Docker image for the Avahi mDNS/DNS-SD daemon. Built on Alpine Linux to make the image as small as possible. Highly configurable through environment variables to support most usecases which need an Avahi Daemon.
Basic usage consists of running the docker container with the appropriate environment variables and volumes to achieve your desired behaviour.
docker run flungo/avahiEnvironment variables are made available for all of the options of avahi-daemon.conf. The variable names are in the format <SECTION>_<OPTION> where <SECTION> is the capitalised section name from the configuration file and <OPTION> is the capitalised option name with - replaced by _. The table below outlines the available options:
| Section | Option | Variable |
|---|---|---|
server |
host-name |
SERVER_HOST_NAME |
server |
domain-name |
SERVER_DOMAIN_NAME |
server |
browse-domains |
SERVER_BROWSE_DOMAINS |
server |
use-ipv4 |
SERVER_USE_IPV4 |
server |
use-ipv6 |
SERVER_USE_IPV6 |
server |
allow-interfaces |
SERVER_ALLOW_INTERFACES |
server |
deny-interfaces |
SERVER_DENY_INTERFACES |
server |
check-response-ttl |
SERVER_CHECK_RESPONSE_TTL |
server |
use-iff-running |
SERVER_USE_IFF_RUNNING |
server |
enable-dbus |
SERVER_ENABLE_DBUS |
server |
disallow-other-stacks |
SERVER_DISALLOW_OTHER_STACKS |
server |
allow-point-to-point |
SERVER_ALLOW_POINT_TO_POINT |
server |
cache-entries-max |
SERVER_CACHE_ENTRIES_MAX |
server |
clients-max |
SERVER_CLIENTS_MAX |
server |
objects-per-client-max |
SERVER_OBJECTS_PER_CLIENT_MAX |
server |
entries-per-entry-group-max |
SERVER_ENTRIES_PER_ENTRY_GROUP_MAX |
server |
ratelimit-interval-usec |
SERVER_RATELIMIT_INTERVAL_USEC |
server |
ratelimit-burst |
SERVER_RATELIMIT_BURST |
wide-area |
enable-wide-area |
WIDE_AREA_ENABLE_WIDE_AREA |
publish |
disable-publishing |
PUBLISH_DISABLE_PUBLISHING |
publish |
disable-user-service-publishing |
PUBLISH_DISABLE_USER_SERVICE_PUBLISHING |
publish |
add-service-cookie |
PUBLISH_ADD_SERVICE_COOKIE |
publish |
publish-addresses |
PUBLISH_PUBLISH_ADDRESSES |
publish |
publish-hinfo |
PUBLISH_PUBLISH_HINFO |
publish |
publish-workstation |
PUBLISH_PUBLISH_WORKSTATION |
publish |
publish-domain |
PUBLISH_PUBLISH_DOMAIN |
publish |
publish-dns-servers |
PUBLISH_PUBLISH_DNS_SERVERS |
publish |
publish-resolv-conf-dns-servers |
PUBLISH_PUBLISH_RESOLV_CONF_DNS_SERVERS |
publish |
publish-aaaa-on-ipv4 |
PUBLISH_PUBLISH_AAAA_ON_IPV4 |
publish |
publish-a-on-ipv6 |
PUBLISH_PUBLISH_A_ON_IPV6 |
reflector |
enable-reflector |
REFLECTOR_ENABLE_REFLECTOR |
reflector |
reflect-ipv |
REFLECTOR_REFLECT_IPV |
reflector |
reflect-filters |
REFLECTOR_REFLECT_FILTERS |
rlimits |
rlimit-as |
RLIMITS_RLIMIT_AS |
rlimits |
rlimit-core |
RLIMITS_RLIMIT_CORE |
rlimits |
rlimit-data |
RLIMITS_RLIMIT_DATA |
rlimits |
rlimit-fsize |
RLIMITS_RLIMIT_FSIZE |
rlimits |
rlimit-nofile |
RLIMITS_RLIMIT_NOFILE |
rlimits |
rlimit-stack |
RLIMITS_RLIMIT_STACK |
rlimits |
rlimit-nproc |
RLIMITS_RLIMIT_NPROC |
If you find an option you require is missing, report this or make a PR adding that feature.
This sections contains several example usages for the. If you use this container for a common scenrio or if any of the examples can be improved, please let me know the configurtion you have used so that I can add it here or submit a PR adding it as an example.
To reflect mDNS broadcasts between two docker networks (net1 and net2 in the example given) the reflector should be enabled by setting REFLECTOR_ENABLE_REFLECTOR=yes.
# Create a container named mdns-reflector attached to net1
docker run -d --name=mdns-reflector \
--network net1 \
-e REFLECTOR_ENABLE_REFLECTOR=yes \
flungo/avahi
# Attach the container to the net2 network
docker network connect net2 mdns-reflectorSee Connecting to a phyiscal network to see how you can connect the container to a physical network - for example if you wanted to reflect mDNS between two WiFi VLANs).
It is common to want to use this container with one or more physical networks (e.g. as a reflector between WiFi network), in order to do this a docker network can be created using the macvlan driver. The following example creates a macvlan network named physical connected to the eno1 interface with subnet 10.0.0.0/24 and gateway 10.0.0.1.
docker network create --driver macvlan --subnet 10.0.0.0/24 --gateway 10.0.0.1 --opt parent=eno1 physicalYou can also connect to a VLAN on a physical interface by suffixing the parent with . and the VLAN ID (e.g. --opt parent=eno1.123 for VLAN 123 on the eno1 interface. The sub-interface does not need to exist before running the command to create the network as the driver will automatically create this.
To ensure that an IP conflict does not occur, you should specify an available IP address on your physical network when attaching the network to your container. Assuming that your container is called avahi and 10.0.0.10 is an available IP in that network, you can connect this network as follows:
docker network connect physical avahi --ip 10.0.0.10
