# This file causes block devices with Linux RAID (mdadm) signatures to # automatically cause mdadm to be run. # See udev(8) for syntax # Don't process any events if anaconda is running as anaconda brings up # raid devices manually ENV{ANACONDA}=="?*", GOTO="md_end" # Also don't process disks that are slated to be a multipath device ENV{DM_MULTIPATH_DEVICE_PATH}=="?*", GOTO="md_end" # We process add events on block devices (since they are ready as soon as # they are added to the system), but we must process change events as well # on any dm devices (like LUKS partitions or LVM logical volumes) and on # md devices because both of these first get added, then get brought live # and trigger a change event. The reason we don't process change events # on bare hard disks is because if you stop all arrays on a disk, then # run fdisk on the disk to change the partitions, when fdisk exits it # triggers a change event, and we want to wait until all the fdisks on # all member disks are done before we do anything. Unfortunately, we have # no way of knowing that, so we just have to let those arrays be brought # up manually after fdisk has been run on all of the disks. # First, process all add events (md and dm devices will not really do # anything here, just regular disks, and this also won't get any imsm # array members either) SUBSYSTEM=="block", ACTION=="add", ENV{ID_FS_TYPE}=="linux_raid_member", \ RUN+="/sbin/mdadm -I $env{DEVNAME}" SUBSYSTEM=="block", ACTION=="remove", ENV{ID_FS_TYPE}=="linux_raid_member", \ RUN+="/sbin/mdadm -If $name --path $env{ID_PATH}" # Next, check to make sure the BIOS raid stuff wasn't turned off via cmdline IMPORT{cmdline}="noiswmd" IMPORT{cmdline}="nodmraid" ENV{noiswmd}=="?*", GOTO="md_imsm_inc_end" ENV{nodmraid}=="?*", GOTO="md_imsm_inc_end" SUBSYSTEM=="block", ACTION=="add", ENV{ID_FS_TYPE}=="isw_raid_member", \ RUN+="/sbin/mdadm -I $env{DEVNAME}" SUBSYSTEM=="block", ACTION=="remove", ENV{ID_FS_TYPE}=="isw_raid_member", \ RUN+="/sbin/mdadm -If $name --path $env{ID_PATH}" LABEL="md_imsm_inc_end" # Next make sure that this isn't a dm device we should skip for some reason ENV{DM_UDEV_RULES_VSN}!="?*", GOTO="dm_change_end" ENV{DM_UDEV_DISABLE_DISK_RULES_FLAG}=="1", GOTO="dm_change_end" ENV{DM_SUSPENDED}=="1", GOTO="dm_change_end" KERNEL=="dm-*", SUBSYSTEM=="block", ENV{ID_FS_TYPE}=="linux_raid_member", \ ACTION=="change", RUN+="/sbin/mdadm -I $env{DEVNAME}" LABEL="dm_change_end" # Finally catch any nested md raid arrays. If we brought up an md raid # array that's part of another md raid array, it won't be ready to be used # until the change event that occurs when it becomes live KERNEL=="md*", SUBSYSTEM=="block", ENV{ID_FS_TYPE}=="linux_raid_member", \ ACTION=="change", RUN+="/sbin/mdadm -I $env{DEVNAME}" # In case the initramfs only started some of the arrays in our container, # run incremental assembly on the container itself. Note: we ran mdadm # on the container in 64-md-raid.rules, and that's how the MD_LEVEL # environment variable is already set. If that disappears from the other # file, we will need to add this line into the middle of the next rule: # IMPORT{program}="/sbin/mdadm -D --export $tempnode", \ SUBSYSTEM=="block", ACTION=="add|change", KERNEL=="md*", \ ENV{MD_LEVEL}=="container", RUN+="/sbin/mdadm -I $env{DEVNAME}" LABEL="md_end"