forked from Minki/linux
drm/i915/display/psr: Use continuos full frame to handle frontbuffer invalidations
Instead of exit PSR when a frontbuffer invalidation happens, we can enable the PSR2 selective fetch continuous full frame, that will keep the panel updated like PSR was disabled but without keeping PSR active. So as soon as the frontbuffer flush happens we can disable the continuous full frame and start to do selective fetches much quicker than the path that would enable PSR, that will wait a few frames to actually activate PSR. Also this approach has proven to fix some glitches found in Alderlake-P when there are a lot of invalidations happening together with page flips. Some may ask why it is writing to CURSURFLIVE(), it is because that is the way that hardware team provided us to poke display to handle PSR updates, and it is being used since display 9. v2: - handling possible race conditions between frontbuffer rendering and page flips Reviewed-by: Jouni Högander <jouni.hogander@intel.com> Cc: Khaled Almahallawy <khaled.almahallawy@intel.com> Cc: Shawn C Lee <shawn.c.lee@intel.com> Cc: Jouni Högander <jouni.hogander@intel.com> Cc: Mika Kahola <mika.kahola@intel.com> Signed-off-by: José Roberto de Souza <jose.souza@intel.com> Link: https://patchwork.freedesktop.org/patch/msgid/20220405155344.47219-3-jose.souza@intel.com
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@ -1525,6 +1525,7 @@ struct intel_psr {
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bool colorimetry_support;
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bool psr2_enabled;
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bool psr2_sel_fetch_enabled;
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bool psr2_sel_fetch_cff_enabled;
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bool req_psr2_sdp_prior_scanline;
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u8 sink_sync_latency;
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ktime_t last_entry_attempt;
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@ -1221,6 +1221,7 @@ static void intel_psr_enable_locked(struct intel_dp *intel_dp,
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intel_dp->psr.dc3co_exit_delay = val;
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intel_dp->psr.dc3co_exitline = crtc_state->dc3co_exitline;
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intel_dp->psr.psr2_sel_fetch_enabled = crtc_state->enable_psr2_sel_fetch;
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intel_dp->psr.psr2_sel_fetch_cff_enabled = false;
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intel_dp->psr.req_psr2_sdp_prior_scanline =
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crtc_state->req_psr2_sdp_prior_scanline;
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@ -1455,6 +1456,13 @@ static u32 man_trk_ctl_partial_frame_bit_get(struct drm_i915_private *dev_priv)
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PSR2_MAN_TRK_CTL_SF_PARTIAL_FRAME_UPDATE;
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}
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static u32 man_trk_ctl_continuos_full_frame(struct drm_i915_private *dev_priv)
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{
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return IS_ALDERLAKE_P(dev_priv) ?
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ADLP_PSR2_MAN_TRK_CTL_SF_CONTINUOS_FULL_FRAME :
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PSR2_MAN_TRK_CTL_SF_CONTINUOS_FULL_FRAME;
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}
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static void psr_force_hw_tracking_exit(struct intel_dp *intel_dp)
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{
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struct drm_i915_private *dev_priv = dp_to_i915(intel_dp);
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@ -1558,6 +1566,8 @@ void intel_psr2_program_trans_man_trk_ctl(const struct intel_crtc_state *crtc_st
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struct intel_dp *intel_dp = enc_to_intel_dp(encoder);
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lockdep_assert_held(&intel_dp->psr.lock);
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if (intel_dp->psr.psr2_sel_fetch_cff_enabled)
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return;
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break;
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}
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@ -2135,6 +2145,27 @@ unlock:
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mutex_unlock(&intel_dp->psr.lock);
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}
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static void _psr_invalidate_handle(struct intel_dp *intel_dp)
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{
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struct drm_i915_private *dev_priv = dp_to_i915(intel_dp);
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if (intel_dp->psr.psr2_sel_fetch_enabled) {
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u32 val;
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if (intel_dp->psr.psr2_sel_fetch_cff_enabled)
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return;
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val = man_trk_ctl_enable_bit_get(dev_priv) |
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man_trk_ctl_partial_frame_bit_get(dev_priv) |
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man_trk_ctl_continuos_full_frame(dev_priv);
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intel_de_write(dev_priv, PSR2_MAN_TRK_CTL(intel_dp->psr.transcoder), val);
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intel_de_write(dev_priv, CURSURFLIVE(intel_dp->psr.pipe), 0);
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intel_dp->psr.psr2_sel_fetch_cff_enabled = true;
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} else {
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intel_psr_exit(intel_dp);
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}
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}
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/**
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* intel_psr_invalidate - Invalidade PSR
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* @dev_priv: i915 device
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@ -2171,7 +2202,7 @@ void intel_psr_invalidate(struct drm_i915_private *dev_priv,
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intel_dp->psr.busy_frontbuffer_bits |= pipe_frontbuffer_bits;
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if (pipe_frontbuffer_bits)
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intel_psr_exit(intel_dp);
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_psr_invalidate_handle(intel_dp);
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mutex_unlock(&intel_dp->psr.lock);
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}
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@ -2203,6 +2234,42 @@ tgl_dc3co_flush_locked(struct intel_dp *intel_dp, unsigned int frontbuffer_bits,
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intel_dp->psr.dc3co_exit_delay);
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}
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static void _psr_flush_handle(struct intel_dp *intel_dp)
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{
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struct drm_i915_private *dev_priv = dp_to_i915(intel_dp);
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if (intel_dp->psr.psr2_sel_fetch_enabled) {
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if (intel_dp->psr.psr2_sel_fetch_cff_enabled) {
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/* can we turn CFF off? */
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if (intel_dp->psr.busy_frontbuffer_bits == 0) {
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u32 val = man_trk_ctl_enable_bit_get(dev_priv) |
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man_trk_ctl_partial_frame_bit_get(dev_priv) |
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man_trk_ctl_single_full_frame_bit_get(dev_priv);
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/*
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* turn continuous full frame off and do a single
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* full frame
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*/
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intel_de_write(dev_priv, PSR2_MAN_TRK_CTL(intel_dp->psr.transcoder),
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val);
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intel_de_write(dev_priv, CURSURFLIVE(intel_dp->psr.pipe), 0);
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intel_dp->psr.psr2_sel_fetch_cff_enabled = false;
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}
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} else {
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/*
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* continuous full frame is disabled, only a single full
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* frame is required
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*/
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psr_force_hw_tracking_exit(intel_dp);
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}
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} else {
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psr_force_hw_tracking_exit(intel_dp);
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if (!intel_dp->psr.active && !intel_dp->psr.busy_frontbuffer_bits)
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schedule_work(&intel_dp->psr.work);
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}
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}
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/**
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* intel_psr_flush - Flush PSR
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* @dev_priv: i915 device
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@ -2240,25 +2307,22 @@ void intel_psr_flush(struct drm_i915_private *dev_priv,
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* we have to ensure that the PSR is not activated until
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* intel_psr_resume() is called.
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*/
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if (intel_dp->psr.paused) {
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mutex_unlock(&intel_dp->psr.lock);
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continue;
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}
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if (intel_dp->psr.paused)
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goto unlock;
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if (origin == ORIGIN_FLIP ||
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(origin == ORIGIN_CURSOR_UPDATE &&
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!intel_dp->psr.psr2_sel_fetch_enabled)) {
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tgl_dc3co_flush_locked(intel_dp, frontbuffer_bits, origin);
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mutex_unlock(&intel_dp->psr.lock);
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continue;
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goto unlock;
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}
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/* By definition flush = invalidate + flush */
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if (pipe_frontbuffer_bits)
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psr_force_hw_tracking_exit(intel_dp);
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if (pipe_frontbuffer_bits == 0)
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goto unlock;
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if (!intel_dp->psr.active && !intel_dp->psr.busy_frontbuffer_bits)
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schedule_work(&intel_dp->psr.work);
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/* By definition flush = invalidate + flush */
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_psr_flush_handle(intel_dp);
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unlock:
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mutex_unlock(&intel_dp->psr.lock);
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}
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}
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