ppapi/tests/test_var.cc - chromium/src.git - Git at Google

 // Copyright (c) 2011 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 "ppapi/tests/test_var.h"

 #include <stdint.h>
 #include <string.h>

 #include <limits>

 #include "ppapi/c/pp_var.h"
 #include "ppapi/c/ppb_var.h"
 #include "ppapi/cpp/instance.h"
 #include "ppapi/cpp/module.h"
 #include "ppapi/cpp/var.h"
 #include "ppapi/tests/testing_instance.h"

 namespace {

 uint32_t kInvalidLength = static_cast<uint32_t>(-1);

 }  // namespace

 REGISTER_TEST_CASE(Var);

 bool TestVar::Init() {
   var_interface_ = static_cast<const PPB_Var*>(
       pp::Module::Get()->GetBrowserInterface(PPB_VAR_INTERFACE));
   return var_interface_ && CheckTestingInterface();
 }

 void TestVar::RunTests(const std::string& filter) {
   RUN_TEST(BasicString, filter);
   RUN_TEST(InvalidAndEmpty, filter);
   RUN_TEST(InvalidUtf8, filter);
   RUN_TEST(NullInputInUtf8Conversion, filter);
   RUN_TEST(ValidUtf8, filter);
   RUN_TEST(Utf8WithEmbeddedNulls, filter);
   RUN_TEST(VarToUtf8ForWrongType, filter);
 }

 std::string TestVar::TestBasicString() {
   uint32_t before_object = testing_interface_->GetLiveObjectsForInstance(
       instance_->pp_instance());
   {
     const char kStr[] = "Hello";
     const uint32_t kStrLen(sizeof(kStr) - 1);
     PP_Var str = var_interface_->VarFromUtf8(kStr, kStrLen);
     ASSERT_EQ(PP_VARTYPE_STRING, str.type);

     // Reading back the string should work.
     uint32_t len = 0;
     const char* result = var_interface_->VarToUtf8(str, &len);
     ASSERT_EQ(kStrLen, len);
     ASSERT_EQ(0, strncmp(kStr, result, kStrLen));

     // Destroy the string, readback should now fail.
     var_interface_->Release(str);
     result = var_interface_->VarToUtf8(str, &len);
     ASSERT_EQ(0, len);
     ASSERT_EQ(NULL, result);
   }

   // Make sure we can assign a C++ object to itself and it stays alive.
   {
     pp::Var a("test");
     a = *&a;  // The *& defeats Clang's -Wself-assign warning.
     ASSERT_TRUE(a.AsString() == "test");
   }

   // Make sure nothing leaked.
   ASSERT_TRUE(testing_interface_->GetLiveObjectsForInstance(
       instance_->pp_instance()) == before_object);

   PASS();
 }

 std::string TestVar::TestInvalidAndEmpty() {
   PP_Var invalid_string;
   invalid_string.type = PP_VARTYPE_STRING;
   invalid_string.value.as_id = 31415926;

   // Invalid strings should give NULL as the return value.
   uint32_t len = std::numeric_limits<uint32_t>::max();
   const char* result = var_interface_->VarToUtf8(invalid_string, &len);
   ASSERT_EQ(0, len);
   ASSERT_EQ(NULL, result);

   // Same with vars that are not strings.
   len = std::numeric_limits<uint32_t>::max();
   pp::Var int_var(42);
   result = var_interface_->VarToUtf8(int_var.pp_var(), &len);
   ASSERT_EQ(0, len);
   ASSERT_EQ(NULL, result);

   // Empty strings should return non-NULL.
   pp::Var empty_string("");
   len = std::numeric_limits<uint32_t>::max();
   result = var_interface_->VarToUtf8(empty_string.pp_var(), &len);
   ASSERT_EQ(0, len);
   ASSERT_NE(NULL, result);

   PASS();
 }

 std::string TestVar::TestInvalidUtf8() {
   // utf8じゃない (japanese for "is not utf8") in shift-jis encoding.
   static const char kSjisString[] = "utf8\x82\xb6\x82\xe1\x82\xc8\x82\xa2";
   pp::Var sjis(kSjisString);
   if (!sjis.is_null())
     return "Non-UTF8 string was permitted erroneously.";

   PASS();
 }

 std::string TestVar::TestNullInputInUtf8Conversion() {
   // This test talks directly to the C interface to access edge cases that
   // cannot be exercised via the C++ interface.
   PP_Var converted_string;

   // 0-length string should not dereference input string, and should produce
   // an empty string.
   converted_string = var_interface_->VarFromUtf8(NULL, 0);
   if (converted_string.type != PP_VARTYPE_STRING) {
     return "Expected 0 length to return empty string.";
   }

   // Now convert it back.
   uint32_t length = kInvalidLength;
   const char* result = NULL;
   result = var_interface_->VarToUtf8(converted_string, &length);
   if (length != 0) {
     return "Expected 0 length string on conversion.";
   }
   if (result == NULL) {
     return "Expected a non-null result for 0-lengthed string from VarToUtf8.";
   }
   var_interface_->Release(converted_string);

   // Should not crash, and make an empty string.
   const char* null_string = NULL;
   pp::Var null_var(null_string);
   if (!null_var.is_string() || !null_var.AsString().empty()) {
     return "Expected NULL input to make an empty string Var.";
   }

   PASS();
 }

 std::string TestVar::TestValidUtf8() {
   // From UTF8 string -> PP_Var.
   // Chinese for "I am utf8."
   static const char kValidUtf8[] = "\xe6\x88\x91\xe6\x98\xafutf8.";
   pp::Var converted_string(kValidUtf8);

   if (converted_string.is_null())
     return "Unable to convert valid utf8 to var.";

   // Since we're already here, test PP_Var back to UTF8 string.
   std::string returned_string = converted_string.AsString();

   // We need to check against 1 less than sizeof because the resulting string
   // is technically not NULL terminated by API design.
   if (returned_string.size() != sizeof(kValidUtf8) - 1) {
     return "Unable to convert utf8 string back from var.";
   }
   if (returned_string != kValidUtf8) {
     return "String mismatches on conversion back from PP_Var.";
   }

   PASS();
 }

 std::string TestVar::TestUtf8WithEmbeddedNulls() {
   // From UTF8 string with embedded nulls -> PP_Var.
   // Chinese for "also utf8."
   static const char kUtf8WithEmbededNull[] = "\xe6\xb9\x9f\xe6\x98\xaf\0utf8.";
   std::string orig_string(kUtf8WithEmbededNull,
                           sizeof(kUtf8WithEmbededNull) -1);
   pp::Var converted_string(orig_string);

   if (converted_string.is_null())
     return "Unable to convert utf8 with embedded nulls to var.";

   // Since we're already here, test PP_Var back to UTF8 string.
   std::string returned_string = converted_string.AsString();

   if (returned_string.size() != orig_string.size()) {
     return "Unable to convert utf8 with embedded nulls back from var.";
   }
   if (returned_string != orig_string) {
     return "String mismatches on conversion back from PP_Var.";
   }

   PASS();
 }

 std::string TestVar::TestVarToUtf8ForWrongType() {
   uint32_t length = kInvalidLength;
   const char* result = NULL;
   result = var_interface_->VarToUtf8(PP_MakeUndefined(), &length);
   if (length != 0) {
     return "Expected 0 on string conversion from Void var.";
   }
   if (result != NULL) {
     return "Expected NULL on string conversion from Void var.";
   }

   length = kInvalidLength;
   result = NULL;
   result = var_interface_->VarToUtf8(PP_MakeNull(), &length);
   if (length != 0) {
     return "Expected 0 on string conversion from Null var.";
   }
   if (result != NULL) {
     return "Expected NULL on string conversion from Null var.";
   }

   length = kInvalidLength;
   result = NULL;
   result = var_interface_->VarToUtf8(PP_MakeBool(PP_TRUE), &length);
   if (length != 0) {
     return "Expected 0 on string conversion from Bool var.";
   }
   if (result != NULL) {
     return "Expected NULL on string conversion from Bool var.";
   }

   length = kInvalidLength;
   result = NULL;
   result = var_interface_->VarToUtf8(PP_MakeInt32(1), &length);
   if (length != 0) {
     return "Expected 0 on string conversion from Int32 var.";
   }
   if (result != NULL) {
     return "Expected NULL on string conversion from Int32 var.";
   }

   length = kInvalidLength;
   result = NULL;
   result = var_interface_->VarToUtf8(PP_MakeDouble(1.0), &length);
   if (length != 0) {
     return "Expected 0 on string conversion from Double var.";
   }
   if (result != NULL) {
     return "Expected NULL on string conversion from Double var.";
   }

   PASS();
 }
	// Copyright (c) 2011 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 "ppapi/tests/test_var.h"

	#include <stdint.h>
	#include <string.h>

	#include <limits>

	#include "ppapi/c/pp_var.h"
	#include "ppapi/c/ppb_var.h"
	#include "ppapi/cpp/instance.h"
	#include "ppapi/cpp/module.h"
	#include "ppapi/cpp/var.h"
	#include "ppapi/tests/testing_instance.h"

	namespace {

	uint32_t kInvalidLength = static_cast<uint32_t>(-1);

	} // namespace

	REGISTER_TEST_CASE(Var);

	bool TestVar::Init() {
	var_interface_ = static_cast<const PPB_Var*>(
	pp::Module::Get()->GetBrowserInterface(PPB_VAR_INTERFACE));
	return var_interface_ && CheckTestingInterface();
	}

	void TestVar::RunTests(const std::string& filter) {
	RUN_TEST(BasicString, filter);
	RUN_TEST(InvalidAndEmpty, filter);
	RUN_TEST(InvalidUtf8, filter);
	RUN_TEST(NullInputInUtf8Conversion, filter);
	RUN_TEST(ValidUtf8, filter);
	RUN_TEST(Utf8WithEmbeddedNulls, filter);
	RUN_TEST(VarToUtf8ForWrongType, filter);
	}

	std::string TestVar::TestBasicString() {
	uint32_t before_object = testing_interface_->GetLiveObjectsForInstance(
	instance_->pp_instance());
	{
	const char kStr[] = "Hello";
	const uint32_t kStrLen(sizeof(kStr) - 1);
	PP_Var str = var_interface_->VarFromUtf8(kStr, kStrLen);
	ASSERT_EQ(PP_VARTYPE_STRING, str.type);

	// Reading back the string should work.
	uint32_t len = 0;
	const char* result = var_interface_->VarToUtf8(str, &len);
	ASSERT_EQ(kStrLen, len);
	ASSERT_EQ(0, strncmp(kStr, result, kStrLen));

	// Destroy the string, readback should now fail.
	var_interface_->Release(str);
	result = var_interface_->VarToUtf8(str, &len);
	ASSERT_EQ(0, len);
	ASSERT_EQ(NULL, result);
	}

	// Make sure we can assign a C++ object to itself and it stays alive.
	{
	pp::Var a("test");
	a = &a; // The & defeats Clang's -Wself-assign warning.
	ASSERT_TRUE(a.AsString() == "test");
	}

	// Make sure nothing leaked.
	ASSERT_TRUE(testing_interface_->GetLiveObjectsForInstance(
	instance_->pp_instance()) == before_object);

	PASS();
	}

	std::string TestVar::TestInvalidAndEmpty() {
	PP_Var invalid_string;
	invalid_string.type = PP_VARTYPE_STRING;
	invalid_string.value.as_id = 31415926;

	// Invalid strings should give NULL as the return value.
	uint32_t len = std::numeric_limits<uint32_t>::max();
	const char* result = var_interface_->VarToUtf8(invalid_string, &len);
	ASSERT_EQ(0, len);
	ASSERT_EQ(NULL, result);

	// Same with vars that are not strings.
	len = std::numeric_limits<uint32_t>::max();
	pp::Var int_var(42);
	result = var_interface_->VarToUtf8(int_var.pp_var(), &len);
	ASSERT_EQ(0, len);
	ASSERT_EQ(NULL, result);

	// Empty strings should return non-NULL.
	pp::Var empty_string("");
	len = std::numeric_limits<uint32_t>::max();
	result = var_interface_->VarToUtf8(empty_string.pp_var(), &len);
	ASSERT_EQ(0, len);
	ASSERT_NE(NULL, result);

	PASS();
	}

	std::string TestVar::TestInvalidUtf8() {
	// utf8じゃない (japanese for "is not utf8") in shift-jis encoding.
	static const char kSjisString[] = "utf8\x82\xb6\x82\xe1\x82\xc8\x82\xa2";
	pp::Var sjis(kSjisString);
	if (!sjis.is_null())
	return "Non-UTF8 string was permitted erroneously.";

	PASS();
	}

	std::string TestVar::TestNullInputInUtf8Conversion() {
	// This test talks directly to the C interface to access edge cases that
	// cannot be exercised via the C++ interface.
	PP_Var converted_string;

	// 0-length string should not dereference input string, and should produce
	// an empty string.
	converted_string = var_interface_->VarFromUtf8(NULL, 0);
	if (converted_string.type != PP_VARTYPE_STRING) {
	return "Expected 0 length to return empty string.";
	}

	// Now convert it back.
	uint32_t length = kInvalidLength;
	const char* result = NULL;
	result = var_interface_->VarToUtf8(converted_string, &length);
	if (length != 0) {
	return "Expected 0 length string on conversion.";
	}
	if (result == NULL) {
	return "Expected a non-null result for 0-lengthed string from VarToUtf8.";
	}
	var_interface_->Release(converted_string);

	// Should not crash, and make an empty string.
	const char* null_string = NULL;
	pp::Var null_var(null_string);
	if (!null_var.is_string() \|\| !null_var.AsString().empty()) {
	return "Expected NULL input to make an empty string Var.";
	}

	PASS();
	}

	std::string TestVar::TestValidUtf8() {
	// From UTF8 string -> PP_Var.
	// Chinese for "I am utf8."
	static const char kValidUtf8[] = "\xe6\x88\x91\xe6\x98\xafutf8.";
	pp::Var converted_string(kValidUtf8);

	if (converted_string.is_null())
	return "Unable to convert valid utf8 to var.";

	// Since we're already here, test PP_Var back to UTF8 string.
	std::string returned_string = converted_string.AsString();

	// We need to check against 1 less than sizeof because the resulting string
	// is technically not NULL terminated by API design.
	if (returned_string.size() != sizeof(kValidUtf8) - 1) {
	return "Unable to convert utf8 string back from var.";
	}
	if (returned_string != kValidUtf8) {
	return "String mismatches on conversion back from PP_Var.";
	}

	PASS();
	}

	std::string TestVar::TestUtf8WithEmbeddedNulls() {
	// From UTF8 string with embedded nulls -> PP_Var.
	// Chinese for "also utf8."
	static const char kUtf8WithEmbededNull[] = "\xe6\xb9\x9f\xe6\x98\xaf\0utf8.";
	std::string orig_string(kUtf8WithEmbededNull,
	sizeof(kUtf8WithEmbededNull) -1);
	pp::Var converted_string(orig_string);

	if (converted_string.is_null())
	return "Unable to convert utf8 with embedded nulls to var.";

	// Since we're already here, test PP_Var back to UTF8 string.
	std::string returned_string = converted_string.AsString();

	if (returned_string.size() != orig_string.size()) {
	return "Unable to convert utf8 with embedded nulls back from var.";
	}
	if (returned_string != orig_string) {
	return "String mismatches on conversion back from PP_Var.";
	}

	PASS();
	}

	std::string TestVar::TestVarToUtf8ForWrongType() {
	uint32_t length = kInvalidLength;
	const char* result = NULL;
	result = var_interface_->VarToUtf8(PP_MakeUndefined(), &length);
	if (length != 0) {
	return "Expected 0 on string conversion from Void var.";
	}
	if (result != NULL) {
	return "Expected NULL on string conversion from Void var.";
	}

	length = kInvalidLength;
	result = NULL;
	result = var_interface_->VarToUtf8(PP_MakeNull(), &length);
	if (length != 0) {
	return "Expected 0 on string conversion from Null var.";
	}
	if (result != NULL) {
	return "Expected NULL on string conversion from Null var.";
	}

	length = kInvalidLength;
	result = NULL;
	result = var_interface_->VarToUtf8(PP_MakeBool(PP_TRUE), &length);
	if (length != 0) {
	return "Expected 0 on string conversion from Bool var.";
	}
	if (result != NULL) {
	return "Expected NULL on string conversion from Bool var.";
	}

	length = kInvalidLength;
	result = NULL;
	result = var_interface_->VarToUtf8(PP_MakeInt32(1), &length);
	if (length != 0) {
	return "Expected 0 on string conversion from Int32 var.";
	}
	if (result != NULL) {
	return "Expected NULL on string conversion from Int32 var.";
	}

	length = kInvalidLength;
	result = NULL;
	result = var_interface_->VarToUtf8(PP_MakeDouble(1.0), &length);
	if (length != 0) {
	return "Expected 0 on string conversion from Double var.";
	}
	if (result != NULL) {
	return "Expected NULL on string conversion from Double var.";
	}

	PASS();
	}