[igt-dev] [PATCH i-g-t v3 14/17] tests/xe_ccs: Check if flatccs is working with block-copy for Xe
Zbigniew Kempczyński
zbigniew.kempczynski at intel.com
Tue Jul 11 11:20:06 UTC 2023
This is ported to xe copy of i915 gem_ccs test. Ported means all driver
dependent calls - like working on regions, binding and execution were
replaced by xe counterparts. I wondered to add conditionals for xe
in gem_ccs but this would decrease test readability so I dropped
this idea.
Signed-off-by: Zbigniew Kempczyński <zbigniew.kempczynski at intel.com>
---
v3: Drop unused macro, use system_memory() instead REGION_SMEM
in xe test (Karolina)
---
tests/meson.build | 1 +
tests/xe/xe_ccs.c | 757 ++++++++++++++++++++++++++++++++++++++++++++++
2 files changed, 758 insertions(+)
create mode 100644 tests/xe/xe_ccs.c
diff --git a/tests/meson.build b/tests/meson.build
index d56e4c89da..da8653fabc 100644
--- a/tests/meson.build
+++ b/tests/meson.build
@@ -263,6 +263,7 @@ i915_progs = [
]
xe_progs = [
+ 'xe_ccs',
'xe_create',
'xe_compute',
'xe_dma_buf_sync',
diff --git a/tests/xe/xe_ccs.c b/tests/xe/xe_ccs.c
new file mode 100644
index 0000000000..ee653790bf
--- /dev/null
+++ b/tests/xe/xe_ccs.c
@@ -0,0 +1,757 @@
+// SPDX-License-Identifier: MIT
+/*
+ * Copyright © 2023 Intel Corporation
+ */
+
+#include <errno.h>
+#include <glib.h>
+#include <sys/ioctl.h>
+#include <sys/time.h>
+#include <malloc.h>
+#include "drm.h"
+#include "igt.h"
+#include "igt_syncobj.h"
+#include "intel_blt.h"
+#include "intel_mocs.h"
+#include "xe/xe_ioctl.h"
+#include "xe/xe_query.h"
+#include "xe/xe_util.h"
+/**
+ * TEST: xe ccs
+ * Description: Exercise gen12 blitter with and without flatccs compression on Xe
+ * Run type: FULL
+ *
+ * SUBTEST: block-copy-compressed
+ * Description: Check block-copy flatccs compressed blit
+ *
+ * SUBTEST: block-copy-uncompressed
+ * Description: Check block-copy uncompressed blit
+ *
+ * SUBTEST: block-multicopy-compressed
+ * Description: Check block-multicopy flatccs compressed blit
+ *
+ * SUBTEST: block-multicopy-inplace
+ * Description: Check block-multicopy flatccs inplace decompression blit
+ *
+ * SUBTEST: ctrl-surf-copy
+ * Description: Check flatccs data can be copied from/to surface
+ *
+ * SUBTEST: ctrl-surf-copy-new-ctx
+ * Description: Check flatccs data are physically tagged and visible in vm
+ *
+ * SUBTEST: suspend-resume
+ * Description: Check flatccs data persists after suspend / resume (S0)
+ */
+
+IGT_TEST_DESCRIPTION("Exercise gen12 blitter with and without flatccs compression on Xe");
+
+static struct param {
+ int compression_format;
+ int tiling;
+ bool write_png;
+ bool print_bb;
+ bool print_surface_info;
+ int width;
+ int height;
+} param = {
+ .compression_format = 0,
+ .tiling = -1,
+ .write_png = false,
+ .print_bb = false,
+ .print_surface_info = false,
+ .width = 512,
+ .height = 512,
+};
+
+struct test_config {
+ bool compression;
+ bool inplace;
+ bool surfcopy;
+ bool new_ctx;
+ bool suspend_resume;
+};
+
+static void set_surf_object(struct blt_ctrl_surf_copy_object *obj,
+ uint32_t handle, uint32_t region, uint64_t size,
+ uint8_t mocs, enum blt_access_type access_type)
+{
+ obj->handle = handle;
+ obj->region = region;
+ obj->size = size;
+ obj->mocs = mocs;
+ obj->access_type = access_type;
+}
+
+#define PRINT_SURFACE_INFO(name, obj) do { \
+ if (param.print_surface_info) \
+ blt_surface_info((name), (obj)); } while (0)
+
+#define WRITE_PNG(fd, id, name, obj, w, h) do { \
+ if (param.write_png) \
+ blt_surface_to_png((fd), (id), (name), (obj), (w), (h)); } while (0)
+
+static int compare_nxn(const struct blt_copy_object *surf1,
+ const struct blt_copy_object *surf2,
+ int xsize, int ysize, int bx, int by)
+{
+ int x, y, corrupted;
+ uint32_t pos, px1, px2;
+
+ corrupted = 0;
+ for (y = 0; y < ysize; y++) {
+ for (x = 0; x < xsize; x++) {
+ pos = bx * xsize + by * ysize * surf1->pitch / 4;
+ pos += x + y * surf1->pitch / 4;
+ px1 = surf1->ptr[pos];
+ px2 = surf2->ptr[pos];
+ if (px1 != px2)
+ corrupted++;
+ }
+ }
+
+ return corrupted;
+}
+
+static void dump_corruption_info(const struct blt_copy_object *surf1,
+ const struct blt_copy_object *surf2)
+{
+ const int xsize = 8, ysize = 8;
+ int w, h, bx, by, corrupted;
+
+ igt_assert(surf1->x1 == surf2->x1 && surf1->x2 == surf2->x2);
+ igt_assert(surf1->y1 == surf2->y1 && surf1->y2 == surf2->y2);
+ w = surf1->x2;
+ h = surf1->y2;
+
+ igt_info("dump corruption - width: %d, height: %d, sizex: %x, sizey: %x\n",
+ surf1->x2, surf1->y2, xsize, ysize);
+
+ for (by = 0; by < h / ysize; by++) {
+ for (bx = 0; bx < w / xsize; bx++) {
+ corrupted = compare_nxn(surf1, surf2, xsize, ysize, bx, by);
+ if (corrupted == 0)
+ igt_info(".");
+ else
+ igt_info("%c", '0' + corrupted);
+ }
+ igt_info("\n");
+ }
+}
+
+static void surf_copy(int xe,
+ intel_ctx_t *ctx,
+ uint64_t ahnd,
+ const struct blt_copy_object *src,
+ const struct blt_copy_object *mid,
+ const struct blt_copy_object *dst,
+ int run_id, bool suspend_resume)
+{
+ struct blt_copy_data blt = {};
+ struct blt_block_copy_data_ext ext = {};
+ struct blt_ctrl_surf_copy_data surf = {};
+ uint32_t bb1, bb2, ccs, ccs2, *ccsmap, *ccsmap2;
+ uint64_t bb_size, ccssize = mid->size / CCS_RATIO;
+ uint32_t *ccscopy;
+ uint8_t uc_mocs = intel_get_uc_mocs(xe);
+ uint32_t sysmem = system_memory(xe);
+ int result;
+
+ igt_assert(mid->compression);
+ ccscopy = (uint32_t *) malloc(ccssize);
+ ccs = xe_bo_create_flags(xe, 0, ccssize, sysmem);
+ ccs2 = xe_bo_create_flags(xe, 0, ccssize, sysmem);
+
+ blt_ctrl_surf_copy_init(xe, &surf);
+ surf.print_bb = param.print_bb;
+ set_surf_object(&surf.src, mid->handle, mid->region, mid->size,
+ uc_mocs, BLT_INDIRECT_ACCESS);
+ set_surf_object(&surf.dst, ccs, sysmem, ccssize, uc_mocs, DIRECT_ACCESS);
+ bb_size = xe_get_default_alignment(xe);
+ bb1 = xe_bo_create_flags(xe, 0, bb_size, sysmem);
+ blt_set_batch(&surf.bb, bb1, bb_size, sysmem);
+ blt_ctrl_surf_copy(xe, ctx, NULL, ahnd, &surf);
+ intel_ctx_xe_sync(ctx, true);
+
+ ccsmap = xe_bo_map(xe, ccs, surf.dst.size);
+ memcpy(ccscopy, ccsmap, ccssize);
+
+ if (suspend_resume) {
+ char *orig, *orig2, *newsum, *newsum2;
+
+ orig = g_compute_checksum_for_data(G_CHECKSUM_SHA1,
+ (void *)ccsmap, surf.dst.size);
+ orig2 = g_compute_checksum_for_data(G_CHECKSUM_SHA1,
+ (void *)mid->ptr, mid->size);
+
+ igt_system_suspend_autoresume(SUSPEND_STATE_FREEZE, SUSPEND_TEST_NONE);
+
+ set_surf_object(&surf.dst, ccs2, system_memory(xe), ccssize,
+ 0, DIRECT_ACCESS);
+ blt_ctrl_surf_copy(xe, ctx, NULL, ahnd, &surf);
+ intel_ctx_xe_sync(ctx, true);
+
+ ccsmap2 = xe_bo_map(xe, ccs2, surf.dst.size);
+ newsum = g_compute_checksum_for_data(G_CHECKSUM_SHA1,
+ (void *)ccsmap2, surf.dst.size);
+ newsum2 = g_compute_checksum_for_data(G_CHECKSUM_SHA1,
+ (void *)mid->ptr, mid->size);
+
+ munmap(ccsmap2, ccssize);
+ igt_assert(!strcmp(orig, newsum));
+ igt_assert(!strcmp(orig2, newsum2));
+ g_free(orig);
+ g_free(orig2);
+ g_free(newsum);
+ g_free(newsum2);
+ }
+
+ /* corrupt ccs */
+ for (int i = 0; i < surf.dst.size / sizeof(uint32_t); i++)
+ ccsmap[i] = i;
+ set_surf_object(&surf.src, ccs, sysmem, ccssize,
+ uc_mocs, DIRECT_ACCESS);
+ set_surf_object(&surf.dst, mid->handle, mid->region, mid->size,
+ uc_mocs, INDIRECT_ACCESS);
+ blt_ctrl_surf_copy(xe, ctx, NULL, ahnd, &surf);
+ intel_ctx_xe_sync(ctx, true);
+
+ blt_copy_init(xe, &blt);
+ blt.color_depth = CD_32bit;
+ blt.print_bb = param.print_bb;
+ blt_set_copy_object(&blt.src, mid);
+ blt_set_copy_object(&blt.dst, dst);
+ blt_set_object_ext(&ext.src, mid->compression_type, mid->x2, mid->y2, SURFACE_TYPE_2D);
+ blt_set_object_ext(&ext.dst, 0, dst->x2, dst->y2, SURFACE_TYPE_2D);
+ bb2 = xe_bo_create_flags(xe, 0, bb_size, sysmem);
+ blt_set_batch(&blt.bb, bb2, bb_size, sysmem);
+ blt_block_copy(xe, ctx, NULL, ahnd, &blt, &ext);
+ intel_ctx_xe_sync(ctx, true);
+ WRITE_PNG(xe, run_id, "corrupted", &blt.dst, dst->x2, dst->y2);
+ result = memcmp(src->ptr, dst->ptr, src->size);
+ igt_assert(result != 0);
+
+ /* retrieve back ccs */
+ memcpy(ccsmap, ccscopy, ccssize);
+ blt_ctrl_surf_copy(xe, ctx, NULL, ahnd, &surf);
+
+ blt_block_copy(xe, ctx, NULL, ahnd, &blt, &ext);
+ intel_ctx_xe_sync(ctx, true);
+ WRITE_PNG(xe, run_id, "corrected", &blt.dst, dst->x2, dst->y2);
+ result = memcmp(src->ptr, dst->ptr, src->size);
+ if (result)
+ dump_corruption_info(src, dst);
+
+ munmap(ccsmap, ccssize);
+ gem_close(xe, ccs);
+ gem_close(xe, ccs2);
+ gem_close(xe, bb1);
+ gem_close(xe, bb2);
+
+ igt_assert_f(result == 0,
+ "Source and destination surfaces are different after "
+ "restoring source ccs data\n");
+}
+
+struct blt_copy3_data {
+ int xe;
+ struct blt_copy_object src;
+ struct blt_copy_object mid;
+ struct blt_copy_object dst;
+ struct blt_copy_object final;
+ struct blt_copy_batch bb;
+ enum blt_color_depth color_depth;
+
+ /* debug stuff */
+ bool print_bb;
+};
+
+struct blt_block_copy3_data_ext {
+ struct blt_block_copy_object_ext src;
+ struct blt_block_copy_object_ext mid;
+ struct blt_block_copy_object_ext dst;
+ struct blt_block_copy_object_ext final;
+};
+
+static int blt_block_copy3(int xe,
+ const intel_ctx_t *ctx,
+ uint64_t ahnd,
+ const struct blt_copy3_data *blt3,
+ const struct blt_block_copy3_data_ext *ext3)
+{
+ struct blt_copy_data blt0;
+ struct blt_block_copy_data_ext ext0;
+ uint64_t bb_offset, alignment;
+ uint64_t bb_pos = 0;
+ int ret;
+
+ igt_assert_f(ahnd, "block-copy3 supports softpin only\n");
+ igt_assert_f(blt3, "block-copy3 requires data to do blit\n");
+
+ alignment = xe_get_default_alignment(xe);
+ get_offset(ahnd, blt3->src.handle, blt3->src.size, alignment);
+ get_offset(ahnd, blt3->mid.handle, blt3->mid.size, alignment);
+ get_offset(ahnd, blt3->dst.handle, blt3->dst.size, alignment);
+ get_offset(ahnd, blt3->final.handle, blt3->final.size, alignment);
+ bb_offset = get_offset(ahnd, blt3->bb.handle, blt3->bb.size, alignment);
+
+ /* First blit src -> mid */
+ blt_copy_init(xe, &blt0);
+ blt0.src = blt3->src;
+ blt0.dst = blt3->mid;
+ blt0.bb = blt3->bb;
+ blt0.color_depth = blt3->color_depth;
+ blt0.print_bb = blt3->print_bb;
+ ext0.src = ext3->src;
+ ext0.dst = ext3->mid;
+ bb_pos = emit_blt_block_copy(xe, ahnd, &blt0, &ext0, bb_pos, false);
+
+ /* Second blit mid -> dst */
+ blt_copy_init(xe, &blt0);
+ blt0.src = blt3->mid;
+ blt0.dst = blt3->dst;
+ blt0.bb = blt3->bb;
+ blt0.color_depth = blt3->color_depth;
+ blt0.print_bb = blt3->print_bb;
+ ext0.src = ext3->mid;
+ ext0.dst = ext3->dst;
+ bb_pos = emit_blt_block_copy(xe, ahnd, &blt0, &ext0, bb_pos, false);
+
+ /* Third blit dst -> final */
+ blt_copy_init(xe, &blt0);
+ blt0.src = blt3->dst;
+ blt0.dst = blt3->final;
+ blt0.bb = blt3->bb;
+ blt0.color_depth = blt3->color_depth;
+ blt0.print_bb = blt3->print_bb;
+ ext0.src = ext3->dst;
+ ext0.dst = ext3->final;
+ bb_pos = emit_blt_block_copy(xe, ahnd, &blt0, &ext0, bb_pos, true);
+
+ intel_ctx_xe_exec(ctx, ahnd, bb_offset);
+
+ return ret;
+}
+
+static void block_copy(int xe,
+ intel_ctx_t *ctx,
+ uint32_t region1, uint32_t region2,
+ enum blt_tiling_type mid_tiling,
+ const struct test_config *config)
+{
+ struct blt_copy_data blt = {};
+ struct blt_block_copy_data_ext ext = {}, *pext = &ext;
+ struct blt_copy_object *src, *mid, *dst;
+ const uint32_t bpp = 32;
+ uint64_t bb_size = xe_get_default_alignment(xe);
+ uint64_t ahnd = intel_allocator_open(xe, ctx->vm, INTEL_ALLOCATOR_RELOC);
+ uint32_t run_id = mid_tiling;
+ uint32_t mid_region = region2, bb;
+ uint32_t width = param.width, height = param.height;
+ enum blt_compression mid_compression = config->compression;
+ int mid_compression_format = param.compression_format;
+ enum blt_compression_type comp_type = COMPRESSION_TYPE_3D;
+ uint8_t uc_mocs = intel_get_uc_mocs(xe);
+ int result;
+
+ bb = xe_bo_create_flags(xe, 0, bb_size, region1);
+
+ if (!blt_uses_extended_block_copy(xe))
+ pext = NULL;
+
+ blt_copy_init(xe, &blt);
+
+ src = blt_create_object(&blt, region1, width, height, bpp, uc_mocs,
+ T_LINEAR, COMPRESSION_DISABLED, comp_type, true);
+ mid = blt_create_object(&blt, mid_region, width, height, bpp, uc_mocs,
+ mid_tiling, mid_compression, comp_type, true);
+ dst = blt_create_object(&blt, region1, width, height, bpp, uc_mocs,
+ T_LINEAR, COMPRESSION_DISABLED, comp_type, true);
+ igt_assert(src->size == dst->size);
+ PRINT_SURFACE_INFO("src", src);
+ PRINT_SURFACE_INFO("mid", mid);
+ PRINT_SURFACE_INFO("dst", dst);
+
+ blt_surface_fill_rect(xe, src, width, height);
+ WRITE_PNG(xe, run_id, "src", src, width, height);
+
+ blt.color_depth = CD_32bit;
+ blt.print_bb = param.print_bb;
+ blt_set_copy_object(&blt.src, src);
+ blt_set_copy_object(&blt.dst, mid);
+ blt_set_object_ext(&ext.src, 0, width, height, SURFACE_TYPE_2D);
+ blt_set_object_ext(&ext.dst, mid_compression_format, width, height, SURFACE_TYPE_2D);
+ blt_set_batch(&blt.bb, bb, bb_size, region1);
+ blt_block_copy(xe, ctx, NULL, ahnd, &blt, pext);
+ intel_ctx_xe_sync(ctx, true);
+
+ /* We expect mid != src if there's compression */
+ if (mid->compression)
+ igt_assert(memcmp(src->ptr, mid->ptr, src->size) != 0);
+
+ WRITE_PNG(xe, run_id, "mid", &blt.dst, width, height);
+
+ if (config->surfcopy && pext) {
+ struct drm_xe_engine_class_instance inst = {
+ .engine_class = DRM_XE_ENGINE_CLASS_COPY,
+ };
+ intel_ctx_t *surf_ctx = ctx;
+ uint64_t surf_ahnd = ahnd;
+ uint32_t vm, engine;
+
+ if (config->new_ctx) {
+ vm = xe_vm_create(xe, DRM_XE_VM_CREATE_ASYNC_BIND_OPS, 0);
+ engine = xe_engine_create(xe, vm, &inst, 0);
+ surf_ctx = intel_ctx_xe(xe, vm, engine, 0, 0, 0);
+ surf_ahnd = intel_allocator_open(xe, surf_ctx->vm,
+ INTEL_ALLOCATOR_RELOC);
+ }
+ surf_copy(xe, surf_ctx, surf_ahnd, src, mid, dst, run_id,
+ config->suspend_resume);
+
+ if (surf_ctx != ctx) {
+ xe_engine_destroy(xe, engine);
+ xe_vm_destroy(xe, vm);
+ free(surf_ctx);
+ put_ahnd(surf_ahnd);
+ }
+ }
+
+ blt_copy_init(xe, &blt);
+ blt.color_depth = CD_32bit;
+ blt.print_bb = param.print_bb;
+ blt_set_copy_object(&blt.src, mid);
+ blt_set_copy_object(&blt.dst, dst);
+ blt_set_object_ext(&ext.src, mid_compression_format, width, height, SURFACE_TYPE_2D);
+ blt_set_object_ext(&ext.dst, 0, width, height, SURFACE_TYPE_2D);
+ if (config->inplace) {
+ blt_set_object(&blt.dst, mid->handle, dst->size, mid->region, 0,
+ T_LINEAR, COMPRESSION_DISABLED, comp_type);
+ blt.dst.ptr = mid->ptr;
+ }
+
+ blt_set_batch(&blt.bb, bb, bb_size, region1);
+ blt_block_copy(xe, ctx, NULL, ahnd, &blt, pext);
+ intel_ctx_xe_sync(ctx, true);
+
+ WRITE_PNG(xe, run_id, "dst", &blt.dst, width, height);
+
+ result = memcmp(src->ptr, blt.dst.ptr, src->size);
+
+ /* Politely clean vm */
+ put_offset(ahnd, src->handle);
+ put_offset(ahnd, mid->handle);
+ put_offset(ahnd, dst->handle);
+ put_offset(ahnd, bb);
+ intel_allocator_bind(ahnd, 0, 0);
+ blt_destroy_object(xe, src);
+ blt_destroy_object(xe, mid);
+ blt_destroy_object(xe, dst);
+ gem_close(xe, bb);
+ put_ahnd(ahnd);
+
+ igt_assert_f(!result, "source and destination surfaces differs!\n");
+}
+
+static void block_multicopy(int xe,
+ intel_ctx_t *ctx,
+ uint32_t region1, uint32_t region2,
+ enum blt_tiling_type mid_tiling,
+ const struct test_config *config)
+{
+ struct blt_copy3_data blt3 = {};
+ struct blt_copy_data blt = {};
+ struct blt_block_copy3_data_ext ext3 = {}, *pext3 = &ext3;
+ struct blt_copy_object *src, *mid, *dst, *final;
+ const uint32_t bpp = 32;
+ uint64_t bb_size = xe_get_default_alignment(xe);
+ uint64_t ahnd = intel_allocator_open(xe, ctx->vm, INTEL_ALLOCATOR_RELOC);
+ uint32_t run_id = mid_tiling;
+ uint32_t mid_region = region2, bb;
+ uint32_t width = param.width, height = param.height;
+ enum blt_compression mid_compression = config->compression;
+ int mid_compression_format = param.compression_format;
+ enum blt_compression_type comp_type = COMPRESSION_TYPE_3D;
+ uint8_t uc_mocs = intel_get_uc_mocs(xe);
+ int result;
+
+ bb = xe_bo_create_flags(xe, 0, bb_size, region1);
+
+ if (!blt_uses_extended_block_copy(xe))
+ pext3 = NULL;
+
+ blt_copy_init(xe, &blt);
+
+ src = blt_create_object(&blt, region1, width, height, bpp, uc_mocs,
+ T_LINEAR, COMPRESSION_DISABLED, comp_type, true);
+ mid = blt_create_object(&blt, mid_region, width, height, bpp, uc_mocs,
+ mid_tiling, mid_compression, comp_type, true);
+ dst = blt_create_object(&blt, region1, width, height, bpp, uc_mocs,
+ mid_tiling, COMPRESSION_DISABLED, comp_type, true);
+ final = blt_create_object(&blt, region1, width, height, bpp, uc_mocs,
+ T_LINEAR, COMPRESSION_DISABLED, comp_type, true);
+ igt_assert(src->size == dst->size);
+ PRINT_SURFACE_INFO("src", src);
+ PRINT_SURFACE_INFO("mid", mid);
+ PRINT_SURFACE_INFO("dst", dst);
+ PRINT_SURFACE_INFO("final", final);
+
+ blt_surface_fill_rect(xe, src, width, height);
+
+ blt3.color_depth = CD_32bit;
+ blt3.print_bb = param.print_bb;
+ blt_set_copy_object(&blt3.src, src);
+ blt_set_copy_object(&blt3.mid, mid);
+ blt_set_copy_object(&blt3.dst, dst);
+ blt_set_copy_object(&blt3.final, final);
+
+ if (config->inplace) {
+ blt_set_object(&blt3.dst, mid->handle, dst->size, mid->region,
+ mid->mocs, mid_tiling, COMPRESSION_DISABLED,
+ comp_type);
+ blt3.dst.ptr = mid->ptr;
+ }
+
+ blt_set_object_ext(&ext3.src, 0, width, height, SURFACE_TYPE_2D);
+ blt_set_object_ext(&ext3.mid, mid_compression_format, width, height, SURFACE_TYPE_2D);
+ blt_set_object_ext(&ext3.dst, 0, width, height, SURFACE_TYPE_2D);
+ blt_set_object_ext(&ext3.final, 0, width, height, SURFACE_TYPE_2D);
+ blt_set_batch(&blt3.bb, bb, bb_size, region1);
+
+ blt_block_copy3(xe, ctx, ahnd, &blt3, pext3);
+ intel_ctx_xe_sync(ctx, true);
+
+ WRITE_PNG(xe, run_id, "src", &blt3.src, width, height);
+ if (!config->inplace)
+ WRITE_PNG(xe, run_id, "mid", &blt3.mid, width, height);
+ WRITE_PNG(xe, run_id, "dst", &blt3.dst, width, height);
+ WRITE_PNG(xe, run_id, "final", &blt3.final, width, height);
+
+ result = memcmp(src->ptr, blt3.final.ptr, src->size);
+
+ put_offset(ahnd, src->handle);
+ put_offset(ahnd, mid->handle);
+ put_offset(ahnd, dst->handle);
+ put_offset(ahnd, final->handle);
+ put_offset(ahnd, bb);
+ intel_allocator_bind(ahnd, 0, 0);
+ blt_destroy_object(xe, src);
+ blt_destroy_object(xe, mid);
+ blt_destroy_object(xe, dst);
+ blt_destroy_object(xe, final);
+ gem_close(xe, bb);
+ put_ahnd(ahnd);
+
+ igt_assert_f(!result, "source and destination surfaces differs!\n");
+}
+
+enum copy_func {
+ BLOCK_COPY,
+ BLOCK_MULTICOPY,
+};
+
+static const struct {
+ const char *suffix;
+ void (*copyfn)(int fd,
+ intel_ctx_t *ctx,
+ uint32_t region1, uint32_t region2,
+ enum blt_tiling_type btype,
+ const struct test_config *config);
+} copyfns[] = {
+ [BLOCK_COPY] = { "", block_copy },
+ [BLOCK_MULTICOPY] = { "-multicopy", block_multicopy },
+};
+
+static void block_copy_test(int xe,
+ const struct test_config *config,
+ struct igt_collection *set,
+ enum copy_func copy_function)
+{
+ struct drm_xe_engine_class_instance inst = {
+ .engine_class = DRM_XE_ENGINE_CLASS_COPY,
+ };
+ intel_ctx_t *ctx;
+ struct igt_collection *regions;
+ uint32_t vm, engine;
+ int tiling;
+
+ if (config->compression && !blt_block_copy_supports_compression(xe))
+ return;
+
+ if (config->inplace && !config->compression)
+ return;
+
+ for_each_tiling(tiling) {
+ if (!blt_block_copy_supports_tiling(xe, tiling) ||
+ (param.tiling >= 0 && param.tiling != tiling))
+ continue;
+
+ for_each_variation_r(regions, 2, set) {
+ uint32_t region1, region2;
+ char *regtxt;
+
+ region1 = igt_collection_get_value(regions, 0);
+ region2 = igt_collection_get_value(regions, 1);
+
+ /* Compressed surface must be in device memory */
+ if (config->compression && !XE_IS_VRAM_MEMORY_REGION(xe, region2))
+ continue;
+
+ regtxt = xe_memregion_dynamic_subtest_name(xe, regions);
+
+ igt_dynamic_f("%s-%s-compfmt%d-%s%s",
+ blt_tiling_name(tiling),
+ config->compression ?
+ "compressed" : "uncompressed",
+ param.compression_format, regtxt,
+ copyfns[copy_function].suffix) {
+ uint32_t sync_bind, sync_out;
+
+ vm = xe_vm_create(xe, DRM_XE_VM_CREATE_ASYNC_BIND_OPS, 0);
+ engine = xe_engine_create(xe, vm, &inst, 0);
+ sync_bind = syncobj_create(xe, 0);
+ sync_out = syncobj_create(xe, 0);
+ ctx = intel_ctx_xe(xe, vm, engine,
+ 0, sync_bind, sync_out);
+
+ copyfns[copy_function].copyfn(xe, ctx,
+ region1, region2,
+ tiling, config);
+
+ xe_engine_destroy(xe, engine);
+ xe_vm_destroy(xe, vm);
+ syncobj_destroy(xe, sync_bind);
+ syncobj_destroy(xe, sync_out);
+ free(ctx);
+ }
+
+ free(regtxt);
+ }
+ }
+}
+
+static int opt_handler(int opt, int opt_index, void *data)
+{
+ switch (opt) {
+ case 'b':
+ param.print_bb = true;
+ igt_debug("Print bb: %d\n", param.print_bb);
+ break;
+ case 'f':
+ param.compression_format = atoi(optarg);
+ igt_debug("Compression format: %d\n", param.compression_format);
+ igt_assert((param.compression_format & ~0x1f) == 0);
+ break;
+ case 'p':
+ param.write_png = true;
+ igt_debug("Write png: %d\n", param.write_png);
+ break;
+ case 's':
+ param.print_surface_info = true;
+ igt_debug("Print surface info: %d\n", param.print_surface_info);
+ break;
+ case 't':
+ param.tiling = atoi(optarg);
+ igt_debug("Tiling: %d\n", param.tiling);
+ break;
+ case 'W':
+ param.width = atoi(optarg);
+ igt_debug("Width: %d\n", param.width);
+ break;
+ case 'H':
+ param.height = atoi(optarg);
+ igt_debug("Height: %d\n", param.height);
+ break;
+ default:
+ return IGT_OPT_HANDLER_ERROR;
+ }
+
+ return IGT_OPT_HANDLER_SUCCESS;
+}
+
+const char *help_str =
+ " -b\tPrint bb\n"
+ " -f\tCompression format (0-31)\n"
+ " -p\tWrite PNG\n"
+ " -s\tPrint surface info\n"
+ " -t\tTiling format (0 - linear, 1 - XMAJOR, 2 - YMAJOR, 3 - TILE4, 4 - TILE64)\n"
+ " -W\tWidth (default 512)\n"
+ " -H\tHeight (default 512)"
+ ;
+
+igt_main_args("bf:pst:W:H:", NULL, help_str, opt_handler, NULL)
+{
+ struct igt_collection *set;
+ int xe;
+
+ igt_fixture {
+ xe = drm_open_driver(DRIVER_XE);
+ igt_require(blt_has_block_copy(xe));
+
+ xe_device_get(xe);
+
+ set = xe_get_memory_region_set(xe,
+ XE_MEM_REGION_CLASS_SYSMEM,
+ XE_MEM_REGION_CLASS_VRAM);
+ }
+
+ igt_describe("Check block-copy uncompressed blit");
+ igt_subtest_with_dynamic("block-copy-uncompressed") {
+ struct test_config config = {};
+
+ block_copy_test(xe, &config, set, BLOCK_COPY);
+ }
+
+ igt_describe("Check block-copy flatccs compressed blit");
+ igt_subtest_with_dynamic("block-copy-compressed") {
+ struct test_config config = { .compression = true };
+
+ block_copy_test(xe, &config, set, BLOCK_COPY);
+ }
+
+ igt_describe("Check block-multicopy flatccs compressed blit");
+ igt_subtest_with_dynamic("block-multicopy-compressed") {
+ struct test_config config = { .compression = true };
+
+ block_copy_test(xe, &config, set, BLOCK_MULTICOPY);
+ }
+
+ igt_describe("Check block-multicopy flatccs inplace decompression blit");
+ igt_subtest_with_dynamic("block-multicopy-inplace") {
+ struct test_config config = { .compression = true,
+ .inplace = true };
+
+ block_copy_test(xe, &config, set, BLOCK_MULTICOPY);
+ }
+
+ igt_describe("Check flatccs data can be copied from/to surface");
+ igt_subtest_with_dynamic("ctrl-surf-copy") {
+ struct test_config config = { .compression = true,
+ .surfcopy = true };
+
+ block_copy_test(xe, &config, set, BLOCK_COPY);
+ }
+
+ igt_describe("Check flatccs data are physically tagged and visible"
+ " in different contexts");
+ igt_subtest_with_dynamic("ctrl-surf-copy-new-ctx") {
+ struct test_config config = { .compression = true,
+ .surfcopy = true,
+ .new_ctx = true };
+
+ block_copy_test(xe, &config, set, BLOCK_COPY);
+ }
+
+ igt_describe("Check flatccs data persists after suspend / resume (S0)");
+ igt_subtest_with_dynamic("suspend-resume") {
+ struct test_config config = { .compression = true,
+ .surfcopy = true,
+ .suspend_resume = true };
+
+ block_copy_test(xe, &config, set, BLOCK_COPY);
+ }
+
+ igt_fixture {
+ xe_device_put(xe);
+ close(xe);
+ }
+}
--
2.34.1
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