[PATCH v7 1/2] lib/xe/xe_spin: move the spinner related functions to lib
Zbigniew Kempczyński
zbigniew.kempczynski at intel.com
Fri Dec 13 06:18:11 UTC 2024
On Wed, Dec 11, 2024 at 02:28:47PM +0530, Pravalika Gurram wrote:
> move spin_ctx_init,spin_ctx_start,spin_ctx_end,spin_ctx_destroy
> to xe spin lib to avoid code redundancy.
> removed xe_cork* functions to avoid duplicate spinner code.
>
> Signed-off-by: Pravalika Gurram <pravalika.gurram at intel.com>
> ---
> lib/xe/xe_spin.c | 207 ++++++++++++++++++++++++++----------
> lib/xe/xe_spin.h | 52 +++++----
> tests/intel/xe_drm_fdinfo.c | 195 ++++++---------------------------
> tests/intel/xe_vm.c | 17 +--
> 4 files changed, 226 insertions(+), 245 deletions(-)
>
> diff --git a/lib/xe/xe_spin.c b/lib/xe/xe_spin.c
> index 3adacc3a8..f7b51387c 100644
> --- a/lib/xe/xe_spin.c
> +++ b/lib/xe/xe_spin.c
> @@ -292,77 +292,172 @@ void xe_spin_free(int fd, struct igt_spin *spin)
> free(spin);
> }
>
> -void xe_cork_init(int fd, struct drm_xe_engine_class_instance *hwe,
> - struct xe_cork *cork)
> -{
> - uint64_t addr = xe_get_default_alignment(fd);
> - size_t bo_size = xe_bb_size(fd, SZ_4K);
> - uint32_t vm, bo, exec_queue, syncobj;
> - struct xe_spin *spin;
> - struct drm_xe_sync sync = {
> - .type = DRM_XE_SYNC_TYPE_SYNCOBJ, .flags = DRM_XE_SYNC_FLAG_SIGNAL,
> - };
> - struct drm_xe_exec exec = {
> - .num_batch_buffer = 1,
> - .num_syncs = 1,
> - .syncs = to_user_pointer(&sync),
> - };
> -
> - vm = xe_vm_create(fd, 0, 0);
> +/**
> + * xe_cork_create:
> + * @fd: xe device fd
> + * @hwe: Xe engine class instance if device is Xe
> + * @vm: vm handle
> + * @width: number of batch buffers
> + * @num_placements: number of valid placements for this exec queue
> + * @opts: controlling options such as allocator handle, debug.
> + *
> + * xe_cork_create create vm, bo, exec_queue and bind the buffer
> + * using vmbind
> + *
> + * This returns xe_cork after binding buffer object.
> + */
>
> - bo = xe_bo_create(fd, vm, bo_size, vram_if_possible(fd, hwe->gt_id),
> - DRM_XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM);
> - spin = xe_bo_map(fd, bo, 0x1000);
> +struct xe_cork *
> +xe_cork_create(int fd, struct drm_xe_engine_class_instance *hwe,
> + uint32_t vm, uint16_t width, uint16_t num_placements,
> + struct xe_cork_opts *opts)
> +{
> + struct xe_cork *ctx = calloc(1, sizeof(*ctx));
> +
> + igt_assert(ctx);
> + igt_assert(width && num_placements &&
> + (width == 1 || num_placements == 1));
> + igt_assert_lt(width, XE_MAX_ENGINE_INSTANCE);
> +
> + ctx->class = hwe->engine_class;
> + ctx->width = width;
> + ctx->num_placements = num_placements;
> + ctx->vm = vm;
> + ctx->cork_opts.ahnd = opts->ahnd;
> + ctx->cork_opts.debug = opts->debug;
ctx->cork_opts = *opts;
is enough.
> +
> + ctx->exec.num_batch_buffer = width;
> + ctx->exec.num_syncs = 2;
> + ctx->exec.syncs = to_user_pointer(ctx->sync);
> +
> + ctx->sync[0].type = DRM_XE_SYNC_TYPE_SYNCOBJ;
> + ctx->sync[0].flags = DRM_XE_SYNC_FLAG_SIGNAL;
> + ctx->sync[0].handle = syncobj_create(fd, 0);
> +
> + ctx->sync[1].type = DRM_XE_SYNC_TYPE_SYNCOBJ;
> + ctx->sync[1].flags = DRM_XE_SYNC_FLAG_SIGNAL;
> + ctx->sync[1].handle = syncobj_create(fd, 0);
> +
> + ctx->bo_size = sizeof(struct xe_spin);
> + ctx->bo_size = xe_bb_size(fd, ctx->bo_size);
> + ctx->bo = xe_bo_create(fd, ctx->vm, ctx->bo_size,
> + vram_if_possible(fd, hwe->gt_id),
> + DRM_XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM);
> + if (ctx->cork_opts.ahnd) {
> + for (unsigned int i = 0; i < width; i++)
> + ctx->addr[i] = intel_allocator_alloc_with_strategy(ctx->cork_opts.ahnd,
> + ctx->bo, ctx->bo_size, 0,
> + ALLOC_STRATEGY_LOW_TO_HIGH);
> + } else {
> + for (unsigned int i = 0; i < width; i++)
> + ctx->addr[i] = 0x100000 + 0x100000 * hwe->engine_class;
> + }
>
> - xe_vm_bind_sync(fd, vm, bo, 0, addr, bo_size);
> + ctx->spin = xe_bo_map(fd, ctx->bo, ctx->bo_size);
>
> - exec_queue = xe_exec_queue_create(fd, vm, hwe, 0);
> - syncobj = syncobj_create(fd, 0);
> + igt_assert_eq(__xe_exec_queue_create(fd, ctx->vm, width, num_placements,
> + hwe, 0, &ctx->exec_queue), 0);
>
> - xe_spin_init_opts(spin, .addr = addr, .preempt = true);
> - exec.exec_queue_id = exec_queue;
> - exec.address = addr;
> - sync.handle = syncobj;
> - igt_assert_eq(igt_ioctl(fd, DRM_IOCTL_XE_EXEC, &exec), 0);
> + xe_vm_bind_async(fd, ctx->vm, 0, ctx->bo, 0, ctx->addr[0], ctx->bo_size,
> + ctx->sync, 1);
>
> - cork->spin = spin;
> - cork->fd = fd;
> - cork->vm = vm;
> - cork->bo = bo;
> - cork->exec_queue = exec_queue;
> - cork->syncobj = syncobj;
> + return ctx;
> }
>
> -bool xe_cork_started(struct xe_cork *cork)
> +/**
> + * xe_cork_sync_start:
> + *
> + * @fd: xe device fd
> + * @ctx: pointer to xe_cork structure
> + *
> + * run the spinner using xe_spin_init submit batch using xe_exec
> + * and wait for fence using syncobj_wait
> + */
> +void xe_cork_sync_start(int fd, struct xe_cork *ctx)
> {
> - return xe_spin_started(cork->spin);
> -}
> + igt_assert(ctx);
>
> -void xe_cork_wait_started(struct xe_cork *cork)
> -{
> - xe_spin_wait_started(cork->spin);
> -}
> + ctx->spin_opts.addr = ctx->addr[0];
> + ctx->spin_opts.write_timestamp = true;
> + ctx->spin_opts.preempt = true;
> + xe_spin_init(ctx->spin, &ctx->spin_opts);
>
> -void xe_cork_end(struct xe_cork *cork)
> -{
> - xe_spin_end(cork->spin);
> -}
> + /* reuse sync[0] as in-fence for exec */
> + ctx->sync[0].flags &= ~DRM_XE_SYNC_FLAG_SIGNAL;
>
> -void xe_cork_wait_done(struct xe_cork *cork)
> -{
> - igt_assert(syncobj_wait(cork->fd, &cork->syncobj, 1, INT64_MAX, 0,
> - NULL));
> + ctx->exec.exec_queue_id = ctx->exec_queue;
> +
> + if (ctx->width > 1)
> + ctx->exec.address = to_user_pointer(ctx->addr);
> + else
> + ctx->exec.address = ctx->addr[0];
> +
> + xe_exec(fd, &ctx->exec);
> +
> + xe_spin_wait_started(ctx->spin);
> + igt_assert(!syncobj_wait(fd, &ctx->sync[1].handle, 1, 1, 0, NULL));
> +
> + if (ctx->cork_opts.debug)
> + igt_info("%d: spinner started\n", ctx->class);
> }
>
> -void xe_cork_fini(struct xe_cork *cork)
> +/*
> + * xe_cork_sync_end
> + *
> + * @fd: xe device fd
> + * @ctx: pointer to xe_cork structure
> + *
> + * Wrapper to end spinner created by xe_cork_create. It will
> + * unbind the vm which was binded to the exec_queue and bo.
> + */
> +void xe_cork_sync_end(int fd, struct xe_cork *ctx)
> {
> - syncobj_destroy(cork->fd, cork->syncobj);
> - xe_exec_queue_destroy(cork->fd, cork->exec_queue);
> - xe_vm_destroy(cork->fd, cork->vm);
> - gem_close(cork->fd, cork->bo);
> +
> + if (!ctx)
> + return;
> +
> + if (ctx->ended)
> + igt_warn("Don't attempt call end twice %d\n", ctx->ended);
> +
> + xe_spin_end(ctx->spin);
> +
> + igt_assert(syncobj_wait(fd, &ctx->sync[1].handle, 1, INT64_MAX, 0, NULL));
> +
> + ctx->sync[0].flags |= DRM_XE_SYNC_FLAG_SIGNAL;
> + syncobj_reset(fd, &ctx->sync[0].handle, 1);
Now it is correct.
> +
> + xe_vm_unbind_async(fd, ctx->vm, 0, 0, ctx->addr[0], ctx->bo_size, ctx->sync, 1);
> + igt_assert(syncobj_wait(fd, &ctx->sync[0].handle, 1, INT64_MAX, 0, NULL));
> +
> + ctx->ended = true;
> +
> + if (ctx->cork_opts.debug)
> + igt_info("%d: spinner ended (timestamp=%u)\n", ctx->class,
> + ctx->spin->timestamp);
> }
>
> -uint32_t xe_cork_sync_handle(struct xe_cork *cork)
> +/*
> + * xe_cork_destroy
> + *
> + * @fd: xe device fd
> + * @ctx: pointer to xe_cork structure
> + *
> + * It will destroy vm, exec_queue and free the ctx.
> + */
> +void xe_cork_destroy(int fd, struct xe_cork *ctx)
> {
> - return cork->syncobj;
> + if (!ctx)
> + return;
> +
> + syncobj_destroy(fd, ctx->sync[0].handle);
> + syncobj_destroy(fd, ctx->sync[1].handle);
> + xe_exec_queue_destroy(fd, ctx->exec_queue);
> +
> + if (ctx->cork_opts.ahnd)
> + put_ahnd(ctx->cork_opts.ahnd);
This is wrong. You can't release ahnd what comes from the caller.
Instead you should free offsets here. I would suggest to use
get_offset() and put_offset() helpers for alloc/free.
--
Zbigniew
> +
> + munmap(ctx->spin, ctx->bo_size);
> + gem_close(fd, ctx->bo);
> +
> + free(ctx);
> }
> diff --git a/lib/xe/xe_spin.h b/lib/xe/xe_spin.h
> index d65adb05c..593065bc0 100644
> --- a/lib/xe/xe_spin.h
> +++ b/lib/xe/xe_spin.h
> @@ -32,6 +32,11 @@ struct xe_spin_opts {
> bool write_timestamp;
> };
>
> +struct xe_cork_opts {
> + uint64_t ahnd;
> + bool debug;
> +};
> +
> /* Mapped GPU object */
> struct xe_spin {
> uint32_t batch[128];
> @@ -43,9 +48,36 @@ struct xe_spin {
> uint32_t timestamp;
> };
>
> +struct xe_cork {
> + struct xe_spin *spin;
> + int fd;
> + uint32_t vm;
> + uint32_t bo;
> + uint32_t exec_queue;
> + uint32_t syncobj;
> + uint64_t addr[XE_MAX_ENGINE_INSTANCE];
> + struct drm_xe_sync sync[2];
> + struct drm_xe_exec exec;
> + size_t bo_size;
> + struct xe_spin_opts spin_opts;
> + struct xe_cork_opts cork_opts;
> + bool ended;
> + uint16_t class;
> + uint16_t width;
> + uint16_t num_placements;
> +};
> +
> igt_spin_t *xe_spin_create(int fd, const struct igt_spin_factory *opt);
> uint32_t duration_to_ctx_ticks(int fd, int gt_id, uint64_t ns);
> void xe_spin_init(struct xe_spin *spin, struct xe_spin_opts *opts);
> +struct xe_cork *
> +xe_cork_create(int fd, struct drm_xe_engine_class_instance *hwe, uint32_t vm,
> + uint16_t width, uint16_t num_placements, struct xe_cork_opts *opts);
> +void xe_cork_destroy(int fd, struct xe_cork *ctx);
> +
> +#define xe_cork_create_opts(fd, hwe, vm, width, num_placements, ...) \
> + xe_cork_create(fd, hwe, vm, width, num_placements, \
> + &((struct xe_cork_opts){__VA_ARGS__}))
>
> #define xe_spin_init_opts(fd, ...) \
> xe_spin_init(fd, &((struct xe_spin_opts){__VA_ARGS__}))
> @@ -55,23 +87,7 @@ void xe_spin_sync_wait(int fd, struct igt_spin *spin);
> void xe_spin_wait_started(struct xe_spin *spin);
> void xe_spin_end(struct xe_spin *spin);
> void xe_spin_free(int fd, struct igt_spin *spin);
> -
> -struct xe_cork {
> - struct xe_spin *spin;
> - int fd;
> - uint32_t vm;
> - uint32_t bo;
> - uint32_t exec_queue;
> - uint32_t syncobj;
> -};
> -
> -void xe_cork_init(int fd, struct drm_xe_engine_class_instance *hwe,
> - struct xe_cork *cork);
> -bool xe_cork_started(struct xe_cork *cork);
> -void xe_cork_wait_started(struct xe_cork *cork);
> -void xe_cork_end(struct xe_cork *cork);
> -void xe_cork_wait_done(struct xe_cork *cork);
> -void xe_cork_fini(struct xe_cork *cork);
> -uint32_t xe_cork_sync_handle(struct xe_cork *cork);
> +void xe_cork_sync_start(int fd, struct xe_cork *ctx);
> +void xe_cork_sync_end(int fd, struct xe_cork *ctx);
>
> #endif /* XE_SPIN_H */
> diff --git a/tests/intel/xe_drm_fdinfo.c b/tests/intel/xe_drm_fdinfo.c
> index ef9273e2a..66a181d5b 100644
> --- a/tests/intel/xe_drm_fdinfo.c
> +++ b/tests/intel/xe_drm_fdinfo.c
> @@ -367,133 +367,6 @@ static void basic_engine_utilization(int xe)
> igt_require(info.num_engines);
> }
>
> -struct spin_ctx {
> - uint32_t vm;
> - uint64_t addr[XE_MAX_ENGINE_INSTANCE];
> - struct drm_xe_sync sync[2];
> - struct drm_xe_exec exec;
> - uint32_t exec_queue;
> - size_t bo_size;
> - uint32_t bo;
> - struct xe_spin *spin;
> - struct xe_spin_opts spin_opts;
> - bool ended;
> - uint16_t class;
> - uint16_t width;
> - uint16_t num_placements;
> -};
> -
> -static struct spin_ctx *
> -spin_ctx_init(int fd, struct drm_xe_engine_class_instance *hwe, uint32_t vm,
> - uint16_t width, uint16_t num_placements)
> -{
> - struct spin_ctx *ctx = calloc(1, sizeof(*ctx));
> -
> - igt_assert(width && num_placements &&
> - (width == 1 || num_placements == 1));
> - igt_assert_lt(width, XE_MAX_ENGINE_INSTANCE);
> -
> - ctx->class = hwe->engine_class;
> - ctx->width = width;
> - ctx->num_placements = num_placements;
> - ctx->vm = vm;
> -
> - for (unsigned int i = 0; i < width; i++)
> - ctx->addr[i] = 0x100000 + 0x100000 * hwe->engine_class;
> -
> - ctx->exec.num_batch_buffer = width;
> - ctx->exec.num_syncs = 2;
> - ctx->exec.syncs = to_user_pointer(ctx->sync);
> -
> - ctx->sync[0].type = DRM_XE_SYNC_TYPE_SYNCOBJ;
> - ctx->sync[0].flags = DRM_XE_SYNC_FLAG_SIGNAL;
> - ctx->sync[0].handle = syncobj_create(fd, 0);
> -
> - ctx->sync[1].type = DRM_XE_SYNC_TYPE_SYNCOBJ;
> - ctx->sync[1].flags = DRM_XE_SYNC_FLAG_SIGNAL;
> - ctx->sync[1].handle = syncobj_create(fd, 0);
> -
> - ctx->bo_size = sizeof(struct xe_spin);
> - ctx->bo_size = xe_bb_size(fd, ctx->bo_size);
> - ctx->bo = xe_bo_create(fd, ctx->vm, ctx->bo_size,
> - vram_if_possible(fd, hwe->gt_id),
> - DRM_XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM);
> - ctx->spin = xe_bo_map(fd, ctx->bo, ctx->bo_size);
> -
> - igt_assert_eq(__xe_exec_queue_create(fd, ctx->vm, width, num_placements,
> - hwe, 0, &ctx->exec_queue), 0);
> -
> - xe_vm_bind_async(fd, ctx->vm, 0, ctx->bo, 0, ctx->addr[0], ctx->bo_size,
> - ctx->sync, 1);
> -
> - return ctx;
> -}
> -
> -static void
> -spin_sync_start(int fd, struct spin_ctx *ctx)
> -{
> - if (!ctx)
> - return;
> -
> - ctx->spin_opts.addr = ctx->addr[0];
> - ctx->spin_opts.write_timestamp = true;
> - ctx->spin_opts.preempt = true;
> - xe_spin_init(ctx->spin, &ctx->spin_opts);
> -
> - /* re-use sync[0] for exec */
> - ctx->sync[0].flags &= ~DRM_XE_SYNC_FLAG_SIGNAL;
> -
> - ctx->exec.exec_queue_id = ctx->exec_queue;
> -
> - if (ctx->width > 1)
> - ctx->exec.address = to_user_pointer(ctx->addr);
> - else
> - ctx->exec.address = ctx->addr[0];
> -
> - xe_exec(fd, &ctx->exec);
> -
> - xe_spin_wait_started(ctx->spin);
> - igt_assert(!syncobj_wait(fd, &ctx->sync[1].handle, 1, 1, 0, NULL));
> -
> - igt_debug("%s: spinner started\n", engine_map[ctx->class]);
> -}
> -
> -static void
> -spin_sync_end(int fd, struct spin_ctx *ctx)
> -{
> - if (!ctx || ctx->ended)
> - return;
> -
> - xe_spin_end(ctx->spin);
> -
> - igt_assert(syncobj_wait(fd, &ctx->sync[1].handle, 1, INT64_MAX, 0, NULL));
> - igt_assert(syncobj_wait(fd, &ctx->sync[0].handle, 1, INT64_MAX, 0, NULL));
> -
> - ctx->sync[0].flags |= DRM_XE_SYNC_FLAG_SIGNAL;
> - xe_vm_unbind_async(fd, ctx->vm, 0, 0, ctx->addr[0], ctx->bo_size, ctx->sync, 1);
> - igt_assert(syncobj_wait(fd, &ctx->sync[0].handle, 1, INT64_MAX, 0, NULL));
> -
> - ctx->ended = true;
> - igt_debug("%s: spinner ended (timestamp=%u)\n", engine_map[ctx->class],
> - ctx->spin->timestamp);
> -}
> -
> -static void
> -spin_ctx_destroy(int fd, struct spin_ctx *ctx)
> -{
> - if (!ctx)
> - return;
> -
> - syncobj_destroy(fd, ctx->sync[0].handle);
> - syncobj_destroy(fd, ctx->sync[1].handle);
> - xe_exec_queue_destroy(fd, ctx->exec_queue);
> -
> - munmap(ctx->spin, ctx->bo_size);
> - gem_close(fd, ctx->bo);
> -
> - free(ctx);
> -}
> -
> static void
> check_results(struct pceu_cycles *s1, struct pceu_cycles *s2,
> int class, int width, enum expected_load expected_load)
> @@ -535,7 +408,7 @@ utilization_single(int fd, struct drm_xe_engine_class_instance *hwe, unsigned in
> {
> struct pceu_cycles pceu1[2][DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> struct pceu_cycles pceu2[2][DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> - struct spin_ctx *ctx = NULL;
> + struct xe_cork *ctx = NULL;
> enum expected_load expected_load;
> uint32_t vm;
> int new_fd;
> @@ -545,8 +418,8 @@ utilization_single(int fd, struct drm_xe_engine_class_instance *hwe, unsigned in
>
> vm = xe_vm_create(fd, 0, 0);
> if (flags & TEST_BUSY) {
> - ctx = spin_ctx_init(fd, hwe, vm, 1, 1);
> - spin_sync_start(fd, ctx);
> + ctx = xe_cork_create_opts(fd, hwe, vm, 1, 1);
> + xe_cork_sync_start(fd, ctx);
> }
>
> read_engine_cycles(fd, pceu1[0]);
> @@ -555,7 +428,7 @@ utilization_single(int fd, struct drm_xe_engine_class_instance *hwe, unsigned in
>
> usleep(batch_duration_usec);
> if (flags & TEST_TRAILING_IDLE)
> - spin_sync_end(fd, ctx);
> + xe_cork_sync_end(fd, ctx);
>
> read_engine_cycles(fd, pceu2[0]);
> if (flags & TEST_ISOLATION)
> @@ -574,8 +447,7 @@ utilization_single(int fd, struct drm_xe_engine_class_instance *hwe, unsigned in
> close(new_fd);
> }
>
> - spin_sync_end(fd, ctx);
> - spin_ctx_destroy(fd, ctx);
> + xe_cork_destroy(fd, ctx);
> xe_vm_destroy(fd, vm);
> }
>
> @@ -584,19 +456,19 @@ utilization_single_destroy_queue(int fd, struct drm_xe_engine_class_instance *hw
> {
> struct pceu_cycles pceu1[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> struct pceu_cycles pceu2[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> - struct spin_ctx *ctx = NULL;
> + struct xe_cork *ctx = NULL;
> uint32_t vm;
>
> vm = xe_vm_create(fd, 0, 0);
> - ctx = spin_ctx_init(fd, hwe, vm, 1, 1);
> - spin_sync_start(fd, ctx);
> + ctx = xe_cork_create_opts(fd, hwe, vm, 1, 1);
> + xe_cork_sync_start(fd, ctx);
>
> read_engine_cycles(fd, pceu1);
> usleep(batch_duration_usec);
>
> /* destroy queue before sampling again */
> - spin_sync_end(fd, ctx);
> - spin_ctx_destroy(fd, ctx);
> + xe_cork_sync_end(fd, ctx);
> + xe_cork_destroy(fd, ctx);
>
> read_engine_cycles(fd, pceu2);
>
> @@ -610,18 +482,17 @@ utilization_others_idle(int fd, struct drm_xe_engine_class_instance *hwe)
> {
> struct pceu_cycles pceu1[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> struct pceu_cycles pceu2[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> - struct spin_ctx *ctx = NULL;
> + struct xe_cork *ctx = NULL;
> uint32_t vm;
> int class;
>
> vm = xe_vm_create(fd, 0, 0);
> -
> - ctx = spin_ctx_init(fd, hwe, vm, 1, 1);
> - spin_sync_start(fd, ctx);
> + ctx = xe_cork_create_opts(fd, hwe, vm, 1, 1);
> + xe_cork_sync_start(fd, ctx);
>
> read_engine_cycles(fd, pceu1);
> usleep(batch_duration_usec);
> - spin_sync_end(fd, ctx);
> + xe_cork_sync_end(fd, ctx);
> read_engine_cycles(fd, pceu2);
>
> xe_for_each_engine_class(class) {
> @@ -631,8 +502,7 @@ utilization_others_idle(int fd, struct drm_xe_engine_class_instance *hwe)
> check_results(pceu1, pceu2, class, 1, expected_load);
> }
>
> - spin_sync_end(fd, ctx);
> - spin_ctx_destroy(fd, ctx);
> + xe_cork_destroy(fd, ctx);
> xe_vm_destroy(fd, vm);
> }
>
> @@ -641,7 +511,7 @@ utilization_others_full_load(int fd, struct drm_xe_engine_class_instance *hwe)
> {
> struct pceu_cycles pceu1[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> struct pceu_cycles pceu2[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> - struct spin_ctx *ctx[DRM_XE_ENGINE_CLASS_COMPUTE + 1] = {};
> + struct xe_cork *ctx[DRM_XE_ENGINE_CLASS_COMPUTE + 1] = {};
> struct drm_xe_engine_class_instance *_hwe;
> uint32_t vm;
> int class;
> @@ -654,15 +524,14 @@ utilization_others_full_load(int fd, struct drm_xe_engine_class_instance *hwe)
>
> if (_class == hwe->engine_class || ctx[_class])
> continue;
> -
> - ctx[_class] = spin_ctx_init(fd, _hwe, vm, 1, 1);
> - spin_sync_start(fd, ctx[_class]);
> + ctx[_class] = xe_cork_create_opts(fd, _hwe, vm, 1, 1);
> + xe_cork_sync_start(fd, ctx[_class]);
> }
>
> read_engine_cycles(fd, pceu1);
> usleep(batch_duration_usec);
> xe_for_each_engine_class(class)
> - spin_sync_end(fd, ctx[class]);
> + xe_cork_sync_end(fd, ctx[class]);
> read_engine_cycles(fd, pceu2);
>
> xe_for_each_engine_class(class) {
> @@ -673,8 +542,7 @@ utilization_others_full_load(int fd, struct drm_xe_engine_class_instance *hwe)
> continue;
>
> check_results(pceu1, pceu2, class, 1, expected_load);
> - spin_sync_end(fd, ctx[class]);
> - spin_ctx_destroy(fd, ctx[class]);
> + xe_cork_destroy(fd, ctx[class]);
> }
>
> xe_vm_destroy(fd, vm);
> @@ -685,7 +553,7 @@ utilization_all_full_load(int fd)
> {
> struct pceu_cycles pceu1[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> struct pceu_cycles pceu2[DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> - struct spin_ctx *ctx[DRM_XE_ENGINE_CLASS_COMPUTE + 1] = {};
> + struct xe_cork *ctx[DRM_XE_ENGINE_CLASS_COMPUTE + 1] = {};
> struct drm_xe_engine_class_instance *hwe;
> uint32_t vm;
> int class;
> @@ -697,15 +565,14 @@ utilization_all_full_load(int fd)
> class = hwe->engine_class;
> if (ctx[class])
> continue;
> -
> - ctx[class] = spin_ctx_init(fd, hwe, vm, 1, 1);
> - spin_sync_start(fd, ctx[class]);
> + ctx[class] = xe_cork_create_opts(fd, hwe, vm, 1, 1);
> + xe_cork_sync_start(fd, ctx[class]);
> }
>
> read_engine_cycles(fd, pceu1);
> usleep(batch_duration_usec);
> xe_for_each_engine_class(class)
> - spin_sync_end(fd, ctx[class]);
> + xe_cork_sync_end(fd, ctx[class]);
> read_engine_cycles(fd, pceu2);
>
> xe_for_each_engine_class(class) {
> @@ -713,8 +580,7 @@ utilization_all_full_load(int fd)
> continue;
>
> check_results(pceu1, pceu2, class, 1, EXPECTED_LOAD_FULL);
> - spin_sync_end(fd, ctx[class]);
> - spin_ctx_destroy(fd, ctx[class]);
> + xe_cork_destroy(fd, ctx[class]);
> }
>
> xe_vm_destroy(fd, vm);
> @@ -741,7 +607,7 @@ utilization_multi(int fd, int gt, int class, unsigned int flags)
> struct pceu_cycles pceu[2][DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> struct pceu_cycles pceu_spill[2][DRM_XE_ENGINE_CLASS_COMPUTE + 1];
> struct drm_xe_engine_class_instance eci[XE_MAX_ENGINE_INSTANCE];
> - struct spin_ctx *ctx = NULL;
> + struct xe_cork *ctx = NULL;
> enum expected_load expected_load;
> int fd_spill, num_placements;
> uint32_t vm;
> @@ -767,8 +633,8 @@ utilization_multi(int fd, int gt, int class, unsigned int flags)
>
> vm = xe_vm_create(fd, 0, 0);
> if (flags & TEST_BUSY) {
> - ctx = spin_ctx_init(fd, eci, vm, width, num_placements);
> - spin_sync_start(fd, ctx);
> + ctx = xe_cork_create_opts(fd, eci, vm, width, num_placements);
> + xe_cork_sync_start(fd, ctx);
> }
>
> read_engine_cycles(fd, pceu[0]);
> @@ -777,7 +643,7 @@ utilization_multi(int fd, int gt, int class, unsigned int flags)
>
> usleep(batch_duration_usec);
> if (flags & TEST_TRAILING_IDLE)
> - spin_sync_end(fd, ctx);
> + xe_cork_sync_end(fd, ctx);
>
> read_engine_cycles(fd, pceu[1]);
> if (flags & TEST_ISOLATION)
> @@ -797,8 +663,7 @@ utilization_multi(int fd, int gt, int class, unsigned int flags)
> close(fd_spill);
> }
>
> - spin_sync_end(fd, ctx);
> - spin_ctx_destroy(fd, ctx);
> + xe_cork_destroy(fd, ctx);
>
> xe_vm_destroy(fd, vm);
> }
> diff --git a/tests/intel/xe_vm.c b/tests/intel/xe_vm.c
> index e78ddd0e5..705805de2 100644
> --- a/tests/intel/xe_vm.c
> +++ b/tests/intel/xe_vm.c
> @@ -945,18 +945,23 @@ test_bind_array(int fd, struct drm_xe_engine_class_instance *eci, int n_execs,
>
> sync[0].handle = syncobj_create(fd, 0);
> if (flags & BIND_ARRAY_ENOBUFS_FLAG) {
> - struct xe_cork cork;
> + struct xe_cork *ctx = NULL;
> + uint32_t vm_cork;
>
> - xe_cork_init(fd, eci, &cork);
> + vm_cork = xe_vm_create(fd, 0, 0);
> + ctx = xe_cork_create_opts(fd, eci, vm_cork, 1, 1, .debug = true);
> + xe_cork_sync_start(fd, ctx);
>
> - sync[1].handle = xe_cork_sync_handle(&cork);
> + sync[1].handle = ctx->sync[1].handle;
> sync[1].flags &= ~DRM_XE_SYNC_FLAG_SIGNAL;
>
> xe_vm_bind_array_err(fd, vm, bind_exec_queue, bind_ops,
> n_execs, sync, 2, ENOBUFS);
> - xe_cork_end(&cork);
> - xe_cork_wait_done(&cork);
> - xe_cork_fini(&cork);
> + /* destroy queue before sampling again */
> + xe_cork_sync_end(fd, ctx);
> + xe_cork_destroy(fd, ctx);
> + xe_vm_destroy(fd, vm_cork);
> +
> n_execs = n_execs / 4;
> }
>
> --
> 2.34.1
>
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