# Installing Dendrite Dendrite can be run in one of two configurations: * **Monolith mode**: All components run in the same process. In this mode, it is possible to run an in-process [NATS Server](https://github.com/nats-io/nats-server) instead of running a standalone deployment. This will usually be the preferred model for low-to-mid volume deployments, providing the best balance between performance and resource usage. * **Polylith mode**: A cluster of individual components running in their own processes, dealing with different aspects of the Matrix protocol (see [WIRING.md](WIRING-Current.md)). Components communicate with each other using internal HTTP APIs and [NATS Server](https://github.com/nats-io/nats-server). This will almost certainly be the preferred model for very large deployments but scalability comes with a cost. API calls are expensive and therefore a polylith deployment may end up using disproportionately more resources for a smaller number of users compared to a monolith deployment. In almost all cases, it is **recommended to run in monolith mode with PostgreSQL databases**. Regardless of whether you are running in polylith or monolith mode, each Dendrite component that requires storage has its own database connections. Both Postgres and SQLite are supported and can be mixed-and-matched across components as needed in the configuration file. Be advised that Dendrite is still in development and it's not recommended for use in production environments just yet! ## Requirements Dendrite requires: * Go 1.15 or higher * PostgreSQL 12 or higher (if using PostgreSQL databases, not needed for SQLite) If you want to run a polylith deployment, you also need: * A standalone [NATS Server](https://github.com/nats-io/nats-server) deployment with JetStream enabled ## Building Dendrite Start by cloning the code: ```bash git clone https://github.com/matrix-org/dendrite cd dendrite ``` Then build it: ```bash ./build.sh ``` ## Install NATS Server Follow the [NATS Server installation instructions](https://docs.nats.io/running-a-nats-service/introduction/installation) and then [start your NATS deployment](https://docs.nats.io/running-a-nats-service/introduction/running). JetStream must be enabled, either by passing the `-js` flag to `nats-server`, or by specifying the `store_dir` option in the the `jetstream` configuration. ## Configuration ### PostgreSQL database setup Assuming that PostgreSQL 12 (or later) is installed: * Create role, choosing a new password when prompted: ```bash sudo -u postgres createuser -P dendrite ``` At this point you have a choice on whether to run all of the Dendrite components from a single database, or for each component to have its own database. For most deployments, running from a single database will be sufficient, although you may wish to separate them if you plan to split out the databases across multiple machines in the future. On macOS, omit `sudo -u postgres` from the below commands. * If you want to run all Dendrite components from a single database: ```bash sudo -u postgres createdb -O dendrite dendrite ``` ... in which case your connection string will look like `postgres://user:pass@database/dendrite`. * If you want to run each Dendrite component with its own database: ```bash for i in mediaapi syncapi roomserver federationapi appservice keyserver userapi_accounts userapi_devices; do sudo -u postgres createdb -O dendrite dendrite_$i done ``` ... in which case your connection string will look like `postgres://user:pass@database/dendrite_componentname`. ### SQLite database setup **WARNING:** SQLite is suitable for small experimental deployments only and should not be used in production - use PostgreSQL instead for any user-facing federating installation! Dendrite can use the built-in SQLite database engine for small setups. The SQLite databases do not need to be pre-built - Dendrite will create them automatically at startup. ### Server key generation Each Dendrite installation requires: * A unique Matrix signing private key * A valid and trusted TLS certificate and private key To generate a Matrix signing private key: ```bash ./bin/generate-keys --private-key matrix_key.pem ``` **WARNING:** Make sure take a safe backup of this key! You will likely need it if you want to reinstall Dendrite, or any other Matrix homeserver, on the same domain name in the future. If you lose this key, you may have trouble joining federated rooms. For testing, you can generate a self-signed certificate and key, although this will not work for public federation: ```bash ./bin/generate-keys --tls-cert server.crt --tls-key server.key ``` If you have server keys from an older Synapse instance, [convert them](serverkeyformat.md#converting-synapse-keys) to Dendrite's PEM format and configure them as `old_private_keys` in your config. ### Configuration file Create config file, based on `dendrite-config.yaml`. Call it `dendrite.yaml`. Things that will need editing include *at least*: * The `server_name` entry to reflect the hostname of your Dendrite server * The `database` lines with an updated connection string based on your desired setup, e.g. replacing `database` with the name of the database: * For Postgres: `postgres://dendrite:password@localhost/database`, e.g. * `postgres://dendrite:password@localhost/dendrite_userapi_account` to connect to PostgreSQL with SSL/TLS * `postgres://dendrite:password@localhost/dendrite_userapi_account?sslmode=disable` to connect to PostgreSQL without SSL/TLS * For SQLite on disk: `file:component.db` or `file:///path/to/component.db`, e.g. `file:userapi_account.db` * Postgres and SQLite can be mixed and matched on different components as desired. * Either one of the following in the `jetstream` configuration section: * The `addresses` option — a list of one or more addresses of an external standalone NATS Server deployment * The `storage_path` — where on the filesystem the built-in NATS server should store durable queues, if using the built-in NATS server There are other options which may be useful so review them all. In particular, if you are trying to federate from your Dendrite instance into public rooms then configuring `key_perspectives` (like `matrix.org` in the sample) can help to improve reliability considerably by allowing your homeserver to fetch public keys for dead homeservers from somewhere else. **WARNING:** Dendrite supports running all components from the same database in PostgreSQL mode, but this is **NOT** a supported configuration with SQLite. When using SQLite, all components **MUST** use their own database file. ## Starting a monolith server The monolith server can be started as shown below. By default it listens for HTTP connections on port 8008, so you can configure your Matrix client to use `http://servername:8008` as the server: ```bash ./bin/dendrite-monolith-server ``` If you set `--tls-cert` and `--tls-key` as shown below, it will also listen for HTTPS connections on port 8448: ```bash ./bin/dendrite-monolith-server --tls-cert=server.crt --tls-key=server.key ``` If the `jetstream` section of the configuration contains no `addresses` but does contain a `store_dir`, Dendrite will start up a built-in NATS JetStream node automatically, eliminating the need to run a separate NATS server. ## Starting a polylith deployment The following contains scripts which will run all the required processes in order to point a Matrix client at Dendrite. ### nginx (or other reverse proxy) This is what your clients and federated hosts will talk to. It must forward requests onto the correct API server based on URL: * `/_matrix/client` to the client API server * `/_matrix/federation` to the federation API server * `/_matrix/key` to the federation API server * `/_matrix/media` to the media API server See `docs/nginx/polylith-sample.conf` for a sample configuration. ### Client API server This is what implements CS API endpoints. Clients talk to this via the proxy in order to send messages, create and join rooms, etc. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml clientapi ``` ### Sync server This is what implements `/sync` requests. Clients talk to this via the proxy in order to receive messages. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml syncapi ``` ### Media server This implements `/media` requests. Clients talk to this via the proxy in order to upload and retrieve media. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml mediaapi ``` ### Federation API server This implements the federation API. Servers talk to this via the proxy in order to send transactions. This is only required if you want to support federation. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml federationapi ``` ### Internal components This refers to components that are not directly spoken to by clients. They are only contacted by other components. This includes the following components. #### Room server This is what implements the room DAG. Clients do not talk to this. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml roomserver ``` #### Appservice server This sends events from the network to [application services](https://matrix.org/docs/spec/application_service/unstable.html) running locally. This is only required if you want to support running application services on your homeserver. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml appservice ``` #### Key server This manages end-to-end encryption keys for users. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml keyserver ``` #### EDU server This manages processing EDUs such as typing, send-to-device events and presence. Clients do not talk to ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml eduserver ``` #### User server This manages user accounts, device access tokens and user account data, amongst other things. ```bash ./bin/dendrite-polylith-multi --config=dendrite.yaml userapi ```