This file explains how to use gem5's updated testing infrastructure. Running tests before submitting a patch is incredibly important so unexpected bugs don't creep into gem5.
gem5's testing infrastructure has the following goals:
- Simple for all users to run
- Fast execution in the simple case
- High coverage of gem5 code
gem5 comes with unit tests, created using the Google Test framework. These can be built through SCons.
To build and run all the unit tests:
scons build/NULL/unittests.opt
All unit tests should be run prior to posting a patch to https://gem5-review.googlesource.com
To compile and run just one set of tests (e.g. those declared within
src/base/bitunion.test.cc
):
scons build/NULL/base/bitunion.test.opt
./build/NULL/base/bitunion.test.opt
To list the available test functions from a test file:
./build/NULL/base/bitunion.test.opt --gtest_list_tests
To run a specific test function (e.g., BitUnionData.NormalBitfield):
./build/NULL/base/bitunion.test.opt --gtest_filter=BitUnionData.NormalBitfield
Within the tests
directory we have system-level tests. These tests run
the gem5 framework against various hardware configurations, with different
ISAs, then verify the simulations execute correctly. These should be seen as
high-level, coarse-grained tests to compliment the unit-tests.
Below is the most common way the tests are run. This will run all of the
"quick" tests for X86, ARM, and RISC-V. These tests make up our best-supported
platforms and use cases. When running these tests, you will likely want to us
the option -j <CPUs>
where CPUs
is as large as you can make it.
Additionally, it is often a good idea to run longer tests (e.g., linux boot)
before submitting your patch.
cd tests
./main.py run
The above is the minumum you should run before posting a patch to https://gem5-review.googlesource.com
The command line above will walk the directory tree starting from the cwd (tests), and it will run every test it encounters in its path. It is possible to specify multiple root directories by providing several positional arguments:
./main.py run <directory1> <directory2> [...]
This will load every test in directory1 and directory2 (and their subdirectories).
You can use the tag query interface to specify the exact tests you want to run.
For instance, if you want to run only with gem5.opt
, you can use
./main.py run --variant opt
Or, if you want to just run X86 tests with the gem5.opt
binary:
./main.py run --length quick --variant opt --isa X86
To view all of the available tags, use
./main.py list --all-tags
The output is split into tag types (e.g., isa, variant, length) and the tags for each type are listed after the type name.
You can specify "or" between tags within the same type by using the tag flag multiple times. For instance, to run everything that is tagged "opt" or "fast" use
./main.py run --variant opt --variant fast
You can also specify "and" between different types of tags by specifying more than one type on the command line. For instance, this will only run tests with both the "X86" and "opt" tags.
./main.py run --isa X86 --variant opt
The testing infrastructure provides the two needed methods to run tests in
batch. First, you can list all of the tests based on the same tags as above in
a machine-readable format by passing the -q
flag. This will list all of the
suites that match the given tag(s).
./main.py list -q --suites
SuiteUID:tests/gem5/hello_se/test_hello_se.py:testhello64-static-X86-opt
SuiteUID:tests/gem5/hello_se/test_hello_se.py:testhello64-dynamic-X86-opt
SuiteUID:tests/gem5/hello_se/test_hello_se.py:testhello32-static-X86-opt
SuiteUID:tests/gem5/hello_se/test_hello_se.py:testhello64-static-ARM-opt
SuiteUID:tests/gem5/hello_se/test_hello_se.py:testhello32-static-ARM-opt
SuiteUID:tests/gem5/m5_util/test_exit.py:m5_exit_test-X86-opt
SuiteUID:tests/gem5/test_build/test_build.py:build-X86-opt
SuiteUID:tests/gem5/test_build/test_build.py:build-RISCV-opt
SuiteUID:tests/gem5/test_build/test_build.py:build-ARM-opt
Next, you can run a single suite from the command line by passing the option
--uid
. For instance,
./main.py run --skip-build \
--uid SuiteUID:tests/gem5/m5_util/test_exit.py:m5_exit_test-X86-opt
With this method, you can only run a single suite at a time. If you want to
run more than one uid, you must call ./main.py
multiple times.
Currently, you must specify --skip-build
if you want to run a single suite or
run in batch mode. Otherwise, you will build gem5 for all architectures.
While developing software a common practice is to run tests, make a change, and
assert that the tests still pass. If tests fail you'll likely want to
rerun and fix those specific tests without running redundant ones. The testing
infrastructure allows you to rerun tests which failed in the last execution by
using the rerun
command.
./main.py run
#
# Some tests fail...
#
# Rerun only the failed test suites (not the ones which passed).
./main.py rerun
The first step is to turn up the verbosity of the output using -v
. This will
allow you to see what tests are running and why a test is failing.
If a test fails, the temporary directory where the gem5 output was saved is kept and the path to the directory is printed in the terminal.
Every command takes an option for the verbosity. -v
, -vv
, -vvv
will
increase the verbosity level. If something isn't working correctly, you can
start here.
Most of the code for the testing infrastructure is in ext/testlib. This code contains the base code for tests, suites, fixtures, etc. The code in tests/gem5 is gem5-specific code. For the most part, the code in tests/gem5 extends the structures in ext/testlib.
You may see a number of lines of output during test discovery that look like the following:
Tried to load tests from ... but failed with an exception.
Tried to load tests from ... but failed with an exception.
...
The testing library searches all python files in the tests/
directory. The
test library executes each python file it finds searching for tests. It's okay
if the file causes an exception. This means there are no tests in that file
(e.g., it's not a new-style test).
The code for some test binaries that are run in the gem5 guest during
testing can be found in tests/test-progs
.
There's one directory per test application.
The source code is under the source
directory.
You may have a bin
directory as well.
The bin
directory is automatically created when running the test case that
uses the test binary.
This is not the case when a test is run via the --bin-path option.
In that scenario a bin directory will be created in the selected path
rather than in tests/test-progs
.
The binary is downloaded from the gem5 servers the first
time it is referenced by a test.
Some other tests (like Linux-boot) don't have sources inside gem5 and are simply downloaded from gem5 servers.
The test infrastructure should check with the gem5 servers to ensure you have
the latest binaries. However, if you believe your binaries are out of date,
simply delete the bin
directory and they will be re-downloaded to your local
machine.
In each src/
directory under tests/test-progs
, there is a Makefile.
This Makefile downloads a docker image and builds the test binary for some ISA
(e.g., Makefile.x86 builds the binary for x86). Additionally, if you run make upload
it will upload the binaries to the gem5 server, if you have access to
modify the binaries. If you need to modify the binaries for updating a test or
adding a new test and you don't have access to the gem5 server, contact a
maintainer (see MAINTAINERS).
Whimsy has support for parallel testing baked in. This system supports
running multiple suites at the same time on the same computer. To run
suites in parallel, supply the -t <number-tests>
flag to the run command.
For example, to run up to three test suites at the same time::
./main.py run --skip-build -t 3