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LeafOS / LeafOS-Project / android_frameworks_av / c65d59fe3979a9eec28301d388fd815be5ccdfe9 / . / services / camera / libcameraservice / CameraService.h
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/*
* Copyright (C) 2008 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.
*/
#ifndef ANDROID_SERVERS_CAMERA_CAMERASERVICE_H
#define ANDROID_SERVERS_CAMERA_CAMERASERVICE_H
#include <android/content/AttributionSourceState.h>
#include <android/hardware/BnCameraService.h>
#include <android/hardware/BnSensorPrivacyListener.h>
#include <android/hardware/ICameraServiceListener.h>
#include <android/hardware/CameraIdRemapping.h>
#include <android/hardware/camera2/BnCameraInjectionSession.h>
#include <android/hardware/camera2/ICameraInjectionCallback.h>
#include <cutils/multiuser.h>
#include <utils/Vector.h>
#include <utils/KeyedVector.h>
#include <binder/ActivityManager.h>
#include <binder/AppOpsManager.h>
#include <binder/BinderService.h>
#include <binder/IServiceManager.h>
#include <binder/IActivityManager.h>
#include <binder/IAppOpsCallback.h>
#include <binder/IUidObserver.h>
#include <hardware/camera.h>
#include <sensorprivacy/SensorPrivacyManager.h>
#include <android/hardware/camera/common/1.0/types.h>
#include <camera/VendorTagDescriptor.h>
#include <camera/CaptureResult.h>
#include <camera/CameraParameters.h>
#include <camera/camera2/ConcurrentCamera.h>
#include "CameraFlashlight.h"
#include "common/CameraProviderManager.h"
#include "media/RingBuffer.h"
#include "utils/AutoConditionLock.h"
#include "utils/ClientManager.h"
#include "utils/IPCTransport.h"
#include "utils/CameraServiceProxyWrapper.h"
#include <set>
#include <string>
#include <list>
#include <map>
#include <memory>
#include <optional>
#include <utility>
#include <unordered_map>
#include <unordered_set>
#include <vector>
namespace android {
extern volatile int32_t gLogLevel;
class MemoryHeapBase;
class MediaPlayer;
class CameraService :
public BinderService<CameraService>,
public virtual ::android::hardware::BnCameraService,
public virtual IBinder::DeathRecipient,
public virtual CameraProviderManager::StatusListener,
public virtual IServiceManager::LocalRegistrationCallback
{
friend class BinderService<CameraService>;
friend class CameraOfflineSessionClient;
public:
class Client;
class BasicClient;
class OfflineClient;
// The effective API level. The Camera2 API running in LEGACY mode counts as API_1.
enum apiLevel {
API_1 = 1,
API_2 = 2
};
// 3 second busy timeout when other clients are connecting
static const nsecs_t DEFAULT_CONNECT_TIMEOUT_NS = 3000000000;
// 1 second busy timeout when other clients are disconnecting
static const nsecs_t DEFAULT_DISCONNECT_TIMEOUT_NS = 1000000000;
// Default number of messages to store in eviction log
static const size_t DEFAULT_EVENT_LOG_LENGTH = 100;
// Event log ID
static const int SN_EVENT_LOG_ID = 0x534e4554;
// Keep this in sync with frameworks/base/core/java/android/os/UserHandle.java
static const userid_t USER_SYSTEM = 0;
// Register camera service
static void instantiate();
// Implementation of BinderService<T>
static char const* getServiceName() { return "media.camera"; }
// Implementation of IServiceManager::LocalRegistrationCallback
virtual void onServiceRegistration(const String16& name, const sp<IBinder>& binder) override;
// Non-null arguments for cameraServiceProxyWrapper should be provided for
// testing purposes only.
CameraService(std::shared_ptr<CameraServiceProxyWrapper>
cameraServiceProxyWrapper = nullptr);
virtual ~CameraService();
/////////////////////////////////////////////////////////////////////
// HAL Callbacks - implements CameraProviderManager::StatusListener
virtual void onDeviceStatusChanged(const std::string &cameraId,
CameraDeviceStatus newHalStatus) override;
virtual void onDeviceStatusChanged(const std::string &cameraId,
const std::string &physicalCameraId,
CameraDeviceStatus newHalStatus) override;
// This method may hold CameraProviderManager::mInterfaceMutex as a part
// of calling getSystemCameraKind() internally. Care should be taken not to
// directly / indirectly call this from callers who also hold
// mInterfaceMutex.
virtual void onTorchStatusChanged(const std::string& cameraId,
TorchModeStatus newStatus) override;
// Does not hold CameraProviderManager::mInterfaceMutex.
virtual void onTorchStatusChanged(const std::string& cameraId,
TorchModeStatus newStatus,
SystemCameraKind kind) override;
virtual void onNewProviderRegistered() override;
/////////////////////////////////////////////////////////////////////
// ICameraService
// IMPORTANT: All binder calls that deal with logicalCameraId should use
// resolveCameraId(logicalCameraId) to arrive at the correct cameraId to
// perform the operation on (in case of Id Remapping).
virtual binder::Status getNumberOfCameras(int32_t type, int32_t* numCameras);
virtual binder::Status getCameraInfo(int cameraId, bool overrideToPortrait,
hardware::CameraInfo* cameraInfo) override;
virtual binder::Status getCameraCharacteristics(const std::string& cameraId,
int targetSdkVersion, bool overrideToPortrait, CameraMetadata* cameraInfo) override;
virtual binder::Status getCameraVendorTagDescriptor(
/*out*/
hardware::camera2::params::VendorTagDescriptor* desc);
virtual binder::Status getCameraVendorTagCache(
/*out*/
hardware::camera2::params::VendorTagDescriptorCache* cache);
virtual binder::Status connect(const sp<hardware::ICameraClient>& cameraClient,
int32_t cameraId, const std::string& clientPackageName,
int32_t clientUid, int clientPid, int targetSdkVersion,
bool overrideToPortrait, bool forceSlowJpegMode,
/*out*/
sp<hardware::ICamera>* device) override;
virtual binder::Status connectDevice(
const sp<hardware::camera2::ICameraDeviceCallbacks>& cameraCb,
const std::string& cameraId,
const std::string& clientPackageName, const std::optional<std::string>& clientFeatureId,
int32_t clientUid, int scoreOffset, int targetSdkVersion, bool overrideToPortrait,
/*out*/
sp<hardware::camera2::ICameraDeviceUser>* device);
virtual binder::Status addListener(const sp<hardware::ICameraServiceListener>& listener,
/*out*/
std::vector<hardware::CameraStatus>* cameraStatuses);
virtual binder::Status removeListener(
const sp<hardware::ICameraServiceListener>& listener);
virtual binder::Status getConcurrentCameraIds(
/*out*/
std::vector<hardware::camera2::utils::ConcurrentCameraIdCombination>* concurrentCameraIds);
virtual binder::Status isConcurrentSessionConfigurationSupported(
const std::vector<hardware::camera2::utils::CameraIdAndSessionConfiguration>& sessions,
int targetSdkVersion, /*out*/bool* supported);
virtual binder::Status getLegacyParameters(
int32_t cameraId,
/*out*/
std::string* parameters);
virtual binder::Status setTorchMode(const std::string& cameraId, bool enabled,
const sp<IBinder>& clientBinder);
virtual binder::Status turnOnTorchWithStrengthLevel(const std::string& cameraId,
int32_t torchStrength, const sp<IBinder>& clientBinder);
virtual binder::Status getTorchStrengthLevel(const std::string& cameraId,
int32_t* torchStrength);
virtual binder::Status notifySystemEvent(int32_t eventId,
const std::vector<int32_t>& args);
virtual binder::Status notifyDeviceStateChange(int64_t newState);
virtual binder::Status notifyDisplayConfigurationChange();
// OK = supports api of that version, -EOPNOTSUPP = does not support
virtual binder::Status supportsCameraApi(
const std::string& cameraId, int32_t apiVersion,
/*out*/
bool *isSupported);
virtual binder::Status isHiddenPhysicalCamera(
const std::string& cameraId,
/*out*/
bool *isSupported);
virtual binder::Status injectCamera(
const std::string& packageName, const std::string& internalCamId,
const std::string& externalCamId,
const sp<hardware::camera2::ICameraInjectionCallback>& callback,
/*out*/
sp<hardware::camera2::ICameraInjectionSession>* cameraInjectionSession);
virtual binder::Status reportExtensionSessionStats(
const hardware::CameraExtensionSessionStats& stats, std::string* sessionKey /*out*/);
virtual binder::Status remapCameraIds(const hardware::CameraIdRemapping&
cameraIdRemapping);
virtual binder::Status injectSessionParams(
const std::string& cameraId,
const hardware::camera2::impl::CameraMetadataNative& sessionParams);
virtual binder::Status createDefaultRequest(const std::string& cameraId, int templateId,
/*out*/
hardware::camera2::impl::CameraMetadataNative* request);
virtual binder::Status isSessionConfigurationWithParametersSupported(
const std::string& cameraId,
const SessionConfiguration& sessionConfiguration,
/*out*/
bool* supported);
// Extra permissions checks
virtual status_t onTransact(uint32_t code, const Parcel& data,
Parcel* reply, uint32_t flags);
virtual status_t dump(int fd, const Vector<String16>& args);
virtual status_t shellCommand(int in, int out, int err, const Vector<String16>& args);
binder::Status addListenerHelper(const sp<hardware::ICameraServiceListener>& listener,
/*out*/
std::vector<hardware::CameraStatus>* cameraStatuses, bool isVendor = false,
bool isProcessLocalTest = false);
// Monitored UIDs availability notification
void notifyMonitoredUids();
void notifyMonitoredUids(const std::unordered_set<uid_t> &notifyUidSet);
// Stores current open session device info in temp file.
void cacheDump();
// Register an offline client for a given active camera id
status_t addOfflineClient(const std::string &cameraId, sp<BasicClient> offlineClient);
/////////////////////////////////////////////////////////////////////
// Client functionality
enum sound_kind {
SOUND_SHUTTER = 0,
SOUND_RECORDING_START = 1,
SOUND_RECORDING_STOP = 2,
NUM_SOUNDS
};
void playSound(sound_kind kind);
void loadSoundLocked(sound_kind kind);
void decreaseSoundRef();
void increaseSoundRef();
/////////////////////////////////////////////////////////////////////
// CameraDeviceFactory functionality
std::pair<int, IPCTransport> getDeviceVersion(const std::string& cameraId,
bool overrideToPortrait, int* portraitRotation,
int* facing = nullptr, int* orientation = nullptr);
/////////////////////////////////////////////////////////////////////
// Methods to be used in CameraService class tests only
//
// CameraService class test method only - clear static variables in the
// cameraserver process, which otherwise might affect multiple test runs.
void clearCachedVariables();
// Add test listener, linkToDeath won't be called since this is for process
// local testing.
binder::Status addListenerTest(const sp<hardware::ICameraServiceListener>& listener,
/*out*/
std::vector<hardware::CameraStatus>* cameraStatuses);
/////////////////////////////////////////////////////////////////////
// Shared utilities
static binder::Status filterGetInfoErrorCode(status_t err);
/////////////////////////////////////////////////////////////////////
// CameraClient functionality
class BasicClient : public virtual RefBase {
friend class CameraService;
public:
virtual status_t initialize(sp<CameraProviderManager> manager,
const std::string& monitorTags) = 0;
virtual binder::Status disconnect();
// because we can't virtually inherit IInterface, which breaks
// virtual inheritance
virtual sp<IBinder> asBinderWrapper() = 0;
// Return the remote callback binder object (e.g. ICameraDeviceCallbacks)
sp<IBinder> getRemote() {
return mRemoteBinder;
}
bool getOverrideToPortrait() const {
return mOverrideToPortrait;
}
// Disallows dumping over binder interface
virtual status_t dump(int fd, const Vector<String16>& args);
// Internal dump method to be called by CameraService
virtual status_t dumpClient(int fd, const Vector<String16>& args) = 0;
virtual status_t startWatchingTags(const std::string &tags, int outFd);
virtual status_t stopWatchingTags(int outFd);
virtual status_t dumpWatchedEventsToVector(std::vector<std::string> &out);
// Return the package name for this client
virtual std::string getPackageName() const;
// Return the camera facing for this client
virtual int getCameraFacing() const;
// Return the camera orientation for this client
virtual int getCameraOrientation() const;
// Notify client about a fatal error
virtual void notifyError(int32_t errorCode,
const CaptureResultExtras& resultExtras) = 0;
// Get the UID of the application client using this
virtual uid_t getClientUid() const;
// Get the PID of the application client using this
virtual int getClientPid() const;
// Check what API level is used for this client. This is used to determine which
// superclass this can be cast to.
virtual bool canCastToApiClient(apiLevel level) const;
// Block the client form using the camera
virtual void block();
// set audio restriction from client
// Will call into camera service and hold mServiceLock
virtual status_t setAudioRestriction(int32_t mode);
// Get current global audio restriction setting
// Will call into camera service and hold mServiceLock
virtual int32_t getServiceAudioRestriction() const;
// Get current audio restriction setting for this client
virtual int32_t getAudioRestriction() const;
static bool isValidAudioRestriction(int32_t mode);
// Override rotate-and-crop AUTO behavior
virtual status_t setRotateAndCropOverride(uint8_t rotateAndCrop, bool fromHal = false) = 0;
// Override autoframing AUTO behaviour
virtual status_t setAutoframingOverride(uint8_t autoframingValue) = 0;
// Whether the client supports camera muting (black only output)
virtual bool supportsCameraMute() = 0;
// Set/reset camera mute
virtual status_t setCameraMute(bool enabled) = 0;
// Set Camera service watchdog
virtual status_t setCameraServiceWatchdog(bool enabled) = 0;
// Set stream use case overrides
virtual void setStreamUseCaseOverrides(
const std::vector<int64_t>& useCaseOverrides) = 0;
// Clear stream use case overrides
virtual void clearStreamUseCaseOverrides() = 0;
// Whether the client supports camera zoom override
virtual bool supportsZoomOverride() = 0;
// Set/reset zoom override
virtual status_t setZoomOverride(int32_t zoomOverride) = 0;
// The injection camera session to replace the internal camera
// session.
virtual status_t injectCamera(const std::string& injectedCamId,
sp<CameraProviderManager> manager) = 0;
// Stop the injection camera and restore to internal camera session.
virtual status_t stopInjection() = 0;
// Inject session parameters into an existing session.
virtual status_t injectSessionParams(
const hardware::camera2::impl::CameraMetadataNative& sessionParams) = 0;
protected:
BasicClient(const sp<CameraService>& cameraService,
const sp<IBinder>& remoteCallback,
const std::string& clientPackageName,
bool nativeClient,
const std::optional<std::string>& clientFeatureId,
const std::string& cameraIdStr,
int cameraFacing,
int sensorOrientation,
int clientPid,
uid_t clientUid,
int servicePid,
bool overrideToPortrait);
virtual ~BasicClient();
// the instance is in the middle of destruction. When this is set,
// the instance should not be accessed from callback.
// CameraService's mClientLock should be acquired to access this.
// - subclasses should set this to true in their destructors.
bool mDestructionStarted;
// these are initialized in the constructor.
static sp<CameraService> sCameraService;
const std::string mCameraIdStr;
const int mCameraFacing;
const int mOrientation;
std::string mClientPackageName;
bool mSystemNativeClient;
std::optional<std::string> mClientFeatureId;
pid_t mClientPid;
const uid_t mClientUid;
const pid_t mServicePid;
bool mDisconnected;
bool mUidIsTrusted;
bool mOverrideToPortrait;
mutable Mutex mAudioRestrictionLock;
int32_t mAudioRestriction;
// - The app-side Binder interface to receive callbacks from us
sp<IBinder> mRemoteBinder; // immutable after constructor
// Permissions management methods for camera lifecycle
// Notify rest of system/apps about camera opening, and check appops
virtual status_t startCameraOps();
// Notify rest of system/apps about camera starting to stream data, and confirm appops
virtual status_t startCameraStreamingOps();
// Notify rest of system/apps about camera stopping streaming data
virtual status_t finishCameraStreamingOps();
// Notify rest of system/apps about camera closing
virtual status_t finishCameraOps();
// Handle errors for start/checkOps
virtual status_t handleAppOpMode(int32_t mode);
// Just notify camera appops to trigger unblocking dialog if sensor
// privacy is enabled and camera mute is not supported
virtual status_t noteAppOp();
std::unique_ptr<AppOpsManager> mAppOpsManager = nullptr;
class OpsCallback : public BnAppOpsCallback {
public:
explicit OpsCallback(wp<BasicClient> client);
virtual void opChanged(int32_t op, const String16& packageName);
private:
wp<BasicClient> mClient;
}; // class OpsCallback
sp<OpsCallback> mOpsCallback;
// Track whether checkOps was called successfully, to avoid
// finishing what we didn't start, on camera open.
bool mOpsActive;
// Track whether startOps was called successfully on start of
// camera streaming.
bool mOpsStreaming;
// IAppOpsCallback interface, indirected through opListener
virtual void opChanged(int32_t op, const String16& packageName);
}; // class BasicClient
class Client : public hardware::BnCamera, public BasicClient
{
public:
typedef hardware::ICameraClient TCamCallbacks;
// ICamera interface (see ICamera for details)
virtual binder::Status disconnect();
virtual status_t connect(const sp<hardware::ICameraClient>& client) = 0;
virtual status_t lock() = 0;
virtual status_t unlock() = 0;
virtual status_t setPreviewTarget(const sp<IGraphicBufferProducer>& bufferProducer)=0;
virtual void setPreviewCallbackFlag(int flag) = 0;
virtual status_t setPreviewCallbackTarget(
const sp<IGraphicBufferProducer>& callbackProducer) = 0;
virtual status_t startPreview() = 0;
virtual void stopPreview() = 0;
virtual bool previewEnabled() = 0;
virtual status_t setVideoBufferMode(int32_t videoBufferMode) = 0;
virtual status_t startRecording() = 0;
virtual void stopRecording() = 0;
virtual bool recordingEnabled() = 0;
virtual void releaseRecordingFrame(const sp<IMemory>& mem) = 0;
virtual status_t autoFocus() = 0;
virtual status_t cancelAutoFocus() = 0;
virtual status_t takePicture(int msgType) = 0;
virtual status_t setParameters(const String8& params) = 0;
virtual String8 getParameters() const = 0;
virtual status_t sendCommand(int32_t cmd, int32_t arg1, int32_t arg2) = 0;
virtual status_t setVideoTarget(const sp<IGraphicBufferProducer>& bufferProducer) = 0;
// Interface used by CameraService
Client(const sp<CameraService>& cameraService,
const sp<hardware::ICameraClient>& cameraClient,
const std::string& clientPackageName,
bool systemNativeClient,
const std::optional<std::string>& clientFeatureId,
const std::string& cameraIdStr,
int api1CameraId,
int cameraFacing,
int sensorOrientation,
int clientPid,
uid_t clientUid,
int servicePid,
bool overrideToPortrait);
~Client();
// return our camera client
const sp<hardware::ICameraClient>& getRemoteCallback() {
return mRemoteCallback;
}
virtual sp<IBinder> asBinderWrapper() {
return asBinder(this);
}
virtual void notifyError(int32_t errorCode,
const CaptureResultExtras& resultExtras);
// Check what API level is used for this client. This is used to determine which
// superclass this can be cast to.
virtual bool canCastToApiClient(apiLevel level) const;
void setImageDumpMask(int /*mask*/) { }
protected:
// Initialized in constructor
// - The app-side Binder interface to receive callbacks from us
sp<hardware::ICameraClient> mRemoteCallback;
int mCameraId; // All API1 clients use integer camera IDs
}; // class Client
/**
* A listener class that implements the LISTENER interface for use with a ClientManager, and
* implements the following methods:
* void onClientRemoved(const ClientDescriptor<KEY, VALUE>& descriptor);
* void onClientAdded(const ClientDescriptor<KEY, VALUE>& descriptor);
*/
class ClientEventListener {
public:
void onClientAdded(const resource_policy::ClientDescriptor<std::string,
sp<CameraService::BasicClient>>& descriptor);
void onClientRemoved(const resource_policy::ClientDescriptor<std::string,
sp<CameraService::BasicClient>>& descriptor);
}; // class ClientEventListener
typedef std::shared_ptr<resource_policy::ClientDescriptor<std::string,
sp<CameraService::BasicClient>>> DescriptorPtr;
/**
* A container class for managing active camera clients that are using HAL devices. Active
* clients are represented by ClientDescriptor objects that contain strong pointers to the
* actual BasicClient subclass binder interface implementation.
*
* This class manages the eviction behavior for the camera clients. See the parent class
* implementation in utils/ClientManager for the specifics of this behavior.
*/
class CameraClientManager : public resource_policy::ClientManager<std::string,
sp<CameraService::BasicClient>, ClientEventListener> {
public:
CameraClientManager();
virtual ~CameraClientManager();
/**
* Return a strong pointer to the active BasicClient for this camera ID, or an empty
* if none exists.
*/
sp<CameraService::BasicClient> getCameraClient(const std::string& id) const;
/**
* Return a string describing the current state.
*/
std::string toString() const;
/**
* Make a ClientDescriptor object wrapping the given BasicClient strong pointer.
*/
static DescriptorPtr makeClientDescriptor(const std::string& key,
const sp<BasicClient>& value, int32_t cost,
const std::set<std::string>& conflictingKeys, int32_t score,
int32_t ownerId, int32_t state, int oomScoreOffset, bool systemNativeClient);
/**
* Make a ClientDescriptor object wrapping the given BasicClient strong pointer with
* values intialized from a prior ClientDescriptor.
*/
static DescriptorPtr makeClientDescriptor(const sp<BasicClient>& value,
const CameraService::DescriptorPtr& partial, int oomScoreOffset,
bool systemNativeClient);
}; // class CameraClientManager
int32_t updateAudioRestriction();
int32_t updateAudioRestrictionLocked();
private:
/**
* Returns true if the device is an automotive device and cameraId is system
* only camera which has characteristic AUTOMOTIVE_LOCATION value as either
* AUTOMOTIVE_LOCATION_EXTERIOR_LEFT,AUTOMOTIVE_LOCATION_EXTERIOR_RIGHT,
* AUTOMOTIVE_LOCATION_EXTERIOR_FRONT or AUTOMOTIVE_LOCATION_EXTERIOR_REAR.
*/
bool isAutomotiveExteriorSystemCamera(const std::string& cameraId) const;
// TODO: b/263304156 update this to make use of a death callback for more
// robust/fault tolerant logging
static const sp<IActivityManager>& getActivityManager() {
static const char* kActivityService = "activity";
static const auto activityManager = []() -> sp<IActivityManager> {
const sp<IServiceManager> sm(defaultServiceManager());
if (sm != nullptr) {
return interface_cast<IActivityManager>(sm->checkService(String16(kActivityService)));
}
return nullptr;
}();
return activityManager;
}
/**
* Pre-grants the permission if the attribution source uid is for an automotive
* privileged client. Otherwise uses system service permission checker to check
* for the appropriate permission. If this function is called for accessing a specific
* camera,then the cameraID must not be empty. CameraId is used only in case of automotive
* privileged client so that permission is pre-granted only to access system camera device
* which is located outside of the vehicle body frame because camera located inside the vehicle
* cabin would need user permission.
*/
bool checkPermission(const std::string& cameraId, const std::string& permission,
const content::AttributionSourceState& attributionSource, const std::string& message,
int32_t attributedOpCode) const;
bool hasPermissionsForSystemCamera(const std::string& cameraId, int callingPid, int callingUid)
const;
bool hasPermissionsForCameraHeadlessSystemUser(const std::string& cameraId, int callingPid,
int callingUid) const;
bool hasCameraPermissions() const;
/**
* Typesafe version of device status, containing both the HAL-layer and the service interface-
* layer values.
*/
enum class StatusInternal : int32_t {
NOT_PRESENT = static_cast<int32_t>(CameraDeviceStatus::NOT_PRESENT),
PRESENT = static_cast<int32_t>(CameraDeviceStatus::PRESENT),
ENUMERATING = static_cast<int32_t>(CameraDeviceStatus::ENUMERATING),
NOT_AVAILABLE = static_cast<int32_t>(hardware::ICameraServiceListener::STATUS_NOT_AVAILABLE),
UNKNOWN = static_cast<int32_t>(hardware::ICameraServiceListener::STATUS_UNKNOWN)
};
/**
* Container class for the state of each logical camera device, including: ID, status, and
* dependencies on other devices. The mapping of camera ID -> state saved in mCameraStates
* represents the camera devices advertised by the HAL (and any USB devices, when we add
* those).
*
* This container does NOT represent an active camera client. These are represented using
* the ClientDescriptors stored in mActiveClientManager.
*/
class CameraState {
public:
/**
* Make a new CameraState and set the ID, cost, and conflicting devices using the values
* returned in the HAL's camera_info struct for each device.
*/
CameraState(const std::string& id, int cost, const std::set<std::string>& conflicting,
SystemCameraKind deviceKind, const std::vector<std::string>& physicalCameras);
virtual ~CameraState();
/**
* Return the status for this device.
*
* This method acquires mStatusLock.
*/
StatusInternal getStatus() const;
/**
* This function updates the status for this camera device, unless the given status
* is in the given list of rejected status states, and execute the function passed in
* with a signature onStatusUpdateLocked(const std::string&, int32_t)
* if the status has changed.
*
* This method is idempotent, and will not result in the function passed to
* onStatusUpdateLocked being called more than once for the same arguments.
* This method aquires mStatusLock.
*/
template<class Func>
void updateStatus(StatusInternal status,
const std::string& cameraId,
std::initializer_list<StatusInternal> rejectSourceStates,
Func onStatusUpdatedLocked);
/**
* Return the last set CameraParameters object generated from the information returned by
* the HAL for this device (or an empty CameraParameters object if none has been set).
*/
CameraParameters getShimParams() const;
/**
* Set the CameraParameters for this device.
*/
void setShimParams(const CameraParameters& params);
/**
* Return the resource_cost advertised by the HAL for this device.
*/
int getCost() const;
/**
* Return a set of the IDs of conflicting devices advertised by the HAL for this device.
*/
std::set<std::string> getConflicting() const;
/**
* Return the kind (SystemCameraKind) of this camera device.
*/
SystemCameraKind getSystemCameraKind() const;
/**
* Return whether this camera is a logical multi-camera and has a
* particular physical sub-camera.
*/
bool containsPhysicalCamera(const std::string& physicalCameraId) const;
/**
* Add/Remove the unavailable physical camera ID.
*/
bool addUnavailablePhysicalId(const std::string& physicalId);
bool removeUnavailablePhysicalId(const std::string& physicalId);
/**
* Set and get client package name.
*/
void setClientPackage(const std::string& clientPackage);
std::string getClientPackage() const;
/**
* Return the unavailable physical ids for this device.
*
* This method acquires mStatusLock.
*/
std::vector<std::string> getUnavailablePhysicalIds() const;
private:
const std::string mId;
StatusInternal mStatus; // protected by mStatusLock
const int mCost;
std::set<std::string> mConflicting;
std::set<std::string> mUnavailablePhysicalIds;
std::string mClientPackage;
mutable Mutex mStatusLock;
CameraParameters mShimParams;
const SystemCameraKind mSystemCameraKind;
const std::vector<std::string> mPhysicalCameras; // Empty if not a logical multi-camera
}; // class CameraState
// Observer for UID lifecycle enforcing that UIDs in idle
// state cannot use the camera to protect user privacy.
class UidPolicy :
public BnUidObserver,
public virtual IBinder::DeathRecipient,
public virtual IServiceManager::LocalRegistrationCallback {
public:
explicit UidPolicy(sp<CameraService> service)
: mRegistered(false), mService(service) {}
void registerSelf();
void unregisterSelf();
bool isUidActive(uid_t uid, const std::string &callingPackage);
int32_t getProcState(uid_t uid);
// IUidObserver
void onUidGone(uid_t uid, bool disabled) override;
void onUidActive(uid_t uid) override;
void onUidIdle(uid_t uid, bool disabled) override;
void onUidStateChanged(uid_t uid, int32_t procState, int64_t procStateSeq,
int32_t capability) override;
void onUidProcAdjChanged(uid_t uid, int adj) override;
void addOverrideUid(uid_t uid, const std::string &callingPackage, bool active);
void removeOverrideUid(uid_t uid, const std::string &callingPackage);
void registerMonitorUid(uid_t uid, bool openCamera);
void unregisterMonitorUid(uid_t uid, bool closeCamera);
// Implementation of IServiceManager::LocalRegistrationCallback
virtual void onServiceRegistration(const String16& name,
const sp<IBinder>& binder) override;
// IBinder::DeathRecipient implementation
virtual void binderDied(const wp<IBinder> &who);
private:
bool isUidActiveLocked(uid_t uid, const std::string &callingPackage);
int32_t getProcStateLocked(uid_t uid);
void updateOverrideUid(uid_t uid, const std::string &callingPackage, bool active,
bool insert);
void registerWithActivityManager();
struct MonitoredUid {
int32_t procState;
int32_t procAdj;
bool hasCamera;
size_t refCount;
};
Mutex mUidLock;
bool mRegistered;
ActivityManager mAm;
wp<CameraService> mService;
std::unordered_set<uid_t> mActiveUids;
// Monitored uid map
std::unordered_map<uid_t, MonitoredUid> mMonitoredUids;
std::unordered_map<uid_t, bool> mOverrideUids;
sp<IBinder> mObserverToken;
}; // class UidPolicy
// If sensor privacy is enabled then all apps, including those that are active, should be
// prevented from accessing the camera.
class SensorPrivacyPolicy : public hardware::BnSensorPrivacyListener,
public virtual IBinder::DeathRecipient,
public virtual IServiceManager::LocalRegistrationCallback {
public:
explicit SensorPrivacyPolicy(wp<CameraService> service)
: mService(service), mSensorPrivacyEnabled(false), mRegistered(false) {}
void registerSelf();
void unregisterSelf();
bool isSensorPrivacyEnabled();
bool isCameraPrivacyEnabled();
binder::Status onSensorPrivacyChanged(int toggleType, int sensor,
bool enabled);
// Implementation of IServiceManager::LocalRegistrationCallback
virtual void onServiceRegistration(const String16& name,
const sp<IBinder>& binder) override;
// IBinder::DeathRecipient implementation
virtual void binderDied(const wp<IBinder> &who);
private:
SensorPrivacyManager mSpm;
wp<CameraService> mService;
Mutex mSensorPrivacyLock;
bool mSensorPrivacyEnabled;
bool mRegistered;
bool hasCameraPrivacyFeature();
void registerWithSensorPrivacyManager();
};
sp<UidPolicy> mUidPolicy;
sp<SensorPrivacyPolicy> mSensorPrivacyPolicy;
std::shared_ptr<CameraServiceProxyWrapper> mCameraServiceProxyWrapper;
// Delay-load the Camera HAL module
virtual void onFirstRef();
// Eumerate all camera providers in the system
status_t enumerateProviders();
// Add/remove a new camera to camera and torch state lists or remove an unplugged one
// Caller must not hold mServiceLock
void addStates(const std::string& id);
void removeStates(const std::string& id);
// Check if we can connect, before we acquire the service lock.
// The returned originalClientPid is the PID of the original process that wants to connect to
// camera.
// The returned clientPid is the PID of the client that directly connects to camera.
// originalClientPid and clientPid are usually the same except when the application uses
// mediaserver to connect to camera (using MediaRecorder to connect to camera). In that case,
// clientPid is the PID of mediaserver and originalClientPid is the PID of the application.
binder::Status validateConnectLocked(const std::string& cameraId, const std::string& clientName,
/*inout*/int& clientUid, /*inout*/int& clientPid, /*out*/int& originalClientPid) const;
binder::Status validateClientPermissionsLocked(const std::string& cameraId,
const std::string& clientName, /*inout*/int& clientUid, /*inout*/int& clientPid,
/*out*/int& originalClientPid) const;
// Handle active client evictions, and update service state.
// Only call with with mServiceLock held.
status_t handleEvictionsLocked(const std::string& cameraId, int clientPid,
apiLevel effectiveApiLevel, const sp<IBinder>& remoteCallback,
const std::string& packageName, int scoreOffset, bool systemNativeClient,
/*out*/
sp<BasicClient>* client,
std::shared_ptr<resource_policy::ClientDescriptor<std::string, sp<BasicClient>>>* partial);
// Should an operation attempt on a cameraId be rejected ? (this can happen
// under various conditions. For example if a camera device is advertised as
// system only or hidden secure camera, amongst possible others.
bool shouldRejectSystemCameraConnection(const std::string& cameraId) const;
// Should a device status update be skipped for a particular camera device ? (this can happen
// under various conditions. For example if a camera device is advertised as
// system only or hidden secure camera, amongst possible others.
bool shouldSkipStatusUpdates(SystemCameraKind systemCameraKind, bool isVendorListener,
int clientPid, int clientUid);
// Gets the kind of camera device (i.e public, hidden secure or system only)
// getSystemCameraKind() needs mInterfaceMutex which might lead to deadlocks
// if held along with mStatusListenerLock (depending on lock ordering, b/141756275), it is
// recommended that we don't call this function with mStatusListenerLock held.
status_t getSystemCameraKind(const std::string& cameraId, SystemCameraKind *kind) const;
// Update the set of API1Compatible camera devices without including system
// cameras and secure cameras. This is used for hiding system only cameras
// from clients using camera1 api and not having android.permission.SYSTEM_CAMERA.
// This function expects @param normalDeviceIds, to have normalDeviceIds
// sorted in alpha-numeric order.
void filterAPI1SystemCameraLocked(const std::vector<std::string> &normalDeviceIds);
// In some cases the calling code has no access to the package it runs under.
// For example, NDK camera API.
// In this case we will get the packages for the calling UID and pick the first one
// for attributing the app op. This will work correctly for runtime permissions
// as for legacy apps we will toggle the app op for all packages in the UID.
// The caveat is that the operation may be attributed to the wrong package and
// stats based on app ops may be slightly off.
std::string getPackageNameFromUid(int clientUid);
// Single implementation shared between the various connect calls
template<class CALLBACK, class CLIENT>
binder::Status connectHelper(const sp<CALLBACK>& cameraCb, const std::string& cameraId,
int api1CameraId, const std::string& clientPackageNameMaybe, bool systemNativeClient,
const std::optional<std::string>& clientFeatureId, int clientUid, int clientPid,
apiLevel effectiveApiLevel, bool shimUpdateOnly, int scoreOffset, int targetSdkVersion,
bool overrideToPortrait, bool forceSlowJpegMode, const std::string& originalCameraId,
/*out*/sp<CLIENT>& device);
// Lock guarding camera service state
Mutex mServiceLock;
// Condition to use with mServiceLock, used to handle simultaneous connect calls from clients
std::shared_ptr<WaitableMutexWrapper> mServiceLockWrapper;
// Return NO_ERROR if the device with a give ID can be connected to
status_t checkIfDeviceIsUsable(const std::string& cameraId) const;
// Container for managing currently active application-layer clients
CameraClientManager mActiveClientManager;
// Adds client logs during open session to the file pointed by fd.
void dumpOpenSessionClientLogs(int fd, const Vector<String16>& args,
const std::string& cameraId);
// Adds client logs during closed session to the file pointed by fd.
void dumpClosedSessionClientLogs(int fd, const std::string& cameraId);
// Mapping from camera ID -> state for each device, map is protected by mCameraStatesLock
std::map<std::string, std::shared_ptr<CameraState>> mCameraStates;
// Mutex guarding mCameraStates map
mutable Mutex mCameraStatesLock;
/**
* Mapping from packageName -> {cameraIdToReplace -> newCameraIdtoUse}.
*
* This specifies that for packageName, for every binder operation targeting
* cameraIdToReplace, use newCameraIdToUse instead.
*/
typedef std::map<std::string, std::map<std::string, std::string>> TCameraIdRemapping;
TCameraIdRemapping mCameraIdRemapping{};
/** Mutex guarding mCameraIdRemapping. */
Mutex mCameraIdRemappingLock;
/** Parses cameraIdRemapping parcelable into the native cameraIdRemappingMap. */
binder::Status parseCameraIdRemapping(
const hardware::CameraIdRemapping& cameraIdRemapping,
/* out */ TCameraIdRemapping* cameraIdRemappingMap);
/**
* Resolve the (potentially remapped) camera Id to use for packageName.
*
* This returns the Camera Id to use in case inputCameraId was remapped to a
* different Id for the given packageName. Otherwise, it returns the inputCameraId.
*
* If the packageName is not provided, it will be inferred from the clientUid.
*/
std::string resolveCameraId(
const std::string& inputCameraId,
int clientUid,
const std::string& packageName = "");
/**
* Updates the state of mCameraIdRemapping, while disconnecting active clients as necessary.
*/
void remapCameraIds(const TCameraIdRemapping& cameraIdRemapping);
/**
* Finds the Camera Ids that were remapped to the inputCameraId for the given client.
*/
std::vector<std::string> findOriginalIdsForRemappedCameraId(
const std::string& inputCameraId, int clientUid);
// Circular buffer for storing event logging for dumps
RingBuffer<std::string> mEventLog;
Mutex mLogLock;
// set of client package names to watch. if this set contains 'all', then all clients will
// be watched. Access should be guarded by mLogLock
std::set<std::string> mWatchedClientPackages;
// cache of last monitored tags dump immediately before the client disconnects. If a client
// re-connects, its entry is not updated until it disconnects again. Access should be guarded
// by mLogLock
std::map<std::string, std::string> mWatchedClientsDumpCache;
// The last monitored tags set by client
std::string mMonitorTags;
// Currently allowed user IDs
std::set<userid_t> mAllowedUsers;
/**
* Get the camera state for a given camera id.
*
* This acquires mCameraStatesLock.
*/
std::shared_ptr<CameraService::CameraState> getCameraState(const std::string& cameraId) const;
/**
* Evict client who's remote binder has died. Returns true if this client was in the active
* list and was disconnected.
*
* This method acquires mServiceLock.
*/
bool evictClientIdByRemote(const wp<IBinder>& cameraClient);
/**
* Remove the given client from the active clients list; does not disconnect the client.
*
* This method acquires mServiceLock.
*/
void removeByClient(const BasicClient* client);
/**
* Add new client to active clients list after conflicting clients have disconnected using the
* values set in the partial descriptor passed in to construct the actual client descriptor.
* This is typically called at the end of a connect call.
*
* This method must be called with mServiceLock held.
*/
void finishConnectLocked(const sp<BasicClient>& client, const DescriptorPtr& desc,
int oomScoreOffset, bool systemNativeClient);
/**
* Returns the underlying camera Id string mapped to a camera id int
* Empty string is returned when the cameraIdInt is invalid.
*/
std::string cameraIdIntToStr(int cameraIdInt);
/**
* Returns the underlying camera Id string mapped to a camera id int
* Empty string is returned when the cameraIdInt is invalid.
*/
std::string cameraIdIntToStrLocked(int cameraIdInt);
/**
* Remove a single client corresponding to the given camera id from the list of active clients.
* If none exists, return an empty strongpointer.
*
* This method must be called with mServiceLock held.
*/
sp<CameraService::BasicClient> removeClientLocked(const std::string& cameraId);
/**
* Handle a notification that the current device user has changed.
*/
void doUserSwitch(const std::vector<int32_t>& newUserIds);
/**
* Add an event log message.
*/
void logEvent(const std::string &event);
/**
* Add an event log message that a client has been disconnected.
*/
void logDisconnected(const std::string &cameraId, int clientPid,
const std::string &clientPackage);
/**
* Add an event log message that a client has been disconnected from offline device.
*/
void logDisconnectedOffline(const std::string &cameraId, int clientPid,
const std::string &clientPackage);
/**
* Add an event log message that an offline client has been connected.
*/
void logConnectedOffline(const std::string &cameraId, int clientPid,
const std::string &clientPackage);
/**
* Add an event log message that a client has been connected.
*/
void logConnected(const std::string &cameraId, int clientPid, const std::string &clientPackage);
/**
* Add an event log message that a client's connect attempt has been rejected.
*/
void logRejected(const std::string &cameraId, int clientPid, const std::string &clientPackage,
const std::string &reason);
/**
* Add an event log message when a client calls setTorchMode succesfully.
*/
void logTorchEvent(const std::string &cameraId, const std::string &torchState, int clientPid);
/**
* Add an event log message that the current device user has been switched.
*/
void logUserSwitch(const std::set<userid_t>& oldUserIds,
const std::set<userid_t>& newUserIds);
/**
* Add an event log message that a device has been removed by the HAL
*/
void logDeviceRemoved(const std::string &cameraId, const std::string &reason);
/**
* Add an event log message that a device has been added by the HAL
*/
void logDeviceAdded(const std::string &cameraId, const std::string &reason);
/**
* Add an event log message that a client has unexpectedly died.
*/
void logClientDied(int clientPid, const std::string &reason);
/**
* Add a event log message that a serious service-level error has occured
* The errorCode should be one of the Android Errors
*/
void logServiceError(const std::string &msg, int errorCode);
/**
* Dump the event log to an FD
*/
void dumpEventLog(int fd);
void cacheClientTagDumpIfNeeded(const std::string &cameraId, BasicClient *client);
/**
* This method will acquire mServiceLock
*/
void updateCameraNumAndIds();
/**
* Filter camera characteristics for S Performance class primary cameras.
* mServiceLock should be locked.
*/
void filterSPerfClassCharacteristicsLocked();
// File descriptor to temp file used for caching previous open
// session dumpsys info.
int mMemFd;
// Number of camera devices (excluding hidden secure cameras)
int mNumberOfCameras;
// Number of camera devices (excluding hidden secure cameras and
// system cameras)
int mNumberOfCamerasWithoutSystemCamera;
std::vector<std::string> mNormalDeviceIds;
std::vector<std::string> mNormalDeviceIdsWithoutSystemCamera;
std::set<std::string> mPerfClassPrimaryCameraIds;
// sounds
sp<MediaPlayer> newMediaPlayer(const char *file);
Mutex mSoundLock;
sp<MediaPlayer> mSoundPlayer[NUM_SOUNDS];
int mSoundRef; // reference count (release all MediaPlayer when 0)
// Basic flag on whether the camera subsystem is in a usable state
bool mInitialized;
sp<CameraProviderManager> mCameraProviderManager;
class ServiceListener : public virtual IBinder::DeathRecipient {
public:
ServiceListener(sp<CameraService> parent, sp<hardware::ICameraServiceListener> listener,
int uid, int pid, bool isVendorClient, bool openCloseCallbackAllowed)
: mParent(parent), mListener(listener), mListenerUid(uid), mListenerPid(pid),
mIsVendorListener(isVendorClient),
mOpenCloseCallbackAllowed(openCloseCallbackAllowed) { }
status_t initialize(bool isProcessLocalTest) {
if (isProcessLocalTest) {
return OK;
}
return IInterface::asBinder(mListener)->linkToDeath(this);
}
template<typename... args_t>
void handleBinderStatus(const binder::Status &ret, const char *logOnError,
args_t... args) {
if (!ret.isOk() &&
(ret.exceptionCode() != binder::Status::Exception::EX_TRANSACTION_FAILED
|| !mLastTransactFailed)) {
ALOGE(logOnError, args...);
}
// If the transaction failed, the process may have died (or other things, see
// b/28321379). Mute consecutive errors from this listener to avoid log spam.
if (ret.exceptionCode() == binder::Status::Exception::EX_TRANSACTION_FAILED) {
if (!mLastTransactFailed) {
ALOGE("%s: Muting similar errors from listener %d:%d", __FUNCTION__,
mListenerUid, mListenerPid);
}
mLastTransactFailed = true;
} else {
// Reset mLastTransactFailed when binder becomes healthy again.
mLastTransactFailed = false;
}
}
virtual void binderDied(const wp<IBinder> &/*who*/) {
auto parent = mParent.promote();
if (parent.get() != nullptr) {
parent->removeListener(mListener);
}
}
int getListenerUid() { return mListenerUid; }
int getListenerPid() { return mListenerPid; }
sp<hardware::ICameraServiceListener> getListener() { return mListener; }
bool isVendorListener() { return mIsVendorListener; }
bool isOpenCloseCallbackAllowed() { return mOpenCloseCallbackAllowed; }
private:
wp<CameraService> mParent;
sp<hardware::ICameraServiceListener> mListener;
int mListenerUid = -1;
int mListenerPid = -1;
bool mIsVendorListener = false;
bool mOpenCloseCallbackAllowed = false;
// Flag for preventing log spam when binder becomes unhealthy
bool mLastTransactFailed = false;
};
// Guarded by mStatusListenerMutex
std::vector<sp<ServiceListener>> mListenerList;
Mutex mStatusListenerLock;
/**
* Update the status for the given camera id (if that device exists), and broadcast the
* status update to all current ICameraServiceListeners if the status has changed. Any
* statuses in rejectedSourceStates will be ignored.
*
* This method must be idempotent.
* This method acquires mStatusLock and mStatusListenerLock.
*/
void updateStatus(StatusInternal status,
const std::string& cameraId,
std::initializer_list<StatusInternal>
rejectedSourceStates);
void updateStatus(StatusInternal status,
const std::string& cameraId);
/**
* Update the opened/closed status of the given camera id.
*
* This method acqiures mStatusListenerLock.
*/
void updateOpenCloseStatus(const std::string& cameraId, bool open,
const std::string& packageName);
// flashlight control
sp<CameraFlashlight> mFlashlight;
// guard mTorchStatusMap
Mutex mTorchStatusMutex;
// guard mTorchClientMap
Mutex mTorchClientMapMutex;
// guard mTorchUidMap
Mutex mTorchUidMapMutex;
// camera id -> torch status
KeyedVector<std::string, TorchModeStatus>
mTorchStatusMap;
// camera id -> torch client binder
// only store the last client that turns on each camera's torch mode
KeyedVector<std::string, sp<IBinder>> mTorchClientMap;
// camera id -> [incoming uid, current uid] pair
std::map<std::string, std::pair<int, int>> mTorchUidMap;
// check and handle if torch client's process has died
void handleTorchClientBinderDied(const wp<IBinder> &who);
// handle torch mode status change and invoke callbacks. mTorchStatusMutex
// should be locked.
void onTorchStatusChangedLocked(const std::string& cameraId,
TorchModeStatus newStatus,
SystemCameraKind systemCameraKind);
// get a camera's torch status. mTorchStatusMutex should be locked.
status_t getTorchStatusLocked(const std::string &cameraId,
TorchModeStatus *status) const;
// set a camera's torch status. mTorchStatusMutex should be locked.
status_t setTorchStatusLocked(const std::string &cameraId,
TorchModeStatus status);
// notify physical camera status when the physical camera is public.
// Expects mStatusListenerLock to be locked.
void notifyPhysicalCameraStatusLocked(int32_t status, const std::string& physicalCameraId,
const std::list<std::string>& logicalCameraIds, SystemCameraKind deviceKind);
// get list of logical cameras which are backed by physicalCameraId
std::list<std::string> getLogicalCameras(const std::string& physicalCameraId);
// IBinder::DeathRecipient implementation
virtual void binderDied(const wp<IBinder> &who);
/**
* Initialize and cache the metadata used by the HAL1 shim for a given cameraId.
*
* Sets Status to a service-specific error on failure
*/
binder::Status initializeShimMetadata(int cameraId);
/**
* Get the cached CameraParameters for the camera. If they haven't been
* cached yet, then initialize them for the first time.
*
* Sets Status to a service-specific error on failure
*/
binder::Status getLegacyParametersLazy(int cameraId, /*out*/CameraParameters* parameters);
// Blocks all clients from the UID
void blockClientsForUid(uid_t uid);
// Blocks all active clients.
void blockAllClients();
// Overrides the UID state as if it is idle
status_t handleSetUidState(const Vector<String16>& args, int err);
// Clears the override for the UID state
status_t handleResetUidState(const Vector<String16>& args, int err);
// Gets the UID state
status_t handleGetUidState(const Vector<String16>& args, int out, int err);
// Set the rotate-and-crop AUTO override behavior
status_t handleSetRotateAndCrop(const Vector<String16>& args);
// Get the rotate-and-crop AUTO override behavior
status_t handleGetRotateAndCrop(int out);
// Set the autoframing AUTO override behaviour.
status_t handleSetAutoframing(const Vector<String16>& args);
// Get the autoframing AUTO override behaviour
status_t handleGetAutoframing(int out);
// Set the mask for image dump to disk
status_t handleSetImageDumpMask(const Vector<String16>& args);
// Get the mask for image dump to disk
status_t handleGetImageDumpMask(int out);
// Set the camera mute state
status_t handleSetCameraMute(const Vector<String16>& args);
// Set the stream use case overrides
status_t handleSetStreamUseCaseOverrides(const Vector<String16>& args);
// Clear the stream use case overrides
void handleClearStreamUseCaseOverrides();
// Set or clear the zoom override flag
status_t handleSetZoomOverride(const Vector<String16>& args);
// Set Camera Id remapping using 'cmd'
status_t handleCameraIdRemapping(const Vector<String16>& args, int errFd);
// Handle 'watch' command as passed through 'cmd'
status_t handleWatchCommand(const Vector<String16> &args, int inFd, int outFd);
// Set the camera service watchdog
status_t handleSetCameraServiceWatchdog(const Vector<String16>& args);
// Enable tag monitoring of the given tags in provided clients
status_t startWatchingTags(const Vector<String16> &args, int outFd);
// Disable tag monitoring
status_t stopWatchingTags(int outFd);
// Clears mWatchedClientsDumpCache
status_t clearCachedMonitoredTagDumps(int outFd);
// Print events of monitored tags in all cached and attached clients
status_t printWatchedTags(int outFd);
// Print events of monitored tags in all attached clients as they are captured. New events are
// fetched every `refreshMillis` ms
// NOTE: This function does not terminate until user passes '\n' to inFd.
status_t printWatchedTagsUntilInterrupt(const Vector<String16> &args, int inFd, int outFd);
// Parses comma separated clients list and adds them to mWatchedClientPackages.
// Does not acquire mLogLock before modifying mWatchedClientPackages. It is the caller's
// responsibility to acquire mLogLock before calling this function.
void parseClientsToWatchLocked(const std::string &clients);
// Prints the shell command help
status_t printHelp(int out);
// Returns true if client should monitor tags based on the contents of mWatchedClientPackages.
// Acquires mLogLock before querying mWatchedClientPackages.
bool isClientWatched(const BasicClient *client);
// Returns true if client should monitor tags based on the contents of mWatchedClientPackages.
// Does not acquire mLogLock before querying mWatchedClientPackages. It is the caller's
// responsibility to acquire mLogLock before calling this functions.
bool isClientWatchedLocked(const BasicClient *client);
/**
* Get the current system time as a formatted string.
*/
static std::string getFormattedCurrentTime();
static binder::Status makeClient(const sp<CameraService>& cameraService,
const sp<IInterface>& cameraCb, const std::string& packageName,
bool systemNativeClient, const std::optional<std::string>& featureId,
const std::string& cameraId, int api1CameraId, int facing, int sensorOrientation,
int clientPid, uid_t clientUid, int servicePid,
std::pair<int, IPCTransport> deviceVersionAndIPCTransport, apiLevel effectiveApiLevel,
bool overrideForPerfClass, bool overrideToPortrait, bool forceSlowJpegMode,
const std::string& originalCameraId,
/*out*/ sp<BasicClient>* client);
static std::string toString(std::set<userid_t> intSet);
static int32_t mapToInterface(TorchModeStatus status);
static StatusInternal mapToInternal(CameraDeviceStatus status);
static int32_t mapToInterface(StatusInternal status);
void broadcastTorchModeStatus(const std::string& cameraId,
TorchModeStatus status, SystemCameraKind systemCameraKind);
void broadcastTorchStrengthLevel(const std::string& cameraId, int32_t newTorchStrengthLevel);
void disconnectClient(const std::string& id, sp<BasicClient> clientToDisconnect);
// Regular online and offline devices must not be in conflict at camera service layer.
// Use separate keys for offline devices.
static const std::string kOfflineDevice;
// Sentinel value to be stored in `mWatchedClientsPackages` to indicate that all clients should
// be watched.
static const std::string kWatchAllClientsFlag;
// TODO: right now each BasicClient holds one AppOpsManager instance.
// We can refactor the code so all of clients share this instance
AppOpsManager mAppOps;
// Aggreated audio restriction mode for all camera clients
int32_t mAudioRestriction;
// Current override cmd rotate-and-crop mode; AUTO means no override
uint8_t mOverrideRotateAndCropMode = ANDROID_SCALER_ROTATE_AND_CROP_AUTO;
// Current autoframing mode
uint8_t mOverrideAutoframingMode = ANDROID_CONTROL_AUTOFRAMING_AUTO;
// Current image dump mask
uint8_t mImageDumpMask = 0;
// Current camera mute mode
bool mOverrideCameraMuteMode = false;
// Camera Service watchdog flag
bool mCameraServiceWatchdogEnabled = true;
// Current stream use case overrides
std::vector<int64_t> mStreamUseCaseOverrides;
// Current zoom override value
int32_t mZoomOverrideValue = -1;
/**
* A listener class that implements the IBinder::DeathRecipient interface
* for use to call back the error state injected by the external camera, and
* camera service can kill the injection when binder signals process death.
*/
class InjectionStatusListener : public virtual IBinder::DeathRecipient {
public:
InjectionStatusListener(sp<CameraService> parent) : mParent(parent) {}
void addListener(const sp<hardware::camera2::ICameraInjectionCallback>& callback);
void removeListener();
void notifyInjectionError(const std::string &injectedCamId, status_t err);
// IBinder::DeathRecipient implementation
virtual void binderDied(const wp<IBinder>& who);
private:
Mutex mListenerLock;
wp<CameraService> mParent;
sp<hardware::camera2::ICameraInjectionCallback> mCameraInjectionCallback;
};
sp<InjectionStatusListener> mInjectionStatusListener;
/**
* A class that implements the hardware::camera2::BnCameraInjectionSession interface
*/
class CameraInjectionSession : public hardware::camera2::BnCameraInjectionSession {
public:
CameraInjectionSession(sp<CameraService> parent) : mParent(parent) {}
virtual ~CameraInjectionSession() {}
binder::Status stopInjection() override;
private:
Mutex mInjectionSessionLock;
wp<CameraService> mParent;
};
// When injecting the camera, it will check whether the injecting camera status is unavailable.
// If it is, the disconnect function will be called to to prevent camera access on the device.
status_t checkIfInjectionCameraIsPresent(const std::string& externalCamId,
sp<BasicClient> clientSp);
void clearInjectionParameters();
// This is the existing camera id being replaced.
std::string mInjectionInternalCamId;
// This is the external camera Id replacing the internalId.
std::string mInjectionExternalCamId;
bool mInjectionInitPending = false;
// Guard mInjectionInternalCamId and mInjectionInitPending.
Mutex mInjectionParametersLock;
// Track the folded/unfoled device state. 0 == UNFOLDED, 4 == FOLDED
int64_t mDeviceState;
void updateTorchUidMapLocked(const std::string& cameraId, int uid);
};
} // namespace android
#endif