media/eco/ECOSession.cpp - platform/hardware/google/av - Git at Google

 /*
  * Copyright (C) 2019 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_NDEBUG 0
 #define LOG_TAG "ECOSession"
 //#define DEBUG_ECO_SESSION
 #include "eco/ECOSession.h"

 #include <binder/BinderService.h>
 #include <cutils/atomic.h>
 #include <inttypes.h>
 #include <pthread.h>
 #include <stdio.h>
 #include <sys/types.h>
 #include <utils/Log.h>

 #include <algorithm>
 #include <climits>
 #include <cstring>
 #include <ctime>
 #include <string>

 #include "eco/ECODataKey.h"
 #include "eco/ECODebug.h"

 namespace android {
 namespace media {
 namespace eco {

 using android::binder::Status;
 using android::sp;

 #define RETURN_IF_ERROR(expr)         \
     {                                 \
         status_t _errorCode = (expr); \
         if (_errorCode != true) {     \
             return _errorCode;        \
         }                             \
     }

 // static
 sp<ECOSession> ECOSession::createECOSession(int32_t width, int32_t height, bool isCameraRecording) {
     // Only support up to 1080P.
     // TODO: Support the same resolution as in EAF.
     if (width <= 0 || height <= 0 || width > 5120 || height > 5120 ||
         width > 1920 * 1088 / height) {
         ECOLOGE("Failed to create ECOSession with w: %d, h: %d, isCameraRecording: %d", width,
                 height, isCameraRecording);
         return nullptr;
     }
     return new ECOSession(width, height, isCameraRecording);
 }

 ECOSession::ECOSession(int32_t width, int32_t height, bool isCameraRecording)
       : BnECOSession(),
         mStopThread(false),
         mLastReportedQp(0),
         mListener(nullptr),
         mProvider(nullptr),
         mWidth(width),
         mHeight(height),
         mIsCameraRecording(isCameraRecording) {
     ECOLOGI("ECOSession created with w: %d, h: %d, isCameraRecording: %d", mWidth, mHeight,
             mIsCameraRecording);
     mThread = std::thread(startThread, this);

     // Read the debug properies.
     mLogStats = property_get_bool(kDebugLogStats, false);
     mLogStatsEntries = mLogStats ? property_get_int32(kDebugLogStatsSize, 0) : 0;

     mLogInfo = property_get_bool(kDebugLogStats, false);
     mLogInfoEntries = mLogInfo ? property_get_int32(kDebugLogInfosSize, 0) : 0;

     ECOLOGI("ECOSession debug settings: logStats: %s, entries: %d, logInfo: %s entries: %d",
             mLogStats ? "true" : "false", mLogStatsEntries, mLogInfo ? "true" : "false",
             mLogInfoEntries);
 }

 ECOSession::~ECOSession() {
     mStopThread = true;

     mWorkerWaitCV.notify_all();
     if (mThread.joinable()) {
         ECOLOGD("ECOSession: join the thread");
         mThread.join();
     }
     ECOLOGI("ECOSession destroyed with w: %d, h: %d, isCameraRecording: %d", mWidth, mHeight,
             mIsCameraRecording);
 }

 // static
 void ECOSession::startThread(ECOSession* session) {
     session->run();
 }

 void ECOSession::run() {
     ECOLOGD("ECOSession: starting main thread");

     while (!mStopThread) {
         std::unique_lock<std::mutex> runLock(mStatsQueueLock);

         mWorkerWaitCV.wait(runLock, [this] {
             return mStopThread == true || !mStatsQueue.empty() || mNewListenerAdded;
         });

         if (mStopThread) return;

         std::scoped_lock<std::mutex> lock(mSessionLock);
         if (mNewListenerAdded) {
             // Check if there is any session info available.
             ECOData sessionInfo = generateLatestSessionInfoEcoData();
             if (!sessionInfo.isEmpty()) {
                 Status status = mListener->onNewInfo(sessionInfo);
                 if (!status.isOk()) {
                     ECOLOGE("%s: Failed to publish info: %s due to binder error", __FUNCTION__,
                             sessionInfo.debugString().c_str());
                     // Remove the listener. The lock has been acquired outside this function.
                     mListener = nullptr;
                 }
             }
             mNewListenerAdded = false;
         }

         if (!mStatsQueue.empty()) {
             ECOData stats = mStatsQueue.front();
             mStatsQueue.pop_front();
             processStats(stats);  // TODO: Handle the error from processStats
         }
     }

     ECOLOGD("ECOSession: exiting main thread");
 }

 bool ECOSession::processStats(const ECOData& stats) {
     ECOLOGV("%s: receive stats: %s", __FUNCTION__, stats.debugString().c_str());

     if (stats.getDataType() != ECOData::DATA_TYPE_STATS) {
         ECOLOGE("Invalid stats. ECOData with type: %s", stats.getDataTypeString().c_str());
         return false;
     }

     // Get the type of the stats.
     std::string statsType;
     if (stats.findString(KEY_STATS_TYPE, &statsType) != ECODataStatus::OK) {
         ECOLOGE("Invalid stats ECOData without statsType");
         return false;
     }

     if (statsType.compare(VALUE_STATS_TYPE_SESSION) == 0) {
         processSessionStats(stats);
     } else if (statsType.compare(VALUE_STATS_TYPE_FRAME) == 0) {
         processFrameStats(stats);
     } else {
         ECOLOGE("processStats:: Failed to process stats as ECOData contains unknown stats type");
         return false;
     }

     return true;
 }

 void ECOSession::processSessionStats(const ECOData& stats) {
     ECOLOGV("processSessionStats");

     ECOData info(ECOData::DATA_TYPE_INFO, systemTime(SYSTEM_TIME_BOOTTIME));
     info.setString(KEY_INFO_TYPE, VALUE_INFO_TYPE_SESSION);

     ECODataKeyValueIterator iter(stats);
     while (iter.hasNext()) {
         ECOData::ECODataKeyValuePair entry = iter.next();
         const std::string& key = entry.first;
         const ECOData::ECODataValueType value = entry.second;
         ECOLOGV("Processing key: %s", key.c_str());
         if (!key.compare(KEY_STATS_TYPE)) {
             // Skip the key KEY_STATS_TYPE as that has been parsed already.
             continue;
         } else if (!key.compare(ENCODER_TYPE)) {
             mCodecType = std::get<int32_t>(value);
             ECOLOGV("codec type is %d", mCodecType);
         } else if (!key.compare(ENCODER_PROFILE)) {
             mCodecProfile = std::get<int32_t>(value);
             ECOLOGV("codec profile is %d", mCodecProfile);
         } else if (!key.compare(ENCODER_LEVEL)) {
             mCodecLevel = std::get<int32_t>(value);
             ECOLOGV("codec level is %d", mCodecLevel);
         } else if (!key.compare(ENCODER_TARGET_BITRATE_BPS)) {
             mTargetBitrateBps = std::get<int32_t>(value);
             ECOLOGV("codec target bitrate is %d", mTargetBitrateBps);
         } else if (!key.compare(ENCODER_KFI_FRAMES)) {
             mKeyFrameIntervalFrames = std::get<int32_t>(value);
             ECOLOGV("codec kfi is %d", mKeyFrameIntervalFrames);
         } else if (!key.compare(ENCODER_FRAMERATE_FPS)) {
             mFramerateFps = std::get<float>(value);
             ECOLOGV("codec framerate is %f", mFramerateFps);
         } else if (!key.compare(ENCODER_INPUT_WIDTH)) {
             int32_t width = std::get<int32_t>(value);
             if (width != mWidth) {
                 ECOLOGW("Codec width: %d, expected: %d", width, mWidth);
             }
             ECOLOGV("codec input width is %d", width);
         } else if (!key.compare(ENCODER_INPUT_HEIGHT)) {
             int32_t height = std::get<int32_t>(value);
             if (height != mHeight) {
                 ECOLOGW("Codec height: %d, expected: %d", height, mHeight);
             }
             ECOLOGV("codec input height is %d", height);
         } else if (!key.compare(ENCODER_OUTPUT_WIDTH)) {
             mOutputWidth = std::get<int32_t>(value);
             if (mOutputWidth != mWidth) {
                 ECOLOGW("Codec output width: %d, expected: %d", mOutputWidth, mWidth);
             }
             ECOLOGV("codec output width is %d", mOutputWidth);
         } else if (!key.compare(ENCODER_OUTPUT_HEIGHT)) {
             mOutputHeight = std::get<int32_t>(value);
             if (mOutputHeight != mHeight) {
                 ECOLOGW("Codec output height: %d, expected: %d", mOutputHeight, mHeight);
             }
             ECOLOGV("codec output height is %d", mOutputHeight);
         } else {
             ECOLOGW("Unknown session stats key %s from provider.", key.c_str());
             continue;
         }
         info.set(key, value);
     }

     if (mListener != nullptr) {
         Status status = mListener->onNewInfo(info);
         if (!status.isOk()) {
             ECOLOGE("%s: Failed to publish info: %s due to binder error", __FUNCTION__,
                     info.debugString().c_str());
             // Remove the listener. The lock has been acquired outside this function.
             mListener = nullptr;
         }
     }
 }

 ECOData ECOSession::generateLatestSessionInfoEcoData() {
     bool hasInfo = false;

     ECOData info(ECOData::DATA_TYPE_INFO, systemTime(SYSTEM_TIME_BOOTTIME));

     if (mOutputWidth != -1) {
         info.setInt32(ENCODER_OUTPUT_WIDTH, mOutputWidth);
         hasInfo = true;
     }

     if (mOutputHeight != -1) {
         info.setInt32(ENCODER_OUTPUT_HEIGHT, mOutputHeight);
         hasInfo = true;
     }

     if (mCodecType != -1) {
         info.setInt32(ENCODER_TYPE, mCodecType);
         hasInfo = true;
     }

     if (mCodecProfile != -1) {
         info.setInt32(ENCODER_PROFILE, mCodecProfile);
         hasInfo = true;
     }

     if (mCodecLevel != -1) {
         info.setInt32(ENCODER_LEVEL, mCodecLevel);
         hasInfo = true;
     }

     if (mTargetBitrateBps != -1) {
         info.setInt32(ENCODER_TARGET_BITRATE_BPS, mTargetBitrateBps);
         hasInfo = true;
     }

     if (mKeyFrameIntervalFrames != -1) {
         info.setInt32(ENCODER_KFI_FRAMES, mKeyFrameIntervalFrames);
         hasInfo = true;
     }

     if (mFramerateFps > 0) {
         info.setFloat(ENCODER_FRAMERATE_FPS, mFramerateFps);
         hasInfo = true;
     }

     if (hasInfo) {
         info.setString(KEY_INFO_TYPE, VALUE_INFO_TYPE_SESSION);
     }
     return info;
 }

 void ECOSession::processFrameStats(const ECOData& stats) {
     ECOLOGD("processFrameStats");

     bool needToNotifyListener = false;
     ECOData info(ECOData::DATA_TYPE_INFO, systemTime(SYSTEM_TIME_BOOTTIME));
     info.setString(KEY_INFO_TYPE, VALUE_INFO_TYPE_FRAME);

     ECODataKeyValueIterator iter(stats);
     while (iter.hasNext()) {
         ECOData::ECODataKeyValuePair entry = iter.next();
         const std::string& key = entry.first;
         const ECOData::ECODataValueType value = entry.second;
         ECOLOGD("Processing %s key", key.c_str());

         if (!key.compare(KEY_STATS_TYPE)) {
             // Skip the key KEY_STATS_TYPE as that has been parsed already.
             continue;
         } else if (!key.compare(FRAME_NUM) || !key.compare(FRAME_PTS_US) ||
                    !key.compare(FRAME_TYPE) || !key.compare(FRAME_SIZE_BYTES) ||
                    !key.compare(ENCODER_ACTUAL_BITRATE_BPS) ||
                    !key.compare(ENCODER_FRAMERATE_FPS)) {
             // Only process the keys that are supported by ECOService 1.0.
             info.set(key, value);
         } else if (!key.compare(FRAME_AVG_QP)) {
             // Check the qp to see if need to notify the listener.
             const int32_t currAverageQp = std::get<int32_t>(value);

             // Check if the delta between current QP and last reported QP is larger than the
             // threshold specified by the listener.
             const bool largeQPChangeDetected =
                     abs(currAverageQp - mLastReportedQp) > mListenerQpCondition.mQpChangeThreshold;

             // Check if the qp is going from below threshold to beyond threshold.
             const bool exceedQpBlockinessThreshold =
                     (mLastReportedQp <= mListenerQpCondition.mQpBlocknessThreshold &&
                      currAverageQp > mListenerQpCondition.mQpBlocknessThreshold);

             // Check if the qp is going from beyond threshold to below threshold.
             const bool fallBelowQpBlockinessThreshold =
                     (mLastReportedQp > mListenerQpCondition.mQpBlocknessThreshold &&
                      currAverageQp <= mListenerQpCondition.mQpBlocknessThreshold);

             // Notify the listener if any of the above three conditions met.
             if (largeQPChangeDetected || exceedQpBlockinessThreshold ||
                 fallBelowQpBlockinessThreshold) {
                 mLastReportedQp = currAverageQp;
                 needToNotifyListener = true;
             }

             info.set(key, value);
         } else {
             ECOLOGW("Unknown frame stats key %s from provider.", key.c_str());
         }
     }

     if (needToNotifyListener && mListener != nullptr) {
         Status status = mListener->onNewInfo(info);
         if (!status.isOk()) {
             ECOLOGE("%s: Failed to publish info: %s due to binder error", __FUNCTION__,
                     info.debugString().c_str());
             // Remove the listener. The lock has been acquired outside this function.
             mListener = nullptr;
         }
     }
 }

 Status ECOSession::getIsCameraRecording(bool* _aidl_return) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     *_aidl_return = mIsCameraRecording;
     return binder::Status::ok();
 }

 Status ECOSession::addStatsProvider(
         const sp<::android::media::eco::IECOServiceStatsProvider>& provider,
         const ::android::media::eco::ECOData& config, bool* status) {
     ::android::String16 name;
     Status result = provider->getName(&name);
     if (!result.isOk()) {
         // This binder transaction failure may due to permission issue.
         *status = false;
         ALOGE("Failed to get provider name");
         return STATUS_ERROR(ERROR_PERMISSION_DENIED, "Failed to get provider name");
     }

     ECOLOGV("Try to add stats provider name: %s uid: %d pid %d", ::android::String8(name).string(),
             IPCThreadState::self()->getCallingUid(), IPCThreadState::self()->getCallingPid());

     if (provider == nullptr) {
         ECOLOGE("%s: provider must not be null", __FUNCTION__);
         *status = false;
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Null provider given to addStatsProvider");
     }

     std::scoped_lock<std::mutex> lock(mSessionLock);

     if (mProvider != nullptr) {
         ::android::String16 name;
         mProvider->getName(&name);
         String8 errorMsg = String8::format(
                 "ECOService 1.0 only supports one stats provider, current provider: %s",
                 ::android::String8(name).string());
         ECOLOGE("%s", errorMsg.string());
         *status = false;
         return STATUS_ERROR(ERROR_ALREADY_EXISTS, errorMsg.string());
     }

     // TODO: Handle the provider config.
     if (config.getDataType() != ECOData::DATA_TYPE_STATS_PROVIDER_CONFIG) {
         ECOLOGE("Provider config is invalid");
         *status = false;
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Provider config is invalid");
     }

     mProvider = provider;
     mProviderName = name;
     *status = true;
     return binder::Status::ok();
 }

 Status ECOSession::removeStatsProvider(
         const sp<::android::media::eco::IECOServiceStatsProvider>& provider, bool* status) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     // Check if the provider is the same as current provider for the session.
     if (IInterface::asBinder(provider) != IInterface::asBinder(mProvider)) {
         *status = false;
         ECOLOGE("Failed to remove provider");
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Provider does not match");
     }

     mProvider = nullptr;
     *status = true;
     return binder::Status::ok();
 }

 Status ECOSession::addInfoListener(
         const sp<::android::media::eco::IECOServiceInfoListener>& listener,
         const ::android::media::eco::ECOData& config, bool* status) {
     ALOGV("%s: Add listener %p", __FUNCTION__, listener.get());
     std::scoped_lock<std::mutex> lock(mSessionLock);

     ::android::String16 name;
     Status result = listener->getName(&name);
     if (!result.isOk()) {
         // This binder transaction failure may due to permission issue.
         *status = false;
         ALOGE("Failed to get listener name");
         return STATUS_ERROR(ERROR_PERMISSION_DENIED, "Failed to get listener name");
     }

     if (mListener != nullptr) {
         ECOLOGE("ECOService 1.0 only supports one listener");
         *status = false;
         return STATUS_ERROR(ERROR_ALREADY_EXISTS, "ECOService 1.0 only supports one listener");
     }

     if (listener == nullptr) {
         ECOLOGE("%s: listener must not be null", __FUNCTION__);
         *status = false;
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Null listener given to addInfoListener");
     }

     if (config.getDataType() != ECOData::DATA_TYPE_INFO_LISTENER_CONFIG) {
         *status = false;
         ECOLOGE("%s: listener config is invalid", __FUNCTION__);
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "listener config is invalid");
     }

     if (config.isEmpty()) {
         *status = false;
         ECOLOGE("Listener must provide listening criterion");
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "listener config is empty");
     }

     // For ECOService 1.0, listener must specify the two threshold in order to receive info.
     if (config.findInt32(KEY_LISTENER_QP_BLOCKINESS_THRESHOLD,
                          &mListenerQpCondition.mQpBlocknessThreshold) != ECODataStatus::OK ||
         config.findInt32(KEY_LISTENER_QP_CHANGE_THRESHOLD,
                          &mListenerQpCondition.mQpChangeThreshold) != ECODataStatus::OK ||
         mListenerQpCondition.mQpBlocknessThreshold < ENCODER_MIN_QP ||
         mListenerQpCondition.mQpBlocknessThreshold > ENCODER_MAX_QP) {
         *status = false;
         ECOLOGE("%s: listener config is invalid", __FUNCTION__);
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "listener config is not valid");
     }

     ECOLOGD("Info listener name: %s uid: %d pid %d", ::android::String8(name).string(),
             IPCThreadState::self()->getCallingUid(), IPCThreadState::self()->getCallingPid());

     mListener = listener;
     mListenerName = name;
     mNewListenerAdded = true;
     mWorkerWaitCV.notify_all();

     *status = true;
     return binder::Status::ok();
 }

 Status ECOSession::removeInfoListener(
         const sp<::android::media::eco::IECOServiceInfoListener>& listener, bool* _aidl_return) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     // Check if the listener is the same as current listener for the session.
     if (IInterface::asBinder(listener) != IInterface::asBinder(mListener)) {
         *_aidl_return = false;
         ECOLOGE("Failed to remove listener");
         return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Listener does not match");
     }

     mListener = nullptr;
     mNewListenerAdded = false;
     *_aidl_return = true;
     return binder::Status::ok();
 }

 Status ECOSession::pushNewStats(const ::android::media::eco::ECOData& stats, bool* _aidl_return) {
     ECOLOGV("ECOSession get new stats type: %s", stats.getDataTypeString().c_str());
     std::unique_lock<std::mutex> lock(mStatsQueueLock);
     mStatsQueue.push_back(stats);
     mWorkerWaitCV.notify_all();
     *_aidl_return = true;
     return binder::Status::ok();
 }

 Status ECOSession::getWidth(int32_t* _aidl_return) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     *_aidl_return = mWidth;
     return binder::Status::ok();
 }

 Status ECOSession::getHeight(int32_t* _aidl_return) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     *_aidl_return = mHeight;
     return binder::Status::ok();
 }

 Status ECOSession::getNumOfListeners(int32_t* _aidl_return) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     *_aidl_return = (mListener == nullptr ? 0 : 1);
     return binder::Status::ok();
 }

 Status ECOSession::getNumOfProviders(int32_t* _aidl_return) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     *_aidl_return = (mProvider == nullptr ? 0 : 1);
     return binder::Status::ok();
 }

 /*virtual*/ void ECOSession::binderDied(const wp<IBinder>& /*who*/) {
     ECOLOGV("binderDied");
 }

 status_t ECOSession::dump(int fd, const Vector<String16>& /*args*/) {
     std::scoped_lock<std::mutex> lock(mSessionLock);
     dprintf(fd, "\n== Session Info: ==\n\n");
     dprintf(fd,
             "Width: %d Height: %d isCameraRecording: %d, target-bitrate: %d bps codetype: %d "
             "profile: %d level: %d\n",
             mWidth, mHeight, mIsCameraRecording, mTargetBitrateBps, mCodecType, mCodecProfile,
             mCodecLevel);
     if (mProvider != nullptr) {
         dprintf(fd, "Provider: %s \n", ::android::String8(mProviderName).string());
     }
     if (mListener != nullptr) {
         dprintf(fd, "Listener: %s \n", ::android::String8(mListenerName).string());
     }
     dprintf(fd, "\n===================\n\n");

     return NO_ERROR;
 }

 void ECOSession::logStats(const ECOData& data) {
     // Check if mLogStats is true;
     if (!mLogStats || mLogStatsEntries == 0) return;

     // Check if we need to remove the old entry.
     if (mStatsDebugBuffer.size() >= mLogStatsEntries) {
         mStatsDebugBuffer.pop_front();
     }

     mStatsDebugBuffer.push_back(data);
 }

 void ECOSession::logInfos(const ECOData& data) {
     // Check if mLogInfo is true;
     if (!mLogInfo || mLogInfoEntries == 0) return;

     // Check if we need to remove the old entry.
     if (mInfosDebugBuffer.size() >= mLogInfoEntries) {
         mInfosDebugBuffer.pop_front();
     }

     mInfosDebugBuffer.push_back(data);
 }

 }  // namespace eco
 }  // namespace media
 }  // namespace android
	/*
	* Copyright (C) 2019 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_NDEBUG 0
	#define LOG_TAG "ECOSession"
	//#define DEBUG_ECO_SESSION
	#include "eco/ECOSession.h"

	#include <binder/BinderService.h>
	#include <cutils/atomic.h>
	#include <inttypes.h>
	#include <pthread.h>
	#include <stdio.h>
	#include <sys/types.h>
	#include <utils/Log.h>

	#include <algorithm>
	#include <climits>
	#include <cstring>
	#include <ctime>
	#include <string>

	#include "eco/ECODataKey.h"
	#include "eco/ECODebug.h"

	namespace android {
	namespace media {
	namespace eco {

	using android::binder::Status;
	using android::sp;

	#define RETURN_IF_ERROR(expr) \
	{ \
	status_t _errorCode = (expr); \
	if (_errorCode != true) { \
	return _errorCode; \
	} \
	}

	// static
	sp<ECOSession> ECOSession::createECOSession(int32_t width, int32_t height, bool isCameraRecording) {
	// Only support up to 1080P.
	// TODO: Support the same resolution as in EAF.
	if (width <= 0 \|\| height <= 0 \|\| width > 5120 \|\| height > 5120 \|\|
	width > 1920 * 1088 / height) {
	ECOLOGE("Failed to create ECOSession with w: %d, h: %d, isCameraRecording: %d", width,
	height, isCameraRecording);
	return nullptr;
	}
	return new ECOSession(width, height, isCameraRecording);
	}

	ECOSession::ECOSession(int32_t width, int32_t height, bool isCameraRecording)
	: BnECOSession(),
	mStopThread(false),
	mLastReportedQp(0),
	mListener(nullptr),
	mProvider(nullptr),
	mWidth(width),
	mHeight(height),
	mIsCameraRecording(isCameraRecording) {
	ECOLOGI("ECOSession created with w: %d, h: %d, isCameraRecording: %d", mWidth, mHeight,
	mIsCameraRecording);
	mThread = std::thread(startThread, this);

	// Read the debug properies.
	mLogStats = property_get_bool(kDebugLogStats, false);
	mLogStatsEntries = mLogStats ? property_get_int32(kDebugLogStatsSize, 0) : 0;

	mLogInfo = property_get_bool(kDebugLogStats, false);
	mLogInfoEntries = mLogInfo ? property_get_int32(kDebugLogInfosSize, 0) : 0;

	ECOLOGI("ECOSession debug settings: logStats: %s, entries: %d, logInfo: %s entries: %d",
	mLogStats ? "true" : "false", mLogStatsEntries, mLogInfo ? "true" : "false",
	mLogInfoEntries);
	}

	ECOSession::~ECOSession() {
	mStopThread = true;

	mWorkerWaitCV.notify_all();
	if (mThread.joinable()) {
	ECOLOGD("ECOSession: join the thread");
	mThread.join();
	}
	ECOLOGI("ECOSession destroyed with w: %d, h: %d, isCameraRecording: %d", mWidth, mHeight,
	mIsCameraRecording);
	}

	// static
	void ECOSession::startThread(ECOSession* session) {
	session->run();
	}

	void ECOSession::run() {
	ECOLOGD("ECOSession: starting main thread");

	while (!mStopThread) {
	std::unique_lock<std::mutex> runLock(mStatsQueueLock);

	mWorkerWaitCV.wait(runLock, [this] {
	return mStopThread == true \|\| !mStatsQueue.empty() \|\| mNewListenerAdded;
	});

	if (mStopThread) return;

	std::scoped_lock<std::mutex> lock(mSessionLock);
	if (mNewListenerAdded) {
	// Check if there is any session info available.
	ECOData sessionInfo = generateLatestSessionInfoEcoData();
	if (!sessionInfo.isEmpty()) {
	Status status = mListener->onNewInfo(sessionInfo);
	if (!status.isOk()) {
	ECOLOGE("%s: Failed to publish info: %s due to binder error", __FUNCTION__,
	sessionInfo.debugString().c_str());
	// Remove the listener. The lock has been acquired outside this function.
	mListener = nullptr;
	}
	}
	mNewListenerAdded = false;
	}

	if (!mStatsQueue.empty()) {
	ECOData stats = mStatsQueue.front();
	mStatsQueue.pop_front();
	processStats(stats); // TODO: Handle the error from processStats
	}
	}

	ECOLOGD("ECOSession: exiting main thread");
	}

	bool ECOSession::processStats(const ECOData& stats) {
	ECOLOGV("%s: receive stats: %s", __FUNCTION__, stats.debugString().c_str());

	if (stats.getDataType() != ECOData::DATA_TYPE_STATS) {
	ECOLOGE("Invalid stats. ECOData with type: %s", stats.getDataTypeString().c_str());
	return false;
	}

	// Get the type of the stats.
	std::string statsType;
	if (stats.findString(KEY_STATS_TYPE, &statsType) != ECODataStatus::OK) {
	ECOLOGE("Invalid stats ECOData without statsType");
	return false;
	}

	if (statsType.compare(VALUE_STATS_TYPE_SESSION) == 0) {
	processSessionStats(stats);
	} else if (statsType.compare(VALUE_STATS_TYPE_FRAME) == 0) {
	processFrameStats(stats);
	} else {
	ECOLOGE("processStats:: Failed to process stats as ECOData contains unknown stats type");
	return false;
	}

	return true;
	}

	void ECOSession::processSessionStats(const ECOData& stats) {
	ECOLOGV("processSessionStats");

	ECOData info(ECOData::DATA_TYPE_INFO, systemTime(SYSTEM_TIME_BOOTTIME));
	info.setString(KEY_INFO_TYPE, VALUE_INFO_TYPE_SESSION);

	ECODataKeyValueIterator iter(stats);
	while (iter.hasNext()) {
	ECOData::ECODataKeyValuePair entry = iter.next();
	const std::string& key = entry.first;
	const ECOData::ECODataValueType value = entry.second;
	ECOLOGV("Processing key: %s", key.c_str());
	if (!key.compare(KEY_STATS_TYPE)) {
	// Skip the key KEY_STATS_TYPE as that has been parsed already.
	continue;
	} else if (!key.compare(ENCODER_TYPE)) {
	mCodecType = std::get<int32_t>(value);
	ECOLOGV("codec type is %d", mCodecType);
	} else if (!key.compare(ENCODER_PROFILE)) {
	mCodecProfile = std::get<int32_t>(value);
	ECOLOGV("codec profile is %d", mCodecProfile);
	} else if (!key.compare(ENCODER_LEVEL)) {
	mCodecLevel = std::get<int32_t>(value);
	ECOLOGV("codec level is %d", mCodecLevel);
	} else if (!key.compare(ENCODER_TARGET_BITRATE_BPS)) {
	mTargetBitrateBps = std::get<int32_t>(value);
	ECOLOGV("codec target bitrate is %d", mTargetBitrateBps);
	} else if (!key.compare(ENCODER_KFI_FRAMES)) {
	mKeyFrameIntervalFrames = std::get<int32_t>(value);
	ECOLOGV("codec kfi is %d", mKeyFrameIntervalFrames);
	} else if (!key.compare(ENCODER_FRAMERATE_FPS)) {
	mFramerateFps = std::get<float>(value);
	ECOLOGV("codec framerate is %f", mFramerateFps);
	} else if (!key.compare(ENCODER_INPUT_WIDTH)) {
	int32_t width = std::get<int32_t>(value);
	if (width != mWidth) {
	ECOLOGW("Codec width: %d, expected: %d", width, mWidth);
	}
	ECOLOGV("codec input width is %d", width);
	} else if (!key.compare(ENCODER_INPUT_HEIGHT)) {
	int32_t height = std::get<int32_t>(value);
	if (height != mHeight) {
	ECOLOGW("Codec height: %d, expected: %d", height, mHeight);
	}
	ECOLOGV("codec input height is %d", height);
	} else if (!key.compare(ENCODER_OUTPUT_WIDTH)) {
	mOutputWidth = std::get<int32_t>(value);
	if (mOutputWidth != mWidth) {
	ECOLOGW("Codec output width: %d, expected: %d", mOutputWidth, mWidth);
	}
	ECOLOGV("codec output width is %d", mOutputWidth);
	} else if (!key.compare(ENCODER_OUTPUT_HEIGHT)) {
	mOutputHeight = std::get<int32_t>(value);
	if (mOutputHeight != mHeight) {
	ECOLOGW("Codec output height: %d, expected: %d", mOutputHeight, mHeight);
	}
	ECOLOGV("codec output height is %d", mOutputHeight);
	} else {
	ECOLOGW("Unknown session stats key %s from provider.", key.c_str());
	continue;
	}
	info.set(key, value);
	}

	if (mListener != nullptr) {
	Status status = mListener->onNewInfo(info);
	if (!status.isOk()) {
	ECOLOGE("%s: Failed to publish info: %s due to binder error", __FUNCTION__,
	info.debugString().c_str());
	// Remove the listener. The lock has been acquired outside this function.
	mListener = nullptr;
	}
	}
	}

	ECOData ECOSession::generateLatestSessionInfoEcoData() {
	bool hasInfo = false;

	ECOData info(ECOData::DATA_TYPE_INFO, systemTime(SYSTEM_TIME_BOOTTIME));

	if (mOutputWidth != -1) {
	info.setInt32(ENCODER_OUTPUT_WIDTH, mOutputWidth);
	hasInfo = true;
	}

	if (mOutputHeight != -1) {
	info.setInt32(ENCODER_OUTPUT_HEIGHT, mOutputHeight);
	hasInfo = true;
	}

	if (mCodecType != -1) {
	info.setInt32(ENCODER_TYPE, mCodecType);
	hasInfo = true;
	}

	if (mCodecProfile != -1) {
	info.setInt32(ENCODER_PROFILE, mCodecProfile);
	hasInfo = true;
	}

	if (mCodecLevel != -1) {
	info.setInt32(ENCODER_LEVEL, mCodecLevel);
	hasInfo = true;
	}

	if (mTargetBitrateBps != -1) {
	info.setInt32(ENCODER_TARGET_BITRATE_BPS, mTargetBitrateBps);
	hasInfo = true;
	}

	if (mKeyFrameIntervalFrames != -1) {
	info.setInt32(ENCODER_KFI_FRAMES, mKeyFrameIntervalFrames);
	hasInfo = true;
	}

	if (mFramerateFps > 0) {
	info.setFloat(ENCODER_FRAMERATE_FPS, mFramerateFps);
	hasInfo = true;
	}

	if (hasInfo) {
	info.setString(KEY_INFO_TYPE, VALUE_INFO_TYPE_SESSION);
	}
	return info;
	}

	void ECOSession::processFrameStats(const ECOData& stats) {
	ECOLOGD("processFrameStats");

	bool needToNotifyListener = false;
	ECOData info(ECOData::DATA_TYPE_INFO, systemTime(SYSTEM_TIME_BOOTTIME));
	info.setString(KEY_INFO_TYPE, VALUE_INFO_TYPE_FRAME);

	ECODataKeyValueIterator iter(stats);
	while (iter.hasNext()) {
	ECOData::ECODataKeyValuePair entry = iter.next();
	const std::string& key = entry.first;
	const ECOData::ECODataValueType value = entry.second;
	ECOLOGD("Processing %s key", key.c_str());

	if (!key.compare(KEY_STATS_TYPE)) {
	// Skip the key KEY_STATS_TYPE as that has been parsed already.
	continue;
	} else if (!key.compare(FRAME_NUM) \|\| !key.compare(FRAME_PTS_US) \|\|
	!key.compare(FRAME_TYPE) \|\| !key.compare(FRAME_SIZE_BYTES) \|\|
	!key.compare(ENCODER_ACTUAL_BITRATE_BPS) \|\|
	!key.compare(ENCODER_FRAMERATE_FPS)) {
	// Only process the keys that are supported by ECOService 1.0.
	info.set(key, value);
	} else if (!key.compare(FRAME_AVG_QP)) {
	// Check the qp to see if need to notify the listener.
	const int32_t currAverageQp = std::get<int32_t>(value);

	// Check if the delta between current QP and last reported QP is larger than the
	// threshold specified by the listener.
	const bool largeQPChangeDetected =
	abs(currAverageQp - mLastReportedQp) > mListenerQpCondition.mQpChangeThreshold;

	// Check if the qp is going from below threshold to beyond threshold.
	const bool exceedQpBlockinessThreshold =
	(mLastReportedQp <= mListenerQpCondition.mQpBlocknessThreshold &&
	currAverageQp > mListenerQpCondition.mQpBlocknessThreshold);

	// Check if the qp is going from beyond threshold to below threshold.
	const bool fallBelowQpBlockinessThreshold =
	(mLastReportedQp > mListenerQpCondition.mQpBlocknessThreshold &&
	currAverageQp <= mListenerQpCondition.mQpBlocknessThreshold);

	// Notify the listener if any of the above three conditions met.
	if (largeQPChangeDetected \|\| exceedQpBlockinessThreshold \|\|
	fallBelowQpBlockinessThreshold) {
	mLastReportedQp = currAverageQp;
	needToNotifyListener = true;
	}

	info.set(key, value);
	} else {
	ECOLOGW("Unknown frame stats key %s from provider.", key.c_str());
	}
	}

	if (needToNotifyListener && mListener != nullptr) {
	Status status = mListener->onNewInfo(info);
	if (!status.isOk()) {
	ECOLOGE("%s: Failed to publish info: %s due to binder error", __FUNCTION__,
	info.debugString().c_str());
	// Remove the listener. The lock has been acquired outside this function.
	mListener = nullptr;
	}
	}
	}

	Status ECOSession::getIsCameraRecording(bool* _aidl_return) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	*_aidl_return = mIsCameraRecording;
	return binder::Status::ok();
	}

	Status ECOSession::addStatsProvider(
	const sp<::android::media::eco::IECOServiceStatsProvider>& provider,
	const ::android::media::eco::ECOData& config, bool* status) {
	::android::String16 name;
	Status result = provider->getName(&name);
	if (!result.isOk()) {
	// This binder transaction failure may due to permission issue.
	*status = false;
	ALOGE("Failed to get provider name");
	return STATUS_ERROR(ERROR_PERMISSION_DENIED, "Failed to get provider name");
	}

	ECOLOGV("Try to add stats provider name: %s uid: %d pid %d", ::android::String8(name).string(),
	IPCThreadState::self()->getCallingUid(), IPCThreadState::self()->getCallingPid());

	if (provider == nullptr) {
	ECOLOGE("%s: provider must not be null", __FUNCTION__);
	*status = false;
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Null provider given to addStatsProvider");
	}

	std::scoped_lock<std::mutex> lock(mSessionLock);

	if (mProvider != nullptr) {
	::android::String16 name;
	mProvider->getName(&name);
	String8 errorMsg = String8::format(
	"ECOService 1.0 only supports one stats provider, current provider: %s",
	::android::String8(name).string());
	ECOLOGE("%s", errorMsg.string());
	*status = false;
	return STATUS_ERROR(ERROR_ALREADY_EXISTS, errorMsg.string());
	}

	// TODO: Handle the provider config.
	if (config.getDataType() != ECOData::DATA_TYPE_STATS_PROVIDER_CONFIG) {
	ECOLOGE("Provider config is invalid");
	*status = false;
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Provider config is invalid");
	}

	mProvider = provider;
	mProviderName = name;
	*status = true;
	return binder::Status::ok();
	}

	Status ECOSession::removeStatsProvider(
	const sp<::android::media::eco::IECOServiceStatsProvider>& provider, bool* status) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	// Check if the provider is the same as current provider for the session.
	if (IInterface::asBinder(provider) != IInterface::asBinder(mProvider)) {
	*status = false;
	ECOLOGE("Failed to remove provider");
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Provider does not match");
	}

	mProvider = nullptr;
	*status = true;
	return binder::Status::ok();
	}

	Status ECOSession::addInfoListener(
	const sp<::android::media::eco::IECOServiceInfoListener>& listener,
	const ::android::media::eco::ECOData& config, bool* status) {
	ALOGV("%s: Add listener %p", __FUNCTION__, listener.get());
	std::scoped_lock<std::mutex> lock(mSessionLock);

	::android::String16 name;
	Status result = listener->getName(&name);
	if (!result.isOk()) {
	// This binder transaction failure may due to permission issue.
	*status = false;
	ALOGE("Failed to get listener name");
	return STATUS_ERROR(ERROR_PERMISSION_DENIED, "Failed to get listener name");
	}

	if (mListener != nullptr) {
	ECOLOGE("ECOService 1.0 only supports one listener");
	*status = false;
	return STATUS_ERROR(ERROR_ALREADY_EXISTS, "ECOService 1.0 only supports one listener");
	}

	if (listener == nullptr) {
	ECOLOGE("%s: listener must not be null", __FUNCTION__);
	*status = false;
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Null listener given to addInfoListener");
	}

	if (config.getDataType() != ECOData::DATA_TYPE_INFO_LISTENER_CONFIG) {
	*status = false;
	ECOLOGE("%s: listener config is invalid", __FUNCTION__);
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "listener config is invalid");
	}

	if (config.isEmpty()) {
	*status = false;
	ECOLOGE("Listener must provide listening criterion");
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "listener config is empty");
	}

	// For ECOService 1.0, listener must specify the two threshold in order to receive info.
	if (config.findInt32(KEY_LISTENER_QP_BLOCKINESS_THRESHOLD,
	&mListenerQpCondition.mQpBlocknessThreshold) != ECODataStatus::OK \|\|
	config.findInt32(KEY_LISTENER_QP_CHANGE_THRESHOLD,
	&mListenerQpCondition.mQpChangeThreshold) != ECODataStatus::OK \|\|
	mListenerQpCondition.mQpBlocknessThreshold < ENCODER_MIN_QP \|\|
	mListenerQpCondition.mQpBlocknessThreshold > ENCODER_MAX_QP) {
	*status = false;
	ECOLOGE("%s: listener config is invalid", __FUNCTION__);
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "listener config is not valid");
	}

	ECOLOGD("Info listener name: %s uid: %d pid %d", ::android::String8(name).string(),
	IPCThreadState::self()->getCallingUid(), IPCThreadState::self()->getCallingPid());

	mListener = listener;
	mListenerName = name;
	mNewListenerAdded = true;
	mWorkerWaitCV.notify_all();

	*status = true;
	return binder::Status::ok();
	}

	Status ECOSession::removeInfoListener(
	const sp<::android::media::eco::IECOServiceInfoListener>& listener, bool* _aidl_return) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	// Check if the listener is the same as current listener for the session.
	if (IInterface::asBinder(listener) != IInterface::asBinder(mListener)) {
	*_aidl_return = false;
	ECOLOGE("Failed to remove listener");
	return STATUS_ERROR(ERROR_ILLEGAL_ARGUMENT, "Listener does not match");
	}

	mListener = nullptr;
	mNewListenerAdded = false;
	*_aidl_return = true;
	return binder::Status::ok();
	}

	Status ECOSession::pushNewStats(const ::android::media::eco::ECOData& stats, bool* _aidl_return) {
	ECOLOGV("ECOSession get new stats type: %s", stats.getDataTypeString().c_str());
	std::unique_lock<std::mutex> lock(mStatsQueueLock);
	mStatsQueue.push_back(stats);
	mWorkerWaitCV.notify_all();
	*_aidl_return = true;
	return binder::Status::ok();
	}

	Status ECOSession::getWidth(int32_t* _aidl_return) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	*_aidl_return = mWidth;
	return binder::Status::ok();
	}

	Status ECOSession::getHeight(int32_t* _aidl_return) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	*_aidl_return = mHeight;
	return binder::Status::ok();
	}

	Status ECOSession::getNumOfListeners(int32_t* _aidl_return) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	*_aidl_return = (mListener == nullptr ? 0 : 1);
	return binder::Status::ok();
	}

	Status ECOSession::getNumOfProviders(int32_t* _aidl_return) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	*_aidl_return = (mProvider == nullptr ? 0 : 1);
	return binder::Status::ok();
	}

	/virtual/ void ECOSession::binderDied(const wp<IBinder>& /who/) {
	ECOLOGV("binderDied");
	}

	status_t ECOSession::dump(int fd, const Vector<String16>& /args/) {
	std::scoped_lock<std::mutex> lock(mSessionLock);
	dprintf(fd, "\n== Session Info: ==\n\n");
	dprintf(fd,
	"Width: %d Height: %d isCameraRecording: %d, target-bitrate: %d bps codetype: %d "
	"profile: %d level: %d\n",
	mWidth, mHeight, mIsCameraRecording, mTargetBitrateBps, mCodecType, mCodecProfile,
	mCodecLevel);
	if (mProvider != nullptr) {
	dprintf(fd, "Provider: %s \n", ::android::String8(mProviderName).string());
	}
	if (mListener != nullptr) {
	dprintf(fd, "Listener: %s \n", ::android::String8(mListenerName).string());
	}
	dprintf(fd, "\n===================\n\n");

	return NO_ERROR;
	}

	void ECOSession::logStats(const ECOData& data) {
	// Check if mLogStats is true;
	if (!mLogStats \|\| mLogStatsEntries == 0) return;

	// Check if we need to remove the old entry.
	if (mStatsDebugBuffer.size() >= mLogStatsEntries) {
	mStatsDebugBuffer.pop_front();
	}

	mStatsDebugBuffer.push_back(data);
	}

	void ECOSession::logInfos(const ECOData& data) {
	// Check if mLogInfo is true;
	if (!mLogInfo \|\| mLogInfoEntries == 0) return;

	// Check if we need to remove the old entry.
	if (mInfosDebugBuffer.size() >= mLogInfoEntries) {
	mInfosDebugBuffer.pop_front();
	}

	mInfosDebugBuffer.push_back(data);
	}

	} // namespace eco
	} // namespace media
	} // namespace android