crash/README - pub/scm/fs/xfs/xfstests-dev - Git at Google

 ############
 # xfscrash #  crash testing setup for XFS
 ############

 *** disclaimers ***

     work-in-progress, buyer-beware, your-mileage-may-vary, this-is-a-hack

 *** what xfscrash does ***

     xfscrash allows realistic testing of XFS log recovery and XFS check/repair
     by generating log activity on an XFS partition, then rebooting the machine
     at a random point. When the machine comes back up, xfscrash is restarted
     and then tests either the log recovery or xfs_repair on the dirtied
     filesystem. All going well the process continues.

 *** getting ready for crash testing ***

     Most filesystems (ext2 included) can't withstand having the machine
     they're running on rebooted while they're active. So the crash test
     machine needs to have all filesystems other than the test FS mounted
     read-only so they won't get trashed when the machine reboots.

 *** mouting FSes read-only ***

     Following is a recipe for making a redhat linux (6.2) machine with a single
     ext2 FS mounted on root able to be booted read-only. Your Mileage May
     Vary - don't try this on an important machine.

     The idea is to move anything that needs to be r/w into the /initrd_init
     directory, replacing the moved directories with links to the moved ones.
     That way the /initrd_init directory may be copied to a ramdisk, and
     mounted over /initrd on the root FS which never gets remounted r/w.

         # go to single user
         init 1

         # make a mount point for the ramdisk
         mkdir /initrd

         # link across to the /initrd_init directory for when
         # the ramdisk isn't mounted
         ln -s /initrd_init/dev .
         ln -s /initrd_init/etc .
         ln -s /initrd_init/proc .
         ln -s /initrd_init/sbin .
         ln -s /initrd_init/tmp .
         ln -s /initrd_init/var .

         # make the /initrd_init directory
         mkdir /initrd_init
         cd /initrd_init


         # move /dev
         mv /dev .
         ln -s /dev /initrd/dev

         # move /etc
         mv /etc .
         ln -s /etc /initrd/etc

         # make proc mount
         mkdir proc

         # move /tmp
         mkdir tmp
         rm -rf /tmp
         ln -s /tmp /initrd/tmp

         # link /sbin
         ln -s /sbin .

         # setup a tree for parts of /var
         mkdir var var/cache var/lock var/lock/console var/lock/subsys
         mkdir var/log var/preserve var/run

         touch /var/run/utmp /var/log/utmp /var/log/wtmp

         # move parts of /var
         rm -rf /var/cache /var/lock /var/log /var/preserve /var/run
         ln -s /initrd/var/cache /var/cache
         ln -s /initrd/var/lock /var/lock
         ln -s /initrd/var/log /var/log
         ln -s /initrd/var/preserve /var/preserve
         ln -s /initrd/var/run /var/run

         # make a mount for /var/shm
         mkdir var/shm
         ln -s /var/shm /initrd/var/shm

         # move /var/spool
         mkdir var/spool
         mkdir var/spool/mail var/spool/anacron var/spool/at var/spool/lpd
         mkdir var/spool/rwho var/spool/mqueue var/spool/cron
         rm -rf /var/spool
         ln -s /var/spool /initrd/var/spool

         # move /var/tmp
         mkdir var/tmp
         rm -rf /var/tmp
         ln -s /var/tmp /initrd/var/tmp

         # trim /dev - too many inodes here - remove anything you don't need
         # (small ramdisk has a small number of inodes)
         rm -rf /initrd/dev/<....>

     All going well, all the directories you've made should link through
     /initrd and into /initrd_init, and the machine should come back up
     if you restart it.

     You want to keep the contents of /initrd_init to a minimum because
     this stuff has to fit into the ramdisk.

 *** getting the ramdisk going ***

     See the rc.sysinit file for some details of what to do to get the
     ro-root/ramdisk up and running.

     Once everything is going, the root FS should never be remounted to
     r/w on boot and should be in r/o mode when the machine comes up.

     All going well, any open files have been redirected through the
     symlinks onto the ramdisk, so you should be able to remount the
     root FS to r/w and then remount it back to r/o.

     Since there's no r/w filesystems mounted, it should be ok to
     reboot the machine with 'reboot -fn' and everything should come
     back without dirty filesystems and without having to fsck.

 *** starting xfscrash ***

     The simplest way to restart xfscrash on reboot is to start it
     in the background from rc.local. The script logs to /dev/tty1,
     /dev/console & a logfile by default, so the output should be
     easy to find.

     Link the xfscrash directory off an NFS mounted FS so you can make
     changes while the machine is rebooting and so you can touch the
     'stop' and 'start' control files.

     To configure the system, change the parameters in the configuration
     section of the 'xfscrash' script.

     To start the system, touch the 'start' control file and then either
     reboot or manually run the 'xfscrash' script.

     To stop the system, touch the 'stop' control file and wait for the
     next cycle to start when the control file will be checked and
     the test terminated.
	############
	# xfscrash # crash testing setup for XFS
	############

	* disclaimers *

	work-in-progress, buyer-beware, your-mileage-may-vary, this-is-a-hack

	* what xfscrash does *

	xfscrash allows realistic testing of XFS log recovery and XFS check/repair
	by generating log activity on an XFS partition, then rebooting the machine
	at a random point. When the machine comes back up, xfscrash is restarted
	and then tests either the log recovery or xfs_repair on the dirtied
	filesystem. All going well the process continues.

	* getting ready for crash testing *

	Most filesystems (ext2 included) can't withstand having the machine
	they're running on rebooted while they're active. So the crash test
	machine needs to have all filesystems other than the test FS mounted
	read-only so they won't get trashed when the machine reboots.

	* mouting FSes read-only *

	Following is a recipe for making a redhat linux (6.2) machine with a single
	ext2 FS mounted on root able to be booted read-only. Your Mileage May
	Vary - don't try this on an important machine.

	The idea is to move anything that needs to be r/w into the /initrd_init
	directory, replacing the moved directories with links to the moved ones.
	That way the /initrd_init directory may be copied to a ramdisk, and
	mounted over /initrd on the root FS which never gets remounted r/w.

	# go to single user
	init 1

	# make a mount point for the ramdisk
	mkdir /initrd

	# link across to the /initrd_init directory for when
	# the ramdisk isn't mounted
	ln -s /initrd_init/dev .
	ln -s /initrd_init/etc .
	ln -s /initrd_init/proc .
	ln -s /initrd_init/sbin .
	ln -s /initrd_init/tmp .
	ln -s /initrd_init/var .

	# make the /initrd_init directory
	mkdir /initrd_init
	cd /initrd_init


	# move /dev
	mv /dev .
	ln -s /dev /initrd/dev

	# move /etc
	mv /etc .
	ln -s /etc /initrd/etc

	# make proc mount
	mkdir proc

	# move /tmp
	mkdir tmp
	rm -rf /tmp
	ln -s /tmp /initrd/tmp

	# link /sbin
	ln -s /sbin .

	# setup a tree for parts of /var
	mkdir var var/cache var/lock var/lock/console var/lock/subsys
	mkdir var/log var/preserve var/run

	touch /var/run/utmp /var/log/utmp /var/log/wtmp

	# move parts of /var
	rm -rf /var/cache /var/lock /var/log /var/preserve /var/run
	ln -s /initrd/var/cache /var/cache
	ln -s /initrd/var/lock /var/lock
	ln -s /initrd/var/log /var/log
	ln -s /initrd/var/preserve /var/preserve
	ln -s /initrd/var/run /var/run

	# make a mount for /var/shm
	mkdir var/shm
	ln -s /var/shm /initrd/var/shm

	# move /var/spool
	mkdir var/spool
	mkdir var/spool/mail var/spool/anacron var/spool/at var/spool/lpd
	mkdir var/spool/rwho var/spool/mqueue var/spool/cron
	rm -rf /var/spool
	ln -s /var/spool /initrd/var/spool

	# move /var/tmp
	mkdir var/tmp
	rm -rf /var/tmp
	ln -s /var/tmp /initrd/var/tmp

	# trim /dev - too many inodes here - remove anything you don't need
	# (small ramdisk has a small number of inodes)
	rm -rf /initrd/dev/<....>

	All going well, all the directories you've made should link through
	/initrd and into /initrd_init, and the machine should come back up
	if you restart it.

	You want to keep the contents of /initrd_init to a minimum because
	this stuff has to fit into the ramdisk.

	* getting the ramdisk going *

	See the rc.sysinit file for some details of what to do to get the
	ro-root/ramdisk up and running.

	Once everything is going, the root FS should never be remounted to
	r/w on boot and should be in r/o mode when the machine comes up.

	All going well, any open files have been redirected through the
	symlinks onto the ramdisk, so you should be able to remount the
	root FS to r/w and then remount it back to r/o.

	Since there's no r/w filesystems mounted, it should be ok to
	reboot the machine with 'reboot -fn' and everything should come
	back without dirty filesystems and without having to fsck.

	* starting xfscrash *

	The simplest way to restart xfscrash on reboot is to start it
	in the background from rc.local. The script logs to /dev/tty1,
	/dev/console & a logfile by default, so the output should be
	easy to find.

	Link the xfscrash directory off an NFS mounted FS so you can make
	changes while the machine is rebooting and so you can touch the
	'stop' and 'start' control files.

	To configure the system, change the parameters in the configuration
	section of the 'xfscrash' script.

	To start the system, touch the 'start' control file and then either
	reboot or manually run the 'xfscrash' script.

	To stop the system, touch the 'stop' control file and wait for the
	next cycle to start when the control file will be checked and
	the test terminated.