This guide assumes that you already have an AWS account, as well as a log-in account on a Linux machine with a public address and a system administrator who's willing to open a port for you. All the terminal commands (shown on a grey background) and file edits (shown on a green background) take place on the Linux machine. You can perform the web-based steps from wherever is convenient, although it will save you some copying if you can run a browser on the Linux machine.
for the first time, you'll have to do three things:
- install a personal Condor
- prepare your AWS account
Instructions for each follow.
Install a personal Condor
We recommend that you install a personal condor to make use of
; it's simpler to configure that way.
These instructions assume that it's OK to create a directory named
in your home directory; adjust accordingly if you want to install HTCondor somewhere else.
Start by downloading the 8.7.1 release from the "tarballs" section that matches your Linux version. (If you don't know your Linux version, ask your system administrator.) These instructions assume that the file you downloaded is located in your home directory on the Linux machine, so copy it there if necessary.
Then do the following:
$ mkdir ~/condor-8.7.1; cd ~/condor-8.7.1; mkdir local $ tar -z -x -f ~/condor-8.7.1-*-stripped.tar.gz $ ./condor-8.7.1-*-stripped/condor_install --local-dir `pwd`/local --make-personal-condor $ . ./condor.sh $ condor_master
Give HTCondor a few seconds to spin up and the try a few commands to make sure the basics are working. Your output will vary depending on the time of day, the name of your Linux machine, and its core count, but it should generally be pretty similar to the following.
$ condor_q - Schedd: submit-3.batlab.org : <127.0.0.1:12815?... @ 02/03/17 13:57:35 OWNER BATCH_NAME SUBMITTED DONE RUN IDLE TOTAL JOB_IDS 0 jobs; 0 completed, 0 removed, 0 idle, 0 running, 0 held, 0 suspended $ condor_status -any MyType TargetType Name Negotiator None NEGOTIATOR Collector None Personal Condor at firstname.lastname@example.org Machine Job email@example.com Machine Job firstname.lastname@example.org Machine Job email@example.com Machine Job firstname.lastname@example.org Machine Job email@example.com Machine Job firstname.lastname@example.org Machine Job email@example.com Machine Job firstname.lastname@example.org Scheduler None submit-3.batlab.org DaemonMaster None submit-3.batlab.org Accounting none <none>
You should also try to submit a job; create the following file
executable = /bin/sleep arguments = 600 queue
and submit it:
$ condor_submit ~/condor-annex/sleep.submit Submitting job(s). 1 job(s) submitted to cluster 1. $ condor_reschedule
After a little while:
$ condor_q -- Schedd: submit-3.batlab.org : <127.0.0.1:12815?... @ 02/03/17 13:57:35 OWNER BATCH_NAME SUBMITTED DONE RUN IDLE TOTAL JOB_IDS tlmiller CMD: /bin/sleep 2/3 13:56 _ 1 _ 1 3.0 1 jobs; 0 completed, 0 removed, 0 idle, 1 running, 0 held, 0 suspended
Configure public interface
The default personal Condor uses the "loopback" interface, which basically just means it won't talk to anyone other than itself. For
to work, your personal condor needs to use the Linux machine's public interface. In most cases, that's as simple as adding the following lines to
NETWORK_INTERFACE = * CONDOR_HOST = $(FULL_HOSTNAME)
Restart HTCondor to force the changes to take effect:
$ condor_restart Sent "Restart" command to local master
Repeat the steps under "Testing" to make sure that this configuration works for you, and then proceed onto the next section.
Configure a pool password
In this section, you'll configure your personal Condor to use a pool password. This is a simple but effective method of securing Condor's communications to AWS.
Add the following lines to
SEC_PASSWORD_FILE = $(LOCAL_DIR)/condor_pool_password SEC_DAEMON_INTEGRITY = REQUIRED SEC_DAEMON_AUTHENTICATION = REQUIRED SEC_DAEMON_AUTHENTICATION_METHODS = PASSWORD SEC_NEGOTIATOR_INTEGRITY = REQUIRED SEC_NEGOTIATOR_AUTHENTICATION = REQUIRED SEC_NEGOTIATOR_AUTHENTICATION_METHODS = PASSWORD SEC_CLIENT_AUTHENTICATION_METHODS = FS, PASSWORD ALLOW_DAEMON = condor_pool@*
You also need to run the following command, which prompts you to enter a password:
$ condor_store_cred -c add -f `condor_config_val SEC_PASSWORD_FILE` Enter password:
Enter a password.
(For more details, see HowToEnablePoolPassword .)
Tell HTCondor about the open port
By default, HTCondor will use port 9618. If the Linux machine doesn't already have HTCondor installed, and the admin is willing to open that port, then you don't have to do anything. Otherwise, you'll need to add a line like the following to
, replacing '9618' with whatever port the administrator opened for you.
COLLECTOR_HOST = $(FULL_HOSTNAME):9618
Activate the new configuration
Force HTCondor to read the new configuration by restarting it:
Prepare your AWS account
tool now includes a
command which will prepare your AWS account.
Obtaining an Access Key
In order to use AWS,
needs a pair of security tokens (like a user name and password). Like a user name, the "access key" is (more or less) public information; the corresponding "secret key" is like a password and must be kept a secret. To help keep both halves secret,
(and HTCondor) are never told these keys directly; instead, you tell HTCondor which file to look in to find each one.
Create those two files now; we'll tell you how to fill them in shortly. By convention, these files exist in your
directory, which is where
will store the rest of the data it needs.
$ mkdir ~/.condor $ cd ~/.condor $ touch publicKeyFile $ touch privateKeyFile $ chmod 600 publicKeyFile privateKeyFile
The last command ensures that only you can read or write to those files.
To donwload a new pair of security tokens for
to use, go to the
; log in if you need to. The following instructions assume you are logged in as a user with the privilege to create new users. (The 'root' user for any account has this privilege; other accounts may as well.)
- Click the "Add User" button.
- Enter name in the User name box; "annex-user" is a fine choice.
- Click the check box labelled "Programmatic access".
- Click the button labelled "Next: Permissions".
- Select "Attach existing policies directly".
- Type " AdministratorAccess " in the box labelled "Filter".
- Click the check box on the single line that will appear below (labelled " AdministratorAccess ").
- Click the "Next: review" button (you may need to scroll down).
- Click the "Create user" button.
From the line labelled "annex-user", copy the value in the column labelled "Access key ID" to
On the line labelled "annex-user", click the "Show" link in the column labelled "Secret access key"; copy the revealed value to
- Hit the "Close" button.
The 'annex-user' now has full privileges to your account. We're working on creating a
template that will create a user with only the privileges
Running the Setup Command
The following command will setup your AWS account. It will create a number of persistent components, none of which will cost you anything to keep around. These components can take quite some time to create;
each for completion every ten seconds and prints an additional dot (past the first three) when it does so, to let you know that everything's still working.
$ condor_annex -setup Creating configuration bucket (this takes less than a minute)....... complete. Creating Lambda functions (this takes about a minute)........ complete. Creating instance profile (this takes about two minutes)................... complete. Creating security group (this takes less than a minute)..... complete. Setup successful.
Checking the Setup
You can verify at this point (or any later time) that the setup procedure completed successfully by running the following command.
$ condor_annex -check-setup Checking for configuration bucket... OK. Checking for Lambda functions... OK. Checking for instance profile... OK. Checking for security group... OK.
Undoing the Setup Command
There is not as yet a way to undo the setup command automatically, but it won't cost you anything extra to leave your account setup for
indefinitely. If, however, you want to be tidy, you may delete the components setup created by going to the
and deleting the entries whose names begin with 'HTCondorAnnex-'. The setup procedure also creates an SSH key pair which may be useful for debugging; the private key was stored in
. To remove the corresponding public key from your AWS account, go to the
key pair console
and delete the 'HTCondorAnnex-KeyPair' key.
You're ready to run
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