The Dockerhub image has moved to the Jamf namespace and tags will pushed here: Dockerhub Tags
Basic example Docker image based upon upstream Tomcat image to run a manually downloaded JamfPro ROOT.war from JamfNation.
This repository is provided as an example of how to construct a very basic Docker image to run a JamfPro server. Please refer to this JamfNation post - Apache Tomcat Versions Installed by the Jamf Pro Installer - to determine which Tomcat versions are explictly supported for a particular version of JamfPro.
Override the version of Tomcat used:
docker build --build-arg "TOMCAT_VERSION=8.5.85-jdk11" -t jamfpro .
Replace the server.template
file prior to building to override the server.xml Tomcat file.
STDOUT_LOGGING [ true ] / false
DATABASE_HOST [ localhost ]
DATABASE_NAME [ jamfsoftware ]
DATABASE_USERNAME [ jamfsoftware ]
DATABASE_PASSWORD [ jamfsw03 ]
DATABASE_PORT [ 3306 ]
JDBC_PARAMETERS [ ]
JMXREMOTE true / [ false ]
JMXREMOTE_PORT
JMXREMOTE_RMI_PORT
JMXREMOTE_SSL
JMXREMOTE_AUTHENTICATE
RMI_SERVER_HOSTNAME
JMXREMOTE_PASSWORD_FILE
CATALINA_OPTS
JAVA_OPTS [ -Djava.awt.headless=true ]
PRIMARY_NODE_NAME -- Enable clustering
This MUST be the ip address of the primary as recognized by Tomcat
There is no direct JamfPro primary <--> secondary communication so the ip need not be reachable by the secondary directly
POD_NAME -- Enable Kubernetes clustering via downward API
POD_IP -- Enable Kubernetes clustering via downward API
MEMCACHED_HOST -- Enable Memcached caching, assumes port 11211 by default
server.xml template overrides:
tomcat_executor_max_threads - 150
tomcat_executor_min_threads - 4
tomcat_connector_port - 8080
tomcat_connection_timeout - 61000
tomcat_connector_proxy_port - 443
tomcat_connector_server - Jamf
tomcat_connector_max_parameter_count - 300000
tomcat_host_app_base - webapps
tomcat_host_unpack_wars - true
tomcat_host_auto_deploy - true
tomcat_host_start_stop_threads - 4
tomcat_host_stuck_threads_threshold - 600
This image requires that either a /data/ROOT.war
be bind-mounted and exist, or the /usr/bin/tomcat/webapps/ROOT
directory exist.
A ROOT.war will be auto-unpacked and configured based upon the above environment variables, or if the ROOT directory already exists, nothing will be unpacked but logging paths, database information, JMX, and Java opts will be set.
The DataBase.xml
file can be optionally mounted into the container's /config
directory, this will override any environment variables set.
Run a basic JamfPro instance with port 8080 exposed locally on port 8080, setup remote database, bind-mounted ROOT.war, and bind-mounted webapps directory.
docker run -p 8080:8080 -d \
-e DATABASE_USERNAME=root \
-e DATABASE_PASSWORD=jamfsw03 \
-e DATABASE_HOST=host.docker.internal \
-v $(pwd)/ROOT.war:/data/ROOT.war \
-v $(pwd)/webapps:/usr/local/tomcat/webapps \
jamf/jamfpro:0.0.18
Valid image tags can be found on Dockerhub Tags or Github Releases.
When enabling clustering the Tomcat manifest should include both POD_NAME
and POD_IP
environment variables which can be accessed via the Kubernetes downward API. The environment variable PRIMARY_NODE_NAME
should be set to whichever pod will become the primary node. An example of utilizing the downward API in a manifest:
- name: POD_NAME
valueFrom:
fieldRef:
fieldPath: metadata.name
- name: POD_IP
valueFrom:
fieldRef:
fieldPath: status.podIP