/*
* Copyright 2024 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.
*/
#include "AndroidInputEventProtoConverter.h"
#include <android-base/logging.h>
#include <perfetto/trace/android/android_input_event.pbzero.h>
namespace android::inputdispatcher::trace {
namespace {
using namespace ftl::flag_operators;
// The trace config to use for maximal tracing.
const impl::TraceConfig CONFIG_TRACE_ALL{
.flags = impl::TraceFlag::TRACE_DISPATCHER_INPUT_EVENTS |
impl::TraceFlag::TRACE_DISPATCHER_WINDOW_DISPATCH,
.rules = {impl::TraceRule{.level = impl::TraceLevel::TRACE_LEVEL_COMPLETE,
.matchAllPackages = {},
.matchAnyPackages = {},
.matchSecure{},
.matchImeConnectionActive = {}}},
};
} // namespace
void AndroidInputEventProtoConverter::toProtoMotionEvent(const TracedMotionEvent& event,
proto::AndroidMotionEvent& outProto,
bool isRedacted) {
outProto.set_event_id(event.id);
outProto.set_event_time_nanos(event.eventTime);
outProto.set_down_time_nanos(event.downTime);
outProto.set_source(event.source);
outProto.set_action(event.action);
outProto.set_device_id(event.deviceId);
outProto.set_display_id(event.displayId.val());
outProto.set_classification(static_cast<int32_t>(event.classification));
outProto.set_flags(event.flags);
outProto.set_policy_flags(event.policyFlags);
if (!isRedacted) {
outProto.set_cursor_position_x(event.xCursorPosition);
outProto.set_cursor_position_y(event.yCursorPosition);
outProto.set_meta_state(event.metaState);
}
for (uint32_t i = 0; i < event.pointerProperties.size(); i++) {
auto* pointer = outProto.add_pointer();
const auto& props = event.pointerProperties[i];
pointer->set_pointer_id(props.id);
pointer->set_tool_type(static_cast<int32_t>(props.toolType));
const auto& coords = event.pointerCoords[i];
auto bits = BitSet64(coords.bits);
for (int32_t axisIndex = 0; !bits.isEmpty(); axisIndex++) {
const auto axis = bits.clearFirstMarkedBit();
auto axisEntry = pointer->add_axis_value();
axisEntry->set_axis(axis);
if (!isRedacted) {
axisEntry->set_value(coords.values[axisIndex]);
}
}
}
}
void AndroidInputEventProtoConverter::toProtoKeyEvent(const TracedKeyEvent& event,
proto::AndroidKeyEvent& outProto,
bool isRedacted) {
outProto.set_event_id(event.id);
outProto.set_event_time_nanos(event.eventTime);
outProto.set_down_time_nanos(event.downTime);
outProto.set_source(event.source);
outProto.set_action(event.action);
outProto.set_device_id(event.deviceId);
outProto.set_display_id(event.displayId.val());
outProto.set_repeat_count(event.repeatCount);
outProto.set_flags(event.flags);
outProto.set_policy_flags(event.policyFlags);
if (!isRedacted) {
outProto.set_key_code(event.keyCode);
outProto.set_scan_code(event.scanCode);
outProto.set_meta_state(event.metaState);
}
}
void AndroidInputEventProtoConverter::toProtoWindowDispatchEvent(
const WindowDispatchArgs& args, proto::AndroidWindowInputDispatchEvent& outProto,
bool isRedacted) {
std::visit([&](auto entry) { outProto.set_event_id(entry.id); }, args.eventEntry);
outProto.set_vsync_id(args.vsyncId);
outProto.set_window_id(args.windowId);
outProto.set_resolved_flags(args.resolvedFlags);
if (isRedacted) {
return;
}
if (auto* motion = std::get_if<TracedMotionEvent>(&args.eventEntry); motion != nullptr) {
for (size_t i = 0; i < motion->pointerProperties.size(); i++) {
auto* pointerProto = outProto.add_dispatched_pointer();
pointerProto->set_pointer_id(motion->pointerProperties[i].id);
const auto rawXY =
MotionEvent::calculateTransformedXY(motion->source, args.rawTransform,
motion->pointerCoords[i].getXYValue());
pointerProto->set_x_in_display(rawXY.x);
pointerProto->set_y_in_display(rawXY.y);
const auto& coords = motion->pointerCoords[i];
const auto coordsInWindow =
MotionEvent::calculateTransformedCoords(motion->source, motion->flags,
args.transform, coords);
auto bits = BitSet64(coords.bits);
for (int32_t axisIndex = 0; !bits.isEmpty(); axisIndex++) {
const uint32_t axis = bits.clearFirstMarkedBit();
const float axisValueInWindow = coordsInWindow.values[axisIndex];
if (coords.values[axisIndex] != axisValueInWindow) {
auto* axisEntry = pointerProto->add_axis_value_in_window();
axisEntry->set_axis(axis);
axisEntry->set_value(axisValueInWindow);
}
}
}
}
}
impl::TraceConfig AndroidInputEventProtoConverter::parseConfig(
proto::AndroidInputEventConfig::Decoder& protoConfig) {
if (protoConfig.has_mode() &&
protoConfig.mode() == proto::AndroidInputEventConfig::TRACE_MODE_TRACE_ALL) {
// User has requested the preset for maximal tracing
return CONFIG_TRACE_ALL;
}
impl::TraceConfig config;
// Parse trace flags
if (protoConfig.has_trace_dispatcher_input_events() &&
protoConfig.trace_dispatcher_input_events()) {
config.flags |= impl::TraceFlag::TRACE_DISPATCHER_INPUT_EVENTS;
}
if (protoConfig.has_trace_dispatcher_window_dispatch() &&
protoConfig.trace_dispatcher_window_dispatch()) {
config.flags |= impl::TraceFlag::TRACE_DISPATCHER_WINDOW_DISPATCH;
}
// Parse trace rules
auto rulesIt = protoConfig.rules();
while (rulesIt) {
proto::AndroidInputEventConfig::TraceRule::Decoder protoRule{rulesIt->as_bytes()};
config.rules.emplace_back();
auto& rule = config.rules.back();
rule.level = protoRule.has_trace_level()
? static_cast<impl::TraceLevel>(protoRule.trace_level())
: impl::TraceLevel::TRACE_LEVEL_NONE;
if (protoRule.has_match_all_packages()) {
auto pkgIt = protoRule.match_all_packages();
while (pkgIt) {
rule.matchAllPackages.emplace_back(pkgIt->as_std_string());
pkgIt++;
}
}
if (protoRule.has_match_any_packages()) {
auto pkgIt = protoRule.match_any_packages();
while (pkgIt) {
rule.matchAnyPackages.emplace_back(pkgIt->as_std_string());
pkgIt++;
}
}
if (protoRule.has_match_secure()) {
rule.matchSecure = protoRule.match_secure();
}
if (protoRule.has_match_ime_connection_active()) {
rule.matchImeConnectionActive = protoRule.match_ime_connection_active();
}
rulesIt++;
}
return config;
}
} // namespace android::inputdispatcher::trace