Merge "Add basic ANR test" into rvc-dev am: 0979ea52c1 am: 30207d381b
Change-Id: If7270d9ba20864786701d7cab095f2d1e748e3a0
diff --git a/include/input/InputApplication.h b/include/input/InputApplication.h
index 7f04611..86de394 100644
--- a/include/input/InputApplication.h
+++ b/include/input/InputApplication.h
@@ -61,6 +61,11 @@
return mInfo.token ? mInfo.dispatchingTimeout : defaultValue;
}
+ inline std::chrono::nanoseconds getDispatchingTimeout(
+ std::chrono::nanoseconds defaultValue) const {
+ return mInfo.token ? std::chrono::nanoseconds(mInfo.dispatchingTimeout) : defaultValue;
+ }
+
inline sp<IBinder> getApplicationToken() const {
return mInfo.token;
}
diff --git a/include/input/InputWindow.h b/include/input/InputWindow.h
index c5e56fd..2dac5b6 100644
--- a/include/input/InputWindow.h
+++ b/include/input/InputWindow.h
@@ -222,6 +222,11 @@
return mInfo.token ? mInfo.dispatchingTimeout : defaultValue;
}
+ inline std::chrono::nanoseconds getDispatchingTimeout(
+ std::chrono::nanoseconds defaultValue) const {
+ return mInfo.token ? std::chrono::nanoseconds(mInfo.dispatchingTimeout) : defaultValue;
+ }
+
/**
* Requests that the state of this object be updated to reflect
* the most current available information about the application.
diff --git a/services/inputflinger/dispatcher/Entry.cpp b/services/inputflinger/dispatcher/Entry.cpp
index a1eb007..21c8ae1 100644
--- a/services/inputflinger/dispatcher/Entry.cpp
+++ b/services/inputflinger/dispatcher/Entry.cpp
@@ -102,6 +102,12 @@
releaseInjectionState();
}
+std::string EventEntry::getDescription() const {
+ std::string result;
+ appendDescription(result);
+ return result;
+}
+
void EventEntry::release() {
refCount -= 1;
if (refCount == 0) {
diff --git a/services/inputflinger/dispatcher/Entry.h b/services/inputflinger/dispatcher/Entry.h
index ab481bd..a135409 100644
--- a/services/inputflinger/dispatcher/Entry.h
+++ b/services/inputflinger/dispatcher/Entry.h
@@ -83,6 +83,8 @@
virtual void appendDescription(std::string& msg) const = 0;
+ std::string getDescription() const;
+
protected:
EventEntry(int32_t id, Type type, nsecs_t eventTime, uint32_t policyFlags);
virtual ~EventEntry();
diff --git a/services/inputflinger/dispatcher/InputDispatcher.cpp b/services/inputflinger/dispatcher/InputDispatcher.cpp
index a21d1eb..e6e3347 100644
--- a/services/inputflinger/dispatcher/InputDispatcher.cpp
+++ b/services/inputflinger/dispatcher/InputDispatcher.cpp
@@ -78,7 +78,7 @@
// Default input dispatching timeout if there is no focused application or paused window
// from which to determine an appropriate dispatching timeout.
-constexpr nsecs_t DEFAULT_INPUT_DISPATCHING_TIMEOUT = 5000 * 1000000LL; // 5 sec
+constexpr std::chrono::nanoseconds DEFAULT_INPUT_DISPATCHING_TIMEOUT = 5s;
// Amount of time to allow for all pending events to be processed when an app switch
// key is on the way. This is used to preempt input dispatch and drop input events
@@ -1295,11 +1295,9 @@
}
} else {
if (mInputTargetWaitCause != INPUT_TARGET_WAIT_CAUSE_APPLICATION_NOT_READY) {
- if (DEBUG_FOCUS) {
- ALOGD("Waiting for application to become ready for input: %s. Reason: %s",
- getApplicationWindowLabel(applicationHandle, windowHandle).c_str(), reason);
- }
- nsecs_t timeout;
+ ALOGI("Waiting for application to become ready for input: %s. Reason: %s",
+ getApplicationWindowLabel(applicationHandle, windowHandle).c_str(), reason);
+ std::chrono::nanoseconds timeout;
if (windowHandle != nullptr) {
timeout = windowHandle->getDispatchingTimeout(DEFAULT_INPUT_DISPATCHING_TIMEOUT);
} else if (applicationHandle != nullptr) {
@@ -1311,7 +1309,7 @@
mInputTargetWaitCause = INPUT_TARGET_WAIT_CAUSE_APPLICATION_NOT_READY;
mInputTargetWaitStartTime = currentTime;
- mInputTargetWaitTimeoutTime = currentTime + timeout;
+ mInputTargetWaitTimeoutTime = currentTime + timeout.count();
mInputTargetWaitTimeoutExpired = false;
mInputTargetWaitApplicationToken.clear();
@@ -1353,10 +1351,10 @@
}
void InputDispatcher::resumeAfterTargetsNotReadyTimeoutLocked(
- nsecs_t newTimeout, const sp<IBinder>& inputConnectionToken) {
- if (newTimeout > 0) {
+ nsecs_t timeoutExtension, const sp<IBinder>& inputConnectionToken) {
+ if (timeoutExtension > 0) {
// Extend the timeout.
- mInputTargetWaitTimeoutTime = now() + newTimeout;
+ mInputTargetWaitTimeoutTime = now() + timeoutExtension;
} else {
// Give up.
mInputTargetWaitTimeoutExpired = true;
@@ -4048,11 +4046,12 @@
const int32_t displayId = it.first;
const sp<InputApplicationHandle>& applicationHandle = it.second;
dump += StringPrintf(INDENT2 "displayId=%" PRId32
- ", name='%s', dispatchingTimeout=%0.3fms\n",
+ ", name='%s', dispatchingTimeout=%" PRId64 "ms\n",
displayId, applicationHandle->getName().c_str(),
- applicationHandle->getDispatchingTimeout(
- DEFAULT_INPUT_DISPATCHING_TIMEOUT) /
- 1000000.0);
+ ns2ms(applicationHandle
+ ->getDispatchingTimeout(
+ DEFAULT_INPUT_DISPATCHING_TIMEOUT)
+ .count()));
}
} else {
dump += StringPrintf(INDENT "FocusedApplications: <none>\n");
@@ -4132,9 +4131,10 @@
windowInfo->windowXScale, windowInfo->windowYScale);
dumpRegion(dump, windowInfo->touchableRegion);
dump += StringPrintf(", inputFeatures=0x%08x", windowInfo->inputFeatures);
- dump += StringPrintf(", ownerPid=%d, ownerUid=%d, dispatchingTimeout=%0.3fms\n",
+ dump += StringPrintf(", ownerPid=%d, ownerUid=%d, dispatchingTimeout=%" PRId64
+ "ms\n",
windowInfo->ownerPid, windowInfo->ownerUid,
- windowInfo->dispatchingTimeout / 1000000.0);
+ ns2ms(windowInfo->dispatchingTimeout));
}
} else {
dump += INDENT2 "Windows: <none>\n";
@@ -4167,7 +4167,7 @@
for (EventEntry* entry : mRecentQueue) {
dump += INDENT2;
entry->appendDescription(dump);
- dump += StringPrintf(", age=%0.1fms\n", (currentTime - entry->eventTime) * 0.000001f);
+ dump += StringPrintf(", age=%" PRId64 "ms\n", ns2ms(currentTime - entry->eventTime));
}
} else {
dump += INDENT "RecentQueue: <empty>\n";
@@ -4178,8 +4178,8 @@
dump += INDENT "PendingEvent:\n";
dump += INDENT2;
mPendingEvent->appendDescription(dump);
- dump += StringPrintf(", age=%0.1fms\n",
- (currentTime - mPendingEvent->eventTime) * 0.000001f);
+ dump += StringPrintf(", age=%" PRId64 "ms\n",
+ ns2ms(currentTime - mPendingEvent->eventTime));
} else {
dump += INDENT "PendingEvent: <none>\n";
}
@@ -4190,7 +4190,7 @@
for (EventEntry* entry : mInboundQueue) {
dump += INDENT2;
entry->appendDescription(dump);
- dump += StringPrintf(", age=%0.1fms\n", (currentTime - entry->eventTime) * 0.000001f);
+ dump += StringPrintf(", age=%" PRId64 "ms\n", ns2ms(currentTime - entry->eventTime));
}
} else {
dump += INDENT "InboundQueue: <empty>\n";
@@ -4225,9 +4225,10 @@
for (DispatchEntry* entry : connection->outboundQueue) {
dump.append(INDENT4);
entry->eventEntry->appendDescription(dump);
- dump += StringPrintf(", targetFlags=0x%08x, resolvedAction=%d, age=%0.1fms\n",
+ dump += StringPrintf(", targetFlags=0x%08x, resolvedAction=%d, age=%" PRId64
+ "ms\n",
entry->targetFlags, entry->resolvedAction,
- (currentTime - entry->eventEntry->eventTime) * 0.000001f);
+ ns2ms(currentTime - entry->eventEntry->eventTime));
}
} else {
dump += INDENT3 "OutboundQueue: <empty>\n";
@@ -4240,10 +4241,10 @@
dump += INDENT4;
entry->eventEntry->appendDescription(dump);
dump += StringPrintf(", targetFlags=0x%08x, resolvedAction=%d, "
- "age=%0.1fms, wait=%0.1fms\n",
+ "age=%" PRId64 "ms, wait=%" PRId64 "ms\n",
entry->targetFlags, entry->resolvedAction,
- (currentTime - entry->eventEntry->eventTime) * 0.000001f,
- (currentTime - entry->deliveryTime) * 0.000001f);
+ ns2ms(currentTime - entry->eventEntry->eventTime),
+ ns2ms(currentTime - entry->deliveryTime));
}
} else {
dump += INDENT3 "WaitQueue: <empty>\n";
@@ -4254,16 +4255,16 @@
}
if (isAppSwitchPendingLocked()) {
- dump += StringPrintf(INDENT "AppSwitch: pending, due in %0.1fms\n",
- (mAppSwitchDueTime - now()) / 1000000.0);
+ dump += StringPrintf(INDENT "AppSwitch: pending, due in %" PRId64 "ms\n",
+ ns2ms(mAppSwitchDueTime - now()));
} else {
dump += INDENT "AppSwitch: not pending\n";
}
dump += INDENT "Configuration:\n";
- dump += StringPrintf(INDENT2 "KeyRepeatDelay: %0.1fms\n", mConfig.keyRepeatDelay * 0.000001f);
- dump += StringPrintf(INDENT2 "KeyRepeatTimeout: %0.1fms\n",
- mConfig.keyRepeatTimeout * 0.000001f);
+ dump += StringPrintf(INDENT2 "KeyRepeatDelay: %" PRId64 "ms\n", ns2ms(mConfig.keyRepeatDelay));
+ dump += StringPrintf(INDENT2 "KeyRepeatTimeout: %" PRId64 "ms\n",
+ ns2ms(mConfig.keyRepeatTimeout));
}
void InputDispatcher::dumpMonitors(std::string& dump, const std::vector<Monitor>& monitors) {
@@ -4365,8 +4366,7 @@
return BAD_VALUE;
}
- [[maybe_unused]] const bool removed = removeByValue(mConnectionsByFd, connection);
- ALOG_ASSERT(removed);
+ removeConnectionLocked(connection);
mInputChannelsByToken.erase(inputChannel->getConnectionToken());
if (connection->monitor) {
@@ -4468,7 +4468,7 @@
return std::nullopt;
}
-sp<Connection> InputDispatcher::getConnectionLocked(const sp<IBinder>& inputConnectionToken) {
+sp<Connection> InputDispatcher::getConnectionLocked(const sp<IBinder>& inputConnectionToken) const {
if (inputConnectionToken == nullptr) {
return nullptr;
}
@@ -4483,6 +4483,10 @@
return nullptr;
}
+void InputDispatcher::removeConnectionLocked(const sp<Connection>& connection) {
+ removeByValue(mConnectionsByFd, connection);
+}
+
void InputDispatcher::onDispatchCycleFinishedLocked(nsecs_t currentTime,
const sp<Connection>& connection, uint32_t seq,
bool handled) {
@@ -4587,12 +4591,12 @@
commandEntry->inputChannel ? commandEntry->inputChannel->getConnectionToken() : nullptr;
mLock.unlock();
- nsecs_t newTimeout =
+ const nsecs_t timeoutExtension =
mPolicy->notifyAnr(commandEntry->inputApplicationHandle, token, commandEntry->reason);
mLock.lock();
- resumeAfterTargetsNotReadyTimeoutLocked(newTimeout, token);
+ resumeAfterTargetsNotReadyTimeoutLocked(timeoutExtension, token);
}
void InputDispatcher::doInterceptKeyBeforeDispatchingLockedInterruptible(
@@ -4647,11 +4651,8 @@
const nsecs_t eventDuration = finishTime - dispatchEntry->deliveryTime;
if (eventDuration > SLOW_EVENT_PROCESSING_WARNING_TIMEOUT) {
- std::string msg =
- StringPrintf("Window '%s' spent %0.1fms processing the last input event: ",
- connection->getWindowName().c_str(), eventDuration * 0.000001f);
- dispatchEntry->eventEntry->appendDescription(msg);
- ALOGI("%s", msg.c_str());
+ ALOGI("%s spent %" PRId64 "ms processing %s", connection->getWindowName().c_str(),
+ ns2ms(eventDuration), dispatchEntry->eventEntry->getDescription().c_str());
}
reportDispatchStatistics(std::chrono::nanoseconds(eventDuration), *connection, handled);
diff --git a/services/inputflinger/dispatcher/InputDispatcher.h b/services/inputflinger/dispatcher/InputDispatcher.h
index 89b5089..ff7be87 100644
--- a/services/inputflinger/dispatcher/InputDispatcher.h
+++ b/services/inputflinger/dispatcher/InputDispatcher.h
@@ -197,6 +197,11 @@
// All registered connections mapped by channel file descriptor.
std::unordered_map<int, sp<Connection>> mConnectionsByFd GUARDED_BY(mLock);
+ sp<Connection> getConnectionLocked(const sp<IBinder>& inputConnectionToken) const
+ REQUIRES(mLock);
+
+ void removeConnectionLocked(const sp<Connection>& connection) REQUIRES(mLock);
+
struct IBinderHash {
std::size_t operator()(const sp<IBinder>& b) const {
return std::hash<IBinder*>{}(b.get());
@@ -209,7 +214,6 @@
std::optional<int32_t> findGestureMonitorDisplayByTokenLocked(const sp<IBinder>& token)
REQUIRES(mLock);
- sp<Connection> getConnectionLocked(const sp<IBinder>& inputConnectionToken) REQUIRES(mLock);
// Input channels that will receive a copy of all input events sent to the provided display.
std::unordered_map<int32_t, std::vector<Monitor>> mGlobalMonitorsByDisplay GUARDED_BY(mLock);
diff --git a/services/inputflinger/tests/InputDispatcher_test.cpp b/services/inputflinger/tests/InputDispatcher_test.cpp
index f33cc65..13e8354 100644
--- a/services/inputflinger/tests/InputDispatcher_test.cpp
+++ b/services/inputflinger/tests/InputDispatcher_test.cpp
@@ -17,12 +17,14 @@
#include "../dispatcher/InputDispatcher.h"
#include <android-base/stringprintf.h>
+#include <android-base/thread_annotations.h>
#include <binder/Binder.h>
#include <input/Input.h>
#include <gtest/gtest.h>
#include <linux/input.h>
#include <cinttypes>
+#include <thread>
#include <unordered_set>
#include <vector>
@@ -119,6 +121,33 @@
<< "Expected onPointerDownOutsideFocus to not have been called";
}
+ // This function must be called soon after the expected ANR timer starts,
+ // because we are also checking how much time has passed.
+ void assertNotifyAnrWasCalled(std::chrono::nanoseconds timeout,
+ const sp<InputApplicationHandle>& expectedApplication,
+ const sp<IBinder>& expectedToken) {
+ const std::chrono::time_point start = std::chrono::steady_clock::now();
+ std::unique_lock lock(mLock);
+ std::chrono::duration timeToWait = timeout + 100ms; // provide some slack
+ android::base::ScopedLockAssertion assumeLocked(mLock);
+
+ // If there is an ANR, Dispatcher won't be idle because there are still events
+ // in the waitQueue that we need to check on. So we can't wait for dispatcher to be idle
+ // before checking if ANR was called.
+ // Since dispatcher is not guaranteed to call notifyAnr right away, we need to provide
+ // it some time to act. 100ms seems reasonable.
+ mNotifyAnr.wait_for(lock, timeToWait,
+ [this]() REQUIRES(mLock) { return mNotifyAnrWasCalled; });
+ const std::chrono::duration waited = std::chrono::steady_clock::now() - start;
+ ASSERT_TRUE(mNotifyAnrWasCalled);
+ // Ensure that the ANR didn't get raised too early. We can't be too strict here because
+ // the dispatcher started counting before this function was called
+ ASSERT_TRUE(timeout - 100ms < waited); // check (waited < timeout + 100ms) done by wait_for
+ mNotifyAnrWasCalled = false;
+ ASSERT_EQ(expectedApplication, mLastAnrApplication);
+ ASSERT_EQ(expectedToken, mLastAnrWindowToken);
+ }
+
void setKeyRepeatConfiguration(nsecs_t timeout, nsecs_t delay) {
mConfig.keyRepeatTimeout = timeout;
mConfig.keyRepeatDelay = delay;
@@ -131,14 +160,26 @@
sp<IBinder> mOnPointerDownToken GUARDED_BY(mLock);
std::optional<NotifySwitchArgs> mLastNotifySwitch GUARDED_BY(mLock);
+ // ANR handling
+ bool mNotifyAnrWasCalled GUARDED_BY(mLock) = false;
+ sp<InputApplicationHandle> mLastAnrApplication GUARDED_BY(mLock);
+ sp<IBinder> mLastAnrWindowToken GUARDED_BY(mLock);
+ std::condition_variable mNotifyAnr;
+ std::chrono::nanoseconds mAnrTimeout = 0ms;
+
virtual void notifyConfigurationChanged(nsecs_t when) override {
std::scoped_lock lock(mLock);
mConfigurationChangedTime = when;
}
- virtual nsecs_t notifyAnr(const sp<InputApplicationHandle>&, const sp<IBinder>&,
- const std::string&) override {
- return 0;
+ virtual nsecs_t notifyAnr(const sp<InputApplicationHandle>& application,
+ const sp<IBinder>& windowToken, const std::string&) override {
+ std::scoped_lock lock(mLock);
+ mLastAnrApplication = application;
+ mLastAnrWindowToken = windowToken;
+ mNotifyAnrWasCalled = true;
+ mNotifyAnr.notify_all();
+ return mAnrTimeout.count();
}
virtual void notifyInputChannelBroken(const sp<IBinder>&) override {}
@@ -309,6 +350,20 @@
mFakePolicy.clear();
mDispatcher.clear();
}
+
+ /**
+ * Used for debugging when writing the test
+ */
+ void dumpDispatcherState() {
+ std::string dump;
+ mDispatcher->dump(dump);
+ std::stringstream ss(dump);
+ std::string to;
+
+ while (std::getline(ss, to, '\n')) {
+ ALOGE("%s", to.c_str());
+ }
+ }
};
@@ -502,13 +557,20 @@
class FakeApplicationHandle : public InputApplicationHandle {
public:
- FakeApplicationHandle() {}
+ FakeApplicationHandle() {
+ mInfo.name = "Fake Application";
+ mInfo.token = new BBinder();
+ mInfo.dispatchingTimeout = DISPATCHING_TIMEOUT.count();
+ }
virtual ~FakeApplicationHandle() {}
virtual bool updateInfo() override {
- mInfo.dispatchingTimeout = DISPATCHING_TIMEOUT.count();
return true;
}
+
+ void setDispatchingTimeout(std::chrono::nanoseconds timeout) {
+ mInfo.dispatchingTimeout = timeout.count();
+ }
};
class FakeInputReceiver {
@@ -519,6 +581,20 @@
}
InputEvent* consume() {
+ InputEvent* event;
+ std::optional<uint32_t> consumeSeq = receiveEvent(&event);
+ if (!consumeSeq) {
+ return nullptr;
+ }
+ finishEvent(*consumeSeq);
+ return event;
+ }
+
+ /**
+ * Receive an event without acknowledging it.
+ * Return the sequence number that could later be used to send finished signal.
+ */
+ std::optional<uint32_t> receiveEvent(InputEvent** outEvent = nullptr) {
uint32_t consumeSeq;
InputEvent* event;
@@ -535,23 +611,29 @@
if (status == WOULD_BLOCK) {
// Just means there's no event available.
- return nullptr;
+ return std::nullopt;
}
if (status != OK) {
ADD_FAILURE() << mName.c_str() << ": consumer consume should return OK.";
- return nullptr;
+ return std::nullopt;
}
if (event == nullptr) {
ADD_FAILURE() << "Consumed correctly, but received NULL event from consumer";
- return nullptr;
+ return std::nullopt;
}
+ if (outEvent != nullptr) {
+ *outEvent = event;
+ }
+ return consumeSeq;
+ }
- status = mConsumer->sendFinishedSignal(consumeSeq, true);
- if (status != OK) {
- ADD_FAILURE() << mName.c_str() << ": consumer sendFinishedSignal should return OK.";
- }
- return event;
+ /**
+ * To be used together with "receiveEvent" to complete the consumption of an event.
+ */
+ void finishEvent(uint32_t consumeSeq) {
+ const status_t status = mConsumer->sendFinishedSignal(consumeSeq, true);
+ ASSERT_EQ(OK, status) << mName.c_str() << ": consumer sendFinishedSignal should return OK.";
}
void consumeEvent(int32_t expectedEventType, int32_t expectedAction, int32_t expectedDisplayId,
@@ -668,6 +750,10 @@
void setFocus(bool hasFocus) { mInfo.hasFocus = hasFocus; }
+ void setDispatchingTimeout(std::chrono::nanoseconds timeout) {
+ mInfo.dispatchingTimeout = timeout.count();
+ }
+
void setFrame(const Rect& frame) {
mInfo.frameLeft = frame.left;
mInfo.frameTop = frame.top;
@@ -740,6 +826,19 @@
expectedFlags);
}
+ std::optional<uint32_t> receiveEvent() {
+ if (mInputReceiver == nullptr) {
+ ADD_FAILURE() << "Invalid receive event on window with no receiver";
+ return std::nullopt;
+ }
+ return mInputReceiver->receiveEvent();
+ }
+
+ void finishEvent(uint32_t sequenceNum) {
+ ASSERT_NE(mInputReceiver, nullptr) << "Invalid receive event on window with no receiver";
+ mInputReceiver->finishEvent(sequenceNum);
+ }
+
InputEvent* consume() {
if (mInputReceiver == nullptr) {
return nullptr;
@@ -765,16 +864,15 @@
std::atomic<int32_t> FakeWindowHandle::sId{1};
-static int32_t injectKeyDown(const sp<InputDispatcher>& dispatcher,
- int32_t displayId = ADISPLAY_ID_NONE) {
+static int32_t injectKey(const sp<InputDispatcher>& dispatcher, int32_t action, int32_t repeatCount,
+ int32_t displayId = ADISPLAY_ID_NONE) {
KeyEvent event;
nsecs_t currentTime = systemTime(SYSTEM_TIME_MONOTONIC);
// Define a valid key down event.
event.initialize(InputEvent::nextId(), DEVICE_ID, AINPUT_SOURCE_KEYBOARD, displayId,
- INVALID_HMAC, AKEY_EVENT_ACTION_DOWN, /* flags */ 0, AKEYCODE_A, KEY_A,
- AMETA_NONE,
- /* repeatCount */ 0, currentTime, currentTime);
+ INVALID_HMAC, action, /* flags */ 0, AKEYCODE_A, KEY_A, AMETA_NONE,
+ repeatCount, currentTime, currentTime);
// Inject event until dispatch out.
return dispatcher->injectInputEvent(
@@ -783,10 +881,16 @@
INJECT_EVENT_TIMEOUT, POLICY_FLAG_FILTERED | POLICY_FLAG_PASS_TO_USER);
}
-static int32_t injectMotionEvent(const sp<InputDispatcher>& dispatcher, int32_t action,
- int32_t source, int32_t displayId, int32_t x, int32_t y,
- int32_t xCursorPosition = AMOTION_EVENT_INVALID_CURSOR_POSITION,
- int32_t yCursorPosition = AMOTION_EVENT_INVALID_CURSOR_POSITION) {
+static int32_t injectKeyDown(const sp<InputDispatcher>& dispatcher,
+ int32_t displayId = ADISPLAY_ID_NONE) {
+ return injectKey(dispatcher, AKEY_EVENT_ACTION_DOWN, /* repeatCount */ 0, displayId);
+}
+
+static int32_t injectMotionEvent(
+ const sp<InputDispatcher>& dispatcher, int32_t action, int32_t source, int32_t displayId,
+ const PointF& position,
+ const PointF& cursorPosition = {AMOTION_EVENT_INVALID_CURSOR_POSITION,
+ AMOTION_EVENT_INVALID_CURSOR_POSITION}) {
MotionEvent event;
PointerProperties pointerProperties[1];
PointerCoords pointerCoords[1];
@@ -796,8 +900,8 @@
pointerProperties[0].toolType = AMOTION_EVENT_TOOL_TYPE_FINGER;
pointerCoords[0].clear();
- pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_X, x);
- pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_Y, y);
+ pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_X, position.x);
+ pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_Y, position.y);
nsecs_t currentTime = systemTime(SYSTEM_TIME_MONOTONIC);
// Define a valid motion down event.
@@ -806,7 +910,7 @@
/* flags */ 0,
/* edgeFlags */ 0, AMETA_NONE, /* buttonState */ 0, MotionClassification::NONE,
/* xScale */ 1, /* yScale */ 1, /* xOffset */ 0, /* yOffset */ 0,
- /* xPrecision */ 0, /* yPrecision */ 0, xCursorPosition, yCursorPosition,
+ /* xPrecision */ 0, /* yPrecision */ 0, cursorPosition.x, cursorPosition.y,
currentTime, currentTime,
/*pointerCount*/ 1, pointerProperties, pointerCoords);
@@ -819,14 +923,12 @@
static int32_t injectMotionDown(const sp<InputDispatcher>& dispatcher, int32_t source,
int32_t displayId, const PointF& location = {100, 200}) {
- return injectMotionEvent(dispatcher, AMOTION_EVENT_ACTION_DOWN, source, displayId, location.x,
- location.y);
+ return injectMotionEvent(dispatcher, AMOTION_EVENT_ACTION_DOWN, source, displayId, location);
}
static int32_t injectMotionUp(const sp<InputDispatcher>& dispatcher, int32_t source,
int32_t displayId, const PointF& location = {100, 200}) {
- return injectMotionEvent(dispatcher, AMOTION_EVENT_ACTION_UP, source, displayId, location.x,
- location.y);
+ return injectMotionEvent(dispatcher, AMOTION_EVENT_ACTION_UP, source, displayId, location);
}
static NotifyKeyArgs generateKeyArgs(int32_t action, int32_t displayId = ADISPLAY_ID_NONE) {
@@ -1051,7 +1153,7 @@
// left window. This event should be dispatched to the left window.
ASSERT_EQ(INPUT_EVENT_INJECTION_SUCCEEDED,
injectMotionEvent(mDispatcher, AMOTION_EVENT_ACTION_DOWN, AINPUT_SOURCE_MOUSE,
- ADISPLAY_ID_DEFAULT, 610, 400, 599, 400));
+ ADISPLAY_ID_DEFAULT, {610, 400}, {599, 400}));
windowLeft->consumeMotionDown(ADISPLAY_ID_DEFAULT);
windowRight->assertNoEvents();
}
@@ -2185,4 +2287,82 @@
consumeMotionEvent(mWindow1, AMOTION_EVENT_ACTION_MOVE, expectedPoints);
}
+class InputDispatcherSingleWindowAnr : public InputDispatcherTest {
+ virtual void SetUp() override {
+ InputDispatcherTest::SetUp();
+
+ mApplication = new FakeApplicationHandle();
+ mApplication->setDispatchingTimeout(20ms);
+ mWindow =
+ new FakeWindowHandle(mApplication, mDispatcher, "TestWindow", ADISPLAY_ID_DEFAULT);
+ mWindow->setFrame(Rect(0, 0, 30, 30));
+ mWindow->setDispatchingTimeout(10ms);
+ mWindow->setFocus(true);
+ // Adding FLAG_NOT_TOUCH_MODAL to ensure taps outside this window are not sent to this
+ // window.
+ mWindow->setLayoutParamFlags(InputWindowInfo::FLAG_NOT_TOUCH_MODAL);
+
+ // Set focused application.
+ mDispatcher->setFocusedApplication(ADISPLAY_ID_DEFAULT, mApplication);
+
+ mDispatcher->setInputWindows({{ADISPLAY_ID_DEFAULT, {mWindow}}});
+ mWindow->consumeFocusEvent(true);
+ }
+
+ virtual void TearDown() override {
+ InputDispatcherTest::TearDown();
+ mWindow.clear();
+ }
+
+protected:
+ sp<FakeApplicationHandle> mApplication;
+ sp<FakeWindowHandle> mWindow;
+ static constexpr PointF WINDOW_LOCATION = {20, 20};
+
+ void tapOnWindow() {
+ ASSERT_EQ(INPUT_EVENT_INJECTION_SUCCEEDED,
+ injectMotionDown(mDispatcher, AINPUT_SOURCE_TOUCHSCREEN, ADISPLAY_ID_DEFAULT,
+ WINDOW_LOCATION));
+ ASSERT_EQ(INPUT_EVENT_INJECTION_SUCCEEDED,
+ injectMotionUp(mDispatcher, AINPUT_SOURCE_TOUCHSCREEN, ADISPLAY_ID_DEFAULT,
+ WINDOW_LOCATION));
+ }
+};
+
+// Send an event to the app and have the app not respond right away.
+// Make sure that ANR is raised
+TEST_F(InputDispatcherSingleWindowAnr, OnPointerDown_BasicAnr) {
+ ASSERT_EQ(INPUT_EVENT_INJECTION_SUCCEEDED,
+ injectMotionDown(mDispatcher, AINPUT_SOURCE_TOUCHSCREEN, ADISPLAY_ID_DEFAULT,
+ WINDOW_LOCATION));
+
+ // Also, overwhelm the socket to make sure ANR starts
+ for (size_t i = 0; i < 100; i++) {
+ injectMotionEvent(mDispatcher, AMOTION_EVENT_ACTION_MOVE, AINPUT_SOURCE_TOUCHSCREEN,
+ ADISPLAY_ID_DEFAULT, {WINDOW_LOCATION.x, WINDOW_LOCATION.y + i});
+ }
+
+ std::optional<uint32_t> sequenceNum = mWindow->receiveEvent(); // ACTION_DOWN
+ ASSERT_TRUE(sequenceNum);
+ const std::chrono::duration timeout = mWindow->getDispatchingTimeout(DISPATCHING_TIMEOUT);
+ mFakePolicy->assertNotifyAnrWasCalled(timeout, nullptr /*application*/, mWindow->getToken());
+ ASSERT_TRUE(mDispatcher->waitForIdle());
+}
+
+// Send a key to the app and have the app not respond right away.
+TEST_F(InputDispatcherSingleWindowAnr, OnKeyDown_BasicAnr) {
+ // Inject a key, and don't respond - expect that ANR is called.
+ ASSERT_EQ(INPUT_EVENT_INJECTION_SUCCEEDED, injectKeyDown(mDispatcher));
+ std::optional<uint32_t> sequenceNum = mWindow->receiveEvent();
+ ASSERT_TRUE(sequenceNum);
+
+ // Start ANR process by sending a 2nd key, which would trigger the check for whether
+ // waitQueue is empty
+ injectKey(mDispatcher, AKEY_EVENT_ACTION_DOWN, /* repeatCount */ 1);
+
+ const std::chrono::duration timeout = mWindow->getDispatchingTimeout(DISPATCHING_TIMEOUT);
+ mFakePolicy->assertNotifyAnrWasCalled(timeout, mApplication, mWindow->getToken());
+ ASSERT_TRUE(mDispatcher->waitForIdle());
+}
+
} // namespace android::inputdispatcher