| /* |
| * Copyright (C) 2010 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. |
| */ |
| |
| #ifndef _UI_INPUT_DISPATCHER_H |
| #define _UI_INPUT_DISPATCHER_H |
| |
| #include <ui/Input.h> |
| #include <ui/InputTransport.h> |
| #include <utils/KeyedVector.h> |
| #include <utils/Vector.h> |
| #include <utils/threads.h> |
| #include <utils/Timers.h> |
| #include <utils/RefBase.h> |
| #include <utils/String8.h> |
| #include <utils/Looper.h> |
| #include <utils/Pool.h> |
| #include <utils/BitSet.h> |
| |
| #include <stddef.h> |
| #include <unistd.h> |
| #include <limits.h> |
| |
| #include "InputWindow.h" |
| #include "InputApplication.h" |
| |
| |
| namespace android { |
| |
| /* |
| * Constants used to report the outcome of input event injection. |
| */ |
| enum { |
| /* (INTERNAL USE ONLY) Specifies that injection is pending and its outcome is unknown. */ |
| INPUT_EVENT_INJECTION_PENDING = -1, |
| |
| /* Injection succeeded. */ |
| INPUT_EVENT_INJECTION_SUCCEEDED = 0, |
| |
| /* Injection failed because the injector did not have permission to inject |
| * into the application with input focus. */ |
| INPUT_EVENT_INJECTION_PERMISSION_DENIED = 1, |
| |
| /* Injection failed because there were no available input targets. */ |
| INPUT_EVENT_INJECTION_FAILED = 2, |
| |
| /* Injection failed due to a timeout. */ |
| INPUT_EVENT_INJECTION_TIMED_OUT = 3 |
| }; |
| |
| /* |
| * Constants used to determine the input event injection synchronization mode. |
| */ |
| enum { |
| /* Injection is asynchronous and is assumed always to be successful. */ |
| INPUT_EVENT_INJECTION_SYNC_NONE = 0, |
| |
| /* Waits for previous events to be dispatched so that the input dispatcher can determine |
| * whether input event injection willbe permitted based on the current input focus. |
| * Does not wait for the input event to finish processing. */ |
| INPUT_EVENT_INJECTION_SYNC_WAIT_FOR_RESULT = 1, |
| |
| /* Waits for the input event to be completely processed. */ |
| INPUT_EVENT_INJECTION_SYNC_WAIT_FOR_FINISHED = 2, |
| }; |
| |
| |
| /* |
| * An input target specifies how an input event is to be dispatched to a particular window |
| * including the window's input channel, control flags, a timeout, and an X / Y offset to |
| * be added to input event coordinates to compensate for the absolute position of the |
| * window area. |
| */ |
| struct InputTarget { |
| enum { |
| /* This flag indicates that the event is being delivered to a foreground application. */ |
| FLAG_FOREGROUND = 1 << 0, |
| |
| /* This flag indicates that the target of a MotionEvent is partly or wholly |
| * obscured by another visible window above it. The motion event should be |
| * delivered with flag AMOTION_EVENT_FLAG_WINDOW_IS_OBSCURED. */ |
| FLAG_WINDOW_IS_OBSCURED = 1 << 1, |
| |
| /* This flag indicates that a motion event is being split across multiple windows. */ |
| FLAG_SPLIT = 1 << 2, |
| |
| /* This flag indicates that the pointer coordinates dispatched to the application |
| * will be zeroed out to avoid revealing information to an application. This is |
| * used in conjunction with FLAG_DISPATCH_AS_OUTSIDE to prevent apps not sharing |
| * the same UID from watching all touches. */ |
| FLAG_ZERO_COORDS = 1 << 3, |
| |
| /* This flag indicates that the event should be sent as is. |
| * Should always be set unless the event is to be transmuted. */ |
| FLAG_DISPATCH_AS_IS = 1 << 8, |
| |
| /* This flag indicates that a MotionEvent with AMOTION_EVENT_ACTION_DOWN falls outside |
| * of the area of this target and so should instead be delivered as an |
| * AMOTION_EVENT_ACTION_OUTSIDE to this target. */ |
| FLAG_DISPATCH_AS_OUTSIDE = 1 << 9, |
| |
| /* This flag indicates that a hover sequence is starting in the given window. |
| * The event is transmuted into ACTION_HOVER_ENTER. */ |
| FLAG_DISPATCH_AS_HOVER_ENTER = 1 << 10, |
| |
| /* This flag indicates that a hover event happened outside of a window which handled |
| * previous hover events, signifying the end of the current hover sequence for that |
| * window. |
| * The event is transmuted into ACTION_HOVER_ENTER. */ |
| FLAG_DISPATCH_AS_HOVER_EXIT = 1 << 11, |
| |
| /* This flag indicates that the event should be canceled. |
| * It is used to transmute ACTION_MOVE into ACTION_CANCEL when a touch slips |
| * outside of a window. */ |
| FLAG_DISPATCH_AS_SLIPPERY_EXIT = 1 << 12, |
| |
| /* This flag indicates that the event should be dispatched as an initial down. |
| * It is used to transmute ACTION_MOVE into ACTION_DOWN when a touch slips |
| * into a new window. */ |
| FLAG_DISPATCH_AS_SLIPPERY_ENTER = 1 << 13, |
| |
| /* Mask for all dispatch modes. */ |
| FLAG_DISPATCH_MASK = FLAG_DISPATCH_AS_IS |
| | FLAG_DISPATCH_AS_OUTSIDE |
| | FLAG_DISPATCH_AS_HOVER_ENTER |
| | FLAG_DISPATCH_AS_HOVER_EXIT |
| | FLAG_DISPATCH_AS_SLIPPERY_EXIT |
| | FLAG_DISPATCH_AS_SLIPPERY_ENTER, |
| }; |
| |
| // The input channel to be targeted. |
| sp<InputChannel> inputChannel; |
| |
| // Flags for the input target. |
| int32_t flags; |
| |
| // The x and y offset to add to a MotionEvent as it is delivered. |
| // (ignored for KeyEvents) |
| float xOffset, yOffset; |
| |
| // Scaling factor to apply to MotionEvent as it is delivered. |
| // (ignored for KeyEvents) |
| float scaleFactor; |
| |
| // The subset of pointer ids to include in motion events dispatched to this input target |
| // if FLAG_SPLIT is set. |
| BitSet32 pointerIds; |
| }; |
| |
| |
| /* |
| * Input dispatcher configuration. |
| * |
| * Specifies various options that modify the behavior of the input dispatcher. |
| */ |
| struct InputDispatcherConfiguration { |
| // The key repeat initial timeout. |
| nsecs_t keyRepeatTimeout; |
| |
| // The key repeat inter-key delay. |
| nsecs_t keyRepeatDelay; |
| |
| // The maximum suggested event delivery rate per second. |
| // This value is used to throttle motion event movement actions on a per-device |
| // basis. It is not intended to be a hard limit. |
| int32_t maxEventsPerSecond; |
| |
| InputDispatcherConfiguration() : |
| keyRepeatTimeout(500 * 1000000LL), |
| keyRepeatDelay(50 * 1000000LL), |
| maxEventsPerSecond(60) { } |
| }; |
| |
| |
| /* |
| * Input dispatcher policy interface. |
| * |
| * The input reader policy is used by the input reader to interact with the Window Manager |
| * and other system components. |
| * |
| * The actual implementation is partially supported by callbacks into the DVM |
| * via JNI. This interface is also mocked in the unit tests. |
| */ |
| class InputDispatcherPolicyInterface : public virtual RefBase { |
| protected: |
| InputDispatcherPolicyInterface() { } |
| virtual ~InputDispatcherPolicyInterface() { } |
| |
| public: |
| /* Notifies the system that a configuration change has occurred. */ |
| virtual void notifyConfigurationChanged(nsecs_t when) = 0; |
| |
| /* Notifies the system that an application is not responding. |
| * Returns a new timeout to continue waiting, or 0 to abort dispatch. */ |
| virtual nsecs_t notifyANR(const sp<InputApplicationHandle>& inputApplicationHandle, |
| const sp<InputWindowHandle>& inputWindowHandle) = 0; |
| |
| /* Notifies the system that an input channel is unrecoverably broken. */ |
| virtual void notifyInputChannelBroken(const sp<InputWindowHandle>& inputWindowHandle) = 0; |
| |
| /* Gets the input dispatcher configuration. */ |
| virtual void getDispatcherConfiguration(InputDispatcherConfiguration* outConfig) = 0; |
| |
| /* Returns true if automatic key repeating is enabled. */ |
| virtual bool isKeyRepeatEnabled() = 0; |
| |
| /* Filters an input event. |
| * Return true to dispatch the event unmodified, false to consume the event. |
| * A filter can also transform and inject events later by passing POLICY_FLAG_FILTERED |
| * to injectInputEvent. |
| */ |
| virtual bool filterInputEvent(const InputEvent* inputEvent, uint32_t policyFlags) = 0; |
| |
| /* Intercepts a key event immediately before queueing it. |
| * The policy can use this method as an opportunity to perform power management functions |
| * and early event preprocessing such as updating policy flags. |
| * |
| * This method is expected to set the POLICY_FLAG_PASS_TO_USER policy flag if the event |
| * should be dispatched to applications. |
| */ |
| virtual void interceptKeyBeforeQueueing(const KeyEvent* keyEvent, uint32_t& policyFlags) = 0; |
| |
| /* Intercepts a touch, trackball or other motion event before queueing it. |
| * The policy can use this method as an opportunity to perform power management functions |
| * and early event preprocessing such as updating policy flags. |
| * |
| * This method is expected to set the POLICY_FLAG_PASS_TO_USER policy flag if the event |
| * should be dispatched to applications. |
| */ |
| virtual void interceptMotionBeforeQueueing(nsecs_t when, uint32_t& policyFlags) = 0; |
| |
| /* Allows the policy a chance to intercept a key before dispatching. */ |
| virtual bool interceptKeyBeforeDispatching(const sp<InputWindowHandle>& inputWindowHandle, |
| const KeyEvent* keyEvent, uint32_t policyFlags) = 0; |
| |
| /* Allows the policy a chance to perform default processing for an unhandled key. |
| * Returns an alternate keycode to redispatch as a fallback, or 0 to give up. */ |
| virtual bool dispatchUnhandledKey(const sp<InputWindowHandle>& inputWindowHandle, |
| const KeyEvent* keyEvent, uint32_t policyFlags, KeyEvent* outFallbackKeyEvent) = 0; |
| |
| /* Notifies the policy about switch events. |
| */ |
| virtual void notifySwitch(nsecs_t when, |
| int32_t switchCode, int32_t switchValue, uint32_t policyFlags) = 0; |
| |
| /* Poke user activity for an event dispatched to a window. */ |
| virtual void pokeUserActivity(nsecs_t eventTime, int32_t eventType) = 0; |
| |
| /* Checks whether a given application pid/uid has permission to inject input events |
| * into other applications. |
| * |
| * This method is special in that its implementation promises to be non-reentrant and |
| * is safe to call while holding other locks. (Most other methods make no such guarantees!) |
| */ |
| virtual bool checkInjectEventsPermissionNonReentrant( |
| int32_t injectorPid, int32_t injectorUid) = 0; |
| }; |
| |
| |
| /* Notifies the system about input events generated by the input reader. |
| * The dispatcher is expected to be mostly asynchronous. */ |
| class InputDispatcherInterface : public virtual RefBase { |
| protected: |
| InputDispatcherInterface() { } |
| virtual ~InputDispatcherInterface() { } |
| |
| public: |
| /* Dumps the state of the input dispatcher. |
| * |
| * This method may be called on any thread (usually by the input manager). */ |
| virtual void dump(String8& dump) = 0; |
| |
| /* Runs a single iteration of the dispatch loop. |
| * Nominally processes one queued event, a timeout, or a response from an input consumer. |
| * |
| * This method should only be called on the input dispatcher thread. |
| */ |
| virtual void dispatchOnce() = 0; |
| |
| /* Notifies the dispatcher about new events. |
| * |
| * These methods should only be called on the input reader thread. |
| */ |
| virtual void notifyConfigurationChanged(nsecs_t eventTime) = 0; |
| virtual void notifyKey(nsecs_t eventTime, int32_t deviceId, uint32_t source, |
| uint32_t policyFlags, int32_t action, int32_t flags, int32_t keyCode, |
| int32_t scanCode, int32_t metaState, nsecs_t downTime) = 0; |
| virtual void notifyMotion(nsecs_t eventTime, int32_t deviceId, uint32_t source, |
| uint32_t policyFlags, int32_t action, int32_t flags, |
| int32_t metaState, int32_t buttonState, int32_t edgeFlags, |
| uint32_t pointerCount, const PointerProperties* pointerProperties, |
| const PointerCoords* pointerCoords, |
| float xPrecision, float yPrecision, nsecs_t downTime) = 0; |
| virtual void notifySwitch(nsecs_t when, |
| int32_t switchCode, int32_t switchValue, uint32_t policyFlags) = 0; |
| |
| /* Injects an input event and optionally waits for sync. |
| * The synchronization mode determines whether the method blocks while waiting for |
| * input injection to proceed. |
| * Returns one of the INPUT_EVENT_INJECTION_XXX constants. |
| * |
| * This method may be called on any thread (usually by the input manager). |
| */ |
| virtual int32_t injectInputEvent(const InputEvent* event, |
| int32_t injectorPid, int32_t injectorUid, int32_t syncMode, int32_t timeoutMillis, |
| uint32_t policyFlags) = 0; |
| |
| /* Sets the list of input windows. |
| * |
| * This method may be called on any thread (usually by the input manager). |
| */ |
| virtual void setInputWindows(const Vector<InputWindow>& inputWindows) = 0; |
| |
| /* Sets the focused application. |
| * |
| * This method may be called on any thread (usually by the input manager). |
| */ |
| virtual void setFocusedApplication(const InputApplication* inputApplication) = 0; |
| |
| /* Sets the input dispatching mode. |
| * |
| * This method may be called on any thread (usually by the input manager). |
| */ |
| virtual void setInputDispatchMode(bool enabled, bool frozen) = 0; |
| |
| /* Sets whether input event filtering is enabled. |
| * When enabled, incoming input events are sent to the policy's filterInputEvent |
| * method instead of being dispatched. The filter is expected to use |
| * injectInputEvent to inject the events it would like to have dispatched. |
| * It should include POLICY_FLAG_FILTERED in the policy flags during injection. |
| */ |
| virtual void setInputFilterEnabled(bool enabled) = 0; |
| |
| /* Transfers touch focus from the window associated with one channel to the |
| * window associated with the other channel. |
| * |
| * Returns true on success. False if the window did not actually have touch focus. |
| */ |
| virtual bool transferTouchFocus(const sp<InputChannel>& fromChannel, |
| const sp<InputChannel>& toChannel) = 0; |
| |
| /* Registers or unregister input channels that may be used as targets for input events. |
| * If monitor is true, the channel will receive a copy of all input events. |
| * |
| * These methods may be called on any thread (usually by the input manager). |
| */ |
| virtual status_t registerInputChannel(const sp<InputChannel>& inputChannel, |
| const sp<InputWindowHandle>& inputWindowHandle, bool monitor) = 0; |
| virtual status_t unregisterInputChannel(const sp<InputChannel>& inputChannel) = 0; |
| }; |
| |
| /* Dispatches events to input targets. Some functions of the input dispatcher, such as |
| * identifying input targets, are controlled by a separate policy object. |
| * |
| * IMPORTANT INVARIANT: |
| * Because the policy can potentially block or cause re-entrance into the input dispatcher, |
| * the input dispatcher never calls into the policy while holding its internal locks. |
| * The implementation is also carefully designed to recover from scenarios such as an |
| * input channel becoming unregistered while identifying input targets or processing timeouts. |
| * |
| * Methods marked 'Locked' must be called with the lock acquired. |
| * |
| * Methods marked 'LockedInterruptible' must be called with the lock acquired but |
| * may during the course of their execution release the lock, call into the policy, and |
| * then reacquire the lock. The caller is responsible for recovering gracefully. |
| * |
| * A 'LockedInterruptible' method may called a 'Locked' method, but NOT vice-versa. |
| */ |
| class InputDispatcher : public InputDispatcherInterface { |
| protected: |
| virtual ~InputDispatcher(); |
| |
| public: |
| explicit InputDispatcher(const sp<InputDispatcherPolicyInterface>& policy); |
| |
| virtual void dump(String8& dump); |
| |
| virtual void dispatchOnce(); |
| |
| virtual void notifyConfigurationChanged(nsecs_t eventTime); |
| virtual void notifyKey(nsecs_t eventTime, int32_t deviceId, uint32_t source, |
| uint32_t policyFlags, int32_t action, int32_t flags, int32_t keyCode, |
| int32_t scanCode, int32_t metaState, nsecs_t downTime); |
| virtual void notifyMotion(nsecs_t eventTime, int32_t deviceId, uint32_t source, |
| uint32_t policyFlags, int32_t action, int32_t flags, |
| int32_t metaState, int32_t buttonState, int32_t edgeFlags, |
| uint32_t pointerCount, const PointerProperties* pointerProperties, |
| const PointerCoords* pointerCoords, |
| float xPrecision, float yPrecision, nsecs_t downTime); |
| virtual void notifySwitch(nsecs_t when, |
| int32_t switchCode, int32_t switchValue, uint32_t policyFlags) ; |
| |
| virtual int32_t injectInputEvent(const InputEvent* event, |
| int32_t injectorPid, int32_t injectorUid, int32_t syncMode, int32_t timeoutMillis, |
| uint32_t policyFlags); |
| |
| virtual void setInputWindows(const Vector<InputWindow>& inputWindows); |
| virtual void setFocusedApplication(const InputApplication* inputApplication); |
| virtual void setInputDispatchMode(bool enabled, bool frozen); |
| virtual void setInputFilterEnabled(bool enabled); |
| |
| virtual bool transferTouchFocus(const sp<InputChannel>& fromChannel, |
| const sp<InputChannel>& toChannel); |
| |
| virtual status_t registerInputChannel(const sp<InputChannel>& inputChannel, |
| const sp<InputWindowHandle>& inputWindowHandle, bool monitor); |
| virtual status_t unregisterInputChannel(const sp<InputChannel>& inputChannel); |
| |
| private: |
| template <typename T> |
| struct Link { |
| T* next; |
| T* prev; |
| }; |
| |
| struct InjectionState { |
| mutable int32_t refCount; |
| |
| int32_t injectorPid; |
| int32_t injectorUid; |
| int32_t injectionResult; // initially INPUT_EVENT_INJECTION_PENDING |
| bool injectionIsAsync; // set to true if injection is not waiting for the result |
| int32_t pendingForegroundDispatches; // the number of foreground dispatches in progress |
| }; |
| |
| struct EventEntry : Link<EventEntry> { |
| enum { |
| TYPE_SENTINEL, |
| TYPE_CONFIGURATION_CHANGED, |
| TYPE_KEY, |
| TYPE_MOTION |
| }; |
| |
| mutable int32_t refCount; |
| int32_t type; |
| nsecs_t eventTime; |
| uint32_t policyFlags; |
| InjectionState* injectionState; |
| |
| bool dispatchInProgress; // initially false, set to true while dispatching |
| |
| inline bool isInjected() const { return injectionState != NULL; } |
| }; |
| |
| struct ConfigurationChangedEntry : EventEntry { |
| }; |
| |
| struct KeyEntry : EventEntry { |
| int32_t deviceId; |
| uint32_t source; |
| int32_t action; |
| int32_t flags; |
| int32_t keyCode; |
| int32_t scanCode; |
| int32_t metaState; |
| int32_t repeatCount; |
| nsecs_t downTime; |
| |
| bool syntheticRepeat; // set to true for synthetic key repeats |
| |
| enum InterceptKeyResult { |
| INTERCEPT_KEY_RESULT_UNKNOWN, |
| INTERCEPT_KEY_RESULT_SKIP, |
| INTERCEPT_KEY_RESULT_CONTINUE, |
| }; |
| InterceptKeyResult interceptKeyResult; // set based on the interception result |
| }; |
| |
| struct MotionSample { |
| MotionSample* next; |
| |
| nsecs_t eventTime; // may be updated during coalescing |
| nsecs_t eventTimeBeforeCoalescing; // not updated during coalescing |
| PointerCoords pointerCoords[MAX_POINTERS]; |
| }; |
| |
| struct MotionEntry : EventEntry { |
| int32_t deviceId; |
| uint32_t source; |
| int32_t action; |
| int32_t flags; |
| int32_t metaState; |
| int32_t buttonState; |
| int32_t edgeFlags; |
| float xPrecision; |
| float yPrecision; |
| nsecs_t downTime; |
| uint32_t pointerCount; |
| PointerProperties pointerProperties[MAX_POINTERS]; |
| |
| // Linked list of motion samples associated with this motion event. |
| MotionSample firstSample; |
| MotionSample* lastSample; |
| |
| uint32_t countSamples() const; |
| |
| // Checks whether we can append samples, assuming the device id and source are the same. |
| bool canAppendSamples(int32_t action, uint32_t pointerCount, |
| const PointerProperties* pointerProperties) const; |
| }; |
| |
| // Tracks the progress of dispatching a particular event to a particular connection. |
| struct DispatchEntry : Link<DispatchEntry> { |
| EventEntry* eventEntry; // the event to dispatch |
| int32_t targetFlags; |
| float xOffset; |
| float yOffset; |
| float scaleFactor; |
| |
| // True if dispatch has started. |
| bool inProgress; |
| |
| // Set to the resolved action and flags when the event is enqueued. |
| int32_t resolvedAction; |
| int32_t resolvedFlags; |
| |
| // For motion events: |
| // Pointer to the first motion sample to dispatch in this cycle. |
| // Usually NULL to indicate that the list of motion samples begins at |
| // MotionEntry::firstSample. Otherwise, some samples were dispatched in a previous |
| // cycle and this pointer indicates the location of the first remainining sample |
| // to dispatch during the current cycle. |
| MotionSample* headMotionSample; |
| // Pointer to a motion sample to dispatch in the next cycle if the dispatcher was |
| // unable to send all motion samples during this cycle. On the next cycle, |
| // headMotionSample will be initialized to tailMotionSample and tailMotionSample |
| // will be set to NULL. |
| MotionSample* tailMotionSample; |
| |
| inline bool hasForegroundTarget() const { |
| return targetFlags & InputTarget::FLAG_FOREGROUND; |
| } |
| |
| inline bool isSplit() const { |
| return targetFlags & InputTarget::FLAG_SPLIT; |
| } |
| }; |
| |
| // A command entry captures state and behavior for an action to be performed in the |
| // dispatch loop after the initial processing has taken place. It is essentially |
| // a kind of continuation used to postpone sensitive policy interactions to a point |
| // in the dispatch loop where it is safe to release the lock (generally after finishing |
| // the critical parts of the dispatch cycle). |
| // |
| // The special thing about commands is that they can voluntarily release and reacquire |
| // the dispatcher lock at will. Initially when the command starts running, the |
| // dispatcher lock is held. However, if the command needs to call into the policy to |
| // do some work, it can release the lock, do the work, then reacquire the lock again |
| // before returning. |
| // |
| // This mechanism is a bit clunky but it helps to preserve the invariant that the dispatch |
| // never calls into the policy while holding its lock. |
| // |
| // Commands are implicitly 'LockedInterruptible'. |
| struct CommandEntry; |
| typedef void (InputDispatcher::*Command)(CommandEntry* commandEntry); |
| |
| class Connection; |
| struct CommandEntry : Link<CommandEntry> { |
| CommandEntry(); |
| ~CommandEntry(); |
| |
| Command command; |
| |
| // parameters for the command (usage varies by command) |
| sp<Connection> connection; |
| nsecs_t eventTime; |
| KeyEntry* keyEntry; |
| sp<InputChannel> inputChannel; |
| sp<InputApplicationHandle> inputApplicationHandle; |
| sp<InputWindowHandle> inputWindowHandle; |
| int32_t userActivityEventType; |
| bool handled; |
| }; |
| |
| // Generic queue implementation. |
| template <typename T> |
| struct Queue { |
| T headSentinel; |
| T tailSentinel; |
| |
| inline Queue() { |
| headSentinel.prev = NULL; |
| headSentinel.next = & tailSentinel; |
| tailSentinel.prev = & headSentinel; |
| tailSentinel.next = NULL; |
| } |
| |
| inline bool isEmpty() const { |
| return headSentinel.next == & tailSentinel; |
| } |
| |
| inline void enqueueAtTail(T* entry) { |
| T* last = tailSentinel.prev; |
| last->next = entry; |
| entry->prev = last; |
| entry->next = & tailSentinel; |
| tailSentinel.prev = entry; |
| } |
| |
| inline void enqueueAtHead(T* entry) { |
| T* first = headSentinel.next; |
| headSentinel.next = entry; |
| entry->prev = & headSentinel; |
| entry->next = first; |
| first->prev = entry; |
| } |
| |
| inline void dequeue(T* entry) { |
| entry->prev->next = entry->next; |
| entry->next->prev = entry->prev; |
| } |
| |
| inline T* dequeueAtHead() { |
| T* first = headSentinel.next; |
| dequeue(first); |
| return first; |
| } |
| |
| uint32_t count() const; |
| }; |
| |
| /* Allocates queue entries and performs reference counting as needed. */ |
| class Allocator { |
| public: |
| Allocator(); |
| |
| InjectionState* obtainInjectionState(int32_t injectorPid, int32_t injectorUid); |
| ConfigurationChangedEntry* obtainConfigurationChangedEntry(nsecs_t eventTime); |
| KeyEntry* obtainKeyEntry(nsecs_t eventTime, |
| int32_t deviceId, uint32_t source, uint32_t policyFlags, int32_t action, |
| int32_t flags, int32_t keyCode, int32_t scanCode, int32_t metaState, |
| int32_t repeatCount, nsecs_t downTime); |
| MotionEntry* obtainMotionEntry(nsecs_t eventTime, |
| int32_t deviceId, uint32_t source, uint32_t policyFlags, int32_t action, |
| int32_t flags, int32_t metaState, int32_t buttonState, int32_t edgeFlags, |
| float xPrecision, float yPrecision, |
| nsecs_t downTime, uint32_t pointerCount, |
| const PointerProperties* pointerProperties, const PointerCoords* pointerCoords); |
| DispatchEntry* obtainDispatchEntry(EventEntry* eventEntry, |
| int32_t targetFlags, float xOffset, float yOffset, float scaleFactor); |
| CommandEntry* obtainCommandEntry(Command command); |
| |
| void releaseInjectionState(InjectionState* injectionState); |
| void releaseEventEntry(EventEntry* entry); |
| void releaseConfigurationChangedEntry(ConfigurationChangedEntry* entry); |
| void releaseKeyEntry(KeyEntry* entry); |
| void releaseMotionEntry(MotionEntry* entry); |
| void freeMotionSample(MotionSample* sample); |
| void releaseDispatchEntry(DispatchEntry* entry); |
| void releaseCommandEntry(CommandEntry* entry); |
| |
| void recycleKeyEntry(KeyEntry* entry); |
| |
| void appendMotionSample(MotionEntry* motionEntry, |
| nsecs_t eventTime, const PointerCoords* pointerCoords); |
| |
| private: |
| Pool<InjectionState> mInjectionStatePool; |
| Pool<ConfigurationChangedEntry> mConfigurationChangeEntryPool; |
| Pool<KeyEntry> mKeyEntryPool; |
| Pool<MotionEntry> mMotionEntryPool; |
| Pool<MotionSample> mMotionSamplePool; |
| Pool<DispatchEntry> mDispatchEntryPool; |
| Pool<CommandEntry> mCommandEntryPool; |
| |
| void initializeEventEntry(EventEntry* entry, int32_t type, nsecs_t eventTime, |
| uint32_t policyFlags); |
| void releaseEventEntryInjectionState(EventEntry* entry); |
| }; |
| |
| /* Specifies which events are to be canceled and why. */ |
| struct CancelationOptions { |
| enum Mode { |
| CANCEL_ALL_EVENTS = 0, |
| CANCEL_POINTER_EVENTS = 1, |
| CANCEL_NON_POINTER_EVENTS = 2, |
| CANCEL_FALLBACK_EVENTS = 3, |
| }; |
| |
| // The criterion to use to determine which events should be canceled. |
| Mode mode; |
| |
| // Descriptive reason for the cancelation. |
| const char* reason; |
| |
| // The specific keycode of the key event to cancel, or -1 to cancel any key event. |
| int32_t keyCode; |
| |
| CancelationOptions(Mode mode, const char* reason) : |
| mode(mode), reason(reason), keyCode(-1) { } |
| }; |
| |
| /* Tracks dispatched key and motion event state so that cancelation events can be |
| * synthesized when events are dropped. */ |
| class InputState { |
| public: |
| InputState(); |
| ~InputState(); |
| |
| // Returns true if there is no state to be canceled. |
| bool isNeutral() const; |
| |
| // Returns true if the specified source is known to have received a hover enter |
| // motion event. |
| bool isHovering(int32_t deviceId, uint32_t source) const; |
| |
| // Records tracking information for a key event that has just been published. |
| // Returns true if the event should be delivered, false if it is inconsistent |
| // and should be skipped. |
| bool trackKey(const KeyEntry* entry, int32_t action, int32_t flags); |
| |
| // Records tracking information for a motion event that has just been published. |
| // Returns true if the event should be delivered, false if it is inconsistent |
| // and should be skipped. |
| bool trackMotion(const MotionEntry* entry, int32_t action, int32_t flags); |
| |
| // Synthesizes cancelation events for the current state and resets the tracked state. |
| void synthesizeCancelationEvents(nsecs_t currentTime, Allocator* allocator, |
| Vector<EventEntry*>& outEvents, const CancelationOptions& options); |
| |
| // Clears the current state. |
| void clear(); |
| |
| // Copies pointer-related parts of the input state to another instance. |
| void copyPointerStateTo(InputState& other) const; |
| |
| // Gets the fallback key associated with a keycode. |
| // Returns -1 if none. |
| // Returns AKEYCODE_UNKNOWN if we are only dispatching the unhandled key to the policy. |
| int32_t getFallbackKey(int32_t originalKeyCode); |
| |
| // Sets the fallback key for a particular keycode. |
| void setFallbackKey(int32_t originalKeyCode, int32_t fallbackKeyCode); |
| |
| // Removes the fallback key for a particular keycode. |
| void removeFallbackKey(int32_t originalKeyCode); |
| |
| inline const KeyedVector<int32_t, int32_t>& getFallbackKeys() const { |
| return mFallbackKeys; |
| } |
| |
| private: |
| struct KeyMemento { |
| int32_t deviceId; |
| uint32_t source; |
| int32_t keyCode; |
| int32_t scanCode; |
| int32_t flags; |
| nsecs_t downTime; |
| }; |
| |
| struct MotionMemento { |
| int32_t deviceId; |
| uint32_t source; |
| int32_t flags; |
| float xPrecision; |
| float yPrecision; |
| nsecs_t downTime; |
| uint32_t pointerCount; |
| PointerProperties pointerProperties[MAX_POINTERS]; |
| PointerCoords pointerCoords[MAX_POINTERS]; |
| bool hovering; |
| |
| void setPointers(const MotionEntry* entry); |
| }; |
| |
| Vector<KeyMemento> mKeyMementos; |
| Vector<MotionMemento> mMotionMementos; |
| KeyedVector<int32_t, int32_t> mFallbackKeys; |
| |
| ssize_t findKeyMemento(const KeyEntry* entry) const; |
| ssize_t findMotionMemento(const MotionEntry* entry, bool hovering) const; |
| |
| void addKeyMemento(const KeyEntry* entry, int32_t flags); |
| void addMotionMemento(const MotionEntry* entry, int32_t flags, bool hovering); |
| |
| static bool shouldCancelKey(const KeyMemento& memento, |
| const CancelationOptions& options); |
| static bool shouldCancelMotion(const MotionMemento& memento, |
| const CancelationOptions& options); |
| }; |
| |
| /* Manages the dispatch state associated with a single input channel. */ |
| class Connection : public RefBase { |
| protected: |
| virtual ~Connection(); |
| |
| public: |
| enum Status { |
| // Everything is peachy. |
| STATUS_NORMAL, |
| // An unrecoverable communication error has occurred. |
| STATUS_BROKEN, |
| // The input channel has been unregistered. |
| STATUS_ZOMBIE |
| }; |
| |
| Status status; |
| sp<InputChannel> inputChannel; // never null |
| sp<InputWindowHandle> inputWindowHandle; // may be null |
| InputPublisher inputPublisher; |
| InputState inputState; |
| Queue<DispatchEntry> outboundQueue; |
| |
| nsecs_t lastEventTime; // the time when the event was originally captured |
| nsecs_t lastDispatchTime; // the time when the last event was dispatched |
| |
| explicit Connection(const sp<InputChannel>& inputChannel, |
| const sp<InputWindowHandle>& inputWindowHandle); |
| |
| inline const char* getInputChannelName() const { return inputChannel->getName().string(); } |
| |
| const char* getStatusLabel() const; |
| |
| // Finds a DispatchEntry in the outbound queue associated with the specified event. |
| // Returns NULL if not found. |
| DispatchEntry* findQueuedDispatchEntryForEvent(const EventEntry* eventEntry) const; |
| |
| // Gets the time since the current event was originally obtained from the input driver. |
| inline double getEventLatencyMillis(nsecs_t currentTime) const { |
| return (currentTime - lastEventTime) / 1000000.0; |
| } |
| |
| // Gets the time since the current event entered the outbound dispatch queue. |
| inline double getDispatchLatencyMillis(nsecs_t currentTime) const { |
| return (currentTime - lastDispatchTime) / 1000000.0; |
| } |
| |
| status_t initialize(); |
| }; |
| |
| enum DropReason { |
| DROP_REASON_NOT_DROPPED = 0, |
| DROP_REASON_POLICY = 1, |
| DROP_REASON_APP_SWITCH = 2, |
| DROP_REASON_DISABLED = 3, |
| DROP_REASON_BLOCKED = 4, |
| DROP_REASON_STALE = 5, |
| }; |
| |
| sp<InputDispatcherPolicyInterface> mPolicy; |
| InputDispatcherConfiguration mConfig; |
| |
| Mutex mLock; |
| |
| Allocator mAllocator; |
| sp<Looper> mLooper; |
| |
| EventEntry* mPendingEvent; |
| Queue<EventEntry> mInboundQueue; |
| Queue<CommandEntry> mCommandQueue; |
| |
| Vector<EventEntry*> mTempCancelationEvents; |
| |
| void dispatchOnceInnerLocked(nsecs_t* nextWakeupTime); |
| |
| // Batches a new sample onto a motion entry. |
| // Assumes that the we have already checked that we can append samples. |
| void batchMotionLocked(MotionEntry* entry, nsecs_t eventTime, int32_t metaState, |
| const PointerCoords* pointerCoords, const char* eventDescription); |
| |
| // Enqueues an inbound event. Returns true if mLooper->wake() should be called. |
| bool enqueueInboundEventLocked(EventEntry* entry); |
| |
| // Cleans up input state when dropping an inbound event. |
| void dropInboundEventLocked(EventEntry* entry, DropReason dropReason); |
| |
| // App switch latency optimization. |
| bool mAppSwitchSawKeyDown; |
| nsecs_t mAppSwitchDueTime; |
| |
| static bool isAppSwitchKeyCode(int32_t keyCode); |
| bool isAppSwitchKeyEventLocked(KeyEntry* keyEntry); |
| bool isAppSwitchPendingLocked(); |
| void resetPendingAppSwitchLocked(bool handled); |
| |
| // Stale event latency optimization. |
| static bool isStaleEventLocked(nsecs_t currentTime, EventEntry* entry); |
| |
| // Blocked event latency optimization. Drops old events when the user intends |
| // to transfer focus to a new application. |
| EventEntry* mNextUnblockedEvent; |
| |
| const InputWindow* findTouchedWindowAtLocked(int32_t x, int32_t y); |
| |
| // All registered connections mapped by receive pipe file descriptor. |
| KeyedVector<int, sp<Connection> > mConnectionsByReceiveFd; |
| |
| ssize_t getConnectionIndexLocked(const sp<InputChannel>& inputChannel); |
| |
| // Active connections are connections that have a non-empty outbound queue. |
| // We don't use a ref-counted pointer here because we explicitly abort connections |
| // during unregistration which causes the connection's outbound queue to be cleared |
| // and the connection itself to be deactivated. |
| Vector<Connection*> mActiveConnections; |
| |
| // Input channels that will receive a copy of all input events. |
| Vector<sp<InputChannel> > mMonitoringChannels; |
| |
| // Event injection and synchronization. |
| Condition mInjectionResultAvailableCondition; |
| bool hasInjectionPermission(int32_t injectorPid, int32_t injectorUid); |
| void setInjectionResultLocked(EventEntry* entry, int32_t injectionResult); |
| |
| Condition mInjectionSyncFinishedCondition; |
| void incrementPendingForegroundDispatchesLocked(EventEntry* entry); |
| void decrementPendingForegroundDispatchesLocked(EventEntry* entry); |
| |
| // Throttling state. |
| struct ThrottleState { |
| nsecs_t minTimeBetweenEvents; |
| |
| nsecs_t lastEventTime; |
| int32_t lastDeviceId; |
| uint32_t lastSource; |
| |
| uint32_t originalSampleCount; // only collected during debugging |
| } mThrottleState; |
| |
| // Key repeat tracking. |
| struct KeyRepeatState { |
| KeyEntry* lastKeyEntry; // or null if no repeat |
| nsecs_t nextRepeatTime; |
| } mKeyRepeatState; |
| |
| void resetKeyRepeatLocked(); |
| KeyEntry* synthesizeKeyRepeatLocked(nsecs_t currentTime); |
| |
| // Deferred command processing. |
| bool runCommandsLockedInterruptible(); |
| CommandEntry* postCommandLocked(Command command); |
| |
| // Inbound event processing. |
| void drainInboundQueueLocked(); |
| void releasePendingEventLocked(); |
| void releaseInboundEventLocked(EventEntry* entry); |
| |
| // Dispatch state. |
| bool mDispatchEnabled; |
| bool mDispatchFrozen; |
| bool mInputFilterEnabled; |
| |
| Vector<InputWindow> mWindows; |
| |
| const InputWindow* getWindowLocked(const sp<InputChannel>& inputChannel); |
| |
| // Focus tracking for keys, trackball, etc. |
| const InputWindow* mFocusedWindow; |
| |
| // Focus tracking for touch. |
| struct TouchedWindow { |
| const InputWindow* window; |
| int32_t targetFlags; |
| BitSet32 pointerIds; // zero unless target flag FLAG_SPLIT is set |
| sp<InputChannel> channel; |
| }; |
| struct TouchState { |
| bool down; |
| bool split; |
| int32_t deviceId; // id of the device that is currently down, others are rejected |
| uint32_t source; // source of the device that is current down, others are rejected |
| Vector<TouchedWindow> windows; |
| |
| TouchState(); |
| ~TouchState(); |
| void reset(); |
| void copyFrom(const TouchState& other); |
| void addOrUpdateWindow(const InputWindow* window,int32_t targetFlags, BitSet32 pointerIds); |
| void filterNonAsIsTouchWindows(); |
| const InputWindow* getFirstForegroundWindow() const; |
| bool isSlippery() const; |
| }; |
| |
| TouchState mTouchState; |
| TouchState mTempTouchState; |
| |
| // Focused application. |
| InputApplication* mFocusedApplication; |
| InputApplication mFocusedApplicationStorage; // preallocated storage for mFocusedApplication |
| void releaseFocusedApplicationLocked(); |
| |
| // Dispatch inbound events. |
| bool dispatchConfigurationChangedLocked( |
| nsecs_t currentTime, ConfigurationChangedEntry* entry); |
| bool dispatchKeyLocked( |
| nsecs_t currentTime, KeyEntry* entry, |
| DropReason* dropReason, nsecs_t* nextWakeupTime); |
| bool dispatchMotionLocked( |
| nsecs_t currentTime, MotionEntry* entry, |
| DropReason* dropReason, nsecs_t* nextWakeupTime); |
| void dispatchEventToCurrentInputTargetsLocked( |
| nsecs_t currentTime, EventEntry* entry, bool resumeWithAppendedMotionSample); |
| |
| void logOutboundKeyDetailsLocked(const char* prefix, const KeyEntry* entry); |
| void logOutboundMotionDetailsLocked(const char* prefix, const MotionEntry* entry); |
| |
| // The input targets that were most recently identified for dispatch. |
| bool mCurrentInputTargetsValid; // false while targets are being recomputed |
| Vector<InputTarget> mCurrentInputTargets; |
| |
| enum InputTargetWaitCause { |
| INPUT_TARGET_WAIT_CAUSE_NONE, |
| INPUT_TARGET_WAIT_CAUSE_SYSTEM_NOT_READY, |
| INPUT_TARGET_WAIT_CAUSE_APPLICATION_NOT_READY, |
| }; |
| |
| InputTargetWaitCause mInputTargetWaitCause; |
| nsecs_t mInputTargetWaitStartTime; |
| nsecs_t mInputTargetWaitTimeoutTime; |
| bool mInputTargetWaitTimeoutExpired; |
| sp<InputApplicationHandle> mInputTargetWaitApplication; |
| |
| // Contains the last window which received a hover event. |
| const InputWindow* mLastHoverWindow; |
| |
| // Finding targets for input events. |
| void resetTargetsLocked(); |
| void commitTargetsLocked(); |
| int32_t handleTargetsNotReadyLocked(nsecs_t currentTime, const EventEntry* entry, |
| const InputApplication* application, const InputWindow* window, |
| nsecs_t* nextWakeupTime); |
| void resumeAfterTargetsNotReadyTimeoutLocked(nsecs_t newTimeout, |
| const sp<InputChannel>& inputChannel); |
| nsecs_t getTimeSpentWaitingForApplicationLocked(nsecs_t currentTime); |
| void resetANRTimeoutsLocked(); |
| |
| int32_t findFocusedWindowTargetsLocked(nsecs_t currentTime, const EventEntry* entry, |
| nsecs_t* nextWakeupTime); |
| int32_t findTouchedWindowTargetsLocked(nsecs_t currentTime, const MotionEntry* entry, |
| nsecs_t* nextWakeupTime, bool* outConflictingPointerActions, |
| const MotionSample** outSplitBatchAfterSample); |
| |
| void addWindowTargetLocked(const InputWindow* window, int32_t targetFlags, |
| BitSet32 pointerIds); |
| void addMonitoringTargetsLocked(); |
| void pokeUserActivityLocked(const EventEntry* eventEntry); |
| bool checkInjectionPermission(const InputWindow* window, const InjectionState* injectionState); |
| bool isWindowObscuredAtPointLocked(const InputWindow* window, int32_t x, int32_t y) const; |
| bool isWindowFinishedWithPreviousInputLocked(const InputWindow* window); |
| String8 getApplicationWindowLabelLocked(const InputApplication* application, |
| const InputWindow* window); |
| |
| // Manage the dispatch cycle for a single connection. |
| // These methods are deliberately not Interruptible because doing all of the work |
| // with the mutex held makes it easier to ensure that connection invariants are maintained. |
| // If needed, the methods post commands to run later once the critical bits are done. |
| void prepareDispatchCycleLocked(nsecs_t currentTime, const sp<Connection>& connection, |
| EventEntry* eventEntry, const InputTarget* inputTarget, |
| bool resumeWithAppendedMotionSample); |
| void enqueueDispatchEntryLocked(const sp<Connection>& connection, |
| EventEntry* eventEntry, const InputTarget* inputTarget, |
| bool resumeWithAppendedMotionSample, int32_t dispatchMode); |
| void startDispatchCycleLocked(nsecs_t currentTime, const sp<Connection>& connection); |
| void finishDispatchCycleLocked(nsecs_t currentTime, const sp<Connection>& connection, |
| bool handled); |
| void startNextDispatchCycleLocked(nsecs_t currentTime, const sp<Connection>& connection); |
| void abortBrokenDispatchCycleLocked(nsecs_t currentTime, const sp<Connection>& connection); |
| void drainOutboundQueueLocked(Connection* connection); |
| static int handleReceiveCallback(int receiveFd, int events, void* data); |
| |
| void synthesizeCancelationEventsForAllConnectionsLocked( |
| const CancelationOptions& options); |
| void synthesizeCancelationEventsForInputChannelLocked(const sp<InputChannel>& channel, |
| const CancelationOptions& options); |
| void synthesizeCancelationEventsForConnectionLocked(const sp<Connection>& connection, |
| const CancelationOptions& options); |
| |
| // Splitting motion events across windows. |
| MotionEntry* splitMotionEvent(const MotionEntry* originalMotionEntry, BitSet32 pointerIds); |
| |
| // Reset and drop everything the dispatcher is doing. |
| void resetAndDropEverythingLocked(const char* reason); |
| |
| // Dump state. |
| void dumpDispatchStateLocked(String8& dump); |
| void logDispatchStateLocked(); |
| |
| // Add or remove a connection to the mActiveConnections vector. |
| void activateConnectionLocked(Connection* connection); |
| void deactivateConnectionLocked(Connection* connection); |
| |
| // Interesting events that we might like to log or tell the framework about. |
| void onDispatchCycleStartedLocked( |
| nsecs_t currentTime, const sp<Connection>& connection); |
| void onDispatchCycleFinishedLocked( |
| nsecs_t currentTime, const sp<Connection>& connection, bool handled); |
| void onDispatchCycleBrokenLocked( |
| nsecs_t currentTime, const sp<Connection>& connection); |
| void onANRLocked( |
| nsecs_t currentTime, const InputApplication* application, const InputWindow* window, |
| nsecs_t eventTime, nsecs_t waitStartTime); |
| |
| // Outbound policy interactions. |
| void doNotifyConfigurationChangedInterruptible(CommandEntry* commandEntry); |
| void doNotifyInputChannelBrokenLockedInterruptible(CommandEntry* commandEntry); |
| void doNotifyANRLockedInterruptible(CommandEntry* commandEntry); |
| void doInterceptKeyBeforeDispatchingLockedInterruptible(CommandEntry* commandEntry); |
| void doDispatchCycleFinishedLockedInterruptible(CommandEntry* commandEntry); |
| bool afterKeyEventLockedInterruptible(const sp<Connection>& connection, |
| DispatchEntry* dispatchEntry, KeyEntry* keyEntry, bool handled); |
| bool afterMotionEventLockedInterruptible(const sp<Connection>& connection, |
| DispatchEntry* dispatchEntry, MotionEntry* motionEntry, bool handled); |
| void doPokeUserActivityLockedInterruptible(CommandEntry* commandEntry); |
| void initializeKeyEvent(KeyEvent* event, const KeyEntry* entry); |
| |
| // Statistics gathering. |
| void updateDispatchStatisticsLocked(nsecs_t currentTime, const EventEntry* entry, |
| int32_t injectionResult, nsecs_t timeSpentWaitingForApplication); |
| }; |
| |
| /* Enqueues and dispatches input events, endlessly. */ |
| class InputDispatcherThread : public Thread { |
| public: |
| explicit InputDispatcherThread(const sp<InputDispatcherInterface>& dispatcher); |
| ~InputDispatcherThread(); |
| |
| private: |
| virtual bool threadLoop(); |
| |
| sp<InputDispatcherInterface> mDispatcher; |
| }; |
| |
| } // namespace android |
| |
| #endif // _UI_INPUT_DISPATCHER_H |