docker-ovs-plugin

command module
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Published: Jan 24, 2017 License: Apache-2.0 Imports: 5 Imported by: 0

README

docker-ovs-plugin

QuickStart Instructions

The quickstart instructions describe how to start the plugin in nat mode. Flat mode is described in the flat mode section.

1. Make sure you are using Docker 1.9 or later

2. You need to modprobe openvswitch on the machine where the Docker Daemon is located

$ docker-machine ssh default "sudo modprobe openvswitch"

3. Create the following docker-compose.yml file

plugin:
  image: gophernet/ovs-plugin
  volumes:
    - /run/docker/plugins:/run/docker/plugins
    - /var/run/docker.sock:/var/run/docker.sock
  net: host
  stdin_open: true
  tty: true
  privileged: true
  command: -d

ovs:
  image: socketplane/openvswitch:2.3.2
  cap_add:
    - NET_ADMIN
  net: host

4. docker-compose up -d

5. Now you are ready to create a new network

$ docker network create -d ovs mynet

6. Test it out!

$ docker run -itd --net=mynet --name=web nginx

$ docker run -it --rm --net=mynet busybox wget -qO- http://web
Flat Mode

There are two generic modes, flat and nat. The default mode is nat since it does not require any orchestration with the network because the address space is hidden behind iptables masquerading.

  • flat is simply an OVS bridge with the container link attached to it. An example would be a Docker host is plugged into a data center port that has a subnet of 192.168.1.0/24. You would start the plugin like so:
$ docker-ovs-plugin --gateway=192.168.1.1 --bridge-subnet=192.168.1.0/24 -mode=flat

You can also add these flags to the command section of your docker-compose.yml

  • Containers now start attached to an OVS bridge. It could be tagged or untagged but either way it is isolated and unable to communicate to anything outside of its bridge domain. In this case, you either add VXLAN tunnels to other bridges of the same bridge domain or add an eth interface to the bridge to allow access to the underlying network when traffic leaves the Docker host. To do so, you simply add the eth interface to the ovs bridge. Neither the bridge nor the eth interface need to have an IP address since traffic from the container is strictly L2. Warning if you are remoted into the physical host make sure you are not using an ethernet interface to attach to the bridge that is also your management interface since the eth interface no longer uses the IP address it had. The IP would need to be migrated to ovsbr-docker0 in this case. Allowing underlying network access to an OVS bridge can be done like so:
ovs-vsctl add-port ovsbr-docker0 eth2

Add an address to ovsbr-docker0 if you want an L3 interface on the L2 domain for the Docker host if you would like one for troubleshooting etc but it isn't required since flat mode cares only about MAC addresses and VLAN IDs like any other L2 domain would.

  • Example of OVS with an ethernet interface bound to it for external access to the container sitting on the same bridge. NAT mode doesn't need the eth interface because IPTables is doing NAT/PAAT instead of bridging all the way through.
$ ovs-vsctl show
e0de2079-66f0-4279-a1c8-46ba0672426e
    Manager "ptcp:6640"
        is_connected: true
    Bridge "ovsbr-docker0"
        Port "ovsbr-docker0"
            Interface "ovsbr-docker0"
                type: internal
        Port "ovs-veth0-d33a9"
            Interface "ovs-veth0-d33a9"
        Port "eth2"
            Interface "eth2"
    ovs_version: "2.3.1"

Flat Mode Note: Hosts will only be able to ping one another unless you add an ethernet interface to the docker-ovsbr0 bridge with something like ovs-vsctl add-port <bridge_name> <port_name>. NAT mode will masquerade around that issue. It is an inherent hastle of bridges that is unavoidable. This is a reason bridgeless implementation gopher-net/ipvlan-docker-plugin and gopher-net/macvlan-docker-plugin can be attractive.

Additional Notes:
  • The argument passed to --default-network the plugin is identified via ovs. More specifically, the socket file that currently defaults to /run/docker/plugins/ovs.sock.
  • The default bridge name in the example is ovsbr-docker0.
  • The bridge name is temporarily hardcoded. That and more will be configurable via flags. (Help us define and code those flags).
  • Add other flags as desired such as --dns=8.8.8.8 for DNS etc.
  • To view the Open vSwitch configuration, use ovs-vsctl show.
  • To view the OVSDB tables, run ovsdb-client dump. All of the mentioned OVS utils are part of the standard binary installations with very well documented man pages.
  • The containers are brought up on a flat bridge. This means there is no NATing occurring. A layer 2 adjacency such as a VLAN or overlay tunnel is required for multi-host communications. If the traffic needs to be routed an external process to act as a gateway (on the TODO list so dig in if interested in multi-host or overlays).
  • Download a quick video demo here.
Hacking and Contributing

Yes!! Please see issues for todos or add todos into issues! Only rule here is no jerks.

Since this plugin uses netlink for L3 IP assignments, a Linux host that can build vishvananda/netlink library is required.

  1. Install Go. OVS as listed above and a kernel >= 3.19.

  2. Install godeps by running go get github.com/tools/godep.

  3. Clone and start the OVS plugin:

    git clone https://github.com/gopher-net/docker-ovs-plugin.git
    cd docker-ovs-plugin/plugin
    # using godep restore will pull down the appropriate go dependencies
    godep restore
    go run main.go
    # or using explicit configuration flags:
    go run main.go -d --gateway=172.18.40.1 --bridge-subnet=172.18.40.0/24 -mode=nat
    
  4. The rest is the same as the Quickstart Section.

Note: If you are new to Go.

  • Go compile times are very fast due to linking being done statically. In order to link the libraries, Go looks for source code in the ~/go/src/ directory.
  • Typically you would clone the project to a directory like so go/src/github.com/gopher-net/docker-ovs-plugin/. Go knows where to look for the root of the go code, binaries and pkgs based on the $GOPATH shell ENV.
  • For example, you would clone to the path /home/<username>/go/src/github.com/gopher-net/docker-ovs-plugin/ and put export GOPATH=/home/<username>/go in wherever you store your persistent ENVs in places like ~/.bashrc, ~/.profile or ~/.bash_profile depending on the OS and system configuration.
Trying it out

If you want to try out some of your changes with your local docker install

  • docker-compose -f dev.yml up -d

This will start Open vSwitch and the plugin running inside a container!

Thanks

Thanks to the guys at Weave for writing their awesome plugin. We borrowed a lot of code from here to make this happen!

Documentation

The Go Gopher

There is no documentation for this package.

Directories

Path Synopsis
Godeps
_workspace/src/github.com/Sirupsen/logrus
Package logrus is a structured logger for Go, completely API compatible with the standard library logger.
Package logrus is a structured logger for Go, completely API compatible with the standard library logger.
_workspace/src/github.com/cenkalti/hub
Package hub provides a simple event dispatcher for publish/subscribe pattern.
Package hub provides a simple event dispatcher for publish/subscribe pattern.
_workspace/src/github.com/cenkalti/rpc2
Package rpc2 provides bi-directional RPC client and server similar to net/rpc.
Package rpc2 provides bi-directional RPC client and server similar to net/rpc.
_workspace/src/github.com/cenkalti/rpc2/jsonrpc
Package jsonrpc implements a JSON-RPC ClientCodec and ServerCodec for the rpc2 package.
Package jsonrpc implements a JSON-RPC ClientCodec and ServerCodec for the rpc2 package.
_workspace/src/github.com/codegangsta/cli
Package cli provides a minimal framework for creating and organizing command line Go applications.
Package cli provides a minimal framework for creating and organizing command line Go applications.
_workspace/src/github.com/docker/docker/pkg/listenbuffer
Package listenbuffer uses the kernel's listening backlog functionality to queue connections, allowing applications to start listening immediately and handle connections later.
Package listenbuffer uses the kernel's listening backlog functionality to queue connections, allowing applications to start listening immediately and handle connections later.
_workspace/src/github.com/docker/docker/pkg/sockets
Package sockets provides helper functions to create and configure Unix or TCP sockets.
Package sockets provides helper functions to create and configure Unix or TCP sockets.
_workspace/src/github.com/docker/docker/pkg/units
Package units provides helper function to parse and print size and time units in human-readable format.
Package units provides helper function to parse and print size and time units in human-readable format.
_workspace/src/github.com/godbus/dbus
Package dbus implements bindings to the D-Bus message bus system.
Package dbus implements bindings to the D-Bus message bus system.
_workspace/src/github.com/godbus/dbus/introspect
Package introspect provides some utilities for dealing with the DBus introspection format.
Package introspect provides some utilities for dealing with the DBus introspection format.
_workspace/src/github.com/godbus/dbus/prop
Package prop provides the Properties struct which can be used to implement org.freedesktop.DBus.Properties.
Package prop provides the Properties struct which can be used to implement org.freedesktop.DBus.Properties.
_workspace/src/github.com/vishvananda/netlink
Package netlink provides a simple library for netlink.
Package netlink provides a simple library for netlink.
_workspace/src/github.com/vishvananda/netlink/nl
Package nl has low level primitives for making Netlink calls.
Package nl has low level primitives for making Netlink calls.

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