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<!-- [metadata]>
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title = "Dockerfile reference"
description = "Dockerfiles use a simple DSL which allows you to automate the steps you would normally manually take to create an image."
keywords = ["builder, docker, Dockerfile, automation, image creation"]
[menu.main]
parent = "mn_reference"
+++
<![end-metadata]-->
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# Dockerfile reference
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**Docker can build images automatically** by reading the instructions
from a `Dockerfile` . A `Dockerfile` is a text document that contains all
the commands you would normally execute manually in order to build a
Docker image. By calling `docker build` from your terminal, you can have
Docker build your image step by step, executing the instructions
successively.
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This page discusses the specifics of all the instructions you can use in your
`Dockerfile` . To further help you write a clear, readable, maintainable
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`Dockerfile` , we've also written a [`Dockerfile` Best Practices
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guide](/articles/dockerfile_best-practices). Lastly, you can test your
Dockerfile knowledge with the [Dockerfile tutorial ](/userguide/level1 ).
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## Usage
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To [*build* ](/reference/commandline/cli/#build ) an image from a source repository,
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create a description file called `Dockerfile` at the root of your repository.
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This file will describe the steps to assemble the image.
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Then call `docker build` with the path of your source repository as the argument
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(for example, `.` ):
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$ docker build .
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The path to the source repository defines where to find the *context* of
the build. The build is run by the Docker daemon, not by the CLI, so the
whole 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 daemon.
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> **Warning**
> Avoid using your root directory, `/`, as the root of the source repository. The
> `docker build` command will use whatever directory contains the Dockerfile as the build
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> context (including all of its subdirectories). The build context will be sent to the
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> Docker daemon before building the image, which means if you use `/` as the source
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> repository, the entire contents of your hard drive will get sent to the daemon (and
> thus to the machine running the daemon). You probably don't want that.
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In most cases, it's best to put each Dockerfile in an empty directory. Then,
only add the files needed for building the Dockerfile to the directory. To
increase the build's performance, you can exclude files and directories by
adding a `.dockerignore` file to the directory. For information about how to
[create a `.dockerignore` file ](#the-dockerignore-file ) on this page.
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You can specify a repository and tag at which to save the new image if
the build succeeds:
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$ docker build -t shykes/myapp .
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The Docker daemon will run your steps one-by-one, committing the result
to a new image if necessary, before finally outputting the ID of your
new image. The Docker daemon will automatically clean up the context you
sent.
Note that each instruction is run independently, and causes a new image
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to be created - so `RUN cd /tmp` will not have any effect on the next
instructions.
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Whenever possible, Docker will re-use the intermediate images,
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accelerating `docker build` significantly (indicated by `Using cache` -
see the [`Dockerfile` Best Practices
guide](/articles/dockerfile_best-practices/#build-cache) for more information):
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$ docker build -t SvenDowideit/ambassador .
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Uploading context 10.24 kB
Uploading context
Step 1 : FROM docker-ut
---> cbba202fe96b
Step 2 : MAINTAINER SvenDowideit@home.org.au
---> Using cache
---> 51182097be13
Step 3 : CMD env | grep _TCP= | sed 's/.*_PORT_\([0-9]*\)_TCP=tcp:\/\/\(.*\):\(.*\)/socat TCP4-LISTEN:\1,fork,reuseaddr TCP4:\2:\3 \&/' | sh && top
---> Using cache
---> 1a5ffc17324d
Successfully built 1a5ffc17324d
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When you're done with your build, you're ready to look into [*Pushing a
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repository to its registry*]( /userguide/dockerrepos/#contributing-to-docker-hub).
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## Format
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Here is the format of the `Dockerfile` :
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# Comment
INSTRUCTION arguments
The Instruction is not case-sensitive, however convention is for them to
be UPPERCASE in order to distinguish them from arguments more easily.
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Docker runs the instructions in a `Dockerfile` in order. **The
first instruction must be \`FROM\`** in order to specify the [*Base
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Image*](/terms/image/#base-image) from which you are building.
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Docker will treat lines that *begin* with `#` as a
comment. A `#` marker anywhere else in the line will
be treated as an argument. This allows statements like:
# Comment
RUN echo 'we are running some # of cool things'
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Here is the set of instructions you can use in a `Dockerfile` for building
images.
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### Environment replacement
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> **Note**: prior to 1.3, `Dockerfile` environment variables were handled
> similarly, in that they would be replaced as described below. However, there
> was no formal definition on as to which instructions handled environment
> replacement at the time. After 1.3 this behavior will be preserved and
> canonical.
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Environment variables (declared with [the `ENV` statement ](#env )) can also be
used in certain instructions as variables to be interpreted by the
`Dockerfile` . Escapes are also handled for including variable-like syntax
into a statement literally.
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Environment variables are notated in the `Dockerfile` either with
`$variable_name` or `${variable_name}` . They are treated equivalently and the
brace syntax is typically used to address issues with variable names with no
whitespace, like `${foo}_bar` .
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The `${variable_name}` syntax also supports a few of the standard `bash`
modifiers as specified below:
* `${variable:-word}` indicates that if `variable` is set then the result
will be that value. If `variable` is not set then `word` will be the result.
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* `${variable:+word}` indicates that if `variable` is set then `word` will be
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the result, otherwise the result is the empty string.
In all cases, `word` can be any string, including additional environment
variables.
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Escaping is possible by adding a `\` before the variable: `\$foo` or `\${foo}` ,
for example, will translate to `$foo` and `${foo}` literals respectively.
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Example (parsed representation is displayed after the `#` ):
FROM busybox
ENV foo /bar
WORKDIR ${foo} # WORKDIR /bar
ADD . $foo # ADD . /bar
COPY \$foo /quux # COPY $foo /quux
The instructions that handle environment variables in the `Dockerfile` are:
* `ENV`
* `ADD`
* `COPY`
* `WORKDIR`
* `EXPOSE`
* `VOLUME`
* `USER`
`ONBUILD` instructions are **NOT** supported for environment replacement, even
the instructions above.
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Environment variable substitution will use the same value for each variable
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throughout the entire command. In other words, in this example:
ENV abc=hello
ENV abc=bye def=$abc
ENV ghi=$abc
will result in `def` having a value of `hello` , not `bye` . However,
`ghi` will have a value of `bye` because it is not part of the same command
that set `abc` to `bye` .
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### .dockerignore file
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If a file named `.dockerignore` exists in the root of `PATH` , then Docker
interprets it as a newline-separated list of exclusion patterns. Docker excludes
files or directories relative to `PATH` that match these exclusion patterns. If
there are any `.dockerignore` files in `PATH` subdirectories, Docker treats
them as normal files.
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Filepaths in `.dockerignore` are absolute with the current directory as the
root. Wildcards are allowed but the search is not recursive. Globbing (file name
expansion) is done using Go's
[filepath.Match ](http://golang.org/pkg/path/filepath#Match ) rules.
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You can specify exceptions to exclusion rules. To do this, simply prefix a
pattern with an `!` (exclamation mark) in the same way you would in a
`.gitignore` file. Currently there is no support for regular expressions.
Formats like `[^temp*]` are ignored.
The following is an example `.dockerignore` file:
```
*/temp*
*/* /temp*
temp?
*.md
!LICENCSE.md
```
This file causes the following build behavior:
| Rule | Behavior |
|----------------|------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| `*/temp*` | Exclude all files with names starting with`temp` in any subdirectory below the root directory. For example, a file named`/somedir/temporary.txt` is ignored. |
| `*/*/temp*` | Exclude files starting with name `temp` from any subdirectory that is two levels below the root directory. For example, the file `/somedir/subdir/temporary.txt` is ignored. |
| `temp?` | Exclude the files that match the pattern in the root directory. For example, the files `tempa` , `tempb` in the root directory are ignored. |
| `*.md ` | Exclude all markdown files. |
| `!LICENSE.md` | Exception to the exclude all Markdown files is this file, `LICENSE.md` , include this file in the build. |
The placement of `!` exception rules influences the matching algorithm; the
last line of the `.dockerignore` that matches a particular file determines
whether it is included or excluded. In the above example, the `LICENSE.md` file
matches both the `*.md` and `!LICENSE.md` rule. If you reverse the lines in the
example:
```
*/temp*
*/* /temp*
temp?
!LICENCSE.md
*.md
```
The build would exclude `LICENSE.md` because the last `*.md` rule adds all
Markdown files back onto the ignore list. The `!LICENSE.md` rule has no effect
because the subsequent `*.md` rule overrides it.
You can even use the `.dockerignore` file to ignore the `Dockerfile` and
`.dockerignore` files. This is useful if you are copying files from the root of
the build context into your new container but do not want to include the
`Dockerfile` or `.dockerignore` files (e.g. `ADD . /someDir/` ).
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## FROM
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FROM < image >
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Or
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FROM < image > :< tag >
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Or
FROM < image > @< digest >
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The `FROM` instruction sets the [*Base Image* ](/terms/image/#base-image )
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for subsequent instructions. As such, a valid `Dockerfile` must have `FROM` as
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its first instruction. The image can be any valid image – it is especially easy
to start by **pulling an image** from the [*Public Repositories*](
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/userguide/dockerrepos).
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`FROM` must be the first non-comment instruction in the `Dockerfile` .
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`FROM` can appear multiple times within a single `Dockerfile` in order to create
multiple images. Simply make a note of the last image ID output by the commit
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before each new `FROM` command.
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The `tag` or `digest` values are optional. If you omit either of them, the builder
assumes a `latest` by default. The builder returns an error if it cannot match
the `tag` value.
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## MAINTAINER
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MAINTAINER < name >
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The `MAINTAINER` instruction allows you to set the *Author* field of the
generated images.
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## RUN
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RUN has 2 forms:
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- `RUN <command>` (the command is run in a shell - `/bin/sh -c` - *shell* form)
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- `RUN ["executable", "param1", "param2"]` (*exec* form)
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The `RUN` instruction will execute any commands in a new layer on top of the
current image and commit the results. The resulting committed image will be
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used for the next step in the `Dockerfile` .
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Layering `RUN` instructions and generating commits conforms to the core
concepts of Docker where commits are cheap and containers can be created from
any point in an image's history, much like source control.
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The *exec* form makes it possible to avoid shell string munging, and to `RUN`
commands using a base image that does not contain `/bin/sh` .
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> **Note**:
> To use a different shell, other than '/bin/sh', use the *exec* form
> passing in the desired shell. For example,
> `RUN ["/bin/bash", "-c", "echo hello"]`
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> **Note**:
> The *exec* form is parsed as a JSON array, which means that
> you must use double-quotes (") around words not single-quotes (').
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> **Note**:
> Unlike the *shell* form, the *exec* form does not invoke a command shell.
> This means that normal shell processing does not happen. For example,
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> `RUN [ "echo", "$HOME" ]` will not do variable substitution on `$HOME`.
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> If you want shell processing then either use the *shell* form or execute
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> a shell directly, for example: `RUN [ "sh", "-c", "echo", "$HOME" ]`.
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The cache for `RUN` instructions isn't invalidated automatically during
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the next build. The cache for an instruction like
`RUN apt-get dist-upgrade -y` will be reused during the next build. The
cache for `RUN` instructions can be invalidated by using the `--no-cache`
flag, for example `docker build --no-cache` .
See the [`Dockerfile` Best Practices
guide](/articles/dockerfile_best-practices/#build-cache) for more information.
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The cache for `RUN` instructions can be invalidated by `ADD` instructions. See
[below ](#add ) for details.
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### Known issues (RUN)
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- [Issue 783 ](https://github.com/docker/docker/issues/783 ) is about file
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permissions problems that can occur when using the AUFS file system. You
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might notice it during an attempt to `rm` a file, for example.
For systems that have recent aufs version (i.e., `dirperm1` mount option can
be set), docker will attempt to fix the issue automatically by mounting
the layers with `dirperm1` option. More details on `dirperm1` option can be
found at [`aufs` man page ](http://aufs.sourceforge.net/aufs3/man.html )
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If your system doesn't have support for `dirperm1` , the issue describes a workaround.
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## CMD
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The `CMD` instruction has three forms:
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- `CMD ["executable","param1","param2"]` (*exec* form, this is the preferred form)
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- `CMD ["param1","param2"]` (as *default parameters to ENTRYPOINT* )
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- `CMD command param1 param2` (*shell* form)
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There can only be one `CMD` instruction in a `Dockerfile` . If you list more than one `CMD`
then only the last `CMD` will take effect.
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**The main purpose of a `CMD` is to provide defaults for an executing
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container.** These defaults can include an executable, or they can omit
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the executable, in which case you must specify an `ENTRYPOINT`
instruction as well.
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> **Note**:
> If `CMD` is used to provide default arguments for the `ENTRYPOINT`
> instruction, both the `CMD` and `ENTRYPOINT` instructions should be specified
> with the JSON array format.
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> **Note**:
> The *exec* form is parsed as a JSON array, which means that
> you must use double-quotes (") around words not single-quotes (').
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> **Note**:
> Unlike the *shell* form, the *exec* form does not invoke a command shell.
> This means that normal shell processing does not happen. For example,
> `CMD [ "echo", "$HOME" ]` will not do variable substitution on `$HOME`.
> If you want shell processing then either use the *shell* form or execute
> a shell directly, for example: `CMD [ "sh", "-c", "echo", "$HOME" ]`.
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When used in the shell or exec formats, the `CMD` instruction sets the command
to be executed when running the image.
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If you use the *shell* form of the `CMD` , then the `<command>` will execute in
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`/bin/sh -c` :
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FROM ubuntu
CMD echo "This is a test." | wc -
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If you want to **run your** `<command>` **without a shell** then you must
express the command as a JSON array and give the full path to the executable.
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**This array form is the preferred format of `CMD` .** Any additional parameters
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must be individually expressed as strings in the array:
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FROM ubuntu
CMD ["/usr/bin/wc","--help"]
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If you would like your container to run the same executable every time, then
you should consider using `ENTRYPOINT` in combination with `CMD` . See
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[*ENTRYPOINT* ](#entrypoint ).
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If the user specifies arguments to `docker run` then they will override the
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default specified in `CMD` .
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> **Note**:
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> don't confuse `RUN` with `CMD`. `RUN` actually runs a command and commits
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> the result; `CMD` does not execute anything at build time, but specifies
> the intended command for the image.
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## LABEL
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LABEL < key > =< value > < key > =< value > < key > =< value > ...
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The `LABEL` instruction adds metadata to an image. A `LABEL` is a
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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LABEL "com.example.vendor"="ACME Incorporated"
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An image can have more than one label. To specify multiple labels, separate each
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key-value pair with whitespace.
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LABEL com.example.label-with-value="foo"
LABEL version="1.0"
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LABEL description="This text illustrates \
that label-values can span multiple lines."
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Docker recommends combining labels in a single `LABEL` instruction where
possible. Each `LABEL` instruction produces a new layer which can result in an
inefficient image if you use many labels. This example results in four image
layers.
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LABEL multi.label1="value1" multi.label2="value2" other="value3"
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Labels are additive including `LABEL` s in `FROM` images. As the system
encounters and then applies a new label, new `key` s override any previous labels
with identical keys.
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To view an image's labels, use the `docker inspect` command.
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"Labels": {
"com.example.vendor": "ACME Incorporated"
"com.example.label-with-value": "foo",
"version": "1.0",
"description": "This text illustrates that label-values can span multiple lines.",
"multi.label1": "value1",
"multi.label2": "value2",
"other": "value3"
},
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## EXPOSE
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EXPOSE < port > [< port > ...]
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The `EXPOSE` instructions informs Docker that the container will listen on the
specified network ports at runtime. Docker uses this information to interconnect
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containers using links (see the [Docker User
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Guide](/userguide/dockerlinks)) and to determine which ports to expose to the
host when [using the -P flag ](/reference/run/#expose-incoming-ports ).
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> **Note**:
> `EXPOSE` doesn't define which ports can be exposed to the host or make ports
> accessible from the host by default. To expose ports to the host, at runtime,
> [use the `-p` flag](/userguide/dockerlinks) or
> [the -P flag](/reference/run/#expose-incoming-ports).
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## ENV
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ENV < key > < value >
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ENV < key > =< value > ...
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The `ENV` instruction sets the environment variable `<key>` to the value
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`<value>` . This value will be in the environment of all "descendent" `Dockerfile`
commands and can be [replaced inline ](#environment-replacement ) in many as well.
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The `ENV` instruction has two forms. The first form, `ENV <key> <value>` ,
will set a single variable to a value. The entire string after the first
space will be treated as the `<value>` - including characters such as
spaces and quotes.
The second form, `ENV <key>=<value> ...` , allows for multiple variables to
be set at one time. Notice that the second form uses the equals sign (=)
in the syntax, while the first form does not. Like command line parsing,
quotes and backslashes can be used to include spaces within values.
For example:
ENV myName="John Doe" myDog=Rex\ The\ Dog \
myCat=fluffy
and
ENV myName John Doe
ENV myDog Rex The Dog
ENV myCat fluffy
will yield the same net results in the final container, but the first form
does it all in one layer.
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The environment variables set using `ENV` will persist when a container is run
from the resulting image. You can view the values using `docker inspect` , and
change them using `docker run --env <key>=<value>` .
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> **Note**:
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> Environment persistence can cause unexpected effects. For example,
> setting `ENV DEBIAN_FRONTEND noninteractive` may confuse apt-get
> users on a Debian-based image. To set a value for a single command, use
> `RUN <key>=<value> <command>`.
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## ADD
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ADD has two forms:
- `ADD <src>... <dest>`
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- `ADD ["<src>",... "<dest>"]` (this form is required for paths containing
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whitespace)
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The `ADD` instruction copies new files, directories or remote file URLs from `<src>`
and adds them to the filesystem of the container at the path `<dest>` .
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Multiple `<src>` resource may be specified but if they are files or
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directories then they must be relative to the source directory that is
being built (the context of the build).
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Each `<src>` may contain wildcards and matching will be done using Go's
[filepath.Match ](http://golang.org/pkg/path/filepath#Match ) rules.
For most command line uses this should act as expected, for example:
ADD hom* /mydir/ # adds all files starting with "hom"
ADD hom?.txt /mydir/ # ? is replaced with any single character
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The `<dest>` is an absolute path, or a path relative to `WORKDIR` , into which
the source will be copied inside the destination container.
ADD test aDir/ # adds "test" to `WORKDIR` /aDir/
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All new files and directories are created with a UID and GID of 0.
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In the case where `<src>` is a remote file URL, the destination will
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have permissions of 600. If the remote file being retrieved has an HTTP
`Last-Modified` header, the timestamp from that header will be used
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to set the `mtime` on the destination file. However, like any other file
processed during an `ADD` , `mtime` will not be included in the determination
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of whether or not the file has changed and the cache should be updated.
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> **Note**:
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> If you build by passing a `Dockerfile` through STDIN (`docker
> build - < somefile`), there is no build context, so the `Dockerfile`
> can only contain a URL based `ADD` instruction. You can also pass a
> compressed archive through STDIN: (`docker build - < archive.tar.gz`),
> the `Dockerfile` at the root of the archive and the rest of the
> archive will get used at the context of the build.
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> **Note**:
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> If your URL files are protected using authentication, you
> will need to use `RUN wget`, `RUN curl` or use another tool from
> within the container as the `ADD` instruction does not support
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> authentication.
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> **Note**:
> The first encountered `ADD` instruction will invalidate the cache for all
> following instructions from the Dockerfile if the contents of `<src>` have
> changed. This includes invalidating the cache for `RUN` instructions.
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> See the [`Dockerfile` Best Practices
guide](/articles/dockerfile_best-practices/#build-cache) for more information.
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The copy obeys the following rules:
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- The `<src>` path must be inside the *context* of the build;
you cannot `ADD ../something /something` , because the first step of a
`docker build` is to send the context directory (and subdirectories) to the
docker daemon.
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- If `<src>` is a URL and `<dest>` does not end with a trailing slash, then a
file is downloaded from the URL and copied to `<dest>` .
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- If `<src>` is a URL and `<dest>` does end with a trailing slash, then the
filename is inferred from the URL and the file is downloaded to
`<dest>/<filename>` . For instance, `ADD http://example.com/foobar /` would
create the file `/foobar` . The URL must have a nontrivial path so that an
appropriate filename can be discovered in this case (`http://example.com`
will not work).
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- If `<src>` is a directory, the entire contents of the directory are copied,
including filesystem metadata.
> **Note**:
> The directory itself is not copied, just its contents.
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- If `<src>` is a *local* tar archive in a recognized compression format
(identity, gzip, bzip2 or xz) then it is unpacked as a directory. Resources
from *remote* URLs are **not** decompressed. When a directory is copied or
unpacked, it has the same behavior as `tar -x` : the result is the union of:
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1. Whatever existed at the destination path and
2. The contents of the source tree, with conflicts resolved in favor
of "2." on a file-by-file basis.
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- If `<src>` is any other kind of file, it is copied individually along with
its metadata. In this case, if `<dest>` ends with a trailing slash `/` , it
will be considered a directory and the contents of `<src>` will be written
at `<dest>/base(<src>)` .
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- If multiple `<src>` resources are specified, either directly or due to the
use of a wildcard, then `<dest>` must be a directory, and it must end with
a slash `/` .
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- If `<dest>` does not end with a trailing slash, it will be considered a
regular file and the contents of `<src>` will be written at `<dest>` .
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- If `<dest>` doesn't exist, it is created along with all missing directories
in its path.
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## COPY
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COPY has two forms:
- `COPY <src>... <dest>`
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- `COPY ["<src>",... "<dest>"]` (this form is required for paths containing
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whitespace)
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The `COPY` instruction copies new files or directories from `<src>`
and adds them to the filesystem of the container at the path `<dest>` .
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Multiple `<src>` resource may be specified but they must be relative
to the source directory that is being built (the context of the build).
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Each `<src>` may contain wildcards and matching will be done using Go's
[filepath.Match ](http://golang.org/pkg/path/filepath#Match ) rules.
For most command line uses this should act as expected, for example:
COPY hom* /mydir/ # adds all files starting with "hom"
COPY hom?.txt /mydir/ # ? is replaced with any single character
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The `<dest>` is an absolute path, or a path relative to `WORKDIR` , into which
the source will be copied inside the destination container.
COPY test aDir/ # adds "test" to `WORKDIR` /aDir/
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All new files and directories are created with a UID and GID of 0.
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> **Note**:
> If you build using STDIN (`docker build - < somefile`), there is no
> build context, so `COPY` can't be used.
The copy obeys the following rules:
- The `<src>` path must be inside the *context* of the build;
you cannot `COPY ../something /something` , because the first step of a
`docker build` is to send the context directory (and subdirectories) to the
docker daemon.
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- If `<src>` is a directory, the entire contents of the directory are copied,
including filesystem metadata.
> **Note**:
> The directory itself is not copied, just its contents.
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- If `<src>` is any other kind of file, it is copied individually along with
its metadata. In this case, if `<dest>` ends with a trailing slash `/` , it
will be considered a directory and the contents of `<src>` will be written
at `<dest>/base(<src>)` .
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- If multiple `<src>` resources are specified, either directly or due to the
use of a wildcard, then `<dest>` must be a directory, and it must end with
a slash `/` .
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- If `<dest>` does not end with a trailing slash, it will be considered a
regular file and the contents of `<src>` will be written at `<dest>` .
- If `<dest>` doesn't exist, it is created along with all missing directories
in its path.
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## ENTRYPOINT
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ENTRYPOINT has two forms:
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- `ENTRYPOINT ["executable", "param1", "param2"]`
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(the preferred *exec* form)
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- `ENTRYPOINT command param1 param2`
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(*shell* form)
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An `ENTRYPOINT` allows you to configure a container that will run as an executable.
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For example, the following will start nginx with its default content, listening
on port 80:
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docker run -i -t --rm -p 80:80 nginx
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Command line arguments to `docker run <image>` will be appended after all
elements in an *exec* form `ENTRYPOINT` , and will override all elements specified
using `CMD` .
This allows arguments to be passed to the entry point, i.e., `docker run <image> -d`
will pass the `-d` argument to the entry point.
You can override the `ENTRYPOINT` instruction using the `docker run --entrypoint`
flag.
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The *shell* form prevents any `CMD` or `run` command line arguments from being
used, but has the disadvantage that your `ENTRYPOINT` will be started as a
subcommand of `/bin/sh -c` , which does not pass signals.
This means that the executable will not be the container's `PID 1` - and
will _not_ receive Unix signals - so your executable will not receive a
`SIGTERM` from `docker stop <container>` .
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Only the last `ENTRYPOINT` instruction in the `Dockerfile` will have an effect.
### Exec form ENTRYPOINT example
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You can use the *exec* form of `ENTRYPOINT` to set fairly stable default commands
and arguments and then use either form of `CMD` to set additional defaults that
are more likely to be changed.
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FROM ubuntu
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ENTRYPOINT ["top", "-b"]
CMD ["-c"]
When you run the container, you can see that `top` is the only process:
$ docker run -it --rm --name test top -H
top - 08:25:00 up 7:27, 0 users, load average: 0.00, 0.01, 0.05
Threads: 1 total, 1 running, 0 sleeping, 0 stopped, 0 zombie
%Cpu(s): 0.1 us, 0.1 sy, 0.0 ni, 99.7 id, 0.0 wa, 0.0 hi, 0.0 si, 0.0 st
KiB Mem: 2056668 total, 1616832 used, 439836 free, 99352 buffers
KiB Swap: 1441840 total, 0 used, 1441840 free. 1324440 cached Mem
PID USER PR NI VIRT RES SHR S %CPU %MEM TIME+ COMMAND
1 root 20 0 19744 2336 2080 R 0.0 0.1 0:00.04 top
To examine the result further, you can use `docker exec` :
$ docker exec -it test ps aux
USER PID %CPU %MEM VSZ RSS TTY STAT START TIME COMMAND
root 1 2.6 0.1 19752 2352 ? Ss+ 08:24 0:00 top -b -H
root 7 0.0 0.1 15572 2164 ? R+ 08:25 0:00 ps aux
And you can gracefully request `top` to shut down using `docker stop test` .
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The following `Dockerfile` shows using the `ENTRYPOINT` to run Apache in the
foreground (i.e., as `PID 1` ):
```
FROM debian:stable
RUN apt-get update & & apt-get install -y --force-yes apache2
EXPOSE 80 443
VOLUME ["/var/www", "/var/log/apache2", "/etc/apache2"]
ENTRYPOINT ["/usr/sbin/apache2ctl", "-D", "FOREGROUND"]
```
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If you need to write a starter script for a single executable, you can ensure that
the final executable receives the Unix signals by using `exec` and `gosu`
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commands:
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```bash
#!/bin/bash
set -e
if [ "$1" = 'postgres' ]; then
chown -R postgres "$PGDATA"
if [ -z "$(ls -A "$PGDATA")" ]; then
gosu postgres initdb
fi
exec gosu postgres "$@"
fi
exec "$@"
```
Lastly, if you need to do some extra cleanup (or communicate with other containers)
on shutdown, or are co-ordinating more than one executable, you may need to ensure
that the `ENTRYPOINT` script receives the Unix signals, passes them on, and then
does some more work:
```
#!/bin/sh
# Note: I've written this using sh so it works in the busybox container too
# USE the trap if you need to also do manual cleanup after the service is stopped,
# or need to start multiple services in the one container
trap "echo TRAPed signal" HUP INT QUIT KILL TERM
# start service in background here
/usr/sbin/apachectl start
echo "[hit enter key to exit] or run 'docker stop < container > '"
read
# stop service and clean up here
echo "stopping apache"
/usr/sbin/apachectl stop
echo "exited $0"
```
If you run this image with `docker run -it --rm -p 80:80 --name test apache` ,
you can then examine the container's processes with `docker exec` , or `docker top` ,
and then ask the script to stop Apache:
```bash
$ docker exec -it test ps aux
USER PID %CPU %MEM VSZ RSS TTY STAT START TIME COMMAND
root 1 0.1 0.0 4448 692 ? Ss+ 00:42 0:00 /bin/sh /run.sh 123 cmd cmd2
root 19 0.0 0.2 71304 4440 ? Ss 00:42 0:00 /usr/sbin/apache2 -k start
www-data 20 0.2 0.2 360468 6004 ? Sl 00:42 0:00 /usr/sbin/apache2 -k start
www-data 21 0.2 0.2 360468 6000 ? Sl 00:42 0:00 /usr/sbin/apache2 -k start
root 81 0.0 0.1 15572 2140 ? R+ 00:44 0:00 ps aux
$ docker top test
PID USER COMMAND
10035 root {run.sh} /bin/sh /run.sh 123 cmd cmd2
10054 root /usr/sbin/apache2 -k start
10055 33 /usr/sbin/apache2 -k start
10056 33 /usr/sbin/apache2 -k start
$ /usr/bin/time docker stop test
test
real 0m 0.27s
user 0m 0.03s
sys 0m 0.03s
```
> **Note:** you can over ride the `ENTRYPOINT` setting using `--entrypoint`,
> but this can only set the binary to *exec* (no `sh -c` will be used).
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> **Note**:
> The *exec* form is parsed as a JSON array, which means that
> you must use double-quotes (") around words not single-quotes (').
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> **Note**:
> Unlike the *shell* form, the *exec* form does not invoke a command shell.
> This means that normal shell processing does not happen. For example,
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> `ENTRYPOINT [ "echo", "$HOME" ]` will not do variable substitution on `$HOME`.
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> If you want shell processing then either use the *shell* form or execute
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> a shell directly, for example: `ENTRYPOINT [ "sh", "-c", "echo", "$HOME" ]`.
> Variables that are defined in the `Dockerfile`using `ENV`, will be substituted by
> the `Dockerfile` parser.
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### Shell form ENTRYPOINT example
You can specify a plain string for the `ENTRYPOINT` and it will execute in `/bin/sh -c` .
This form will use shell processing to substitute shell environment variables,
and will ignore any `CMD` or `docker run` command line arguments.
To ensure that `docker stop` will signal any long running `ENTRYPOINT` executable
correctly, you need to remember to start it with `exec` :
FROM ubuntu
ENTRYPOINT exec top -b
When you run this image, you'll see the single `PID 1` process:
$ docker run -it --rm --name test top
Mem: 1704520K used, 352148K free, 0K shrd, 0K buff, 140368121167873K cached
CPU: 5% usr 0% sys 0% nic 94% idle 0% io 0% irq 0% sirq
Load average: 0.08 0.03 0.05 2/98 6
PID PPID USER STAT VSZ %VSZ %CPU COMMAND
1 0 root R 3164 0% 0% top -b
Which will exit cleanly on `docker stop` :
$ /usr/bin/time docker stop test
test
real 0m 0.20s
user 0m 0.02s
sys 0m 0.04s
If you forget to add `exec` to the beginning of your `ENTRYPOINT` :
FROM ubuntu
ENTRYPOINT top -b
CMD --ignored-param1
You can then run it (giving it a name for the next step):
$ docker run -it --name test top --ignored-param2
Mem: 1704184K used, 352484K free, 0K shrd, 0K buff, 140621524238337K cached
CPU: 9% usr 2% sys 0% nic 88% idle 0% io 0% irq 0% sirq
Load average: 0.01 0.02 0.05 2/101 7
PID PPID USER STAT VSZ %VSZ %CPU COMMAND
1 0 root S 3168 0% 0% /bin/sh -c top -b cmd cmd2
7 1 root R 3164 0% 0% top -b
You can see from the output of `top` that the specified `ENTRYPOINT` is not `PID 1` .
If you then run `docker stop test` , the container will not exit cleanly - the
`stop` command will be forced to send a `SIGKILL` after the timeout:
$ docker exec -it test ps aux
PID USER COMMAND
1 root /bin/sh -c top -b cmd cmd2
7 root top -b
8 root ps aux
$ /usr/bin/time docker stop test
test
real 0m 10.19s
user 0m 0.04s
sys 0m 0.03s
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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 it as holding externally mounted volumes from native host or other
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containers. The value can be a JSON array, `VOLUME ["/var/log/"]` , or a plain
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string with multiple arguments, such as `VOLUME /var/log` or `VOLUME /var/log
/var/db`. For more information/examples and mounting instructions via the
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Docker client, refer to
[*Share Directories via Volumes* ](/userguide/dockervolumes/#volume )
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documentation.
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The `docker run` command initializes the newly created volume with any data
that exists at the specified location within the base image. For example,
consider the following Dockerfile snippet:
FROM ubuntu
RUN mkdir /myvol
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RUN echo "hello world" > /myvol/greeting
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VOLUME /myvol
This Dockerfile results in an image that causes `docker run` , to
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create a new mount point at `/myvol` and copy the `greeting` file
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into the newly created volume.
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> **Note**:
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> The list is parsed as a JSON array, which means that
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> you must use double-quotes (") around words not single-quotes (').
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## USER
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USER daemon
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The `USER` instruction sets the user name or UID to use when running the image
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and for any `RUN` , `CMD` and `ENTRYPOINT` instructions that follow it in the
`Dockerfile` .
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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 any `RUN` , `CMD` ,
`ENTRYPOINT` , `COPY` and `ADD` instructions that follow it in the `Dockerfile` .
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It can be used multiple times in the one `Dockerfile` . If a relative path
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is provided, it will be relative to the path of the previous `WORKDIR`
instruction. For example:
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WORKDIR /a
WORKDIR b
WORKDIR c
RUN pwd
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The output of the final `pwd` command in this `Dockerfile` would be
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`/a/b/c` .
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The `WORKDIR` instruction can resolve environment variables previously set using
`ENV` . You can only use environment variables explicitly set in the `Dockerfile` .
For example:
ENV DIRPATH /path
WORKDIR $DIRPATH/$DIRNAME
The output of the final `pwd` command in this `Dockerfile` would be
`/path/$DIRNAME`
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## ONBUILD
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ONBUILD [INSTRUCTION]
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The `ONBUILD` instruction adds to the image a *trigger* instruction to
be executed at a later time, when the image is used as the base for
another build. The trigger will be executed in the context of the
downstream build, as if it had been inserted immediately after the
`FROM` instruction in the downstream `Dockerfile` .
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Any build instruction can be registered as a trigger.
This is useful if you are building an image which will be used as a base
to build other images, for example an application build environment or a
daemon which may be customized with user-specific configuration.
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For example, if your image is a reusable Python application builder, it
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will require application source code to be added in a particular
directory, and it might require a build script to be called *after*
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that. You can't just call `ADD` and `RUN` now, because you don't yet
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have access to the application source code, and it will be different for
each application build. You could simply provide application developers
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with a boilerplate `Dockerfile` to copy-paste into their application, but
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that is inefficient, error-prone and difficult to update because it
mixes with application-specific code.
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The solution is to use `ONBUILD` to register advance instructions to
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run later, during the next build stage.
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Here's how it works:
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1. When it encounters an `ONBUILD` instruction, the builder adds a
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trigger to the metadata of the image being built. The instruction
does not otherwise affect the current build.
2. At the end of the build, a list of all triggers is stored in the
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image manifest, under the key `OnBuild` . They can be inspected with
the `docker inspect` command.
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3. Later the image may be used as a base for a new build, using the
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`FROM` instruction. As part of processing the `FROM` instruction,
the downstream builder looks for `ONBUILD` triggers, and executes
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them in the same order they were registered. If any of the triggers
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fail, the `FROM` instruction is aborted which in turn causes the
build to fail. If all triggers succeed, the `FROM` instruction
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completes and the build continues as usual.
4. Triggers are cleared from the final image after being executed. In
other words they are not inherited by "grand-children" builds.
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For example you might add something like this:
[...]
ONBUILD ADD . /app/src
ONBUILD RUN /usr/local/bin/python-build --dir /app/src
[...]
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> **Warning**: Chaining `ONBUILD` instructions using `ONBUILD ONBUILD` isn't allowed.
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> **Warning**: The `ONBUILD` instruction may not trigger `FROM` or `MAINTAINER` instructions.
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2015-04-21 11:50:09 -04:00
## Dockerfile examples
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# Nginx
#
# VERSION 0.0.1
FROM ubuntu
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MAINTAINER Victor Vieux < victor @ docker . com >
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LABEL Description="This image is used to start the foobar executable" Vendor="ACME Products" Version="1.0"
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RUN apt-get update & & apt-get install -y inotify-tools nginx apache2 openssh-server
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# Firefox over VNC
#
# VERSION 0.3
FROM ubuntu
# Install vnc, xvfb in order to create a 'fake' display and firefox
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RUN apt-get update & & apt-get install -y x11vnc xvfb firefox
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RUN mkdir ~/.vnc
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# Setup a password
RUN x11vnc -storepasswd 1234 ~/.vnc/passwd
# Autostart firefox (might not be the best way, but it does the trick)
RUN bash -c 'echo "firefox" >> /.bashrc'
EXPOSE 5900
CMD ["x11vnc", "-forever", "-usepw", "-create"]
# Multiple images example
#
# VERSION 0.1
FROM ubuntu
RUN echo foo > bar
# Will output something like ===> 907ad6c2736f
FROM ubuntu
RUN echo moo > oink
# Will output something like ===> 695d7793cbe4
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# You᾿ ll now have two images, 907ad6c2736f with /bar, and 695d7793cbe4 with
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# /oink.
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