To work with MikoPBX in a container, you need to install Docker and Docker Compose following the instructions
Docker compose launch option
Here is an example of a docker-compose.yml file that can be used to manage your MikoPBX container via Docker Compose:
docker-compose.yml
services:mikopbx:container_name:"mikopbx"image:"ghcr.io/mikopbx/mikopbx-x86-64"network_mode:"host"cap_add: - NET_ADMINentrypoint:"/sbin/docker-entrypoint"hostname:"mikopbx-in-a-docker"volumes: - /var/spool/mikopbx/cf:/cf - /var/spool/mikopbx/storage:/storagetty:trueenvironment: - ID_WWW_USER=${ID_WWW_USER} - ID_WWW_GROUP=${ID_WWW_GROUP}# Change the station name through environment variables - PBX_NAME=MikoPBX-in-Docker# Change the default SSH port to 23 - SSH_PORT=23# Change the default WEB port to 8080 - WEB_PORT=8080# Change the default WEB HTTPS port to 8443 - WEB_HTTPS_PORT=8443
Save the contents into a file named docker-compose.yml, make the necessary adjustments, and launch MikoPBX using the command:
Mode Without Network Isolation Between Host and Containers (–net=host)
It is also possible to organize the launch of multiple MikoPBX containers on a single host. However, you need to consider Docker's port handling features. If the –net=host mode is not used, it will lead to a high load on the host system's CPU because Docker creates a separate rule in Iptables for each allocated port.
With the –net=host mode enabled, you need to manually monitor the distribution of available ports between the running containers and built-in applications. For instance, to run two MikoPBX containers on one host, you can use the following configuration file:
There is an option to launch MikoPBX containers in the –net=bridge mode. However, as mentioned above, to use this mode you either need to significantly limit the range of RTP ports or open them on the host machine without using Docker's capabilities.
For this, you will need to write a small script to determine the name of the current bridge interface and the IP address of each container. After running Docker Compose, you will then need to add the necessary iptables rules for the RTP port range as follows:
start-multiple-mikopbx.sh
#!/bin/bashCOMPOSE_FILE="$1"if [ -z"$COMPOSE_FILE" ]; thenecho"Usage: $0 path/to/docker-compose.yaml"exit1fi# We will obtain the user ID for running the containerexport ID_WWW_USER=$(id-uwww-user)export ID_WWW_GROUP=$(id-gwww-user)# Stop current containers if they are runningdockercompose-f"$COMPOSE_FILE"down# Remove themdockercompose-f"$COMPOSE_FILE"rm# Start containers in the backgrounddockercompose-f"$COMPOSE_FILE"up-dsleep60# Create a label for IPTABLES rulesIPTABLES_COMMENT="mikopbx-custom-rule"# Determine the project identifier, used when creating a network bridgeproject_prefix=$(cat"$COMPOSE_FILE"|yqe'.x-project-name'-)# If the prefix is not set, use a default valueif [ -z"$project_prefix" ]; then project_prefix="default_prefix"fi# Function to get container IP addressfunctionget_container_ip() {dockerinspect-f'{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}'"$1"}# Function to get the name of the bridge interfacefunctionget_bridge_name() {local network_name="$1"local prefix="$2"local network_id=$(dockernetworkinspect"${prefix}_${network_name}"-f'{{.Id}}')if [ -z"$network_id" ]; thenecho"Error: Network ${prefix}_${network_name} not found."return1filocal bridge_name=$(iplinkshowtypebridge|grep-o"br-${network_id:0:12}\b")echo $bridge_name}echo"Delete tagged iptables rules"# Delete all iptables rules tagged with our commentiptables-S|grep"$IPTABLES_COMMENT"|sed's/-A /-D /'|whilereadrule; doecho"Delete rule $rule"iptables $ruledone# Delete all NAT iptables rules tagged with our commentiptables-S-tnat|grep"$IPTABLES_COMMENT"|sed's/-A /-D /'|whilereadrule; doecho"Delete rule $rule"iptables-tnat $ruledone# Parse the docker-compose file and obtain all necessary parameters.echo"Parsing docker-compose file and configuring iptables rules"cat"$COMPOSE_FILE"|yqe'.services[] | select(.environment[] | test("RTP_PORT_FROM")) | {"container_name": .container_name, "environment": .environment, "network": .networks[0]}'-o=json|jq-c'.'|whileread-rservice; do container_name=$(echo $service |jq-r'.container_name') network_name=$(echo $service |jq-r'.network') bridge_name=$(get_bridge_name"$network_name""$project_prefix") container_ip=$(get_container_ip"$container_name") RTP_PORT_FROM=$(echo $service |jq-r'.environment[] | select(contains("RTP_PORT_FROM")) | split("=")[1]') RTP_PORT_TO=$(echo $service |jq-r'.environment[] | select(contains("RTP_PORT_TO")) | split("=")[1]')echo"Configuring iptables for $container_name ($container_ip) on $bridge_name from port $RTP_PORT_FROM to $RTP_PORT_TO"iptables-ADOCKER-tnat!-i"$bridge_name"-pudp-mudp--dport $RTP_PORT_FROM:$RTP_PORT_TO -jDNAT--to-destination $container_ip:$RTP_PORT_FROM-$RTP_PORT_TO -mcomment--comment"$IPTABLES_COMMENT"iptables-ADOCKER-d $container_ip/32!-i"$bridge_name"-o"$bridge_name"-pudp-mudp--dport $RTP_PORT_FROM:$RTP_PORT_TO -jACCEPT-mcomment--comment"$IPTABLES_COMMENT"iptables-APOSTROUTING-tnat-s $container_ip/32-d $container_ip/32-pudp-mudp--dport $RTP_PORT_FROM:$RTP_PORT_TO -jMASQUERADE-mcomment--comment"$IPTABLES_COMMENT"echo"Don't forget to open UDP ports $RTP_PORT_FROM to $RTP_PORT_TO on external firewall if it exists"doneecho"iptables configuration completed successfully."
Let's describe several containers in the docker-compose.yaml file, specify different ports for the web interface, SIP ports, and ranges of RTP ports to ensure they do not overlap.
docker-compose.yaml
services:mikopbx-first:container_name:"mikopbx-first"image:"ghcr.io/mikopbx/mikopbx-x86-64"entrypoint:"/sbin/docker-entrypoint"hostname:"mikopbx-in-docker-first"volumes: - /var/spool/mikopbx/first/cf:/cf - /var/spool/mikopbx/first/storage:/storagetty:truecap_add: - net_adminnetworks: - network-bridge1environment: - ID_WWW_USER=${ID_WWW_USER} - ID_WWW_GROUP=${ID_WWW_GROUP} - PBX_NAME=MikoPBXFirst - RTP_PORT_FROM=10000# UDP range 10000-10800 on host will be directed to the container - RTP_PORT_TO=10800 - WEB_ADMIN_PASSWORD=mikopbx-first-password - ENABLE_USE_NAT=1 - PBX_FIREWALL_ENABLED=1 - PBX_FAIL2BAN_ENABLED=1ports: - "8443:443"# TCP port 8443 on the host is directed to port 443 in the container - "5060:5060/udp"# UDP port 5060 on the host is directed to port 5060 in the containermikopbx-second:container_name:"mikopbx-second"image:"ghcr.io/mikopbx/mikopbx-x86-64"tty:truecap_add: - net_adminnetworks: - network-bridge2entrypoint:"/sbin/docker-entrypoint"hostname:"mikopbx-in-docker-second"volumes: - /var/spool/mikopbx/second/cf:/cf - /var/spool/mikopbx/second/storage:/storageenvironment: - ID_WWW_USER=${ID_WWW_USER} - ID_WWW_GROUP=${ID_WWW_GROUP} - PBX_NAME=MikoPBXSecond - RTP_PORT_FROM=20000# UDP range 20000-20800 on host will be directed to the container - RTP_PORT_TO=20800 - EXTERNAL_SIP_PORT=6060# Inform MikoPBX about its external SIP port - WEB_ADMIN_PASSWORD=mikopbx-second-password - ENABLE_USE_NAT=1 - PBX_FIREWALL_ENABLED=1 - PBX_FAIL2BAN_ENABLED=1ports: - "9443:443"# TCP port 9443 on the host is directed to port 443 in the container - "6060:5060/udp"# UDP port 6060 on the host is directed to port 5060 in the containerx-project-name:mikopbx# This parameter must be presentnetworks:network-bridge1:driver:bridgenetwork-bridge2:driver:bridge
Creating a directory for scripts
mkdir-p/usr/src/mikopbx
Save the start-multiple-mikopbx.sh and docker-compose.yaml files into this folder.
Install the necessary dependencies for the script.
While waiting for the containers to start, check the firewall settings on the host, and if necessary, open the ports specified in our docker-compose.yaml file, specifically:
TCP/UDP ports 5060 and 6060 for SIP
UDP ranges 10000-10800 and 20000-20800 for RTP voice transmission
TCP ports 8443 and 9443 for HTTPS protocol, for web interface operation.
Access each station in turn at the addresses:
https://<host machine IP>:8443
https://<host machine IP>:9443
To access the web interface of the first MikoPBX, use the login admin and the password mikopbx-first-password
To access the web interface of the second MikoPBX, use the login admin and the password mikopbx-second-password
Each machine should have NAT mode enabled, indicating that the container is behind a router in the network interface settings. If the stations will be used within a local network, then in the external IP field, enter the local IP address of the host machine, otherwise its public IP address.
Important note!
One of our containers uses port forwarding from SIP port changing its value from 5060 to 6060.
In this case, for the system to function correctly, you need to add the external value of the SIP port in the NAT settings in the network interfaces section of MikoPBX.
This setting can also be made by setting the corresponding value of the environment variable EXTERNAL_SIP_PORT=6060 in the docker-compose file.
With that, the setup is complete, and you can configure accounts and make calls.
Environment variables for configuring MikoPBX
Below are some of the environment variables that will allow you to adjust the MikoPBX ports and settings used.
SSH_PORT - port for SSH (22)
WEB_PORT - port for the web interface via HTTP protocol (80)
WEB_HTTPS_PORT - port for the web interface via HTTPS protocol (443)
SIP_PORT - port for connecting a SIP client (5060)
TLS_PORT - port for connecting a SIP client with encryption (5061)
RTP_PORT_FROM - beginning of the RTP port range, voice transmission (10000)
RTP_PORT_TO - end of the RTP port range, voice transmission (10800)
IAX_PORT - port for connecting IAX clients (4569)
AMI_PORT - AMI port (5038)
AJAM_PORT - AJAM port used for connecting the telephony panel for 1C (8088)
AJAM_PORT_TLS - AJAM port used for connecting the telephony panel for 1C (8089)
BEANSTALK_PORT - port for the Beanstalkd queue server (4229)
REDIS_PORT - port for the Redis server (6379)
GNATS_PORT - port for the gnatsd server (4223)
ID_WWW_USER - identifier for www-user (can be set with the expression
$(id -u www-user), where www-user is NOT a root user)
ID_WWW_GROUP - group identifier for www-user (can be set with the expression
$(id -g www-user), where www-user is NOT a root group)
WEB_ADMIN_LOGIN - login for Web interface access
WEB_ADMIN_PASSWORD - password for Web interface access
A full list of all possible setting parameters is available in the source code here.