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android-kvm / linux / 60bba7b193cc8241b464b4616cfece9353086eeb / . / tools / testing / memblock / tests / basic_api.c
blob: 37b7cc075b0fce22594b9655cd7b0e06b87de171 [file] [log] [blame]
// SPDX-License-Identifier: GPL-2.0-or-later
#include <string.h>
#include <linux/memblock.h>
#include "basic_api.h"
#define EXPECTED_MEMBLOCK_REGIONS 128
static int memblock_initialization_check(void)
{
assert(memblock.memory.regions);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.max == EXPECTED_MEMBLOCK_REGIONS);
assert(strcmp(memblock.memory.name, "memory") == 0);
assert(memblock.reserved.regions);
assert(memblock.reserved.cnt == 1);
assert(memblock.memory.max == EXPECTED_MEMBLOCK_REGIONS);
assert(strcmp(memblock.reserved.name, "reserved") == 0);
assert(!memblock.bottom_up);
assert(memblock.current_limit == MEMBLOCK_ALLOC_ANYWHERE);
return 0;
}
/*
* A simple test that adds a memory block of a specified base address
* and size to the collection of available memory regions (memblock.memory).
* Expect to create a new entry. The region counter and total memory get
* updated.
*/
static int memblock_add_simple_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.memory.regions[0];
struct region r = {
.base = SZ_1G,
.size = SZ_4M
};
reset_memblock_regions();
memblock_add(r.base, r.size);
assert(rgn->base == r.base);
assert(rgn->size == r.size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == r.size);
return 0;
}
/*
* A simple test that adds a memory block of a specified base address, size,
* NUMA node and memory flags to the collection of available memory regions.
* Expect to create a new entry. The region counter and total memory get
* updated.
*/
static int memblock_add_node_simple_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.memory.regions[0];
struct region r = {
.base = SZ_1M,
.size = SZ_16M
};
reset_memblock_regions();
memblock_add_node(r.base, r.size, 1, MEMBLOCK_HOTPLUG);
assert(rgn->base == r.base);
assert(rgn->size == r.size);
#ifdef CONFIG_NUMA
assert(rgn->nid == 1);
#endif
assert(rgn->flags == MEMBLOCK_HOTPLUG);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == r.size);
return 0;
}
/*
* A test that tries to add two memory blocks that don't overlap with one
* another:
*
* | +--------+ +--------+ |
* | | r1 | | r2 | |
* +--------+--------+--------+--------+--+
*
* Expect to add two correctly initialized entries to the collection of
* available memory regions (memblock.memory). The total size and
* region counter fields get updated.
*/
static int memblock_add_disjoint_check(void)
{
struct memblock_region *rgn1, *rgn2;
rgn1 = &memblock.memory.regions[0];
rgn2 = &memblock.memory.regions[1];
struct region r1 = {
.base = SZ_1G,
.size = SZ_8K
};
struct region r2 = {
.base = SZ_1G + SZ_16K,
.size = SZ_8K
};
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_add(r2.base, r2.size);
assert(rgn1->base == r1.base);
assert(rgn1->size == r1.size);
assert(rgn2->base == r2.base);
assert(rgn2->size == r2.size);
assert(memblock.memory.cnt == 2);
assert(memblock.memory.total_size == r1.size + r2.size);
return 0;
}
/*
* A test that tries to add two memory blocks r1 and r2, where r2 overlaps
* with the beginning of r1 (that is r1.base < r2.base + r2.size):
*
* | +----+----+------------+ |
* | | |r2 | r1 | |
* +----+----+----+------------+----------+
* ^ ^
* | |
* | r1.base
* |
* r2.base
*
* Expect to merge the two entries into one region that starts at r2.base
* and has size of two regions minus their intersection. The total size of
* the available memory is updated, and the region counter stays the same.
*/
static int memblock_add_overlap_top_check(void)
{
struct memblock_region *rgn;
phys_addr_t total_size;
rgn = &memblock.memory.regions[0];
struct region r1 = {
.base = SZ_512M,
.size = SZ_1G
};
struct region r2 = {
.base = SZ_256M,
.size = SZ_512M
};
total_size = (r1.base - r2.base) + r1.size;
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_add(r2.base, r2.size);
assert(rgn->base == r2.base);
assert(rgn->size == total_size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == total_size);
return 0;
}
/*
* A test that tries to add two memory blocks r1 and r2, where r2 overlaps
* with the end of r1 (that is r2.base < r1.base + r1.size):
*
* | +--+------+----------+ |
* | | | r1 | r2 | |
* +--+--+------+----------+--------------+
* ^ ^
* | |
* | r2.base
* |
* r1.base
*
* Expect to merge the two entries into one region that starts at r1.base
* and has size of two regions minus their intersection. The total size of
* the available memory is updated, and the region counter stays the same.
*/
static int memblock_add_overlap_bottom_check(void)
{
struct memblock_region *rgn;
phys_addr_t total_size;
rgn = &memblock.memory.regions[0];
struct region r1 = {
.base = SZ_128M,
.size = SZ_512M
};
struct region r2 = {
.base = SZ_256M,
.size = SZ_1G
};
total_size = (r2.base - r1.base) + r2.size;
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_add(r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == total_size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == total_size);
return 0;
}
/*
* A test that tries to add two memory blocks r1 and r2, where r2 is
* within the range of r1 (that is r1.base < r2.base &&
* r2.base + r2.size < r1.base + r1.size):
*
* | +-------+--+-----------------------+
* | | |r2| r1 |
* +---+-------+--+-----------------------+
* ^
* |
* r1.base
*
* Expect to merge two entries into one region that stays the same.
* The counter and total size of available memory are not updated.
*/
static int memblock_add_within_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.memory.regions[0];
struct region r1 = {
.base = SZ_8M,
.size = SZ_32M
};
struct region r2 = {
.base = SZ_16M,
.size = SZ_1M
};
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_add(r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == r1.size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == r1.size);
return 0;
}
/*
* A simple test that tries to add the same memory block twice. Expect
* the counter and total size of available memory to not be updated.
*/
static int memblock_add_twice_check(void)
{
struct region r = {
.base = SZ_16K,
.size = SZ_2M
};
reset_memblock_regions();
memblock_add(r.base, r.size);
memblock_add(r.base, r.size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == r.size);
return 0;
}
static int memblock_add_checks(void)
{
memblock_add_simple_check();
memblock_add_node_simple_check();
memblock_add_disjoint_check();
memblock_add_overlap_top_check();
memblock_add_overlap_bottom_check();
memblock_add_within_check();
memblock_add_twice_check();
return 0;
}
/*
* A simple test that marks a memory block of a specified base address
* and size as reserved and to the collection of reserved memory regions
* (memblock.reserved). Expect to create a new entry. The region counter
* and total memory size are updated.
*/
static int memblock_reserve_simple_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.reserved.regions[0];
struct region r = {
.base = SZ_2G,
.size = SZ_128M
};
reset_memblock_regions();
memblock_reserve(r.base, r.size);
assert(rgn->base == r.base);
assert(rgn->size == r.size);
return 0;
}
/*
* A test that tries to mark two memory blocks that don't overlap as reserved:
*
* | +--+ +----------------+ |
* | |r1| | r2 | |
* +--------+--+------+----------------+--+
*
* Expect to add two entries to the collection of reserved memory regions
* (memblock.reserved). The total size and region counter for
* memblock.reserved are updated.
*/
static int memblock_reserve_disjoint_check(void)
{
struct memblock_region *rgn1, *rgn2;
rgn1 = &memblock.reserved.regions[0];
rgn2 = &memblock.reserved.regions[1];
struct region r1 = {
.base = SZ_256M,
.size = SZ_16M
};
struct region r2 = {
.base = SZ_512M,
.size = SZ_512M
};
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_reserve(r2.base, r2.size);
assert(rgn1->base == r1.base);
assert(rgn1->size == r1.size);
assert(rgn2->base == r2.base);
assert(rgn2->size == r2.size);
assert(memblock.reserved.cnt == 2);
assert(memblock.reserved.total_size == r1.size + r2.size);
return 0;
}
/*
* A test that tries to mark two memory blocks r1 and r2 as reserved,
* where r2 overlaps with the beginning of r1 (that is
* r1.base < r2.base + r2.size):
*
* | +--------------+--+--------------+ |
* | | r2 | | r1 | |
* +--+--------------+--+--------------+--+
* ^ ^
* | |
* | r1.base
* |
* r2.base
*
* Expect to merge two entries into one region that starts at r2.base and
* has size of two regions minus their intersection. The total size of the
* reserved memory is updated, and the region counter is not updated.
*/
static int memblock_reserve_overlap_top_check(void)
{
struct memblock_region *rgn;
phys_addr_t total_size;
rgn = &memblock.reserved.regions[0];
struct region r1 = {
.base = SZ_1G,
.size = SZ_1G
};
struct region r2 = {
.base = SZ_128M,
.size = SZ_1G
};
total_size = (r1.base - r2.base) + r1.size;
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_reserve(r2.base, r2.size);
assert(rgn->base == r2.base);
assert(rgn->size == total_size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to mark two memory blocks r1 and r2 as reserved,
* where r2 overlaps with the end of r1 (that is
* r2.base < r1.base + r1.size):
*
* | +--------------+--+--------------+ |
* | | r1 | | r2 | |
* +--+--------------+--+--------------+--+
* ^ ^
* | |
* | r2.base
* |
* r1.base
*
* Expect to merge two entries into one region that starts at r1.base and
* has size of two regions minus their intersection. The total size of the
* reserved memory is updated, and the region counter is not updated.
*/
static int memblock_reserve_overlap_bottom_check(void)
{
struct memblock_region *rgn;
phys_addr_t total_size;
rgn = &memblock.reserved.regions[0];
struct region r1 = {
.base = SZ_2K,
.size = SZ_128K
};
struct region r2 = {
.base = SZ_128K,
.size = SZ_128K
};
total_size = (r2.base - r1.base) + r2.size;
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_reserve(r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == total_size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to mark two memory blocks r1 and r2 as reserved,
* where r2 is within the range of r1 (that is
* (r1.base < r2.base) && (r2.base + r2.size < r1.base + r1.size)):
*
* | +-----+--+---------------------------|
* | | |r2| r1 |
* +-+-----+--+---------------------------+
* ^ ^
* | |
* | r2.base
* |
* r1.base
*
* Expect to merge two entries into one region that stays the same. The
* counter and total size of available memory are not updated.
*/
static int memblock_reserve_within_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.reserved.regions[0];
struct region r1 = {
.base = SZ_1M,
.size = SZ_8M
};
struct region r2 = {
.base = SZ_2M,
.size = SZ_64K
};
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_reserve(r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == r1.size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == r1.size);
return 0;
}
/*
* A simple test that tries to reserve the same memory block twice.
* Expect the region counter and total size of reserved memory to not
* be updated.
*/
static int memblock_reserve_twice_check(void)
{
struct region r = {
.base = SZ_16K,
.size = SZ_2M
};
reset_memblock_regions();
memblock_reserve(r.base, r.size);
memblock_reserve(r.base, r.size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == r.size);
return 0;
}
static int memblock_reserve_checks(void)
{
memblock_reserve_simple_check();
memblock_reserve_disjoint_check();
memblock_reserve_overlap_top_check();
memblock_reserve_overlap_bottom_check();
memblock_reserve_within_check();
memblock_reserve_twice_check();
return 0;
}
/*
* A simple test that tries to remove a region r1 from the array of
* available memory regions. By "removing" a region we mean overwriting it
* with the next region r2 in memblock.memory:
*
* | ...... +----------------+ |
* | : r1 : | r2 | |
* +--+----+----------+----------------+--+
* ^
* |
* rgn.base
*
* Expect to add two memory blocks r1 and r2 and then remove r1 so that
* r2 is the first available region. The region counter and total size
* are updated.
*/
static int memblock_remove_simple_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.memory.regions[0];
struct region r1 = {
.base = SZ_2K,
.size = SZ_4K
};
struct region r2 = {
.base = SZ_128K,
.size = SZ_4M
};
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_add(r2.base, r2.size);
memblock_remove(r1.base, r1.size);
assert(rgn->base == r2.base);
assert(rgn->size == r2.size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == r2.size);
return 0;
}
/*
* A test that tries to remove a region r2 that was not registered as
* available memory (i.e. has no corresponding entry in memblock.memory):
*
* +----------------+
* | r2 |
* +----------------+
* | +----+ |
* | | r1 | |
* +--+----+------------------------------+
* ^
* |
* rgn.base
*
* Expect the array, regions counter and total size to not be modified.
*/
static int memblock_remove_absent_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.memory.regions[0];
struct region r1 = {
.base = SZ_512K,
.size = SZ_4M
};
struct region r2 = {
.base = SZ_64M,
.size = SZ_1G
};
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_remove(r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == r1.size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == r1.size);
return 0;
}
/*
* A test that tries to remove a region r2 that overlaps with the
* beginning of the already existing entry r1
* (that is r1.base < r2.base + r2.size):
*
* +-----------------+
* | r2 |
* +-----------------+
* | .........+--------+ |
* | : r1 | rgn | |
* +-----------------+--------+--------+--+
* ^ ^
* | |
* | rgn.base
* r1.base
*
* Expect that only the intersection of both regions is removed from the
* available memory pool. The regions counter and total size are updated.
*/
static int memblock_remove_overlap_top_check(void)
{
struct memblock_region *rgn;
phys_addr_t r1_end, r2_end, total_size;
rgn = &memblock.memory.regions[0];
struct region r1 = {
.base = SZ_32M,
.size = SZ_32M
};
struct region r2 = {
.base = SZ_16M,
.size = SZ_32M
};
r1_end = r1.base + r1.size;
r2_end = r2.base + r2.size;
total_size = r1_end - r2_end;
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_remove(r2.base, r2.size);
assert(rgn->base == r1.base + r2.base);
assert(rgn->size == total_size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == total_size);
return 0;
}
/*
* A test that tries to remove a region r2 that overlaps with the end of
* the already existing region r1 (that is r2.base < r1.base + r1.size):
*
* +--------------------------------+
* | r2 |
* +--------------------------------+
* | +---+..... |
* | |rgn| r1 : |
* +-+---+----+---------------------------+
* ^
* |
* r1.base
*
* Expect that only the intersection of both regions is removed from the
* available memory pool. The regions counter and total size are updated.
*/
static int memblock_remove_overlap_bottom_check(void)
{
struct memblock_region *rgn;
phys_addr_t total_size;
rgn = &memblock.memory.regions[0];
struct region r1 = {
.base = SZ_2M,
.size = SZ_64M
};
struct region r2 = {
.base = SZ_32M,
.size = SZ_256M
};
total_size = r2.base - r1.base;
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_remove(r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == total_size);
assert(memblock.memory.cnt == 1);
assert(memblock.memory.total_size == total_size);
return 0;
}
/*
* A test that tries to remove a region r2 that is within the range of
* the already existing entry r1 (that is
* (r1.base < r2.base) && (r2.base + r2.size < r1.base + r1.size)):
*
* +----+
* | r2 |
* +----+
* | +-------------+....+---------------+ |
* | | rgn1 | r1 | rgn2 | |
* +-+-------------+----+---------------+-+
* ^
* |
* r1.base
*
* Expect that the region is split into two - one that ends at r2.base and
* another that starts at r2.base + r2.size, with appropriate sizes. The
* region counter and total size are updated.
*/
static int memblock_remove_within_check(void)
{
struct memblock_region *rgn1, *rgn2;
phys_addr_t r1_size, r2_size, total_size;
rgn1 = &memblock.memory.regions[0];
rgn2 = &memblock.memory.regions[1];
struct region r1 = {
.base = SZ_1M,
.size = SZ_32M
};
struct region r2 = {
.base = SZ_16M,
.size = SZ_1M
};
r1_size = r2.base - r1.base;
r2_size = (r1.base + r1.size) - (r2.base + r2.size);
total_size = r1_size + r2_size;
reset_memblock_regions();
memblock_add(r1.base, r1.size);
memblock_remove(r2.base, r2.size);
assert(rgn1->base == r1.base);
assert(rgn1->size == r1_size);
assert(rgn2->base == r2.base + r2.size);
assert(rgn2->size == r2_size);
assert(memblock.memory.cnt == 2);
assert(memblock.memory.total_size == total_size);
return 0;
}
static int memblock_remove_checks(void)
{
memblock_remove_simple_check();
memblock_remove_absent_check();
memblock_remove_overlap_top_check();
memblock_remove_overlap_bottom_check();
memblock_remove_within_check();
return 0;
}
/*
* A simple test that tries to free a memory block that was marked earlier
* as reserved. By "freeing" a region we mean overwriting it with the next
* entry in memblock.reserved. To check this is the case, the test reserves
* two memory regions and verifies that the value of the latter was used to
* erase r1 region.
* The test also checks if the region counter and total size were updated.
*/
static int memblock_free_simple_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.reserved.regions[0];
struct region r1 = {
.base = SZ_4M,
.size = SZ_1M
};
struct region r2 = {
.base = SZ_8M,
.size = SZ_1M
};
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_reserve(r2.base, r2.size);
memblock_free((void *)r1.base, r1.size);
assert(rgn->base == r2.base);
assert(rgn->size == r2.size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == r2.size);
return 0;
}
/*
* A test that tries to free a region that was not marked as reserved
* (i.e. has no corresponding entry in memblock.reserved). It verifies
* that array, regions counter and total size were not modified.
*/
static int memblock_free_absent_check(void)
{
struct memblock_region *rgn;
rgn = &memblock.reserved.regions[0];
struct region r1 = {
.base = SZ_2M,
.size = SZ_8K
};
struct region r2 = {
.base = SZ_16M,
.size = SZ_128M
};
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_free((void *)r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == r1.size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == r1.size);
return 0;
}
/*
* A test that tries to free a region which overlaps with the beginning of
* the already existing entry r1 (that is r1.base < r2.base + r2.size). It
* checks if only the intersection of both regions is freed. The test also
* checks if the regions counter and total size are updated to expected
* values.
*/
static int memblock_free_overlap_top_check(void)
{
struct memblock_region *rgn;
phys_addr_t total_size;
rgn = &memblock.reserved.regions[0];
struct region r1 = {
.base = SZ_8M,
.size = SZ_32M
};
struct region r2 = {
.base = SZ_1M,
.size = SZ_8M
};
total_size = (r1.size + r1.base) - (r2.base + r2.size);
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_free((void *)r2.base, r2.size);
assert(rgn->base == r2.base + r2.size);
assert(rgn->size == total_size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to free a region which overlaps with the end of the
* first entry (that is r2.base < r1.base + r1.size). It checks if only the
* intersection of both regions is freed. The test also checks if the
* regions counter and total size are updated to expected values.
*/
static int memblock_free_overlap_bottom_check(void)
{
struct memblock_region *rgn;
phys_addr_t total_size;
rgn = &memblock.reserved.regions[0];
struct region r1 = {
.base = SZ_8M,
.size = SZ_32M
};
struct region r2 = {
.base = SZ_32M,
.size = SZ_32M
};
total_size = r2.base - r1.base;
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_free((void *)r2.base, r2.size);
assert(rgn->base == r1.base);
assert(rgn->size == total_size);
assert(memblock.reserved.cnt == 1);
assert(memblock.reserved.total_size == total_size);
return 0;
}
/*
* A test that tries to free a region which is within the range of the
* already existing entry (that is
* (r1.base < r2.base) && (r2.base + r2.size < r1.base + r1.size)).
* It checks if the region is split into two - one that ends at r2.base and
* second that starts at r2.base + size, with appropriate sizes. It is
* expected that the region counter and total size fields were updated t
* reflect that change.
*/
static int memblock_free_within_check(void)
{
struct memblock_region *rgn1, *rgn2;
phys_addr_t r1_size, r2_size, total_size;
rgn1 = &memblock.reserved.regions[0];
rgn2 = &memblock.reserved.regions[1];
struct region r1 = {
.base = SZ_1M,
.size = SZ_8M
};
struct region r2 = {
.base = SZ_4M,
.size = SZ_1M
};
r1_size = r2.base - r1.base;
r2_size = (r1.base + r1.size) - (r2.base + r2.size);
total_size = r1_size + r2_size;
reset_memblock_regions();
memblock_reserve(r1.base, r1.size);
memblock_free((void *)r2.base, r2.size);
assert(rgn1->base == r1.base);
assert(rgn1->size == r1_size);
assert(rgn2->base == r2.base + r2.size);
assert(rgn2->size == r2_size);
assert(memblock.reserved.cnt == 2);
assert(memblock.reserved.total_size == total_size);
return 0;
}
static int memblock_free_checks(void)
{
memblock_free_simple_check();
memblock_free_absent_check();
memblock_free_overlap_top_check();
memblock_free_overlap_bottom_check();
memblock_free_within_check();
return 0;
}
int memblock_basic_checks(void)
{
memblock_initialization_check();
memblock_add_checks();
memblock_reserve_checks();
memblock_remove_checks();
memblock_free_checks();
return 0;
}