[FFmpeg-devel] v4l2: bug #1570 and possible solution

Wed Feb 13 16:56:44 CET 2013

On Wed, Feb 13, 2013 at 04:53:43PM +0100, Michael Niedermayer wrote:
> On Wed, Feb 13, 2013 at 03:19:00PM +0100, Giorgio Vazzana wrote:
> > 2013/2/13 Michael Niedermayer <michaelni at gmx.at>:
> > > On Tue, Feb 12, 2013 at 07:53:29PM +0100, Giorgio Vazzana wrote:
> > >> 2013/2/12 Michael Niedermayer <michaelni at gmx.at>:
> > >> > On Tue, Feb 12, 2013 at 06:01:10PM +0100, Giorgio Vazzana wrote:
> > >> >> 2013/2/12 Michael Niedermayer <michaelni at gmx.at>:
> > >> >> > On Tue, Feb 12, 2013 at 12:40:21PM +0100, Giorgio Vazzana wrote:
> > >> >> >> 2013/2/12 Michael Niedermayer <michaelni at gmx.at>:
> > >> >> >> +static void mmap_release_buffer(AVPacket *pkt)
> > >> >> >> +{
> > >> >> >> +    struct buff_data *buf_descriptor = pkt->priv;
> > >> >> >> +
> > >> >> >> +    if (pkt->data == NULL)
> > >> >> >> +        return;
> > >> >> >> +
> > >> >> >> +    if (buf_descriptor->buffer_copied) {
> > >> >> >> +        av_free(pkt->data);
> > >> >> >> +    } else {
> > >> >> >> +        if (!enqueue_buffer(buf_descriptor->fd, buf_descriptor->index))
> > >> >> >
> > >> >> >> +            (*buf_descriptor->buffers_dequeued)--;
> > >> >> >
> > >> >> > the deallocation of packets could happen from different thread(s)
> > >> >> > so i think this needs either a mutex, an atomic decrement or some
> > >> >> > lockless algorithm to achive the same
> > >> >>
> > >> >> Ok, I've tried to implement the solution using the mutex. Please comment.
> > >> >>
> > >> >> We can use this approach, or the easiest (and slightly slower?)
> > >> >> solution would be copying every frame/buffer to the memory allocated
> > >> >> for the corresponding packet.
> > >> >
> > >> > if you want to avoid the dependancy on pthreads, one way that should
> > >> > work is to use an array which size matches the maximum number of
> > >> > buffers, inited to 0 each time a buffer is allocated its entry is set
> > >> > to 1, when its freed its set to 0. to find out how many buffers are
> > >> > left the whole array would need to be scanned and remaining 0 elements
> > >> > counted.
> > >>
> > >> I will have to think about this in the following days, but for now I
> > >> do not see how this can work: suppose we consider the following
> > >> example:
> > >>
> > >> Initialization:
> > >> // let's suppose the number of buffers allocated by the v4l2
> > >> // driver is 10. This is also the lenght of the incoming and
> > >> // outgoing queues, which are organized as FIFO
> > >> buffers_obtained = 10;
> > >>
> > >> // allocate and clear array
> > >> int *array = calloc(buffers_obtained, sizeof(*array));
> > >>
> > >> // enqueue all the buffers to the incoming FIFO and start capturing
> > >> start_streaming();
> > >>
> > >>
> > >
> > >> Thread0 will do this:
> > >> // when we want to read a frame, we dequeue a buffer from the
> > >> // outgoing FIFO
> > >> dequeue_buffer(&buf);
> > >> // signal that a particular buffer has been dequeued
> > >> array[buf.index] = 1;
> > >>
> > >>
> > >> Thread1 will do this:
> > >> // count the numbers of buffers still in the incoming FIFO
> > >> int i, count = 0;
> > >> for (i = 0; i < buffers_obtained; i++)
> > >>     if (array[i] == 0)
> > >>         count++;
> > >
> > > This is not possible
> > > you imply that v4l2s read packet is itself called from 2 threads at
> > > the same time
> > > The only thing that can allocate packets/dequeue buffers is v4l2s
> > > read packet
> > > The only thing that has to count the available buffers is v4l2s read
> > > packet (that is for choosing where to allocate the next packet)
> > 
> > Ok, I was thinking at the more general case. Let's suppose only one
> > thread can call v4l2_read_packet().
> > 
> > It is possible I have not understood correctly the technique you
> > propose, so I'm sorry if I'm asking what might be a simple question.
> > Please look at this example:
> > 
> > Only one thread, Thread0, can do this:
> > // to read a frame, we dequeue a buffer from the outgoing FIFO
> > dequeue_buffer(&buf);
> > // signal that a particular buffer has been dequeued
> > array[buf.index] = 1;
> > 
> > // count the numbers of buffers still in the incoming FIFO
> > count = 0;
> > for (i = 0; i < buffers_obtained; i++)
> >     if (array[i] == 0)
> >         count++;
> > 
> > if (count == 0) {
> >     copy_bufferdata_to_packet();
> >     enqueue_buffer(buf.index);
> >     array[buf.index] = 0;
> > } else {
> >     copy_only_pointer_to_bufferdata_to_packet();
> > }
> > 
> > 
> > Another thread, or set of threads, will call the packet destructor:
> > if (bufferdata_was_copied_to_packet) {
> >     free(pkt->data);
> > } else {
> >     // pkt->data points to the buffer memory region, we need to
> >     // enqueue this buffer
> >     enqueue_buffer(pkt->priv->index);
> >     // signal that the buffer has been enqueued
> >     array[index] = 0;
> > }
> > 
> > I still see at least two threads writing on array, so to avoid a race
> > condition we still need a semaphore/mutex. If my reasoning is wrong,
> > could you propose an example that shows how this can be implemented
> > without a mutex, or point me to a place when I can read about it?
> > Thanks, your help is much appreciated.
> 
> consider the buffer at index i
> 
> Initially its "owned" by v4l2, no other thread can interfere here
> because nothing else has this buffer and any other buffers use a
> different index than i
> 
> now v4l2 sets up a AVPacket with this buffer and sets the array[i] = 1
> still nothing else knows about this packet yet so no interference
> possible.
> the AVPacket is then returned from read_packet
> 
> now from the point of view of the read packet function as long as
> array[i] == 1 the buffer is in use and wont be (re)used in any way
> the only thing that can set it to 0 is the packets destructor which
> is only called once and only once the buffer is no longer in use.
> so if array[i] == 0 in read_packet then this implies that the
> destructor has been called and the buffer is free to be reused
> it also implies there is nothing else left that could temper with it
> anymore except read_packet itself

one thing i forgot, if you try to implement this you need to be
carefull with deallocating the array as the destruct callbacks if any
is left can still access it.

[...]

-- 
Michael     GnuPG fingerprint: 9FF2128B147EF6730BADF133611EC787040B0FAB

it is not once nor twice but times without number that the same ideas make
their appearance in the world. -- Aristotle
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