Hi Vinod,
We currently add the slave device to a linked list before
device_register(), and then remove it if device_register() fails.
It's not clear why this sequence was necessary, this patch moves the
linked list management to after the device_register().
Maybe add a comment :-)
The reason here is that before calling device_register() we need to be
ready and completely initialized. device_register is absolutely the last
step in the flow, always.
The probe of the device can happen and before you get a chance to
add to list, many number of things can happen.. So adding after is not a
very good idea :)
Can you describe that 'many number of things' in the SoundWire context?
While you are correct in general on the use of device_register(), in
this specific case the device registration and the possible Slave driver
probe if there's a match doesn't seem to use this linked list.
This sdw_slave_add() routine is called while parsing ACPI/DT tables and
at this point the bus isn't functional. This sequence only deals with
device registration and driver probe, the actual activation and
enumeration happen much later. What does matter is that by the time all
ACPI/DT devices have been scanned all initialization is complete. The
last part of the flow is not the device_register() at the individual
peripheral level.
Even for the Qualcomm case, the steps are different:
ret = sdw_bus_master_add(&ctrl->bus, dev, dev->fwnode);
if (ret) {
dev_err(dev, "Failed to register Soundwire controller (%d)\n",
ret);
goto err_clk;
}
qcom_swrm_init(ctrl); <<< that's where the bus is functional
Note that we are not going to lay on the tracks for this, this sequence
was tagged by static analysis tools who don't understand that
put_device() actually frees memory by way of the .release callback, but
that led us to ask ourselves whether this sequence was actually necessary.