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page_title: Docker run reference
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page_description: Configure containers at runtime
page_keywords: docker, run, configure, runtime
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# Docker run reference
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**Docker runs processes in isolated containers**. When an operator
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executes `docker run` , she starts a process with its own file system,
its own networking, and its own isolated process tree. The
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[*Image* ](/terms/image/#image ) which starts the process may define
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defaults related to the binary to run, the networking to expose, and
more, but `docker run` gives final control to the operator who starts
the container from the image. That's the main reason
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[*run* ](/reference/commandline/cli/#run ) has more options than any
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other `docker` command.
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## General form
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The basic `docker run` command takes this form:
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$ docker run [OPTIONS] IMAGE[:TAG|@DIGEST] [COMMAND] [ARG...]
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To learn how to interpret the types of `[OPTIONS]` ,
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see [*Option types* ](/reference/commandline/cli/#option-types ).
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The `run` options control the image's runtime behavior in a container. These
settings affect:
* detached or foreground running
* container identification
* network settings
* runtime constraints on CPU and memory
* privileges and LXC configuration
An image developer may set defaults for these same settings when they create the
image using the `docker build` command. Operators, however, can override all
defaults set by the developer using the `run` options. And, operators can also
override nearly all the defaults set by the Docker runtime itself.
Finally, depending on your Docker system configuration, you may be required to
preface each `docker` command with `sudo` . To avoid having to use `sudo` with
the `docker` command, your system administrator can create a Unix group called
`docker` and add users to it. For more information about this configuration,
refer to the Docker installation documentation for your operating system.
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## Operator exclusive options
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Only the operator (the person executing `docker run` ) can set the
following options.
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- [Detached vs Foreground ](#detached-vs-foreground )
- [Detached (-d) ](#detached-d )
- [Foreground ](#foreground )
- [Container Identification ](#container-identification )
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- [Name (--name) ](#name-name )
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- [PID Equivalent ](#pid-equivalent )
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- [IPC Settings (--ipc) ](#ipc-settings-ipc )
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- [Network Settings ](#network-settings )
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- [Restart Policies (--restart) ](#restart-policies-restart )
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- [Clean Up (--rm) ](#clean-up-rm )
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- [Runtime Constraints on CPU and Memory ](#runtime-constraints-on-cpu-and-memory )
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- [Runtime Privilege, Linux Capabilities, and LXC Configuration ](#runtime-privilege-linux-capabilities-and-lxc-configuration )
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## Detached vs foreground
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When starting a Docker container, you must first decide if you want to
run the container in the background in a "detached" mode or in the
default foreground mode:
-d=false: Detached mode: Run container in the background, print new container id
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### Detached (-d)
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In detached mode (`-d=true` or just `-d` ), all I/O should be done
through network connections or shared volumes because the container is
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no longer listening to the command line where you executed `docker run` .
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You can reattach to a detached container with `docker`
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[*attach* ](/reference/commandline/cli/#attach ). If you choose to run a
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container in the detached mode, then you cannot use the `--rm` option.
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### Foreground
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In foreground mode (the default when `-d` is not specified), `docker
run` can start the process in the container and attach the console to
the process's standard input, output, and standard error. It can even
pretend to be a TTY (this is what most command line executables expect)
and pass along signals. All of that is configurable:
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-a=[] : Attach to `STDIN` , `STDOUT` and/or `STDERR`
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-t=false : Allocate a pseudo-tty
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--sig-proxy=true: Proxify all received signal to the process (non-TTY mode only)
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-i=false : Keep STDIN open even if not attached
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If you do not specify `-a` then Docker will [attach all standard
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streams]( https://github.com/docker/docker/blob/
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75a7f4d90cde0295bcfb7213004abce8d4779b75/commands.go#L1797). You can
specify to which of the three standard streams (`STDIN`, `STDOUT` ,
`STDERR` ) you'd like to connect instead, as in:
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$ docker run -a stdin -a stdout -i -t ubuntu /bin/bash
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For interactive processes (like a shell), you must use `-i -t` together in
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order to allocate a tty for the container process. `-i -t` is often written `-it`
as you'll see in later examples. Specifying `-t` is forbidden when the client
standard output is redirected or piped, such as in:
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`echo test | docker run -i busybox cat` .
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## Container identification
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### Name (--name)
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The operator can identify a container in three ways:
- UUID long identifier
("f78375b1c487e03c9438c729345e54db9d20cfa2ac1fc3494b6eb60872e74778")
- UUID short identifier ("f78375b1c487")
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- Name ("evil_ptolemy")
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The UUID identifiers come from the Docker daemon, and if you do not
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assign a name to the container with `--name` then the daemon will also
generate a random string name too. The name can become a handy way to
add meaning to a container since you can use this name when defining
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[*links* ](/userguide/dockerlinks ) (or any
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other place you need to identify a container). This works for both
background and foreground Docker containers.
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### PID equivalent
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Finally, to help with automation, you can have Docker write the
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container ID out to a file of your choosing. This is similar to how some
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programs might write out their process ID to a file (you've seen them as
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PID files):
--cidfile="": Write the container ID to the file
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### Image[:tag]
While not strictly a means of identifying a container, you can specify a version of an
image you'd like to run the container with by adding `image[:tag]` to the command. For
example, `docker run ubuntu:14.04` .
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### Image[@digest]
Images using the v2 or later image format have a content-addressable identifier
called a digest. As long as the input used to generate the image is unchanged,
the digest value is predictable and referenceable.
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## PID Settings (--pid)
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--pid="" : Set the PID (Process) Namespace mode for the container,
'host': use the host's PID namespace inside the container
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By default, all containers have the PID namespace enabled.
PID namespace provides separation of processes. The PID Namespace removes the
view of the system processes, and allows process ids to be reused including
pid 1.
In certain cases you want your container to share the host's process namespace,
basically allowing processes within the container to see all of the processes
on the system. For example, you could build a container with debugging tools
like `strace` or `gdb` , but want to use these tools when debugging processes
within the container.
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$ docker run --pid=host rhel7 strace -p 1234
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This command would allow you to use `strace` inside the container on pid 1234 on
the host.
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## IPC Settings (--ipc)
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--ipc="" : Set the IPC mode for the container,
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'container:< name | id > ': reuses another container's IPC namespace
'host': use the host's IPC namespace inside the container
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By default, all containers have the IPC namespace enabled.
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IPC (POSIX/SysV IPC) namespace provides separation of named shared memory
segments, semaphores and message queues.
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Shared memory segments are used to accelerate inter-process communication at
memory speed, rather than through pipes or through the network stack. Shared
memory is commonly used by databases and custom-built (typically C/OpenMPI,
C++/using boost libraries) high performance applications for scientific
computing and financial services industries. If these types of applications
are broken into multiple containers, you might need to share the IPC mechanisms
of the containers.
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## Network settings
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--dns=[] : Set custom dns servers for the container
--net="bridge" : Set the Network mode for the container
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'bridge': creates a new network stack for the container on the docker bridge
'none': no networking for this container
'container:< name | id > ': reuses another container network stack
'host': use the host network stack inside the container
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--add-host="" : Add a line to /etc/hosts (host:IP)
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--mac-address="" : Sets the container's Ethernet device's MAC address
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By default, all containers have networking enabled and they can make any
outgoing connections. The operator can completely disable networking
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with `docker run --net none` which disables all incoming and outgoing
networking. In cases like this, you would perform I/O through files or
`STDIN` and `STDOUT` only.
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Your container will use the same DNS servers as the host by default, but
you can override this with `--dns` .
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By default a random MAC is generated. You can set the container's MAC address
explicitly by providing a MAC via the `--mac-address` parameter (format:
`12:34:56:78:9a:bc` ).
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Supported networking modes are:
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< table >
< thead >
< tr >
< th class = "no-wrap" > Mode< / th >
< th > Description< / th >
< / tr >
< / thead >
< tbody >
< tr >
< td class = "no-wrap" > < strong > none< / strong > < / td >
< td >
No networking in the container.
< / td >
< / tr >
< tr >
< td class = "no-wrap" > < strong > bridge< / strong > (default)< / td >
< td >
Connect the container to the bridge via veth interfaces.
< / td >
< / tr >
< tr >
< td class = "no-wrap" > < strong > host< / strong > < / td >
< td >
Use the host's network stack inside the container.
< / td >
< / tr >
< tr >
< td class = "no-wrap" > < strong > container< / strong > :< name|id> < / td >
< td >
Use the network stack of another container, specified via
its *name* or *id* .
< / td >
< / tr >
< / tbody >
< / table >
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#### Mode: none
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With the networking mode set to `none` a container will not have a
access to any external routes. The container will still have a
`loopback` interface enabled in the container but it does not have any
routes to external traffic.
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#### Mode: bridge
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With the networking mode set to `bridge` a container will use docker's
default networking setup. A bridge is setup on the host, commonly named
`docker0` , and a pair of `veth` interfaces will be created for the
container. One side of the `veth` pair will remain on the host attached
to the bridge while the other side of the pair will be placed inside the
container's namespaces in addition to the `loopback` interface. An IP
address will be allocated for containers on the bridge's network and
traffic will be routed though this bridge to the container.
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#### Mode: host
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With the networking mode set to `host` a container will share the host's
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network stack and all interfaces from the host will be available to the
container. The container's hostname will match the hostname on the host
system. Publishing ports and linking to other containers will not work
when sharing the host's network stack.
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> **Note**: `--net="host"` gives the container full access to local system
> services such as D-bus and is therefore considered insecure.
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#### Mode: container
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With the networking mode set to `container` a container will share the
network stack of another container. The other container's name must be
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provided in the format of `--net container:<name|id>` .
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Example running a Redis container with Redis binding to `localhost` then
running the `redis-cli` command and connecting to the Redis server over the
`localhost` interface.
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$ docker run -d --name redis example/redis --bind 127.0.0.1
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$ # use the redis container's network stack to access localhost
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$ docker run --rm -it --net container:redis example/redis-cli -h 127.0.0.1
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### Managing /etc/hosts
Your container will have lines in `/etc/hosts` which define the hostname of the
container itself as well as `localhost` and a few other common things. The
`--add-host` flag can be used to add additional lines to `/etc/hosts` .
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$ docker run -it --add-host db-static:86.75.30.9 ubuntu cat /etc/hosts
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172.17.0.22 09d03f76bf2c
fe00::0 ip6-localnet
ff00::0 ip6-mcastprefix
ff02::1 ip6-allnodes
ff02::2 ip6-allrouters
127.0.0.1 localhost
::1 localhost ip6-localhost ip6-loopback
86.75.30.9 db-static
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## Restart policies (--restart)
Using the `--restart` flag on Docker run you can specify a restart policy for
how a container should or should not be restarted on exit.
When a restart policy is active on a container, it will be shown as either `Up`
or `Restarting` in [`docker ps` ](/reference/commandline/cli/#ps ). It can also be
useful to use [`docker events` ](/reference/commandline/cli/#events ) to see the
restart policy in effect.
Docker supports the following restart policies:
< table >
< thead >
< tr >
< th > Policy< / th >
< th > Result< / th >
< / tr >
< / thead >
< tbody >
< tr >
< td > < strong > no< / strong > < / td >
< td >
Do not automatically restart the container when it exits. This is the
default.
< / td >
< / tr >
< tr >
< td >
< span style = "white-space: nowrap" >
< strong > on-failure< / strong > [:max-retries]
< / span >
< / td >
< td >
Restart only if the container exits with a non-zero exit status.
Optionally, limit the number of restart retries the Docker
daemon attempts.
< / td >
< / tr >
< tr >
< td > < strong > always< / strong > < / td >
< td >
Always restart the container regardless of the exit status.
When you specify always, the Docker daemon will try to restart
the container indefinitely.
< / td >
< / tr >
< / tbody >
< / table >
An ever increasing delay (double the previous delay, starting at 100
milliseconds) is added before each restart to prevent flooding the server.
This means the daemon will wait for 100 ms, then 200 ms, 400, 800, 1600,
and so on until either the `on-failure` limit is hit, or when you `docker stop`
or `docker rm -f` the container.
If a container is succesfully restarted (the container is started and runs
for at least 10 seconds), the delay is reset to its default value of 100 ms.
You can specify the maximum amount of times Docker will try to restart the
container when using the **on-failure** policy. The default is that Docker
will try forever to restart the container. The number of (attempted) restarts
for a container can be obtained via [`docker inspect`](
/reference/commandline/cli/#inspect). For example, to get the number of restarts
for container "my-container";
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$ docker inspect -f "{{ .RestartCount }}" my-container
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# 2
Or, to get the last time the container was (re)started;
$ docker inspect -f "{{ .State.StartedAt }}" my-container
# 2015-03-04T23:47:07.691840179Z
You cannot set any restart policy in combination with
["clean up (--rm)" ](#clean-up-rm ). Setting both `--restart` and `--rm`
results in an error.
###Examples
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$ docker run --restart=always redis
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This will run the `redis` container with a restart policy of **always**
so that if the container exits, Docker will restart it.
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$ docker run --restart=on-failure:10 redis
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This will run the `redis` container with a restart policy of **on-failure**
and a maximum restart count of 10. If the `redis` container exits with a
non-zero exit status more than 10 times in a row Docker will abort trying to
restart the container. Providing a maximum restart limit is only valid for the
**on-failure** policy.
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## Clean up (--rm)
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By default a container's file system persists even after the container
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exits. This makes debugging a lot easier (since you can inspect the
final state) and you retain all your data by default. But if you are
running short-term **foreground** processes, these container file
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systems can really pile up. If instead you'd like Docker to
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**automatically clean up the container and remove the file system when
the container exits**, you can add the `--rm` flag:
--rm=false: Automatically remove the container when it exits (incompatible with -d)
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## Security configuration
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--security-opt="label:user:USER" : Set the label user for the container
--security-opt="label:role:ROLE" : Set the label role for the container
--security-opt="label:type:TYPE" : Set the label type for the container
--security-opt="label:level:LEVEL" : Set the label level for the container
--security-opt="label:disable" : Turn off label confinement for the container
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--security-opt="apparmor:PROFILE" : Set the apparmor profile to be applied
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to the container
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You can override the default labeling scheme for each container by specifying
the `--security-opt` flag. For example, you can specify the MCS/MLS level, a
requirement for MLS systems. Specifying the level in the following command
allows you to share the same content between containers.
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$ docker run --security-opt label:level:s0:c100,c200 -i -t fedora bash
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An MLS example might be:
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$ docker run --security-opt label:level:TopSecret -i -t rhel7 bash
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To disable the security labeling for this container versus running with the
`--permissive` flag, use the following command:
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$ docker run --security-opt label:disable -i -t fedora bash
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If you want a tighter security policy on the processes within a container,
you can specify an alternate type for the container. You could run a container
that is only allowed to listen on Apache ports by executing the following
command:
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$ docker run --security-opt label:type:svirt_apache_t -i -t centos bash
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Note:
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You would have to write policy defining a `svirt_apache_t` type.
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## Runtime constraints on resources
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The operator can also adjust the performance parameters of the
container:
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-m, --memory="": Memory limit (format: < number > < optional unit > , where unit = b, k, m or g)
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-memory-swap="": Total memory limit (memory + swap, format: < number > < optional unit > , where unit = b, k, m or g)
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-c, --cpu-shares=0: CPU shares (relative weight)
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--cpuset-cpus="": CPUs in which to allow execution (0-3, 0,1)
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### Memory constraints
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We have four ways to set memory usage:
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< table >
< thead >
< tr >
< th > Option< / th >
< th > Result< / th >
< / tr >
< / thead >
< tbody >
< tr >
< td class = "no-wrap" >
< strong > memory=inf, memory-swap=inf< / strong > (default)
< / td >
< td >
There is no memory limit for the container. The container can use
as much memory as needed.
< / td >
< / tr >
< tr >
< td class = "no-wrap" > < strong > memory=L< inf, memory-swap=inf< / strong > < / td >
< td >
(specify memory and set memory-swap as < code > -1< / code > ) The container is
not allowed to use more than L bytes of memory, but can use as much swap
as is needed (if the host supports swap memory).
< / td >
< / tr >
< tr >
< td class = "no-wrap" > < strong > memory=L< inf, memory-swap=2*L< / strong > < / td >
< td >
(specify memory without memory-swap) The container is not allowed to
use more than L bytes of memory, swap *plus* memory usage is double
of that.
< / td >
< / tr >
< tr >
< td class = "no-wrap" >
< strong > memory=L< inf, memory-swap=S< inf, L< =S< / strong >
< / td >
< td >
(specify both memory and memory-swap) The container is not allowed to
use more than L bytes of memory, swap *plus* memory usage is limited
by S.
< / td >
< / tr >
< / tbody >
< / table >
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Examples:
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$ docker run -ti ubuntu:14.04 /bin/bash
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We set nothing about memory, this means the processes in the container can use
as much memory and swap memory as they need.
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$ docker run -ti -m 300M --memory-swap -1 ubuntu:14.04 /bin/bash
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We set memory limit and disabled swap memory limit, this means the processes in
the container can use 300M memory and as much swap memory as they need (if the
host supports swap memory).
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$ docker run -ti -m 300M ubuntu:14.04 /bin/bash
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We set memory limit only, this means the processes in the container can use
300M memory and 300M swap memory, by default, the total virtual memory size
(--memory-swap) will be set as double of memory, in this case, memory + swap
would be 2*300M, so processes can use 300M swap memory as well.
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$ docker run -ti -m 300M --memory-swap 1G ubuntu:14.04 /bin/bash
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We set both memory and swap memory, so the processes in the container can use
300M memory and 700M swap memory.
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### CPU share constraint
By default, all containers get the same proportion of CPU cycles. This proportion
can be modified by changing the container's CPU share weighting relative
to the weighting of all other running containers.
To modify the proportion from the default of 1024, use the `-c` or `--cpu-shares`
flag to set the weighting to 2 or higher.
The proportion will only apply when CPU-intensive processes are running.
When tasks in one container are idle, other containers can use the
left-over CPU time. The actual amount of CPU time will vary depending on
the number of containers running on the system.
For example, consider three containers, one has a cpu-share of 1024 and
two others have a cpu-share setting of 512. When processes in all three
containers attempt to use 100% of CPU, the first container would receive
50% of the total CPU time. If you add a fouth container with a cpu-share
of 1024, the first container only gets 33% of the CPU. The remaining containers
receive 16.5%, 16.5% and 33% of the CPU.
On a multi-core system, the shares of CPU time are distributed over all CPU
cores. Even if a container is limited to less than 100% of CPU time, it can
use 100% of each individual CPU core.
For example, consider a system with more than three cores. If you start one
container `{C0}` with `-c=512` running one process, and another container
`{C1}` with `-c=1024` running two processes, this can result in the following
division of CPU shares:
PID container CPU CPU share
100 {C0} 0 100% of CPU0
101 {C1} 1 100% of CPU1
102 {C1} 2 100% of CPU2
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### Cpuset constraint
We can set cpus in which to allow execution for containers.
Examples:
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$ docker run -ti --cpuset-cpus="1,3" ubuntu:14.04 /bin/bash
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This means processes in container can be executed on cpu 1 and cpu 3.
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$ docker run -ti --cpuset-cpus="0-2" ubuntu:14.04 /bin/bash
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This means processes in container can be executed on cpu 0, cpu 1 and cpu 2.
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## Runtime privilege, Linux capabilities, and LXC configuration
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--cap-add: Add Linux capabilities
--cap-drop: Drop Linux capabilities
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--privileged=false: Give extended privileges to this container
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--device=[]: Allows you to run devices inside the container without the --privileged flag.
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--lxc-conf=[]: Add custom lxc options
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By default, Docker containers are "unprivileged" and cannot, for
example, run a Docker daemon inside a Docker container. This is because
by default a container is not allowed to access any devices, but a
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"privileged" container is given access to all devices (see [lxc-template.go](
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https://github.com/docker/docker/blob/master/daemon/execdriver/lxc/lxc_template.go)
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and documentation on [cgroups devices](
https://www.kernel.org/doc/Documentation/cgroups/devices.txt)).
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When the operator executes `docker run --privileged` , Docker will enable
to access to all devices on the host as well as set some configuration
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in AppArmor or SELinux to allow the container nearly all the same access to the
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host as processes running outside containers on the host. Additional
information about running with `--privileged` is available on the
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[Docker Blog ](http://blog.docker.com/2013/09/docker-can-now-run-within-docker/ ).
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If you want to limit access to a specific device or devices you can use
the `--device` flag. It allows you to specify one or more devices that
will be accessible within the container.
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$ docker run --device=/dev/snd:/dev/snd ...
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By default, the container will be able to `read` , `write` , and `mknod` these devices.
This can be overridden using a third `:rwm` set of options to each `--device` flag:
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$ docker run --device=/dev/sda:/dev/xvdc --rm -it ubuntu fdisk /dev/xvdc
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Command (m for help): q
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$ docker run --device=/dev/sda:/dev/xvdc:r --rm -it ubuntu fdisk /dev/xvdc
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You will not be able to write the partition table.
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Command (m for help): q
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$ docker run --device=/dev/sda:/dev/xvdc:w --rm -it ubuntu fdisk /dev/xvdc
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crash....
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$ docker run --device=/dev/sda:/dev/xvdc:m --rm -it ubuntu fdisk /dev/xvdc
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fdisk: unable to open /dev/xvdc: Operation not permitted
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In addition to `--privileged` , the operator can have fine grain control over the
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capabilities using `--cap-add` and `--cap-drop` . By default, Docker has a default
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list of capabilities that are kept. Here is a table to list the reference information on capabilities.
| Capability Key | Capability Value | Capability Description |
| :----------------- | :---------------| :-------------------- |
| SETPCAP | capability.CAP_SETPCAP | Modify process capabilities. |
| SYS_MODULE | capability.CAP_SYS_MODULE | Load and unload kernel modules. |
| SYS_RAWIO | capability.CAP_SYS_RAWIO | Perform I/O port operations (iopl(2) and ioperm(2)). |
| SYS_PACCT | capability.CAP_SYS_PACCT | Use acct(2), switch process accounting on or off. |
| SYS_ADMIN | capability.CAP_SYS_ADMIN | Perform a range of system administration operations. |
| SYS_NICE | capability.CAP_SYS_NICE | Raise process nice value (nice(2), setpriority(2)) and change the nice value for arbitrary processes. |
| SYS_RESOURCE | capability.CAP_SYS_RESOURCE | Override Resource Limits. |
| SYS_TIME | capability.CAP_SYS_TIME | Set system clock (settimeofday(2), stime(2), adjtimex(2)); set real-time (hardware) clock. |
| SYS_TTY_CONFIG | capability.CAP_SYS_TTY_CONFIG | Use vhangup(2); employ various privileged ioctl(2) operations on virtual terminals. |
| MKNOD | capability.CAP_MKNOD | Create special files using mknod(2). |
| AUDIT_WRITE | capability.CAP_AUDIT_WRITE | Write records to kernel auditing log. |
| AUDIT_CONTROL | capability.CAP_AUDIT_CONTROL | Enable and disable kernel auditing; change auditing filter rules; retrieve auditing status and filtering rules. |
| MAC_OVERRIDE | capability.CAP_MAC_OVERRIDE | Allow MAC configuration or state changes. Implemented for the Smack LSM. |
| MAC_ADMIN | capability.CAP_MAC_ADMIN | Override Mandatory Access Control (MAC). Implemented for the Smack Linux Security Module (LSM). |
| NET_ADMIN | capability.CAP_NET_ADMIN | Perform various network-related operations. |
| SYSLOG | capability.CAP_SYSLOG | Perform privileged syslog(2) operations. |
| CHOWN | capability.CAP_CHOWN | Make arbitrary changes to file UIDs and GIDs (see chown(2)). |
| NET_RAW | capability.CAP_NET_RAW | Use RAW and PACKET sockets. |
| DAC_OVERRIDE | capability.CAP_DAC_OVERRIDE | Bypass file read, write, and execute permission checks. |
| FOWNER | capability.CAP_FOWNER | Bypass permission checks on operations that normally require the file system UID of the process to match the UID of the file. |
| DAC_READ_SEARCH | capability.CAP_DAC_READ_SEARCH | Bypass file read permission checks and directory read and execute permission checks. |
| FSETID | capability.CAP_FSETID | Don't clear set-user-ID and set-group-ID permission bits when a file is modified. |
| KILL | apability.CAP_KILL | Bypass permission checks for sending signals. |
| SETGID | capability.CAP_SETGID | Make arbitrary manipulations of process GIDs and supplementary GID list. |
| SETUID | capability.CAP_SETUID | Make arbitrary manipulations of process UIDs. |
| LINUX_IMMUTABLE | capability.CAP_LINUX_IMMUTABLE | Set the FS_APPEND_FL and FS_IMMUTABLE_FL i-node flags. |
| NET_BIND_SERVICE | capability.CAP_NET_BIND_SERVICE | Bind a socket to Internet domain privileged ports (port numbers less than 1024). |
| NET_BROADCAST | capability.CAP_NET_BROADCAST} | Make socket broadcasts, and listen to multicasts. |
| IPC_LOCK | capability.CAP_IPC_LOCK | Lock memory (mlock(2), mlockall(2), mmap(2), shmctl(2)). |
| IPC_OWNER | capability.CAP_IPC_OWNER | Bypass permission checks for operations on System V IPC objects. |
| SYS_CHROOT | capability.CAP_SYS_CHROOT | Use chroot(2), change root directory. |
| SYS_PTRACE | capability.CAP_SYS_PTRACE | Trace arbitrary processes using ptrace(2). |
| SYS_BOOT | capability.CAP_SYS_BOOT | Use reboot(2) and kexec_load(2), reboot and load a new kernel for later execution. |
| LEASE | capability.CAP_LEASE | Establish leases on arbitrary files (see fcntl(2)). |
| SETFCAP | capability.CAP_SETFCAP | Set file capabilities.|
| WAKE_ALARM | capability.CAP_WAKE_ALARM | Trigger something that will wake up the system. |
| BLOCK_SUSPEND | capability.CAP_BLOCK_SUSPEND | Employ features that can block system suspend. |
Both flags support the value `all` , so if the
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operator wants to have all capabilities but `MKNOD` they could use:
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$ docker run --cap-add=ALL --cap-drop=MKNOD ...
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For interacting with the network stack, instead of using `--privileged` they
should use `--cap-add=NET_ADMIN` to modify the network interfaces.
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$ docker run -t -i --rm ubuntu:14.04 ip link add dummy0 type dummy
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RTNETLINK answers: Operation not permitted
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$ docker run -t -i --rm --cap-add=NET_ADMIN ubuntu:14.04 ip link add dummy0 type dummy
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To mount a FUSE based filesystem, you need to combine both `--cap-add` and
`--device` :
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$ docker run --rm -it --cap-add SYS_ADMIN sshfs sshfs sven@10.10.10.20:/home/sven /mnt
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fuse: failed to open /dev/fuse: Operation not permitted
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$ docker run --rm -it --device /dev/fuse sshfs sshfs sven@10.10.10.20:/home/sven /mnt
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fusermount: mount failed: Operation not permitted
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$ docker run --rm -it --cap-add SYS_ADMIN --device /dev/fuse sshfs
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# sshfs sven@10.10.10.20:/home/sven /mnt
The authenticity of host '10.10.10.20 (10.10.10.20)' can't be established.
ECDSA key fingerprint is 25:34:85:75:25:b0:17:46:05:19:04:93:b5:dd:5f:c6.
Are you sure you want to continue connecting (yes/no)? yes
sven@10.10.10.20's password:
root@30aa0cfaf1b5:/# ls -la /mnt/src/docker
total 1516
drwxrwxr-x 1 1000 1000 4096 Dec 4 06:08 .
drwxrwxr-x 1 1000 1000 4096 Dec 4 11:46 ..
-rw-rw-r-- 1 1000 1000 16 Oct 8 00:09 .dockerignore
-rwxrwxr-x 1 1000 1000 464 Oct 8 00:09 .drone.yml
drwxrwxr-x 1 1000 1000 4096 Dec 4 06:11 .git
-rw-rw-r-- 1 1000 1000 461 Dec 4 06:08 .gitignore
....
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If the Docker daemon was started using the `lxc` exec-driver
(`docker -d --exec-driver=lxc`) then the operator can also specify LXC options
using one or more `--lxc-conf` parameters. These can be new parameters or
override existing parameters from the [lxc-template.go](
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https://github.com/docker/docker/blob/master/daemon/execdriver/lxc/lxc_template.go).
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Note that in the future, a given host's docker daemon may not use LXC, so this
is an implementation-specific configuration meant for operators already
familiar with using LXC directly.
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> **Note:**
> If you use `--lxc-conf` to modify a container's configuration which is also
> managed by the Docker daemon, then the Docker daemon will not know about this
> modification, and you will need to manage any conflicts yourself. For example,
> you can use `--lxc-conf` to set a container's IP address, but this will not be
> reflected in the `/etc/hosts` file.
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## Logging drivers (--log-driver)
You can specify a different logging driver for the container than for the daemon.
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### Logging driver: none
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Disables any logging for the container. `docker logs` won't be available with
this driver.
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### Log driver: json-file
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Default logging driver for Docker. Writes JSON messages to file. `docker logs`
command is available only for this logging driver
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## Logging driver: syslog
Syslog logging driver for Docker. Writes log messages to syslog. `docker logs`
command is not available for this logging driver
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## Overriding Dockerfile image defaults
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When a developer builds an image from a [*Dockerfile* ](/reference/builder )
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or when she commits it, the developer can set a number of default parameters
that take effect when the image starts up as a container.
Four of the Dockerfile commands cannot be overridden at runtime: `FROM` ,
`MAINTAINER` , `RUN` , and `ADD` . Everything else has a corresponding override
in `docker run` . We'll go through what the developer might have set in each
Dockerfile instruction and how the operator can override that setting.
- [CMD (Default Command or Options) ](#cmd-default-command-or-options )
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- [ENTRYPOINT (Default Command to Execute at Runtime)](
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#entrypoint -default-command-to-execute-at-runtime)
- [EXPOSE (Incoming Ports) ](#expose-incoming-ports )
- [ENV (Environment Variables) ](#env-environment-variables )
- [VOLUME (Shared Filesystems) ](#volume-shared-filesystems )
- [USER ](#user )
- [WORKDIR ](#workdir )
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## CMD (default command or options)
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Recall the optional `COMMAND` in the Docker
commandline:
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$ docker run [OPTIONS] IMAGE[:TAG|@DIGEST] [COMMAND] [ARG...]
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This command is optional because the person who created the `IMAGE` may
have already provided a default `COMMAND` using the Dockerfile `CMD`
instruction. As the operator (the person running a container from the
image), you can override that `CMD` instruction just by specifying a new
`COMMAND` .
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If the image also specifies an `ENTRYPOINT` then the `CMD` or `COMMAND`
get appended as arguments to the `ENTRYPOINT` .
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## ENTRYPOINT (default command to execute at runtime)
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--entrypoint="": Overwrite the default entrypoint set by the image
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The `ENTRYPOINT` of an image is similar to a `COMMAND` because it
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specifies what executable to run when the container starts, but it is
(purposely) more difficult to override. The `ENTRYPOINT` gives a
container its default nature or behavior, so that when you set an
`ENTRYPOINT` you can run the container *as if it were that binary* ,
complete with default options, and you can pass in more options via the
`COMMAND` . But, sometimes an operator may want to run something else
inside the container, so you can override the default `ENTRYPOINT` at
runtime by using a string to specify the new `ENTRYPOINT` . Here is an
example of how to run a shell in a container that has been set up to
automatically run something else (like `/usr/bin/redis-server` ):
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$ docker run -i -t --entrypoint /bin/bash example/redis
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or two examples of how to pass more parameters to that ENTRYPOINT:
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$ docker run -i -t --entrypoint /bin/bash example/redis -c ls -l
$ docker run -i -t --entrypoint /usr/bin/redis-cli example/redis --help
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## EXPOSE (incoming ports)
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The Dockerfile doesn't give much control over networking, only providing
the `EXPOSE` instruction to give a hint to the operator about what
incoming ports might provide services. The following options work with
or override the Dockerfile's exposed defaults:
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--expose=[]: Expose a port or a range of ports from the container
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without publishing it to your host
-P=false : Publish all exposed ports to the host interfaces
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-p=[] : Publish a container᾿ s port or a range of ports to the host
format: ip:hostPort:containerPort | ip::containerPort | hostPort:containerPort | containerPort
Both hostPort and containerPort can be specified as a range of ports.
When specifying ranges for both, the number of container ports in the range must match the number of host ports in the range. (e.g., `-p 1234-1236:1234-1236/tcp` )
(use 'docker port' to see the actual mapping)
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--link="" : Add link to another container (< name or id > :alias)
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As mentioned previously, `EXPOSE` (and `--expose` ) makes ports available
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**in** a container for incoming connections. The port number on the
inside of the container (where the service listens) does not need to be
the same number as the port exposed on the outside of the container
(where clients connect), so inside the container you might have an HTTP
service listening on port 80 (and so you `EXPOSE 80` in the Dockerfile),
but outside the container the port might be 42800.
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To help a new client container reach the server container's internal
port operator `--expose` 'd by the operator or `EXPOSE` 'd by the
developer, the operator has three choices: start the server container
with `-P` or `-p,` or start the client container with `--link` .
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If the operator uses `-P` or `-p` then Docker will make the exposed port
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accessible on the host and the ports will be available to any client that can
reach the host. When using `-P` , Docker will bind the exposed port to a random
port on the host within an *ephemeral port range* defined by
`/proc/sys/net/ipv4/ip_local_port_range` . To find the mapping between the host
ports and the exposed ports, use `docker port` .
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If the operator uses `--link` when starting the new client container,
then the client container can access the exposed port via a private
networking interface. Docker will set some environment variables in the
client container to help indicate which interface and port to use.
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## ENV (environment variables)
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When a new container is created, Docker will set the following environment
variables automatically:
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< table >
< tr >
< th > Variable< / th >
< th > Value< / th >
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< / tr >
< tr >
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< td > < code > HOME< / code > < / td >
< td >
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Set based on the value of < code > USER< / code >
< / td >
< / tr >
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< tr >
< td > < code > HOSTNAME< / code > < / td >
< td >
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The hostname associated with the container
< / td >
< / tr >
< tr >
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< td > < code > PATH< / code > < / td >
< td >
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Includes popular directories, such as :< br >
< code > /usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin< / code >
< / td >
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< tr >
< td > < code > TERM< / code > < / td >
< td > < code > xterm< / code > if the container is allocated a psuedo-TTY< / td >
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< / tr >
< / table >
The container may also include environment variables defined
as a result of the container being linked with another container. See
the [*Container Links* ](/userguide/dockerlinks/#container-linking )
section for more details.
Additionally, the operator can **set any environment variable** in the
container by using one or more `-e` flags, even overriding those mentioned
above, or already defined by the developer with a Dockerfile `ENV` :
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$ docker run -e "deep=purple" --rm ubuntu /bin/bash -c export
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declare -x HOME="/"
declare -x HOSTNAME="85bc26a0e200"
declare -x OLDPWD
declare -x PATH="/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
declare -x PWD="/"
declare -x SHLVL="1"
declare -x container="lxc"
declare -x deep="purple"
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Similarly the operator can set the **hostname** with `-h` .
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`--link <name or id>:alias` also sets environment variables, using the *alias* string to
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define environment variables within the container that give the IP and PORT
information for connecting to the service container. Let's imagine we have a
container running Redis:
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# Start the service container, named redis-name
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$ docker run -d --name redis-name dockerfiles/redis
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4241164edf6f5aca5b0e9e4c9eccd899b0b8080c64c0cd26efe02166c73208f3
# The redis-name container exposed port 6379
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$ docker ps
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CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
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4241164edf6f $ dockerfiles/redis:latest /redis-stable/src/re 5 seconds ago Up 4 seconds 6379/tcp redis-name
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# Note that there are no public ports exposed since we didn᾿ t use -p or -P
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$ docker port 4241164edf6f 6379
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2014/01/25 00:55:38 Error: No public port '6379' published for 4241164edf6f
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Yet we can get information about the Redis container's exposed ports
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with `--link` . Choose an alias that will form a
valid environment variable!
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$ docker run --rm --link redis-name:redis_alias --entrypoint /bin/bash dockerfiles/redis -c export
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declare -x HOME="/"
declare -x HOSTNAME="acda7f7b1cdc"
declare -x OLDPWD
declare -x PATH="/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
declare -x PWD="/"
declare -x REDIS_ALIAS_NAME="/distracted_wright/redis"
declare -x REDIS_ALIAS_PORT="tcp://172.17.0.32:6379"
declare -x REDIS_ALIAS_PORT_6379_TCP="tcp://172.17.0.32:6379"
declare -x REDIS_ALIAS_PORT_6379_TCP_ADDR="172.17.0.32"
declare -x REDIS_ALIAS_PORT_6379_TCP_PORT="6379"
declare -x REDIS_ALIAS_PORT_6379_TCP_PROTO="tcp"
declare -x SHLVL="1"
declare -x container="lxc"
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And we can use that information to connect from another container as a client:
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$ docker run -i -t --rm --link redis-name:redis_alias --entrypoint /bin/bash dockerfiles/redis -c '/redis-stable/src/redis-cli -h $REDIS_ALIAS_PORT_6379_TCP_ADDR -p $REDIS_ALIAS_PORT_6379_TCP_PORT'
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172.17.0.32:6379>
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Docker will also map the private IP address to the alias of a linked
container by inserting an entry into `/etc/hosts` . You can use this
mechanism to communicate with a linked container by its alias:
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$ docker run -d --name servicename busybox sleep 30
$ docker run -i -t --link servicename:servicealias busybox ping -c 1 servicealias
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If you restart the source container (`servicename` in this case), the recipient
container's `/etc/hosts` entry will be automatically updated.
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> **Note**:
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> Unlike host entries in the `/etc/hosts` file, IP addresses stored in the
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> environment variables are not automatically updated if the source container is
> restarted. We recommend using the host entries in `/etc/hosts` to resolve the
> IP address of linked containers.
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## VOLUME (shared filesystems)
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-v=[]: Create a bind mount with: [host-dir]:[container-dir]:[rw|ro].
If "container-dir" is missing, then docker creates a new volume.
--volumes-from="": Mount all volumes from the given container(s)
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The volumes commands are complex enough to have their own documentation
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in section [*Managing data in
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containers*](/userguide/dockervolumes). A developer can define
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one or more `VOLUME` 's associated with an image, but only the operator
can give access from one container to another (or from a container to a
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volume mounted on the host).
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## USER
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The default user within a container is `root` (id = 0), but if the
developer created additional users, those are accessible too. The
developer can set a default user to run the first process with the
Dockerfile `USER` instruction, but the operator can override it:
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-u="": Username or UID
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> **Note:** if you pass numeric uid, it must be in range 0-2147483647.
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## WORKDIR
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The default working directory for running binaries within a container is the
root directory (`/`), but the developer can set a different default with the
Dockerfile `WORKDIR` command. The operator can override this with:
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-w="": Working directory inside the container