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code / bauxite / 8645745398393aed74d9b002a03dbbb7ee89dd88 / . / base / prefs / json_pref_store_unittest.cc
blob: 0fab8685e9b21410731955169bad35b5d98ceef2 [file] [log] [blame]
// Copyright (c) 2012 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/prefs/json_pref_store.h"
#include "base/bind.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/location.h"
#include "base/memory/ref_counted.h"
#include "base/memory/scoped_ptr.h"
#include "base/message_loop/message_loop.h"
#include "base/metrics/histogram_samples.h"
#include "base/metrics/statistics_recorder.h"
#include "base/path_service.h"
#include "base/prefs/pref_filter.h"
#include "base/run_loop.h"
#include "base/single_thread_task_runner.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/utf_string_conversions.h"
#include "base/test/simple_test_clock.h"
#include "base/threading/sequenced_worker_pool.h"
#include "base/threading/thread.h"
#include "base/values.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace {
const char kHomePage[] = "homepage";
// Set the time on the given SimpleTestClock to the given time in minutes.
void SetCurrentTimeInMinutes(double minutes, base::SimpleTestClock* clock) {
const int32_t kBaseTimeMins = 100;
clock->SetNow(base::Time::FromDoubleT((kBaseTimeMins + minutes) * 60));
}
// A PrefFilter that will intercept all calls to FilterOnLoad() and hold on
// to the |prefs| until explicitly asked to release them.
class InterceptingPrefFilter : public PrefFilter {
public:
InterceptingPrefFilter();
~InterceptingPrefFilter() override;
// PrefFilter implementation:
void FilterOnLoad(
const PostFilterOnLoadCallback& post_filter_on_load_callback,
scoped_ptr<base::DictionaryValue> pref_store_contents) override;
void FilterUpdate(const std::string& path) override {}
void FilterSerializeData(
base::DictionaryValue* pref_store_contents) override {}
bool has_intercepted_prefs() const { return intercepted_prefs_ != NULL; }
// Finalize an intercepted read, handing |intercepted_prefs_| back to its
// JsonPrefStore.
void ReleasePrefs();
private:
PostFilterOnLoadCallback post_filter_on_load_callback_;
scoped_ptr<base::DictionaryValue> intercepted_prefs_;
DISALLOW_COPY_AND_ASSIGN(InterceptingPrefFilter);
};
InterceptingPrefFilter::InterceptingPrefFilter() {}
InterceptingPrefFilter::~InterceptingPrefFilter() {}
void InterceptingPrefFilter::FilterOnLoad(
const PostFilterOnLoadCallback& post_filter_on_load_callback,
scoped_ptr<base::DictionaryValue> pref_store_contents) {
post_filter_on_load_callback_ = post_filter_on_load_callback;
intercepted_prefs_ = pref_store_contents.Pass();
}
void InterceptingPrefFilter::ReleasePrefs() {
EXPECT_FALSE(post_filter_on_load_callback_.is_null());
post_filter_on_load_callback_.Run(intercepted_prefs_.Pass(), false);
post_filter_on_load_callback_.Reset();
}
class MockPrefStoreObserver : public PrefStore::Observer {
public:
MOCK_METHOD1(OnPrefValueChanged, void (const std::string&));
MOCK_METHOD1(OnInitializationCompleted, void (bool));
};
class MockReadErrorDelegate : public PersistentPrefStore::ReadErrorDelegate {
public:
MOCK_METHOD1(OnError, void(PersistentPrefStore::PrefReadError));
};
} // namespace
class JsonPrefStoreTest : public testing::Test {
protected:
void SetUp() override {
ASSERT_TRUE(temp_dir_.CreateUniqueTempDir());
ASSERT_TRUE(PathService::Get(base::DIR_TEST_DATA, &data_dir_));
data_dir_ = data_dir_.AppendASCII("prefs");
ASSERT_TRUE(PathExists(data_dir_));
}
void TearDown() override {
// Make sure all pending tasks have been processed (e.g., deleting the
// JsonPrefStore may post write tasks).
message_loop_.task_runner()->PostTask(FROM_HERE,
MessageLoop::QuitWhenIdleClosure());
message_loop_.Run();
}
// The path to temporary directory used to contain the test operations.
base::ScopedTempDir temp_dir_;
// The path to the directory where the test data is stored.
base::FilePath data_dir_;
// A message loop that we can use as the file thread message loop.
MessageLoop message_loop_;
private:
// Ensure histograms are reset for each test.
StatisticsRecorder statistics_recorder_;
};
// Test fallback behavior for a nonexistent file.
TEST_F(JsonPrefStoreTest, NonExistentFile) {
base::FilePath bogus_input_file = data_dir_.AppendASCII("read.txt");
ASSERT_FALSE(PathExists(bogus_input_file));
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
bogus_input_file, message_loop_.task_runner(), scoped_ptr<PrefFilter>());
EXPECT_EQ(PersistentPrefStore::PREF_READ_ERROR_NO_FILE,
pref_store->ReadPrefs());
EXPECT_FALSE(pref_store->ReadOnly());
}
// Test fallback behavior for a nonexistent file and alternate file.
TEST_F(JsonPrefStoreTest, NonExistentFileAndAlternateFile) {
base::FilePath bogus_input_file = data_dir_.AppendASCII("read.txt");
base::FilePath bogus_alternate_input_file =
data_dir_.AppendASCII("read_alternate.txt");
ASSERT_FALSE(PathExists(bogus_input_file));
ASSERT_FALSE(PathExists(bogus_alternate_input_file));
scoped_refptr<JsonPrefStore> pref_store =
new JsonPrefStore(bogus_input_file, bogus_alternate_input_file,
message_loop_.task_runner(), scoped_ptr<PrefFilter>());
EXPECT_EQ(PersistentPrefStore::PREF_READ_ERROR_NO_FILE,
pref_store->ReadPrefs());
EXPECT_FALSE(pref_store->ReadOnly());
}
// Test fallback behavior for an invalid file.
TEST_F(JsonPrefStoreTest, InvalidFile) {
base::FilePath invalid_file_original = data_dir_.AppendASCII("invalid.json");
base::FilePath invalid_file = temp_dir_.path().AppendASCII("invalid.json");
ASSERT_TRUE(base::CopyFile(invalid_file_original, invalid_file));
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
invalid_file, message_loop_.task_runner(), scoped_ptr<PrefFilter>());
EXPECT_EQ(PersistentPrefStore::PREF_READ_ERROR_JSON_PARSE,
pref_store->ReadPrefs());
EXPECT_FALSE(pref_store->ReadOnly());
// The file should have been moved aside.
EXPECT_FALSE(PathExists(invalid_file));
base::FilePath moved_aside = temp_dir_.path().AppendASCII("invalid.bad");
EXPECT_TRUE(PathExists(moved_aside));
EXPECT_TRUE(TextContentsEqual(invalid_file_original, moved_aside));
}
// This function is used to avoid code duplication while testing synchronous and
// asynchronous version of the JsonPrefStore loading.
void RunBasicJsonPrefStoreTest(JsonPrefStore* pref_store,
const base::FilePath& output_file,
const base::FilePath& golden_output_file) {
const char kNewWindowsInTabs[] = "tabs.new_windows_in_tabs";
const char kMaxTabs[] = "tabs.max_tabs";
const char kLongIntPref[] = "long_int.pref";
std::string cnn("http://www.cnn.com");
const Value* actual;
EXPECT_TRUE(pref_store->GetValue(kHomePage, &actual));
std::string string_value;
EXPECT_TRUE(actual->GetAsString(&string_value));
EXPECT_EQ(cnn, string_value);
const char kSomeDirectory[] = "some_directory";
EXPECT_TRUE(pref_store->GetValue(kSomeDirectory, &actual));
base::FilePath::StringType path;
EXPECT_TRUE(actual->GetAsString(&path));
EXPECT_EQ(base::FilePath::StringType(FILE_PATH_LITERAL("/usr/local/")), path);
base::FilePath some_path(FILE_PATH_LITERAL("/usr/sbin/"));
pref_store->SetValue(kSomeDirectory, new StringValue(some_path.value()),
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
EXPECT_TRUE(pref_store->GetValue(kSomeDirectory, &actual));
EXPECT_TRUE(actual->GetAsString(&path));
EXPECT_EQ(some_path.value(), path);
// Test reading some other data types from sub-dictionaries.
EXPECT_TRUE(pref_store->GetValue(kNewWindowsInTabs, &actual));
bool boolean = false;
EXPECT_TRUE(actual->GetAsBoolean(&boolean));
EXPECT_TRUE(boolean);
pref_store->SetValue(kNewWindowsInTabs, new FundamentalValue(false),
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
EXPECT_TRUE(pref_store->GetValue(kNewWindowsInTabs, &actual));
EXPECT_TRUE(actual->GetAsBoolean(&boolean));
EXPECT_FALSE(boolean);
EXPECT_TRUE(pref_store->GetValue(kMaxTabs, &actual));
int integer = 0;
EXPECT_TRUE(actual->GetAsInteger(&integer));
EXPECT_EQ(20, integer);
pref_store->SetValue(kMaxTabs, new FundamentalValue(10),
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
EXPECT_TRUE(pref_store->GetValue(kMaxTabs, &actual));
EXPECT_TRUE(actual->GetAsInteger(&integer));
EXPECT_EQ(10, integer);
pref_store->SetValue(kLongIntPref,
new StringValue(base::Int64ToString(214748364842LL)),
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
EXPECT_TRUE(pref_store->GetValue(kLongIntPref, &actual));
EXPECT_TRUE(actual->GetAsString(&string_value));
int64 value;
base::StringToInt64(string_value, &value);
EXPECT_EQ(214748364842LL, value);
// Serialize and compare to expected output.
ASSERT_TRUE(PathExists(golden_output_file));
pref_store->CommitPendingWrite();
RunLoop().RunUntilIdle();
EXPECT_TRUE(TextContentsEqual(golden_output_file, output_file));
ASSERT_TRUE(base::DeleteFile(output_file, false));
}
TEST_F(JsonPrefStoreTest, Basic) {
ASSERT_TRUE(base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("write.json")));
// Test that the persistent value can be loaded.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
ASSERT_TRUE(PathExists(input_file));
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
input_file, message_loop_.task_runner(), scoped_ptr<PrefFilter>());
ASSERT_EQ(PersistentPrefStore::PREF_READ_ERROR_NONE, pref_store->ReadPrefs());
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_TRUE(pref_store->IsInitializationComplete());
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, BasicAsync) {
ASSERT_TRUE(base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("write.json")));
// Test that the persistent value can be loaded.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
ASSERT_TRUE(PathExists(input_file));
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
input_file, message_loop_.task_runner(), scoped_ptr<PrefFilter>());
{
MockPrefStoreObserver mock_observer;
pref_store->AddObserver(&mock_observer);
MockReadErrorDelegate* mock_error_delegate = new MockReadErrorDelegate;
pref_store->ReadPrefsAsync(mock_error_delegate);
EXPECT_CALL(mock_observer, OnInitializationCompleted(true)).Times(1);
EXPECT_CALL(*mock_error_delegate,
OnError(PersistentPrefStore::PREF_READ_ERROR_NONE)).Times(0);
RunLoop().RunUntilIdle();
pref_store->RemoveObserver(&mock_observer);
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_TRUE(pref_store->IsInitializationComplete());
}
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, PreserveEmptyValues) {
FilePath pref_file = temp_dir_.path().AppendASCII("empty_values.json");
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
pref_file, message_loop_.task_runner(), scoped_ptr<PrefFilter>());
// Set some keys with empty values.
pref_store->SetValue("list", new base::ListValue,
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
pref_store->SetValue("dict", new base::DictionaryValue,
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
// Write to file.
pref_store->CommitPendingWrite();
MessageLoop::current()->RunUntilIdle();
// Reload.
pref_store = new JsonPrefStore(pref_file, message_loop_.task_runner(),
scoped_ptr<PrefFilter>());
ASSERT_EQ(PersistentPrefStore::PREF_READ_ERROR_NONE, pref_store->ReadPrefs());
ASSERT_FALSE(pref_store->ReadOnly());
// Check values.
const Value* result = NULL;
EXPECT_TRUE(pref_store->GetValue("list", &result));
EXPECT_TRUE(ListValue().Equals(result));
EXPECT_TRUE(pref_store->GetValue("dict", &result));
EXPECT_TRUE(DictionaryValue().Equals(result));
}
// This test is just documenting some potentially non-obvious behavior. It
// shouldn't be taken as normative.
TEST_F(JsonPrefStoreTest, RemoveClearsEmptyParent) {
FilePath pref_file = temp_dir_.path().AppendASCII("empty_values.json");
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
pref_file, message_loop_.task_runner(), scoped_ptr<PrefFilter>());
base::DictionaryValue* dict = new base::DictionaryValue;
dict->SetString("key", "value");
pref_store->SetValue("dict", dict,
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
pref_store->RemoveValue("dict.key",
WriteablePrefStore::DEFAULT_PREF_WRITE_FLAGS);
const base::Value* retrieved_dict = NULL;
bool has_dict = pref_store->GetValue("dict", &retrieved_dict);
EXPECT_FALSE(has_dict);
}
// Tests asynchronous reading of the file when there is no file.
TEST_F(JsonPrefStoreTest, AsyncNonExistingFile) {
base::FilePath bogus_input_file = data_dir_.AppendASCII("read.txt");
ASSERT_FALSE(PathExists(bogus_input_file));
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
bogus_input_file, message_loop_.task_runner(), scoped_ptr<PrefFilter>());
MockPrefStoreObserver mock_observer;
pref_store->AddObserver(&mock_observer);
MockReadErrorDelegate *mock_error_delegate = new MockReadErrorDelegate;
pref_store->ReadPrefsAsync(mock_error_delegate);
EXPECT_CALL(mock_observer, OnInitializationCompleted(true)).Times(1);
EXPECT_CALL(*mock_error_delegate,
OnError(PersistentPrefStore::PREF_READ_ERROR_NO_FILE)).Times(1);
RunLoop().RunUntilIdle();
pref_store->RemoveObserver(&mock_observer);
EXPECT_FALSE(pref_store->ReadOnly());
}
TEST_F(JsonPrefStoreTest, ReadWithInterceptor) {
ASSERT_TRUE(base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("write.json")));
// Test that the persistent value can be loaded.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
ASSERT_TRUE(PathExists(input_file));
scoped_ptr<InterceptingPrefFilter> intercepting_pref_filter(
new InterceptingPrefFilter());
InterceptingPrefFilter* raw_intercepting_pref_filter_ =
intercepting_pref_filter.get();
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
input_file, message_loop_.task_runner(), intercepting_pref_filter.Pass());
ASSERT_EQ(PersistentPrefStore::PREF_READ_ERROR_ASYNCHRONOUS_TASK_INCOMPLETE,
pref_store->ReadPrefs());
EXPECT_FALSE(pref_store->ReadOnly());
// The store shouldn't be considered initialized until the interceptor
// returns.
EXPECT_TRUE(raw_intercepting_pref_filter_->has_intercepted_prefs());
EXPECT_FALSE(pref_store->IsInitializationComplete());
EXPECT_FALSE(pref_store->GetValue(kHomePage, NULL));
raw_intercepting_pref_filter_->ReleasePrefs();
EXPECT_FALSE(raw_intercepting_pref_filter_->has_intercepted_prefs());
EXPECT_TRUE(pref_store->IsInitializationComplete());
EXPECT_TRUE(pref_store->GetValue(kHomePage, NULL));
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, ReadAsyncWithInterceptor) {
ASSERT_TRUE(base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("write.json")));
// Test that the persistent value can be loaded.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
ASSERT_TRUE(PathExists(input_file));
scoped_ptr<InterceptingPrefFilter> intercepting_pref_filter(
new InterceptingPrefFilter());
InterceptingPrefFilter* raw_intercepting_pref_filter_ =
intercepting_pref_filter.get();
scoped_refptr<JsonPrefStore> pref_store = new JsonPrefStore(
input_file, message_loop_.task_runner(), intercepting_pref_filter.Pass());
MockPrefStoreObserver mock_observer;
pref_store->AddObserver(&mock_observer);
// Ownership of the |mock_error_delegate| is handed to the |pref_store| below.
MockReadErrorDelegate* mock_error_delegate = new MockReadErrorDelegate;
{
pref_store->ReadPrefsAsync(mock_error_delegate);
EXPECT_CALL(mock_observer, OnInitializationCompleted(true)).Times(0);
// EXPECT_CALL(*mock_error_delegate,
// OnError(PersistentPrefStore::PREF_READ_ERROR_NONE)).Times(0);
RunLoop().RunUntilIdle();
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_TRUE(raw_intercepting_pref_filter_->has_intercepted_prefs());
EXPECT_FALSE(pref_store->IsInitializationComplete());
EXPECT_FALSE(pref_store->GetValue(kHomePage, NULL));
}
{
EXPECT_CALL(mock_observer, OnInitializationCompleted(true)).Times(1);
// EXPECT_CALL(*mock_error_delegate,
// OnError(PersistentPrefStore::PREF_READ_ERROR_NONE)).Times(0);
raw_intercepting_pref_filter_->ReleasePrefs();
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_FALSE(raw_intercepting_pref_filter_->has_intercepted_prefs());
EXPECT_TRUE(pref_store->IsInitializationComplete());
EXPECT_TRUE(pref_store->GetValue(kHomePage, NULL));
}
pref_store->RemoveObserver(&mock_observer);
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, AlternateFile) {
ASSERT_TRUE(
base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("alternate.json")));
// Test that the alternate file is moved to the main file and read as-is from
// there.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
base::FilePath alternate_input_file =
temp_dir_.path().AppendASCII("alternate.json");
ASSERT_FALSE(PathExists(input_file));
ASSERT_TRUE(PathExists(alternate_input_file));
scoped_refptr<JsonPrefStore> pref_store =
new JsonPrefStore(input_file, alternate_input_file,
message_loop_.task_runner(), scoped_ptr<PrefFilter>());
ASSERT_FALSE(PathExists(input_file));
ASSERT_TRUE(PathExists(alternate_input_file));
ASSERT_EQ(PersistentPrefStore::PREF_READ_ERROR_NONE, pref_store->ReadPrefs());
ASSERT_TRUE(PathExists(input_file));
ASSERT_FALSE(PathExists(alternate_input_file));
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_TRUE(pref_store->IsInitializationComplete());
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, AlternateFileIgnoredWhenMainFileExists) {
ASSERT_TRUE(
base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("write.json")));
ASSERT_TRUE(
base::CopyFile(data_dir_.AppendASCII("invalid.json"),
temp_dir_.path().AppendASCII("alternate.json")));
// Test that the alternate file is ignored and that the read occurs from the
// existing main file. There is no attempt at even deleting the alternate
// file as this scenario should never happen in normal user-data-dirs.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
base::FilePath alternate_input_file =
temp_dir_.path().AppendASCII("alternate.json");
ASSERT_TRUE(PathExists(input_file));
ASSERT_TRUE(PathExists(alternate_input_file));
scoped_refptr<JsonPrefStore> pref_store =
new JsonPrefStore(input_file, alternate_input_file,
message_loop_.task_runner(), scoped_ptr<PrefFilter>());
ASSERT_TRUE(PathExists(input_file));
ASSERT_TRUE(PathExists(alternate_input_file));
ASSERT_EQ(PersistentPrefStore::PREF_READ_ERROR_NONE, pref_store->ReadPrefs());
ASSERT_TRUE(PathExists(input_file));
ASSERT_TRUE(PathExists(alternate_input_file));
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_TRUE(pref_store->IsInitializationComplete());
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, AlternateFileDNE) {
ASSERT_TRUE(
base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("write.json")));
// Test that the basic read works fine when an alternate file is specified but
// does not exist.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
base::FilePath alternate_input_file =
temp_dir_.path().AppendASCII("alternate.json");
ASSERT_TRUE(PathExists(input_file));
ASSERT_FALSE(PathExists(alternate_input_file));
scoped_refptr<JsonPrefStore> pref_store =
new JsonPrefStore(input_file, alternate_input_file,
message_loop_.task_runner(), scoped_ptr<PrefFilter>());
ASSERT_TRUE(PathExists(input_file));
ASSERT_FALSE(PathExists(alternate_input_file));
ASSERT_EQ(PersistentPrefStore::PREF_READ_ERROR_NONE, pref_store->ReadPrefs());
ASSERT_TRUE(PathExists(input_file));
ASSERT_FALSE(PathExists(alternate_input_file));
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_TRUE(pref_store->IsInitializationComplete());
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, BasicAsyncWithAlternateFile) {
ASSERT_TRUE(
base::CopyFile(data_dir_.AppendASCII("read.json"),
temp_dir_.path().AppendASCII("alternate.json")));
// Test that the alternate file is moved to the main file and read as-is from
// there even when the read is made asynchronously.
base::FilePath input_file = temp_dir_.path().AppendASCII("write.json");
base::FilePath alternate_input_file =
temp_dir_.path().AppendASCII("alternate.json");
ASSERT_FALSE(PathExists(input_file));
ASSERT_TRUE(PathExists(alternate_input_file));
scoped_refptr<JsonPrefStore> pref_store =
new JsonPrefStore(input_file, alternate_input_file,
message_loop_.task_runner(), scoped_ptr<PrefFilter>());
ASSERT_FALSE(PathExists(input_file));
ASSERT_TRUE(PathExists(alternate_input_file));
{
MockPrefStoreObserver mock_observer;
pref_store->AddObserver(&mock_observer);
MockReadErrorDelegate* mock_error_delegate = new MockReadErrorDelegate;
pref_store->ReadPrefsAsync(mock_error_delegate);
EXPECT_CALL(mock_observer, OnInitializationCompleted(true)).Times(1);
EXPECT_CALL(*mock_error_delegate,
OnError(PersistentPrefStore::PREF_READ_ERROR_NONE)).Times(0);
RunLoop().RunUntilIdle();
pref_store->RemoveObserver(&mock_observer);
EXPECT_FALSE(pref_store->ReadOnly());
EXPECT_TRUE(pref_store->IsInitializationComplete());
}
ASSERT_TRUE(PathExists(input_file));
ASSERT_FALSE(PathExists(alternate_input_file));
// The JSON file looks like this:
// {
// "homepage": "http://www.cnn.com",
// "some_directory": "/usr/local/",
// "tabs": {
// "new_windows_in_tabs": true,
// "max_tabs": 20
// }
// }
RunBasicJsonPrefStoreTest(
pref_store.get(), input_file, data_dir_.AppendASCII("write.golden.json"));
}
TEST_F(JsonPrefStoreTest, WriteCountHistogramTestBasic) {
SimpleTestClock* test_clock = new SimpleTestClock;
SetCurrentTimeInMinutes(0, test_clock);
JsonPrefStore::WriteCountHistogram histogram(
base::TimeDelta::FromSeconds(10),
base::FilePath(FILE_PATH_LITERAL("/tmp/Local State")),
scoped_ptr<base::Clock>(test_clock));
int32 report_interval =
JsonPrefStore::WriteCountHistogram::kHistogramWriteReportIntervalMins;
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(1.5 * report_interval, test_clock);
histogram.ReportOutstandingWrites();
scoped_ptr<HistogramSamples> samples =
histogram.GetHistogram()->SnapshotSamples();
ASSERT_EQ(1, samples->GetCount(1));
ASSERT_EQ(1, samples->TotalCount());
ASSERT_EQ("Settings.JsonDataWriteCount.Local_State",
histogram.GetHistogram()->histogram_name());
ASSERT_TRUE(histogram.GetHistogram()->HasConstructionArguments(1, 30, 31));
}
TEST_F(JsonPrefStoreTest, WriteCountHistogramTestSinglePeriod) {
SimpleTestClock* test_clock = new SimpleTestClock;
SetCurrentTimeInMinutes(0, test_clock);
JsonPrefStore::WriteCountHistogram histogram(
base::TimeDelta::FromSeconds(10),
base::FilePath(FILE_PATH_LITERAL("/tmp/Local State")),
scoped_ptr<base::Clock>(test_clock));
int32 report_interval =
JsonPrefStore::WriteCountHistogram::kHistogramWriteReportIntervalMins;
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(0.5 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(0.7 * report_interval, test_clock);
histogram.RecordWriteOccured();
// Nothing should be recorded until the report period has elapsed.
scoped_ptr<HistogramSamples> samples =
histogram.GetHistogram()->SnapshotSamples();
ASSERT_EQ(0, samples->TotalCount());
SetCurrentTimeInMinutes(1.3 * report_interval, test_clock);
histogram.RecordWriteOccured();
// Now the report period has elapsed.
samples = histogram.GetHistogram()->SnapshotSamples();
ASSERT_EQ(1, samples->GetCount(3));
ASSERT_EQ(1, samples->TotalCount());
// The last write won't be recorded because the second count period hasn't
// fully elapsed.
SetCurrentTimeInMinutes(1.5 * report_interval, test_clock);
histogram.ReportOutstandingWrites();
samples = histogram.GetHistogram()->SnapshotSamples();
ASSERT_EQ(1, samples->GetCount(3));
ASSERT_EQ(1, samples->TotalCount());
}
TEST_F(JsonPrefStoreTest, WriteCountHistogramTestMultiplePeriods) {
SimpleTestClock* test_clock = new SimpleTestClock;
SetCurrentTimeInMinutes(0, test_clock);
JsonPrefStore::WriteCountHistogram histogram(
base::TimeDelta::FromSeconds(10),
base::FilePath(FILE_PATH_LITERAL("/tmp/Local State")),
scoped_ptr<base::Clock>(test_clock));
int32 report_interval =
JsonPrefStore::WriteCountHistogram::kHistogramWriteReportIntervalMins;
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(0.5 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(0.7 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(1.3 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(1.5 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(2.1 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(2.5 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(2.7 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(3.3 * report_interval, test_clock);
histogram.RecordWriteOccured();
// The last write won't be recorded because the second count period hasn't
// fully elapsed
SetCurrentTimeInMinutes(3.5 * report_interval, test_clock);
histogram.ReportOutstandingWrites();
scoped_ptr<HistogramSamples> samples =
histogram.GetHistogram()->SnapshotSamples();
ASSERT_EQ(2, samples->GetCount(3));
ASSERT_EQ(1, samples->GetCount(2));
ASSERT_EQ(3, samples->TotalCount());
}
TEST_F(JsonPrefStoreTest, WriteCountHistogramTestPeriodWithGaps) {
SimpleTestClock* test_clock = new SimpleTestClock;
SetCurrentTimeInMinutes(0, test_clock);
JsonPrefStore::WriteCountHistogram histogram(
base::TimeDelta::FromSeconds(10),
base::FilePath(FILE_PATH_LITERAL("/tmp/Local State")),
scoped_ptr<base::Clock>(test_clock));
int32 report_interval =
JsonPrefStore::WriteCountHistogram::kHistogramWriteReportIntervalMins;
// 1 write in the first period.
histogram.RecordWriteOccured();
// No writes in the second and third periods.
// 2 writes in the fourth period.
SetCurrentTimeInMinutes(3.1 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(3.3 * report_interval, test_clock);
histogram.RecordWriteOccured();
// No writes in the fifth period.
// 3 writes in the sixth period.
SetCurrentTimeInMinutes(5.1 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(5.3 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(5.5 * report_interval, test_clock);
histogram.RecordWriteOccured();
SetCurrentTimeInMinutes(6.1 * report_interval, test_clock);
histogram.ReportOutstandingWrites();
scoped_ptr<HistogramSamples> samples =
histogram.GetHistogram()->SnapshotSamples();
ASSERT_EQ(3, samples->GetCount(0));
ASSERT_EQ(1, samples->GetCount(1));
ASSERT_EQ(1, samples->GetCount(2));
ASSERT_EQ(1, samples->GetCount(3));
ASSERT_EQ(6, samples->TotalCount());
}
} // namespace base