/* * 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. */ #define LOG_TAG "CameraService" #define ATRACE_TAG ATRACE_TAG_CAMERA //#define LOG_NDEBUG 0 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "CameraService.h" #include "api1/CameraClient.h" #include "api1/Camera2Client.h" #include "api2/CameraDeviceClient.h" #include "utils/CameraTraces.h" #include "CameraDeviceFactory.h" namespace android { // ---------------------------------------------------------------------------- // Logging support -- this is for debugging only // Use "adb shell dumpsys media.camera -v 1" to change it. volatile int32_t gLogLevel = 0; #define LOG1(...) ALOGD_IF(gLogLevel >= 1, __VA_ARGS__); #define LOG2(...) ALOGD_IF(gLogLevel >= 2, __VA_ARGS__); static void setLogLevel(int level) { android_atomic_write(level, &gLogLevel); } // ---------------------------------------------------------------------------- extern "C" { static void camera_device_status_change( const struct camera_module_callbacks* callbacks, int camera_id, int new_status) { sp cs = const_cast( static_cast(callbacks)); cs->onDeviceStatusChanged(camera_id, static_cast(new_status)); } static void torch_mode_status_change( const struct camera_module_callbacks* callbacks, const char* camera_id, int new_status) { if (!callbacks || !camera_id) { ALOGE("%s invalid parameters. callbacks %p, camera_id %p", __FUNCTION__, callbacks, camera_id); } sp cs = const_cast( static_cast(callbacks)); ICameraServiceListener::TorchStatus status; switch (new_status) { case TORCH_MODE_STATUS_NOT_AVAILABLE: status = ICameraServiceListener::TORCH_STATUS_NOT_AVAILABLE; break; case TORCH_MODE_STATUS_AVAILABLE_OFF: status = ICameraServiceListener::TORCH_STATUS_AVAILABLE_OFF; break; case TORCH_MODE_STATUS_AVAILABLE_ON: status = ICameraServiceListener::TORCH_STATUS_AVAILABLE_ON; break; default: ALOGE("Unknown torch status %d", new_status); return; } cs->onTorchStatusChanged( String8(camera_id), status); } } // extern "C" // ---------------------------------------------------------------------------- // This is ugly and only safe if we never re-create the CameraService, but // should be ok for now. static CameraService *gCameraService; CameraService::CameraService() : mEventLog(DEFAULT_EVENT_LOG_LENGTH), mAllowedUsers(), mSoundRef(0), mModule(0), mFlashlight(0) { ALOGI("CameraService started (pid=%d)", getpid()); gCameraService = this; this->camera_device_status_change = android::camera_device_status_change; this->torch_mode_status_change = android::torch_mode_status_change; mServiceLockWrapper = std::make_shared(&mServiceLock); } void CameraService::onFirstRef() { ALOGI("CameraService process starting"); BnCameraService::onFirstRef(); // Update battery life tracking if service is restarting BatteryNotifier& notifier(BatteryNotifier::getInstance()); notifier.noteResetCamera(); notifier.noteResetFlashlight(); camera_module_t *rawModule; int err = hw_get_module(CAMERA_HARDWARE_MODULE_ID, (const hw_module_t **)&rawModule); if (err < 0) { ALOGE("Could not load camera HAL module: %d (%s)", err, strerror(-err)); logServiceError("Could not load camera HAL module", err); mNumberOfCameras = 0; mNumberOfNormalCameras = 0; return; } mModule = new CameraModule(rawModule); err = mModule->init(); if (err != OK) { ALOGE("Could not initialize camera HAL module: %d (%s)", err, strerror(-err)); logServiceError("Could not initialize camera HAL module", err); mNumberOfCameras = 0; delete mModule; mModule = nullptr; return; } ALOGI("Loaded \"%s\" camera module", mModule->getModuleName()); mNumberOfCameras = mModule->getNumberOfCameras(); mNumberOfNormalCameras = mNumberOfCameras; // Setup vendor tags before we call get_camera_info the first time // because HAL might need to setup static vendor keys in get_camera_info VendorTagDescriptor::clearGlobalVendorTagDescriptor(); if (mModule->getModuleApiVersion() >= CAMERA_MODULE_API_VERSION_2_2) { setUpVendorTags(); } mFlashlight = new CameraFlashlight(*mModule, *this); status_t res = mFlashlight->findFlashUnits(); if (res) { // impossible because we haven't open any camera devices. ALOGE("Failed to find flash units."); } int latestStrangeCameraId = INT_MAX; for (int i = 0; i < mNumberOfCameras; i++) { String8 cameraId = String8::format("%d", i); // Get camera info struct camera_info info; bool haveInfo = true; status_t rc = mModule->getCameraInfo(i, &info); if (rc != NO_ERROR) { ALOGE("%s: Received error loading camera info for device %d, cost and" " conflicting devices fields set to defaults for this device.", __FUNCTION__, i); haveInfo = false; } // Check for backwards-compatibility support if (haveInfo) { if (checkCameraCapabilities(i, info, &latestStrangeCameraId) != OK) { delete mModule; mModule = nullptr; return; } } // Defaults to use for cost and conflicting devices int cost = 100; char** conflicting_devices = nullptr; size_t conflicting_devices_length = 0; // If using post-2.4 module version, query the cost + conflicting devices from the HAL if (mModule->getModuleApiVersion() >= CAMERA_MODULE_API_VERSION_2_4 && haveInfo) { cost = info.resource_cost; conflicting_devices = info.conflicting_devices; conflicting_devices_length = info.conflicting_devices_length; } std::set conflicting; for (size_t i = 0; i < conflicting_devices_length; i++) { conflicting.emplace(String8(conflicting_devices[i])); } // Initialize state for each camera device { Mutex::Autolock lock(mCameraStatesLock); mCameraStates.emplace(cameraId, std::make_shared(cameraId, cost, conflicting)); } if (mFlashlight->hasFlashUnit(cameraId)) { mTorchStatusMap.add(cameraId, ICameraServiceListener::TORCH_STATUS_AVAILABLE_OFF); } } if (mModule->getModuleApiVersion() >= CAMERA_MODULE_API_VERSION_2_1) { mModule->setCallbacks(this); } CameraDeviceFactory::registerService(this); CameraService::pingCameraServiceProxy(); } sp CameraService::getCameraServiceProxy() { sp sm = defaultServiceManager(); sp binder = sm->getService(String16("media.camera.proxy")); if (binder == nullptr) { return nullptr; } sp proxyBinder = interface_cast(binder); return proxyBinder; } void CameraService::pingCameraServiceProxy() { sp proxyBinder = getCameraServiceProxy(); if (proxyBinder == nullptr) return; proxyBinder->pingForUserUpdate(); } CameraService::~CameraService() { if (mModule) { delete mModule; mModule = nullptr; } VendorTagDescriptor::clearGlobalVendorTagDescriptor(); gCameraService = nullptr; } void CameraService::onDeviceStatusChanged(int cameraId, camera_device_status_t newStatus) { ALOGI("%s: Status changed for cameraId=%d, newStatus=%d", __FUNCTION__, cameraId, newStatus); String8 id = String8::format("%d", cameraId); std::shared_ptr state = getCameraState(id); if (state == nullptr) { ALOGE("%s: Bad camera ID %d", __FUNCTION__, cameraId); return; } ICameraServiceListener::Status oldStatus = state->getStatus(); if (oldStatus == static_cast(newStatus)) { ALOGE("%s: State transition to the same status %#x not allowed", __FUNCTION__, newStatus); return; } if (newStatus == CAMERA_DEVICE_STATUS_NOT_PRESENT) { logDeviceRemoved(id, String8::format("Device status changed from %d to %d", oldStatus, newStatus)); sp clientToDisconnect; { // Don't do this in updateStatus to avoid deadlock over mServiceLock Mutex::Autolock lock(mServiceLock); // Set the device status to NOT_PRESENT, clients will no longer be able to connect // to this device until the status changes updateStatus(ICameraServiceListener::STATUS_NOT_PRESENT, id); // Remove cached shim parameters state->setShimParams(CameraParameters()); // Remove the client from the list of active clients clientToDisconnect = removeClientLocked(id); // Notify the client of disconnection if (clientToDisconnect != nullptr) { clientToDisconnect->notifyError(ICameraDeviceCallbacks::ERROR_CAMERA_DISCONNECTED, CaptureResultExtras{}); } } ALOGI("%s: Client for camera ID %s evicted due to device status change from HAL", __FUNCTION__, id.string()); // Disconnect client if (clientToDisconnect.get() != nullptr) { // Ensure not in binder RPC so client disconnect PID checks work correctly LOG_ALWAYS_FATAL_IF(getCallingPid() != getpid(), "onDeviceStatusChanged must be called from the camera service process!"); clientToDisconnect->disconnect(); } } else { if (oldStatus == ICameraServiceListener::Status::STATUS_NOT_PRESENT) { logDeviceAdded(id, String8::format("Device status changed from %d to %d", oldStatus, newStatus)); } updateStatus(static_cast(newStatus), id); } } void CameraService::onTorchStatusChanged(const String8& cameraId, ICameraServiceListener::TorchStatus newStatus) { Mutex::Autolock al(mTorchStatusMutex); onTorchStatusChangedLocked(cameraId, newStatus); } void CameraService::onTorchStatusChangedLocked(const String8& cameraId, ICameraServiceListener::TorchStatus newStatus) { ALOGI("%s: Torch status changed for cameraId=%s, newStatus=%d", __FUNCTION__, cameraId.string(), newStatus); ICameraServiceListener::TorchStatus status; status_t res = getTorchStatusLocked(cameraId, &status); if (res) { ALOGE("%s: cannot get torch status of camera %s: %s (%d)", __FUNCTION__, cameraId.string(), strerror(-res), res); return; } if (status == newStatus) { return; } res = setTorchStatusLocked(cameraId, newStatus); if (res) { ALOGE("%s: Failed to set the torch status", __FUNCTION__, (uint32_t)newStatus); return; } { // Update battery life logging for flashlight Mutex::Autolock al(mTorchUidMapMutex); auto iter = mTorchUidMap.find(cameraId); if (iter != mTorchUidMap.end()) { int oldUid = iter->second.second; int newUid = iter->second.first; BatteryNotifier& notifier(BatteryNotifier::getInstance()); if (oldUid != newUid) { // If the UID has changed, log the status and update current UID in mTorchUidMap if (status == ICameraServiceListener::TORCH_STATUS_AVAILABLE_ON) { notifier.noteFlashlightOff(cameraId, oldUid); } if (newStatus == ICameraServiceListener::TORCH_STATUS_AVAILABLE_ON) { notifier.noteFlashlightOn(cameraId, newUid); } iter->second.second = newUid; } else { // If the UID has not changed, log the status if (newStatus == ICameraServiceListener::TORCH_STATUS_AVAILABLE_ON) { notifier.noteFlashlightOn(cameraId, oldUid); } else { notifier.noteFlashlightOff(cameraId, oldUid); } } } } { Mutex::Autolock lock(mStatusListenerLock); for (auto& i : mListenerList) { i->onTorchStatusChanged(newStatus, String16{cameraId}); } } } int32_t CameraService::getNumberOfCameras() { ATRACE_CALL(); return getNumberOfCameras(CAMERA_TYPE_BACKWARD_COMPATIBLE); } int32_t CameraService::getNumberOfCameras(int type) { ATRACE_CALL(); switch (type) { case CAMERA_TYPE_BACKWARD_COMPATIBLE: return mNumberOfNormalCameras; case CAMERA_TYPE_ALL: return mNumberOfCameras; default: ALOGW("%s: Unknown camera type %d, returning 0", __FUNCTION__, type); return 0; } } status_t CameraService::getCameraInfo(int cameraId, struct CameraInfo* cameraInfo) { ATRACE_CALL(); if (!mModule) { return -ENODEV; } if (cameraId < 0 || cameraId >= mNumberOfCameras) { return BAD_VALUE; } struct camera_info info; status_t rc = filterGetInfoErrorCode( mModule->getCameraInfo(cameraId, &info)); cameraInfo->facing = info.facing; cameraInfo->orientation = info.orientation; return rc; } int CameraService::cameraIdToInt(const String8& cameraId) { errno = 0; size_t pos = 0; int ret = stoi(std::string{cameraId.string()}, &pos); if (errno != 0 || pos != cameraId.size()) { return -1; } return ret; } status_t CameraService::generateShimMetadata(int cameraId, /*out*/CameraMetadata* cameraInfo) { ATRACE_CALL(); status_t ret = OK; struct CameraInfo info; if ((ret = getCameraInfo(cameraId, &info)) != OK) { return ret; } CameraMetadata shimInfo; int32_t orientation = static_cast(info.orientation); if ((ret = shimInfo.update(ANDROID_SENSOR_ORIENTATION, &orientation, 1)) != OK) { return ret; } uint8_t facing = (info.facing == CAMERA_FACING_FRONT) ? ANDROID_LENS_FACING_FRONT : ANDROID_LENS_FACING_BACK; if ((ret = shimInfo.update(ANDROID_LENS_FACING, &facing, 1)) != OK) { return ret; } CameraParameters shimParams; if ((ret = getLegacyParametersLazy(cameraId, /*out*/&shimParams)) != OK) { // Error logged by callee return ret; } Vector sizes; Vector jpegSizes; Vector formats; const char* supportedPreviewFormats; { shimParams.getSupportedPreviewSizes(/*out*/sizes); shimParams.getSupportedPreviewFormats(/*out*/formats); shimParams.getSupportedPictureSizes(/*out*/jpegSizes); } // Always include IMPLEMENTATION_DEFINED formats.add(HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED); const size_t INTS_PER_CONFIG = 4; // Build available stream configurations metadata size_t streamConfigSize = (sizes.size() * formats.size() + jpegSizes.size()) * INTS_PER_CONFIG; Vector streamConfigs; streamConfigs.setCapacity(streamConfigSize); for (size_t i = 0; i < formats.size(); ++i) { for (size_t j = 0; j < sizes.size(); ++j) { streamConfigs.add(formats[i]); streamConfigs.add(sizes[j].width); streamConfigs.add(sizes[j].height); streamConfigs.add(ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_OUTPUT); } } for (size_t i = 0; i < jpegSizes.size(); ++i) { streamConfigs.add(HAL_PIXEL_FORMAT_BLOB); streamConfigs.add(jpegSizes[i].width); streamConfigs.add(jpegSizes[i].height); streamConfigs.add(ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_OUTPUT); } if ((ret = shimInfo.update(ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS, streamConfigs.array(), streamConfigSize)) != OK) { return ret; } int64_t fakeMinFrames[0]; // TODO: Fixme, don't fake min frame durations. if ((ret = shimInfo.update(ANDROID_SCALER_AVAILABLE_MIN_FRAME_DURATIONS, fakeMinFrames, 0)) != OK) { return ret; } int64_t fakeStalls[0]; // TODO: Fixme, don't fake stall durations. if ((ret = shimInfo.update(ANDROID_SCALER_AVAILABLE_STALL_DURATIONS, fakeStalls, 0)) != OK) { return ret; } *cameraInfo = shimInfo; return OK; } status_t CameraService::getCameraCharacteristics(int cameraId, CameraMetadata* cameraInfo) { ATRACE_CALL(); if (!cameraInfo) { ALOGE("%s: cameraInfo is NULL", __FUNCTION__); return BAD_VALUE; } if (!mModule) { ALOGE("%s: camera hardware module doesn't exist", __FUNCTION__); return -ENODEV; } if (cameraId < 0 || cameraId >= mNumberOfCameras) { ALOGE("%s: Invalid camera id: %d", __FUNCTION__, cameraId); return BAD_VALUE; } int facing; status_t ret = OK; if (mModule->getModuleApiVersion() < CAMERA_MODULE_API_VERSION_2_0 || getDeviceVersion(cameraId, &facing) <= CAMERA_DEVICE_API_VERSION_2_1 ) { /** * Backwards compatibility mode for old HALs: * - Convert CameraInfo into static CameraMetadata properties. * - Retrieve cached CameraParameters for this camera. If none exist, * attempt to open CameraClient and retrieve the CameraParameters. * - Convert cached CameraParameters into static CameraMetadata * properties. */ ALOGI("%s: Switching to HAL1 shim implementation...", __FUNCTION__); if ((ret = generateShimMetadata(cameraId, cameraInfo)) != OK) { return ret; } } else { /** * Normal HAL 2.1+ codepath. */ struct camera_info info; ret = filterGetInfoErrorCode(mModule->getCameraInfo(cameraId, &info)); *cameraInfo = info.static_camera_characteristics; } return ret; } int CameraService::getCallingPid() { return IPCThreadState::self()->getCallingPid(); } int CameraService::getCallingUid() { return IPCThreadState::self()->getCallingUid(); } String8 CameraService::getFormattedCurrentTime() { time_t now = time(nullptr); char formattedTime[64]; strftime(formattedTime, sizeof(formattedTime), "%m-%d %H:%M:%S", localtime(&now)); return String8(formattedTime); } int CameraService::getCameraPriorityFromProcState(int procState) { // Find the priority for the camera usage based on the process state. Higher priority clients // win for evictions. if (procState < 0) { ALOGE("%s: Received invalid process state %d from ActivityManagerService!", __FUNCTION__, procState); return -1; } // Treat sleeping TOP processes the same as regular TOP processes, for // access priority. This is important for lock-screen camera launch scenarios if (procState == PROCESS_STATE_TOP_SLEEPING) { procState = PROCESS_STATE_TOP; } return INT_MAX - procState; } status_t CameraService::getCameraVendorTagDescriptor(/*out*/sp& desc) { ATRACE_CALL(); if (!mModule) { ALOGE("%s: camera hardware module doesn't exist", __FUNCTION__); return -ENODEV; } desc = VendorTagDescriptor::getGlobalVendorTagDescriptor(); return OK; } int CameraService::getDeviceVersion(int cameraId, int* facing) { ATRACE_CALL(); struct camera_info info; if (mModule->getCameraInfo(cameraId, &info) != OK) { return -1; } int deviceVersion; if (mModule->getModuleApiVersion() >= CAMERA_MODULE_API_VERSION_2_0) { deviceVersion = info.device_version; } else { deviceVersion = CAMERA_DEVICE_API_VERSION_1_0; } if (facing) { *facing = info.facing; } return deviceVersion; } status_t CameraService::filterGetInfoErrorCode(status_t err) { switch(err) { case NO_ERROR: case -EINVAL: return err; default: break; } return -ENODEV; } bool CameraService::setUpVendorTags() { ATRACE_CALL(); vendor_tag_ops_t vOps = vendor_tag_ops_t(); // Check if vendor operations have been implemented if (!mModule->isVendorTagDefined()) { ALOGI("%s: No vendor tags defined for this device.", __FUNCTION__); return false; } mModule->getVendorTagOps(&vOps); // Ensure all vendor operations are present if (vOps.get_tag_count == NULL || vOps.get_all_tags == NULL || vOps.get_section_name == NULL || vOps.get_tag_name == NULL || vOps.get_tag_type == NULL) { ALOGE("%s: Vendor tag operations not fully defined. Ignoring definitions." , __FUNCTION__); return false; } // Read all vendor tag definitions into a descriptor sp desc; status_t res; if ((res = VendorTagDescriptor::createDescriptorFromOps(&vOps, /*out*/desc)) != OK) { ALOGE("%s: Could not generate descriptor from vendor tag operations," "received error %s (%d). Camera clients will not be able to use" "vendor tags", __FUNCTION__, strerror(res), res); return false; } // Set the global descriptor to use with camera metadata VendorTagDescriptor::setAsGlobalVendorTagDescriptor(desc); return true; } status_t CameraService::makeClient(const sp& cameraService, const sp& cameraCb, const String16& packageName, const String8& cameraId, int facing, int clientPid, uid_t clientUid, int servicePid, bool legacyMode, int halVersion, int deviceVersion, apiLevel effectiveApiLevel, /*out*/sp* client) { // TODO: Update CameraClients + HAL interface to use strings for Camera IDs int id = cameraIdToInt(cameraId); if (id == -1) { ALOGE("%s: Invalid camera ID %s, cannot convert to integer.", __FUNCTION__, cameraId.string()); return BAD_VALUE; } if (halVersion < 0 || halVersion == deviceVersion) { // Default path: HAL version is unspecified by caller, create CameraClient // based on device version reported by the HAL. switch(deviceVersion) { case CAMERA_DEVICE_API_VERSION_1_0: if (effectiveApiLevel == API_1) { // Camera1 API route sp tmp = static_cast(cameraCb.get()); *client = new CameraClient(cameraService, tmp, packageName, id, facing, clientPid, clientUid, getpid(), legacyMode); } else { // Camera2 API route ALOGW("Camera using old HAL version: %d", deviceVersion); return -EOPNOTSUPP; } break; case CAMERA_DEVICE_API_VERSION_2_0: case CAMERA_DEVICE_API_VERSION_2_1: case CAMERA_DEVICE_API_VERSION_3_0: case CAMERA_DEVICE_API_VERSION_3_1: case CAMERA_DEVICE_API_VERSION_3_2: case CAMERA_DEVICE_API_VERSION_3_3: if (effectiveApiLevel == API_1) { // Camera1 API route sp tmp = static_cast(cameraCb.get()); *client = new Camera2Client(cameraService, tmp, packageName, id, facing, clientPid, clientUid, servicePid, legacyMode); } else { // Camera2 API route sp tmp = static_cast(cameraCb.get()); *client = new CameraDeviceClient(cameraService, tmp, packageName, id, facing, clientPid, clientUid, servicePid); } break; default: // Should not be reachable ALOGE("Unknown camera device HAL version: %d", deviceVersion); return INVALID_OPERATION; } } else { // A particular HAL version is requested by caller. Create CameraClient // based on the requested HAL version. if (deviceVersion > CAMERA_DEVICE_API_VERSION_1_0 && halVersion == CAMERA_DEVICE_API_VERSION_1_0) { // Only support higher HAL version device opened as HAL1.0 device. sp tmp = static_cast(cameraCb.get()); *client = new CameraClient(cameraService, tmp, packageName, id, facing, clientPid, clientUid, servicePid, legacyMode); } else { // Other combinations (e.g. HAL3.x open as HAL2.x) are not supported yet. ALOGE("Invalid camera HAL version %x: HAL %x device can only be" " opened as HAL %x device", halVersion, deviceVersion, CAMERA_DEVICE_API_VERSION_1_0); return INVALID_OPERATION; } } return NO_ERROR; } String8 CameraService::toString(std::set intSet) { String8 s(""); bool first = true; for (userid_t i : intSet) { if (first) { s.appendFormat("%d", i); first = false; } else { s.appendFormat(", %d", i); } } return s; } status_t CameraService::initializeShimMetadata(int cameraId) { int uid = getCallingUid(); String16 internalPackageName("media"); String8 id = String8::format("%d", cameraId); status_t ret = NO_ERROR; sp tmp = nullptr; if ((ret = connectHelper(sp{nullptr}, id, static_cast(CAMERA_HAL_API_VERSION_UNSPECIFIED), internalPackageName, uid, API_1, false, true, tmp)) != NO_ERROR) { ALOGE("%s: Error %d (%s) initializing shim metadata.", __FUNCTION__, ret, strerror(ret)); return ret; } return NO_ERROR; } status_t CameraService::getLegacyParametersLazy(int cameraId, /*out*/ CameraParameters* parameters) { ALOGV("%s: for cameraId: %d", __FUNCTION__, cameraId); status_t ret = 0; if (parameters == NULL) { ALOGE("%s: parameters must not be null", __FUNCTION__); return BAD_VALUE; } String8 id = String8::format("%d", cameraId); // Check if we already have parameters { // Scope for service lock Mutex::Autolock lock(mServiceLock); auto cameraState = getCameraState(id); if (cameraState == nullptr) { ALOGE("%s: Invalid camera ID: %s", __FUNCTION__, id.string()); return BAD_VALUE; } CameraParameters p = cameraState->getShimParams(); if (!p.isEmpty()) { *parameters = p; return NO_ERROR; } } int64_t token = IPCThreadState::self()->clearCallingIdentity(); ret = initializeShimMetadata(cameraId); IPCThreadState::self()->restoreCallingIdentity(token); if (ret != NO_ERROR) { // Error already logged by callee return ret; } // Check for parameters again { // Scope for service lock Mutex::Autolock lock(mServiceLock); auto cameraState = getCameraState(id); if (cameraState == nullptr) { ALOGE("%s: Invalid camera ID: %s", __FUNCTION__, id.string()); return BAD_VALUE; } CameraParameters p = cameraState->getShimParams(); if (!p.isEmpty()) { *parameters = p; return NO_ERROR; } } ALOGE("%s: Parameters were not initialized, or were empty. Device may not be present.", __FUNCTION__); return INVALID_OPERATION; } status_t CameraService::validateConnectLocked(const String8& cameraId, /*inout*/int& clientUid) const { int callingPid = getCallingPid(); if (clientUid == USE_CALLING_UID) { clientUid = getCallingUid(); } else { // We only trust our own process to forward client UIDs if (callingPid != getpid()) { ALOGE("CameraService::connect X (PID %d) rejected (don't trust clientUid %d)", callingPid, clientUid); return PERMISSION_DENIED; } } if (!mModule) { ALOGE("CameraService::connect X (PID %d) rejected (camera HAL module not loaded)", callingPid); return -ENODEV; } if (getCameraState(cameraId) == nullptr) { ALOGE("CameraService::connect X (PID %d) rejected (invalid camera ID %s)", callingPid, cameraId.string()); return -ENODEV; } // Check device policy for this camera char value[PROPERTY_VALUE_MAX]; char key[PROPERTY_KEY_MAX]; userid_t clientUserId = multiuser_get_user_id(clientUid); snprintf(key, PROPERTY_KEY_MAX, "sys.secpolicy.camera.off_%d", clientUserId); property_get(key, value, "0"); if (strcmp(value, "1") == 0) { // Camera is disabled by DevicePolicyManager. ALOGE("CameraService::connect X (PID %d) rejected (camera %s is disabled by device " "policy)", callingPid, cameraId.string()); return -EACCES; } // Only allow clients who are being used by the current foreground device user, unless calling // from our own process. if (callingPid != getpid() && (mAllowedUsers.find(clientUserId) == mAllowedUsers.end())) { ALOGE("CameraService::connect X (PID %d) rejected (cannot connect from " "device user %d, currently allowed device users: %s)", callingPid, clientUserId, toString(mAllowedUsers).string()); return PERMISSION_DENIED; } return checkIfDeviceIsUsable(cameraId); } status_t CameraService::checkIfDeviceIsUsable(const String8& cameraId) const { auto cameraState = getCameraState(cameraId); int callingPid = getCallingPid(); if (cameraState == nullptr) { ALOGE("CameraService::connect X (PID %d) rejected (invalid camera ID %s)", callingPid, cameraId.string()); return -ENODEV; } ICameraServiceListener::Status currentStatus = cameraState->getStatus(); if (currentStatus == ICameraServiceListener::STATUS_NOT_PRESENT) { ALOGE("CameraService::connect X (PID %d) rejected (camera %s is not connected)", callingPid, cameraId.string()); return -ENODEV; } else if (currentStatus == ICameraServiceListener::STATUS_ENUMERATING) { ALOGE("CameraService::connect X (PID %d) rejected, (camera %s is initializing)", callingPid, cameraId.string()); return -EBUSY; } return NO_ERROR; } void CameraService::finishConnectLocked(const sp& client, const CameraService::DescriptorPtr& desc) { // Make a descriptor for the incoming client auto clientDescriptor = CameraService::CameraClientManager::makeClientDescriptor(client, desc); auto evicted = mActiveClientManager.addAndEvict(clientDescriptor); logConnected(desc->getKey(), static_cast(desc->getOwnerId()), String8(client->getPackageName())); if (evicted.size() > 0) { // This should never happen - clients should already have been removed in disconnect for (auto& i : evicted) { ALOGE("%s: Invalid state: Client for camera %s was not removed in disconnect", __FUNCTION__, i->getKey().string()); } LOG_ALWAYS_FATAL("%s: Invalid state for CameraService, clients not evicted properly", __FUNCTION__); } // And register a death notification for the client callback. Do // this last to avoid Binder policy where a nested Binder // transaction might be pre-empted to service the client death // notification if the client process dies before linkToDeath is // invoked. sp remoteCallback = client->getRemote(); if (remoteCallback != nullptr) { remoteCallback->linkToDeath(this); } } status_t CameraService::handleEvictionsLocked(const String8& cameraId, int clientPid, apiLevel effectiveApiLevel, const sp& remoteCallback, const String8& packageName, /*out*/ sp* client, std::shared_ptr>>* partial) { ATRACE_CALL(); status_t ret = NO_ERROR; std::vector evictedClients; DescriptorPtr clientDescriptor; { if (effectiveApiLevel == API_1) { // If we are using API1, any existing client for this camera ID with the same remote // should be returned rather than evicted to allow MediaRecorder to work properly. auto current = mActiveClientManager.get(cameraId); if (current != nullptr) { auto clientSp = current->getValue(); if (clientSp.get() != nullptr) { // should never be needed if (!clientSp->canCastToApiClient(effectiveApiLevel)) { ALOGW("CameraService connect called from same client, but with a different" " API level, evicting prior client..."); } else if (clientSp->getRemote() == remoteCallback) { ALOGI("CameraService::connect X (PID %d) (second call from same" " app binder, returning the same client)", clientPid); *client = clientSp; return NO_ERROR; } } } } // Return error if the device was unplugged or removed by the HAL for some reason if ((ret = checkIfDeviceIsUsable(cameraId)) != NO_ERROR) { return ret; } // Get current active client PIDs std::vector ownerPids(mActiveClientManager.getAllOwners()); ownerPids.push_back(clientPid); // Use the value +PROCESS_STATE_NONEXISTENT, to avoid taking // address of PROCESS_STATE_NONEXISTENT as a reference argument // for the vector constructor. PROCESS_STATE_NONEXISTENT does // not have an out-of-class definition. std::vector priorities(ownerPids.size(), +PROCESS_STATE_NONEXISTENT); // Get priorites of all active PIDs ProcessInfoService::getProcessStatesFromPids(ownerPids.size(), &ownerPids[0], /*out*/&priorities[0]); // Update all active clients' priorities std::map pidToPriorityMap; for (size_t i = 0; i < ownerPids.size() - 1; i++) { pidToPriorityMap.emplace(ownerPids[i], getCameraPriorityFromProcState(priorities[i])); } mActiveClientManager.updatePriorities(pidToPriorityMap); // Get state for the given cameraId auto state = getCameraState(cameraId); if (state == nullptr) { ALOGE("CameraService::connect X (PID %d) rejected (no camera device with ID %s)", clientPid, cameraId.string()); return BAD_VALUE; } // Make descriptor for incoming client clientDescriptor = CameraClientManager::makeClientDescriptor(cameraId, sp{nullptr}, static_cast(state->getCost()), state->getConflicting(), getCameraPriorityFromProcState(priorities[priorities.size() - 1]), clientPid); // Find clients that would be evicted auto evicted = mActiveClientManager.wouldEvict(clientDescriptor); // If the incoming client was 'evicted,' higher priority clients have the camera in the // background, so we cannot do evictions if (std::find(evicted.begin(), evicted.end(), clientDescriptor) != evicted.end()) { ALOGE("CameraService::connect X (PID %d) rejected (existing client(s) with higher" " priority).", clientPid); sp clientSp = clientDescriptor->getValue(); String8 curTime = getFormattedCurrentTime(); auto incompatibleClients = mActiveClientManager.getIncompatibleClients(clientDescriptor); String8 msg = String8::format("%s : DENIED connect device %s client for package %s " "(PID %d, priority %d) due to eviction policy", curTime.string(), cameraId.string(), packageName.string(), clientPid, getCameraPriorityFromProcState(priorities[priorities.size() - 1])); for (auto& i : incompatibleClients) { msg.appendFormat("\n - Blocked by existing device %s client for package %s" "(PID %" PRId32 ", priority %" PRId32 ")", i->getKey().string(), String8{i->getValue()->getPackageName()}.string(), i->getOwnerId(), i->getPriority()); ALOGE(" Conflicts with: Device %s, client package %s (PID %" PRId32 ", priority %" PRId32 ")", i->getKey().string(), String8{i->getValue()->getPackageName()}.string(), i->getOwnerId(), i->getPriority()); } // Log the client's attempt Mutex::Autolock l(mLogLock); mEventLog.add(msg); return -EBUSY; } for (auto& i : evicted) { sp clientSp = i->getValue(); if (clientSp.get() == nullptr) { ALOGE("%s: Invalid state: Null client in active client list.", __FUNCTION__); // TODO: Remove this LOG_ALWAYS_FATAL("%s: Invalid state for CameraService, null client in active list", __FUNCTION__); mActiveClientManager.remove(i); continue; } ALOGE("CameraService::connect evicting conflicting client for camera ID %s", i->getKey().string()); evictedClients.push_back(i); // Log the clients evicted logEvent(String8::format("EVICT device %s client held by package %s (PID" " %" PRId32 ", priority %" PRId32 ")\n - Evicted by device %s client for" " package %s (PID %d, priority %" PRId32 ")", i->getKey().string(), String8{clientSp->getPackageName()}.string(), i->getOwnerId(), i->getPriority(), cameraId.string(), packageName.string(), clientPid, getCameraPriorityFromProcState(priorities[priorities.size() - 1]))); // Notify the client of disconnection clientSp->notifyError(ICameraDeviceCallbacks::ERROR_CAMERA_DISCONNECTED, CaptureResultExtras()); } } // Do not hold mServiceLock while disconnecting clients, but retain the condition blocking // other clients from connecting in mServiceLockWrapper if held mServiceLock.unlock(); // Clear caller identity temporarily so client disconnect PID checks work correctly int64_t token = IPCThreadState::self()->clearCallingIdentity(); // Destroy evicted clients for (auto& i : evictedClients) { // Disconnect is blocking, and should only have returned when HAL has cleaned up i->getValue()->disconnect(); // Clients will remove themselves from the active client list } IPCThreadState::self()->restoreCallingIdentity(token); for (const auto& i : evictedClients) { ALOGV("%s: Waiting for disconnect to complete for client for device %s (PID %" PRId32 ")", __FUNCTION__, i->getKey().string(), i->getOwnerId()); ret = mActiveClientManager.waitUntilRemoved(i, DEFAULT_DISCONNECT_TIMEOUT_NS); if (ret == TIMED_OUT) { ALOGE("%s: Timed out waiting for client for device %s to disconnect, " "current clients:\n%s", __FUNCTION__, i->getKey().string(), mActiveClientManager.toString().string()); return -EBUSY; } if (ret != NO_ERROR) { ALOGE("%s: Received error waiting for client for device %s to disconnect: %s (%d), " "current clients:\n%s", __FUNCTION__, i->getKey().string(), strerror(-ret), ret, mActiveClientManager.toString().string()); return ret; } } evictedClients.clear(); // Once clients have been disconnected, relock mServiceLock.lock(); // Check again if the device was unplugged or something while we weren't holding mServiceLock if ((ret = checkIfDeviceIsUsable(cameraId)) != NO_ERROR) { return ret; } *partial = clientDescriptor; return NO_ERROR; } status_t CameraService::connect( const sp& cameraClient, int cameraId, const String16& clientPackageName, int clientUid, /*out*/ sp& device) { ATRACE_CALL(); status_t ret = NO_ERROR; String8 id = String8::format("%d", cameraId); sp client = nullptr; ret = connectHelper(cameraClient, id, CAMERA_HAL_API_VERSION_UNSPECIFIED, clientPackageName, clientUid, API_1, false, false, /*out*/client); if(ret != NO_ERROR) { logRejected(id, getCallingPid(), String8(clientPackageName), String8::format("%s (%d)", strerror(-ret), ret)); return ret; } device = client; return NO_ERROR; } status_t CameraService::connectLegacy( const sp& cameraClient, int cameraId, int halVersion, const String16& clientPackageName, int clientUid, /*out*/ sp& device) { ATRACE_CALL(); String8 id = String8::format("%d", cameraId); int apiVersion = mModule->getModuleApiVersion(); if (halVersion != CAMERA_HAL_API_VERSION_UNSPECIFIED && apiVersion < CAMERA_MODULE_API_VERSION_2_3) { /* * Either the HAL version is unspecified in which case this just creates * a camera client selected by the latest device version, or * it's a particular version in which case the HAL must supported * the open_legacy call */ ALOGE("%s: camera HAL module version %x doesn't support connecting to legacy HAL devices!", __FUNCTION__, apiVersion); logRejected(id, getCallingPid(), String8(clientPackageName), String8("HAL module version doesn't support legacy HAL connections")); return INVALID_OPERATION; } status_t ret = NO_ERROR; sp client = nullptr; ret = connectHelper(cameraClient, id, halVersion, clientPackageName, clientUid, API_1, true, false, /*out*/client); if(ret != NO_ERROR) { logRejected(id, getCallingPid(), String8(clientPackageName), String8::format("%s (%d)", strerror(-ret), ret)); return ret; } device = client; return NO_ERROR; } status_t CameraService::connectDevice( const sp& cameraCb, int cameraId, const String16& clientPackageName, int clientUid, /*out*/ sp& device) { ATRACE_CALL(); status_t ret = NO_ERROR; String8 id = String8::format("%d", cameraId); sp client = nullptr; ret = connectHelper(cameraCb, id, CAMERA_HAL_API_VERSION_UNSPECIFIED, clientPackageName, clientUid, API_2, false, false, /*out*/client); if(ret != NO_ERROR) { logRejected(id, getCallingPid(), String8(clientPackageName), String8::format("%s (%d)", strerror(-ret), ret)); return ret; } device = client; return NO_ERROR; } status_t CameraService::setTorchMode(const String16& cameraId, bool enabled, const sp& clientBinder) { ATRACE_CALL(); if (enabled && clientBinder == nullptr) { ALOGE("%s: torch client binder is NULL", __FUNCTION__); return -EINVAL; } String8 id = String8(cameraId.string()); int uid = getCallingUid(); // verify id is valid. auto state = getCameraState(id); if (state == nullptr) { ALOGE("%s: camera id is invalid %s", __FUNCTION__, id.string()); return -EINVAL; } ICameraServiceListener::Status cameraStatus = state->getStatus(); if (cameraStatus != ICameraServiceListener::STATUS_PRESENT && cameraStatus != ICameraServiceListener::STATUS_NOT_AVAILABLE) { ALOGE("%s: camera id is invalid %s", __FUNCTION__, id.string()); return -EINVAL; } { Mutex::Autolock al(mTorchStatusMutex); ICameraServiceListener::TorchStatus status; status_t res = getTorchStatusLocked(id, &status); if (res) { ALOGE("%s: getting current torch status failed for camera %s", __FUNCTION__, id.string()); return -EINVAL; } if (status == ICameraServiceListener::TORCH_STATUS_NOT_AVAILABLE) { if (cameraStatus == ICameraServiceListener::STATUS_NOT_AVAILABLE) { ALOGE("%s: torch mode of camera %s is not available because " "camera is in use", __FUNCTION__, id.string()); return -EBUSY; } else { ALOGE("%s: torch mode of camera %s is not available due to " "insufficient resources", __FUNCTION__, id.string()); return -EUSERS; } } } { // Update UID map - this is used in the torch status changed callbacks, so must be done // before setTorchMode Mutex::Autolock al(mTorchUidMapMutex); if (mTorchUidMap.find(id) == mTorchUidMap.end()) { mTorchUidMap[id].first = uid; mTorchUidMap[id].second = uid; } else { // Set the pending UID mTorchUidMap[id].first = uid; } } status_t res = mFlashlight->setTorchMode(id, enabled); if (res) { ALOGE("%s: setting torch mode of camera %s to %d failed. %s (%d)", __FUNCTION__, id.string(), enabled, strerror(-res), res); return res; } { // update the link to client's death Mutex::Autolock al(mTorchClientMapMutex); ssize_t index = mTorchClientMap.indexOfKey(id); BatteryNotifier& notifier(BatteryNotifier::getInstance()); if (enabled) { if (index == NAME_NOT_FOUND) { mTorchClientMap.add(id, clientBinder); } else { mTorchClientMap.valueAt(index)->unlinkToDeath(this); mTorchClientMap.replaceValueAt(index, clientBinder); } clientBinder->linkToDeath(this); } else if (index != NAME_NOT_FOUND) { mTorchClientMap.valueAt(index)->unlinkToDeath(this); } } return OK; } void CameraService::notifySystemEvent(int32_t eventId, const int32_t* args, size_t length) { ATRACE_CALL(); switch(eventId) { case ICameraService::USER_SWITCHED: { doUserSwitch(/*newUserIds*/args, /*length*/length); break; } case ICameraService::NO_EVENT: default: { ALOGW("%s: Received invalid system event from system_server: %d", __FUNCTION__, eventId); break; } } } status_t CameraService::addListener(const sp& listener) { ATRACE_CALL(); ALOGV("%s: Add listener %p", __FUNCTION__, listener.get()); if (listener == nullptr) { ALOGE("%s: Listener must not be null", __FUNCTION__); return BAD_VALUE; } Mutex::Autolock lock(mServiceLock); { Mutex::Autolock lock(mStatusListenerLock); for (auto& it : mListenerList) { if (IInterface::asBinder(it) == IInterface::asBinder(listener)) { ALOGW("%s: Tried to add listener %p which was already subscribed", __FUNCTION__, listener.get()); return ALREADY_EXISTS; } } mListenerList.push_back(listener); } /* Immediately signal current status to this listener only */ { Mutex::Autolock lock(mCameraStatesLock); for (auto& i : mCameraStates) { // TODO: Update binder to use String16 for camera IDs and remove; int id = cameraIdToInt(i.first); if (id == -1) continue; listener->onStatusChanged(i.second->getStatus(), id); } } /* Immediately signal current torch status to this listener only */ { Mutex::Autolock al(mTorchStatusMutex); for (size_t i = 0; i < mTorchStatusMap.size(); i++ ) { String16 id = String16(mTorchStatusMap.keyAt(i).string()); listener->onTorchStatusChanged(mTorchStatusMap.valueAt(i), id); } } return OK; } status_t CameraService::removeListener(const sp& listener) { ATRACE_CALL(); ALOGV("%s: Remove listener %p", __FUNCTION__, listener.get()); if (listener == 0) { ALOGE("%s: Listener must not be null", __FUNCTION__); return BAD_VALUE; } Mutex::Autolock lock(mServiceLock); { Mutex::Autolock lock(mStatusListenerLock); for (auto it = mListenerList.begin(); it != mListenerList.end(); it++) { if (IInterface::asBinder(*it) == IInterface::asBinder(listener)) { mListenerList.erase(it); return OK; } } } ALOGW("%s: Tried to remove a listener %p which was not subscribed", __FUNCTION__, listener.get()); return BAD_VALUE; } status_t CameraService::getLegacyParameters(int cameraId, /*out*/String16* parameters) { ATRACE_CALL(); ALOGV("%s: for camera ID = %d", __FUNCTION__, cameraId); if (parameters == NULL) { ALOGE("%s: parameters must not be null", __FUNCTION__); return BAD_VALUE; } status_t ret = 0; CameraParameters shimParams; if ((ret = getLegacyParametersLazy(cameraId, /*out*/&shimParams)) != OK) { // Error logged by caller return ret; } String8 shimParamsString8 = shimParams.flatten(); String16 shimParamsString16 = String16(shimParamsString8); *parameters = shimParamsString16; return OK; } status_t CameraService::supportsCameraApi(int cameraId, int apiVersion) { ATRACE_CALL(); ALOGV("%s: for camera ID = %d", __FUNCTION__, cameraId); switch (apiVersion) { case API_VERSION_1: case API_VERSION_2: break; default: ALOGE("%s: Bad API version %d", __FUNCTION__, apiVersion); return BAD_VALUE; } int facing = -1; int deviceVersion = getDeviceVersion(cameraId, &facing); switch(deviceVersion) { case CAMERA_DEVICE_API_VERSION_1_0: case CAMERA_DEVICE_API_VERSION_2_0: case CAMERA_DEVICE_API_VERSION_2_1: case CAMERA_DEVICE_API_VERSION_3_0: case CAMERA_DEVICE_API_VERSION_3_1: if (apiVersion == API_VERSION_2) { ALOGV("%s: Camera id %d uses HAL prior to HAL3.2, doesn't support api2 without shim", __FUNCTION__, cameraId); return -EOPNOTSUPP; } else { // if (apiVersion == API_VERSION_1) { ALOGV("%s: Camera id %d uses older HAL before 3.2, but api1 is always supported", __FUNCTION__, cameraId); return OK; } case CAMERA_DEVICE_API_VERSION_3_2: case CAMERA_DEVICE_API_VERSION_3_3: ALOGV("%s: Camera id %d uses HAL3.2 or newer, supports api1/api2 directly", __FUNCTION__, cameraId); return OK; case -1: ALOGE("%s: Invalid camera id %d", __FUNCTION__, cameraId); return BAD_VALUE; default: ALOGE("%s: Unknown camera device HAL version: %d", __FUNCTION__, deviceVersion); return INVALID_OPERATION; } return OK; } void CameraService::removeByClient(const BasicClient* client) { Mutex::Autolock lock(mServiceLock); for (auto& i : mActiveClientManager.getAll()) { auto clientSp = i->getValue(); if (clientSp.get() == client) { mActiveClientManager.remove(i); } } } bool CameraService::evictClientIdByRemote(const wp& remote) { const int callingPid = getCallingPid(); const int servicePid = getpid(); bool ret = false; { // Acquire mServiceLock and prevent other clients from connecting std::unique_ptr lock = AutoConditionLock::waitAndAcquire(mServiceLockWrapper); std::vector> evicted; for (auto& i : mActiveClientManager.getAll()) { auto clientSp = i->getValue(); if (clientSp.get() == nullptr) { ALOGE("%s: Dead client still in mActiveClientManager.", __FUNCTION__); mActiveClientManager.remove(i); continue; } if (remote == clientSp->getRemote() && (callingPid == servicePid || callingPid == clientSp->getClientPid())) { mActiveClientManager.remove(i); evicted.push_back(clientSp); // Notify the client of disconnection clientSp->notifyError(ICameraDeviceCallbacks::ERROR_CAMERA_DISCONNECTED, CaptureResultExtras()); } } // Do not hold mServiceLock while disconnecting clients, but retain the condition blocking // other clients from connecting in mServiceLockWrapper if held mServiceLock.unlock(); // Do not clear caller identity, remote caller should be client proccess for (auto& i : evicted) { if (i.get() != nullptr) { i->disconnect(); ret = true; } } // Reacquire mServiceLock mServiceLock.lock(); } // lock is destroyed, allow further connect calls return ret; } /** * Check camera capabilities, such as support for basic color operation */ int CameraService::checkCameraCapabilities(int id, camera_info info, int *latestStrangeCameraId) { // Assume all devices pre-v3.3 are backward-compatible bool isBackwardCompatible = true; if (mModule->getModuleApiVersion() >= CAMERA_MODULE_API_VERSION_2_0 && info.device_version >= CAMERA_DEVICE_API_VERSION_3_3) { isBackwardCompatible = false; status_t res; camera_metadata_ro_entry_t caps; res = find_camera_metadata_ro_entry( info.static_camera_characteristics, ANDROID_REQUEST_AVAILABLE_CAPABILITIES, &caps); if (res != 0) { ALOGW("%s: Unable to find camera capabilities for camera device %d", __FUNCTION__, id); caps.count = 0; } for (size_t i = 0; i < caps.count; i++) { if (caps.data.u8[i] == ANDROID_REQUEST_AVAILABLE_CAPABILITIES_BACKWARD_COMPATIBLE) { isBackwardCompatible = true; break; } } } if (!isBackwardCompatible) { mNumberOfNormalCameras--; *latestStrangeCameraId = id; } else { if (id > *latestStrangeCameraId) { ALOGE("%s: Normal camera ID %d higher than strange camera ID %d. " "This is not allowed due backward-compatibility requirements", __FUNCTION__, id, *latestStrangeCameraId); logServiceError("Invalid order of camera devices", ENODEV); mNumberOfCameras = 0; mNumberOfNormalCameras = 0; return INVALID_OPERATION; } } return OK; } std::shared_ptr CameraService::getCameraState( const String8& cameraId) const { std::shared_ptr state; { Mutex::Autolock lock(mCameraStatesLock); auto iter = mCameraStates.find(cameraId); if (iter != mCameraStates.end()) { state = iter->second; } } return state; } sp CameraService::removeClientLocked(const String8& cameraId) { // Remove from active clients list auto clientDescriptorPtr = mActiveClientManager.remove(cameraId); if (clientDescriptorPtr == nullptr) { ALOGW("%s: Could not evict client, no client for camera ID %s", __FUNCTION__, cameraId.string()); return sp{nullptr}; } return clientDescriptorPtr->getValue(); } void CameraService::doUserSwitch(const int32_t* newUserId, size_t length) { // Acquire mServiceLock and prevent other clients from connecting std::unique_ptr lock = AutoConditionLock::waitAndAcquire(mServiceLockWrapper); std::set newAllowedUsers; for (size_t i = 0; i < length; i++) { if (newUserId[i] < 0) { ALOGE("%s: Bad user ID %d given during user switch, ignoring.", __FUNCTION__, newUserId[i]); return; } newAllowedUsers.insert(static_cast(newUserId[i])); } if (newAllowedUsers == mAllowedUsers) { ALOGW("%s: Received notification of user switch with no updated user IDs.", __FUNCTION__); return; } logUserSwitch(mAllowedUsers, newAllowedUsers); mAllowedUsers = std::move(newAllowedUsers); // Current user has switched, evict all current clients. std::vector> evicted; for (auto& i : mActiveClientManager.getAll()) { auto clientSp = i->getValue(); if (clientSp.get() == nullptr) { ALOGE("%s: Dead client still in mActiveClientManager.", __FUNCTION__); continue; } // Don't evict clients that are still allowed. uid_t clientUid = clientSp->getClientUid(); userid_t clientUserId = multiuser_get_user_id(clientUid); if (mAllowedUsers.find(clientUserId) != mAllowedUsers.end()) { continue; } evicted.push_back(clientSp); String8 curTime = getFormattedCurrentTime(); ALOGE("Evicting conflicting client for camera ID %s due to user change", i->getKey().string()); // Log the clients evicted logEvent(String8::format("EVICT device %s client held by package %s (PID %" PRId32 ", priority %" PRId32 ")\n - Evicted due to user switch.", i->getKey().string(), String8{clientSp->getPackageName()}.string(), i->getOwnerId(), i->getPriority())); } // Do not hold mServiceLock while disconnecting clients, but retain the condition // blocking other clients from connecting in mServiceLockWrapper if held. mServiceLock.unlock(); // Clear caller identity temporarily so client disconnect PID checks work correctly int64_t token = IPCThreadState::self()->clearCallingIdentity(); for (auto& i : evicted) { i->disconnect(); } IPCThreadState::self()->restoreCallingIdentity(token); // Reacquire mServiceLock mServiceLock.lock(); } void CameraService::logEvent(const char* event) { String8 curTime = getFormattedCurrentTime(); Mutex::Autolock l(mLogLock); mEventLog.add(String8::format("%s : %s", curTime.string(), event)); } void CameraService::logDisconnected(const char* cameraId, int clientPid, const char* clientPackage) { // Log the clients evicted logEvent(String8::format("DISCONNECT device %s client for package %s (PID %d)", cameraId, clientPackage, clientPid)); } void CameraService::logConnected(const char* cameraId, int clientPid, const char* clientPackage) { // Log the clients evicted logEvent(String8::format("CONNECT device %s client for package %s (PID %d)", cameraId, clientPackage, clientPid)); } void CameraService::logRejected(const char* cameraId, int clientPid, const char* clientPackage, const char* reason) { // Log the client rejected logEvent(String8::format("REJECT device %s client for package %s (PID %d), reason: (%s)", cameraId, clientPackage, clientPid, reason)); } void CameraService::logUserSwitch(const std::set& oldUserIds, const std::set& newUserIds) { String8 newUsers = toString(newUserIds); String8 oldUsers = toString(oldUserIds); // Log the new and old users logEvent(String8::format("USER_SWITCH previous allowed users: %s , current allowed users: %s", oldUsers.string(), newUsers.string())); } void CameraService::logDeviceRemoved(const char* cameraId, const char* reason) { // Log the device removal logEvent(String8::format("REMOVE device %s, reason: (%s)", cameraId, reason)); } void CameraService::logDeviceAdded(const char* cameraId, const char* reason) { // Log the device removal logEvent(String8::format("ADD device %s, reason: (%s)", cameraId, reason)); } void CameraService::logClientDied(int clientPid, const char* reason) { // Log the device removal logEvent(String8::format("DIED client(s) with PID %d, reason: (%s)", clientPid, reason)); } void CameraService::logServiceError(const char* msg, int errorCode) { String8 curTime = getFormattedCurrentTime(); logEvent(String8::format("SERVICE ERROR: %s : %d (%s)", msg, errorCode, strerror(errorCode))); } status_t CameraService::onTransact(uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) { const int pid = getCallingPid(); const int selfPid = getpid(); // Permission checks switch (code) { case BnCameraService::CONNECT: case BnCameraService::CONNECT_DEVICE: case BnCameraService::CONNECT_LEGACY: { if (pid != selfPid) { // we're called from a different process, do the real check if (!checkCallingPermission( String16("android.permission.CAMERA"))) { const int uid = getCallingUid(); ALOGE("Permission Denial: " "can't use the camera pid=%d, uid=%d", pid, uid); return PERMISSION_DENIED; } } break; } case BnCameraService::NOTIFY_SYSTEM_EVENT: { if (pid != selfPid) { // Ensure we're being called by system_server, or similar process with // permissions to notify the camera service about system events if (!checkCallingPermission( String16("android.permission.CAMERA_SEND_SYSTEM_EVENTS"))) { const int uid = getCallingUid(); ALOGE("Permission Denial: cannot send updates to camera service about system" " events from pid=%d, uid=%d", pid, uid); return PERMISSION_DENIED; } } break; } } return BnCameraService::onTransact(code, data, reply, flags); } // We share the media players for shutter and recording sound for all clients. // A reference count is kept to determine when we will actually release the // media players. MediaPlayer* CameraService::newMediaPlayer(const char *file) { MediaPlayer* mp = new MediaPlayer(); if (mp->setDataSource(NULL /* httpService */, file, NULL) == NO_ERROR) { mp->setAudioStreamType(AUDIO_STREAM_ENFORCED_AUDIBLE); mp->prepare(); } else { ALOGE("Failed to load CameraService sounds: %s", file); return NULL; } return mp; } void CameraService::loadSound() { ATRACE_CALL(); Mutex::Autolock lock(mSoundLock); LOG1("CameraService::loadSound ref=%d", mSoundRef); if (mSoundRef++) return; mSoundPlayer[SOUND_SHUTTER] = newMediaPlayer("/system/media/audio/ui/camera_click.ogg"); mSoundPlayer[SOUND_RECORDING_START] = newMediaPlayer("/system/media/audio/ui/VideoRecord.ogg"); mSoundPlayer[SOUND_RECORDING_STOP] = newMediaPlayer("/system/media/audio/ui/VideoStop.ogg"); } void CameraService::releaseSound() { Mutex::Autolock lock(mSoundLock); LOG1("CameraService::releaseSound ref=%d", mSoundRef); if (--mSoundRef) return; for (int i = 0; i < NUM_SOUNDS; i++) { if (mSoundPlayer[i] != 0) { mSoundPlayer[i]->disconnect(); mSoundPlayer[i].clear(); } } } void CameraService::playSound(sound_kind kind) { ATRACE_CALL(); LOG1("playSound(%d)", kind); Mutex::Autolock lock(mSoundLock); sp player = mSoundPlayer[kind]; if (player != 0) { player->seekTo(0); player->start(); } } // ---------------------------------------------------------------------------- CameraService::Client::Client(const sp& cameraService, const sp& cameraClient, const String16& clientPackageName, int cameraId, int cameraFacing, int clientPid, uid_t clientUid, int servicePid) : CameraService::BasicClient(cameraService, IInterface::asBinder(cameraClient), clientPackageName, cameraId, cameraFacing, clientPid, clientUid, servicePid) { int callingPid = getCallingPid(); LOG1("Client::Client E (pid %d, id %d)", callingPid, cameraId); mRemoteCallback = cameraClient; cameraService->loadSound(); LOG1("Client::Client X (pid %d, id %d)", callingPid, cameraId); } // tear down the client CameraService::Client::~Client() { ALOGV("~Client"); mDestructionStarted = true; mCameraService->releaseSound(); // unconditionally disconnect. function is idempotent Client::disconnect(); } CameraService::BasicClient::BasicClient(const sp& cameraService, const sp& remoteCallback, const String16& clientPackageName, int cameraId, int cameraFacing, int clientPid, uid_t clientUid, int servicePid): mClientPackageName(clientPackageName), mDisconnected(false) { mCameraService = cameraService; mRemoteBinder = remoteCallback; mCameraId = cameraId; mCameraFacing = cameraFacing; mClientPid = clientPid; mClientUid = clientUid; mServicePid = servicePid; mOpsActive = false; mDestructionStarted = false; } CameraService::BasicClient::~BasicClient() { ALOGV("~BasicClient"); mDestructionStarted = true; } void CameraService::BasicClient::disconnect() { if (mDisconnected) { return; } mDisconnected = true; mCameraService->removeByClient(this); mCameraService->logDisconnected(String8::format("%d", mCameraId), mClientPid, String8(mClientPackageName)); sp remote = getRemote(); if (remote != nullptr) { remote->unlinkToDeath(mCameraService); } finishCameraOps(); ALOGI("%s: Disconnected client for camera %d for PID %d", __FUNCTION__, mCameraId, mClientPid); // client shouldn't be able to call into us anymore mClientPid = 0; } status_t CameraService::BasicClient::dump(int, const Vector&) { // No dumping of clients directly over Binder, // must go through CameraService::dump android_errorWriteWithInfoLog(SN_EVENT_LOG_ID, "26265403", IPCThreadState::self()->getCallingUid(), NULL, 0); return OK; } String16 CameraService::BasicClient::getPackageName() const { return mClientPackageName; } int CameraService::BasicClient::getClientPid() const { return mClientPid; } uid_t CameraService::BasicClient::getClientUid() const { return mClientUid; } bool CameraService::BasicClient::canCastToApiClient(apiLevel level) const { // Defaults to API2. return level == API_2; } status_t CameraService::BasicClient::startCameraOps() { ATRACE_CALL(); int32_t res; // Notify app ops that the camera is not available mOpsCallback = new OpsCallback(this); { ALOGV("%s: Start camera ops, package name = %s, client UID = %d", __FUNCTION__, String8(mClientPackageName).string(), mClientUid); } mAppOpsManager.startWatchingMode(AppOpsManager::OP_CAMERA, mClientPackageName, mOpsCallback); res = mAppOpsManager.startOp(AppOpsManager::OP_CAMERA, mClientUid, mClientPackageName); if (res == AppOpsManager::MODE_ERRORED) { ALOGI("Camera %d: Access for \"%s\" has been revoked", mCameraId, String8(mClientPackageName).string()); return PERMISSION_DENIED; } if (res == AppOpsManager::MODE_IGNORED) { ALOGI("Camera %d: Access for \"%s\" has been restricted", mCameraId, String8(mClientPackageName).string()); // Return the same error as for device policy manager rejection return -EACCES; } mOpsActive = true; // Transition device availability listeners from PRESENT -> NOT_AVAILABLE mCameraService->updateStatus(ICameraServiceListener::STATUS_NOT_AVAILABLE, String8::format("%d", mCameraId)); // Transition device state to OPEN mCameraService->updateProxyDeviceState(ICameraServiceProxy::CAMERA_STATE_OPEN, String8::format("%d", mCameraId)); return OK; } status_t CameraService::BasicClient::finishCameraOps() { ATRACE_CALL(); // Check if startCameraOps succeeded, and if so, finish the camera op if (mOpsActive) { // Notify app ops that the camera is available again mAppOpsManager.finishOp(AppOpsManager::OP_CAMERA, mClientUid, mClientPackageName); mOpsActive = false; auto rejected = {ICameraServiceListener::STATUS_NOT_PRESENT, ICameraServiceListener::STATUS_ENUMERATING}; // Transition to PRESENT if the camera is not in either of the rejected states mCameraService->updateStatus(ICameraServiceListener::STATUS_PRESENT, String8::format("%d", mCameraId), rejected); // Transition device state to CLOSED mCameraService->updateProxyDeviceState(ICameraServiceProxy::CAMERA_STATE_CLOSED, String8::format("%d", mCameraId)); // Notify flashlight that a camera device is closed. mCameraService->mFlashlight->deviceClosed( String8::format("%d", mCameraId)); } // Always stop watching, even if no camera op is active if (mOpsCallback != NULL) { mAppOpsManager.stopWatchingMode(mOpsCallback); } mOpsCallback.clear(); return OK; } void CameraService::BasicClient::opChanged(int32_t op, const String16& packageName) { ATRACE_CALL(); String8 name(packageName); String8 myName(mClientPackageName); if (op != AppOpsManager::OP_CAMERA) { ALOGW("Unexpected app ops notification received: %d", op); return; } int32_t res; res = mAppOpsManager.checkOp(AppOpsManager::OP_CAMERA, mClientUid, mClientPackageName); ALOGV("checkOp returns: %d, %s ", res, res == AppOpsManager::MODE_ALLOWED ? "ALLOWED" : res == AppOpsManager::MODE_IGNORED ? "IGNORED" : res == AppOpsManager::MODE_ERRORED ? "ERRORED" : "UNKNOWN"); if (res != AppOpsManager::MODE_ALLOWED) { ALOGI("Camera %d: Access for \"%s\" revoked", mCameraId, myName.string()); // Reset the client PID to allow server-initiated disconnect, // and to prevent further calls by client. mClientPid = getCallingPid(); CaptureResultExtras resultExtras; // a dummy result (invalid) notifyError(ICameraDeviceCallbacks::ERROR_CAMERA_SERVICE, resultExtras); disconnect(); } } // ---------------------------------------------------------------------------- // Provide client strong pointer for callbacks. sp CameraService::Client::getClientFromCookie(void* user) { String8 cameraId = String8::format("%d", (int)(intptr_t) user); auto clientDescriptor = gCameraService->mActiveClientManager.get(cameraId); if (clientDescriptor != nullptr) { return sp{ static_cast(clientDescriptor->getValue().get())}; } return sp{nullptr}; } void CameraService::Client::notifyError(ICameraDeviceCallbacks::CameraErrorCode errorCode, const CaptureResultExtras& resultExtras) { if (mRemoteCallback != NULL) { mRemoteCallback->notifyCallback(CAMERA_MSG_ERROR, CAMERA_ERROR_RELEASED, 0); } else { ALOGE("mRemoteCallback is NULL!!"); } } // NOTE: function is idempotent void CameraService::Client::disconnect() { ALOGV("Client::disconnect"); BasicClient::disconnect(); } bool CameraService::Client::canCastToApiClient(apiLevel level) const { return level == API_1; } CameraService::Client::OpsCallback::OpsCallback(wp client): mClient(client) { } void CameraService::Client::OpsCallback::opChanged(int32_t op, const String16& packageName) { sp client = mClient.promote(); if (client != NULL) { client->opChanged(op, packageName); } } // ---------------------------------------------------------------------------- // CameraState // ---------------------------------------------------------------------------- CameraService::CameraState::CameraState(const String8& id, int cost, const std::set& conflicting) : mId(id), mStatus(ICameraServiceListener::STATUS_PRESENT), mCost(cost), mConflicting(conflicting) {} CameraService::CameraState::~CameraState() {} ICameraServiceListener::Status CameraService::CameraState::getStatus() const { Mutex::Autolock lock(mStatusLock); return mStatus; } CameraParameters CameraService::CameraState::getShimParams() const { return mShimParams; } void CameraService::CameraState::setShimParams(const CameraParameters& params) { mShimParams = params; } int CameraService::CameraState::getCost() const { return mCost; } std::set CameraService::CameraState::getConflicting() const { return mConflicting; } String8 CameraService::CameraState::getId() const { return mId; } // ---------------------------------------------------------------------------- // ClientEventListener // ---------------------------------------------------------------------------- void CameraService::ClientEventListener::onClientAdded( const resource_policy::ClientDescriptor>& descriptor) { auto basicClient = descriptor.getValue(); if (basicClient.get() != nullptr) { BatteryNotifier& notifier(BatteryNotifier::getInstance()); notifier.noteStartCamera(descriptor.getKey(), static_cast(basicClient->getClientUid())); } } void CameraService::ClientEventListener::onClientRemoved( const resource_policy::ClientDescriptor>& descriptor) { auto basicClient = descriptor.getValue(); if (basicClient.get() != nullptr) { BatteryNotifier& notifier(BatteryNotifier::getInstance()); notifier.noteStopCamera(descriptor.getKey(), static_cast(basicClient->getClientUid())); } } // ---------------------------------------------------------------------------- // CameraClientManager // ---------------------------------------------------------------------------- CameraService::CameraClientManager::CameraClientManager() { setListener(std::make_shared()); } CameraService::CameraClientManager::~CameraClientManager() {} sp CameraService::CameraClientManager::getCameraClient( const String8& id) const { auto descriptor = get(id); if (descriptor == nullptr) { return sp{nullptr}; } return descriptor->getValue(); } String8 CameraService::CameraClientManager::toString() const { auto all = getAll(); String8 ret("["); bool hasAny = false; for (auto& i : all) { hasAny = true; String8 key = i->getKey(); int32_t cost = i->getCost(); int32_t pid = i->getOwnerId(); int32_t priority = i->getPriority(); auto conflicting = i->getConflicting(); auto clientSp = i->getValue(); String8 packageName; userid_t clientUserId = 0; if (clientSp.get() != nullptr) { packageName = String8{clientSp->getPackageName()}; uid_t clientUid = clientSp->getClientUid(); clientUserId = multiuser_get_user_id(clientUid); } ret.appendFormat("\n(Camera ID: %s, Cost: %" PRId32 ", PID: %" PRId32 ", Priority: %" PRId32 ", ", key.string(), cost, pid, priority); if (clientSp.get() != nullptr) { ret.appendFormat("User Id: %d, ", clientUserId); } if (packageName.size() != 0) { ret.appendFormat("Client Package Name: %s", packageName.string()); } ret.append(", Conflicting Client Devices: {"); for (auto& j : conflicting) { ret.appendFormat("%s, ", j.string()); } ret.append("})"); } if (hasAny) ret.append("\n"); ret.append("]\n"); return ret; } CameraService::DescriptorPtr CameraService::CameraClientManager::makeClientDescriptor( const String8& key, const sp& value, int32_t cost, const std::set& conflictingKeys, int32_t priority, int32_t ownerId) { return std::make_shared>>( key, value, cost, conflictingKeys, priority, ownerId); } CameraService::DescriptorPtr CameraService::CameraClientManager::makeClientDescriptor( const sp& value, const CameraService::DescriptorPtr& partial) { return makeClientDescriptor(partial->getKey(), value, partial->getCost(), partial->getConflicting(), partial->getPriority(), partial->getOwnerId()); } // ---------------------------------------------------------------------------- static const int kDumpLockRetries = 50; static const int kDumpLockSleep = 60000; static bool tryLock(Mutex& mutex) { bool locked = false; for (int i = 0; i < kDumpLockRetries; ++i) { if (mutex.tryLock() == NO_ERROR) { locked = true; break; } usleep(kDumpLockSleep); } return locked; } status_t CameraService::dump(int fd, const Vector& args) { ATRACE_CALL(); String8 result("Dump of the Camera Service:\n"); if (checkCallingPermission(String16("android.permission.DUMP")) == false) { result = result.format("Permission Denial: " "can't dump CameraService from pid=%d, uid=%d\n", getCallingPid(), getCallingUid()); write(fd, result.string(), result.size()); } else { bool locked = tryLock(mServiceLock); // failed to lock - CameraService is probably deadlocked if (!locked) { result.append("CameraService may be deadlocked\n"); write(fd, result.string(), result.size()); } bool hasClient = false; if (!mModule) { result = String8::format("No camera module available!\n"); write(fd, result.string(), result.size()); // Dump event log for error information dumpEventLog(fd); if (locked) mServiceLock.unlock(); return NO_ERROR; } result = String8::format("Camera module HAL API version: 0x%x\n", mModule->getHalApiVersion()); result.appendFormat("Camera module API version: 0x%x\n", mModule->getModuleApiVersion()); result.appendFormat("Camera module name: %s\n", mModule->getModuleName()); result.appendFormat("Camera module author: %s\n", mModule->getModuleAuthor()); result.appendFormat("Number of camera devices: %d\n", mNumberOfCameras); String8 activeClientString = mActiveClientManager.toString(); result.appendFormat("Active Camera Clients:\n%s", activeClientString.string()); result.appendFormat("Allowed users:\n%s\n", toString(mAllowedUsers).string()); sp desc = VendorTagDescriptor::getGlobalVendorTagDescriptor(); if (desc == NULL) { result.appendFormat("Vendor tags left unimplemented.\n"); } else { result.appendFormat("Vendor tag definitions:\n"); } write(fd, result.string(), result.size()); if (desc != NULL) { desc->dump(fd, /*verbosity*/2, /*indentation*/4); } dumpEventLog(fd); bool stateLocked = tryLock(mCameraStatesLock); if (!stateLocked) { result = String8::format("CameraStates in use, may be deadlocked\n"); write(fd, result.string(), result.size()); } for (auto& state : mCameraStates) { String8 cameraId = state.first; result = String8::format("Camera %s information:\n", cameraId.string()); camera_info info; // TODO: Change getCameraInfo + HAL to use String cameraIds status_t rc = mModule->getCameraInfo(cameraIdToInt(cameraId), &info); if (rc != OK) { result.appendFormat(" Error reading static information!\n"); write(fd, result.string(), result.size()); } else { result.appendFormat(" Facing: %s\n", info.facing == CAMERA_FACING_BACK ? "BACK" : "FRONT"); result.appendFormat(" Orientation: %d\n", info.orientation); int deviceVersion; if (mModule->getModuleApiVersion() < CAMERA_MODULE_API_VERSION_2_0) { deviceVersion = CAMERA_DEVICE_API_VERSION_1_0; } else { deviceVersion = info.device_version; } auto conflicting = state.second->getConflicting(); result.appendFormat(" Resource Cost: %d\n", state.second->getCost()); result.appendFormat(" Conflicting Devices:"); for (auto& id : conflicting) { result.appendFormat(" %s", cameraId.string()); } if (conflicting.size() == 0) { result.appendFormat(" NONE"); } result.appendFormat("\n"); result.appendFormat(" Device version: %#x\n", deviceVersion); if (deviceVersion >= CAMERA_DEVICE_API_VERSION_2_0) { result.appendFormat(" Device static metadata:\n"); write(fd, result.string(), result.size()); dump_indented_camera_metadata(info.static_camera_characteristics, fd, /*verbosity*/2, /*indentation*/4); } else { write(fd, result.string(), result.size()); } CameraParameters p = state.second->getShimParams(); if (!p.isEmpty()) { result = String8::format(" Camera1 API shim is using parameters:\n "); write(fd, result.string(), result.size()); p.dump(fd, args); } } auto clientDescriptor = mActiveClientManager.get(cameraId); if (clientDescriptor == nullptr) { result = String8::format(" Device %s is closed, no client instance\n", cameraId.string()); write(fd, result.string(), result.size()); continue; } hasClient = true; result = String8::format(" Device %s is open. Client instance dump:\n\n", cameraId.string()); result.appendFormat("Client priority level: %d\n", clientDescriptor->getPriority()); result.appendFormat("Client PID: %d\n", clientDescriptor->getOwnerId()); auto client = clientDescriptor->getValue(); result.appendFormat("Client package: %s\n", String8(client->getPackageName()).string()); write(fd, result.string(), result.size()); client->dumpClient(fd, args); } if (stateLocked) mCameraStatesLock.unlock(); if (!hasClient) { result = String8::format("\nNo active camera clients yet.\n"); write(fd, result.string(), result.size()); } if (locked) mServiceLock.unlock(); // Dump camera traces if there were any write(fd, "\n", 1); camera3::CameraTraces::dump(fd, args); // change logging level int n = args.size(); for (int i = 0; i + 1 < n; i++) { String16 verboseOption("-v"); if (args[i] == verboseOption) { String8 levelStr(args[i+1]); int level = atoi(levelStr.string()); result = String8::format("\nSetting log level to %d.\n", level); setLogLevel(level); write(fd, result.string(), result.size()); } } } return NO_ERROR; } void CameraService::dumpEventLog(int fd) { String8 result = String8("\nPrior client events (most recent at top):\n"); Mutex::Autolock l(mLogLock); for (const auto& msg : mEventLog) { result.appendFormat(" %s\n", msg.string()); } if (mEventLog.size() == DEFAULT_EVENT_LOG_LENGTH) { result.append(" ...\n"); } else if (mEventLog.size() == 0) { result.append(" [no events yet]\n"); } result.append("\n"); write(fd, result.string(), result.size()); } void CameraService::handleTorchClientBinderDied(const wp &who) { Mutex::Autolock al(mTorchClientMapMutex); for (size_t i = 0; i < mTorchClientMap.size(); i++) { if (mTorchClientMap[i] == who) { // turn off the torch mode that was turned on by dead client String8 cameraId = mTorchClientMap.keyAt(i); status_t res = mFlashlight->setTorchMode(cameraId, false); if (res) { ALOGE("%s: torch client died but couldn't turn off torch: " "%s (%d)", __FUNCTION__, strerror(-res), res); return; } mTorchClientMap.removeItemsAt(i); break; } } } /*virtual*/void CameraService::binderDied(const wp &who) { /** * While tempting to promote the wp into a sp, it's actually not supported by the * binder driver */ logClientDied(getCallingPid(), String8("Binder died unexpectedly")); // check torch client handleTorchClientBinderDied(who); // check camera device client if(!evictClientIdByRemote(who)) { ALOGV("%s: Java client's binder death already cleaned up (normal case)", __FUNCTION__); return; } ALOGE("%s: Java client's binder died, removing it from the list of active clients", __FUNCTION__); } void CameraService::updateStatus(ICameraServiceListener::Status status, const String8& cameraId) { updateStatus(status, cameraId, {}); } void CameraService::updateStatus(ICameraServiceListener::Status status, const String8& cameraId, std::initializer_list rejectSourceStates) { // Do not lock mServiceLock here or can get into a deadlock from // connect() -> disconnect -> updateStatus auto state = getCameraState(cameraId); if (state == nullptr) { ALOGW("%s: Could not update the status for %s, no such device exists", __FUNCTION__, cameraId.string()); return; } // Update the status for this camera state, then send the onStatusChangedCallbacks to each // of the listeners with both the mStatusStatus and mStatusListenerLock held state->updateStatus(status, cameraId, rejectSourceStates, [this] (const String8& cameraId, ICameraServiceListener::Status status) { if (status != ICameraServiceListener::STATUS_ENUMERATING) { // Update torch status if it has a flash unit. Mutex::Autolock al(mTorchStatusMutex); ICameraServiceListener::TorchStatus torchStatus; if (getTorchStatusLocked(cameraId, &torchStatus) != NAME_NOT_FOUND) { ICameraServiceListener::TorchStatus newTorchStatus = status == ICameraServiceListener::STATUS_PRESENT ? ICameraServiceListener::TORCH_STATUS_AVAILABLE_OFF : ICameraServiceListener::TORCH_STATUS_NOT_AVAILABLE; if (torchStatus != newTorchStatus) { onTorchStatusChangedLocked(cameraId, newTorchStatus); } } } Mutex::Autolock lock(mStatusListenerLock); for (auto& listener : mListenerList) { // TODO: Refactor status listeners to use strings for Camera IDs and remove this. int id = cameraIdToInt(cameraId); if (id != -1) listener->onStatusChanged(status, id); } }); } void CameraService::updateProxyDeviceState(ICameraServiceProxy::CameraState newState, const String8& cameraId) { sp proxyBinder = getCameraServiceProxy(); if (proxyBinder == nullptr) return; String16 id(cameraId); proxyBinder->notifyCameraState(id, newState); } status_t CameraService::getTorchStatusLocked( const String8& cameraId, ICameraServiceListener::TorchStatus *status) const { if (!status) { return BAD_VALUE; } ssize_t index = mTorchStatusMap.indexOfKey(cameraId); if (index == NAME_NOT_FOUND) { // invalid camera ID or the camera doesn't have a flash unit return NAME_NOT_FOUND; } *status = mTorchStatusMap.valueAt(index); return OK; } status_t CameraService::setTorchStatusLocked(const String8& cameraId, ICameraServiceListener::TorchStatus status) { ssize_t index = mTorchStatusMap.indexOfKey(cameraId); if (index == NAME_NOT_FOUND) { return BAD_VALUE; } ICameraServiceListener::TorchStatus& item = mTorchStatusMap.editValueAt(index); item = status; return OK; } }; // namespace android