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DefraDB is a Peer-to-Peer Edge Database. It's the core data storage system for the Source Network Ecosystem, built with IPFS/IPLD, LibP2P, CRDTs, and Semantic web3 properties.

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DefraDB

DefraDB is a user-centric database that prioritizes data ownership, personal privacy, and information security. Its data model, powered by the convergence of MerkleCRDTs and the content-addressability of IPLD, enables a multi-write-master architecture. It features DQL, a query language compatible with GraphQL but providing extra convenience. By leveraging peer-to-peer networking it can be deployed nimbly in novel topologies. Access control is determined by a relationship-based DSL, supporting document or field-level policies, secured by the SourceHub network. DefraDB is a core part of the Source technologies that enable new paradigms of decentralized data and access-control management, user-centric apps, data trustworthiness, and much more.

Read the documentation on docs.source.network.

Table of Contents

DISCLAIMER: At this early stage, DefraDB does not offer data encryption, and the default configuration exposes the database to the network. The software is provided "as is" and is not guaranteed to be stable, secure, or error-free. We encourage you to experiment with DefraDB and provide feedback, but please do not use it for production purposes until it has been thoroughly tested and developed.

Install

Install defradb by downloading an executable or building it locally using the Go toolchain:

git clone [email protected]:sourcenetwork/defradb.git
cd defradb
make install

In the following sections, we assume that defradb is included in your PATH. If you installed it with the Go toolchain, use:

export PATH=$PATH:$(go env GOPATH)/bin

We recommend experimenting with queries using a native GraphQL client. GraphiQL is a popular option - download and install it.

Key Management

DefraDB has a built in keyring that can be used to store private keys securely.

The following keys are loaded from the keyring on start:

  • peer-key Ed25519 private key (required)
  • encryption-key AES-128, AES-192, or AES-256 key (optional)
  • node-identity-key Secp256k1 private key (optional). This key is used for node's identity.

A secret to unlock the keyring is required on start and must be provided via the DEFRA_KEYRING_SECRET environment variable. If a .env file is available in the working directory, the secret can be stored there or via a file at a path defined by the --secret-file flag.

The keys will be randomly generated on the initial start of the node if they are not found.

Alternatively, to randomly generate the required keys, run the following command:

Node identity is an identity assigned to the node. It is used to exchange encryption keys with other nodes.

defradb keyring generate

To import externally generated keys, run the following command:

defradb keyring import <name> <private-key-hex>

To learn more about the available options:

defradb keyring --help

Start

Start a node by executing defradb start. Keep the node running while going through the following examples.

Verify the local connection to the node works by executing defradb client collection describe in another terminal.

Configuration

In this document, we use the default configuration, which has the following behavior:

  • ~/.defradb/ is DefraDB's configuration and data directory
  • client command interacts with the locally running node
  • The GraphQL endpoint is provided at http://localhost:9181/api/v0/graphql

The GraphQL endpoint can be used with a GraphQL client (e.g., Altair) to conveniently perform requests (query, mutation) and obtain schema introspection.

Read more about the configuration here.

External port binding

By default the HTTP API and P2P network will use localhost. If you want to expose the ports externally you need to specify the addresses in the config or command line parameters.

defradb start --p2paddr /ip4/0.0.0.0/tcp/9171 --url 0.0.0.0:9181

Add a schema type

Schemas are used to structure documents using a type system.

In the following examples, we'll be using a simple User schema type.

Add it to the database with the following command. By doing so, DefraDB generates the typed GraphQL endpoints for querying, mutation, and introspection.

defradb client schema add '
  type User {
    name: String 
    age: Int 
    verified: Boolean 
    points: Float
  }
'

Find more examples of schema type definitions in the examples/schema/ folder.

Create a document

Submit a mutation request to create a document of the User type:

defradb client query '
  mutation {
      create_User(input: {age: 31, verified: true, points: 90, name: "Bob"}) {
          _docID
      }
  }
'

Expected response:

{
  "data": {
    "create_User": [
      {
        "_docID": "bae-91171025-ed21-50e3-b0dc-e31bccdfa1ab",
      }
    ]
  }
}

_docID is the document's unique identifier determined by its schema and initial data.

Query documents

Once you have populated your node with data, you can query it:

defradb client query '
  query {
    User {
      _docID
      age
      name
      points
    }
  }
'

This query obtains all users and returns their fields _docID, age, name, points. GraphQL queries only return the exact fields requested.

You can further filter results with the filter argument.

defradb client query '
  query {
    User(filter: {points: {_ge: 50}}) {
      _docID
      age
      name
      points
    }
  }
'

This returns only user documents which have a value for the points field Greater Than or Equal to (_ge) 50.

Obtain document commits

DefraDB's data model is based on MerkleCRDTs. Each document has a graph of all of its updates, similar to Git. The updates are called commits and are identified by cid, a content identifier. Each references its parents by their cids.

To get the most recent commit in the MerkleDAG for the document identified as bae-91171025-ed21-50e3-b0dc-e31bccdfa1ab:

defradb client query '
  query {
    latestCommits(docID: "bae-91171025-ed21-50e3-b0dc-e31bccdfa1ab") {
      cid
      delta
      height
      links {
        cid
        name
      }
    }
  }
'

It returns a structure similar to the following, which contains the update payload that caused this new commit (delta) and any subgraph commits it references.

{
  "data": {
    "latestCommits": [
      {
        "cid": "bafybeifhtfs6vgu7cwbhkojneh7gghwwinh5xzmf7nqkqqdebw5rqino7u",
        "delta": "pGNhZ2UYH2RuYW1lY0JvYmZwb2ludHMYWmh2ZXJpZmllZPU=",
        "height": 1,
        "links": [
          {
            "cid": "bafybeiet6foxcipesjurdqi4zpsgsiok5znqgw4oa5poef6qtiby5hlpzy",
            "name": "age"
          },
          {
            "cid": "bafybeielahxy3r3ulykwoi5qalvkluojta4jlg6eyxvt7lbon3yd6ignby",
            "name": "name"
          },
          {
            "cid": "bafybeia3tkpz52s3nx4uqadbm7t5tir6gagkvjkgipmxs2xcyzlkf4y4dm",
            "name": "points"
          },
          {
            "cid": "bafybeia4off4javopmxcdyvr6fgb5clo7m5bblxic5sqr2vd52s6khyksm",
            "name": "verified"
          }
        ]
      }
    ]
  }
}

Obtain a specific commit by its content identifier (cid):

defradb client query '
  query {
    commits(cid: "bafybeifhtfs6vgu7cwbhkojneh7gghwwinh5xzmf7nqkqqdebw5rqino7u") {
      cid
      delta
      height
      links {
        cid
        name
      }
    }
  }
'

DefraDB Query Language (DQL)

DQL is compatible with GraphQL but features various extensions.

Read its documentation at docs.source.network to discover its filtering, ordering, limiting, relationships, variables, aggregate functions, and other useful features.

Peer-to-peer data synchronization

DefraDB leverages peer-to-peer networking for data exchange, synchronization, and replication of documents and commits.

When starting a node for the first time, a key pair is generated and stored in its "root directory" (~/.defradb/ by default).

Each node has a unique PeerID generated from its public key. This ID allows other nodes to connect to it.

To view your node's peer info:

defradb client p2p info

There are two types of peer-to-peer relationships supported: pubsub peering and replicator peering.

Pubsub peering passively synchronizes data between nodes by broadcasting Document Commit updates to the topic of the commit's document key. Nodes need to be listening on the pubsub channel to receive updates. This is for when two nodes already have shared a document and want to keep them in sync.

Replicator peering actively pushes changes from a specific collection to a target peer.

Pubsub example

Pubsub peers can be specified on the command line using the --peers flag, which accepts a comma-separated list of peer multiaddresses. For example, a node at IP 192.168.1.12 listening on 9000 with PeerID 12D3KooWNXm3dmrwCYSxGoRUyZstaKYiHPdt8uZH5vgVaEJyzU8B would be referred to using the multiaddress /ip4/192.168.1.12/tcp/9000/p2p/12D3KooWNXm3dmrwCYSxGoRUyZstaKYiHPdt8uZH5vgVaEJyzU8B.

Let's go through an example of two nodes (nodeA and nodeB) connecting with each other over pubsub, on the same machine.

Start nodeA with a default configuration:

defradb start

Obtain the node's peer info:

defradb client p2p info

In this example, we use 12D3KooWNXm3dmrwCYSxGoRUyZstaKYiHPdt8uZH5vgVaEJyzU8B, but locally it will be different.

For nodeB, we provide the following configuration:

defradb start --rootdir ~/.defradb-nodeB --url localhost:9182 --p2paddr /ip4/127.0.0.1/tcp/9172 --peers /ip4/127.0.0.1/tcp/9171/p2p/12D3KooWNXm3dmrwCYSxGoRUyZstaKYiHPdt8uZH5vgVaEJyzU8B

About the flags:

  • --rootdir specifies the root dir (config and data) to use
  • --url is the address to listen on for the client HTTP and GraphQL API
  • --p2paddr is a comma-separated list of multiaddresses to listen on for p2p networking
  • --peers is a comma-separated list of peer multiaddresses

This starts two nodes and connects them via pubsub networking.

Subscription example

It is possible to subscribe to updates on a given collection by using its ID as the pubsub topic. The ID of a collection is found as the field collectionID in one of its documents. Here we use the collection ID of the User type we created above. After setting up 2 nodes as shown in the Pubsub example section, we can subscribe to collections updates on nodeA from nodeB by using the following command:

defradb client p2p collection add --url localhost:9182 bafkreibpnvkvjqvg4skzlijka5xe63zeu74ivcjwd76q7yi65jdhwqhske

Multiple collection IDs can be added at once.

defradb client p2p collection add --url localhost:9182 <collection1ID>,<collection2ID>,<collection3ID>
Replicator example

Replicator peering is targeted: it allows a node to actively send updates to another node. Let's go through an example of nodeA actively replicating to nodeB:

Start nodeA:

defradb start

In another terminal, add this example schema to it:

defradb client schema add '
  type Article {
    content: String
    published: Boolean
  }
'

Start (or continue running from above) nodeB, that will be receiving updates:

defradb start --rootdir ~/.defradb-nodeB --url localhost:9182 --p2paddr /ip4/0.0.0.0/tcp/9172

Here we do not specify --peers as we will manually define a replicator after startup via the rpc client command.

In another terminal, add the same schema to nodeB:

defradb client schema add --url localhost:9182 '
  type Article {
    content: String
    published: Boolean
  }
'

Then copy the peer info from nodeB:

defradb client p2p info --url localhost:9182

Set nodeA to actively replicate the Article collection to nodeB:

defradb client p2p replicator set -c Article <nodeB_peer_info_json>

As we add or update documents in the Article collection on nodeA, they will be actively pushed to nodeB. Note that changes to nodeB will still be passively published back to nodeA, via pubsub.

Securing the HTTP API with TLS

By default, DefraDB will expose its HTTP API at http://localhost:9181/api/v0. It's also possible to configure the API to use TLS with self-signed certificates or Let's Encrypt.

To start defradb with self-signed certificates placed under ~/.defradb/certs/ with server.key being the public key and server.crt being the private key, just do:

defradb start --tls

The keys can be generated with your generator of choice or with make tls-certs.

Since the keys should be stored within the DefraDB data and configuration directory, the recommended key generation command is make tls-certs path="~/.defradb/certs".

If not saved under ~/.defradb/certs then the public (pubkeypath) and private (privkeypaths) key paths need to be explicitly defined in addition to the --tls flag or tls set to true in the config.

Then to start the server with TLS, using your generated keys in custom path:

defradb start --tls --pubkeypath ~/path-to-pubkey.key --privkeypath ~/path-to-privkey.crt

Access Control System

Read more about the access control here.

Supporting CORS

When accessing DefraDB through a frontend interface, you may be confronted with a CORS error. That is because, by default, DefraDB will not have any allowed origins set. To specify which origins should be allowed to access your DefraDB endpoint, you can specify them when starting the database:

defradb start --allowed-origins=https://yourdomain.com

If running a frontend app locally on localhost, allowed origins must be set with the port of the app:

defradb start --allowed-origins=http://localhost:3000

The catch-all * is also a valid origin.

Backing up and restoring

It is currently not possible to do a full backup of DefraDB that includes the history of changes through the Merkle DAG. However, DefraDB currently supports a simple backup of the current data state in JSON format that can be used to seed a database or help with transitioning from one DefraDB version to another.

To backup the data, run the following command:

defradb client backup export path/to/backup.json

To pretty print the JSON content when exporting, run the following command:

defradb client backup export --pretty path/to/backup.json

To restore the data, run the following command:

defradb client backup import path/to/backup.json

Community

Discuss on Discord or Github Discussions. The Source project is on Twitter.

Licensing

DefraDB's code is released under the Business Source License (BSL). It grants you the right to copy, modify, create derivative works, redistribute, and make non-production use of it. For additional uses, such as deploying in production on a private network, please contact [email protected] for a licensing agreement. Each dated version of the license turns into the more permissive Apache License v2.0 after four years. Please read the complete license before usage.

Contributors

You are invited to contribute to DefraDB. Follow the Contributing guide to get started.

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DefraDB is a Peer-to-Peer Edge Database. It's the core data storage system for the Source Network Ecosystem, built with IPFS/IPLD, LibP2P, CRDTs, and Semantic web3 properties.

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