base/feature_list.h

   1 // Copyright 2015 The Chromium Authors. All rights reserved.
   2 // Use of this source code is governed by a BSD-style license that can be
   3 // found in the LICENSE file.
   4
   5 #ifndef BASE_FEATURE_LIST_H_
   6 #define BASE_FEATURE_LIST_H_
   7
   8 #include <map>
   9 #include <string>
  10
  11 #include "base/base_export.h"
  12 #include "base/basictypes.h"
  13 #include "base/gtest_prod_util.h"
  14 #include "base/memory/scoped_ptr.h"
  15 #include "base/synchronization/lock.h"
  16
  17 namespace base {
  18
  19 // Specifies whether a given feature is enabled or disabled by default.
  20 enum FeatureState {
  21   FEATURE_DISABLED_BY_DEFAULT,
  22   FEATURE_ENABLED_BY_DEFAULT,
  23 };
  24
  25 // The Feature struct is used to define the default state for a feature. See
  26 // comment below for more details. There must only ever be one struct instance
  27 // for a given feature name - generally defined as a constant global variable or
  28 // file static.
  29 struct BASE_EXPORT Feature {
  30   // The name of the feature. This should be unique to each feature and is used
  31   // for enabling/disabling features via command line flags and experiments.
  32   const char* const name;
  33
  34   // The default state (i.e. enabled or disabled) for this feature.
  35   const FeatureState default_state;
  36 };
  37
  38 // The FeatureList class is used to determine whether a given feature is on or
  39 // off. It provides an authoritative answer, taking into account command-line
  40 // overrides and experimental control.
  41 //
  42 // The basic use case is for any feature that can be toggled (e.g. through
  43 // command-line or an experiment) to have a defined Feature struct, e.g.:
  44 //
  45 //   struct base::Feature kMyGreatFeature {
  46 //     "MyGreatFeature", base::FEATURE_ENABLED_BY_DEFAULT
  47 //   };
  48 //
  49 // Then, client code that wishes to query the state of the feature would check:
  50 //
  51 //   if (base::FeatureList::IsEnabled(kMyGreatFeature)) {
  52 //     // Feature code goes here.
  53 //   }
  54 //
  55 // Behind the scenes, the above call would take into account any command-line
  56 // flags to enable or disable the feature, any experiments that may control it
  57 // and finally its default state (in that order of priority), to determine
  58 // whether the feature is on.
  59 //
  60 // Features can be explicitly forced on or off by specifying a list of comma-
  61 // separated feature names via the following command-line flags:
  62 //
  63 //   --enable-features=Feature5,Feature7
  64 //   --disable-features=Feature1,Feature2,Feature3
  65 //
  66 // After initialization (which should be done single-threaded), the FeatureList
  67 // API is thread safe.
  68 //
  69 // Note: This class is a singleton, but does not use base/memory/singleton.h in
  70 // order to have control over its initialization sequence. Specifically, the
  71 // intended use is to create an instance of this class and fully initialize it,
  72 // before setting it as the singleton for a process, via SetInstance().
  73 class BASE_EXPORT FeatureList {
  74  public:
  75   FeatureList();
  76   ~FeatureList();
  77
  78   // Initializes feature overrides via command-line flags |enable_features| and
  79   // |disable_features|, each of which is a comma-separated list of features to
  80   // enable or disable, respectively. If a feature appears on both lists, then
  81   // it will be disabled. Must only be invoked during the initialization phase
  82   // (before FinalizeInitialization() has been called).
  83   void InitializeFromCommandLine(const std::string& enable_features,
  84                                  const std::string& disable_features);
  85
  86   // Returns whether the given |feature| is enabled. Must only be called after
  87   // the singleton instance has been registered via SetInstance(). Additionally,
  88   // a feature with a given name must only have a single corresponding Feature
  89   // struct, which is checked in builds with DCHECKs enabled.
  90   static bool IsEnabled(const Feature& feature);
  91
  92   // Returns the singleton instance of FeatureList. Will return null until an
  93   // instance is registered via SetInstance().
  94   static FeatureList* GetInstance();
  95
  96   // Registers the given |instance| to be the singleton feature list for this
  97   // process. This should only be called once and |instance| must not be null.
  98   static void SetInstance(scoped_ptr<FeatureList> instance);
  99
 100   // Clears the previously-registered singleton instance for tests.
 101   static void ClearInstanceForTesting();
 102
 103  private:
 104   FRIEND_TEST_ALL_PREFIXES(FeatureListTest, CheckFeatureIdentity);
 105
 106   // Specifies whether a feature override enables or disables the feature.
 107   enum OverrideState {
 108     OVERRIDE_DISABLE_FEATURE,
 109     OVERRIDE_ENABLE_FEATURE,
 110   };
 111
 112   // Finalizes the initialization state of the FeatureList, so that no further
 113   // overrides can be registered. This is called by SetInstance() on the
 114   // singleton feature list that is being registered.
 115   void FinalizeInitialization();
 116
 117   // Returns whether the given |feature| is enabled. This is invoked by the
 118   // public FeatureList::IsEnabled() static function on the global singleton.
 119   // Requires the FeatureList to have already been fully initialized.
 120   bool IsFeatureEnabled(const Feature& feature);
 121
 122   // Registers an override for feature |feature_name|. The override specifies
 123   // whether the feature should be on or off (via |overridden_state|), which
 124   // will take precedence over the feature's default state.
 125   void RegisterOverride(const std::string& feature_name,
 126                         OverrideState overridden_state);
 127
 128   // Verifies that there's only a single definition of a Feature struct for a
 129   // given feature name. Keeps track of the first seen Feature struct for each
 130   // feature. Returns false when called on a Feature struct with a different
 131   // address than the first one it saw for that feature name. Used only from
 132   // DCHECKs and tests.
 133   bool CheckFeatureIdentity(const Feature& feature);
 134
 135   struct OverrideEntry {
 136     // The overridden enable (on/off) state of the feature.
 137     const OverrideState overridden_state;
 138
 139     // TODO(asvitkine): Expand this as more support is added.
 140
 141     explicit OverrideEntry(OverrideState overridden_state);
 142   };
 143   // Map from feature name to an OverrideEntry struct for the feature, if it
 144   // exists.
 145   std::map<std::string, OverrideEntry> overrides_;
 146
 147   // Locked map that keeps track of seen features, to ensure a single feature is
 148   // only defined once. This verification is only done in builds with DCHECKs
 149   // enabled.
 150   Lock feature_identity_tracker_lock_;
 151   std::map<std::string, const Feature*> feature_identity_tracker_;
 152
 153   // Whether this object has been fully initialized. This gets set to true as a
 154   // result of FinalizeInitialization().
 155   bool initialized_;
 156
 157   DISALLOW_COPY_AND_ASSIGN(FeatureList);
 158 };
 159
 160 }  // namespace base
 161
 162 #endif  // BASE_FEATURE_LIST_H_