On Mon, Jun 19, 2017 at 10:09:58AM +0200, Ulf Hansson wrote: > On 15 June 2017 at 12:06, Peter Chen <hzpeterchen@xxxxxxxxx> wrote: > > On Thu, Jun 15, 2017 at 11:35:20AM +0200, Ulf Hansson wrote: > >> On 15 June 2017 at 11:11, Peter Chen <hzpeterchen@xxxxxxxxx> wrote: > >> > On Thu, Jun 15, 2017 at 10:11:45AM +0200, Ulf Hansson wrote: > >> >> > Yes, you are right. This is the limitation for this power sequence > >> >> > library, the registration for the 1st power sequence instance must > >> >> > be finished before device driver uses it. I am appreciated that > >> >> > you can supply some suggestions for it. > >> >> > >> >> In general this kind of problems is solved by first parsing the DTB, > >> >> which means you will find out whether there is a resource (a pwrseq) > >> >> required for the device. Then you try to fetch that resource, and if > >> >> that fails, it means the resource is not yet available, and hence you > >> >> want to retry later and should return -EPROBE_DEFER. > >> >> > >> >> In this case, of_pwrseq_on() needs to be converted to start looking > >> >> for a pwrseq compatible in it's child node - I guess. Then if that is > >> >> found, you try to fetch the instance of the corresponding library. > >> >> Failing to fetch the library instance should then cause a return > >> >> -EPROBE_DEFER. > >> > > >> > The most difficulty for this is we can't know whether the requested > >> > pwrseq instance will be registered or not, the kernel configuration > >> > for this pwrseq library may not be chosen at all. > >> > >> In such case it is still correct to return -EPROBE_DEFER, because the > >> driver that tries to probe its device will fail unless it can run the > >> needed pwrseq. Right? > >> > > > > Unlike the MMC design, there is no dts entry to indicate whether this > > device needs pwrseq or not at this design, it will only carry out power > > on sequence after matching. So, return -EPROBE_DEFER may not work since > > this device may never need pwrseq. > > Then, how will you really be able to fetch the correct pwrseq library > instance for the device node? > > Suppose their is a *list* of pwrseq library instances available. In > pwrseq_find_available_instance() you call of_match_node(table, np). > The "table" there corresponds to the compatible for the pwrseq library > and the np is the device node provided by the caller of > of_pwrseq_on(). > > Why is this match done? The compatible in table is from the source code, and the compatible in np is from the dts. This is the current match way, I comment your suggestion below. > > Why can't the match be done before trying to fetch a library instance How? If there is no pwrseq instance, how can we do match? > and then in a second step, really try to fetch the instance? If only > the second step fails, returning -EPROBE_DEFER can be done, no? > > BTW, I didn't compatible for the generic pwrseq library being > documented in this series. > > > > >> > > >> >> > >> >> > > >> >> >> Moreover, I have found yet another severe problem but reviewing the code: > >> >> >> In the struct pwrseq, you have a "bool used", which you are setting to > >> >> >> "true" once the pwrseq has been hooked up with the device, when a > >> >> >> driver calls of_pwrseq_on(). Setting that variable to true, will also > >> >> >> prevent another driver from using the same instance of the pwrseq for > >> >> >> its device. So, to cope with multiple users, you register a new > >> >> >> instance of the same pwrseq library that got hooked up, once the > >> >> >> ->get() callback is about to complete. > >> >> >> > >> >> >> The problem the occurs, when there is another driver calling > >> >> >> of_pwrseq_on() in between, meaning that the new instance has not yet > >> >> >> been registered. This will simply fail, won't it? > >> >> > > >> >> > Yes, you are right, thanks for pointing that, I will add mutex_lock for > >> >> > of_pwrseq_on. > >> >> > >> >> Another option is to entirely skip to two step approach. > >> >> > >> >> In other words, make the library to cope with multiple users via the > >> >> same registered library instance. > >> >> > >> > > >> > No, the pwrseq instance stores dtb information (clock, gpio, etc), it > >> > needs to be per device. > >> > >> I think you misunderstood my suggestion here. Of course you need to > >> allocate one pwrseq data per device. > >> > >> However, my point is that you shouldn't need more than one instance of > >> the library functions to be registered in the list of available pwrseq > >> libraries. > >> > > > > This additional instance is used to store compatible information for > > this pwrseq library, it is used for the next matching between device > > and pwrseq library, it just likes we need the first pwrseq instance > > registered at boot stage. > > Why can't the compatible information be a static table, known by the > pwrseq core library? > > Then when of_pwrseq_on() is called, that static table is parsed and > matched, then a corresponding pwrseq library instance tries to be > fetched. > So, you suggest allocating and registering pwrseq instance on the demand? Eg, we maintain a power sequence static table, including compatible and allocate function. static const struct pwrseq_match_table pwrseq_match_table_list[] = { { PWRSEQ_DEV(0x0204, 0x6025), .alloc_instance = pwrseq_AA_alloc_instance }, { PWRSEQ_DEV(0x0204, 0x6026), .alloc_instance = pwrseq_BB_alloc_instance }, { PWRSEQ_DEV(0xffff, 0xffff), .alloc_instance = pwrseq_generic_alloc_instance }, }; And pwrseq_AA{BB}_alloc_instance are defined at each pwrseq library, and are exported. Since the pwrseq_match_table_list is static, we can always do match, and will not return -EPROBE_DEFER anymore, one problem for this is we need always compile all pwrseq libraries. Any good suggestions? -- Best Regards, Peter Chen -- To unsubscribe from this list: send the line "unsubscribe devicetree" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html