| # |
| # Config file for ktest.pl |
| # |
| # Note, all paths must be absolute |
| # |
| |
| # Options set in the beginning of the file are considered to be |
| # default options. These options can be overriden by test specific |
| # options, with the following exceptions: |
| # |
| # LOG_FILE |
| # CLEAR_LOG |
| # POWEROFF_ON_SUCCESS |
| # REBOOT_ON_SUCCESS |
| # |
| # Test specific options are set after the label: |
| # |
| # TEST_START |
| # |
| # The options after a TEST_START label are specific to that test. |
| # Each TEST_START label will set up a new test. If you want to |
| # perform a test more than once, you can add the ITERATE label |
| # to it followed by the number of times you want that test |
| # to iterate. If the ITERATE is left off, the test will only |
| # be performed once. |
| # |
| # TEST_START ITERATE 10 |
| # |
| # You can skip a test by adding SKIP (before or after the ITERATE |
| # and number) |
| # |
| # TEST_START SKIP |
| # |
| # TEST_START SKIP ITERATE 10 |
| # |
| # TEST_START ITERATE 10 SKIP |
| # |
| # The SKIP label causes the options and the test itself to be ignored. |
| # This is useful to set up several different tests in one config file, and |
| # only enabling the ones you want to use for a current test run. |
| # |
| # You can add default options anywhere in the file as well |
| # with the DEFAULTS tag. This allows you to have default options |
| # after the test options to keep the test options at the top |
| # of the file. You can even place the DEFAULTS tag between |
| # test cases (but not in the middle of a single test case) |
| # |
| # TEST_START |
| # MIN_CONFIG = /home/test/config-test1 |
| # |
| # DEFAULTS |
| # MIN_CONFIG = /home/test/config-default |
| # |
| # TEST_START ITERATE 10 |
| # |
| # The above will run the first test with MIN_CONFIG set to |
| # /home/test/config-test-1. Then 10 tests will be executed |
| # with MIN_CONFIG with /home/test/config-default. |
| # |
| # You can also disable defaults with the SKIP option |
| # |
| # DEFAULTS SKIP |
| # MIN_CONFIG = /home/test/config-use-sometimes |
| # |
| # DEFAULTS |
| # MIN_CONFIG = /home/test/config-most-times |
| # |
| # The above will ignore the first MIN_CONFIG. If you want to |
| # use the first MIN_CONFIG, remove the SKIP from the first |
| # DEFAULTS tag and add it to the second. Be careful, options |
| # may only be declared once per test or default. If you have |
| # the same option name under the same test or as default |
| # ktest will fail to execute, and no tests will run. |
| # |
| # DEFAULTS OVERRIDE |
| # |
| # Options defined in the DEFAULTS section can not be duplicated |
| # even if they are defined in two different DEFAULT sections. |
| # This is done to catch mistakes where an option is added but |
| # the previous option was forgotten about and not commented. |
| # |
| # The OVERRIDE keyword can be added to a section to allow this |
| # section to override other DEFAULT sections values that have |
| # been defined previously. It will only override options that |
| # have been defined before its use. Options defined later |
| # in a non override section will still error. The same option |
| # can not be defined in the same section even if that section |
| # is marked OVERRIDE. |
| # |
| # |
| # |
| # Both TEST_START and DEFAULTS sections can also have the IF keyword |
| # The value after the IF must evaluate into a 0 or non 0 positive |
| # integer, and can use the config variables (explained below). |
| # |
| # DEFAULTS IF ${IS_X86_32} |
| # |
| # The above will process the DEFAULTS section if the config |
| # variable IS_X86_32 evaluates to a non zero positive integer |
| # otherwise if it evaluates to zero, it will act the same |
| # as if the SKIP keyword was used. |
| # |
| # The ELSE keyword can be used directly after a section with |
| # a IF statement. |
| # |
| # TEST_START IF ${RUN_NET_TESTS} |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-network |
| # |
| # ELSE |
| # |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-normal |
| # |
| # |
| # The ELSE keyword can also contain an IF statement to allow multiple |
| # if then else sections. But all the sections must be either |
| # DEFAULT or TEST_START, they can not be a mixture. |
| # |
| # TEST_START IF ${RUN_NET_TESTS} |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-network |
| # |
| # ELSE IF ${RUN_DISK_TESTS} |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-tests |
| # |
| # ELSE IF ${RUN_CPU_TESTS} |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-cpu |
| # |
| # ELSE |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-network |
| # |
| # The if statement may also have comparisons that will and for |
| # == and !=, strings may be used for both sides. |
| # |
| # BOX_TYPE := x86_32 |
| # |
| # DEFAULTS IF ${BOX_TYPE} == x86_32 |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-32 |
| # ELSE |
| # BUILD_TYPE = useconfig:${CONFIG_DIR}/config-64 |
| # |
| # The DEFINED keyword can be used by the IF statements too. |
| # It returns true if the given config variable or option has been defined |
| # or false otherwise. |
| # |
| # |
| # DEFAULTS IF DEFINED USE_CC |
| # CC := ${USE_CC} |
| # ELSE |
| # CC := gcc |
| # |
| # |
| # As well as NOT DEFINED. |
| # |
| # DEFAULTS IF NOT DEFINED MAKE_CMD |
| # MAKE_CMD := make ARCH=x86 |
| # |
| # |
| # And/or ops (&&,||) may also be used to make complex conditionals. |
| # |
| # TEST_START IF (DEFINED ALL_TESTS || ${MYTEST} == boottest) && ${MACHINE} == gandalf |
| # |
| # Notice the use of paranthesis. Without any paranthesis the above would be |
| # processed the same as: |
| # |
| # TEST_START IF DEFINED ALL_TESTS || (${MYTEST} == boottest && ${MACHINE} == gandalf) |
| # |
| # |
| # |
| # INCLUDE file |
| # |
| # The INCLUDE keyword may be used in DEFAULT sections. This will |
| # read another config file and process that file as well. The included |
| # file can include other files, add new test cases or default |
| # statements. Config variables will be passed to these files and changes |
| # to config variables will be seen by top level config files. Including |
| # a file is processed just like the contents of the file was cut and pasted |
| # into the top level file, except, that include files that end with |
| # TEST_START sections will have that section ended at the end of |
| # the include file. That is, an included file is included followed |
| # by another DEFAULT keyword. |
| # |
| # Unlike other files referenced in this config, the file path does not need |
| # to be absolute. If the file does not start with '/', then the directory |
| # that the current config file was located in is used. If no config by the |
| # given name is found there, then the current directory is searched. |
| # |
| # INCLUDE myfile |
| # DEFAULT |
| # |
| # is the same as: |
| # |
| # INCLUDE myfile |
| # |
| # Note, if the include file does not contain a full path, the file is |
| # searched first by the location of the original include file, and then |
| # by the location that ktest.pl was executed in. |
| # |
| |
| #### Config variables #### |
| # |
| # This config file can also contain "config variables". |
| # These are assigned with ":=" instead of the ktest option |
| # assigment "=". |
| # |
| # The difference between ktest options and config variables |
| # is that config variables can be used multiple times, |
| # where each instance will override the previous instance. |
| # And that they only live at time of processing this config. |
| # |
| # The advantage to config variables are that they can be used |
| # by any option or any other config variables to define thing |
| # that you may use over and over again in the options. |
| # |
| # For example: |
| # |
| # USER := root |
| # TARGET := mybox |
| # TEST_CASE := ssh ${USER}@${TARGET} /path/to/my/test |
| # |
| # TEST_START |
| # MIN_CONFIG = config1 |
| # TEST = ${TEST_CASE} |
| # |
| # TEST_START |
| # MIN_CONFIG = config2 |
| # TEST = ${TEST_CASE} |
| # |
| # TEST_CASE := ssh ${USER}@${TARGET} /path/to/my/test2 |
| # |
| # TEST_START |
| # MIN_CONFIG = config1 |
| # TEST = ${TEST_CASE} |
| # |
| # TEST_START |
| # MIN_CONFIG = config2 |
| # TEST = ${TEST_CASE} |
| # |
| # TEST_DIR := /home/me/test |
| # |
| # BUILD_DIR = ${TEST_DIR}/linux.git |
| # OUTPUT_DIR = ${TEST_DIR}/test |
| # |
| # Note, the config variables are evaluated immediately, thus |
| # updating TARGET after TEST_CASE has been assigned does nothing |
| # to TEST_CASE. |
| # |
| # As shown in the example, to evaluate a config variable, you |
| # use the ${X} convention. Simple $X will not work. |
| # |
| # If the config variable does not exist, the ${X} will not |
| # be evaluated. Thus: |
| # |
| # MAKE_CMD = PATH=/mypath:${PATH} make |
| # |
| # If PATH is not a config variable, then the ${PATH} in |
| # the MAKE_CMD option will be evaluated by the shell when |
| # the MAKE_CMD option is passed into shell processing. |
| |
| #### Using options in other options #### |
| # |
| # Options that are defined in the config file may also be used |
| # by other options. All options are evaulated at time of |
| # use (except that config variables are evaluated at config |
| # processing time). |
| # |
| # If an ktest option is used within another option, instead of |
| # typing it again in that option you can simply use the option |
| # just like you can config variables. |
| # |
| # MACHINE = mybox |
| # |
| # TEST = ssh root@${MACHINE} /path/to/test |
| # |
| # The option will be used per test case. Thus: |
| # |
| # TEST_TYPE = test |
| # TEST = ssh root@{MACHINE} |
| # |
| # TEST_START |
| # MACHINE = box1 |
| # |
| # TEST_START |
| # MACHINE = box2 |
| # |
| # For both test cases, MACHINE will be evaluated at the time |
| # of the test case. The first test will run ssh root@box1 |
| # and the second will run ssh root@box2. |
| |
| #### Mandatory Default Options #### |
| |
| # These options must be in the default section, although most |
| # may be overridden by test options. |
| |
| # The machine hostname that you will test |
| #MACHINE = target |
| |
| # The box is expected to have ssh on normal bootup, provide the user |
| # (most likely root, since you need privileged operations) |
| #SSH_USER = root |
| |
| # The directory that contains the Linux source code |
| #BUILD_DIR = /home/test/linux.git |
| |
| # The directory that the objects will be built |
| # (can not be same as BUILD_DIR) |
| #OUTPUT_DIR = /home/test/build/target |
| |
| # The location of the compiled file to copy to the target |
| # (relative to OUTPUT_DIR) |
| #BUILD_TARGET = arch/x86/boot/bzImage |
| |
| # The place to put your image on the test machine |
| #TARGET_IMAGE = /boot/vmlinuz-test |
| |
| # A script or command to reboot the box |
| # |
| # Here is a digital loggers power switch example |
| #POWER_CYCLE = wget --no-proxy -O /dev/null -q --auth-no-challenge 'http://admin:admin@power/outlet?5=CCL' |
| # |
| # Here is an example to reboot a virtual box on the current host |
| # with the name "Guest". |
| #POWER_CYCLE = virsh destroy Guest; sleep 5; virsh start Guest |
| |
| # The script or command that reads the console |
| # |
| # If you use ttywatch server, something like the following would work. |
| #CONSOLE = nc -d localhost 3001 |
| # |
| # For a virtual machine with guest name "Guest". |
| #CONSOLE = virsh console Guest |
| |
| # Required version ending to differentiate the test |
| # from other linux builds on the system. |
| #LOCALVERSION = -test |
| |
| # The grub title name for the test kernel to boot |
| # (Only mandatory if REBOOT_TYPE = grub) |
| # |
| # Note, ktest.pl will not update the grub menu.lst, you need to |
| # manually add an option for the test. ktest.pl will search |
| # the grub menu.lst for this option to find what kernel to |
| # reboot into. |
| # |
| # For example, if in the /boot/grub/menu.lst the test kernel title has: |
| # title Test Kernel |
| # kernel vmlinuz-test |
| #GRUB_MENU = Test Kernel |
| |
| # A script to reboot the target into the test kernel |
| # This and SWITCH_TO_TEST are about the same, except |
| # SWITCH_TO_TEST is run even for REBOOT_TYPE = grub. |
| # This may be left undefined. |
| # (default undefined) |
| #REBOOT_SCRIPT = |
| |
| #### Optional Config Options (all have defaults) #### |
| |
| # Start a test setup. If you leave this off, all options |
| # will be default and the test will run once. |
| # This is a label and not really an option (it takes no value). |
| # You can append ITERATE and a number after it to iterate the |
| # test a number of times, or SKIP to ignore this test. |
| # |
| #TEST_START |
| #TEST_START ITERATE 5 |
| #TEST_START SKIP |
| |
| # Have the following options as default again. Used after tests |
| # have already been defined by TEST_START. Optionally, you can |
| # just define all default options before the first TEST_START |
| # and you do not need this option. |
| # |
| # This is a label and not really an option (it takes no value). |
| # You can append SKIP to this label and the options within this |
| # section will be ignored. |
| # |
| # DEFAULTS |
| # DEFAULTS SKIP |
| |
| # The default test type (default test) |
| # The test types may be: |
| # build - only build the kernel, do nothing else |
| # install - build and install, but do nothing else (does not reboot) |
| # boot - build, install, and boot the kernel |
| # test - build, boot and if TEST is set, run the test script |
| # (If TEST is not set, it defaults back to boot) |
| # bisect - Perform a bisect on the kernel (see BISECT_TYPE below) |
| # patchcheck - Do a test on a series of commits in git (see PATCHCHECK below) |
| #TEST_TYPE = test |
| |
| # Test to run if there is a successful boot and TEST_TYPE is test. |
| # Must exit with 0 on success and non zero on error |
| # default (undefined) |
| #TEST = ssh user@machine /root/run_test |
| |
| # The build type is any make config type or special command |
| # (default randconfig) |
| # nobuild - skip the clean and build step |
| # useconfig:/path/to/config - use the given config and run |
| # oldconfig on it. |
| # This option is ignored if TEST_TYPE is patchcheck or bisect |
| #BUILD_TYPE = randconfig |
| |
| # The make command (default make) |
| # If you are building a 32bit x86 on a 64 bit host |
| #MAKE_CMD = CC=i386-gcc AS=i386-as make ARCH=i386 |
| |
| # Any build options for the make of the kernel (not for other makes, like configs) |
| # (default "") |
| #BUILD_OPTIONS = -j20 |
| |
| # If you need an initrd, you can add a script or code here to install |
| # it. The environment variable KERNEL_VERSION will be set to the |
| # kernel version that is used. Remember to add the initrd line |
| # to your grub menu.lst file. |
| # |
| # Here's a couple of examples to use: |
| #POST_INSTALL = ssh user@target /sbin/mkinitrd --allow-missing -f /boot/initramfs-test.img $KERNEL_VERSION |
| # |
| # or on some systems: |
| #POST_INSTALL = ssh user@target /sbin/dracut -f /boot/initramfs-test.img $KERNEL_VERSION |
| |
| # If for some reason you just want to boot the kernel and you do not |
| # want the test to install anything new. For example, you may just want |
| # to boot test the same kernel over and over and do not want to go through |
| # the hassle of installing anything, you can set this option to 1 |
| # (default 0) |
| #NO_INSTALL = 1 |
| |
| # If there is a script that you require to run before the build is done |
| # you can specify it with PRE_BUILD. |
| # |
| # One example may be if you must add a temporary patch to the build to |
| # fix a unrelated bug to perform a patchcheck test. This will apply the |
| # patch before each build that is made. Use the POST_BUILD to do a git reset --hard |
| # to remove the patch. |
| # |
| # (default undef) |
| #PRE_BUILD = cd ${BUILD_DIR} && patch -p1 < /tmp/temp.patch |
| |
| # To specify if the test should fail if the PRE_BUILD fails, |
| # PRE_BUILD_DIE needs to be set to 1. Otherwise the PRE_BUILD |
| # result is ignored. |
| # (default 0) |
| # PRE_BUILD_DIE = 1 |
| |
| # If there is a script that should run after the build is done |
| # you can specify it with POST_BUILD. |
| # |
| # As the example in PRE_BUILD, POST_BUILD can be used to reset modifications |
| # made by the PRE_BUILD. |
| # |
| # (default undef) |
| #POST_BUILD = cd ${BUILD_DIR} && git reset --hard |
| |
| # To specify if the test should fail if the POST_BUILD fails, |
| # POST_BUILD_DIE needs to be set to 1. Otherwise the POST_BUILD |
| # result is ignored. |
| # (default 0) |
| #POST_BUILD_DIE = 1 |
| |
| # Way to reboot the box to the test kernel. |
| # Only valid options so far are "grub" and "script" |
| # (default grub) |
| # If you specify grub, it will assume grub version 1 |
| # and will search in /boot/grub/menu.lst for the title $GRUB_MENU |
| # and select that target to reboot to the kernel. If this is not |
| # your setup, then specify "script" and have a command or script |
| # specified in REBOOT_SCRIPT to boot to the target. |
| # |
| # The entry in /boot/grub/menu.lst must be entered in manually. |
| # The test will not modify that file. |
| #REBOOT_TYPE = grub |
| |
| # If you are using a machine that doesn't boot with grub, and |
| # perhaps gets its kernel from a remote server (tftp), then |
| # you can use this option to update the target image with the |
| # test image. |
| # |
| # You could also do the same with POST_INSTALL, but the difference |
| # between that option and this option is that POST_INSTALL runs |
| # after the install, where this one runs just before a reboot. |
| # (default undefined) |
| #SWITCH_TO_TEST = cp ${OUTPUT_DIR}/${BUILD_TARGET} ${TARGET_IMAGE} |
| |
| # If you are using a machine that doesn't boot with grub, and |
| # perhaps gets its kernel from a remote server (tftp), then |
| # you can use this option to update the target image with the |
| # the known good image to reboot safely back into. |
| # |
| # This option holds a command that will execute before needing |
| # to reboot to a good known image. |
| # (default undefined) |
| #SWITCH_TO_GOOD = ssh ${SSH_USER}/${MACHINE} cp good_image ${TARGET_IMAGE} |
| |
| # The min config that is needed to build for the machine |
| # A nice way to create this is with the following: |
| # |
| # $ ssh target |
| # $ lsmod > mymods |
| # $ scp mymods host:/tmp |
| # $ exit |
| # $ cd linux.git |
| # $ rm .config |
| # $ make LSMOD=mymods localyesconfig |
| # $ grep '^CONFIG' .config > /home/test/config-min |
| # |
| # If you want even less configs: |
| # |
| # log in directly to target (do not ssh) |
| # |
| # $ su |
| # # lsmod | cut -d' ' -f1 | xargs rmmod |
| # |
| # repeat the above several times |
| # |
| # # lsmod > mymods |
| # # reboot |
| # |
| # May need to reboot to get your network back to copy the mymods |
| # to the host, and then remove the previous .config and run the |
| # localyesconfig again. The CONFIG_MIN generated like this will |
| # not guarantee network activity to the box so the TEST_TYPE of |
| # test may fail. |
| # |
| # You might also want to set: |
| # CONFIG_CMDLINE="<your options here>" |
| # randconfig may set the above and override your real command |
| # line options. |
| # (default undefined) |
| #MIN_CONFIG = /home/test/config-min |
| |
| # Sometimes there's options that just break the boot and |
| # you do not care about. Here are a few: |
| # # CONFIG_STAGING is not set |
| # Staging drivers are horrible, and can break the build. |
| # # CONFIG_SCSI_DEBUG is not set |
| # SCSI_DEBUG may change your root partition |
| # # CONFIG_KGDB_SERIAL_CONSOLE is not set |
| # KGDB may cause oops waiting for a connection that's not there. |
| # This option points to the file containing config options that will be prepended |
| # to the MIN_CONFIG (or be the MIN_CONFIG if it is not set) |
| # |
| # Note, config options in MIN_CONFIG will override these options. |
| # |
| # (default undefined) |
| #ADD_CONFIG = /home/test/config-broken |
| |
| # The location on the host where to write temp files |
| # (default /tmp/ktest/${MACHINE}) |
| #TMP_DIR = /tmp/ktest/${MACHINE} |
| |
| # Optional log file to write the status (recommended) |
| # Note, this is a DEFAULT section only option. |
| # (default undefined) |
| #LOG_FILE = /home/test/logfiles/target.log |
| |
| # Remove old logfile if it exists before starting all tests. |
| # Note, this is a DEFAULT section only option. |
| # (default 0) |
| #CLEAR_LOG = 0 |
| |
| # Line to define a successful boot up in console output. |
| # This is what the line contains, not the entire line. If you need |
| # the entire line to match, then use regural expression syntax like: |
| # (do not add any quotes around it) |
| # |
| # SUCCESS_LINE = ^MyBox Login:$ |
| # |
| # (default "login:") |
| #SUCCESS_LINE = login: |
| |
| # To speed up between reboots, defining a line that the |
| # default kernel produces that represents that the default |
| # kernel has successfully booted and can be used to pass |
| # a new test kernel to it. Otherwise ktest.pl will wait till |
| # SLEEP_TIME to continue. |
| # (default undefined) |
| #REBOOT_SUCCESS_LINE = login: |
| |
| # In case the console constantly fills the screen, having |
| # a specified time to stop the test after success is recommended. |
| # (in seconds) |
| # (default 10) |
| #STOP_AFTER_SUCCESS = 10 |
| |
| # In case the console constantly fills the screen, having |
| # a specified time to stop the test after failure is recommended. |
| # (in seconds) |
| # (default 60) |
| #STOP_AFTER_FAILURE = 60 |
| |
| # In case the console constantly fills the screen, having |
| # a specified time to stop the test if it never succeeds nor fails |
| # is recommended. |
| # Note: this is ignored if a success or failure is detected. |
| # (in seconds) |
| # (default 600, -1 is to never stop) |
| #STOP_TEST_AFTER = 600 |
| |
| # Stop testing if a build fails. If set, the script will end if |
| # a failure is detected, otherwise it will save off the .config, |
| # dmesg and bootlog in a directory called |
| # MACHINE-TEST_TYPE_BUILD_TYPE-fail-yyyymmddhhmmss |
| # if the STORE_FAILURES directory is set. |
| # (default 1) |
| # Note, even if this is set to zero, there are some errors that still |
| # stop the tests. |
| #DIE_ON_FAILURE = 1 |
| |
| # Directory to store failure directories on failure. If this is not |
| # set, DIE_ON_FAILURE=0 will not save off the .config, dmesg and |
| # bootlog. This option is ignored if DIE_ON_FAILURE is not set. |
| # (default undefined) |
| #STORE_FAILURES = /home/test/failures |
| |
| # Directory to store success directories on success. If this is not |
| # set, the .config, dmesg and bootlog will not be saved if a |
| # test succeeds. |
| # (default undefined) |
| #STORE_SUCCESSES = /home/test/successes |
| |
| # Build without doing a make mrproper, or removing .config |
| # (default 0) |
| #BUILD_NOCLEAN = 0 |
| |
| # As the test reads the console, after it hits the SUCCESS_LINE |
| # the time it waits for the monitor to settle down between reads |
| # can usually be lowered. |
| # (in seconds) (default 1) |
| #BOOTED_TIMEOUT = 1 |
| |
| # The timeout in seconds when we consider the box hung after |
| # the console stop producing output. Be sure to leave enough |
| # time here to get pass a reboot. Some machines may not produce |
| # any console output for a long time during a reboot. You do |
| # not want the test to fail just because the system was in |
| # the process of rebooting to the test kernel. |
| # (default 120) |
| #TIMEOUT = 120 |
| |
| # In between tests, a reboot of the box may occur, and this |
| # is the time to wait for the console after it stops producing |
| # output. Some machines may not produce a large lag on reboot |
| # so this should accommodate it. |
| # The difference between this and TIMEOUT, is that TIMEOUT happens |
| # when rebooting to the test kernel. This sleep time happens |
| # after a test has completed and we are about to start running |
| # another test. If a reboot to the reliable kernel happens, |
| # we wait SLEEP_TIME for the console to stop producing output |
| # before starting the next test. |
| # |
| # You can speed up reboot times even more by setting REBOOT_SUCCESS_LINE. |
| # (default 60) |
| #SLEEP_TIME = 60 |
| |
| # The time in between bisects to sleep (in seconds) |
| # (default 60) |
| #BISECT_SLEEP_TIME = 60 |
| |
| # The time in between patch checks to sleep (in seconds) |
| # (default 60) |
| #PATCHCHECK_SLEEP_TIME = 60 |
| |
| # Reboot the target box on error (default 0) |
| #REBOOT_ON_ERROR = 0 |
| |
| # Power off the target on error (ignored if REBOOT_ON_ERROR is set) |
| # Note, this is a DEFAULT section only option. |
| # (default 0) |
| #POWEROFF_ON_ERROR = 0 |
| |
| # Power off the target after all tests have completed successfully |
| # Note, this is a DEFAULT section only option. |
| # (default 0) |
| #POWEROFF_ON_SUCCESS = 0 |
| |
| # Reboot the target after all test completed successfully (default 1) |
| # (ignored if POWEROFF_ON_SUCCESS is set) |
| #REBOOT_ON_SUCCESS = 1 |
| |
| # In case there are isses with rebooting, you can specify this |
| # to always powercycle after this amount of time after calling |
| # reboot. |
| # Note, POWERCYCLE_AFTER_REBOOT = 0 does NOT disable it. It just |
| # makes it powercycle immediately after rebooting. Do not define |
| # it if you do not want it. |
| # (default undefined) |
| #POWERCYCLE_AFTER_REBOOT = 5 |
| |
| # In case there's isses with halting, you can specify this |
| # to always poweroff after this amount of time after calling |
| # halt. |
| # Note, POWEROFF_AFTER_HALT = 0 does NOT disable it. It just |
| # makes it poweroff immediately after halting. Do not define |
| # it if you do not want it. |
| # (default undefined) |
| #POWEROFF_AFTER_HALT = 20 |
| |
| # A script or command to power off the box (default undefined) |
| # Needed for POWEROFF_ON_ERROR and SUCCESS |
| # |
| # Example for digital loggers power switch: |
| #POWER_OFF = wget --no-proxy -O /dev/null -q --auth-no-challenge 'http://admin:admin@power/outlet?5=OFF' |
| # |
| # Example for a virtual guest call "Guest". |
| #POWER_OFF = virsh destroy Guest |
| |
| # The way to execute a command on the target |
| # (default ssh $SSH_USER@$MACHINE $SSH_COMMAND";) |
| # The variables SSH_USER, MACHINE and SSH_COMMAND are defined |
| #SSH_EXEC = ssh $SSH_USER@$MACHINE $SSH_COMMAND"; |
| |
| # The way to copy a file to the target (install and modules) |
| # (default scp $SRC_FILE $SSH_USER@$MACHINE:$DST_FILE) |
| # The variables SSH_USER, MACHINE are defined by the config |
| # SRC_FILE and DST_FILE are ktest internal variables and |
| # should only have '$' and not the '${}' notation. |
| # (default scp $SRC_FILE ${SSH_USER}@${MACHINE}:$DST_FILE) |
| #SCP_TO_TARGET = echo skip scp for $SRC_FILE $DST_FILE |
| |
| # If install needs to be different than modules, then this |
| # option will override the SCP_TO_TARGET for installation. |
| # (default ${SCP_TO_TARGET} ) |
| #SCP_TO_TARGET_INSTALL = scp $SRC_FILE tftp@tftpserver:$DST_FILE |
| |
| # The nice way to reboot the target |
| # (default ssh $SSH_USER@$MACHINE reboot) |
| # The variables SSH_USER and MACHINE are defined. |
| #REBOOT = ssh $SSH_USER@$MACHINE reboot |
| |
| # The way triple faults are detected is by testing the kernel |
| # banner. If the kernel banner for the kernel we are testing is |
| # found, and then later a kernel banner for another kernel version |
| # is found, it is considered that we encountered a triple fault, |
| # and there is no panic or callback, but simply a reboot. |
| # To disable this (because it did a false positive) set the following |
| # to 0. |
| # (default 1) |
| #DETECT_TRIPLE_FAULT = 0 |
| |
| # All options in the config file should be either used by ktest |
| # or could be used within a value of another option. If an option |
| # in the config file is not used, ktest will warn about it and ask |
| # if you want to continue. |
| # |
| # If you don't care if there are non-used options, enable this |
| # option. Be careful though, a non-used option is usually a sign |
| # of an option name being typed incorrectly. |
| # (default 0) |
| #IGNORE_UNUSED = 1 |
| |
| # When testing a kernel that happens to have WARNINGs, and call |
| # traces, ktest.pl will detect these and fail a boot or test run |
| # due to warnings. By setting this option, ktest will ignore |
| # call traces, and will not fail a test if the kernel produces |
| # an oops. Use this option with care. |
| # (default 0) |
| #IGNORE_ERRORS = 1 |
| |
| #### Per test run options #### |
| # The following options are only allowed in TEST_START sections. |
| # They are ignored in the DEFAULTS sections. |
| # |
| # All of these are optional and undefined by default, although |
| # some of these options are required for TEST_TYPE of patchcheck |
| # and bisect. |
| # |
| # |
| # CHECKOUT = branch |
| # |
| # If the BUILD_DIR is a git repository, then you can set this option |
| # to checkout the given branch before running the TEST. If you |
| # specify this for the first run, that branch will be used for |
| # all preceding tests until a new CHECKOUT is set. |
| # |
| # |
| # TEST_NAME = name |
| # |
| # If you want the test to have a name that is displayed in |
| # the test result banner at the end of the test, then use this |
| # option. This is useful to search for the RESULT keyword and |
| # not have to translate a test number to a test in the config. |
| # |
| # For TEST_TYPE = patchcheck |
| # |
| # This expects the BUILD_DIR to be a git repository, and |
| # will checkout the PATCHCHECK_START commit. |
| # |
| # The option BUILD_TYPE will be ignored. |
| # |
| # The MIN_CONFIG will be used for all builds of the patchcheck. The build type |
| # used for patchcheck is oldconfig. |
| # |
| # PATCHCHECK_START is required and is the first patch to |
| # test (the SHA1 of the commit). You may also specify anything |
| # that git checkout allows (branch name, tage, HEAD~3). |
| # |
| # PATCHCHECK_END is the last patch to check (default HEAD) |
| # |
| # PATCHCHECK_TYPE is required and is the type of test to run: |
| # build, boot, test. |
| # |
| # Note, the build test will look for warnings, if a warning occurred |
| # in a file that a commit touches, the build will fail, unless |
| # IGNORE_WARNINGS is set for the given commit's sha1 |
| # |
| # IGNORE_WARNINGS can be used to disable the failure of patchcheck |
| # on a particuler commit (SHA1). You can add more than one commit |
| # by adding a list of SHA1s that are space delimited. |
| # |
| # If BUILD_NOCLEAN is set, then make mrproper will not be run on |
| # any of the builds, just like all other TEST_TYPE tests. But |
| # what makes patchcheck different from the other tests, is if |
| # BUILD_NOCLEAN is not set, only the first and last patch run |
| # make mrproper. This helps speed up the test. |
| # |
| # Example: |
| # TEST_START |
| # TEST_TYPE = patchcheck |
| # CHECKOUT = mybranch |
| # PATCHCHECK_TYPE = boot |
| # PATCHCHECK_START = 747e94ae3d1b4c9bf5380e569f614eb9040b79e7 |
| # PATCHCHECK_END = HEAD~2 |
| # IGNORE_WARNINGS = 42f9c6b69b54946ffc0515f57d01dc7f5c0e4712 0c17ca2c7187f431d8ffc79e81addc730f33d128 |
| # |
| # |
| # |
| # For TEST_TYPE = bisect |
| # |
| # You can specify a git bisect if the BUILD_DIR is a git repository. |
| # The MIN_CONFIG will be used for all builds of the bisect. The build type |
| # used for bisecting is oldconfig. |
| # |
| # The option BUILD_TYPE will be ignored. |
| # |
| # BISECT_TYPE is the type of test to perform: |
| # build - bad fails to build |
| # boot - bad builds but fails to boot |
| # test - bad boots but fails a test |
| # |
| # BISECT_GOOD is the commit (SHA1) to label as good (accepts all git good commit types) |
| # BISECT_BAD is the commit to label as bad (accepts all git bad commit types) |
| # |
| # The above three options are required for a bisect operation. |
| # |
| # BISECT_REPLAY = /path/to/replay/file (optional, default undefined) |
| # |
| # If an operation failed in the bisect that was not expected to |
| # fail. Then the test ends. The state of the BUILD_DIR will be |
| # left off at where the failure occurred. You can examine the |
| # reason for the failure, and perhaps even find a git commit |
| # that would work to continue with. You can run: |
| # |
| # git bisect log > /path/to/replay/file |
| # |
| # The adding: |
| # |
| # BISECT_REPLAY= /path/to/replay/file |
| # |
| # And running the test again. The test will perform the initial |
| # git bisect start, git bisect good, and git bisect bad, and |
| # then it will run git bisect replay on this file, before |
| # continuing with the bisect. |
| # |
| # BISECT_START = commit (optional, default undefined) |
| # |
| # As with BISECT_REPLAY, if the test failed on a commit that |
| # just happen to have a bad commit in the middle of the bisect, |
| # and you need to skip it. If BISECT_START is defined, it |
| # will checkout that commit after doing the initial git bisect start, |
| # git bisect good, git bisect bad, and running the git bisect replay |
| # if the BISECT_REPLAY is set. |
| # |
| # BISECT_SKIP = 1 (optional, default 0) |
| # |
| # If BISECT_TYPE is set to test but the build fails, ktest will |
| # simply fail the test and end their. You could use BISECT_REPLAY |
| # and BISECT_START to resume after you found a new starting point, |
| # or you could set BISECT_SKIP to 1. If BISECT_SKIP is set to 1, |
| # when something other than the BISECT_TYPE fails, ktest.pl will |
| # run "git bisect skip" and try again. |
| # |
| # BISECT_FILES = <path> (optional, default undefined) |
| # |
| # To just run the git bisect on a specific path, set BISECT_FILES. |
| # For example: |
| # |
| # BISECT_FILES = arch/x86 kernel/time |
| # |
| # Will run the bisect with "git bisect start -- arch/x86 kernel/time" |
| # |
| # BISECT_REVERSE = 1 (optional, default 0) |
| # |
| # In those strange instances where it was broken forever |
| # and you are trying to find where it started to work! |
| # Set BISECT_GOOD to the commit that was last known to fail |
| # Set BISECT_BAD to the commit that is known to start working. |
| # With BISECT_REVERSE = 1, The test will consider failures as |
| # good, and success as bad. |
| # |
| # BISECT_MANUAL = 1 (optional, default 0) |
| # |
| # In case there's a problem with automating the bisect for |
| # whatever reason. (Can't reboot, want to inspect each iteration) |
| # Doing a BISECT_MANUAL will have the test wait for you to |
| # tell it if the test passed or failed after each iteration. |
| # This is basicall the same as running git bisect yourself |
| # but ktest will rebuild and install the kernel for you. |
| # |
| # BISECT_CHECK = 1 (optional, default 0) |
| # |
| # Just to be sure the good is good and bad is bad, setting |
| # BISECT_CHECK to 1 will start the bisect by first checking |
| # out BISECT_BAD and makes sure it fails, then it will check |
| # out BISECT_GOOD and makes sure it succeeds before starting |
| # the bisect (it works for BISECT_REVERSE too). |
| # |
| # You can limit the test to just check BISECT_GOOD or |
| # BISECT_BAD with BISECT_CHECK = good or |
| # BISECT_CHECK = bad, respectively. |
| # |
| # BISECT_RET_GOOD = 0 (optional, default undefined) |
| # |
| # In case the specificed test returns something other than just |
| # 0 for good, and non-zero for bad, you can override 0 being |
| # good by defining BISECT_RET_GOOD. |
| # |
| # BISECT_RET_BAD = 1 (optional, default undefined) |
| # |
| # In case the specificed test returns something other than just |
| # 0 for good, and non-zero for bad, you can override non-zero being |
| # bad by defining BISECT_RET_BAD. |
| # |
| # BISECT_RET_ABORT = 255 (optional, default undefined) |
| # |
| # If you need to abort the bisect if the test discovers something |
| # that was wrong, you can define BISECT_RET_ABORT to be the error |
| # code returned by the test in order to abort the bisect. |
| # |
| # BISECT_RET_SKIP = 2 (optional, default undefined) |
| # |
| # If the test detects that the current commit is neither good |
| # nor bad, but something else happened (another bug detected) |
| # you can specify BISECT_RET_SKIP to an error code that the |
| # test returns when it should skip the current commit. |
| # |
| # BISECT_RET_DEFAULT = good (optional, default undefined) |
| # |
| # You can override the default of what to do when the above |
| # options are not hit. This may be one of, "good", "bad", |
| # "abort" or "skip" (without the quotes). |
| # |
| # Note, if you do not define any of the previous BISECT_RET_* |
| # and define BISECT_RET_DEFAULT, all bisects results will do |
| # what the BISECT_RET_DEFAULT has. |
| # |
| # |
| # Example: |
| # TEST_START |
| # TEST_TYPE = bisect |
| # BISECT_GOOD = v2.6.36 |
| # BISECT_BAD = b5153163ed580e00c67bdfecb02b2e3843817b3e |
| # BISECT_TYPE = build |
| # MIN_CONFIG = /home/test/config-bisect |
| # |
| # |
| # |
| # For TEST_TYPE = config_bisect |
| # |
| # In those cases that you have two different configs. One of them |
| # work, the other does not, and you do not know what config causes |
| # the problem. |
| # The TEST_TYPE config_bisect will bisect the bad config looking for |
| # what config causes the failure. |
| # |
| # The way it works is this: |
| # |
| # First it finds a config to work with. Since a different version, or |
| # MIN_CONFIG may cause different dependecies, it must run through this |
| # preparation. |
| # |
| # Overwrites any config set in the bad config with a config set in |
| # either the MIN_CONFIG or ADD_CONFIG. Thus, make sure these configs |
| # are minimal and do not disable configs you want to test: |
| # (ie. # CONFIG_FOO is not set). |
| # |
| # An oldconfig is run on the bad config and any new config that |
| # appears will be added to the configs to test. |
| # |
| # Finally, it generates a config with the above result and runs it |
| # again through make oldconfig to produce a config that should be |
| # satisfied by kconfig. |
| # |
| # Then it starts the bisect. |
| # |
| # The configs to test are cut in half. If all the configs in this |
| # half depend on a config in the other half, then the other half |
| # is tested instead. If no configs are enabled by either half, then |
| # this means a circular dependency exists and the test fails. |
| # |
| # A config is created with the test half, and the bisect test is run. |
| # |
| # If the bisect succeeds, then all configs in the generated config |
| # are removed from the configs to test and added to the configs that |
| # will be enabled for all builds (they will be enabled, but not be part |
| # of the configs to examine). |
| # |
| # If the bisect fails, then all test configs that were not enabled by |
| # the config file are removed from the test. These configs will not |
| # be enabled in future tests. Since current config failed, we consider |
| # this to be a subset of the config that we started with. |
| # |
| # When we are down to one config, it is considered the bad config. |
| # |
| # Note, the config chosen may not be the true bad config. Due to |
| # dependencies and selections of the kbuild system, mulitple |
| # configs may be needed to cause a failure. If you disable the |
| # config that was found and restart the test, if the test fails |
| # again, it is recommended to rerun the config_bisect with a new |
| # bad config without the found config enabled. |
| # |
| # The option BUILD_TYPE will be ignored. |
| # |
| # CONFIG_BISECT_TYPE is the type of test to perform: |
| # build - bad fails to build |
| # boot - bad builds but fails to boot |
| # test - bad boots but fails a test |
| # |
| # CONFIG_BISECT is the config that failed to boot |
| # |
| # If BISECT_MANUAL is set, it will pause between iterations. |
| # This is useful to use just ktest.pl just for the config bisect. |
| # If you set it to build, it will run the bisect and you can |
| # control what happens in between iterations. It will ask you if |
| # the test succeeded or not and continue the config bisect. |
| # |
| # CONFIG_BISECT_GOOD (optional) |
| # If you have a good config to start with, then you |
| # can specify it with CONFIG_BISECT_GOOD. Otherwise |
| # the MIN_CONFIG is the base. |
| # |
| # Example: |
| # TEST_START |
| # TEST_TYPE = config_bisect |
| # CONFIG_BISECT_TYPE = build |
| # CONFIG_BISECT = /home/test/config-bad |
| # MIN_CONFIG = /home/test/config-min |
| # BISECT_MANUAL = 1 |
| # |
| # |
| # |
| # For TEST_TYPE = make_min_config |
| # |
| # After doing a make localyesconfig, your kernel configuration may |
| # not be the most useful minimum configuration. Having a true minimum |
| # config that you can use against other configs is very useful if |
| # someone else has a config that breaks on your code. By only forcing |
| # those configurations that are truly required to boot your machine |
| # will give you less of a chance that one of your set configurations |
| # will make the bug go away. This will give you a better chance to |
| # be able to reproduce the reported bug matching the broken config. |
| # |
| # Note, this does take some time, and may require you to run the |
| # test over night, or perhaps over the weekend. But it also allows |
| # you to interrupt it, and gives you the current minimum config |
| # that was found till that time. |
| # |
| # Note, this test automatically assumes a BUILD_TYPE of oldconfig |
| # and its test type acts like boot. |
| # TODO: add a test version that makes the config do more than just |
| # boot, like having network access. |
| # |
| # To save time, the test does not just grab any option and test |
| # it. The Kconfig files are examined to determine the dependencies |
| # of the configs. If a config is chosen that depends on another |
| # config, that config will be checked first. By checking the |
| # parents first, we can eliminate whole groups of configs that |
| # may have been enabled. |
| # |
| # For example, if a USB device config is chosen and depends on CONFIG_USB, |
| # the CONFIG_USB will be tested before the device. If CONFIG_USB is |
| # found not to be needed, it, as well as all configs that depend on |
| # it, will be disabled and removed from the current min_config. |
| # |
| # OUTPUT_MIN_CONFIG is the path and filename of the file that will |
| # be created from the MIN_CONFIG. If you interrupt the test, set |
| # this file as your new min config, and use it to continue the test. |
| # This file does not need to exist on start of test. |
| # This file is not created until a config is found that can be removed. |
| # If this file exists, you will be prompted if you want to use it |
| # as the min_config (overriding MIN_CONFIG) if START_MIN_CONFIG |
| # is not defined. |
| # (required field) |
| # |
| # START_MIN_CONFIG is the config to use to start the test with. |
| # you can set this as the same OUTPUT_MIN_CONFIG, but if you do |
| # the OUTPUT_MIN_CONFIG file must exist. |
| # (default MIN_CONFIG) |
| # |
| # IGNORE_CONFIG is used to specify a config file that has configs that |
| # you already know must be set. Configs are written here that have |
| # been tested and proved to be required. It is best to define this |
| # file if you intend on interrupting the test and running it where |
| # it left off. New configs that it finds will be written to this file |
| # and will not be tested again in later runs. |
| # (optional) |
| # |
| # MIN_CONFIG_TYPE can be either 'boot' or 'test'. With 'boot' it will |
| # test if the created config can just boot the machine. If this is |
| # set to 'test', then the TEST option must be defined and the created |
| # config will not only boot the target, but also make sure that the |
| # config lets the test succeed. This is useful to make sure the final |
| # config that is generated allows network activity (ssh). |
| # (optional) |
| # |
| # USE_OUTPUT_MIN_CONFIG set this to 1 if you do not want to be prompted |
| # about using the OUTPUT_MIN_CONFIG as the MIN_CONFIG as the starting |
| # point. Set it to 0 if you want to always just use the given MIN_CONFIG. |
| # If it is not defined, it will prompt you to pick which config |
| # to start with (MIN_CONFIG or OUTPUT_MIN_CONFIG). |
| # |
| # Example: |
| # |
| # TEST_TYPE = make_min_config |
| # OUTPUT_MIN_CONFIG = /path/to/config-new-min |
| # START_MIN_CONFIG = /path/to/config-min |
| # IGNORE_CONFIG = /path/to/config-tested |
| # MIN_CONFIG_TYPE = test |
| # TEST = ssh ${USER}@${MACHINE} echo hi |
| # |