xref: /openbmc/linux/tools/testing/ktest/sample.conf (revision b1a3e75e)
1#
2# Config file for ktest.pl
3#
4# Place your customized version of this, in the working directory that
5# ktest.pl is run from. By default, ktest.pl will look for a file
6# called "ktest.conf", but you can name it anything you like and specify
7# the name of your config file as the first argument of ktest.pl.
8#
9# Note, all paths must be absolute
10#
11
12# Options set in the beginning of the file are considered to be
13# default options. These options can be overridden by test specific
14# options, with the following exceptions:
15#
16#  LOG_FILE
17#  CLEAR_LOG
18#  POWEROFF_ON_SUCCESS
19#  REBOOT_ON_SUCCESS
20#
21# Test specific options are set after the label:
22#
23# TEST_START
24#
25# The options after a TEST_START label are specific to that test.
26# Each TEST_START label will set up a new test. If you want to
27# perform a test more than once, you can add the ITERATE label
28# to it followed by the number of times you want that test
29# to iterate. If the ITERATE is left off, the test will only
30# be performed once.
31#
32# TEST_START ITERATE 10
33#
34# You can skip a test by adding SKIP (before or after the ITERATE
35# and number)
36#
37# TEST_START SKIP
38#
39# TEST_START SKIP ITERATE 10
40#
41# TEST_START ITERATE 10 SKIP
42#
43# The SKIP label causes the options and the test itself to be ignored.
44# This is useful to set up several different tests in one config file, and
45# only enabling the ones you want to use for a current test run.
46#
47# You can add default options anywhere in the file as well
48# with the DEFAULTS tag. This allows you to have default options
49# after the test options to keep the test options at the top
50# of the file. You can even place the DEFAULTS tag between
51# test cases (but not in the middle of a single test case)
52#
53# TEST_START
54# MIN_CONFIG = /home/test/config-test1
55#
56# DEFAULTS
57# MIN_CONFIG = /home/test/config-default
58#
59# TEST_START ITERATE 10
60#
61# The above will run the first test with MIN_CONFIG set to
62# /home/test/config-test-1. Then 10 tests will be executed
63# with MIN_CONFIG with /home/test/config-default.
64#
65# You can also disable defaults with the SKIP option
66#
67# DEFAULTS SKIP
68# MIN_CONFIG = /home/test/config-use-sometimes
69#
70# DEFAULTS
71# MIN_CONFIG = /home/test/config-most-times
72#
73# The above will ignore the first MIN_CONFIG. If you want to
74# use the first MIN_CONFIG, remove the SKIP from the first
75# DEFAULTS tag and add it to the second. Be careful, options
76# may only be declared once per test or default. If you have
77# the same option name under the same test or as default
78# ktest will fail to execute, and no tests will run.
79#
80# DEFAULTS OVERRIDE
81#
82# Options defined in the DEFAULTS section can not be duplicated
83# even if they are defined in two different DEFAULT sections.
84# This is done to catch mistakes where an option is added but
85# the previous option was forgotten about and not commented.
86#
87# The OVERRIDE keyword can be added to a section to allow this
88# section to override other DEFAULT sections values that have
89# been defined previously. It will only override options that
90# have been defined before its use. Options defined later
91# in a non override section will still error. The same option
92# can not be defined in the same section even if that section
93# is marked OVERRIDE.
94#
95#
96#
97# Both TEST_START and DEFAULTS sections can also have the IF keyword
98# The value after the IF must evaluate into a 0 or non 0 positive
99# integer, and can use the config variables (explained below).
100#
101# DEFAULTS IF ${IS_X86_32}
102#
103# The above will process the DEFAULTS section if the config
104# variable IS_X86_32 evaluates to a non zero positive integer
105# otherwise if it evaluates to zero, it will act the same
106# as if the SKIP keyword was used.
107#
108# The ELSE keyword can be used directly after a section with
109# a IF statement.
110#
111# TEST_START IF ${RUN_NET_TESTS}
112# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-network
113#
114# ELSE
115#
116# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-normal
117#
118#
119# The ELSE keyword can also contain an IF statement to allow multiple
120# if then else sections. But all the sections must be either
121# DEFAULT or TEST_START, they can not be a mixture.
122#
123# TEST_START IF ${RUN_NET_TESTS}
124# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-network
125#
126# ELSE IF ${RUN_DISK_TESTS}
127# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-tests
128#
129# ELSE IF ${RUN_CPU_TESTS}
130# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-cpu
131#
132# ELSE
133# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-network
134#
135# The if statement may also have comparisons that will and for
136# == and !=, strings may be used for both sides.
137#
138# BOX_TYPE := x86_32
139#
140# DEFAULTS IF ${BOX_TYPE} == x86_32
141# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-32
142# ELSE
143# BUILD_TYPE = useconfig:${CONFIG_DIR}/config-64
144#
145# The DEFINED keyword can be used by the IF statements too.
146# It returns true if the given config variable or option has been defined
147# or false otherwise.
148#
149#
150# DEFAULTS IF DEFINED USE_CC
151# CC := ${USE_CC}
152# ELSE
153# CC := gcc
154#
155#
156# As well as NOT DEFINED.
157#
158# DEFAULTS IF NOT DEFINED MAKE_CMD
159# MAKE_CMD := make ARCH=x86
160#
161#
162# And/or ops (&&,||) may also be used to make complex conditionals.
163#
164# TEST_START IF (DEFINED ALL_TESTS || ${MYTEST} == boottest) && ${MACHINE} == gandalf
165#
166# Notice the use of parentheses. Without any parentheses the above would be
167# processed the same as:
168#
169# TEST_START IF DEFINED ALL_TESTS || (${MYTEST} == boottest && ${MACHINE} == gandalf)
170#
171#
172#
173# INCLUDE file
174#
175# The INCLUDE keyword may be used in DEFAULT sections. This will
176# read another config file and process that file as well. The included
177# file can include other files, add new test cases or default
178# statements. Config variables will be passed to these files and changes
179# to config variables will be seen by top level config files. Including
180# a file is processed just like the contents of the file was cut and pasted
181# into the top level file, except, that include files that end with
182# TEST_START sections will have that section ended at the end of
183# the include file. That is, an included file is included followed
184# by another DEFAULT keyword.
185#
186# Unlike other files referenced in this config, the file path does not need
187# to be absolute. If the file does not start with '/', then the directory
188# that the current config file was located in is used. If no config by the
189# given name is found there, then the current directory is searched.
190#
191# INCLUDE myfile
192# DEFAULT
193#
194# is the same as:
195#
196# INCLUDE myfile
197#
198# Note, if the include file does not contain a full path, the file is
199# searched first by the location of the original include file, and then
200# by the location that ktest.pl was executed in.
201#
202
203#### Config variables ####
204#
205# This config file can also contain "config variables".
206# These are assigned with ":=" instead of the ktest option
207# assignment "=".
208#
209# The difference between ktest options and config variables
210# is that config variables can be used multiple times,
211# where each instance will override the previous instance.
212# And that they only live at time of processing this config.
213#
214# The advantage to config variables are that they can be used
215# by any option or any other config variables to define thing
216# that you may use over and over again in the options.
217#
218# For example:
219#
220# USER      := root
221# TARGET    := mybox
222# TEST_CASE := ssh ${USER}@${TARGET} /path/to/my/test
223#
224# TEST_START
225# MIN_CONFIG = config1
226# TEST = ${TEST_CASE}
227#
228# TEST_START
229# MIN_CONFIG = config2
230# TEST = ${TEST_CASE}
231#
232# TEST_CASE := ssh ${USER}@${TARGET} /path/to/my/test2
233#
234# TEST_START
235# MIN_CONFIG = config1
236# TEST = ${TEST_CASE}
237#
238# TEST_START
239# MIN_CONFIG = config2
240# TEST = ${TEST_CASE}
241#
242# TEST_DIR := /home/me/test
243#
244# BUILD_DIR = ${TEST_DIR}/linux.git
245# OUTPUT_DIR = ${TEST_DIR}/test
246#
247# Note, the config variables are evaluated immediately, thus
248# updating TARGET after TEST_CASE has been assigned does nothing
249# to TEST_CASE.
250#
251# As shown in the example, to evaluate a config variable, you
252# use the ${X} convention. Simple $X will not work.
253#
254# If the config variable does not exist, the ${X} will not
255# be evaluated. Thus:
256#
257# MAKE_CMD = PATH=/mypath:${PATH} make
258#
259# If PATH is not a config variable, then the ${PATH} in
260# the MAKE_CMD option will be evaluated by the shell when
261# the MAKE_CMD option is passed into shell processing.
262
263#### Using options in other options ####
264#
265# Options that are defined in the config file may also be used
266# by other options. All options are evaluated at time of
267# use (except that config variables are evaluated at config
268# processing time).
269#
270# If an ktest option is used within another option, instead of
271# typing it again in that option you can simply use the option
272# just like you can config variables.
273#
274# MACHINE = mybox
275#
276# TEST = ssh root@${MACHINE} /path/to/test
277#
278# The option will be used per test case. Thus:
279#
280# TEST_TYPE = test
281# TEST = ssh root@{MACHINE}
282#
283# TEST_START
284# MACHINE = box1
285#
286# TEST_START
287# MACHINE = box2
288#
289# For both test cases, MACHINE will be evaluated at the time
290# of the test case. The first test will run ssh root@box1
291# and the second will run ssh root@box2.
292
293#### Mandatory Default Options ####
294
295# These options must be in the default section, although most
296# may be overridden by test options.
297
298# The machine hostname that you will test
299#MACHINE = target
300
301# The box is expected to have ssh on normal bootup, provide the user
302#  (most likely root, since you need privileged operations)
303#SSH_USER = root
304
305# The directory that contains the Linux source code
306#BUILD_DIR = /home/test/linux.git
307
308# The directory that the objects will be built
309# (can not be same as BUILD_DIR)
310#OUTPUT_DIR = /home/test/build/target
311
312# The location of the compiled file to copy to the target
313# (relative to OUTPUT_DIR)
314#BUILD_TARGET = arch/x86/boot/bzImage
315
316# The place to put your image on the test machine
317#TARGET_IMAGE = /boot/vmlinuz-test
318
319# A script or command to reboot the box
320#
321# Here is a digital loggers power switch example
322#POWER_CYCLE = wget --no-proxy -O /dev/null -q  --auth-no-challenge 'http://admin:admin@power/outlet?5=CCL'
323#
324# Here is an example to reboot a virtual box on the current host
325# with the name "Guest".
326#POWER_CYCLE = virsh destroy Guest; sleep 5; virsh start Guest
327
328# The script or command that reads the console
329#
330#  If you use ttywatch server, something like the following would work.
331#CONSOLE = nc -d localhost 3001
332#
333# For a virtual machine with guest name "Guest".
334#CONSOLE =  virsh console Guest
335
336# Signal to send to kill console.
337# ktest.pl will create a child process to monitor the console.
338# When the console is finished, ktest will kill the child process
339# with this signal.
340# (default INT)
341#CLOSE_CONSOLE_SIGNAL = HUP
342
343# Required version ending to differentiate the test
344# from other linux builds on the system.
345#LOCALVERSION = -test
346
347# For REBOOT_TYPE = grub2, you must specify where the grub.cfg
348# file is. This is the file that is searched to find the menu
349# option to boot to with GRUB_REBOOT
350#GRUB_FILE = /boot/grub2/grub.cfg
351
352# The tool for REBOOT_TYPE = grub2 or grub2bls to set the next reboot kernel
353# to boot into (one shot mode).
354# (default grub2_reboot)
355#GRUB_REBOOT = grub2_reboot
356
357# The grub title name for the test kernel to boot
358# (Only mandatory if REBOOT_TYPE = grub or grub2 or grub2bls)
359#
360# Note, ktest.pl will not update the grub menu.lst, you need to
361# manually add an option for the test. ktest.pl will search
362# the grub menu.lst for this option to find what kernel to
363# reboot into.
364#
365# For example, if in the /boot/grub/menu.lst the test kernel title has:
366# title Test Kernel
367# kernel vmlinuz-test
368#
369# For grub2, a search of top level "menuentry"s are done. No
370# submenu is searched. The menu is found by searching for the
371# contents of GRUB_MENU in the line that starts with "menuentry".
372# You may want to include the quotes around the option. For example:
373# for: menuentry 'Test Kernel'
374# do a: GRUB_MENU = 'Test Kernel'
375# For customizing, add your entry in /etc/grub.d/40_custom.
376#
377# For grub2bls, a search of "title"s are done. The menu is found
378# by searching for the contents of GRUB_MENU in the line that starts
379# with "title".
380#
381#GRUB_MENU = Test Kernel
382
383# For REBOOT_TYPE = syslinux, the name of the syslinux executable
384# (on the target) to use to set up the next reboot to boot the
385# test kernel.
386# (default extlinux)
387#SYSLINUX = syslinux
388
389# For REBOOT_TYPE = syslinux, the path that is passed to to the
390# syslinux command where syslinux is installed.
391# (default /boot/extlinux)
392#SYSLINUX_PATH = /boot/syslinux
393
394# For REBOOT_TYPE = syslinux, the syslinux label that references the
395# test kernel in the syslinux config file.
396# (default undefined)
397#SYSLINUX_LABEL = "test-kernel"
398
399# A script to reboot the target into the test kernel
400# This and SWITCH_TO_TEST are about the same, except
401# SWITCH_TO_TEST is run even for REBOOT_TYPE = grub.
402# This may be left undefined.
403# (default undefined)
404#REBOOT_SCRIPT =
405
406#### Optional Config Options (all have defaults) ####
407
408# Email options for receiving notifications. Users must setup
409# the specified mailer prior to using this feature.
410#
411# (default undefined)
412#MAILTO =
413#
414# Supported mailers: sendmail, mail, mailx
415# (default sendmail)
416#MAILER = sendmail
417#
418# The executable to run
419# (default: for sendmail "/usr/sbin/sendmail", otherwise equals ${MAILER})
420#MAIL_EXEC = /usr/sbin/sendmail
421#
422# The command used to send mail, which uses the above options
423# can be modified. By default if the mailer is "sendmail" then
424#  MAIL_COMMAND = echo \'Subject: $SUBJECT\n\n$MESSAGE\' | $MAIL_PATH/$MAILER -t $MAILTO
425# For mail or mailx:
426#  MAIL_COMMAND = "$MAIL_PATH/$MAILER -s \'$SUBJECT\' $MAILTO <<< \'$MESSAGE\'
427# ktest.pl will do the substitution for MAIL_PATH, MAILER, MAILTO at the time
428#    it sends the mail if "$FOO" format is used. If "${FOO}" format is used,
429#    then the substitutions will occur at the time the config file is read.
430#    But note, MAIL_PATH and MAILER require being set by the config file if
431#     ${MAIL_PATH} or ${MAILER} are used, but not if $MAIL_PATH or $MAILER are.
432#MAIL_COMMAND = echo \'Subject: $SUBJECT\n\n$MESSAGE\' | $MAIL_PATH/$MAILER -t $MAILTO
433#
434# Errors are defined as those would terminate the script
435# (default 1)
436#EMAIL_ON_ERROR = 1
437# (default 1)
438#EMAIL_WHEN_FINISHED = 1
439# (default 0)
440#EMAIL_WHEN_STARTED = 1
441#
442# Users can cancel the test by Ctrl^C
443# (default 0)
444#EMAIL_WHEN_CANCELED = 1
445#
446# If a test ends with an error and EMAIL_ON_ERROR is set as well
447# as a LOG_FILE is defined, then the log of the failing test will
448# be included in the email that is sent.
449# It is possible that the log may be very large, in which case,
450# only the last amount of the log should be sent. To limit how
451# much of the log is sent, set MAIL_MAX_SIZE. This will be the
452# size in bytes of the last portion of the log of the failed
453# test file. That is, if this is set to 100000, then only the
454# last 100 thousand bytes of the log file will be included in
455# the email.
456# (default undef)
457#MAIL_MAX_SIZE = 1000000
458
459# Start a test setup. If you leave this off, all options
460# will be default and the test will run once.
461# This is a label and not really an option (it takes no value).
462# You can append ITERATE and a number after it to iterate the
463# test a number of times, or SKIP to ignore this test.
464#
465#TEST_START
466#TEST_START ITERATE 5
467#TEST_START SKIP
468
469# Have the following options as default again. Used after tests
470# have already been defined by TEST_START. Optionally, you can
471# just define all default options before the first TEST_START
472# and you do not need this option.
473#
474# This is a label and not really an option (it takes no value).
475# You can append SKIP to this label and the options within this
476# section will be ignored.
477#
478# DEFAULTS
479# DEFAULTS SKIP
480
481# If you want to execute some command before the first test runs
482# you can set this option. Note, it can be set as a default option
483# or an option in the first test case. All other test cases will
484# ignore it. If both the default and first test have this option
485# set, then the first test will take precedence.
486#
487# default (undefined)
488#PRE_KTEST = ${SSH} ~/set_up_test
489
490# If you want to execute some command after all the tests have
491# completed, you can set this option. Note, it can be set as a
492# default or any test case can override it. If multiple test cases
493# set this option, then the last test case that set it will take
494# precedence
495#
496# default (undefined)
497#POST_KTEST = ${SSH} ~/dismantle_test
498
499# If you want to remove the kernel entry in Boot Loader Specification (BLS)
500# environment, use kernel-install command.
501# Here's the example:
502#POST_KTEST = ssh root@Test "/usr/bin/kernel-install remove $KERNEL_VERSION"
503
504# The default test type (default test)
505# The test types may be:
506#   build   - only build the kernel, do nothing else
507#   install - build and install, but do nothing else (does not reboot)
508#   boot    - build, install, and boot the kernel
509#   test    - build, boot and if TEST is set, run the test script
510#          (If TEST is not set, it defaults back to boot)
511#   bisect - Perform a bisect on the kernel (see BISECT_TYPE below)
512#   patchcheck - Do a test on a series of commits in git (see PATCHCHECK below)
513#TEST_TYPE = test
514
515# Test to run if there is a successful boot and TEST_TYPE is test.
516# Must exit with 0 on success and non zero on error
517# default (undefined)
518#TEST = ssh user@machine /root/run_test
519
520# The build type is any make config type or special command
521#  (default oldconfig)
522#   nobuild - skip the clean and build step
523#   useconfig:/path/to/config - use the given config and run
524#              oldconfig on it.
525# This option is ignored if TEST_TYPE is patchcheck or bisect
526#BUILD_TYPE = randconfig
527
528# The make command (default make)
529# If you are building a 32bit x86 on a 64 bit host
530#MAKE_CMD = CC=i386-gcc AS=i386-as make ARCH=i386
531
532# Any build options for the make of the kernel (not for other makes, like configs)
533# (default "")
534#BUILD_OPTIONS = -j20
535
536# If you need to do some special handling before installing
537# you can add a script with this option.
538# The environment variable KERNEL_VERSION will be set to the
539# kernel version that is used.
540#
541# default (undefined)
542#PRE_INSTALL = ssh user@target rm -rf '/lib/modules/*-test*'
543
544# If you need an initrd, you can add a script or code here to install
545# it. The environment variable KERNEL_VERSION will be set to the
546# kernel version that is used. Remember to add the initrd line
547# to your grub menu.lst file.
548#
549# Here's a couple of examples to use:
550#POST_INSTALL = ssh user@target /sbin/mkinitrd --allow-missing -f /boot/initramfs-test.img $KERNEL_VERSION
551#
552# or on some systems:
553#POST_INSTALL = ssh user@target /sbin/dracut -f /boot/initramfs-test.img $KERNEL_VERSION
554
555# If you want to add the kernel entry in Boot Loader Specification (BLS)
556# environment, use kernel-install command.
557# Here's the example:
558#POST_INSTALL = ssh root@Test "/usr/bin/kernel-install add $KERNEL_VERSION /boot/vmlinuz-$KERNEL_VERSION"
559
560# If for some reason you just want to boot the kernel and you do not
561# want the test to install anything new. For example, you may just want
562# to boot test the same kernel over and over and do not want to go through
563# the hassle of installing anything, you can set this option to 1
564# (default 0)
565#NO_INSTALL = 1
566
567# If there is a command that you want to run before the individual test
568# case executes, then you can set this option
569#
570# default (undefined)
571#PRE_TEST = ${SSH} reboot_to_special_kernel
572
573# To kill the entire test if PRE_TEST is defined but fails set this
574# to 1.
575# (default 0)
576#PRE_TEST_DIE = 1
577
578# If there is a command you want to run after the individual test case
579# completes, then you can set this option.
580#
581# default (undefined)
582#POST_TEST = cd ${BUILD_DIR}; git reset --hard
583
584# If there is a script that you require to run before the build is done
585# you can specify it with PRE_BUILD.
586#
587# One example may be if you must add a temporary patch to the build to
588# fix a unrelated bug to perform a patchcheck test. This will apply the
589# patch before each build that is made. Use the POST_BUILD to do a git reset --hard
590# to remove the patch.
591#
592# (default undef)
593#PRE_BUILD = cd ${BUILD_DIR} && patch -p1 < /tmp/temp.patch
594
595# To specify if the test should fail if the PRE_BUILD fails,
596# PRE_BUILD_DIE needs to be set to 1. Otherwise the PRE_BUILD
597# result is ignored.
598# (default 0)
599# PRE_BUILD_DIE = 1
600
601# If there is a script that should run after the build is done
602# you can specify it with POST_BUILD.
603#
604# As the example in PRE_BUILD, POST_BUILD can be used to reset modifications
605# made by the PRE_BUILD.
606#
607# (default undef)
608#POST_BUILD = cd ${BUILD_DIR} && git reset --hard
609
610# To specify if the test should fail if the POST_BUILD fails,
611# POST_BUILD_DIE needs to be set to 1. Otherwise the POST_BUILD
612# result is ignored.
613# (default 0)
614#POST_BUILD_DIE = 1
615
616# Way to reboot the box to the test kernel.
617# Only valid options so far are "grub", "grub2", "syslinux" and "script"
618# (default grub)
619# If you specify grub, it will assume grub version 1
620# and will search in /boot/grub/menu.lst for the title $GRUB_MENU
621# and select that target to reboot to the kernel. If this is not
622# your setup, then specify "script" and have a command or script
623# specified in REBOOT_SCRIPT to boot to the target.
624#
625# For REBOOT_TYPE = grub2, you must define both GRUB_MENU and
626# GRUB_FILE.
627#
628# For REBOOT_TYPE = grub2bls, you must define GRUB_MENU.
629#
630# For REBOOT_TYPE = syslinux, you must define SYSLINUX_LABEL, and
631# perhaps modify SYSLINUX (default extlinux) and SYSLINUX_PATH
632# (default /boot/extlinux)
633#
634# The entry in /boot/grub/menu.lst must be entered in manually.
635# The test will not modify that file.
636#REBOOT_TYPE = grub
637
638# If you are using a machine that doesn't boot with grub, and
639# perhaps gets its kernel from a remote server (tftp), then
640# you can use this option to update the target image with the
641# test image.
642#
643# You could also do the same with POST_INSTALL, but the difference
644# between that option and this option is that POST_INSTALL runs
645# after the install, where this one runs just before a reboot.
646# (default undefined)
647#SWITCH_TO_TEST = cp ${OUTPUT_DIR}/${BUILD_TARGET} ${TARGET_IMAGE}
648
649# If you are using a machine that doesn't boot with grub, and
650# perhaps gets its kernel from a remote server (tftp), then
651# you can use this option to update the target image with the
652# the known good image to reboot safely back into.
653#
654# This option holds a command that will execute before needing
655# to reboot to a good known image.
656# (default undefined)
657#SWITCH_TO_GOOD = ssh ${SSH_USER}/${MACHINE} cp good_image ${TARGET_IMAGE}
658
659# The min config that is needed to build for the machine
660# A nice way to create this is with the following:
661#
662#   $ ssh target
663#   $ lsmod > mymods
664#   $ scp mymods host:/tmp
665#   $ exit
666#   $ cd linux.git
667#   $ rm .config
668#   $ make LSMOD=mymods localyesconfig
669#   $ grep '^CONFIG' .config > /home/test/config-min
670#
671# If you want even less configs:
672#
673#   log in directly to target (do not ssh)
674#
675#   $ su
676#   # lsmod | cut -d' ' -f1 | xargs rmmod
677#
678#   repeat the above several times
679#
680#   # lsmod > mymods
681#   # reboot
682#
683# May need to reboot to get your network back to copy the mymods
684# to the host, and then remove the previous .config and run the
685# localyesconfig again. The CONFIG_MIN generated like this will
686# not guarantee network activity to the box so the TEST_TYPE of
687# test may fail.
688#
689# You might also want to set:
690#   CONFIG_CMDLINE="<your options here>"
691#  randconfig may set the above and override your real command
692#  line options.
693# (default undefined)
694#MIN_CONFIG = /home/test/config-min
695
696# Sometimes there's options that just break the boot and
697# you do not care about. Here are a few:
698#   # CONFIG_STAGING is not set
699#  Staging drivers are horrible, and can break the build.
700#   # CONFIG_SCSI_DEBUG is not set
701#  SCSI_DEBUG may change your root partition
702#   # CONFIG_KGDB_SERIAL_CONSOLE is not set
703#  KGDB may cause oops waiting for a connection that's not there.
704# This option points to the file containing config options that will be prepended
705# to the MIN_CONFIG (or be the MIN_CONFIG if it is not set)
706#
707# Note, config options in MIN_CONFIG will override these options.
708#
709# (default undefined)
710#ADD_CONFIG = /home/test/config-broken
711
712# The location on the host where to write temp files
713# (default /tmp/ktest/${MACHINE})
714#TMP_DIR = /tmp/ktest/${MACHINE}
715
716# Optional log file to write the status (recommended)
717#  Note, this is a DEFAULT section only option.
718# (default undefined)
719#LOG_FILE = /home/test/logfiles/target.log
720
721# Remove old logfile if it exists before starting all tests.
722#  Note, this is a DEFAULT section only option.
723# (default 0)
724#CLEAR_LOG = 0
725
726# Line to define a successful boot up in console output.
727# This is what the line contains, not the entire line. If you need
728# the entire line to match, then use regular expression syntax like:
729#  (do not add any quotes around it)
730#
731#  SUCCESS_LINE = ^MyBox Login:$
732#
733# (default "login:")
734#SUCCESS_LINE = login:
735
736# To speed up between reboots, defining a line that the
737# default kernel produces that represents that the default
738# kernel has successfully booted and can be used to pass
739# a new test kernel to it. Otherwise ktest.pl will wait till
740# SLEEP_TIME to continue.
741# (default undefined)
742#REBOOT_SUCCESS_LINE = login:
743
744# In case the console constantly fills the screen, having
745# a specified time to stop the test after success is recommended.
746# (in seconds)
747# (default 10)
748#STOP_AFTER_SUCCESS = 10
749
750# In case the console constantly fills the screen, having
751# a specified time to stop the test after failure is recommended.
752# (in seconds)
753# (default 60)
754#STOP_AFTER_FAILURE = 60
755
756# In case the console constantly fills the screen, having
757# a specified time to stop the test if it never succeeds nor fails
758# is recommended.
759# Note: this is ignored if a success or failure is detected.
760# (in seconds)
761# (default 600, -1 is to never stop)
762#STOP_TEST_AFTER = 600
763
764# Stop testing if a build fails. If set, the script will end if
765# a failure is detected, otherwise it will save off the .config,
766# dmesg and bootlog in a directory called
767# MACHINE-TEST_TYPE_BUILD_TYPE-fail-yyyymmddhhmmss
768# if the STORE_FAILURES directory is set.
769# (default 1)
770# Note, even if this is set to zero, there are some errors that still
771# stop the tests.
772#DIE_ON_FAILURE = 1
773
774# Directory to store failure directories on failure. If this is not
775# set, DIE_ON_FAILURE=0 will not save off the .config, dmesg and
776# bootlog. This option is ignored if DIE_ON_FAILURE is not set.
777# (default undefined)
778#STORE_FAILURES = /home/test/failures
779
780# Directory to store success directories on success. If this is not
781# set, the .config, dmesg and bootlog will not be saved if a
782# test succeeds.
783# (default undefined)
784#STORE_SUCCESSES = /home/test/successes
785
786# Build without doing a make mrproper, or removing .config
787# (default 0)
788#BUILD_NOCLEAN = 0
789
790# As the test reads the console, after it hits the SUCCESS_LINE
791# the time it waits for the monitor to settle down between reads
792# can usually be lowered.
793# (in seconds) (default 1)
794#BOOTED_TIMEOUT = 1
795
796# The timeout in seconds when we consider the box hung after
797# the console stop producing output. Be sure to leave enough
798# time here to get pass a reboot. Some machines may not produce
799# any console output for a long time during a reboot. You do
800# not want the test to fail just because the system was in
801# the process of rebooting to the test kernel.
802# (default 120)
803#TIMEOUT = 120
804
805# The timeout in seconds when to test if the box can be rebooted
806# or not. Before issuing the reboot command, a ssh connection
807# is attempted to see if the target machine is still active.
808# If the target does not connect within this timeout, a power cycle
809# is issued instead of a reboot.
810# CONNECT_TIMEOUT = 25
811
812# In between tests, a reboot of the box may occur, and this
813# is the time to wait for the console after it stops producing
814# output. Some machines may not produce a large lag on reboot
815# so this should accommodate it.
816# The difference between this and TIMEOUT, is that TIMEOUT happens
817# when rebooting to the test kernel. This sleep time happens
818# after a test has completed and we are about to start running
819# another test. If a reboot to the reliable kernel happens,
820# we wait SLEEP_TIME for the console to stop producing output
821# before starting the next test.
822#
823# You can speed up reboot times even more by setting REBOOT_SUCCESS_LINE.
824# (default 60)
825#SLEEP_TIME = 60
826
827# The time in between bisects to sleep (in seconds)
828# (default 60)
829#BISECT_SLEEP_TIME = 60
830
831# The max wait time (in seconds) for waiting for the console to finish.
832# If for some reason, the console is outputting content without
833# ever finishing, this will cause ktest to get stuck. This
834# option is the max time ktest will wait for the monitor (console)
835# to settle down before continuing.
836# (default 1800)
837#MAX_MONITOR_WAIT
838
839# The time in between patch checks to sleep (in seconds)
840# (default 60)
841#PATCHCHECK_SLEEP_TIME = 60
842
843# Reboot the target box on error (default 0)
844#REBOOT_ON_ERROR = 0
845
846# Power off the target on error (ignored if REBOOT_ON_ERROR is set)
847#  Note, this is a DEFAULT section only option.
848# (default 0)
849#POWEROFF_ON_ERROR = 0
850
851# Power off the target after all tests have completed successfully
852#  Note, this is a DEFAULT section only option.
853# (default 0)
854#POWEROFF_ON_SUCCESS = 0
855
856# Reboot the target after all test completed successfully (default 1)
857# (ignored if POWEROFF_ON_SUCCESS is set)
858#REBOOT_ON_SUCCESS = 1
859
860# In case there are issues with rebooting, you can specify this
861# to always powercycle after this amount of time after calling
862# reboot.
863# Note, POWERCYCLE_AFTER_REBOOT = 0 does NOT disable it. It just
864# makes it powercycle immediately after rebooting. Do not define
865# it if you do not want it.
866# (default undefined)
867#POWERCYCLE_AFTER_REBOOT = 5
868
869# In case there's issues with halting, you can specify this
870# to always poweroff after this amount of time after calling
871# halt.
872# Note, POWEROFF_AFTER_HALT = 0 does NOT disable it. It just
873# makes it poweroff immediately after halting. Do not define
874# it if you do not want it.
875# (default undefined)
876#POWEROFF_AFTER_HALT = 20
877
878# A script or command to power off the box (default undefined)
879# Needed for POWEROFF_ON_ERROR and SUCCESS
880#
881# Example for digital loggers power switch:
882#POWER_OFF = wget --no-proxy -O /dev/null -q  --auth-no-challenge 'http://admin:admin@power/outlet?5=OFF'
883#
884# Example for a virtual guest call "Guest".
885#POWER_OFF = virsh destroy Guest
886
887# To have the build fail on "new" warnings, create a file that
888# contains a list of all known warnings (they must match exactly
889# to the line with 'warning:', 'error:' or 'Error:'. If the option
890# WARNINGS_FILE is set, then that file will be read, and if the
891# build detects a warning, it will examine this file and if the
892# warning does not exist in it, it will fail the build.
893#
894# Note, if this option is defined to a file that does not exist
895# then any warning will fail the build.
896#  (see make_warnings_file below)
897#
898# (optional, default undefined)
899#WARNINGS_FILE = ${OUTPUT_DIR}/warnings_file
900
901# The way to execute a command on the target
902# (default ssh $SSH_USER@$MACHINE $SSH_COMMAND";)
903# The variables SSH_USER, MACHINE and SSH_COMMAND are defined
904#SSH_EXEC = ssh $SSH_USER@$MACHINE $SSH_COMMAND";
905
906# The way to copy a file to the target (install and modules)
907# (default scp $SRC_FILE $SSH_USER@$MACHINE:$DST_FILE)
908# The variables SSH_USER, MACHINE are defined by the config
909# SRC_FILE and DST_FILE are ktest internal variables and
910# should only have '$' and not the '${}' notation.
911# (default scp $SRC_FILE ${SSH_USER}@${MACHINE}:$DST_FILE)
912#SCP_TO_TARGET = echo skip scp for $SRC_FILE $DST_FILE
913
914# If install needs to be different than modules, then this
915# option will override the SCP_TO_TARGET for installation.
916# (default ${SCP_TO_TARGET} )
917#SCP_TO_TARGET_INSTALL = scp $SRC_FILE tftp@tftpserver:$DST_FILE
918
919# The nice way to reboot the target
920# (default ssh $SSH_USER@$MACHINE reboot)
921# The variables SSH_USER and MACHINE are defined.
922#REBOOT = ssh $SSH_USER@$MACHINE reboot
923
924# The return code of REBOOT
925# (default 255)
926#REBOOT_RETURN_CODE = 255
927
928# The way triple faults are detected is by testing the kernel
929# banner. If the kernel banner for the kernel we are testing is
930# found, and then later a kernel banner for another kernel version
931# is found, it is considered that we encountered a triple fault,
932# and there is no panic or callback, but simply a reboot.
933# To disable this (because it did a false positive) set the following
934# to 0.
935# (default 1)
936#DETECT_TRIPLE_FAULT = 0
937
938# All options in the config file should be either used by ktest
939# or could be used within a value of another option. If an option
940# in the config file is not used, ktest will warn about it and ask
941# if you want to continue.
942#
943# If you don't care if there are non-used options, enable this
944# option. Be careful though, a non-used option is usually a sign
945# of an option name being typed incorrectly.
946# (default 0)
947#IGNORE_UNUSED = 1
948
949# When testing a kernel that happens to have WARNINGs, and call
950# traces, ktest.pl will detect these and fail a boot or test run
951# due to warnings. By setting this option, ktest will ignore
952# call traces, and will not fail a test if the kernel produces
953# an oops. Use this option with care.
954# (default 0)
955#IGNORE_ERRORS = 1
956
957#### Per test run options ####
958# The following options are only allowed in TEST_START sections.
959# They are ignored in the DEFAULTS sections.
960#
961# All of these are optional and undefined by default, although
962#  some of these options are required for TEST_TYPE of patchcheck
963#  and bisect.
964#
965#
966# CHECKOUT = branch
967#
968#  If the BUILD_DIR is a git repository, then you can set this option
969#  to checkout the given branch before running the TEST. If you
970#  specify this for the first run, that branch will be used for
971#  all preceding tests until a new CHECKOUT is set.
972#
973#
974# TEST_NAME = name
975#
976#  If you want the test to have a name that is displayed in
977#  the test result banner at the end of the test, then use this
978#  option. This is useful to search for the RESULT keyword and
979#  not have to translate a test number to a test in the config.
980#
981# For TEST_TYPE = patchcheck
982#
983#  This expects the BUILD_DIR to be a git repository, and
984#  will checkout the PATCHCHECK_START commit.
985#
986#  The option BUILD_TYPE will be ignored.
987#
988#  The MIN_CONFIG will be used for all builds of the patchcheck. The build type
989#  used for patchcheck is oldconfig.
990#
991#  PATCHCHECK_START is required and is the first patch to
992#   test (the SHA1 of the commit). You may also specify anything
993#   that git checkout allows (branch name, tag, HEAD~3).
994#
995#  PATCHCHECK_END is the last patch to check (default HEAD)
996#
997#  PATCHCHECK_CHERRY if set to non zero, then git cherry will be
998#      performed against PATCHCHECK_START and PATCHCHECK_END. That is
999#
1000#      git cherry ${PATCHCHECK_START} ${PATCHCHECK_END}
1001#
1002#      Then the changes found will be tested.
1003#
1004#      Note, PATCHCHECK_CHERRY requires PATCHCHECK_END to be defined.
1005#      (default 0)
1006#
1007#  PATCHCHECK_TYPE is required and is the type of test to run:
1008#      build, boot, test.
1009#
1010#   Note, the build test will look for warnings, if a warning occurred
1011#     in a file that a commit touches, the build will fail, unless
1012#     IGNORE_WARNINGS is set for the given commit's sha1
1013#
1014#   IGNORE_WARNINGS can be used to disable the failure of patchcheck
1015#     on a particular commit (SHA1). You can add more than one commit
1016#     by adding a list of SHA1s that are space delimited.
1017#
1018#   If BUILD_NOCLEAN is set, then make mrproper will not be run on
1019#   any of the builds, just like all other TEST_TYPE tests. But
1020#   what makes patchcheck different from the other tests, is if
1021#   BUILD_NOCLEAN is not set, only the first and last patch run
1022#   make mrproper. This helps speed up the test.
1023#
1024# Example:
1025#   TEST_START
1026#   TEST_TYPE = patchcheck
1027#   CHECKOUT = mybranch
1028#   PATCHCHECK_TYPE = boot
1029#   PATCHCHECK_START = 747e94ae3d1b4c9bf5380e569f614eb9040b79e7
1030#   PATCHCHECK_END = HEAD~2
1031#   IGNORE_WARNINGS = 42f9c6b69b54946ffc0515f57d01dc7f5c0e4712 0c17ca2c7187f431d8ffc79e81addc730f33d128
1032#
1033#
1034#
1035# For TEST_TYPE = bisect
1036#
1037#  You can specify a git bisect if the BUILD_DIR is a git repository.
1038#  The MIN_CONFIG will be used for all builds of the bisect. The build type
1039#  used for bisecting is oldconfig.
1040#
1041#  The option BUILD_TYPE will be ignored.
1042#
1043#  BISECT_TYPE is the type of test to perform:
1044#	build	- bad fails to build
1045#	boot	- bad builds but fails to boot
1046#	test	- bad boots but fails a test
1047#
1048# BISECT_GOOD is the commit (SHA1) to label as good (accepts all git good commit types)
1049# BISECT_BAD is the commit to label as bad (accepts all git bad commit types)
1050#
1051# The above three options are required for a bisect operation.
1052#
1053# BISECT_REPLAY = /path/to/replay/file (optional, default undefined)
1054#
1055#   If an operation failed in the bisect that was not expected to
1056#   fail. Then the test ends. The state of the BUILD_DIR will be
1057#   left off at where the failure occurred. You can examine the
1058#   reason for the failure, and perhaps even find a git commit
1059#   that would work to continue with. You can run:
1060#
1061#   git bisect log > /path/to/replay/file
1062#
1063#   The adding:
1064#
1065#    BISECT_REPLAY= /path/to/replay/file
1066#
1067#   And running the test again. The test will perform the initial
1068#    git bisect start, git bisect good, and git bisect bad, and
1069#    then it will run git bisect replay on this file, before
1070#    continuing with the bisect.
1071#
1072# BISECT_START = commit (optional, default undefined)
1073#
1074#   As with BISECT_REPLAY, if the test failed on a commit that
1075#   just happen to have a bad commit in the middle of the bisect,
1076#   and you need to skip it. If BISECT_START is defined, it
1077#   will checkout that commit after doing the initial git bisect start,
1078#   git bisect good, git bisect bad, and running the git bisect replay
1079#   if the BISECT_REPLAY is set.
1080#
1081# BISECT_SKIP = 1 (optional, default 0)
1082#
1083#   If BISECT_TYPE is set to test but the build fails, ktest will
1084#   simply fail the test and end their. You could use BISECT_REPLAY
1085#   and BISECT_START to resume after you found a new starting point,
1086#   or you could set BISECT_SKIP to 1. If BISECT_SKIP is set to 1,
1087#   when something other than the BISECT_TYPE fails, ktest.pl will
1088#   run "git bisect skip" and try again.
1089#
1090# BISECT_FILES = <path> (optional, default undefined)
1091#
1092#   To just run the git bisect on a specific path, set BISECT_FILES.
1093#   For example:
1094#
1095#     BISECT_FILES = arch/x86 kernel/time
1096#
1097#   Will run the bisect with "git bisect start -- arch/x86 kernel/time"
1098#
1099# BISECT_REVERSE = 1 (optional, default 0)
1100#
1101#   In those strange instances where it was broken forever
1102#   and you are trying to find where it started to work!
1103#   Set BISECT_GOOD to the commit that was last known to fail
1104#   Set BISECT_BAD to the commit that is known to start working.
1105#   With BISECT_REVERSE = 1, The test will consider failures as
1106#   good, and success as bad.
1107#
1108# BISECT_MANUAL = 1 (optional, default 0)
1109#
1110#   In case there's a problem with automating the bisect for
1111#   whatever reason. (Can't reboot, want to inspect each iteration)
1112#   Doing a BISECT_MANUAL will have the test wait for you to
1113#   tell it if the test passed or failed after each iteration.
1114#   This is basically the same as running git bisect yourself
1115#   but ktest will rebuild and install the kernel for you.
1116#
1117# BISECT_CHECK = 1 (optional, default 0)
1118#
1119#   Just to be sure the good is good and bad is bad, setting
1120#   BISECT_CHECK to 1 will start the bisect by first checking
1121#   out BISECT_BAD and makes sure it fails, then it will check
1122#   out BISECT_GOOD and makes sure it succeeds before starting
1123#   the bisect (it works for BISECT_REVERSE too).
1124#
1125#   You can limit the test to just check BISECT_GOOD or
1126#   BISECT_BAD with BISECT_CHECK = good or
1127#   BISECT_CHECK = bad, respectively.
1128#
1129# BISECT_TRIES = 5 (optional, default 1)
1130#
1131#   For those cases that it takes several tries to hit a bug,
1132#   the BISECT_TRIES is useful. It is the number of times the
1133#   test is ran before it says the kernel is good. The first failure
1134#   will stop trying and mark the current SHA1 as bad.
1135#
1136#   Note, as with all race bugs, there's no guarantee that if
1137#   it succeeds, it is really a good bisect. But it helps in case
1138#   the bug is some what reliable.
1139#
1140#   You can set BISECT_TRIES to zero, and all tests will be considered
1141#   good, unless you also set BISECT_MANUAL.
1142#
1143# BISECT_RET_GOOD = 0 (optional, default undefined)
1144#
1145#   In case the specificed test returns something other than just
1146#   0 for good, and non-zero for bad, you can override 0 being
1147#   good by defining BISECT_RET_GOOD.
1148#
1149# BISECT_RET_BAD = 1 (optional, default undefined)
1150#
1151#   In case the specificed test returns something other than just
1152#   0 for good, and non-zero for bad, you can override non-zero being
1153#   bad by defining BISECT_RET_BAD.
1154#
1155# BISECT_RET_ABORT = 255 (optional, default undefined)
1156#
1157#   If you need to abort the bisect if the test discovers something
1158#   that was wrong, you can define BISECT_RET_ABORT to be the error
1159#   code returned by the test in order to abort the bisect.
1160#
1161# BISECT_RET_SKIP = 2 (optional, default undefined)
1162#
1163#   If the test detects that the current commit is neither good
1164#   nor bad, but something else happened (another bug detected)
1165#   you can specify BISECT_RET_SKIP to an error code that the
1166#   test returns when it should skip the current commit.
1167#
1168# BISECT_RET_DEFAULT = good (optional, default undefined)
1169#
1170#   You can override the default of what to do when the above
1171#   options are not hit. This may be one of, "good", "bad",
1172#   "abort" or "skip" (without the quotes).
1173#
1174#   Note, if you do not define any of the previous BISECT_RET_*
1175#   and define BISECT_RET_DEFAULT, all bisects results will do
1176#   what the BISECT_RET_DEFAULT has.
1177#
1178#
1179# Example:
1180#   TEST_START
1181#   TEST_TYPE = bisect
1182#   BISECT_GOOD = v2.6.36
1183#   BISECT_BAD = b5153163ed580e00c67bdfecb02b2e3843817b3e
1184#   BISECT_TYPE = build
1185#   MIN_CONFIG = /home/test/config-bisect
1186#
1187#
1188#
1189# For TEST_TYPE = config_bisect
1190#
1191#  In those cases that you have two different configs. One of them
1192#  work, the other does not, and you do not know what config causes
1193#  the problem.
1194#  The TEST_TYPE config_bisect will bisect the bad config looking for
1195#  what config causes the failure.
1196#
1197#  The way it works is this:
1198#
1199#   You can specify a good config with CONFIG_BISECT_GOOD, otherwise it
1200#   will use the MIN_CONFIG, and if that's not specified, it will use
1201#   the config that comes with "make defconfig".
1202#
1203#   It runs both the good and bad configs through a make oldconfig to
1204#   make sure that they are set up for the kernel that is checked out.
1205#
1206#   It then reads the configs that are set, as well as the ones that are
1207#   not set for both the good and bad configs, and then compares them.
1208#   It will set half of the good configs within the bad config (note,
1209#   "set" means to make the bad config match the good config, a config
1210#   in the good config that is off, will be turned off in the bad
1211#   config. That is considered a "set").
1212#
1213#   It tests this new config and if it works, it becomes the new good
1214#   config, otherwise it becomes the new bad config. It continues this
1215#   process until there's only one config left and it will report that
1216#   config.
1217#
1218#   The "bad config" can also be a config that is needed to boot but was
1219#   disabled because it depended on something that wasn't set.
1220#
1221#   During this process, it saves the current good and bad configs in
1222#   ${TMP_DIR}/good_config and ${TMP_DIR}/bad_config respectively.
1223#   If you stop the test, you can copy them to a new location to
1224#   reuse them again.
1225#
1226#   Although the MIN_CONFIG may be the config it starts with, the
1227#   MIN_CONFIG is ignored.
1228#
1229#  The option BUILD_TYPE will be ignored.
1230#
1231#  CONFIG_BISECT_TYPE is the type of test to perform:
1232#	build	- bad fails to build
1233#	boot	- bad builds but fails to boot
1234#	test	- bad boots but fails a test
1235#
1236#  CONFIG_BISECT is the config that failed to boot
1237#
1238#  If BISECT_MANUAL is set, it will pause between iterations.
1239#  This is useful to use just ktest.pl just for the config bisect.
1240#  If you set it to build, it will run the bisect and you can
1241#  control what happens in between iterations. It will ask you if
1242#  the test succeeded or not and continue the config bisect.
1243#
1244# CONFIG_BISECT_GOOD (optional)
1245#  If you have a good config to start with, then you
1246#  can specify it with CONFIG_BISECT_GOOD. Otherwise
1247#  the MIN_CONFIG is the base, if MIN_CONFIG is not set
1248#  It will build a config with "make defconfig"
1249#
1250# CONFIG_BISECT_CHECK (optional)
1251#  Set this to 1 if you want to confirm that the config ktest
1252#  generates (the bad config with the min config) is still bad.
1253#  It may be that the min config fixes what broke the bad config
1254#  and the test will not return a result.
1255#  Set it to "good" to test only the good config and set it
1256#  to "bad" to only test the bad config.
1257#
1258# CONFIG_BISECT_EXEC (optional)
1259#  The config bisect is a separate program that comes with ktest.pl.
1260#  By default, it will look for:
1261#    `pwd`/config-bisect.pl # the location ktest.pl was executed from.
1262#  If it does not find it there, it will look for:
1263#    `dirname <ktest.pl>`/config-bisect.pl # The directory that holds ktest.pl
1264#  If it does not find it there, it will look for:
1265#    ${BUILD_DIR}/tools/testing/ktest/config-bisect.pl
1266#  Setting CONFIG_BISECT_EXEC will override where it looks.
1267#
1268# Example:
1269#   TEST_START
1270#   TEST_TYPE = config_bisect
1271#   CONFIG_BISECT_TYPE = build
1272#   CONFIG_BISECT = /home/test/config-bad
1273#   MIN_CONFIG = /home/test/config-min
1274#   BISECT_MANUAL = 1
1275#
1276#
1277#
1278# For TEST_TYPE = make_min_config
1279#
1280#  After doing a make localyesconfig, your kernel configuration may
1281#  not be the most useful minimum configuration. Having a true minimum
1282#  config that you can use against other configs is very useful if
1283#  someone else has a config that breaks on your code. By only forcing
1284#  those configurations that are truly required to boot your machine
1285#  will give you less of a chance that one of your set configurations
1286#  will make the bug go away. This will give you a better chance to
1287#  be able to reproduce the reported bug matching the broken config.
1288#
1289#  Note, this does take some time, and may require you to run the
1290#  test over night, or perhaps over the weekend. But it also allows
1291#  you to interrupt it, and gives you the current minimum config
1292#  that was found till that time.
1293#
1294#  Note, this test automatically assumes a BUILD_TYPE of oldconfig
1295#  and its test type acts like boot.
1296#  TODO: add a test version that makes the config do more than just
1297#   boot, like having network access.
1298#
1299#  To save time, the test does not just grab any option and test
1300#  it. The Kconfig files are examined to determine the dependencies
1301#  of the configs. If a config is chosen that depends on another
1302#  config, that config will be checked first. By checking the
1303#  parents first, we can eliminate whole groups of configs that
1304#  may have been enabled.
1305#
1306#  For example, if a USB device config is chosen and depends on CONFIG_USB,
1307#  the CONFIG_USB will be tested before the device. If CONFIG_USB is
1308#  found not to be needed, it, as well as all configs that depend on
1309#  it, will be disabled and removed from the current min_config.
1310#
1311#  OUTPUT_MIN_CONFIG is the path and filename of the file that will
1312#   be created from the MIN_CONFIG. If you interrupt the test, set
1313#   this file as your new min config, and use it to continue the test.
1314#   This file does not need to exist on start of test.
1315#   This file is not created until a config is found that can be removed.
1316#   If this file exists, you will be prompted if you want to use it
1317#   as the min_config (overriding MIN_CONFIG) if START_MIN_CONFIG
1318#   is not defined.
1319#   (required field)
1320#
1321#  START_MIN_CONFIG is the config to use to start the test with.
1322#   you can set this as the same OUTPUT_MIN_CONFIG, but if you do
1323#   the OUTPUT_MIN_CONFIG file must exist.
1324#   (default MIN_CONFIG)
1325#
1326#  IGNORE_CONFIG is used to specify a config file that has configs that
1327#   you already know must be set. Configs are written here that have
1328#   been tested and proved to be required. It is best to define this
1329#   file if you intend on interrupting the test and running it where
1330#   it left off. New configs that it finds will be written to this file
1331#   and will not be tested again in later runs.
1332#   (optional)
1333#
1334#  MIN_CONFIG_TYPE can be either 'boot' or 'test'. With 'boot' it will
1335#   test if the created config can just boot the machine. If this is
1336#   set to 'test', then the TEST option must be defined and the created
1337#   config will not only boot the target, but also make sure that the
1338#   config lets the test succeed. This is useful to make sure the final
1339#   config that is generated allows network activity (ssh).
1340#   (optional)
1341#
1342#  USE_OUTPUT_MIN_CONFIG set this to 1 if you do not want to be prompted
1343#   about using the OUTPUT_MIN_CONFIG as the MIN_CONFIG as the starting
1344#   point. Set it to 0 if you want to always just use the given MIN_CONFIG.
1345#   If it is not defined, it will prompt you to pick which config
1346#   to start with (MIN_CONFIG or OUTPUT_MIN_CONFIG).
1347#
1348# Example:
1349#
1350#  TEST_TYPE = make_min_config
1351#  OUTPUT_MIN_CONFIG = /path/to/config-new-min
1352#  START_MIN_CONFIG = /path/to/config-min
1353#  IGNORE_CONFIG = /path/to/config-tested
1354#  MIN_CONFIG_TYPE = test
1355#  TEST = ssh ${USER}@${MACHINE} echo hi
1356#
1357#
1358#
1359#
1360# For TEST_TYPE = make_warnings_file
1361#
1362# If you want the build to fail when a new warning is discovered
1363# you set the WARNINGS_FILE to point to a file of known warnings.
1364#
1365# The test "make_warnings_file" will let you create a new warnings
1366# file before you run other tests, like patchcheck.
1367#
1368# What this test does is to run just a build, you still need to
1369# specify BUILD_TYPE to tell the test what type of config to use.
1370# A BUILD_TYPE of nobuild will fail this test.
1371#
1372# The test will do the build and scan for all warnings. Any warning
1373# it discovers will be saved in the WARNINGS_FILE (required) option.
1374#
1375# It is recommended (but not necessary) to make sure BUILD_NOCLEAN is
1376# off, so that a full build is done (make mrproper is performed).
1377# That way, all warnings will be captured.
1378#
1379# Example:
1380#
1381#  TEST_TYPE = make_warnings_file
1382#  WARNINGS_FILE = ${OUTPUT_DIR}
1383#  BUILD_TYPE = useconfig:oldconfig
1384#  CHECKOUT = v3.8
1385#  BUILD_NOCLEAN = 0
1386#
1387