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4b41046e7c
Add tests for memblock_alloc_try_nid() and memblock_alloc_try_nid_raw()
where the simulated physical memory is set up with multiple NUMA nodes.
Additionally, all of these tests set nid != NUMA_NO_NODE. These tests are
run with a bottom-up allocation direction.
The tested scenarios are:
Range unrestricted:
- region can be allocated in the specific node requested:
+ there are no previously reserved regions
+ the requested node is partially reserved but has enough space
- the specific node requested cannot accommodate the request, but the
region can be allocated in a different node:
+ there are no previously reserved regions, but node is too small
+ the requested node is fully reserved
+ the requested node is partially reserved and does not have
enough space
Range restricted:
- region can be allocated in the specific node requested after dropping
min_addr:
+ range partially overlaps with two different nodes, where the first
node is the requested node
+ range partially overlaps with two different nodes, where the
requested node ends before min_addr
- region cannot be allocated in the specific node requested, but it can be
allocated in the requested range:
+ range overlaps with multiple nodes along node boundaries, and the
requested node ends before min_addr
+ range overlaps with multiple nodes along node boundaries, and the
requested node starts after max_addr
- region cannot be allocated in the specific node requested, but it can be
allocated after dropping min_addr:
+ range partially overlaps with two different nodes, where the
second node is the requested node
Acked-by: David Hildenbrand <david@redhat.com>
Signed-off-by: Rebecca Mckeever <remckee0@gmail.com>
Signed-off-by: Mike Rapoport <rppt@linux.ibm.com>
Link: https://lore.kernel.org/r/00c4810daaf5d050abc71915b24ed7419bb16b51.1663046060.git.remckee0@gmail.com
==================
Memblock simulator
==================
Introduction
============
Memblock is a boot time memory allocator[1] that manages memory regions before
the actual memory management is initialized. Its APIs allow to register physical
memory regions, mark them as available or reserved, allocate a block of memory
within the requested range and/or in specific NUMA node, and many more.
Because it is used so early in the booting process, testing and debugging it is
difficult. This test suite, usually referred as memblock simulator, is
an attempt at testing the memblock mechanism. It runs one monolithic test that
consist of a series of checks that exercise both the basic operations and
allocation functionalities of memblock. The main data structure of the boot time
memory allocator is initialized at the build time, so the checks here reuse its
instance throughout the duration of the test. To ensure that tests don't affect
each other, region arrays are reset in between.
As this project uses the actual memblock code and has to run in user space,
some of the kernel definitions were stubbed by the initial commit that
introduced memblock simulator (commit 16802e55dea9 ("memblock tests: Add
skeleton of the memblock simulator")) and a few preparation commits just
before it. Most of them don't match the kernel implementation, so one should
consult them first before making any significant changes to the project.
Usage
=====
To run the tests, build the main target and run it:
$ make && ./main
A successful run produces no output. It is possible to control the behavior
by passing options from command line. For example, to include verbose output,
append the `-v` options when you run the tests:
$ ./main -v
This will print information about which functions are being tested and the
number of test cases that passed.
For the full list of options from command line, see `./main --help`.
It is also possible to override different configuration parameters to change
the test functions. For example, to simulate enabled NUMA, use:
$ make NUMA=1
For the full list of build options, see `make help`.
Project structure
=================
The project has one target, main, which calls a group of checks for basic and
allocation functions. Tests for each group are defined in dedicated files, as it
can be seen here:
memblock
|-- asm ------------------,
|-- lib |-- implement function and struct stubs
|-- linux ------------------'
|-- scripts
| |-- Makefile.include -- handles `make` parameters
|-- tests
| |-- alloc_api.(c|h) -- memblock_alloc tests
| |-- alloc_helpers_api.(c|h) -- memblock_alloc_from tests
| |-- alloc_nid_api.(c|h) -- memblock_alloc_try_nid tests
| |-- basic_api.(c|h) -- memblock_add/memblock_reserve/... tests
| |-- common.(c|h) -- helper functions for resetting memblock;
|-- main.c --------------. dummy physical memory definition
|-- Makefile `- test runner
|-- README
|-- TODO
|-- .gitignore
Simulating physical memory
==========================
Some allocation functions clear the memory in the process, so it is required for
memblock to track valid memory ranges. To achieve this, the test suite registers
with memblock memory stored by test_memory struct. It is a small wrapper that
points to a block of memory allocated via malloc. For each group of allocation
tests, dummy physical memory is allocated, added to memblock, and then released
at the end of the test run. The structure of a test runner checking allocation
functions is as follows:
int memblock_alloc_foo_checks(void)
{
reset_memblock_attributes(); /* data structure reset */
dummy_physical_memory_init(); /* allocate and register memory */
(...allocation checks...)
dummy_physical_memory_cleanup(); /* free the memory */
}
There's no need to explicitly free the dummy memory from memblock via
memblock_free() call. The entry will be erased by reset_memblock_regions(),
called at the beginning of each test.
Known issues
============
1. Requesting a specific NUMA node via memblock_alloc_node() does not work as
intended. Once the fix is in place, tests for this function can be added.
2. Tests for memblock_alloc_low() can't be easily implemented. The function uses
ARCH_LOW_ADDRESS_LIMIT marco, which can't be changed to point at the low
memory of the memory_block.
References
==========
1. Boot time memory management documentation page:
https://www.kernel.org/doc/html/latest/core-api/boot-time-mm.html