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memblock tests: Add memblock_alloc tests for top down

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Add checks for memblock_alloc for top down allocation direction.
The tested scenarios are:
  - Region can be allocated on the first fit (with and without
    region merging)
  - Region can be allocated on the second fit (with and without
    region merging)

Add checks for both allocation directions:
  - Region can be allocated between two already existing entries
  - Limited memory available
  - All memory is reserved
  - No available memory registered with memblock

Signed-off-by: Karolina Drobnik <karolinadrobnik@gmail.com>
Signed-off-by: Mike Rapoport <rppt@linux.ibm.com>
Link: https://lore.kernel.org/r/26ccf409b8ff0394559d38d792b2afb24b55887c.1646055639.git.karolinadrobnik@gmail.com
This commit is contained in:
Karolina Drobnik 2022-02-28 15:46:45 +01:00 committed by Mike Rapoport
parent 284d950dd6
commit 142eac65f3
4 changed files with 447 additions and 1 deletions
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2
tools/testing/memblock/Makefile
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@ -6,7 +6,7 @@ CFLAGS += -I. -I../../include -Wall -O2 -fsanitize=address \
-fsanitize=undefined -D CONFIG_PHYS_ADDR_T_64BIT
LDFLAGS += -fsanitize=address -fsanitize=undefined
TARGETS = main
TEST_OFILES = tests/basic_api.o tests/common.o
TEST_OFILES = tests/alloc_api.o tests/basic_api.o tests/common.o
DEP_OFILES = memblock.o lib/slab.o mmzone.o slab.o
OFILES = main.o $(DEP_OFILES) $(TEST_OFILES)
EXTR_SRC = ../../../mm/memblock.c

3
tools/testing/memblock/main.c
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@ -1,8 +1,11 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#include "tests/basic_api.h"
#include "tests/alloc_api.h"
int main(int argc, char **argv)
{
memblock_basic_checks();
memblock_alloc_checks();
return 0;
}

434
tools/testing/memblock/tests/alloc_api.c Normal file
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@ -0,0 +1,434 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#include "alloc_api.h"
/*
* A simple test that tries to allocate a small memory region.
* Expect to allocate an aligned region near the end of the available memory.
*/
static int alloc_top_down_simple_check(void)
{
struct memblock_region *rgn = &memblock.reserved.regions[0];
void *allocated_ptr = NULL;
phys_addr_t size = SZ_2;
phys_addr_t expected_start;
setup_memblock();
expected_start = memblock_end_of_DRAM() - SMP_CACHE_BYTES;
allocated_ptr = memblock_alloc(size, SMP_CACHE_BYTES);
assert(allocated_ptr);
assert(rgn->size == size);
assert(rgn->base == expected_start);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == size);
return 0;
}
/*
* A test that tries to allocate memory next to a reserved region that starts at
* the misaligned address. Expect to create two separate entries, with the new
* entry aligned to the provided alignment:
*
* +
* | +--------+ +--------|
* | | rgn2 | | rgn1 |
* +------------+--------+---------+--------+
* ^
* |
* Aligned address boundary
*
* The allocation direction is top-down and region arrays are sorted from lower
* to higher addresses, so the new region will be the first entry in
* memory.reserved array. The previously reserved region does not get modified.
* Region counter and total size get updated.
*/
static int alloc_top_down_disjoint_check(void)
{
/* After allocation, this will point to the "old" region */
struct memblock_region *rgn1 = &memblock.reserved.regions[1];
struct memblock_region *rgn2 = &memblock.reserved.regions[0];
struct region r1;
void *allocated_ptr = NULL;
phys_addr_t r2_size = SZ_16;
/* Use custom alignment */
phys_addr_t alignment = SMP_CACHE_BYTES * 2;
phys_addr_t total_size;
phys_addr_t expected_start;
setup_memblock();
r1.base = memblock_end_of_DRAM() - SZ_2;
r1.size = SZ_2;
total_size = r1.size + r2_size;
expected_start = memblock_end_of_DRAM() - alignment;
memblock_reserve(r1.base, r1.size);
allocated_ptr = memblock_alloc(r2_size, alignment);
assert(allocated_ptr);
assert(rgn1->size == r1.size);
assert(rgn1->base == r1.base);
assert(rgn2->size == r2_size);
assert(rgn2->base == expected_start);
assert(memblock.reserved.cnt == 2);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to allocate memory when there is enough space at the end
* of the previously reserved block (i.e. first fit):
*
* | +--------+--------------|
* | | r1 | r2 |
* +--------------+--------+--------------+
*
* Expect a merge of both regions. Only the region size gets updated.
*/
static int alloc_top_down_before_check(void)
{
struct memblock_region *rgn = &memblock.reserved.regions[0];
void *allocated_ptr = NULL;
/*
* The first region ends at the aligned address to test region merging
*/
phys_addr_t r1_size = SMP_CACHE_BYTES;
phys_addr_t r2_size = SZ_512;
phys_addr_t total_size = r1_size + r2_size;
setup_memblock();
memblock_reserve(memblock_end_of_DRAM() - total_size, r1_size);
allocated_ptr = memblock_alloc(r2_size, SMP_CACHE_BYTES);
assert(allocated_ptr);
assert(rgn->size == total_size);
assert(rgn->base == memblock_end_of_DRAM() - total_size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to allocate memory when there is not enough space at the
* end of the previously reserved block (i.e. second fit):
*
* | +-----------+------+ |
* | | r2 | r1 | |
* +------------+-----------+------+-----+
*
* Expect a merge of both regions. Both the base address and size of the region
* get updated.
*/
static int alloc_top_down_after_check(void)
{
struct memblock_region *rgn = &memblock.reserved.regions[0];
struct region r1;
void *allocated_ptr = NULL;
phys_addr_t r2_size = SZ_512;
phys_addr_t total_size;
setup_memblock();
/*
* The first region starts at the aligned address to test region merging
*/
r1.base = memblock_end_of_DRAM() - SMP_CACHE_BYTES;
r1.size = SZ_8;
total_size = r1.size + r2_size;
memblock_reserve(r1.base, r1.size);
allocated_ptr = memblock_alloc(r2_size, SMP_CACHE_BYTES);
assert(allocated_ptr);
assert(rgn->size == total_size);
assert(rgn->base == r1.base - r2_size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to allocate memory when there are two reserved regions with
* a gap too small to fit the new region:
*
* | +--------+----------+ +------|
* | | r3 | r2 | | r1 |
* +-------+--------+----------+---+------+
*
* Expect to allocate a region before the one that starts at the lower address,
* and merge them into one. The region counter and total size fields get
* updated.
*/
static int alloc_top_down_second_fit_check(void)
{
struct memblock_region *rgn = &memblock.reserved.regions[0];
struct region r1, r2;
void *allocated_ptr = NULL;
phys_addr_t r3_size = SZ_1K;
phys_addr_t total_size;
setup_memblock();
r1.base = memblock_end_of_DRAM() - SZ_512;
r1.size = SZ_512;
r2.base = r1.base - SZ_512;
r2.size = SZ_256;
total_size = r1.size + r2.size + r3_size;
memblock_reserve(r1.base, r1.size);
memblock_reserve(r2.base, r2.size);
allocated_ptr = memblock_alloc(r3_size, SMP_CACHE_BYTES);
assert(allocated_ptr);
assert(rgn->size == r2.size + r3_size);
assert(rgn->base == r2.base - r3_size);
assert(memblock.reserved.cnt == 2);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to allocate memory when there are two reserved regions with
* a gap big enough to accommodate the new region:
*
* | +--------+--------+--------+ |
* | | r2 | r3 | r1 | |
* +-----+--------+--------+--------+-----+
*
* Expect to merge all of them, creating one big entry in memblock.reserved
* array. The region counter and total size fields get updated.
*/
static int alloc_in_between_generic_check(void)
{
struct memblock_region *rgn = &memblock.reserved.regions[0];
struct region r1, r2;
void *allocated_ptr = NULL;
phys_addr_t gap_size = SMP_CACHE_BYTES;
phys_addr_t r3_size = SZ_64;
/*
* Calculate regions size so there's just enough space for the new entry
*/
phys_addr_t rgn_size = (MEM_SIZE - (2 * gap_size + r3_size)) / 2;
phys_addr_t total_size;
setup_memblock();
r1.size = rgn_size;
r1.base = memblock_end_of_DRAM() - (gap_size + rgn_size);
r2.size = rgn_size;
r2.base = memblock_start_of_DRAM() + gap_size;
total_size = r1.size + r2.size + r3_size;
memblock_reserve(r1.base, r1.size);
memblock_reserve(r2.base, r2.size);
allocated_ptr = memblock_alloc(r3_size, SMP_CACHE_BYTES);
assert(allocated_ptr);
assert(rgn->size == total_size);
assert(rgn->base == r1.base - r2.size - r3_size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to allocate memory when the memory is filled with reserved
* regions with memory gaps too small to fit the new region:
*
* +-------+
* | new |
* +--+----+
* | +-----+ +-----+ +-----+ |
* | | res | | res | | res | |
* +----+-----+----+-----+----+-----+----+
*
* Expect no allocation to happen.
*/
static int alloc_small_gaps_generic_check(void)
{
void *allocated_ptr = NULL;
phys_addr_t region_size = SZ_1K;
phys_addr_t gap_size = SZ_256;
phys_addr_t region_end;
setup_memblock();
region_end = memblock_start_of_DRAM();
while (region_end < memblock_end_of_DRAM()) {
memblock_reserve(region_end + gap_size, region_size);
region_end += gap_size + region_size;
}
allocated_ptr = memblock_alloc(region_size, SMP_CACHE_BYTES);
assert(!allocated_ptr);
return 0;
}
/*
* A test that tries to allocate memory when all memory is reserved.
* Expect no allocation to happen.
*/
static int alloc_all_reserved_generic_check(void)
{
void *allocated_ptr = NULL;
setup_memblock();
/* Simulate full memory */
memblock_reserve(memblock_start_of_DRAM(), MEM_SIZE);
allocated_ptr = memblock_alloc(SZ_256, SMP_CACHE_BYTES);
assert(!allocated_ptr);
return 0;
}
/*
* A test that tries to allocate memory when the memory is almost full,
* with not enough space left for the new region:
*
* +-------+
* | new |
* +-------+
* |-----------------------------+ |
* | reserved | |
* +-----------------------------+---+
*
* Expect no allocation to happen.
*/
static int alloc_no_space_generic_check(void)
{
void *allocated_ptr = NULL;
setup_memblock();
phys_addr_t available_size = SZ_256;
phys_addr_t reserved_size = MEM_SIZE - available_size;
/* Simulate almost-full memory */
memblock_reserve(memblock_start_of_DRAM(), reserved_size);
allocated_ptr = memblock_alloc(SZ_1K, SMP_CACHE_BYTES);
assert(!allocated_ptr);
return 0;
}
/*
* A test that tries to allocate memory when the memory is almost full,
* but there is just enough space left:
*
* |---------------------------+---------|
* | reserved | new |
* +---------------------------+---------+
*
* Expect to allocate memory and merge all the regions. The total size field
* gets updated.
*/
static int alloc_limited_space_generic_check(void)
{
struct memblock_region *rgn = &memblock.reserved.regions[0];
void *allocated_ptr = NULL;
phys_addr_t available_size = SZ_256;
phys_addr_t reserved_size = MEM_SIZE - available_size;
setup_memblock();
/* Simulate almost-full memory */
memblock_reserve(memblock_start_of_DRAM(), reserved_size);
allocated_ptr = memblock_alloc(available_size, SMP_CACHE_BYTES);
assert(allocated_ptr);
assert(rgn->size == MEM_SIZE);
assert(rgn->base == memblock_start_of_DRAM());
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == MEM_SIZE);
return 0;
}
/*
* A test that tries to allocate memory when there is no available memory
* registered (i.e. memblock.memory has only a dummy entry).
* Expect no allocation to happen.
*/
static int alloc_no_memory_generic_check(void)
{
struct memblock_region *rgn = &memblock.reserved.regions[0];
void *allocated_ptr = NULL;
reset_memblock_regions();
allocated_ptr = memblock_alloc(SZ_1K, SMP_CACHE_BYTES);
assert(!allocated_ptr);
assert(rgn->size == 0);
assert(rgn->base == 0);
assert(memblock.reserved.total_size == 0);
return 0;
}
int memblock_alloc_checks(void)
{
reset_memblock_attributes();
dummy_physical_memory_init();
alloc_top_down_simple_check();
alloc_top_down_disjoint_check();
alloc_top_down_before_check();
alloc_top_down_after_check();
alloc_top_down_second_fit_check();
alloc_in_between_generic_check();
alloc_small_gaps_generic_check();
alloc_all_reserved_generic_check();
alloc_no_space_generic_check();
alloc_limited_space_generic_check();
alloc_no_memory_generic_check();
dummy_physical_memory_cleanup();
return 0;
}

9
tools/testing/memblock/tests/alloc_api.h Normal file
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@ -0,0 +1,9 @@
/* SPDX-License-Identifier: GPL-2.0-or-later */
#ifndef _MEMBLOCK_ALLOCS_H
#define _MEMBLOCK_ALLOCS_H
#include "common.h"
int memblock_alloc_checks(void);
#endif