mirror of https://gitee.com/openkylin/linux.git
120 lines
5.7 KiB
ReStructuredText
120 lines
5.7 KiB
ReStructuredText
.. -*- coding: utf-8; mode: rst -*-
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.. _userp:
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*****************************
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Streaming I/O (User Pointers)
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*****************************
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Input and output devices support this I/O method when the
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``V4L2_CAP_STREAMING`` flag in the ``capabilities`` field of struct
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:ref:`v4l2_capability <v4l2-capability>` returned by the
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:ref:`VIDIOC_QUERYCAP` ioctl is set. If the
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particular user pointer method (not only memory mapping) is supported
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must be determined by calling the :ref:`VIDIOC_REQBUFS` ioctl
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with the memory type set to ``V4L2_MEMORY_USERPTR``.
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This I/O method combines advantages of the read/write and memory mapping
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methods. Buffers (planes) are allocated by the application itself, and
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can reside for example in virtual or shared memory. Only pointers to
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data are exchanged, these pointers and meta-information are passed in
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struct :ref:`v4l2_buffer <v4l2-buffer>` (or in struct
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:ref:`v4l2_plane <v4l2-plane>` in the multi-planar API case). The
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driver must be switched into user pointer I/O mode by calling the
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:ref:`VIDIOC_REQBUFS` with the desired buffer type.
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No buffers (planes) are allocated beforehand, consequently they are not
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indexed and cannot be queried like mapped buffers with the
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:ref:`VIDIOC_QUERYBUF <VIDIOC_QUERYBUF>` ioctl.
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Example: Initiating streaming I/O with user pointers
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====================================================
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.. code-block:: c
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struct v4l2_requestbuffers reqbuf;
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memset (&reqbuf, 0, sizeof (reqbuf));
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reqbuf.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
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reqbuf.memory = V4L2_MEMORY_USERPTR;
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if (ioctl (fd, VIDIOC_REQBUFS, &reqbuf) == -1) {
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if (errno == EINVAL)
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printf ("Video capturing or user pointer streaming is not supported\\n");
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else
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perror ("VIDIOC_REQBUFS");
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exit (EXIT_FAILURE);
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}
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Buffer (plane) addresses and sizes are passed on the fly with the
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:ref:`VIDIOC_QBUF <VIDIOC_QBUF>` ioctl. Although buffers are commonly
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cycled, applications can pass different addresses and sizes at each
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:ref:`VIDIOC_QBUF <VIDIOC_QBUF>` call. If required by the hardware the
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driver swaps memory pages within physical memory to create a continuous
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area of memory. This happens transparently to the application in the
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virtual memory subsystem of the kernel. When buffer pages have been
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swapped out to disk they are brought back and finally locked in physical
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memory for DMA. [#f1]_
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Filled or displayed buffers are dequeued with the
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:ref:`VIDIOC_DQBUF <VIDIOC_QBUF>` ioctl. The driver can unlock the
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memory pages at any time between the completion of the DMA and this
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ioctl. The memory is also unlocked when
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:ref:`VIDIOC_STREAMOFF <VIDIOC_STREAMON>` is called,
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:ref:`VIDIOC_REQBUFS`, or when the device is closed.
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Applications must take care not to free buffers without dequeuing. For
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once, the buffers remain locked until further, wasting physical memory.
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Second the driver will not be notified when the memory is returned to
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the application's free list and subsequently reused for other purposes,
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possibly completing the requested DMA and overwriting valuable data.
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For capturing applications it is customary to enqueue a number of empty
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buffers, to start capturing and enter the read loop. Here the
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application waits until a filled buffer can be dequeued, and re-enqueues
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the buffer when the data is no longer needed. Output applications fill
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and enqueue buffers, when enough buffers are stacked up output is
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started. In the write loop, when the application runs out of free
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buffers it must wait until an empty buffer can be dequeued and reused.
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Two methods exist to suspend execution of the application until one or
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more buffers can be dequeued. By default :ref:`VIDIOC_DQBUF
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<VIDIOC_QBUF>` blocks when no buffer is in the outgoing queue. When the
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``O_NONBLOCK`` flag was given to the :ref:`open() <func-open>` function,
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:ref:`VIDIOC_DQBUF <VIDIOC_QBUF>` returns immediately with an ``EAGAIN``
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error code when no buffer is available. The :ref:`select()
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<func-select>` or :ref:`poll() <func-poll>` function are always
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available.
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To start and stop capturing or output applications call the
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:ref:`VIDIOC_STREAMON <VIDIOC_STREAMON>` and
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:ref:`VIDIOC_STREAMOFF <VIDIOC_STREAMON>` ioctl.
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.. note:: ref:`VIDIOC_STREAMOFF <VIDIOC_STREAMON>` removes all buffers from
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both queues and unlocks all buffers as a side effect. Since there is no
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notion of doing anything "now" on a multitasking system, if an
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application needs to synchronize with another event it should examine
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the struct :ref:`v4l2_buffer <v4l2-buffer>` ``timestamp`` of captured or
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outputted buffers.
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Drivers implementing user pointer I/O must support the
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:ref:`VIDIOC_REQBUFS <VIDIOC_REQBUFS>`, :ref:`VIDIOC_QBUF <VIDIOC_QBUF>`,
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:ref:`VIDIOC_DQBUF <VIDIOC_QBUF>`, :ref:`VIDIOC_STREAMON <VIDIOC_STREAMON>`
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and :ref:`VIDIOC_STREAMOFF <VIDIOC_STREAMON>` ioctls, the
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:ref:`select() <func-select>` and :ref:`poll() <func-poll>` function. [#f2]_
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.. [#f1]
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We expect that frequently used buffers are typically not swapped out.
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Anyway, the process of swapping, locking or generating scatter-gather
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lists may be time consuming. The delay can be masked by the depth of
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the incoming buffer queue, and perhaps by maintaining caches assuming
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a buffer will be soon enqueued again. On the other hand, to optimize
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memory usage drivers can limit the number of buffers locked in
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advance and recycle the most recently used buffers first. Of course,
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the pages of empty buffers in the incoming queue need not be saved to
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disk. Output buffers must be saved on the incoming and outgoing queue
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because an application may share them with other processes.
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.. [#f2]
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At the driver level :ref:`select() <func-select>` and :ref:`poll() <func-poll>` are
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the same, and :ref:`select() <func-select>` is too important to be optional.
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The rest should be evident.
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