Difference between revisions of "Testing"
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'''control''' is a job management daemon responsible for tasks such as the launching of application processes, for the forwarding of stdin/out/err data, and for the management of the virtual network tunneling device from the compute node side. Do not interfere with this process in any way; this would likely make the node inaccessible. | '''control''' is a job management daemon responsible for tasks such as the launching of application processes, for the forwarding of stdin/out/err data, and for the management of the virtual network tunneling device from the compute node side. Do not interfere with this process in any way; this would likely make the node inaccessible. | ||
− | '''zoid-fuse''' is a FUSE ([http://fuse.sourceforge.net/ Filesystem in Userspace]) client responsible for making the filesystems from the I/O nodes available to ordinary POSIX-compliant processes running on the compute nodes. The whole filesystem namespace from the I/O nodes is made available on the compute nodes under <tt>/fuse/</tt>, and symbolic links such as <tt>/home -> /fuse/home</tt> are set up to keep the login and I/O node pathnames valid on the compute nodes. We do not foresee a need to change this setup, but that | + | '''zoid-fuse''' is a FUSE ([http://fuse.sourceforge.net/ Filesystem in Userspace]) client responsible for making the filesystems from the I/O nodes available to ordinary POSIX-compliant processes running on the compute nodes. The whole filesystem namespace from the I/O nodes is made available on the compute nodes under <tt>/fuse/</tt>, and symbolic links such as <tt>/home -> /fuse/home</tt> are set up to keep the login and I/O node pathnames valid on the compute nodes. Please verify that this is correctly set up. We do not foresee a need to change this setup, but should that prove necessary, the responsbile <tt>fuse-start</tt> and <tt>fuse-stop</tt> scripts can be found under <tt>ramdisk/CN/tree/bin</tt>. |
+ | |||
+ | ===Shell script job=== | ||
== Using Testcode == | == Using Testcode == |
Revision as of 16:52, 1 May 2009
Installation | Top | The ZeptoOS V2.0 Kernel
Early testing and troubleshooting
Once ZeptoOS is configured and installed, it is time to test it. Here are a few trivial tests to verify that the environment is working:
The /bin/sleep job
If you are using Cobalt, submit using either of the commands below:
cqsub -k <profile-name> -t <time> -n 1 /bin/sleep 3600 qsub --kernel <profile-name> -t <time> -n 1 /bin/sleep 3600
If you are using mpirun directly, submit as follows:
mpirun -verbose 1 -partition <partition-name> -np 1 -timeout <time> \ -cwd $PWD -exe /bin/sleep 3600
This test, if successful, will verify that the ZeptoOS compute and I/O node environments are booting correctly. We deliberately chose a system binary such as /bin/sleep instead of something from a network filesystem so that even if the network filesystem does not come up for some reason, the test can still succeed.
If everything works out fine, messages such as the following will be found in the error stream (jobid.error file if using Cobalt):
FE_MPI (Info) : initialize() - using jobname '' provided by scheduler interface FE_MPI (Info) : Invoking mpirun backend FE_MPI (Info) : connectToServer() - Handshake successful BRIDGE (Info) : rm_set_serial() - The machine serial number (alias) is BGP FE_MPI (Info) : Preparing partition BE_MPI (Info) : Examining specified partition BE_MPI (Info) : Checking partition ANL-R00-M1-N12-64 initial state ... BE_MPI (Info) : Partition ANL-R00-M1-N12-64 initial state = FREE ('F') BE_MPI (Info) : Checking partition owner... BE_MPI (Info) : Setting new owner BE_MPI (Info) : Initiating boot of the partition BE_MPI (Info) : Waiting for partition ANL-R00-M1-N12-64 to boot... BE_MPI (Info) : Partition is ready BE_MPI (Info) : Done preparing partition FE_MPI (Info) : Adding job BE_MPI (Info) : Adding job to database... FE_MPI (Info) : Job added with the following id: 98461 FE_MPI (Info) : Starting job 98461 FE_MPI (Info) : Waiting for job to terminate BE_MPI (Info) : IO - Threads initialized BE_MPI (Info) : I/O input runner thread terminated
(we stripped the timestamp prefixes to make the lines shorter)
If these messages are immediately followed by other, error messages, then there is a problem. One common instance would be:
BE_MPI (Info) : I/O output runner thread terminated BE_MPI (Info) : Job 98463 switched to state ERROR ('E') BE_MPI (ERROR): Job execution failed [...] BE_MPI (ERROR): The error message in the job record is as follows: BE_MPI (ERROR): "Load failed on 172.16.3.11: Program segment is not 1MB aligned"
This error indicates that the job was submitted to the default software environment, not to ZeptoOS (at the very least, the default I/O node ramdisk was used). You need to go back to the Kernel Profile section to fix the problem. Information from the system log files can be useful to diagnose the problem.
I/O node log files
Every I/O node has its own log file located in /bgsys/logs/BGP/, with a name such as R*-M*-N*-J*.log. This name will generally correspond to the name of the partition where the job was running. Above, our job ran on ANL-R00-M1-N12-64 (we could see that in the error stream; Cobalt users can also use [c]qstat); a corresponding I/O node log file on Argonne machines will be R00-M1-N12-J00.log. This is how a log file from a successful ZeptoOS boot looks like:
Linux version 2.6.16.46-297 (geeko@buildhost) (gcc version 4.1.2 (BGP)) #1 SMP Wed Apr 22 15:04:42 CDT 2009 Kernel command line: console=bgcons root=/dev/ram0 lpj=8500000 init started: BusyBox v1.4.2 (2008-04-10 05:20:01 UTC) multi-call binary Starting RPC portmap daemon..done eth0: Link status [RX+,TX+] mount server reported tcp not available, falling back to udp mount: RPC: Remote system error - No route to host Zepto ION startup-00 eth0 Link encap:Ethernet HWaddr 00:14:5E:7D:0C:57 inet addr:172.16.3.15 Bcast:172.31.255.255 Mask:255.240.0.0 UP BROADCAST RUNNING MULTICAST MTU:9000 Metric:1 RX packets:880 errors:0 dropped:0 overruns:0 frame:0 TX packets:1009 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:1000 RX bytes:3878545 (3.6 Mb) TX bytes:151458 (147.9 Kb) Interrupt:32 Zepto ION startup-00 done done Starting syslog servicesDec 31 18:00:36 ion-15 syslogd 1.4.1: restart. done Starting network time protocol daemon (NTPD) using 172.17.3.1 May 1 12:57:11 ion-15 ntpdate[642]: step time server 172.17.3.1 offset 1241200617.470271 sec May 1 12:57:11 ion-15 ntpd[653]: ntpd [email protected] Sat Oct 4 00:01:53 UTC 2008 (1) May 1 12:57:11 ion-15 ntpd[653]: precision = 1.000 usec May 1 12:57:11 ion-15 ntpd[653]: Listening on interface wildcard, 0.0.0.0#123 May 1 12:57:11 ion-15 ntpd[653]: Listening on interface eth0, 172.16.3.15#123 May 1 12:57:11 ion-15 ntpd[653]: Listening on interface lo, 127.0.0.1#123 May 1 12:57:11 ion-15 ntpd[653]: kernel time sync status 0040 done Enabling ssh Mounting site filesystems done Loading PVFS2 kernel module done Sleeping 0 seconds before starting PVFS done Starting PVFS2 client done Sleeping 10 seconds before mounting PVFS done Mounting PVFS2 filesystems done Starting SSH daemonMay 1 12:57:21 ion-15 sshd[833]: Server listening on 0.0.0.0 port 22. done Zepto ION startup-12 Zepto ION startup-12 done Starting GPFS May 1 12:57:26 ion-15 syslogd 1.4.1: restart. /etc/init.d/rc3.d/S40gpfs: GPFS is ready on I/O node ion-15 : 172.16.3.15 : R00-M1-N12-J00 ln: creating symbolic link `/home/acherryl/acherryl' to `/gpfs/home/acherryl': File exists ln: creating symbolic link `/home/bgpadmin/bgpadmin' to `/gpfs/home/bgpadmin': File exists ln: creating symbolic link `/home/davidr/davidr' to `/gpfs/home/davidr': File exists ln: creating symbolic link `/home/scullinl/scullinl' to `/gpfs/home/scullinl': File exists Starting ZOID... done Zepto ION startup-99 Zepto ION startup-99 done May 1 17:57:59 ion-15 init: Starting pid 2823, console /dev/console: '/bin/sh' BusyBox v1.4.2 (2008-10-04 00:02:35 UTC) Built-in shell (ash) Enter 'help' for a list of built-in commands. /bin/sh: can't access tty; job control turned off ~ #
(again, we stripped the prefixes to make the lines shorter)
Messages such as Zepto ION startup or Starting ZOID clearly indicate that a ZeptoOS I/O node ramdisk is being used. If one instead mistakenly booted with the default ramdisk, this could be recognized by messages such as:
Starting CIO services [ciod:initialized] done
(ciod is never started when using Zepto Compute Node Linux)
In addition to verifying the ramdisk, the correct I/O node kernel can also be verified using the I/O node logfile by checking the kernel build timestamp in the first line of the boot log. As of this writing the default kernel on the Argonne machines has a timestamp of Wed Oct 29 18:51:19 UTC 2008; as can be seen above, the ZeptoOS kernel was built more recently.
Compute node log file
All the compute nodes on the machine share the same MMCS log file, located in /bgsys/logs/BGP/. The name of the log file is not fixed (it contains a timestamp), but sn1-bgdb0-mmcs_db_server-current.log always links to the current file. Because the file is shared with other jobs, we recommed to grep it for user name, partition name, or both.
A correct boot log when when booting ZeptoOS will look something like this:
iskra:ANL-R00-M1-N12-64 {20}.0: Common Node Services V1R3M0 (efix:0) iskra:ANL-R00-M1-N12-64 {20}.0: Licensed Machine Code - Property of IBM. iskra:ANL-R00-M1-N12-64 {20}.0: Blue Gene/P Licensed Machine Code. iskra:ANL-R00-M1-N12-64 {20}.0: Copyright IBM Corp., 2006, 2007 All Rights Reserved. iskra:ANL-R00-M1-N12-64 {20}.0: Z: Zepto Linux Kernel relocating CNS... dst=80280000 src=fff40000 size=262144 iskra:ANL-R00-M1-N12-64 {20}.0: Z: CNS is successfully relocated to 00280000 in physical memory iskra:ANL-R00-M1-N12-64 {20}.0: Linux version 2.6.19.2-g66cbca2d (kazutomo@login1) (gcc version 4.1.2 (BGP)) #12 SMP Tue Apr 21 12:58:11 CDT 2009 iskra:ANL-R00-M1-N12-64 {20}.0: Zone PFN ranges: iskra:ANL-R00-M1-N12-64 {20}.0: DMA 0 -> 28672 iskra:ANL-R00-M1-N12-64 {20}.0: Normal 28672 -> 28672 iskra:ANL-R00-M1-N12-64 {20}.0: early_node_map[1] active PFN ranges iskra:ANL-R00-M1-N12-64 {20}.1: 0: 0 -> 28672 iskra:ANL-R00-M1-N12-64 {20}.1: Built 1 zonelists. Total pages: 28658 iskra:ANL-R00-M1-N12-64 {20}.1: Kernel command line: console=bgcons root=/dev/ram0 lpj=8500000 iskra:ANL-R00-M1-N12-64 {20}.1: PID hash table entries: 4096 (order: 12, 16384 bytes) iskra:ANL-R00-M1-N12-64 {20}.0: Dentry cache hash table entries: 262144 (order: 4, 1048576 bytes) iskra:ANL-R00-M1-N12-64 {20}.0: Inode-cache hash table entries: 131072 (order: 3, 524288 bytes) iskra:ANL-R00-M1-N12-64 {20}.0: Memory: 1826560k available (1408k kernel code, 832k data, 192k init, 0k highmem) iskra:ANL-R00-M1-N12-64 {20}.0: Calibrating delay loop (skipped)... 1700.00 BogoMIPS preset iskra:ANL-R00-M1-N12-64 {20}.0: Mount-cache hash table entries: 8192 iskra:ANL-R00-M1-N12-64 {20}.0: CPU 1 done callin... iskra:ANL-R00-M1-N12-64 {20}.0: CPU 1 done setup... iskra:ANL-R00-M1-N12-64 {20}.0: CPU 1 done timebase take... iskra:ANL-R00-M1-N12-64 {20}.0: Processor 1 found. iskra:ANL-R00-M1-N12-64 {20}.0: CPU 2 done callin... iskra:ANL-R00-M1-N12-64 {20}.0: CPU 2 done setup... iskra:ANL-R00-M1-N12-64 {20}.0: CPU 2 done timebase take... iskra:ANL-R00-M1-N12-64 {20}.0: Processor 2 found. iskra:ANL-R00-M1-N12-64 {20}.0: CPU 3 done callin... iskra:ANL-R00-M1-N12-64 {20}.0: CPU 3 done setup... iskra:ANL-R00-M1-N12-64 {20}.0: CPU 3 done timebase take... iskra:ANL-R00-M1-N12-64 {20}.0: Processor 3 found. iskra:ANL-R00-M1-N12-64 {20}.0: Brought up 4 CPUs iskra:ANL-R00-M1-N12-64 {20}.0: migration_cost=0 iskra:ANL-R00-M1-N12-64 {20}.0: checking if image is initramfs... it is iskra:ANL-R00-M1-N12-64 {20}.0: Freeing initrd memory: 2575k freed iskra:ANL-R00-M1-N12-64 {20}.0: NET: Registered protocol family 16 iskra:ANL-R00-M1-N12-64 {20}.0: NET: Registered protocol family 2 iskra:ANL-R00-M1-N12-64 {20}.0: IP route cache hash table entries: 16384 (order: 0, 65536 bytes) iskra:ANL-R00-M1-N12-64 {20}.0: TCP established hash table entries: 65536 (order: 3, 524288 bytes) iskra:ANL-R00-M1-N12-64 {20}.0: TCP bind hash table entries: 32768 (order: 2, 262144 bytes) iskra:ANL-R00-M1-N12-64 {20}.0: TCP: Hash tables configured (established 65536 bind 32768) iskra:ANL-R00-M1-N12-64 {20}.0: TCP reno registered iskra:ANL-R00-M1-N12-64 {20}.0: fuse init (API version 7.7) iskra:ANL-R00-M1-N12-64 {20}.0: io scheduler noop registered (default) iskra:ANL-R00-M1-N12-64 {20}.0: RAMDISK driver initialized: 16 RAM disks of 32768K size 1024 blocksize iskra:ANL-R00-M1-N12-64 {20}.0: tun: Universal TUN/TAP device driver, 1.6 iskra:ANL-R00-M1-N12-64 {20}.0: tun: (C) 1999-2004 Max Krasnyansky <[email protected]> iskra:ANL-R00-M1-N12-64 {20}.0: TCP cubic registered iskra:ANL-R00-M1-N12-64 {20}.0: NET: Registered protocol family 1 iskra:ANL-R00-M1-N12-64 {20}.0: NET: Registered protocol family 17 iskra:ANL-R00-M1-N12-64 {20}.0: NET: Registered protocol family 15 iskra:ANL-R00-M1-N12-64 {20}.0: Freeing unused kernel memory: 192k init iskra:ANL-R00-M1-N12-64 {20}.0: init started: BusyBox(for ZeptoOS Compute Node) v1.12.1 (2009-04-21 16:08:55 CDT)
This is very easy to tell from a boot log of the default light-weight kernel, which will consist of the first four lines only.
The MMCS log file contains other useful information besides the boot log of the compute nodes. Before the kernel starts booting, the following messages related to the newly submitted job can be found there:
DBBlockCmd DatabaseBlockCommandThread started: block ANL-R00-M1-N12-64, user iskra, action 1 DBBlockCmd setusername iskra iskra db_allocate ANL-R00-M1-N12-64 iskra DBConsoleController::setAllocating() ANL-R00-M1-N12-64 iskra block state C iskra DBConsoleController::addBlock(ANL-R00-M1-N12-64) iskra:ANL-R00-M1-N12-64 BlockController::connect() iskra:ANL-R00-M1-N12-64 connecting to mcServer at 127.0.0.1:1206 Connected to MCServer as iskra@sn1. Client version 3. Server version 3 on fd 101 iskra:ANL-R00-M1-N12-64 connected to mcServer iskra:ANL-R00-M1-N12-64 mcServer target set ANL-R00-M1-N12-64 created iskra:ANL-R00-M1-N12-64 mcServer target set ANL-R00-M1-N12-64 opened iskra:ANL-R00-M1-N12-64 {0} I/O log file: /bgsys/logs/BGP/R00-M1-N12-J00.log iskra:ANL-R00-M1-N12-64 MailboxListener starting iskra:ANL-R00-M1-N12-64 DBConsoleController::doneAllocating() ANL-R00-M1-N12-64 iskra:ANL-R00-M1-N12-64 BlockController::boot_block \ uloader=/bgsys/argonne-utils/partitions/ANL-R00-M1-N12-64/uloader \ cnload=/bgsys/argonne-utils/partitions/ANL-R00-M1-N12-64/CNS,/bgsys/argonne-utils/partitions/ANL-R00-M1-N12-64/CNK \ ioload=/bgsys/argonne-utils/partitions/ANL-R00-M1-N12-64/CNS,/bgsys/argonne-utils/partitions/ANL-R00-M1-N12-64/INK,/bgsys/argonne-utils/partitions/ANL-R00-M1-N12-64/ramdisk iskra:ANL-R00-M1-N12-64 boot_block cookie: 587867023 compute_nodes: 64 io_nodes: 1
Of particular relevance is the pathname to the I/O node log file(s) (if it cannot be easily guessed from the partition name) and the pathnames to the kernels and ramdisks used to boot the partition.
After the kernel boot log, the log file will also contain information about subsequent phases of starting a job:
iskra:ANL-R00-M1-N12-64 I/O node initialized: R00-M1-N12-J00 iskra:ANL-R00-M1-N12-64 DBBlockController::waitBoot(ANL-R00-M1-N12-64) block initialization successful iskra DatabaseBlockCommandThread stopped DBJobCmd DatabaseJobCommandThread started: job 98461, user iskra, action 1 DBJobCmd setusername iskra iskra Starting Job 98461 New thread 4398305505840, for jobid 98461 selectBlock(): ANL-R00-M1-N12-64 iskra(1) connected state: I owner: iskra ANL-R00-M1-N12-64 Jobid is 98461, homedir is /gpfs/home/iskra ANL-R00-M1-N12-64 persist: 1 ANL-R00-M1-N12-64 connecting to mpirun... ANL-R00-M1-N12-64 setting mpirun stream, fd=386 ANL-R00-M1-N12-64 contacting control node 0 at 172.16.3.15:7000 ANL-R00-M1-N12-64 connected to control node 0 at 172.16.3.15:7000 ANL-R00-M1-N12-64 Job::load() /bin/sleep ANL-R00-M1-N12-64 Job loaded: 98461 ANL-R00-M1-N12-64 About to start /bin/sleep ANL-R00-M1-N12-64 Job 98461 set to RUNNING iskra:ANL-R00-M1-N12-64 {20}.0: floating point used in kernel (task=8080cfe0, pc=80017064)
Interactive login
We are assuming at this point that launching /bin/sleep has been successful and that the "job" is running. We can now start an interactive session on our BG/P resources. Probably the most complicated part of this operation is finding the IP address of the I/O node(s). The allocation of I/O nodes to partitions is fixed, so on a small machine one could simply make a list. This information is also available in the log files discussed above.
The IP address is printed near the top of the I/O node boot log, as part of the interface configuration of the Ethernet device:
eth0 Link encap:Ethernet HWaddr 00:14:5E:7D:0C:57 inet addr:172.16.3.15 Bcast:172.31.255.255 Mask:255.240.0.0 UP BROADCAST RUNNING MULTICAST MTU:9000 Metric:1 RX packets:880 errors:0 dropped:0 overruns:0 frame:0 TX packets:1009 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:1000 RX bytes:3878545 (3.6 Mb) TX bytes:151458 (147.9 Kb) Interrupt:32
In this case, the address is 172.16.3.15 (the inet addr value).
The IP address is also available from the MMCS log file:
ANL-R00-M1-N12-64 contacting control node 0 at 172.16.3.15:7000
With larger partitions that include multiple I/O nodes, querying the MMCS logfile is probably better, as it will list all the addresses.
Once the IP address is known, one can simply use the SSH:
[email protected]:~> ssh 172.16.3.15 BusyBox v1.4.2 (2008-10-04 00:02:35 UTC) Built-in shell (ash) Enter 'help' for a list of built-in commands. /gpfs/home/iskra $ hostname ion-15 /gpfs/home/iskra $
SSH is supposed to let the partition owner on the I/O node without asking for a password (no other unprivileged user will be allowed on the node), but that might require site-specific customization to work properly (see update_passwd_file.sh). Until this is set up, one might prefer to log on as root (ssh -l root), passing the password provided while building the ZeptoOS environment.
Also, even when the partition owner is correctly set up, there will be a time window while booting the I/O node when the SSH daemon is already running, but a job has not yet been started; during that window, the partition owner cannot log on. If that happens, wait a few seconds and try again.
Here's part of the ps output from the I/O node:
/gpfs/home/iskra $ ps -ef UID PID PPID C STIME TTY TIME CMD [...] 65534 98 1 0 16:09 ? 00:00:00 /sbin/portmap root 108 19 0 16:09 ? 00:00:00 [rpciod/0] root 109 19 0 16:09 ? 00:00:00 [rpciod/1] root 110 19 0 16:09 ? 00:00:00 [rpciod/2] root 111 19 0 16:09 ? 00:00:00 [rpciod/3] root 570 1 0 16:09 ? 00:00:00 /sbin/syslogd root 577 1 0 16:09 ? 00:00:00 /sbin/klogd -c 1 -x -x ntp 653 1 0 16:09 ? 00:00:00 /usr/sbin/ntpd -p /var/run/ntpd. root 688 1 0 16:09 ? 00:00:00 [lockd] root 775 1 0 16:09 ? 00:00:00 /bgsys/iosoft/pvfs2/sbin/pvfs2-c root 776 775 0 16:09 ? 00:00:00 pvfs2-client-core --child -a 5 - root 833 1 0 16:10 ? 00:00:00 /usr/sbin/sshd -o PidFile=/var/r root 1016 1 0 16:10 ? 00:00:00 /bin/ksh /usr/lpp/mmfs/bin/runmm root 1079 1 0 16:10 ? 00:00:00 [nfsWatchKproc] root 1080 1 0 16:10 ? 00:00:00 [gpfsSwapdKproc] root 1146 1016 0 16:10 ? 00:00:01 /usr/lpp/mmfs/bin//mmfsd root 1153 1 0 16:10 ? 00:00:00 [mmkproc] root 1152 1 0 16:10 ? 00:00:00 [mmkproc] root 1154 1 0 16:10 ? 00:00:00 [mmkproc] iskra 2810 1 98 16:10 ? 00:04:09 /bin.rd/zoid -a 8 -m unix_impl.s root 2823 1 0 16:10 ? 00:00:00 /bin/sh root 3328 833 0 16:10 ? 00:00:00 sshd: iskra [priv] iskra 3332 3328 0 16:10 ? 00:00:00 sshd: iskra@ttyp0 iskra 3333 3332 0 16:10 ttyp0 00:00:00 -sh iskra 3346 3333 0 16:14 ttyp0 00:00:00 ps -ef /gpfs/home/iskra $
The I/O nodes run a small Linux setup with the root filesystem in the ramdisk. Custom processes can be started, just like on any ordinary Linux node. In the example above, it is mostly a few system daemons and the remote filesystem clients (GPFS, PVFS). Please verify at this stage that the remote filesystem have been mounted correctly.
One custom process running on the node is ZOID, the I/O forwarding and job control daemon, which enables the communication with the compute nodes. One of the facilities offered by ZOID is IP forwarding between the I/O node and the compute nodes, implemented using the virtual network tunneling device available in Linux:
/gpfs/home/iskra $ ifconfig tun0 tun0 Link encap:UNSPEC HWaddr 00-00-00-00-00-00-00-00-00-00-00-00-00-00-00-00 inet addr:192.168.1.254 P-t-P:192.168.1.254 Mask:255.255.255.255 UP POINTOPOINT RUNNING NOARP MULTICAST MTU:65535 Metric:1 RX packets:0 errors:0 dropped:0 overruns:0 frame:0 TX packets:0 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:500 RX bytes:0 (0.0 b) TX bytes:0 (0.0 b) /gpfs/home/iskra $
At least on Argonne machines, with a 64:1 ratio of compute nodes to I/O nodes, compute nodes have addresses 192.168.1.1 to 192.168.1.64 (the last octet of the address is the pset rank). Somewhat confusingly, the first compute node (compute node 0) has IP address 192.168.1.64, so if one submits a one-node job as we did, that is the IP address that needs to be used to log on that sole running compute node. The IP address of the second compute node is... 192.168.1.59 (do not blame us – blame IBM :-).
The compute nodes are running a telnet daemon, and no password is required to log on them:
/gpfs/home/iskra $ telnet 192.168.1.64 Entering character mode Escape character is '^]'. BusyBox(for ZeptoOS Compute Node) v1.12.1 (2009-04-21 16:08:55 CDT) built-in shell (ash) Enter 'help' for a list of built-in commands. ~ #
The IP address of the I/O node on this virtual network is 192.168.1.254. The network is local to each I/O node, so for larger jobs, there will be multiple distinct virtual networks that cannot communicate with each other, and the IP addresses will duplicate.
Here's part of the ps output from the compute node:
~ # ps -ef PID USER VSZ STAT COMMAND [...] 34 root 5440 S /bin/sh /etc/init.d/rc.sysinit 44 root 5504 S /sbin/telnetd -l /bin/sh 47 root 6528 S /sbin/inetd 48 root 46400 R N /sbin/control 62 root 7872 S /bin/zoid-fuse -o allow_other -s /fuse 116 root 5248 S /bin/sleep 3600 118 root 5504 S /bin/sh
Compute nodes have an even more stripped-down environment than the I/O nodes. There are no user accounts – everything runs as root, including the application processes. This is not a security concern, because the only practical way for a compute node to communicate with the outside world is through the I/O node, and I/O nodes do enforce user-level access control.
There are two custom processes running on each compute node:
control is a job management daemon responsible for tasks such as the launching of application processes, for the forwarding of stdin/out/err data, and for the management of the virtual network tunneling device from the compute node side. Do not interfere with this process in any way; this would likely make the node inaccessible.
zoid-fuse is a FUSE (Filesystem in Userspace) client responsible for making the filesystems from the I/O nodes available to ordinary POSIX-compliant processes running on the compute nodes. The whole filesystem namespace from the I/O nodes is made available on the compute nodes under /fuse/, and symbolic links such as /home -> /fuse/home are set up to keep the login and I/O node pathnames valid on the compute nodes. Please verify that this is correctly set up. We do not foresee a need to change this setup, but should that prove necessary, the responsbile fuse-start and fuse-stop scripts can be found under ramdisk/CN/tree/bin.
Shell script job
Using Testcode
Once the files installations have been done and the profiles defined by creating symbolic links to the images in the top-level directory, it is time to submit a test job. Use the test program provided with the distribution. From the top level directory:
$ cd comm/testcodes
Compiling
The program can be compiled on the login node using:
$ /path/to/install/bin/zmpicc -o mpi-test-linux mpi-test.c $ /path/to/install/bin/zmpixlc_r -openmp -o omp-test-linux omp-test.c
Submitting Job
(For ANL Users) The job needs to be submitted using the cobalt resource manager. For the mpi-test program use the following command:
cqsub -n <number-of-processes> -t <time> -k <profile-name> mpi-test-linux cqsub -n <number-of-processes> -t <time> -k <profile-name> -e OMP_NUM_THREADS=<num> omp-test-linux