/* * Copyright © 2017 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. */ #include "igt.h" #include "sw_sync.h" #include "igt_syncobj.h" #include #include #include #include #include #include "drm.h" /** * TEST: syncobj wait * Description: Tests for the drm sync object wait API * Category: Core * Mega feature: General Core features * Sub-category: Synchronization * Functionality: semaphore * Feature: synchronization * Test category: GEM_Legacy * * SUBTEST: invalid-multi-wait-all-unsubmitted * * SUBTEST: invalid-multi-wait-all-unsubmitted-signaled * * SUBTEST: invalid-multi-wait-all-unsubmitted-submitted * * SUBTEST: invalid-multi-wait-all-unsubmitted-submitted-signaled * * SUBTEST: invalid-multi-wait-unsubmitted * * SUBTEST: invalid-multi-wait-unsubmitted-signaled * * SUBTEST: invalid-multi-wait-unsubmitted-submitted * * SUBTEST: invalid-multi-wait-unsubmitted-submitted-signaled * * SUBTEST: invalid-reset-bad-pad * * SUBTEST: invalid-reset-illegal-handle * * SUBTEST: invalid-reset-one-illegal-handle * * SUBTEST: invalid-reset-zero-handles * * SUBTEST: invalid-signal-bad-pad * * SUBTEST: invalid-signal-illegal-handle * * SUBTEST: invalid-signal-one-illegal-handle * * SUBTEST: invalid-signal-zero-handles * * SUBTEST: invalid-single-wait-all-unsubmitted * * SUBTEST: invalid-single-wait-unsubmitted * * SUBTEST: invalid-wait-bad-flags * * SUBTEST: invalid-wait-illegal-handle * * SUBTEST: multi-wait-all-for-submit-signaled * * SUBTEST: multi-wait-all-for-submit-submitted * * SUBTEST: multi-wait-all-for-submit-submitted-signaled * * SUBTEST: multi-wait-all-for-submit-unsubmitted * * SUBTEST: multi-wait-all-for-submit-unsubmitted-signaled * * SUBTEST: multi-wait-all-for-submit-unsubmitted-submitted * * SUBTEST: multi-wait-all-signaled * * SUBTEST: multi-wait-all-submitted * * SUBTEST: multi-wait-all-submitted-signaled * * SUBTEST: multi-wait-for-submit-signaled * * SUBTEST: multi-wait-for-submit-submitted * * SUBTEST: multi-wait-for-submit-submitted-signaled * * SUBTEST: multi-wait-for-submit-unsubmitted * * SUBTEST: multi-wait-for-submit-unsubmitted-signaled * * SUBTEST: multi-wait-for-submit-unsubmitted-submitted * * SUBTEST: multi-wait-for-submit-unsubmitted-submitted-signaled * * SUBTEST: multi-wait-signaled * * SUBTEST: multi-wait-submitted * * SUBTEST: multi-wait-submitted-signaled * * SUBTEST: reset-during-wait-for-submit * * SUBTEST: reset-multiple-signaled * * SUBTEST: reset-signaled * * SUBTEST: reset-unsignaled * * SUBTEST: signal * * SUBTEST: single-wait-all-for-submit-signaled * * SUBTEST: single-wait-all-for-submit-submitted * * SUBTEST: single-wait-all-for-submit-unsubmitted * * SUBTEST: single-wait-all-signaled * * SUBTEST: single-wait-all-submitted * * SUBTEST: single-wait-for-submit-signaled * * SUBTEST: single-wait-for-submit-submitted * * SUBTEST: single-wait-for-submit-unsubmitted * * SUBTEST: single-wait-signaled * * SUBTEST: single-wait-submitted * * SUBTEST: wait-all-complex * * SUBTEST: wait-all-delayed-signal * * SUBTEST: wait-all-for-submit-complex * * SUBTEST: wait-all-for-submit-delayed-submit * * SUBTEST: wait-all-for-submit-snapshot * * SUBTEST: wait-all-interrupted * * SUBTEST: wait-all-snapshot * * SUBTEST: wait-any-complex * * SUBTEST: wait-any-interrupted * * SUBTEST: wait-any-snapshot * * SUBTEST: wait-delayed-signal * * SUBTEST: wait-for-submit-complex * * SUBTEST: wait-for-submit-delayed-submit * * SUBTEST: wait-for-submit-snapshot * * SUBTEST: wait-zero-handles */ IGT_TEST_DESCRIPTION("Tests for the drm sync object wait API"); /* One tenth of a second */ #define SHORT_TIME_NSEC 100000000ull #define NSECS_PER_SEC 1000000000ull static uint64_t gettime_ns(void) { struct timespec current; clock_gettime(CLOCK_MONOTONIC, ¤t); return (uint64_t)current.tv_sec * NSECS_PER_SEC + current.tv_nsec; } static void sleep_nsec(uint64_t time_nsec) { struct timespec t; t.tv_sec = time_nsec / NSECS_PER_SEC; t.tv_nsec = time_nsec % NSECS_PER_SEC; igt_assert_eq(nanosleep(&t, NULL), 0); } static uint64_t short_timeout(void) { return gettime_ns() + SHORT_TIME_NSEC; } static int syncobj_attach_sw_sync(int fd, uint32_t handle) { struct drm_syncobj_handle; int timeline, fence; timeline = sw_sync_timeline_create(); fence = sw_sync_timeline_create_fence(timeline, 1); syncobj_import_sync_file(fd, handle, fence); close(fence); return timeline; } static void syncobj_trigger(int fd, uint32_t handle) { int timeline = syncobj_attach_sw_sync(fd, handle); sw_sync_timeline_inc(timeline, 1); close(timeline); } static timer_t set_timer(void (*cb)(union sigval), void *ptr, int i, uint64_t nsec) { timer_t timer; struct sigevent sev; struct itimerspec its; memset(&sev, 0, sizeof(sev)); sev.sigev_notify = SIGEV_THREAD; if (ptr) sev.sigev_value.sival_ptr = ptr; else sev.sigev_value.sival_int = i; sev.sigev_notify_function = cb; igt_assert(timer_create(CLOCK_MONOTONIC, &sev, &timer) == 0); memset(&its, 0, sizeof(its)); its.it_value.tv_sec = nsec / NSEC_PER_SEC; its.it_value.tv_nsec = nsec % NSEC_PER_SEC; igt_assert(timer_settime(timer, 0, &its, NULL) == 0); return timer; } struct fd_handle_pair { int fd; uint32_t handle; }; static void timeline_inc_func(union sigval sigval) { sw_sync_timeline_inc(sigval.sival_int, 1); } static void syncobj_trigger_free_pair_func(union sigval sigval) { struct fd_handle_pair *pair = sigval.sival_ptr; syncobj_trigger(pair->fd, pair->handle); free(pair); } static timer_t syncobj_trigger_delayed(int fd, uint32_t syncobj, uint64_t nsec) { struct fd_handle_pair *pair = malloc(sizeof(*pair)); pair->fd = fd; pair->handle = syncobj; return set_timer(syncobj_trigger_free_pair_func, pair, 0, nsec); } static void test_wait_bad_flags(int fd) { struct drm_syncobj_wait wait = { 0 }; wait.flags = 0xdeadbeef; igt_assert_eq(__syncobj_wait(fd, &wait), -EINVAL); } static void test_wait_zero_handles(int fd) { struct drm_syncobj_wait wait = { 0 }; igt_assert_eq(__syncobj_wait(fd, &wait), 0); } static void test_wait_illegal_handle(int fd) { struct drm_syncobj_wait wait = { 0 }; uint32_t handle = 0; wait.count_handles = 1; wait.handles = to_user_pointer(&handle); igt_assert_eq(__syncobj_wait(fd, &wait), -ENOENT); } static void test_reset_zero_handles(int fd) { struct drm_syncobj_array array = { 0 }; int ret; ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_RESET, &array); igt_assert(ret == -1 && errno == EINVAL); } static void test_reset_illegal_handle(int fd) { struct drm_syncobj_array array = { 0 }; uint32_t handle = 0; int ret; array.count_handles = 1; array.handles = to_user_pointer(&handle); ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_RESET, &array); igt_assert(ret == -1 && errno == ENOENT); } static void test_reset_one_illegal_handle(int fd) { struct drm_syncobj_array array = { 0 }; uint32_t syncobjs[3]; int ret; syncobjs[0] = syncobj_create(fd, DRM_SYNCOBJ_CREATE_SIGNALED); syncobjs[1] = 0; syncobjs[2] = syncobj_create(fd, DRM_SYNCOBJ_CREATE_SIGNALED); igt_assert_eq(syncobj_wait_err(fd, &syncobjs[0], 1, 0, 0), 0); igt_assert_eq(syncobj_wait_err(fd, &syncobjs[2], 1, 0, 0), 0); array.count_handles = 3; array.handles = to_user_pointer(syncobjs); ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_RESET, &array); igt_assert(ret == -1 && errno == ENOENT); /* Assert that we didn't actually reset anything */ igt_assert_eq(syncobj_wait_err(fd, &syncobjs[0], 1, 0, 0), 0); igt_assert_eq(syncobj_wait_err(fd, &syncobjs[2], 1, 0, 0), 0); syncobj_destroy(fd, syncobjs[0]); syncobj_destroy(fd, syncobjs[2]); } static void test_reset_bad_pad(int fd) { struct drm_syncobj_array array = { 0 }; uint32_t handle = 0; int ret; array.pad = 0xdeadbeef; array.count_handles = 1; array.handles = to_user_pointer(&handle); ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_RESET, &array); igt_assert(ret == -1 && errno == EINVAL); } static void test_signal_zero_handles(int fd) { struct drm_syncobj_array array = { 0 }; int ret; ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_SIGNAL, &array); igt_assert(ret == -1 && errno == EINVAL); } static void test_signal_illegal_handle(int fd) { struct drm_syncobj_array array = { 0 }; uint32_t handle = 0; int ret; array.count_handles = 1; array.handles = to_user_pointer(&handle); ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_SIGNAL, &array); igt_assert(ret == -1 && errno == ENOENT); } static void test_signal_one_illegal_handle(int fd) { struct drm_syncobj_array array = { 0 }; uint32_t syncobjs[3]; int ret; syncobjs[0] = syncobj_create(fd, 0); syncobjs[1] = 0; syncobjs[2] = syncobj_create(fd, 0); igt_assert_eq(syncobj_wait_err(fd, &syncobjs[0], 1, 0, 0), -EINVAL); igt_assert_eq(syncobj_wait_err(fd, &syncobjs[2], 1, 0, 0), -EINVAL); array.count_handles = 3; array.handles = to_user_pointer(syncobjs); ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_SIGNAL, &array); igt_assert(ret == -1 && errno == ENOENT); /* Assert that we didn't actually reset anything */ igt_assert_eq(syncobj_wait_err(fd, &syncobjs[0], 1, 0, 0), -EINVAL); igt_assert_eq(syncobj_wait_err(fd, &syncobjs[2], 1, 0, 0), -EINVAL); syncobj_destroy(fd, syncobjs[0]); syncobj_destroy(fd, syncobjs[2]); } static void test_signal_bad_pad(int fd) { struct drm_syncobj_array array = { 0 }; uint32_t handle = 0; int ret; array.pad = 0xdeadbeef; array.count_handles = 1; array.handles = to_user_pointer(&handle); ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_SIGNAL, &array); igt_assert(ret == -1 && errno == EINVAL); } #define WAIT_FOR_SUBMIT (1 << 0) #define WAIT_ALL (1 << 1) #define WAIT_UNSUBMITTED (1 << 2) #define WAIT_SUBMITTED (1 << 3) #define WAIT_SIGNALED (1 << 4) #define WAIT_FLAGS_MAX (1 << 5) - 1 static uint32_t flags_for_test_flags(uint32_t test_flags) { uint32_t flags = 0; if (test_flags & WAIT_FOR_SUBMIT) flags |= DRM_SYNCOBJ_WAIT_FLAGS_WAIT_FOR_SUBMIT; if (test_flags & WAIT_ALL) flags |= DRM_SYNCOBJ_WAIT_FLAGS_WAIT_ALL; return flags; } static void test_single_wait(int fd, uint32_t test_flags, int expect) { uint32_t syncobj = syncobj_create(fd, 0); uint32_t flags = flags_for_test_flags(test_flags); int timeline = -1; if (test_flags & (WAIT_SUBMITTED | WAIT_SIGNALED)) timeline = syncobj_attach_sw_sync(fd, syncobj); if (test_flags & WAIT_SIGNALED) sw_sync_timeline_inc(timeline, 1); igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, 0, flags), expect); igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, short_timeout(), flags), expect); if (expect != -ETIME) { igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, UINT64_MAX, flags), expect); } syncobj_destroy(fd, syncobj); if (timeline != -1) close(timeline); } static void test_wait_delayed_signal(int fd, uint32_t test_flags) { uint32_t syncobj = syncobj_create(fd, 0); uint32_t flags = flags_for_test_flags(test_flags); int timeline = -1; timer_t timer; if (test_flags & WAIT_FOR_SUBMIT) { timer = syncobj_trigger_delayed(fd, syncobj, SHORT_TIME_NSEC); } else { timeline = syncobj_attach_sw_sync(fd, syncobj); timer = set_timer(timeline_inc_func, NULL, timeline, SHORT_TIME_NSEC); } igt_assert(syncobj_wait(fd, &syncobj, 1, gettime_ns() + SHORT_TIME_NSEC * 2, flags, NULL)); timer_delete(timer); if (timeline != -1) close(timeline); syncobj_destroy(fd, syncobj); } static void test_reset_unsignaled(int fd) { uint32_t syncobj = syncobj_create(fd, 0); igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, 0, 0), -EINVAL); syncobj_reset(fd, &syncobj, 1); igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, 0, 0), -EINVAL); syncobj_destroy(fd, syncobj); } static void test_reset_signaled(int fd) { uint32_t syncobj = syncobj_create(fd, 0); syncobj_trigger(fd, syncobj); igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, 0, 0), 0); syncobj_reset(fd, &syncobj, 1); igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, 0, 0), -EINVAL); syncobj_destroy(fd, syncobj); } static void test_reset_multiple_signaled(int fd) { uint32_t syncobjs[3]; int i; for (i = 0; i < 3; i++) { syncobjs[i] = syncobj_create(fd, 0); syncobj_trigger(fd, syncobjs[i]); } igt_assert_eq(syncobj_wait_err(fd, syncobjs, 3, 0, 0), 0); syncobj_reset(fd, syncobjs, 3); for (i = 0; i < 3; i++) { igt_assert_eq(syncobj_wait_err(fd, &syncobjs[i], 1, 0, 0), -EINVAL); syncobj_destroy(fd, syncobjs[i]); } } static void reset_and_trigger_func(union sigval sigval) { struct fd_handle_pair *pair = sigval.sival_ptr; syncobj_reset(pair->fd, &pair->handle, 1); syncobj_trigger(pair->fd, pair->handle); } static void test_reset_during_wait_for_submit(int fd) { uint32_t syncobj = syncobj_create(fd, 0); uint32_t flags = DRM_SYNCOBJ_WAIT_FLAGS_WAIT_FOR_SUBMIT; struct fd_handle_pair pair; timer_t timer; pair.fd = fd; pair.handle = syncobj; timer = set_timer(reset_and_trigger_func, &pair, 0, SHORT_TIME_NSEC); /* A reset should be a no-op even if we're in the middle of a wait */ igt_assert(syncobj_wait(fd, &syncobj, 1, gettime_ns() + SHORT_TIME_NSEC * 2, flags, NULL)); timer_delete(timer); syncobj_destroy(fd, syncobj); } static void test_signal(int fd) { uint32_t syncobj = syncobj_create(fd, 0); uint32_t flags = DRM_SYNCOBJ_WAIT_FLAGS_WAIT_FOR_SUBMIT; igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, 0, 0), -EINVAL); igt_assert_eq(syncobj_wait_err(fd, &syncobj, 1, 0, flags), -ETIME); syncobj_signal(fd, &syncobj, 1); igt_assert(syncobj_wait(fd, &syncobj, 1, 0, 0, NULL)); igt_assert(syncobj_wait(fd, &syncobj, 1, 0, flags, NULL)); syncobj_destroy(fd, syncobj); } static void test_multi_wait(int fd, uint32_t test_flags, int expect) { uint32_t syncobjs[3]; uint32_t tflag, flags; int i, fidx, timeline; syncobjs[0] = syncobj_create(fd, 0); syncobjs[1] = syncobj_create(fd, 0); syncobjs[2] = syncobj_create(fd, 0); flags = flags_for_test_flags(test_flags); test_flags &= ~(WAIT_ALL | WAIT_FOR_SUBMIT); for (i = 0; i < 3; i++) { fidx = ffs(test_flags) - 1; tflag = (1 << fidx); if (test_flags & ~tflag) test_flags &= ~tflag; if (tflag & (WAIT_SUBMITTED | WAIT_SIGNALED)) timeline = syncobj_attach_sw_sync(fd, syncobjs[i]); if (tflag & WAIT_SIGNALED) sw_sync_timeline_inc(timeline, 1); } igt_assert_eq(syncobj_wait_err(fd, syncobjs, 3, 0, flags), expect); igt_assert_eq(syncobj_wait_err(fd, syncobjs, 3, short_timeout(), flags), expect); if (expect != -ETIME) { igt_assert_eq(syncobj_wait_err(fd, syncobjs, 3, UINT64_MAX, flags), expect); } syncobj_destroy(fd, syncobjs[0]); syncobj_destroy(fd, syncobjs[1]); syncobj_destroy(fd, syncobjs[2]); } struct wait_thread_data { int fd; struct drm_syncobj_wait wait; }; static void * wait_thread_func(void *data) { struct wait_thread_data *wait = data; igt_assert_eq(__syncobj_wait(wait->fd, &wait->wait), 0); return NULL; } static void test_wait_snapshot(int fd, uint32_t test_flags) { struct wait_thread_data wait = { 0 }; uint32_t syncobjs[2]; int timelines[3] = { -1, -1, -1 }; pthread_t thread; syncobjs[0] = syncobj_create(fd, 0); syncobjs[1] = syncobj_create(fd, 0); if (!(test_flags & WAIT_FOR_SUBMIT)) { timelines[0] = syncobj_attach_sw_sync(fd, syncobjs[0]); timelines[1] = syncobj_attach_sw_sync(fd, syncobjs[1]); } wait.fd = fd; wait.wait.handles = to_user_pointer(syncobjs); wait.wait.count_handles = 2; wait.wait.timeout_nsec = short_timeout(); wait.wait.flags = flags_for_test_flags(test_flags); igt_assert_eq(pthread_create(&thread, NULL, wait_thread_func, &wait), 0); sleep_nsec(SHORT_TIME_NSEC / 5); /* Try to fake the kernel out by triggering or partially triggering * the first fence. */ if (test_flags & WAIT_ALL) { /* If it's WAIT_ALL, actually trigger it */ if (timelines[0] == -1) syncobj_trigger(fd, syncobjs[0]); else sw_sync_timeline_inc(timelines[0], 1); } else if (test_flags & WAIT_FOR_SUBMIT) { timelines[0] = syncobj_attach_sw_sync(fd, syncobjs[0]); } sleep_nsec(SHORT_TIME_NSEC / 5); /* Then reset it */ syncobj_reset(fd, &syncobjs[0], 1); sleep_nsec(SHORT_TIME_NSEC / 5); /* Then "submit" it in a way that will never trigger. This way, if * the kernel picks up on the new fence (it shouldn't), we'll get a * timeout. */ timelines[2] = syncobj_attach_sw_sync(fd, syncobjs[0]); sleep_nsec(SHORT_TIME_NSEC / 5); /* Now trigger the second fence to complete the wait */ if (timelines[1] == -1) syncobj_trigger(fd, syncobjs[1]); else sw_sync_timeline_inc(timelines[1], 1); pthread_join(thread, NULL); if (!(test_flags & WAIT_ALL)) igt_assert_eq(wait.wait.first_signaled, 1); close(timelines[0]); close(timelines[1]); close(timelines[2]); syncobj_destroy(fd, syncobjs[0]); syncobj_destroy(fd, syncobjs[1]); } /* The numbers 0-7, each repeated 5x and shuffled. */ static const unsigned shuffled_0_7_x4[] = { 2, 0, 6, 1, 1, 4, 5, 2, 0, 7, 1, 7, 6, 3, 4, 5, 0, 2, 7, 3, 5, 4, 0, 6, 7, 3, 2, 5, 6, 1, 4, 3, }; enum syncobj_stage { STAGE_UNSUBMITTED, STAGE_SUBMITTED, STAGE_SIGNALED, STAGE_RESET, STAGE_RESUBMITTED, }; static void test_wait_complex(int fd, uint32_t test_flags) { struct wait_thread_data wait = { 0 }; uint32_t syncobjs[8]; enum syncobj_stage stage[8]; int i, j, timelines[8]; uint32_t first_signaled = -1, num_signaled = 0; pthread_t thread; for (i = 0; i < 8; i++) { stage[i] = STAGE_UNSUBMITTED; syncobjs[i] = syncobj_create(fd, 0); } if (test_flags & WAIT_FOR_SUBMIT) { for (i = 0; i < 8; i++) timelines[i] = -1; } else { for (i = 0; i < 8; i++) timelines[i] = syncobj_attach_sw_sync(fd, syncobjs[i]); } wait.fd = fd; wait.wait.handles = to_user_pointer(syncobjs); wait.wait.count_handles = 2; wait.wait.timeout_nsec = gettime_ns() + NSECS_PER_SEC; wait.wait.flags = flags_for_test_flags(test_flags); igt_assert_eq(pthread_create(&thread, NULL, wait_thread_func, &wait), 0); sleep_nsec(NSECS_PER_SEC / 50); num_signaled = 0; for (j = 0; j < ARRAY_SIZE(shuffled_0_7_x4); j++) { i = shuffled_0_7_x4[j]; igt_assert_lt(i, ARRAY_SIZE(syncobjs)); switch (stage[i]++) { case STAGE_UNSUBMITTED: /* We need to submit attach a fence */ if (!(test_flags & WAIT_FOR_SUBMIT)) { /* We had to attach one up-front */ igt_assert_neq(timelines[i], -1); break; } timelines[i] = syncobj_attach_sw_sync(fd, syncobjs[i]); break; case STAGE_SUBMITTED: /* We have a fence, trigger it */ igt_assert_neq(timelines[i], -1); sw_sync_timeline_inc(timelines[i], 1); close(timelines[i]); timelines[i] = -1; if (num_signaled == 0) first_signaled = i; num_signaled++; break; case STAGE_SIGNALED: /* We're already signaled, reset */ syncobj_reset(fd, &syncobjs[i], 1); break; case STAGE_RESET: /* We're reset, submit and don't signal */ timelines[i] = syncobj_attach_sw_sync(fd, syncobjs[i]); break; case STAGE_RESUBMITTED: igt_assert(!"Should not reach this stage"); break; } if (test_flags & WAIT_ALL) { if (num_signaled == ARRAY_SIZE(syncobjs)) break; } else { if (num_signaled > 0) break; } sleep_nsec(NSECS_PER_SEC / 100); } pthread_join(thread, NULL); if (test_flags & WAIT_ALL) { igt_assert_eq(num_signaled, ARRAY_SIZE(syncobjs)); } else { igt_assert_eq(num_signaled, 1); igt_assert_eq(wait.wait.first_signaled, first_signaled); } for (i = 0; i < 8; i++) { close(timelines[i]); syncobj_destroy(fd, syncobjs[i]); } } static void test_wait_interrupted(int fd, uint32_t test_flags) { struct drm_syncobj_wait wait = { 0 }; uint32_t syncobj = syncobj_create(fd, 0); int timeline; wait.handles = to_user_pointer(&syncobj); wait.count_handles = 1; wait.flags = flags_for_test_flags(test_flags); if (test_flags & WAIT_FOR_SUBMIT) { wait.timeout_nsec = short_timeout(); igt_while_interruptible(true) igt_assert_eq(__syncobj_wait(fd, &wait), -ETIME); } timeline = syncobj_attach_sw_sync(fd, syncobj); wait.timeout_nsec = short_timeout(); igt_while_interruptible(true) igt_assert_eq(__syncobj_wait(fd, &wait), -ETIME); syncobj_destroy(fd, syncobj); close(timeline); } static bool has_syncobj_wait(int fd) { struct drm_syncobj_wait wait = { 0 }; uint32_t handle = 0; uint64_t value; int ret; if (drmGetCap(fd, DRM_CAP_SYNCOBJ, &value)) return false; if (!value) return false; /* Try waiting for zero sync objects should fail with EINVAL */ wait.count_handles = 1; wait.handles = to_user_pointer(&handle); ret = drmIoctl(fd, DRM_IOCTL_SYNCOBJ_WAIT, &wait); return ret == -1 && errno == ENOENT; } igt_main { int fd = -1; igt_fixture { fd = drm_open_driver(DRIVER_ANY); igt_require(has_syncobj_wait(fd)); igt_require_sw_sync(); } igt_subtest("invalid-wait-bad-flags") test_wait_bad_flags(fd); igt_subtest("wait-zero-handles") test_wait_zero_handles(fd); igt_subtest("invalid-wait-illegal-handle") test_wait_illegal_handle(fd); igt_subtest("invalid-reset-zero-handles") test_reset_zero_handles(fd); igt_subtest("invalid-reset-illegal-handle") test_reset_illegal_handle(fd); igt_subtest("invalid-reset-one-illegal-handle") test_reset_one_illegal_handle(fd); igt_subtest("invalid-reset-bad-pad") test_reset_bad_pad(fd); igt_subtest("invalid-signal-zero-handles") test_signal_zero_handles(fd); igt_subtest("invalid-signal-illegal-handle") test_signal_illegal_handle(fd); igt_subtest("invalid-signal-one-illegal-handle") test_signal_one_illegal_handle(fd); igt_subtest("invalid-signal-bad-pad") test_signal_bad_pad(fd); for (unsigned flags = 0; flags < WAIT_FLAGS_MAX; flags++) { int err; /* Only one wait mode for single-wait tests */ if (__builtin_popcount(flags & (WAIT_UNSUBMITTED | WAIT_SUBMITTED | WAIT_SIGNALED)) != 1) continue; if ((flags & WAIT_UNSUBMITTED) && !(flags & WAIT_FOR_SUBMIT)) err = -EINVAL; else if (!(flags & WAIT_SIGNALED)) err = -ETIME; else err = 0; igt_subtest_f("%ssingle-wait%s%s%s%s%s", err == -EINVAL ? "invalid-" : "", (flags & WAIT_ALL) ? "-all" : "", (flags & WAIT_FOR_SUBMIT) ? "-for-submit" : "", (flags & WAIT_UNSUBMITTED) ? "-unsubmitted" : "", (flags & WAIT_SUBMITTED) ? "-submitted" : "", (flags & WAIT_SIGNALED) ? "-signaled" : "") test_single_wait(fd, flags, err); } igt_subtest("wait-delayed-signal") test_wait_delayed_signal(fd, 0); igt_subtest("wait-for-submit-delayed-submit") test_wait_delayed_signal(fd, WAIT_FOR_SUBMIT); igt_subtest("wait-all-delayed-signal") test_wait_delayed_signal(fd, WAIT_ALL); igt_subtest("wait-all-for-submit-delayed-submit") test_wait_delayed_signal(fd, WAIT_ALL | WAIT_FOR_SUBMIT); igt_subtest("reset-unsignaled") test_reset_unsignaled(fd); igt_subtest("reset-signaled") test_reset_signaled(fd); igt_subtest("reset-multiple-signaled") test_reset_multiple_signaled(fd); igt_subtest("reset-during-wait-for-submit") test_reset_during_wait_for_submit(fd); igt_subtest("signal") test_signal(fd); for (unsigned flags = 0; flags < WAIT_FLAGS_MAX; flags++) { int err; /* At least one wait mode for multi-wait tests */ if (!(flags & (WAIT_UNSUBMITTED | WAIT_SUBMITTED | WAIT_SIGNALED))) continue; err = 0; if ((flags & WAIT_UNSUBMITTED) && !(flags & WAIT_FOR_SUBMIT)) { err = -EINVAL; } else if (flags & WAIT_ALL) { if (flags & (WAIT_UNSUBMITTED | WAIT_SUBMITTED)) err = -ETIME; } else { if (!(flags & WAIT_SIGNALED)) err = -ETIME; } igt_subtest_f("%smulti-wait%s%s%s%s%s", err == -EINVAL ? "invalid-" : "", (flags & WAIT_ALL) ? "-all" : "", (flags & WAIT_FOR_SUBMIT) ? "-for-submit" : "", (flags & WAIT_UNSUBMITTED) ? "-unsubmitted" : "", (flags & WAIT_SUBMITTED) ? "-submitted" : "", (flags & WAIT_SIGNALED) ? "-signaled" : "") test_multi_wait(fd, flags, err); } igt_subtest("wait-any-snapshot") test_wait_snapshot(fd, 0); igt_subtest("wait-all-snapshot") test_wait_snapshot(fd, WAIT_ALL); igt_subtest("wait-for-submit-snapshot") test_wait_snapshot(fd, WAIT_FOR_SUBMIT); igt_subtest("wait-all-for-submit-snapshot") test_wait_snapshot(fd, WAIT_ALL | WAIT_FOR_SUBMIT); igt_subtest("wait-any-complex") test_wait_complex(fd, 0); igt_subtest("wait-all-complex") test_wait_complex(fd, WAIT_ALL); igt_subtest("wait-for-submit-complex") test_wait_complex(fd, WAIT_FOR_SUBMIT); igt_subtest("wait-all-for-submit-complex") test_wait_complex(fd, WAIT_ALL | WAIT_FOR_SUBMIT); igt_subtest("wait-any-interrupted") test_wait_interrupted(fd, 0); igt_subtest("wait-all-interrupted") test_wait_interrupted(fd, WAIT_ALL); igt_fixture { drm_close_driver(fd); } }