docker buildx build [OPTIONS] PATH | URL | -
Start a build
docker buildx build
, docker buildx b
Name | Type | Default | Description |
---|---|---|---|
--add-host |
stringSlice |
Add a custom host-to-IP mapping (format: host:ip ) |
|
--allow |
stringSlice |
Allow extra privileged entitlement (e.g., network.host , security.insecure ) |
|
--annotation |
stringArray |
Add annotation to the image | |
--attest |
stringArray |
Attestation parameters (format: type=sbom,generator=image ) |
|
--build-arg |
stringArray |
Set build-time variables | |
--build-context |
stringArray |
Additional build contexts (e.g., name=path) | |
--builder |
string |
Override the configured builder instance | |
--cache-from |
stringArray |
External cache sources (e.g., user/app:cache , type=local,src=path/to/dir ) |
|
--cache-to |
stringArray |
Cache export destinations (e.g., user/app:cache , type=local,dest=path/to/dir ) |
|
--cgroup-parent |
string |
Set the parent cgroup for the RUN instructions during build |
|
--detach |
Detach buildx server (supported only on linux) | ||
-f , --file |
string |
Name of the Dockerfile (default: PATH/Dockerfile ) |
|
--iidfile |
string |
Write the image ID to the file | |
--label |
stringArray |
Set metadata for an image | |
--load |
Shorthand for --output=type=docker |
||
--metadata-file |
string |
Write build result metadata to the file | |
--network |
string |
default |
Set the networking mode for the RUN instructions during build |
--no-cache |
Do not use cache when building the image | ||
--no-cache-filter |
stringArray |
Do not cache specified stages | |
-o , --output |
stringArray |
Output destination (format: type=local,dest=path ) |
|
--platform |
stringArray |
Set target platform for build | |
--print |
string |
Print result of information request (e.g., outline, targets) | |
--progress |
string |
auto |
Set type of progress output (auto , plain , tty ). Use plain to show container output |
--provenance |
string |
Shorthand for --attest=type=provenance |
|
--pull |
Always attempt to pull all referenced images | ||
--push |
Shorthand for --output=type=registry |
||
-q , --quiet |
Suppress the build output and print image ID on success | ||
--root |
string |
Specify root directory of server to connect | |
--sbom |
string |
Shorthand for --attest=type=sbom |
|
--secret |
stringArray |
Secret to expose to the build (format: id=mysecret[,src=/local/secret] ) |
|
--server-config |
string |
Specify buildx server config file (used only when launching new server) | |
--shm-size |
bytes |
0 |
Size of /dev/shm |
--ssh |
stringArray |
SSH agent socket or keys to expose to the build (format: default|<id>[=<socket>|<key>[,<key>]] ) |
|
-t , --tag |
stringArray |
Name and optionally a tag (format: name:tag ) |
|
--target |
string |
Set the target build stage to build | |
--ulimit |
ulimit |
Ulimit options |
Flags marked with [experimental]
need to be explicitly enabled by setting the
BUILDX_EXPERIMENTAL=1
environment variable.
The buildx build
command starts a build using BuildKit. This command is similar
to the UI of docker build
command and takes the same flags and arguments.
For documentation on most of these flags, refer to the docker build
documentation.
This page describes a subset of the new flags.
--annotation="key=value"
--annotation="[type:]key=value"
Add OCI annotations to the image index, manifest, or descriptor.
The following example adds the foo=bar
annotation to the image manifests:
$ docker buildx build -t TAG --annotation "foo=bar" --push .
You can optionally add a type prefix to specify the level of the annotation. By
default, the image manifest is annotated. The following example adds the
foo=bar
annotation the image index instead of the manifests:
$ docker buildx build -t TAG --annotation "index:foo=bar" --push .
You can specify multiple types, separated by a comma (,) to add the annotation
to multiple image components. The following example adds the foo=bar
annotation to image index, descriptors, manifests:
$ docker buildx build -t TAG --annotation "index,manifest,manifest-descriptor:foo=bar" --push .
You can also specify a platform qualifier in square brackets ([os/arch]
) in
the type prefix, to apply the annotation to a subset of manifests with the
matching platform. The following example adds the foo=bar
annotation only to
the manifest with the linux/amd64
platform:
$ docker buildx build -t TAG --annotation "manifest[linux/amd64]:foo=bar" --push .
Wildcards are not supported in the platform qualifier; you can't specify a type
prefix like manifest[linux/*]
to add annotations only to manifests which has
linux
as the OS platform.
For more information about annotations, see Annotations.
--attest=type=sbom,...
--attest=type=provenance,...
Create image attestations. BuildKit currently supports:
-
sbom
- Software Bill of Materials.Use
--attest=type=sbom
to generate an SBOM for an image at build-time. Alternatively, you can use the--sbom
shorthand.For more information, see here.
-
provenance
- SLSA ProvenanceUse
--attest=type=provenance
to generate provenance for an image at build-time. Alternatively, you can use the--provenance
shorthand.By default, a minimal provenance attestation will be created for the build result, which will only be attached for images pushed to registries.
For more information, see here.
--allow=ENTITLEMENT
Allow extra privileged entitlement. List of entitlements:
network.host
- Allows executions with host networking.security.insecure
- Allows executions without sandbox. See related Dockerfile extensions.
For entitlements to be enabled, the buildkitd
daemon also needs to allow them
with --allow-insecure-entitlement
(see create --buildkitd-flags
).
$ docker buildx create --use --name insecure-builder --buildkitd-flags '--allow-insecure-entitlement security.insecure'
$ docker buildx build --allow security.insecure .
Same as docker build
command.
There are also useful built-in build arguments, such as:
BUILDKIT_CONTEXT_KEEP_GIT_DIR=<bool>
: trigger git context to keep the.git
directoryBUILDKIT_INLINE_CACHE=<bool>
: inline cache metadata to image config or notBUILDKIT_MULTI_PLATFORM=<bool>
: opt into deterministic output regardless of multi-platform output or not
$ docker buildx build --build-arg BUILDKIT_MULTI_PLATFORM=1 .
Learn more about the built-in build arguments in the Dockerfile reference docs.
--build-context=name=VALUE
Define additional build context with specified contents. In Dockerfile the context can be accessed when FROM name
or --from=name
is used.
When Dockerfile defines a stage with the same name it is overwritten.
The value can be a local source directory, local OCI layout compliant directory, container image (with docker-image:// prefix), Git or HTTP URL.
Replace alpine:latest
with a pinned one:
$ docker buildx build --build-context alpine=docker-image://alpine@sha256:0123456789 .
Expose a secondary local source directory:
$ docker buildx build --build-context project=path/to/project/source .
# docker buildx build --build-context project=https://github.com/myuser/project.git .
# syntax=docker/dockerfile:1
FROM alpine
COPY --from=project myfile /
Source an image from a local OCI layout compliant directory, either by tag, or by digest:
$ docker buildx build --build-context foo=oci-layout:///path/to/local/layout:<tag>
$ docker buildx build --build-context foo=oci-layout:///path/to/local/layout@sha256:<digest>
# syntax=docker/dockerfile:1
FROM alpine
RUN apk add git
COPY --from=foo myfile /
FROM foo
The OCI layout directory must be compliant with the OCI layout specification. You can reference an image in the layout using either tags, or the exact digest.
Same as buildx --builder
.
--cache-from=[NAME|type=TYPE[,KEY=VALUE]]
Use an external cache source for a build. Supported types are registry
,
local
, gha
and s3
.
registry
source can import cache from a cache manifest or (special) image configuration on the registry.local
source can import cache from local files previously exported with--cache-to
.gha
source can import cache from a previously exported cache with--cache-to
in your GitHub repositorys3
source can import cache from a previously exported cache with--cache-to
in your S3 bucket
If no type is specified, registry
exporter is used with a specified reference.
docker
driver currently only supports importing build cache from the registry.
$ docker buildx build --cache-from=user/app:cache .
$ docker buildx build --cache-from=user/app .
$ docker buildx build --cache-from=type=registry,ref=user/app .
$ docker buildx build --cache-from=type=local,src=path/to/cache .
$ docker buildx build --cache-from=type=gha .
$ docker buildx build --cache-from=type=s3,region=eu-west-1,bucket=mybucket .
More info about cache exporters and available attributes: https://github.com/moby/buildkit#export-cache
--cache-to=[NAME|type=TYPE[,KEY=VALUE]]
Export build cache to an external cache destination. Supported types are
registry
, local
, inline
, gha
and s3
.
registry
type exports build cache to a cache manifest in the registry.local
type exports cache to a local directory on the client.inline
type writes the cache metadata into the image configuration.gha
type exports cache through the GitHub Actions Cache service API.s3
type exports cache to a S3 bucket.
The docker
driver only supports cache exports using the inline
and local
cache backends.
Attribute key:
mode
- Specifies how many layers are exported with the cache.min
on only exports layers already in the final build stage,max
exports layers for all stages. Metadata is always exported for the whole build.
$ docker buildx build --cache-to=user/app:cache .
$ docker buildx build --cache-to=type=inline .
$ docker buildx build --cache-to=type=registry,ref=user/app .
$ docker buildx build --cache-to=type=local,dest=path/to/cache .
$ docker buildx build --cache-to=type=gha .
$ docker buildx build --cache-to=type=s3,region=eu-west-1,bucket=mybucket .
More info about cache exporters and available attributes: https://github.com/moby/buildkit#export-cache
Shorthand for --output=type=docker
. Will automatically load the
single-platform build result to docker images
.
To output build metadata such as the image digest, pass the --metadata-file
flag.
The metadata will be written as a JSON object to the specified file. The
directory of the specified file must already exist and be writable.
$ docker buildx build --load --metadata-file metadata.json .
$ cat metadata.json
{
"containerimage.config.digest": "sha256:2937f66a9722f7f4a2df583de2f8cb97fc9196059a410e7f00072fc918930e66",
"containerimage.descriptor": {
"annotations": {
"config.digest": "sha256:2937f66a9722f7f4a2df583de2f8cb97fc9196059a410e7f00072fc918930e66",
"org.opencontainers.image.created": "2022-02-08T21:28:03Z"
},
"digest": "sha256:19ffeab6f8bc9293ac2c3fdf94ebe28396254c993aea0b5a542cfb02e0883fa3",
"mediaType": "application/vnd.oci.image.manifest.v1+json",
"size": 506
},
"containerimage.digest": "sha256:19ffeab6f8bc9293ac2c3fdf94ebe28396254c993aea0b5a542cfb02e0883fa3"
}
-o, --output=[PATH,-,type=TYPE[,KEY=VALUE]
Sets the export action for the build result. In docker build
all builds finish
by creating a container image and exporting it to docker images
. buildx
makes
this step configurable allowing results to be exported directly to the client,
OCI image tarballs, registry etc.
Buildx with docker
driver currently only supports local, tarball exporter and
image exporter. docker-container
driver supports all the exporters.
If just the path is specified as a value, buildx
will use the local exporter
with this path as the destination. If the value is "-", buildx
will use tar
exporter and write to stdout
.
$ docker buildx build -o . .
$ docker buildx build -o outdir .
$ docker buildx build -o - - > out.tar
$ docker buildx build -o type=docker .
$ docker buildx build -o type=docker,dest=- . > myimage.tar
$ docker buildx build -t tonistiigi/foo -o type=registry
Supported exported types are:
The local
export type writes all result files to a directory on the client. The
new files will be owned by the current user. On multi-platform builds, all results
will be put in subdirectories by their platform.
Attribute key:
dest
- destination directory where files will be written
The tar
export type writes all result files as a single tarball on the client.
On multi-platform builds all results will be put in subdirectories by their platform.
Attribute key:
dest
- destination path where tarball will be written. “-” writes to stdout.
The oci
export type writes the result image or manifest list as an OCI image
layout
tarball on the client.
Attribute key:
dest
- destination path where tarball will be written. “-” writes to stdout.
The docker
export type writes the single-platform result image as a Docker image
specification
tarball on the client. Tarballs created by this exporter are also OCI compatible.
The default image store in Docker Engine doesn't support loading multi-platform
images. You can enable the containerd image store, or push multi-platform images
is to directly push to a registry, see registry
.
Attribute keys:
dest
- destination path where tarball will be written. If not specified, the tar will be loaded automatically to the local image store.context
- name for the Docker context where to import the result
The image
exporter writes the build result as an image or a manifest list. When
using docker
driver the image will appear in docker images
. Optionally, image
can be automatically pushed to a registry by specifying attributes.
Attribute keys:
name
- name (references) for the new image.push
- Boolean to automatically push the image.
The registry
exporter is a shortcut for type=image,push=true
.
--platform=value[,value]
Set the target platform for the build. All FROM
commands inside the Dockerfile
without their own --platform
flag will pull base images for this platform and
this value will also be the platform of the resulting image.
The default value is the platform of the BuildKit daemon where the build runs.
The value takes the form of os/arch
or os/arch/variant
. For example,
linux/amd64
or linux/arm/v7
. Additionally, the --platform
flag also supports
a special local
value, which tells BuildKit to use the platform of the BuildKit
client that invokes the build.
When using docker-container
driver with buildx
, this flag can accept multiple
values as an input separated by a comma. With multiple values the result will be
built for all of the specified platforms and joined together into a single manifest
list.
If the Dockerfile
needs to invoke the RUN
command, the builder needs runtime
support for the specified platform. In a clean setup, you can only execute RUN
commands for your system architecture.
If your kernel supports binfmt_misc
launchers for secondary architectures, buildx will pick them up automatically.
Docker desktop releases come with binfmt_misc
automatically configured for arm64
and arm
architectures. You can see what runtime platforms your current builder
instance supports by running docker buildx inspect --bootstrap
.
Inside a Dockerfile
, you can access the current platform value through
TARGETPLATFORM
build argument. Refer to the docker build
documentation
for the full description of automatic platform argument variants .
You can find the formatting definition for the platform specifier in the containerd source code.
$ docker buildx build --platform=linux/arm64 .
$ docker buildx build --platform=linux/amd64,linux/arm64,linux/arm/v7 .
$ docker buildx build --platform=darwin .
--progress=VALUE
Set type of progress output (auto
, plain
, tty
). Use plain to show container
output (default "auto").
Note
You can also use the
BUILDKIT_PROGRESS
environment variable to set its value.
The following example uses plain
output during the build:
$ docker buildx build --load --progress=plain .
#1 [internal] load build definition from Dockerfile
#1 transferring dockerfile: 227B 0.0s done
#1 DONE 0.1s
#2 [internal] load .dockerignore
#2 transferring context: 129B 0.0s done
#2 DONE 0.0s
...
Note
Check also our Color output controls guide for modifying the colors that are used to output information to the terminal.
Shorthand for --attest=type=provenance
, used to configure
provenance attestations for the build result. For example,
--provenance=mode=max
can be used as an abbreviation for
--attest=type=provenance,mode=max
.
Additionally, --provenance
can be used with Boolean values to enable or disable
provenance attestations. For example, --provenance=false
disables all provenance attestations,
while --provenance=true
enables all provenance attestations.
By default, a minimal provenance attestation will be created for the build result. Note that the default image store in Docker Engine doesn't support attestations. Provenance attestations only persist for images pushed directly to a registry if you use the default image store. Alternatively, you can switch to using the containerd image store.
For more information about provenance attestations, see here.
Shorthand for --output=type=registry
. Will automatically push the
build result to registry.
Shorthand for --attest=type=sbom
, used to configure SBOM
attestations for the build result. For example,
--sbom=generator=<user>/<generator-image>
can be used as an abbreviation for
--attest=type=sbom,generator=<user>/<generator-image>
.
Additionally, --sbom
can be used with Boolean values to enable or disable
SBOM attestations. For example, --sbom=false
disables all SBOM attestations.
Note that the default image store in Docker Engine doesn't support attestations. Provenance attestations only persist for images pushed directly to a registry if you use the default image store. Alternatively, you can switch to using the containerd image store.
For more information, see here.
--secret=[type=TYPE[,KEY=VALUE]
Exposes secret to the build. The secret can be used by the build using
RUN --mount=type=secret
mount.
If type
is unset it will be detected. Supported types are:
Attribute keys:
id
- ID of the secret. Defaults to base name of thesrc
path.src
,source
- Secret filename.id
used if unset.
# syntax=docker/dockerfile:1
FROM python:3
RUN pip install awscli
RUN --mount=type=secret,id=aws,target=/root/.aws/credentials \
aws s3 cp s3://... ...
$ docker buildx build --secret id=aws,src=$HOME/.aws/credentials .
Attribute keys:
id
- ID of the secret. Defaults toenv
name.env
- Secret environment variable.id
used if unset, otherwise will look forsrc
,source
ifid
unset.
# syntax=docker/dockerfile:1
FROM node:alpine
RUN --mount=type=bind,target=. \
--mount=type=secret,id=SECRET_TOKEN \
SECRET_TOKEN=$(cat /run/secrets/SECRET_TOKEN) yarn run test
$ SECRET_TOKEN=token docker buildx build --secret id=SECRET_TOKEN .
The format is <number><unit>
. number
must be greater than 0
. Unit is
optional and can be b
(bytes), k
(kilobytes), m
(megabytes), or g
(gigabytes). If you omit the unit, the system uses bytes.
--ssh=default|<id>[=<socket>|<key>[,<key>]]
This can be useful when some commands in your Dockerfile need specific SSH authentication (e.g., cloning a private repository).
--ssh
exposes SSH agent socket or keys to the build and can be used with the
RUN --mount=type=ssh
mount.
Example to access Gitlab using an SSH agent socket:
# syntax=docker/dockerfile:1
FROM alpine
RUN apk add --no-cache openssh-client
RUN mkdir -p -m 0700 ~/.ssh && ssh-keyscan gitlab.com >> ~/.ssh/known_hosts
RUN --mount=type=ssh ssh -q -T git@gitlab.com 2>&1 | tee /hello
# "Welcome to GitLab, @GITLAB_USERNAME_ASSOCIATED_WITH_SSHKEY" should be printed here
# with the type of build progress is defined as `plain`.
$ eval $(ssh-agent)
$ ssh-add ~/.ssh/id_rsa
(Input your passphrase here)
$ docker buildx build --ssh default=$SSH_AUTH_SOCK .
--ulimit
is specified with a soft and hard limit as such:
<type>=<soft limit>[:<hard limit>]
, for example:
$ docker buildx build --ulimit nofile=1024:1024 .
Note
If you don't provide a
hard limit
, thesoft limit
is used for both values. If noulimits
are set, they're inherited from the defaultulimits
set on the daemon.