github.com/tompao/docker@v1.9.1/docs/userguide/networking/default_network/container-communication.md

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title = "Understand container communication"
description = "Understand container communication"
keywords = ["docker, container, communication, network"]
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# Understand container communication

The information in this section explains container communication within the
Docker default bridge. This is a `bridge` network named `bridge` created
automatically when you install Docker.  

**Note**: The [Docker networks feature](../dockernetworks.md) allows you to create user-defined networks in addition to the default bridge network.

## Communicating to the outside world

Whether a container can talk to the world is governed by two factors. The first
factor is whether the host machine is forwarding its IP packets. The second is
whether the hosts `iptables` allow this particular connections

IP packet forwarding is governed by the `ip_forward` system parameter.  Packets
can only pass between containers if this parameter is `1`.  Usually you will
simply leave the Docker server at its default setting `--ip-forward=true` and
Docker will go set `ip_forward` to `1` for you when the server starts up. If you
set `--ip-forward=false` and your system's kernel has it enabled, the
`--ip-forward=false` option has no effect. To check the setting on your kernel
or to turn it on manually:
```
  $ sysctl net.ipv4.conf.all.forwarding
  net.ipv4.conf.all.forwarding = 0
  $ sysctl net.ipv4.conf.all.forwarding=1
  $ sysctl net.ipv4.conf.all.forwarding
  net.ipv4.conf.all.forwarding = 1
```

Many using Docker will want `ip_forward` to be on, to at least make
communication _possible_ between containers and the wider world. May also be
needed for inter-container communication if you are in a multiple bridge setup.

Docker will   never make changes to your system `iptables` rules if you set
`--iptables=false` when the daemon starts.  Otherwise the Docker server will
append forwarding rules to the `DOCKER` filter chain.

Docker will not delete or modify any pre-existing rules from the `DOCKER` filter
chain. This allows the user to create in advance any rules required to further
restrict access to the containers.

Docker's forward rules permit all external source IPs by default. To allow only
a specific IP or network to access the containers, insert a negated rule at the
top of the `DOCKER` filter chain. For example, to restrict external access such
that _only_ source IP 8.8.8.8 can access the containers, the following rule
could be added:

```
$ iptables -I DOCKER -i ext_if ! -s 8.8.8.8 -j DROP
```

##  Communication between containers

Whether two containers can communicate is governed, at the operating system level, by two factors.

- Does the network topology even connect the containers' network interfaces?  By default Docker will attach all containers to a single `docker0` bridge, providing a path for packets to travel between them.  See the later sections of this document for other possible topologies.

- Do your `iptables` allow this particular connection? Docker will never make changes to your system `iptables` rules if you set `--iptables=false` when the daemon starts.  Otherwise the Docker server will add a default rule to the `FORWARD` chain with a blanket `ACCEPT` policy if you retain the default `--icc=true`, or else will set the policy to `DROP` if `--icc=false`.

It is a strategic question whether to leave `--icc=true` or change it to
`--icc=false` so that `iptables` will protect other containers -- and the main
host -- from having arbitrary ports probed or accessed by a container that gets
compromised.

If you choose the most secure setting of `--icc=false`, then how can containers
communicate in those cases where you _want_ them to provide each other services?
The answer is the `--link=CONTAINER_NAME_or_ID:ALIAS` option, which was
mentioned in the previous section because of its effect upon name services.  If
the Docker daemon is running with both `--icc=false` and `--iptables=true`
then, when it sees `docker run` invoked with the `--link=` option, the Docker
server will insert a pair of `iptables` `ACCEPT` rules so that the new
container can connect to the ports exposed by the other container -- the ports
that it mentioned in the `EXPOSE` lines of its `Dockerfile`.  

> **Note**: The value `CONTAINER_NAME` in `--link=` must either be an
auto-assigned Docker name like `stupefied_pare` or else the name you assigned
with `--name=` when you ran `docker run`.  It cannot be a hostname, which Docker
will not recognize in the context of the `--link=` option.

You can run the `iptables` command on your Docker host to see whether the `FORWARD` chain has a default policy of `ACCEPT` or `DROP`:

```
# When --icc=false, you should see a DROP rule:

$ sudo iptables -L -n
...
Chain FORWARD (policy ACCEPT)
target     prot opt source               destination
DOCKER     all  --  0.0.0.0/0            0.0.0.0/0
DROP       all  --  0.0.0.0/0            0.0.0.0/0
...

# When a --link= has been created under --icc=false,
# you should see port-specific ACCEPT rules overriding
# the subsequent DROP policy for all other packets:

$ sudo iptables -L -n
...
Chain FORWARD (policy ACCEPT)
target     prot opt source               destination
DOCKER     all  --  0.0.0.0/0            0.0.0.0/0
DROP       all  --  0.0.0.0/0            0.0.0.0/0

Chain DOCKER (1 references)
target     prot opt source               destination
ACCEPT     tcp  --  172.17.0.2           172.17.0.3           tcp spt:80
ACCEPT     tcp  --  172.17.0.3           172.17.0.2           tcp dpt:80
```

> **Note**: Docker is careful that its host-wide `iptables` rules fully expose
containers to each other's raw IP addresses, so connections from one container
to another should always appear to be originating from the first container's own
IP address.