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Community version of Evernode Platform (client supernode with GraphQL API) for TVM blockchains (Everscale, Venom, TON, Gosh) that exposes GraphQL API.

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Evernode DApp Server

Evernode DApp Server is a community (open source) version of Ever Platform (client supernode with GraphQL API) for TVM blockchains (Everscale, Venom, TON, Gosh) that exposes GraphQL API.

Evernode DApp Server is compatible with ever-sdk, everdev, everscale-inpage-provider, evescale-standalone-client and other libraries and tools for TVM blockchains.

This repository contains instructions on how to run your own free instance of Evernode Platform to connect your application to TVM blockchains.
The instructions and scripts were verified on Ubuntu 20.04.

Table of Contents

1. What is Evernode DApp Server?

Evernode DApp Server is a set of services that provides a GraphQL API for TVM blockchains.

The client application can send messages to the blockchain and receive the results by performing the appropriate GraphQL operations:

  • Mutation - to send an external message to the blockchain.
  • Query - to query blockchain data.
  • Subscription - to subscribe for blockchain events.

DApp Server consists of:

  • Evernode, written in Rust and focused on performance and safety, is the core element of DApp Server.

  • Everscale GraphQL Server (referred as Q-Server) provides GraphQL endpoint for sending messages and querying blockchain.

  • ArangoDB - multi-model database with the information about all blockchain entities (like accounts, blocks, transactions, etc.) stored over time.

  • Kafka stream-processing platform for communication between services.

  • StatsD exporter to collect and expose metrics to Prometheus.

2. Overview of technical architecture

Evernode DApp server provides the following endpoints:

2.1 Service interaction diagram:

In this diagram, the bold arrows show how external messages are processed.

  • The client application sends a message (represented as a GraphQL mutation operation) to the Q-Server.
  • Q-Server sends this message (via Kafka) to Ever-node for processing.
  • Ever-node continuously provides (via Kafka) updated blockchain data as JSON documents (blocks, messages, transactions, account states) to ArangoDB.
  • Q-Server queries ArangoDB, thus knowing the result of the message execution.

Services interaction:

This scripts run all services as docker containers inside one docker bridge network.
Recommended system configuration for this setup are shown below:

CPU (cores) RAM (GiB) Storage (GiB) Network (Gbit/s)
24 128 2000. (NVMe SSD disks are recommended) 1

See 4. Notes

3. Getting Started

3.1 Prerequisites

  • Host OS: Linux (all scripts tested on Ubuntu 20.04).
  • DApp server is accessed via HTTPS, so your server must have a fully qualified domain name.
    A self-signed certificate will be received on start-up and will be renewed automatically.
  • Installed Git, Docker Engine, Docker CLI, Docker Compose v2 or later.

3.2 Configuration

3.2.1 Set variables

Check configure.sh and set at least these environment variables:

  • NETWORK_TYPE
  • EVERNODE_FQDN
  • LETSENCRYPT_EMAIL

3.2.2 Generate credentials to access the ArangoDB web interface

Generate credentials (usernames and password) for basic authentication and update .htpasswd file.
You can generate it by running htpasswd -nb <name> <password>

3.2.3 Run configuration script

$ ./configure.sh

This script creates ./deploy directory

3.3 Deployment

Run ./up.sh.

After the script completes normally (it takes 30 min approx.), the node starts synchronizing its state, which can take several hours.
Use the following command to check the progress:

    docker exec ever-node /ever-node/tools/console -C /ever-node/configs/console.json --cmd getstats

Script output example:

tonlabs console 0.1.286
COMMIT_ID: 5efe6bb8f2a974ba0e6b1ea3e58233632236e182
BUILD_DATE: 2022-10-17 02:32:44 +0300
COMMIT_DATE: 2022-08-12 00:22:07 +0300
GIT_BRANCH: master
{
	"sync_status":	"synchronization_finished",
	"masterchainblocktime":	1665988670,
	"masterchainblocknumber":	9194424,
	"node_version":	"0.51.1",
	"public_overlay_key_id":	"S4TaVdGitzTApe7GFCj8DbuRIkVEbg+ODzBxhQGIUG0=",
	"timediff":	6,
	"shards_timediff":	6,
     ----%<---------------------
}

If the timediff parameter is less than 10 seconds, synchronization with masterchain is complete.
"sync_status": "synchronization finished" means synchronization with workchains is complete.

3.4 Tests

To verify that the DApp server is actually functional, after the sync process is complete, run the test below. This test deploys wallet and transfers 0.5 tokens from the wallet to another address.

$ cd tests
$ chmod o+w package-lock.json
$ docker build --tag evernode_test .
$ docker run --rm -e ENDPOINT=https://<your_domain>/graphql evernode_test

Example output

> npx ts-node src/wallet.ts
You can topup your wallet from dashboard at https://dashboard.evercloud.dev
Please send >= 1 tokens to 0:8a447eca3adde54414ab760d3633b96d5e7706a754450adfed587ac191c5b117
awaiting...

Here the test will block until you send some tokens to that address.
In devnet you can do it using our dashboard at https://dashboard.evercloud.dev or telegram bot https://t.me/everdev_giver_bot

Account balance is: 100 tokens. Account type is 0
Deploying wallet contract to address: 0:8a447eca3adde54414ab760d3633b96d5e7706a754450adfed587ac191c5b117 and waiting for transaction...
Contract deployed. Transaction hash 318d2acfabd15a9e5ffd58c06c00074c67eca414f25e973c3332a8aeaa574bf1
Sending 0.5 token to -1:7777777777777777777777777777777777777777777777777777777777777777
Transfer completed. Transaction hash 54fdd8cce38c6078a25aae61c7deed2e5664c847c171048a814692440ee37610
Transaction hash: 1d3bf7ef8a50ad38012f304a38c94fe4bca5bc1b50c2d4dd45ce2a71dc7c0921
Transaction hash: 318d2acfabd15a9e5ffd58c06c00074c67eca414f25e973c3332a8aeaa574bf1
Transaction hash: 54fdd8cce38c6078a25aae61c7deed2e5664c847c171048a814692440ee37610

Congratulations! Your DApp server is set up.

4. Notes

  • This repository is a "quick start" to get your first DApp server up and running.
  • The installation process is simple, written in pure bash and requires installation from scratch.
  • For simplicity, all services are deployed on one host and the system requirements for it are high, so it makes sense to distribute services across different servers.
    After understanding this installation process, you can easily customize it for yourself.

5. Related projects