On Thu, Jan 08, 2015 at 02:37:09PM +0200, Peter De Schrijver wrote: > On Thu, Jan 08, 2015 at 11:57:43AM +0100, Thierry Reding wrote: > > * PGP Signed by an unknown key > > > > On Mon, Dec 22, 2014 at 11:00:16AM -0700, Stephen Warren wrote: > > > On 12/22/2014 10:27 AM, Dmitry Osipenko wrote: > > > >22.12.2014 19:17, Stephen Warren пишет: > > > >>On 12/21/2014 03:52 PM, Dmitry Osipenko wrote: > > > >>>Commit 7232398abc6a ("ARM: tegra: Convert PMC to a driver") changed > > > >>>tegra_resume() > > > >>>location storing from late to early and as result broke suspend on tegra20. > > > >>>PMC scratch register 41 was used by tegra lp1 suspend core code for storing > > > >>>physical memory address of common resume function and in the same time used by > > > >>>tegra20 cpuidle driver for storing cpu1 "resettable" status, so it implied > > > >>>strict order of scratch register use. Fix it by using scratch 40 instead of 41 > > > >>>for tegra_resume() location store. > > > >> > > > >>You likely can't simply change the PMC scratch register usage arbitrarily; > > > >>specific registers are designated for specific purposes, and code outside the > > > >>Linux kernel (bootloaders, LP0 resume code, secure monitors, etc.) may depend on > > > >>those specific values being in those registers. Without significant research, > > > >>I'd suggest not changing the PMC scratch register usage. > > > > > > > >Sure, that's why I asked to verify if scratch register 40 is in use in the > > > >comment after commit message. > > > > > > Sorry, I didn't notice that. > > > > > > >I've checked that u-boot doesn't use it (since > > > >upstream kernel doesn't care about any other bootloader), but no idea about > > > >secure monitor. It's definitely safer to avoid changing scratch regs usage, I > > > >thought that proposed solution would be best from the pure code point of view. > > > >So, I'm considering your answer as a rejection of the patch (please, let me know > > > >if I'm wrong) and will prepare another one. Btw, it would be nice to have > > > >scratch registers usage publicly documented somewhere (on "Tegra Public > > > >Application Notes" webpage for example), if it's possible, of course. > > > > > > At this stage in Tegra20 development, I think it'd be best to avoid changing > > > any scratch register usage if at all possible. > > > > Sorry, I had completely missed this discussion. When looking at the code > > it doesn't look like this particular "resettable" status needs to be > > stored in a PMC scratch register. It can't be stored in RAM because that > > goes into self-refresh as part of LP1, but how about just putting it > > into IRAM? That stays on in both LP1 and LP2, so should be suitable for > > this use-case. It would make the code slightly more complex but using a > > single scratch register for multiple purposes sounds brittle and easy to > > break (as evidenced by the offending commit). > > > > Otherwise it would seem that PMC_SCRATCH40 is only used to store EMC > > configuration data across LP0 suspend/resume, so I wouldn't think it'd > > cause problems if we used that instead of PMC_SCRATCH41 to store the > > "resettable" state. > > > > No. Usually the scratch registers for EMC config data are setup once by the > bootloader and never touched by the kernel after that. So I would not > recommend reusing those registers for different purposes. Right, I misread the code in the downstream kernel. Though it's not the bootloader that does it (at least on Tegra20), but some early code in the kernel. IRAM sounds like a good candidate still. Or do you know of anything that would exclude IRAM as storage location for this data? Thierry
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