Jetty预计阅读时间: 8 分钟
Jetty provides a Web server and javax.servlet container.
GitHub repo: https://github.com/appropriate/docker-jetty
Supported tags and respective
For detailed information about the published artifacts of each of the above supported tags (image metadata, transfer size, etc), please see the
repos/jetty directory in the
docker-library/repo-info GitHub repo.
For more information about this image and its history, please see the relevant manifest file (
library/jetty). This image is updated via pull requests to the
docker-library/official-images GitHub repo.
What is Jetty?
Jetty is a pure Java-based HTTP (Web) server and Java Servlet container. While Web Servers are usually associated with serving documents to people, Jetty is now often used for machine to machine communications, usually within larger software frameworks. Jetty is developed as a free and open source project as part of the Eclipse Foundation. The web server is used in products such as Apache ActiveMQ, Alfresco, Apache Geronimo, Apache Maven, Apache Spark, Google App Engine, Eclipse, FUSE, Twitter’s Streaming API and Zimbra. Jetty is also the server in open source projects such as Lift, Eucalyptus, Red5, Hadoop and I2P. Jetty supports the latest Java Servlet API (with JSP support) as well as protocols SPDY and WebSocket.
Logo © Eclipse Foundation
How to use this image.
To run the default Jetty server in the background, use the following command:
$ docker run -d jetty
You can test it by visiting
https://container-ip:8443/ in a browser. To expose your Jetty server to outside requests, use a port mapping as follows:
$ docker run -d -p 80:8080 -p 443:8443 jetty
This will map port 8080 inside the container as port 80 on the host and container port 8443 as host port 443. You can then go to
https://host-ip in a browser.
The default Jetty environment in the image is:
JETTY_HOME = /usr/local/jetty JETTY_BASE = /var/lib/jetty TMPDIR = /tmp/jetty
Webapps can be deployed under
/var/lib/jetty/webapps in the usual ways (WAR file, exploded WAR directory, or context XML file). To deploy your application to the
/ context, use the name
ROOT.war, the directory name
ROOT, or the context file
ROOT.xml (case insensitive).
For older EOL’d images based on Jetty 7 or Jetty 8, please follow the legacy instructions on the Eclipse Wiki and deploy under
/usr/local/jetty/webapps instead of
The configuration of the Jetty server can be reported by running with the
$ docker run -d jetty --list-config
Configuration such as parameters and additional modules may also be passed in via the command line. For example:
$ docker run -d jetty --modules=jmx jetty.threadPool.maxThreads=500
To update the server configuration in a derived Docker image, the
Dockerfile may enable additional modules with
RUN commands like:
FROM jetty RUN java -jar "$JETTY_HOME/start.jar" --add-to-startd=jmx,stats
Modules may be configured in a
Dockerfile by editing the properties in the corresponding
/var/lib/jetty/start.d/*.mod file or the module can be deactivated by removing that file.
JVM options can be set by passing the
JAVA_OPTIONS environment variable to the container. For example, to set the maximum heap size to 1 gigabyte, you can run the container as follows:
$ docker run -e JAVA_OPTIONS="-Xmx1g" -d jetty
jetty as a read-only container, have Docker create the
/run/jetty directories as volumes:
$ docker run -d --read-only -v /tmp/jetty -v /run/jetty jetty
Since the container is read-only, you’ll need to either mount in your webapps directory with
-v /path/to/my/webapps:/var/lib/jetty/webapps or by populating
/var/lib/jetty/webapps in a derived image.
Starting with version 9.3, Jetty comes with built-in support for HTTP/2. However, due to potential license compatiblity issues with the ALPN library used to implement HTTP/2, the module is not enabled by default. In order to enable HTTP/2 support in a derived
Dockerfile for private use, you can add a
RUN command that enables the
http2 module and approve its license as follows:
FROM jetty RUN java -jar $JETTY_HOME/start.jar --add-to-startd=http2 --approve-all-licenses
This will add an
http2.ini file to the
$JETTY_BASE/start.d directory and download the required ALPN libraries into
$JETTY_BASE/lib/alpn, allowing the use of HTTP/2. HTTP/2 connections should be made via the same port as normal HTTPS connections (container port 8443). If you would like to enable the
http2 module via
$JETTY_BASE/start.ini instead, substitute
--add-to-start in place of
--add-to-startd in the
RUN command above.
Once OpenJDK 9 becomes generally available with built-in support for ALPN, this image will be updated to enable HTTP/2 support by default.
By default, this image starts as user
root and uses Jetty’s
setuid module to drop privileges to user
jetty after initialization. The
JETTY_BASE directory at
/var/lib/jetty is owned by
jetty:jetty (uid 999, gid 999).
If you would like the image to start immediately as user
jetty instead of starting as
root, you can start the container with
$ docker run -d -u jetty jetty
jetty images come in many flavors, each designed for a specific use case.
This is the defacto image. If you are unsure about what your needs are, you probably want to use this one. It is designed to be used both as a throw away container (mount your source code and start the container to start your app), as well as the base to build other images off of.
This image is based on the popular Alpine Linux project, available in the
alpine official image. Alpine Linux is much smaller than most distribution base images (~5MB), and thus leads to much slimmer images in general.
This variant is highly recommended when final image size being as small as possible is desired. The main caveat to note is that it does use musl libc instead of glibc and friends, so certain software might run into issues depending on the depth of their libc requirements. However, most software doesn’t have an issue with this, so this variant is usually a very safe choice. See this Hacker News comment thread for more discussion of the issues that might arise and some pro/con comparisons of using Alpine-based images.
To minimize image size, it’s uncommon for additional related tools (such as
bash) to be included in Alpine-based images. Using this image as a base, add the things you need in your own Dockerfile (see the
alpine image description for examples of how to install packages if you are unfamiliar).
View license information for the software contained in this image.
Supported Docker versions
This image is officially supported on Docker version 17.04.0-ce.
Support for older versions (down to 1.6) is provided on a best-effort basis.
Please see the Docker installation documentation for details on how to upgrade your Docker daemon.
If you have any problems with or questions about this image, please contact us through a GitHub issue. If the issue is related to a CVE, please check for a
cve-tracker issue on the
official-images repository first.
You can also reach many of the official image maintainers via the
#docker-library IRC channel on Freenode.
You are invited to contribute new features, fixes, or updates, large or small; we are always thrilled to receive pull requests, and do our best to process them as fast as we can.
Before you start to code, we recommend discussing your plans through a GitHub issue, especially for more ambitious contributions. This gives other contributors a chance to point you in the right direction, give you feedback on your design, and help you find out if someone else is working on the same thing.
Documentation for this image is stored in the
jetty/ directory of the
docker-library/docs GitHub repo. Be sure to familiarize yourself with the repository’s
README.md file before attempting a pull request.