mirror of https://github.com/docker/cli.git
470 lines
17 KiB
Markdown
470 lines
17 KiB
Markdown
% DOCKERFILE(5) Docker User Manuals
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% Zac Dover
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% May 2014
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# NAME
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Dockerfile - automate the steps of creating a Docker image
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# INTRODUCTION
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The **Dockerfile** is a configuration file that automates the steps of creating
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a Docker image. It is similar to a Makefile. Docker reads instructions from the
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**Dockerfile** to automate the steps otherwise performed manually to create an
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image. To build an image, create a file called **Dockerfile**.
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The **Dockerfile** describes the steps taken to assemble the image. When the
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**Dockerfile** has been created, call the `docker build` command, using the
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path of directory that contains **Dockerfile** as the argument.
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# SYNOPSIS
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INSTRUCTION arguments
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For example:
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FROM image
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# DESCRIPTION
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A Dockerfile is a file that automates the steps of creating a Docker image.
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A Dockerfile is similar to a Makefile.
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# USAGE
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docker build .
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-- Runs the steps and commits them, building a final image.
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The path to the source repository defines where to find the context of the
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build. The build is run by the Docker daemon, not the CLI. The whole
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context must be transferred to the daemon. The Docker CLI reports
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`"Sending build context to Docker daemon"` when the context is sent to the
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daemon.
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```
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docker build -t repository/tag .
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```
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-- specifies a repository and tag at which to save the new image if the build
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succeeds. The Docker daemon runs the steps one-by-one, committing the result
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to a new image if necessary, before finally outputting the ID of the new
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image. The Docker daemon automatically cleans up the context it is given.
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Docker re-uses intermediate images whenever possible. This significantly
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accelerates the *docker build* process.
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# FORMAT
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`FROM image`
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`FROM image:tag`
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`FROM image@digest`
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-- The **FROM** instruction sets the base image for subsequent instructions. A
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valid Dockerfile must have **FROM** as its first instruction. The image can be any
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valid image. It is easy to start by pulling an image from the public
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repositories.
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-- **FROM** must be the first non-comment instruction in Dockerfile.
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-- **FROM** may appear multiple times within a single Dockerfile in order to create
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multiple images. Make a note of the last image ID output by the commit before
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each new **FROM** command.
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-- If no tag is given to the **FROM** instruction, Docker applies the
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`latest` tag. If the used tag does not exist, an error is returned.
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-- If no digest is given to the **FROM** instruction, Docker applies the
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`latest` tag. If the used tag does not exist, an error is returned.
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**MAINTAINER**
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-- **MAINTAINER** sets the Author field for the generated images.
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Useful for providing users with an email or url for support.
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**RUN**
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-- **RUN** has two forms:
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```
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# the command is run in a shell - /bin/sh -c
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RUN <command>
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# Executable form
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RUN ["executable", "param1", "param2"]
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```
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-- The **RUN** instruction executes any commands in a new layer on top of the current
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image and commits the results. The committed image is used for the next step in
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Dockerfile.
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-- Layering **RUN** instructions and generating commits conforms to the core
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concepts of Docker where commits are cheap and containers can be created from
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any point in the history of an image. This is similar to source control. The
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exec form makes it possible to avoid shell string munging. The exec form makes
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it possible to **RUN** commands using a base image that does not contain `/bin/sh`.
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Note that the exec form is parsed as a JSON array, which means that you must
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use double-quotes (") around words not single-quotes (').
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**CMD**
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-- **CMD** has three forms:
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```
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# Executable form
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CMD ["executable", "param1", "param2"]`
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# Provide default arguments to ENTRYPOINT
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CMD ["param1", "param2"]`
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# the command is run in a shell - /bin/sh -c
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CMD command param1 param2
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```
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-- There should be only one **CMD** in a Dockerfile. If more than one **CMD** is listed, only
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the last **CMD** takes effect.
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The main purpose of a **CMD** is to provide defaults for an executing container.
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These defaults may include an executable, or they can omit the executable. If
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they omit the executable, an **ENTRYPOINT** must be specified.
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When used in the shell or exec formats, the **CMD** instruction sets the command to
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be executed when running the image.
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If you use the shell form of the **CMD**, the `<command>` executes in `/bin/sh -c`:
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Note that the exec form is parsed as a JSON array, which means that you must
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use double-quotes (") around words not single-quotes (').
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```
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FROM ubuntu
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CMD echo "This is a test." | wc -
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```
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-- If you run **command** without a shell, then you must express the command as a
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JSON array and give the full path to the executable. This array form is the
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preferred form of **CMD**. All additional parameters must be individually expressed
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as strings in the array:
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```
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FROM ubuntu
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CMD ["/usr/bin/wc","--help"]
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```
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-- To make the container run the same executable every time, use **ENTRYPOINT** in
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combination with **CMD**.
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If the user specifies arguments to `docker run`, the specified commands
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override the default in **CMD**.
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Do not confuse **RUN** with **CMD**. **RUN** runs a command and commits the result.
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**CMD** executes nothing at build time, but specifies the intended command for
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the image.
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**LABEL**
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-- `LABEL <key>[=<value>] [<key>[=<value>] ...]`or
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```
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LABEL <key>[ <value>]
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LABEL <key>[ <value>]
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...
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```
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The **LABEL** instruction adds metadata to an image. A **LABEL** is a
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key-value pair. To include spaces within a **LABEL** value, use quotes and
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backslashes as you would in command-line parsing.
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```
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LABEL com.example.vendor="ACME Incorporated"
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or
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LABEL com.example.vendor "ACME Incorporated"
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```
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An image can have more than one label. To specify multiple labels, separate
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each key-value pair by a space.
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Labels are additive including `LABEL`s in `FROM` images. As the system
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encounters and then applies a new label, new `key`s override any previous
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labels with identical keys.
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To display an image's labels, use the `docker inspect` command.
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**EXPOSE**
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-- `EXPOSE <port> [<port>...]`
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The **EXPOSE** instruction informs Docker that the container listens on the
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specified network ports at runtime. Docker uses this information to
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interconnect containers using links and to set up port redirection on the host
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system.
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**ENV**
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-- `ENV <key> <value>`
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The **ENV** instruction sets the environment variable <key> to
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the value `<value>`. This value is passed to all future
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**RUN**, **ENTRYPOINT**, and **CMD** instructions. This is
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functionally equivalent to prefixing the command with `<key>=<value>`. The
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environment variables that are set with **ENV** persist when a container is run
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from the resulting image. Use `docker inspect` to inspect these values, and
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change them using `docker run --env <key>=<value>`.
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Note that setting "`ENV DEBIAN_FRONTEND noninteractive`" may cause
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unintended consequences, because it will persist when the container is run
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interactively, as with the following command: `docker run -t -i image bash`
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**ADD**
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-- **ADD** has two forms:
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```
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ADD <src> <dest>
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# Required for paths with whitespace
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ADD ["<src>",... "<dest>"]
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```
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The **ADD** instruction copies new files, directories
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or remote file URLs to the filesystem of the container at path `<dest>`.
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Multiple `<src>` resources may be specified but if they are files or directories
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then they must be relative to the source directory that is being built
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(the context of the build). The `<dest>` is the absolute path, or path relative
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to **WORKDIR**, into which the source is copied inside the target container.
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If the `<src>` argument is a local file in a recognized compression format
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(tar, gzip, bzip2, etc) then it is unpacked at the specified `<dest>` in the
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container's filesystem. Note that only local compressed files will be unpacked,
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i.e., the URL download and archive unpacking features cannot be used together.
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All new directories are created with mode 0755 and with the uid and gid of **0**.
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**COPY**
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-- **COPY** has two forms:
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```
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COPY <src> <dest>
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# Required for paths with whitespace
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COPY ["<src>",... "<dest>"]
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```
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The **COPY** instruction copies new files from `<src>` and
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adds them to the filesystem of the container at path <dest>. The `<src>` must be
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the path to a file or directory relative to the source directory that is
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being built (the context of the build) or a remote file URL. The `<dest>` is an
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absolute path, or a path relative to **WORKDIR**, into which the source will
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be copied inside the target container. If you **COPY** an archive file it will
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land in the container exactly as it appears in the build context without any
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attempt to unpack it. All new files and directories are created with mode **0755**
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and with the uid and gid of **0**.
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**ENTRYPOINT**
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-- **ENTRYPOINT** has two forms:
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```
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# executable form
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ENTRYPOINT ["executable", "param1", "param2"]`
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# run command in a shell - /bin/sh -c
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ENTRYPOINT command param1 param2
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```
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-- An **ENTRYPOINT** helps you configure a
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container that can be run as an executable. When you specify an **ENTRYPOINT**,
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the whole container runs as if it was only that executable. The **ENTRYPOINT**
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instruction adds an entry command that is not overwritten when arguments are
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passed to docker run. This is different from the behavior of **CMD**. This allows
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arguments to be passed to the entrypoint, for instance `docker run <image> -d`
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passes the -d argument to the **ENTRYPOINT**. Specify parameters either in the
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**ENTRYPOINT** JSON array (as in the preferred exec form above), or by using a **CMD**
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statement. Parameters in the **ENTRYPOINT** are not overwritten by the docker run
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arguments. Parameters specified via **CMD** are overwritten by docker run
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arguments. Specify a plain string for the **ENTRYPOINT**, and it will execute in
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`/bin/sh -c`, like a **CMD** instruction:
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```
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FROM ubuntu
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ENTRYPOINT wc -l -
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```
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This means that the Dockerfile's image always takes stdin as input (that's
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what "-" means), and prints the number of lines (that's what "-l" means). To
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make this optional but default, use a **CMD**:
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```
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FROM ubuntu
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CMD ["-l", "-"]
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ENTRYPOINT ["/usr/bin/wc"]
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```
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**VOLUME**
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-- `VOLUME ["/data"]`
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The **VOLUME** instruction creates a mount point with the specified name and marks
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it as holding externally-mounted volumes from the native host or from other
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containers.
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**USER**
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-- `USER daemon`
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Sets the username or UID used for running subsequent commands.
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The **USER** instruction can optionally be used to set the group or GID. The
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followings examples are all valid:
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USER [user | user:group | uid | uid:gid | user:gid | uid:group ]
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Until the **USER** instruction is set, instructions will be run as root. The USER
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instruction can be used any number of times in a Dockerfile, and will only affect
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subsequent commands.
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**WORKDIR**
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-- `WORKDIR /path/to/workdir`
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The **WORKDIR** instruction sets the working directory for the **RUN**, **CMD**,
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**ENTRYPOINT**, **COPY** and **ADD** Dockerfile commands that follow it. It can
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be used multiple times in a single Dockerfile. Relative paths are defined
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relative to the path of the previous **WORKDIR** instruction. For example:
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```
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WORKDIR /a
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WORKDIR b
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WORKDIR c
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RUN pwd
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```
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In the above example, the output of the **pwd** command is **a/b/c**.
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**ARG**
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-- ARG <name>[=<default value>]
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The `ARG` instruction defines a variable that users can pass at build-time to
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the builder with the `docker build` command using the `--build-arg
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<varname>=<value>` flag. If a user specifies a build argument that was not
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defined in the Dockerfile, the build outputs an error.
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```
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One or more build-args were not consumed, failing build.
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```
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The Dockerfile author can define a single variable by specifying `ARG` once or many
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variables by specifying `ARG` more than once. For example, a valid Dockerfile:
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```
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FROM busybox
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ARG user1
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ARG buildno
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...
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```
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A Dockerfile author may optionally specify a default value for an `ARG` instruction:
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```
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FROM busybox
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ARG user1=someuser
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ARG buildno=1
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...
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```
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If an `ARG` value has a default and if there is no value passed at build-time, the
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builder uses the default.
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An `ARG` variable definition comes into effect from the line on which it is
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defined in the `Dockerfile` not from the argument's use on the command-line or
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elsewhere. For example, consider this Dockerfile:
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```
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1 FROM busybox
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2 USER ${user:-some_user}
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3 ARG user
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4 USER $user
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...
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```
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A user builds this file by calling:
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```
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$ docker build --build-arg user=what_user Dockerfile
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```
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The `USER` at line 2 evaluates to `some_user` as the `user` variable is defined on the
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subsequent line 3. The `USER` at line 4 evaluates to `what_user` as `user` is
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defined and the `what_user` value was passed on the command line. Prior to its definition by an
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`ARG` instruction, any use of a variable results in an empty string.
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> **Note:** It is not recommended to use build-time variables for
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> passing secrets like github keys, user credentials etc.
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You can use an `ARG` or an `ENV` instruction to specify variables that are
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available to the `RUN` instruction. Environment variables defined using the
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`ENV` instruction always override an `ARG` instruction of the same name. Consider
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this Dockerfile with an `ENV` and `ARG` instruction.
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```
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1 FROM ubuntu
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2 ARG CONT_IMG_VER
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3 ENV CONT_IMG_VER v1.0.0
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4 RUN echo $CONT_IMG_VER
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```
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Then, assume this image is built with this command:
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```
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$ docker build --build-arg CONT_IMG_VER=v2.0.1 Dockerfile
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```
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In this case, the `RUN` instruction uses `v1.0.0` instead of the `ARG` setting
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passed by the user:`v2.0.1` This behavior is similar to a shell
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script where a locally scoped variable overrides the variables passed as
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arguments or inherited from environment, from its point of definition.
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Using the example above but a different `ENV` specification you can create more
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useful interactions between `ARG` and `ENV` instructions:
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```
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1 FROM ubuntu
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2 ARG CONT_IMG_VER
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3 ENV CONT_IMG_VER ${CONT_IMG_VER:-v1.0.0}
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4 RUN echo $CONT_IMG_VER
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```
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Unlike an `ARG` instruction, `ENV` values are always persisted in the built
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image. Consider a docker build without the --build-arg flag:
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```
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$ docker build Dockerfile
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```
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Using this Dockerfile example, `CONT_IMG_VER` is still persisted in the image but
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its value would be `v1.0.0` as it is the default set in line 3 by the `ENV` instruction.
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The variable expansion technique in this example allows you to pass arguments
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from the command line and persist them in the final image by leveraging the
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`ENV` instruction. Variable expansion is only supported for [a limited set of
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Dockerfile instructions.](#environment-replacement)
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Docker has a set of predefined `ARG` variables that you can use without a
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corresponding `ARG` instruction in the Dockerfile.
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* `HTTP_PROXY`
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* `http_proxy`
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* `HTTPS_PROXY`
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* `https_proxy`
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* `FTP_PROXY`
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* `ftp_proxy`
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* `NO_PROXY`
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* `no_proxy`
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To use these, simply pass them on the command line using the `--build-arg
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<varname>=<value>` flag.
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**ONBUILD**
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-- `ONBUILD [INSTRUCTION]`
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The **ONBUILD** instruction adds a trigger instruction to an image. The
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trigger is executed at a later time, when the image is used as the base for
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another build. Docker executes the trigger in the context of the downstream
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build, as if the trigger existed immediately after the **FROM** instruction in
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the downstream Dockerfile.
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You can register any build instruction as a trigger. A trigger is useful if
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you are defining an image to use as a base for building other images. For
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example, if you are defining an application build environment or a daemon that
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is customized with a user-specific configuration.
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Consider an image intended as a reusable python application builder. It must
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add application source code to a particular directory, and might need a build
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script called after that. You can't just call **ADD** and **RUN** now, because
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you don't yet have access to the application source code, and it is different
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for each application build.
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-- Providing application developers with a boilerplate Dockerfile to copy-paste
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into their application is inefficient, error-prone, and
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difficult to update because it mixes with application-specific code.
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The solution is to use **ONBUILD** to register instructions in advance, to
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run later, during the next build stage.
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# HISTORY
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*May 2014, Compiled by Zac Dover (zdover at redhat dot com) based on docker.com Dockerfile documentation.
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*Feb 2015, updated by Brian Goff (cpuguy83@gmail.com) for readability
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*Sept 2015, updated by Sally O'Malley (somalley@redhat.com)
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