On Mon, Mar 30, 2015 at 6:21 PM, Stephen Boyd <sboyd@xxxxxxxxxxxxxx> wrote: > On 03/30/15 17:15, Andrew Bresticker wrote: >> On Mon, Mar 30, 2015 at 4:59 PM, Stephen Boyd <sboyd@xxxxxxxxxxxxxx> wrote: >>> On 02/24/15 19:56, Andrew Bresticker wrote: >>>> + >>>> +void pistachio_clk_force_enable(struct pistachio_clk_provider *p, >>>> + unsigned int *clk_ids, unsigned int num) >>>> +{ >>>> + unsigned int i; >>>> + int err; >>>> + >>>> + for (i = 0; i < num; i++) { >>>> + struct clk *clk = p->clk_data.clks[clk_ids[i]]; >>>> + >>>> + if (IS_ERR(clk)) >>>> + continue; >>>> + >>>> + err = clk_prepare_enable(clk); >>>> + if (err) >>>> + pr_err("Failed to enable clock %s: %d\n", >>>> + __clk_get_name(clk), err); >>>> + } >>>> +} >>>> >>> Is this to workaround some problems in the framework where clocks are >>> turned off? Or is it that these clocks are already on before we boot >>> Linux and we need to make sure the framework knows that? >> It's the former. These clocks are enabled at POR and may only be >> gated as the final step to entering suspend, so they must remain on at >> runtime. The issue we were running into was that consumers of these >> critical clocks or their descendants would enable/disable their clocks >> during boot or runtime PM and cause these clocks to get disabled. >> Bumping up the prepare/enable count of these critical clocks seemed >> like the best way to handle this - is there a more preferred way? >> FWIW, this is also how the Tegra and Rockchip drivers handled this >> problem. > > Ideally clock providers just provide clocks and don't actually call > clock consumer APIs. I don't see where these clocks are disabled in this > series. Is it just because suspend isn't done right now so there isn't a > place to hook the disable part? I hope that it's a 1:1 relation between > the clocks that are turned on here and the clocks that are turned off > during suspend. Suspend hasn't been hooked up yet and it's still a long ways off. > I have a slightly similar problem on my hardware. Consider the case > where the bootloader has left on the display and audio clocks and they > share a common parent PLL. When the kernel boots up, all it knows is > that the display clock and audio clock share a common PLL and the rate > they're running at. If the audio driver probes first, calls clk_enable() > on the audio clock (almost a no-op except for the fact that we call the > .enable op when it's already on) and then calls clk_disable() on the > audio clock when it's done we'll also turn off the shared PLL. > Unfortunately it's also being used by the display clock for the display > driver that hasn't probed yet and so the display stops working and it > may show an artifact or black screen. > > Other cases are where certain clocks should never be turned off because > they're used by some non-linux entity (dram controller for example) and > we don't have a place to put the clk_prepare_enable() besides in the > clock driver itself. In these cases, it may be better to tell the > framework that a clock should always be on. I think this case is what > Lee Jones is working on here[1]. > > Do you fall into one of these two cases? It isn't clear to me how > suspend is special and needs to be dealt with differently. Why wouldn't > these clocks be always on? These clocks fall into the latter case in that there's really no good place to put the clk_prepare_enable() calls, so it looks like I want to use what Lee is proposing. -- 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