gecko-dev/gfx/config/gfxConfig.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef mozilla_gfx_config_gfxConfig_h
#define mozilla_gfx_config_gfxConfig_h
#include <functional>
#include "gfxFeature.h"
#include "gfxFallback.h"
#include "mozilla/Assertions.h"
namespace mozilla {
namespace gfx {
// Defined in GraphicsMessages.ipdlh.
class FeatureChange;
// Manages the history and state of a graphics feature. The flow of a feature
// is:
// - A default value, set by all.js, gfxPrefs, or gfxPlatform.
// - A user value, set by an external value or user pref.
// - An environment value, determined by system/hardware factors or
// nsIGfxInfo.
// - A runtime value, determined by any failures encountered after enabling
// the feature.
//
// Each state change for a feature is recorded in this class.
class gfxConfig {
public:
// Return the full state history of a feature.
static FeatureState& GetFeature(Feature aFeature);
// Query whether a parameter is enabled, taking into account any user or
// runtime overrides. The algorithm works as follow:
//
// 1. If a runtime decision disabled the feature, return false.
// 2. If the user force-enabled the feature, return true.
// 3. If the environment disabled the feature, return false.
// 4. If the user specified a decision, return it.
// 5. Return the base setting for the feature.
static bool IsEnabled(Feature aFeature);
// Query the history of a parameter. ForcedOnByUser returns whether or not
// the user specifically used a "force" preference to enable the parameter.
// IsDisabledByDefault returns whether or not the initial status of the
// feature, before adding user prefs and runtime decisions, was disabled.
static bool IsForcedOnByUser(Feature aFeature);
// This returns true if the feature was disabled by default, or was never
// initialized to begin with.
static bool IsDisabledByDefault(Feature aFeature);
// Query the status value of a parameter. This is computed similar to
// IsEnabled:
//
// 1. If a runtime failure was set, return it.
// 2. If the user force-enabled the feature, return ForceEnabled.
// 3. If an environment status was set, return it.
// 4. If a user status was set, return it.
// 5. Return the default status.
static FeatureStatus GetValue(Feature aFeature);
// Reset the entire state of a feature.
static void Reset(Feature aFeature);
// Initialize the base value of a parameter. The return value is aEnable.
static bool SetDefault(Feature aFeature, bool aEnable,
FeatureStatus aDisableStatus,
const char* aDisableMessage);
static void DisableByDefault(Feature aFeature, FeatureStatus aDisableStatus,
const char* aDisableMessage,
const nsACString& aFailureId = EmptyCString());
static void EnableByDefault(Feature aFeature);
// Inherit a computed value from another process.
static void Inherit(Feature aFeature, FeatureStatus aStatus);
// Set a environment status that overrides both the default and user
// statuses; this should be used to disable features based on system
// or hardware problems that can be determined up-front. The only
// status that can override this decision is the user force-enabling
// the feature.
static void Disable(Feature aFeature, FeatureStatus aStatus,
const char* aMessage,
const nsACString& aFailureId = EmptyCString());
// Given a preference name, infer the default value and whether or not the
// user has changed it. |aIsEnablePref| specifies whether or not the pref
// is intended to enable a feature (true), or disable it (false).
static void SetDefaultFromPref(Feature aFeature, const char* aPrefName,
bool aIsEnablePref, bool aDefaultValue);
// Disable a parameter based on a runtime decision. This permanently
// disables the feature, since runtime decisions override all other
// decisions.
static void SetFailed(Feature aFeature, FeatureStatus aStatus,
const char* aMessage,
const nsACString& aFailureId = EmptyCString());
// Force a feature to be disabled permanently. This is the same as
// SetFailed(), but the name may be clearer depending on the context.
static void ForceDisable(Feature aFeature, FeatureStatus aStatus,
const char* aMessage,
const nsACString& aFailureId = EmptyCString()) {
SetFailed(aFeature, aStatus, aMessage, aFailureId);
}
// Convenience helpers for SetFailed().
static bool MaybeSetFailed(Feature aFeature, bool aEnable,
FeatureStatus aDisableStatus,
const char* aDisableMessage,
const nsACString& aFailureId = EmptyCString()) {
if (!aEnable) {
SetFailed(aFeature, aDisableStatus, aDisableMessage, aFailureId);
return false;
}
return true;
}
// Convenience helper for SetFailed().
static bool MaybeSetFailed(Feature aFeature, FeatureStatus aStatus,
const char* aDisableMessage,
const nsACString& aFailureId = EmptyCString()) {
return MaybeSetFailed(aFeature,
(aStatus != FeatureStatus::Available &&
aStatus != FeatureStatus::ForceEnabled),
aStatus, aDisableMessage, aFailureId);
}
// Re-enables a feature that was previously disabled, by attaching it to a
// fallback. The fallback inherits the message that was used for disabling
// the feature. This can be used, for example, when D3D11 fails at runtime
// but we acquire a second, successful device with WARP.
static void Reenable(Feature aFeature, Fallback aFallback);
// Same as SetDefault, except if the feature already has a default value
// set, the new value will be set as a runtime value. This is useful for
// when the base value can change (for example, via an update from the
// parent process).
static bool InitOrUpdate(Feature aFeature, bool aEnable,
FeatureStatus aDisableStatus,
const char* aDisableMessage);
// Set a user status that overrides the base value (but not runtime value)
// of a parameter.
static void UserEnable(Feature aFeature, const char* aMessage);
static void UserForceEnable(Feature aFeature, const char* aMessage);
static void UserDisable(Feature aFeature, const char* aMessage,
const nsACString& aFailureId = EmptyCString());
// Query whether a fallback has been toggled.
static bool UseFallback(Fallback aFallback);
// Add a log entry denoting that a given fallback had to be used. This can
// be called from any thread in the UI or GPU process.
static void EnableFallback(Fallback aFallback, const char* aMessage);
// Run a callback for each initialized FeatureState.
typedef std::function<void(const char* aName, const char* aDescription,
FeatureState& aFeature)>
FeatureIterCallback;
static void ForEachFeature(const FeatureIterCallback& aCallback);
// Run a callback for each enabled fallback.
typedef std::function<void(const char* aName, const char* aMsg)>
FallbackIterCallback;
static void ForEachFallback(const FallbackIterCallback& aCallback);
// Get the most descriptive failure id message for this feature.
static const nsCString& GetFailureId(Feature aFeature);
static void ImportChange(Feature aFeature, const FeatureChange& aChange);
static void Init();
static void Shutdown();
private:
void ForEachFallbackImpl(const FallbackIterCallback& aCallback);
private:
FeatureState& GetState(Feature aFeature) {
MOZ_ASSERT(size_t(aFeature) < kNumFeatures);
return mFeatures[size_t(aFeature)];
}
const FeatureState& GetState(Feature aFeature) const {
MOZ_ASSERT(size_t(aFeature) < kNumFeatures);
return mFeatures[size_t(aFeature)];
}
bool UseFallbackImpl(Fallback aFallback) const;
void EnableFallbackImpl(Fallback aFallback, const char* aMessage);
private:
static const size_t kNumFeatures = size_t(Feature::NumValues);
static const size_t kNumFallbacks = size_t(Fallback::NumValues);
private:
FeatureState mFeatures[kNumFeatures];
uint64_t mFallbackBits;
private:
struct FallbackLogEntry {
Fallback mFallback;
char mMessage[80];
};
FallbackLogEntry mFallbackLog[kNumFallbacks];
size_t mNumFallbackLogEntries;
};
} // namespace gfx
} // namespace mozilla
#endif // mozilla_gfx_config_gfxConfig_h