/* * Copyright 2008 Kristian Høgsberg * Copyright 2008 Jérôme Glisse * * All Rights Reserved. * * 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 on 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 * NON-INFRINGEMENT. IN NO EVENT SHALL ATI, VA LINUX SYSTEMS AND/OR * THEIR SUPPLIERS 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. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "amdgpu_drv.h" #include "amdgpu_dri2.h" #include "amdgpu_glamor.h" #include "amdgpu_video.h" #include "amdgpu_pixmap.h" #ifdef DRI2 #include #include #include #include #include #include #include "amdgpu_bo_helper.h" #include "amdgpu_version.h" #include #include #include #define FALLBACK_SWAP_DELAY 16 typedef DRI2BufferPtr BufferPtr; struct dri2_buffer_priv { PixmapPtr pixmap; unsigned int attachment; unsigned int refcnt; }; struct dri2_window_priv { xf86CrtcPtr crtc; int vblank_delta; }; static DevPrivateKeyRec dri2_window_private_key_rec; #define dri2_window_private_key (&dri2_window_private_key_rec) #define get_dri2_window_priv(window) \ ((struct dri2_window_priv*) \ dixLookupPrivate(&(window)->devPrivates, dri2_window_private_key)) /* Get GEM flink name for a pixmap */ static Bool amdgpu_get_flink_name(AMDGPUEntPtr pAMDGPUEnt, PixmapPtr pixmap, uint32_t *name) { struct amdgpu_buffer *bo = amdgpu_get_pixmap_bo(pixmap); struct drm_gem_flink flink; if (bo && !(bo->flags & AMDGPU_BO_FLAGS_GBM) && amdgpu_bo_export(bo->bo.amdgpu, amdgpu_bo_handle_type_gem_flink_name, name) == 0) return TRUE; if (!amdgpu_pixmap_get_handle(pixmap, &flink.handle) || ioctl(pAMDGPUEnt->fd, DRM_IOCTL_GEM_FLINK, &flink) < 0) return FALSE; *name = flink.name; return TRUE; } static BufferPtr amdgpu_dri2_create_buffer2(ScreenPtr pScreen, DrawablePtr drawable, unsigned int attachment, unsigned int format) { ScrnInfoPtr pScrn = xf86ScreenToScrn(pScreen); AMDGPUEntPtr pAMDGPUEnt = AMDGPUEntPriv(pScrn); AMDGPUInfoPtr info = AMDGPUPTR(pScrn); BufferPtr buffers; struct dri2_buffer_priv *privates; PixmapPtr pixmap; unsigned front_width; unsigned aligned_width = drawable->width; unsigned height = drawable->height; Bool is_glamor_pixmap = FALSE; int depth; int cpp; if (format) { depth = format; switch (depth) { case 15: cpp = 2; break; case 24: case 30: cpp = 4; break; default: cpp = depth / 8; } } else { depth = drawable->depth; cpp = drawable->bitsPerPixel / 8; } front_width = pScreen->GetScreenPixmap(pScreen)->drawable.width; pixmap = NULL; if (attachment == DRI2BufferFrontLeft) { uint32_t handle; pixmap = get_drawable_pixmap(drawable); if (pScreen != pixmap->drawable.pScreen) pixmap = NULL; else if (info->use_glamor && !amdgpu_pixmap_get_handle(pixmap, &handle)) { is_glamor_pixmap = TRUE; aligned_width = pixmap->drawable.width; height = pixmap->drawable.height; pixmap = NULL; } else pixmap->refcnt++; } if (!pixmap && (is_glamor_pixmap || attachment != DRI2BufferFrontLeft)) { if (aligned_width == front_width) aligned_width = pScrn->virtualX; pixmap = (*pScreen->CreatePixmap) (pScreen, aligned_width, height, depth, AMDGPU_CREATE_PIXMAP_DRI2); } if (!pixmap) return NULL; buffers = calloc(1, sizeof *buffers); if (!buffers) goto error; if (is_glamor_pixmap) { pixmap = amdgpu_glamor_set_pixmap_bo(drawable, pixmap); pixmap->refcnt++; } if (!amdgpu_get_flink_name(pAMDGPUEnt, pixmap, &buffers->name)) goto error; privates = calloc(1, sizeof(struct dri2_buffer_priv)); if (!privates) goto error; buffers->attachment = attachment; buffers->pitch = pixmap->devKind; buffers->cpp = cpp; buffers->driverPrivate = privates; buffers->format = format; buffers->flags = 0; /* not tiled */ privates->pixmap = pixmap; privates->attachment = attachment; privates->refcnt = 1; return buffers; error: free(buffers); (*pScreen->DestroyPixmap) (pixmap); return NULL; } static void amdgpu_dri2_destroy_buffer2(ScreenPtr pScreen, DrawablePtr drawable, BufferPtr buffers) { if (buffers) { struct dri2_buffer_priv *private = buffers->driverPrivate; /* Trying to free an already freed buffer is unlikely to end well */ if (private->refcnt == 0) { ScrnInfoPtr scrn = xf86ScreenToScrn(pScreen); xf86DrvMsg(scrn->scrnIndex, X_WARNING, "Attempted to destroy previously destroyed buffer.\ This is a programming error\n"); return; } private->refcnt--; if (private->refcnt == 0) { if (private->pixmap) (*pScreen->DestroyPixmap) (private->pixmap); free(buffers->driverPrivate); free(buffers); } } } static inline PixmapPtr GetDrawablePixmap(DrawablePtr drawable) { if (drawable->type == DRAWABLE_PIXMAP) return (PixmapPtr) drawable; else { struct _Window *pWin = (struct _Window *)drawable; return drawable->pScreen->GetWindowPixmap(pWin); } } static void amdgpu_dri2_copy_region2(ScreenPtr pScreen, DrawablePtr drawable, RegionPtr region, BufferPtr dest_buffer, BufferPtr src_buffer) { struct dri2_buffer_priv *src_private = src_buffer->driverPrivate; struct dri2_buffer_priv *dst_private = dest_buffer->driverPrivate; DrawablePtr src_drawable; DrawablePtr dst_drawable; RegionPtr copy_clip; GCPtr gc; Bool translate = FALSE; int off_x = 0, off_y = 0; src_drawable = &src_private->pixmap->drawable; dst_drawable = &dst_private->pixmap->drawable; if (src_private->attachment == DRI2BufferFrontLeft) { if (drawable->pScreen != pScreen) { src_drawable = DRI2UpdatePrime(drawable, src_buffer); if (!src_drawable) return; } else src_drawable = drawable; } if (dst_private->attachment == DRI2BufferFrontLeft) { if (drawable->pScreen != pScreen) { dst_drawable = DRI2UpdatePrime(drawable, dest_buffer); if (!dst_drawable) return; if (dst_drawable != drawable) translate = TRUE; } else dst_drawable = drawable; } if (translate && drawable->type == DRAWABLE_WINDOW) { PixmapPtr pPix = GetDrawablePixmap(drawable); off_x = drawable->x - pPix->screen_x; off_y = drawable->y - pPix->screen_y; } gc = GetScratchGC(dst_drawable->depth, pScreen); copy_clip = REGION_CREATE(pScreen, NULL, 0); REGION_COPY(pScreen, copy_clip, region); if (translate) { REGION_TRANSLATE(pScreen, copy_clip, off_x, off_y); } (*gc->funcs->ChangeClip) (gc, CT_REGION, copy_clip, 0); ValidateGC(dst_drawable, gc); (*gc->ops->CopyArea) (src_drawable, dst_drawable, gc, 0, 0, drawable->width, drawable->height, off_x, off_y); FreeScratchGC(gc); } enum DRI2FrameEventType { DRI2_SWAP, DRI2_FLIP, DRI2_WAITMSC, }; typedef struct _DRI2FrameEvent { XID drawable_id; ClientPtr client; enum DRI2FrameEventType type; unsigned frame; xf86CrtcPtr crtc; OsTimerPtr timer; uintptr_t drm_queue_seq; /* for swaps & flips only */ DRI2SwapEventPtr event_complete; void *event_data; DRI2BufferPtr front; DRI2BufferPtr back; } DRI2FrameEventRec, *DRI2FrameEventPtr; static int DRI2InfoCnt; static void amdgpu_dri2_ref_buffer(BufferPtr buffer) { struct dri2_buffer_priv *private = buffer->driverPrivate; private->refcnt++; } static void amdgpu_dri2_unref_buffer(BufferPtr buffer) { if (buffer) { struct dri2_buffer_priv *private = buffer->driverPrivate; DrawablePtr draw = &private->pixmap->drawable; amdgpu_dri2_destroy_buffer2(draw->pScreen, draw, buffer); } } static void amdgpu_dri2_client_state_changed(CallbackListPtr * ClientStateCallback, pointer data, pointer calldata) { NewClientInfoRec *clientinfo = calldata; ClientPtr pClient = clientinfo->client; switch (pClient->clientState) { case ClientStateRetained: case ClientStateGone: amdgpu_drm_abort_client(pClient); break; default: break; } } /* * Get current frame count delta for the specified drawable and CRTC */ static uint32_t amdgpu_get_msc_delta(DrawablePtr pDraw, xf86CrtcPtr crtc) { drmmode_crtc_private_ptr drmmode_crtc = crtc->driver_private; if (pDraw && pDraw->type == DRAWABLE_WINDOW) return drmmode_crtc->interpolated_vblanks + get_dri2_window_priv((WindowPtr)pDraw)->vblank_delta; return drmmode_crtc->interpolated_vblanks; } /* * Get current frame count and timestamp of the specified CRTC */ static Bool amdgpu_dri2_get_crtc_msc(xf86CrtcPtr crtc, CARD64 *ust, CARD64 *msc) { drmmode_crtc_private_ptr drmmode_crtc = crtc->driver_private; if (!amdgpu_crtc_is_enabled(crtc) || drmmode_crtc_get_ust_msc(crtc, ust, msc) != Success) { /* CRTC is not running, extrapolate MSC and timestamp */ ScrnInfoPtr scrn = crtc->scrn; AMDGPUEntPtr pAMDGPUEnt = AMDGPUEntPriv(scrn); CARD64 now, delta_t, delta_seq; if (!drmmode_crtc->dpms_last_ust) return FALSE; if (drmmode_get_current_ust(pAMDGPUEnt->fd, &now) != 0) { xf86DrvMsg(scrn->scrnIndex, X_ERROR, "%s cannot get current time\n", __func__); return FALSE; } delta_t = now - drmmode_crtc->dpms_last_ust; delta_seq = delta_t * drmmode_crtc->dpms_last_fps; delta_seq /= 1000000; *ust = drmmode_crtc->dpms_last_ust; delta_t = delta_seq * 1000000; delta_t /= drmmode_crtc->dpms_last_fps; *ust += delta_t; *msc = drmmode_crtc->dpms_last_seq; *msc += delta_seq; } *msc += drmmode_crtc->interpolated_vblanks; return TRUE; } static xf86CrtcPtr amdgpu_dri2_drawable_crtc(DrawablePtr pDraw, Bool consider_disabled) { ScreenPtr pScreen = pDraw->pScreen; ScrnInfoPtr pScrn = xf86ScreenToScrn(pScreen); xf86CrtcPtr crtc = amdgpu_pick_best_crtc(pScrn, consider_disabled, pDraw->x, pDraw->x + pDraw->width, pDraw->y, pDraw->y + pDraw->height); if (crtc && pDraw->type == DRAWABLE_WINDOW) { struct dri2_window_priv *priv = get_dri2_window_priv((WindowPtr)pDraw); if (priv->crtc && priv->crtc != crtc) { CARD64 ust, mscold, mscnew; if (amdgpu_dri2_get_crtc_msc(priv->crtc, &ust, &mscold) && amdgpu_dri2_get_crtc_msc(crtc, &ust, &mscnew)) priv->vblank_delta += mscold - mscnew; } priv->crtc = crtc; } return crtc; } static void amdgpu_dri2_flip_event_abort(xf86CrtcPtr crtc, void *event_data) { if (crtc) AMDGPUPTR(crtc->scrn)->drmmode.dri2_flipping = FALSE; free(event_data); } static void amdgpu_dri2_flip_event_handler(xf86CrtcPtr crtc, uint32_t frame, uint64_t usec, void *event_data) { DRI2FrameEventPtr flip = event_data; ScrnInfoPtr scrn = crtc->scrn; unsigned tv_sec, tv_usec; DrawablePtr drawable; ScreenPtr screen; int status; PixmapPtr pixmap; status = dixLookupDrawable(&drawable, flip->drawable_id, serverClient, M_ANY, DixWriteAccess); if (status != Success) goto abort; frame += amdgpu_get_msc_delta(drawable, crtc); screen = scrn->pScreen; pixmap = screen->GetScreenPixmap(screen); xf86DrvMsgVerb(scrn->scrnIndex, X_INFO, AMDGPU_LOGLEVEL_DEBUG, "%s:%d fevent[%p] width %d pitch %d (/4 %d)\n", __func__, __LINE__, flip, pixmap->drawable.width, pixmap->devKind, pixmap->devKind / 4); tv_sec = usec / 1000000; tv_usec = usec % 1000000; /* We assume our flips arrive in order, so we don't check the frame */ switch (flip->type) { case DRI2_SWAP: /* Check for too small vblank count of pageflip completion, taking wraparound * into account. This usually means some defective kms pageflip completion, * causing wrong (msc, ust) return values and possible visual corruption. */ if ((frame < flip->frame) && (flip->frame - frame < 5)) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "%s: Pageflip completion event has impossible msc %u < target_msc %u\n", __func__, frame, flip->frame); /* All-Zero values signal failure of (msc, ust) timestamping to client. */ frame = tv_sec = tv_usec = 0; } DRI2SwapComplete(flip->client, drawable, frame, tv_sec, tv_usec, DRI2_FLIP_COMPLETE, flip->event_complete, flip->event_data); break; default: xf86DrvMsg(scrn->scrnIndex, X_WARNING, "%s: unknown vblank event received\n", __func__); /* Unknown type */ break; } abort: amdgpu_dri2_flip_event_abort(crtc, event_data); } static Bool amdgpu_dri2_schedule_flip(xf86CrtcPtr crtc, ClientPtr client, DrawablePtr draw, DRI2BufferPtr front, DRI2BufferPtr back, DRI2SwapEventPtr func, void *data, unsigned int target_msc) { ScrnInfoPtr scrn = crtc->scrn; AMDGPUInfoPtr info = AMDGPUPTR(scrn); struct dri2_buffer_priv *back_priv; DRI2FrameEventPtr flip_info; flip_info = calloc(1, sizeof(DRI2FrameEventRec)); if (!flip_info) return FALSE; flip_info->drawable_id = draw->id; flip_info->client = client; flip_info->type = DRI2_SWAP; flip_info->event_complete = func; flip_info->event_data = data; flip_info->frame = target_msc; flip_info->crtc = crtc; xf86DrvMsgVerb(scrn->scrnIndex, X_INFO, AMDGPU_LOGLEVEL_DEBUG, "%s:%d fevent[%p]\n", __func__, __LINE__, flip_info); /* Page flip the full screen buffer */ back_priv = back->driverPrivate; if (amdgpu_do_pageflip(scrn, client, back_priv->pixmap, AMDGPU_DRM_QUEUE_ID_DEFAULT, flip_info, crtc, amdgpu_dri2_flip_event_handler, amdgpu_dri2_flip_event_abort, FLIP_VSYNC, target_msc - amdgpu_get_msc_delta(draw, crtc))) { info->drmmode.dri2_flipping = TRUE; return TRUE; } return FALSE; } static Bool update_front(DrawablePtr draw, DRI2BufferPtr front) { ScreenPtr screen = draw->pScreen; ScrnInfoPtr scrn = xf86ScreenToScrn(screen); AMDGPUEntPtr pAMDGPUEnt = AMDGPUEntPriv(scrn); PixmapPtr pixmap = get_drawable_pixmap(draw); struct dri2_buffer_priv *priv = front->driverPrivate; if (!amdgpu_get_flink_name(pAMDGPUEnt, pixmap, &front->name)) return FALSE; (*draw->pScreen->DestroyPixmap) (priv->pixmap); front->pitch = pixmap->devKind; front->cpp = pixmap->drawable.bitsPerPixel / 8; priv->pixmap = pixmap; pixmap->refcnt++; return TRUE; } static Bool can_exchange(ScrnInfoPtr pScrn, DrawablePtr draw, DRI2BufferPtr front, DRI2BufferPtr back) { struct dri2_buffer_priv *front_priv = front->driverPrivate; struct dri2_buffer_priv *back_priv = back->driverPrivate; PixmapPtr front_pixmap; PixmapPtr back_pixmap = back_priv->pixmap; if (!update_front(draw, front)) return FALSE; front_pixmap = front_priv->pixmap; if (front_pixmap->drawable.width != back_pixmap->drawable.width) return FALSE; if (front_pixmap->drawable.height != back_pixmap->drawable.height) return FALSE; if (front_pixmap->drawable.bitsPerPixel != back_pixmap->drawable.bitsPerPixel) return FALSE; if (front_pixmap->devKind != back_pixmap->devKind) return FALSE; return TRUE; } static Bool can_flip(xf86CrtcPtr crtc, DrawablePtr draw, DRI2BufferPtr front, DRI2BufferPtr back) { ScrnInfoPtr pScrn = crtc->scrn; AMDGPUInfoPtr info = AMDGPUPTR(pScrn); xf86CrtcConfigPtr config = XF86_CRTC_CONFIG_PTR(pScrn); int num_crtcs_on; int i; if (draw->type != DRAWABLE_WINDOW || !info->allowPageFlip || info->sprites_visible > 0 || info->drmmode.present_flipping || !pScrn->vtSema || !DRI2CanFlip(draw)) return FALSE; for (i = 0, num_crtcs_on = 0; i < config->num_crtc; i++) { if (drmmode_crtc_can_flip(config->crtc[i])) num_crtcs_on++; } return num_crtcs_on > 0 && can_exchange(pScrn, draw, front, back); } static void amdgpu_dri2_exchange_buffers(DrawablePtr draw, DRI2BufferPtr front, DRI2BufferPtr back) { struct dri2_buffer_priv *front_priv = front->driverPrivate; struct dri2_buffer_priv *back_priv = back->driverPrivate; struct amdgpu_pixmap *front_pix; struct amdgpu_pixmap *back_pix; ScreenPtr screen; AMDGPUInfoPtr info; RegionRec region; int tmp; region.extents.x1 = region.extents.y1 = 0; region.extents.x2 = front_priv->pixmap->drawable.width; region.extents.y2 = front_priv->pixmap->drawable.height; region.data = NULL; DamageRegionAppend(&front_priv->pixmap->drawable, ®ion); /* Swap BO names so DRI works */ tmp = front->name; front->name = back->name; back->name = tmp; /* Swap pixmap privates */ front_pix = amdgpu_get_pixmap_private(front_priv->pixmap); back_pix = amdgpu_get_pixmap_private(back_priv->pixmap); amdgpu_set_pixmap_private(front_priv->pixmap, back_pix); amdgpu_set_pixmap_private(back_priv->pixmap, front_pix); /* Do we need to update the Screen? */ screen = draw->pScreen; info = AMDGPUPTR(xf86ScreenToScrn(screen)); if (front_pix->bo == info->front_buffer) { struct amdgpu_pixmap *screen_priv = amdgpu_get_pixmap_private(screen->GetScreenPixmap(screen)); amdgpu_bo_ref(back_pix->bo); amdgpu_bo_unref(&info->front_buffer); info->front_buffer = back_pix->bo; *screen_priv = *back_pix; } amdgpu_glamor_exchange_buffers(front_priv->pixmap, back_priv->pixmap); DamageRegionProcessPending(&front_priv->pixmap->drawable); } static void amdgpu_dri2_frame_event_abort(xf86CrtcPtr crtc, void *event_data) { DRI2FrameEventPtr event = event_data; TimerCancel(event->timer); TimerFree(event->timer); amdgpu_dri2_unref_buffer(event->front); amdgpu_dri2_unref_buffer(event->back); free(event); } static void amdgpu_dri2_frame_event_handler(xf86CrtcPtr crtc, uint32_t seq, uint64_t usec, void *event_data) { DRI2FrameEventPtr event = event_data; ScrnInfoPtr scrn = crtc->scrn; DrawablePtr drawable; int status; int swap_type; BoxRec box; RegionRec region; status = dixLookupDrawable(&drawable, event->drawable_id, serverClient, M_ANY, DixWriteAccess); if (status != Success) goto cleanup; seq += amdgpu_get_msc_delta(drawable, crtc); switch (event->type) { case DRI2_FLIP: if (can_flip(crtc, drawable, event->front, event->back) && amdgpu_dri2_schedule_flip(crtc, event->client, drawable, event->front, event->back, event->event_complete, event->event_data, event->frame)) { amdgpu_dri2_exchange_buffers(drawable, event->front, event->back); break; } /* else fall through to exchange/blit */ case DRI2_SWAP: if (DRI2CanExchange(drawable) && can_exchange(scrn, drawable, event->front, event->back)) { amdgpu_dri2_exchange_buffers(drawable, event->front, event->back); swap_type = DRI2_EXCHANGE_COMPLETE; } else { box.x1 = 0; box.y1 = 0; box.x2 = drawable->width; box.y2 = drawable->height; REGION_INIT(pScreen, ®ion, &box, 0); amdgpu_dri2_copy_region2(drawable->pScreen, drawable, ®ion, event->front, event->back); swap_type = DRI2_BLIT_COMPLETE; } DRI2SwapComplete(event->client, drawable, seq, usec / 1000000, usec % 1000000, swap_type, event->event_complete, event->event_data); break; case DRI2_WAITMSC: DRI2WaitMSCComplete(event->client, drawable, seq, usec / 1000000, usec % 1000000); break; default: /* Unknown type */ xf86DrvMsg(scrn->scrnIndex, X_WARNING, "%s: unknown vblank event received\n", __func__); break; } cleanup: amdgpu_dri2_frame_event_abort(crtc, event_data); } /* * This function should be called on a disabled CRTC only (i.e., CRTC * in DPMS-off state). It will calculate the delay necessary to reach * target_msc from present time if the CRTC were running. */ static CARD32 amdgpu_dri2_extrapolate_msc_delay(xf86CrtcPtr crtc, CARD64 * target_msc, CARD64 divisor, CARD64 remainder) { drmmode_crtc_private_ptr drmmode_crtc = crtc->driver_private; ScrnInfoPtr pScrn = crtc->scrn; AMDGPUEntPtr pAMDGPUEnt = AMDGPUEntPriv(pScrn); int nominal_frame_rate = drmmode_crtc->dpms_last_fps; CARD64 last_vblank_ust = drmmode_crtc->dpms_last_ust; uint32_t last_vblank_seq = drmmode_crtc->dpms_last_seq; CARD64 now, target_time, delta_t; int64_t d, delta_seq; int ret; CARD32 d_ms; if (!last_vblank_ust) { *target_msc = 0; return FALLBACK_SWAP_DELAY; } ret = drmmode_get_current_ust(pAMDGPUEnt->fd, &now); if (ret) { xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "%s cannot get current time\n", __func__); *target_msc = 0; return FALLBACK_SWAP_DELAY; } delta_seq = *target_msc - last_vblank_seq; delta_seq *= 1000000; target_time = last_vblank_ust; target_time += delta_seq / nominal_frame_rate; d = target_time - now; if (d < 0) { /* we missed the event, adjust target_msc, do the divisor magic */ CARD64 current_msc = last_vblank_seq; delta_t = now - last_vblank_ust; delta_seq = delta_t * nominal_frame_rate; current_msc += delta_seq / 1000000; current_msc &= 0xffffffff; if (divisor == 0) { *target_msc = current_msc; d = 0; } else { *target_msc = current_msc - (current_msc % divisor) + remainder; if ((current_msc % divisor) >= remainder) *target_msc += divisor; *target_msc &= 0xffffffff; delta_seq = *target_msc - last_vblank_seq; delta_seq *= 1000000; target_time = last_vblank_ust; target_time += delta_seq / nominal_frame_rate; d = target_time - now; } } /* * convert delay to milliseconds and add margin to prevent the client * from coming back early (due to timer granularity and rounding * errors) and getting the same MSC it just got */ d_ms = (CARD32) d / 1000; if ((CARD32) d - d_ms * 1000 > 0) d_ms += 2; else d_ms++; return d_ms; } /* * Get current interpolated frame count and frame count timestamp, based on * drawable's crtc. */ static int amdgpu_dri2_get_msc(DrawablePtr draw, CARD64 * ust, CARD64 * msc) { xf86CrtcPtr crtc = amdgpu_dri2_drawable_crtc(draw, TRUE); /* Drawable not displayed, make up a value */ if (!crtc) { *ust = 0; *msc = 0; return TRUE; } if (!amdgpu_dri2_get_crtc_msc(crtc, ust, msc)) return FALSE; if (draw && draw->type == DRAWABLE_WINDOW) *msc += get_dri2_window_priv((WindowPtr)draw)->vblank_delta; *msc &= 0xffffffff; return TRUE; } static CARD32 amdgpu_dri2_deferred_event(OsTimerPtr timer, CARD32 now, pointer data) { DRI2FrameEventPtr event_info = (DRI2FrameEventPtr) data; xf86CrtcPtr crtc = event_info->crtc; ScrnInfoPtr scrn; AMDGPUEntPtr pAMDGPUEnt; CARD64 drm_now; int ret; CARD64 delta_t, delta_seq, frame; drmmode_crtc_private_ptr drmmode_crtc; /* * This is emulated event, so its time is current time, which we * have to get in DRM-compatible form (which is a bit messy given * the information that we have at this point). Can't use now argument * because DRM event time may come from monotonic clock, while * DIX timer facility uses real-time clock. */ if (!event_info->crtc) { ErrorF("%s no crtc\n", __func__); if (event_info->drm_queue_seq) amdgpu_drm_abort_entry(event_info->drm_queue_seq); else amdgpu_dri2_frame_event_abort(NULL, data); return 0; } scrn = crtc->scrn; pAMDGPUEnt = AMDGPUEntPriv(scrn); drmmode_crtc = event_info->crtc->driver_private; ret = drmmode_get_current_ust(pAMDGPUEnt->fd, &drm_now); if (ret) { xf86DrvMsg(scrn->scrnIndex, X_ERROR, "%s cannot get current time\n", __func__); if (event_info->drm_queue_seq) drmmode_crtc->drmmode->event_context. vblank_handler(pAMDGPUEnt->fd, 0, 0, 0, (void*)event_info->drm_queue_seq); else amdgpu_dri2_frame_event_handler(crtc, 0, 0, data); return 0; } /* * calculate the frame number from current time * that would come from CRTC if it were running */ delta_t = drm_now - (CARD64) drmmode_crtc->dpms_last_ust; delta_seq = delta_t * drmmode_crtc->dpms_last_fps; delta_seq /= 1000000; frame = (CARD64) drmmode_crtc->dpms_last_seq + delta_seq; if (event_info->drm_queue_seq) drmmode_crtc->drmmode->event_context. vblank_handler(pAMDGPUEnt->fd, frame, drm_now / 1000000, drm_now % 1000000, (void*)event_info->drm_queue_seq); else amdgpu_dri2_frame_event_handler(crtc, frame, drm_now, data); return 0; } static void amdgpu_dri2_schedule_event(CARD32 delay, DRI2FrameEventPtr event_info) { event_info->timer = TimerSet(NULL, 0, delay, amdgpu_dri2_deferred_event, event_info); if (delay == 0) { CARD32 now = GetTimeInMillis(); amdgpu_dri2_deferred_event(event_info->timer, now, event_info); } } /* * Request a DRM event when the requested conditions will be satisfied. * * We need to handle the event and ask the server to wake up the client when * we receive it. */ static int amdgpu_dri2_schedule_wait_msc(ClientPtr client, DrawablePtr draw, CARD64 target_msc, CARD64 divisor, CARD64 remainder) { ScreenPtr screen = draw->pScreen; ScrnInfoPtr scrn = xf86ScreenToScrn(screen); DRI2FrameEventPtr wait_info = NULL; uintptr_t drm_queue_seq = 0; xf86CrtcPtr crtc = amdgpu_dri2_drawable_crtc(draw, TRUE); uint32_t msc_delta; uint32_t seq; CARD64 current_msc; /* Truncate to match kernel interfaces; means occasional overflow * misses, but that's generally not a big deal */ target_msc &= 0xffffffff; divisor &= 0xffffffff; remainder &= 0xffffffff; /* Drawable not visible, return immediately */ if (!crtc) goto out_complete; msc_delta = amdgpu_get_msc_delta(draw, crtc); wait_info = calloc(1, sizeof(DRI2FrameEventRec)); if (!wait_info) goto out_complete; wait_info->drawable_id = draw->id; wait_info->client = client; wait_info->type = DRI2_WAITMSC; wait_info->crtc = crtc; /* * CRTC is in DPMS off state, calculate wait time from current time, * target_msc and last vblank time/sequence when CRTC was turned off */ if (!amdgpu_crtc_is_enabled(crtc)) { CARD32 delay; target_msc -= msc_delta; delay = amdgpu_dri2_extrapolate_msc_delay(crtc, &target_msc, divisor, remainder); amdgpu_dri2_schedule_event(delay, wait_info); DRI2BlockClient(client, draw); return TRUE; } /* Get current count */ if (!drmmode_wait_vblank(crtc, DRM_VBLANK_RELATIVE, 0, 0, NULL, &seq)) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "get vblank counter failed: %s\n", strerror(errno)); goto out_complete; } current_msc = seq + msc_delta; current_msc &= 0xffffffff; drm_queue_seq = amdgpu_drm_queue_alloc(crtc, client, AMDGPU_DRM_QUEUE_ID_DEFAULT, wait_info, amdgpu_dri2_frame_event_handler, amdgpu_dri2_frame_event_abort, FALSE); if (drm_queue_seq == AMDGPU_DRM_QUEUE_ERROR) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "Allocating DRM queue event entry failed.\n"); goto out_complete; } wait_info->drm_queue_seq = drm_queue_seq; /* * If divisor is zero, or current_msc is smaller than target_msc, * we just need to make sure target_msc passes before waking up the * client. */ if (divisor == 0 || current_msc < target_msc) { /* If target_msc already reached or passed, set it to * current_msc to ensure we return a reasonable value back * to the caller. This keeps the client from continually * sending us MSC targets from the past by forcibly updating * their count on this call. */ if (current_msc >= target_msc) target_msc = current_msc; if (!drmmode_wait_vblank(crtc, DRM_VBLANK_ABSOLUTE | DRM_VBLANK_EVENT, target_msc - msc_delta, drm_queue_seq, NULL, NULL)) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "get vblank counter failed: %s\n", strerror(errno)); goto out_complete; } DRI2BlockClient(client, draw); return TRUE; } /* * If we get here, target_msc has already passed or we don't have one, * so we queue an event that will satisfy the divisor/remainder equation. */ target_msc = current_msc - (current_msc % divisor) + remainder - msc_delta; /* * If calculated remainder is larger than requested remainder, * it means we've passed the last point where * seq % divisor == remainder, so we need to wait for the next time * that will happen. */ if ((current_msc % divisor) >= remainder) target_msc += divisor; if (!drmmode_wait_vblank(crtc, DRM_VBLANK_ABSOLUTE | DRM_VBLANK_EVENT, target_msc, drm_queue_seq, NULL, NULL)) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "get vblank counter failed: %s\n", strerror(errno)); goto out_complete; } DRI2BlockClient(client, draw); return TRUE; out_complete: if (wait_info) amdgpu_dri2_deferred_event(NULL, 0, wait_info); return TRUE; } /* * ScheduleSwap is responsible for requesting a DRM vblank event for the * appropriate frame. * * In the case of a blit (e.g. for a windowed swap) or buffer exchange, * the vblank requested can simply be the last queued swap frame + the swap * interval for the drawable. * * In the case of a page flip, we request an event for the last queued swap * frame + swap interval - 1, since we'll need to queue the flip for the frame * immediately following the received event. * * The client will be blocked if it tries to perform further GL commands * after queueing a swap, though in the Intel case after queueing a flip, the * client is free to queue more commands; they'll block in the kernel if * they access buffers busy with the flip. * * When the swap is complete, the driver should call into the server so it * can send any swap complete events that have been requested. */ static int amdgpu_dri2_schedule_swap(ClientPtr client, DrawablePtr draw, DRI2BufferPtr front, DRI2BufferPtr back, CARD64 * target_msc, CARD64 divisor, CARD64 remainder, DRI2SwapEventPtr func, void *data) { ScreenPtr screen = draw->pScreen; ScrnInfoPtr scrn = xf86ScreenToScrn(screen); xf86CrtcPtr crtc = amdgpu_dri2_drawable_crtc(draw, TRUE); uint32_t msc_delta; drmVBlankSeqType type; uint32_t seq; int flip = 0; DRI2FrameEventPtr swap_info = NULL; uintptr_t drm_queue_seq; CARD64 current_msc, event_msc; BoxRec box; RegionRec region; /* Truncate to match kernel interfaces; means occasional overflow * misses, but that's generally not a big deal */ *target_msc &= 0xffffffff; divisor &= 0xffffffff; remainder &= 0xffffffff; /* amdgpu_dri2_frame_event_handler will get called some unknown time in the * future with these buffers. Take a reference to ensure that they won't * get destroyed before then. */ amdgpu_dri2_ref_buffer(front); amdgpu_dri2_ref_buffer(back); /* either off-screen or CRTC not usable... just complete the swap */ if (!crtc) goto blit_fallback; msc_delta = amdgpu_get_msc_delta(draw, crtc); swap_info = calloc(1, sizeof(DRI2FrameEventRec)); if (!swap_info) goto blit_fallback; swap_info->type = DRI2_SWAP; swap_info->drawable_id = draw->id; swap_info->client = client; swap_info->event_complete = func; swap_info->event_data = data; swap_info->front = front; swap_info->back = back; swap_info->crtc = crtc; drm_queue_seq = amdgpu_drm_queue_alloc(crtc, client, AMDGPU_DRM_QUEUE_ID_DEFAULT, swap_info, amdgpu_dri2_frame_event_handler, amdgpu_dri2_frame_event_abort, FALSE); if (drm_queue_seq == AMDGPU_DRM_QUEUE_ERROR) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "Allocating DRM queue entry failed.\n"); goto blit_fallback; } swap_info->drm_queue_seq = drm_queue_seq; /* * CRTC is in DPMS off state, fallback to blit, but calculate * wait time from current time, target_msc and last vblank * time/sequence when CRTC was turned off */ if (!amdgpu_crtc_is_enabled(crtc)) { CARD32 delay; *target_msc -= msc_delta; delay = amdgpu_dri2_extrapolate_msc_delay(crtc, target_msc, divisor, remainder); *target_msc += msc_delta; *target_msc &= 0xffffffff; amdgpu_dri2_schedule_event(delay, swap_info); return TRUE; } /* Get current count */ if (!drmmode_wait_vblank(crtc, DRM_VBLANK_RELATIVE, 0, 0, NULL, &seq)) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "first get vblank counter failed: %s\n", strerror(errno)); goto blit_fallback; } current_msc = seq + msc_delta; current_msc &= 0xffffffff; /* Flips need to be submitted one frame before */ if (can_flip(crtc, draw, front, back)) { swap_info->type = DRI2_FLIP; flip = 1; } /* Correct target_msc by 'flip' if swap_info->type == DRI2_FLIP. * Do it early, so handling of different timing constraints * for divisor, remainder and msc vs. target_msc works. */ if (*target_msc > 0) *target_msc -= flip; /* * If divisor is zero, or current_msc is smaller than target_msc * we just need to make sure target_msc passes before initiating * the swap. */ if (divisor == 0 || current_msc < *target_msc) { type = DRM_VBLANK_ABSOLUTE | DRM_VBLANK_EVENT; /* If non-pageflipping, but blitting/exchanging, we need to use * DRM_VBLANK_NEXTONMISS to avoid unreliable timestamping later * on. */ if (flip == 0) type |= DRM_VBLANK_NEXTONMISS; /* If target_msc already reached or passed, set it to * current_msc to ensure we return a reasonable value back * to the caller. This makes swap_interval logic more robust. */ if (current_msc >= *target_msc) *target_msc = current_msc; if (!drmmode_wait_vblank(crtc, type, *target_msc - msc_delta, drm_queue_seq, NULL, &seq)) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "divisor 0 get vblank counter failed: %s\n", strerror(errno)); goto blit_fallback; } *target_msc = seq + flip + msc_delta; *target_msc &= 0xffffffff; swap_info->frame = *target_msc; return TRUE; } /* * If we get here, target_msc has already passed or we don't have one, * and we need to queue an event that will satisfy the divisor/remainder * equation. */ type = DRM_VBLANK_ABSOLUTE | DRM_VBLANK_EVENT; if (flip == 0) type |= DRM_VBLANK_NEXTONMISS; event_msc = current_msc - (current_msc % divisor) + remainder - msc_delta; /* * If the calculated deadline vbl.request.sequence is smaller than * or equal to current_msc, it means we've passed the last point * when effective onset frame seq could satisfy * seq % divisor == remainder, so we need to wait for the next time * this will happen. * This comparison takes the 1 frame swap delay in pageflipping mode * into account, as well as a potential DRM_VBLANK_NEXTONMISS delay * if we are blitting/exchanging instead of flipping. */ if (event_msc <= current_msc) event_msc += divisor; /* Account for 1 frame extra pageflip delay if flip > 0 */ event_msc -= flip; if (!drmmode_wait_vblank(crtc, type, event_msc, drm_queue_seq, NULL, &seq)) { xf86DrvMsg(scrn->scrnIndex, X_WARNING, "final get vblank counter failed: %s\n", strerror(errno)); goto blit_fallback; } /* Adjust returned value for 1 fame pageflip offset of flip > 0 */ *target_msc = seq + flip + msc_delta; *target_msc &= 0xffffffff; swap_info->frame = *target_msc; return TRUE; blit_fallback: if (swap_info) { swap_info->type = DRI2_SWAP; amdgpu_dri2_schedule_event(FALLBACK_SWAP_DELAY, swap_info); } else { box.x1 = 0; box.y1 = 0; box.x2 = draw->width; box.y2 = draw->height; REGION_INIT(pScreen, ®ion, &box, 0); amdgpu_dri2_copy_region2(draw->pScreen, draw, ®ion, front, back); DRI2SwapComplete(client, draw, 0, 0, 0, DRI2_BLIT_COMPLETE, func, data); amdgpu_dri2_unref_buffer(front); amdgpu_dri2_unref_buffer(back); } *target_msc = 0; /* offscreen, so zero out target vblank count */ return TRUE; } Bool amdgpu_dri2_screen_init(ScreenPtr pScreen) { ScrnInfoPtr pScrn = xf86ScreenToScrn(pScreen); AMDGPUInfoPtr info = AMDGPUPTR(pScrn); AMDGPUEntPtr pAMDGPUEnt = AMDGPUEntPriv(pScrn); DRI2InfoRec dri2_info = { 0 }; const char *driverNames[2]; Bool scheduling_works = TRUE; if (!info->dri2.available) return FALSE; info->dri2.device_name = drmGetDeviceNameFromFd(pAMDGPUEnt->fd); dri2_info.driverName = SI_DRIVER_NAME; dri2_info.fd = pAMDGPUEnt->fd; dri2_info.deviceName = info->dri2.device_name; if (info->drmmode.count_crtcs > 2) { uint64_t cap_value; if (drmGetCap (pAMDGPUEnt->fd, DRM_CAP_VBLANK_HIGH_CRTC, &cap_value)) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "You need a newer kernel " "for VBLANKs on CRTC > 1\n"); scheduling_works = FALSE; } else if (!cap_value) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Your kernel does not " "handle VBLANKs on CRTC > 1\n"); scheduling_works = FALSE; } } if (scheduling_works) { dri2_info.ScheduleSwap = amdgpu_dri2_schedule_swap; dri2_info.GetMSC = amdgpu_dri2_get_msc; dri2_info.ScheduleWaitMSC = amdgpu_dri2_schedule_wait_msc; dri2_info.numDrivers = ARRAY_SIZE(driverNames); dri2_info.driverNames = driverNames; driverNames[0] = driverNames[1] = dri2_info.driverName; if (DRI2InfoCnt == 0) { if (!dixRegisterPrivateKey(dri2_window_private_key, PRIVATE_WINDOW, sizeof(struct dri2_window_priv))) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Failed to get DRI2 window private\n"); return FALSE; } AddCallback(&ClientStateCallback, amdgpu_dri2_client_state_changed, 0); } DRI2InfoCnt++; } dri2_info.version = 9; dri2_info.CreateBuffer2 = amdgpu_dri2_create_buffer2; dri2_info.DestroyBuffer2 = amdgpu_dri2_destroy_buffer2; dri2_info.CopyRegion2 = amdgpu_dri2_copy_region2; info->dri2.enabled = DRI2ScreenInit(pScreen, &dri2_info); return info->dri2.enabled; } void amdgpu_dri2_close_screen(ScreenPtr pScreen) { ScrnInfoPtr pScrn = xf86ScreenToScrn(pScreen); AMDGPUInfoPtr info = AMDGPUPTR(pScrn); if (--DRI2InfoCnt == 0) DeleteCallback(&ClientStateCallback, amdgpu_dri2_client_state_changed, 0); DRI2CloseScreen(pScreen); drmFree(info->dri2.device_name); } #endif /* DRI2 */