[igt-dev] [PATCH i-g-t v4 14/15] tests/xe: add some vm_bind pat_index tests
Niranjana Vishwanathapura
niranjana.vishwanathapura at intel.com
Fri Oct 20 17:24:48 UTC 2023
On Fri, Oct 20, 2023 at 09:21:13AM +0100, Matthew Auld wrote:
>On 20/10/2023 06:27, Niranjana Vishwanathapura wrote:
>>On Thu, Oct 19, 2023 at 03:41:05PM +0100, Matthew Auld wrote:
>>>Add some basic tests for pat_index and vm_bind.
>>>
>>>v2: Make sure to actually use srand() with the chosen seed
>>> - Make it work on xe2; the wt mode now has compression.
>>> - Also test some xe2+ specific pat_index modes.
>>>v3: Fix decompress step.
>>>v4: (Niranjana)
>>> - Various improvements, including testing more pat_index modes, like
>>> wc where possible.
>>> - Document the idea behind "common" modes.
>>>
>>>Signed-off-by: Matthew Auld <matthew.auld at intel.com>
>>>Cc: Niranjana Vishwanathapura <niranjana.vishwanathapura at intel.com>
>>>Cc: José Roberto de Souza <jose.souza at intel.com>
>>>Cc: Pallavi Mishra <pallavi.mishra at intel.com>
>>>Cc: Nitish Kumar <nitish.kumar at intel.com>
>>>---
>>>tests/intel/xe_pat.c | 754 +++++++++++++++++++++++++++++++++++++++++++
>>>tests/meson.build | 1 +
>>>2 files changed, 755 insertions(+)
>>>create mode 100644 tests/intel/xe_pat.c
>>>
>>>diff --git a/tests/intel/xe_pat.c b/tests/intel/xe_pat.c
>>>new file mode 100644
>>>index 000000000..1e74014b8
>>>--- /dev/null
>>>+++ b/tests/intel/xe_pat.c
>>>@@ -0,0 +1,754 @@
>>>+// SPDX-License-Identifier: MIT
>>>+/*
>>>+ * Copyright © 2023 Intel Corporation
>>>+ */
>>>+
>>>+/**
>>>+ * TEST: Test for selecting per-VMA pat_index
>>>+ * Category: Software building block
>>>+ * Sub-category: VMA
>>>+ * Functionality: pat_index
>>>+ */
>>>+
>>>+#include "igt.h"
>>>+#include "intel_blt.h"
>>>+#include "intel_mocs.h"
>>>+#include "intel_pat.h"
>>>+
>>>+#include "xe/xe_ioctl.h"
>>>+#include "xe/xe_query.h"
>>>+#include "xe/xe_util.h"
>>>+
>>>+#define PAGE_SIZE 4096
>>>+
>>>+static bool do_slow_check;
>>>+
>>>+/**
>>>+ * SUBTEST: userptr-coh-none
>>>+ * Test category: functionality test
>>>+ * Description: Test non-coherent pat_index on userptr
>>>+ */
>>>+static void userptr_coh_none(int fd)
>>>+{
>>>+ size_t size = xe_get_default_alignment(fd);
>>>+ uint32_t vm;
>>>+ void *data;
>>>+
>>>+ data = mmap(0, size, PROT_READ |
>>>+ PROT_WRITE, MAP_SHARED | MAP_ANONYMOUS, -1, 0);
>>>+ igt_assert(data != MAP_FAILED);
>>>+
>>>+ vm = xe_vm_create(fd, 0, 0);
>>>+
>>>+ /*
>>>+ * Try some valid combinations first just to make sure we're
>>>not being
>>>+ * swindled.
>>>+ */
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, 0,
>>>to_user_pointer(data), 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP_USERPTR, 0, NULL, 0, 0,
>>>+ DEFAULT_PAT_INDEX, 0),
>>>+ 0);
>>>+ xe_vm_unbind_sync(fd, vm, 0, 0x40000, size);
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, 0,
>>>to_user_pointer(data), 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP_USERPTR, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_wb(fd), 0),
>>>+ 0);
>>>+ xe_vm_unbind_sync(fd, vm, 0, 0x40000, size);
>>>+
>>>+ /* And then some known COH_NONE pat_index combos which should
>>>fail. */
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, 0,
>>>to_user_pointer(data), 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP_USERPTR, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_uc(fd), 0),
>>>+ -EINVAL);
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, 0,
>>>to_user_pointer(data), 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP_USERPTR, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_wt(fd), 0),
>>>+ -EINVAL);
>>>+
>>>+ munmap(data, size);
>>>+ xe_vm_destroy(fd, vm);
>>>+}
>>>+
>>>+/**
>>>+ * SUBTEST: pat-index-all
>>>+ * Test category: functionality test
>>>+ * Description: Test every pat_index
>>>+ */
>>>+static void pat_index_all(int fd)
>>>+{
>>>+ uint16_t dev_id = intel_get_drm_devid(fd);
>>>+ size_t size = xe_get_default_alignment(fd);
>>>+ uint32_t vm, bo;
>>>+ uint8_t pat_index;
>>>+
>>>+ vm = xe_vm_create(fd, 0, 0);
>>>+
>>>+ bo = xe_bo_create_caching(fd, 0, size, all_memory_regions(fd),
>>>+ DRM_XE_GEM_CPU_CACHING_WC,
>>>+ DRM_XE_GEM_COH_NONE);
>>>+
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_uc(fd), 0),
>>>+ 0);
>>>+ xe_vm_unbind_sync(fd, vm, 0, 0x40000, size);
>>>+
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_wt(fd), 0),
>>>+ 0);
>>>+ xe_vm_unbind_sync(fd, vm, 0, 0x40000, size);
>>>+
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_wb(fd), 0),
>>>+ 0);
>>>+ xe_vm_unbind_sync(fd, vm, 0, 0x40000, size);
>>>+
>>>+ igt_assert(intel_get_max_pat_index(fd));
>>>+
>>>+ for (pat_index = 0; pat_index <= intel_get_max_pat_index(fd);
>>>+ pat_index++) {
>>>+ if (intel_get_device_info(dev_id)->graphics_ver == 20 &&
>>>+ pat_index >= 16 && pat_index <= 19) { /* hw reserved */
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ pat_index, 0),
>>>+ -EINVAL);
>>>+ } else {
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ pat_index, 0),
>>>+ 0);
>>>+ xe_vm_unbind_sync(fd, vm, 0, 0x40000, size);
>>>+ }
>>>+ }
>>>+
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ pat_index, 0),
>>>+ -EINVAL);
>>>+
>>>+ gem_close(fd, bo);
>>>+
>>>+ /* Must be at least as coherent as the gem_create coh_mode. */
>>>+ bo = xe_bo_create_caching(fd, 0, size, system_memory(fd),
>>>+ DRM_XE_GEM_CPU_CACHING_WB,
>>>+ DRM_XE_GEM_COH_AT_LEAST_1WAY);
>>>+
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_uc(fd), 0),
>>>+ -EINVAL);
>>>+
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_wt(fd), 0),
>>>+ -EINVAL);
>>>+
>>>+ igt_assert_eq(__xe_vm_bind(fd, vm, 0, bo, 0, 0x40000,
>>>+ size, XE_VM_BIND_OP_MAP, 0, NULL, 0, 0,
>>>+ intel_get_pat_idx_wb(fd), 0),
>>>+ 0);
>>>+ xe_vm_unbind_sync(fd, vm, 0, 0x40000, size);
>>>+
>>>+ gem_close(fd, bo);
>>>+
>>>+ xe_vm_destroy(fd, vm);
>>>+}
>>>+
>>>+#define CLEAR_1 0xFFFFFFFF /* something compressible */
>>>+
>>>+static void xe2_blt_decompress_dst(int fd,
>>>+ intel_ctx_t *ctx,
>>>+ uint64_t ahnd,
>>>+ struct blt_copy_data *blt,
>>>+ uint32_t alias_handle,
>>>+ uint32_t size)
>>>+{
>>>+ struct blt_copy_object tmp = {};
>>>+
>>>+ /*
>>>+ * Xe2 in-place decompression using an alias to the same physical
>>>+ * memory, but with the dst mapped using some uncompressed
>>>pat_index.
>>>+ * This should allow checking the object pages via mmap.
>>>+ */
>>>+
>>>+ memcpy(&tmp, &blt->src, sizeof(blt->dst));
>>>+ memcpy(&blt->src, &blt->dst, sizeof(blt->dst));
>>>+ blt_set_object(&blt->dst, alias_handle, size, 0,
>>>+ intel_get_uc_mocs_index(fd),
>>>+ intel_get_pat_idx_uc(fd), /* compression disabled */
>>>+ T_LINEAR, 0, 0);
>>>+ blt_fast_copy(fd, ctx, NULL, ahnd, blt);
>>>+ memcpy(&blt->dst, &blt->src, sizeof(blt->dst));
>>>+ memcpy(&blt->src, &tmp, sizeof(blt->dst));
>>>+}
>>>+
>>>+struct xe_pat_size_mode {
>>>+ uint16_t width;
>>>+ uint16_t height;
>>>+ uint32_t alignment;
>>>+ const char *name;
>>>+};
>>>+
>>>+struct xe_pat_param {
>>>+ int fd;
>>>+
>>>+ const struct xe_pat_size_mode *size;
>>>+
>>>+ uint32_t r1;
>>>+ uint8_t r1_pat_index;
>>>+ uint16_t r1_coh_mode;
>>>+ bool r1_force_cpu_wc;
>>>+
>>>+ uint32_t r2;
>>>+ uint8_t r2_pat_index;
>>>+ uint16_t r2_coh_mode;
>>>+ bool r2_force_cpu_wc;
>>>+ bool r2_compressed; /* xe2+ compression */
>>>+
>>>+};
>>>+
>>>+static void pat_index_blt(struct xe_pat_param *p)
>>>+{
>>>+ struct drm_xe_engine_class_instance inst = {
>>>+ .engine_class = DRM_XE_ENGINE_CLASS_COPY,
>>>+ };
>>>+ struct blt_copy_data blt = {};
>>>+ struct blt_copy_object src = {};
>>>+ struct blt_copy_object dst = {};
>>>+ uint32_t vm, exec_queue, src_bo, dst_bo, bb;
>>>+ uint32_t *src_map, *dst_map;
>>>+ uint16_t r1_cpu_caching, r2_cpu_caching;
>>>+ uint32_t r1_flags, r2_flags;
>>>+ intel_ctx_t *ctx;
>>>+ uint64_t ahnd;
>>>+ int width = p->size->width, height = p->size->height;
>>>+ int size, stride, bb_size;
>>>+ int bpp = 32;
>>>+ uint32_t alias, name;
>>>+ int fd = p->fd;
>>>+ int i;
>>>+
>>>+ igt_require(blt_has_fast_copy(fd));
>>>+
>>>+ vm = xe_vm_create(fd, DRM_XE_VM_CREATE_ASYNC_DEFAULT, 0);
>>>+ exec_queue = xe_exec_queue_create(fd, vm, &inst, 0);
>>>+ ctx = intel_ctx_xe(fd, vm, exec_queue, 0, 0, 0);
>>>+ ahnd = intel_allocator_open_full(fd, ctx->vm, 0, 0,
>>>+ INTEL_ALLOCATOR_SIMPLE,
>>>+ ALLOC_STRATEGY_LOW_TO_HIGH,
>>>+ p->size->alignment);
>>>+
>>>+ bb_size = xe_get_default_alignment(fd);
>>>+ bb = xe_bo_create_flags(fd, 0, bb_size, system_memory(fd));
>>>+
>>>+ size = width * height * bpp / 8;
>>>+ stride = width * 4;
>>>+
>>>+ r1_flags = 0;
>>>+ if (p->r1 != system_memory(fd))
>>>+ r1_flags |= XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM;
>>>+
>>>+ if (p->r1_coh_mode == DRM_XE_GEM_COH_AT_LEAST_1WAY
>>>+ && p->r1 == system_memory(fd) && !p->r1_force_cpu_wc)
>>>+ r1_cpu_caching = DRM_XE_GEM_CPU_CACHING_WB;
>>>+ else
>>>+ r1_cpu_caching = DRM_XE_GEM_CPU_CACHING_WC;
>>>+
>>>+ r2_flags = 0;
>>>+ if (p->r2 != system_memory(fd))
>>>+ r2_flags |= XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM;
>>>+
>>>+ if (p->r2_coh_mode == DRM_XE_GEM_COH_AT_LEAST_1WAY &&
>>>+ p->r2 == system_memory(fd) && !p->r2_force_cpu_wc)
>>>+ r2_cpu_caching = DRM_XE_GEM_CPU_CACHING_WB;
>>>+ else
>>>+ r2_cpu_caching = DRM_XE_GEM_CPU_CACHING_WC;
>>>+
>>>+
>>>+ src_bo = xe_bo_create_caching(fd, 0, size, p->r1 | r1_flags,
>>>r1_cpu_caching,
>>>+ p->r1_coh_mode);
>>>+ dst_bo = xe_bo_create_caching(fd, 0, size, p->r2 | r2_flags,
>>>r2_cpu_caching,
>>>+ p->r2_coh_mode);
>>>+ if (p->r2_compressed) {
>>>+ name = gem_flink(fd, dst_bo);
>>>+ alias = gem_open(fd, name);
>>>+ }
>>>+
>>>+ blt_copy_init(fd, &blt);
>>>+ blt.color_depth = CD_32bit;
>>>+
>>>+ blt_set_object(&src, src_bo, size, p->r1,
>>>intel_get_uc_mocs_index(fd),
>>>+ p->r1_pat_index, T_LINEAR,
>>>+ COMPRESSION_DISABLED, COMPRESSION_TYPE_3D);
>>>+ blt_set_geom(&src, stride, 0, 0, width, height, 0, 0);
>>>+
>>>+ blt_set_object(&dst, dst_bo, size, p->r2,
>>>intel_get_uc_mocs_index(fd),
>>>+ p->r2_pat_index, T_LINEAR,
>>>+ COMPRESSION_DISABLED, COMPRESSION_TYPE_3D);
>>>+ blt_set_geom(&dst, stride, 0, 0, width, height, 0, 0);
>>>+
>>>+ blt_set_copy_object(&blt.src, &src);
>>>+ blt_set_copy_object(&blt.dst, &dst);
>>>+ blt_set_batch(&blt.bb, bb, bb_size, system_memory(fd));
>>>+
>>>+ src_map = xe_bo_map(fd, src_bo, size);
>>>+ dst_map = xe_bo_map(fd, dst_bo, size);
>>>+
>>>+ /* Ensure we always see zeroes for the initial KMD zeroing */
>>>+ blt_fast_copy(fd, ctx, NULL, ahnd, &blt);
>>>+ if (p->r2_compressed)
>>>+ xe2_blt_decompress_dst(fd, ctx, ahnd, &blt, alias, size);
>>>+
>>>+ /*
>>>+ * Only sample random dword in every page if we are doing
>>>slow uncached
>>>+ * reads from VRAM.
>>>+ */
>>>+ if (!do_slow_check && p->r2 != system_memory(fd)) {
>>>+ int dwords_page = PAGE_SIZE / sizeof(uint32_t);
>>>+ int dword = rand() % dwords_page;
>>>+
>>>+ igt_debug("random dword: %d\n", dword);
>>>+
>>>+ for (i = dword; i < size / sizeof(uint32_t); i += dwords_page)
>>>+ igt_assert_eq(dst_map[i], 0);
>>>+
>>>+ } else {
>>>+ for (i = 0; i < size / sizeof(uint32_t); i++)
>>>+ igt_assert_eq(dst_map[i], 0);
>>>+ }
>>>+
>>>+ /* Write some values from the CPU, potentially dirtying the
>>>CPU cache */
>>>+ for (i = 0; i < size / sizeof(uint32_t); i++) {
>>>+ if (p->r2_compressed)
>>>+ src_map[i] = CLEAR_1;
>>>+ else
>>>+ src_map[i] = i;
>>>+ }
>>>+
>>>+ /* And finally ensure we always see the CPU written values */
>>>+ blt_fast_copy(fd, ctx, NULL, ahnd, &blt);
>>>+ if (p->r2_compressed)
>>>+ xe2_blt_decompress_dst(fd, ctx, ahnd, &blt, alias, size);
>>>+
>>>+ if (!do_slow_check && p->r2 != system_memory(fd)) {
>>>+ int dwords_page = PAGE_SIZE / sizeof(uint32_t);
>>>+ int dword = rand() % dwords_page;
>>>+
>>>+ igt_debug("random dword: %d\n", dword);
>>>+
>>>+ for (i = dword; i < size / sizeof(uint32_t); i += dwords_page) {
>>>+ if (p->r2_compressed)
>>>+ igt_assert_eq(dst_map[i], CLEAR_1);
>>>+ else
>>>+ igt_assert_eq(dst_map[i], i);
>>>+ }
>>>+
>>>+ } else {
>>>+ for (i = 0; i < size / sizeof(uint32_t); i++) {
>>>+ if (p->r2_compressed)
>>>+ igt_assert_eq(dst_map[i], CLEAR_1);
>>>+ else
>>>+ igt_assert_eq(dst_map[i], i);
>>>+ }
>>>+ }
>>>+
>>>+ munmap(src_map, size);
>>>+ munmap(dst_map, size);
>>>+
>>>+ gem_close(fd, src_bo);
>>>+ gem_close(fd, dst_bo);
>>>+ gem_close(fd, bb);
>>>+
>>>+ xe_exec_queue_destroy(fd, exec_queue);
>>>+ xe_vm_destroy(fd, vm);
>>>+
>>>+ put_ahnd(ahnd);
>>>+ intel_ctx_destroy(fd, ctx);
>>>+}
>>>+
>>>+static void pat_index_render(struct xe_pat_param *p)
>>>+{
>>>+ int fd = p->fd;
>>>+ uint32_t devid = intel_get_drm_devid(fd);
>>>+ igt_render_copyfunc_t render_copy = NULL;
>>>+ int size, stride, width = p->size->width, height = p->size->height;
>>>+ struct intel_buf src, dst;
>>>+ struct intel_bb *ibb;
>>>+ struct buf_ops *bops;
>>>+ uint16_t r1_cpu_caching, r2_cpu_caching;
>>>+ uint32_t r1_flags, r2_flags;
>>>+ uint32_t src_bo, dst_bo;
>>>+ uint32_t *src_map, *dst_map;
>>>+ int bpp = 32;
>>>+ int i;
>>>+
>>>+ bops = buf_ops_create(fd);
>>>+
>>>+ render_copy = igt_get_render_copyfunc(devid);
>>>+ igt_require(render_copy);
>>>+ igt_require(!p->r2_compressed); /* XXX */
>>>+ igt_require(xe_has_engine_class(fd, DRM_XE_ENGINE_CLASS_RENDER));
>>>+
>>>+ ibb = intel_bb_create_full(fd, 0, 0, NULL,
>>>xe_get_default_alignment(fd),
>>>+ 0, 0, p->size->alignment,
>>>+ INTEL_ALLOCATOR_SIMPLE,
>>>+ ALLOC_STRATEGY_HIGH_TO_LOW);
>>>+
>>>+ if (p->r1_coh_mode == DRM_XE_GEM_COH_AT_LEAST_1WAY
>>>+ && p->r1 == system_memory(fd) && !p->r1_force_cpu_wc)
>>>+ r1_cpu_caching = DRM_XE_GEM_CPU_CACHING_WB;
>>>+ else
>>>+ r1_cpu_caching = DRM_XE_GEM_CPU_CACHING_WC;
>>>+
>>>+ if (p->r2_coh_mode == DRM_XE_GEM_COH_AT_LEAST_1WAY &&
>>>+ p->r2 == system_memory(fd) && !p->r2_force_cpu_wc)
>>>+ r2_cpu_caching = DRM_XE_GEM_CPU_CACHING_WB;
>>>+ else
>>>+ r2_cpu_caching = DRM_XE_GEM_CPU_CACHING_WC;
>>>+
>>>+ size = width * height * bpp / 8;
>>>+ stride = width * 4;
>>>+
>>>+ r1_flags = 0;
>>>+ if (p->r1 != system_memory(fd))
>>>+ r1_flags |= XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM;
>>>+
>>>+ src_bo = xe_bo_create_caching(fd, 0, size, p->r1 | r1_flags,
>>>r1_cpu_caching,
>>>+ p->r1_coh_mode);
>>>+ intel_buf_init_full(bops, src_bo, &src, width, height, bpp, 0,
>>>+ I915_TILING_NONE, I915_COMPRESSION_NONE, size,
>>>+ stride, p->r1, p->r1_pat_index);
>>>+
>>>+ r2_flags = 0;
>>>+ if (p->r2 != system_memory(fd))
>>>+ r2_flags |= XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM;
>>>+
>>>+ dst_bo = xe_bo_create_caching(fd, 0, size, p->r2 | r2_flags,
>>>r2_cpu_caching,
>>>+ p->r2_coh_mode);
>>>+ intel_buf_init_full(bops, dst_bo, &dst, width, height, bpp, 0,
>>>+ I915_TILING_NONE, I915_COMPRESSION_NONE, size,
>>>+ stride, p->r2, p->r2_pat_index);
>>>+
>>>+ src_map = xe_bo_map(fd, src_bo, size);
>>>+ dst_map = xe_bo_map(fd, dst_bo, size);
>>>+
>>>+ /* Ensure we always see zeroes for the initial KMD zeroing */
>>>+ render_copy(ibb,
>>>+ &src,
>>>+ 0, 0, width, height,
>>>+ &dst,
>>>+ 0, 0);
>>>+ intel_bb_sync(ibb);
>>>+
>>>+ if (!do_slow_check && p->r2 != system_memory(fd)) {
>>>+ int dwords_page = PAGE_SIZE / sizeof(uint32_t);
>>>+ int dword = rand() % dwords_page;
>>>+
>>>+ igt_debug("random dword: %d\n", dword);
>>>+
>>>+ for (i = dword; i < size / sizeof(uint32_t); i += dwords_page)
>>>+ igt_assert_eq(dst_map[i], 0);
>>>+ } else {
>>>+ for (i = 0; i < size / sizeof(uint32_t); i++)
>>>+ igt_assert_eq(dst_map[i], 0);
>>>+ }
>>>+
>>>+ /* Write some values from the CPU, potentially dirtying the
>>>CPU cache */
>>>+ for (i = 0; i < size / sizeof(uint32_t); i++)
>>>+ src_map[i] = i;
>>>+
>>>+ /* And finally ensure we always see the CPU written values */
>>>+ render_copy(ibb,
>>>+ &src,
>>>+ 0, 0, width, height,
>>>+ &dst,
>>>+ 0, 0);
>>>+ intel_bb_sync(ibb);
>>>+
>>>+ if (!do_slow_check && p->r2 != system_memory(fd)) {
>>>+ int dwords_page = PAGE_SIZE / sizeof(uint32_t);
>>>+ int dword = rand() % dwords_page;
>>>+
>>>+ igt_debug("random dword: %d\n", dword);
>>>+
>>>+ for (i = dword; i < size / sizeof(uint32_t); i += dwords_page)
>>>+ igt_assert_eq(dst_map[i], i);
>>>+ } else {
>>>+ for (i = 0; i < size / sizeof(uint32_t); i++)
>>>+ igt_assert_eq(dst_map[i], i);
>>>+ }
>>>+
>>>+ munmap(src_map, size);
>>>+ munmap(dst_map, size);
>>>+
>>>+ intel_bb_destroy(ibb);
>>>+
>>>+ gem_close(fd, src_bo);
>>>+ gem_close(fd, dst_bo);
>>>+}
>>>+
>>>+static uint8_t get_pat_idx_uc(int fd, bool *compressed)
>>>+{
>>>+ if (compressed)
>>>+ *compressed = false;
>>>+
>>>+ return intel_get_pat_idx_uc(fd);
>>>+}
>>>+
>>>+static uint8_t get_pat_idx_wt(int fd, bool *compressed)
>>>+{
>>>+ uint16_t dev_id = intel_get_drm_devid(fd);
>>>+
>>>+ if (compressed)
>>>+ *compressed = intel_get_device_info(dev_id)->graphics_ver == 20;
>>>+
>>>+ return intel_get_pat_idx_wt(fd);
>>>+}
>>>+
>>>+static uint8_t get_pat_idx_wb(int fd, bool *compressed)
>>>+{
>>>+ if (compressed)
>>>+ *compressed = false;
>>>+
>>>+ return intel_get_pat_idx_wb(fd);
>>>+}
>>>+
>>>+struct pat_index_entry {
>>>+ uint8_t (*get_pat_index)(int fd, bool *compressed);
>>>+
>>>+ uint8_t pat_index;
>>>+ bool compressed;
>>>+
>>>+ const char *name;
>>>+ uint16_t coh_mode;
>>>+ bool force_cpu_wc;
>>>+};
>>>+
>>>+/*
>>>+ * The common modes are available on all platforms supported by
>>>Xe and so should
>>>+ * be commonly supported. There are many more possible pat_index
>>>modes, however
>>>+ * most IGTs shouldn't really care about them so likely no need
>>>to add them to
>>>+ * lib/intel_pat.c. We do try to test some on the non-common modes here.
>>>+ */
>>>+const struct pat_index_entry common_pat_index_modes[] = {
>>>+ { get_pat_idx_uc, 0, 0, "uc",
>>>DRM_XE_GEM_COH_NONE },
>>>+ { get_pat_idx_wt, 0, 0, "wt",
>>>DRM_XE_GEM_COH_NONE },
>>>+ { get_pat_idx_wb, 0, 0, "wb",
>>>DRM_XE_GEM_COH_AT_LEAST_1WAY },
>>>+ { get_pat_idx_wb, 0, 0, "wb-cpu-wc",
>>>DRM_XE_GEM_COH_AT_LEAST_1WAY, true },
>>>+};
>>>+
>>>+const struct pat_index_entry xelp_pat_index_modes[] = {
>>>+ { NULL, 1, false, "wc", DRM_XE_GEM_COH_NONE },
>>>+};
>>>+
>>>+const struct pat_index_entry xehpc_pat_index_modes[] = {
>>>+ { NULL, 1, false, "wc", DRM_XE_GEM_COH_NONE },
>>>+ { NULL, 4, false, "c1-wt", DRM_XE_GEM_COH_NONE },
>>>+ { NULL, 5, false, "c1-wb", DRM_XE_GEM_COH_AT_LEAST_1WAY },
>>>+ { NULL, 6, false, "c2-wt", DRM_XE_GEM_COH_NONE },
>>>+ { NULL, 7, false, "c2-wb", DRM_XE_GEM_COH_AT_LEAST_1WAY },
>>>+};
>>>+
>>>+/* Too many, just pick some interesting ones */
>>>+const struct pat_index_entry xe2_pat_index_modes[] = {
>>>+ { NULL, 1, false, "1way",
>>>DRM_XE_GEM_COH_AT_LEAST_1WAY },
>>>+ { NULL, 2, false, "2way",
>>>DRM_XE_GEM_COH_AT_LEAST_1WAY },
>>>+ { NULL, 2, false, "2way-cpu-wc",
>>>DRM_XE_GEM_COH_AT_LEAST_1WAY, true },
>>>+ { NULL, 3, true, "uc-comp",
>>>DRM_XE_GEM_COH_NONE },
>>>+ { NULL, 5, false, "uc-1way",
>>>DRM_XE_GEM_COH_AT_LEAST_1WAY },
>>>+};
>>>+
>>>+/*
>>>+ * Depending on 2M/1G GTT pages we might trigger different PTE
>>>layouts for the
>>>+ * PAT bits, so make sure we test with and without huge-pages.
>>>Also ensure we
>>>+ * have a mix of different pat_index modes for each PDE.
>>>+ */
>>>+const struct xe_pat_size_mode size_modes[] = {
>>>+ { 256, 256, 0, "mixed-pde" },
>>>+ { 1024, 1024, 1u << 21, "single-pde" },
>>>+};
>>
>>I am bit confused with naming here (mixed-pde/single-pde).
>>The first case here creates BOs of size 256*256*8/2 = 256K which
>>means it will
>>need updating few PTEs could be all under a single PTE. This tests
>>pat_index
>>setting of PTEs
>>The second case here create BOs of size 1024*1024*8/2 = 4MB which at
>>2MB offset
>>will occupy 2 PDEs. This tests pat_index setting of leaf PDEs.
>>Right?
>
>Yup, the "mixed-pde" just means that the pde contains multiple
>different mappings using different pat_index. The "single-pde" means
>that the mapping will entirely consume each pde, hopefully with 2M GTT
>pages given the alignment. And yes this is mostly to test bit7/bit12
>with pat[2].
>
But the "mixed-pde" will have multiple PTE entries but all with the same
pat_index right? ie., either r1_pat_index or r2_pat_index. I didn't get
the "mixed" meaning here. My understanding is, tests are "multi-pte" and
"single-pde".
Niranjana
>I will change this to rather use 2M size, which is maybe less consufing.
>
>>
>>Other than that, the patch looks fine to me.
>>Reviewed-by: Niranjana Vishwanathapura
>><niranjana.vishwanathapura at intel.com>
>
>Thanks.
>
>>
>>>+
>>>+typedef void (*copy_fn)(struct xe_pat_param *p);
>>>+
>>>+const struct xe_pat_copy_mode {
>>>+ copy_fn fn;
>>>+ const char *name;
>>>+} copy_modes[] = {
>>>+ { pat_index_blt, "blt" },
>>>+ { pat_index_render, "render" },
>>>+};
>>>+
>>>+/**
>>>+ * SUBTEST: pat-index-common
>>>+ * Test category: functionality test
>>>+ * Description: Check the common pat_index modes.
>>>+ */
>>>+
>>>+/**
>>>+ * SUBTEST: pat-index-xelp
>>>+ * Test category: functionality test
>>>+ * Description: Check some of the xelp pat_index modes.
>>>+ */
>>>+
>>>+/**
>>>+ * SUBTEST: pat-index-xehpc
>>>+ * Test category: functionality test
>>>+ * Description: Check some of the xehpc pat_index modes.
>>>+ */
>>>+
>>>+/**
>>>+ * SUBTEST: pat-index-xe2
>>>+ * Test category: functionality test
>>>+ * Description: Check some of the xe2 pat_index modes.
>>>+ */
>>>+
>>>+static void subtest_pat_index_modes_with_regions(int fd,
>>>+ const struct pat_index_entry *modes_arr,
>>>+ int n_modes)
>>>+{
>>>+ struct igt_collection *copy_set;
>>>+ struct igt_collection *pat_index_set;
>>>+ struct igt_collection *regions_set;
>>>+ struct igt_collection *sizes_set;
>>>+ struct igt_collection *copies;
>>>+ struct xe_pat_param p = {};
>>>+
>>>+ p.fd = fd;
>>>+
>>>+ copy_set = igt_collection_create(ARRAY_SIZE(copy_modes));
>>>+
>>>+ pat_index_set = igt_collection_create(n_modes);
>>>+
>>>+ regions_set = xe_get_memory_region_set(fd,
>>>+ XE_MEM_REGION_CLASS_SYSMEM,
>>>+ XE_MEM_REGION_CLASS_VRAM);
>>>+
>>>+ sizes_set = igt_collection_create(ARRAY_SIZE(size_modes));
>>>+
>>>+ for_each_variation_r(copies, 1, copy_set) {
>>>+ struct igt_collection *regions;
>>>+ struct xe_pat_copy_mode copy_mode;
>>>+
>>>+ copy_mode = copy_modes[igt_collection_get_value(copies, 0)];
>>>+
>>>+ for_each_variation_r(regions, 2, regions_set) {
>>>+ struct igt_collection *pat_modes;
>>>+ uint32_t r1, r2;
>>>+ char *reg_str;
>>>+
>>>+ r1 = igt_collection_get_value(regions, 0);
>>>+ r2 = igt_collection_get_value(regions, 1);
>>>+
>>>+ reg_str = xe_memregion_dynamic_subtest_name(fd, regions);
>>>+
>>>+ for_each_variation_r(pat_modes, 2, pat_index_set) {
>>>+ struct igt_collection *sizes;
>>>+ struct pat_index_entry r1_entry, r2_entry;
>>>+ int r1_idx, r2_idx;
>>>+
>>>+ r1_idx = igt_collection_get_value(pat_modes, 0);
>>>+ r2_idx = igt_collection_get_value(pat_modes, 1);
>>>+
>>>+ r1_entry = modes_arr[r1_idx];
>>>+ r2_entry = modes_arr[r2_idx];
>>>+
>>>+ if (r1_entry.get_pat_index)
>>>+ p.r1_pat_index = r1_entry.get_pat_index(fd, NULL);
>>>+ else
>>>+ p.r1_pat_index = r1_entry.pat_index;
>>>+
>>>+ if (r2_entry.get_pat_index)
>>>+ p.r2_pat_index = r2_entry.get_pat_index(fd,
>>>&p.r2_compressed);
>>>+ else {
>>>+ p.r2_pat_index = r2_entry.pat_index;
>>>+ p.r2_compressed = r2_entry.compressed;
>>>+ }
>>>+
>>>+ p.r1_coh_mode = r1_entry.coh_mode;
>>>+ p.r2_coh_mode = r2_entry.coh_mode;
>>>+
>>>+ p.r1_force_cpu_wc = r1_entry.force_cpu_wc;
>>>+ p.r2_force_cpu_wc = r2_entry.force_cpu_wc;
>>>+
>>>+ p.r1 = r1;
>>>+ p.r2 = r2;
>>>+
>>>+ for_each_variation_r(sizes, 1, sizes_set) {
>>>+ int size_mode_idx =
>>>igt_collection_get_value(sizes, 0);
>>>+
>>>+ p.size = &size_modes[size_mode_idx];
>>>+
>>>+ igt_debug("[r1]: r: %u, idx: %u, coh: %u, wc: %d\n",
>>>+ p.r1, p.r1_pat_index, p.r1_coh_mode,
>>>p.r1_force_cpu_wc);
>>>+ igt_debug("[r2]: r: %u, idx: %u, coh: %u, wc:
>>>%d, comp: %d, w: %u, h: %u, a: %u\n",
>>>+ p.r2, p.r2_pat_index, p.r2_coh_mode,
>>>+ p.r2_force_cpu_wc, p.r2_compressed,
>>>+ p.size->width, p.size->height,
>>>+ p.size->alignment);
>>>+
>>>+ igt_dynamic_f("%s-%s-%s-%s-%s",
>>>+ copy_mode.name,
>>>+ reg_str, r1_entry.name,
>>>+ r2_entry.name, p.size->name)
>>>+ copy_mode.fn(&p);
>>>+ }
>>>+ }
>>>+
>>>+ free(reg_str);
>>>+ }
>>>+ }
>>>+}
>>>+
>>>+igt_main
>>>+{
>>>+ uint16_t dev_id;
>>>+ int fd;
>>>+
>>>+ igt_fixture {
>>>+ uint32_t seed;
>>>+
>>>+ fd = drm_open_driver(DRIVER_XE);
>>>+ dev_id = intel_get_drm_devid(fd);
>>>+
>>>+ seed = time(NULL);
>>>+ srand(seed);
>>>+ igt_debug("seed: %d\n", seed);
>>>+
>>>+ xe_device_get(fd);
>>>+ }
>>>+
>>>+ igt_subtest("pat-index-all")
>>>+ pat_index_all(fd);
>>>+
>>>+ igt_subtest("userptr-coh-none")
>>>+ userptr_coh_none(fd);
>>>+
>>>+ igt_subtest_with_dynamic("pat-index-common") {
>>>+ subtest_pat_index_modes_with_regions(fd, common_pat_index_modes,
>>>+ ARRAY_SIZE(common_pat_index_modes));
>>>+ }
>>>+
>>>+ igt_subtest_with_dynamic("pat-index-xelp") {
>>>+ igt_require(intel_graphics_ver(dev_id) <= IP_VER(12, 55));
>>>+ subtest_pat_index_modes_with_regions(fd, xelp_pat_index_modes,
>>>+ ARRAY_SIZE(xelp_pat_index_modes));
>>>+ }
>>>+
>>>+ igt_subtest_with_dynamic("pat-index-xehpc") {
>>>+ igt_require(IS_PONTEVECCHIO(dev_id));
>>>+ subtest_pat_index_modes_with_regions(fd, xehpc_pat_index_modes,
>>>+ ARRAY_SIZE(xehpc_pat_index_modes));
>>>+ }
>>>+
>>>+ igt_subtest_with_dynamic("pat-index-xe2") {
>>>+ igt_require(intel_get_device_info(dev_id)->graphics_ver >= 20);
>>>+ subtest_pat_index_modes_with_regions(fd, xe2_pat_index_modes,
>>>+ ARRAY_SIZE(xe2_pat_index_modes));
>>>+ }
>>>+
>>>+ igt_fixture
>>>+ drm_close_driver(fd);
>>>+}
>>>diff --git a/tests/meson.build b/tests/meson.build
>>>index 5afcd8cbb..3aecfbee0 100644
>>>--- a/tests/meson.build
>>>+++ b/tests/meson.build
>>>@@ -297,6 +297,7 @@ intel_xe_progs = [
>>> 'xe_mmap',
>>> 'xe_module_load',
>>> 'xe_noexec_ping_pong',
>>>+ 'xe_pat',
>>> 'xe_pm',
>>> 'xe_pm_residency',
>>> 'xe_prime_self_import',
>>>--
>>>2.41.0
>>>
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