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|
/*
* Copyright © 2014 Intel Corporation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
/**
* DOC: Frame Buffer Compression (FBC)
*
* FBC tries to save memory bandwidth (and so power consumption) by
* compressing the amount of memory used by the display. It is total
* transparent to user space and completely handled in the kernel.
*
* The benefits of FBC are mostly visible with solid backgrounds and
* variation-less patterns. It comes from keeping the memory footprint small
* and having fewer memory pages opened and accessed for refreshing the display.
*
* i915 is responsible to reserve stolen memory for FBC and configure its
* offset on proper registers. The hardware takes care of all
* compress/decompress. However there are many known cases where we have to
* forcibly disable it to allow proper screen updates.
*/
#include <drm/drm_fourcc.h>
#include "i915_drv.h"
#include "intel_drv.h"
#include "intel_fbc.h"
#include "intel_frontbuffer.h"
static inline bool fbc_supported(struct drm_i915_private *dev_priv)
{
return HAS_FBC(dev_priv);
}
static inline bool no_fbc_on_multiple_pipes(struct drm_i915_private *dev_priv)
{
return INTEL_GEN(dev_priv) <= 3;
}
/*
* In some platforms where the CRTC's x:0/y:0 coordinates doesn't match the
* frontbuffer's x:0/y:0 coordinates we lie to the hardware about the plane's
* origin so the x and y offsets can actually fit the registers. As a
* consequence, the fence doesn't really start exactly at the display plane
* address we program because it starts at the real start of the buffer, so we
* have to take this into consideration here.
*/
static unsigned int get_crtc_fence_y_offset(struct intel_fbc *fbc)
{
return fbc->state_cache.plane.y - fbc->state_cache.plane.adjusted_y;
}
/*
* For SKL+, the plane source size used by the hardware is based on the value we
* write to the PLANE_SIZE register. For BDW-, the hardware looks at the value
* we wrote to PIPESRC.
*/
static void intel_fbc_get_plane_source_size(struct intel_fbc_state_cache *cache,
int *width, int *height)
{
if (width)
*width = cache->plane.src_w;
if (height)
*height = cache->plane.src_h;
}
static int intel_fbc_calculate_cfb_size(struct drm_i915_private *dev_priv,
struct intel_fbc_state_cache *cache)
{
int lines;
intel_fbc_get_plane_source_size(cache, NULL, &lines);
if (IS_GEN(dev_priv, 7))
lines = min(lines, 2048);
else if (INTEL_GEN(dev_priv) >= 8)
lines = min(lines, 2560);
/* Hardware needs the full buffer stride, not just the active area. */
return lines * cache->fb.stride;
}
static void i8xx_fbc_deactivate(struct drm_i915_private *dev_priv)
{
u32 fbc_ctl;
/* Disable compression */
fbc_ctl = I915_READ(FBC_CONTROL);
if ((fbc_ctl & FBC_CTL_EN) == 0)
return;
fbc_ctl &= ~FBC_CTL_EN;
I915_WRITE(FBC_CONTROL, fbc_ctl);
/* Wait for compressing bit to clear */
if (intel_wait_for_register(&dev_priv->uncore,
FBC_STATUS, FBC_STAT_COMPRESSING, 0,
10)) {
DRM_DEBUG_KMS("FBC idle timed out\n");
return;
}
}
static void i8xx_fbc_activate(struct drm_i915_private *dev_priv)
{
struct intel_fbc_reg_params *params = &dev_priv->fbc.params;
int cfb_pitch;
int i;
u32 fbc_ctl;
/* Note: fbc.threshold == 1 for i8xx */
cfb_pitch = params->cfb_size / FBC_LL_SIZE;
if (params->fb.stride < cfb_pitch)
cfb_pitch = params->fb.stride;
/* FBC_CTL wants 32B or 64B units */
if (IS_GEN(dev_priv, 2))
cfb_pitch = (cfb_pitch / 32) - 1;
else
cfb_pitch = (cfb_pitch / 64) - 1;
/* Clear old tags */
for (i = 0; i < (FBC_LL_SIZE / 32) + 1; i++)
I915_WRITE(FBC_TAG(i), 0);
if (IS_GEN(dev_priv, 4)) {
u32 fbc_ctl2;
/* Set it up... */
fbc_ctl2 = FBC_CTL_FENCE_DBL | FBC_CTL_IDLE_IMM | FBC_CTL_CPU_FENCE;
fbc_ctl2 |= FBC_CTL_PLANE(params->crtc.i9xx_plane);
I915_WRITE(FBC_CONTROL2, fbc_ctl2);
I915_WRITE(FBC_FENCE_OFF, params->crtc.fence_y_offset);
}
/* enable it... */
fbc_ctl = I915_READ(FBC_CONTROL);
fbc_ctl &= 0x3fff << FBC_CTL_INTERVAL_SHIFT;
fbc_ctl |= FBC_CTL_EN | FBC_CTL_PERIODIC;
if (IS_I945GM(dev_priv))
fbc_ctl |= FBC_CTL_C3_IDLE; /* 945 needs special SR handling */
fbc_ctl |= (cfb_pitch & 0xff) << FBC_CTL_STRIDE_SHIFT;
fbc_ctl |= params->vma->fence->id;
I915_WRITE(FBC_CONTROL, fbc_ctl);
}
static bool i8xx_fbc_is_active(struct drm_i915_private *dev_priv)
{
return I915_READ(FBC_CONTROL) & FBC_CTL_EN;
}
static void g4x_fbc_activate(struct drm_i915_private *dev_priv)
{
struct intel_fbc_reg_params *params = &dev_priv->fbc.params;
u32 dpfc_ctl;
dpfc_ctl = DPFC_CTL_PLANE(params->crtc.i9xx_plane) | DPFC_SR_EN;
if (params->fb.format->cpp[0] == 2)
dpfc_ctl |= DPFC_CTL_LIMIT_2X;
else
dpfc_ctl |= DPFC_CTL_LIMIT_1X;
if (params->flags & PLANE_HAS_FENCE) {
dpfc_ctl |= DPFC_CTL_FENCE_EN | params->vma->fence->id;
I915_WRITE(DPFC_FENCE_YOFF, params->crtc.fence_y_offset);
} else {
I915_WRITE(DPFC_FENCE_YOFF, 0);
}
/* enable it... */
I915_WRITE(DPFC_CONTROL, dpfc_ctl | DPFC_CTL_EN);
}
static void g4x_fbc_deactivate(struct drm_i915_private *dev_priv)
{
u32 dpfc_ctl;
/* Disable compression */
dpfc_ctl = I915_READ(DPFC_CONTROL);
if (dpfc_ctl & DPFC_CTL_EN) {
dpfc_ctl &= ~DPFC_CTL_EN;
I915_WRITE(DPFC_CONTROL, dpfc_ctl);
}
}
static bool g4x_fbc_is_active(struct drm_i915_private *dev_priv)
{
return I915_READ(DPFC_CONTROL) & DPFC_CTL_EN;
}
/* This function forces a CFB recompression through the nuke operation. */
static void intel_fbc_recompress(struct drm_i915_private *dev_priv)
{
I915_WRITE(MSG_FBC_REND_STATE, FBC_REND_NUKE);
POSTING_READ(MSG_FBC_REND_STATE);
}
static void ilk_fbc_activate(struct drm_i915_private *dev_priv)
{
struct intel_fbc_reg_params *params = &dev_priv->fbc.params;
u32 dpfc_ctl;
int threshold = dev_priv->fbc.threshold;
dpfc_ctl = DPFC_CTL_PLANE(params->crtc.i9xx_plane);
if (params->fb.format->cpp[0] == 2)
threshold++;
switch (threshold) {
case 4:
case 3:
dpfc_ctl |= DPFC_CTL_LIMIT_4X;
break;
case 2:
dpfc_ctl |= DPFC_CTL_LIMIT_2X;
break;
case 1:
dpfc_ctl |= DPFC_CTL_LIMIT_1X;
break;
}
if (params->flags & PLANE_HAS_FENCE) {
dpfc_ctl |= DPFC_CTL_FENCE_EN;
if (IS_GEN(dev_priv, 5))
dpfc_ctl |= params->vma->fence->id;
if (IS_GEN(dev_priv, 6)) {
I915_WRITE(SNB_DPFC_CTL_SA,
SNB_CPU_FENCE_ENABLE |
params->vma->fence->id);
I915_WRITE(DPFC_CPU_FENCE_OFFSET,
params->crtc.fence_y_offset);
}
} else {
if (IS_GEN(dev_priv, 6)) {
I915_WRITE(SNB_DPFC_CTL_SA, 0);
I915_WRITE(DPFC_CPU_FENCE_OFFSET, 0);
}
}
I915_WRITE(ILK_DPFC_FENCE_YOFF, params->crtc.fence_y_offset);
I915_WRITE(ILK_FBC_RT_BASE,
i915_ggtt_offset(params->vma) | ILK_FBC_RT_VALID);
/* enable it... */
I915_WRITE(ILK_DPFC_CONTROL, dpfc_ctl | DPFC_CTL_EN);
intel_fbc_recompress(dev_priv);
}
static void ilk_fbc_deactivate(struct drm_i915_private *dev_priv)
{
u32 dpfc_ctl;
/* Disable compression */
dpfc_ctl = I915_READ(ILK_DPFC_CONTROL);
if (dpfc_ctl & DPFC_CTL_EN) {
dpfc_ctl &= ~DPFC_CTL_EN;
I915_WRITE(ILK_DPFC_CONTROL, dpfc_ctl);
}
}
static bool ilk_fbc_is_active(struct drm_i915_private *dev_priv)
{
return I915_READ(ILK_DPFC_CONTROL) & DPFC_CTL_EN;
}
static void gen7_fbc_activate(struct drm_i915_private *dev_priv)
{
struct intel_fbc_reg_params *params = &dev_priv->fbc.params;
u32 dpfc_ctl;
int threshold = dev_priv->fbc.threshold;
/* Display WA #0529: skl, kbl, bxt. */
if (IS_GEN(dev_priv, 9) && !IS_GEMINILAKE(dev_priv)) {
u32 val = I915_READ(CHICKEN_MISC_4);
val &= ~(FBC_STRIDE_OVERRIDE | FBC_STRIDE_MASK);
if (i915_gem_object_get_tiling(params->vma->obj) !=
I915_TILING_X)
val |= FBC_STRIDE_OVERRIDE | params->gen9_wa_cfb_stride;
I915_WRITE(CHICKEN_MISC_4, val);
}
dpfc_ctl = 0;
if (IS_IVYBRIDGE(dev_priv))
dpfc_ctl |= IVB_DPFC_CTL_PLANE(params->crtc.i9xx_plane);
if (params->fb.format->cpp[0] == 2)
threshold++;
switch (threshold) {
case 4:
case 3:
dpfc_ctl |= DPFC_CTL_LIMIT_4X;
break;
case 2:
dpfc_ctl |= DPFC_CTL_LIMIT_2X;
break;
case 1:
dpfc_ctl |= DPFC_CTL_LIMIT_1X;
break;
}
if (params->flags & PLANE_HAS_FENCE) {
dpfc_ctl |= IVB_DPFC_CTL_FENCE_EN;
I915_WRITE(SNB_DPFC_CTL_SA,
SNB_CPU_FENCE_ENABLE |
params->vma->fence->id);
I915_WRITE(DPFC_CPU_FENCE_OFFSET, params->crtc.fence_y_offset);
} else {
I915_WRITE(SNB_DPFC_CTL_SA,0);
I915_WRITE(DPFC_CPU_FENCE_OFFSET, 0);
}
if (dev_priv->fbc.false_color)
dpfc_ctl |= FBC_CTL_FALSE_COLOR;
if (IS_IVYBRIDGE(dev_priv)) {
/* WaFbcAsynchFlipDisableFbcQueue:ivb */
I915_WRITE(ILK_DISPLAY_CHICKEN1,
I915_READ(ILK_DISPLAY_CHICKEN1) |
ILK_FBCQ_DIS);
} else if (IS_HASWELL(dev_priv) || IS_BROADWELL(dev_priv)) {
/* WaFbcAsynchFlipDisableFbcQueue:hsw,bdw */
I915_WRITE(CHICKEN_PIPESL_1(params->crtc.pipe),
I915_READ(CHICKEN_PIPESL_1(params->crtc.pipe)) |
HSW_FBCQ_DIS);
}
I915_WRITE(ILK_DPFC_CONTROL, dpfc_ctl | DPFC_CTL_EN);
intel_fbc_recompress(dev_priv);
}
static bool intel_fbc_hw_is_active(struct drm_i915_private *dev_priv)
{
if (INTEL_GEN(dev_priv) >= 5)
return ilk_fbc_is_active(dev_priv);
else if (IS_GM45(dev_priv))
return g4x_fbc_is_active(dev_priv);
else
return i8xx_fbc_is_active(dev_priv);
}
static void intel_fbc_hw_activate(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
fbc->active = true;
if (INTEL_GEN(dev_priv) >= 7)
gen7_fbc_activate(dev_priv);
else if (INTEL_GEN(dev_priv) >= 5)
ilk_fbc_activate(dev_priv);
else if (IS_GM45(dev_priv))
g4x_fbc_activate(dev_priv);
else
i8xx_fbc_activate(dev_priv);
}
static void intel_fbc_hw_deactivate(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
fbc->active = false;
if (INTEL_GEN(dev_priv) >= 5)
ilk_fbc_deactivate(dev_priv);
else if (IS_GM45(dev_priv))
g4x_fbc_deactivate(dev_priv);
else
i8xx_fbc_deactivate(dev_priv);
}
/**
* intel_fbc_is_active - Is FBC active?
* @dev_priv: i915 device instance
*
* This function is used to verify the current state of FBC.
*
* FIXME: This should be tracked in the plane config eventually
* instead of queried at runtime for most callers.
*/
bool intel_fbc_is_active(struct drm_i915_private *dev_priv)
{
return dev_priv->fbc.active;
}
static void intel_fbc_deactivate(struct drm_i915_private *dev_priv,
const char *reason)
{
struct intel_fbc *fbc = &dev_priv->fbc;
WARN_ON(!mutex_is_locked(&fbc->lock));
if (fbc->active)
intel_fbc_hw_deactivate(dev_priv);
fbc->no_fbc_reason = reason;
}
static bool multiple_pipes_ok(struct intel_crtc *crtc,
struct intel_plane_state *plane_state)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
enum pipe pipe = crtc->pipe;
/* Don't even bother tracking anything we don't need. */
if (!no_fbc_on_multiple_pipes(dev_priv))
return true;
if (plane_state->base.visible)
fbc->visible_pipes_mask |= (1 << pipe);
else
fbc->visible_pipes_mask &= ~(1 << pipe);
return (fbc->visible_pipes_mask & ~(1 << pipe)) != 0;
}
static int find_compression_threshold(struct drm_i915_private *dev_priv,
struct drm_mm_node *node,
int size,
int fb_cpp)
{
int compression_threshold = 1;
int ret;
u64 end;
/* The FBC hardware for BDW/SKL doesn't have access to the stolen
* reserved range size, so it always assumes the maximum (8mb) is used.
* If we enable FBC using a CFB on that memory range we'll get FIFO
* underruns, even if that range is not reserved by the BIOS. */
if (IS_BROADWELL(dev_priv) || IS_GEN9_BC(dev_priv))
end = resource_size(&dev_priv->dsm) - 8 * 1024 * 1024;
else
end = U64_MAX;
/* HACK: This code depends on what we will do in *_enable_fbc. If that
* code changes, this code needs to change as well.
*
* The enable_fbc code will attempt to use one of our 2 compression
* thresholds, therefore, in that case, we only have 1 resort.
*/
/* Try to over-allocate to reduce reallocations and fragmentation. */
ret = i915_gem_stolen_insert_node_in_range(dev_priv, node, size <<= 1,
4096, 0, end);
if (ret == 0)
return compression_threshold;
again:
/* HW's ability to limit the CFB is 1:4 */
if (compression_threshold > 4 ||
(fb_cpp == 2 && compression_threshold == 2))
return 0;
ret = i915_gem_stolen_insert_node_in_range(dev_priv, node, size >>= 1,
4096, 0, end);
if (ret && INTEL_GEN(dev_priv) <= 4) {
return 0;
} else if (ret) {
compression_threshold <<= 1;
goto again;
} else {
return compression_threshold;
}
}
static int intel_fbc_alloc_cfb(struct intel_crtc *crtc)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
struct drm_mm_node *uninitialized_var(compressed_llb);
int size, fb_cpp, ret;
WARN_ON(drm_mm_node_allocated(&fbc->compressed_fb));
size = intel_fbc_calculate_cfb_size(dev_priv, &fbc->state_cache);
fb_cpp = fbc->state_cache.fb.format->cpp[0];
ret = find_compression_threshold(dev_priv, &fbc->compressed_fb,
size, fb_cpp);
if (!ret)
goto err_llb;
else if (ret > 1) {
DRM_INFO("Reducing the compressed framebuffer size. This may lead to less power savings than a non-reduced-size. Try to increase stolen memory size if available in BIOS.\n");
}
fbc->threshold = ret;
if (INTEL_GEN(dev_priv) >= 5)
I915_WRITE(ILK_DPFC_CB_BASE, fbc->compressed_fb.start);
else if (IS_GM45(dev_priv)) {
I915_WRITE(DPFC_CB_BASE, fbc->compressed_fb.start);
} else {
compressed_llb = kzalloc(sizeof(*compressed_llb), GFP_KERNEL);
if (!compressed_llb)
goto err_fb;
ret = i915_gem_stolen_insert_node(dev_priv, compressed_llb,
4096, 4096);
if (ret)
goto err_fb;
fbc->compressed_llb = compressed_llb;
GEM_BUG_ON(range_overflows_t(u64, dev_priv->dsm.start,
fbc->compressed_fb.start,
U32_MAX));
GEM_BUG_ON(range_overflows_t(u64, dev_priv->dsm.start,
fbc->compressed_llb->start,
U32_MAX));
I915_WRITE(FBC_CFB_BASE,
dev_priv->dsm.start + fbc->compressed_fb.start);
I915_WRITE(FBC_LL_BASE,
dev_priv->dsm.start + compressed_llb->start);
}
DRM_DEBUG_KMS("reserved %llu bytes of contiguous stolen space for FBC, threshold: %d\n",
fbc->compressed_fb.size, fbc->threshold);
return 0;
err_fb:
kfree(compressed_llb);
i915_gem_stolen_remove_node(dev_priv, &fbc->compressed_fb);
err_llb:
if (drm_mm_initialized(&dev_priv->mm.stolen))
pr_info_once("drm: not enough stolen space for compressed buffer (need %d more bytes), disabling. Hint: you may be able to increase stolen memory size in the BIOS to avoid this.\n", size);
return -ENOSPC;
}
static void __intel_fbc_cleanup_cfb(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
if (drm_mm_node_allocated(&fbc->compressed_fb))
i915_gem_stolen_remove_node(dev_priv, &fbc->compressed_fb);
if (fbc->compressed_llb) {
i915_gem_stolen_remove_node(dev_priv, fbc->compressed_llb);
kfree(fbc->compressed_llb);
}
}
void intel_fbc_cleanup_cfb(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
mutex_lock(&fbc->lock);
__intel_fbc_cleanup_cfb(dev_priv);
mutex_unlock(&fbc->lock);
}
static bool stride_is_valid(struct drm_i915_private *dev_priv,
unsigned int stride)
{
/* This should have been caught earlier. */
if (WARN_ON_ONCE((stride & (64 - 1)) != 0))
return false;
/* Below are the additional FBC restrictions. */
if (stride < 512)
return false;
if (IS_GEN(dev_priv, 2) || IS_GEN(dev_priv, 3))
return stride == 4096 || stride == 8192;
if (IS_GEN(dev_priv, 4) && !IS_G4X(dev_priv) && stride < 2048)
return false;
if (stride > 16384)
return false;
return true;
}
static bool pixel_format_is_valid(struct drm_i915_private *dev_priv,
u32 pixel_format)
{
switch (pixel_format) {
case DRM_FORMAT_XRGB8888:
case DRM_FORMAT_XBGR8888:
return true;
case DRM_FORMAT_XRGB1555:
case DRM_FORMAT_RGB565:
/* 16bpp not supported on gen2 */
if (IS_GEN(dev_priv, 2))
return false;
/* WaFbcOnly1to1Ratio:ctg */
if (IS_G4X(dev_priv))
return false;
return true;
default:
return false;
}
}
/*
* For some reason, the hardware tracking starts looking at whatever we
* programmed as the display plane base address register. It does not look at
* the X and Y offset registers. That's why we look at the crtc->adjusted{x,y}
* variables instead of just looking at the pipe/plane size.
*/
static bool intel_fbc_hw_tracking_covers_screen(struct intel_crtc *crtc)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
unsigned int effective_w, effective_h, max_w, max_h;
if (INTEL_GEN(dev_priv) >= 10 || IS_GEMINILAKE(dev_priv)) {
max_w = 5120;
max_h = 4096;
} else if (INTEL_GEN(dev_priv) >= 8 || IS_HASWELL(dev_priv)) {
max_w = 4096;
max_h = 4096;
} else if (IS_G4X(dev_priv) || INTEL_GEN(dev_priv) >= 5) {
max_w = 4096;
max_h = 2048;
} else {
max_w = 2048;
max_h = 1536;
}
intel_fbc_get_plane_source_size(&fbc->state_cache, &effective_w,
&effective_h);
effective_w += fbc->state_cache.plane.adjusted_x;
effective_h += fbc->state_cache.plane.adjusted_y;
return effective_w <= max_w && effective_h <= max_h;
}
static void intel_fbc_update_state_cache(struct intel_crtc *crtc,
struct intel_crtc_state *crtc_state,
struct intel_plane_state *plane_state)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
struct intel_fbc_state_cache *cache = &fbc->state_cache;
struct drm_framebuffer *fb = plane_state->base.fb;
cache->vma = NULL;
cache->flags = 0;
cache->crtc.mode_flags = crtc_state->base.adjusted_mode.flags;
if (IS_HASWELL(dev_priv) || IS_BROADWELL(dev_priv))
cache->crtc.hsw_bdw_pixel_rate = crtc_state->pixel_rate;
cache->plane.rotation = plane_state->base.rotation;
/*
* Src coordinates are already rotated by 270 degrees for
* the 90/270 degree plane rotation cases (to match the
* GTT mapping), hence no need to account for rotation here.
*/
cache->plane.src_w = drm_rect_width(&plane_state->base.src) >> 16;
cache->plane.src_h = drm_rect_height(&plane_state->base.src) >> 16;
cache->plane.visible = plane_state->base.visible;
cache->plane.adjusted_x = plane_state->color_plane[0].x;
cache->plane.adjusted_y = plane_state->color_plane[0].y;
cache->plane.y = plane_state->base.src.y1 >> 16;
cache->plane.pixel_blend_mode = plane_state->base.pixel_blend_mode;
if (!cache->plane.visible)
return;
cache->fb.format = fb->format;
cache->fb.stride = fb->pitches[0];
cache->vma = plane_state->vma;
cache->flags = plane_state->flags;
if (WARN_ON(cache->flags & PLANE_HAS_FENCE && !cache->vma->fence))
cache->flags &= ~PLANE_HAS_FENCE;
}
static bool intel_fbc_can_activate(struct intel_crtc *crtc)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
struct intel_fbc_state_cache *cache = &fbc->state_cache;
/* We don't need to use a state cache here since this information is
* global for all CRTC.
*/
if (fbc->underrun_detected) {
fbc->no_fbc_reason = "underrun detected";
return false;
}
if (!cache->vma) {
fbc->no_fbc_reason = "primary plane not visible";
return false;
}
if (cache->crtc.mode_flags & DRM_MODE_FLAG_INTERLACE) {
fbc->no_fbc_reason = "incompatible mode";
return false;
}
if (!intel_fbc_hw_tracking_covers_screen(crtc)) {
fbc->no_fbc_reason = "mode too large for compression";
return false;
}
/* The use of a CPU fence is mandatory in order to detect writes
* by the CPU to the scanout and trigger updates to the FBC.
*
* Note that is possible for a tiled surface to be unmappable (and
* so have no fence associated with it) due to aperture constaints
* at the time of pinning.
*
* FIXME with 90/270 degree rotation we should use the fence on
* the normal GTT view (the rotated view doesn't even have a
* fence). Would need changes to the FBC fence Y offset as well.
* For now this will effecively disable FBC with 90/270 degree
* rotation.
*/
if (!(cache->flags & PLANE_HAS_FENCE)) {
fbc->no_fbc_reason = "framebuffer not tiled or fenced";
return false;
}
if (INTEL_GEN(dev_priv) <= 4 && !IS_G4X(dev_priv) &&
cache->plane.rotation != DRM_MODE_ROTATE_0) {
fbc->no_fbc_reason = "rotation unsupported";
return false;
}
if (!stride_is_valid(dev_priv, cache->fb.stride)) {
fbc->no_fbc_reason = "framebuffer stride not supported";
return false;
}
if (!pixel_format_is_valid(dev_priv, cache->fb.format->format)) {
fbc->no_fbc_reason = "pixel format is invalid";
return false;
}
if (cache->plane.pixel_blend_mode != DRM_MODE_BLEND_PIXEL_NONE &&
cache->fb.format->has_alpha) {
fbc->no_fbc_reason = "per-pixel alpha blending is incompatible with FBC";
return false;
}
/* WaFbcExceedCdClockThreshold:hsw,bdw */
if ((IS_HASWELL(dev_priv) || IS_BROADWELL(dev_priv)) &&
cache->crtc.hsw_bdw_pixel_rate >= dev_priv->cdclk.hw.cdclk * 95 / 100) {
fbc->no_fbc_reason = "pixel rate is too big";
return false;
}
/* It is possible for the required CFB size change without a
* crtc->disable + crtc->enable since it is possible to change the
* stride without triggering a full modeset. Since we try to
* over-allocate the CFB, there's a chance we may keep FBC enabled even
* if this happens, but if we exceed the current CFB size we'll have to
* disable FBC. Notice that it would be possible to disable FBC, wait
* for a frame, free the stolen node, then try to reenable FBC in case
* we didn't get any invalidate/deactivate calls, but this would require
* a lot of tracking just for a specific case. If we conclude it's an
* important case, we can implement it later. */
if (intel_fbc_calculate_cfb_size(dev_priv, &fbc->state_cache) >
fbc->compressed_fb.size * fbc->threshold) {
fbc->no_fbc_reason = "CFB requirements changed";
return false;
}
/*
* Work around a problem on GEN9+ HW, where enabling FBC on a plane
* having a Y offset that isn't divisible by 4 causes FIFO underrun
* and screen flicker.
*/
if (IS_GEN_RANGE(dev_priv, 9, 10) &&
(fbc->state_cache.plane.adjusted_y & 3)) {
fbc->no_fbc_reason = "plane Y offset is misaligned";
return false;
}
return true;
}
static bool intel_fbc_can_enable(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
if (intel_vgpu_active(dev_priv)) {
fbc->no_fbc_reason = "VGPU is active";
return false;
}
if (!i915_modparams.enable_fbc) {
fbc->no_fbc_reason = "disabled per module param or by default";
return false;
}
if (fbc->underrun_detected) {
fbc->no_fbc_reason = "underrun detected";
return false;
}
return true;
}
static void intel_fbc_get_reg_params(struct intel_crtc *crtc,
struct intel_fbc_reg_params *params)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
struct intel_fbc_state_cache *cache = &fbc->state_cache;
/* Since all our fields are integer types, use memset here so the
* comparison function can rely on memcmp because the padding will be
* zero. */
memset(params, 0, sizeof(*params));
params->vma = cache->vma;
params->flags = cache->flags;
params->crtc.pipe = crtc->pipe;
params->crtc.i9xx_plane = to_intel_plane(crtc->base.primary)->i9xx_plane;
params->crtc.fence_y_offset = get_crtc_fence_y_offset(fbc);
params->fb.format = cache->fb.format;
params->fb.stride = cache->fb.stride;
params->cfb_size = intel_fbc_calculate_cfb_size(dev_priv, cache);
if (IS_GEN(dev_priv, 9) && !IS_GEMINILAKE(dev_priv))
params->gen9_wa_cfb_stride = DIV_ROUND_UP(cache->plane.src_w,
32 * fbc->threshold) * 8;
}
void intel_fbc_pre_update(struct intel_crtc *crtc,
struct intel_crtc_state *crtc_state,
struct intel_plane_state *plane_state)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
const char *reason = "update pending";
if (!fbc_supported(dev_priv))
return;
mutex_lock(&fbc->lock);
if (!multiple_pipes_ok(crtc, plane_state)) {
reason = "more than one pipe active";
goto deactivate;
}
if (!fbc->enabled || fbc->crtc != crtc)
goto unlock;
intel_fbc_update_state_cache(crtc, crtc_state, plane_state);
fbc->flip_pending = true;
deactivate:
intel_fbc_deactivate(dev_priv, reason);
unlock:
mutex_unlock(&fbc->lock);
}
/**
* __intel_fbc_disable - disable FBC
* @dev_priv: i915 device instance
*
* This is the low level function that actually disables FBC. Callers should
* grab the FBC lock.
*/
static void __intel_fbc_disable(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
struct intel_crtc *crtc = fbc->crtc;
WARN_ON(!mutex_is_locked(&fbc->lock));
WARN_ON(!fbc->enabled);
WARN_ON(fbc->active);
DRM_DEBUG_KMS("Disabling FBC on pipe %c\n", pipe_name(crtc->pipe));
__intel_fbc_cleanup_cfb(dev_priv);
fbc->enabled = false;
fbc->crtc = NULL;
}
static void __intel_fbc_post_update(struct intel_crtc *crtc)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
WARN_ON(!mutex_is_locked(&fbc->lock));
if (!fbc->enabled || fbc->crtc != crtc)
return;
fbc->flip_pending = false;
WARN_ON(fbc->active);
if (!i915_modparams.enable_fbc) {
intel_fbc_deactivate(dev_priv, "disabled at runtime per module param");
__intel_fbc_disable(dev_priv);
return;
}
intel_fbc_get_reg_params(crtc, &fbc->params);
if (!intel_fbc_can_activate(crtc))
return;
if (!fbc->busy_bits) {
intel_fbc_deactivate(dev_priv, "FBC enabled (active or scheduled)");
intel_fbc_hw_activate(dev_priv);
} else
intel_fbc_deactivate(dev_priv, "frontbuffer write");
}
void intel_fbc_post_update(struct intel_crtc *crtc)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
mutex_lock(&fbc->lock);
__intel_fbc_post_update(crtc);
mutex_unlock(&fbc->lock);
}
static unsigned int intel_fbc_get_frontbuffer_bit(struct intel_fbc *fbc)
{
if (fbc->enabled)
return to_intel_plane(fbc->crtc->base.primary)->frontbuffer_bit;
else
return fbc->possible_framebuffer_bits;
}
void intel_fbc_invalidate(struct drm_i915_private *dev_priv,
unsigned int frontbuffer_bits,
enum fb_op_origin origin)
{
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
if (origin == ORIGIN_GTT || origin == ORIGIN_FLIP)
return;
mutex_lock(&fbc->lock);
fbc->busy_bits |= intel_fbc_get_frontbuffer_bit(fbc) & frontbuffer_bits;
if (fbc->enabled && fbc->busy_bits)
intel_fbc_deactivate(dev_priv, "frontbuffer write");
mutex_unlock(&fbc->lock);
}
void intel_fbc_flush(struct drm_i915_private *dev_priv,
unsigned int frontbuffer_bits, enum fb_op_origin origin)
{
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
mutex_lock(&fbc->lock);
fbc->busy_bits &= ~frontbuffer_bits;
if (origin == ORIGIN_GTT || origin == ORIGIN_FLIP)
goto out;
if (!fbc->busy_bits && fbc->enabled &&
(frontbuffer_bits & intel_fbc_get_frontbuffer_bit(fbc))) {
if (fbc->active)
intel_fbc_recompress(dev_priv);
else if (!fbc->flip_pending)
__intel_fbc_post_update(fbc->crtc);
}
out:
mutex_unlock(&fbc->lock);
}
/**
* intel_fbc_choose_crtc - select a CRTC to enable FBC on
* @dev_priv: i915 device instance
* @state: the atomic state structure
*
* This function looks at the proposed state for CRTCs and planes, then chooses
* which pipe is going to have FBC by setting intel_crtc_state->enable_fbc to
* true.
*
* Later, intel_fbc_enable is going to look for state->enable_fbc and then maybe
* enable FBC for the chosen CRTC. If it does, it will set dev_priv->fbc.crtc.
*/
void intel_fbc_choose_crtc(struct drm_i915_private *dev_priv,
struct intel_atomic_state *state)
{
struct intel_fbc *fbc = &dev_priv->fbc;
struct intel_plane *plane;
struct intel_plane_state *plane_state;
bool crtc_chosen = false;
int i;
mutex_lock(&fbc->lock);
/* Does this atomic commit involve the CRTC currently tied to FBC? */
if (fbc->crtc &&
!intel_atomic_get_new_crtc_state(state, fbc->crtc))
goto out;
if (!intel_fbc_can_enable(dev_priv))
goto out;
/* Simply choose the first CRTC that is compatible and has a visible
* plane. We could go for fancier schemes such as checking the plane
* size, but this would just affect the few platforms that don't tie FBC
* to pipe or plane A. */
for_each_new_intel_plane_in_state(state, plane, plane_state, i) {
struct intel_crtc_state *crtc_state;
struct intel_crtc *crtc = to_intel_crtc(plane_state->base.crtc);
if (!plane->has_fbc)
continue;
if (!plane_state->base.visible)
continue;
crtc_state = intel_atomic_get_new_crtc_state(state, crtc);
crtc_state->enable_fbc = true;
crtc_chosen = true;
break;
}
if (!crtc_chosen)
fbc->no_fbc_reason = "no suitable CRTC for FBC";
out:
mutex_unlock(&fbc->lock);
}
/**
* intel_fbc_enable: tries to enable FBC on the CRTC
* @crtc: the CRTC
* @crtc_state: corresponding &drm_crtc_state for @crtc
* @plane_state: corresponding &drm_plane_state for the primary plane of @crtc
*
* This function checks if the given CRTC was chosen for FBC, then enables it if
* possible. Notice that it doesn't activate FBC. It is valid to call
* intel_fbc_enable multiple times for the same pipe without an
* intel_fbc_disable in the middle, as long as it is deactivated.
*/
void intel_fbc_enable(struct intel_crtc *crtc,
struct intel_crtc_state *crtc_state,
struct intel_plane_state *plane_state)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
mutex_lock(&fbc->lock);
if (fbc->enabled) {
WARN_ON(fbc->crtc == NULL);
if (fbc->crtc == crtc) {
WARN_ON(!crtc_state->enable_fbc);
WARN_ON(fbc->active);
}
goto out;
}
if (!crtc_state->enable_fbc)
goto out;
WARN_ON(fbc->active);
WARN_ON(fbc->crtc != NULL);
intel_fbc_update_state_cache(crtc, crtc_state, plane_state);
if (intel_fbc_alloc_cfb(crtc)) {
fbc->no_fbc_reason = "not enough stolen memory";
goto out;
}
DRM_DEBUG_KMS("Enabling FBC on pipe %c\n", pipe_name(crtc->pipe));
fbc->no_fbc_reason = "FBC enabled but not active yet\n";
fbc->enabled = true;
fbc->crtc = crtc;
out:
mutex_unlock(&fbc->lock);
}
/**
* intel_fbc_disable - disable FBC if it's associated with crtc
* @crtc: the CRTC
*
* This function disables FBC if it's associated with the provided CRTC.
*/
void intel_fbc_disable(struct intel_crtc *crtc)
{
struct drm_i915_private *dev_priv = to_i915(crtc->base.dev);
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
mutex_lock(&fbc->lock);
if (fbc->crtc == crtc)
__intel_fbc_disable(dev_priv);
mutex_unlock(&fbc->lock);
}
/**
* intel_fbc_global_disable - globally disable FBC
* @dev_priv: i915 device instance
*
* This function disables FBC regardless of which CRTC is associated with it.
*/
void intel_fbc_global_disable(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
mutex_lock(&fbc->lock);
if (fbc->enabled) {
WARN_ON(fbc->crtc->active);
__intel_fbc_disable(dev_priv);
}
mutex_unlock(&fbc->lock);
}
static void intel_fbc_underrun_work_fn(struct work_struct *work)
{
struct drm_i915_private *dev_priv =
container_of(work, struct drm_i915_private, fbc.underrun_work);
struct intel_fbc *fbc = &dev_priv->fbc;
mutex_lock(&fbc->lock);
/* Maybe we were scheduled twice. */
if (fbc->underrun_detected || !fbc->enabled)
goto out;
DRM_DEBUG_KMS("Disabling FBC due to FIFO underrun.\n");
fbc->underrun_detected = true;
intel_fbc_deactivate(dev_priv, "FIFO underrun");
out:
mutex_unlock(&fbc->lock);
}
/*
* intel_fbc_reset_underrun - reset FBC fifo underrun status.
* @dev_priv: i915 device instance
*
* See intel_fbc_handle_fifo_underrun_irq(). For automated testing we
* want to re-enable FBC after an underrun to increase test coverage.
*/
int intel_fbc_reset_underrun(struct drm_i915_private *dev_priv)
{
int ret;
cancel_work_sync(&dev_priv->fbc.underrun_work);
ret = mutex_lock_interruptible(&dev_priv->fbc.lock);
if (ret)
return ret;
if (dev_priv->fbc.underrun_detected) {
DRM_DEBUG_KMS("Re-allowing FBC after fifo underrun\n");
dev_priv->fbc.no_fbc_reason = "FIFO underrun cleared";
}
dev_priv->fbc.underrun_detected = false;
mutex_unlock(&dev_priv->fbc.lock);
return 0;
}
/**
* intel_fbc_handle_fifo_underrun_irq - disable FBC when we get a FIFO underrun
* @dev_priv: i915 device instance
*
* Without FBC, most underruns are harmless and don't really cause too many
* problems, except for an annoying message on dmesg. With FBC, underruns can
* become black screens or even worse, especially when paired with bad
* watermarks. So in order for us to be on the safe side, completely disable FBC
* in case we ever detect a FIFO underrun on any pipe. An underrun on any pipe
* already suggests that watermarks may be bad, so try to be as safe as
* possible.
*
* This function is called from the IRQ handler.
*/
void intel_fbc_handle_fifo_underrun_irq(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
if (!fbc_supported(dev_priv))
return;
/* There's no guarantee that underrun_detected won't be set to true
* right after this check and before the work is scheduled, but that's
* not a problem since we'll check it again under the work function
* while FBC is locked. This check here is just to prevent us from
* unnecessarily scheduling the work, and it relies on the fact that we
* never switch underrun_detect back to false after it's true. */
if (READ_ONCE(fbc->underrun_detected))
return;
schedule_work(&fbc->underrun_work);
}
/**
* intel_fbc_init_pipe_state - initialize FBC's CRTC visibility tracking
* @dev_priv: i915 device instance
*
* The FBC code needs to track CRTC visibility since the older platforms can't
* have FBC enabled while multiple pipes are used. This function does the
* initial setup at driver load to make sure FBC is matching the real hardware.
*/
void intel_fbc_init_pipe_state(struct drm_i915_private *dev_priv)
{
struct intel_crtc *crtc;
/* Don't even bother tracking anything if we don't need. */
if (!no_fbc_on_multiple_pipes(dev_priv))
return;
for_each_intel_crtc(&dev_priv->drm, crtc)
if (intel_crtc_active(crtc) &&
crtc->base.primary->state->visible)
dev_priv->fbc.visible_pipes_mask |= (1 << crtc->pipe);
}
/*
* The DDX driver changes its behavior depending on the value it reads from
* i915.enable_fbc, so sanitize it by translating the default value into either
* 0 or 1 in order to allow it to know what's going on.
*
* Notice that this is done at driver initialization and we still allow user
* space to change the value during runtime without sanitizing it again. IGT
* relies on being able to change i915.enable_fbc at runtime.
*/
static int intel_sanitize_fbc_option(struct drm_i915_private *dev_priv)
{
if (i915_modparams.enable_fbc >= 0)
return !!i915_modparams.enable_fbc;
if (!HAS_FBC(dev_priv))
return 0;
if (IS_BROADWELL(dev_priv) || INTEL_GEN(dev_priv) >= 9)
return 1;
return 0;
}
static bool need_fbc_vtd_wa(struct drm_i915_private *dev_priv)
{
/* WaFbcTurnOffFbcWhenHyperVisorIsUsed:skl,bxt */
if (intel_vtd_active() &&
(IS_SKYLAKE(dev_priv) || IS_BROXTON(dev_priv))) {
DRM_INFO("Disabling framebuffer compression (FBC) to prevent screen flicker with VT-d enabled\n");
return true;
}
return false;
}
/**
* intel_fbc_init - Initialize FBC
* @dev_priv: the i915 device
*
* This function might be called during PM init process.
*/
void intel_fbc_init(struct drm_i915_private *dev_priv)
{
struct intel_fbc *fbc = &dev_priv->fbc;
INIT_WORK(&fbc->underrun_work, intel_fbc_underrun_work_fn);
mutex_init(&fbc->lock);
fbc->enabled = false;
fbc->active = false;
if (need_fbc_vtd_wa(dev_priv))
mkwrite_device_info(dev_priv)->display.has_fbc = false;
i915_modparams.enable_fbc = intel_sanitize_fbc_option(dev_priv);
DRM_DEBUG_KMS("Sanitized enable_fbc value: %d\n",
i915_modparams.enable_fbc);
if (!HAS_FBC(dev_priv)) {
fbc->no_fbc_reason = "unsupported by this chipset";
return;
}
/* This value was pulled out of someone's hat */
if (INTEL_GEN(dev_priv) <= 4 && !IS_GM45(dev_priv))
I915_WRITE(FBC_CONTROL, 500 << FBC_CTL_INTERVAL_SHIFT);
/* We still don't have any sort of hardware state readout for FBC, so
* deactivate it in case the BIOS activated it to make sure software
* matches the hardware state. */
if (intel_fbc_hw_is_active(dev_priv))
intel_fbc_hw_deactivate(dev_priv);
}
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