The metadata is implemented by the session manager and it can decide
what to do when the defaults change. It can also choose to save
(some of) the metadata to a database.
The metadata is also shared between applications so that changes can
be picked up immediately.
Add a READONLY property flag to makr properties READONLY
Set the base_volume and volume_step in the acp device
Send the base volume and step as REAONLY properties. Use these
in pulse layer.
Add HARDWARE flag to mark a property that does some hardware control.
Mark the device volume/mute property as HARDWARE or not.
Use the HARDWARE property in pulse to set the right flags.
Send the mute and volume values in the route param when hw volume
is available.
Check if the route has volume/mute and then use that to control the
volume instead of them node volume.
Make sure we are watching the registry before we try to enumerate
objects.
When we wait for new object info, resync the pending operations
because they might depend on the info.
Hide the proplist implementation.
Add some more methods to update the proplist
Make sure our integration functions only use exported symbols
so that they even work against the original pulse implementations
in case they are loaded first.
Fixes#236
Make writable size more accurate by using the clock. mplayer uses this
to check if the clock is advancing.
Remove requested_bytes, we can use ready_bytes for the ready bytes
and use the queued bytes for playback.
Reset after a flush, wait for a new timing update.
The read_index should not include the delay to the device.
Keep a separate lis of memory blocks filled by the app and give
those to the stream when we can. This is because pulse can allocate
an infinite amount of buffers but we must cycle between a fixed
number. Use DYNAMIC_DATA to avoid memcpy.
Use the right requested_bytes in the write_callback. This should
be the tlength - the amount of bytes we already queued.
_get_time() should include the sink latency.
Methods that return a pa_operation should not return NULL.
pa_context_success_cb_t should return 1 on success and 0 on failure
with the error set in the context.
When a global is not found, let the info operation return eol = -1
with the error set in the context.
This is more in line with wayland and it allows us to create new
interfaces in modules without having to add anything to the type
enum. It also removes some lookups to map type_id to readable
name in debug.
The proxy API is the one that we would like to expose for applications
and the other API is used internally when implementing modules or
factories.
The current pw_core object is really a context for all objects so
name it that way. It also makes it possible to rename pw_core_proxy
to pw_proxy later.
The pw_remote object is really a wrapper around the pw_core_proxy.
The events it emits are also available in the core proxy and are
generally awkward to use.
With some clever new pw_core_proxy_* methods and a pw_core_connect
to create the core_proxy, we can convert all code away from pw_remote.
This is a first step in this conversion, using the pw_remote behind
the scenes. It leaks into some places because it really needs to become
its own struct in a next step.
pulseaudio card is mapped to device
pulseaudio sink/source is mapped to an endpoint
prepare to map streams to card profiles
Add Route param to implement the endpoint routing later (ports)
Create an alsa endpoint for each device
Create one stream for each endpoint (Playback/Capture)
Implement create_link on the endpoint. The idea is to call
create link on the peer endpoint to complete the link. Remove
create_link on the session.
Add stream-monitor to turn pw_stream nodes into endpoints
Add a policy manager that tries to link endpoints
Use enum pw_direction for the endpoint direction. We can use the
media_class to determine if this is a pw_stream or not but it should
not really matter, you can link any output to any input.
Add autoconnect property for endpoints to make the policy connect.
