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//
// Copyright (C) 2012 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#include "update_engine/common/prefs.h"
#include <inttypes.h>
#include <limits>
#include <string>
#include <vector>
#include <base/files/file_util.h>
#include <base/files/scoped_temp_dir.h>
#include <base/macros.h>
#include <base/strings/string_util.h>
#include <base/strings/stringprintf.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
using std::string;
using std::vector;
using testing::_;
using testing::ElementsAre;
using testing::Eq;
using testing::UnorderedElementsAre;
namespace {
// Test key used along the tests.
const char kKey[] = "test-key";
} // namespace
namespace chromeos_update_engine {
class BasePrefsTest : public ::testing::Test {
protected:
void MultiNamespaceKeyTest() {
ASSERT_TRUE(common_prefs_);
auto key0 = common_prefs_->CreateSubKey({"ns1", "key"});
// Corner case for "ns1".
auto key0corner = common_prefs_->CreateSubKey({"ns11", "key"});
auto key1A = common_prefs_->CreateSubKey({"ns1", "nsA", "keyA"});
auto key1B = common_prefs_->CreateSubKey({"ns1", "nsA", "keyB"});
auto key2 = common_prefs_->CreateSubKey({"ns1", "nsB", "key"});
// Corner case for "ns1/nsB".
auto key2corner = common_prefs_->CreateSubKey({"ns1", "nsB1", "key"});
EXPECT_FALSE(common_prefs_->Exists(key0));
EXPECT_FALSE(common_prefs_->Exists(key1A));
EXPECT_FALSE(common_prefs_->Exists(key1B));
EXPECT_FALSE(common_prefs_->Exists(key2));
EXPECT_TRUE(common_prefs_->SetString(key0, ""));
EXPECT_TRUE(common_prefs_->SetString(key0corner, ""));
EXPECT_TRUE(common_prefs_->SetString(key1A, ""));
EXPECT_TRUE(common_prefs_->SetString(key1B, ""));
EXPECT_TRUE(common_prefs_->SetString(key2, ""));
EXPECT_TRUE(common_prefs_->SetString(key2corner, ""));
EXPECT_TRUE(common_prefs_->Exists(key0));
EXPECT_TRUE(common_prefs_->Exists(key0corner));
EXPECT_TRUE(common_prefs_->Exists(key1A));
EXPECT_TRUE(common_prefs_->Exists(key1B));
EXPECT_TRUE(common_prefs_->Exists(key2));
EXPECT_TRUE(common_prefs_->Exists(key2corner));
vector<string> keys2;
EXPECT_TRUE(common_prefs_->GetSubKeys("ns1/nsB/", &keys2));
EXPECT_THAT(keys2, ElementsAre(key2));
for (const auto& key : keys2)
EXPECT_TRUE(common_prefs_->Delete(key));
EXPECT_TRUE(common_prefs_->Exists(key0));
EXPECT_TRUE(common_prefs_->Exists(key0corner));
EXPECT_TRUE(common_prefs_->Exists(key1A));
EXPECT_TRUE(common_prefs_->Exists(key1B));
EXPECT_FALSE(common_prefs_->Exists(key2));
EXPECT_TRUE(common_prefs_->Exists(key2corner));
vector<string> keys2corner;
EXPECT_TRUE(common_prefs_->GetSubKeys("ns1/nsB", &keys2corner));
EXPECT_THAT(keys2corner, ElementsAre(key2corner));
for (const auto& key : keys2corner)
EXPECT_TRUE(common_prefs_->Delete(key));
EXPECT_FALSE(common_prefs_->Exists(key2corner));
vector<string> keys1;
EXPECT_TRUE(common_prefs_->GetSubKeys("ns1/nsA/", &keys1));
EXPECT_THAT(keys1, UnorderedElementsAre(key1A, key1B));
for (const auto& key : keys1)
EXPECT_TRUE(common_prefs_->Delete(key));
EXPECT_TRUE(common_prefs_->Exists(key0));
EXPECT_TRUE(common_prefs_->Exists(key0corner));
EXPECT_FALSE(common_prefs_->Exists(key1A));
EXPECT_FALSE(common_prefs_->Exists(key1B));
vector<string> keys0;
EXPECT_TRUE(common_prefs_->GetSubKeys("ns1/", &keys0));
EXPECT_THAT(keys0, ElementsAre(key0));
for (const auto& key : keys0)
EXPECT_TRUE(common_prefs_->Delete(key));
EXPECT_FALSE(common_prefs_->Exists(key0));
EXPECT_TRUE(common_prefs_->Exists(key0corner));
vector<string> keys0corner;
EXPECT_TRUE(common_prefs_->GetSubKeys("ns1", &keys0corner));
EXPECT_THAT(keys0corner, ElementsAre(key0corner));
for (const auto& key : keys0corner)
EXPECT_TRUE(common_prefs_->Delete(key));
EXPECT_FALSE(common_prefs_->Exists(key0corner));
// Test sub directory namespace.
const string kDlcPrefsSubDir = "foo-dir";
key1A = common_prefs_->CreateSubKey({kDlcPrefsSubDir, "dlc1", "keyA"});
EXPECT_TRUE(common_prefs_->SetString(key1A, "fp_1A"));
key1B = common_prefs_->CreateSubKey({kDlcPrefsSubDir, "dlc1", "keyB"});
EXPECT_TRUE(common_prefs_->SetString(key1B, "fp_1B"));
auto key2A = common_prefs_->CreateSubKey({kDlcPrefsSubDir, "dlc2", "keyA"});
EXPECT_TRUE(common_prefs_->SetString(key2A, "fp_A2"));
vector<string> fpKeys;
EXPECT_TRUE(common_prefs_->GetSubKeys(kDlcPrefsSubDir, &fpKeys));
EXPECT_EQ(fpKeys.size(), 3UL);
EXPECT_TRUE(common_prefs_->Delete(fpKeys[0]));
EXPECT_TRUE(common_prefs_->Delete(fpKeys[1]));
EXPECT_TRUE(common_prefs_->Delete(fpKeys[2]));
EXPECT_FALSE(common_prefs_->Exists(key1A));
}
PrefsInterface* common_prefs_;
};
class PrefsTest : public BasePrefsTest {
protected:
void SetUp() override {
ASSERT_TRUE(temp_dir_.CreateUniqueTempDir());
prefs_dir_ = temp_dir_.GetPath();
ASSERT_TRUE(prefs_.Init(prefs_dir_));
common_prefs_ = &prefs_;
}
bool SetValue(const string& key, const string& value) {
return base::WriteFile(prefs_dir_.Append(key),
value.data(),
value.length()) == static_cast<int>(value.length());
}
base::ScopedTempDir temp_dir_;
base::FilePath prefs_dir_;
Prefs prefs_;
};
TEST(Prefs, Init) {
Prefs prefs;
const string ns1 = "ns1";
const string ns2A = "ns2A";
const string ns2B = "ns2B";
const string sub_pref = "sp";
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
auto ns1_path = temp_dir.GetPath().Append(ns1);
auto ns2A_path = ns1_path.Append(ns2A);
auto ns2B_path = ns1_path.Append(ns2B);
auto sub_pref_path = ns2A_path.Append(sub_pref);
EXPECT_TRUE(base::CreateDirectory(ns2B_path));
EXPECT_TRUE(base::PathExists(ns2B_path));
EXPECT_TRUE(base::CreateDirectory(sub_pref_path));
EXPECT_TRUE(base::PathExists(sub_pref_path));
EXPECT_TRUE(base::PathExists(ns1_path));
ASSERT_TRUE(prefs.Init(temp_dir.GetPath()));
EXPECT_FALSE(base::PathExists(ns1_path));
}
TEST_F(PrefsTest, GetFileNameForKey) {
const char kAllvalidCharsKey[] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_-";
base::FilePath path;
EXPECT_TRUE(prefs_.file_storage_.GetFileNameForKey(kAllvalidCharsKey, &path));
EXPECT_EQ(prefs_dir_.Append(kAllvalidCharsKey).value(), path.value());
}
TEST_F(PrefsTest, GetFileNameForKeyBadCharacter) {
base::FilePath path;
EXPECT_FALSE(prefs_.file_storage_.GetFileNameForKey("ABC abc", &path));
}
TEST_F(PrefsTest, GetFileNameForKeyEmpty) {
base::FilePath path;
EXPECT_FALSE(prefs_.file_storage_.GetFileNameForKey("", &path));
}
TEST_F(PrefsTest, CreateSubKey) {
const string name_space = "ns";
const string sub_pref1 = "sp1";
const string sub_pref2 = "sp2";
const string sub_key = "sk";
EXPECT_EQ(PrefsInterface::CreateSubKey({name_space, sub_pref1, sub_key}),
"ns/sp1/sk");
EXPECT_EQ(PrefsInterface::CreateSubKey({name_space, sub_pref2, sub_key}),
"ns/sp2/sk");
}
TEST_F(PrefsTest, GetString) {
const string test_data = "test data";
ASSERT_TRUE(SetValue(kKey, test_data));
string value;
EXPECT_TRUE(prefs_.GetString(kKey, &value));
EXPECT_EQ(test_data, value);
}
TEST_F(PrefsTest, GetStringBadKey) {
string value;
EXPECT_FALSE(prefs_.GetString(",bad", &value));
}
TEST_F(PrefsTest, GetStringNonExistentKey) {
string value;
EXPECT_FALSE(prefs_.GetString("non-existent-key", &value));
}
TEST_F(PrefsTest, SetString) {
const char kValue[] = "some test value\non 2 lines";
EXPECT_TRUE(prefs_.SetString(kKey, kValue));
string value;
EXPECT_TRUE(base::ReadFileToString(prefs_dir_.Append(kKey), &value));
EXPECT_EQ(kValue, value);
}
TEST_F(PrefsTest, SetStringBadKey) {
const char kKeyWithDots[] = ".no-dots";
EXPECT_FALSE(prefs_.SetString(kKeyWithDots, "some value"));
EXPECT_FALSE(base::PathExists(prefs_dir_.Append(kKeyWithDots)));
}
TEST_F(PrefsTest, SetStringCreateDir) {
const char kValue[] = "test value";
base::FilePath subdir = prefs_dir_.Append("subdir1").Append("subdir2");
EXPECT_TRUE(prefs_.Init(subdir));
EXPECT_TRUE(prefs_.SetString(kKey, kValue));
string value;
EXPECT_TRUE(base::ReadFileToString(subdir.Append(kKey), &value));
EXPECT_EQ(kValue, value);
}
TEST_F(PrefsTest, SetStringDirCreationFailure) {
EXPECT_TRUE(prefs_.Init(base::FilePath("/dev/null")));
EXPECT_FALSE(prefs_.SetString(kKey, "test value"));
}
TEST_F(PrefsTest, SetStringFileCreationFailure) {
base::CreateDirectory(prefs_dir_.Append(kKey));
EXPECT_FALSE(prefs_.SetString(kKey, "test value"));
EXPECT_TRUE(base::DirectoryExists(prefs_dir_.Append(kKey)));
}
TEST_F(PrefsTest, GetInt64) {
ASSERT_TRUE(SetValue(kKey, " \n 25 \t "));
int64_t value;
EXPECT_TRUE(prefs_.GetInt64(kKey, &value));
EXPECT_EQ(25, value);
}
TEST_F(PrefsTest, GetInt64BadValue) {
ASSERT_TRUE(SetValue(kKey, "30a"));
int64_t value;
EXPECT_FALSE(prefs_.GetInt64(kKey, &value));
}
TEST_F(PrefsTest, GetInt64Max) {
ASSERT_TRUE(SetValue(
kKey,
base::StringPrintf("%" PRIi64, std::numeric_limits<int64_t>::max())));
int64_t value;
EXPECT_TRUE(prefs_.GetInt64(kKey, &value));
EXPECT_EQ(std::numeric_limits<int64_t>::max(), value);
}
TEST_F(PrefsTest, GetInt64Min) {
ASSERT_TRUE(SetValue(
kKey,
base::StringPrintf("%" PRIi64, std::numeric_limits<int64_t>::min())));
int64_t value;
EXPECT_TRUE(prefs_.GetInt64(kKey, &value));
EXPECT_EQ(std::numeric_limits<int64_t>::min(), value);
}
TEST_F(PrefsTest, GetInt64Negative) {
ASSERT_TRUE(SetValue(kKey, " \t -100 \n "));
int64_t value;
EXPECT_TRUE(prefs_.GetInt64(kKey, &value));
EXPECT_EQ(-100, value);
}
TEST_F(PrefsTest, GetInt64NonExistentKey) {
int64_t value;
EXPECT_FALSE(prefs_.GetInt64("random-key", &value));
}
TEST_F(PrefsTest, SetInt64) {
EXPECT_TRUE(prefs_.SetInt64(kKey, -123));
string value;
EXPECT_TRUE(base::ReadFileToString(prefs_dir_.Append(kKey), &value));
EXPECT_EQ("-123", value);
}
TEST_F(PrefsTest, SetInt64BadKey) {
const char kKeyWithSpaces[] = "s p a c e s";
EXPECT_FALSE(prefs_.SetInt64(kKeyWithSpaces, 20));
EXPECT_FALSE(base::PathExists(prefs_dir_.Append(kKeyWithSpaces)));
}
TEST_F(PrefsTest, SetInt64Max) {
EXPECT_TRUE(prefs_.SetInt64(kKey, std::numeric_limits<int64_t>::max()));
string value;
EXPECT_TRUE(base::ReadFileToString(prefs_dir_.Append(kKey), &value));
EXPECT_EQ(base::StringPrintf("%" PRIi64, std::numeric_limits<int64_t>::max()),
value);
}
TEST_F(PrefsTest, SetInt64Min) {
EXPECT_TRUE(prefs_.SetInt64(kKey, std::numeric_limits<int64_t>::min()));
string value;
EXPECT_TRUE(base::ReadFileToString(prefs_dir_.Append(kKey), &value));
EXPECT_EQ(base::StringPrintf("%" PRIi64, std::numeric_limits<int64_t>::min()),
value);
}
TEST_F(PrefsTest, GetBooleanFalse) {
ASSERT_TRUE(SetValue(kKey, " \n false \t "));
bool value;
EXPECT_TRUE(prefs_.GetBoolean(kKey, &value));
EXPECT_FALSE(value);
}
TEST_F(PrefsTest, GetBooleanTrue) {
const char kKey[] = "test-key";
ASSERT_TRUE(SetValue(kKey, " \t true \n "));
bool value;
EXPECT_TRUE(prefs_.GetBoolean(kKey, &value));
EXPECT_TRUE(value);
}
TEST_F(PrefsTest, GetBooleanBadValue) {
const char kKey[] = "test-key";
ASSERT_TRUE(SetValue(kKey, "1"));
bool value;
EXPECT_FALSE(prefs_.GetBoolean(kKey, &value));
}
TEST_F(PrefsTest, GetBooleanBadEmptyValue) {
const char kKey[] = "test-key";
ASSERT_TRUE(SetValue(kKey, ""));
bool value;
EXPECT_FALSE(prefs_.GetBoolean(kKey, &value));
}
TEST_F(PrefsTest, GetBooleanNonExistentKey) {
bool value;
EXPECT_FALSE(prefs_.GetBoolean("random-key", &value));
}
TEST_F(PrefsTest, SetBooleanTrue) {
const char kKey[] = "test-bool";
EXPECT_TRUE(prefs_.SetBoolean(kKey, true));
string value;
EXPECT_TRUE(base::ReadFileToString(prefs_dir_.Append(kKey), &value));
EXPECT_EQ("true", value);
}
TEST_F(PrefsTest, SetBooleanFalse) {
const char kKey[] = "test-bool";
EXPECT_TRUE(prefs_.SetBoolean(kKey, false));
string value;
EXPECT_TRUE(base::ReadFileToString(prefs_dir_.Append(kKey), &value));
EXPECT_EQ("false", value);
}
TEST_F(PrefsTest, SetBooleanBadKey) {
const char kKey[] = "s p a c e s";
EXPECT_FALSE(prefs_.SetBoolean(kKey, true));
EXPECT_FALSE(base::PathExists(prefs_dir_.Append(kKey)));
}
TEST_F(PrefsTest, ExistsWorks) {
// test that the key doesn't exist before we set it.
EXPECT_FALSE(prefs_.Exists(kKey));
// test that the key exists after we set it.
ASSERT_TRUE(prefs_.SetInt64(kKey, 8));
EXPECT_TRUE(prefs_.Exists(kKey));
}
TEST_F(PrefsTest, DeleteWorks) {
// test that it's alright to delete a non-existent key.
EXPECT_TRUE(prefs_.Delete(kKey));
// delete the key after we set it.
ASSERT_TRUE(prefs_.SetInt64(kKey, 0));
EXPECT_TRUE(prefs_.Delete(kKey));
// make sure it doesn't exist anymore.
EXPECT_FALSE(prefs_.Exists(kKey));
}
TEST_F(PrefsTest, SetDeleteSubKey) {
const string name_space = "ns";
const string sub_pref = "sp";
const string sub_key1 = "sk1";
const string sub_key2 = "sk2";
auto key1 = prefs_.CreateSubKey({name_space, sub_pref, sub_key1});
auto key2 = prefs_.CreateSubKey({name_space, sub_pref, sub_key2});
base::FilePath sub_pref_path = prefs_dir_.Append(name_space).Append(sub_pref);
ASSERT_TRUE(prefs_.SetInt64(key1, 0));
ASSERT_TRUE(prefs_.SetInt64(key2, 0));
EXPECT_TRUE(base::PathExists(sub_pref_path.Append(sub_key1)));
EXPECT_TRUE(base::PathExists(sub_pref_path.Append(sub_key2)));
ASSERT_TRUE(prefs_.Delete(key1));
EXPECT_FALSE(base::PathExists(sub_pref_path.Append(sub_key1)));
EXPECT_TRUE(base::PathExists(sub_pref_path.Append(sub_key2)));
ASSERT_TRUE(prefs_.Delete(key2));
EXPECT_FALSE(base::PathExists(sub_pref_path.Append(sub_key2)));
prefs_.Init(prefs_dir_);
EXPECT_FALSE(base::PathExists(prefs_dir_.Append(name_space)));
}
TEST_F(PrefsTest, DeletePrefs) {
const string kPrefsSubDir = "foo-dir";
const string kFpKey = "kPrefFp";
const string kNotFpKey = "NotkPrefFp";
const string kOtherKey = "kPrefNotFp";
EXPECT_TRUE(prefs_.SetString(kFpKey, "3.000"));
EXPECT_TRUE(prefs_.SetString(kOtherKey, "not_fp_val"));
auto key1_fp = prefs_.CreateSubKey({kPrefsSubDir, "id-1", kFpKey});
EXPECT_TRUE(prefs_.SetString(key1_fp, "3.7"));
auto key_not_fp = prefs_.CreateSubKey({kPrefsSubDir, "id-1", kOtherKey});
EXPECT_TRUE(prefs_.SetString(key_not_fp, "not_fp_val"));
auto key2_fp = prefs_.CreateSubKey({kPrefsSubDir, "id-2", kFpKey});
EXPECT_TRUE(prefs_.SetString(key2_fp, "3.9"));
auto key3_fp = prefs_.CreateSubKey({kPrefsSubDir, "id-3", kFpKey});
EXPECT_TRUE(prefs_.SetString(key3_fp, "3.45"));
// Pref key does not match full subkey at end, should not delete.
auto key_middle_fp = prefs_.CreateSubKey({kPrefsSubDir, kFpKey, kOtherKey});
EXPECT_TRUE(prefs_.SetString(key_middle_fp, "not_fp_val"));
auto key_end_not_fp = prefs_.CreateSubKey({kPrefsSubDir, "id-1", kNotFpKey});
EXPECT_TRUE(prefs_.SetString(key_end_not_fp, "not_fp_val"));
// Delete key in platform and one namespace.
prefs_.Delete(kFpKey, {kPrefsSubDir});
EXPECT_FALSE(prefs_.Exists(kFpKey));
EXPECT_FALSE(prefs_.Exists(key1_fp));
EXPECT_FALSE(prefs_.Exists(key2_fp));
EXPECT_FALSE(prefs_.Exists(key3_fp));
// Check other keys are not deleted.
EXPECT_TRUE(prefs_.Exists(kOtherKey));
EXPECT_TRUE(prefs_.Exists(key_not_fp));
EXPECT_TRUE(prefs_.Exists(key_middle_fp));
EXPECT_TRUE(prefs_.Exists(key_end_not_fp));
}
TEST_F(PrefsTest, DeleteMultipleNamespaces) {
const string kFirstSubDir = "foo-dir";
const string kSecondarySubDir = "bar-dir";
const string kTertiarySubDir = "ter-dir";
const string kFpKey = "kPrefFp";
EXPECT_TRUE(prefs_.SetString(kFpKey, "3.000"));
// Set pref key in different namespaces.
auto key1_fp = prefs_.CreateSubKey({kFirstSubDir, "id-1", kFpKey});
EXPECT_TRUE(prefs_.SetString(key1_fp, "3.7"));
auto key2_fp = prefs_.CreateSubKey({kSecondarySubDir, "id-3", kFpKey});
EXPECT_TRUE(prefs_.SetString(key2_fp, "7.45"));
auto key3_fp = prefs_.CreateSubKey({kTertiarySubDir, "id-3", kFpKey});
EXPECT_TRUE(prefs_.SetString(key3_fp, "7.45"));
// Delete key in platform and given namespaces.
prefs_.Delete(kFpKey, {kFirstSubDir, kSecondarySubDir});
EXPECT_FALSE(prefs_.Exists(kFpKey));
EXPECT_FALSE(prefs_.Exists(key1_fp));
EXPECT_FALSE(prefs_.Exists(key2_fp));
// Tertiary namespace not given to delete. Key should still exist.
EXPECT_TRUE(prefs_.Exists(key3_fp));
}
class MockPrefsObserver : public PrefsInterface::ObserverInterface {
public:
MOCK_METHOD1(OnPrefSet, void(const string&));
MOCK_METHOD1(OnPrefDeleted, void(const string& key));
};
TEST_F(PrefsTest, ObserversCalled) {
MockPrefsObserver mock_obserser;
prefs_.AddObserver(kKey, &mock_obserser);
EXPECT_CALL(mock_obserser, OnPrefSet(Eq(kKey)));
EXPECT_CALL(mock_obserser, OnPrefDeleted(_)).Times(0);
prefs_.SetString(kKey, "value");
testing::Mock::VerifyAndClearExpectations(&mock_obserser);
EXPECT_CALL(mock_obserser, OnPrefSet(_)).Times(0);
EXPECT_CALL(mock_obserser, OnPrefDeleted(Eq(kKey)));
prefs_.Delete(kKey);
testing::Mock::VerifyAndClearExpectations(&mock_obserser);
auto key1 = prefs_.CreateSubKey({"ns", "sp1", "key1"});
prefs_.AddObserver(key1, &mock_obserser);
EXPECT_CALL(mock_obserser, OnPrefSet(key1));
EXPECT_CALL(mock_obserser, OnPrefDeleted(_)).Times(0);
prefs_.SetString(key1, "value");
testing::Mock::VerifyAndClearExpectations(&mock_obserser);
EXPECT_CALL(mock_obserser, OnPrefSet(_)).Times(0);
EXPECT_CALL(mock_obserser, OnPrefDeleted(Eq(key1)));
prefs_.Delete(key1);
testing::Mock::VerifyAndClearExpectations(&mock_obserser);
prefs_.RemoveObserver(kKey, &mock_obserser);
}
TEST_F(PrefsTest, OnlyCalledOnObservedKeys) {
MockPrefsObserver mock_obserser;
const char kUnusedKey[] = "unused-key";
prefs_.AddObserver(kUnusedKey, &mock_obserser);
EXPECT_CALL(mock_obserser, OnPrefSet(_)).Times(0);
EXPECT_CALL(mock_obserser, OnPrefDeleted(_)).Times(0);
prefs_.SetString(kKey, "value");
prefs_.Delete(kKey);
prefs_.RemoveObserver(kUnusedKey, &mock_obserser);
}
TEST_F(PrefsTest, RemovedObserversNotCalled) {
MockPrefsObserver mock_obserser_a, mock_obserser_b;
prefs_.AddObserver(kKey, &mock_obserser_a);
prefs_.AddObserver(kKey, &mock_obserser_b);
EXPECT_CALL(mock_obserser_a, OnPrefSet(_)).Times(2);
EXPECT_CALL(mock_obserser_b, OnPrefSet(_)).Times(1);
EXPECT_TRUE(prefs_.SetString(kKey, "value"));
prefs_.RemoveObserver(kKey, &mock_obserser_b);
EXPECT_TRUE(prefs_.SetString(kKey, "other value"));
prefs_.RemoveObserver(kKey, &mock_obserser_a);
EXPECT_TRUE(prefs_.SetString(kKey, "yet another value"));
}
TEST_F(PrefsTest, UnsuccessfulCallsNotObserved) {
MockPrefsObserver mock_obserser;
const char kInvalidKey[] = "no spaces or .";
prefs_.AddObserver(kInvalidKey, &mock_obserser);
EXPECT_CALL(mock_obserser, OnPrefSet(_)).Times(0);
EXPECT_CALL(mock_obserser, OnPrefDeleted(_)).Times(0);
EXPECT_FALSE(prefs_.SetString(kInvalidKey, "value"));
EXPECT_FALSE(prefs_.Delete(kInvalidKey));
prefs_.RemoveObserver(kInvalidKey, &mock_obserser);
}
TEST_F(PrefsTest, MultiNamespaceKeyTest) {
MultiNamespaceKeyTest();
}
class MemoryPrefsTest : public BasePrefsTest {
protected:
void SetUp() override { common_prefs_ = &prefs_; }
MemoryPrefs prefs_;
};
TEST_F(MemoryPrefsTest, BasicTest) {
EXPECT_FALSE(prefs_.Exists(kKey));
int64_t value = 0;
EXPECT_FALSE(prefs_.GetInt64(kKey, &value));
EXPECT_TRUE(prefs_.SetInt64(kKey, 1234));
EXPECT_TRUE(prefs_.Exists(kKey));
EXPECT_TRUE(prefs_.GetInt64(kKey, &value));
EXPECT_EQ(1234, value);
EXPECT_TRUE(prefs_.Delete(kKey));
EXPECT_FALSE(prefs_.Exists(kKey));
EXPECT_TRUE(prefs_.Delete(kKey));
auto key = prefs_.CreateSubKey({"ns", "sp", "sk"});
ASSERT_TRUE(prefs_.SetInt64(key, 0));
EXPECT_TRUE(prefs_.Exists(key));
EXPECT_TRUE(prefs_.Delete(kKey));
}
TEST_F(MemoryPrefsTest, MultiNamespaceKeyTest) {
MultiNamespaceKeyTest();
}
} // namespace chromeos_update_engine