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linux-cryptodev-2.6/drivers/gpu/drm/tests/drm_buddy_test.c
Arunpravin Paneer Selvam 96950929eb drm/buddy: Implement tracking clear page feature 
- Add tracking clear page feature.

- Driver should enable the DRM_BUDDY_CLEARED flag if it
  successfully clears the blocks in the free path. On the otherhand,
  DRM buddy marks each block as cleared.

- Track the available cleared pages size

- If driver requests cleared memory we prefer cleared memory
  but fallback to uncleared if we can't find the cleared blocks.
  when driver requests uncleared memory we try to use uncleared but
  fallback to cleared memory if necessary.

- When a block gets freed we clear it and mark the freed block as cleared,
  when there are buddies which are cleared as well we can merge them.
  Otherwise, we prefer to keep the blocks as separated.

- Add a function to support defragmentation.

v1:
  - Depends on the flag check DRM_BUDDY_CLEARED, enable the block as
    cleared. Else, reset the clear flag for each block in the list(Christian)
  - For merging the 2 cleared blocks compare as below,
    drm_buddy_is_clear(block) != drm_buddy_is_clear(buddy)(Christian)
  - Defragment the memory beginning from min_order
    till the required memory space is available.

v2: (Matthew)
  - Add a wrapper drm_buddy_free_list_internal for the freeing of blocks
    operation within drm buddy.
  - Write a macro block_incompatible() to allocate the required blocks.
  - Update the xe driver for the drm_buddy_free_list change in arguments.
  - add a warning if the two blocks are incompatible on
    defragmentation
  - call full defragmentation in the fini() function
  - place a condition to test if min_order is equal to 0
  - replace the list with safe_reverse() variant as we might
    remove the block from the list.

v3:
  - fix Gitlab user reported lockup issue.
  - Keep DRM_BUDDY_HEADER_CLEAR define sorted(Matthew)
  - modify to pass the root order instead max_order in fini()
    function(Matthew)
  - change bool 1 to true(Matthew)
  - add check if min_block_size is power of 2(Matthew)
  - modify the min_block_size datatype to u64(Matthew)

v4:
  - rename the function drm_buddy_defrag with __force_merge.
  - Include __force_merge directly in drm buddy file and remove
    the defrag use in amdgpu driver.
  - Remove list_empty() check(Matthew)
  - Remove unnecessary space, headers and placement of new variables(Matthew)
  - Add a unit test case(Matthew)

v5:
  - remove force merge support to actual range allocation and not to bail
    out when contains && split(Matthew)
  - add range support to force merge function.

v6:
  - modify the alloc_range() function clear page non merged blocks
    allocation(Matthew)
  - correct the list_insert function name(Matthew).

Signed-off-by: Arunpravin Paneer Selvam <Arunpravin.PaneerSelvam@amd.com>
Signed-off-by: Matthew Auld <matthew.auld@intel.com>
Suggested-by: Christian König <christian.koenig@amd.com>
Suggested-by: Matthew Auld <matthew.auld@intel.com>
Reviewed-by: Matthew Auld <matthew.auld@intel.com>
Link: https://patchwork.freedesktop.org/patch/msgid/20240419063538.11957-1-Arunpravin.PaneerSelvam@amd.com
Signed-off-by: Christian König <christian.koenig@amd.com>
2024-04-22 19:44:16 +02:00

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// SPDX-License-Identifier: MIT
/*
* Copyright © 2019 Intel Corporation
* Copyright © 2022 Maíra Canal <mairacanal@riseup.net>
*/
#include <kunit/test.h>
#include <linux/prime_numbers.h>
#include <linux/sched/signal.h>
#include <linux/sizes.h>
#include <drm/drm_buddy.h>
#include "../lib/drm_random.h"
static unsigned int random_seed;
static inline u64 get_size(int order, u64 chunk_size)
{
return (1 << order) * chunk_size;
}
static void drm_test_buddy_alloc_range_bias(struct kunit *test)
{
u32 mm_size, ps, bias_size, bias_start, bias_end, bias_rem;
DRM_RND_STATE(prng, random_seed);
unsigned int i, count, *order;
struct drm_buddy mm;
LIST_HEAD(allocated);
bias_size = SZ_1M;
ps = roundup_pow_of_two(prandom_u32_state(&prng) % bias_size);
ps = max(SZ_4K, ps);
mm_size = (SZ_8M-1) & ~(ps-1); /* Multiple roots */
kunit_info(test, "mm_size=%u, ps=%u\n", mm_size, ps);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_init(&mm, mm_size, ps),
"buddy_init failed\n");
count = mm_size / bias_size;
order = drm_random_order(count, &prng);
KUNIT_EXPECT_TRUE(test, order);
/*
* Idea is to split the address space into uniform bias ranges, and then
* in some random order allocate within each bias, using various
* patterns within. This should detect if allocations leak out from a
* given bias, for example.
*/
for (i = 0; i < count; i++) {
LIST_HEAD(tmp);
u32 size;
bias_start = order[i] * bias_size;
bias_end = bias_start + bias_size;
bias_rem = bias_size;
/* internal round_up too big */
KUNIT_ASSERT_TRUE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, bias_size + ps, bias_size,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc failed with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, bias_size, bias_size);
/* size too big */
KUNIT_ASSERT_TRUE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, bias_size + ps, ps,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc didn't fail with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, bias_size + ps, ps);
/* bias range too small for size */
KUNIT_ASSERT_TRUE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start + ps,
bias_end, bias_size, ps,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc didn't fail with bias(%x-%x), size=%u, ps=%u\n",
bias_start + ps, bias_end, bias_size, ps);
/* bias misaligned */
KUNIT_ASSERT_TRUE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start + ps,
bias_end - ps,
bias_size >> 1, bias_size >> 1,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc h didn't fail with bias(%x-%x), size=%u, ps=%u\n",
bias_start + ps, bias_end - ps, bias_size >> 1, bias_size >> 1);
/* single big page */
KUNIT_ASSERT_FALSE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, bias_size, bias_size,
&tmp,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc i failed with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, bias_size, bias_size);
drm_buddy_free_list(&mm, &tmp, 0);
/* single page with internal round_up */
KUNIT_ASSERT_FALSE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, ps, bias_size,
&tmp,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc failed with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, ps, bias_size);
drm_buddy_free_list(&mm, &tmp, 0);
/* random size within */
size = max(round_up(prandom_u32_state(&prng) % bias_rem, ps), ps);
if (size)
KUNIT_ASSERT_FALSE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, size, ps,
&tmp,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc failed with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, size, ps);
bias_rem -= size;
/* too big for current avail */
KUNIT_ASSERT_TRUE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, bias_rem + ps, ps,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc didn't fail with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, bias_rem + ps, ps);
if (bias_rem) {
/* random fill of the remainder */
size = max(round_up(prandom_u32_state(&prng) % bias_rem, ps), ps);
size = max(size, ps);
KUNIT_ASSERT_FALSE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, size, ps,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc failed with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, size, ps);
/*
* Intentionally allow some space to be left
* unallocated, and ideally not always on the bias
* boundaries.
*/
drm_buddy_free_list(&mm, &tmp, 0);
} else {
list_splice_tail(&tmp, &allocated);
}
}
kfree(order);
drm_buddy_free_list(&mm, &allocated, 0);
drm_buddy_fini(&mm);
/*
* Something more free-form. Idea is to pick a random starting bias
* range within the address space and then start filling it up. Also
* randomly grow the bias range in both directions as we go along. This
* should give us bias start/end which is not always uniform like above,
* and in some cases will require the allocator to jump over already
* allocated nodes in the middle of the address space.
*/
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_init(&mm, mm_size, ps),
"buddy_init failed\n");
bias_start = round_up(prandom_u32_state(&prng) % (mm_size - ps), ps);
bias_end = round_up(bias_start + prandom_u32_state(&prng) % (mm_size - bias_start), ps);
bias_end = max(bias_end, bias_start + ps);
bias_rem = bias_end - bias_start;
do {
u32 size = max(round_up(prandom_u32_state(&prng) % bias_rem, ps), ps);
KUNIT_ASSERT_FALSE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start,
bias_end, size, ps,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc failed with bias(%x-%x), size=%u, ps=%u\n",
bias_start, bias_end, size, ps);
bias_rem -= size;
/*
* Try to randomly grow the bias range in both directions, or
* only one, or perhaps don't grow at all.
*/
do {
u32 old_bias_start = bias_start;
u32 old_bias_end = bias_end;
if (bias_start)
bias_start -= round_up(prandom_u32_state(&prng) % bias_start, ps);
if (bias_end != mm_size)
bias_end += round_up(prandom_u32_state(&prng) % (mm_size - bias_end), ps);
bias_rem += old_bias_start - bias_start;
bias_rem += bias_end - old_bias_end;
} while (!bias_rem && (bias_start || bias_end != mm_size));
} while (bias_rem);
KUNIT_ASSERT_EQ(test, bias_start, 0);
KUNIT_ASSERT_EQ(test, bias_end, mm_size);
KUNIT_ASSERT_TRUE_MSG(test,
drm_buddy_alloc_blocks(&mm, bias_start, bias_end,
ps, ps,
&allocated,
DRM_BUDDY_RANGE_ALLOCATION),
"buddy_alloc passed with bias(%x-%x), size=%u\n",
bias_start, bias_end, ps);
drm_buddy_free_list(&mm, &allocated, 0);
drm_buddy_fini(&mm);
}
static void drm_test_buddy_alloc_contiguous(struct kunit *test)
{
const unsigned long ps = SZ_4K, mm_size = 16 * 3 * SZ_4K;
unsigned long i, n_pages, total;
struct drm_buddy_block *block;
struct drm_buddy mm;
LIST_HEAD(left);
LIST_HEAD(middle);
LIST_HEAD(right);
LIST_HEAD(allocated);
KUNIT_EXPECT_FALSE(test, drm_buddy_init(&mm, mm_size, ps));
/*
* Idea is to fragment the address space by alternating block
* allocations between three different lists; one for left, middle and
* right. We can then free a list to simulate fragmentation. In
* particular we want to exercise the DRM_BUDDY_CONTIGUOUS_ALLOCATION,
* including the try_harder path.
*/
i = 0;
n_pages = mm_size / ps;
do {
struct list_head *list;
int slot = i % 3;
if (slot == 0)
list = &left;
else if (slot == 1)
list = &middle;
else
list = &right;
KUNIT_ASSERT_FALSE_MSG(test,
drm_buddy_alloc_blocks(&mm, 0, mm_size,
ps, ps, list, 0),
"buddy_alloc hit an error size=%lu\n",
ps);
} while (++i < n_pages);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, 0, mm_size,
3 * ps, ps, &allocated,
DRM_BUDDY_CONTIGUOUS_ALLOCATION),
"buddy_alloc didn't error size=%lu\n", 3 * ps);
drm_buddy_free_list(&mm, &middle, 0);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, 0, mm_size,
3 * ps, ps, &allocated,
DRM_BUDDY_CONTIGUOUS_ALLOCATION),
"buddy_alloc didn't error size=%lu\n", 3 * ps);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, 0, mm_size,
2 * ps, ps, &allocated,
DRM_BUDDY_CONTIGUOUS_ALLOCATION),
"buddy_alloc didn't error size=%lu\n", 2 * ps);
drm_buddy_free_list(&mm, &right, 0);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, 0, mm_size,
3 * ps, ps, &allocated,
DRM_BUDDY_CONTIGUOUS_ALLOCATION),
"buddy_alloc didn't error size=%lu\n", 3 * ps);
/*
* At this point we should have enough contiguous space for 2 blocks,
* however they are never buddies (since we freed middle and right) so
* will require the try_harder logic to find them.
*/
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, 0, mm_size,
2 * ps, ps, &allocated,
DRM_BUDDY_CONTIGUOUS_ALLOCATION),
"buddy_alloc hit an error size=%lu\n", 2 * ps);
drm_buddy_free_list(&mm, &left, 0);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, 0, mm_size,
3 * ps, ps, &allocated,
DRM_BUDDY_CONTIGUOUS_ALLOCATION),
"buddy_alloc hit an error size=%lu\n", 3 * ps);
total = 0;
list_for_each_entry(block, &allocated, link)
total += drm_buddy_block_size(&mm, block);
KUNIT_ASSERT_EQ(test, total, ps * 2 + ps * 3);
drm_buddy_free_list(&mm, &allocated, 0);
drm_buddy_fini(&mm);
}
static void drm_test_buddy_alloc_pathological(struct kunit *test)
{
u64 mm_size, size, start = 0;
struct drm_buddy_block *block;
const int max_order = 3;
unsigned long flags = 0;
int order, top;
struct drm_buddy mm;
LIST_HEAD(blocks);
LIST_HEAD(holes);
LIST_HEAD(tmp);
/*
* Create a pot-sized mm, then allocate one of each possible
* order within. This should leave the mm with exactly one
* page left. Free the largest block, then whittle down again.
* Eventually we will have a fully 50% fragmented mm.
*/
mm_size = PAGE_SIZE << max_order;
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_init(&mm, mm_size, PAGE_SIZE),
"buddy_init failed\n");
KUNIT_EXPECT_EQ(test, mm.max_order, max_order);
for (top = max_order; top; top--) {
/* Make room by freeing the largest allocated block */
block = list_first_entry_or_null(&blocks, typeof(*block), link);
if (block) {
list_del(&block->link);
drm_buddy_free_block(&mm, block);
}
for (order = top; order--;) {
size = get_size(order, PAGE_SIZE);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, start,
mm_size, size, size,
&tmp, flags),
"buddy_alloc hit -ENOMEM with order=%d, top=%d\n",
order, top);
block = list_first_entry_or_null(&tmp, struct drm_buddy_block, link);
KUNIT_ASSERT_TRUE_MSG(test, block, "alloc_blocks has no blocks\n");
list_move_tail(&block->link, &blocks);
}
/* There should be one final page for this sub-allocation */
size = get_size(0, PAGE_SIZE);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc hit -ENOMEM for hole\n");
block = list_first_entry_or_null(&tmp, struct drm_buddy_block, link);
KUNIT_ASSERT_TRUE_MSG(test, block, "alloc_blocks has no blocks\n");
list_move_tail(&block->link, &holes);
size = get_size(top, PAGE_SIZE);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc unexpectedly succeeded at top-order %d/%d, it should be full!",
top, max_order);
}
drm_buddy_free_list(&mm, &holes, 0);
/* Nothing larger than blocks of chunk_size now available */
for (order = 1; order <= max_order; order++) {
size = get_size(order, PAGE_SIZE);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc unexpectedly succeeded at order %d, it should be full!",
order);
}
list_splice_tail(&holes, &blocks);
drm_buddy_free_list(&mm, &blocks, 0);
drm_buddy_fini(&mm);
}
static void drm_test_buddy_alloc_pessimistic(struct kunit *test)
{
u64 mm_size, size, start = 0;
struct drm_buddy_block *block, *bn;
const unsigned int max_order = 16;
unsigned long flags = 0;
struct drm_buddy mm;
unsigned int order;
LIST_HEAD(blocks);
LIST_HEAD(tmp);
/*
* Create a pot-sized mm, then allocate one of each possible
* order within. This should leave the mm with exactly one
* page left.
*/
mm_size = PAGE_SIZE << max_order;
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_init(&mm, mm_size, PAGE_SIZE),
"buddy_init failed\n");
KUNIT_EXPECT_EQ(test, mm.max_order, max_order);
for (order = 0; order < max_order; order++) {
size = get_size(order, PAGE_SIZE);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc hit -ENOMEM with order=%d\n",
order);
block = list_first_entry_or_null(&tmp, struct drm_buddy_block, link);
KUNIT_ASSERT_TRUE_MSG(test, block, "alloc_blocks has no blocks\n");
list_move_tail(&block->link, &blocks);
}
/* And now the last remaining block available */
size = get_size(0, PAGE_SIZE);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc hit -ENOMEM on final alloc\n");
block = list_first_entry_or_null(&tmp, struct drm_buddy_block, link);
KUNIT_ASSERT_TRUE_MSG(test, block, "alloc_blocks has no blocks\n");
list_move_tail(&block->link, &blocks);
/* Should be completely full! */
for (order = max_order; order--;) {
size = get_size(order, PAGE_SIZE);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc unexpectedly succeeded, it should be full!");
}
block = list_last_entry(&blocks, typeof(*block), link);
list_del(&block->link);
drm_buddy_free_block(&mm, block);
/* As we free in increasing size, we make available larger blocks */
order = 1;
list_for_each_entry_safe(block, bn, &blocks, link) {
list_del(&block->link);
drm_buddy_free_block(&mm, block);
size = get_size(order, PAGE_SIZE);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc hit -ENOMEM with order=%d\n",
order);
block = list_first_entry_or_null(&tmp, struct drm_buddy_block, link);
KUNIT_ASSERT_TRUE_MSG(test, block, "alloc_blocks has no blocks\n");
list_del(&block->link);
drm_buddy_free_block(&mm, block);
order++;
}
/* To confirm, now the whole mm should be available */
size = get_size(max_order, PAGE_SIZE);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc (realloc) hit -ENOMEM with order=%d\n",
max_order);
block = list_first_entry_or_null(&tmp, struct drm_buddy_block, link);
KUNIT_ASSERT_TRUE_MSG(test, block, "alloc_blocks has no blocks\n");
list_del(&block->link);
drm_buddy_free_block(&mm, block);
drm_buddy_free_list(&mm, &blocks, 0);
drm_buddy_fini(&mm);
}
static void drm_test_buddy_alloc_optimistic(struct kunit *test)
{
u64 mm_size, size, start = 0;
struct drm_buddy_block *block;
unsigned long flags = 0;
const int max_order = 16;
struct drm_buddy mm;
LIST_HEAD(blocks);
LIST_HEAD(tmp);
int order;
/*
* Create a mm with one block of each order available, and
* try to allocate them all.
*/
mm_size = PAGE_SIZE * ((1 << (max_order + 1)) - 1);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_init(&mm, mm_size, PAGE_SIZE),
"buddy_init failed\n");
KUNIT_EXPECT_EQ(test, mm.max_order, max_order);
for (order = 0; order <= max_order; order++) {
size = get_size(order, PAGE_SIZE);
KUNIT_ASSERT_FALSE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc hit -ENOMEM with order=%d\n",
order);
block = list_first_entry_or_null(&tmp, struct drm_buddy_block, link);
KUNIT_ASSERT_TRUE_MSG(test, block, "alloc_blocks has no blocks\n");
list_move_tail(&block->link, &blocks);
}
/* Should be completely full! */
size = get_size(0, PAGE_SIZE);
KUNIT_ASSERT_TRUE_MSG(test, drm_buddy_alloc_blocks(&mm, start, mm_size,
size, size, &tmp, flags),
"buddy_alloc unexpectedly succeeded, it should be full!");
drm_buddy_free_list(&mm, &blocks, 0);
drm_buddy_fini(&mm);
}
static void drm_test_buddy_alloc_limit(struct kunit *test)
{
u64 size = U64_MAX, start = 0;
struct drm_buddy_block *block;
unsigned long flags = 0;
LIST_HEAD(allocated);
struct drm_buddy mm;
KUNIT_EXPECT_FALSE(test, drm_buddy_init(&mm, size, PAGE_SIZE));
KUNIT_EXPECT_EQ_MSG(test, mm.max_order, DRM_BUDDY_MAX_ORDER,
"mm.max_order(%d) != %d\n", mm.max_order,
DRM_BUDDY_MAX_ORDER);
size = mm.chunk_size << mm.max_order;
KUNIT_EXPECT_FALSE(test, drm_buddy_alloc_blocks(&mm, start, size, size,
PAGE_SIZE, &allocated, flags));
block = list_first_entry_or_null(&allocated, struct drm_buddy_block, link);
KUNIT_EXPECT_TRUE(test, block);
KUNIT_EXPECT_EQ_MSG(test, drm_buddy_block_order(block), mm.max_order,
"block order(%d) != %d\n",
drm_buddy_block_order(block), mm.max_order);
KUNIT_EXPECT_EQ_MSG(test, drm_buddy_block_size(&mm, block),
BIT_ULL(mm.max_order) * PAGE_SIZE,
"block size(%llu) != %llu\n",
drm_buddy_block_size(&mm, block),
BIT_ULL(mm.max_order) * PAGE_SIZE);
drm_buddy_free_list(&mm, &allocated, 0);
drm_buddy_fini(&mm);
}
static int drm_buddy_suite_init(struct kunit_suite *suite)
{
while (!random_seed)
random_seed = get_random_u32();
kunit_info(suite, "Testing DRM buddy manager, with random_seed=0x%x\n",
random_seed);
return 0;
}
static struct kunit_case drm_buddy_tests[] = {
KUNIT_CASE(drm_test_buddy_alloc_limit),
KUNIT_CASE(drm_test_buddy_alloc_optimistic),
KUNIT_CASE(drm_test_buddy_alloc_pessimistic),
KUNIT_CASE(drm_test_buddy_alloc_pathological),
KUNIT_CASE(drm_test_buddy_alloc_contiguous),
KUNIT_CASE(drm_test_buddy_alloc_range_bias),
{}
};
static struct kunit_suite drm_buddy_test_suite = {
.name = "drm_buddy",
.suite_init = drm_buddy_suite_init,
.test_cases = drm_buddy_tests,
};
kunit_test_suite(drm_buddy_test_suite);
MODULE_AUTHOR("Intel Corporation");
MODULE_LICENSE("GPL");
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