On Sun, 21 Jun 2009, Rafael J. Wysocki wrote: > > Sorry, what I meant was that in each case the counter should be > > {inc,dec}remented if a new request had to be queued. If one was > > already queued then the counter should be left alone. > > > > The reason behind this is that a bunch of pm_request_suspend calls > > which all end up referring to the same workqueue item will result in a > > single async call to the runtime_suspend method. > > Yes, that's why only the first one results in queuing up a request. > > There is a problem with that if the later calls are supposed to use shorter > delays, but I have no real idea to handle this cleanly. Nor do I. When the time-of-last-use and delay fields are implemented, this should never arise. > > Therefore they should cause a single decrement of the counter. Likewise for > > pm_request_resume. > > Hmm. Why exactly do you think it's necessary to decrease the usage counter > in suspend functions? You can't suspend a device more than once and you have > to resume it at the first request anyway. > > I think it makes sense to increase the usage counter on every attempt to > resume, even if the device is not woken up as a result, because that means the > caller wants the device not to be suspended until the counter is decreased. > This way, even if the device is already active, multiple callers can prevent it > from suspending by calling pm_request_resume_get() or pm_runtime_resume_get() > and then dropping the references. Again, this boils down to how drivers decide to use the async interface. I can see justifications for both pm_request_resume_get (which would always increment the counter) and pm_request_resume (which would increment the counter only if a work item had to be queued). And of course, synchronous pm_runtime_resume should always increment the counter. > Now, we can also make pm_request_suspend() and pm_runtime_suspend() drop > the usage counter (if it's greater than zero), but that implies a usage model > in which a resume function called when I/O is started should be balanced with a > suspend function called after the I/O has been finished. > > However, I'd prefer a usage model in which ->runtime_idle() is called when the > I/O is finished and the usage counter is zero and it decides whether to call a > suspend function. > > So, perhaps I should make resume functions increase the usage counter > unconditionally and introduce pm_runtime_idle() to be called when the I/O is > done? That is, pm_runtime_idle() will decrement the usage counter, check if > it's zero and call ->runtime_idle() when that's the case (well, this is what > pm_runtime_put_notify() does right now, but maybe the name is wrong). Maybe it should just be called pm_runtime_put. There could be a separate pm_runtime_idle that doesn't decrement the counter but invokes the callback if the counter is already 0. (This could be useful after a runtime_resume method returned -EBUSY.) > Also, there should be a function to use when it's only necessary to drop the > usage counter, without calling ->runtime_idle() (for example, if another code > path is supposed to call a suspend function directly). I don't see any reason for that. It says: "The device isn't in use any more, but even though we support autosuspend we aren't going to try to suspend it now." What's the point? And as for the other code path, if the device is already suspended when it calls the suspend function directly, there's no harm done. Alan Stern -- To unsubscribe from this list: send the line "unsubscribe linux-acpi" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html