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f9df2edb13
Change-Id: I463e4135eb65af1805330788120e64c20cfa1f9b Signed-off-by: Herman Chen <herman.chen@rock-chips.com>
384 lines
17 KiB
Plaintext
384 lines
17 KiB
Plaintext
Media Process Platform (MPP) module directory description:
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MPP : Media Process Platform
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MPI : Media Process Interface
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HAL : Hardware Abstract Layer
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OSAL : Operation System Abstract Layer
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Rules:
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1. header file arrange rule
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a. inc directory in each module folder is for external module usage.
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b. module internal header file should be put along with the implement file.
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c. header file should not contain any relative path or absolute path, all
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include path should be keep in Makefile.
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2. compiling system rule
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a. for cross platform compiling use cmake as the compiling management system.
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b. use cmake out-of-source build, final binary and library will be install to
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out/ directory.
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3. header file include order
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a. MODULE_TAG
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b. system header
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c. osal header
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d. module header
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NOTE:
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1. Windows support is NOT maintained any more.
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2. Mpp support all rockchip chipset now including:
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RK29XX/RK30XX/RK31XX
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RK3288/RK3368/RK3399
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RK3228/RK3229/RK3228H/RK3328
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RV1108/RV1107
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3. Mpp support all format hardware can support except VC1.
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4. you can get demo about mpp applied to linux and android.
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Liunx : https://github.com/WainDing/mpp_linux_cpp
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https://github.com/MUZLATAN/ffmpeg_rtsp_mpp
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Android : https://github.com/c-xh/RKMediaCodecDemo
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More document can be found at http://opensource.rock-chips.com/wiki_Mpp
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---- top
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|----- build CMake out-of-source build directory
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| |----- cmake cmake script directory
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| |----- android android build directory
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| |----- linux linux build directory
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| |----- vc10-x86_64 visual studio 2010 on x86_64 build directory
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| |----- vc12-x86_64 visual studio 2013 on x86_64 build directory
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|----- doc design documents of mpp
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|----- inc header file for external usage, including
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| platform header and mpi header
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|----- mpp Media Process Platform : mpi function private
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| | implement and mpp infrastructure (vpu_api
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| | private layer)
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| |
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| |----- base base components including MppBuffer, MppFrame,
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| | MppPacket, MppTask, MppMeta, etc.
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| |
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| |----- common video codec protocol syntax interface for both
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| | codec parser and hal
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| |----- codec all video codec parser, convert stream to
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| | | protocol structure
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| | |----- inc header files provided by codec module for
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| | | external usage
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| | |----- dec
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| | | |----- dummy decoder parser work flow sample
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| | | |----- h263
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| | | |----- h264
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| | | |----- h265
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| | | |----- m2v mpeg2 parser
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| | | |----- mpg4 mpeg4 parser
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| | | |----- vp8
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| | | |----- vp9
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| | | |----- jpeg
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| | |----- enc
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| | |----- dummy encoder controllor work flow sample
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| | |----- h264
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| | |----- h265
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| | |----- jpeg
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| |----- hal Hardware Abstract Layer (HAL): modules used in mpi
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| | |----- inc header files provided by hal for external usage
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| | |----- iep iep user library
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| | |----- pp post-processor user library
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| | |----- rga rga user library
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| | |----- deinter deinterlace function module including pp/iep/rga
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| | |----- rkdec rockchip hardware decoder register generation
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| | | |----- h264d generate register file from H.264 syntax info
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| | | |----- h265d generate register file from H.265 syntax info
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| | | |----- vp9d generate register file from vp9 syntax info
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| | |----- vpu vpu register generation library
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| | |----- h263d generate register file from H.263 syntax info
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| | |----- h264d generate register file from H.264 syntax info
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| | |----- h265d generate register file from H.265 syntax info
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| | |----- jpegd generate register file from jpeg syntax info
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| | |----- jpege generate register file from jpeg syntax info
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| | |----- m2vd generate register file from mpeg2 syntax info
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| | |----- mpg4d generate register file from mpeg4 syntax info
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| | |----- vp8d generate register file from vp8 syntax info
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| |----- legacy generate new libvpu to include old vpuapi path
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| | and new mpp path
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| |----- test mpp internal video protocol unit test and demo
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|----- test mpp buffer/packet component unit test and
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| mpp/mpi/vpu_api demo
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|----- out final release binary output directory
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| |----- bin executable binary file output directory
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| |----- inc header file output directory
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| |----- lib library file output directory
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|----- osal Operation System Abstract Layer: abstract layer
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| | for different operation system
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| |----- allocator supported allocator including Android ion and
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| | Linux drm
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| |----- android google's android
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| |----- inc osal header file for mpp modules
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| |----- linux mainline linux kernel
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| |----- windows microsoft's windows
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| |----- test OASL unit test
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|----- tools coding style format tools
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|----- utils small util functions
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Here is the mpp implement overall framework:
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+---------------------------------------+
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| ffmpeg / OpenMax / gstreamer / libva |
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+---------------------------------------+
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+-------------------- MPP ----------------------+
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| +-------------------------+ +--------+ |
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| | MPI / MPP | | | |
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| | buffer queue manage | | | |
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| +-------------------------+ | | |
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| +-------------------------+ | | |
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| | codec | | OSAL | |
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| | decoder / encoder | | | |
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| +-------------------------+ | | |
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| +-----------+ +-----------+ | | |
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| | parser | | HAL | | | |
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| | recoder | | reg_gen | | | |
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| +-----------+ +-----------+ +--------| |
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+-------------------- MPP ----------------------+
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+---------------------------------------+
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| kernel |
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| RK vcodec_service / v4l2 |
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+---------------------------------------+
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Here is the Media Process Interface hierarchical structure
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MpiPacket and MpiFrame is the stream I/O data structure.
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And MpiBuffer encapsulates different buffer implement like Linux's dma-buf and
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Android's ion.
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This part is learned from ffmpeg.
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+-------------------+
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| MPI |
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+---------+---------+
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v
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+---------+---------+
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+---+ ctx +---+
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| +-------------------+ |
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v v
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+-------+-------+ +-------+-------+
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| packet | | frame |
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+---------------+ +-------+-------+
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| +---------------+ |
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+---->+ buffer +<----+
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+---------------+
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Take H.264 deocder for example. Video stream will first queued by MPI/MPP layer,
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MPP will send the stream to codec layer, codec layer parses the stream header
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and generates a protocol standard output. This output will be send to HAL to
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generate register file set and communicate with hardware. Hardware will complete
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the task and resend information back. MPP notify codec by hardware result, codec
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output decoded frame by display order.
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MPI MPP decoder parser HAL
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+ + + + +
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| open context | | | |
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+----------------> | | | |
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| init | | | |
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+----------------> | | | |
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| | init | | |
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| +----------------> | | |
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| | | init | |
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| | +----------------> | |
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| | | | open |
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| | +-----------------------------------> |
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| decode | | | |
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+----------------> | | | |
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| | send_stream | | |
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| +----------------> | | |
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| | | parse_stream | |
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| | +----------------> | |
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| | | | reg generation |
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| | +-----------------------------------> |
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| | | | send_regs |
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| | +-----------------------------------> |
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| | | | wait_regs |
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| | +-----------------------------------> |
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| | | notify_hw_end | |
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| | +----------------> | |
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| | get_picture | | |
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| +----------------> | | |
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| | | get_picture | |
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| | +----------------> | |
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| flush | | | |
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+----------------> | | | |
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| | flush | | |
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| +----------------> | | |
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| | | reset | |
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| | +----------------> | |
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| close | | | |
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+----------------> | | | |
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| | close | | |
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| +----------------> | | |
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| | | close | |
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| | +----------------> | |
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| | | | close |
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| | +-----------------------------------> |
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+ + + + +
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There are three memory usage modes that decoder can support:
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Mode 1: Pure internal mode
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In the mode user will NOT call MPP_DEC_SET_EXT_BUF_GROUP control to decoder.
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Only call MPP_DEC_SET_INFO_CHANGE_READY to let decoder go on. Then decoder will
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use create buffer internally and user need to release each frame they get.
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Advantage:
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Easy to use and get a demo quickly
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Disadvantage:
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1. The buffer from decoder may not be return before decoder is close.
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So memroy leak or crash may happen.
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2. The decoder memory usage can not be control. Decoder is on a free-to-run
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status and consume all memory it can get.
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3. Difficult to implement zero-copy display path.
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Mode 2: Half internal mode
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This is the mode current mpi_dec_test code using. User need to create
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MppBufferGroup according to the returned info change MppFrame.
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User can use mpp_buffer_group_limit_config to limit decoder memory usage.
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Advantage:
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1. Easy to use
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2. User can release MppBufferGroup after decoder is closed.
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So memory can stay longer safely.
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3. Can limit the memory usage by mpp_buffer_group_limit_config
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Disadvantage:
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1. The buffer limitation is still not accurate. Memory usage is 100% fixed.
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2. Also difficult to implement zero-copy display path.
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Mode 3: Pure external mode
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In this mode use need to create empty MppBufferGroup and import memory from
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external allocator by file handle.
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On Android surfaceflinger will create buffer. Then mediaserver get file handle
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from surfaceflinger and commit to decoder's MppBufferGroup.
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Advantage:
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1. Most efficient way for zero-copy display
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Disadvantage:
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1. Difficult to learn and use.
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2. Player work flow may limit this usage.
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3. May need external parser to get the correct buffer size for the external
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allocator.
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The required buffer size caculation:
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hor_stride * ver_stride * 3 / 2 for pixel data
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hor_stride * ver_stride / 2 for extra info
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Total hor_stride * ver_stride * 2 will be enough.
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For H.264/H.265 20+ buffers will be enough.
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For other codec 10 buffers will be enough.
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