/* * Copyright (C) 2012 Mozilla Foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "base/basictypes.h" #include "libcameraservice/CameraHardwareInterface.h" #include "camera/CameraParameters.h" #include "nsCOMPtr.h" #include "nsDOMClassInfo.h" #include "nsMemory.h" #include "jsapi.h" #include "nsThread.h" #include "nsPrintfCString.h" #include "DOMCameraManager.h" #include "GonkCameraHwMgr.h" #include "DOMCameraCapabilities.h" #include "DOMCameraControl.h" #include "GonkCameraControl.h" #include "CameraCommon.h" using namespace mozilla; using namespace android; static const char* getKeyText(uint32_t aKey) { switch (aKey) { case CAMERA_PARAM_EFFECT: return CameraParameters::KEY_EFFECT; case CAMERA_PARAM_WHITEBALANCE: return CameraParameters::KEY_WHITE_BALANCE; case CAMERA_PARAM_SCENEMODE: return CameraParameters::KEY_SCENE_MODE; case CAMERA_PARAM_FLASHMODE: return CameraParameters::KEY_FLASH_MODE; case CAMERA_PARAM_FOCUSMODE: return CameraParameters::KEY_FOCUS_MODE; case CAMERA_PARAM_ZOOM: return CameraParameters::KEY_ZOOM; case CAMERA_PARAM_METERINGAREAS: return CameraParameters::KEY_METERING_AREAS; case CAMERA_PARAM_FOCUSAREAS: return CameraParameters::KEY_FOCUS_AREAS; case CAMERA_PARAM_FOCALLENGTH: return CameraParameters::KEY_FOCAL_LENGTH; case CAMERA_PARAM_FOCUSDISTANCENEAR: return CameraParameters::KEY_FOCUS_DISTANCES; case CAMERA_PARAM_FOCUSDISTANCEOPTIMUM: return CameraParameters::KEY_FOCUS_DISTANCES; case CAMERA_PARAM_FOCUSDISTANCEFAR: return CameraParameters::KEY_FOCUS_DISTANCES; case CAMERA_PARAM_EXPOSURECOMPENSATION: return CameraParameters::KEY_EXPOSURE_COMPENSATION; case CAMERA_PARAM_SUPPORTED_PREVIEWSIZES: return CameraParameters::KEY_SUPPORTED_PREVIEW_SIZES; case CAMERA_PARAM_SUPPORTED_VIDEOSIZES: return CameraParameters::KEY_SUPPORTED_VIDEO_SIZES; case CAMERA_PARAM_SUPPORTED_PICTURESIZES: return CameraParameters::KEY_SUPPORTED_PICTURE_SIZES; case CAMERA_PARAM_SUPPORTED_PICTUREFORMATS: return CameraParameters::KEY_SUPPORTED_PICTURE_FORMATS; case CAMERA_PARAM_SUPPORTED_WHITEBALANCES: return CameraParameters::KEY_SUPPORTED_WHITE_BALANCE; case CAMERA_PARAM_SUPPORTED_SCENEMODES: return CameraParameters::KEY_SUPPORTED_SCENE_MODES; case CAMERA_PARAM_SUPPORTED_EFFECTS: return CameraParameters::KEY_SUPPORTED_EFFECTS; case CAMERA_PARAM_SUPPORTED_FLASHMODES: return CameraParameters::KEY_SUPPORTED_FLASH_MODES; case CAMERA_PARAM_SUPPORTED_FOCUSMODES: return CameraParameters::KEY_SUPPORTED_FOCUS_MODES; case CAMERA_PARAM_SUPPORTED_MAXFOCUSAREAS: return CameraParameters::KEY_MAX_NUM_FOCUS_AREAS; case CAMERA_PARAM_SUPPORTED_MAXMETERINGAREAS: return CameraParameters::KEY_MAX_NUM_METERING_AREAS; case CAMERA_PARAM_SUPPORTED_MINEXPOSURECOMPENSATION: return CameraParameters::KEY_MIN_EXPOSURE_COMPENSATION; case CAMERA_PARAM_SUPPORTED_MAXEXPOSURECOMPENSATION: return CameraParameters::KEY_MAX_EXPOSURE_COMPENSATION; case CAMERA_PARAM_SUPPORTED_EXPOSURECOMPENSATIONSTEP: return CameraParameters::KEY_EXPOSURE_COMPENSATION_STEP; case CAMERA_PARAM_SUPPORTED_ZOOM: return CameraParameters::KEY_ZOOM_SUPPORTED; case CAMERA_PARAM_SUPPORTED_ZOOMRATIOS: return CameraParameters::KEY_ZOOM_RATIOS; default: return nullptr; } } // nsDOMCameraControl implementation-specific constructor nsDOMCameraControl::nsDOMCameraControl(uint32_t aCameraId, nsIThread* aCameraThread, nsICameraGetCameraCallback* onSuccess, nsICameraErrorCallback* onError) : mDOMCapabilities(nullptr) { DOM_CAMERA_LOGT("%s:%d : this=%p\n", __func__, __LINE__, this); /** * nsDOMCameraControl is a cycle-collection participant, which means it is * not threadsafe--so we need to bump up its reference count here to make * sure that it exists long enough to be initialized. * * Once it is initialized, the GetCameraResult main-thread runnable will * decrement it again to make sure it can be cleaned up. * * nsGonkCameraControl MUST NOT hold a strong reference to this * nsDOMCameraControl or memory will leak! */ NS_ADDREF_THIS(); mCameraControl = new nsGonkCameraControl(aCameraId, aCameraThread, this, onSuccess, onError); } // Gonk-specific CameraControl implementation. // Initialize nsGonkCameraControl instance--runs on camera thread. class InitGonkCameraControl : public nsRunnable { public: InitGonkCameraControl(nsGonkCameraControl* aCameraControl, nsDOMCameraControl* aDOMCameraControl, nsICameraGetCameraCallback* onSuccess, nsICameraErrorCallback* onError) : mCameraControl(aCameraControl) , mDOMCameraControl(aDOMCameraControl) , mOnSuccessCb(onSuccess) , mOnErrorCb(onError) { DOM_CAMERA_LOGT("%s:%d : this=%p\n", __func__, __LINE__, this); } ~InitGonkCameraControl() { DOM_CAMERA_LOGT("%s:%d : this=%p\n", __func__, __LINE__, this); } NS_IMETHOD Run() { nsresult rv = mCameraControl->Init(); return mDOMCameraControl->Result(rv, mOnSuccessCb, mOnErrorCb); } nsRefPtr mCameraControl; // Raw pointer to DOM-facing camera control--it must NS_ADDREF itself for us nsDOMCameraControl* mDOMCameraControl; nsCOMPtr mOnSuccessCb; nsCOMPtr mOnErrorCb; }; // Construct nsGonkCameraControl on the main thread. nsGonkCameraControl::nsGonkCameraControl(uint32_t aCameraId, nsIThread* aCameraThread, nsDOMCameraControl* aDOMCameraControl, nsICameraGetCameraCallback* onSuccess, nsICameraErrorCallback* onError) : CameraControlImpl(aCameraId, aCameraThread) , mHwHandle(0) , mExposureCompensationMin(0.0) , mExposureCompensationStep(0.0) , mDeferConfigUpdate(false) , mWidth(0) , mHeight(0) , mFormat(PREVIEW_FORMAT_UNKNOWN) , mDiscardedFrameCount(0) { // Constructor runs on the main thread... DOM_CAMERA_LOGT("%s:%d : this=%p\n", __func__, __LINE__, this); mRwLock = PR_NewRWLock(PR_RWLOCK_RANK_NONE, "GonkCameraControl.Parameters.Lock"); // ...but initialization is carried out on the camera thread. nsCOMPtr init = new InitGonkCameraControl(this, aDOMCameraControl, onSuccess, onError); mCameraThread->Dispatch(init, NS_DISPATCH_NORMAL); } nsresult nsGonkCameraControl::Init() { mHwHandle = GonkCameraHardware::GetHandle(this, mCameraId); DOM_CAMERA_LOGI("Initializing camera %d (this=%p, mHwHandle=%d)\n", mCameraId, this, mHwHandle); // Initialize our camera configuration database. PullParametersImpl(); // Try to set preferred image format and frame rate DOM_CAMERA_LOGI("Camera preview formats: %s\n", mParams.get(mParams.KEY_SUPPORTED_PREVIEW_FORMATS)); const char* const PREVIEW_FORMAT = "yuv420p"; const char* const BAD_PREVIEW_FORMAT = "yuv420sp"; mParams.setPreviewFormat(PREVIEW_FORMAT); mParams.setPreviewFrameRate(mFps); // Check that our settings stuck PullParametersImpl(); const char* format = mParams.getPreviewFormat(); if (strcmp(format, PREVIEW_FORMAT) == 0) { mFormat = PREVIEW_FORMAT_YUV420P; /* \o/ */ } else if (strcmp(format, BAD_PREVIEW_FORMAT) == 0) { mFormat = PREVIEW_FORMAT_YUV420SP; DOM_CAMERA_LOGA("Camera ignored our request for '%s' preview, will have to convert (from %d)\n", PREVIEW_FORMAT, mFormat); } else { mFormat = PREVIEW_FORMAT_UNKNOWN; DOM_CAMERA_LOGE("Camera ignored our request for '%s' preview, returned UNSUPPORTED format '%s'\n", PREVIEW_FORMAT, format); } // Check the frame rate and log if the camera ignored our setting uint32_t fps = mParams.getPreviewFrameRate(); if (fps != mFps) { DOM_CAMERA_LOGA("We asked for %d fps but camera returned %d fps, using that", mFps, fps); mFps = fps; } // Grab any other settings we'll need later. mExposureCompensationMin = mParams.getFloat(mParams.KEY_MIN_EXPOSURE_COMPENSATION); mExposureCompensationStep = mParams.getFloat(mParams.KEY_EXPOSURE_COMPENSATION_STEP); mMaxMeteringAreas = mParams.getInt(mParams.KEY_MAX_NUM_METERING_AREAS); mMaxFocusAreas = mParams.getInt(mParams.KEY_MAX_NUM_FOCUS_AREAS); DOM_CAMERA_LOGI(" - minimum exposure compensation: %f\n", mExposureCompensationMin); DOM_CAMERA_LOGI(" - exposure compensation step: %f\n", mExposureCompensationStep); DOM_CAMERA_LOGI(" - maximum metering areas: %d\n", mMaxMeteringAreas); DOM_CAMERA_LOGI(" - maximum focus areas: %d\n", mMaxFocusAreas); return mHwHandle != 0 ? NS_OK : NS_ERROR_FAILURE; } nsGonkCameraControl::~nsGonkCameraControl() { DOM_CAMERA_LOGT("%s:%d : this=%p, mHwHandle = %d\n", __func__, __LINE__, this, mHwHandle); GonkCameraHardware::ReleaseHandle(mHwHandle); if (mRwLock) { PRRWLock* lock = mRwLock; mRwLock = nullptr; PR_DestroyRWLock(lock); } DOM_CAMERA_LOGT("%s:%d\n", __func__, __LINE__); } class RwAutoLockRead { public: RwAutoLockRead(PRRWLock* aRwLock) : mRwLock(aRwLock) { PR_RWLock_Rlock(mRwLock); } ~RwAutoLockRead() { PR_RWLock_Unlock(mRwLock); } protected: PRRWLock* mRwLock; }; class RwAutoLockWrite { public: RwAutoLockWrite(PRRWLock* aRwLock) : mRwLock(aRwLock) { PR_RWLock_Wlock(mRwLock); } ~RwAutoLockWrite() { PR_RWLock_Unlock(mRwLock); } protected: PRRWLock* mRwLock; }; const char* nsGonkCameraControl::GetParameter(const char* aKey) { RwAutoLockRead lock(mRwLock); return mParams.get(aKey); } const char* nsGonkCameraControl::GetParameterConstChar(uint32_t aKey) { const char* key = getKeyText(aKey); if (!key) { return nullptr; } RwAutoLockRead lock(mRwLock); return mParams.get(key); } double nsGonkCameraControl::GetParameterDouble(uint32_t aKey) { double val; int index = 0; double focusDistance[3]; const char* s; const char* key = getKeyText(aKey); if (!key) { // return 1x when zooming is not supported return aKey == CAMERA_PARAM_ZOOM ? 1.0 : 0.0; } RwAutoLockRead lock(mRwLock); switch (aKey) { case CAMERA_PARAM_ZOOM: val = mParams.getInt(key); return val / 100; /** * The gonk camera parameters API only exposes one focus distance property * that contains "Near,Optimum,Far" distances, in metres, where 'Far' may * be 'Infinity'. */ case CAMERA_PARAM_FOCUSDISTANCEFAR: ++index; // intentional fallthrough case CAMERA_PARAM_FOCUSDISTANCEOPTIMUM: ++index; // intentional fallthrough case CAMERA_PARAM_FOCUSDISTANCENEAR: s = mParams.get(key); if (sscanf(s, "%lf,%lf,%lf", &focusDistance[0], &focusDistance[1], &focusDistance[2]) == 3) { return focusDistance[index]; } return 0.0; case CAMERA_PARAM_EXPOSURECOMPENSATION: index = mParams.getInt(key); if (!index) { // NaN indicates automatic exposure compensation return NAN; } val = (index - 1) * mExposureCompensationStep + mExposureCompensationMin; DOM_CAMERA_LOGI("index = %d --> compensation = %f\n", index, val); return val; default: return mParams.getFloat(key); } } void nsGonkCameraControl::GetParameter(uint32_t aKey, nsTArray& aRegions) { aRegions.Clear(); const char* key = getKeyText(aKey); if (!key) { return; } RwAutoLockRead lock(mRwLock); const char* value = mParams.get(key); DOM_CAMERA_LOGI("key='%s' --> value='%s'\n", key, value); if (!value) { return; } const char* p = value; uint32_t count = 1; // count the number of regions in the string while ((p = strstr(p, "),("))) { ++count; p += 3; } aRegions.SetCapacity(count); CameraRegion* r; // parse all of the region sets uint32_t i; for (i = 0, p = value; p && i < count; ++i, p = strchr(p + 1, '(')) { r = aRegions.AppendElement(); if (sscanf(p, "(%d,%d,%d,%d,%u)", &r->top, &r->left, &r->bottom, &r->right, &r->weight) != 5) { DOM_CAMERA_LOGE("%s:%d : region tuple has bad format: '%s'\n", __func__, __LINE__, p); goto GetParameter_error; } } return; GetParameter_error: aRegions.Clear(); } nsresult nsGonkCameraControl::PushParameters() { if (mDeferConfigUpdate) { DOM_CAMERA_LOGT("%s:%d - defering config update\n", __func__, __LINE__); return NS_OK; } /** * If we're already on the camera thread, call PushParametersImpl() * directly, so that it executes synchronously. Some callers * require this so that changes take effect immediately before * we can proceed. */ if (NS_IsMainThread()) { DOM_CAMERA_LOGT("%s:%d - dispatching to main thread\n", __func__, __LINE__); nsCOMPtr pushParametersTask = NS_NewRunnableMethod(this, &nsGonkCameraControl::PushParametersImpl); return mCameraThread->Dispatch(pushParametersTask, NS_DISPATCH_NORMAL); } DOM_CAMERA_LOGT("%s:%d\n", __func__, __LINE__); return PushParametersImpl(); } void nsGonkCameraControl::SetParameter(const char* aKey, const char* aValue) { { RwAutoLockWrite lock(mRwLock); mParams.set(aKey, aValue); } PushParameters(); } void nsGonkCameraControl::SetParameter(uint32_t aKey, const char* aValue) { const char* key = getKeyText(aKey); if (!key) { return; } { RwAutoLockWrite lock(mRwLock); mParams.set(key, aValue); } PushParameters(); } void nsGonkCameraControl::SetParameter(uint32_t aKey, double aValue) { uint32_t index; const char* key = getKeyText(aKey); if (!key) { return; } { RwAutoLockWrite lock(mRwLock); if (aKey == CAMERA_PARAM_EXPOSURECOMPENSATION) { /** * Convert from real value to a Gonk index, round * to the nearest step; index is 1-based. */ index = (aValue - mExposureCompensationMin + mExposureCompensationStep / 2) / mExposureCompensationStep + 1; DOM_CAMERA_LOGI("compensation = %f --> index = %d\n", aValue, index); mParams.set(key, index); } else { mParams.setFloat(key, aValue); } } PushParameters(); } void nsGonkCameraControl::SetParameter(uint32_t aKey, const nsTArray& aRegions) { const char* key = getKeyText(aKey); if (!key) { return; } uint32_t length = aRegions.Length(); if (!length) { // This tells the camera driver to revert to automatic regioning. mParams.set(key, "(0,0,0,0,0)"); PushParameters(); return; } nsCString s; for (uint32_t i = 0; i < length; ++i) { const CameraRegion* r = &aRegions[i]; s.AppendPrintf("(%d,%d,%d,%d,%d),", r->top, r->left, r->bottom, r->right, r->weight); } // remove the trailing comma s.Trim(",", false, true, true); DOM_CAMERA_LOGI("camera region string '%s'\n", s.get()); { RwAutoLockWrite lock(mRwLock); mParams.set(key, s.get()); } PushParameters(); } nsresult nsGonkCameraControl::GetPreviewStreamImpl(GetPreviewStreamTask* aGetPreviewStream) { SetPreviewSize(aGetPreviewStream->mSize.width, aGetPreviewStream->mSize.height); DOM_CAMERA_LOGI("config preview: wated %d x %d, got %d x %d (%d fps, format %d)\n", aGetPreviewStream->mSize.width, aGetPreviewStream->mSize.height, mWidth, mHeight, mFps, mFormat); nsCOMPtr getPreviewStreamResult = new GetPreviewStreamResult(this, mWidth, mHeight, mFps, aGetPreviewStream->mOnSuccessCb); return NS_DispatchToMainThread(getPreviewStreamResult); } nsresult nsGonkCameraControl::StartPreviewImpl(StartPreviewTask* aStartPreview) { /** * If 'aStartPreview->mDOMPreview' is null, we are just restarting * the preview after taking a picture. No need to monkey with the * currently set DOM-facing preview object. */ if (aStartPreview->mDOMPreview) { if (mDOMPreview) { mDOMPreview->Stopped(true); } mDOMPreview = aStartPreview->mDOMPreview; } else if (!mDOMPreview) { return NS_ERROR_INVALID_ARG; } DOM_CAMERA_LOGI("%s: starting preview (mDOMPreview=%p)\n", __func__, mDOMPreview); if (GonkCameraHardware::StartPreview(mHwHandle) != OK) { DOM_CAMERA_LOGE("%s: failed to start preview\n", __func__); return NS_ERROR_FAILURE; } if (aStartPreview->mDOMPreview) { mDOMPreview->Started(); } return NS_OK; } nsresult nsGonkCameraControl::StopPreviewImpl(StopPreviewTask* aStopPreview) { DOM_CAMERA_LOGI("%s: stopping preview\n", __func__); // StopPreview() is a synchronous call--it doesn't return // until the camera preview thread exits. GonkCameraHardware::StopPreview(mHwHandle); mDOMPreview->Stopped(); mDOMPreview = nullptr; return NS_OK; } nsresult nsGonkCameraControl::AutoFocusImpl(AutoFocusTask* aAutoFocus) { nsCOMPtr cb = mAutoFocusOnSuccessCb; if (cb) { /** * We already have a callback, so someone has already * called autoFocus() -- cancel it. */ mAutoFocusOnSuccessCb = nullptr; nsCOMPtr ecb = mAutoFocusOnErrorCb; mAutoFocusOnErrorCb = nullptr; if (ecb) { nsresult rv = NS_DispatchToMainThread(new CameraErrorResult(ecb, NS_LITERAL_STRING("CANCELLED"))); NS_ENSURE_SUCCESS(rv, rv); } GonkCameraHardware::CancelAutoFocus(mHwHandle); } mAutoFocusOnSuccessCb = aAutoFocus->mOnSuccessCb; mAutoFocusOnErrorCb = aAutoFocus->mOnErrorCb; if (GonkCameraHardware::AutoFocus(mHwHandle) != OK) { return NS_ERROR_FAILURE; } return NS_OK; } nsresult nsGonkCameraControl::TakePictureImpl(TakePictureTask* aTakePicture) { nsCOMPtr cb = mTakePictureOnSuccessCb; if (cb) { /** * We already have a callback, so someone has already * called TakePicture() -- cancel it. */ mTakePictureOnSuccessCb = nullptr; nsCOMPtr ecb = mTakePictureOnErrorCb; mTakePictureOnErrorCb = nullptr; if (ecb) { nsresult rv = NS_DispatchToMainThread(new CameraErrorResult(ecb, NS_LITERAL_STRING("CANCELLED"))); NS_ENSURE_SUCCESS(rv, rv); } GonkCameraHardware::CancelTakePicture(mHwHandle); } mTakePictureOnSuccessCb = aTakePicture->mOnSuccessCb; mTakePictureOnErrorCb = aTakePicture->mOnErrorCb; // batch-update camera configuration mDeferConfigUpdate = true; /** * height and width: some drivers are less friendly about getting one of * these set to zero, so if either is not specified, ignore both and go * with current or default settings. */ if (aTakePicture->mSize.width && aTakePicture->mSize.height) { nsCString s; s.AppendPrintf("%dx%d", aTakePicture->mSize.width, aTakePicture->mSize.height); DOM_CAMERA_LOGI("setting picture size to '%s'\n", s.get()); SetParameter(CameraParameters::KEY_PICTURE_SIZE, s.get()); } // Picture format -- need to keep it for the callback. mFileFormat = aTakePicture->mFileFormat; SetParameter(CameraParameters::KEY_PICTURE_FORMAT, NS_ConvertUTF16toUTF8(mFileFormat).get()); // Convert 'rotation' to a positive value from 0..270 degrees, in steps of 90. uint32_t r = static_cast(aTakePicture->mRotation); r %= 360; r += 45; r /= 90; r *= 90; DOM_CAMERA_LOGI("setting picture rotation to %d degrees (mapped from %d)\n", r, aTakePicture->mRotation); SetParameter(CameraParameters::KEY_ROTATION, nsPrintfCString("%u", r).get()); // Add any specified positional information -- don't care if these fail. if (!isnan(aTakePicture->mPosition.latitude)) { DOM_CAMERA_LOGI("setting picture latitude to %lf\n", aTakePicture->mPosition.latitude); SetParameter(CameraParameters::KEY_GPS_LATITUDE, nsPrintfCString("%lf", aTakePicture->mPosition.latitude).get()); } if (!isnan(aTakePicture->mPosition.longitude)) { DOM_CAMERA_LOGI("setting picture longitude to %lf\n", aTakePicture->mPosition.longitude); SetParameter(CameraParameters::KEY_GPS_LONGITUDE, nsPrintfCString("%lf", aTakePicture->mPosition.longitude).get()); } if (!isnan(aTakePicture->mPosition.altitude)) { DOM_CAMERA_LOGI("setting picture altitude to %lf\n", aTakePicture->mPosition.altitude); SetParameter(CameraParameters::KEY_GPS_ALTITUDE, nsPrintfCString("%lf", aTakePicture->mPosition.altitude).get()); } if (!isnan(aTakePicture->mPosition.timestamp)) { DOM_CAMERA_LOGI("setting picture timestamp to %lf\n", aTakePicture->mPosition.timestamp); SetParameter(CameraParameters::KEY_GPS_TIMESTAMP, nsPrintfCString("%lf", aTakePicture->mPosition.timestamp).get()); } mDeferConfigUpdate = false; PushParameters(); if (GonkCameraHardware::TakePicture(mHwHandle) != OK) { return NS_ERROR_FAILURE; } return NS_OK; } nsresult nsGonkCameraControl::PushParametersImpl() { DOM_CAMERA_LOGI("Pushing camera parameters\n"); RwAutoLockRead lock(mRwLock); if (GonkCameraHardware::PushParameters(mHwHandle, mParams) != OK) { return NS_ERROR_FAILURE; } return NS_OK; } nsresult nsGonkCameraControl::PullParametersImpl() { DOM_CAMERA_LOGI("Pulling camera parameters\n"); RwAutoLockWrite lock(mRwLock); GonkCameraHardware::PullParameters(mHwHandle, mParams); return NS_OK; } nsresult nsGonkCameraControl::StartRecordingImpl(StartRecordingTask* aStartRecording) { return NS_ERROR_NOT_IMPLEMENTED; } nsresult nsGonkCameraControl::StopRecordingImpl(StopRecordingTask* aStopRecording) { return NS_ERROR_NOT_IMPLEMENTED; } void nsGonkCameraControl::AutoFocusComplete(bool aSuccess) { /** * Auto focusing can change some of the camera's parameters, so * we need to pull a new set before sending the result to the * main thread. */ PullParametersImpl(); /** * If we make it here, regardless of the value of 'aSuccess', we * consider the autofocus _process_ to have succeeded. It is up * to the onSuccess callback to determine how to handle the case * where the camera wasn't actually able to acquire focus. */ nsCOMPtr autoFocusResult = new AutoFocusResult(aSuccess, mAutoFocusOnSuccessCb); /** * Remember to set these to null so that we don't hold any extra * references to our document's window. */ mAutoFocusOnSuccessCb = nullptr; mAutoFocusOnErrorCb = nullptr; nsresult rv = NS_DispatchToMainThread(autoFocusResult); if (NS_FAILED(rv)) { NS_WARNING("Failed to dispatch autoFocus() onSuccess callback to main thread!"); } } void nsGonkCameraControl::TakePictureComplete(uint8_t* aData, uint32_t aLength) { uint8_t* data = new uint8_t[aLength]; memcpy(data, aData, aLength); // TODO: see bug 779144. nsIDOMBlob* blob = new nsDOMMemoryFile(static_cast(data), static_cast(aLength), NS_LITERAL_STRING("image/jpeg")); nsCOMPtr takePictureResult = new TakePictureResult(blob, mTakePictureOnSuccessCb); /** * Remember to set these to null so that we don't hold any extra * references to our document's window. */ mTakePictureOnSuccessCb = nullptr; mTakePictureOnErrorCb = nullptr; nsresult rv = NS_DispatchToMainThread(takePictureResult); if (NS_FAILED(rv)) { NS_WARNING("Failed to dispatch takePicture() onSuccess callback to main thread!"); } } void nsGonkCameraControl::SetPreviewSize(uint32_t aWidth, uint32_t aHeight) { Vector previewSizes; uint32_t bestWidth = aWidth; uint32_t bestHeight = aHeight; uint32_t minSizeDelta = PR_UINT32_MAX; uint32_t delta; Size size; mParams.getSupportedPreviewSizes(previewSizes); if (!aWidth && !aHeight) { // no size specified, take the first supported size size = previewSizes[0]; bestWidth = size.width; bestHeight = size.height; } else if (aWidth && aHeight) { // both height and width specified, find the supported size closest to requested size for (uint32_t i = 0; i < previewSizes.size(); i++) { Size size = previewSizes[i]; uint32_t delta = abs((long int)(size.width * size.height - aWidth * aHeight)); if (delta < minSizeDelta) { minSizeDelta = delta; bestWidth = size.width; bestHeight = size.height; } } } else if (!aWidth) { // width not specified, find closest height match for (uint32_t i = 0; i < previewSizes.size(); i++) { size = previewSizes[i]; delta = abs((long int)(size.height - aHeight)); if (delta < minSizeDelta) { minSizeDelta = delta; bestWidth = size.width; bestHeight = size.height; } } } else if (!aHeight) { // height not specified, find closest width match for (uint32_t i = 0; i < previewSizes.size(); i++) { size = previewSizes[i]; delta = abs((long int)(size.width - aWidth)); if (delta < minSizeDelta) { minSizeDelta = delta; bestWidth = size.width; bestHeight = size.height; } } } mWidth = bestWidth; mHeight = bestHeight; mParams.setPreviewSize(mWidth, mHeight); PushParameters(); } // Gonk callback handlers. namespace mozilla { void ReceiveImage(nsGonkCameraControl* gc, uint8_t* aData, uint32_t aLength) { gc->TakePictureComplete(aData, aLength); } void AutoFocusComplete(nsGonkCameraControl* gc, bool aSuccess) { gc->AutoFocusComplete(aSuccess); } static void GonkFrameBuilder(Image* aImage, void* aBuffer, uint32_t aWidth, uint32_t aHeight) { /** * Cast the generic Image back to our platform-specific type and * populate it. */ GonkIOSurfaceImage* videoImage = static_cast(aImage); GonkIOSurfaceImage::Data data; data.mGraphicBuffer = static_cast(aBuffer); data.mPicSize = gfxIntSize(aWidth, aHeight); videoImage->SetData(data); } void ReceiveFrame(nsGonkCameraControl* gc, layers::GraphicBufferLocked* aBuffer) { if (!gc->ReceiveFrame(aBuffer, ImageFormat::GONK_IO_SURFACE, GonkFrameBuilder)) { aBuffer->Unlock(); } } } // namespace mozilla