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LeafOS / LeafOS-Project / android_frameworks_native / 8d39bf70865446b522ee6f2964e5c6d99a76a47b / . / services / inputflinger / UnwantedInteractionBlocker.cpp
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/*
* Copyright (C) 2022 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.
*/
#define LOG_TAG "UnwantedInteractionBlocker"
#include "UnwantedInteractionBlocker.h"
#include <android-base/stringprintf.h>
#include <com_android_input_flags.h>
#include <ftl/enum.h>
#include <input/PrintTools.h>
#include <inttypes.h>
#include <linux/input-event-codes.h>
#include <linux/input.h>
#include <server_configurable_flags/get_flags.h>
#include "ui/events/ozone/evdev/touch_filter/neural_stylus_palm_detection_filter.h"
#include "ui/events/ozone/evdev/touch_filter/palm_model/onedevice_train_palm_detection_filter_model.h"
namespace input_flags = com::android::input::flags;
using android::base::StringPrintf;
/**
* This type is declared here to ensure consistency between the instantiated type (used in the
* constructor via std::make_unique) and the cast-to type (used in PalmRejector::dump() with
* static_cast). Due to the lack of rtti support, dynamic_cast is not available, so this can't be
* checked at runtime to avoid undefined behaviour.
*/
using PalmFilterImplementation = ::ui::NeuralStylusPalmDetectionFilter;
namespace android {
/**
* Log detailed debug messages about each inbound motion event notification to the blocker.
* Enable this via "adb shell setprop log.tag.UnwantedInteractionBlockerInboundMotion DEBUG"
* (requires restart)
*/
const bool DEBUG_INBOUND_MOTION =
__android_log_is_loggable(ANDROID_LOG_DEBUG, LOG_TAG "InboundMotion", ANDROID_LOG_INFO);
/**
* Log detailed debug messages about each outbound motion event processed by the blocker.
* Enable this via "adb shell setprop log.tag.UnwantedInteractionBlockerOutboundMotion DEBUG"
* (requires restart)
*/
const bool DEBUG_OUTBOUND_MOTION =
__android_log_is_loggable(ANDROID_LOG_DEBUG, LOG_TAG "OutboundMotion", ANDROID_LOG_INFO);
/**
* Log the data sent to the model and received back from the model.
* Enable this via "adb shell setprop log.tag.UnwantedInteractionBlockerModel DEBUG"
* (requires restart)
*/
const bool DEBUG_MODEL =
__android_log_is_loggable(ANDROID_LOG_DEBUG, LOG_TAG "Model", ANDROID_LOG_INFO);
/**
* When multi-device input is enabled, we shouldn't use PreferStylusOverTouchBlocker at all.
* However, multi-device input has the following default behaviour: hovering stylus rejects touch.
* Therefore, if we want to disable that behaviour (and go back to a place where stylus down
* blocks touch, but hovering stylus doesn't interact with touch), we should just disable the entire
* multi-device input feature.
*/
const bool ENABLE_MULTI_DEVICE_INPUT = input_flags::enable_multi_device_input() &&
!input_flags::disable_reject_touch_on_stylus_hover();
// Category (=namespace) name for the input settings that are applied at boot time
static const char* INPUT_NATIVE_BOOT = "input_native_boot";
/**
* Feature flag name. This flag determines whether palm rejection is enabled. To enable, specify
* 'true' (not case sensitive) or '1'. To disable, specify any other value.
*/
static const char* PALM_REJECTION_ENABLED = "palm_rejection_enabled";
static std::string toLower(std::string s) {
std::transform(s.begin(), s.end(), s.begin(), [](unsigned char c) { return std::tolower(c); });
return s;
}
static bool isFromTouchscreen(int32_t source) {
return isFromSource(source, AINPUT_SOURCE_TOUCHSCREEN);
}
static ::base::TimeTicks toChromeTimestamp(nsecs_t eventTime) {
return ::base::TimeTicks::UnixEpoch() + ::base::TimeDelta::FromNanosecondsD(eventTime);
}
/**
* Return true if palm rejection is enabled via the server configurable flags. Return false
* otherwise.
*/
static bool isPalmRejectionEnabled() {
std::string value = toLower(
server_configurable_flags::GetServerConfigurableFlag(INPUT_NATIVE_BOOT,
PALM_REJECTION_ENABLED, "0"));
if (value == "1") {
return true;
}
return false;
}
static int getLinuxToolCode(ToolType toolType) {
switch (toolType) {
case ToolType::STYLUS:
return BTN_TOOL_PEN;
case ToolType::ERASER:
return BTN_TOOL_RUBBER;
case ToolType::FINGER:
return BTN_TOOL_FINGER;
case ToolType::UNKNOWN:
case ToolType::MOUSE:
case ToolType::PALM:
break;
}
ALOGW("Got tool type %s, converting to BTN_TOOL_FINGER", ftl::enum_string(toolType).c_str());
return BTN_TOOL_FINGER;
}
static int32_t getActionUpForPointerId(const NotifyMotionArgs& args, int32_t pointerId) {
for (size_t i = 0; i < args.getPointerCount(); i++) {
if (pointerId == args.pointerProperties[i].id) {
return AMOTION_EVENT_ACTION_POINTER_UP |
(i << AMOTION_EVENT_ACTION_POINTER_INDEX_SHIFT);
}
}
LOG_ALWAYS_FATAL("Can't find pointerId %" PRId32 " in %s", pointerId, args.dump().c_str());
}
/**
* Find the action for individual pointer at the given pointer index.
* This is always equal to MotionEvent::getActionMasked, except for
* POINTER_UP or POINTER_DOWN events. For example, in a POINTER_UP event, the action for
* the active pointer is ACTION_POINTER_UP, while the action for the other pointers is ACTION_MOVE.
*/
static int32_t resolveActionForPointer(uint8_t pointerIndex, int32_t action) {
const int32_t actionMasked = MotionEvent::getActionMasked(action);
if (actionMasked != AMOTION_EVENT_ACTION_POINTER_DOWN &&
actionMasked != AMOTION_EVENT_ACTION_POINTER_UP) {
return actionMasked;
}
// This is a POINTER_DOWN or POINTER_UP event
const uint8_t actionIndex = MotionEvent::getActionIndex(action);
if (pointerIndex == actionIndex) {
return actionMasked;
}
// When POINTER_DOWN or POINTER_UP happens, it's actually a MOVE for all of the other
// pointers
return AMOTION_EVENT_ACTION_MOVE;
}
NotifyMotionArgs removePointerIds(const NotifyMotionArgs& args,
const std::set<int32_t>& pointerIds) {
const uint8_t actionIndex = MotionEvent::getActionIndex(args.action);
const int32_t actionMasked = MotionEvent::getActionMasked(args.action);
const bool isPointerUpOrDownAction = actionMasked == AMOTION_EVENT_ACTION_POINTER_DOWN ||
actionMasked == AMOTION_EVENT_ACTION_POINTER_UP;
NotifyMotionArgs newArgs{args};
newArgs.pointerProperties.clear();
newArgs.pointerCoords.clear();
int32_t newActionIndex = 0;
for (uint32_t i = 0; i < args.getPointerCount(); i++) {
const int32_t pointerId = args.pointerProperties[i].id;
if (pointerIds.find(pointerId) != pointerIds.end()) {
// skip this pointer
if (isPointerUpOrDownAction && i == actionIndex) {
// The active pointer is being removed, so the action is no longer valid.
// Set the action to 'UNKNOWN' here. The caller is responsible for updating this
// action later to a proper value.
newArgs.action = ACTION_UNKNOWN;
}
continue;
}
newArgs.pointerProperties.push_back(args.pointerProperties[i]);
newArgs.pointerCoords.push_back(args.pointerCoords[i]);
if (i == actionIndex) {
newActionIndex = newArgs.getPointerCount() - 1;
}
}
// Update POINTER_DOWN or POINTER_UP actions
if (isPointerUpOrDownAction && newArgs.action != ACTION_UNKNOWN) {
newArgs.action =
actionMasked | (newActionIndex << AMOTION_EVENT_ACTION_POINTER_INDEX_SHIFT);
// Convert POINTER_DOWN and POINTER_UP to DOWN and UP if there's only 1 pointer remaining
if (newArgs.getPointerCount() == 1) {
if (actionMasked == AMOTION_EVENT_ACTION_POINTER_DOWN) {
newArgs.action = AMOTION_EVENT_ACTION_DOWN;
} else if (actionMasked == AMOTION_EVENT_ACTION_POINTER_UP) {
newArgs.action = AMOTION_EVENT_ACTION_UP;
}
}
}
return newArgs;
}
/**
* Remove stylus pointers from the provided NotifyMotionArgs.
*
* Return NotifyMotionArgs where the stylus pointers have been removed.
* If this results in removal of the active pointer, then return nullopt.
*/
static std::optional<NotifyMotionArgs> removeStylusPointerIds(const NotifyMotionArgs& args) {
std::set<int32_t> stylusPointerIds;
for (uint32_t i = 0; i < args.getPointerCount(); i++) {
if (isStylusToolType(args.pointerProperties[i].toolType)) {
stylusPointerIds.insert(args.pointerProperties[i].id);
}
}
NotifyMotionArgs withoutStylusPointers = removePointerIds(args, stylusPointerIds);
if (withoutStylusPointers.getPointerCount() == 0 ||
withoutStylusPointers.action == ACTION_UNKNOWN) {
return std::nullopt;
}
return withoutStylusPointers;
}
std::optional<AndroidPalmFilterDeviceInfo> createPalmFilterDeviceInfo(
const InputDeviceInfo& deviceInfo) {
if (!isFromTouchscreen(deviceInfo.getSources())) {
return std::nullopt;
}
AndroidPalmFilterDeviceInfo out;
const InputDeviceInfo::MotionRange* axisX =
deviceInfo.getMotionRange(AMOTION_EVENT_AXIS_X, AINPUT_SOURCE_TOUCHSCREEN);
if (axisX != nullptr) {
out.max_x = axisX->max;
out.x_res = axisX->resolution;
} else {
ALOGW("Palm rejection is disabled for %s because AXIS_X is not supported",
deviceInfo.getDisplayName().c_str());
return std::nullopt;
}
const InputDeviceInfo::MotionRange* axisY =
deviceInfo.getMotionRange(AMOTION_EVENT_AXIS_Y, AINPUT_SOURCE_TOUCHSCREEN);
if (axisY != nullptr) {
out.max_y = axisY->max;
out.y_res = axisY->resolution;
} else {
ALOGW("Palm rejection is disabled for %s because AXIS_Y is not supported",
deviceInfo.getDisplayName().c_str());
return std::nullopt;
}
const InputDeviceInfo::MotionRange* axisMajor =
deviceInfo.getMotionRange(AMOTION_EVENT_AXIS_TOUCH_MAJOR, AINPUT_SOURCE_TOUCHSCREEN);
if (axisMajor != nullptr) {
out.major_radius_res = axisMajor->resolution;
out.touch_major_res = axisMajor->resolution;
} else {
return std::nullopt;
}
const InputDeviceInfo::MotionRange* axisMinor =
deviceInfo.getMotionRange(AMOTION_EVENT_AXIS_TOUCH_MINOR, AINPUT_SOURCE_TOUCHSCREEN);
if (axisMinor != nullptr) {
out.minor_radius_res = axisMinor->resolution;
out.touch_minor_res = axisMinor->resolution;
out.minor_radius_supported = true;
} else {
out.minor_radius_supported = false;
}
return out;
}
/**
* Synthesize CANCEL events for any new pointers that should be canceled, while removing pointers
* that have already been canceled.
* The flow of the function is as follows:
* 1. Remove all already canceled pointers
* 2. Cancel all newly suppressed pointers
* 3. Decide what to do with the current event : keep it, or drop it
* The pointers can never be "unsuppressed": once a pointer is canceled, it will never become valid.
*/
std::vector<NotifyMotionArgs> cancelSuppressedPointers(
const NotifyMotionArgs& args, const std::set<int32_t>& oldSuppressedPointerIds,
const std::set<int32_t>& newSuppressedPointerIds) {
LOG_ALWAYS_FATAL_IF(args.getPointerCount() == 0, "0 pointers in %s", args.dump().c_str());
// First, let's remove the old suppressed pointers. They've already been canceled previously.
NotifyMotionArgs oldArgs = removePointerIds(args, oldSuppressedPointerIds);
// Cancel any newly suppressed pointers.
std::vector<NotifyMotionArgs> out;
const int32_t activePointerId =
args.pointerProperties[MotionEvent::getActionIndex(args.action)].id;
const int32_t actionMasked = MotionEvent::getActionMasked(args.action);
// We will iteratively remove pointers from 'removedArgs'.
NotifyMotionArgs removedArgs{oldArgs};
for (uint32_t i = 0; i < oldArgs.getPointerCount(); i++) {
const int32_t pointerId = oldArgs.pointerProperties[i].id;
if (newSuppressedPointerIds.find(pointerId) == newSuppressedPointerIds.end()) {
// This is a pointer that should not be canceled. Move on.
continue;
}
if (pointerId == activePointerId && actionMasked == AMOTION_EVENT_ACTION_POINTER_DOWN) {
// Remove this pointer, but don't cancel it. We'll just not send the POINTER_DOWN event
removedArgs = removePointerIds(removedArgs, {pointerId});
continue;
}
if (removedArgs.getPointerCount() == 1) {
// We are about to remove the last pointer, which means there will be no more gesture
// remaining. This is identical to canceling all pointers, so just send a single CANCEL
// event, without any of the preceding POINTER_UP with FLAG_CANCELED events.
oldArgs.flags |= AMOTION_EVENT_FLAG_CANCELED;
oldArgs.action = AMOTION_EVENT_ACTION_CANCEL;
return {oldArgs};
}
// Cancel the current pointer
out.push_back(removedArgs);
out.back().flags |= AMOTION_EVENT_FLAG_CANCELED;
out.back().action = getActionUpForPointerId(out.back(), pointerId);
// Remove the newly canceled pointer from the args
removedArgs = removePointerIds(removedArgs, {pointerId});
}
// Now 'removedArgs' contains only pointers that are valid.
if (removedArgs.getPointerCount() <= 0 || removedArgs.action == ACTION_UNKNOWN) {
return out;
}
out.push_back(removedArgs);
return out;
}
UnwantedInteractionBlocker::UnwantedInteractionBlocker(InputListenerInterface& listener)
: UnwantedInteractionBlocker(listener, isPalmRejectionEnabled()){};
UnwantedInteractionBlocker::UnwantedInteractionBlocker(InputListenerInterface& listener,
bool enablePalmRejection)
: mQueuedListener(listener), mEnablePalmRejection(enablePalmRejection) {}
void UnwantedInteractionBlocker::notifyConfigurationChanged(
const NotifyConfigurationChangedArgs& args) {
mQueuedListener.notifyConfigurationChanged(args);
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::notifyKey(const NotifyKeyArgs& args) {
mQueuedListener.notifyKey(args);
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::notifyMotion(const NotifyMotionArgs& args) {
ALOGD_IF(DEBUG_INBOUND_MOTION, "%s: %s", __func__, args.dump().c_str());
{ // acquire lock
std::scoped_lock lock(mLock);
if (ENABLE_MULTI_DEVICE_INPUT) {
notifyMotionLocked(args);
} else {
const std::vector<NotifyMotionArgs> processedArgs =
mPreferStylusOverTouchBlocker.processMotion(args);
for (const NotifyMotionArgs& loopArgs : processedArgs) {
notifyMotionLocked(loopArgs);
}
}
} // release lock
// Call out to the next stage without holding the lock
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::enqueueOutboundMotionLocked(const NotifyMotionArgs& args) {
ALOGD_IF(DEBUG_OUTBOUND_MOTION, "%s: %s", __func__, args.dump().c_str());
mQueuedListener.notifyMotion(args);
}
void UnwantedInteractionBlocker::notifyMotionLocked(const NotifyMotionArgs& args) {
auto it = mPalmRejectors.find(args.deviceId);
const bool sendToPalmRejector = it != mPalmRejectors.end() && isFromTouchscreen(args.source);
if (!sendToPalmRejector) {
enqueueOutboundMotionLocked(args);
return;
}
std::vector<NotifyMotionArgs> processedArgs = it->second.processMotion(args);
for (const NotifyMotionArgs& loopArgs : processedArgs) {
enqueueOutboundMotionLocked(loopArgs);
}
}
void UnwantedInteractionBlocker::notifySwitch(const NotifySwitchArgs& args) {
mQueuedListener.notifySwitch(args);
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::notifySensor(const NotifySensorArgs& args) {
mQueuedListener.notifySensor(args);
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::notifyVibratorState(const NotifyVibratorStateArgs& args) {
mQueuedListener.notifyVibratorState(args);
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::notifyDeviceReset(const NotifyDeviceResetArgs& args) {
{ // acquire lock
std::scoped_lock lock(mLock);
auto it = mPalmRejectors.find(args.deviceId);
if (it != mPalmRejectors.end()) {
AndroidPalmFilterDeviceInfo info = it->second.getPalmFilterDeviceInfo();
// Re-create the object instead of resetting it
mPalmRejectors.erase(it);
mPalmRejectors.emplace(args.deviceId, info);
}
mQueuedListener.notifyDeviceReset(args);
mPreferStylusOverTouchBlocker.notifyDeviceReset(args);
} // release lock
// Send events to the next stage without holding the lock
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::notifyPointerCaptureChanged(
const NotifyPointerCaptureChangedArgs& args) {
mQueuedListener.notifyPointerCaptureChanged(args);
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::notifyInputDevicesChanged(
const NotifyInputDevicesChangedArgs& args) {
onInputDevicesChanged(args.inputDeviceInfos);
mQueuedListener.notify(args);
mQueuedListener.flush();
}
void UnwantedInteractionBlocker::onInputDevicesChanged(
const std::vector<InputDeviceInfo>& inputDevices) {
std::scoped_lock lock(mLock);
if (!mEnablePalmRejection) {
// Palm rejection is disabled. Don't create any palm rejector objects.
return;
}
// Let's see which of the existing devices didn't change, so that we can keep them
// and prevent event stream disruption
std::set<int32_t /*deviceId*/> devicesToKeep;
for (const InputDeviceInfo& device : inputDevices) {
std::optional<AndroidPalmFilterDeviceInfo> info = createPalmFilterDeviceInfo(device);
if (!info) {
continue;
}
auto [it, emplaced] = mPalmRejectors.try_emplace(device.getId(), *info);
if (!emplaced && *info != it->second.getPalmFilterDeviceInfo()) {
// Re-create the PalmRejector because the device info has changed.
mPalmRejectors.erase(it);
mPalmRejectors.emplace(device.getId(), *info);
}
devicesToKeep.insert(device.getId());
}
// Delete all devices that we don't need to keep
std::erase_if(mPalmRejectors, [&devicesToKeep](const auto& item) {
auto const& [deviceId, _] = item;
return devicesToKeep.find(deviceId) == devicesToKeep.end();
});
mPreferStylusOverTouchBlocker.notifyInputDevicesChanged(inputDevices);
}
void UnwantedInteractionBlocker::dump(std::string& dump) {
std::scoped_lock lock(mLock);
dump += "UnwantedInteractionBlocker:\n";
dump += " mPreferStylusOverTouchBlocker:\n";
dump += addLinePrefix(mPreferStylusOverTouchBlocker.dump(), " ");
dump += StringPrintf(" mEnablePalmRejection: %s\n",
std::to_string(mEnablePalmRejection).c_str());
dump += StringPrintf(" isPalmRejectionEnabled (flag value): %s\n",
std::to_string(isPalmRejectionEnabled()).c_str());
dump += mPalmRejectors.empty() ? " mPalmRejectors: None\n" : " mPalmRejectors:\n";
for (const auto& [deviceId, palmRejector] : mPalmRejectors) {
dump += StringPrintf(" deviceId = %" PRId32 ":\n", deviceId);
dump += addLinePrefix(palmRejector.dump(), " ");
}
}
void UnwantedInteractionBlocker::monitor() {
std::scoped_lock lock(mLock);
}
UnwantedInteractionBlocker::~UnwantedInteractionBlocker() {}
void SlotState::update(const NotifyMotionArgs& args) {
for (size_t i = 0; i < args.getPointerCount(); i++) {
const int32_t pointerId = args.pointerProperties[i].id;
const int32_t resolvedAction = resolveActionForPointer(i, args.action);
processPointerId(pointerId, resolvedAction);
}
}
size_t SlotState::findUnusedSlot() const {
size_t unusedSlot = 0;
// Since the collection is ordered, we can rely on the in-order traversal
for (const auto& [slot, trackingId] : mPointerIdsBySlot) {
if (unusedSlot != slot) {
break;
}
unusedSlot++;
}
return unusedSlot;
}
void SlotState::processPointerId(int pointerId, int32_t actionMasked) {
switch (MotionEvent::getActionMasked(actionMasked)) {
case AMOTION_EVENT_ACTION_DOWN:
case AMOTION_EVENT_ACTION_POINTER_DOWN:
case AMOTION_EVENT_ACTION_HOVER_ENTER: {
// New pointer going down
size_t newSlot = findUnusedSlot();
mPointerIdsBySlot[newSlot] = pointerId;
mSlotsByPointerId[pointerId] = newSlot;
return;
}
case AMOTION_EVENT_ACTION_MOVE:
case AMOTION_EVENT_ACTION_HOVER_MOVE: {
return;
}
case AMOTION_EVENT_ACTION_CANCEL:
case AMOTION_EVENT_ACTION_POINTER_UP:
case AMOTION_EVENT_ACTION_UP:
case AMOTION_EVENT_ACTION_HOVER_EXIT: {
auto it = mSlotsByPointerId.find(pointerId);
LOG_ALWAYS_FATAL_IF(it == mSlotsByPointerId.end());
size_t slot = it->second;
// Erase this pointer from both collections
mPointerIdsBySlot.erase(slot);
mSlotsByPointerId.erase(pointerId);
return;
}
}
LOG_ALWAYS_FATAL("Unhandled action : %s", MotionEvent::actionToString(actionMasked).c_str());
return;
}
std::optional<size_t> SlotState::getSlotForPointerId(int32_t pointerId) const {
auto it = mSlotsByPointerId.find(pointerId);
if (it == mSlotsByPointerId.end()) {
return std::nullopt;
}
return it->second;
}
std::string SlotState::dump() const {
std::string out = "mSlotsByPointerId:\n";
out += addLinePrefix(dumpMap(mSlotsByPointerId), " ") + "\n";
out += "mPointerIdsBySlot:\n";
out += addLinePrefix(dumpMap(mPointerIdsBySlot), " ") + "\n";
return out;
}
class AndroidPalmRejectionModel : public ::ui::OneDeviceTrainNeuralStylusPalmDetectionFilterModel {
public:
AndroidPalmRejectionModel()
: ::ui::OneDeviceTrainNeuralStylusPalmDetectionFilterModel(/*default version*/ "",
std::vector<float>()) {
config_.resample_period = ::ui::kResamplePeriod;
}
};
PalmRejector::PalmRejector(const AndroidPalmFilterDeviceInfo& info,
std::unique_ptr<::ui::PalmDetectionFilter> filter)
: mSharedPalmState(std::make_unique<::ui::SharedPalmDetectionFilterState>()),
mDeviceInfo(info),
mPalmDetectionFilter(std::move(filter)) {
if (mPalmDetectionFilter != nullptr) {
// This path is used for testing. Non-testing invocations should let this constructor
// create a real PalmDetectionFilter
return;
}
std::unique_ptr<::ui::NeuralStylusPalmDetectionFilterModel> model =
std::make_unique<AndroidPalmRejectionModel>();
mPalmDetectionFilter = std::make_unique<PalmFilterImplementation>(mDeviceInfo, std::move(model),
mSharedPalmState.get());
}
std::vector<::ui::InProgressTouchEvdev> getTouches(const NotifyMotionArgs& args,
const AndroidPalmFilterDeviceInfo& deviceInfo,
const SlotState& oldSlotState,
const SlotState& newSlotState) {
std::vector<::ui::InProgressTouchEvdev> touches;
for (size_t i = 0; i < args.getPointerCount(); i++) {
const int32_t pointerId = args.pointerProperties[i].id;
touches.emplace_back(::ui::InProgressTouchEvdev());
touches.back().major = args.pointerCoords[i].getAxisValue(AMOTION_EVENT_AXIS_TOUCH_MAJOR);
touches.back().minor = args.pointerCoords[i].getAxisValue(AMOTION_EVENT_AXIS_TOUCH_MINOR);
// The field 'tool_type' is not used for palm rejection
// Whether there is new information for the touch.
touches.back().altered = true;
// Whether the touch was cancelled. Touch events should be ignored till a
// new touch is initiated.
touches.back().was_cancelled = false;
// Whether the touch is going to be canceled.
touches.back().cancelled = false;
// Whether the touch is delayed at first appearance. Will not be reported yet.
touches.back().delayed = false;
// Whether the touch was delayed before.
touches.back().was_delayed = false;
// Whether the touch is held until end or no longer held.
touches.back().held = false;
// Whether this touch was held before being sent.
touches.back().was_held = false;
const int32_t resolvedAction = resolveActionForPointer(i, args.action);
const bool isDown = resolvedAction == AMOTION_EVENT_ACTION_POINTER_DOWN ||
resolvedAction == AMOTION_EVENT_ACTION_DOWN;
touches.back().was_touching = !isDown;
const bool isUpOrCancel = resolvedAction == AMOTION_EVENT_ACTION_CANCEL ||
resolvedAction == AMOTION_EVENT_ACTION_UP ||
resolvedAction == AMOTION_EVENT_ACTION_POINTER_UP;
touches.back().x = args.pointerCoords[i].getAxisValue(AMOTION_EVENT_AXIS_X);
touches.back().y = args.pointerCoords[i].getAxisValue(AMOTION_EVENT_AXIS_Y);
std::optional<size_t> slot = newSlotState.getSlotForPointerId(pointerId);
if (!slot) {
slot = oldSlotState.getSlotForPointerId(pointerId);
}
LOG_ALWAYS_FATAL_IF(!slot, "Could not find slot for pointer %d", pointerId);
touches.back().slot = *slot;
touches.back().tracking_id = (!isUpOrCancel) ? pointerId : -1;
touches.back().touching = !isUpOrCancel;
// The fields 'radius_x' and 'radius_x' are not used for palm rejection
touches.back().pressure = args.pointerCoords[i].getAxisValue(AMOTION_EVENT_AXIS_PRESSURE);
touches.back().tool_code = getLinuxToolCode(args.pointerProperties[i].toolType);
// The field 'orientation' is not used for palm rejection
// The fields 'tilt_x' and 'tilt_y' are not used for palm rejection
// The field 'reported_tool_type' is not used for palm rejection
touches.back().stylus_button = false;
}
return touches;
}
std::set<int32_t> PalmRejector::detectPalmPointers(const NotifyMotionArgs& args) {
std::bitset<::ui::kNumTouchEvdevSlots> slotsToHold;
std::bitset<::ui::kNumTouchEvdevSlots> slotsToSuppress;
// Store the slot state before we call getTouches and update it. This way, we can find
// the slots that have been removed due to the incoming event.
SlotState oldSlotState = mSlotState;
mSlotState.update(args);
std::vector<::ui::InProgressTouchEvdev> touches =
getTouches(args, mDeviceInfo, oldSlotState, mSlotState);
::base::TimeTicks chromeTimestamp = toChromeTimestamp(args.eventTime);
if (DEBUG_MODEL) {
std::stringstream touchesStream;
for (const ::ui::InProgressTouchEvdev& touch : touches) {
touchesStream << touch.tracking_id << " : " << touch << "\n";
}
ALOGD("Filter: touches = %s", touchesStream.str().c_str());
}
mPalmDetectionFilter->Filter(touches, chromeTimestamp, &slotsToHold, &slotsToSuppress);
ALOGD_IF(DEBUG_MODEL, "Response: slotsToHold = %s, slotsToSuppress = %s",
slotsToHold.to_string().c_str(), slotsToSuppress.to_string().c_str());
// Now that we know which slots should be suppressed, let's convert those to pointer id's.
std::set<int32_t> newSuppressedIds;
for (size_t i = 0; i < args.getPointerCount(); i++) {
const int32_t pointerId = args.pointerProperties[i].id;
std::optional<size_t> slot = oldSlotState.getSlotForPointerId(pointerId);
if (!slot) {
slot = mSlotState.getSlotForPointerId(pointerId);
LOG_ALWAYS_FATAL_IF(!slot, "Could not find slot for pointer id %" PRId32, pointerId);
}
if (slotsToSuppress.test(*slot)) {
newSuppressedIds.insert(pointerId);
}
}
return newSuppressedIds;
}
std::vector<NotifyMotionArgs> PalmRejector::processMotion(const NotifyMotionArgs& args) {
if (mPalmDetectionFilter == nullptr) {
return {args};
}
const bool skipThisEvent = args.action == AMOTION_EVENT_ACTION_HOVER_ENTER ||
args.action == AMOTION_EVENT_ACTION_HOVER_MOVE ||
args.action == AMOTION_EVENT_ACTION_HOVER_EXIT ||
args.action == AMOTION_EVENT_ACTION_BUTTON_PRESS ||
args.action == AMOTION_EVENT_ACTION_BUTTON_RELEASE ||
args.action == AMOTION_EVENT_ACTION_SCROLL;
if (skipThisEvent) {
// Lets not process hover events, button events, or scroll for now.
return {args};
}
if (args.action == AMOTION_EVENT_ACTION_DOWN) {
mSuppressedPointerIds.clear();
}
std::set<int32_t> oldSuppressedIds;
std::swap(oldSuppressedIds, mSuppressedPointerIds);
std::optional<NotifyMotionArgs> touchOnlyArgs = removeStylusPointerIds(args);
if (touchOnlyArgs) {
mSuppressedPointerIds = detectPalmPointers(*touchOnlyArgs);
} else {
// This is a stylus-only event.
// We can skip this event and just keep the suppressed pointer ids the same as before.
mSuppressedPointerIds = oldSuppressedIds;
}
std::vector<NotifyMotionArgs> argsWithoutUnwantedPointers =
cancelSuppressedPointers(args, oldSuppressedIds, mSuppressedPointerIds);
for (const NotifyMotionArgs& checkArgs : argsWithoutUnwantedPointers) {
LOG_ALWAYS_FATAL_IF(checkArgs.action == ACTION_UNKNOWN, "%s", checkArgs.dump().c_str());
}
// Only log if new pointers are getting rejected. That means mSuppressedPointerIds is not a
// subset of oldSuppressedIds.
if (!std::includes(oldSuppressedIds.begin(), oldSuppressedIds.end(),
mSuppressedPointerIds.begin(), mSuppressedPointerIds.end())) {
ALOGI("Palm detected, removing pointer ids %s after %" PRId64 "ms from %s",
dumpSet(mSuppressedPointerIds).c_str(), ns2ms(args.eventTime - args.downTime),
args.dump().c_str());
}
return argsWithoutUnwantedPointers;
}
const AndroidPalmFilterDeviceInfo& PalmRejector::getPalmFilterDeviceInfo() const {
return mDeviceInfo;
}
std::string PalmRejector::dump() const {
std::string out;
out += "mDeviceInfo:\n";
std::stringstream deviceInfo;
deviceInfo << mDeviceInfo << ", touch_major_res=" << mDeviceInfo.touch_major_res
<< ", touch_minor_res=" << mDeviceInfo.touch_minor_res << "\n";
out += addLinePrefix(deviceInfo.str(), " ");
out += "mSlotState:\n";
out += addLinePrefix(mSlotState.dump(), " ");
out += "mSuppressedPointerIds: ";
out += dumpSet(mSuppressedPointerIds) + "\n";
std::stringstream state;
state << *mSharedPalmState;
out += "mSharedPalmState: " + state.str() + "\n";
std::stringstream filter;
filter << static_cast<const PalmFilterImplementation&>(*mPalmDetectionFilter);
out += "mPalmDetectionFilter:\n";
out += addLinePrefix(filter.str(), " ") + "\n";
return out;
}
} // namespace android