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|
// Copyright 2015 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/feature_list.h"
#include <stddef.h>
#include <utility>
#include <vector>
#include "base/feature_list_buildflags.h"
#include "base/format_macros.h"
#include "base/memory/read_only_shared_memory_region.h"
#include "base/metrics/field_trial.h"
#include "base/metrics/field_trial_param_associator.h"
#include "base/metrics/persistent_memory_allocator.h"
#include "base/ranges/algorithm.h"
#include "base/strings/strcat.h"
#include "base/strings/string_piece.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/test/scoped_feature_list.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace {
constexpr char kFeatureOnByDefaultName[] = "OnByDefault";
CONSTINIT Feature kFeatureOnByDefault(kFeatureOnByDefaultName,
FEATURE_ENABLED_BY_DEFAULT);
constexpr char kFeatureOffByDefaultName[] = "OffByDefault";
CONSTINIT Feature kFeatureOffByDefault(kFeatureOffByDefaultName,
FEATURE_DISABLED_BY_DEFAULT);
std::string SortFeatureListString(const std::string& feature_list) {
std::vector<base::StringPiece> features =
FeatureList::SplitFeatureListString(feature_list);
ranges::sort(features);
return JoinString(features, ",");
}
} // namespace
class FeatureListTest : public testing::Test {
public:
FeatureListTest() {
// Provide an empty FeatureList to each test by default.
scoped_feature_list_.InitWithFeatureList(std::make_unique<FeatureList>());
}
FeatureListTest(const FeatureListTest&) = delete;
FeatureListTest& operator=(const FeatureListTest&) = delete;
~FeatureListTest() override = default;
private:
test::ScopedFeatureList scoped_feature_list_;
};
TEST_F(FeatureListTest, DefaultStates) {
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
}
TEST_F(FeatureListTest, InitializeFromCommandLine) {
struct {
const char* enable_features;
const char* disable_features;
bool expected_feature_on_state;
bool expected_feature_off_state;
} test_cases[] = {
{"", "", true, false},
{"OffByDefault", "", true, true},
{"OffByDefault", "OnByDefault", false, true},
{"OnByDefault,OffByDefault", "", true, true},
{"", "OnByDefault,OffByDefault", false, false},
// In the case an entry is both, disable takes precedence.
{"OnByDefault", "OnByDefault,OffByDefault", false, false},
};
for (size_t i = 0; i < std::size(test_cases); ++i) {
const auto& test_case = test_cases[i];
SCOPED_TRACE(base::StringPrintf("Test[%" PRIuS "]: [%s] [%s]", i,
test_case.enable_features,
test_case.disable_features));
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine(test_case.enable_features,
test_case.disable_features);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_EQ(test_case.expected_feature_on_state,
FeatureList::IsEnabled(kFeatureOnByDefault))
<< i;
EXPECT_EQ(test_case.expected_feature_off_state,
FeatureList::IsEnabled(kFeatureOffByDefault))
<< i;
// Reading the state of each feature again will pull it from their
// respective caches instead of performing the full lookup, which should
// yield the same result.
EXPECT_EQ(test_case.expected_feature_on_state,
FeatureList::IsEnabled(kFeatureOnByDefault))
<< i;
EXPECT_EQ(test_case.expected_feature_off_state,
FeatureList::IsEnabled(kFeatureOffByDefault))
<< i;
}
}
TEST_F(FeatureListTest, InitializeFromCommandLineWithFeatureParams) {
struct {
const std::string enable_features;
const std::string expected_field_trial_created;
const std::map<std::string, std::string> expected_feature_params;
} test_cases[] = {
{"Feature:x/100/y/test", "StudyFeature", {{"x", "100"}, {"y", "test"}}},
{"Feature<Trial1:x/200/y/123", "Trial1", {{"x", "200"}, {"y", "123"}}},
{"Feature<Trial2.Group2:x/test/y/uma/z/ukm",
"Trial2",
{{"x", "test"}, {"y", "uma"}, {"z", "ukm"}}},
};
// Clear global state so that repeated runs of this test don't flake.
// When https://crrev.com/c/3694674 is submitted, we should be able to remove
// this.
base::FieldTrialParamAssociator::GetInstance()->ClearAllParamsForTesting();
static BASE_FEATURE(kFeature, "Feature", FEATURE_DISABLED_BY_DEFAULT);
for (const auto& test_case : test_cases) {
SCOPED_TRACE(test_case.enable_features);
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine(test_case.enable_features, "");
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_TRUE(FeatureList::IsEnabled(kFeature));
EXPECT_TRUE(
FieldTrialList::IsTrialActive(test_case.expected_field_trial_created));
std::map<std::string, std::string> actual_params;
EXPECT_TRUE(GetFieldTrialParamsByFeature(kFeature, &actual_params));
EXPECT_EQ(test_case.expected_feature_params, actual_params);
}
}
TEST_F(FeatureListTest, CheckFeatureIdentity) {
// Tests that CheckFeatureIdentity() correctly detects when two different
// structs with the same feature name are passed to it.
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::make_unique<FeatureList>());
FeatureList* feature_list = FeatureList::GetInstance();
// Call it twice for each feature at the top of the file, since the first call
// makes it remember the entry and the second call will verify it.
EXPECT_TRUE(feature_list->CheckFeatureIdentity(kFeatureOnByDefault));
EXPECT_TRUE(feature_list->CheckFeatureIdentity(kFeatureOnByDefault));
EXPECT_TRUE(feature_list->CheckFeatureIdentity(kFeatureOffByDefault));
EXPECT_TRUE(feature_list->CheckFeatureIdentity(kFeatureOffByDefault));
// Now, call it with a distinct struct for |kFeatureOnByDefaultName|, which
// should return false.
struct Feature kFeatureOnByDefault2 {
kFeatureOnByDefaultName, FEATURE_ENABLED_BY_DEFAULT
};
EXPECT_FALSE(feature_list->CheckFeatureIdentity(kFeatureOnByDefault2));
}
TEST_F(FeatureListTest, FieldTrialOverrides) {
struct {
FeatureList::OverrideState trial1_state;
FeatureList::OverrideState trial2_state;
} test_cases[] = {
{FeatureList::OVERRIDE_DISABLE_FEATURE,
FeatureList::OVERRIDE_DISABLE_FEATURE},
{FeatureList::OVERRIDE_DISABLE_FEATURE,
FeatureList::OVERRIDE_ENABLE_FEATURE},
{FeatureList::OVERRIDE_ENABLE_FEATURE,
FeatureList::OVERRIDE_DISABLE_FEATURE},
{FeatureList::OVERRIDE_ENABLE_FEATURE,
FeatureList::OVERRIDE_ENABLE_FEATURE},
};
FieldTrial::ActiveGroup active_group;
for (size_t i = 0; i < std::size(test_cases); ++i) {
const auto& test_case = test_cases[i];
SCOPED_TRACE(base::StringPrintf("Test[%" PRIuS "]", i));
test::ScopedFeatureList outer_scope;
outer_scope.InitWithEmptyFeatureAndFieldTrialLists();
auto feature_list = std::make_unique<FeatureList>();
FieldTrial* trial1 = FieldTrialList::CreateFieldTrial("TrialExample1", "A");
FieldTrial* trial2 = FieldTrialList::CreateFieldTrial("TrialExample2", "B");
feature_list->RegisterFieldTrialOverride(kFeatureOnByDefaultName,
test_case.trial1_state, trial1);
feature_list->RegisterFieldTrialOverride(kFeatureOffByDefaultName,
test_case.trial2_state, trial2);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
// Initially, neither trial should be active.
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial1->trial_name()));
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial2->trial_name()));
const bool expected_enabled_1 =
(test_case.trial1_state == FeatureList::OVERRIDE_ENABLE_FEATURE);
EXPECT_EQ(expected_enabled_1, FeatureList::IsEnabled(kFeatureOnByDefault));
// The above should have activated |trial1|.
EXPECT_TRUE(FieldTrialList::IsTrialActive(trial1->trial_name()));
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial2->trial_name()));
const bool expected_enabled_2 =
(test_case.trial2_state == FeatureList::OVERRIDE_ENABLE_FEATURE);
EXPECT_EQ(expected_enabled_2, FeatureList::IsEnabled(kFeatureOffByDefault));
// The above should have activated |trial2|.
EXPECT_TRUE(FieldTrialList::IsTrialActive(trial1->trial_name()));
EXPECT_TRUE(FieldTrialList::IsTrialActive(trial2->trial_name()));
}
}
TEST_F(FeatureListTest, FieldTrialAssociateUseDefault) {
auto feature_list = std::make_unique<FeatureList>();
FieldTrial* trial1 = FieldTrialList::CreateFieldTrial("TrialExample1", "A");
FieldTrial* trial2 = FieldTrialList::CreateFieldTrial("TrialExample2", "B");
feature_list->RegisterFieldTrialOverride(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_USE_DEFAULT, trial1);
feature_list->RegisterFieldTrialOverride(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_USE_DEFAULT, trial2);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
// Initially, neither trial should be active.
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial1->trial_name()));
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial2->trial_name()));
// Check the feature enabled state is its default.
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOnByDefault));
// The above should have activated |trial1|.
EXPECT_TRUE(FieldTrialList::IsTrialActive(trial1->trial_name()));
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial2->trial_name()));
// Check the feature enabled state is its default.
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
// The above should have activated |trial2|.
EXPECT_TRUE(FieldTrialList::IsTrialActive(trial1->trial_name()));
EXPECT_TRUE(FieldTrialList::IsTrialActive(trial2->trial_name()));
}
TEST_F(FeatureListTest, CommandLineEnableTakesPrecedenceOverFieldTrial) {
auto feature_list = std::make_unique<FeatureList>();
// The feature is explicitly enabled on the command-line.
feature_list->InitializeFromCommandLine(kFeatureOffByDefaultName, "");
// But the FieldTrial would set the feature to disabled.
FieldTrial* trial = FieldTrialList::CreateFieldTrial("TrialExample2", "A");
feature_list->RegisterFieldTrialOverride(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE, trial);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial->trial_name()));
// Command-line should take precedence.
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOffByDefault));
// Since the feature is on due to the command-line, and not as a result of the
// field trial, the field trial should not be activated (since the Associate*
// API wasn't used.)
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial->trial_name()));
}
TEST_F(FeatureListTest, CommandLineDisableTakesPrecedenceOverFieldTrial) {
auto feature_list = std::make_unique<FeatureList>();
// The feature is explicitly disabled on the command-line.
feature_list->InitializeFromCommandLine("", kFeatureOffByDefaultName);
// But the FieldTrial would set the feature to enabled.
FieldTrial* trial = FieldTrialList::CreateFieldTrial("TrialExample2", "A");
feature_list->RegisterFieldTrialOverride(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE, trial);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial->trial_name()));
// Command-line should take precedence.
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
// Since the feature is on due to the command-line, and not as a result of the
// field trial, the field trial should not be activated (since the Associate*
// API wasn't used.)
EXPECT_FALSE(FieldTrialList::IsTrialActive(trial->trial_name()));
}
TEST_F(FeatureListTest, IsFeatureOverriddenFromFieldTrial) {
auto feature_list = std::make_unique<FeatureList>();
// No features are overridden from the field trails yet.
EXPECT_FALSE(feature_list->IsFeatureOverridden(kFeatureOnByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverridden(kFeatureOffByDefaultName));
// Now, register a field trial to override |kFeatureOnByDefaultName| state
// and check that the function still returns false for that feature.
feature_list->RegisterFieldTrialOverride(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_USE_DEFAULT,
FieldTrialList::CreateFieldTrial("Trial1", "A"));
feature_list->RegisterFieldTrialOverride(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE,
FieldTrialList::CreateFieldTrial("Trial2", "A"));
EXPECT_TRUE(feature_list->IsFeatureOverridden(kFeatureOnByDefaultName));
EXPECT_TRUE(feature_list->IsFeatureOverridden(kFeatureOffByDefaultName));
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
// Check the expected feature states for good measure.
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOnByDefault));
}
TEST_F(FeatureListTest, IsFeatureOverriddenFromCommandLine) {
auto feature_list = std::make_unique<FeatureList>();
// No features are overridden from the command line yet
EXPECT_FALSE(feature_list->IsFeatureOverridden(kFeatureOnByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverridden(kFeatureOffByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE));
// Now, enable |kFeatureOffByDefaultName| via the command-line.
feature_list->InitializeFromCommandLine(kFeatureOffByDefaultName, "");
// It should now be overridden for the enabled group.
EXPECT_TRUE(feature_list->IsFeatureOverridden(kFeatureOffByDefaultName));
EXPECT_TRUE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE));
EXPECT_TRUE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE));
// Register a field trial to associate with the feature and ensure that the
// results are still the same.
feature_list->AssociateReportingFieldTrial(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE,
FieldTrialList::CreateFieldTrial("Trial1", "A"));
EXPECT_TRUE(feature_list->IsFeatureOverridden(kFeatureOffByDefaultName));
EXPECT_TRUE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE));
EXPECT_TRUE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE));
// Now, register a field trial to override |kFeatureOnByDefaultName| state
// and check that the function still returns false for that feature.
feature_list->RegisterFieldTrialOverride(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE,
FieldTrialList::CreateFieldTrial("Trial2", "A"));
EXPECT_TRUE(feature_list->IsFeatureOverridden(kFeatureOnByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE));
EXPECT_FALSE(feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE));
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
// Check the expected feature states for good measure.
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOffByDefault));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOnByDefault));
}
TEST_F(FeatureListTest, AssociateReportingFieldTrial) {
struct {
const char* enable_features;
const char* disable_features;
bool expected_enable_trial_created;
bool expected_disable_trial_created;
} test_cases[] = {
// If no enable/disable flags are specified, no trials should be created.
{"", "", false, false},
// Enabling the feature should result in the enable trial created.
{kFeatureOffByDefaultName, "", true, false},
// Disabling the feature should result in the disable trial created.
{"", kFeatureOffByDefaultName, false, true},
};
const char kTrialName[] = "ForcingTrial";
const char kForcedOnGroupName[] = "ForcedOn";
const char kForcedOffGroupName[] = "ForcedOff";
for (size_t i = 0; i < std::size(test_cases); ++i) {
const auto& test_case = test_cases[i];
SCOPED_TRACE(base::StringPrintf("Test[%" PRIuS "]: [%s] [%s]", i,
test_case.enable_features,
test_case.disable_features));
test::ScopedFeatureList outer_scope;
outer_scope.InitWithEmptyFeatureAndFieldTrialLists();
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine(test_case.enable_features,
test_case.disable_features);
FieldTrial* enable_trial = nullptr;
if (feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE)) {
enable_trial = base::FieldTrialList::CreateFieldTrial(kTrialName,
kForcedOnGroupName);
feature_list->AssociateReportingFieldTrial(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE,
enable_trial);
}
FieldTrial* disable_trial = nullptr;
if (feature_list->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE)) {
disable_trial = base::FieldTrialList::CreateFieldTrial(
kTrialName, kForcedOffGroupName);
feature_list->AssociateReportingFieldTrial(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE,
disable_trial);
}
EXPECT_EQ(test_case.expected_enable_trial_created, enable_trial != nullptr);
EXPECT_EQ(test_case.expected_disable_trial_created,
disable_trial != nullptr);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_FALSE(FieldTrialList::IsTrialActive(kTrialName));
if (disable_trial) {
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
EXPECT_TRUE(FieldTrialList::IsTrialActive(kTrialName));
EXPECT_EQ(kForcedOffGroupName, disable_trial->group_name());
} else if (enable_trial) {
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOffByDefault));
EXPECT_TRUE(FieldTrialList::IsTrialActive(kTrialName));
EXPECT_EQ(kForcedOnGroupName, enable_trial->group_name());
}
}
}
TEST_F(FeatureListTest, RegisterExtraFeatureOverrides) {
auto feature_list = std::make_unique<FeatureList>();
std::vector<FeatureList::FeatureOverrideInfo> overrides;
overrides.push_back({std::cref(kFeatureOnByDefault),
FeatureList::OverrideState::OVERRIDE_DISABLE_FEATURE});
overrides.push_back({std::cref(kFeatureOffByDefault),
FeatureList::OverrideState::OVERRIDE_ENABLE_FEATURE});
feature_list->RegisterExtraFeatureOverrides(std::move(overrides));
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOffByDefault));
}
TEST_F(FeatureListTest, InitializeFromCommandLineThenRegisterExtraOverrides) {
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine(kFeatureOnByDefaultName,
kFeatureOffByDefaultName);
std::vector<FeatureList::FeatureOverrideInfo> overrides;
overrides.push_back({std::cref(kFeatureOnByDefault),
FeatureList::OverrideState::OVERRIDE_DISABLE_FEATURE});
overrides.push_back({std::cref(kFeatureOffByDefault),
FeatureList::OverrideState::OVERRIDE_ENABLE_FEATURE});
feature_list->RegisterExtraFeatureOverrides(std::move(overrides));
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
// The InitializeFromCommandLine supersedes the RegisterExtraFeatureOverrides
// because it was called first.
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
std::string enable_features;
std::string disable_features;
FeatureList::GetInstance()->GetFeatureOverrides(&enable_features,
&disable_features);
EXPECT_EQ(kFeatureOnByDefaultName, SortFeatureListString(enable_features));
EXPECT_EQ(kFeatureOffByDefaultName, SortFeatureListString(disable_features));
}
TEST_F(FeatureListTest, GetFeatureOverrides) {
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine("A,X", "D");
Feature feature_b = {"B", FEATURE_ENABLED_BY_DEFAULT};
Feature feature_c = {"C", FEATURE_DISABLED_BY_DEFAULT};
std::vector<FeatureList::FeatureOverrideInfo> overrides;
overrides.push_back({std::cref(feature_b),
FeatureList::OverrideState::OVERRIDE_DISABLE_FEATURE});
overrides.push_back({std::cref(feature_c),
FeatureList::OverrideState::OVERRIDE_ENABLE_FEATURE});
feature_list->RegisterExtraFeatureOverrides(std::move(overrides));
FieldTrial* trial = FieldTrialList::CreateFieldTrial("Trial", "Group");
feature_list->RegisterFieldTrialOverride(kFeatureOffByDefaultName,
FeatureList::OVERRIDE_ENABLE_FEATURE,
trial);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
std::string enable_features;
std::string disable_features;
FeatureList::GetInstance()->GetFeatureOverrides(&enable_features,
&disable_features);
EXPECT_EQ("A,C,OffByDefault<Trial,X", SortFeatureListString(enable_features));
EXPECT_EQ("B,D", SortFeatureListString(disable_features));
FeatureList::GetInstance()->GetCommandLineFeatureOverrides(&enable_features,
&disable_features);
EXPECT_EQ("A,C,X", SortFeatureListString(enable_features));
EXPECT_EQ("B,D", SortFeatureListString(disable_features));
}
TEST_F(FeatureListTest, GetFeatureOverrides_UseDefault) {
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine("A,X", "D");
FieldTrial* trial = FieldTrialList::CreateFieldTrial("Trial", "Group");
feature_list->RegisterFieldTrialOverride(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_USE_DEFAULT, trial);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
std::string enable_features;
std::string disable_features;
FeatureList::GetInstance()->GetFeatureOverrides(&enable_features,
&disable_features);
EXPECT_EQ("*OffByDefault<Trial,A,X", SortFeatureListString(enable_features));
EXPECT_EQ("D", SortFeatureListString(disable_features));
}
TEST_F(FeatureListTest, GetFieldTrial) {
FieldTrial* trial = FieldTrialList::CreateFieldTrial("Trial", "Group");
auto feature_list = std::make_unique<FeatureList>();
feature_list->RegisterFieldTrialOverride(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_USE_DEFAULT, trial);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_EQ(trial, FeatureList::GetFieldTrial(kFeatureOnByDefault));
EXPECT_EQ(nullptr, FeatureList::GetFieldTrial(kFeatureOffByDefault));
}
TEST_F(FeatureListTest, InitializeFromCommandLine_WithFieldTrials) {
FieldTrialList::CreateFieldTrial("Trial", "Group");
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine("A,OffByDefault<Trial,X", "D");
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_FALSE(FieldTrialList::IsTrialActive("Trial"));
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOffByDefault));
EXPECT_TRUE(FieldTrialList::IsTrialActive("Trial"));
}
TEST_F(FeatureListTest, InitializeFromCommandLine_UseDefault) {
FieldTrialList::CreateFieldTrial("T1", "Group");
FieldTrialList::CreateFieldTrial("T2", "Group");
auto feature_list = std::make_unique<FeatureList>();
feature_list->InitializeFromCommandLine(
"A,*OffByDefault<T1,*OnByDefault<T2,X", "D");
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_FALSE(FieldTrialList::IsTrialActive("T1"));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
EXPECT_TRUE(FieldTrialList::IsTrialActive("T1"));
EXPECT_FALSE(FieldTrialList::IsTrialActive("T2"));
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_TRUE(FieldTrialList::IsTrialActive("T2"));
}
TEST_F(FeatureListTest, InitializeInstance) {
std::unique_ptr<base::FeatureList> feature_list(new base::FeatureList);
test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
// Initialize from command line if we haven't yet.
FeatureList::InitializeInstance("", kFeatureOnByDefaultName);
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
// Do not initialize from commandline if we have already.
FeatureList::InitializeInstance(kFeatureOffByDefaultName, "");
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
}
TEST_F(FeatureListTest, UninitializedInstance_IsEnabledReturnsFalse) {
std::unique_ptr<FeatureList> original_feature_list =
FeatureList::ClearInstanceForTesting();
// This test case simulates the calling pattern found in code which does not
// explicitly initialize the features list.
// All IsEnabled() calls should return the default value in this scenario.
EXPECT_EQ(nullptr, FeatureList::GetInstance());
EXPECT_TRUE(FeatureList::IsEnabled(kFeatureOnByDefault));
EXPECT_EQ(nullptr, FeatureList::GetInstance());
EXPECT_FALSE(FeatureList::IsEnabled(kFeatureOffByDefault));
if (original_feature_list)
FeatureList::RestoreInstanceForTesting(std::move(original_feature_list));
}
TEST_F(FeatureListTest, StoreAndRetrieveFeaturesFromSharedMemory) {
std::unique_ptr<base::FeatureList> feature_list(new base::FeatureList);
// Create some overrides.
feature_list->RegisterOverride(kFeatureOffByDefaultName,
FeatureList::OVERRIDE_ENABLE_FEATURE, nullptr);
feature_list->RegisterOverride(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE, nullptr);
feature_list->FinalizeInitialization();
// Create an allocator and store the overrides.
base::MappedReadOnlyRegion shm =
base::ReadOnlySharedMemoryRegion::Create(4 << 10);
WritableSharedPersistentMemoryAllocator allocator(std::move(shm.mapping), 1,
"");
feature_list->AddFeaturesToAllocator(&allocator);
std::unique_ptr<base::FeatureList> feature_list2(new base::FeatureList);
// Check that the new feature list is empty.
EXPECT_FALSE(feature_list2->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE));
EXPECT_FALSE(feature_list2->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE));
feature_list2->InitializeFromSharedMemory(&allocator);
// Check that the new feature list now has 2 overrides.
EXPECT_TRUE(feature_list2->IsFeatureOverriddenFromCommandLine(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_ENABLE_FEATURE));
EXPECT_TRUE(feature_list2->IsFeatureOverriddenFromCommandLine(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_DISABLE_FEATURE));
}
TEST_F(FeatureListTest, StoreAndRetrieveAssociatedFeaturesFromSharedMemory) {
std::unique_ptr<base::FeatureList> feature_list(new base::FeatureList);
// Create some overrides.
FieldTrial* trial1 = FieldTrialList::CreateFieldTrial("TrialExample1", "A");
FieldTrial* trial2 = FieldTrialList::CreateFieldTrial("TrialExample2", "B");
feature_list->RegisterFieldTrialOverride(
kFeatureOnByDefaultName, FeatureList::OVERRIDE_USE_DEFAULT, trial1);
feature_list->RegisterFieldTrialOverride(
kFeatureOffByDefaultName, FeatureList::OVERRIDE_USE_DEFAULT, trial2);
feature_list->FinalizeInitialization();
// Create an allocator and store the overrides.
base::MappedReadOnlyRegion shm =
base::ReadOnlySharedMemoryRegion::Create(4 << 10);
WritableSharedPersistentMemoryAllocator allocator(std::move(shm.mapping), 1,
"");
feature_list->AddFeaturesToAllocator(&allocator);
std::unique_ptr<base::FeatureList> feature_list2(new base::FeatureList);
feature_list2->InitializeFromSharedMemory(&allocator);
feature_list2->FinalizeInitialization();
// Check that the field trials are still associated.
FieldTrial* associated_trial1 =
feature_list2->GetAssociatedFieldTrial(kFeatureOnByDefault);
FieldTrial* associated_trial2 =
feature_list2->GetAssociatedFieldTrial(kFeatureOffByDefault);
EXPECT_EQ(associated_trial1, trial1);
EXPECT_EQ(associated_trial2, trial2);
}
#if BUILDFLAG(ENABLE_BANNED_BASE_FEATURE_PREFIX) && \
defined(GTEST_HAS_DEATH_TEST)
using FeatureListDeathTest = FeatureListTest;
TEST_F(FeatureListDeathTest, DiesWithBadFeatureName) {
EXPECT_DEATH(
Feature(
StrCat({BUILDFLAG(BANNED_BASE_FEATURE_PREFIX), "MyFeature"}).c_str(),
FEATURE_DISABLED_BY_DEFAULT),
StrCat({"Invalid feature name ", BUILDFLAG(BANNED_BASE_FEATURE_PREFIX),
"MyFeature"}));
}
#endif // BUILDFLAG(ENABLE_BANNED_BASE_FEATURE_PREFIX) &&
// defined(GTEST_HAS_DEATH_TEST)
TEST(FeatureListAccessorTest, DefaultStates) {
test::ScopedFeatureList scoped_feature_list;
auto feature_list = std::make_unique<FeatureList>();
auto feature_list_accessor = feature_list->ConstructAccessor();
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_EQ(feature_list_accessor->GetOverrideStateByFeatureName(
kFeatureOnByDefault.name),
FeatureList::OVERRIDE_USE_DEFAULT);
EXPECT_EQ(feature_list_accessor->GetOverrideStateByFeatureName(
kFeatureOffByDefault.name),
FeatureList::OVERRIDE_USE_DEFAULT);
}
TEST(FeatureListAccessorTest, InitializeFromCommandLine) {
struct {
const char* enable_features;
const char* disable_features;
FeatureList::OverrideState expected_feature_on_state;
FeatureList::OverrideState expected_feature_off_state;
} test_cases[] = {
{"", "", FeatureList::OVERRIDE_USE_DEFAULT,
FeatureList::OVERRIDE_USE_DEFAULT},
{"OffByDefault", "", FeatureList::OVERRIDE_USE_DEFAULT,
FeatureList::OVERRIDE_ENABLE_FEATURE},
{"OffByDefault", "OnByDefault", FeatureList::OVERRIDE_DISABLE_FEATURE,
FeatureList::OVERRIDE_ENABLE_FEATURE},
{"OnByDefault,OffByDefault", "", FeatureList::OVERRIDE_ENABLE_FEATURE,
FeatureList::OVERRIDE_ENABLE_FEATURE},
{"", "OnByDefault,OffByDefault", FeatureList::OVERRIDE_DISABLE_FEATURE,
FeatureList::OVERRIDE_DISABLE_FEATURE},
// In the case an entry is both, disable takes precedence.
{"OnByDefault", "OnByDefault,OffByDefault",
FeatureList::OVERRIDE_DISABLE_FEATURE,
FeatureList::OVERRIDE_DISABLE_FEATURE},
};
for (size_t i = 0; i < std::size(test_cases); ++i) {
const auto& test_case = test_cases[i];
SCOPED_TRACE(base::StringPrintf("Test[%" PRIuS "]: [%s] [%s]", i,
test_case.enable_features,
test_case.disable_features));
test::ScopedFeatureList scoped_feature_list;
auto feature_list = std::make_unique<FeatureList>();
auto feature_list_accessor = feature_list->ConstructAccessor();
feature_list->InitializeFromCommandLine(test_case.enable_features,
test_case.disable_features);
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_EQ(test_case.expected_feature_on_state,
feature_list_accessor->GetOverrideStateByFeatureName(
kFeatureOnByDefault.name))
<< i;
EXPECT_EQ(test_case.expected_feature_off_state,
feature_list_accessor->GetOverrideStateByFeatureName(
kFeatureOffByDefault.name))
<< i;
}
}
TEST(FeatureListAccessorTest, InitializeFromCommandLineWithFeatureParams) {
struct {
const std::string enable_features;
const std::map<std::string, std::string> expected_feature_params;
} test_cases[] = {
{"Feature:x/100/y/test", {{"x", "100"}, {"y", "test"}}},
{"Feature<Trial:asdf/ghjkl/y/123", {{"asdf", "ghjkl"}, {"y", "123"}}},
};
// Clear global state so that repeated runs of this test don't flake.
// When https://crrev.com/c/3694674 is submitted, we should be able to remove
// this.
base::FieldTrialParamAssociator::GetInstance()->ClearAllParamsForTesting();
for (size_t i = 0; i < std::size(test_cases); ++i) {
const auto& test_case = test_cases[i];
SCOPED_TRACE(test_case.enable_features);
test::ScopedFeatureList scoped_feature_list;
auto feature_list = std::make_unique<FeatureList>();
auto feature_list_accessor = feature_list->ConstructAccessor();
feature_list->InitializeFromCommandLine(test_case.enable_features, "");
scoped_feature_list.InitWithFeatureList(std::move(feature_list));
EXPECT_EQ(FeatureList::OVERRIDE_ENABLE_FEATURE,
feature_list_accessor->GetOverrideStateByFeatureName("Feature"))
<< i;
std::map<std::string, std::string> actual_params;
EXPECT_TRUE(feature_list_accessor->GetParamsByFeatureName("Feature",
&actual_params))
<< i;
EXPECT_EQ(test_case.expected_feature_params, actual_params) << i;
}
}
} // namespace base
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