// Copyright 2016 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. #ifndef BASE_TEST_SCOPED_FEATURE_LIST_H_ #define BASE_TEST_SCOPED_FEATURE_LIST_H_ #include #include #include #include #include "base/feature_list.h" #include "base/memory/ref_counted.h" #include "base/metrics/field_trial.h" #include "base/metrics/field_trial_params.h" namespace base { namespace test { // ScopedFeatureList resets the global FeatureList instance to a new empty // instance and restores the original instance upon destruction. When using the // non-deprecated APIs, a corresponding FieldTrialList is also created. // // Note: Re-using the same object is not allowed. To reset the feature // list and initialize it anew, destroy an existing scoped list and init // a new one. // // If multiple instances of this class are used in a nested fashion, they // should be destroyed in the opposite order of their Init*() methods being // called. // // ScopedFeatureList needs to be initialized (via one of Init*() methods) // before running code that inspects the state of features, such as in the // constructor of the test harness. // // WARNING: To be clear, in multithreaded test environments (such as browser // tests) there may background threads using FeatureList before the test body is // even entered. In these cases it is imperative that ScopedFeatureList be // initialized BEFORE those threads are started, hence the recommendation to do // initialization in the test harness's constructor. class ScopedFeatureList final { public: ScopedFeatureList(); ~ScopedFeatureList(); struct FeatureAndParams { FeatureAndParams(const Feature& feature, const FieldTrialParams& params); ~FeatureAndParams(); FeatureAndParams(const FeatureAndParams& other); const Feature& feature; const FieldTrialParams params; }; // Resets the instance to a non-initialized state. void Reset(); // Initializes and registers a FeatureList instance without any additional // enabled or disabled features. Existing state, if any, will be kept. This is // equivalent to calling InitWithFeatures({}, {}). void Init(); // WARNING: This method will reset any globally configured features to their // default values, which can hide feature interaction bugs. Please use // sparingly. https://crbug.com/713390 // Initializes and registers the given FeatureList instance. void InitWithFeatureList(std::unique_ptr feature_list); // WARNING: This method will reset any globally configured features to their // default values, which can hide feature interaction bugs. Please use // sparingly. https://crbug.com/713390 // Initializes and registers a FeatureList instance with only the given // enabled and disabled features (comma-separated names). If feature params // are provided in the |enable_features|, this also associates features to // their params. void InitFromCommandLine(const std::string& enable_features, const std::string& disable_features); // Initializes and registers a FeatureList instance based on present // FeatureList and overridden with the given enabled and disabled features. // Any feature overrides already present in the global FeatureList will // continue to apply, unless they conflict with the overrides passed into this // method. This is important for testing potentially unexpected feature // interactions. void InitWithFeatures(const std::vector& enabled_features, const std::vector& disabled_features); // Initializes and registers a FeatureList instance based on present // FeatureList and overridden with single enabled feature. void InitAndEnableFeature(const Feature& feature); // Initializes and registers a FeatureList instance based on present // FeatureList and overridden with single enabled feature and associated field // trial parameters. // Note: this creates a scoped global field trial list if there is not // currently one. void InitAndEnableFeatureWithParameters( const Feature& feature, const FieldTrialParams& feature_parameters); // Initializes and registers a FeatureList instance based on present // FeatureList and overridden with the given enabled features and the // specified field trial parameters, and the given disabled features. // Note: This creates a scoped global field trial list if there is not // currently one. void InitWithFeaturesAndParameters( const std::vector& enabled_features, const std::vector& disabled_features); // Initializes and registers a FeatureList instance based on present // FeatureList and overridden with single disabled feature. void InitAndDisableFeature(const Feature& feature); // Initializes and registers a FeatureList instance based on present // FeatureList and overriden with a single feature either enabled or // disabled depending on |enabled|. void InitWithFeatureState(const Feature& feature, bool enabled); private: // Initializes and registers a FeatureList instance based on present // FeatureList and overridden with the given enabled and disabled features. // Any feature overrides already present in the global FeatureList will // continue to apply, unless they conflict with the overrides passed into this // method. // Features to enable may be specified through either |enabled_features| or // |enabled_feature_and_params|, but not both (i.e. one of these must be // empty). void InitWithFeaturesImpl( const std::vector& enabled_features, const std::vector& enabled_features_and_params, const std::vector& disabled_features); // Initializes and registers a FeatureList instance based on present // FeatureList and overridden with single enabled feature and associated field // trial override. // |trial| is expected to outlive the ScopedFeatureList. void InitAndEnableFeatureWithFieldTrialOverride(const Feature& feature, FieldTrial* trial); bool init_called_ = false; std::unique_ptr original_feature_list_; base::FieldTrialList* original_field_trial_list_ = nullptr; std::string original_params_; std::unique_ptr field_trial_list_; DISALLOW_COPY_AND_ASSIGN(ScopedFeatureList); }; } // namespace test } // namespace base #endif // BASE_TEST_SCOPED_FEATURE_LIST_H_