We have the most recent builds available for download as war
files which can be deployed on an application container (e.g. Apache Tomcat).
War file | Build Environment | Build Status | Source | Config Location
--- | --- | --- | --- | --- | ---
gscf.war | production
| | | ~/.gscf/production.properties ?
metabolomicsModule | production
| | | ~/.metabolomicsModule/production.properties ?
SAM | production
| | | ~/.dbxp/production-sam.properties ?
questionnaireModule.war | | | | ~/.dbxp/production-questionnaireModule.properties ?
gscf.war | production
dbnptest
| | | ~/.gscf/dbnptest.properties ?
gscf.war | ci
| | | ~/.gscf/ci.properties ?
metabolomicsModule.war | ci
| | | ~/.metabolomicsModule/ci.properties ?
sam.war | | | | ~/.dbxp/production-sam.properties ?
gscf.war | ci
ci2
| | | ~/.gscf/ci2.properties ?
gscf.war | ci3
| | | ~/.gscf/ci3.properties ?
uploadr plugin | ci
| | | n/a (documentation)
Note: each project / environment requires a specific configuration file.
In this guide we will assume you use Linux as a hosting platform. While you will be able to run GSCF on Windows, using Linux is preferable. This guide is written with Debian GNU/Linux (or Ubuntu) as a hosting platform. As Linux distributions differ other distributions may require minor changes in setup, but following this guide you should be able to get things running on other distributions as well.
The tutorial is based on a number of assumptions:
- you have root access to the server
- we will set up a gscf test instance on test.mysite.com on IP (1.2.3.4)
- a DNS record is available for test.mysite.com
- our database will be named 'mytestdb' with username 'mydbuser' and password 'mydbpassword'
- we will have one administrator user (user 'admin', password 'adminpw')
- we will have one default user (user 'user', password 'userpw')
Before we can set up the server, the following requirements should be met:
- Apache Tomcat ≥ 6.x.x
- Apache Webserver ≥ 2.x (+mod_proxy, +mod_rewrite)
- PostgreSQL database server ≥ 8.4
- Active internet connection (with change of code other options are to install a local instance of BioPortal or remove the link to BioPortal)
Installation is quick and easy:
apt-get install tomcat6 postgresql-8.4 apache2 libapache2-mod-proxy-html libapache2-mod-jk
su to user postgres and create the database:
Note: you may have to use double quotes (") rather than single quotes (').
root@nmcdsp:~# su - postgres
postgres@nmcdsp:~$ psql
Welcome to psql 8.3.14, the PostgreSQL interactive terminal.
Type: \copyright for distribution terms
\h for help with SQL commands
\? for help with psql commands
\g or terminate with semicolon to execute query
\q to quit
postgres=# create database 'mytestdb';
CREATE DATABASE
postgres=# create user mydbuser password 'mydbpassword';
CREATE ROLE
postgres=# grant all privileges on database mytestdb to mydbuser;
GRANT
postgres=# alter database mytestdb owner to mydbuser;
ALTER DATABASE
postgres=# \l
List of databases
Name | Owner | Encoding
-------------+---------------+----------
mytestdb | mydbuser | UTF8
postgres | postgres | UTF8
template0 | postgres | UTF8
template1 | postgres | UTF8
(16 rows)
postgres=# \q
postgres@nmcdsp:~$ exit
logout
root@nmcdsp:~#
As of GSCF 0.8.3 a setup wizard is included which will create a configuration file for you (/path/to/homedir/.gscf/environment.properties). However, to run this wizard, you need a working instance, so it might be more convenient to write the configuration yourself. If you start the application, you will see exactly at which location it is looking for a configuration file. It is probably /usr/share/tomcat6/.gscf/production.properties. You can use it to specify the database connection, for example as follows:
# server URL
grails.serverURL=http://old.studies.dbnp.org
# DATABASE
dataSource.driverClassName=org.postgresql.Driver
dataSource.dialect=org.hibernate.dialect.PostgreSQLDialect
dataSource.url=jdbc:postgresql://localhost:5432/gscf-www
dataSource.dbCreate=update
dataSource.username=mydbuser
dataSource.password=mydbpassword
#dataSource.logSql=false
# SpringSecurity E-Mail Settings
grails.plugins.springsecurity.ui.forgotPassword.emailFrom=gscfproject@gmail.com
# module configuration
#modules.sam.url=http://old.sam.dbnp.org
#modules.metabolomics.url=http://old.metabolomics.dbnp.org
#modules.metagenomics.url=http://old.metagenomics.dbnp.org
# default application users
authentication.users.admin.username=admin
authentication.users.admin.password=admiN123!
[email protected]
authentication.users.admin.administrator=true
authentication.users.user.username=user
authentication.users.user.password=useR123!
[email protected]
authentication.users.user.administrator=false
// override application title
application.title=Phenotype Database
# use shibboleth authentication?
authentication.shibboleth=false
Don't forget to change the default passwords to something more secure!
Grails uses a cache folder, which should be created if the tomcat user cannot create it
root@nmcdsp:~# mkdir -p /usr/share/tomcat6/.grails;chown tomcat6.tomcat6 /usr/share/tomcat6/.grails;chmod -R gou+rwx /usr/share/tomcat6/.grails
Download and install the latest WAR from the section above, and deploy it on your application container (e.g. Apache Tomcat).
You should now be able to start tomcat and run the GSCF application:
root@nmcdsp:~# /etc/init.d/tomcat6 start
Starting Tomcat servlet engine: tomcat6.
root@nmcdsp:~#
As tomcat is running (by default) on 8080, it is not very professional to have your application run on http://test.mysite.com:8080/gscf. Instead http://test.mysite.com is preferable. Also it is convenient to be able to add load balancing functionality in case you expect high load. Apache can solve these issues.
First, make sure Apache loads all modules we require:
root@nmcdsp:~# cd /etc/apache2/mods-enabled/
root@nmcdsp:/etc/apache2/mods-enabled# ln -s ../mods-available/proxy* .
root@nmcdsp:/etc/apache2/mods-enabled# ln -s ../mods-available/rewrite.load .
Then create a new virtual host configuration for test.mysite.com and edit it:
root@nmcdsp:/etc/apache2/mods-enabled# cd /etc/apache2/sites-available/
root@nmcdsp:/etc/apache2/sites-available# nano mysite.com_gscf-test.conf
Paste the following content into the virtual host configuration:
<VirtualHost *:80>
ServerName test.mysite.com
ServerAlias test.gscf.mysite.com
ErrorLog /var/log/apache2/gscf-test-error.log
CustomLog /var/log/apache2/gscf-test-access.log combined
<IfModule mod_rewrite.c>
RewriteEngine on
# keep listening for the serveralias, but redirect to
# servername instead to make sure only one user session
# is created (tomcat will create one user session per
# domain which may lead to two (or more) usersessions
# depending on the number of serveraliases)
# see gscf ticket #321
RewriteCond %{HTTP_HOST} ^test.gscf.mysite.com$ [NC]
RewriteRule ^(.*)$ http://test.mysite.com$1 [R=301,L]
# rewrite the /gscf-a.b.c-environment/ part of the url
RewriteCond %{HTTP_HOST} ^test.mysite.com$ [NC]
RewriteRule ^/gscf/(.*)$ /$1 [L,PT,NC,NE]
</IfModule>
<IfModule mod_proxy.c>
<Proxy *>
Order deny,allow
Allow from all
</Proxy>
ProxyStatus On
ProxyPass / balancer://gscf-cluster/gscf/ stickysession=JSESSIONID|jsessionid nofailover=On
ProxyPassReverse / balancer://gscf-cluster/gscf/
ProxyPassReverseCookiePath /gscf /
<Location />
SetOutputFilter proxy-html
ProxyHTMLDoctype XHTML Legacy
ProxyHTMLURLMap /gscf/ /
</Location>
<Proxy balancer://gscf-cluster>
BalancerMember ajp://localhost:8009
</Proxy>
</IfModule>
</VirtualHost>
and press CTRL-X (and Y) to save
Now enable this virtual host configuration:
root@nmcdsp:/etc/apache2# cd /etc/apache2/sites-enabled
root@nmcdsp:/etc/apache2/sites-enabled# ln -s ../sites-available/mysite.com_gscf-test.conf
And reload apache to use the newly created virtual host configuration:
root@nmcdsp:/etc/apache2/sites-enabled# /etc/init.d/apache2 reload
Your site should now be up and running and listening on http://test.mysite.com (and server alias test.gscf.mysite.com)
If you, at some point in the future, require more nodes serving GSCF you can change the virtual host configuration above to include multiple BalancerMembers in the balancer configuration. For example, you could set up one Apache Webserver to act as a loadbalancer to a number of tomcat servers running in a DMZ:
<Proxy balancer://gscf-cluster>
BalancerMember ajp://10.0.0.10:8009
BalancerMember ajp://10.0.0.11:8009
BalancerMember ajp://10.0.0.12:8009
BalancerMember ajp://10.0.0.13:8009
</Proxy>
Caveats: GSCF has not yet been tested in such an environment. Other things to keep in mind when moving towards loadbalancing:
- the tomcat sessions need to be synchronized as well as shared storage (gfs seems best equiped), unless a client stays on the same node during the duration of his session
- probably one PostgreSQL database can manager all members, however when load becomes too high one might also introduce one or more PostgreSQL servers. Possible read/write and read only database servers. This however required changes in the codebase to support such features.
The project is developed using the Grails Framework, so you either need an IDE that supports Grails (we use Intellij) or run it in your terminal. In either case you need to download install Grails (version 2.2.0 at the time of writing).
When you have successfully installed the Grails web application framework, you should be able to run Grails in your terminal:
If grails is installed successfully, you can clone the project to your machine and run the project:
When the application is running, you should be able to access it at http://localhost:8080/gscf
Most of the developers on this project favor Intellij over Eclipse, as we feel it integrates best with Groovy & Grails. Running GSCF in Intellij is as easy as configuring Grails and running the Application.
The VM Options in this screenshot are:
-Xms1048m -Xmx1048m -XX:PermSize=1048m -XX:MaxPermSize=2048m -XX:MaxHeapFreeRatio=70 -XX:MaxGCPauseMillis=10 -XX:+UseConcMarkSweepGC -XX:+CMSClassUnloadingEnabled -javaagent:/Users/jeroen/libs/grails-2.2.0/lib/org.springsource.springloaded/springloaded-core/jars/springloaded-core-1.1.1.jar -Xverify:none
Where the latter two (-javaagent:… -Xverify:none
) can be omitted as they used to resolve a specific dynamic reloading issue in Intellij 12 which was solved in the latest Intellij builds
Copyright 2009 Phenotype Foundation & Netherlands Metabolomics Centre
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.