From 8c765ae68a4a9aceb9886f4d92f2ded7af144e22 Mon Sep 17 00:00:00 2001 From: James Turnbull Date: Sun, 29 Jun 2014 22:25:12 -0400 Subject: [PATCH] Formatting and consistency fixes to CLI and RUN references * Removed double backticks. * Reformatted paragraphs. * Fixed consistent STDOUT/STDIN/STDERR references. * Fixed several broken URLs. * Fixed backtick mismatches. Docker-DCO-1.1-Signed-off-by: James Turnbull (github: jamtur01) --- docs/sources/reference/commandline/cli.md | 78 ++++---- docs/sources/reference/run.md | 223 +++++++++++----------- 2 files changed, 151 insertions(+), 150 deletions(-) diff --git a/docs/sources/reference/commandline/cli.md b/docs/sources/reference/commandline/cli.md index cb5d39d93a..7277b4c978 100644 --- a/docs/sources/reference/commandline/cli.md +++ b/docs/sources/reference/commandline/cli.md @@ -199,26 +199,26 @@ To kill the container, use `docker kill`. --rm=true Remove intermediate containers after a successful build -t, --tag="" Repository name (and optionally a tag) to be applied to the resulting image in case of success -Use this command to build Docker images from a Dockerfile -and a "context". +Use this command to build Docker images from a Dockerfile and a +"context". -The files at `PATH` or `URL` are called the "context" of the build. The build -process may refer to any of the files in the context, for example when using an -[*ADD*](/reference/builder/#dockerfile-add) instruction. When a single Dockerfile is -given as `URL` or is piped through STDIN (`docker build - < Dockerfile`), then -no context is set. +The files at `PATH` or `URL` are called the "context" of the build. The +build process may refer to any of the files in the context, for example +when using an [*ADD*](/reference/builder/#dockerfile-add) instruction. +When a single Dockerfile is given as `URL` or is piped through `STDIN` +(`docker build - < Dockerfile`), then no context is set. -When a Git repository is set as `URL`, then the -repository is used as the context. The Git repository is cloned with its -submodules (git clone –recursive). A fresh git clone occurs in a -temporary directory on your local host, and then this is sent to the -Docker daemon as the context. This way, your local user credentials and -vpn's etc can be used to access private repositories. +When a Git repository is set as `URL`, then the repository is used as +the context. The Git repository is cloned with its submodules (`git +clone -recursive`). A fresh `git clone` occurs in a temporary directory +on your local host, and then this is sent to the Docker daemon as the +context. This way, your local user credentials and VPN's etc can be +used to access private repositories. -If a file named ``.dockerignore`` exists in the root of ``PATH`` then it is -interpreted as a newline-separated list of exclusion patterns. Exclusion -patterns match files or directories relative to ``PATH`` that will be excluded -from the context. Globbing is done using Go's +If a file named `.dockerignore` exists in the root of `PATH` then it +is interpreted as a newline-separated list of exclusion patterns. +Exclusion patterns match files or directories relative to `PATH` that +will be excluded from the context. Globbing is done using Go's [filepath.Match](http://golang.org/pkg/path/filepath#Match) rules. See also: @@ -304,15 +304,14 @@ and the tag will be `2.0` $ sudo docker build - < Dockerfile -This will read a Dockerfile from STDIN without -context. Due to the lack of a context, no contents of any local -directory will be sent to the `docker` daemon. Since -there is no context, a Dockerfile `ADD` -only works if it refers to a remote URL. +This will read a Dockerfile from `STDIN` without context. Due to the +lack of a context, no contents of any local directory will be sent to +the Docker daemon. Since there is no context, a Dockerfile `ADD` only +works if it refers to a remote URL. $ sudo docker build - < context.tar.gz -This will build an image for a compressed context read from STDIN. +This will build an image for a compressed context read from `STDIN`. Supported formats are: bzip2, gzip and xz. $ sudo docker build github.com/creack/docker-firefox @@ -518,7 +517,7 @@ by default. ### Filtering -The filtering flag (-f or --filter) format is of "key=value". If there are more +The filtering flag (`-f` or `--filter`) format is of "key=value". If there are more than one filter, then pass multiple flags (e.g. `--filter "foo=bar" --filter "bif=baz"`) Current filters: @@ -562,11 +561,10 @@ NOTE: Docker will warn you if any containers exist that are using these untagged Create an empty filesystem image and import the contents of the tarball (.tar, .tar.gz, .tgz, .bzip, .tar.xz, .txz) into it, then optionally tag it. -URLs must start with `http` and point to a single -file archive (.tar, .tar.gz, .tgz, .bzip, .tar.xz, or .txz) containing a -root filesystem. If you would like to import from a local directory or -archive, you can use the `-` parameter to take the -data from STDIN. +URLs must start with `http` and point to a single file archive (.tar, +.tar.gz, .tgz, .bzip, .tar.xz, or .txz) containing a root filesystem. If +you would like to import from a local directory or archive, you can use +the `-` parameter to take the data from `STDIN`. ### Examples @@ -578,7 +576,7 @@ This will create a new untagged image. **Import from a local file:** -Import to docker via pipe and STDIN. +Import to docker via pipe and `STDIN`. $ cat exampleimage.tgz | sudo docker import - exampleimagelocal:new @@ -681,7 +679,7 @@ contains complex json object, so to grab it as JSON, you use -s, --signal="KILL" Signal to send to the container -The main process inside the container will be sent SIGKILL, or any +The main process inside the container will be sent `SIGKILL`, or any signal specified with option `--signal`. ## load @@ -739,8 +737,8 @@ The `docker logs` command batch-retrieves all logs present at the time of execution. The ``docker logs --follow`` command will first return all logs from the -beginning and then continue streaming new output from the container's stdout -and stderr. +beginning and then continue streaming new output from the container's `STDOUT` +and `STDERR`. ## port @@ -1074,7 +1072,7 @@ This will create and run a new container with the container name being The `--link` flag will link the container named `/redis` into the newly created container with the alias `redis`. The new container can access the -network and environment of the redis container via environment variables. +network and environment of the `redis` container via environment variables. The `--name` flag will assign the name `console` to the newly created container. @@ -1087,19 +1085,19 @@ optionally suffixed with `:ro` or `:rw` to mount the volumes in read-only or read-write mode, respectively. By default, the volumes are mounted in the same mode (read write or read only) as the reference container. -The `-a` flag tells `docker run` to bind to the container's stdin, stdout or -stderr. This makes it possible to manipulate the output and input as needed. +The `-a` flag tells `docker run` to bind to the container's `STDIN`, `STDOUT` or +`STDERR`. This makes it possible to manipulate the output and input as needed. $ echo "test" | sudo docker run -i -a stdin ubuntu cat - This pipes data into a container and prints the container's ID by attaching -only to the container'sstdin. +only to the container's `STDIN`. $ sudo docker run -a stderr ubuntu echo test -This isn't going to print anything unless there's an error because We've -only attached to the stderr of the container. The container's logs still - store what's been written to stderr and stdout. +This isn't going to print anything unless there's an error because we've +only attached to the `STDERR` of the container. The container's logs +still store what's been written to `STDERR` and `STDOUT`. $ cat somefile | sudo docker run -i -a stdin mybuilder dobuild diff --git a/docs/sources/reference/run.md b/docs/sources/reference/run.md index 80429d7e2e..37dba587b6 100644 --- a/docs/sources/reference/run.md +++ b/docs/sources/reference/run.md @@ -5,13 +5,13 @@ page_keywords: docker, run, configure, runtime # Docker Run Reference **Docker runs processes in isolated containers**. When an operator -executes `docker run`, she starts a process with its -own file system, its own networking, and its own isolated process tree. -The [*Image*](/terms/image/#image-def) which starts the process may -define 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 [*run*](/reference/commandline/cli/#cli-run) has more options than any +executes `docker run`, she starts a process with its own file system, +its own networking, and its own isolated process tree. The +[*Image*](/terms/image/#image-def) which starts the process may define +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 +[*run*](/reference/commandline/cli/#cli-run) has more options than any other `docker` command. ## General Form @@ -36,10 +36,10 @@ The list of `[OPTIONS]` breaks down into two groups: 2. Setting shared between operators and developers, where operators can override defaults developers set in images at build time. -Together, the `docker run [OPTIONS]` give complete -control over runtime behavior to the operator, allowing them to override -all defaults set by the developer during `docker build` -and nearly all the defaults set by the Docker runtime itself. +Together, the `docker run [OPTIONS]` give complete control over runtime +behavior to the operator, allowing them to override all defaults set by +the developer during `docker build` and nearly all the defaults set by +the Docker runtime itself. ## Operator Exclusive Options @@ -54,10 +54,8 @@ following options. - [PID Equivalent](#pid-equivalent) - [Network Settings](#network-settings) - [Clean Up (--rm)](#clean-up-rm) - - [Runtime Constraints on CPU and - Memory](#runtime-constraints-on-cpu-and-memory) - - [Runtime Privilege and LXC - Configuration](#runtime-privilege-and-lxc-configuration) + - [Runtime Constraints on CPU and Memory](#runtime-constraints-on-cpu-and-memory) + - [Runtime Privilege and LXC Configuration](#runtime-privilege-and-lxc-configuration) ## Detached vs Foreground @@ -78,28 +76,28 @@ container in the detached mode, then you cannot use the `--rm` option. ### Foreground -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: +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: - -a=[] : Attach to ``stdin``, ``stdout`` and/or ``stderr`` + -a=[] : Attach to `STDIN`, `STDOUT` and/or `STDERR` -t=false : Allocate a pseudo-tty --sig-proxy=true: Proxify all received signal to the process (even in non-tty mode) -i=false : Keep STDIN open even if not attached -If you do not specify `-a` then Docker will [attach everything (stdin,stdout,stderr)]( -https://github.com/dotcloud/docker/blob/ -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: +If you do not specify `-a` then Docker will [attach all standard +streams]( https://github.com/dotcloud/docker/blob/ +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: $ docker run -a stdin -a stdout -i -t ubuntu /bin/bash -For interactive processes (like a shell) you will typically want a tty as well as -persistent standard input (`stdin`), so you'll use `-i -t` together in most -interactive cases. +For interactive processes (like a shell) you will typically want a tty +as well as persistent standard input (`STDIN`), so you'll use `-i -t` +together in most interactive cases. ## Container Identification @@ -113,19 +111,18 @@ The operator can identify a container in three ways: - Name ("evil_ptolemy") The UUID identifiers come from the Docker daemon, and if you do not -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 -[*links*](/userguide/dockerlinks/#working-with-links-names) -(or any other place you need to identify a container). This works for -both background and foreground Docker containers. +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 +[*links*](/userguide/dockerlinks/#working-with-links-names) (or any +other place you need to identify a container). This works for both +background and foreground Docker containers. -### PID Equivalent +### PID Equivalent -And finally, to help with automation, you can have Docker write the +Finally, to help with automation, you can have Docker write the container ID out to a file of your choosing. This is similar to how some -programs might write out their process ID to a file (you`ve seen them as +programs might write out their process ID to a file (you've seen them as PID files): --cidfile="": Write the container ID to the file @@ -141,14 +138,14 @@ PID files): By default, all containers have networking enabled and they can make any outgoing connections. The operator can completely disable networking -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/STDOUT only. +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. Your container will use the same DNS servers as the host by default, but you can override this with `--dns`. -Supported networking modes are: +Supported networking modes are: * none - no networking in the container * bridge - (default) connect the container to the bridge via veth interfaces @@ -156,35 +153,40 @@ Supported networking modes are: * container - use another container's network stack #### Mode: none -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. + +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. #### Mode: bridge -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 trafic will be routed though this bridge to the -container. + +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. #### Mode: host + With the networking mode set to `host` a container will share the host's -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. +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. #### Mode: container -With the networking mode set to `container` a container will share the -network stack of another container. The other container's name must be + +With the networking mode set to `container` a container will share the +network stack of another container. The other container's name must be provided in the format of `--net container:`. -Example running a redis container with redis binding to localhost then -running the redis-cli and connecting to the redis server over the -localhost interface. +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. $ docker run -d --name redis example/redis --bind 127.0.0.1 $ # use the redis container's network stack to access localhost @@ -211,15 +213,14 @@ container: -c=0 : CPU shares (relative weight) The operator can constrain the memory available to a container easily -with `docker run -m`. If the host supports swap -memory, then the `-m` memory setting can be larger -than physical RAM. +with `docker run -m`. If the host supports swap memory, then the `-m` +memory setting can be larger than physical RAM. Similarly the operator can increase the priority of this container with -the `-c` option. By default, all containers run at -the same priority and get the same proportion of CPU cycles, but you can -tell the kernel to give more shares of CPU time to one or more -containers when you start them via Docker. +the `-c` option. By default, all containers run at the same priority and +get the same proportion of CPU cycles, but you can tell the kernel to +give more shares of CPU time to one or more containers when you start +them via Docker. ## Runtime Privilege and LXC Configuration @@ -277,19 +278,20 @@ commandline: $ docker run [OPTIONS] IMAGE[:TAG] [COMMAND] [ARG...] -This command is optional because the person who created the `IMAGE` may have -already provided a default `COMMAND` using the Dockerfile `CMD`. As the -operator (the person running a container from the image), you can override that -`CMD` just by specifying a new `COMMAND`. +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`. -If the image also specifies an `ENTRYPOINT` then the `CMD` or `COMMAND` get -appended as arguments to the `ENTRYPOINT`. +If the image also specifies an `ENTRYPOINT` then the `CMD` or `COMMAND` +get appended as arguments to the `ENTRYPOINT`. ## ENTRYPOINT (Default Command to Execute at Runtime) --entrypoint="": Overwrite the default entrypoint set by the image -The ENTRYPOINT of an image is similar to a `COMMAND` because it +The `ENTRYPOINT` of an image is similar to a `COMMAND` because it 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 @@ -310,10 +312,10 @@ or two examples of how to pass more parameters to that ENTRYPOINT: ## EXPOSE (Incoming Ports) -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: +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: --expose=[]: Expose a port from the container without publishing it to your host @@ -324,34 +326,34 @@ Dockerfile's exposed defaults: (use 'docker port' to see the actual mapping) --link="" : Add link to another container (name:alias) -As mentioned previously, `EXPOSE` (and `--expose`) make a port available **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. +As mentioned previously, `EXPOSE` (and `--expose`) make a port available +**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. -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`. +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`. If the operator uses `-P` or `-p` then Docker will make the exposed port -accessible on the host and the ports will be available to any client that -can reach the host. To find the map between the host ports and the exposed -ports, use `docker port`) +accessible on the host and the ports will be available to any client +that can reach the host. To find the map between the host ports and the +exposed ports, use `docker port`) -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. +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. ## ENV (Environment Variables) -The operator can **set any environment variable** in the container by using one -or more `-e` flags, even overriding those already defined by the developer with -a Dockerfile `ENV`: +The operator can **set any environment variable** in the container by +using one or more `-e` flags, even overriding those already defined by +the developer with a Dockerfile `ENV`: $ docker run -e "deep=purple" --rm ubuntu /bin/bash -c export declare -x HOME="/" @@ -420,18 +422,19 @@ mechanism to communicate with a linked container by its alias: If "container-dir" is missing, then docker creates a new volume. --volumes-from="": Mount all volumes from the given container(s) -The volumes commands are complex enough to have their own documentation in -section [*Share Directories via Volumes*](/userguide/dockervolumes/#volume-def). -A developer can define 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 +The volumes commands are complex enough to have their own documentation +in section [*Share Directories via +Volumes*](/userguide/dockervolumes/#volume-def). A developer can define +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 volume mounted on the host). ## USER -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` command, -but the operator can override it: +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: -u="": Username or UID