// 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_char_set.h" #include "ppapi/c/dev/ppb_char_set_dev.h" #include "ppapi/cpp/dev/memory_dev.h" #include "ppapi/cpp/module.h" #include "ppapi/tests/testing_instance.h" REGISTER_TEST_CASE(CharSet); TestCharSet::TestCharSet(TestingInstance* instance) : TestCase(instance), char_set_interface_(NULL) { } bool TestCharSet::Init() { char_set_interface_ = static_cast( pp::Module::Get()->GetBrowserInterface(PPB_CHAR_SET_DEV_INTERFACE)); return !!char_set_interface_; } void TestCharSet::RunTest() { RUN_TEST(UTF16ToCharSet); RUN_TEST(CharSetToUTF16); RUN_TEST(GetDefaultCharSet); } std::string TestCharSet::TestUTF16ToCharSet() { // Empty string. std::vector utf16; utf16.push_back(0); uint32_t utf8result_len = 0; pp::Memory_Dev memory; char* utf8result = char_set_interface_->UTF16ToCharSet( instance_->pp_instance(), &utf16[0], 0, "latin1", PP_CHARSET_CONVERSIONERROR_SUBSTITUTE, &utf8result_len); ASSERT_TRUE(utf8result); ASSERT_TRUE(utf8result[0] == 0); ASSERT_TRUE(utf8result_len == 0); memory.MemFree(utf8result); // Try round-tripping some English & Chinese from UTF-8 through UTF-16 std::string utf8source("Hello, world. \xe4\xbd\xa0\xe5\xa5\xbd"); utf16 = UTF8ToUTF16(utf8source); utf8result = char_set_interface_->UTF16ToCharSet( instance_->pp_instance(), &utf16[0], static_cast(utf16.size()), "Utf-8", PP_CHARSET_CONVERSIONERROR_FAIL, &utf8result_len); ASSERT_TRUE(utf8source == std::string(utf8result, utf8result_len)); memory.MemFree(utf8result); // Test an un-encodable character with various modes. utf16 = UTF8ToUTF16("h\xe4\xbd\xa0i"); // Fail mode. utf8result_len = 1234; // Test that this gets 0'ed on failure. utf8result = char_set_interface_->UTF16ToCharSet( instance_->pp_instance(), &utf16[0], static_cast(utf16.size()), "latin1", PP_CHARSET_CONVERSIONERROR_FAIL, &utf8result_len); ASSERT_TRUE(utf8result_len == 0); ASSERT_TRUE(utf8result == NULL); // Skip mode. utf8result = char_set_interface_->UTF16ToCharSet( instance_->pp_instance(), &utf16[0], static_cast(utf16.size()), "latin1", PP_CHARSET_CONVERSIONERROR_SKIP, &utf8result_len); ASSERT_TRUE(utf8result_len == 2); ASSERT_TRUE(utf8result[0] == 'h' && utf8result[1] == 'i' && utf8result[2] == 0); memory.MemFree(utf8result); // Substitute mode. utf8result = char_set_interface_->UTF16ToCharSet( instance_->pp_instance(), &utf16[0], static_cast(utf16.size()), "latin1", PP_CHARSET_CONVERSIONERROR_SUBSTITUTE, &utf8result_len); ASSERT_TRUE(utf8result_len == 3); ASSERT_TRUE(utf8result[0] == 'h' && utf8result[1] == '?' && utf8result[2] == 'i' && utf8result[3] == 0); memory.MemFree(utf8result); // Try some invalid input encoding. utf16.clear(); utf16.push_back(0xD800); // High surrogate. utf16.push_back('A'); // Not a low surrogate. utf8result = char_set_interface_->UTF16ToCharSet( instance_->pp_instance(), &utf16[0], static_cast(utf16.size()), "latin1", PP_CHARSET_CONVERSIONERROR_SUBSTITUTE, &utf8result_len); ASSERT_TRUE(utf8result_len == 2); ASSERT_TRUE(utf8result[0] == '?' && utf8result[1] == 'A' && utf8result[2] == 0); memory.MemFree(utf8result); // Invalid encoding name. utf8result = char_set_interface_->UTF16ToCharSet( instance_->pp_instance(), &utf16[0], static_cast(utf16.size()), "poopiepants", PP_CHARSET_CONVERSIONERROR_SUBSTITUTE, &utf8result_len); ASSERT_TRUE(!utf8result); ASSERT_TRUE(utf8result_len == 0); PASS(); } std::string TestCharSet::TestCharSetToUTF16() { // Empty string. uint32_t utf16result_len; uint16_t* utf16result = char_set_interface_->CharSetToUTF16( instance_->pp_instance(), "", 0, "latin1", PP_CHARSET_CONVERSIONERROR_FAIL, &utf16result_len); ASSERT_TRUE(utf16result); ASSERT_TRUE(utf16result_len == 0); ASSERT_TRUE(utf16result[0] == 0); // Basic Latin1. char latin1[] = "H\xef"; utf16result = char_set_interface_->CharSetToUTF16( instance_->pp_instance(), latin1, 2, "latin1", PP_CHARSET_CONVERSIONERROR_FAIL, &utf16result_len); ASSERT_TRUE(utf16result); ASSERT_TRUE(utf16result_len == 2); ASSERT_TRUE(utf16result[0] == 'H' && utf16result[1] == 0xef && utf16result[2] == 0); // Invalid input encoding with FAIL. char badutf8[] = "A\xe4Z"; utf16result = char_set_interface_->CharSetToUTF16( instance_->pp_instance(), badutf8, 3, "utf8", PP_CHARSET_CONVERSIONERROR_FAIL, &utf16result_len); ASSERT_TRUE(!utf16result); ASSERT_TRUE(utf16result_len == 0); // Invalid input with SKIP. utf16result = char_set_interface_->CharSetToUTF16( instance_->pp_instance(), badutf8, 3, "utf8", PP_CHARSET_CONVERSIONERROR_SKIP, &utf16result_len); ASSERT_TRUE(utf16result); ASSERT_TRUE(utf16result_len == 2); ASSERT_TRUE(utf16result[0] == 'A' && utf16result[1] == 'Z' && utf16result[2] == 0); // Invalid input with SUBSTITUTE. utf16result = char_set_interface_->CharSetToUTF16( instance_->pp_instance(), badutf8, 3, "utf8", PP_CHARSET_CONVERSIONERROR_SUBSTITUTE, &utf16result_len); ASSERT_TRUE(utf16result); ASSERT_TRUE(utf16result_len == 3); ASSERT_TRUE(utf16result[0] == 'A' && utf16result[1] == 0xFFFD && utf16result[2] == 'Z' && utf16result[3] == 0); // Invalid encoding name. utf16result = char_set_interface_->CharSetToUTF16( instance_->pp_instance(), badutf8, 3, "poopiepants", PP_CHARSET_CONVERSIONERROR_SUBSTITUTE, &utf16result_len); ASSERT_TRUE(!utf16result); ASSERT_TRUE(utf16result_len == 0); PASS(); } std::string TestCharSet::TestGetDefaultCharSet() { // Test invalid instance. pp::Var result(pp::Var::PassRef(), char_set_interface_->GetDefaultCharSet(0)); ASSERT_TRUE(result.is_undefined()); // Just make sure the default char set is a nonempty string. result = pp::Var(pp::Var::PassRef(), char_set_interface_->GetDefaultCharSet(instance_->pp_instance())); ASSERT_TRUE(result.is_string()); ASSERT_FALSE(result.AsString().empty()); PASS(); } std::vector TestCharSet::UTF8ToUTF16(const std::string& utf8) { uint32_t result_len = 0; uint16_t* result = char_set_interface_->CharSetToUTF16( instance_->pp_instance(), utf8.c_str(), static_cast(utf8.size()), "utf-8", PP_CHARSET_CONVERSIONERROR_FAIL, &result_len); std::vector result_vector; if (!result) return result_vector; result_vector.assign(result, &result[result_len]); pp::Memory_Dev memory; memory.MemFree(result); return result_vector; }