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THIS PROJECT HAS MOVED

https://github.com/equalitie/dcomms-docker-swarm

dComms

Decentralized communications that work with or without the Internet

Prerequisites

  • A pre-existing docker swarm already setup and configured is necessary for orchestration of this software service stack.
  • A domain to use for production.
  • A directory named /var/www/dcomms created on the hosts of all docker nodes for the website document root.
  • A subdomain with the A record pointed to the IP address of a node for automatic issuance of a Let's Encrypt SSL certificate.
  • A subdomain with the MX record pointed to the A record of a node for DeltaChat mail delivery.
  • (Optional) A Tor hidden service installed, and listening on port 80 and 8448.

A version of this repo built on Docker Compose, and with several other extra features, can be found here https://github.com/aphick/dcomms-compose

Introduction

dcomms is a bundle of decentralized communication software running as services in the form of a docker swarm stack.

It is used to rapidly deploy and orchestrate decentralized, federated, communications platforms such as Matrix and DeltaChat across multiple hosts.

Let's Encrypt TLS certificates are automatically issued and managed by the Caddy container across all services.

Service containers

The dcomms stack leverages single node, non-replicated containers of the following services built from the latest images below:

Ports

CENO client: 28729/udp
Caddy (webserver): 443/tcp, 80/tcp, 8448/tcp
DeltaChat (postfix/dovecot): 587/tcp 143/tcp

  • Note: dcomms leverages docker host networking and therefore we recommend denying access to all other unnecessary ports at the host level.

Installation

Point the following A records to the docker worker you wish to use for deployment:

matrix.server1.example.org -> IP of worker node
chat.server1.example.org -> IP of worker node
server1.example.org -> IP of worker node

Point the following MX record to the A record:

server1.example.org -> server1.example.org

Clone or download this repository. Review ./docker-compose.yml and make any changes that may be required for your production environment.

Label

Use labels to specify which docker nodes services should run on

Specify a docker worker node to act as a CENO bridge

  • Obtain the node ID of a worker. From the manager node of the swarm type:
docker node ls
  • Add the node.labels.dwebstackrole label to that node:
docker node update --label-add=dwebstackrole=bridge <nodeid>

Specify a docker worker node to host all other services

  • Add the node.labels.dwebstackdomain label that matches the subdomain you wish to provision to the node:
docker node update --label-add=dwebstackdomain=server1.example.org <nodeid>

Provision

Provision a dcomms server as server1.example.org. From the manager node type:

DWEB_DOMAIN=server1.example.org ./dcomm.sh

Redeploy

In the future, to redeploy or restart all dcomms services on server1.example.org, from the manager node type:

DWEB_DOMAIN=server1.example.org ./dcomm.sh

Generate new configs

This action is destructive! To overwrite generated configs, run the script with the regen argument. The script will prompt you before it overwrites any configuration files.

Tor

If you would like to make your deployement accesible via a Tor hidden service you need to include the DWEB_ONION variable when running dcomm.sh.

DWEB_ONION=g674ny5yywiijzbl2gt6hp3sf4wkbnypvzfdasdasdasfnntbxb32yid.onion DWEB_DOMAIN=server1.example.org ./dcomm.sh

Post installation

  • Copy a pre-existing website into /var/www/dcomms/ across all docker nodes or checkout all files from either the dcomms-web repo (UA) or the chatv3 repo (RU) into the same location.
  • Optionally visit https://server1.example.org to view the website.
  • Optionally visit https://chat.server1.example.org to view the Element service.
  • Optionally configure a Matrix client to use https://matrix.server1.example.org as the homeserver.

Tagging images

You may desire to tag the images within docker-compose.yml instead of relying upon the latest images for a more consistent deployment experience in production.

Troubleshooting

Log review

To review logs, from the manager node of the swarm, type:

docker service logs dwebstack-server1_example_org_bridge -ft
docker service logs dwebstack-server1_example_org_caddy -ft
docker service logs dwebstack-server1_example_org_dovecot -ft
docker service logs dwebstack-server1_example_org_element -ft
docker service logs dwebstack-server1_example_org_mailadm -ft
docker service logs dwebstack-server1_example_org_postfix -ft
docker service logs dwebstack-server1_example_org_synapse -ft

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