/* * Copyright (C) 2017 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 "AHardwareBuffer" #include #include #include #include #include #include #include #include #include #include #include static constexpr int kFdBufferSize = 128 * sizeof(int); // 128 ints using namespace android; // ---------------------------------------------------------------------------- // Public functions // ---------------------------------------------------------------------------- int AHardwareBuffer_allocate(const AHardwareBuffer_Desc* desc, AHardwareBuffer** outBuffer) { if (!outBuffer || !desc) return BAD_VALUE; if (!AHardwareBuffer_isValidDescription(desc, /*log=*/true)) return BAD_VALUE; int format = AHardwareBuffer_convertToPixelFormat(desc->format); uint64_t usage = AHardwareBuffer_convertToGrallocUsageBits(desc->usage); sp gbuffer(new GraphicBuffer( desc->width, desc->height, format, desc->layers, usage, std::string("AHardwareBuffer pid [") + std::to_string(getpid()) + "]")); status_t err = gbuffer->initCheck(); if (err != 0 || gbuffer->handle == 0) { if (err == NO_MEMORY) { GraphicBuffer::dumpAllocationsToSystemLog(); } ALOGE("GraphicBuffer(w=%u, h=%u, lc=%u) failed (%s), handle=%p", desc->width, desc->height, desc->layers, strerror(-err), gbuffer->handle); return err; } *outBuffer = AHardwareBuffer_from_GraphicBuffer(gbuffer.get()); // Ensure the buffer doesn't get destroyed when the sp<> goes away. AHardwareBuffer_acquire(*outBuffer); return NO_ERROR; } void AHardwareBuffer_acquire(AHardwareBuffer* buffer) { // incStrong/decStrong token must be the same, doesn't matter what it is AHardwareBuffer_to_GraphicBuffer(buffer)->incStrong((void*)AHardwareBuffer_acquire); } void AHardwareBuffer_release(AHardwareBuffer* buffer) { // incStrong/decStrong token must be the same, doesn't matter what it is AHardwareBuffer_to_GraphicBuffer(buffer)->decStrong((void*)AHardwareBuffer_acquire); } void AHardwareBuffer_describe(const AHardwareBuffer* buffer, AHardwareBuffer_Desc* outDesc) { if (!buffer || !outDesc) return; const GraphicBuffer* gbuffer = AHardwareBuffer_to_GraphicBuffer(buffer); outDesc->width = gbuffer->getWidth(); outDesc->height = gbuffer->getHeight(); outDesc->layers = gbuffer->getLayerCount(); outDesc->format = AHardwareBuffer_convertFromPixelFormat(uint32_t(gbuffer->getPixelFormat())); outDesc->usage = AHardwareBuffer_convertFromGrallocUsageBits(gbuffer->getUsage()); outDesc->stride = gbuffer->getStride(); outDesc->rfu0 = 0; outDesc->rfu1 = 0; } int AHardwareBuffer_lockAndGetInfo(AHardwareBuffer* buffer, uint64_t usage, int32_t fence, const ARect* rect, void** outVirtualAddress, int32_t* outBytesPerPixel, int32_t* outBytesPerStride) { if (outBytesPerPixel) *outBytesPerPixel = -1; if (outBytesPerStride) *outBytesPerStride = -1; if (!buffer) { return BAD_VALUE; } if (usage & ~(AHARDWAREBUFFER_USAGE_CPU_READ_MASK | AHARDWAREBUFFER_USAGE_CPU_WRITE_MASK)) { ALOGE("Invalid usage flags passed to AHardwareBuffer_lock; only " "AHARDWAREBUFFER_USAGE_CPU_* flags are allowed"); return BAD_VALUE; } usage = AHardwareBuffer_convertToGrallocUsageBits(usage); GraphicBuffer* gbuffer = AHardwareBuffer_to_GraphicBuffer(buffer); //Mapper implementations before 3.0 will not return bytes per pixel or //bytes per stride information. if (gbuffer->getBufferMapperVersion() == GraphicBufferMapper::Version::GRALLOC_2) { ALOGE("Mapper versions before 3.0 cannot retrieve bytes per pixel and bytes per stride info"); return INVALID_OPERATION; } if (gbuffer->getLayerCount() > 1) { ALOGE("Buffer with multiple layers passed to AHardwareBuffer_lock; " "only buffers with one layer are allowed"); return INVALID_OPERATION; } Rect bounds; if (!rect) { bounds.set(Rect(gbuffer->getWidth(), gbuffer->getHeight())); } else { bounds.set(Rect(rect->left, rect->top, rect->right, rect->bottom)); } int32_t bytesPerPixel; int32_t bytesPerStride; int result = gbuffer->lockAsync(usage, usage, bounds, outVirtualAddress, fence, &bytesPerPixel, &bytesPerStride); // if hardware returns -1 for bytes per pixel or bytes per stride, we fail // and unlock the buffer if (bytesPerPixel == -1 || bytesPerStride == -1) { gbuffer->unlock(); return INVALID_OPERATION; } if (outBytesPerPixel) *outBytesPerPixel = bytesPerPixel; if (outBytesPerStride) *outBytesPerStride = bytesPerStride; return result; } int AHardwareBuffer_lock(AHardwareBuffer* buffer, uint64_t usage, int32_t fence, const ARect* rect, void** outVirtualAddress) { int32_t bytesPerPixel; int32_t bytesPerStride; if (!buffer) return BAD_VALUE; if (usage & ~(AHARDWAREBUFFER_USAGE_CPU_READ_MASK | AHARDWAREBUFFER_USAGE_CPU_WRITE_MASK)) { ALOGE("Invalid usage flags passed to AHardwareBuffer_lock; only " "AHARDWAREBUFFER_USAGE_CPU_* flags are allowed"); return BAD_VALUE; } usage = AHardwareBuffer_convertToGrallocUsageBits(usage); GraphicBuffer* gbuffer = AHardwareBuffer_to_GraphicBuffer(buffer); if (gbuffer->getLayerCount() > 1) { ALOGE("Buffer with multiple layers passed to AHardwareBuffer_lock; " "only buffers with one layer are allowed"); return INVALID_OPERATION; } Rect bounds; if (!rect) { bounds.set(Rect(gbuffer->getWidth(), gbuffer->getHeight())); } else { bounds.set(Rect(rect->left, rect->top, rect->right, rect->bottom)); } return gbuffer->lockAsync(usage, usage, bounds, outVirtualAddress, fence, &bytesPerPixel, &bytesPerStride); } int AHardwareBuffer_lockPlanes(AHardwareBuffer* buffer, uint64_t usage, int32_t fence, const ARect* rect, AHardwareBuffer_Planes* outPlanes) { if (!buffer || !outPlanes) return BAD_VALUE; if (usage & ~(AHARDWAREBUFFER_USAGE_CPU_READ_MASK | AHARDWAREBUFFER_USAGE_CPU_WRITE_MASK)) { ALOGE("Invalid usage flags passed to AHardwareBuffer_lock; only " " AHARDWAREBUFFER_USAGE_CPU_* flags are allowed"); return BAD_VALUE; } usage = AHardwareBuffer_convertToGrallocUsageBits(usage); GraphicBuffer* gBuffer = AHardwareBuffer_to_GraphicBuffer(buffer); Rect bounds; if (!rect) { bounds.set(Rect(gBuffer->getWidth(), gBuffer->getHeight())); } else { bounds.set(Rect(rect->left, rect->top, rect->right, rect->bottom)); } int format = AHardwareBuffer_convertFromPixelFormat(uint32_t(gBuffer->getPixelFormat())); memset(outPlanes->planes, 0, sizeof(outPlanes->planes)); if (AHardwareBuffer_formatIsYuv(format)) { android_ycbcr yuvData; int result = gBuffer->lockAsyncYCbCr(usage, bounds, &yuvData, fence); if (result == 0) { outPlanes->planeCount = 3; outPlanes->planes[0].data = yuvData.y; outPlanes->planes[0].pixelStride = 1; outPlanes->planes[0].rowStride = yuvData.ystride; outPlanes->planes[1].data = yuvData.cb; outPlanes->planes[1].pixelStride = yuvData.chroma_step; outPlanes->planes[1].rowStride = yuvData.cstride; outPlanes->planes[2].data = yuvData.cr; outPlanes->planes[2].pixelStride = yuvData.chroma_step; outPlanes->planes[2].rowStride = yuvData.cstride; } else { outPlanes->planeCount = 0; } return result; } else { const uint32_t pixelStride = AHardwareBuffer_bytesPerPixel(format); outPlanes->planeCount = 1; outPlanes->planes[0].pixelStride = pixelStride; outPlanes->planes[0].rowStride = gBuffer->getStride() * pixelStride; return gBuffer->lockAsync(usage, usage, bounds, &outPlanes->planes[0].data, fence); } } int AHardwareBuffer_unlock(AHardwareBuffer* buffer, int32_t* fence) { if (!buffer) return BAD_VALUE; GraphicBuffer* gBuffer = AHardwareBuffer_to_GraphicBuffer(buffer); if (fence == nullptr) return gBuffer->unlock(); else return gBuffer->unlockAsync(fence); } int AHardwareBuffer_sendHandleToUnixSocket(const AHardwareBuffer* buffer, int socketFd) { if (!buffer) return BAD_VALUE; const GraphicBuffer* gBuffer = AHardwareBuffer_to_GraphicBuffer(buffer); size_t flattenedSize = gBuffer->getFlattenedSize(); size_t fdCount = gBuffer->getFdCount(); std::unique_ptr data(new uint8_t[flattenedSize]); std::unique_ptr fds(new int[fdCount]); // Make copies of needed items since flatten modifies them, and we don't // want to send anything if there's an error during flatten. size_t flattenedSizeCopy = flattenedSize; size_t fdCountCopy = fdCount; void* dataStart = data.get(); int* fdsStart = fds.get(); status_t err = gBuffer->flatten(dataStart, flattenedSizeCopy, fdsStart, fdCountCopy); if (err != NO_ERROR) { return err; } struct iovec iov[1]; iov[0].iov_base = data.get(); iov[0].iov_len = flattenedSize; char buf[CMSG_SPACE(kFdBufferSize)]; struct msghdr msg = { .msg_control = buf, .msg_controllen = sizeof(buf), .msg_iov = &iov[0], .msg_iovlen = 1, }; struct cmsghdr* cmsg = CMSG_FIRSTHDR(&msg); cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; cmsg->cmsg_len = CMSG_LEN(sizeof(int) * fdCount); int* fdData = reinterpret_cast(CMSG_DATA(cmsg)); memcpy(fdData, fds.get(), sizeof(int) * fdCount); msg.msg_controllen = cmsg->cmsg_len; int result; do { result = sendmsg(socketFd, &msg, 0); } while (result == -1 && errno == EINTR); if (result == -1) { result = errno; ALOGE("Error writing AHardwareBuffer to socket: error %#x (%s)", result, strerror(result)); return -result; } return NO_ERROR; } int AHardwareBuffer_recvHandleFromUnixSocket(int socketFd, AHardwareBuffer** outBuffer) { if (!outBuffer) return BAD_VALUE; static constexpr int kMessageBufferSize = 4096 * sizeof(int); std::unique_ptr dataBuf(new char[kMessageBufferSize]); char fdBuf[CMSG_SPACE(kFdBufferSize)]; struct iovec iov[1]; iov[0].iov_base = dataBuf.get(); iov[0].iov_len = kMessageBufferSize; struct msghdr msg = { .msg_control = fdBuf, .msg_controllen = sizeof(fdBuf), .msg_iov = &iov[0], .msg_iovlen = 1, }; int result; do { result = recvmsg(socketFd, &msg, 0); } while (result == -1 && errno == EINTR); if (result == -1) { result = errno; ALOGE("Error reading AHardwareBuffer from socket: error %#x (%s)", result, strerror(result)); return -result; } if (msg.msg_iovlen != 1) { ALOGE("Error reading AHardwareBuffer from socket: bad data length"); return INVALID_OPERATION; } if (msg.msg_controllen % sizeof(int) != 0) { ALOGE("Error reading AHardwareBuffer from socket: bad fd length"); return INVALID_OPERATION; } size_t dataLen = msg.msg_iov[0].iov_len; const void* data = static_cast(msg.msg_iov[0].iov_base); if (!data) { ALOGE("Error reading AHardwareBuffer from socket: no buffer data"); return INVALID_OPERATION; } struct cmsghdr* cmsg = CMSG_FIRSTHDR(&msg); if (!cmsg) { ALOGE("Error reading AHardwareBuffer from socket: no fd header"); return INVALID_OPERATION; } size_t fdCount = msg.msg_controllen >> 2; const int* fdData = reinterpret_cast(CMSG_DATA(cmsg)); if (!fdData) { ALOGE("Error reading AHardwareBuffer from socket: no fd data"); return INVALID_OPERATION; } GraphicBuffer* gBuffer = new GraphicBuffer(); status_t err = gBuffer->unflatten(data, dataLen, fdData, fdCount); if (err != NO_ERROR) { return err; } *outBuffer = AHardwareBuffer_from_GraphicBuffer(gBuffer); // Ensure the buffer has a positive ref-count. AHardwareBuffer_acquire(*outBuffer); return NO_ERROR; } int AHardwareBuffer_isSupported(const AHardwareBuffer_Desc* desc) { if (!desc) return 0; if (!AHardwareBuffer_isValidDescription(desc, /*log=*/false)) return 0; bool supported = false; GraphicBuffer* gBuffer = new GraphicBuffer(); status_t err = gBuffer->isSupported(desc->width, desc->height, desc->format, desc->layers, desc->usage, &supported); if (err == NO_ERROR) { return supported; } // function isSupported is not implemented on device or an error occurred during HAL // query. Make a trial allocation. AHardwareBuffer_Desc trialDesc = *desc; trialDesc.width = 4; trialDesc.height = desc->format == AHARDWAREBUFFER_FORMAT_BLOB ? 1 : 4; if (desc->usage & AHARDWAREBUFFER_USAGE_GPU_CUBE_MAP) { trialDesc.layers = desc->layers == 6 ? 6 : 12; } else { trialDesc.layers = desc->layers == 1 ? 1 : 2; } AHardwareBuffer* trialBuffer = nullptr; int result = AHardwareBuffer_allocate(&trialDesc, &trialBuffer); if (result == NO_ERROR) { AHardwareBuffer_release(trialBuffer); return 1; } return 0; } // ---------------------------------------------------------------------------- // VNDK functions // ---------------------------------------------------------------------------- const native_handle_t* AHardwareBuffer_getNativeHandle( const AHardwareBuffer* buffer) { if (!buffer) return nullptr; const GraphicBuffer* gbuffer = AHardwareBuffer_to_GraphicBuffer(buffer); return gbuffer->handle; } int AHardwareBuffer_createFromHandle(const AHardwareBuffer_Desc* desc, const native_handle_t* handle, int32_t method, AHardwareBuffer** outBuffer) { static_assert(static_cast(AHARDWAREBUFFER_CREATE_FROM_HANDLE_METHOD_REGISTER) == static_cast(GraphicBuffer::TAKE_UNREGISTERED_HANDLE)); static_assert(static_cast(AHARDWAREBUFFER_CREATE_FROM_HANDLE_METHOD_CLONE) == static_cast(GraphicBuffer::CLONE_HANDLE)); if (!desc || !handle || !outBuffer) return BAD_VALUE; if (!(method == AHARDWAREBUFFER_CREATE_FROM_HANDLE_METHOD_REGISTER || method == AHARDWAREBUFFER_CREATE_FROM_HANDLE_METHOD_CLONE)) return BAD_VALUE; if (desc->rfu0 != 0 || desc->rfu1 != 0) return BAD_VALUE; if (desc->format == AHARDWAREBUFFER_FORMAT_BLOB && desc->height != 1) return BAD_VALUE; const int format = AHardwareBuffer_convertToPixelFormat(desc->format); const uint64_t usage = AHardwareBuffer_convertToGrallocUsageBits(desc->usage); const auto wrapMethod = static_cast(method); sp gbuffer(new GraphicBuffer(handle, wrapMethod, desc->width, desc->height, format, desc->layers, usage, desc->stride)); status_t err = gbuffer->initCheck(); if (err != 0 || gbuffer->handle == 0) return err; *outBuffer = AHardwareBuffer_from_GraphicBuffer(gbuffer.get()); // Ensure the buffer doesn't get destroyed when the sp<> goes away. AHardwareBuffer_acquire(*outBuffer); return NO_ERROR; } // ---------------------------------------------------------------------------- // Helpers implementation // ---------------------------------------------------------------------------- namespace android { bool AHardwareBuffer_isValidDescription(const AHardwareBuffer_Desc* desc, bool log) { if (desc->width == 0 || desc->height == 0 || desc->layers == 0) { ALOGE_IF(log, "Width, height and layers must all be nonzero"); return false; } if (!AHardwareBuffer_isValidPixelFormat(desc->format)) { ALOGE_IF(log, "Invalid AHardwareBuffer pixel format %u (%#x))", desc->format, desc->format); return false; } if (desc->rfu0 != 0 || desc->rfu1 != 0) { ALOGE_IF(log, "AHardwareBuffer_Desc::rfu fields must be 0"); return false; } if (desc->format == AHARDWAREBUFFER_FORMAT_BLOB) { if (desc->height != 1 || desc->layers != 1) { ALOGE_IF(log, "Height and layers must be 1 for AHARDWAREBUFFER_FORMAT_BLOB"); return false; } const uint64_t blobInvalidGpuMask = AHARDWAREBUFFER_USAGE_GPU_SAMPLED_IMAGE | AHARDWAREBUFFER_USAGE_GPU_FRAMEBUFFER | AHARDWAREBUFFER_USAGE_GPU_MIPMAP_COMPLETE | AHARDWAREBUFFER_USAGE_GPU_CUBE_MAP; if (desc->usage & blobInvalidGpuMask) { ALOGE_IF(log, "Invalid GPU usage flag for AHARDWAREBUFFER_FORMAT_BLOB; " "only AHARDWAREBUFFER_USAGE_GPU_DATA_BUFFER is allowed"); return false; } if (desc->usage & AHARDWAREBUFFER_USAGE_VIDEO_ENCODE) { ALOGE_IF(log, "AHARDWAREBUFFER_FORMAT_BLOB cannot be encoded as video"); return false; } } else if (AHardwareBuffer_formatIsYuv(desc->format)) { if (desc->layers != 1) { ALOGE_IF(log, "Layers must be 1 for YUV formats."); return false; } const uint64_t yuvInvalidGpuMask = AHARDWAREBUFFER_USAGE_GPU_MIPMAP_COMPLETE | AHARDWAREBUFFER_USAGE_GPU_CUBE_MAP; if (desc->usage & yuvInvalidGpuMask) { ALOGE_IF(log, "Invalid usage flags specified for YUV format; " "mip-mapping and cube-mapping are not allowed."); return false; } } else { if (desc->usage & AHARDWAREBUFFER_USAGE_SENSOR_DIRECT_DATA) { ALOGE_IF(log, "AHARDWAREBUFFER_USAGE_SENSOR_DIRECT_DATA requires AHARDWAREBUFFER_FORMAT_BLOB"); return false; } if (desc->usage & AHARDWAREBUFFER_USAGE_GPU_DATA_BUFFER) { ALOGE_IF(log, "AHARDWAREBUFFER_USAGE_GPU_DATA_BUFFER requires AHARDWAREBUFFER_FORMAT_BLOB"); return false; } } if ((desc->usage & (AHARDWAREBUFFER_USAGE_CPU_READ_MASK | AHARDWAREBUFFER_USAGE_CPU_WRITE_MASK)) && (desc->usage & AHARDWAREBUFFER_USAGE_PROTECTED_CONTENT)) { ALOGE_IF(log, "AHARDWAREBUFFER_USAGE_PROTECTED_CONTENT requires AHARDWAREBUFFER_USAGE_CPU_READ_NEVER " "and AHARDWAREBUFFER_USAGE_CPU_WRITE_NEVER"); return false; } if (desc->usage & AHARDWAREBUFFER_USAGE_GPU_CUBE_MAP) { if (desc->width != desc->height) { ALOGE_IF(log, "Cube maps must be square"); return false; } if (desc->layers % 6 != 0) { ALOGE_IF(log, "Cube map layers must be a multiple of 6"); return false; } } return true; } bool AHardwareBuffer_isValidPixelFormat(uint32_t format) { static_assert(HAL_PIXEL_FORMAT_RGBA_8888 == AHARDWAREBUFFER_FORMAT_R8G8B8A8_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RGBX_8888 == AHARDWAREBUFFER_FORMAT_R8G8B8X8_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RGB_565 == AHARDWAREBUFFER_FORMAT_R5G6B5_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RGB_888 == AHARDWAREBUFFER_FORMAT_R8G8B8_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RGBA_FP16 == AHARDWAREBUFFER_FORMAT_R16G16B16A16_FLOAT, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RGBA_1010102 == AHARDWAREBUFFER_FORMAT_R10G10B10A2_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_BLOB == AHARDWAREBUFFER_FORMAT_BLOB, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_DEPTH_16 == AHARDWAREBUFFER_FORMAT_D16_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_DEPTH_24 == AHARDWAREBUFFER_FORMAT_D24_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_DEPTH_24_STENCIL_8 == AHARDWAREBUFFER_FORMAT_D24_UNORM_S8_UINT, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_DEPTH_32F == AHARDWAREBUFFER_FORMAT_D32_FLOAT, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_DEPTH_32F_STENCIL_8 == AHARDWAREBUFFER_FORMAT_D32_FLOAT_S8_UINT, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_STENCIL_8 == AHARDWAREBUFFER_FORMAT_S8_UINT, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_BGRA_8888 == AHARDWAREBUFFER_FORMAT_B8G8R8A8_UNORM, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_YV12 == AHARDWAREBUFFER_FORMAT_YV12, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_Y8 == AHARDWAREBUFFER_FORMAT_Y8, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_Y16 == AHARDWAREBUFFER_FORMAT_Y16, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RAW16 == AHARDWAREBUFFER_FORMAT_RAW16, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RAW10 == AHARDWAREBUFFER_FORMAT_RAW10, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RAW12 == AHARDWAREBUFFER_FORMAT_RAW12, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_RAW_OPAQUE == AHARDWAREBUFFER_FORMAT_RAW_OPAQUE, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED == AHARDWAREBUFFER_FORMAT_IMPLEMENTATION_DEFINED, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_YCBCR_420_888 == AHARDWAREBUFFER_FORMAT_Y8Cb8Cr8_420, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_YCBCR_422_SP == AHARDWAREBUFFER_FORMAT_YCbCr_422_SP, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_YCRCB_420_SP == AHARDWAREBUFFER_FORMAT_YCrCb_420_SP, "HAL and AHardwareBuffer pixel format don't match"); static_assert(HAL_PIXEL_FORMAT_YCBCR_422_I == AHARDWAREBUFFER_FORMAT_YCbCr_422_I, "HAL and AHardwareBuffer pixel format don't match"); switch (format) { case AHARDWAREBUFFER_FORMAT_R8G8B8A8_UNORM: case AHARDWAREBUFFER_FORMAT_R8G8B8X8_UNORM: case AHARDWAREBUFFER_FORMAT_R5G6B5_UNORM: case AHARDWAREBUFFER_FORMAT_R8G8B8_UNORM: case AHARDWAREBUFFER_FORMAT_R16G16B16A16_FLOAT: case AHARDWAREBUFFER_FORMAT_R10G10B10A2_UNORM: case AHARDWAREBUFFER_FORMAT_BLOB: case AHARDWAREBUFFER_FORMAT_D16_UNORM: case AHARDWAREBUFFER_FORMAT_D24_UNORM: case AHARDWAREBUFFER_FORMAT_D24_UNORM_S8_UINT: case AHARDWAREBUFFER_FORMAT_D32_FLOAT: case AHARDWAREBUFFER_FORMAT_D32_FLOAT_S8_UINT: case AHARDWAREBUFFER_FORMAT_S8_UINT: case AHARDWAREBUFFER_FORMAT_Y8Cb8Cr8_420: // VNDK formats only -- unfortunately we can't differentiate from where we're called case AHARDWAREBUFFER_FORMAT_B8G8R8A8_UNORM: case AHARDWAREBUFFER_FORMAT_YV12: case AHARDWAREBUFFER_FORMAT_Y8: case AHARDWAREBUFFER_FORMAT_Y16: case AHARDWAREBUFFER_FORMAT_RAW16: case AHARDWAREBUFFER_FORMAT_RAW10: case AHARDWAREBUFFER_FORMAT_RAW12: case AHARDWAREBUFFER_FORMAT_RAW_OPAQUE: case AHARDWAREBUFFER_FORMAT_IMPLEMENTATION_DEFINED: case AHARDWAREBUFFER_FORMAT_YCbCr_422_SP: case AHARDWAREBUFFER_FORMAT_YCrCb_420_SP: case AHARDWAREBUFFER_FORMAT_YCbCr_422_I: return true; default: return false; } } bool AHardwareBuffer_formatIsYuv(uint32_t format) { switch (format) { case AHARDWAREBUFFER_FORMAT_Y8Cb8Cr8_420: case AHARDWAREBUFFER_FORMAT_YV12: case AHARDWAREBUFFER_FORMAT_Y8: case AHARDWAREBUFFER_FORMAT_Y16: case AHARDWAREBUFFER_FORMAT_YCbCr_422_SP: case AHARDWAREBUFFER_FORMAT_YCrCb_420_SP: case AHARDWAREBUFFER_FORMAT_YCbCr_422_I: return true; default: return false; } } uint32_t AHardwareBuffer_bytesPerPixel(uint32_t format) { switch (format) { case AHARDWAREBUFFER_FORMAT_R5G6B5_UNORM: case AHARDWAREBUFFER_FORMAT_D16_UNORM: return 2; case AHARDWAREBUFFER_FORMAT_R8G8B8_UNORM: case AHARDWAREBUFFER_FORMAT_D24_UNORM: return 3; case AHARDWAREBUFFER_FORMAT_R8G8B8A8_UNORM: case AHARDWAREBUFFER_FORMAT_R8G8B8X8_UNORM: case AHARDWAREBUFFER_FORMAT_D32_FLOAT: case AHARDWAREBUFFER_FORMAT_R10G10B10A2_UNORM: case AHARDWAREBUFFER_FORMAT_D24_UNORM_S8_UINT: return 4; default: return 0; } } uint32_t AHardwareBuffer_convertFromPixelFormat(uint32_t hal_format) { return hal_format; } uint32_t AHardwareBuffer_convertToPixelFormat(uint32_t ahardwarebuffer_format) { return ahardwarebuffer_format; } uint64_t AHardwareBuffer_convertToGrallocUsageBits(uint64_t usage) { using android::hardware::graphics::common::V1_1::BufferUsage; static_assert(AHARDWAREBUFFER_USAGE_CPU_READ_NEVER == (uint64_t)BufferUsage::CPU_READ_NEVER, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_CPU_READ_RARELY == (uint64_t)BufferUsage::CPU_READ_RARELY, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_CPU_READ_OFTEN == (uint64_t)BufferUsage::CPU_READ_OFTEN, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_CPU_WRITE_NEVER == (uint64_t)BufferUsage::CPU_WRITE_NEVER, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_CPU_WRITE_RARELY == (uint64_t)BufferUsage::CPU_WRITE_RARELY, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_CPU_WRITE_OFTEN == (uint64_t)BufferUsage::CPU_WRITE_OFTEN, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_GPU_SAMPLED_IMAGE == (uint64_t)BufferUsage::GPU_TEXTURE, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_GPU_FRAMEBUFFER == (uint64_t)BufferUsage::GPU_RENDER_TARGET, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_PROTECTED_CONTENT == (uint64_t)BufferUsage::PROTECTED, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_VIDEO_ENCODE == (uint64_t)BufferUsage::VIDEO_ENCODER, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_GPU_DATA_BUFFER == (uint64_t)BufferUsage::GPU_DATA_BUFFER, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_SENSOR_DIRECT_DATA == (uint64_t)BufferUsage::SENSOR_DIRECT_DATA, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_GPU_CUBE_MAP == (uint64_t)BufferUsage::GPU_CUBE_MAP, "gralloc and AHardwareBuffer flags don't match"); static_assert(AHARDWAREBUFFER_USAGE_GPU_MIPMAP_COMPLETE == (uint64_t)BufferUsage::GPU_MIPMAP_COMPLETE, "gralloc and AHardwareBuffer flags don't match"); return usage; } uint64_t AHardwareBuffer_convertFromGrallocUsageBits(uint64_t usage) { return usage; } const GraphicBuffer* AHardwareBuffer_to_GraphicBuffer(const AHardwareBuffer* buffer) { return GraphicBuffer::fromAHardwareBuffer(buffer); } GraphicBuffer* AHardwareBuffer_to_GraphicBuffer(AHardwareBuffer* buffer) { return GraphicBuffer::fromAHardwareBuffer(buffer); } const ANativeWindowBuffer* AHardwareBuffer_to_ANativeWindowBuffer(const AHardwareBuffer* buffer) { return AHardwareBuffer_to_GraphicBuffer(buffer)->getNativeBuffer(); } ANativeWindowBuffer* AHardwareBuffer_to_ANativeWindowBuffer(AHardwareBuffer* buffer) { return AHardwareBuffer_to_GraphicBuffer(buffer)->getNativeBuffer(); } AHardwareBuffer* AHardwareBuffer_from_GraphicBuffer(GraphicBuffer* buffer) { return buffer->toAHardwareBuffer(); } } // namespace android