extensions/common/message_bundle_unittest.cc - chromium/src - 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 "extensions/common/message_bundle.h"

 #include <stddef.h>

 #include <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #include "base/i18n/rtl.h"
 #include "base/macros.h"
 #include "base/strings/string_util.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/values.h"
 #include "extensions/common/error_utils.h"
 #include "extensions/common/extension_l10n_util.h"
 #include "extensions/common/manifest_constants.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace extensions {

 namespace errors = manifest_errors;

 class MessageBundleTest : public testing::Test {
  protected:
   enum BadDictionary {
     INVALID_NAME,
     NAME_NOT_A_TREE,
     EMPTY_NAME_TREE,
     MISSING_MESSAGE,
     PLACEHOLDER_NOT_A_TREE,
     EMPTY_PLACEHOLDER_TREE,
     CONTENT_MISSING,
     MESSAGE_PLACEHOLDER_DOESNT_MATCH,
   };

   void CreateContentTree(const std::string& name,
                          const std::string& content,
                          base::DictionaryValue* dict) {
     auto content_tree = std::make_unique<base::DictionaryValue>();
     content_tree->SetString(MessageBundle::kContentKey, content);
     dict->Set(name, std::move(content_tree));
   }

   void CreatePlaceholdersTree(base::DictionaryValue* dict) {
     auto placeholders_tree = std::make_unique<base::DictionaryValue>();
     CreateContentTree("a", "A", placeholders_tree.get());
     CreateContentTree("b", "B", placeholders_tree.get());
     CreateContentTree("c", "C", placeholders_tree.get());
     dict->Set(MessageBundle::kPlaceholdersKey, std::move(placeholders_tree));
   }

   void CreateMessageTree(const std::string& name,
                          const std::string& message,
                          bool create_placeholder_subtree,
                          base::DictionaryValue* dict) {
     auto message_tree = std::make_unique<base::DictionaryValue>();
     if (create_placeholder_subtree)
       CreatePlaceholdersTree(message_tree.get());
     message_tree->SetString(MessageBundle::kMessageKey, message);
     dict->Set(name, std::move(message_tree));
   }

   std::unique_ptr<base::DictionaryValue> CreateGoodDictionary() {
     auto dict = std::make_unique<base::DictionaryValue>();
     CreateMessageTree("n1", "message1 $a$ $b$", true, dict.get());
     CreateMessageTree("n2", "message2 $c$", true, dict.get());
     CreateMessageTree("n3", "message3", false, dict.get());
     return dict;
   }

   std::unique_ptr<base::DictionaryValue> CreateBadDictionary(
       enum BadDictionary what_is_bad) {
     std::unique_ptr<base::DictionaryValue> dict = CreateGoodDictionary();
     // Now remove/break things.
     switch (what_is_bad) {
       case INVALID_NAME:
         CreateMessageTree("n 5", "nevermind", false, dict.get());
         break;
       case NAME_NOT_A_TREE:
         dict->SetString("n4", "whatever");
         break;
       case EMPTY_NAME_TREE:
         dict->Set("n4", std::make_unique<base::DictionaryValue>());
         break;
       case MISSING_MESSAGE:
         dict->Remove("n1.message", NULL);
         break;
       case PLACEHOLDER_NOT_A_TREE:
         dict->SetString("n1.placeholders", "whatever");
         break;
       case EMPTY_PLACEHOLDER_TREE:
         dict->Set("n1.placeholders", std::make_unique<base::DictionaryValue>());
         break;
       case CONTENT_MISSING:
          dict->Remove("n1.placeholders.a.content", NULL);
         break;
       case MESSAGE_PLACEHOLDER_DOESNT_MATCH:
         base::DictionaryValue* value;
         dict->Remove("n1.placeholders.a", NULL);
         dict->GetDictionary("n1.placeholders", &value);
         CreateContentTree("x", "X", value);
         break;
     }

     return dict;
   }

   unsigned int ReservedMessagesCount() {
     // Update when adding new reserved messages.
     return 5U;
   }

   void CheckReservedMessages(MessageBundle* handler) {
     std::string ui_locale = extension_l10n_util::CurrentLocaleOrDefault();
     EXPECT_EQ(ui_locale,
               handler->GetL10nMessage(MessageBundle::kUILocaleKey));

     std::string text_dir = "ltr";
     if (base::i18n::GetTextDirectionForLocale(ui_locale.c_str()) ==
         base::i18n::RIGHT_TO_LEFT)
       text_dir = "rtl";

     EXPECT_EQ(text_dir, handler->GetL10nMessage(
         MessageBundle::kBidiDirectionKey));
   }

   bool AppendReservedMessages(const std::string& application_locale) {
     std::string error;
     return handler_->AppendReservedMessagesForLocale(
         application_locale, &error);
   }

   std::string CreateMessageBundle() {
     std::string error;
     handler_.reset(MessageBundle::Create(catalogs_, &error));

     return error;
   }

   void ClearDictionary() {
     handler_->dictionary_.clear();
   }

   std::unique_ptr<MessageBundle> handler_;
   std::vector<std::unique_ptr<base::DictionaryValue>> catalogs_;
 };

 TEST_F(MessageBundleTest, ReservedMessagesCount) {
   ASSERT_EQ(5U, ReservedMessagesCount());
 }

 TEST_F(MessageBundleTest, InitEmptyDictionaries) {
   CreateMessageBundle();
   EXPECT_TRUE(handler_.get() != NULL);
   EXPECT_EQ(0U + ReservedMessagesCount(), handler_->size());
   CheckReservedMessages(handler_.get());
 }

 TEST_F(MessageBundleTest, InitGoodDefaultDict) {
   catalogs_.push_back(CreateGoodDictionary());
   CreateMessageBundle();

   EXPECT_TRUE(handler_.get() != NULL);
   EXPECT_EQ(3U + ReservedMessagesCount(), handler_->size());

   EXPECT_EQ("message1 A B", handler_->GetL10nMessage("n1"));
   EXPECT_EQ("message2 C", handler_->GetL10nMessage("n2"));
   EXPECT_EQ("message3", handler_->GetL10nMessage("n3"));
   CheckReservedMessages(handler_.get());
 }

 TEST_F(MessageBundleTest, InitAppDictConsultedFirst) {
   catalogs_.push_back(CreateGoodDictionary());
   catalogs_.push_back(CreateGoodDictionary());

   base::DictionaryValue* app_dict = catalogs_[0].get();
   // Flip placeholders in message of n1 tree.
   app_dict->SetString("n1.message", "message1 $b$ $a$");
   // Remove one message from app dict.
   app_dict->Remove("n2", NULL);
   // Replace n3 with N3.
   app_dict->Remove("n3", NULL);
   CreateMessageTree("N3", "message3_app_dict", false, app_dict);

   CreateMessageBundle();

   EXPECT_TRUE(handler_.get() != NULL);
   EXPECT_EQ(3U + ReservedMessagesCount(), handler_->size());

   EXPECT_EQ("message1 B A", handler_->GetL10nMessage("n1"));
   EXPECT_EQ("message2 C", handler_->GetL10nMessage("n2"));
   EXPECT_EQ("message3_app_dict", handler_->GetL10nMessage("n3"));
   CheckReservedMessages(handler_.get());
 }

 TEST_F(MessageBundleTest, InitBadAppDict) {
   catalogs_.push_back(CreateBadDictionary(INVALID_NAME));
   catalogs_.push_back(CreateGoodDictionary());

   std::string error = CreateMessageBundle();

   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("Name of a key \"n 5\" is invalid. Only ASCII [a-z], "
             "[A-Z], [0-9] and \"_\" are allowed.", error);

   catalogs_[0] = CreateBadDictionary(NAME_NOT_A_TREE);
   handler_.reset(MessageBundle::Create(catalogs_, &error));
   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("Not a valid tree for key n4.", error);

   catalogs_[0] = CreateBadDictionary(EMPTY_NAME_TREE);
   handler_.reset(MessageBundle::Create(catalogs_, &error));
   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("There is no \"message\" element for key n4.", error);

   catalogs_[0] = CreateBadDictionary(MISSING_MESSAGE);
   handler_.reset(MessageBundle::Create(catalogs_, &error));
   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("There is no \"message\" element for key n1.", error);

   catalogs_[0] = CreateBadDictionary(PLACEHOLDER_NOT_A_TREE);
   handler_.reset(MessageBundle::Create(catalogs_, &error));
   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("Not a valid \"placeholders\" element for key n1.", error);

   catalogs_[0] = CreateBadDictionary(EMPTY_PLACEHOLDER_TREE);
   handler_.reset(MessageBundle::Create(catalogs_, &error));
   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("Variable $a$ used but not defined.", error);

   catalogs_[0] = CreateBadDictionary(CONTENT_MISSING);
   handler_.reset(MessageBundle::Create(catalogs_, &error));
   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("Invalid \"content\" element for key n1.", error);

   catalogs_[0] = CreateBadDictionary(MESSAGE_PLACEHOLDER_DOESNT_MATCH);
   handler_.reset(MessageBundle::Create(catalogs_, &error));
   EXPECT_TRUE(handler_.get() == NULL);
   EXPECT_EQ("Variable $a$ used but not defined.", error);
 }

 TEST_F(MessageBundleTest, ReservedMessagesOverrideDeveloperMessages) {
   catalogs_.push_back(CreateGoodDictionary());

   base::DictionaryValue* dict = catalogs_[0].get();
   CreateMessageTree(MessageBundle::kUILocaleKey, "x", false, dict);

   std::string error = CreateMessageBundle();

   EXPECT_TRUE(handler_.get() == NULL);
   std::string expected_error = ErrorUtils::FormatErrorMessage(
       errors::kReservedMessageFound, MessageBundle::kUILocaleKey);
   EXPECT_EQ(expected_error, error);
 }

 TEST_F(MessageBundleTest, AppendReservedMessagesForLTR) {
   CreateMessageBundle();

   ASSERT_TRUE(handler_.get() != NULL);
   ClearDictionary();
   ASSERT_TRUE(AppendReservedMessages("en_US"));

   EXPECT_EQ("en_US",
             handler_->GetL10nMessage(MessageBundle::kUILocaleKey));
   EXPECT_EQ("ltr", handler_->GetL10nMessage(
       MessageBundle::kBidiDirectionKey));
   EXPECT_EQ("rtl", handler_->GetL10nMessage(
       MessageBundle::kBidiReversedDirectionKey));
   EXPECT_EQ("left", handler_->GetL10nMessage(
       MessageBundle::kBidiStartEdgeKey));
   EXPECT_EQ("right", handler_->GetL10nMessage(
       MessageBundle::kBidiEndEdgeKey));
 }

 TEST_F(MessageBundleTest, AppendReservedMessagesForRTL) {
   CreateMessageBundle();

   ASSERT_TRUE(handler_.get() != NULL);
   ClearDictionary();
   ASSERT_TRUE(AppendReservedMessages("he"));

   EXPECT_EQ("he",
             handler_->GetL10nMessage(MessageBundle::kUILocaleKey));
   EXPECT_EQ("rtl", handler_->GetL10nMessage(
       MessageBundle::kBidiDirectionKey));
   EXPECT_EQ("ltr", handler_->GetL10nMessage(
       MessageBundle::kBidiReversedDirectionKey));
   EXPECT_EQ("right", handler_->GetL10nMessage(
       MessageBundle::kBidiStartEdgeKey));
   EXPECT_EQ("left", handler_->GetL10nMessage(
       MessageBundle::kBidiEndEdgeKey));
 }

 TEST_F(MessageBundleTest, IsValidNameCheckValidCharacters) {
   EXPECT_TRUE(MessageBundle::IsValidName(std::string("a__BV_9")));
   EXPECT_TRUE(MessageBundle::IsValidName(std::string("@@a__BV_9")));
   EXPECT_FALSE(MessageBundle::IsValidName(std::string("$a__BV_9$")));
   EXPECT_FALSE(MessageBundle::IsValidName(std::string("a-BV-9")));
   EXPECT_FALSE(MessageBundle::IsValidName(std::string("a#BV!9")));
   EXPECT_FALSE(MessageBundle::IsValidName(std::string("a<b")));
 }

 struct ReplaceVariables {
   const char* original;
   const char* result;
   const char* error;
   const char* begin_delimiter;
   const char* end_delimiter;
   bool pass;
 };

 TEST(MessageBundle, ReplaceMessagesInText) {
   const char* kMessageBegin = MessageBundle::kMessageBegin;
   const char* kMessageEnd = MessageBundle::kMessageEnd;
   const char* kPlaceholderBegin = MessageBundle::kPlaceholderBegin;
   const char* kPlaceholderEnd = MessageBundle::kPlaceholderEnd;

   static ReplaceVariables test_cases[] = {
     // Message replacement.
     { "This is __MSG_siMPle__ message", "This is simple message",
       "", kMessageBegin, kMessageEnd, true },
     { "This is __MSG_", "This is __MSG_",
       "", kMessageBegin, kMessageEnd, true },
     { "This is __MSG__simple__ message", "This is __MSG__simple__ message",
       "Variable __MSG__simple__ used but not defined.",
       kMessageBegin, kMessageEnd, false },
     { "__MSG_LoNg__", "A pretty long replacement",
       "", kMessageBegin, kMessageEnd, true },
     { "A __MSG_SimpLE__MSG_ a", "A simpleMSG_ a",
       "", kMessageBegin, kMessageEnd, true },
     { "A __MSG_simple__MSG_long__", "A simpleMSG_long__",
       "", kMessageBegin, kMessageEnd, true },
     { "A __MSG_simple____MSG_long__", "A simpleA pretty long replacement",
       "", kMessageBegin, kMessageEnd, true },
     { "__MSG_d1g1ts_are_ok__", "I are d1g1t",
       "", kMessageBegin, kMessageEnd, true },
     // Placeholder replacement.
     { "This is $sImpLe$ message", "This is simple message",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "This is $", "This is $",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "This is $$sIMPle$ message", "This is $simple message",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "$LONG_V$", "A pretty long replacement",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "A $simple$$ a", "A simple$ a",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "A $simple$long_v$", "A simplelong_v$",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "A $simple$$long_v$", "A simpleA pretty long replacement",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "This is $bad name$", "This is $bad name$",
        "", kPlaceholderBegin, kPlaceholderEnd, true },
     { "This is $missing$", "This is $missing$",
        "Variable $missing$ used but not defined.",
        kPlaceholderBegin, kPlaceholderEnd, false },
   };

   MessageBundle::SubstitutionMap messages;
   messages.insert(std::make_pair("simple", "simple"));
   messages.insert(std::make_pair("long", "A pretty long replacement"));
   messages.insert(std::make_pair("long_v", "A pretty long replacement"));
   messages.insert(std::make_pair("bad name", "Doesn't matter"));
   messages.insert(std::make_pair("d1g1ts_are_ok", "I are d1g1t"));

   for (size_t i = 0; i < arraysize(test_cases); ++i) {
     std::string text = test_cases[i].original;
     std::string error;
     EXPECT_EQ(test_cases[i].pass,
               MessageBundle::ReplaceVariables(messages,
                                               test_cases[i].begin_delimiter,
                                               test_cases[i].end_delimiter,
                                               &text,
                                               &error));
     EXPECT_EQ(test_cases[i].result, text);
   }
 }

 ///////////////////////////////////////////////////////////////////////////////
 //
 // Renderer helper functions test.
 //
 ///////////////////////////////////////////////////////////////////////////////

 TEST(GetExtensionToL10nMessagesMapTest, ReturnsTheSameObject) {
   ExtensionToL10nMessagesMap* map1 = GetExtensionToL10nMessagesMap();
   ASSERT_TRUE(NULL != map1);

   ExtensionToL10nMessagesMap* map2 = GetExtensionToL10nMessagesMap();
   ASSERT_EQ(map1, map2);
 }

 TEST(GetExtensionToL10nMessagesMapTest, ReturnsNullForUnknownExtensionId) {
   const std::string extension_id("some_unique_12334212314234_id");
   L10nMessagesMap* map = GetL10nMessagesMap(extension_id);
   EXPECT_TRUE(NULL == map);
 }

 TEST(GetExtensionToL10nMessagesMapTest, ReturnsMapForKnownExtensionId) {
   const std::string extension_id("some_unique_121212121212121_id");
   // Store a map for given id.
   L10nMessagesMap messages;
   messages.insert(std::make_pair("message_name", "message_value"));
   (*GetExtensionToL10nMessagesMap())[extension_id] = messages;

   L10nMessagesMap* map = GetL10nMessagesMap(extension_id);
   ASSERT_TRUE(NULL != map);
   EXPECT_EQ(1U, map->size());
   EXPECT_EQ("message_value", (*map)["message_name"]);
 }

 }  // namespace extensions
	// 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 "extensions/common/message_bundle.h"

	#include <stddef.h>

	#include <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#include "base/i18n/rtl.h"
	#include "base/macros.h"
	#include "base/strings/string_util.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/values.h"
	#include "extensions/common/error_utils.h"
	#include "extensions/common/extension_l10n_util.h"
	#include "extensions/common/manifest_constants.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace extensions {

	namespace errors = manifest_errors;

	class MessageBundleTest : public testing::Test {
	protected:
	enum BadDictionary {
	INVALID_NAME,
	NAME_NOT_A_TREE,
	EMPTY_NAME_TREE,
	MISSING_MESSAGE,
	PLACEHOLDER_NOT_A_TREE,
	EMPTY_PLACEHOLDER_TREE,
	CONTENT_MISSING,
	MESSAGE_PLACEHOLDER_DOESNT_MATCH,
	};

	void CreateContentTree(const std::string& name,
	const std::string& content,
	base::DictionaryValue* dict) {
	auto content_tree = std::make_unique<base::DictionaryValue>();
	content_tree->SetString(MessageBundle::kContentKey, content);
	dict->Set(name, std::move(content_tree));
	}

	void CreatePlaceholdersTree(base::DictionaryValue* dict) {
	auto placeholders_tree = std::make_unique<base::DictionaryValue>();
	CreateContentTree("a", "A", placeholders_tree.get());
	CreateContentTree("b", "B", placeholders_tree.get());
	CreateContentTree("c", "C", placeholders_tree.get());
	dict->Set(MessageBundle::kPlaceholdersKey, std::move(placeholders_tree));
	}

	void CreateMessageTree(const std::string& name,
	const std::string& message,
	bool create_placeholder_subtree,
	base::DictionaryValue* dict) {
	auto message_tree = std::make_unique<base::DictionaryValue>();
	if (create_placeholder_subtree)
	CreatePlaceholdersTree(message_tree.get());
	message_tree->SetString(MessageBundle::kMessageKey, message);
	dict->Set(name, std::move(message_tree));
	}

	std::unique_ptr<base::DictionaryValue> CreateGoodDictionary() {
	auto dict = std::make_unique<base::DictionaryValue>();
	CreateMessageTree("n1", "message1 $a$ $b$", true, dict.get());
	CreateMessageTree("n2", "message2 $c$", true, dict.get());
	CreateMessageTree("n3", "message3", false, dict.get());
	return dict;
	}

	std::unique_ptr<base::DictionaryValue> CreateBadDictionary(
	enum BadDictionary what_is_bad) {
	std::unique_ptr<base::DictionaryValue> dict = CreateGoodDictionary();
	// Now remove/break things.
	switch (what_is_bad) {
	case INVALID_NAME:
	CreateMessageTree("n 5", "nevermind", false, dict.get());
	break;
	case NAME_NOT_A_TREE:
	dict->SetString("n4", "whatever");
	break;
	case EMPTY_NAME_TREE:
	dict->Set("n4", std::make_unique<base::DictionaryValue>());
	break;
	case MISSING_MESSAGE:
	dict->Remove("n1.message", NULL);
	break;
	case PLACEHOLDER_NOT_A_TREE:
	dict->SetString("n1.placeholders", "whatever");
	break;
	case EMPTY_PLACEHOLDER_TREE:
	dict->Set("n1.placeholders", std::make_unique<base::DictionaryValue>());
	break;
	case CONTENT_MISSING:
	dict->Remove("n1.placeholders.a.content", NULL);
	break;
	case MESSAGE_PLACEHOLDER_DOESNT_MATCH:
	base::DictionaryValue* value;
	dict->Remove("n1.placeholders.a", NULL);
	dict->GetDictionary("n1.placeholders", &value);
	CreateContentTree("x", "X", value);
	break;
	}

	return dict;
	}

	unsigned int ReservedMessagesCount() {
	// Update when adding new reserved messages.
	return 5U;
	}

	void CheckReservedMessages(MessageBundle* handler) {
	std::string ui_locale = extension_l10n_util::CurrentLocaleOrDefault();
	EXPECT_EQ(ui_locale,
	handler->GetL10nMessage(MessageBundle::kUILocaleKey));

	std::string text_dir = "ltr";
	if (base::i18n::GetTextDirectionForLocale(ui_locale.c_str()) ==
	base::i18n::RIGHT_TO_LEFT)
	text_dir = "rtl";

	EXPECT_EQ(text_dir, handler->GetL10nMessage(
	MessageBundle::kBidiDirectionKey));
	}

	bool AppendReservedMessages(const std::string& application_locale) {
	std::string error;
	return handler_->AppendReservedMessagesForLocale(
	application_locale, &error);
	}

	std::string CreateMessageBundle() {
	std::string error;
	handler_.reset(MessageBundle::Create(catalogs_, &error));

	return error;
	}

	void ClearDictionary() {
	handler_->dictionary_.clear();
	}

	std::unique_ptr<MessageBundle> handler_;
	std::vector<std::unique_ptr<base::DictionaryValue>> catalogs_;
	};

	TEST_F(MessageBundleTest, ReservedMessagesCount) {
	ASSERT_EQ(5U, ReservedMessagesCount());
	}

	TEST_F(MessageBundleTest, InitEmptyDictionaries) {
	CreateMessageBundle();
	EXPECT_TRUE(handler_.get() != NULL);
	EXPECT_EQ(0U + ReservedMessagesCount(), handler_->size());
	CheckReservedMessages(handler_.get());
	}

	TEST_F(MessageBundleTest, InitGoodDefaultDict) {
	catalogs_.push_back(CreateGoodDictionary());
	CreateMessageBundle();

	EXPECT_TRUE(handler_.get() != NULL);
	EXPECT_EQ(3U + ReservedMessagesCount(), handler_->size());

	EXPECT_EQ("message1 A B", handler_->GetL10nMessage("n1"));
	EXPECT_EQ("message2 C", handler_->GetL10nMessage("n2"));
	EXPECT_EQ("message3", handler_->GetL10nMessage("n3"));
	CheckReservedMessages(handler_.get());
	}

	TEST_F(MessageBundleTest, InitAppDictConsultedFirst) {
	catalogs_.push_back(CreateGoodDictionary());
	catalogs_.push_back(CreateGoodDictionary());

	base::DictionaryValue* app_dict = catalogs_[0].get();
	// Flip placeholders in message of n1 tree.
	app_dict->SetString("n1.message", "message1 $b$ $a$");
	// Remove one message from app dict.
	app_dict->Remove("n2", NULL);
	// Replace n3 with N3.
	app_dict->Remove("n3", NULL);
	CreateMessageTree("N3", "message3_app_dict", false, app_dict);

	CreateMessageBundle();

	EXPECT_TRUE(handler_.get() != NULL);
	EXPECT_EQ(3U + ReservedMessagesCount(), handler_->size());

	EXPECT_EQ("message1 B A", handler_->GetL10nMessage("n1"));
	EXPECT_EQ("message2 C", handler_->GetL10nMessage("n2"));
	EXPECT_EQ("message3_app_dict", handler_->GetL10nMessage("n3"));
	CheckReservedMessages(handler_.get());
	}

	TEST_F(MessageBundleTest, InitBadAppDict) {
	catalogs_.push_back(CreateBadDictionary(INVALID_NAME));
	catalogs_.push_back(CreateGoodDictionary());

	std::string error = CreateMessageBundle();

	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("Name of a key \"n 5\" is invalid. Only ASCII [a-z], "
	"[A-Z], [0-9] and \"_\" are allowed.", error);

	catalogs_[0] = CreateBadDictionary(NAME_NOT_A_TREE);
	handler_.reset(MessageBundle::Create(catalogs_, &error));
	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("Not a valid tree for key n4.", error);

	catalogs_[0] = CreateBadDictionary(EMPTY_NAME_TREE);
	handler_.reset(MessageBundle::Create(catalogs_, &error));
	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("There is no \"message\" element for key n4.", error);

	catalogs_[0] = CreateBadDictionary(MISSING_MESSAGE);
	handler_.reset(MessageBundle::Create(catalogs_, &error));
	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("There is no \"message\" element for key n1.", error);

	catalogs_[0] = CreateBadDictionary(PLACEHOLDER_NOT_A_TREE);
	handler_.reset(MessageBundle::Create(catalogs_, &error));
	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("Not a valid \"placeholders\" element for key n1.", error);

	catalogs_[0] = CreateBadDictionary(EMPTY_PLACEHOLDER_TREE);
	handler_.reset(MessageBundle::Create(catalogs_, &error));
	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("Variable $a$ used but not defined.", error);

	catalogs_[0] = CreateBadDictionary(CONTENT_MISSING);
	handler_.reset(MessageBundle::Create(catalogs_, &error));
	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("Invalid \"content\" element for key n1.", error);

	catalogs_[0] = CreateBadDictionary(MESSAGE_PLACEHOLDER_DOESNT_MATCH);
	handler_.reset(MessageBundle::Create(catalogs_, &error));
	EXPECT_TRUE(handler_.get() == NULL);
	EXPECT_EQ("Variable $a$ used but not defined.", error);
	}

	TEST_F(MessageBundleTest, ReservedMessagesOverrideDeveloperMessages) {
	catalogs_.push_back(CreateGoodDictionary());

	base::DictionaryValue* dict = catalogs_[0].get();
	CreateMessageTree(MessageBundle::kUILocaleKey, "x", false, dict);

	std::string error = CreateMessageBundle();

	EXPECT_TRUE(handler_.get() == NULL);
	std::string expected_error = ErrorUtils::FormatErrorMessage(
	errors::kReservedMessageFound, MessageBundle::kUILocaleKey);
	EXPECT_EQ(expected_error, error);
	}

	TEST_F(MessageBundleTest, AppendReservedMessagesForLTR) {
	CreateMessageBundle();

	ASSERT_TRUE(handler_.get() != NULL);
	ClearDictionary();
	ASSERT_TRUE(AppendReservedMessages("en_US"));

	EXPECT_EQ("en_US",
	handler_->GetL10nMessage(MessageBundle::kUILocaleKey));
	EXPECT_EQ("ltr", handler_->GetL10nMessage(
	MessageBundle::kBidiDirectionKey));
	EXPECT_EQ("rtl", handler_->GetL10nMessage(
	MessageBundle::kBidiReversedDirectionKey));
	EXPECT_EQ("left", handler_->GetL10nMessage(
	MessageBundle::kBidiStartEdgeKey));
	EXPECT_EQ("right", handler_->GetL10nMessage(
	MessageBundle::kBidiEndEdgeKey));
	}

	TEST_F(MessageBundleTest, AppendReservedMessagesForRTL) {
	CreateMessageBundle();

	ASSERT_TRUE(handler_.get() != NULL);
	ClearDictionary();
	ASSERT_TRUE(AppendReservedMessages("he"));

	EXPECT_EQ("he",
	handler_->GetL10nMessage(MessageBundle::kUILocaleKey));
	EXPECT_EQ("rtl", handler_->GetL10nMessage(
	MessageBundle::kBidiDirectionKey));
	EXPECT_EQ("ltr", handler_->GetL10nMessage(
	MessageBundle::kBidiReversedDirectionKey));
	EXPECT_EQ("right", handler_->GetL10nMessage(
	MessageBundle::kBidiStartEdgeKey));
	EXPECT_EQ("left", handler_->GetL10nMessage(
	MessageBundle::kBidiEndEdgeKey));
	}

	TEST_F(MessageBundleTest, IsValidNameCheckValidCharacters) {
	EXPECT_TRUE(MessageBundle::IsValidName(std::string("a__BV_9")));
	EXPECT_TRUE(MessageBundle::IsValidName(std::string("@@a__BV_9")));
	EXPECT_FALSE(MessageBundle::IsValidName(std::string("$a__BV_9$")));
	EXPECT_FALSE(MessageBundle::IsValidName(std::string("a-BV-9")));
	EXPECT_FALSE(MessageBundle::IsValidName(std::string("a#BV!9")));
	EXPECT_FALSE(MessageBundle::IsValidName(std::string("a<b")));
	}

	struct ReplaceVariables {
	const char* original;
	const char* result;
	const char* error;
	const char* begin_delimiter;
	const char* end_delimiter;
	bool pass;
	};

	TEST(MessageBundle, ReplaceMessagesInText) {
	const char* kMessageBegin = MessageBundle::kMessageBegin;
	const char* kMessageEnd = MessageBundle::kMessageEnd;
	const char* kPlaceholderBegin = MessageBundle::kPlaceholderBegin;
	const char* kPlaceholderEnd = MessageBundle::kPlaceholderEnd;

	static ReplaceVariables test_cases[] = {
	// Message replacement.
	{ "This is __MSG_siMPle__ message", "This is simple message",
	"", kMessageBegin, kMessageEnd, true },
	{ "This is __MSG_", "This is __MSG_",
	"", kMessageBegin, kMessageEnd, true },
	{ "This is __MSG__simple__ message", "This is __MSG__simple__ message",
	"Variable __MSG__simple__ used but not defined.",
	kMessageBegin, kMessageEnd, false },
	{ "__MSG_LoNg__", "A pretty long replacement",
	"", kMessageBegin, kMessageEnd, true },
	{ "A __MSG_SimpLE__MSG_ a", "A simpleMSG_ a",
	"", kMessageBegin, kMessageEnd, true },
	{ "A __MSG_simple__MSG_long__", "A simpleMSG_long__",
	"", kMessageBegin, kMessageEnd, true },
	{ "A __MSG_simple____MSG_long__", "A simpleA pretty long replacement",
	"", kMessageBegin, kMessageEnd, true },
	{ "__MSG_d1g1ts_are_ok__", "I are d1g1t",
	"", kMessageBegin, kMessageEnd, true },
	// Placeholder replacement.
	{ "This is $sImpLe$ message", "This is simple message",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "This is $", "This is $",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "This is $$sIMPle$ message", "This is $simple message",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "$LONG_V$", "A pretty long replacement",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "A $simple$$ a", "A simple$ a",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "A $simple$long_v$", "A simplelong_v$",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "A $simple$$long_v$", "A simpleA pretty long replacement",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "This is $bad name$", "This is $bad name$",
	"", kPlaceholderBegin, kPlaceholderEnd, true },
	{ "This is $missing$", "This is $missing$",
	"Variable $missing$ used but not defined.",
	kPlaceholderBegin, kPlaceholderEnd, false },
	};

	MessageBundle::SubstitutionMap messages;
	messages.insert(std::make_pair("simple", "simple"));
	messages.insert(std::make_pair("long", "A pretty long replacement"));
	messages.insert(std::make_pair("long_v", "A pretty long replacement"));
	messages.insert(std::make_pair("bad name", "Doesn't matter"));
	messages.insert(std::make_pair("d1g1ts_are_ok", "I are d1g1t"));

	for (size_t i = 0; i < arraysize(test_cases); ++i) {
	std::string text = test_cases[i].original;
	std::string error;
	EXPECT_EQ(test_cases[i].pass,
	MessageBundle::ReplaceVariables(messages,
	test_cases[i].begin_delimiter,
	test_cases[i].end_delimiter,
	&text,
	&error));
	EXPECT_EQ(test_cases[i].result, text);
	}
	}

	///////////////////////////////////////////////////////////////////////////////
	//
	// Renderer helper functions test.
	//
	///////////////////////////////////////////////////////////////////////////////

	TEST(GetExtensionToL10nMessagesMapTest, ReturnsTheSameObject) {
	ExtensionToL10nMessagesMap* map1 = GetExtensionToL10nMessagesMap();
	ASSERT_TRUE(NULL != map1);

	ExtensionToL10nMessagesMap* map2 = GetExtensionToL10nMessagesMap();
	ASSERT_EQ(map1, map2);
	}

	TEST(GetExtensionToL10nMessagesMapTest, ReturnsNullForUnknownExtensionId) {
	const std::string extension_id("some_unique_12334212314234_id");
	L10nMessagesMap* map = GetL10nMessagesMap(extension_id);
	EXPECT_TRUE(NULL == map);
	}

	TEST(GetExtensionToL10nMessagesMapTest, ReturnsMapForKnownExtensionId) {
	const std::string extension_id("some_unique_121212121212121_id");
	// Store a map for given id.
	L10nMessagesMap messages;
	messages.insert(std::make_pair("message_name", "message_value"));
	(*GetExtensionToL10nMessagesMap())[extension_id] = messages;

	L10nMessagesMap* map = GetL10nMessagesMap(extension_id);
	ASSERT_TRUE(NULL != map);
	EXPECT_EQ(1U, map->size());
	EXPECT_EQ("message_value", (*map)["message_name"]);
	}

	} // namespace extensions