1.. _testing: 2 3Testing in QEMU 4=============== 5 6This document describes the testing infrastructure in QEMU. 7 8Testing with "make check" 9------------------------- 10 11The "make check" testing family includes most of the C based tests in QEMU. For 12a quick help, run ``make check-help`` from the source tree. 13 14The usual way to run these tests is: 15 16.. code:: 17 18 make check 19 20which includes QAPI schema tests, unit tests, QTests and some iotests. 21Different sub-types of "make check" tests will be explained below. 22 23Before running tests, it is best to build QEMU programs first. Some tests 24expect the executables to exist and will fail with obscure messages if they 25cannot find them. 26 27Unit tests 28~~~~~~~~~~ 29 30Unit tests, which can be invoked with ``make check-unit``, are simple C tests 31that typically link to individual QEMU object files and exercise them by 32calling exported functions. 33 34If you are writing new code in QEMU, consider adding a unit test, especially 35for utility modules that are relatively stateless or have few dependencies. To 36add a new unit test: 37 381. Create a new source file. For example, ``tests/unit/foo-test.c``. 39 402. Write the test. Normally you would include the header file which exports 41 the module API, then verify the interface behaves as expected from your 42 test. The test code should be organized with the glib testing framework. 43 Copying and modifying an existing test is usually a good idea. 44 453. Add the test to ``tests/unit/meson.build``. The unit tests are listed in a 46 dictionary called ``tests``. The values are any additional sources and 47 dependencies to be linked with the test. For a simple test whose source 48 is in ``tests/unit/foo-test.c``, it is enough to add an entry like:: 49 50 { 51 ... 52 'foo-test': [], 53 ... 54 } 55 56Since unit tests don't require environment variables, the simplest way to debug 57a unit test failure is often directly invoking it or even running it under 58``gdb``. However there can still be differences in behavior between ``make`` 59invocations and your manual run, due to ``$MALLOC_PERTURB_`` environment 60variable (which affects memory reclamation and catches invalid pointers better) 61and gtester options. If necessary, you can run 62 63.. code:: 64 65 make check-unit V=1 66 67and copy the actual command line which executes the unit test, then run 68it from the command line. 69 70QTest 71~~~~~ 72 73QTest is a device emulation testing framework. It can be very useful to test 74device models; it could also control certain aspects of QEMU (such as virtual 75clock stepping), with a special purpose "qtest" protocol. Refer to 76:doc:`qtest` for more details. 77 78QTest cases can be executed with 79 80.. code:: 81 82 make check-qtest 83 84Writing portable test cases 85~~~~~~~~~~~~~~~~~~~~~~~~~~~ 86Both unit tests and qtests can run on POSIX hosts as well as Windows hosts. 87Care must be taken when writing portable test cases that can be built and run 88successfully on various hosts. The following list shows some best practices: 89 90* Use portable APIs from glib whenever necessary, e.g.: g_setenv(), 91 g_mkdtemp(), g_mkdir(). 92* Avoid using hardcoded /tmp for temporary file directory. 93 Use g_get_tmp_dir() instead. 94* Bear in mind that Windows has different special string representation for 95 stdin/stdout/stderr and null devices. For example if your test case uses 96 "/dev/fd/2" and "/dev/null" on Linux, remember to use "2" and "nul" on 97 Windows instead. Also IO redirection does not work on Windows, so avoid 98 using "2>nul" whenever necessary. 99* If your test cases uses the blkdebug feature, use relative path to pass 100 the config and image file paths in the command line as Windows absolute 101 path contains the delimiter ":" which will confuse the blkdebug parser. 102* Use double quotes in your extra QEMU command line in your test cases 103 instead of single quotes, as Windows does not drop single quotes when 104 passing the command line to QEMU. 105* Windows opens a file in text mode by default, while a POSIX compliant 106 implementation treats text files and binary files the same. So if your 107 test cases opens a file to write some data and later wants to compare the 108 written data with the original one, be sure to pass the letter 'b' as 109 part of the mode string to fopen(), or O_BINARY flag for the open() call. 110* If a certain test case can only run on POSIX or Linux hosts, use a proper 111 #ifdef in the codes. If the whole test suite cannot run on Windows, disable 112 the build in the meson.build file. 113 114QAPI schema tests 115~~~~~~~~~~~~~~~~~ 116 117The QAPI schema tests validate the QAPI parser used by QMP, by feeding 118predefined input to the parser and comparing the result with the reference 119output. 120 121The input/output data is managed under the ``tests/qapi-schema`` directory. 122Each test case includes four files that have a common base name: 123 124 * ``${casename}.json`` - the file contains the JSON input for feeding the 125 parser 126 * ``${casename}.out`` - the file contains the expected stdout from the parser 127 * ``${casename}.err`` - the file contains the expected stderr from the parser 128 * ``${casename}.exit`` - the expected error code 129 130Consider adding a new QAPI schema test when you are making a change on the QAPI 131parser (either fixing a bug or extending/modifying the syntax). To do this: 132 1331. Add four files for the new case as explained above. For example: 134 135 ``$EDITOR tests/qapi-schema/foo.{json,out,err,exit}``. 136 1372. Add the new test in ``tests/Makefile.include``. For example: 138 139 ``qapi-schema += foo.json`` 140 141check-block 142~~~~~~~~~~~ 143 144``make check-block`` runs a subset of the block layer iotests (the tests that 145are in the "auto" group). 146See the "QEMU iotests" section below for more information. 147 148QEMU iotests 149------------ 150 151QEMU iotests, under the directory ``tests/qemu-iotests``, is the testing 152framework widely used to test block layer related features. It is higher level 153than "make check" tests and 99% of the code is written in bash or Python 154scripts. The testing success criteria is golden output comparison, and the 155test files are named with numbers. 156 157To run iotests, make sure QEMU is built successfully, then switch to the 158``tests/qemu-iotests`` directory under the build directory, and run ``./check`` 159with desired arguments from there. 160 161By default, "raw" format and "file" protocol is used; all tests will be 162executed, except the unsupported ones. You can override the format and protocol 163with arguments: 164 165.. code:: 166 167 # test with qcow2 format 168 ./check -qcow2 169 # or test a different protocol 170 ./check -nbd 171 172It's also possible to list test numbers explicitly: 173 174.. code:: 175 176 # run selected cases with qcow2 format 177 ./check -qcow2 001 030 153 178 179Cache mode can be selected with the "-c" option, which may help reveal bugs 180that are specific to certain cache mode. 181 182More options are supported by the ``./check`` script, run ``./check -h`` for 183help. 184 185Writing a new test case 186~~~~~~~~~~~~~~~~~~~~~~~ 187 188Consider writing a tests case when you are making any changes to the block 189layer. An iotest case is usually the choice for that. There are already many 190test cases, so it is possible that extending one of them may achieve the goal 191and save the boilerplate to create one. (Unfortunately, there isn't a 100% 192reliable way to find a related one out of hundreds of tests. One approach is 193using ``git grep``.) 194 195Usually an iotest case consists of two files. One is an executable that 196produces output to stdout and stderr, the other is the expected reference 197output. They are given the same number in file names. E.g. Test script ``055`` 198and reference output ``055.out``. 199 200In rare cases, when outputs differ between cache mode ``none`` and others, a 201``.out.nocache`` file is added. In other cases, when outputs differ between 202image formats, more than one ``.out`` files are created ending with the 203respective format names, e.g. ``178.out.qcow2`` and ``178.out.raw``. 204 205There isn't a hard rule about how to write a test script, but a new test is 206usually a (copy and) modification of an existing case. There are a few 207commonly used ways to create a test: 208 209* A Bash script. It will make use of several environmental variables related 210 to the testing procedure, and could source a group of ``common.*`` libraries 211 for some common helper routines. 212 213* A Python unittest script. Import ``iotests`` and create a subclass of 214 ``iotests.QMPTestCase``, then call ``iotests.main`` method. The downside of 215 this approach is that the output is too scarce, and the script is considered 216 harder to debug. 217 218* A simple Python script without using unittest module. This could also import 219 ``iotests`` for launching QEMU and utilities etc, but it doesn't inherit 220 from ``iotests.QMPTestCase`` therefore doesn't use the Python unittest 221 execution. This is a combination of 1 and 2. 222 223Pick the language per your preference since both Bash and Python have 224comparable library support for invoking and interacting with QEMU programs. If 225you opt for Python, it is strongly recommended to write Python 3 compatible 226code. 227 228Both Python and Bash frameworks in iotests provide helpers to manage test 229images. They can be used to create and clean up images under the test 230directory. If no I/O or any protocol specific feature is needed, it is often 231more convenient to use the pseudo block driver, ``null-co://``, as the test 232image, which doesn't require image creation or cleaning up. Avoid system-wide 233devices or files whenever possible, such as ``/dev/null`` or ``/dev/zero``. 234Otherwise, image locking implications have to be considered. For example, 235another application on the host may have locked the file, possibly leading to a 236test failure. If using such devices are explicitly desired, consider adding 237``locking=off`` option to disable image locking. 238 239Debugging a test case 240~~~~~~~~~~~~~~~~~~~~~ 241 242The following options to the ``check`` script can be useful when debugging 243a failing test: 244 245* ``-gdb`` wraps every QEMU invocation in a ``gdbserver``, which waits for a 246 connection from a gdb client. The options given to ``gdbserver`` (e.g. the 247 address on which to listen for connections) are taken from the ``$GDB_OPTIONS`` 248 environment variable. By default (if ``$GDB_OPTIONS`` is empty), it listens on 249 ``localhost:12345``. 250 It is possible to connect to it for example with 251 ``gdb -iex "target remote $addr"``, where ``$addr`` is the address 252 ``gdbserver`` listens on. 253 If the ``-gdb`` option is not used, ``$GDB_OPTIONS`` is ignored, 254 regardless of whether it is set or not. 255 256* ``-valgrind`` attaches a valgrind instance to QEMU. If it detects 257 warnings, it will print and save the log in 258 ``$TEST_DIR/<valgrind_pid>.valgrind``. 259 The final command line will be ``valgrind --log-file=$TEST_DIR/ 260 <valgrind_pid>.valgrind --error-exitcode=99 $QEMU ...`` 261 262* ``-d`` (debug) just increases the logging verbosity, showing 263 for example the QMP commands and answers. 264 265* ``-p`` (print) redirects QEMU’s stdout and stderr to the test output, 266 instead of saving it into a log file in 267 ``$TEST_DIR/qemu-machine-<random_string>``. 268 269Test case groups 270~~~~~~~~~~~~~~~~ 271 272"Tests may belong to one or more test groups, which are defined in the form 273of a comment in the test source file. By convention, test groups are listed 274in the second line of the test file, after the "#!/..." line, like this: 275 276.. code:: 277 278 #!/usr/bin/env python3 279 # group: auto quick 280 # 281 ... 282 283Another way of defining groups is creating the tests/qemu-iotests/group.local 284file. This should be used only for downstream (this file should never appear 285in upstream). This file may be used for defining some downstream test groups 286or for temporarily disabling tests, like this: 287 288.. code:: 289 290 # groups for some company downstream process 291 # 292 # ci - tests to run on build 293 # down - our downstream tests, not for upstream 294 # 295 # Format of each line is: 296 # TEST_NAME TEST_GROUP [TEST_GROUP ]... 297 298 013 ci 299 210 disabled 300 215 disabled 301 our-ugly-workaround-test down ci 302 303Note that the following group names have a special meaning: 304 305- quick: Tests in this group should finish within a few seconds. 306 307- auto: Tests in this group are used during "make check" and should be 308 runnable in any case. That means they should run with every QEMU binary 309 (also non-x86), with every QEMU configuration (i.e. must not fail if 310 an optional feature is not compiled in - but reporting a "skip" is ok), 311 work at least with the qcow2 file format, work with all kind of host 312 filesystems and users (e.g. "nobody" or "root") and must not take too 313 much memory and disk space (since CI pipelines tend to fail otherwise). 314 315- disabled: Tests in this group are disabled and ignored by check. 316 317.. _container-ref: 318 319Container based tests 320--------------------- 321 322Introduction 323~~~~~~~~~~~~ 324 325The container testing framework in QEMU utilizes public images to 326build and test QEMU in predefined and widely accessible Linux 327environments. This makes it possible to expand the test coverage 328across distros, toolchain flavors and library versions. The support 329was originally written for Docker although we also support Podman as 330an alternative container runtime. Although many of the target 331names and scripts are prefixed with "docker" the system will 332automatically run on whichever is configured. 333 334The container images are also used to augment the generation of tests 335for testing TCG. See :ref:`checktcg-ref` for more details. 336 337Docker Prerequisites 338~~~~~~~~~~~~~~~~~~~~ 339 340Install "docker" with the system package manager and start the Docker service 341on your development machine, then make sure you have the privilege to run 342Docker commands. Typically it means setting up passwordless ``sudo docker`` 343command or login as root. For example: 344 345.. code:: 346 347 $ sudo yum install docker 348 $ # or `apt-get install docker` for Ubuntu, etc. 349 $ sudo systemctl start docker 350 $ sudo docker ps 351 352The last command should print an empty table, to verify the system is ready. 353 354An alternative method to set up permissions is by adding the current user to 355"docker" group and making the docker daemon socket file (by default 356``/var/run/docker.sock``) accessible to the group: 357 358.. code:: 359 360 $ sudo groupadd docker 361 $ sudo usermod $USER -a -G docker 362 $ sudo chown :docker /var/run/docker.sock 363 364Note that any one of above configurations makes it possible for the user to 365exploit the whole host with Docker bind mounting or other privileged 366operations. So only do it on development machines. 367 368Podman Prerequisites 369~~~~~~~~~~~~~~~~~~~~ 370 371Install "podman" with the system package manager. 372 373.. code:: 374 375 $ sudo dnf install podman 376 $ podman ps 377 378The last command should print an empty table, to verify the system is ready. 379 380Quickstart 381~~~~~~~~~~ 382 383From source tree, type ``make docker-help`` to see the help. Testing 384can be started without configuring or building QEMU (``configure`` and 385``make`` are done in the container, with parameters defined by the 386make target): 387 388.. code:: 389 390 make docker-test-build@centos8 391 392This will create a container instance using the ``centos8`` image (the image 393is downloaded and initialized automatically), in which the ``test-build`` job 394is executed. 395 396Registry 397~~~~~~~~ 398 399The QEMU project has a container registry hosted by GitLab at 400``registry.gitlab.com/qemu-project/qemu`` which will automatically be 401used to pull in pre-built layers. This avoids unnecessary strain on 402the distro archives created by multiple developers running the same 403container build steps over and over again. This can be overridden 404locally by using the ``NOCACHE`` build option: 405 406.. code:: 407 408 make docker-image-debian-arm64-cross NOCACHE=1 409 410Images 411~~~~~~ 412 413Along with many other images, the ``centos8`` image is defined in a Dockerfile 414in ``tests/docker/dockerfiles/``, called ``centos8.docker``. ``make docker-help`` 415command will list all the available images. 416 417A ``.pre`` script can be added beside the ``.docker`` file, which will be 418executed before building the image under the build context directory. This is 419mainly used to do necessary host side setup. One such setup is ``binfmt_misc``, 420for example, to make qemu-user powered cross build containers work. 421 422Most of the existing Dockerfiles were written by hand, simply by creating a 423a new ``.docker`` file under the ``tests/docker/dockerfiles/`` directory. 424This has led to an inconsistent set of packages being present across the 425different containers. 426 427Thus going forward, QEMU is aiming to automatically generate the Dockerfiles 428using the ``lcitool`` program provided by the ``libvirt-ci`` project: 429 430 https://gitlab.com/libvirt/libvirt-ci 431 432``libvirt-ci`` contains an ``lcitool`` program as well as a list of 433mappings to distribution package names for a wide variety of third 434party projects. ``lcitool`` applies the mappings to a list of build 435pre-requisites in ``tests/lcitool/projects/qemu.yml``, determines the 436list of native packages to install on each distribution, and uses them 437to generate build environments (dockerfiles and Cirrus CI variable files) 438that are consistent across OS distribution. 439 440 441Adding new build pre-requisites 442^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 443 444When preparing a patch series that adds a new build 445pre-requisite to QEMU, the prerequisites should to be added to 446``tests/lcitool/projects/qemu.yml`` in order to make the dependency 447available in the CI build environments. 448 449In the simple case where the pre-requisite is already known to ``libvirt-ci`` 450the following steps are needed: 451 452 * Edit ``tests/lcitool/projects/qemu.yml`` and add the pre-requisite 453 454 * Run ``make lcitool-refresh`` to re-generate all relevant build environment 455 manifests 456 457It may be that ``libvirt-ci`` does not know about the new pre-requisite. 458If that is the case, some extra preparation steps will be required 459first to contribute the mapping to the ``libvirt-ci`` project: 460 461 * Fork the ``libvirt-ci`` project on gitlab 462 463 * Add an entry for the new build prerequisite to 464 ``lcitool/facts/mappings.yml``, listing its native package name on as 465 many OS distros as practical. Run ``python -m pytest --regenerate-output`` 466 and check that the changes are correct. 467 468 * Commit the ``mappings.yml`` change together with the regenerated test 469 files, and submit a merge request to the ``libvirt-ci`` project. 470 Please note in the description that this is a new build pre-requisite 471 desired for use with QEMU. 472 473 * CI pipeline will run to validate that the changes to ``mappings.yml`` 474 are correct, by attempting to install the newly listed package on 475 all OS distributions supported by ``libvirt-ci``. 476 477 * Once the merge request is accepted, go back to QEMU and update 478 the ``tests/lcitool/libvirt-ci`` submodule to point to a commit that 479 contains the ``mappings.yml`` update. Then add the prerequisite and 480 run ``make lcitool-refresh``. 481 482 * Please also trigger gitlab container generation pipelines on your change 483 for as many OS distros as practical to make sure that there are no 484 obvious breakages when adding the new pre-requisite. Please see 485 `CI <https://www.qemu.org/docs/master/devel/ci.html>`__ documentation 486 page on how to trigger gitlab CI pipelines on your change. 487 488 * Please also trigger gitlab container generation pipelines on your change 489 for as many OS distros as practical to make sure that there are no 490 obvious breakages when adding the new pre-requisite. Please see 491 `CI <https://www.qemu.org/docs/master/devel/ci.html>`__ documentation 492 page on how to trigger gitlab CI pipelines on your change. 493 494For enterprise distros that default to old, end-of-life versions of the 495Python runtime, QEMU uses a separate set of mappings that work with more 496recent versions. These can be found in ``tests/lcitool/mappings.yml``. 497Modifying this file should not be necessary unless the new pre-requisite 498is a Python library or tool. 499 500 501Adding new OS distros 502^^^^^^^^^^^^^^^^^^^^^ 503 504In some cases ``libvirt-ci`` will not know about the OS distro that is 505desired to be tested. Before adding a new OS distro, discuss the proposed 506addition: 507 508 * Send a mail to qemu-devel, copying people listed in the 509 MAINTAINERS file for ``Build and test automation``. 510 511 There are limited CI compute resources available to QEMU, so the 512 cost/benefit tradeoff of adding new OS distros needs to be considered. 513 514 * File an issue at https://gitlab.com/libvirt/libvirt-ci/-/issues 515 pointing to the qemu-devel mail thread in the archives. 516 517 This alerts other people who might be interested in the work 518 to avoid duplication, as well as to get feedback from libvirt-ci 519 maintainers on any tips to ease the addition 520 521Assuming there is agreement to add a new OS distro then 522 523 * Fork the ``libvirt-ci`` project on gitlab 524 525 * Add metadata under ``lcitool/facts/targets/`` for the new OS 526 distro. There might be code changes required if the OS distro 527 uses a package format not currently known. The ``libvirt-ci`` 528 maintainers can advise on this when the issue is filed. 529 530 * Edit the ``lcitool/facts/mappings.yml`` change to add entries for 531 the new OS, listing the native package names for as many packages 532 as practical. Run ``python -m pytest --regenerate-output`` and 533 check that the changes are correct. 534 535 * Commit the changes to ``lcitool/facts`` and the regenerated test 536 files, and submit a merge request to the ``libvirt-ci`` project. 537 Please note in the description that this is a new build pre-requisite 538 desired for use with QEMU 539 540 * CI pipeline will run to validate that the changes to ``mappings.yml`` 541 are correct, by attempting to install the newly listed package on 542 all OS distributions supported by ``libvirt-ci``. 543 544 * Once the merge request is accepted, go back to QEMU and update 545 the ``libvirt-ci`` submodule to point to a commit that contains 546 the ``mappings.yml`` update. 547 548 549Tests 550~~~~~ 551 552Different tests are added to cover various configurations to build and test 553QEMU. Docker tests are the executables under ``tests/docker`` named 554``test-*``. They are typically shell scripts and are built on top of a shell 555library, ``tests/docker/common.rc``, which provides helpers to find the QEMU 556source and build it. 557 558The full list of tests is printed in the ``make docker-help`` help. 559 560Debugging a Docker test failure 561~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 562 563When CI tasks, maintainers or yourself report a Docker test failure, follow the 564below steps to debug it: 565 5661. Locally reproduce the failure with the reported command line. E.g. run 567 ``make docker-test-mingw@fedora-win64-cross J=8``. 5682. Add "V=1" to the command line, try again, to see the verbose output. 5693. Further add "DEBUG=1" to the command line. This will pause in a shell prompt 570 in the container right before testing starts. You could either manually 571 build QEMU and run tests from there, or press Ctrl-D to let the Docker 572 testing continue. 5734. If you press Ctrl-D, the same building and testing procedure will begin, and 574 will hopefully run into the error again. After that, you will be dropped to 575 the prompt for debug. 576 577Options 578~~~~~~~ 579 580Various options can be used to affect how Docker tests are done. The full 581list is in the ``make docker`` help text. The frequently used ones are: 582 583* ``V=1``: the same as in top level ``make``. It will be propagated to the 584 container and enable verbose output. 585* ``J=$N``: the number of parallel tasks in make commands in the container, 586 similar to the ``-j $N`` option in top level ``make``. (The ``-j`` option in 587 top level ``make`` will not be propagated into the container.) 588* ``DEBUG=1``: enables debug. See the previous "Debugging a Docker test 589 failure" section. 590 591Thread Sanitizer 592---------------- 593 594Thread Sanitizer (TSan) is a tool which can detect data races. QEMU supports 595building and testing with this tool. 596 597For more information on TSan: 598 599https://github.com/google/sanitizers/wiki/ThreadSanitizerCppManual 600 601Thread Sanitizer in Docker 602~~~~~~~~~~~~~~~~~~~~~~~~~~ 603TSan is currently supported in the ubuntu2204 docker. 604 605The test-tsan test will build using TSan and then run make check. 606 607.. code:: 608 609 make docker-test-tsan@ubuntu2204 610 611TSan warnings under docker are placed in files located at build/tsan/. 612 613We recommend using DEBUG=1 to allow launching the test from inside the docker, 614and to allow review of the warnings generated by TSan. 615 616Building and Testing with TSan 617~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 618 619It is possible to build and test with TSan, with a few additional steps. 620These steps are normally done automatically in the docker. 621 622There is a one time patch needed in clang-9 or clang-10 at this time: 623 624.. code:: 625 626 sed -i 's/^const/static const/g' \ 627 /usr/lib/llvm-10/lib/clang/10.0.0/include/sanitizer/tsan_interface.h 628 629To configure the build for TSan: 630 631.. code:: 632 633 ../configure --enable-tsan --cc=clang-10 --cxx=clang++-10 \ 634 --disable-werror --extra-cflags="-O0" 635 636The runtime behavior of TSAN is controlled by the TSAN_OPTIONS environment 637variable. 638 639More information on the TSAN_OPTIONS can be found here: 640 641https://github.com/google/sanitizers/wiki/ThreadSanitizerFlags 642 643For example: 644 645.. code:: 646 647 export TSAN_OPTIONS=suppressions=<path to qemu>/tests/tsan/suppressions.tsan \ 648 detect_deadlocks=false history_size=7 exitcode=0 \ 649 log_path=<build path>/tsan/tsan_warning 650 651The above exitcode=0 has TSan continue without error if any warnings are found. 652This allows for running the test and then checking the warnings afterwards. 653If you want TSan to stop and exit with error on warnings, use exitcode=66. 654 655TSan Suppressions 656~~~~~~~~~~~~~~~~~ 657Keep in mind that for any data race warning, although there might be a data race 658detected by TSan, there might be no actual bug here. TSan provides several 659different mechanisms for suppressing warnings. In general it is recommended 660to fix the code if possible to eliminate the data race rather than suppress 661the warning. 662 663A few important files for suppressing warnings are: 664 665tests/tsan/suppressions.tsan - Has TSan warnings we wish to suppress at runtime. 666The comment on each suppression will typically indicate why we are 667suppressing it. More information on the file format can be found here: 668 669https://github.com/google/sanitizers/wiki/ThreadSanitizerSuppressions 670 671tests/tsan/blacklist.tsan - Has TSan warnings we wish to disable 672at compile time for test or debug. 673Add flags to configure to enable: 674 675"--extra-cflags=-fsanitize-blacklist=<src path>/tests/tsan/blacklist.tsan" 676 677More information on the file format can be found here under "Blacklist Format": 678 679https://github.com/google/sanitizers/wiki/ThreadSanitizerFlags 680 681TSan Annotations 682~~~~~~~~~~~~~~~~ 683include/qemu/tsan.h defines annotations. See this file for more descriptions 684of the annotations themselves. Annotations can be used to suppress 685TSan warnings or give TSan more information so that it can detect proper 686relationships between accesses of data. 687 688Annotation examples can be found here: 689 690https://github.com/llvm/llvm-project/tree/master/compiler-rt/test/tsan/ 691 692Good files to start with are: annotate_happens_before.cpp and ignore_race.cpp 693 694The full set of annotations can be found here: 695 696https://github.com/llvm/llvm-project/blob/master/compiler-rt/lib/tsan/rtl/tsan_interface_ann.cpp 697 698docker-binfmt-image-debian-% targets 699------------------------------------ 700 701It is possible to combine Debian's bootstrap scripts with a configured 702``binfmt_misc`` to bootstrap a number of Debian's distros including 703experimental ports not yet supported by a released OS. This can 704simplify setting up a rootfs by using docker to contain the foreign 705rootfs rather than manually invoking chroot. 706 707Setting up ``binfmt_misc`` 708~~~~~~~~~~~~~~~~~~~~~~~~~~ 709 710You can use the script ``qemu-binfmt-conf.sh`` to configure a QEMU 711user binary to automatically run binaries for the foreign 712architecture. While the scripts will try their best to work with 713dynamically linked QEMU's a statically linked one will present less 714potential complications when copying into the docker image. Modern 715kernels support the ``F`` (fix binary) flag which will open the QEMU 716executable on setup and avoids the need to find and re-open in the 717chroot environment. This is triggered with the ``--persistent`` flag. 718 719Example invocation 720~~~~~~~~~~~~~~~~~~ 721 722For example to setup the HPPA ports builds of Debian:: 723 724 make docker-binfmt-image-debian-sid-hppa \ 725 DEB_TYPE=sid DEB_ARCH=hppa \ 726 DEB_URL=http://ftp.ports.debian.org/debian-ports/ \ 727 DEB_KEYRING=/usr/share/keyrings/debian-ports-archive-keyring.gpg \ 728 EXECUTABLE=(pwd)/qemu-hppa V=1 729 730The ``DEB_`` variables are substitutions used by 731``debian-boostrap.pre`` which is called to do the initial debootstrap 732of the rootfs before it is copied into the container. The second stage 733is run as part of the build. The final image will be tagged as 734``qemu/debian-sid-hppa``. 735 736VM testing 737---------- 738 739This test suite contains scripts that bootstrap various guest images that have 740necessary packages to build QEMU. The basic usage is documented in ``Makefile`` 741help which is displayed with ``make vm-help``. 742 743Quickstart 744~~~~~~~~~~ 745 746Run ``make vm-help`` to list available make targets. Invoke a specific make 747command to run build test in an image. For example, ``make vm-build-freebsd`` 748will build the source tree in the FreeBSD image. The command can be executed 749from either the source tree or the build dir; if the former, ``./configure`` is 750not needed. The command will then generate the test image in ``./tests/vm/`` 751under the working directory. 752 753Note: images created by the scripts accept a well-known RSA key pair for SSH 754access, so they SHOULD NOT be exposed to external interfaces if you are 755concerned about attackers taking control of the guest and potentially 756exploiting a QEMU security bug to compromise the host. 757 758QEMU binaries 759~~~~~~~~~~~~~ 760 761By default, ``qemu-system-x86_64`` is searched in $PATH to run the guest. If 762there isn't one, or if it is older than 2.10, the test won't work. In this case, 763provide the QEMU binary in env var: ``QEMU=/path/to/qemu-2.10+``. 764 765Likewise the path to ``qemu-img`` can be set in QEMU_IMG environment variable. 766 767Make jobs 768~~~~~~~~~ 769 770The ``-j$X`` option in the make command line is not propagated into the VM, 771specify ``J=$X`` to control the make jobs in the guest. 772 773Debugging 774~~~~~~~~~ 775 776Add ``DEBUG=1`` and/or ``V=1`` to the make command to allow interactive 777debugging and verbose output. If this is not enough, see the next section. 778``V=1`` will be propagated down into the make jobs in the guest. 779 780Manual invocation 781~~~~~~~~~~~~~~~~~ 782 783Each guest script is an executable script with the same command line options. 784For example to work with the netbsd guest, use ``$QEMU_SRC/tests/vm/netbsd``: 785 786.. code:: 787 788 $ cd $QEMU_SRC/tests/vm 789 790 # To bootstrap the image 791 $ ./netbsd --build-image --image /var/tmp/netbsd.img 792 <...> 793 794 # To run an arbitrary command in guest (the output will not be echoed unless 795 # --debug is added) 796 $ ./netbsd --debug --image /var/tmp/netbsd.img uname -a 797 798 # To build QEMU in guest 799 $ ./netbsd --debug --image /var/tmp/netbsd.img --build-qemu $QEMU_SRC 800 801 # To get to an interactive shell 802 $ ./netbsd --interactive --image /var/tmp/netbsd.img sh 803 804Adding new guests 805~~~~~~~~~~~~~~~~~ 806 807Please look at existing guest scripts for how to add new guests. 808 809Most importantly, create a subclass of BaseVM and implement ``build_image()`` 810method and define ``BUILD_SCRIPT``, then finally call ``basevm.main()`` from 811the script's ``main()``. 812 813* Usually in ``build_image()``, a template image is downloaded from a 814 predefined URL. ``BaseVM._download_with_cache()`` takes care of the cache and 815 the checksum, so consider using it. 816 817* Once the image is downloaded, users, SSH server and QEMU build deps should 818 be set up: 819 820 - Root password set to ``BaseVM.ROOT_PASS`` 821 - User ``BaseVM.GUEST_USER`` is created, and password set to 822 ``BaseVM.GUEST_PASS`` 823 - SSH service is enabled and started on boot, 824 ``$QEMU_SRC/tests/keys/id_rsa.pub`` is added to ssh's ``authorized_keys`` 825 file of both root and the normal user 826 - DHCP client service is enabled and started on boot, so that it can 827 automatically configure the virtio-net-pci NIC and communicate with QEMU 828 user net (10.0.2.2) 829 - Necessary packages are installed to untar the source tarball and build 830 QEMU 831 832* Write a proper ``BUILD_SCRIPT`` template, which should be a shell script that 833 untars a raw virtio-blk block device, which is the tarball data blob of the 834 QEMU source tree, then configure/build it. Running "make check" is also 835 recommended. 836 837Image fuzzer testing 838-------------------- 839 840An image fuzzer was added to exercise format drivers. Currently only qcow2 is 841supported. To start the fuzzer, run 842 843.. code:: 844 845 tests/image-fuzzer/runner.py -c '[["qemu-img", "info", "$test_img"]]' /tmp/test qcow2 846 847Alternatively, some command different from ``qemu-img info`` can be tested, by 848changing the ``-c`` option. 849 850Integration tests using the Avocado Framework 851--------------------------------------------- 852 853The ``tests/avocado`` directory hosts integration tests. They're usually 854higher level tests, and may interact with external resources and with 855various guest operating systems. 856 857These tests are written using the Avocado Testing Framework (which must 858be installed separately) in conjunction with a the ``avocado_qemu.Test`` 859class, implemented at ``tests/avocado/avocado_qemu``. 860 861Tests based on ``avocado_qemu.Test`` can easily: 862 863 * Customize the command line arguments given to the convenience 864 ``self.vm`` attribute (a QEMUMachine instance) 865 866 * Interact with the QEMU monitor, send QMP commands and check 867 their results 868 869 * Interact with the guest OS, using the convenience console device 870 (which may be useful to assert the effectiveness and correctness of 871 command line arguments or QMP commands) 872 873 * Interact with external data files that accompany the test itself 874 (see ``self.get_data()``) 875 876 * Download (and cache) remote data files, such as firmware and kernel 877 images 878 879 * Have access to a library of guest OS images (by means of the 880 ``avocado.utils.vmimage`` library) 881 882 * Make use of various other test related utilities available at the 883 test class itself and at the utility library: 884 885 - http://avocado-framework.readthedocs.io/en/latest/api/test/avocado.html#avocado.Test 886 - http://avocado-framework.readthedocs.io/en/latest/api/utils/avocado.utils.html 887 888Running tests 889~~~~~~~~~~~~~ 890 891You can run the avocado tests simply by executing: 892 893.. code:: 894 895 make check-avocado 896 897This involves the automatic creation of Python virtual environment 898within the build tree (at ``tests/venv``) which will have all the 899right dependencies, and will save tests results also within the 900build tree (at ``tests/results``). 901 902Note: the build environment must be using a Python 3 stack, and have 903the ``venv`` and ``pip`` packages installed. If necessary, make sure 904``configure`` is called with ``--python=`` and that those modules are 905available. On Debian and Ubuntu based systems, depending on the 906specific version, they may be on packages named ``python3-venv`` and 907``python3-pip``. 908 909It is also possible to run tests based on tags using the 910``make check-avocado`` command and the ``AVOCADO_TAGS`` environment 911variable: 912 913.. code:: 914 915 make check-avocado AVOCADO_TAGS=quick 916 917Note that tags separated with commas have an AND behavior, while tags 918separated by spaces have an OR behavior. For more information on Avocado 919tags, see: 920 921 https://avocado-framework.readthedocs.io/en/latest/guides/user/chapters/tags.html 922 923To run a single test file, a couple of them, or a test within a file 924using the ``make check-avocado`` command, set the ``AVOCADO_TESTS`` 925environment variable with the test files or test names. To run all 926tests from a single file, use: 927 928 .. code:: 929 930 make check-avocado AVOCADO_TESTS=$FILEPATH 931 932The same is valid to run tests from multiple test files: 933 934 .. code:: 935 936 make check-avocado AVOCADO_TESTS='$FILEPATH1 $FILEPATH2' 937 938To run a single test within a file, use: 939 940 .. code:: 941 942 make check-avocado AVOCADO_TESTS=$FILEPATH:$TESTCLASS.$TESTNAME 943 944The same is valid to run single tests from multiple test files: 945 946 .. code:: 947 948 make check-avocado AVOCADO_TESTS='$FILEPATH1:$TESTCLASS1.$TESTNAME1 $FILEPATH2:$TESTCLASS2.$TESTNAME2' 949 950The scripts installed inside the virtual environment may be used 951without an "activation". For instance, the Avocado test runner 952may be invoked by running: 953 954 .. code:: 955 956 tests/venv/bin/avocado run $OPTION1 $OPTION2 tests/avocado/ 957 958Note that if ``make check-avocado`` was not executed before, it is 959possible to create the Python virtual environment with the dependencies 960needed running: 961 962 .. code:: 963 964 make check-venv 965 966It is also possible to run tests from a single file or a single test within 967a test file. To run tests from a single file within the build tree, use: 968 969 .. code:: 970 971 tests/venv/bin/avocado run tests/avocado/$TESTFILE 972 973To run a single test within a test file, use: 974 975 .. code:: 976 977 tests/venv/bin/avocado run tests/avocado/$TESTFILE:$TESTCLASS.$TESTNAME 978 979Valid test names are visible in the output from any previous execution 980of Avocado or ``make check-avocado``, and can also be queried using: 981 982 .. code:: 983 984 tests/venv/bin/avocado list tests/avocado 985 986Manual Installation 987~~~~~~~~~~~~~~~~~~~ 988 989To manually install Avocado and its dependencies, run: 990 991.. code:: 992 993 pip install --user avocado-framework 994 995Alternatively, follow the instructions on this link: 996 997 https://avocado-framework.readthedocs.io/en/latest/guides/user/chapters/installing.html 998 999Overview 1000~~~~~~~~ 1001 1002The ``tests/avocado/avocado_qemu`` directory provides the 1003``avocado_qemu`` Python module, containing the ``avocado_qemu.Test`` 1004class. Here's a simple usage example: 1005 1006.. code:: 1007 1008 from avocado_qemu import QemuSystemTest 1009 1010 1011 class Version(QemuSystemTest): 1012 """ 1013 :avocado: tags=quick 1014 """ 1015 def test_qmp_human_info_version(self): 1016 self.vm.launch() 1017 res = self.vm.command('human-monitor-command', 1018 command_line='info version') 1019 self.assertRegexpMatches(res, r'^(\d+\.\d+\.\d)') 1020 1021To execute your test, run: 1022 1023.. code:: 1024 1025 avocado run version.py 1026 1027Tests may be classified according to a convention by using docstring 1028directives such as ``:avocado: tags=TAG1,TAG2``. To run all tests 1029in the current directory, tagged as "quick", run: 1030 1031.. code:: 1032 1033 avocado run -t quick . 1034 1035The ``avocado_qemu.Test`` base test class 1036^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 1037 1038The ``avocado_qemu.Test`` class has a number of characteristics that 1039are worth being mentioned right away. 1040 1041First of all, it attempts to give each test a ready to use QEMUMachine 1042instance, available at ``self.vm``. Because many tests will tweak the 1043QEMU command line, launching the QEMUMachine (by using ``self.vm.launch()``) 1044is left to the test writer. 1045 1046The base test class has also support for tests with more than one 1047QEMUMachine. The way to get machines is through the ``self.get_vm()`` 1048method which will return a QEMUMachine instance. The ``self.get_vm()`` 1049method accepts arguments that will be passed to the QEMUMachine creation 1050and also an optional ``name`` attribute so you can identify a specific 1051machine and get it more than once through the tests methods. A simple 1052and hypothetical example follows: 1053 1054.. code:: 1055 1056 from avocado_qemu import QemuSystemTest 1057 1058 1059 class MultipleMachines(QemuSystemTest): 1060 def test_multiple_machines(self): 1061 first_machine = self.get_vm() 1062 second_machine = self.get_vm() 1063 self.get_vm(name='third_machine').launch() 1064 1065 first_machine.launch() 1066 second_machine.launch() 1067 1068 first_res = first_machine.command( 1069 'human-monitor-command', 1070 command_line='info version') 1071 1072 second_res = second_machine.command( 1073 'human-monitor-command', 1074 command_line='info version') 1075 1076 third_res = self.get_vm(name='third_machine').command( 1077 'human-monitor-command', 1078 command_line='info version') 1079 1080 self.assertEquals(first_res, second_res, third_res) 1081 1082At test "tear down", ``avocado_qemu.Test`` handles all the QEMUMachines 1083shutdown. 1084 1085The ``avocado_qemu.LinuxTest`` base test class 1086^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 1087 1088The ``avocado_qemu.LinuxTest`` is further specialization of the 1089``avocado_qemu.Test`` class, so it contains all the characteristics of 1090the later plus some extra features. 1091 1092First of all, this base class is intended for tests that need to 1093interact with a fully booted and operational Linux guest. At this 1094time, it uses a Fedora 31 guest image. The most basic example looks 1095like this: 1096 1097.. code:: 1098 1099 from avocado_qemu import LinuxTest 1100 1101 1102 class SomeTest(LinuxTest): 1103 1104 def test(self): 1105 self.launch_and_wait() 1106 self.ssh_command('some_command_to_be_run_in_the_guest') 1107 1108Please refer to tests that use ``avocado_qemu.LinuxTest`` under 1109``tests/avocado`` for more examples. 1110 1111QEMUMachine 1112~~~~~~~~~~~ 1113 1114The QEMUMachine API is already widely used in the Python iotests, 1115device-crash-test and other Python scripts. It's a wrapper around the 1116execution of a QEMU binary, giving its users: 1117 1118 * the ability to set command line arguments to be given to the QEMU 1119 binary 1120 1121 * a ready to use QMP connection and interface, which can be used to 1122 send commands and inspect its results, as well as asynchronous 1123 events 1124 1125 * convenience methods to set commonly used command line arguments in 1126 a more succinct and intuitive way 1127 1128QEMU binary selection 1129^^^^^^^^^^^^^^^^^^^^^ 1130 1131The QEMU binary used for the ``self.vm`` QEMUMachine instance will 1132primarily depend on the value of the ``qemu_bin`` parameter. If it's 1133not explicitly set, its default value will be the result of a dynamic 1134probe in the same source tree. A suitable binary will be one that 1135targets the architecture matching host machine. 1136 1137Based on this description, test writers will usually rely on one of 1138the following approaches: 1139 11401) Set ``qemu_bin``, and use the given binary 1141 11422) Do not set ``qemu_bin``, and use a QEMU binary named like 1143 "qemu-system-${arch}", either in the current 1144 working directory, or in the current source tree. 1145 1146The resulting ``qemu_bin`` value will be preserved in the 1147``avocado_qemu.Test`` as an attribute with the same name. 1148 1149Attribute reference 1150~~~~~~~~~~~~~~~~~~~ 1151 1152Test 1153^^^^ 1154 1155Besides the attributes and methods that are part of the base 1156``avocado.Test`` class, the following attributes are available on any 1157``avocado_qemu.Test`` instance. 1158 1159vm 1160'' 1161 1162A QEMUMachine instance, initially configured according to the given 1163``qemu_bin`` parameter. 1164 1165arch 1166'''' 1167 1168The architecture can be used on different levels of the stack, e.g. by 1169the framework or by the test itself. At the framework level, it will 1170currently influence the selection of a QEMU binary (when one is not 1171explicitly given). 1172 1173Tests are also free to use this attribute value, for their own needs. 1174A test may, for instance, use the same value when selecting the 1175architecture of a kernel or disk image to boot a VM with. 1176 1177The ``arch`` attribute will be set to the test parameter of the same 1178name. If one is not given explicitly, it will either be set to 1179``None``, or, if the test is tagged with one (and only one) 1180``:avocado: tags=arch:VALUE`` tag, it will be set to ``VALUE``. 1181 1182cpu 1183''' 1184 1185The cpu model that will be set to all QEMUMachine instances created 1186by the test. 1187 1188The ``cpu`` attribute will be set to the test parameter of the same 1189name. If one is not given explicitly, it will either be set to 1190``None ``, or, if the test is tagged with one (and only one) 1191``:avocado: tags=cpu:VALUE`` tag, it will be set to ``VALUE``. 1192 1193machine 1194''''''' 1195 1196The machine type that will be set to all QEMUMachine instances created 1197by the test. 1198 1199The ``machine`` attribute will be set to the test parameter of the same 1200name. If one is not given explicitly, it will either be set to 1201``None``, or, if the test is tagged with one (and only one) 1202``:avocado: tags=machine:VALUE`` tag, it will be set to ``VALUE``. 1203 1204qemu_bin 1205'''''''' 1206 1207The preserved value of the ``qemu_bin`` parameter or the result of the 1208dynamic probe for a QEMU binary in the current working directory or 1209source tree. 1210 1211LinuxTest 1212^^^^^^^^^ 1213 1214Besides the attributes present on the ``avocado_qemu.Test`` base 1215class, the ``avocado_qemu.LinuxTest`` adds the following attributes: 1216 1217distro 1218'''''' 1219 1220The name of the Linux distribution used as the guest image for the 1221test. The name should match the **Provider** column on the list 1222of images supported by the avocado.utils.vmimage library: 1223 1224https://avocado-framework.readthedocs.io/en/latest/guides/writer/libs/vmimage.html#supported-images 1225 1226distro_version 1227'''''''''''''' 1228 1229The version of the Linux distribution as the guest image for the 1230test. The name should match the **Version** column on the list 1231of images supported by the avocado.utils.vmimage library: 1232 1233https://avocado-framework.readthedocs.io/en/latest/guides/writer/libs/vmimage.html#supported-images 1234 1235distro_checksum 1236''''''''''''''' 1237 1238The sha256 hash of the guest image file used for the test. 1239 1240If this value is not set in the code or by a test parameter (with the 1241same name), no validation on the integrity of the image will be 1242performed. 1243 1244Parameter reference 1245~~~~~~~~~~~~~~~~~~~ 1246 1247To understand how Avocado parameters are accessed by tests, and how 1248they can be passed to tests, please refer to:: 1249 1250 https://avocado-framework.readthedocs.io/en/latest/guides/writer/chapters/writing.html#accessing-test-parameters 1251 1252Parameter values can be easily seen in the log files, and will look 1253like the following: 1254 1255.. code:: 1256 1257 PARAMS (key=qemu_bin, path=*, default=./qemu-system-x86_64) => './qemu-system-x86_64 1258 1259Test 1260^^^^ 1261 1262arch 1263'''' 1264 1265The architecture that will influence the selection of a QEMU binary 1266(when one is not explicitly given). 1267 1268Tests are also free to use this parameter value, for their own needs. 1269A test may, for instance, use the same value when selecting the 1270architecture of a kernel or disk image to boot a VM with. 1271 1272This parameter has a direct relation with the ``arch`` attribute. If 1273not given, it will default to None. 1274 1275cpu 1276''' 1277 1278The cpu model that will be set to all QEMUMachine instances created 1279by the test. 1280 1281machine 1282''''''' 1283 1284The machine type that will be set to all QEMUMachine instances created 1285by the test. 1286 1287qemu_bin 1288'''''''' 1289 1290The exact QEMU binary to be used on QEMUMachine. 1291 1292LinuxTest 1293^^^^^^^^^ 1294 1295Besides the parameters present on the ``avocado_qemu.Test`` base 1296class, the ``avocado_qemu.LinuxTest`` adds the following parameters: 1297 1298distro 1299'''''' 1300 1301The name of the Linux distribution used as the guest image for the 1302test. The name should match the **Provider** column on the list 1303of images supported by the avocado.utils.vmimage library: 1304 1305https://avocado-framework.readthedocs.io/en/latest/guides/writer/libs/vmimage.html#supported-images 1306 1307distro_version 1308'''''''''''''' 1309 1310The version of the Linux distribution as the guest image for the 1311test. The name should match the **Version** column on the list 1312of images supported by the avocado.utils.vmimage library: 1313 1314https://avocado-framework.readthedocs.io/en/latest/guides/writer/libs/vmimage.html#supported-images 1315 1316distro_checksum 1317''''''''''''''' 1318 1319The sha256 hash of the guest image file used for the test. 1320 1321If this value is not set in the code or by this parameter no 1322validation on the integrity of the image will be performed. 1323 1324Skipping tests 1325~~~~~~~~~~~~~~ 1326 1327The Avocado framework provides Python decorators which allow for easily skip 1328tests running under certain conditions. For example, on the lack of a binary 1329on the test system or when the running environment is a CI system. For further 1330information about those decorators, please refer to:: 1331 1332 https://avocado-framework.readthedocs.io/en/latest/guides/writer/chapters/writing.html#skipping-tests 1333 1334While the conditions for skipping tests are often specifics of each one, there 1335are recurring scenarios identified by the QEMU developers and the use of 1336environment variables became a kind of standard way to enable/disable tests. 1337 1338Here is a list of the most used variables: 1339 1340AVOCADO_ALLOW_LARGE_STORAGE 1341^^^^^^^^^^^^^^^^^^^^^^^^^^^ 1342Tests which are going to fetch or produce assets considered *large* are not 1343going to run unless that ``AVOCADO_ALLOW_LARGE_STORAGE=1`` is exported on 1344the environment. 1345 1346The definition of *large* is a bit arbitrary here, but it usually means an 1347asset which occupies at least 1GB of size on disk when uncompressed. 1348 1349AVOCADO_ALLOW_UNTRUSTED_CODE 1350^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 1351There are tests which will boot a kernel image or firmware that can be 1352considered not safe to run on the developer's workstation, thus they are 1353skipped by default. The definition of *not safe* is also arbitrary but 1354usually it means a blob which either its source or build process aren't 1355public available. 1356 1357You should export ``AVOCADO_ALLOW_UNTRUSTED_CODE=1`` on the environment in 1358order to allow tests which make use of those kind of assets. 1359 1360AVOCADO_TIMEOUT_EXPECTED 1361^^^^^^^^^^^^^^^^^^^^^^^^ 1362The Avocado framework has a timeout mechanism which interrupts tests to avoid the 1363test suite of getting stuck. The timeout value can be set via test parameter or 1364property defined in the test class, for further details:: 1365 1366 https://avocado-framework.readthedocs.io/en/latest/guides/writer/chapters/writing.html#setting-a-test-timeout 1367 1368Even though the timeout can be set by the test developer, there are some tests 1369that may not have a well-defined limit of time to finish under certain 1370conditions. For example, tests that take longer to execute when QEMU is 1371compiled with debug flags. Therefore, the ``AVOCADO_TIMEOUT_EXPECTED`` variable 1372has been used to determine whether those tests should run or not. 1373 1374GITLAB_CI 1375^^^^^^^^^ 1376A number of tests are flagged to not run on the GitLab CI. Usually because 1377they proved to the flaky or there are constraints on the CI environment which 1378would make them fail. If you encounter a similar situation then use that 1379variable as shown on the code snippet below to skip the test: 1380 1381.. code:: 1382 1383 @skipIf(os.getenv('GITLAB_CI'), 'Running on GitLab') 1384 def test(self): 1385 do_something() 1386 1387QEMU_TEST_FLAKY_TESTS 1388^^^^^^^^^^^^^^^^^^^^^ 1389Some tests are not working reliably and thus are disabled by default. 1390Set this environment variable to enable them. 1391 1392Uninstalling Avocado 1393~~~~~~~~~~~~~~~~~~~~ 1394 1395If you've followed the manual installation instructions above, you can 1396easily uninstall Avocado. Start by listing the packages you have 1397installed:: 1398 1399 pip list --user 1400 1401And remove any package you want with:: 1402 1403 pip uninstall <package_name> 1404 1405If you've used ``make check-avocado``, the Python virtual environment where 1406Avocado is installed will be cleaned up as part of ``make check-clean``. 1407 1408.. _checktcg-ref: 1409 1410Testing with "make check-tcg" 1411----------------------------- 1412 1413The check-tcg tests are intended for simple smoke tests of both 1414linux-user and softmmu TCG functionality. However to build test 1415programs for guest targets you need to have cross compilers available. 1416If your distribution supports cross compilers you can do something as 1417simple as:: 1418 1419 apt install gcc-aarch64-linux-gnu 1420 1421The configure script will automatically pick up their presence. 1422Sometimes compilers have slightly odd names so the availability of 1423them can be prompted by passing in the appropriate configure option 1424for the architecture in question, for example:: 1425 1426 $(configure) --cross-cc-aarch64=aarch64-cc 1427 1428There is also a ``--cross-cc-cflags-ARCH`` flag in case additional 1429compiler flags are needed to build for a given target. 1430 1431If you have the ability to run containers as the user the build system 1432will automatically use them where no system compiler is available. For 1433architectures where we also support building QEMU we will generally 1434use the same container to build tests. However there are a number of 1435additional containers defined that have a minimal cross-build 1436environment that is only suitable for building test cases. Sometimes 1437we may use a bleeding edge distribution for compiler features needed 1438for test cases that aren't yet in the LTS distros we support for QEMU 1439itself. 1440 1441See :ref:`container-ref` for more details. 1442 1443Running subset of tests 1444~~~~~~~~~~~~~~~~~~~~~~~ 1445 1446You can build the tests for one architecture:: 1447 1448 make build-tcg-tests-$TARGET 1449 1450And run with:: 1451 1452 make run-tcg-tests-$TARGET 1453 1454Adding ``V=1`` to the invocation will show the details of how to 1455invoke QEMU for the test which is useful for debugging tests. 1456 1457TCG test dependencies 1458~~~~~~~~~~~~~~~~~~~~~ 1459 1460The TCG tests are deliberately very light on dependencies and are 1461either totally bare with minimal gcc lib support (for softmmu tests) 1462or just glibc (for linux-user tests). This is because getting a cross 1463compiler to work with additional libraries can be challenging. 1464 1465Other TCG Tests 1466--------------- 1467 1468There are a number of out-of-tree test suites that are used for more 1469extensive testing of processor features. 1470 1471KVM Unit Tests 1472~~~~~~~~~~~~~~ 1473 1474The KVM unit tests are designed to run as a Guest OS under KVM but 1475there is no reason why they can't exercise the TCG as well. It 1476provides a minimal OS kernel with hooks for enabling the MMU as well 1477as reporting test results via a special device:: 1478 1479 https://git.kernel.org/pub/scm/virt/kvm/kvm-unit-tests.git 1480 1481Linux Test Project 1482~~~~~~~~~~~~~~~~~~ 1483 1484The LTP is focused on exercising the syscall interface of a Linux 1485kernel. It checks that syscalls behave as documented and strives to 1486exercise as many corner cases as possible. It is a useful test suite 1487to run to exercise QEMU's linux-user code:: 1488 1489 https://linux-test-project.github.io/ 1490 1491GCC gcov support 1492---------------- 1493 1494``gcov`` is a GCC tool to analyze the testing coverage by 1495instrumenting the tested code. To use it, configure QEMU with 1496``--enable-gcov`` option and build. Then run the tests as usual. 1497 1498If you want to gather coverage information on a single test the ``make 1499clean-gcda`` target can be used to delete any existing coverage 1500information before running a single test. 1501 1502You can generate a HTML coverage report by executing ``make 1503coverage-html`` which will create 1504``meson-logs/coveragereport/index.html``. 1505 1506Further analysis can be conducted by running the ``gcov`` command 1507directly on the various .gcda output files. Please read the ``gcov`` 1508documentation for more information. 1509