Minicluster:Torque
The scheduler and the queue are two essential parts for a cluster. Together, they transform a group of networked machines into a cluster, or at least something closer to one. They're what allow users, working only on the head node, to submit "jobs" to the cluster. These jobs are transparently assigned to different worker nodes, and then - without the user needing to know where the jobs were - the results are deposited back into the user's home directory.
This process requires software in two different roles: the resource manager, responsible for accepting jobs to the queue and running jobs on worker nodes, and the scheduler, responsible for deciding when and where jobs in the queue should be run in order to optimize resources. I'll be using Torque for the resource manager and Maui for the scheduler. Both of these are open source projects.
Note: Torque has a built-in scheduler that can be used instead of Maui. However, Maui integrates seamlessly and provides more options and customization than Torque's scheduler.
Parte 1
Installation
Before setting up Torque and Maui, DNS must be working. If that's not an option, this requisite can be "cheated" around by setting up /etc/hosts
on the head node with an entry for each of the nodes and then copying this file out to each of the worker nodes. (See the Cluster Time-saving Tricks page for help with the copying.)
Torque needs to be installed in two parts. First, a pbs_server
is set up on the head node and configured to know where all of the worker nodes are. Then, each of the worker nodes are set up to run pbs_mom
, a sort of client, that will accept jobs from the pbs_server
and run them on the worker node. A basic queue for Torque also needs to be configured.
Maui is installed only on the head node, and needs to be set up to interact with the pbs_server
. It does not communicate with the worker nodes, but instead talks to them by way of the server.
- Troubleshooting Torque and Maui, se algo der errado com a submissão de processos, consulte
Use and Features
After both are installed and working properly, you might want to look at
References
- HOWTO Torque/Maui on gentoo-wiki.com
- University of Cambridge Chemistry Department's Maui Administration Notes
Parte 2
About Torque
From the Cluster Resources page on Torque,
- "TORQUE is an open source resource manager providing control over batch jobs and distributed compute nodes. It is a community effort based on the original *PBS project..."
Because torque branched off from PBS, it still retains a lot of the old commands and names. PBS stands for portable batch system, and from here, I'll still call it torque, but commands may have "pbs" in them rather than "torque".
Installing Torque
Antes de instalar torque, instale todos os compiladores necessários compilers, senão aparecerá erros nos que estão faltando.
Baixe a versão mais recenete do torque em http://www.clusterresources.com/downloads/torque/
Baixe o arquivo no diretório e descompacte
cd /usr/local/src wget http://www.clusterresources.com/downloads/torque/torque-3.0.1.tar.gz tar xvf torque-3.0.1.tar.gz
Mude de diretório e veja o help do configure
cd torque-3.0.1 ./configure -help
Usamos
./configure --with-default-server=one --with-server-home=/var/spool/pbs --with-rcp=scp
-
--with-default-server
especifica o nó mestre, que roda o servidor torque (não funcionou usando--with-default-server=one
. Gerava um erro: No permission: errno=15007)! -
--with-server-home
seta o diretório de onde o torque rodará. -
--with-rcp=scp
seta o mecanismo para copiar arquivos. Se não for especificado, será tentado outro (não queremos).
Ao terminar com sucesso aparece uma linha como:
config.status: executing depfiles commands Building components: server=yes mom=yes clients=yes gui=no drmaa=no pam=no PBS Machine type: linux Remote copy: /usr/bin/scp -rpB PBS home: /var/spool/pbs Default server: one.matrix Unix Domain sockets: no Tcl: disabled Tk: disabled
Rode o make
make
O final do arquivo é algo como...
make[3]: Leaving directory `/usr/local/src/torque-3.0.1/doc' make[2]: Leaving directory `/usr/local/src/torque-3.0.1/doc' make[1]: Leaving directory `/usr/local/src/torque-3.0.1/doc' make[1]: Entering directory `/usr/local/src/torque-3.0.1' make[1]: Nothing to be done for `all-am'. make[1]: Leaving directory `/usr/local/src/torque-3.0.1'
Finalmente
make install
Para verificar que instalou corretamente, tente localizar os binários com
root# which pbs_server /usr/local/sbin/pbs_server
Se não achar, tente
root# ls /usr/local/sbin | grep pbs pbs_demux pbs_iff pbs_mom pbs_sched pbs_server
Se estiver lá, mas o which não acha, edite /etc/login.defs
. Localize a linha ENV_SUPATH
e adicionde /usr/local/bin
e /usr/local/sbin
nele. A linha ENV_PATH
deve ficar logo abaixo dele; adicione /usr/local/bin
a ela.
Configurando Torque
Para iniciar o servidor torque rodando no nó mestre e criar um novo banco de dados de jobs, use e verique que o servidor está rodando (para parar um servidor existente use killall -KILL pbs_server
):
pbs_server -t create
ps aux | grep pbs
Entretanto, rodando o comando para listar a queue e o seu status
qstat -a
não aparecerá nada, pois a lista está vazia. Inicie o QManager (qmgr)
qmgr
(ou qmgr one.matrix
) para configurar as filas e iniciar em modo interativo ou entre os comandos abaixo na linha de comando:
qmgr -c "set server scheduling=true" qmgr -c "create queue batch queue_type=execution" qmgr -c "set queue batch started=true" qmgr -c "set queue batch enabled=true" qmgr -c "set queue batch resources_default.nodes=1" qmgr -c "set queue batch resources_default.walltime=3600" qmgr -c "set server default_queue=batch"
Não funcionou a adição do email:
qmgr -c "set server operators = root@localhost" qmgr -c "set server operators += dago@mat.ufrgs.br"
Teste de Sanidade
Verifique as queues disponíveis:
root@one# qstat -q server: one Queue Memory CPU Time Walltime Node Run Que Lm State ---------------- ------ -------- -------- ---- --- --- -- ----- batch -- -- -- -- 0 0 -- E R ----- ----- 0 0
Note a fila "batch" vazia (ok). Veja a configuração do qmgr com
qmgr -c "print server"
Agora vamos submeter um job a queue. Troque de usuário (não rode com root), submeta um job que dorme por 30 segundos e verifique a fila:
root# su - usuario</code> usuario# echo "sleep 30" | qsub</code> 0.one.matrix usuario# qstat Job id Name User Time Use S Queue ------------------------- ---------------- --------------- -------- - ----- 0.one STDIN dago 0 Q batch
Excelente, o job aparece! Infelizmente não rodará... o estado é "Q" (de "queued") e ele precisa ser agendado. Isto é o que instalaremos Maui para depois.
Apresente Torque aos escravos
Precisamos dizer ao pbs_server
quais nós escravos estão disponíveis e rodarão pbs_mom
, um cliente que permite ao servidor dar jobs a eles para rodar. Edite o arquivo abaixo com as maquinas e o numero de processadores:
vi /var/spool/pbs/server_priv/nodes cell108 np=2 cell109 np=2 cell110 np=2 cell111 np=2 cell112 np=2 cell113 np=2 cell114 np=2 cell115 np=2 cell116 np=2 cell117 np=2 cell118 np=2 cell119 np=2 cell120 np=2 cell121 np=2 cell122 np=2 cell123 np=2
Installing Torque on the Worker Nodes
Now we need to install a smaller version of torque, called pbs_mom
, on all of the worker nodes. Move back into the directory we untarred earlier, /usr/local/src/torque*
. There's a handy way to create the packages for the torque clients. Run
make packages
and they'll be created for you. This time you'll get a confirmation message:
Done. The package files are self-extracting packages that can be copied and executed on your production machines. Use --help for options.
You'll see some new files in the directory now if you run an ls
. The one we're interested in is torque-package-mom-linux-*.sh
where the * is your architecture. We need to copy that file to all the the worker nodes. You can either copy it over to a shared NFS mount, or see my Cluster Time-saving Tricks on how to
copy a file to all the nodes using the rsync
command. I'm copying it over to my NFS mount with
cp torque-package-mom-linux-i686.sh /shared/usr/local/src/
Once it's on each worker node, they each need to run the script with
torque-package-mom-linux-i686.sh --install
You have a couple of options for doing this on each node. You can ssh over and run it manually, or you can check out my Cluster Time-saving Tricks page to learn to how to write a quick script to run the command over ssh without having to log into each node. If you're going with the second route, the command to use is
for x in `cat machines`; do ssh $x /<full path to package>/torque-package-mom-linux-i686.sh --install; done
Before we can start up pbs_mom
on each of the nodes, they need to know who the server is. You can do this by creating a file /var/spool/pbs/server_name
that contains the hostname of the head node on each worker node, or you can copy the file to all of the nodes at once with a short script (assuming you've created a file at ~/machines
with the hostnames of the worker nodes as outlined in the Cluster Time-saving Tricks page):
for x in `cat ~/machines`; do rsync -plarv /var/spool/pbs/server_name $x:/var/spool/pbs/; done
Next, if you're using a NFS-mounted file system, you need to create a file on each of the worker nodes at /var/spool/pbs/mom_priv/config
with the contents
$usecp <full hostname of head node>:<home directory path on head node> <home directory path on worker node>
The path is the same for me on my head node or worker node, and my file looks like this:
$usecp gyrfalcon.raptor.loc:/shared/home /shared/home
Again, this file can be created on each of the worker nodes, or you can create it and copy it over to each of the nodes. If you're using the latter technique, assuming you've created a machines
file with all the host names, and you've created a config
file, the command to run from the head node is
for x in `cat ~/machines`; do rsync -plarv config $x:/var/spool/pbs/mom_priv/; done
After you've done that, pbs_mom
is ready to be started on each of the worker nodes. Again, you can ssh in to each node and run pbs_mom
, or the script equivalent is
for x in `cat ~/machines`; do ssh $x pbs_mom; done
Everyone Placing Nice on Torque
Finally, it's time to make sure the server monitors the pbs_moms that are running. Terminate the current queues with
qterm
and then start up the pbs server process again
pbs_server
Then, to see all the available worker nodes in the queue, run
pbsnodes -a
Para cada nó escravo deveria aparecer algo como
peregrine state = free np = 4 ntype = cluster status = opsys=linux,uname=Linux peregrine 2.6.21-2-686 #1 SMP Wed Jul 11 0 3:53:02 UTC 2007 i686,sessions=? 0,nsessions=? ,nusers=0,idletime=1910856,totme m=3004480kb,availmem=2953608kb,physmem=1028496kb,ncpus=8,loadave=0.00,netload=18 0898837,state=free,jobs=,varattr=,rectime=1200191204
Ready to continue? Move on to installing Maui, the scheduler.
References
Problemas ver
- http://www.clusterresources.com/pages/resources/documentation/common-issues/torque.php
- http://linux.die.net/man/8/pbs_mom
Parte 3
About Maui
The Maui Cluster Scheduler, or just Maui for short, is a cluster scheduler from Cluster Resources. Maui needs to be installed on just the head node, and then Torque is used to submit jobs to this scheduler. Maui manages the clients by way of the pbs_moms.
Installing Maui
To get Maui, first visit http://www.clusterresources.com/downloads/maui/temp/ and find the most recent version of it. At the time if this writing, that happens to be the 27-Jun-2007 snapshot. Copy the link for the location of the file. From /usr/local/src/
, issue the following command for the most current file:
wget http://www.clusterresources.com/downloads/maui/temp/maui-3.2.6p20-snap.1182974819.tar.gz
Next, untar the file with
tar xvf maui-3.2.6p20-snap.1182974819.tar.gz
Move into the directory that that just created with cd maui-*
. We're ready to run ./configure
(as part of the Source Installation Paradigm, which you might want to check out if this seems unfamiliar to you). We'll add a number of arguments. To see all of the possible arguments, type ./configure -help
. What we'll use is this:
./configure --with-pbs --with-spooldir=/var/spool/maui/
--with-pbs
makes it compatible with Torque--with-spooldir
sets it to use/var/spool/maui
as its home directory
If it finishes successfully, you'll see a message and a confirmation, as shown below.
configure: NOTE: link 'docs/mauidocs.html' to your local website for access to user and admin documentation NOTE: latest downloads, patches, etc are available at 'http://supercluster.org/ maui' configure successful.
Next, run
make
If it finishes without an error, the make
was successful. Finally, run
make install
and again, if it finishes without an error, that's a success. In order for mine to work, I had to edit /var/spool/maui/maui.cfg
. (If you didn't change your spool directory during ./configure
, yours will be located at /usr/local/maui/maui.cfg
.) You should have a line like
#RMCFG[HEADNODE] TYPE=PBS@RMNMHOST@
where HEADNODE
is your head node's hostname in capital letters. Comment out this line by adding a pound symbol, #
, in front of it. Then create a line below it:
RMCFG[headnode] TYPE=PBS
where headnode
is your head node's hostname in lowercase letters.
Starting Maui
Now maui can be started up on the head node. Maui installs the executable to /usr/local/maui/bin
, so you'll want to add that as part of root's path. To do this, run
export PATH=$PATH:/usr/local/maui/bin:/usr/local/maui/sbin
(To make this a permanent addition, add the above line to your ~/.bashrc
file.) Then run
maui
You won't get any output from it, but running
ps aux | grep maui
should show maui running now. In addition, running showq
should show give you a nice view of jobs in the queue waiting to be scheduled. Currently there are none.
gyrfalcon:/var/spool/maui# showq ACTIVE JOBS-------------------- JOBNAME USERNAME STATE PROC REMAINING STARTTIME 0 Active Jobs 0 of 0 Processors Active (0.00%) IDLE JOBS---------------------- JOBNAME USERNAME STATE PROC WCLIMIT QUEUETIME 0 Idle Jobs BLOCKED JOBS---------------- JOBNAME USERNAME STATE PROC WCLIMIT QUEUETIME
Sanity Check
By this point, you should have both torque and maui installed. Great! Continue onto the sanity check to make sure they're talking to each other.
References
Parte 4
Torque/Maui Sanity Check: Submitting a Job
A job is one particular instance of running a particular script or program of code. You won't want to run a job as root, so first, on your head node, become one of your users. (For instance, su - kwanous
.)
Jobs are submitted to the job queue run by torque, which maui monitors and will then schedule, and torque will tell the pbs_mom client running on the worker node that maui picks to run the job. Jobs are submitted to torque with the qsub
command.
Test: Sleep Job
An easy job to submit and monitor is just a sleep
command.
As one of your users, enter the command that will create a job that simply sleeps for 30 seconds, as shown below:
echo "sleep 30" | qsub
Immediately afterward, run the torque command qstat
to see the job appear in torque's queue, and then the maui command showq
. You can even run
pbsnodes | grep -v status | grep -v ntype
to see which node the job is running on. A script of my output is shown below.
kwanous@gyrfalcon:~$ echo "sleep 30" | qsub 6.gyrfalcon kwanous@gyrfalcon:~$ qstat Job id Name User Time Use S Queue ------------------------- ---------------- --------------- -------- - ----- 6.gyrfalcon STDIN kwanous 0 R batch
kwanous@gyrfalcon:~$ showq ACTIVE JOBS-------------------- JOBNAME USERNAME STATE PROC REMAINING STARTTIME 6 kwanous Running 1 1:00:00 Wed Jan 23 14:00:24 1 Active Job 1 of 28 Processors Active (3.57%) 1 of 7 Nodes Active (14.29%) ... snipped ... Total Jobs: 1 Active Jobs: 1 Idle Jobs: 0 Blocked Jobs: 0
kwanous@gyrfalcon:~$ pbsnodes | grep -v status | grep -v ntype eagle state = free np = 4 ... snipped ... peregrine state = free np = 4 jobs = 0/7.gyrfalcon
Approximately thirty seconds later, the job should finish running. If you run qstat
and showq
again, you should no longer see the job (6.gyrfalcon
, in my example) running.
Sleep Job Results
In the home directory of the user you've submitted the job as, you should now see two files, something like:
-
STDIN.o3
-
STDIN.e3
where 3
is the job ID. The file ending in .o#
is all of the output in the form of standard out that came from the job. .e#
is all the output from standard error. For our sleep job, both of these should be empty. sleep
doesn't give any output to standard out or standard error.
Test: Standard Output vs Standard Error
Qsub
can also take input in the form of files. These files can give all sorts of specifications to torque about how long the job will run and what resources it needs. (To learn more about qsub submission files, see Torque Qsub Scripts.) We'll write just a simple one. Open your favorite text editor and enter the contents of my Standard Output/Error For Loop Script and save this file to submission
. This script has a simple for loop that runs from 1 to 10. If the number is less than 5, it will print a statement to standard output. If the number is greater than or equal to 5, it will print a statement to standard error.
Submit the job with
qsub submission
where submission
is the name of the script file.
Job Results
Again, you should have .o#
and .e#
files in your home directory, but this time they should start with the name of the file submitted to qsub (submission
). This time, they should have content in them. Your output file should have the first four lines, which were printed to standard output:
1 is less than 5 2 is less than 5 3 is less than 5 4 is less than 5
and your error file should have the last six, which were printed to standard error:
5 is greater than or equal to 5 6 is greater than or equal to 5 7 is greater than or equal to 5 8 is greater than or equal to 5 9 is greater than or equal to 5 10 is greater than or equal to 5
Hmm...
If you didn't get the results described on this page, visiting the Troubleshooting Torque and Maui page might be of help.