE);
   if (result != MOJO_RESULT_OK)
     return;
   for (uint32_t i = 0; i < buffer_size; ++i)
     g_waste_accumulator += buffer[i];
 }

 void CheckCorruptedMessagePipe(MojoHandle message_pipe_handle) {
   unsigned char buffer[100];
   uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
   MojoResult result = MojoReadMessage(
       message_pipe_handle, buffer, &buffer_size, 0, 0, 0);
   if (result != MOJO_RESULT_OK)
     return;
   for (uint32_t i = 0; i < buffer_size; ++i)
     g_waste_accumulator += buffer[i];
 }

 void CheckCorruptedEchoArgs(const js_to_cpp::EchoArgsPtr& arg) {
   if (arg.is_null())
     return;
   CheckCorruptedString(arg->name);
   CheckCorruptedStringArray(arg->string_array);
   if (arg->data_handle.is_valid())
     CheckCorruptedDataPipe(arg->data_handle.get().value());
   if (arg->message_handle.is_valid())
     CheckCorruptedMessagePipe(arg->message_handle.get().value());
 }

 void CheckCorruptedEchoArgsList(const js_to_cpp::EchoArgsListPtr& list) {
   if (list.is_null())
     return;
   CheckCorruptedEchoArgs(list->item);
   CheckCorruptedEchoArgsList(list->next);
 }

 // Base Provider implementation class. It's expected that tests subclass and
 // override the appropriate Provider functions. When test is done quit the
 // run_loop().
 class CppSideConnection : public js_to_cpp::CppSide {
  public:
   CppSideConnection() :
       run_loop_(NULL),
       js_side_(NULL),
       mishandled_messages_(0) {
   }
   virtual ~CppSideConnection() {}

   void set_run_loop(base::RunLoop* run_loop) { run_loop_ = run_loop; }
   base::RunLoop* run_loop() { return run_loop_; }

   void set_js_side(js_to_cpp::JsSide* js_side) { js_side_ = js_side; }
   js_to_cpp::JsSide* js_side() { return js_side_; }

   // js_to_cpp::CppSide:
   virtual void StartTest() OVERRIDE {
     NOTREACHED();
   }

   virtual void TestFinished() OVERRIDE {
     NOTREACHED();
   }

   virtual void PingResponse() OVERRIDE {
     mishandled_messages_ += 1;
   }

   virtual void EchoResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
     mishandled_messages_ += 1;
   }

   virtual void BitFlipResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
     mishandled_messages_ += 1;
   }

   virtual void BackPointerResponse(
       js_to_cpp::EchoArgsListPtr list) OVERRIDE {
     mishandled_messages_ += 1;
   }

  protected:
   base::RunLoop* run_loop_;
   js_to_cpp::JsSide* js_side_;
   int mishandled_messages_;

  private:
   DISALLOW_COPY_AND_ASSIGN(CppSideConnection);
 };

 // Trivial test to verify a message sent from JS is received.
 class PingCppSideConnection : public CppSideConnection {
  public:
   PingCppSideConnection() : got_message_(false) {}
   virtual ~PingCppSideConnection() {}

   // js_to_cpp::CppSide:
   virtual void StartTest() OVERRIDE {
     js_side_->Ping();
   }

   virtual void PingResponse() OVERRIDE {
     got_message_ = true;
     run_loop()->Quit();
   }

   bool DidSucceed() {
     return got_message_ && !mishandled_messages_;
   }

  private:
   bool got_message_;
   DISALLOW_COPY_AND_ASSIGN(PingCppSideConnection);
 };

 // Test that parameters are passed with correct values.
 class EchoCppSideConnection : public CppSideConnection {
  public:
   EchoCppSideConnection() :
       message_count_(0),
       termination_seen_(false) {
   }
   virtual ~EchoCppSideConnection() {}

   // js_to_cpp::CppSide:
   virtual void StartTest() OVERRIDE {
     js_side_->Echo(kExpectedMessageCount, BuildSampleEchoArgs());
   }

   virtual void EchoResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
     const js_to_cpp::EchoArgsPtr& special_arg = list->item;
     message_count_ += 1;
     EXPECT_EQ(-1, special_arg->si64);
     EXPECT_EQ(-1, special_arg->si32);
     EXPECT_EQ(-1, special_arg->si16);
     EXPECT_EQ(-1, special_arg->si8);
     EXPECT_EQ(std::string("going"), special_arg->name.To<std::string>());
     CheckSampleEchoArgsList(list->next);
   }

   virtual void TestFinished() OVERRIDE {
     termination_seen_ = true;
     run_loop()->Quit();
   }

   bool DidSucceed() {
     return termination_seen_ &&
         !mishandled_messages_ &&
         message_count_ == kExpectedMessageCount;
   }

  private:
   static const int kExpectedMessageCount = 10;
   int message_count_;
   bool termination_seen_;
   DISALLOW_COPY_AND_ASSIGN(EchoCppSideConnection);
 };

 // Test that corrupted messages don't wreak havoc.
 class BitFlipCppSideConnection : public CppSideConnection {
  public:
   BitFlipCppSideConnection() : termination_seen_(false) {}
   virtual ~BitFlipCppSideConnection() {}

   // js_to_cpp::CppSide:
   virtual void StartTest() OVERRIDE {
     js_side_->BitFlip(BuildSampleEchoArgs());
   }

   virtual void BitFlipResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
     CheckCorruptedEchoArgsList(list);
   }

   virtual void TestFinished() OVERRIDE {
     termination_seen_ = true;
     run_loop()->Quit();
   }

   bool DidSucceed() {
     return termination_seen_;
   }

  private:
   bool termination_seen_;
   DISALLOW_COPY_AND_ASSIGN(BitFlipCppSideConnection);
 };

 // Test that severely random messages don't wreak havoc.
 class BackPointerCppSideConnection : public CppSideConnection {
  public:
   BackPointerCppSideConnection() : termination_seen_(false) {}
   virtual ~BackPointerCppSideConnection() {}

   // js_to_cpp::CppSide:
   virtual void StartTest() OVERRIDE {
     js_side_->BackPointer(BuildSampleEchoArgs());
   }

   virtual void BackPointerResponse(
       js_to_cpp::EchoArgsListPtr list) OVERRIDE {
     CheckCorruptedEchoArgsList(list);
   }

   virtual void TestFinished() OVERRIDE {
     termination_seen_ = true;
     run_loop()->Quit();
   }

   bool DidSucceed() {
     return termination_seen_;
   }

  private:
   bool termination_seen_;
   DISALLOW_COPY_AND_ASSIGN(BackPointerCppSideConnection);
 };

 }  // namespace

 class JsToCppTest : public testing::Test {
  public:
   JsToCppTest() {}

   void RunTest(const std::string& test, CppSideConnection* cpp_side) {
     cpp_side->set_run_loop(&run_loop_);

     MessagePipe pipe;
     js_to_cpp::JsSidePtr js_side =
         MakeProxy<js_to_cpp::JsSide>(pipe.handle0.Pass());
     js_side.set_client(cpp_side);

     js_side.internal_state()->router_for_testing()->EnableTestingMode();

     cpp_side->set_js_side(js_side.get());

     gin::IsolateHolder instance(gin::IsolateHolder::kStrictMode);
     apps::MojoRunnerDelegate delegate;
     gin::ShellRunner runner(&delegate, instance.isolate());
     delegate.Start(&runner, pipe.handle1.release().value(), test);

     run_loop_.Run();
   }

  private:
   base::ShadowingAtExitManager at_exit_;
   base::MessageLoop loop;
   base::RunLoop run_loop_;

   DISALLOW_COPY_AND_ASSIGN(JsToCppTest);
 };

 TEST_F(JsToCppTest, Ping) {
   if (IsRunningOnIsolatedBot())
     return;

   PingCppSideConnection cpp_side_connection;
   RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
   EXPECT_TRUE(cpp_side_connection.DidSucceed());
 }

 TEST_F(JsToCppTest, Echo) {
   if (IsRunningOnIsolatedBot())
     return;

   EchoCppSideConnection cpp_side_connection;
   RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
   EXPECT_TRUE(cpp_side_connection.DidSucceed());
 }

 TEST_F(JsToCppTest, BitFlip) {
   if (IsRunningOnIsolatedBot())
     return;

   BitFlipCppSideConnection cpp_side_connection;
   RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
   EXPECT_TRUE(cpp_side_connection.DidSucceed());
 }

 TEST_F(JsToCppTest, BackPointer) {
   if (IsRunningOnIsolatedBot())
     return;

   BackPointerCppSideConnection cpp_side_connection;
   RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
   EXPECT_TRUE(cpp_side_connection.DidSucceed());
 }

 }  // namespace js
 }  // namespace mojo
	// Copyright 2014 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 "base/at_exit.h"
	#include "base/file_util.h"
	#include "base/files/file_path.h"
	#include "base/message_loop/message_loop.h"
	#include "base/run_loop.h"
	#include "base/strings/utf_string_conversions.h"
	#include "gin/public/isolate_holder.h"
	#include "mojo/apps/js/mojo_runner_delegate.h"
	#include "mojo/apps/js/test/js_to_cpp.mojom.h"
	#include "mojo/common/common_type_converters.h"
	#include "mojo/common/test/test_utils.h"
	#include "mojo/public/cpp/system/core.h"
	#include "mojo/public/cpp/system/macros.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace mojo {
	namespace js {

	// Global value updated by some checks to prevent compilers from optimizing
	// reads out of existence.
	uint32 g_waste_accumulator = 0;

	namespace {

	// Negative numbers with different values in each byte, the last of
	// which can survive promotion to double and back.
	const int8 kExpectedInt8Value = -65;
	const int16 kExpectedInt16Value = -16961;
	const int32 kExpectedInt32Value = -1145258561;
	const int64 kExpectedInt64Value = -77263311946305LL;

	// Positive numbers with different values in each byte, the last of
	// which can survive promotion to double and back.
	const uint8 kExpectedUInt8Value = 65;
	const uint16 kExpectedUInt16Value = 16961;
	const uint32 kExpectedUInt32Value = 1145258561;
	const uint64 kExpectedUInt64Value = 77263311946305LL;

	// Double/float values, including special case constants.
	const double kExpectedDoubleVal = 3.14159265358979323846;
	const double kExpectedDoubleInf = std::numeric_limits<double>::infinity();
	const double kExpectedDoubleNan = std::numeric_limits<double>::quiet_NaN();
	const float kExpectedFloatVal = static_cast<float>(kExpectedDoubleVal);
	const float kExpectedFloatInf = std::numeric_limits<float>::infinity();
	const float kExpectedFloatNan = std::numeric_limits<float>::quiet_NaN();

	// NaN has the property that it is not equal to itself.
	#define EXPECT_NAN(x) EXPECT_NE(x, x)

	bool IsRunningOnIsolatedBot() {
	// TODO(yzshen): Remove this check once isolated tests are supported on the
	// Chromium waterfall. (http://crbug.com/351214)
	const base::FilePath test_file_path(
	test::GetFilePathForJSResource(
	"mojo/public/interfaces/bindings/tests/sample_interfaces.mojom"));
	if (!base::PathExists(test_file_path)) {
	LOG(WARNING) << "Mojom binding files don't exist. Skipping the test.";
	return true;
	}
	return false;
	}

	void CheckDataPipe(MojoHandle data_pipe_handle) {
	unsigned char buffer[100];
	uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
	MojoResult result = MojoReadData(
	data_pipe_handle, buffer, &buffer_size, MOJO_READ_DATA_FLAG_NONE);
	EXPECT_EQ(MOJO_RESULT_OK, result);
	EXPECT_EQ(64u, buffer_size);
	for (int i = 0; i < 64; ++i) {
	EXPECT_EQ(i, buffer[i]);
	}
	}

	void CheckMessagePipe(MojoHandle message_pipe_handle) {
	unsigned char buffer[100];
	uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
	MojoResult result = MojoReadMessage(
	message_pipe_handle, buffer, &buffer_size, 0, 0, 0);
	EXPECT_EQ(MOJO_RESULT_OK, result);
	EXPECT_EQ(64u, buffer_size);
	for (int i = 0; i < 64; ++i) {
	EXPECT_EQ(255 - i, buffer[i]);
	}
	}

	js_to_cpp::EchoArgsPtr BuildSampleEchoArgs() {
	js_to_cpp::EchoArgsPtr args(js_to_cpp::EchoArgs::New());
	args->si64 = kExpectedInt64Value;
	args->si32 = kExpectedInt32Value;
	args->si16 = kExpectedInt16Value;
	args->si8 = kExpectedInt8Value;
	args->ui64 = kExpectedUInt64Value;
	args->ui32 = kExpectedUInt32Value;
	args->ui16 = kExpectedUInt16Value;
	args->ui8 = kExpectedUInt8Value;
	args->float_val = kExpectedFloatVal;
	args->float_inf = kExpectedFloatInf;
	args->float_nan = kExpectedFloatNan;
	args->double_val = kExpectedDoubleVal;
	args->double_inf = kExpectedDoubleInf;
	args->double_nan = kExpectedDoubleNan;
	args->name = "coming";
	Array<String> string_array(3);
	string_array[0] = "one";
	string_array[1] = "two";
	string_array[2] = "three";
	args->string_array = string_array.Pass();
	return args.Pass();
	}

	void CheckSampleEchoArgs(const js_to_cpp::EchoArgs& arg) {
	EXPECT_EQ(kExpectedInt64Value, arg.si64);
	EXPECT_EQ(kExpectedInt32Value, arg.si32);
	EXPECT_EQ(kExpectedInt16Value, arg.si16);
	EXPECT_EQ(kExpectedInt8Value, arg.si8);
	EXPECT_EQ(kExpectedUInt64Value, arg.ui64);
	EXPECT_EQ(kExpectedUInt32Value, arg.ui32);
	EXPECT_EQ(kExpectedUInt16Value, arg.ui16);
	EXPECT_EQ(kExpectedUInt8Value, arg.ui8);
	EXPECT_EQ(kExpectedFloatVal, arg.float_val);
	EXPECT_EQ(kExpectedFloatInf, arg.float_inf);
	EXPECT_NAN(arg.float_nan);
	EXPECT_EQ(kExpectedDoubleVal, arg.double_val);
	EXPECT_EQ(kExpectedDoubleInf, arg.double_inf);
	EXPECT_NAN(arg.double_nan);
	EXPECT_EQ(std::string("coming"), arg.name.get());
	EXPECT_EQ(std::string("one"), arg.string_array[0].get());
	EXPECT_EQ(std::string("two"), arg.string_array[1].get());
	EXPECT_EQ(std::string("three"), arg.string_array[2].get());
	CheckDataPipe(arg.data_handle.get().value());
	CheckMessagePipe(arg.message_handle.get().value());
	}

	void CheckSampleEchoArgsList(const js_to_cpp::EchoArgsListPtr& list) {
	if (list.is_null())
	return;
	CheckSampleEchoArgs(*list->item);
	CheckSampleEchoArgsList(list->next);
	}

	// More forgiving checks are needed in the face of potentially corrupt
	// messages. The values don't matter so long as all accesses are within
	// bounds.
	void CheckCorruptedString(const String& arg) {
	if (arg.is_null())
	return;
	for (size_t i = 0; i < arg.size(); ++i)
	g_waste_accumulator += arg[i];
	}

	void CheckCorruptedStringArray(const Array<String>& string_array) {
	if (string_array.is_null())
	return;
	for (size_t i = 0; i < string_array.size(); ++i)
	CheckCorruptedString(string_array[i]);
	}

	void CheckCorruptedDataPipe(MojoHandle data_pipe_handle) {
	unsigned char buffer[100];
	uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
	MojoResult result = MojoReadData(
	data_pipe_handle, buffer, &buffer_size, MOJO_READ_DATA_FLAG_NONE);
	if (result != MOJO_RESULT_OK)
	return;
	for (uint32_t i = 0; i < buffer_size; ++i)
	g_waste_accumulator += buffer[i];
	}

	void CheckCorruptedMessagePipe(MojoHandle message_pipe_handle) {
	unsigned char buffer[100];
	uint32_t buffer_size = static_cast<uint32_t>(sizeof(buffer));
	MojoResult result = MojoReadMessage(
	message_pipe_handle, buffer, &buffer_size, 0, 0, 0);
	if (result != MOJO_RESULT_OK)
	return;
	for (uint32_t i = 0; i < buffer_size; ++i)
	g_waste_accumulator += buffer[i];
	}

	void CheckCorruptedEchoArgs(const js_to_cpp::EchoArgsPtr& arg) {
	if (arg.is_null())
	return;
	CheckCorruptedString(arg->name);
	CheckCorruptedStringArray(arg->string_array);
	if (arg->data_handle.is_valid())
	CheckCorruptedDataPipe(arg->data_handle.get().value());
	if (arg->message_handle.is_valid())
	CheckCorruptedMessagePipe(arg->message_handle.get().value());
	}

	void CheckCorruptedEchoArgsList(const js_to_cpp::EchoArgsListPtr& list) {
	if (list.is_null())
	return;
	CheckCorruptedEchoArgs(list->item);
	CheckCorruptedEchoArgsList(list->next);
	}

	// Base Provider implementation class. It's expected that tests subclass and
	// override the appropriate Provider functions. When test is done quit the
	// run_loop().
	class CppSideConnection : public js_to_cpp::CppSide {
	public:
	CppSideConnection() :
	run_loop_(NULL),
	js_side_(NULL),
	mishandled_messages_(0) {
	}
	virtual ~CppSideConnection() {}

	void set_run_loop(base::RunLoop* run_loop) { run_loop_ = run_loop; }
	base::RunLoop* run_loop() { return run_loop_; }

	void set_js_side(js_to_cpp::JsSide* js_side) { js_side_ = js_side; }
	js_to_cpp::JsSide* js_side() { return js_side_; }

	// js_to_cpp::CppSide:
	virtual void StartTest() OVERRIDE {
	NOTREACHED();
	}

	virtual void TestFinished() OVERRIDE {
	NOTREACHED();
	}

	virtual void PingResponse() OVERRIDE {
	mishandled_messages_ += 1;
	}

	virtual void EchoResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
	mishandled_messages_ += 1;
	}

	virtual void BitFlipResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
	mishandled_messages_ += 1;
	}

	virtual void BackPointerResponse(
	js_to_cpp::EchoArgsListPtr list) OVERRIDE {
	mishandled_messages_ += 1;
	}

	protected:
	base::RunLoop* run_loop_;
	js_to_cpp::JsSide* js_side_;
	int mishandled_messages_;

	private:
	DISALLOW_COPY_AND_ASSIGN(CppSideConnection);
	};

	// Trivial test to verify a message sent from JS is received.
	class PingCppSideConnection : public CppSideConnection {
	public:
	PingCppSideConnection() : got_message_(false) {}
	virtual ~PingCppSideConnection() {}

	// js_to_cpp::CppSide:
	virtual void StartTest() OVERRIDE {
	js_side_->Ping();
	}

	virtual void PingResponse() OVERRIDE {
	got_message_ = true;
	run_loop()->Quit();
	}

	bool DidSucceed() {
	return got_message_ && !mishandled_messages_;
	}

	private:
	bool got_message_;
	DISALLOW_COPY_AND_ASSIGN(PingCppSideConnection);
	};

	// Test that parameters are passed with correct values.
	class EchoCppSideConnection : public CppSideConnection {
	public:
	EchoCppSideConnection() :
	message_count_(0),
	termination_seen_(false) {
	}
	virtual ~EchoCppSideConnection() {}

	// js_to_cpp::CppSide:
	virtual void StartTest() OVERRIDE {
	js_side_->Echo(kExpectedMessageCount, BuildSampleEchoArgs());
	}

	virtual void EchoResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
	const js_to_cpp::EchoArgsPtr& special_arg = list->item;
	message_count_ += 1;
	EXPECT_EQ(-1, special_arg->si64);
	EXPECT_EQ(-1, special_arg->si32);
	EXPECT_EQ(-1, special_arg->si16);
	EXPECT_EQ(-1, special_arg->si8);
	EXPECT_EQ(std::string("going"), special_arg->name.To<std::string>());
	CheckSampleEchoArgsList(list->next);
	}

	virtual void TestFinished() OVERRIDE {
	termination_seen_ = true;
	run_loop()->Quit();
	}

	bool DidSucceed() {
	return termination_seen_ &&
	!mishandled_messages_ &&
	message_count_ == kExpectedMessageCount;
	}

	private:
	static const int kExpectedMessageCount = 10;
	int message_count_;
	bool termination_seen_;
	DISALLOW_COPY_AND_ASSIGN(EchoCppSideConnection);
	};

	// Test that corrupted messages don't wreak havoc.
	class BitFlipCppSideConnection : public CppSideConnection {
	public:
	BitFlipCppSideConnection() : termination_seen_(false) {}
	virtual ~BitFlipCppSideConnection() {}

	// js_to_cpp::CppSide:
	virtual void StartTest() OVERRIDE {
	js_side_->BitFlip(BuildSampleEchoArgs());
	}

	virtual void BitFlipResponse(js_to_cpp::EchoArgsListPtr list) OVERRIDE {
	CheckCorruptedEchoArgsList(list);
	}

	virtual void TestFinished() OVERRIDE {
	termination_seen_ = true;
	run_loop()->Quit();
	}

	bool DidSucceed() {
	return termination_seen_;
	}

	private:
	bool termination_seen_;
	DISALLOW_COPY_AND_ASSIGN(BitFlipCppSideConnection);
	};

	// Test that severely random messages don't wreak havoc.
	class BackPointerCppSideConnection : public CppSideConnection {
	public:
	BackPointerCppSideConnection() : termination_seen_(false) {}
	virtual ~BackPointerCppSideConnection() {}

	// js_to_cpp::CppSide:
	virtual void StartTest() OVERRIDE {
	js_side_->BackPointer(BuildSampleEchoArgs());
	}

	virtual void BackPointerResponse(
	js_to_cpp::EchoArgsListPtr list) OVERRIDE {
	CheckCorruptedEchoArgsList(list);
	}

	virtual void TestFinished() OVERRIDE {
	termination_seen_ = true;
	run_loop()->Quit();
	}

	bool DidSucceed() {
	return termination_seen_;
	}

	private:
	bool termination_seen_;
	DISALLOW_COPY_AND_ASSIGN(BackPointerCppSideConnection);
	};

	} // namespace

	class JsToCppTest : public testing::Test {
	public:
	JsToCppTest() {}

	void RunTest(const std::string& test, CppSideConnection* cpp_side) {
	cpp_side->set_run_loop(&run_loop_);

	MessagePipe pipe;
	js_to_cpp::JsSidePtr js_side =
	MakeProxy<js_to_cpp::JsSide>(pipe.handle0.Pass());
	js_side.set_client(cpp_side);

	js_side.internal_state()->router_for_testing()->EnableTestingMode();

	cpp_side->set_js_side(js_side.get());

	gin::IsolateHolder instance(gin::IsolateHolder::kStrictMode);
	apps::MojoRunnerDelegate delegate;
	gin::ShellRunner runner(&delegate, instance.isolate());
	delegate.Start(&runner, pipe.handle1.release().value(), test);

	run_loop_.Run();
	}

	private:
	base::ShadowingAtExitManager at_exit_;
	base::MessageLoop loop;
	base::RunLoop run_loop_;

	DISALLOW_COPY_AND_ASSIGN(JsToCppTest);
	};

	TEST_F(JsToCppTest, Ping) {
	if (IsRunningOnIsolatedBot())
	return;

	PingCppSideConnection cpp_side_connection;
	RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
	EXPECT_TRUE(cpp_side_connection.DidSucceed());
	}

	TEST_F(JsToCppTest, Echo) {
	if (IsRunningOnIsolatedBot())
	return;

	EchoCppSideConnection cpp_side_connection;
	RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
	EXPECT_TRUE(cpp_side_connection.DidSucceed());
	}

	TEST_F(JsToCppTest, BitFlip) {
	if (IsRunningOnIsolatedBot())
	return;

	BitFlipCppSideConnection cpp_side_connection;
	RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
	EXPECT_TRUE(cpp_side_connection.DidSucceed());
	}

	TEST_F(JsToCppTest, BackPointer) {
	if (IsRunningOnIsolatedBot())
	return;

	BackPointerCppSideConnection cpp_side_connection;
	RunTest("mojo/apps/js/test/js_to_cpp_unittest", &cpp_side_connection);
	EXPECT_TRUE(cpp_side_connection.DidSucceed());
	}

	} // namespace js
	} // namespace mojo