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authorImre Deak <imre.deak@intel.com>2019-05-13 22:25:33 +0300
committerImre Deak <imre.deak@intel.com>2019-05-14 14:06:10 +0300
commite0da2d63ab3ac746d61b8861085fd3abbef011c6 (patch)
tree8eb6ec1c0ba853f80baa5576e293a124b54e6c90 /arch/um/.gitignore
parentee70080a52f19251a58212925dfaf6c9b0a07316 (diff)
downloadlinux-e0da2d63ab3ac746d61b8861085fd3abbef011c6.tar.bz2
drm/i915: Add support for asynchronous display power disabling
By disabling a power domain asynchronously we can restrict holding a reference on that power domain to the actual code sequence that requires the power to be on for the HW access it's doing, by also avoiding unneeded on-off-on togglings of the power domain (since the disabling happens with a delay). One benefit is potential power saving due to the following two reasons: 1. The fact that we will now be holding the reference only for the necessary duration by the end of the patchset. While simply not delaying the disabling has the same benefit, it has the problem that frequent on-off-on power switching has its own power cost (see the 2. point below) and the debug trace for power well on/off events will cause a lot of dmesg spam (see details about this further below). 2. Avoiding the power cost of freuqent on-off-on power switching. This requires us to find the optimal disabling delay based on the measured power cost of on->off and off->on switching of each power well vs. the power of keeping the given power well on. In this patchset I'm not providing this optimal delay for two reasons: a) I don't have the means yet to perform the measurement (with high enough signal-to-noise ratio, or with the help of an energy counter that takes switching into account). I'm currently looking for a way to measure this. b) Before reducing the disabling delay we need an alternative way for debug tracing powerwell on/off events. Simply avoiding/throttling the debug messages is not a solution, see further below. Note that even in the case where we can't measure any considerable power cost of frequent on-off switching of powerwells, it still would make sense to do the disabling asynchronously (with 0 delay) to avoid blocking on the disabling. On VLV I measured this disabling time overhead to be 1ms on average with a worst case of 4ms. In the case of the AUX power domains on ICL we would also need to keep the sequence where we hold the power reference short, the way it would be by the end of this patchset where we hold it only for the actual AUX transfer. Anything else would make the locking we need for ICL TypeC ports (whenever we hold a reference on any AUX power domain) rather problematic, adding for instance unnecessary lockdep dependencies to the required TypeC port lock. I chose the disabling delay to be 100msec for now to avoid the unneeded toggling (and so not to introduce dmesg spamming) in the DP MST sideband signaling code. We could optimize this delay later, once we have the means to measure the switching power cost (see above). Note that simply removing/throttling the debug tracing for power well on/off events is not a solution. We need to know the exact spots of these events and cannot rely only on incorrect register accesses caught (due to not holding a wakeref at the time of access). Incorrect powerwell enabling/disabling could lead to other problems, for instance we need to keep certain powerwells enabled for the duration of modesets and AUX transfers. v2: - Clarify the commit log parts about power cost measurement and the problem of simply removing/throttling debug tracing. (Chris) - Optimize out local wakeref vars at intel_runtime_pm_put_raw() and intel_display_power_put_async() call sites if CONFIG_DRM_I915_DEBUG_RUNTIME_PM=n. (Chris) - Rebased on v2 of the wakeref w/o power-on guarantee patch. - Add missing docbook headers. v3: - Checkpatch spelling/missing-empty-line fix. v4: - Fix unintended local wakeref var optimization when using call-arguments with side-effects, by using inline funcs instead of macros. In this patch in particular this will fix the intel_display_power_grab_async_put_ref()->intel_runtime_pm_put_raw() call). No size change in practice (would be the same disregarding the corresponding change in intel_display_power_grab_async_put_ref()): $ size i915-macro.ko text data bss dec hex filename 2455190 105890 10272 2571352 273c58 i915-macro.ko $ size i915-inline.ko text data bss dec hex filename 2455195 105890 10272 2571357 273c5d i915-inline.ko Kudos to Stan for reporting the raw-wakeref WARNs this issue caused. His config has CONFIG_DRM_I915_DEBUG_RUNTIME_PM=n, which I didn't retest after v1, and we are also not testing this config in CI. Now tested both with CONFIG_DRM_I915_DEBUG_RUNTIME_PM=y/n on ICL, connecting both Chamelium and regular DP, HDMI sinks. Cc: Chris Wilson <chris@chris-wilson.co.uk> Cc: Ville Syrjala <ville.syrjala@linux.intel.com> Cc: Stanislav Lisovskiy <stanislav.lisovskiy@intel.com> Signed-off-by: Imre Deak <imre.deak@intel.com> Reviewed-by: Chris Wilson <chris@chris-wilson.co.uk> Link: https://patchwork.freedesktop.org/patch/msgid/20190513192533.12586-1-imre.deak@intel.com
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