annuaire recherche
Compose About versions and upgrading (Compose) ASP.NET Core + SQL Server on Linux (Compose) CLI environment variables (Compose) Command-line completion (Compose) Compose(组成) Compose command-line reference(组合命令行参考) Control startup order (Compose) Django and PostgreSQL (Compose) Docker stacks and distributed application bundles (Compose) docker-compose build(docker-compose构建) docker-compose bundle docker-compose config docker-compose create docker-compose down docker-compose events docker-compose exec docker-compose help docker-compose images docker-compose kill docker-compose logs docker-compose pause docker-compose port docker-compose ps docker-compose pull docker-compose push docker-compose restart docker-compose rm docker-compose run docker-compose scale docker-compose start docker-compose stop docker-compose top docker-compose unpause docker-compose up Environment file (Compose) Environment variables in Compose Extend services in Compose Frequently asked questions (Compose) Getting started (Compose) Install Compose Link environment variables (deprecated) (Compose) Networking in Compose Overview of Docker Compose Overview of docker-compose CLI Quickstart: Compose and WordPress Rails and PostgreSQL (Compose) Sample apps with Compose Using Compose in production Using Compose with Swarm Engine .NET Core application (Engine) About images, containers, and storage drivers (Engine) Add nodes to the swarm (Engine) Apply custom metadata (Engine) Apply rolling updates (Engine) apt-cacher-ng Best practices for writing Dockerfiles (Engine) Binaries (Engine) Bind container ports to the host (Engine) Breaking changes (Engine) Build your own bridge (Engine) Configure container DNS (Engine) Configure container DNS in user-defined networks (Engine) CouchDB (Engine) Create a base image (Engine) Create a swarm (Engine) Customize the docker0 bridge (Engine) Debian (Engine) Default bridge network Delete the service (Engine) Deploy a service (Engine) Deploy services to a swarm (Engine) Deprecated Engine features Docker container networking (Engine) Docker overview (Engine) Docker run reference (Engine) Dockerfile reference (Engine) Dockerize an application Drain a node (Engine) Engine FAQ (Engine) Fedora (Engine) Get started (Engine) Get started with macvlan network driver (Engine) Get started with multi-host networking (Engine) How nodes work (Engine) How services work (Engine) Image management (Engine) Inspect the service (Engine) Install Docker (Engine) IPv6 with Docker (Engine) Join nodes to a swarm (Engine) Legacy container links (Engine) Lock your swarm (Engine) Manage nodes in a swarm (Engine) Manage sensitive data with Docker secrets (Engine) Manage swarm security with PKI (Engine) Manage swarm service networks (Engine) Migrate to Engine 1.10 Optional Linux post-installation steps (Engine) Overview (Engine) PostgreSQL (Engine) Raft consensus in swarm mode (Engine) Riak (Engine) Run Docker Engine in swarm mode Scale the service (Engine) SDKs (Engine) Select a storage driver (Engine) Set up for the tutorial (Engine) SSHd (Engine) Storage driver overview (Engine) Store service configuration data (Engine) Swarm administration guide (Engine) Swarm mode key concepts (Engine) Swarm mode overlay network security model (Engine) Swarm mode overview (Engine) Understand container communication (Engine) Use multi-stage builds (Engine) Use swarm mode routing mesh (Engine) Use the AUFS storage driver (Engine) Use the Btrfs storage driver (Engine) Use the Device mapper storage driver (Engine) Use the OverlayFS storage driver (Engine) Use the VFS storage driver (Engine) Use the ZFS storage driver (Engine) Engine: Admin Guide Amazon CloudWatch logs logging driver (Engine) Bind mounts (Engine) Collect Docker metrics with Prometheus (Engine) Configuring and running Docker (Engine) Configuring logging drivers (Engine) Control and configure Docker with systemd (Engine) ETW logging driver (Engine) Fluentd logging driver (Engine) Format command and log output (Engine) Google Cloud logging driver (Engine) Graylog Extended Format (GELF) logging driver (Engine) Journald logging driver (Engine) JSON File logging driver (Engine) Keep containers alive during daemon downtime (Engine) Limit a container's resources (Engine) Link via an ambassador container (Engine) Log tags for logging driver (Engine) Logentries logging driver (Engine) PowerShell DSC usage (Engine) Prune unused Docker objects (Engine) Run multiple services in a container (Engine) Runtime metrics (Engine) Splunk logging driver (Engine) Start containers automatically (Engine) Storage overview (Engine) Syslog logging driver (Engine) tmpfs mounts Troubleshoot volume problems (Engine) Use a logging driver plugin (Engine) Using Ansible (Engine) Using Chef (Engine) Using Puppet (Engine) View a container's logs (Engine) Volumes (Engine) Engine: CLI Daemon CLI reference (dockerd) (Engine) docker docker attach docker build docker checkpoint docker checkpoint create docker checkpoint ls docker checkpoint rm docker commit docker config docker config create docker config inspect docker config ls docker config rm docker container docker container attach docker container commit docker container cp docker container create docker container diff docker container exec docker container export docker container inspect docker container kill docker container logs docker container ls docker container pause docker container port docker container prune docker container rename docker container restart docker container rm docker container run docker container start docker container stats docker container stop docker container top docker container unpause docker container update docker container wait docker cp docker create docker deploy docker diff docker events docker exec docker export docker history docker image docker image build docker image history docker image import docker image inspect docker image load docker image ls docker image prune docker image pull docker image push docker image rm docker image save docker image tag docker images docker import docker info docker inspect docker kill docker load docker login docker logout docker logs docker network docker network connect docker network create docker network disconnect docker network inspect docker network ls docker network prune docker network rm docker node docker node demote docker node inspect docker node ls docker node promote docker node ps docker node rm docker node update docker pause docker plugin docker plugin create docker plugin disable docker plugin enable docker plugin inspect docker plugin install docker plugin ls docker plugin push docker plugin rm docker plugin set docker plugin upgrade docker port docker ps docker pull docker push docker rename docker restart docker rm docker rmi docker run docker save docker search docker secret docker secret create docker secret inspect docker secret ls docker secret rm docker service docker service create docker service inspect docker service logs docker service ls docker service ps docker service rm docker service scale docker service update docker stack docker stack deploy docker stack ls docker stack ps docker stack rm docker stack services docker start docker stats docker stop docker swarm docker swarm ca docker swarm init docker swarm join docker swarm join-token docker swarm leave docker swarm unlock docker swarm unlock-key docker swarm update docker system docker system df docker system events docker system info docker system prune docker tag docker top docker unpause docker update docker version docker volume docker volume create docker volume inspect docker volume ls docker volume prune docker volume rm docker wait Use the Docker command line (Engine) Engine: Extend Access authorization plugin (Engine) Docker log driver plugins Docker network driver plugins (Engine) Extending Engine with plugins Managed plugin system (Engine) Plugin configuration (Engine) Plugins API (Engine) Volume plugins (Engine) Engine: Security AppArmor security profiles for Docker (Engine) Automation with content trust (Engine) Content trust in Docker (Engine) Delegations for content trust (Engine) Deploying Notary (Engine) Docker security (Engine) Docker security non-events (Engine) Isolate containers with a user namespace (Engine) Manage keys for content trust (Engine) Play in a content trust sandbox (Engine) Protect the Docker daemon socket (Engine) Seccomp security profiles for Docker (Engine) Secure Engine Use trusted images Using certificates for repository client verification (Engine) Engine: Tutorials Engine tutorials Network containers (Engine) Get Started Part 1: Orientation Part 2: Containers Part 3: Services Part 4: Swarms Part 5: Stacks Part 6: Deploy your app Machine Amazon Web Services (Machine) Digital Ocean (Machine) docker-machine active docker-machine config docker-machine create docker-machine env docker-machine help docker-machine inspect docker-machine ip docker-machine kill docker-machine ls docker-machine provision docker-machine regenerate-certs docker-machine restart docker-machine rm docker-machine scp docker-machine ssh docker-machine start docker-machine status docker-machine stop docker-machine upgrade docker-machine url Driver options and operating system defaults (Machine) Drivers overview (Machine) Exoscale (Machine) Generic (Machine) Get started with a local VM (Machine) Google Compute Engine (Machine) IBM Softlayer (Machine) Install Machine Machine Machine CLI overview Machine command-line completion Machine concepts and help Machine overview Microsoft Azure (Machine) Microsoft Hyper-V (Machine) Migrate from Boot2Docker to Machine OpenStack (Machine) Oracle VirtualBox (Machine) Provision AWS EC2 instances (Machine) Provision Digital Ocean Droplets (Machine) Provision hosts in the cloud (Machine) Rackspace (Machine) VMware Fusion (Machine) VMware vCloud Air (Machine) VMware vSphere (Machine) Notary Client configuration (Notary) Common Server and signer configurations (Notary) Getting started with Notary Notary changelog Notary configuration files Running a Notary service Server configuration (Notary) Signer configuration (Notary) Understand the service architecture (Notary) Use the Notary client
personnages

描述

列出网络

用法

docker network ls [OPTIONS]

选项

名称,简写

默认

描述

--filter, -f


提供过滤器值(例如'driver = bridge')

--format


使用Go模板的pretty-print网络

--no-trunc

false

不要截断输出

--quiet, -q

false

只显示网络ID

父命令

命令

描述

docker网络

管理网络

相关命令

命令

描述

docker network connect

将容器连接到网络

docker network create

创建一个网络

docker network disconnect

从网络断开容器

docker network inspect

显示一个或多个网络的详细信息

docker network ls

列出网络

docker network prune

删除所有未使用的网络

docker network rm

删除一个或多个网络

扩展描述

列出引擎daemon知道的所有网络。这包括跨越群集中多个主机的网络。

实例

列出所有网络

$ sudo docker network ls
NETWORK ID          NAME                DRIVER          SCOPE
7fca4eb8c647        bridge              bridge          local
9f904ee27bf5        none                null            local
cf03ee007fb4        host                host            local
78b03ee04fc4        multi-host          overlay         swarm

使用--no-trunc选项显示完整的网络ID:

$ docker network ls --no-trunc
NETWORK ID                                                         NAME                DRIVER           SCOPE
18a2866682b85619a026c81b98a5e375bd33e1b0936a26cc497c283d27bae9b3   none                null             local
c288470c46f6c8949c5f7e5099b5b7947b07eabe8d9a27d79a9cbf111adcbf47   host                host             local
7b369448dccbf865d397c8d2be0cda7cf7edc6b0945f77d2529912ae917a0185   bridge              bridge           local
95e74588f40db048e86320c6526440c504650a1ff3e9f7d60a497c4d2163e5bd   foo                 bridge           local
63d1ff1f77b07ca51070a8c227e962238358bd310bde1529cf62e6c307ade161   dev                 bridge           local

过滤

过滤标志(-f--filter)格式是一key=value对。如果有多个过滤器,则传递多个标志(例如--filter "foo=bar" --filter "bif=baz")。多个过滤器标志被组合为一个OR过滤器。例如,-f type=custom -f type=builtin返回两者custombuiltin网络。

目前支持的过滤器是:

  • driver

  • id (network’s id)

  • label (label=<key> or label=<key>=<value>)

  • name (network’s name)

  • scope (swarm|global|local)

  • type (custom|builtin)

Driver

driver过滤器根据其驱动程序匹配网络。

以下示例将网络与bridge驱动程序进行匹配:

$ docker network ls --filter driver=bridge
NETWORK ID          NAME                DRIVER            SCOPE
db9db329f835        test1               bridge            local
f6e212da9dfd        test2               bridge            local

ID

id过滤器在网络的ID的全部或部分匹配。

以下过滤器匹配所有包含该63d1ff1f77b0...字符串的ID的网络。

$ docker network ls --filter id=63d1ff1f77b07ca51070a8c227e962238358bd310bde1529cf62e6c307ade161
NETWORK ID          NAME                DRIVER           SCOPE
63d1ff1f77b0        dev                 bridge           local

您还可以筛选ID中的子字符串,如下所示:

$ docker network ls --filter id=95e74588f40d
NETWORK ID          NAME                DRIVER          SCOPE
95e74588f40d        foo                 bridge          local

$ docker network ls --filter id=95e
NETWORK ID          NAME                DRIVER          SCOPE
95e74588f40d        foo                 bridge          local

标签

label过滤器匹配基础上的存在的网络label单独或label和值。

以下过滤器可以将网络与usage标签进行匹配,无论其值如何。

$ docker network ls -f "label=usage"NETWORK ID          NAME                DRIVER         SCOPE
db9db329f835        test1               bridge         local
f6e212da9dfd        test2               bridge         local

以下过滤器将匹配usage具有prod值的标签的网络。

$ docker network ls -f "label=usage=prod"NETWORK ID          NAME                DRIVER        SCOPE
f6e212da9dfd        test2               bridge        local

名称

name过滤器上的网络名称的全部或部分匹配。

以下过滤器匹配所有包含foobar字符串名称的网络。

$ docker network ls --filter name=foobar
NETWORK ID          NAME                DRIVER       SCOPE
06e7eef0a170        foobar              bridge       local

您也可以在名称中筛选子字符串,如下所示:

$ docker network ls --filter name=foo
NETWORK ID          NAME                DRIVER       SCOPE
95e74588f40d        foo                 bridge       local
06e7eef0a170        foobar              bridge       local

范围

scope过滤器根据其范围匹配网络。

下面的示例将网络与swarm范围:

$ docker network ls --filter scope=swarm
NETWORK ID          NAME                DRIVER              SCOPE
xbtm0v4f1lfh        ingress             overlay             swarm
ic6r88twuu92        swarmnet            overlay             swarm

下面的示例将网络与local范围:

$ docker network ls --filter scope=local
NETWORK ID          NAME                DRIVER              SCOPE
e85227439ac7        bridge              bridge              local
0ca0e19443ed        host                host                local
ca13cc149a36        localnet            bridge              local
f9e115d2de35        none                null                local

类型

type过滤器支持两个值; builtin显示预定义的网络(bridgenonehost),而custom显示用户定义的网络。

以下过滤器匹配所有用户定义的网络:

$ docker network ls --filter type=custom
NETWORK ID          NAME                DRIVER       SCOPE
95e74588f40d        foo                 bridge       local  
63d1ff1f77b0        dev                 bridge       local

通过拥有这个标志,它可以批量清理。例如,使用此过滤器删除所有用户定义的网络:

$ docker network rm `docker network ls --filter type=custom -q`

尝试删除已连接容器的网络时会发出警告。

格式化

格式化选项(--format)使用Go模板打印网络输出。

下面列出了Go模板的有效占位符:

占位符

描述

.ID

网络ID

.Name

网络名字

.Driver

网络驱动

.Scope

网络范围(本地,全球)

.IPv6

是否在网络上启用IPv6。

.Internal

网络是否是内部的。

.Labels

所有分配给网络的标签。

.Label

此网络的特定标签的值。例如{{.Label“project.version”}}

.CreatedAt

网络创建的时间

当使用--format选项时,network ls命令将完全按照模板声明输出数据,或者在使用table指令时也包含列标题。

下面的示例使用的模板没有报头,并输出IDDriver通过对所有网络冒号分隔的条目:

$ docker network ls --format "{{.ID}}: {{.Driver}}"afaaab448eb2: bridge
d1584f8dc718: host
391df270dc66: null
Article précédent: Article suivant: