/* * Copyright 2011, The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // #define LOG_NDEBUG 0 #define LOG_TAG "AndroidMediaUtils" #include #include "android_media_Utils.h" #include #include #include #include #define ALIGN(x, mask) ( ((x) + (mask) - 1) & ~((mask) - 1) ) namespace android { AssetStream::AssetStream(SkStream* stream) : mStream(stream), mPosition(0) { } AssetStream::~AssetStream() { } piex::Error AssetStream::GetData( const size_t offset, const size_t length, std::uint8_t* data) { // Seek first. if (mPosition != offset) { if (!mStream->seek(offset)) { return piex::Error::kFail; } } // Read bytes. size_t size = mStream->read((void*)data, length); mPosition = offset + size; return size == length ? piex::Error::kOk : piex::Error::kFail; } BufferedStream::BufferedStream(SkStream* stream) : mStream(stream) { } BufferedStream::~BufferedStream() { } piex::Error BufferedStream::GetData( const size_t offset, const size_t length, std::uint8_t* data) { // Seek first. if (offset + length > mStreamBuffer.bytesWritten()) { size_t sizeToRead = offset + length - mStreamBuffer.bytesWritten(); if (sizeToRead <= kMinSizeToRead) { sizeToRead = kMinSizeToRead; } void* tempBuffer = malloc(sizeToRead); if (tempBuffer == NULL) { return piex::Error::kFail; } size_t bytesRead = mStream->read(tempBuffer, sizeToRead); if (bytesRead != sizeToRead) { free(tempBuffer); return piex::Error::kFail; } mStreamBuffer.write(tempBuffer, bytesRead); free(tempBuffer); } // Read bytes. if (mStreamBuffer.read((void*)data, offset, length)) { return piex::Error::kOk; } else { return piex::Error::kFail; } } FileStream::FileStream(const int fd) : mPosition(0) { mFile = fdopen(fd, "r"); if (mFile == NULL) { return; } } FileStream::FileStream(const String8 filename) : mPosition(0) { mFile = fopen(filename.string(), "r"); if (mFile == NULL) { return; } } FileStream::~FileStream() { if (mFile != NULL) { fclose(mFile); mFile = NULL; } } piex::Error FileStream::GetData( const size_t offset, const size_t length, std::uint8_t* data) { if (mFile == NULL) { return piex::Error::kFail; } // Seek first. if (mPosition != offset) { fseek(mFile, offset, SEEK_SET); } // Read bytes. size_t size = fread((void*)data, sizeof(std::uint8_t), length, mFile); mPosition += size; // Handle errors and verify the size. if (ferror(mFile) || size != length) { ALOGV("GetData read failed: (offset: %zu, length: %zu)", offset, length); return piex::Error::kFail; } return piex::Error::kOk; } bool FileStream::exists() const { return mFile != NULL; } bool GetExifFromRawImage( piex::StreamInterface* stream, const String8& filename, piex::PreviewImageData& image_data) { // Reset the PreviewImageData to its default. image_data = piex::PreviewImageData(); if (!piex::IsRaw(stream)) { // Format not supported. ALOGV("Format not supported: %s", filename.string()); return false; } piex::Error err = piex::GetPreviewImageData(stream, &image_data); if (err != piex::Error::kOk) { // The input data seems to be broken. ALOGV("Raw image not detected: %s (piex error code: %d)", filename.string(), (int32_t)err); return false; } return true; } bool ConvertKeyValueArraysToKeyedVector( JNIEnv *env, jobjectArray keys, jobjectArray values, KeyedVector* keyedVector) { int nKeyValuePairs = 0; bool failed = false; if (keys != NULL && values != NULL) { nKeyValuePairs = env->GetArrayLength(keys); failed = (nKeyValuePairs != env->GetArrayLength(values)); } if (!failed) { failed = ((keys != NULL && values == NULL) || (keys == NULL && values != NULL)); } if (failed) { ALOGE("keys and values arrays have different length"); jniThrowException(env, "java/lang/IllegalArgumentException", NULL); return false; } for (int i = 0; i < nKeyValuePairs; ++i) { // No need to check on the ArrayIndexOutOfBoundsException, since // it won't happen here. jstring key = (jstring) env->GetObjectArrayElement(keys, i); jstring value = (jstring) env->GetObjectArrayElement(values, i); const char* keyStr = env->GetStringUTFChars(key, NULL); if (!keyStr) { // OutOfMemoryError return false; } const char* valueStr = env->GetStringUTFChars(value, NULL); if (!valueStr) { // OutOfMemoryError env->ReleaseStringUTFChars(key, keyStr); return false; } keyedVector->add(String8(keyStr), String8(valueStr)); env->ReleaseStringUTFChars(key, keyStr); env->ReleaseStringUTFChars(value, valueStr); env->DeleteLocalRef(key); env->DeleteLocalRef(value); } return true; } static jobject makeIntegerObject(JNIEnv *env, int32_t value) { ScopedLocalRef clazz(env, env->FindClass("java/lang/Integer")); CHECK(clazz.get() != NULL); jmethodID integerConstructID = env->GetMethodID(clazz.get(), "", "(I)V"); CHECK(integerConstructID != NULL); return env->NewObject(clazz.get(), integerConstructID, value); } static jobject makeLongObject(JNIEnv *env, int64_t value) { ScopedLocalRef clazz(env, env->FindClass("java/lang/Long")); CHECK(clazz.get() != NULL); jmethodID longConstructID = env->GetMethodID(clazz.get(), "", "(J)V"); CHECK(longConstructID != NULL); return env->NewObject(clazz.get(), longConstructID, value); } static jobject makeFloatObject(JNIEnv *env, float value) { ScopedLocalRef clazz(env, env->FindClass("java/lang/Float")); CHECK(clazz.get() != NULL); jmethodID floatConstructID = env->GetMethodID(clazz.get(), "", "(F)V"); CHECK(floatConstructID != NULL); return env->NewObject(clazz.get(), floatConstructID, value); } static jobject makeByteBufferObject( JNIEnv *env, const void *data, size_t size) { jbyteArray byteArrayObj = env->NewByteArray(size); env->SetByteArrayRegion(byteArrayObj, 0, size, (const jbyte *)data); ScopedLocalRef clazz(env, env->FindClass("java/nio/ByteBuffer")); CHECK(clazz.get() != NULL); jmethodID byteBufWrapID = env->GetStaticMethodID( clazz.get(), "wrap", "([B)Ljava/nio/ByteBuffer;"); CHECK(byteBufWrapID != NULL); jobject byteBufObj = env->CallStaticObjectMethod( clazz.get(), byteBufWrapID, byteArrayObj); env->DeleteLocalRef(byteArrayObj); byteArrayObj = NULL; return byteBufObj; } static void SetMapInt32( JNIEnv *env, jobject hashMapObj, jmethodID hashMapPutID, const char *key, int32_t value) { jstring keyObj = env->NewStringUTF(key); jobject valueObj = makeIntegerObject(env, value); env->CallObjectMethod(hashMapObj, hashMapPutID, keyObj, valueObj); env->DeleteLocalRef(valueObj); valueObj = NULL; env->DeleteLocalRef(keyObj); keyObj = NULL; } status_t ConvertMessageToMap( JNIEnv *env, const sp &msg, jobject *map) { ScopedLocalRef hashMapClazz( env, env->FindClass("java/util/HashMap")); if (hashMapClazz.get() == NULL) { return -EINVAL; } jmethodID hashMapConstructID = env->GetMethodID(hashMapClazz.get(), "", "()V"); if (hashMapConstructID == NULL) { return -EINVAL; } jmethodID hashMapPutID = env->GetMethodID( hashMapClazz.get(), "put", "(Ljava/lang/Object;Ljava/lang/Object;)Ljava/lang/Object;"); if (hashMapPutID == NULL) { return -EINVAL; } jobject hashMap = env->NewObject(hashMapClazz.get(), hashMapConstructID); for (size_t i = 0; i < msg->countEntries(); ++i) { AMessage::Type valueType; const char *key = msg->getEntryNameAt(i, &valueType); if (!strncmp(key, "android._", 9)) { // don't expose private keys (starting with android._) continue; } jobject valueObj = NULL; switch (valueType) { case AMessage::kTypeInt32: { int32_t val; CHECK(msg->findInt32(key, &val)); valueObj = makeIntegerObject(env, val); break; } case AMessage::kTypeInt64: { int64_t val; CHECK(msg->findInt64(key, &val)); valueObj = makeLongObject(env, val); break; } case AMessage::kTypeFloat: { float val; CHECK(msg->findFloat(key, &val)); valueObj = makeFloatObject(env, val); break; } case AMessage::kTypeString: { AString val; CHECK(msg->findString(key, &val)); valueObj = env->NewStringUTF(val.c_str()); break; } case AMessage::kTypeBuffer: { sp buffer; CHECK(msg->findBuffer(key, &buffer)); valueObj = makeByteBufferObject( env, buffer->data(), buffer->size()); break; } case AMessage::kTypeRect: { int32_t left, top, right, bottom; CHECK(msg->findRect(key, &left, &top, &right, &bottom)); SetMapInt32( env, hashMap, hashMapPutID, AStringPrintf("%s-left", key).c_str(), left); SetMapInt32( env, hashMap, hashMapPutID, AStringPrintf("%s-top", key).c_str(), top); SetMapInt32( env, hashMap, hashMapPutID, AStringPrintf("%s-right", key).c_str(), right); SetMapInt32( env, hashMap, hashMapPutID, AStringPrintf("%s-bottom", key).c_str(), bottom); break; } default: break; } if (valueObj != NULL) { jstring keyObj = env->NewStringUTF(key); env->CallObjectMethod(hashMap, hashMapPutID, keyObj, valueObj); env->DeleteLocalRef(keyObj); keyObj = NULL; env->DeleteLocalRef(valueObj); valueObj = NULL; } } *map = hashMap; return OK; } status_t ConvertKeyValueArraysToMessage( JNIEnv *env, jobjectArray keys, jobjectArray values, sp *out) { ScopedLocalRef stringClass(env, env->FindClass("java/lang/String")); CHECK(stringClass.get() != NULL); ScopedLocalRef integerClass(env, env->FindClass("java/lang/Integer")); CHECK(integerClass.get() != NULL); ScopedLocalRef longClass(env, env->FindClass("java/lang/Long")); CHECK(longClass.get() != NULL); ScopedLocalRef floatClass(env, env->FindClass("java/lang/Float")); CHECK(floatClass.get() != NULL); ScopedLocalRef byteBufClass(env, env->FindClass("java/nio/ByteBuffer")); CHECK(byteBufClass.get() != NULL); sp msg = new AMessage; jsize numEntries = 0; if (keys != NULL) { if (values == NULL) { return -EINVAL; } numEntries = env->GetArrayLength(keys); if (numEntries != env->GetArrayLength(values)) { return -EINVAL; } } else if (values != NULL) { return -EINVAL; } for (jsize i = 0; i < numEntries; ++i) { jobject keyObj = env->GetObjectArrayElement(keys, i); if (!env->IsInstanceOf(keyObj, stringClass.get())) { return -EINVAL; } const char *tmp = env->GetStringUTFChars((jstring)keyObj, NULL); if (tmp == NULL) { return -ENOMEM; } AString key = tmp; env->ReleaseStringUTFChars((jstring)keyObj, tmp); tmp = NULL; if (key.startsWith("android._")) { // don't propagate private keys (starting with android._) continue; } jobject valueObj = env->GetObjectArrayElement(values, i); if (env->IsInstanceOf(valueObj, stringClass.get())) { const char *value = env->GetStringUTFChars((jstring)valueObj, NULL); if (value == NULL) { return -ENOMEM; } msg->setString(key.c_str(), value); env->ReleaseStringUTFChars((jstring)valueObj, value); value = NULL; } else if (env->IsInstanceOf(valueObj, integerClass.get())) { jmethodID intValueID = env->GetMethodID(integerClass.get(), "intValue", "()I"); CHECK(intValueID != NULL); jint value = env->CallIntMethod(valueObj, intValueID); msg->setInt32(key.c_str(), value); } else if (env->IsInstanceOf(valueObj, longClass.get())) { jmethodID longValueID = env->GetMethodID(longClass.get(), "longValue", "()J"); CHECK(longValueID != NULL); jlong value = env->CallLongMethod(valueObj, longValueID); msg->setInt64(key.c_str(), value); } else if (env->IsInstanceOf(valueObj, floatClass.get())) { jmethodID floatValueID = env->GetMethodID(floatClass.get(), "floatValue", "()F"); CHECK(floatValueID != NULL); jfloat value = env->CallFloatMethod(valueObj, floatValueID); msg->setFloat(key.c_str(), value); } else if (env->IsInstanceOf(valueObj, byteBufClass.get())) { jmethodID positionID = env->GetMethodID(byteBufClass.get(), "position", "()I"); CHECK(positionID != NULL); jmethodID limitID = env->GetMethodID(byteBufClass.get(), "limit", "()I"); CHECK(limitID != NULL); jint position = env->CallIntMethod(valueObj, positionID); jint limit = env->CallIntMethod(valueObj, limitID); sp buffer = new ABuffer(limit - position); void *data = env->GetDirectBufferAddress(valueObj); if (data != NULL) { memcpy(buffer->data(), (const uint8_t *)data + position, buffer->size()); } else { jmethodID arrayID = env->GetMethodID(byteBufClass.get(), "array", "()[B"); CHECK(arrayID != NULL); jbyteArray byteArray = (jbyteArray)env->CallObjectMethod(valueObj, arrayID); CHECK(byteArray != NULL); env->GetByteArrayRegion( byteArray, position, buffer->size(), (jbyte *)buffer->data()); env->DeleteLocalRef(byteArray); byteArray = NULL; } msg->setBuffer(key.c_str(), buffer); } } *out = msg; return OK; } // -----------Utility functions used by ImageReader/Writer JNI----------------- enum { IMAGE_MAX_NUM_PLANES = 3, }; bool usingRGBAToJpegOverride(int32_t imageFormat, int32_t containerFormat) { return containerFormat == HAL_PIXEL_FORMAT_BLOB && imageFormat == HAL_PIXEL_FORMAT_RGBA_8888; } int32_t applyFormatOverrides(int32_t imageFormat, int32_t containerFormat) { // Using HAL_PIXEL_FORMAT_RGBA_8888 gralloc buffers containing JPEGs to get around SW // write limitations for some platforms (b/17379185). if (usingRGBAToJpegOverride(imageFormat, containerFormat)) { return HAL_PIXEL_FORMAT_BLOB; } return containerFormat; } bool isFormatOpaque(int format) { // This is the only opaque format exposed in the ImageFormat public API. // Note that we do support CPU access for HAL_PIXEL_FORMAT_RAW_OPAQUE // (ImageFormat#RAW_PRIVATE) so it doesn't count as opaque here. return format == HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED; } bool isPossiblyYUV(PixelFormat format) { switch (static_cast(format)) { case HAL_PIXEL_FORMAT_RGBA_8888: case HAL_PIXEL_FORMAT_RGBX_8888: case HAL_PIXEL_FORMAT_RGB_888: case HAL_PIXEL_FORMAT_RGB_565: case HAL_PIXEL_FORMAT_BGRA_8888: case HAL_PIXEL_FORMAT_Y8: case HAL_PIXEL_FORMAT_Y16: case HAL_PIXEL_FORMAT_RAW16: case HAL_PIXEL_FORMAT_RAW10: case HAL_PIXEL_FORMAT_RAW_OPAQUE: case HAL_PIXEL_FORMAT_BLOB: case HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED: return false; case HAL_PIXEL_FORMAT_YV12: case HAL_PIXEL_FORMAT_YCbCr_420_888: case HAL_PIXEL_FORMAT_YCrCb_420_SP: default: return true; } } uint32_t Image_getJpegSize(LockedImage* buffer, bool usingRGBAOverride) { ALOGV("%s", __FUNCTION__); LOG_ALWAYS_FATAL_IF(buffer == NULL, "Input buffer is NULL!!!"); uint32_t size = 0; uint32_t width = buffer->width; uint8_t* jpegBuffer = buffer->data; if (usingRGBAOverride) { width = (buffer->width + buffer->stride * (buffer->height - 1)) * 4; } // First check for JPEG transport header at the end of the buffer uint8_t* header = jpegBuffer + (width - sizeof(struct camera3_jpeg_blob)); struct camera3_jpeg_blob *blob = (struct camera3_jpeg_blob*)(header); if (blob->jpeg_blob_id == CAMERA3_JPEG_BLOB_ID) { size = blob->jpeg_size; ALOGV("%s: Jpeg size = %d", __FUNCTION__, size); } // failed to find size, default to whole buffer if (size == 0) { /* * This is a problem because not including the JPEG header * means that in certain rare situations a regular JPEG blob * will be mis-identified as having a header, in which case * we will get a garbage size value. */ ALOGW("%s: No JPEG header detected, defaulting to size=width=%d", __FUNCTION__, width); size = width; } return size; } status_t getLockedImageInfo(LockedImage* buffer, int idx, int32_t containerFormat, uint8_t **base, uint32_t *size, int *pixelStride, int *rowStride) { ALOGV("%s", __FUNCTION__); LOG_ALWAYS_FATAL_IF(buffer == NULL, "Input buffer is NULL!!!"); LOG_ALWAYS_FATAL_IF(base == NULL, "base is NULL!!!"); LOG_ALWAYS_FATAL_IF(size == NULL, "size is NULL!!!"); LOG_ALWAYS_FATAL_IF(pixelStride == NULL, "pixelStride is NULL!!!"); LOG_ALWAYS_FATAL_IF(rowStride == NULL, "rowStride is NULL!!!"); LOG_ALWAYS_FATAL_IF((idx >= IMAGE_MAX_NUM_PLANES) || (idx < 0), "idx (%d) is illegal", idx); ALOGV("%s: buffer: %p", __FUNCTION__, buffer); uint32_t dataSize, ySize, cSize, cStride; uint32_t pStride = 0, rStride = 0; uint8_t *cb, *cr; uint8_t *pData = NULL; int bytesPerPixel = 0; dataSize = ySize = cSize = cStride = 0; int32_t fmt = buffer->flexFormat; bool usingRGBAOverride = usingRGBAToJpegOverride(fmt, containerFormat); fmt = applyFormatOverrides(fmt, containerFormat); switch (fmt) { case HAL_PIXEL_FORMAT_YCbCr_420_888: pData = (idx == 0) ? buffer->data : (idx == 1) ? buffer->dataCb : buffer->dataCr; // only map until last pixel if (idx == 0) { pStride = 1; rStride = buffer->stride; dataSize = buffer->stride * (buffer->height - 1) + buffer->width; } else { pStride = buffer->chromaStep; rStride = buffer->chromaStride; dataSize = buffer->chromaStride * (buffer->height / 2 - 1) + buffer->chromaStep * (buffer->width / 2 - 1) + 1; } break; // NV21 case HAL_PIXEL_FORMAT_YCrCb_420_SP: cr = buffer->data + (buffer->stride * buffer->height); cb = cr + 1; // only map until last pixel ySize = buffer->width * (buffer->height - 1) + buffer->width; cSize = buffer->width * (buffer->height / 2 - 1) + buffer->width - 1; pData = (idx == 0) ? buffer->data : (idx == 1) ? cb: cr; dataSize = (idx == 0) ? ySize : cSize; pStride = (idx == 0) ? 1 : 2; rStride = buffer->width; break; case HAL_PIXEL_FORMAT_YV12: // Y and C stride need to be 16 pixel aligned. LOG_ALWAYS_FATAL_IF(buffer->stride % 16, "Stride is not 16 pixel aligned %d", buffer->stride); ySize = buffer->stride * buffer->height; cStride = ALIGN(buffer->stride / 2, 16); cr = buffer->data + ySize; cSize = cStride * buffer->height / 2; cb = cr + cSize; pData = (idx == 0) ? buffer->data : (idx == 1) ? cb : cr; dataSize = (idx == 0) ? ySize : cSize; pStride = 1; rStride = (idx == 0) ? buffer->stride : ALIGN(buffer->stride / 2, 16); break; case HAL_PIXEL_FORMAT_Y8: // Single plane, 8bpp. LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); pData = buffer->data; dataSize = buffer->stride * buffer->height; pStride = 1; rStride = buffer->stride; break; case HAL_PIXEL_FORMAT_Y16: bytesPerPixel = 2; // Single plane, 16bpp, strides are specified in pixels, not in bytes LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); pData = buffer->data; dataSize = buffer->stride * buffer->height * bytesPerPixel; pStride = bytesPerPixel; rStride = buffer->stride * 2; break; case HAL_PIXEL_FORMAT_BLOB: // Used for JPEG data, height must be 1, width == size, single plane. LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); // When RGBA override is being used, buffer height will be equal to width if (usingRGBAOverride) { LOG_ALWAYS_FATAL_IF(buffer->height != buffer->width, "RGBA override BLOB format buffer should have height == width"); } else { LOG_ALWAYS_FATAL_IF(buffer->height != 1, "BLOB format buffer should have height value 1"); } pData = buffer->data; dataSize = Image_getJpegSize(buffer, usingRGBAOverride); pStride = 0; rStride = 0; break; case HAL_PIXEL_FORMAT_RAW16: // Single plane 16bpp bayer data. bytesPerPixel = 2; LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); pData = buffer->data; dataSize = buffer->stride * buffer->height * bytesPerPixel; pStride = bytesPerPixel; rStride = buffer->stride * 2; break; case HAL_PIXEL_FORMAT_RAW_OPAQUE: // Used for RAW_OPAQUE data, height must be 1, width == size, single plane. LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); LOG_ALWAYS_FATAL_IF(buffer->height != 1, "RAW_PRIVATE should has height value one but got %d", buffer->height); pData = buffer->data; dataSize = buffer->width; pStride = 0; // RAW OPAQUE doesn't have pixel stride rStride = 0; // RAW OPAQUE doesn't have row stride break; case HAL_PIXEL_FORMAT_RAW10: // Single plane 10bpp bayer data. LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); LOG_ALWAYS_FATAL_IF(buffer->width % 4, "Width is not multiple of 4 %d", buffer->width); LOG_ALWAYS_FATAL_IF(buffer->height % 2, "Height is not even %d", buffer->height); LOG_ALWAYS_FATAL_IF(buffer->stride < (buffer->width * 10 / 8), "stride (%d) should be at least %d", buffer->stride, buffer->width * 10 / 8); pData = buffer->data; dataSize = buffer->stride * buffer->height; pStride = 0; rStride = buffer->stride; break; case HAL_PIXEL_FORMAT_RAW12: // Single plane 10bpp bayer data. LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); LOG_ALWAYS_FATAL_IF(buffer->width % 4, "Width is not multiple of 4 %d", buffer->width); LOG_ALWAYS_FATAL_IF(buffer->height % 2, "Height is not even %d", buffer->height); LOG_ALWAYS_FATAL_IF(buffer->stride < (buffer->width * 12 / 8), "stride (%d) should be at least %d", buffer->stride, buffer->width * 12 / 8); pData = buffer->data; dataSize = buffer->stride * buffer->height; pStride = 0; rStride = buffer->stride; break; case HAL_PIXEL_FORMAT_RGBA_8888: case HAL_PIXEL_FORMAT_RGBX_8888: // Single plane, 32bpp. bytesPerPixel = 4; LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); pData = buffer->data; dataSize = buffer->stride * buffer->height * bytesPerPixel; pStride = bytesPerPixel; rStride = buffer->stride * 4; break; case HAL_PIXEL_FORMAT_RGB_565: // Single plane, 16bpp. bytesPerPixel = 2; LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); pData = buffer->data; dataSize = buffer->stride * buffer->height * bytesPerPixel; pStride = bytesPerPixel; rStride = buffer->stride * 2; break; case HAL_PIXEL_FORMAT_RGB_888: // Single plane, 24bpp. bytesPerPixel = 3; LOG_ALWAYS_FATAL_IF(idx != 0, "Wrong index: %d", idx); pData = buffer->data; dataSize = buffer->stride * buffer->height * bytesPerPixel; pStride = bytesPerPixel; rStride = buffer->stride * 3; break; default: return BAD_VALUE; } *base = pData; *size = dataSize; *pixelStride = pStride; *rowStride = rStride; return OK; } status_t lockImageFromBuffer(sp buffer, uint32_t inUsage, const Rect& rect, int fenceFd, LockedImage* outputImage) { ALOGV("%s: Try to lock the GraphicBuffer", __FUNCTION__); if (buffer == nullptr || outputImage == nullptr) { ALOGE("Input BufferItem or output LockedImage is NULL!"); return BAD_VALUE; } if (isFormatOpaque(buffer->getPixelFormat())) { ALOGE("Opaque format buffer is not lockable!"); return BAD_VALUE; } void* pData = NULL; android_ycbcr ycbcr = android_ycbcr(); status_t res; int format = buffer->getPixelFormat(); int flexFormat = format; if (isPossiblyYUV(format)) { res = buffer->lockAsyncYCbCr(inUsage, rect, &ycbcr, fenceFd); pData = ycbcr.y; flexFormat = HAL_PIXEL_FORMAT_YCbCr_420_888; } // lockAsyncYCbCr for YUV is unsuccessful. if (pData == NULL) { res = buffer->lockAsync(inUsage, rect, &pData, fenceFd); if (res != OK) { ALOGE("Lock buffer failed!"); return res; } } outputImage->data = reinterpret_cast(pData); outputImage->width = buffer->getWidth(); outputImage->height = buffer->getHeight(); outputImage->format = format; outputImage->flexFormat = flexFormat; outputImage->stride = (ycbcr.y != NULL) ? static_cast(ycbcr.ystride) : buffer->getStride(); outputImage->dataCb = reinterpret_cast(ycbcr.cb); outputImage->dataCr = reinterpret_cast(ycbcr.cr); outputImage->chromaStride = static_cast(ycbcr.cstride); outputImage->chromaStep = static_cast(ycbcr.chroma_step); ALOGV("%s: Successfully locked the image from the GraphicBuffer", __FUNCTION__); // Crop, transform, scalingMode, timestamp, and frameNumber should be set by caller, // and cann't be set them here. return OK; } status_t lockImageFromBuffer(BufferItem* bufferItem, uint32_t inUsage, int fenceFd, LockedImage* outputImage) { ALOGV("%s: Try to lock the BufferItem", __FUNCTION__); if (bufferItem == nullptr || outputImage == nullptr) { ALOGE("Input BufferItem or output LockedImage is NULL!"); return BAD_VALUE; } status_t res = lockImageFromBuffer(bufferItem->mGraphicBuffer, inUsage, bufferItem->mCrop, fenceFd, outputImage); if (res != OK) { ALOGE("%s: lock graphic buffer failed", __FUNCTION__); return res; } outputImage->crop = bufferItem->mCrop; outputImage->transform = bufferItem->mTransform; outputImage->scalingMode = bufferItem->mScalingMode; outputImage->timestamp = bufferItem->mTimestamp; outputImage->dataSpace = bufferItem->mDataSpace; outputImage->frameNumber = bufferItem->mFrameNumber; ALOGV("%s: Successfully locked the image from the BufferItem", __FUNCTION__); return OK; } int getBufferWidth(BufferItem* buffer) { if (buffer == NULL) return -1; if (!buffer->mCrop.isEmpty()) { return buffer->mCrop.getWidth(); } ALOGV("%s: buffer->mGraphicBuffer: %p", __FUNCTION__, buffer->mGraphicBuffer.get()); return buffer->mGraphicBuffer->getWidth(); } int getBufferHeight(BufferItem* buffer) { if (buffer == NULL) return -1; if (!buffer->mCrop.isEmpty()) { return buffer->mCrop.getHeight(); } ALOGV("%s: buffer->mGraphicBuffer: %p", __FUNCTION__, buffer->mGraphicBuffer.get()); return buffer->mGraphicBuffer->getHeight(); } } // namespace android