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
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docker-compose events
docker-compose exec
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docker-compose images
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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)
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Configure container DNS in user-defined networks (Engine)
CouchDB (Engine)
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Customize the docker0 bridge (Engine)
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Default bridge network
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Deprecated Engine features
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Dockerize an application
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Engine
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Install Docker (Engine)
IPv6 with Docker (Engine)
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Lock your swarm (Engine)
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Manage swarm service networks (Engine)
Migrate to Engine 1.10
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Overview (Engine)
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Run Docker Engine in swarm mode
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Use multi-stage builds (Engine)
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Use the Btrfs storage driver (Engine)
Use the Device mapper storage driver (Engine)
Use the OverlayFS storage driver (Engine)
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Use the ZFS storage driver (Engine)
Engine: Admin Guide
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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)
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PowerShell DSC usage (Engine)
Prune unused Docker objects (Engine)
Run multiple services in a container (Engine)
Runtime metrics (Engine)
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Start containers automatically (Engine)
Storage overview (Engine)
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tmpfs mounts
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Use a logging driver plugin (Engine)
Using Ansible (Engine)
Using Chef (Engine)
Using Puppet (Engine)
View a container's logs (Engine)
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Engine: CLI
Daemon CLI reference (dockerd) (Engine)
docker
docker attach
docker build
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docker service
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docker swarm ca
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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
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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
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本教程将向您介绍Docker Engine Swarm模式的功能。在开始之前,您可能想熟悉一下关键概念。
本教程将指导您完成以下活动:
以群集模式初始化Docker引擎群集
向群中添加节点
将应用服务部署到群中
一旦你运行了全部,管理群
本教程使用在终端窗口的命令行中输入的Docker Engine CLI命令。您应该能够在网络机器上安装Docker,并且能够在您选择的外壳中运行命令。
如果您是Docker的全新用户,请参阅关于Docker Engine。
设置
要运行本教程,您需要以下内容:
安装了Docker的三台Linux主机,它们可以通过网络进行通信
Docker引擎1.12或更高版本安装
管理器机器的IP地址
打开主机之间的端口
三台联网主机
本教程需要三台安装了Docker并可通过网络进行通信的Linux主机。这些可以是物理机器,虚拟机,Amazon EC2实例或以其他方式托管。您甚至可以使用Linux,Mac或Windows主机上的Docker Machine。检查入门 - Swarms为主机设置一个可能的设置。
其中一台机器将成为经理(称为manager1),其中两人将成为工人(worker1和worker2)。
注意:您也可以按照许多教程步骤来测试单节点群,在这种情况下,您只需要一台主机。多节点命令不起作用,但您可以初始化群集,创建服务并对其进行扩展。
Docker引擎1.12或更新版本
本教程需要在每台主机上安装Docker Engine 1.12或更高版本。安装Docker Engine并验证Docker Engine守护进程正在每台机器上运行。您可以按照以下方式获取最新版本的Docker Engine:
在Linux机器上安装Docker引擎
Mac使用Docker或Windows使用Docker
在Linux机器上安装Docker引擎
如果您使用基于Linux的物理计算机或云提供的计算机作为主机,只需按照适用于您的平台的Linux安装说明进行操作即可。旋转三台机器,你就准备好了。您可以在Linux机器上测试单节点和多节点swarm场景。
Mac使用Docker或Windows使用Docker
或者,在一台计算机上安装最新的Docker for Mac或Docker for Windows应用程序。您可以从这台计算机上测试单节点和多节点群集,但是您需要使用Docker Machine来测试多节点场景。
您可以使用Docker for Mac或Windows来测试群集模式的单节点功能,包括使用单节点初始化群集,创建服务以及扩展服务。Hyperkit(Mac)或Hyper-V(Windows)上的Docker“Moby”将作为单个群集节点。
目前,您无法单独使用Docker for Mac或Windows来测试多节点群。但是,您可以使用随附的Docker Machine版本创建swarm节点(请参阅Docker Machine入门和本地VM),然后按照教程了解所有多节点功能。对于这种情况,您从一个码头工人的Mac或码头的Windows主机的命令,但码头工人主机本身不参与群(即,它不会
manager1,worker1或worker2在我们的例子)。创建节点后,可以运行Mac终端或Windows PowerShell中显示的所有swarm命令,其中Docker for Mac或Docker for Windows正在运行。
管理机的IP地址
IP地址必须分配给主机操作系统可用的网络接口。群中的所有节点必须能够通过IP地址访问管理器。
由于其他节点通过其IP地址联系管理器节点,因此应使用固定的IP地址。
您可以ifconfig在Linux或macOS上运行以查看可用网络接口的列表。
如果您使用的是Docker Machine,则可以使用docker-machine ls或者docker-machine ip <MACHINE-NAME>- 例如,来获取管理器IP docker-machine ip manager1。
本教程使用manager1:192.168.99.100。
在主机之间打开协议和端口
以下端口必须可用。在某些系统上,这些端口默认打开。
TCP端口2377用于集群管理通信
tcp和UDP端口7946用于节点间的通信
UDP端口4789用于覆盖网络流量
如果您计划使用encryption(--opt encrypted)创建覆盖网络,则还需要确保允许ip协议50(ESP)通信。