Hi,
On 10/6/23 18:28, Benjamin Tissoires wrote:
On Oct 06 2023, Hans de Goede wrote:
<snip>
@@ -4207,36 +4208,39 @@ static void hidpp_connect_event(struct hidpp_device *hidpp) return; }
- /* Avoid probe() restarting IO */
- mutex_lock(&hidpp->io_mutex);
I'd put a `__must_hold(&hidpp->io_mutex);` here, not changing any return path and forcing any caller to `hidpp_connect_event()` (which will eventually only be the work struct) to take the lock.
This should simplify the patch by a lot and also ensure someone doesn't forget the `goto out_unlock`.
Ok, I can add the __must_hold() here and make delayed_Work_cb take the lock, but that would make it impossible to implement patch 2/2 in a clean manner and I do like patch 2/2 since it makes it clear that hidpp_connect_event must only run from the workqueue but I guess we could just add a comment for that instead.
In 2/2, just rename this function to __do_hidpp_connect_event(), and have hidpp_connect_event() being the worker, which takes the lock, and calls __do_hidpp_connect_event().
Ok, will do for v2.
<snip>
@@ -4519,6 +4526,9 @@ static int hidpp_probe(struct hid_device *hdev, const struct hid_device_id *id) flush_work(&hidpp->work); if (will_restart) {
/* Avoid hidpp_connect_event() running while restarting */
mutex_lock(&hidpp->io_mutex);
- /* Reset the HID node state */ hid_device_io_stop(hdev);
That's the part that makes me raise an eyebrow. Because we lock, then release the semaphore to get it back later. Can this induce a dead lock?
Can't we solve that same scenario without a mutex, but forcing either the workqueue to not run or to be finished at this point?
I'm not sure what you are worried about after the mutex_lock the line above we are 100% guaranteed that hidpp_connect_event() is not running and since it is not running it will also not be holding any other locks, so it can not cause any problems.
Agree, but my point is that you are not entirely solving the issue: if now, between hid_device_io_stop() and hid_hw_close() we receive a connect notification from the device, hid_input_report() will return -EBUSY, and we will lose it (it will not be stacked in the workqueue).
I was thinking at adding a flush_work(&hidpp->work) here, instead of the mutex solution, but yours ensures that any connect event already started will be handled properly, which is a plus.
Still if between the mutex lock here we receive a connect event from the device, we still get -EBUSY at the hid-core layer, and so we will lose it. Maybe that's OK because we might re-ask for the device later (I don't remember exactly the code), but my point is that because we add a mutex doesn't mean we will solve all multi-thread problems. So finding a non-mutex solution sometimes is better :)
And the fact that we need to think through every preemption case often means that there is something wrong *elsewhere*.
Right, I did consider seeing if we can get rid of the restart altogether, as the whole restarting thing is actually the problem here. AFAICT this is only really necessary in the WTP path since there where we need to know resolution before instantiating the input device.
But atm this is also done for all unifying devices, which seems unnecessary.
Buy we still need the restart anyways for the WTP case, so we need to make it work reliable anyways.
Now that I understand your concern about the missed connect packet, which I agree is a real concern I think I know how to fix this. I'll prepare a new version of this series tomorrow.
Hmm, thinking more about this, if we normally just create the input device right away even for unifying devices and we already always delay the creation for WTP even during the restart:
if (hidpp->quirks & HIDPP_QUIRK_DELAYED_INIT) connect_mask &= ~HID_CONNECT_HIDINPUT;
Then I wonder why do we even bother to do the restart thing for unifying devices. Do you know what this is based on ?
I guess this might have to do with ensuring the configure commands are send before creating the input + hidraw devices, but if the connect event comes later on then the configuration is already done later on after the input device has already been created ?
So maybe we should indeed just remove the whole restart thing entirely and also always rely on hidpp_connect_event to send the configuration commands, because currently those are send twice if the device is already connnected at probe() time.
Regards,
Hans