memblock tests: add bottom-up NUMA tests for memblock_alloc_exact_nid_raw (b6df23ed) · Commits · EulixOS / Software / Kernel

tools/testing/memblock/tests/alloc_exact_nid_api.c

+282 −0

Original line number	Diff line number	Diff line
		@@ -288,12 +288,286 @@ static int alloc_exact_nid_top_down_numa_no_overlap_low_check(void)
		return 0;
		}

		/*
		* A test that tries to allocate a memory region in a specific NUMA node that
		* has enough memory to allocate a region of the requested size.
		* Expect to allocate an aligned region at the beginning of the requested node.
		*/
		static int alloc_exact_nid_bottom_up_numa_simple_check(void)
		{
		int nid_req = 3;
		struct memblock_region *new_rgn = &memblock.reserved.regions[0];
		struct memblock_region *req_node = &memblock.memory.regions[nid_req];
		void *allocated_ptr = NULL;
		phys_addr_t size;
		phys_addr_t min_addr;
		phys_addr_t max_addr;

		PREFIX_PUSH();
		setup_numa_memblock(node_fractions);

		ASSERT_LE(SZ_4, req_node->size);
		size = req_node->size / SZ_4;
		min_addr = memblock_start_of_DRAM();
		max_addr = memblock_end_of_DRAM();

		allocated_ptr = memblock_alloc_exact_nid_raw(size, SMP_CACHE_BYTES,
		min_addr, max_addr,
		nid_req);

		ASSERT_NE(allocated_ptr, NULL);
		ASSERT_MEM_NE(allocated_ptr, 0, size);

		ASSERT_EQ(new_rgn->size, size);
		ASSERT_EQ(new_rgn->base, req_node->base);
		ASSERT_LE(region_end(new_rgn), region_end(req_node));

		ASSERT_EQ(memblock.reserved.cnt, 1);
		ASSERT_EQ(memblock.reserved.total_size, size);

		test_pass_pop();

		return 0;
		}

		/*
		* A test that tries to allocate a memory region in a specific NUMA node that
		* is partially reserved but has enough memory for the allocated region:
		*
		* \| +---------------------------------------+ \|
		* \| \| requested \| \|
		* +-----------+---------------------------------------+---------+
		*
		* \| +------------------+-----+ \|
		* \| \| reserved \| new \| \|
		* +-----------+------------------+-----+------------------------+
		*
		* Expect to allocate an aligned region in the requested node that merges with
		* the existing reserved region. The total size gets updated.
		*/
		static int alloc_exact_nid_bottom_up_numa_part_reserved_check(void)
		{
		int nid_req = 4;
		struct memblock_region *new_rgn = &memblock.reserved.regions[0];
		struct memblock_region *req_node = &memblock.memory.regions[nid_req];
		void *allocated_ptr = NULL;
		struct region r1;
		phys_addr_t size;
		phys_addr_t min_addr;
		phys_addr_t max_addr;
		phys_addr_t total_size;

		PREFIX_PUSH();
		setup_numa_memblock(node_fractions);

		ASSERT_LE(SZ_8, req_node->size);
		r1.base = req_node->base;
		r1.size = req_node->size / SZ_2;
		size = r1.size / SZ_4;
		min_addr = memblock_start_of_DRAM();
		max_addr = memblock_end_of_DRAM();
		total_size = size + r1.size;

		memblock_reserve(r1.base, r1.size);
		allocated_ptr = memblock_alloc_exact_nid_raw(size, SMP_CACHE_BYTES,
		min_addr, max_addr,
		nid_req);

		ASSERT_NE(allocated_ptr, NULL);
		ASSERT_MEM_NE(allocated_ptr, 0, size);

		ASSERT_EQ(new_rgn->size, total_size);
		ASSERT_EQ(new_rgn->base, req_node->base);
		ASSERT_LE(region_end(new_rgn), region_end(req_node));

		ASSERT_EQ(memblock.reserved.cnt, 1);
		ASSERT_EQ(memblock.reserved.total_size, total_size);

		test_pass_pop();

		return 0;
		}

		/*
		* A test that tries to allocate a memory region that spans over the min_addr
		* and max_addr range and overlaps with two different nodes, where the first
		* node is the requested node:
		*
		* min_addr
		* \| max_addr
		* \| \|
		* v v
		* \| +-----------------------+-----------+ \|
		* \| \| requested \| node3 \| \|
		* +-----------+-----------------------+-----------+--------------+
		* + +
		* \| +-----------+ \|
		* \| \| rgn \| \|
		* +-----------+-----------+--------------------------------------+
		*
		* Expect to drop the lower limit and allocate a memory region at the beginning
		* of the requested node.
		*/
		static int alloc_exact_nid_bottom_up_numa_split_range_low_check(void)
		{
		int nid_req = 2;
		struct memblock_region *new_rgn = &memblock.reserved.regions[0];
		struct memblock_region *req_node = &memblock.memory.regions[nid_req];
		void *allocated_ptr = NULL;
		phys_addr_t size = SZ_512;
		phys_addr_t min_addr;
		phys_addr_t max_addr;
		phys_addr_t req_node_end;

		PREFIX_PUSH();
		setup_numa_memblock(node_fractions);

		req_node_end = region_end(req_node);
		min_addr = req_node_end - SZ_256;
		max_addr = min_addr + size;

		allocated_ptr = memblock_alloc_exact_nid_raw(size, SMP_CACHE_BYTES,
		min_addr, max_addr,
		nid_req);

		ASSERT_NE(allocated_ptr, NULL);
		ASSERT_MEM_NE(allocated_ptr, 0, size);

		ASSERT_EQ(new_rgn->size, size);
		ASSERT_EQ(new_rgn->base, req_node->base);
		ASSERT_LE(region_end(new_rgn), req_node_end);

		ASSERT_EQ(memblock.reserved.cnt, 1);
		ASSERT_EQ(memblock.reserved.total_size, size);

		test_pass_pop();

		return 0;
		}

		/*
		* A test that tries to allocate a memory region that spans over the min_addr
		* and max_addr range and overlaps with two different nodes, where the requested
		* node ends before min_addr:
		*
		* min_addr
		* \| max_addr
		* \| \|
		* v v
		* \| +---------------+ +-------------+---------+ \|
		* \| \| requested \| \| node1 \| node2 \| \|
		* +----+---------------+--------+-------------+---------+---------+
		* + +
		* \| +---------+ \|
		* \| \| rgn \| \|
		* +----+---------+------------------------------------------------+
		*
		* Expect to drop the lower limit and allocate a memory region that starts at
		* the beginning of the requested node.
		*/
		static int alloc_exact_nid_bottom_up_numa_no_overlap_split_check(void)
		{
		int nid_req = 2;
		struct memblock_region *new_rgn = &memblock.reserved.regions[0];
		struct memblock_region *req_node = &memblock.memory.regions[nid_req];
		struct memblock_region *node2 = &memblock.memory.regions[6];
		void *allocated_ptr = NULL;
		phys_addr_t size;
		phys_addr_t min_addr;
		phys_addr_t max_addr;

		PREFIX_PUSH();
		setup_numa_memblock(node_fractions);

		size = SZ_512;
		min_addr = node2->base - SZ_256;
		max_addr = min_addr + size;

		allocated_ptr = memblock_alloc_exact_nid_raw(size, SMP_CACHE_BYTES,
		min_addr, max_addr,
		nid_req);

		ASSERT_NE(allocated_ptr, NULL);
		ASSERT_MEM_NE(allocated_ptr, 0, size);

		ASSERT_EQ(new_rgn->size, size);
		ASSERT_EQ(new_rgn->base, req_node->base);
		ASSERT_LE(region_end(new_rgn), region_end(req_node));

		ASSERT_EQ(memblock.reserved.cnt, 1);
		ASSERT_EQ(memblock.reserved.total_size, size);

		test_pass_pop();

		return 0;
		}

		/*
		* A test that tries to allocate memory within min_addr and max_add range when
		* the requested node and the range do not overlap, and requested node ends
		* before min_addr. The range overlaps with multiple nodes along node
		* boundaries:
		*
		* min_addr
		* \| max_addr
		* \| \|
		* v v
		* \|-----------+ +----------+----...----+----------+ \|
		* \| requested \| \| min node \| ... \| max node \| \|
		* +-----------+-----------+----------+----...----+----------+------+
		* + +
		* \|-----+ \|
		* \| rgn \| \|
		* +-----+----------------------------------------------------------+
		*
		* Expect to drop the lower limit and allocate a memory region that starts at
		* the beginning of the requested node.
		*/
		static int alloc_exact_nid_bottom_up_numa_no_overlap_low_check(void)
		{
		int nid_req = 0;
		struct memblock_region *new_rgn = &memblock.reserved.regions[0];
		struct memblock_region *req_node = &memblock.memory.regions[nid_req];
		struct memblock_region *min_node = &memblock.memory.regions[2];
		struct memblock_region *max_node = &memblock.memory.regions[5];
		void *allocated_ptr = NULL;
		phys_addr_t size = SZ_64;
		phys_addr_t max_addr;
		phys_addr_t min_addr;

		PREFIX_PUSH();
		setup_numa_memblock(node_fractions);

		min_addr = min_node->base;
		max_addr = region_end(max_node);

		allocated_ptr = memblock_alloc_exact_nid_raw(size, SMP_CACHE_BYTES,
		min_addr, max_addr,
		nid_req);

		ASSERT_NE(allocated_ptr, NULL);
		ASSERT_MEM_NE(allocated_ptr, 0, size);

		ASSERT_EQ(new_rgn->size, size);
		ASSERT_EQ(new_rgn->base, req_node->base);
		ASSERT_LE(region_end(new_rgn), region_end(req_node));

		ASSERT_EQ(memblock.reserved.cnt, 1);
		ASSERT_EQ(memblock.reserved.total_size, size);

		test_pass_pop();

		return 0;
		}

		/* Test case wrappers for NUMA tests */
		static int alloc_exact_nid_numa_simple_check(void)
		{
		test_print("\tRunning %s...\n", __func__);
		memblock_set_bottom_up(false);
		alloc_exact_nid_top_down_numa_simple_check();
		memblock_set_bottom_up(true);
		alloc_exact_nid_bottom_up_numa_simple_check();

		return 0;
		}
		@@ -303,6 +577,8 @@ static int alloc_exact_nid_numa_part_reserved_check(void)
		test_print("\tRunning %s...\n", __func__);
		memblock_set_bottom_up(false);
		alloc_exact_nid_top_down_numa_part_reserved_check();
		memblock_set_bottom_up(true);
		alloc_exact_nid_bottom_up_numa_part_reserved_check();

		return 0;
		}
		@@ -312,6 +588,8 @@ static int alloc_exact_nid_numa_split_range_low_check(void)
		test_print("\tRunning %s...\n", __func__);
		memblock_set_bottom_up(false);
		alloc_exact_nid_top_down_numa_split_range_low_check();
		memblock_set_bottom_up(true);
		alloc_exact_nid_bottom_up_numa_split_range_low_check();

		return 0;
		}
		@@ -321,6 +599,8 @@ static int alloc_exact_nid_numa_no_overlap_split_check(void)
		test_print("\tRunning %s...\n", __func__);
		memblock_set_bottom_up(false);
		alloc_exact_nid_top_down_numa_no_overlap_split_check();
		memblock_set_bottom_up(true);
		alloc_exact_nid_bottom_up_numa_no_overlap_split_check();

		return 0;
		}
		@@ -330,6 +610,8 @@ static int alloc_exact_nid_numa_no_overlap_low_check(void)
		test_print("\tRunning %s...\n", __func__);
		memblock_set_bottom_up(false);
		alloc_exact_nid_top_down_numa_no_overlap_low_check();
		memblock_set_bottom_up(true);
		alloc_exact_nid_bottom_up_numa_no_overlap_low_check();

		return 0;
		}