[Intel-gfx] [igt-dev] [PATCH i-g-t 02/11] tests/i915/drm_fdinfo: Basic and functional tests for GPU busyness exported via fdinfo
Umesh Nerlige Ramappa
umesh.nerlige.ramappa at intel.com
Wed Mar 30 20:11:09 UTC 2022
This looks very similar to existing perf_pmu tests with the slight
change that the busyness is now captured from the fdinfo.
lgtm,
Reviewed-by: Umesh Nerlige Ramappa <umesh.nerlige.ramappa at intel.com>
Umesh
On Tue, Feb 22, 2022 at 01:55:56PM +0000, Tvrtko Ursulin wrote:
>From: Tvrtko Ursulin <tvrtko.ursulin at intel.com>
>
>Mostly inherited from the perf_pmu, some basic tests, and some tests to
>verify exported GPU busyness is as expected.
>
>Signed-off-by: Tvrtko Ursulin <tvrtko.ursulin at intel.com>
>---
> tests/i915/drm_fdinfo.c | 555 ++++++++++++++++++++++++++++++++++++++++
> tests/meson.build | 8 +
> 2 files changed, 563 insertions(+)
> create mode 100644 tests/i915/drm_fdinfo.c
>
>diff --git a/tests/i915/drm_fdinfo.c b/tests/i915/drm_fdinfo.c
>new file mode 100644
>index 000000000000..e3b1ebb0f454
>--- /dev/null
>+++ b/tests/i915/drm_fdinfo.c
>@@ -0,0 +1,555 @@
>+/*
>+ * Copyright © 2022 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 "igt_core.h"
>+#include "igt_device.h"
>+#include "igt_drm_fdinfo.h"
>+#include "i915/gem.h"
>+#include "intel_ctx.h"
>+
>+IGT_TEST_DESCRIPTION("Test the i915 drm fdinfo data");
>+
>+const double tolerance = 0.05f;
>+const unsigned long batch_duration_ns = 500e6;
>+
>+#define __assert_within_epsilon(x, ref, tol_up, tol_down) \
>+ igt_assert_f((double)(x) <= (1.0 + (tol_up)) * (double)(ref) && \
>+ (double)(x) >= (1.0 - (tol_down)) * (double)(ref), \
>+ "'%s' != '%s' (%f not within +%.1f%%/-%.1f%% tolerance of %f)\n",\
>+ #x, #ref, (double)(x), \
>+ (tol_up) * 100.0, (tol_down) * 100.0, \
>+ (double)(ref))
>+
>+#define assert_within_epsilon(x, ref, tolerance) \
>+ __assert_within_epsilon(x, ref, tolerance, tolerance)
>+
>+static void basics(int i915, unsigned int num_classes)
>+{
>+ struct drm_client_fdinfo info = { };
>+ bool ret;
>+
>+ ret = igt_parse_drm_fdinfo(i915, &info);
>+ igt_assert(ret);
>+
>+ igt_assert(!strcmp(info.driver, "i915"));
>+
>+ igt_assert_eq(info.num_engines, num_classes);
>+}
>+
>+/*
>+ * Helper for cases where we assert on time spent sleeping (directly or
>+ * indirectly), so make it more robust by ensuring the system sleep time
>+ * is within test tolerance to start with.
>+ */
>+static unsigned int measured_usleep(unsigned int usec)
>+{
>+ struct timespec ts = { };
>+ unsigned int slept;
>+
>+ slept = igt_nsec_elapsed(&ts);
>+ igt_assert(slept == 0);
>+ do {
>+ usleep(usec - slept);
>+ slept = igt_nsec_elapsed(&ts) / 1000;
>+ } while (slept < usec);
>+
>+ return igt_nsec_elapsed(&ts);
>+}
>+
>+#define TEST_BUSY (1)
>+#define FLAG_SYNC (2)
>+#define TEST_TRAILING_IDLE (4)
>+#define FLAG_HANG (8)
>+#define TEST_ISOLATION (16)
>+
>+static igt_spin_t *__spin_poll(int fd, uint64_t ahnd, const intel_ctx_t *ctx,
>+ const struct intel_execution_engine2 *e)
>+{
>+ struct igt_spin_factory opts = {
>+ .ahnd = ahnd,
>+ .ctx = ctx,
>+ .engine = e->flags,
>+ };
>+
>+ if (gem_class_can_store_dword(fd, e->class))
>+ opts.flags |= IGT_SPIN_POLL_RUN;
>+
>+ return __igt_spin_factory(fd, &opts);
>+}
>+
>+static unsigned long __spin_wait(int fd, igt_spin_t *spin)
>+{
>+ struct timespec start = { };
>+
>+ igt_nsec_elapsed(&start);
>+
>+ if (igt_spin_has_poll(spin)) {
>+ unsigned long timeout = 0;
>+
>+ while (!igt_spin_has_started(spin)) {
>+ unsigned long t = igt_nsec_elapsed(&start);
>+
>+ igt_assert(gem_bo_busy(fd, spin->handle));
>+ if ((t - timeout) > 250e6) {
>+ timeout = t;
>+ igt_warn("Spinner not running after %.2fms\n",
>+ (double)t / 1e6);
>+ igt_assert(t < 2e9);
>+ }
>+ }
>+ } else {
>+ igt_debug("__spin_wait - usleep mode\n");
>+ usleep(500e3); /* Better than nothing! */
>+ }
>+
>+ igt_assert(gem_bo_busy(fd, spin->handle));
>+ return igt_nsec_elapsed(&start);
>+}
>+
>+static igt_spin_t *__spin_sync(int fd, uint64_t ahnd, const intel_ctx_t *ctx,
>+ const struct intel_execution_engine2 *e)
>+{
>+ igt_spin_t *spin = __spin_poll(fd, ahnd, ctx, e);
>+
>+ __spin_wait(fd, spin);
>+
>+ return spin;
>+}
>+
>+static igt_spin_t *spin_sync(int fd, uint64_t ahnd, const intel_ctx_t *ctx,
>+ const struct intel_execution_engine2 *e)
>+{
>+ igt_require_gem(fd);
>+
>+ return __spin_sync(fd, ahnd, ctx, e);
>+}
>+
>+static void end_spin(int fd, igt_spin_t *spin, unsigned int flags)
>+{
>+ if (!spin)
>+ return;
>+
>+ igt_spin_end(spin);
>+
>+ if (flags & FLAG_SYNC)
>+ gem_sync(fd, spin->handle);
>+
>+ if (flags & TEST_TRAILING_IDLE) {
>+ unsigned long t, timeout = 0;
>+ struct timespec start = { };
>+
>+ igt_nsec_elapsed(&start);
>+
>+ do {
>+ t = igt_nsec_elapsed(&start);
>+
>+ if (gem_bo_busy(fd, spin->handle) &&
>+ (t - timeout) > 10e6) {
>+ timeout = t;
>+ igt_warn("Spinner not idle after %.2fms\n",
>+ (double)t / 1e6);
>+ }
>+
>+ usleep(1e3);
>+ } while (t < batch_duration_ns / 5);
>+ }
>+}
>+
>+static uint64_t read_busy(int i915, unsigned int class)
>+{
>+ struct drm_client_fdinfo info = { };
>+
>+ igt_assert(igt_parse_drm_fdinfo(i915, &info));
>+
>+ return info.busy[class];
>+}
>+
>+static void
>+single(int gem_fd, const intel_ctx_t *ctx,
>+ const struct intel_execution_engine2 *e, unsigned int flags)
>+{
>+ unsigned long slept;
>+ igt_spin_t *spin;
>+ uint64_t val;
>+ int spin_fd;
>+ uint64_t ahnd;
>+
>+ if (flags & TEST_ISOLATION) {
>+ spin_fd = gem_reopen_driver(gem_fd);
>+ ctx = intel_ctx_create_all_physical(spin_fd);
>+ } else {
>+ spin_fd = gem_fd;
>+ }
>+
>+ ahnd = get_reloc_ahnd(spin_fd, ctx->id);
>+
>+ if (flags & TEST_BUSY)
>+ spin = spin_sync(spin_fd, ahnd, ctx, e);
>+ else
>+ spin = NULL;
>+
>+ val = read_busy(gem_fd, e->class);
>+ slept = measured_usleep(batch_duration_ns / 1000);
>+ if (flags & TEST_TRAILING_IDLE)
>+ end_spin(spin_fd, spin, flags);
>+ val = read_busy(gem_fd, e->class) - val;
>+
>+ if (flags & FLAG_HANG)
>+ igt_force_gpu_reset(spin_fd);
>+ else
>+ end_spin(spin_fd, spin, FLAG_SYNC);
>+
>+ assert_within_epsilon(val,
>+ (flags & TEST_BUSY) && !(flags & TEST_ISOLATION) ?
>+ slept : 0.0f,
>+ tolerance);
>+
>+ /* Check for idle after hang. */
>+ if (flags & FLAG_HANG) {
>+ gem_quiescent_gpu(spin_fd);
>+ igt_assert(!gem_bo_busy(spin_fd, spin->handle));
>+
>+ val = read_busy(gem_fd, e->class);
>+ slept = measured_usleep(batch_duration_ns / 1000);
>+ val = read_busy(gem_fd, e->class) - val;
>+
>+ assert_within_epsilon(val, 0, tolerance);
>+ }
>+
>+ igt_spin_free(spin_fd, spin);
>+ put_ahnd(ahnd);
>+
>+ gem_quiescent_gpu(spin_fd);
>+}
>+
>+static void log_busy(unsigned int num_engines, uint64_t *val)
>+{
>+ char buf[1024];
>+ int rem = sizeof(buf);
>+ unsigned int i;
>+ char *p = buf;
>+
>+ for (i = 0; i < num_engines; i++) {
>+ int len;
>+
>+ len = snprintf(p, rem, "%u=%" PRIu64 "\n", i, val[i]);
>+ igt_assert(len > 0);
>+ rem -= len;
>+ p += len;
>+ }
>+
>+ igt_info("%s", buf);
>+}
>+
>+static void read_busy_all(int i915, uint64_t *val)
>+{
>+ struct drm_client_fdinfo info = { };
>+
>+ igt_assert(igt_parse_drm_fdinfo(i915, &info));
>+
>+ memcpy(val, info.busy, sizeof(info.busy));
>+}
>+
>+static void
>+busy_check_all(int gem_fd, const intel_ctx_t *ctx,
>+ const struct intel_execution_engine2 *e,
>+ const unsigned int num_engines,
>+ const unsigned int classes[16], const unsigned int num_classes,
>+ unsigned int flags)
>+{
>+ uint64_t ahnd = get_reloc_ahnd(gem_fd, ctx->id);
>+ uint64_t tval[2][16];
>+ unsigned long slept;
>+ uint64_t val[16];
>+ igt_spin_t *spin;
>+ unsigned int i;
>+
>+ memset(tval, 0, sizeof(tval));
>+
>+ spin = spin_sync(gem_fd, ahnd, ctx, e);
>+
>+ read_busy_all(gem_fd, tval[0]);
>+ slept = measured_usleep(batch_duration_ns / 1000);
>+ if (flags & TEST_TRAILING_IDLE)
>+ end_spin(gem_fd, spin, flags);
>+ read_busy_all(gem_fd, tval[1]);
>+
>+ end_spin(gem_fd, spin, FLAG_SYNC);
>+ igt_spin_free(gem_fd, spin);
>+ put_ahnd(ahnd);
>+
>+ for (i = 0; i < num_classes; i++)
>+ val[i] = tval[1][i] - tval[0][i];
>+
>+ log_busy(num_classes, val);
>+
>+ for (i = 0; i < num_classes; i++) {
>+ double target = i == e->class ? slept : 0.0f;
>+
>+ assert_within_epsilon(val[i], target, tolerance);
>+ }
>+
>+ gem_quiescent_gpu(gem_fd);
>+}
>+
>+static void
>+__submit_spin(int gem_fd, igt_spin_t *spin,
>+ const struct intel_execution_engine2 *e,
>+ int offset)
>+{
>+ struct drm_i915_gem_execbuffer2 eb = spin->execbuf;
>+
>+ eb.flags &= ~(0x3f | I915_EXEC_BSD_MASK);
>+ eb.flags |= e->flags | I915_EXEC_NO_RELOC;
>+ eb.batch_start_offset += offset;
>+
>+ gem_execbuf(gem_fd, &eb);
>+}
>+
>+static void
>+most_busy_check_all(int gem_fd, const intel_ctx_t *ctx,
>+ const struct intel_execution_engine2 *e,
>+ const unsigned int num_engines,
>+ const unsigned int classes[16],
>+ const unsigned int num_classes,
>+ unsigned int flags)
>+{
>+ uint64_t ahnd = get_reloc_ahnd(gem_fd, ctx->id);
>+ unsigned int busy_class[num_classes];
>+ struct intel_execution_engine2 *e_;
>+ igt_spin_t *spin = NULL;
>+ uint64_t tval[2][16];
>+ unsigned long slept;
>+ uint64_t val[16];
>+ unsigned int i;
>+
>+ memset(busy_class, 0, sizeof(busy_class));
>+ memset(tval, 0, sizeof(tval));
>+
>+ for_each_ctx_engine(gem_fd, ctx, e_) {
>+ if (e->class == e_->class && e->instance == e_->instance) {
>+ continue;
>+ } else if (spin) {
>+ __submit_spin(gem_fd, spin, e_, 64);
>+ busy_class[e_->class]++;
>+ } else {
>+ spin = __spin_poll(gem_fd, ahnd, ctx, e_);
>+ busy_class[e_->class]++;
>+ }
>+ }
>+ igt_require(spin); /* at least one busy engine */
>+
>+ /* Small delay to allow engines to start. */
>+ usleep(__spin_wait(gem_fd, spin) * num_engines / 1e3);
>+
>+ read_busy_all(gem_fd, tval[0]);
>+ slept = measured_usleep(batch_duration_ns / 1000);
>+ if (flags & TEST_TRAILING_IDLE)
>+ end_spin(gem_fd, spin, flags);
>+ read_busy_all(gem_fd, tval[1]);
>+
>+ end_spin(gem_fd, spin, FLAG_SYNC);
>+ igt_spin_free(gem_fd, spin);
>+ put_ahnd(ahnd);
>+
>+ for (i = 0; i < num_classes; i++)
>+ val[i] = tval[1][i] - tval[0][i];
>+
>+ log_busy(num_classes, val);
>+
>+ for (i = 0; i < num_classes; i++) {
>+ double target = slept * busy_class[i];
>+
>+ assert_within_epsilon(val[i], target, tolerance);
>+ }
>+ gem_quiescent_gpu(gem_fd);
>+}
>+
>+static void
>+all_busy_check_all(int gem_fd, const intel_ctx_t *ctx,
>+ const unsigned int num_engines,
>+ const unsigned int classes[16],
>+ const unsigned int num_classes,
>+ unsigned int flags)
>+{
>+ uint64_t ahnd = get_reloc_ahnd(gem_fd, ctx->id);
>+ unsigned int busy_class[num_classes];
>+ struct intel_execution_engine2 *e;
>+ igt_spin_t *spin = NULL;
>+ uint64_t tval[2][16];
>+ unsigned long slept;
>+ uint64_t val[16];
>+ unsigned int i;
>+
>+ memset(busy_class, 0, sizeof(busy_class));
>+ memset(tval, 0, sizeof(tval));
>+
>+ for_each_ctx_engine(gem_fd, ctx, e) {
>+ if (spin)
>+ __submit_spin(gem_fd, spin, e, 64);
>+ else
>+ spin = __spin_poll(gem_fd, ahnd, ctx, e);
>+ busy_class[e->class]++;
>+ }
>+
>+ /* Small delay to allow engines to start. */
>+ usleep(__spin_wait(gem_fd, spin) * num_engines / 1e3);
>+
>+ read_busy_all(gem_fd, tval[0]);
>+ slept = measured_usleep(batch_duration_ns / 1000);
>+ if (flags & TEST_TRAILING_IDLE)
>+ end_spin(gem_fd, spin, flags);
>+ read_busy_all(gem_fd, tval[1]);
>+
>+ end_spin(gem_fd, spin, FLAG_SYNC);
>+ igt_spin_free(gem_fd, spin);
>+ put_ahnd(ahnd);
>+
>+ for (i = 0; i < num_classes; i++)
>+ val[i] = tval[1][i] - tval[0][i];
>+
>+ log_busy(num_classes, val);
>+
>+ for (i = 0; i < num_classes; i++) {
>+ double target = slept * busy_class[i];
>+
>+ assert_within_epsilon(val[i], target, tolerance);
>+ }
>+ gem_quiescent_gpu(gem_fd);
>+}
>+
>+#define test_each_engine(T, i915, ctx, e) \
>+ igt_subtest_with_dynamic(T) for_each_ctx_engine(i915, ctx, e) \
>+ igt_dynamic_f("%s", e->name)
>+
>+igt_main
>+{
>+ unsigned int num_engines = 0, num_classes = 0;
>+ const struct intel_execution_engine2 *e;
>+ unsigned int classes[16] = { };
>+ const intel_ctx_t *ctx = NULL;
>+ int i915 = -1;
>+
>+ igt_fixture {
>+ unsigned int i;
>+
>+ i915 = __drm_open_driver(DRIVER_INTEL);
>+
>+ igt_require_gem(i915);
>+
>+ ctx = intel_ctx_create_all_physical(i915);
>+
>+ for_each_ctx_engine(i915, ctx, e) {
>+ num_engines++;
>+ igt_assert(e->class < ARRAY_SIZE(classes));
>+ classes[e->class]++;
>+ }
>+ igt_require(num_engines);
>+
>+ for (i = 0; i < ARRAY_SIZE(classes); i++) {
>+ if (classes[i])
>+ num_classes++;
>+ }
>+ igt_assert(num_classes);
>+ }
>+
>+ /**
>+ * Test basic fdinfo content.
>+ */
>+ igt_subtest("basics")
>+ basics(i915, num_classes);
>+
>+ /**
>+ * Test that engines show no load when idle.
>+ */
>+ test_each_engine("idle", i915, ctx, e)
>+ single(i915, ctx, e, 0);
>+
>+ /**
>+ * Test that a single engine reports load correctly.
>+ */
>+ test_each_engine("busy", i915, ctx, e)
>+ single(i915, ctx, e, TEST_BUSY);
>+
>+ test_each_engine("busy-idle", i915, ctx, e)
>+ single(i915, ctx, e, TEST_BUSY | TEST_TRAILING_IDLE);
>+
>+ test_each_engine("busy-hang", i915, ctx, e) {
>+ igt_hang_t hang = igt_allow_hang(i915, ctx->id, 0);
>+
>+ single(i915, ctx, e, TEST_BUSY | FLAG_HANG);
>+
>+ igt_disallow_hang(i915, hang);
>+ }
>+
>+ /**
>+ * Test that when one engine is loaded other report no
>+ * load.
>+ */
>+ test_each_engine("busy-check-all", i915, ctx, e)
>+ busy_check_all(i915, ctx, e, num_engines, classes, num_classes,
>+ TEST_BUSY);
>+
>+ test_each_engine("busy-idle-check-all", i915, ctx, e)
>+ busy_check_all(i915, ctx, e, num_engines, classes, num_classes,
>+ TEST_BUSY | TEST_TRAILING_IDLE);
>+
>+ /**
>+ * Test that when all except one engine are loaded all
>+ * loads are correctly reported.
>+ */
>+ test_each_engine("most-busy-check-all", i915, ctx, e)
>+ most_busy_check_all(i915, ctx, e, num_engines,
>+ classes, num_classes,
>+ TEST_BUSY);
>+
>+ test_each_engine("most-busy-idle-check-all", i915, ctx, e)
>+ most_busy_check_all(i915, ctx, e, num_engines,
>+ classes, num_classes,
>+ TEST_BUSY | TEST_TRAILING_IDLE);
>+
>+ /**
>+ * Test that when all engines are loaded all loads are
>+ * correctly reported.
>+ */
>+ igt_subtest("all-busy-check-all")
>+ all_busy_check_all(i915, ctx, num_engines, classes, num_classes,
>+ TEST_BUSY);
>+
>+ igt_subtest("all-busy-idle-check-all")
>+ all_busy_check_all(i915, ctx, num_engines, classes, num_classes,
>+ TEST_BUSY | TEST_TRAILING_IDLE);
>+
>+ /**
>+ * Test for no cross-client contamination.
>+ */
>+ test_each_engine("isolation", i915, ctx, e)
>+ single(i915, ctx, e, TEST_BUSY | TEST_ISOLATION);
>+
>+ igt_fixture {
>+ intel_ctx_destroy(i915, ctx);
>+ close(i915);
>+ }
>+}
>diff --git a/tests/meson.build b/tests/meson.build
>index 7003d0641d1d..0a87755d5433 100644
>--- a/tests/meson.build
>+++ b/tests/meson.build
>@@ -290,6 +290,14 @@ foreach prog : i915_progs
> test_list += prog
> endforeach
>
>+test_executables += executable('drm_fdinfo',
>+ join_paths('i915', 'drm_fdinfo.c'),
>+ dependencies : test_deps + [ lib_igt_drm_fdinfo ],
>+ install_dir : libexecdir,
>+ install_rpath : libexecdir_rpathdir,
>+ install : true)
>+test_list += 'drm_fdinfo'
>+
> test_executables += executable('dumb_buffer', 'dumb_buffer.c',
> dependencies : test_deps + [ libatomic ],
> install_dir : libexecdir,
>--
>2.32.0
>
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