/* * Copyright (c) 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. * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include #if HAVE_X11_EXTENSIONS_SHMPROTO_H #include #elif HAVE_X11_EXTENSIONS_SHMSTR_H #include #else #error Failed to find the right header for X11 MIT-SHM protocol definitions #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dri3.h" #define ALIGN(x, y) (((x) + (y) - 1) & -(y)) #define PAGE_ALIGN(x) ALIGN(x, 4096) #define GTT I915_GEM_DOMAIN_GTT #define CPU I915_GEM_DOMAIN_CPU static int _x_error_occurred; static uint32_t stamp; static int _check_error_handler(Display *display, XErrorEvent *event) { printf("X11 error from display %s, serial=%ld, error=%d, req=%d.%d\n", DisplayString(display), event->serial, event->error_code, event->request_code, event->minor_code); _x_error_occurred++; return False; /* ignored */ } static int is_i915_device(int fd) { drm_version_t version; char name[5] = ""; memset(&version, 0, sizeof(version)); version.name_len = 4; version.name = name; if (drmIoctl(fd, DRM_IOCTL_VERSION, &version)) return 0; return strcmp("i915", name) == 0; } static int is_intel(int fd) { struct drm_i915_getparam gp; int ret; /* Confirm that this is a i915.ko device with GEM/KMS enabled */ ret = is_i915_device(fd); if (ret) { gp.param = I915_PARAM_HAS_GEM; gp.value = &ret; if (drmIoctl(fd, DRM_IOCTL_I915_GETPARAM, &gp)) ret = 0; } return ret; } static void *setup_msc(Display *dpy, Window win) { xcb_connection_t *c = XGetXCBConnection(dpy); xcb_void_cookie_t cookie; uint32_t id = xcb_generate_id(c); xcb_generic_error_t *error; void *q; cookie = xcb_present_select_input_checked(c, id, win, XCB_PRESENT_EVENT_MASK_COMPLETE_NOTIFY); q = xcb_register_for_special_xge(c, &xcb_present_id, id, &stamp); error = xcb_request_check(c, cookie); assert(error == NULL); return q; } static uint64_t check_msc(Display *dpy, Window win, void *q, uint64_t last_msc) { xcb_connection_t *c = XGetXCBConnection(dpy); static uint32_t serial = 1; uint64_t msc = 0; int complete = 0; xcb_present_notify_msc(c, win, serial, 0, 0, 0); xcb_flush(c); do { xcb_present_complete_notify_event_t *ce; xcb_generic_event_t *ev; ev = xcb_wait_for_special_event(c, q); if (ev == NULL) break; ce = (xcb_present_complete_notify_event_t *)ev; if (ce->kind == XCB_PRESENT_COMPLETE_KIND_NOTIFY_MSC && ce->serial == serial) { msc = ce->msc; complete = 1; } free(ev); } while (!complete); if (msc < last_msc) { printf("Invalid MSC: was %llu, now %llu\n", (long long)last_msc, (long long)msc); } if (++serial == 0) serial = 1; return msc; } static void teardown_msc(Display *dpy, void *q) { xcb_unregister_for_special_event(XGetXCBConnection(dpy), q); } static int test_whole(Display *dpy) { xcb_connection_t *c = XGetXCBConnection(dpy); Pixmap pixmap; struct dri3_fence fence; Window root; unsigned int width, height; unsigned border, depth; int x, y, ret = 1; XGetGeometry(dpy, DefaultRootWindow(dpy), &root, &x, &y, &width, &height, &border, &depth); if (dri3_create_fence(dpy, root, &fence)) return 0; printf("Testing whole screen flip: %dx%d\n", width, height); _x_error_occurred = 0; xshmfence_reset(fence.addr); pixmap = XCreatePixmap(dpy, root, width, height, depth); xcb_present_pixmap(c, root, pixmap, 0, 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ fence.xid, XCB_PRESENT_OPTION_NONE, 0, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); XFreePixmap(dpy, pixmap); pixmap = XCreatePixmap(dpy, root, width, height, depth); xcb_present_pixmap(c, root, pixmap, 0, 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ None, /* sync fence */ XCB_PRESENT_OPTION_NONE, 0, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); XFreePixmap(dpy, pixmap); XFlush(dpy); ret = !!xshmfence_await(fence.addr); dri3_fence_free(dpy, &fence); XSync(dpy, True); ret += !!_x_error_occurred; return ret; } static int test_future(Display *dpy, void *Q) { #define N_VBLANKS 256 /* kernel event queue length: 128 vblanks */ xcb_connection_t *c = XGetXCBConnection(dpy); Pixmap pixmap; struct dri3_fence fence; Window root; xcb_xfixes_region_t region; unsigned int width, height; unsigned border, depth; int x, y, ret = 0, n; uint64_t target, final; int complete; XGetGeometry(dpy, DefaultRootWindow(dpy), &root, &x, &y, &width, &height, &border, &depth); if (dri3_create_fence(dpy, root, &fence)) return 0; printf("Testing whole screen flips into the future: %dx%d\n", width, height); _x_error_occurred = 0; region = xcb_generate_id(c); xcb_xfixes_create_region(c, region, 0, NULL); target = check_msc(dpy, root, Q, 0); pixmap = XCreatePixmap(dpy, root, width, height, depth); xshmfence_reset(fence.addr); for (n = N_VBLANKS; n--; ) xcb_present_pixmap(c, root, pixmap, 0, 0, /* valid */ region, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ None, XCB_PRESENT_OPTION_NONE, target + N_VBLANKS, /* target msc */ 1, /* divisor */ 0, /* remainder */ 0, NULL); xcb_present_pixmap(c, root, pixmap, 0, region, /* valid */ region, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ fence.xid, XCB_PRESENT_OPTION_NONE, target, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); xcb_flush(c); XSync(dpy, True); ret += !!xshmfence_await(fence.addr); final = check_msc(dpy, root, Q, 0); if (final < target) { printf("First flip too early, MSC was %llu, expected %llu\n", (long long)final, (long long)target); ret++; } else if (final > target + 1) { printf("First flip too late, MSC was %llu, expected %llu\n", (long long)final, (long long)target); ret++; } xshmfence_reset(fence.addr); xcb_present_pixmap(c, root, pixmap, 0, region, /* valid */ region, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ fence.xid, XCB_PRESENT_OPTION_NONE, target + N_VBLANKS, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); xcb_flush(c); ret += !!xshmfence_await(fence.addr); final = check_msc(dpy, root, Q, 0); if (final < target + N_VBLANKS) { printf("Last flip too early, MSC was %llu, expected %llu\n", (long long)final, (long long)(target + N_VBLANKS)); ret++; } else if (final > target + N_VBLANKS + 1) { printf("Last flip too late, MSC was %llu, expected %llu\n", (long long)final, (long long)(target + N_VBLANKS)); ret++; } xcb_present_pixmap(c, root, pixmap, 0xdeadbeef, 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ 0, XCB_PRESENT_OPTION_NONE, final + N_VBLANKS + 1, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); xcb_flush(c); complete = 0; do { xcb_present_complete_notify_event_t *ce; xcb_generic_event_t *ev; ev = xcb_wait_for_special_event(c, Q); if (ev == NULL) break; ce = (xcb_present_complete_notify_event_t *)ev; if (ce->kind != XCB_PRESENT_COMPLETE_KIND_PIXMAP) break; complete = ce->serial == 0xdeadbeef; free(ev); } while (!complete); XFreePixmap(dpy, pixmap); xcb_xfixes_destroy_region(c, region); dri3_fence_free(dpy, &fence); XSync(dpy, True); ret += !!_x_error_occurred; return ret; #undef N_VBLANKS } static int test_accuracy(Display *dpy, void *Q) { #define N_VBLANKS (60 * 120) /* ~2 minutes */ xcb_connection_t *c = XGetXCBConnection(dpy); Pixmap pixmap; Window root; unsigned int width, height; unsigned border, depth; int x, y, ret = 0, n; uint64_t target; int early = 0, late = 0; int complete; XGetGeometry(dpy, DefaultRootWindow(dpy), &root, &x, &y, &width, &height, &border, &depth); printf("Testing whole screen flip acccuracy: %dx%d\n", width, height); _x_error_occurred = 0; target = check_msc(dpy, root, Q, 0); pixmap = XCreatePixmap(dpy, root, width, height, depth); xcb_present_pixmap(c, root, pixmap, 0xdeadbeef, /* serial */ 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ None, XCB_PRESENT_OPTION_NONE, target + 60, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); xcb_flush(c); complete = 0; do { xcb_present_complete_notify_event_t *ce; xcb_generic_event_t *ev; ev = xcb_wait_for_special_event(c, Q); if (ev == NULL) break; ce = (xcb_present_complete_notify_event_t *)ev; if (ce->kind != XCB_PRESENT_COMPLETE_KIND_PIXMAP) break; complete = ce->serial == 0xdeadbeef; free(ev); } while (!complete); XSync(dpy, True); target = check_msc(dpy, root, Q, 0); for (n = 0; n <= N_VBLANKS; n++) xcb_present_pixmap(c, root, pixmap, target + 60 + n, /* serial */ 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ None, XCB_PRESENT_OPTION_NONE, target + 60 + n, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); xcb_flush(c); complete = 0; do { xcb_present_complete_notify_event_t *ce; xcb_generic_event_t *ev; int64_t msc; ev = xcb_wait_for_special_event(c, Q); if (ev == NULL) break; ce = (xcb_present_complete_notify_event_t *)ev; if (ce->kind != XCB_PRESENT_COMPLETE_KIND_PIXMAP) break; assert(ce->serial); msc = ce->msc - ce->serial; if (msc < 0) { fprintf(stderr, "frame %d displayed early by %lld frames\n", (int)(ce->serial - target - 60), (long long)msc); ret += -msc; early++; } else if (msc > 1) { /* allow the frame to slip by a vblank */ ret += msc; late++; } complete = ce->serial == target + 60 + N_VBLANKS; free(ev); } while (!complete); if (early) printf("%d frames shown too early! ", early); if (late) printf("%d fames shown too late!", late); if (early|late) printf("\n"); ret += !!_x_error_occurred; return ret; #undef N_VBLANKS } static inline XRRScreenResources *_XRRGetScreenResourcesCurrent(Display *dpy, Window window) { XRRScreenResources *res; res = XRRGetScreenResourcesCurrent(dpy, window); if (res == NULL) res = XRRGetScreenResources(dpy, window); return res; } static XRRModeInfo *lookup_mode(XRRScreenResources *res, int id) { int i; for (i = 0; i < res->nmode; i++) { if (res->modes[i].id == id) return &res->modes[i]; } return NULL; } static int for_each_crtc(Display *dpy, int (*func)(Display *dpy, RRCrtc crtc, int width, int height, void *closure), void *closure) { XRRScreenResources *res; XRRCrtcInfo **original_crtc; int i, j, err = 0; if (!XRRQueryVersion(dpy, &i, &j)) return -1; res = _XRRGetScreenResourcesCurrent(dpy, DefaultRootWindow(dpy)); if (res == NULL) return -1; original_crtc = malloc(sizeof(XRRCrtcInfo *)*res->ncrtc); for (i = 0; i < res->ncrtc; i++) original_crtc[i] = XRRGetCrtcInfo(dpy, res, res->crtcs[i]); printf("noutput=%d, ncrtc=%d\n", res->noutput, res->ncrtc); for (i = 0; i < res->noutput; i++) { XRROutputInfo *output; XRRModeInfo *mode; output = XRRGetOutputInfo(dpy, res, res->outputs[i]); if (output == NULL) continue; mode = NULL; if (res->nmode) mode = lookup_mode(res, output->modes[0]); for (j = 0; mode && j < output->ncrtc; j++) { printf("[%d, %d] -- OUTPUT:%ld, CRTC:%ld\n", i, j, (long)res->outputs[i], (long)output->crtcs[j]); XRRSetCrtcConfig(dpy, res, output->crtcs[j], CurrentTime, 0, 0, output->modes[0], RR_Rotate_0, &res->outputs[i], 1); XSync(dpy, True); err += func(dpy, output->crtcs[j], mode->width, mode->height, closure); XRRSetCrtcConfig(dpy, res, output->crtcs[j], CurrentTime, 0, 0, None, RR_Rotate_0, NULL, 0); XSync(dpy, True); } XRRFreeOutputInfo(output); } for (i = 0; i < res->ncrtc; i++) XRRSetCrtcConfig(dpy, res, res->crtcs[i], CurrentTime, original_crtc[i]->x, original_crtc[i]->y, original_crtc[i]->mode, original_crtc[i]->rotation, original_crtc[i]->outputs, original_crtc[i]->noutput); free(original_crtc); XRRFreeScreenResources(res); return err; } struct test_crtc { Window win; int depth; unsigned flags; struct dri3_fence fence; void *queue; uint64_t msc; }; #define SYNC 0x1 #define FUTURE 0x2 static int __test_crtc(Display *dpy, RRCrtc crtc, int width, int height, void *closure) { struct test_crtc *test = closure; Pixmap pixmap; int err = 0; test->msc = check_msc(dpy, test->win, test->queue, test->msc); if (test->flags & SYNC) xshmfence_reset(test->fence.addr); pixmap = XCreatePixmap(dpy, test->win, width, height, test->depth); xcb_present_pixmap(XGetXCBConnection(dpy), test->win, pixmap, 0, /* sbc */ 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ crtc, None, /* wait fence */ test->flags & SYNC ? test->fence.xid : None, XCB_PRESENT_OPTION_NONE, test->msc, /* target msc */ 1, /* divisor */ 0, /* remainder */ 0, NULL); if (test->flags & SYNC) { Pixmap tmp = XCreatePixmap(dpy, test->win, width, height, test->depth); xcb_present_pixmap(XGetXCBConnection(dpy), test->win, tmp, 1, /* sbc */ 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ crtc, None, /* wait fence */ None, /* sync fence */ XCB_PRESENT_OPTION_NONE, test->msc + (test->flags & FUTURE ? 5 * 16 : 1), /* target msc */ 1, /* divisor */ 0, /* remainder */ 0, NULL); XFreePixmap(dpy, tmp); XFlush(dpy); err += !!xshmfence_await(test->fence.addr); } XFreePixmap(dpy, pixmap); test->msc = check_msc(dpy, test->win, test->queue, test->msc); return err; } static int test_crtc(Display *dpy, void *queue, uint64_t last_msc) { struct test_crtc test; int err = 0; XSync(dpy, True); _x_error_occurred = 0; test.win = DefaultRootWindow(dpy); test.depth = DefaultDepth(dpy, DefaultScreen(dpy)); if (dri3_create_fence(dpy, test.win, &test.fence)) return -1; test.queue = queue; test.msc = last_msc; printf("Testing each crtc, without waiting for each flip\n"); test.flags = 0; test.msc = check_msc(dpy, test.win, test.queue, test.msc); err += for_each_crtc(dpy, __test_crtc, &test); test.msc = check_msc(dpy, test.win, test.queue, test.msc); printf("Testing each crtc, waiting for flips to complete\n"); test.flags = SYNC; test.msc = check_msc(dpy, test.win, test.queue, test.msc); err += for_each_crtc(dpy, __test_crtc, &test); test.msc = check_msc(dpy, test.win, test.queue, test.msc); printf("Testing each crtc, with future flips\n"); test.flags = FUTURE | SYNC; test.msc = check_msc(dpy, test.win, test.queue, test.msc); err += for_each_crtc(dpy, __test_crtc, &test); test.msc = check_msc(dpy, test.win, test.queue, test.msc); dri3_fence_free(dpy, &test.fence); XSync(dpy, True); err += !!_x_error_occurred; if (err) printf("%s: failures=%d\n", __func__, err); return err; } static int can_use_shm(Display *dpy) { int major, minor, has_pixmap; if (!XShmQueryExtension(dpy)) return 0; XShmQueryVersion(dpy, &major, &minor, &has_pixmap); return has_pixmap; } static int test_shm(Display *dpy) { Window win = DefaultRootWindow(dpy); XShmSegmentInfo shm; Pixmap pixmap; Window root; unsigned int width, height; unsigned border, depth; int x, y, ret = 1; if (!can_use_shm(dpy)) return 0; _x_error_occurred = 0; XGetGeometry(dpy, win, &root, &x, &y, &width, &height, &border, &depth); printf("Using %dx%d SHM\n", width, height); shm.shmid = shmget(IPC_PRIVATE, height * 4*width, IPC_CREAT | 0666); if (shm.shmid == -1) return 0; shm.shmaddr = shmat(shm.shmid, 0, 0); if (shm.shmaddr == (char *) -1) goto rmid; shm.readOnly = False; XShmAttach(dpy, &shm); pixmap = XShmCreatePixmap(dpy, DefaultRootWindow(dpy), shm.shmaddr, &shm, width, height, 24); if (_x_error_occurred) goto detach; xcb_present_pixmap(XGetXCBConnection(dpy), win, pixmap, 0, /* sbc */ 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ None, XCB_PRESENT_OPTION_NONE, 0, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); XFreePixmap(dpy, pixmap); XSync(dpy, True); if (_x_error_occurred) goto detach; ret = 0; detach: XShmDetach(dpy, &shm); shmdt(shm.shmaddr); XSync(dpy, False); rmid: shmctl(shm.shmid, IPC_RMID, NULL); return ret; } static uint32_t gem_create(int fd, int size) { struct drm_i915_gem_create create; create.handle = 0; create.size = size; (void)drmIoctl(fd, DRM_IOCTL_I915_GEM_CREATE, &create); return create.handle; } struct local_i915_gem_caching { uint32_t handle; uint32_t caching; }; #define LOCAL_I915_GEM_SET_CACHING 0x2f #define LOCAL_IOCTL_I915_GEM_SET_CACHING DRM_IOW(DRM_COMMAND_BASE + LOCAL_I915_GEM_SET_CACHING, struct local_i915_gem_caching) static int gem_set_caching(int fd, uint32_t handle, int caching) { struct local_i915_gem_caching arg; arg.handle = handle; arg.caching = caching; return drmIoctl(fd, LOCAL_IOCTL_I915_GEM_SET_CACHING, &arg) == 0; } static int gem_export(int fd, uint32_t handle) { struct drm_prime_handle args; args.handle = handle; args.flags = O_CLOEXEC; if (drmIoctl(fd, DRM_IOCTL_PRIME_HANDLE_TO_FD, &args)) return -1; return args.fd; } static void gem_close(int fd, uint32_t handle) { struct drm_gem_close close; close.handle = handle; (void)drmIoctl(fd, DRM_IOCTL_GEM_CLOSE, &close); } static int test_dri3(Display *dpy) { Window win = DefaultRootWindow(dpy); Pixmap pixmap; Window root; unsigned int width, height; unsigned border, depth; unsigned stride, size; int x, y, ret = 1; int device, handle; int bpp; device = dri3_open(dpy); if (device < 0) return 0; if (!is_intel(device)) return 0; printf("Opened Intel DRI3 device\n"); XGetGeometry(dpy, win, &root, &x, &y, &width, &height, &border, &depth); switch (depth) { case 8: bpp = 8; break; case 15: case 16: bpp = 16; break; case 24: case 32: bpp = 32; break; default: return 0; } stride = width * bpp/8; size = PAGE_ALIGN(stride * height); printf("Creating DRI3 %dx%d (source stride=%d, size=%d) for GTT\n", width, height, stride, size); pixmap = 0; handle = gem_create(device, size); if (handle) { pixmap = dri3_create_pixmap(dpy, root, width, height, depth, gem_export(device, handle), bpp, stride, size); gem_close(device, handle); } if (pixmap == 0) goto fail; xcb_present_pixmap(XGetXCBConnection(dpy), win, pixmap, 0, /* sbc */ 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ None, XCB_PRESENT_OPTION_NONE, 0, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); XFreePixmap(dpy, pixmap); XSync(dpy, True); if (_x_error_occurred) goto fail; printf("Creating DRI3 %dx%d (source stride=%d, size=%d) for CPU\n", width, height, stride, size); pixmap = 0; handle = gem_create(device, size); if (handle) { gem_set_caching(device, handle, CPU); handle = dri3_create_pixmap(dpy, root, width, height, depth, gem_export(device, handle), bpp, stride, size); gem_close(device, handle); } if (pixmap == 0) goto fail; xcb_present_pixmap(XGetXCBConnection(dpy), win, pixmap, 0, /* sbc */ 0, /* valid */ 0, /* update */ 0, /* x_off */ 0, /* y_off */ None, None, /* wait fence */ None, XCB_PRESENT_OPTION_NONE, 0, /* target msc */ 0, /* divisor */ 0, /* remainder */ 0, NULL); XFreePixmap(dpy, pixmap); XSync(dpy, True); if (_x_error_occurred) goto fail; ret = 0; fail: close(device); return ret; } static int has_present(Display *dpy) { xcb_connection_t *c = XGetXCBConnection(dpy); xcb_generic_error_t *error = NULL; void *reply; reply = xcb_xfixes_query_version_reply(c, xcb_xfixes_query_version(c, XCB_XFIXES_MAJOR_VERSION, XCB_XFIXES_MINOR_VERSION), &error); free(reply); free(error); if (reply == NULL) { fprintf(stderr, "XFixes not supported on %s\n", DisplayString(dpy)); return 0; } reply = xcb_dri3_query_version_reply(c, xcb_dri3_query_version(c, XCB_DRI3_MAJOR_VERSION, XCB_DRI3_MINOR_VERSION), &error); free(reply); free(error); if (reply == NULL) { fprintf(stderr, "DRI3 not supported on %s\n", DisplayString(dpy)); return 0; } reply = xcb_present_query_version_reply(c, xcb_present_query_version(c, XCB_PRESENT_MAJOR_VERSION, XCB_PRESENT_MINOR_VERSION), &error); free(reply); free(error); if (reply == NULL) { fprintf(stderr, "Present not supported on %s\n", DisplayString(dpy)); return 0; } return 1; } int main(void) { Display *dpy; Window root; int error = 0; uint64_t last_msc; void *queue; dpy = XOpenDisplay(NULL); if (dpy == NULL) return 77; if (!has_present(dpy)) return 77; root = DefaultRootWindow(dpy); signal(SIGALRM, SIG_IGN); XSetErrorHandler(_check_error_handler); queue = setup_msc(dpy, root); last_msc = check_msc(dpy, root, queue, 0); error += test_whole(dpy); last_msc = check_msc(dpy, root, queue, last_msc); error += test_future(dpy, queue); last_msc = check_msc(dpy, root, queue, last_msc); error += test_accuracy(dpy, queue); last_msc = check_msc(dpy, root, queue, last_msc); error += test_crtc(dpy, queue, last_msc); last_msc = check_msc(dpy, root, queue, last_msc); error += test_shm(dpy); last_msc = check_msc(dpy, root, queue, last_msc); error += test_dri3(dpy); last_msc = check_msc(dpy, root, queue, last_msc); teardown_msc(dpy, queue); return !!error; }