Au format texte : Cray® DataWarp™ SSD Installation and Configuration Guide S-2547-5202 Contents 1 Install and Configure Cray® DataWarp™ SSD........................................................................................3 1.1 Set CLEinstall Parameters for SSD..........................................................................................3 1.2 Install the SSD Driver.................................................................................................................3 1.3 Configure Scratch Storage.........................................................................................................9 1.4 Configure Swap Storage..........................................................................................................10 1.5 Proper Swap Server and SSD Shutdown................................................................................13 Cray DataWarp SSD Installation and Configuration Guide Contents 2 1 Install and Configure Cray® DataWarp™ SSD Two different families of the FusionIO SSD cards are supported by this installation procedure: older ioScale 2 cards and newer SX300 and PX600 cards. The installation procedures differ slightly depending on which type of card is installed. It is the administrator's responsibility to know which type is installed on the machine. Systems with more than one type of SSD are not supported. Table 1. Installation differences based on SSD card family Entity ioScale2 SSD Cards SX300/PX600 SSD Cards Driver VSL3 VSL4 RPM naming convention fio-common-version_vsl.noarch.rpm fio-sysvinit-version_vsl.noarch.rpm fio-util-version_vsl.noarch.rpm iomemory-vsl-version_vsl.src.rpm fio-common-version_vsl4.x86_64.rpm fio-sysvinit-version_vsl4.x86_64.rpm fio-util-version_vsl4.x86_64.rpm iomemory-vsl4-version_vsl4.x86_64.rpm Service name iomemory-vsl iomemory-vsl4 1.1 Set CLEinstall Parameters for SSD The CLEinstall program ensures that the proper RPMs are installed during the installation or upgrade of CLE software based on the following SSD-specific paramters in the CLEinstall.conf file: SSDtype Specifies whether SSD cards are present in the system. Set SSDtype=ioScale2 for FusionIO IoScale2 SSD cards. Set SSDtype=ioMemory3 for FusionIO SX300 or PX600 SSD cards. Default is none. CNL_swap Specifies whether the SSD cards are configured for compute node memory swapping. Set CNL_swap=yes if the SSD cards are used for swapping. Default is no. Set these parameters prior to running CLEinstall during an installation or upgrade of CLE system software or when running CLEinstall as a separate event. Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 3 1.2 Install the SSD Driver Prerequisites ▪ CLEInstall has successfully executed and installed the SSD RPMs in the shared root. ▪ If adding a new blade to the system, see "Updating the System Configuration After a Blade Change" in S-2393 prior to proceeding. The SSD driver can be configured to use the SSD devices as scratch/temporary storage or for swapping. These procedures cover both options. 1. Log on to the boot node (use the currently booted system or boot the boot and SDB nodes). smw:~# ssh root@boot 2. Initiate xtopview and change directory to /software. boot:~ # xtopview default/:/ # cd /software 3. (VSL4 software only) Modify permissions for the /usr/bin/fio-set-affinity file. default/:/software # chmod 0755 /usr/bin/fio-set-affinity 4. Turn off the iomemory-vsl service in the default view and verify the results. ▪ For VSL3: default/:/software # chkconfig iomemory-vsl off default/:/software # chkconfig --list iomemory-vsl iomemory-vsl 0:off 1:off 2:off 3:off 4:off 5:off 6:off ▪ For VSL4: default/:/software # chkconfig iomemory-vsl4 off default/:/software # chkconfig --list iomemory-vsl4 iomemory-vsl4 0:off 1:off 2:off 3:off 4:off 5:off 6:off 5. Edit the LVM configuration file in the default shared root view to ensure that the following lines are included in the advanced settings area within the device section. default/:/software # vi /etc/lvm/lvm.conf types = [ "fio", 16 ] issue_discards = 1 6. Exit xtopview default/:/software # exit 7. Initiate the node specialization view, where N is an integer node ID or a physical ID. boot:~ # xtopview -n N 8. Turn on the iomemory-vsl service and verify the results. Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 4 ▪ For VSL3: node/N:/ # chkconfig iomemory-vsl on node/N:/ # chkconfig --list iomemory-vsl iomemory-vsl 0:off 1:on 2:on 3:on 4:on 5:on 6:off ▪ For VSL4: node/N:/ # chkconfig iomemory-vsl4 on node/N:/ # chkconfig --list iomemory-vsl4 iomemory-vsl4 0:off 1:on 2:on 3:on 4:on 5:on 6:off The following steps are only required for setting up scratch. If setting up swap, skip to step 13 on page 6. 9. (Scratch setup only) Create a mount point for the scratch file system. node/N:/ # mkdir -p mount_point For example: node/N:/ # mkdir -p /flash/scratch1 10. (Scratch setup only) Specialize the /etc/fstab file for this node only. node/N:/ # xtspec /etc/fstab 11. (Scratch setup only) Edit the /etc/fstab file and add an entry to mount the file system, where vg_name is the volume group and lv_name is the logical volume name, both of which will be created later. IMPORTANT: The /etc/fstab entry must be tab-separated for LVM, and the entry must be entered on one line only. node/N:/ # vi /etc/fstab /dev/vg_name/lv_name mount_point xfs defaults,noauto,noatime,nobarrier,discard 0 0 For example: /dev/scratch1_vg/scratch1 /flash/scratch1 xfs defaults,noauto,noatime,nobarrier,discard 0 0 12. (Optional - NFS setup for scratch only) Set up NFS export so that scratch is accessible from the login or other service node. a. Specialize the /etc/exports file for this node only. node/N:/ # xtspec /etc/exports b. Edit the /etc/exports file and add an entry for scratch. node/N:/ # vi /etc/exports mount_point *(rw,no_root_squash,no_subtree_check) Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 5 For example: /flash/scratch1 *(rw,no_root_squash,no_subtree_check) c. Turn on the NFS server. node/N:/ # chkconfig nfsserver on 13. Specialize the /etc/sysconfig/iomemory-vsl file for this node only. ▪ For VSL3: node/N:/ # xtspec /etc/sysconfig/iomemory-vsl ▪ For VSL4: node/N:/ # xtspec /etc/sysconfig/iomemory-vsl4 14. Edit /etc/sysconfig/iomemory-vsl to modify the iomemory configuration for this node. ▪ For VSL3: node/N:/ # vi /etc/sysconfig/iomemory-vsl ▪ For VSL4: node/N:/ # vi /etc/sysconfig/iomemory-vsl4 a. Ensure that ENABLED=1 is set and not commented out. b. Define LVM_VGS, the LVM volume groups parameter. LVM_VGS="/dev/vg_name" For example: LVM_VGS="/dev/scratch1_vg" c. (Scratch setup only) Define the file system to be mounted. MOUNTS="mount_point" For example: MOUNTS="/flash/scratch1" 15. Exit xtopview and ssh to the specialized node. node/N:/ # exit boot:~ # ssh cname 16. Use the init script to load the driver. ▪ For VSL3: nid:~ # /etc/init.d/iomemory-vsl start Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 6 ▪ For VSL4: nid:~ # /etc/init.d/iomemory-vsl4 start It will complain that the volume group was not found and that it could not mount in the console. This is expected, because the volumes have not been configured yet, and can safely be ignored. 17. Create the directory /var/etclvm. nid:~ # mkdir /var/etclvm 18. Copy the lvm.conf file to the /var/etclvm directory. It includes the issue_discards = 1 option, which configures LVM to send trim commands if volumes are removed. nid:~ # cp -p /etc/lvm/lvm.conf /var/etclvm 19. Bind mount /etc/lvm to /var/etclvm to allow read/write capabilities, enabling LVM changes to be made to the storage node. This bind mount can also be added to the /etc/fstab file. Verify the mount. nid:~ # mount -o bind /var/etclvm /etc/lvm nid:~ # mount | grep lvm 10.131.255.254:/snv/29/var/etclvm on /etc/lvm type nfs (rw,relatime,vers=3,rsize=32768, wsize=32768,namlen=255,hard,nolock,proto=tcp,timeo=600,retrans=2,sec=sys, mountaddr=10.131.255.254,mountvers=3,mountport=37710,mountproto=tcp,local_lock=all, addr=10.131.255.254) 20. Look for the new devices. nid:~ # fdisk -l /dev/fio* Disk /dev/fioa: 2600.0 GB, 2600000000000 bytes 255 heads, 63 sectors/track, 39512 cylinders, total 634765625 sectors Units = sectors of 1 * 4096 = 4096 bytes Sector size (logical/physical): 4096 bytes / 4096 bytes I/O size (minimum/optimal): 4096 bytes / 32768 bytes Disk identifier: 0x6901a7ad Disk /dev/fioa doesn't contain a valid partition table Note: sector size is 4096 (not 512) Disk /dev/fiob: 2600.0 GB, 2600000000000 bytes 255 heads, 63 sectors/track, 39512 cylinders, total 634765625 sectors Units = sectors of 1 * 4096 = 4096 bytes Sector size (logical/physical): 4096 bytes / 4096 bytes I/O size (minimum/optimal): 4096 bytes / 32768 bytes Disk identifier: 0x00000000 Disk /dev/fiob doesn't contain a valid partition table 21. Set up devices with LVM. nid:~ # pvcreate /dev/fioa [/dev/fiob] nid:~ # vgcreate vg_name /dev/fioa [/dev/fiob] For example: Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 7 nid:~ # pvcreate /dev/fioa /dev/fiob nid:~ # vgcreate scratch1_vg /dev/fioa /dev/fiob 22. (Scratch setup only) Create scratch volume. nid:~ # lvcreate -l 100%VG -n lv_name -i2 vg_name nid:~ # mkfs.xfs /dev/vg_name/lv_name This example creates one volume using 100% of the capacity of both devices with data striped across the two (-i2) in 64K blocks (default stripe width). nid:~ # lvcreate -l 100%VG -n scratch1 -i2 scratch1_vg nid:~ # mkfs.xfs /dev/scratch1_vg/scratch1 23. (Swap setup only) Create swap volume. Create one logical volume per compute node using swap. nid:~ # lvcreate --size 32G -n lv_name -i2 vg_name nid:~ # mkswap /dev/vg_name/lv_name This example creates one volume using 32GB of capacity of both devices with data striped across the two (-i2) in 64K blocks (default stripe width). nid:~ # lvcreate --size 32G -n swap1 -i2 swap_vg nid:~ # mkswap /dev/swap_vg/swap1 24. Gather the serial numbers for each PCI SSD card. These will be used to change the power limit for these cards within the configuration file. nid:~ # fio-status | grep SN 25. Exit to the boot node and initiate xtopview. nid:~ # exit boot:~ # xtopview 26. Edit the configuration file and add an options entry to set the power limit for the PCI SSD cards to 40W in order to allow full performance, where SN-value:40 represents an adapter serial number and the maximum amount of power that device should pull (in watts). Multiple pairs must be commaseparated. ▪ For VSL3: default/:/ # vi /etc/modprobe.d/iomemory-vsl.conf options iomemory-vsl external_power_override=SN-value:40 For example: options iomemory-vsl external_power_override=1234G5678:40,0987G6543:40 ▪ For VSL4: default/:/ # vi /etc/modprobe.d/iomemory-vsl4.conf options iomemory-vsl4 external_power_override=SN-value:40 Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 8 For example: options iomemory-vsl4 external_power_override=1234G5678:40,0987G6543:40 When this is properly configured, a message similar to the following will appear in the console log after a reload/reboot. [12:37:46][c0-0c0s7n1]fioinf ioDrive 0000:03:00.0.0: PCIe power monitor enabled (master). Limit set to 39.750 watts. 27. Exit xtopview. 28. For the new settings to take effect, invoke the init.d script to reload the driver or reboot the node. See Proper Swap Server and SSD Shutdown on page 13. ▪ For VSL3: nid:~ # /etc/init.d/iomemory-vsl restart ▪ For VSL4: nid:~ # /etc/init.d/iomemory-vsl4 restart 1.3 Configure Scratch Storage Prerequisites Complete the Install the SSD Driver on page 3 procedure before starting this procedure. Two methods exist for configuring FusionIO SSDs for scratch storage. This method uses init scripts from FusionIO, and is likely the best choice because it handles shutdown on its own and does not require custom boot images after each update. The other method uses the standard Cray boot process. Both methods require that the kernel module is built and placed in the appropriate location after each CLE update. 1. Log on to the SMW as root. 2. Change directory to the boot image template directory. smw:~# cd /opt/xt-images/templates/cle_version-system_set 3. Create a mount point for the scratch file system. smw:~# mkdir -p mount_point For example: smw:~# mkdir -p flash/scratch1 4. Edit the compute node fstab file and add a tab-separated entry (on one line) to mount the file system, where cname is the SSD node. Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 9 smw:~# vi etc/fstab device mount_point dvs path=mount_point,nodename=cname,blksize=1048576,ro_cache For example: /flash/scratch1 /flash/scratch1 dvs path=/flash/scratch1,nodename=c0-0c0s7n1,blksize=1048576,ro_cache 5. Invoke shell_bootimage.sh and create a new boot image using the site's regular procedure. Now that the storage is configured, the SSD service node and the compute nodes must be rebooted to pick up the changes. there are two options for how to proceed: ▪ The first option is to exit from this procedure and reboot the system following the site-specific procedures. ▪ The second option is to complete the steps in this procedure to reboot the SSD service node, reboot the compute nodes, then mount the scratch filesystem on the login nodes. 6. Log on to the SSD service node. smw:~# ssh cname For example: smw:~# ssh c0-0c0s7n1 7. Stop the file system safely, deactivate volume groups and unload the driver by invoking the init script. ▪ For VSL3: ▪ nid:~ # /etc/init.d/iomemory-vsl stop ▪ For VSL4: nid:~ # /etc/init.d/iomemory-vsl4 stop 8. Exit the node. nid:~ # exit 9. Reboot the node. smw:~# xtbootsys --reboot -L SNL0 cname 10. Log off as root. smw:~# exit 11. Reboot the compute nodes, where cnames is a comma-separated list of all compute nodes for this partition. Altternatively, shutdown and reboot the entire system if desired. crayadm@smw:~# xtbootsys --reboot -L CNL0 cnames Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 10 1.4 Configure Swap Storage Prerequisites Complete the Install the SSD Driver on page 3 procedure before starting this procedure. 1. Log on to the boot node and invoke xtopview. smw:~# ssh root@boot boot:~# xtopview 2. Create a mapping file /etc/opt/cray/swap/swap.map in the shared root that maps each compute node to its target swap server node and the logical volume. The file format is as follows, with one compute node per line and columns separated by white space. Compute node(cname) swap server node(swap_cname) Logical Unit Number(LUN) This file should be visible from the compute nodes, and the path to this file will be an argument to a script that configures the swap space per compute node. For example: c3-0c0s4n0 c3-0c0s2n2 0 c3-0c0s4n1 c3-0c0s2n2 1 3. Edit the /etc/opt/cray/swap/swap.config file to set the desired level of log messages. The valid logging levels are: CRITICAL, ERROR, WARNING, INFO, DEBUG, NOTSET. Default is WARNING. Log messages of the selected severity or greater will be outputted. For example: LOG_LEVEL=INFO 4. Exit the xtopview default view. 5. Invoke xtopview for a swap server node. Each swap server node must be individually configured through xtopview. default/:/ #exit boot:~# xtopview -n swap_nid 6. Determine the path to each logical volume. Output shown is for example purposes only, each site's configuration will vary. node/N:/ # lvdisplay | grep "LV Name" LV Name /dev/swap_vg/swap-c0-0c0s4n0 LV Name /dev/swap_vg/swap-c0-0c0s4n1 LV Name /dev/swap_vg/swap-c0-0c0s4n2 7. Create the configuration file /etc/ietd.conf if it doesn't exist. Use xtspec to specialize the file. node/N:/ # touch /etc/ietd.conf node/N:/ # xtspec /etc/ietd.conf Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 11 8. Edit /etc/ietd.conf and add the following, where cname is the node on which the the swap server is running, and swap_path and lv_path are obtained from step 6 on page 11. Target iqn.2001-01.com.cray:cname.swap Lun 0 Path=/dev/swap_path/lv_path Lun 1 Path=/dev/swap_path/lv_path ... For example: Target iqn.2001-01.com.cray:c0-0c0s7n2.swap Lun 0 Path=/dev/swap_vg/swap-c0-0c0s4n0 Lun 1 Path=/dev/swap_vg/swap-c0-0c0s4n1 Lun 2 Path=/dev/swap_vg/swap-c0-0c0s4n2 9. Exit xtopview and then ssh to the swap server node. node/N:/ # exit boot:~# ssh cname 10. Turn on the iscsi-target service so that it starts upon boot of the swap server node. nid:~ # chkconfig iscsi-target on 11. Restart the iSCSI server by either executing iscsi-target restart or rebooting the swap server node. nid:~ # /etc/init.d/iscsi-target restart 12. Verify that the target and LUNS are present. nid:~ # cat /proc/net/iet/volume tid:1 name:iqn.2001-01.com.cray:c0-0c0s7n2.swap lun:0 state:0 iotype:fileio iomode:wt blocks:10000000 blocksize:512 path:/dev/swap_vg/swap-c0-0c0s4n0 lun:0 state:0 iotype:fileio iomode:wt blocks:10000000 blocksize:512 path:/dev/swap_vg/swap-c0-0c0s4n1 lun:0 state:0 iotype:fileio iomode:wt blocks:10000000 blocksize:512 path:/dev/swap_vg/swap-c0-0c0s4n2 13. Exit to the boot node and repeat steps 5 on page 11 through step 12 on page 12 for each swap server node. nid:~ # exit Client Configuration - Configure Multipath within the Shared Root. 14. Initiate xtopview. boot:~# xtopview 15. Create the /etc/multipath directory prior to configuring the compute nodes. default/:/ # mkdir /etc/multipath 16. Edit /etc/multipath.conf. Add the bolded items in the example shown if they are not already in the configuration file. blacklist_exceptions { property (ID_WWN|ID_SCSI_VPD|UDEV_LOG) device { Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 12 vendor "IET" product "VIRTUAL-DISK" } } defaults { polling_interval 10 path_selector "round-robin 0" path_grouping_policy multibus prio const path_checker directio max_fds 8192 rr_weight priorities failback immediate no_path_retry 30 user_friendly_names yes getuid_callout "/lib/udev/scsi_id -g -u -d /dev/%n" } devices { device { vendor "IET" product "VIRTUAL-DISK" no_path_retry queue } ... } 17. Exit xtopview. default/:/ #exit 1.5 Proper Swap Server and SSD Shutdown The swap servers must shut down prior to shutting down the FusionIO SSD devices, and the internal software running on the SSDs must properly shut itself down when the Cray system is shutting down. There are two methods, manual or automatic, of ensuring that this occurs. Manual method: 1. Watch xtconsole to verify that the swap server has shut down; that the /etc/init.d/iscsi-target stop command executed successfully. 2. Watch xtconsole to verify that the SSD drivers unloaded. This must occur prior to answering y/n to the "clear alerts before halting" prompt. Automatic method: 3. Modify the shutdown script /opt/cray/hss/default/etc/auto.xtshutdown and add the following two lines for each SSD node: lappend actions { crms_exec_on_bootnode "root" "ssh cname /bin/umount mount_point } lappend actions { crms_exec_on_bootnode "root" "ssh cname /etc/init.d/iscsi-target stop" } lappend actions { crms_exec_on_bootnode "root" "ssh cname /etc/init.d/iomemory-vsl stop" } Cray DataWarp SSD Installation and Configuration Guide Install and Configure Cray® DataWarp™ SSD 13 For example: ... set actions {} lappend actions { crms_exec "xtcli shutdown $data(idlist)" } lappend actions { crms_exec "xtcli shutdown $data(idlist)" } lappend actions { crms_exec_on_bootnode "root" "ssh c0-0c1s7n1 /bin/umount /flash/scratch1 } lappend actions { crms_exec_on_bootnode "root" "ssh c0-0c1s7n2 /bin/umount /flash/scratch1 } lappend actions { crms_exec_on_bootnode "root" "ssh c0-0c1s7n1 /etc/init.d/iscsi-target stop" } lappend actions { crms_exec_on_bootnode "root" "ssh c0-0c1s7n2 /etc/init.d/iscsi-target stop" } lappend actions { crms_exec_on_bootnode "root" "ssh c0-0c1s7n1 /etc/init.d/iomemory-vsl stop" } lappend actions { crms_exec_on_bootnode "root" "ssh c0-0c1s7n2 /etc/init.d/iomemory-vsl stop" } lappend actions { crms_exec_on_bootnode "root" "xtshutdown -y" } lappend actions { crms_sleep 10 } lappend actions { crms_exec_on_bootnode "root" "/sbin/shutdown -h now" } lappend actions { crms_ssh_close } lappend actions { crms_sleep 20 } lappend actions { my_halt } IMPORTANT: Save a copy of /opt/cray/hss/default/etc/auto.xtshutdown as it may get overwritten when the SMW software is updated. 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