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|
// SPDX-License-Identifier: GPL-2.0 AND MIT
/*
* Copyright © 2022 Intel Corporation
*/
#include <kunit/test.h>
#include <kunit/visibility.h>
#include <linux/iosys-map.h>
#include <linux/math64.h>
#include <linux/prandom.h>
#include <linux/swap.h>
#include <uapi/linux/sysinfo.h>
#include "tests/xe_kunit_helpers.h"
#include "tests/xe_pci_test.h"
#include "tests/xe_test.h"
#include "xe_bo_evict.h"
#include "xe_pci.h"
#include "xe_pm.h"
static int ccs_test_migrate(struct xe_tile *tile, struct xe_bo *bo,
bool clear, u64 get_val, u64 assign_val,
struct kunit *test)
{
struct dma_fence *fence;
struct ttm_tt *ttm;
struct page *page;
pgoff_t ccs_page;
long timeout;
u64 *cpu_map;
int ret;
u32 offset;
/* Move bo to VRAM if not already there. */
ret = xe_bo_validate(bo, NULL, false);
if (ret) {
KUNIT_FAIL(test, "Failed to validate bo.\n");
return ret;
}
/* Optionally clear bo *and* CCS data in VRAM. */
if (clear) {
fence = xe_migrate_clear(tile->migrate, bo, bo->ttm.resource,
XE_MIGRATE_CLEAR_FLAG_FULL);
if (IS_ERR(fence)) {
KUNIT_FAIL(test, "Failed to submit bo clear.\n");
return PTR_ERR(fence);
}
dma_fence_put(fence);
}
/* Evict to system. CCS data should be copied. */
ret = xe_bo_evict(bo, true);
if (ret) {
KUNIT_FAIL(test, "Failed to evict bo.\n");
return ret;
}
/* Sync all migration blits */
timeout = dma_resv_wait_timeout(bo->ttm.base.resv,
DMA_RESV_USAGE_KERNEL,
true,
5 * HZ);
if (timeout <= 0) {
KUNIT_FAIL(test, "Failed to sync bo eviction.\n");
return -ETIME;
}
/*
* Bo with CCS data is now in system memory. Verify backing store
* and data integrity. Then assign for the next testing round while
* we still have a CPU map.
*/
ttm = bo->ttm.ttm;
if (!ttm || !ttm_tt_is_populated(ttm)) {
KUNIT_FAIL(test, "Bo was not in expected placement.\n");
return -EINVAL;
}
ccs_page = xe_bo_ccs_pages_start(bo) >> PAGE_SHIFT;
if (ccs_page >= ttm->num_pages) {
KUNIT_FAIL(test, "No TTM CCS pages present.\n");
return -EINVAL;
}
page = ttm->pages[ccs_page];
cpu_map = kmap_local_page(page);
/* Check first CCS value */
if (cpu_map[0] != get_val) {
KUNIT_FAIL(test,
"Expected CCS readout 0x%016llx, got 0x%016llx.\n",
(unsigned long long)get_val,
(unsigned long long)cpu_map[0]);
ret = -EINVAL;
}
/* Check last CCS value, or at least last value in page. */
offset = xe_device_ccs_bytes(tile_to_xe(tile), bo->size);
offset = min_t(u32, offset, PAGE_SIZE) / sizeof(u64) - 1;
if (cpu_map[offset] != get_val) {
KUNIT_FAIL(test,
"Expected CCS readout 0x%016llx, got 0x%016llx.\n",
(unsigned long long)get_val,
(unsigned long long)cpu_map[offset]);
ret = -EINVAL;
}
cpu_map[0] = assign_val;
cpu_map[offset] = assign_val;
kunmap_local(cpu_map);
return ret;
}
static void ccs_test_run_tile(struct xe_device *xe, struct xe_tile *tile,
struct kunit *test)
{
struct xe_bo *bo;
int ret;
/* TODO: Sanity check */
unsigned int bo_flags = XE_BO_FLAG_VRAM_IF_DGFX(tile);
if (IS_DGFX(xe))
kunit_info(test, "Testing vram id %u\n", tile->id);
else
kunit_info(test, "Testing system memory\n");
bo = xe_bo_create_user(xe, NULL, NULL, SZ_1M, DRM_XE_GEM_CPU_CACHING_WC,
bo_flags);
if (IS_ERR(bo)) {
KUNIT_FAIL(test, "Failed to create bo.\n");
return;
}
xe_bo_lock(bo, false);
kunit_info(test, "Verifying that CCS data is cleared on creation.\n");
ret = ccs_test_migrate(tile, bo, false, 0ULL, 0xdeadbeefdeadbeefULL,
test);
if (ret)
goto out_unlock;
kunit_info(test, "Verifying that CCS data survives migration.\n");
ret = ccs_test_migrate(tile, bo, false, 0xdeadbeefdeadbeefULL,
0xdeadbeefdeadbeefULL, test);
if (ret)
goto out_unlock;
kunit_info(test, "Verifying that CCS data can be properly cleared.\n");
ret = ccs_test_migrate(tile, bo, true, 0ULL, 0ULL, test);
out_unlock:
xe_bo_unlock(bo);
xe_bo_put(bo);
}
static int ccs_test_run_device(struct xe_device *xe)
{
struct kunit *test = kunit_get_current_test();
struct xe_tile *tile;
int id;
if (!xe_device_has_flat_ccs(xe)) {
kunit_skip(test, "non-flat-ccs device\n");
return 0;
}
/* For xe2+ dgfx, we don't handle ccs metadata */
if (GRAPHICS_VER(xe) >= 20 && IS_DGFX(xe)) {
kunit_skip(test, "xe2+ dgfx device\n");
return 0;
}
xe_pm_runtime_get(xe);
for_each_tile(tile, xe, id) {
/* For igfx run only for primary tile */
if (!IS_DGFX(xe) && id > 0)
continue;
ccs_test_run_tile(xe, tile, test);
}
xe_pm_runtime_put(xe);
return 0;
}
static void xe_ccs_migrate_kunit(struct kunit *test)
{
struct xe_device *xe = test->priv;
ccs_test_run_device(xe);
}
static int evict_test_run_tile(struct xe_device *xe, struct xe_tile *tile, struct kunit *test)
{
struct xe_bo *bo, *external;
unsigned int bo_flags = XE_BO_FLAG_VRAM_IF_DGFX(tile);
struct xe_vm *vm = xe_migrate_get_vm(xe_device_get_root_tile(xe)->migrate);
struct xe_gt *__gt;
int err, i, id;
kunit_info(test, "Testing device %s vram id %u\n",
dev_name(xe->drm.dev), tile->id);
for (i = 0; i < 2; ++i) {
xe_vm_lock(vm, false);
bo = xe_bo_create_user(xe, NULL, vm, 0x10000,
DRM_XE_GEM_CPU_CACHING_WC,
bo_flags);
xe_vm_unlock(vm);
if (IS_ERR(bo)) {
KUNIT_FAIL(test, "bo create err=%pe\n", bo);
break;
}
external = xe_bo_create_user(xe, NULL, NULL, 0x10000,
DRM_XE_GEM_CPU_CACHING_WC,
bo_flags);
if (IS_ERR(external)) {
KUNIT_FAIL(test, "external bo create err=%pe\n", external);
goto cleanup_bo;
}
xe_bo_lock(external, false);
err = xe_bo_pin_external(external);
xe_bo_unlock(external);
if (err) {
KUNIT_FAIL(test, "external bo pin err=%pe\n",
ERR_PTR(err));
goto cleanup_external;
}
err = xe_bo_evict_all(xe);
if (err) {
KUNIT_FAIL(test, "evict err=%pe\n", ERR_PTR(err));
goto cleanup_all;
}
for_each_gt(__gt, xe, id)
xe_gt_sanitize(__gt);
err = xe_bo_restore_kernel(xe);
/*
* Snapshotting the CTB and copying back a potentially old
* version seems risky, depending on what might have been
* inflight. Also it seems snapshotting the ADS object and
* copying back results in serious breakage. Normally when
* calling xe_bo_restore_kernel() we always fully restart the
* GT, which re-intializes such things. We could potentially
* skip saving and restoring such objects in xe_bo_evict_all()
* however seems quite fragile not to also restart the GT. Try
* to do that here by triggering a GT reset.
*/
for_each_gt(__gt, xe, id)
xe_gt_reset(__gt);
if (err) {
KUNIT_FAIL(test, "restore kernel err=%pe\n",
ERR_PTR(err));
goto cleanup_all;
}
err = xe_bo_restore_user(xe);
if (err) {
KUNIT_FAIL(test, "restore user err=%pe\n", ERR_PTR(err));
goto cleanup_all;
}
if (!xe_bo_is_vram(external)) {
KUNIT_FAIL(test, "external bo is not vram\n");
err = -EPROTO;
goto cleanup_all;
}
if (xe_bo_is_vram(bo)) {
KUNIT_FAIL(test, "bo is vram\n");
err = -EPROTO;
goto cleanup_all;
}
if (i) {
down_read(&vm->lock);
xe_vm_lock(vm, false);
err = xe_bo_validate(bo, bo->vm, false);
xe_vm_unlock(vm);
up_read(&vm->lock);
if (err) {
KUNIT_FAIL(test, "bo valid err=%pe\n",
ERR_PTR(err));
goto cleanup_all;
}
xe_bo_lock(external, false);
err = xe_bo_validate(external, NULL, false);
xe_bo_unlock(external);
if (err) {
KUNIT_FAIL(test, "external bo valid err=%pe\n",
ERR_PTR(err));
goto cleanup_all;
}
}
xe_bo_lock(external, false);
xe_bo_unpin_external(external);
xe_bo_unlock(external);
xe_bo_put(external);
xe_bo_lock(bo, false);
__xe_bo_unset_bulk_move(bo);
xe_bo_unlock(bo);
xe_bo_put(bo);
continue;
cleanup_all:
xe_bo_lock(external, false);
xe_bo_unpin_external(external);
xe_bo_unlock(external);
cleanup_external:
xe_bo_put(external);
cleanup_bo:
xe_bo_lock(bo, false);
__xe_bo_unset_bulk_move(bo);
xe_bo_unlock(bo);
xe_bo_put(bo);
break;
}
xe_vm_put(vm);
return 0;
}
static int evict_test_run_device(struct xe_device *xe)
{
struct kunit *test = kunit_get_current_test();
struct xe_tile *tile;
int id;
if (!IS_DGFX(xe)) {
kunit_skip(test, "non-discrete device\n");
return 0;
}
xe_pm_runtime_get(xe);
for_each_tile(tile, xe, id)
evict_test_run_tile(xe, tile, test);
xe_pm_runtime_put(xe);
return 0;
}
static void xe_bo_evict_kunit(struct kunit *test)
{
struct xe_device *xe = test->priv;
evict_test_run_device(xe);
}
struct xe_bo_link {
struct list_head link;
struct xe_bo *bo;
u32 val;
};
#define XE_BO_SHRINK_SIZE ((unsigned long)SZ_64M)
static int shrink_test_fill_random(struct xe_bo *bo, struct rnd_state *state,
struct xe_bo_link *link)
{
struct iosys_map map;
int ret = ttm_bo_vmap(&bo->ttm, &map);
size_t __maybe_unused i;
if (ret)
return ret;
for (i = 0; i < bo->ttm.base.size; i += sizeof(u32)) {
u32 val = prandom_u32_state(state);
iosys_map_wr(&map, i, u32, val);
if (i == 0)
link->val = val;
}
ttm_bo_vunmap(&bo->ttm, &map);
return 0;
}
static bool shrink_test_verify(struct kunit *test, struct xe_bo *bo,
unsigned int bo_nr, struct rnd_state *state,
struct xe_bo_link *link)
{
struct iosys_map map;
int ret = ttm_bo_vmap(&bo->ttm, &map);
size_t i;
bool failed = false;
if (ret) {
KUNIT_FAIL(test, "Error mapping bo %u for content check.\n", bo_nr);
return true;
}
for (i = 0; i < bo->ttm.base.size; i += sizeof(u32)) {
u32 val = prandom_u32_state(state);
if (iosys_map_rd(&map, i, u32) != val) {
KUNIT_FAIL(test, "Content not preserved, bo %u offset 0x%016llx",
bo_nr, (unsigned long long)i);
kunit_info(test, "Failed value is 0x%08x, recorded 0x%08x\n",
(unsigned int)iosys_map_rd(&map, i, u32), val);
if (i == 0 && val != link->val)
kunit_info(test, "Looks like PRNG is out of sync.\n");
failed = true;
break;
}
}
ttm_bo_vunmap(&bo->ttm, &map);
return failed;
}
/*
* Try to create system bos corresponding to twice the amount
* of available system memory to test shrinker functionality.
* If no swap space is available to accommodate the
* memory overcommit, mark bos purgeable.
*/
static int shrink_test_run_device(struct xe_device *xe)
{
struct kunit *test = kunit_get_current_test();
LIST_HEAD(bos);
struct xe_bo_link *link, *next;
struct sysinfo si;
u64 ram, ram_and_swap, purgeable = 0, alloced, to_alloc, limit;
unsigned int interrupted = 0, successful = 0, count = 0;
struct rnd_state prng;
u64 rand_seed;
bool failed = false;
rand_seed = get_random_u64();
prandom_seed_state(&prng, rand_seed);
kunit_info(test, "Random seed is 0x%016llx.\n",
(unsigned long long)rand_seed);
/* Skip if execution time is expected to be too long. */
limit = SZ_32G;
/* IGFX with flat CCS needs to copy when swapping / shrinking */
if (!IS_DGFX(xe) && xe_device_has_flat_ccs(xe))
limit = SZ_16G;
si_meminfo(&si);
ram = (size_t)si.freeram * si.mem_unit;
if (ram > limit) {
kunit_skip(test, "Too long expected execution time.\n");
return 0;
}
to_alloc = ram * 2;
ram_and_swap = ram + get_nr_swap_pages() * PAGE_SIZE;
if (to_alloc > ram_and_swap)
purgeable = to_alloc - ram_and_swap;
purgeable += div64_u64(purgeable, 5);
kunit_info(test, "Free ram is %lu bytes. Will allocate twice of that.\n",
(unsigned long)ram);
for (alloced = 0; alloced < to_alloc; alloced += XE_BO_SHRINK_SIZE) {
struct xe_bo *bo;
unsigned int mem_type;
struct xe_ttm_tt *xe_tt;
link = kzalloc(sizeof(*link), GFP_KERNEL);
if (!link) {
KUNIT_FAIL(test, "Unexpected link allocation failure\n");
failed = true;
break;
}
INIT_LIST_HEAD(&link->link);
/* We can create bos using WC caching here. But it is slower. */
bo = xe_bo_create_user(xe, NULL, NULL, XE_BO_SHRINK_SIZE,
DRM_XE_GEM_CPU_CACHING_WB,
XE_BO_FLAG_SYSTEM);
if (IS_ERR(bo)) {
if (bo != ERR_PTR(-ENOMEM) && bo != ERR_PTR(-ENOSPC) &&
bo != ERR_PTR(-EINTR) && bo != ERR_PTR(-ERESTARTSYS))
KUNIT_FAIL(test, "Error creating bo: %pe\n", bo);
kfree(link);
failed = true;
break;
}
xe_bo_lock(bo, false);
xe_tt = container_of(bo->ttm.ttm, typeof(*xe_tt), ttm);
/*
* Allocate purgeable bos first, because if we do it the
* other way around, they may not be subject to swapping...
*/
if (alloced < purgeable) {
xe_tt->purgeable = true;
bo->ttm.priority = 0;
} else {
int ret = shrink_test_fill_random(bo, &prng, link);
if (ret) {
xe_bo_unlock(bo);
xe_bo_put(bo);
KUNIT_FAIL(test, "Error filling bo with random data: %pe\n",
ERR_PTR(ret));
kfree(link);
failed = true;
break;
}
}
mem_type = bo->ttm.resource->mem_type;
xe_bo_unlock(bo);
link->bo = bo;
list_add_tail(&link->link, &bos);
if (mem_type != XE_PL_TT) {
KUNIT_FAIL(test, "Bo in incorrect memory type: %u\n",
bo->ttm.resource->mem_type);
failed = true;
}
cond_resched();
if (signal_pending(current))
break;
}
/*
* Read back and destroy bos. Reset the pseudo-random seed to get an
* identical pseudo-random number sequence for readback.
*/
prandom_seed_state(&prng, rand_seed);
list_for_each_entry_safe(link, next, &bos, link) {
static struct ttm_operation_ctx ctx = {.interruptible = true};
struct xe_bo *bo = link->bo;
struct xe_ttm_tt *xe_tt;
int ret;
count++;
if (!signal_pending(current) && !failed) {
bool purgeable, intr = false;
xe_bo_lock(bo, NULL);
/* xe_tt->purgeable is cleared on validate. */
xe_tt = container_of(bo->ttm.ttm, typeof(*xe_tt), ttm);
purgeable = xe_tt->purgeable;
do {
ret = ttm_bo_validate(&bo->ttm, &tt_placement, &ctx);
if (ret == -EINTR)
intr = true;
} while (ret == -EINTR && !signal_pending(current));
if (!ret && !purgeable)
failed = shrink_test_verify(test, bo, count, &prng, link);
xe_bo_unlock(bo);
if (ret) {
KUNIT_FAIL(test, "Validation failed: %pe\n",
ERR_PTR(ret));
failed = true;
} else if (intr) {
interrupted++;
} else {
successful++;
}
}
xe_bo_put(link->bo);
list_del(&link->link);
kfree(link);
}
kunit_info(test, "Readbacks interrupted: %u successful: %u\n",
interrupted, successful);
return 0;
}
static void xe_bo_shrink_kunit(struct kunit *test)
{
struct xe_device *xe = test->priv;
shrink_test_run_device(xe);
}
static struct kunit_case xe_bo_tests[] = {
KUNIT_CASE_PARAM(xe_ccs_migrate_kunit, xe_pci_live_device_gen_param),
KUNIT_CASE_PARAM(xe_bo_evict_kunit, xe_pci_live_device_gen_param),
KUNIT_CASE_PARAM_ATTR(xe_bo_shrink_kunit, xe_pci_live_device_gen_param,
{.speed = KUNIT_SPEED_SLOW}),
{}
};
VISIBLE_IF_KUNIT
struct kunit_suite xe_bo_test_suite = {
.name = "xe_bo",
.test_cases = xe_bo_tests,
.init = xe_kunit_helper_xe_device_live_test_init,
};
EXPORT_SYMBOL_IF_KUNIT(xe_bo_test_suite);
|
