Commit Graph

28 Commits

Author SHA1 Message Date
wm4 ca9964a4fb ao: make better use of atomics
The main reason for this was compatibility; but some associated problems
have been solved in the previous commit.
2015-05-11 23:27:41 +02:00
Marcin Kurczewski f43017bfe9 Update license headers
Signed-off-by: wm4 <wm4@nowhere>
2015-04-13 12:10:01 +02:00
wm4 f061befb33 audio: add device change notification for hotplugging
Not very important for the command line player; but GUI applications
will want to know about this.

This only adds the internal API; support for specific audio outputs
comes later.

This reuses the ao struct as context for the hotplug event listener,
similar to how the "old" device listing API did. This is probably a bit
unclean and confusing. One argument got reusing it is that otherwise
rewriting parts of ao_pulse would be required (because the PulseAudio
API requires so damn much boilerplate). Another is that --ao-defaults is
applied to the hotplug dummy ao struct, which automatically applies such
defaults even to the hotplug context.

Notification works through the property observation mechanism in the
client API. The notification chain is a bit complicated: the AO notifies
the player, which in turn notifies the clients, which in turn will
actually retrieve the device list. (It still has the advantage that it's
slightly cleaner, since the AO stuff doesn't need to know about client
API issues.)

The weird handling of atomic flags in ao.c is because we still don't
require real atomics from the compiler. Otherwise we'd just use atomic
bitwise operations.
2015-02-12 17:17:41 +01:00
Stefano Pigozzi a3be14683a command: add property returning detected audio device
This can be useful to adjust some other audio related properties
at runtime depending on the audio device being used.
2015-02-03 00:40:02 +01:00
wm4 5db0fbd95e audio/out: consistently use double return type for get_delay
ao_get_delay() returns double, but the get_delay callback still
returned float.
2014-11-09 11:45:04 +01:00
wm4 b021d038c2 audio/out: make ao_request_reload() idempotent
This is what you would expect. Before this commit, each
ao_request_reload() call would just queue a reload command, and then
recreate the AO for the number of times the function was called.

Instead of sending a command, introduce some sort of event retrieval
mechanism. At least for the reload case, use atomics, because we're too
lazy to setup an extra mutex.
2014-11-09 09:58:44 +01:00
wm4 b814b7ca84 audio: add --audio-client-name option
The main need I see for this is with libmpv - it would be confusing if
some application showed up as "mpv" on whateverthehell PulseAudio uses
it for (generally it does show up on various PA GUI tools).
2014-11-07 15:54:35 +01:00
wm4 d5b081152a audio: add command/function to reload audio output
Anticipated use: simple solution for dealing with audio APIs which
request configuration changes via events.
2014-10-27 11:52:42 +01:00
wm4 32720cdc17 audio/out: add redirection-on-init mechanism
Looks like this will help us with making --audio-device and spdif work
as expected on OSX. To be used ina  following commit.
2014-10-22 17:12:08 +02:00
wm4 edad4fc29b audio: change internal device listing API
Now we run ao_driver->list_devs on a dummy AO instance, which will
probably confuse everyone. This is done for the sake of PulseAudio.
2014-10-10 18:27:21 +02:00
wm4 bd41fc7723 audio/out/push: fix EOF heuristic
Since the internal AO driver API has no proper way to determine EOF, we
need to guess by querying get_delay. But some AOs (e.g. ao_pulse with
no-latency-hacks set) may never reach 0, maybe because they naively add
the latency to the buffer level. In this case our heuristic can break.

Fix by always using the delay to estimate the EOF time. It's not even
that important - it's mostly used to avoid blocking draining. So this
should be ok.

CC: @mpv-player/stable (maybe)
2014-10-10 13:18:53 +02:00
Stefano Pigozzi a8ec044d54 fix -Wvisibility warnings with clang
Now everything compiles with no warnings! yay!
2014-10-09 22:22:48 +02:00
wm4 35649a990a audio: add device selection & listing with --audio-device
Not sure how good of an idea this is.

This commit doesn't add support for this to any AO yet; the AO
implementations will follow later.
2014-10-09 21:21:31 +02:00
wm4 439a05d8c3 audio/out: remove old things
Remove the unnecessary indirection through ao fields.

Also fix the inverted result of AOCONTROL_HAS_TEMP_VOLUME. Hopefully the
change is equivalent. But actually, it looks like the old code did it
wrong.
2014-09-06 02:30:57 +02:00
wm4 bdf49d137e audio/out: make EOF handling properly event-based
With --gapless-audio=no, changing from one file to the next apparently
made it hang, until the player was woken up by unrelated events like
input. The reason was that the AO doesn't notify the player of EOF
properly. the played was querying ao_eof_reached(), and then just went
to sleep, without anything waking it up.

Make it event-based: the AO wakes up the playloop if the EOF state
changes.

We could have fixed this in a simpler way by synchronously draining the
AO in these cases. But I think proper event handling is preferable.

Fixes: #1069
CC: @mpv-player/stable (perhaps)
2014-09-05 23:45:54 +02:00
wm4 a7d737a698 audio: make buffer size configurable
Really only for testing.
2014-09-05 01:53:10 +02:00
wm4 fb54a1436a audio: don't wait for draining if paused
Logic for this was missing from pull.c. For push.c it was missing if the
driver didn't support it. But even if the driver supported it (such as
with ao_alsa), strange behavior was observed by users. See issue #933.

Always check explicitly whether the AO is in paused mode, and if so,
don't drain.

Possibly fixes #933.

CC: @mpv-player/stable
2014-07-13 20:06:33 +02:00
wm4 5dcfc4f604 audio/out/push: add a way to wait for the audio device with poll()
Will be used for ALSA.
2014-05-30 02:16:25 +02:00
wm4 5929dc458f audio/out/push: add mechanism for event-based waiting
Until now, we've always calculated a timeout based on a heuristic when
to refill the audio buffers. Allow AOs to do it completely event-based
by providing wait and wakeup callbacks.

This also shuffles around the heuristic used for other AOs, and there is
a minor possibility that behavior slightly changes in real-world cases.
But in general it should be much more robust now.

ao_pulse.c now makes use of event-based waiting. It already did before,
but the code for time-based waiting was also involved. This commit also
removes one awkward artifact of the PulseAudio API out of the generic
code: the callback asking for more data can be reentrant, and thus
requires a separate lock for waiting (or a recursive mutex).
2014-05-30 02:15:47 +02:00
wm4 35aba9675d audio/out: adjust documentation comments 2014-05-30 02:15:38 +02:00
wm4 c36faf8c49 audio/out/pull: remove race conditions
There were subtle and minor race conditions in the pull.c code, and AOs
using it (jack, portaudio, sdl, wasapi). Attempt to remove these.

There was at least a race condition in the ao_reset() implementation:
mp_ring_reset() was called concurrently to the audio callback. While the
ringbuffer uses atomics to allow concurrent access, the reset function
wasn't concurrency-safe (and can't easily be made to).

Fix this by stopping the audio callback before doing a reset. After
that, we can do anything without needing synchronization. The callback
is resumed when resuming playback at a later point.

Don't call driver->pause, and make driver->resume and driver->reset
start/stop the audio callback. In the initial state, the audio callback
must be disabled.

JackAudio of course is different. Maybe there is no way to suspend the
audio callback without "disconnecting" it (what jack_deactivate() would
do), so I'm not trying my luck, and implemented a really bad hack doing
active waiting until we get the audio callback into a state where it
won't interfere. Once the callback goes from AO_STATE_WAIT to NONE, we
can be sure that the callback doesn't access the ringbuffer or anything
else anymore. Since both sched_yield() and pthread_yield() apparently
are not always available, use mp_sleep_us(1) to avoid burning CPU during
active waiting.

The ao_jack.c change also removes a race condition: apparently we didn't
initialize _all_ ao fields before starting the audio callback.

In ao_wasapi.c, I'm not sure whether reset really waits for the audio
callback to return. Kovensky says it's not guaranteed, so disable the
reset callback - for now the behavior of ao_wasapi.c is like with
ao_jack.c, and active waiting is used to deal with the audio callback.
2014-05-29 02:24:17 +02:00
wm4 5059039c95 player: unrangle one aspect of audio EOF handling
For some reason, the buffered_audio variable was used to "cache" the
ao_get_delay() result. But I can't really see any reason why this should
be done, and it just seems to complicate everything.

One reason might be that the value should be checked only if the AO
buffers have been recently filled (as otherwise the delay could go low
and trigger an accidental EOF condition), but this didn't work anyway,
since buffered_audio is set from ao_get_delay() anyway at a later point
if it was unset. And in both cases, the value is used _after_ filling
the audio buffers anyway.

Simplify it. Also, move the audio EOF condition to a separate function.
(Note that ao_eof_reached() probably could/should whether the last
ao_play() call had AOPLAY_FINAL_CHUNK set to avoid accidental EOF on
underflows, but for now let's keep the code equivalent.)
2014-04-17 23:48:09 +02:00
wm4 e2184fcbfb audio: wake up the core when audio buffer is running low
And also add a function ao_need_data(), which AO drivers can call if
their audio buffer runs low.

This change intends to make it easier for the playback thread: instead
of making the playback thread calculate a timeout at which the audio
buffer should be refilled, make the push.c audio thread wakeup the core
instead.

ao_need_data() is going to be used by ao_pulse, and we need to
workaround a stupid situation with pulseaudio causing a deadlock because
its callback still holds the internal pulseaudio lock.

For AOs that don't call ao_need_data(), the deadline is calculated by
the buffer fill status and latency, as before.
2014-04-15 22:38:16 +02:00
wm4 d842b017e4 audio/out: reduce amount of audio buffering
Since the addition of the AO feed thread, 200ms of latency (MIN_BUFFER)
was added to all push-based AOs. This is not so nice, because even AOs
with relatively small buffering (e.g. ao_alsa on my system with ~170ms
of buffer size), the additional latency becomes noticable when e.g.
toggling mute with softvol.

Fix this by trying to keep not only 200ms minimum buffer, but also 200ms
maximum buffer. In other words, never buffer beyond 200ms in total. Do
this by estimating the AO's buffer fill status using get_space and the
initially known AO buffer size (the get_space return value on
initialization, before any audio was played). We limit the maximum
amount of data written to the soft buffer so that soft buffer size and
audio buffer size equal to 200ms (MIN_BUFFER).

To avoid weird problems with weird AOs, we buffer beyond MIN_BUFFER if
the AO's get_space requests more data than that, and as long as the soft
buffer is large enough.

Note that this is just a hack to improve the latency. When the audio
chain gains the ability to refilter data, this won't be needed anymore,
and instead we can introduce some sort of buffer replacement function in
order to update data in the soft buffer.
2014-03-10 01:13:40 +01:00
wm4 e16c91d07a audio/out: make draining a separate operation
Until now, this was always conflated with uninit. This was ugly, and
also many AOs emulated this manually (or just ignored it). Make draining
an explicit operation, so AOs which support it can provide it, and for
all others generic code will emulate it.

For ao_wasapi, we keep it simple and basically disable the internal
draining implementation (maybe it should be restored later).

Tested on Linux only.
2014-03-09 01:27:41 +01:00
wm4 a477481aab audio/out: feed AOs from a separate thread
This has 2 goals:
- Ensure that AOs have always enough data, even if the device buffers
  are very small.
- Reduce complexity in some AOs, which do their own buffering.

One disadvantage is that performance is slightly reduced due to more
copying.

Implementation-wise, we don't change ao.c much, and instead "redirect"
the driver's callback to an API wrapper in push.c.

Additionally, we add code for dealing with AOs that have a pull API.
These AOs usually do their own buffering (jack, coreaudio, portaudio),
and adding a thread is basically a waste. The code in pull.c manages
a ringbuffer, and allows callback-based AOs to read data directly.
2014-03-09 01:27:41 +01:00
wm4 76eca81455 ao: remove opts field
Apparently unused.
2014-03-09 00:19:34 +01:00
wm4 41f2b26d11 audio/out: make ao struct opaque
We want to move the AO to its own thread. There's no technical reason
for making the ao struct opaque to do this. But it helps us sleep at
night, because we can control access to shared state better.
2014-03-09 00:19:31 +01:00