services/camera/libcameraservice/CameraServiceWatchdog.h - platform/frameworks/av - Git at Google

 /*
  * 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.
  */

 /**
  * The CameraService watchdog is used to help detect bad states in the
  * Camera HAL. The threadloop uses cycle counters, assigned to each calling
  * thread, to monitor the elapsing time and kills the process when the
  * expected duration has exceeded.
  * Notes on multi-threaded behaviors:
  *    - The threadloop is blocked/paused when there are no calls being
  *   monitored (when the TID cycle to counter map is empty).
  *   - The start and stop functions handle simultaneous call monitoring
  *   and single call monitoring differently. See function documentation for
  *   more details.
  * To disable/enable:
  *   - adb shell cmd media.camera set-cameraservice-watchdog [0/1]
  */
 #pragma once
 #include <chrono>
 #include <thread>
 #include <time.h>
 #include <utils/Thread.h>
 #include <utils/Log.h>
 #include <unordered_map>

 #include "utils/CameraServiceProxyWrapper.h"

 // Used to wrap the call of interest in start and stop calls
 #define WATCH(toMonitor) watchThread([&]() { return toMonitor;}, gettid(), __FUNCTION__)
 #define WATCH_CUSTOM_TIMER(toMonitor, cycles, cycleLength) \
         watchThread([&]() { return toMonitor;}, gettid(), __FUNCTION__, cycles, cycleLength);

 // Default cycles and cycle length values used to calculate permitted elapsed time
 const static size_t   kMaxCycles     = 650;
 const static uint32_t kCycleLengthMs = 100;

 namespace android {

 class CameraServiceWatchdog : public Thread {

 struct MonitoredFunction {
     uint32_t cycles;
     std::string functionName;
 };

 public:
     explicit CameraServiceWatchdog(const std::string &cameraId,
             std::shared_ptr<CameraServiceProxyWrapper> cameraServiceProxyWrapper) :
                     mCameraId(cameraId), mPause(true), mMaxCycles(kMaxCycles),
                     mCycleLengthMs(kCycleLengthMs), mEnabled(true),
                     mCameraServiceProxyWrapper(cameraServiceProxyWrapper) {};

     explicit CameraServiceWatchdog (const std::string &cameraId, size_t maxCycles,
             uint32_t cycleLengthMs, bool enabled,
             std::shared_ptr<CameraServiceProxyWrapper> cameraServiceProxyWrapper) :
                     mCameraId(cameraId), mPause(true), mMaxCycles(maxCycles),
                     mCycleLengthMs(cycleLengthMs), mEnabled(enabled),
                     mCameraServiceProxyWrapper(cameraServiceProxyWrapper) {};

     virtual ~CameraServiceWatchdog() {};

     virtual void requestExit();

     /** Enables/disables the watchdog */
     void setEnabled(bool enable);

     /** Used to wrap monitored calls in start and stop functions using custom timer values */
     template<typename T>
     auto watchThread(T func, uint32_t tid, const char* functionName, uint32_t cycles,
             uint32_t cycleLength) {
         decltype(func()) res;

         if (cycles != mMaxCycles || cycleLength != mCycleLengthMs) {
             // Create another instance of the watchdog to prevent disruption
             // of timer for current monitored calls

             // Lock for mEnabled
             mEnabledLock.lock();
             sp<CameraServiceWatchdog> tempWatchdog = new CameraServiceWatchdog(
                     mCameraId, cycles, cycleLength, mEnabled, mCameraServiceProxyWrapper);
             mEnabledLock.unlock();

             status_t status = tempWatchdog->run("CameraServiceWatchdog");
             if (status != OK) {
                 ALOGE("Unable to watch thread: %s (%d)", strerror(-status), status);
                 res = watchThread(func, tid, functionName);
                 return res;
             }

             res = tempWatchdog->watchThread(func, tid, functionName);
             tempWatchdog->requestExit();
             tempWatchdog.clear();
         } else {
             // If custom timer values are equivalent to set class timer values, use
             // current thread
             res = watchThread(func, tid, functionName);
         }

         return res;
     }

     /** Used to wrap monitored calls in start and stop functions using class timer values */
     template<typename T>
     auto watchThread(T func, uint32_t tid, const char* functionName) {
         decltype(func()) res;
         AutoMutex _l(mEnabledLock);

         if (mEnabled) {
             start(tid, functionName);
             res = func();
             stop(tid);
         } else {
             res = func();
         }

         return res;
     }

 private:

     /**
      * Start adds a cycle counter for the calling thread. When threadloop is blocked/paused,
      * start() unblocks and starts the watchdog
      */
     void start(uint32_t tid, const char* functionName);

     /**
      * If there are no calls left to be monitored, stop blocks/pauses threadloop
      * otherwise stop() erases the cycle counter to end watchdog for the calling thread
      */
     void stop(uint32_t tid);

     std::string getAbortMessage(const std::string& functionName);

     virtual bool    threadLoop();

     Mutex           mWatchdogLock;      // Lock for condition variable
     Mutex           mEnabledLock;       // Lock for enabled status
     Condition       mWatchdogCondition; // Condition variable for stop/start
     std::string     mCameraId;          // Camera Id the watchdog belongs to
     bool            mPause;             // True if tid map is empty
     uint32_t        mMaxCycles;         // Max cycles
     uint32_t        mCycleLengthMs;     // Length of time elapsed per cycle
     bool            mEnabled;           // True if watchdog is enabled

     std::shared_ptr<CameraServiceProxyWrapper> mCameraServiceProxyWrapper;

     std::unordered_map<uint32_t, MonitoredFunction> mTidMap; // Thread Id to MonitoredFunction type
                                                              // which retrieves the num of cycles
                                                              // and name of the function
 };

 }   // namespace android
	/*
	* 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.
	*/

	/**
	* The CameraService watchdog is used to help detect bad states in the
	* Camera HAL. The threadloop uses cycle counters, assigned to each calling
	* thread, to monitor the elapsing time and kills the process when the
	* expected duration has exceeded.
	* Notes on multi-threaded behaviors:
	* - The threadloop is blocked/paused when there are no calls being
	* monitored (when the TID cycle to counter map is empty).
	* - The start and stop functions handle simultaneous call monitoring
	* and single call monitoring differently. See function documentation for
	* more details.
	* To disable/enable:
	* - adb shell cmd media.camera set-cameraservice-watchdog [0/1]
	*/
	#pragma once
	#include <chrono>
	#include <thread>
	#include <time.h>
	#include <utils/Thread.h>
	#include <utils/Log.h>
	#include <unordered_map>

	#include "utils/CameraServiceProxyWrapper.h"

	// Used to wrap the call of interest in start and stop calls
	#define WATCH(toMonitor) watchThread([&]() { return toMonitor;}, gettid(), __FUNCTION__)
	#define WATCH_CUSTOM_TIMER(toMonitor, cycles, cycleLength) \
	watchThread([&]() { return toMonitor;}, gettid(), __FUNCTION__, cycles, cycleLength);

	// Default cycles and cycle length values used to calculate permitted elapsed time
	const static size_t kMaxCycles = 650;
	const static uint32_t kCycleLengthMs = 100;

	namespace android {

	class CameraServiceWatchdog : public Thread {

	struct MonitoredFunction {
	uint32_t cycles;
	std::string functionName;
	};

	public:
	explicit CameraServiceWatchdog(const std::string &cameraId,
	std::shared_ptr<CameraServiceProxyWrapper> cameraServiceProxyWrapper) :
	mCameraId(cameraId), mPause(true), mMaxCycles(kMaxCycles),
	mCycleLengthMs(kCycleLengthMs), mEnabled(true),
	mCameraServiceProxyWrapper(cameraServiceProxyWrapper) {};

	explicit CameraServiceWatchdog (const std::string &cameraId, size_t maxCycles,
	uint32_t cycleLengthMs, bool enabled,
	std::shared_ptr<CameraServiceProxyWrapper> cameraServiceProxyWrapper) :
	mCameraId(cameraId), mPause(true), mMaxCycles(maxCycles),
	mCycleLengthMs(cycleLengthMs), mEnabled(enabled),
	mCameraServiceProxyWrapper(cameraServiceProxyWrapper) {};

	virtual ~CameraServiceWatchdog() {};

	virtual void requestExit();

	/** Enables/disables the watchdog */
	void setEnabled(bool enable);

	/** Used to wrap monitored calls in start and stop functions using custom timer values */
	template<typename T>
	auto watchThread(T func, uint32_t tid, const char* functionName, uint32_t cycles,
	uint32_t cycleLength) {
	decltype(func()) res;

	if (cycles != mMaxCycles \|\| cycleLength != mCycleLengthMs) {
	// Create another instance of the watchdog to prevent disruption
	// of timer for current monitored calls

	// Lock for mEnabled
	mEnabledLock.lock();
	sp<CameraServiceWatchdog> tempWatchdog = new CameraServiceWatchdog(
	mCameraId, cycles, cycleLength, mEnabled, mCameraServiceProxyWrapper);
	mEnabledLock.unlock();

	status_t status = tempWatchdog->run("CameraServiceWatchdog");
	if (status != OK) {
	ALOGE("Unable to watch thread: %s (%d)", strerror(-status), status);
	res = watchThread(func, tid, functionName);
	return res;
	}

	res = tempWatchdog->watchThread(func, tid, functionName);
	tempWatchdog->requestExit();
	tempWatchdog.clear();
	} else {
	// If custom timer values are equivalent to set class timer values, use
	// current thread
	res = watchThread(func, tid, functionName);
	}

	return res;
	}

	/** Used to wrap monitored calls in start and stop functions using class timer values */
	template<typename T>
	auto watchThread(T func, uint32_t tid, const char* functionName) {
	decltype(func()) res;
	AutoMutex _l(mEnabledLock);

	if (mEnabled) {
	start(tid, functionName);
	res = func();
	stop(tid);
	} else {
	res = func();
	}

	return res;
	}

	private:

	/**
	* Start adds a cycle counter for the calling thread. When threadloop is blocked/paused,
	* start() unblocks and starts the watchdog
	*/
	void start(uint32_t tid, const char* functionName);

	/**
	* If there are no calls left to be monitored, stop blocks/pauses threadloop
	* otherwise stop() erases the cycle counter to end watchdog for the calling thread
	*/
	void stop(uint32_t tid);

	std::string getAbortMessage(const std::string& functionName);

	virtual bool threadLoop();

	Mutex mWatchdogLock; // Lock for condition variable
	Mutex mEnabledLock; // Lock for enabled status
	Condition mWatchdogCondition; // Condition variable for stop/start
	std::string mCameraId; // Camera Id the watchdog belongs to
	bool mPause; // True if tid map is empty
	uint32_t mMaxCycles; // Max cycles
	uint32_t mCycleLengthMs; // Length of time elapsed per cycle
	bool mEnabled; // True if watchdog is enabled

	std::shared_ptr<CameraServiceProxyWrapper> mCameraServiceProxyWrapper;

	std::unordered_map<uint32_t, MonitoredFunction> mTidMap; // Thread Id to MonitoredFunction type
	// which retrieves the num of cycles
	// and name of the function
	};

	} // namespace android