// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef MEDIA_BASE_VIDEO_FRAME_H_ #define MEDIA_BASE_VIDEO_FRAME_H_ #include #include "base/callback.h" #include "base/md5.h" #include "base/memory/shared_memory.h" #include "base/synchronization/lock.h" #include "gpu/command_buffer/common/mailbox_holder.h" #include "media/base/buffers.h" #include "media/base/video_frame_metadata.h" #include "ui/gfx/geometry/rect.h" #include "ui/gfx/geometry/size.h" #if defined(OS_MACOSX) #include #include "base/mac/scoped_cftyperef.h" #endif namespace media { class MEDIA_EXPORT VideoFrame : public base::RefCountedThreadSafe { public: enum { kFrameSizeAlignment = 16, kFrameSizePadding = 16, kFrameAddressAlignment = 32 }; enum { kMaxPlanes = 4, kYPlane = 0, kARGBPlane = kYPlane, kUPlane = 1, kUVPlane = kUPlane, kVPlane = 2, kAPlane = 3, }; // Pixel formats roughly based on FOURCC labels, see: // http://www.fourcc.org/rgb.php // http://www.fourcc.org/yuv.php // Logged to UMA, so never reuse values. Leave gaps if necessary. enum Format { UNKNOWN = 0, // Unknown or unspecified format value. YV12 = 1, // 12bpp YVU planar 1x1 Y, 2x2 VU samples. I420 = 2, // 12bpp YUV planar 1x1 Y, 2x2 UV samples, a.k.a. YU12. YV16 = 3, // 16bpp YVU planar 1x1 Y, 2x1 VU samples. YV12A = 4, // 20bpp YUVA planar 1x1 Y, 2x2 VU, 1x1 A samples. YV24 = 5, // 24bpp YUV planar, no subsampling. #if defined(OS_MACOSX) || defined(OS_CHROMEOS) NV12 = 6, // 12bpp with Y plane followed by a 2x2 interleaved UV plane. #endif ARGB = 7, // 32bpp ARGB, 1 plane. XRGB = 8, // 24bpp XRGB, 1 plane. // Please update UMA histogram enumeration when adding new formats here. FORMAT_MAX = XRGB, // Must always be equal to largest entry logged. }; // Color space or color range used for the pixels, in general this is left // unspecified, meaning Rec601 (SD) is assumed. enum ColorSpace { COLOR_SPACE_UNSPECIFIED = 0, // In general this is Rec601. COLOR_SPACE_JPEG = 1, // JPEG color range. COLOR_SPACE_HD_REC709 = 2, // Rec709 "HD" color space. COLOR_SPACE_MAX = COLOR_SPACE_HD_REC709, }; // Defines the pixel storage type. STORAGE_{OWNED, UNOWNED}_MEMORY and // STORAGE_SHMEM have in common that are mappable, i.e. can be accessed from // the VideoFrame memory space, whereas the rest, in principle, can't. enum StorageType { STORAGE_UNKNOWN = 0, STORAGE_UNOWNED_MEMORY = 1, // External, non owned data pointers. STORAGE_OWNED_MEMORY = 2, // VideoFrame has allocated its own data buffer. STORAGE_SHMEM = 3, // Pixels are backed by Shared Memory. #if defined(OS_LINUX) STORAGE_DMABUFS = 4, // Each plane is stored into a DmaBuf. #endif #if defined(VIDEO_HOLE) // Opaque storage. STORAGE_HOLE = 5, #endif // Pixels are stored in textures, one per plane, referred by MailboxHolders. STORAGE_TEXTURE = 6, STORAGE_MAX = STORAGE_TEXTURE, // Always equal to the last StorageType. }; // CB to be called on the mailbox backing this frame when the frame is // destroyed. typedef base::Callback ReleaseMailboxCB; // Returns the name of a Format as a string. static std::string FormatToString(Format format); // Returns true if |format| is a YUV non interleaved format. static bool IsYuvPlanar(Format format); // Returns true if |storage_type| is mappable in the VideoFrame memory space. static bool IsMappable(StorageType storage_type); // Returns true if |plane| is a valid plane number for the given format. static bool IsValidPlane(size_t plane, VideoFrame::Format format); // Call prior to CreateFrame to ensure validity of frame configuration. Called // automatically by VideoDecoderConfig::IsValidConfig(). // TODO(scherkus): VideoDecoderConfig shouldn't call this method static bool IsValidConfig(Format format, StorageType storage_type, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size); // Creates a new YUV frame in system memory with given parameters (|format| // must be YUV). Buffers for the frame are allocated but not initialized. The // caller most not make assumptions about the actual underlying size(s), but // check the returned VideoFrame instead. // TODO(mcasas): implement the RGB version of this factory method. static scoped_refptr CreateFrame( Format format, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, base::TimeDelta timestamp); // Wraps a native texture of the given parameters with a VideoFrame. // The backing of the VideoFrame is held in the mailbox held by // |mailbox_holder|, and |mailbox_holder_release_cb| will be called with // a syncpoint as the argument when the VideoFrame is to be destroyed. static scoped_refptr WrapNativeTexture( const gpu::MailboxHolder& mailbox_holder, const ReleaseMailboxCB& mailbox_holder_release_cb, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, base::TimeDelta timestamp, bool allow_overlay, bool has_alpha); // Wraps a set of native textures representing YUV data with a VideoFrame. // |mailbox_holders_release_cb| will be called with a syncpoint as the // argument when the VideoFrame is to be destroyed. static scoped_refptr WrapYUV420NativeTextures( const gpu::MailboxHolder& y_mailbox_holder, const gpu::MailboxHolder& u_mailbox_holder, const gpu::MailboxHolder& v_mailbox_holder, const ReleaseMailboxCB& mailbox_holders_release_cb, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, base::TimeDelta timestamp, bool allow_overlay); // Wraps packed image data residing in a memory buffer with a VideoFrame. // The image data resides in |data| and is assumed to be packed tightly in a // buffer of logical dimensions |coded_size| with the appropriate bit depth // and plane count as given by |format|. Returns NULL on failure. static scoped_refptr WrapExternalData( Format format, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, uint8* data, size_t data_size, base::TimeDelta timestamp); // Same as WrapExternalData() with SharedMemoryHandle and its offset. static scoped_refptr WrapExternalSharedMemory( Format format, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, uint8* data, size_t data_size, base::SharedMemoryHandle handle, size_t shared_memory_offset, base::TimeDelta timestamp); // Wraps external YUV data of the given parameters with a VideoFrame. // The returned VideoFrame does not own the data passed in. static scoped_refptr WrapExternalYuvData( Format format, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, int32 y_stride, int32 u_stride, int32 v_stride, uint8* y_data, uint8* u_data, uint8* v_data, base::TimeDelta timestamp); #if defined(OS_LINUX) // Wraps provided dmabufs // (https://www.kernel.org/doc/Documentation/dma-buf-sharing.txt) with a // VideoFrame. The dmabuf fds are dup()ed on creation, so that the VideoFrame // retains a reference to them, and are automatically close()d on destruction, // dropping the reference. The caller may safely close() its reference after // calling WrapExternalDmabufs(). // The image data is only accessible via dmabuf fds, which are usually passed // directly to a hardware device and/or to another process, or can also be // mapped via mmap() for CPU access. // Returns NULL on failure. static scoped_refptr WrapExternalDmabufs( Format format, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, const std::vector dmabuf_fds, base::TimeDelta timestamp); #endif #if defined(OS_MACOSX) // Wraps a provided CVPixelBuffer with a VideoFrame. The pixel buffer is // retained for the lifetime of the VideoFrame and released upon destruction. // The image data is only accessible via the pixel buffer, which could be // backed by an IOSurface from another process. All the attributes of the // VideoFrame are derived from the pixel buffer, with the exception of the // timestamp. If information is missing or is incompatible (for example, a // pixel format that has no VideoFrame match), NULL is returned. // http://crbug.com/401308 static scoped_refptr WrapCVPixelBuffer( CVPixelBufferRef cv_pixel_buffer, base::TimeDelta timestamp); #endif // Wraps |frame|. |visible_rect| must be a sub rect within // frame->visible_rect(). static scoped_refptr WrapVideoFrame( const scoped_refptr& frame, const gfx::Rect& visible_rect, const gfx::Size& natural_size); // Creates a frame which indicates end-of-stream. static scoped_refptr CreateEOSFrame(); // Allocates YV12 frame based on |size|, and sets its data to the YUV(y,u,v). static scoped_refptr CreateColorFrame( const gfx::Size& size, uint8 y, uint8 u, uint8 v, base::TimeDelta timestamp); // Allocates YV12 frame based on |size|, and sets its data to the YUV // equivalent of RGB(0,0,0). static scoped_refptr CreateBlackFrame(const gfx::Size& size); // Allocates YV12A frame based on |size|, and sets its data to the YUVA // equivalent of RGBA(0,0,0,0). static scoped_refptr CreateTransparentFrame( const gfx::Size& size); #if defined(VIDEO_HOLE) // Allocates a hole frame. static scoped_refptr CreateHoleFrame(const gfx::Size& size); #endif // defined(VIDEO_HOLE) static size_t NumPlanes(Format format); // Returns the required allocation size for a (tightly packed) frame of the // given coded size and format. static size_t AllocationSize(Format format, const gfx::Size& coded_size); // Returns the plane size (in bytes) for a plane of the given coded size and // format. static gfx::Size PlaneSize(Format format, size_t plane, const gfx::Size& coded_size); // Returns the required allocation size for a (tightly packed) plane of the // given coded size and format. static size_t PlaneAllocationSize(Format format, size_t plane, const gfx::Size& coded_size); // Returns horizontal bits per pixel for given |plane| and |format|. static int PlaneHorizontalBitsPerPixel(Format format, size_t plane); // Returns bits per pixel for given |plane| and |format|. static int PlaneBitsPerPixel(Format format, size_t plane); // Returns the number of bytes per row for the given plane, format, and width. // The width may be aligned to format requirements. static size_t RowBytes(size_t plane, Format format, int width); // Returns the number of rows for the given plane, format, and height. // The height may be aligned to format requirements. static size_t Rows(size_t plane, Format format, int height); // Returns the number of columns for the given plane, format, and width. // The width may be aligned to format requirements. static size_t Columns(size_t plane, Format format, int width); Format format() const { return format_; } StorageType storage_type() const { return storage_type_; } const gfx::Size& coded_size() const { return coded_size_; } const gfx::Rect& visible_rect() const { return visible_rect_; } const gfx::Size& natural_size() const { return natural_size_; } int stride(size_t plane) const; // Returns the number of bytes per row and number of rows for a given plane. // // As opposed to stride(), row_bytes() refers to the bytes representing // frame data scanlines (coded_size.width() pixels, without stride padding). int row_bytes(size_t plane) const; int rows(size_t plane) const; // Returns pointer to the buffer for a given plane, if this is an IsMappable() // frame type. The memory is owned by VideoFrame object and must not be freed // by the caller. const uint8* data(size_t plane) const; uint8* data(size_t plane); // Returns pointer to the data in the visible region of the frame, for // IsMappable() storage types. The returned pointer is offsetted into the // plane buffer specified by visible_rect().origin(). Memory is owned by // VideoFrame object and must not be freed by the caller. const uint8* visible_data(size_t plane) const; uint8* visible_data(size_t plane); // Returns a mailbox holder for a given texture. // Only valid to call if this is a NATIVE_TEXTURE frame. Before using the // mailbox, the caller must wait for the included sync point. const gpu::MailboxHolder& mailbox_holder(size_t texture_index) const; // Returns the shared-memory handle, if present base::SharedMemoryHandle shared_memory_handle() const; // Returns the offset into the shared memory where the frame data begins. size_t shared_memory_offset() const; // Adds a callback to be run when the VideoFrame is about to be destroyed. // The callback may be run from ANY THREAD, and so it is up to the client to // ensure thread safety. Although read-only access to the members of this // VideoFrame is permitted while the callback executes (including // VideoFrameMetadata), clients should not assume the data pointers are // valid. void AddDestructionObserver(const base::Closure& callback); // Returns a dictionary of optional metadata. This contains information // associated with the frame that downstream clients might use for frame-level // logging, quality/performance optimizations, signaling, etc. // // TODO(miu): Move some of the "extra" members of VideoFrame (below) into // here as a later clean-up step. const VideoFrameMetadata* metadata() const { return &metadata_; } VideoFrameMetadata* metadata() { return &metadata_; } bool allow_overlay() const { return allow_overlay_; } #if defined(OS_LINUX) // Returns backing dmabuf file descriptor for given |plane|, if present. int dmabuf_fd(size_t plane) const; #endif #if defined(OS_MACOSX) // Returns the backing CVPixelBuffer, if present. CVPixelBufferRef cv_pixel_buffer() const; #endif // Returns true if this VideoFrame represents the end of the stream. bool end_of_stream() const { return end_of_stream_; } base::TimeDelta timestamp() const { return timestamp_; } void set_timestamp(base::TimeDelta timestamp) { timestamp_ = timestamp; } class SyncPointClient { public: SyncPointClient() {} virtual uint32 InsertSyncPoint() = 0; virtual void WaitSyncPoint(uint32 sync_point) = 0; protected: virtual ~SyncPointClient() {} DISALLOW_COPY_AND_ASSIGN(SyncPointClient); }; // It uses |client| to insert a new sync point and potentially waits on a // older sync point. The final sync point will be used to release this // VideoFrame. // This method is thread safe. Both blink and compositor threads can call it. void UpdateReleaseSyncPoint(SyncPointClient* client); // Used to keep a running hash of seen frames. Expects an initialized MD5 // context. Calls MD5Update with the context and the contents of the frame. void HashFrameForTesting(base::MD5Context* context); private: friend class base::RefCountedThreadSafe; // Clients must use the static CreateFrame() method to create a new frame. VideoFrame(Format format, StorageType storage_type, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, base::TimeDelta timestamp, bool end_of_stream); VideoFrame(Format format, StorageType storage_type, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, base::TimeDelta timestamp, bool end_of_stream, base::SharedMemoryHandle handle, size_t shared_memory_offset); VideoFrame(Format format, StorageType storage_type, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, const gpu::MailboxHolder(&mailbox_holders)[kMaxPlanes], base::TimeDelta timestamp, bool end_of_stream); virtual ~VideoFrame(); static scoped_refptr WrapExternalStorage( Format format, StorageType storage_type, const gfx::Size& coded_size, const gfx::Rect& visible_rect, const gfx::Size& natural_size, uint8* data, size_t data_size, base::TimeDelta timestamp, base::SharedMemoryHandle handle, size_t data_offset); void AllocateYUV(); // Frame format. const Format format_; // Storage type for the different planes. const StorageType storage_type_; // Width and height of the video frame, in pixels. This must include pixel // data for the whole image; i.e. for YUV formats with subsampled chroma // planes, in the case that the visible portion of the image does not line up // on a sample boundary, |coded_size_| must be rounded up appropriately and // the pixel data provided for the odd pixels. const gfx::Size coded_size_; // Width, height, and offsets of the visible portion of the video frame. Must // be a subrect of |coded_size_|. Can be odd with respect to the sample // boundaries, e.g. for formats with subsampled chroma. const gfx::Rect visible_rect_; // Width and height of the visible portion of the video frame // (|visible_rect_.size()|) with aspect ratio taken into account. const gfx::Size natural_size_; // Array of strides for each plane, typically greater or equal to the width // of the surface divided by the horizontal sampling period. Note that // strides can be negative. int32 strides_[kMaxPlanes]; // Array of data pointers to each plane. // TODO(mcasas): we don't know on ctor if we own |data_| or not. After // refactoring VideoFrame, change to scoped_ptr. uint8* data_[kMaxPlanes]; // Native texture mailboxes, if this is a STORAGE_TEXTURE frame. gpu::MailboxHolder mailbox_holders_[kMaxPlanes]; ReleaseMailboxCB mailbox_holders_release_cb_; // Shared memory handle and associated offset inside it, if this frame was // constructed as STORAGE_SHMEM. base::SharedMemoryHandle shared_memory_handle_; size_t shared_memory_offset_; #if defined(OS_LINUX) // Dmabufs for each plane, if this frame is wrapping memory // acquired via dmabuf. base::ScopedFD dmabuf_fds_[kMaxPlanes]; #endif #if defined(OS_MACOSX) // CVPixelBuffer, if this frame is wrapping one. base::ScopedCFTypeRef cv_pixel_buffer_; #endif std::vector done_callbacks_; base::TimeDelta timestamp_; base::Lock release_sync_point_lock_; uint32 release_sync_point_; const bool end_of_stream_; VideoFrameMetadata metadata_; bool allow_overlay_; DISALLOW_IMPLICIT_CONSTRUCTORS(VideoFrame); }; } // namespace media #endif // MEDIA_BASE_VIDEO_FRAME_H_