device_google_lynx/vibrator/cs40l26/CapoDetector.cpp

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/*
* Copyright 2022 Google LLC. All Rights Reserved.
*
* 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 "CapoDetector.h"
#include <google/protobuf/message.h>
#include <google/protobuf/io/coded_stream.h>
#include <google/protobuf/io/zero_copy_stream_impl.h>
#include <log/log.h>
#ifdef LOG_TAG
#undef LOG_TAG
#define LOG_TAG "CapoDetector"
#endif
namespace android {
namespace chre {
namespace { // anonymous namespace for file-local definitions
static capo::ConfigureDetector_ConfigData config_data = capo::ConfigureDetector_ConfigData();
static capo::ConfigureDetector msg = capo::ConfigureDetector();
/**
* Called when onConnected() to send NanoappList request.
*/
void requestNanoappList(SocketClient &client) {
flatbuffers::FlatBufferBuilder builder;
HostProtocolHost::encodeNanoappListRequest(builder);
if (!client.sendMessage(builder.GetBufferPointer(), builder.GetSize())) {
ALOGE("Failed to send NanoappList request");
}
}
} // namespace
/**
* Called when initializing connection with CHRE socket.
*/
sp<CapoDetector> CapoDetector::start() {
sp<CapoDetector> listener = new CapoDetector();
if (!listener->connectInBackground(kChreSocketName, listener)) {
ALOGE("Couldn't connect to CHRE socket");
return nullptr;
}
ALOGI("%s connect to CHRE socket.", __func__);
return listener;
}
/**
* Called when the socket is successfully (re-)connected.
* Reset the position and try to send NanoappList request.
*/
void CapoDetector::onConnected() {
flatbuffers::FlatBufferBuilder builder;
// Reset the last position type.
last_position_type_ = capo::PositionType::UNKNOWN;
requestNanoappList(*this);
}
/**
* Called when we have failed to (re-)connect the socket after many attempts
* and are giving up.
*/
void CapoDetector::onConnectionAborted() {
ALOGE("%s, Capo Aborting Connection!", __func__);
}
/**
* Invoked when the socket is disconnected, and this connection loss was not
* the result of an explicit call to disconnect().
* Reset the position while disconnecting.
*/
void CapoDetector::onDisconnected() {
last_position_type_ = capo::PositionType::UNKNOWN;
}
/**
* Decode unix socket msgs to CHRE messages, and call the appropriate
* callback depending on the CHRE message.
*/
void CapoDetector::onMessageReceived(const void *data, size_t length) {
if (!HostProtocolHost::decodeMessageFromChre(data, length, *this)) {
ALOGE("Failed to decode message");
}
}
/**
* Listen for messages from capo nanoapp and handle the message.
*/
void CapoDetector::handleNanoappMessage(const fbs::NanoappMessageT &message) {
ALOGI("%s, Id %" PRIu64 ", type %d, size %d", __func__, message.app_id, message.message_type,
static_cast<int>(message.message.size()));
// Exclude the message with unmatched nanoapp id.
if (message.app_id != kCapoNanoappId)
return;
// Handle the message with message_type.
switch (message.message_type) {
case capo::MessageType::ACK_NOTIFICATION: {
capo::AckNotification gd;
gd.set_notification_type(static_cast<capo::NotificationType>(message.message[1]));
ALOGD("%s, get notification event from capo nanoapp, type %d", __func__,
gd.notification_type());
break;
}
case capo::MessageType::POSITION_DETECTED: {
capo::PositionDetected gd;
gd.set_position_type(static_cast<capo::PositionType>(message.message[1]));
ALOGD("%s, get position event from capo nanoapp, type %d", __func__,
gd.position_type());
// Callback to function while getting carried position event.
if (callback_func_ != nullptr) {
last_position_type_ = gd.position_type();
ALOGD("%s, sent position type %d to callback function", __func__,
last_position_type_);
callback_func_(last_position_type_);
}
break;
}
default:
ALOGE("%s, get invalid message, type: %" PRIu32 ", from capo nanoapp.", __func__,
message.message_type);
break;
}
}
/**
* Handle the response of a NanoappList request.
* Ensure that capo nanoapp is running.
*/
void CapoDetector::handleNanoappListResponse(const fbs::NanoappListResponseT &response) {
for (const std::unique_ptr<fbs::NanoappListEntryT> &nanoapp : response.nanoapps) {
if (nanoapp->app_id == kCapoNanoappId) {
if (nanoapp->enabled)
enable();
else
ALOGE("Capo nanoapp not enabled");
return;
}
}
ALOGE("Capo nanoapp not found");
}
/**
* Send enabling message to the nanoapp.
*/
void CapoDetector::enable() {
// Create CHRE message with serialized message
flatbuffers::FlatBufferBuilder builder, config_builder, force_builder;
config_data.set_still_time_threshold_nanosecond(mCapoDetectorMDParameters.still_time_threshold_ns);
config_data.set_window_width_nanosecond(mCapoDetectorMDParameters.window_width_ns);
config_data.set_motion_confidence_threshold(mCapoDetectorMDParameters.motion_confidence_threshold);
config_data.set_still_confidence_threshold(mCapoDetectorMDParameters.still_confidence_threshold);
config_data.set_var_threshold(mCapoDetectorMDParameters.var_threshold);
config_data.set_var_threshold_delta(mCapoDetectorMDParameters.var_threshold_delta);
msg.set_allocated_config_data(&config_data);
auto pb_size = msg.ByteSizeLong();
auto pb_data = std::make_unique<uint8_t[]>(pb_size);
if (!msg.SerializeToArray(pb_data.get(), pb_size)) {
ALOGE("Failed to serialize message.");
}
ALOGI("Configuring CapoDetector");
// Configure the detector from host-side
android::chre::HostProtocolHost::encodeNanoappMessage(
config_builder, getNanoppAppId(), capo::MessageType::CONFIGURE_DETECTOR, getHostEndPoint(),
pb_data.get(), pb_size);
ALOGI("Sending capo config message to Nanoapp, %" PRIu32 " bytes", config_builder.GetSize());
if (!sendMessage(config_builder.GetBufferPointer(), config_builder.GetSize())) {
ALOGE("Failed to send config event for capo nanoapp");
}
ALOGI("Enabling CapoDetector");
android::chre::HostProtocolHost::encodeNanoappMessage(
builder, getNanoppAppId(), capo::MessageType::ENABLE_DETECTOR, getHostEndPoint(),
/*messageData*/ nullptr, /*messageDataLenbuffer*/ 0);
ALOGI("Sending enable message to Nanoapp, %" PRIu32 " bytes", builder.GetSize());
if (!sendMessage(builder.GetBufferPointer(), builder.GetSize())) {
ALOGE("Failed to send enable event for capo nanoapp");
}
ALOGI("Forcing CapoDetector to update state");
// Force an updated state upon connection
android::chre::HostProtocolHost::encodeNanoappMessage(
force_builder, getNanoppAppId(), capo::MessageType::FORCE_UPDATE, getHostEndPoint(),
/*messageData*/ nullptr, /*messageDataLenbuffer*/ 0);
ALOGI("Sending force-update message to Nanoapp, %" PRIu32 " bytes", force_builder.GetSize());
if (!sendMessage(force_builder.GetBufferPointer(), force_builder.GetSize())) {
ALOGE("Failed to send force-update event for capo nanoapp");
}
}
} // namespace chre
} // namespace android