You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 
Apostolos Fanakis b02c004321
refactor: init separate readme files
4 years ago
..
concordia-app refactor: add support for runtime environment variable in built app 4 years ago
concordia-contracts refactor: use env vars during migration in docker image 4 years ago
concordia-contracts-provider refactor: lock docker images, normalize mount paths, minor fixes 4 years ago
concordia-pinner refactor: lock docker images, normalize mount paths, minor fixes 4 years ago
env refactor: init separate readme files 4 years ago
ganache fix: various docker fixes 4 years ago
Makefile fix: final fixes for local runs 4 years ago
README.md refactor: init separate readme files 4 years ago
docker-compose.yml fix: update rendezvous docker image used 4 years ago

README.md

Concordia Dockerized

This document gives information about the provided docker images, their configuration and supported deployment strategies.

TLDR: head down to Putting it all together/Scripts for a quick setup.

Services

Concordia requires at the minimum two services to work, a blockchain and a rendezvous server.

Additionally, the Concordia application code must be provided to the user. Currently, the only way of distributing the application code is via a webserver as a web application.

Ganache

Ganache is a personal blockchain software used during development. It is a very convenient way of developing and testing dApps. More information can be found in the project's website.

Note that any other Ethereum compliant blockchain can be used.

Rendezvous

Concordia uses a distributed database to store forum data. A rendezvous server is needed in order for users to discover peers in the network and get access to the data.

Contracts Provider

Contracts provider is a very simple resource provider server that handles saving the contract artifacts produced during contracts migration and serving them to the users (and pinner).

Pinner

Pinner is a bot node of the network that pins all IPFS content, so the forum data may be available even if the users that create it are not.

Application

The Concordia application is a React app that handles interactions with the contracts and the distributed database used.

Docker images

This repository provides docker images to easily setup (and destroy) instances of all required services Concordia. Furthermore, we provide an image that builds the contracts and handles their migration to the blockchain in use.

Ganache

The Dockerfile is provided in the path ./ganache. The image makes use of the environment variables described below.

Environment variable Default value Usage
ACCOUNTS_NUMBER 10 Set the number of accounts generated
ACCOUNTS_ETHER 100 Set the amount of ETH assigned to each account
MNEMONIC NaN The mnemonic phrase sued as a seed for deterministic account generation
HOST 0.0.0.0 The hostname to listen on
PORT 8545 The port to listen on
NETWORK_ID 5778 The network id used to identify ganache

Note that the Ganache instance running inside the container will save the generated blockchain keys in the path /mnt/concordia/ganache_keys/keys.json. If you need to access the keys (e.g. for getting a private key and importing in Metamask) you can mount a volume to this path to have easier access.

Also, the database used by Ganache for storing blockchain information is placed in the path /mnt/concordia/ganache_db/. You can maintain the blockchain state between runs by mounting a volume to the database path. To do that, add the docker flag -v host/absolute/path/to/ganache_db:/mnt/concordia/ganache_db.

Rendezvous

The rendezvous server used here is js-libp2p-webrtc-star. The server listens on port 9090. More information can be found on the github page of the project here.

Contracts provider

A Dockerfile for the contracts provider service is provided in the path ./concordia-contracts-provider. The Dockerfile contains only one stage, that is the runtime.

The image makes use of the environment variables described below.

Environment variable Default value Usage
CONTRACTS_PROVIDER_PORT 8400 Set the port of the contracts provider application
UPLOAD_CONTRACTS_DIRECTORY concordia/packages/concordia-contracts-provider/contracts-uploads Set the directory where the uploaded contracts are saved
LOGS_PATH concordia/packages/concordia-contracts-provider/logs Set the directory where the application logs are saved
CORS_ALLOWED_ORIGINS http://127.0.0.1:7000, http://localhost:7000, https://127.0.0.1:7000, https://localhost:7000, http://127.0.0.1:4444, http://localhost:4444, https://127.0.0.1:4444, https://localhost:4444 Set the list of addresses allowed by CORS*

Contracts

This is a provision system that compiles and deploys the contracts to any Ethereum blockchain. It also uploads the deployed contract artifacts to the contracts-provider service.

Attention: the contracts-provider instance targeted by the environment variables MUST be up and running before attempting to migrate the contracts.

A Dockerfile is provided in the path ./concordia-contracts that will build the contracts used by Concordia during image build and handle their deployment to any Ethereum network defined using env-vars upon container run. Dockerfile contains three useful stages, described in the table below.

Stage name Entrypoint Usage
compile Exits immediately Compiles the contracts
test Runs contract tests Compiles contracts and runs tests using blockchain defined by env vars
runtime Migrates contracts Compiles contracts and migrates to the blockchain defined by env vars. Does not run tests

The image makes use of the environment variables described below.

Environment variable Default value Usage
MIGRATE_NETWORK develop Set the network where the contracts will be deployed/tested (set this to "env" unless you know what you're doing)
WEB3_HOST 127.0.0.1 Set the hostname of the blockchain network that will be used for deployment (requires network to be "env")
WEB3_PORT 8545 NaN
CONTRACTS_PROVIDER_HOST http://127.0.0.1 Set the hostname of the contracts provider
CONTRACTS_PROVIDER_PORT 8400 Set the port of the contracts provider
CONTRACTS_VERSION_TAG NaN Set the tag of the contracts uploaded to provided

You can find the contract artifacts in the directory /usr/src/concordia/packages/concordia-contracts/build/ inside the image.

Attention: make sure the targeted blockchain is up and running before trying to migrate the contracts.

Pinner

A Dockerfile for the pinner service is provided in the path ./concordia-pinner. The Dockerfile contains only one stage, that is the runtime.

The image makes use of the environment variables described below.

Environment variable Default value Usage
PINNER_API_HOST 127.0.0.1 Set the hostname of the pinner application
PINNER_API_PORT 4444 Set the port of the pinner application
USE_EXTERNAL_CONTRACTS_PROVIDER false Enable/Disable use of external contracts provider
IPFS_DIRECTORY concordia/packages/concordia-pinner/ipfs Set the directory where the ipfs blocks are saved
ORBIT_DIRECTORY concordia/packages/concordia-pinner/orbitdb Set the directory where the orbitdb data are saved
LOGS_PATH concordia/packages/concordia-pinner/logs Set the directory where the application logs are saved
WEB3_HOST 127.0.0.1 Set the hostname of the blockchain
WEB3_PORT 8545 Set the port of the blockchain
RENDEZVOUS_HOST /ip4/127.0.0.1 Set the hostname of the rendezvous server
RENDEZVOUS_PORT 9090 Set the port of the rendezvous server
CONTRACTS_PROVIDER_HOST http://127.0.0.1 Set the hostname of the contracts provider service
CONTRACTS_PROVIDER_PORT 8400 Set the port of the contracts provider service
CONTRACTS_VERSION_HASH latest Set the contracts tag that will be pulled

Application

The Dockerfile provided in the path ./concordia-application either builds the application for production and serves the resulting build using an nginx server or simply runs the node development server. Dockerfile contains four stages, described in the table below.

Stage name Entrypoint Usage
test Runs tests Fetches npm packages and runs tests
staging Serves application for development Starts the node development server
runtime Serves application for production Builds for production and serves it through nginx

The image makes use of the environment variables described below.

Environment variable Default value Usage
REACT_APP_CONCORDIA_HOST 127.0.0.1 Set the hostname of the concordia application
REACT_APP_CONCORDIA_PORT 7000 Set the port of the concordia application
REACT_APP_RENDEZVOUS_HOST /ip4/127.0.0.1 Set the hostname of the rendezvous server
REACT_APP_RENDEZVOUS_PORT 9090 Set the port of the rendezvous server
REACT_APP_USE_EXTERNAL_CONTRACTS_PROVIDER false Enable/Disable use of external contracts provider
REACT_APP_CONTRACTS_PROVIDER_HOST http://127.0.0.1 Set the hostname of the contracts provider service
REACT_APP_CONTRACTS_PROVIDER_PORT 8400 Set the port of the contracts provider service
REACT_APP_CONTRACTS_VERSION_HASH latest Set the contracts tag that will be pulled

Attention: this image will copy the contract artifacts from the directory /packages/concordia-contracts/build if available. The image can then use these artifacts after build or pull new artifacts from a contracts provider.

Attention: if you plan to use the imported contract artifacts instead of a provider, make sure the contracts have been deployed before building this image. Also, make sure the rendezvous server is up and running.

Docker Compose

A docker-compose file also is provided. The docker-compose handles the lifecycle of the Ganache and Rendezvous server containers.

Putting it all together

You can find some ready to use scripts for common scenarios like dev deploys and testing in the ./docker directory. These scripts are documented in the following chapters.

Makefile targets

Concordia uses blockchain and other distributed technologies. There are a number of ways to set up a running instance of this application.

This chapter will guide you through simple setups for testing and production that depend on local blockchain (ganache) instances which do not require real ETH to work or have any other charges.

Testing the contracts

Build the ganache image and spin up a blockchain for testing:

make build-ganache run-ganache-test

Build the testing stage of the contracts image:

make build-contracts-tests

Run the tests:

make run-contracts-tests

The results should be printed in the terminal, but are also available in the directory ./reports/contracts.

Testing the application

Build the testing stage of the application image:

make build-app-tests

Run the test:

make run-app-tests

The results should be printed in the terminal, but are also available in the directory ./reports/app.

Production

Just run the target:

make run

And you' re done! Head to localhost:7777 and voilà, a working Concordia instance appears! The blockchain is exposed in the address localhost:8545.

Tip: the accounts (private keys) generated by Ganache are available in the file ./volumes/ganache_keys/keys.json.

Note that the make run command might take several minutes to execute (depending on your system). What happens under the hood is that:

  • the ganache image is built
  • blockchain and rendezvous server containers are started
  • migration stage of the contracts image is built
  • the contracts are deployed to the blockchain:
  • the application image is built and then deployed

Env Files

Targets in the Makefile make use of env files located in the directory ./env. Using this environment variables, you can change various configuration options of the testing/production deploys.

Makefile targets suffixed with host-chain will try to use a blockchain and rendezvous server running in the host machine. They use the --net=host docker option. In order to work with these targets you need to create and use your own env files (or modify the existing ones). The environment variables values will largely depend on how you choose to run the services in your system (which ports you use etc.), so be sure to create them before running any host-chain target.