Previously, valgrind was warning that
Syscall param sendmsg(msg.msg_iov[0]) points to uninitialised byte(s)
this was caused by uninitialized values being serialized for IPC.
Specifically, not all members of the `pw_endpoint_info` struct were
initialized, which caused uninitialized bytes to end up in the IPC
buffers due to the `pw_endpoint_emit_info()` in `endpoint_add_listener()`.
Fix that by initializing the missed `id` and `flags` members.
Keep a list of active ports in the port_list. These are all ports added
with add_port and not yet removed. When a port is removed, move it to
the free_list and reuse the port later when needed.
Update a mix_list of ports when a valid io is set on a port. This then
makes it possible to more efficiently and safely iterate the ports in
the processing loop.
Use bits to capture the work that is needed. We clear the bit when
we added the stage, when all bits are cleared we have nothing more to
do. This avoids having to check multiple bookleans.
Make a helper function to calculate the destination buffer. When all
bits are cleared, we can use the output buffer.
One issues is that the `systemd-{system,user}-service` feature options
do not anything without the `systemd` option. This makes it more
complicated to arrive at the desired build configuration since there
are 3^3 = 27 possible ways to set each of them, but if `systemd=disabled`,
then the other two are just ignored.
Secondly, the `systemd` option also influences whether or not libsystemd
will be used or not. This is not strictly necessary, since the "systemd"
and "libsystemd" pkg-config files might be split, and one might wish to
disable any kind of service file generation, but use libsystemd.
Solve the first issues by using the `systemd-{system,user}-service` options
when looking up the "systemd" dependency for generating service files. This
means that the corresponding option is in full control, no secondary options
are necessary. This means that the "systemd" dependency is looked up potentially
twice, but that should not be a significant issue since meson caches dependecy
lookups.
And solve the second issue by renaming the now unused `systemd` option to
`libsystemd` and using it solely to control whether or not libsystemd will
be used.
Furthermore, the default value of `systemd-user-service` is set to "auto" to
prevent the dependency lookup from failing on non-systemd systemd out of
the box. And the journal tests in "test-support" are extended to return "skip"
if `sd_journal_open()` returns `ENOSYS`, which is needed because "elogind"
ships the systemd pkg-config files and headers.
If the timer was canceled, the discont flag needs to be set. But in the
next cycle, unless the timer was canceled again, that flag should not
remain set.
If the user alters the realtime clock (for example by using the "date"
command in the shell), and the node driver uses the realtime clock as
the timerfd clock, then the scheduled graph cycle invocation may not
take place, or may take place much later than planned, because the
timestamp that was passed to spa_system_timerfd_settime() is now invalid.
Configure the timer to automatically be canceled if the realtime clock
is modified so that the graph cycle can be rescheduled with an updated
timestamp that is actually usable with the altered realtime clock.
It uses the onnxruntime library to parse the onnx file and construct a
neural network. It uses the label field to setup the plugin and how to
map the various tensors of the model to input, output, control and
notify ports.
Add an example config for how to use the silero VAD ONNX model with the
noise gate.
There is an issue in the id allocation mechanism which can result
in the different devices having the same id. Specifically, consider
the scenario where there are only two cameras, which have just been
added. In this case `impl::devices` looks like this:
(0, camA) | (1, camB) | (?, nullptr) | ...
Now assume that `camA` is removed, after which the array appears
as follows:
(1, camB) | (1, nullptr) | (?, nullptr) | ...
Then assume that a new camera appears. When `get_free_id()` runs,
when `i == 1`, it will observe that `devices[i].camera == nullptr`,
so it selects `1` as the id. Leading to the following:
(1, camB) | (1, camC) | (?, nullptr) | ...
This is of course incorrect. The set of ids must be unique. When
wireplumber is faced with this situation it destroys the device
object for `camB` when `camC` is emitted.
Fix this by simply not moving elements in the `devices` array,
leaving everything where it is. In which case the array looks
like this:
(nullptr) | (camB) | (nullptr) | ... // after `camA` removal
(camC) | (camB) | (nullptr) | ... // after `camC` appearance
Note that `device::id` is removed, and the id is now derived from
the position in `impl::devices`.
If the libcamera `FrameMetadata` reports anything other than `FrameSuccess`,
then set `SPA_META_HEADER_FLAG_CORRUPTED`, notifying the application that
the frame may be unusable.
Use a union since only one member is active at a time, and use the
proper `libcamera::ControlType` enum to store the type instead of a
bare number. Also remove an unnecessary cast.
The file is not useful without `libcamera-source.cpp` because it
uses symbols only defined there. And being a non-self-contained
source file, it also breaks clangd. So move its contents directly
to `libcamera-source.cpp`. This makes the file about 2200 lines long,
but I feel that is still manageable (and it is by far not the longest).
