Deploy SingularityNET Locally


This tutorial describes the process of building and deploying a fully functional local SingularityNET environment. In such an environment, one can publish services, call them and have full control over a local test blockchain network.

Install prerequisites

This document describes the process of the environment setup in Ubuntu 18.04. Some commands can be different under other linux distributions.

TIP: Here you can find an instruction how to run SingularityNet platform locally inside a docker container, and how to run simple front-to-back example in it.

  • Go 1.10+
  • Dep 0.4.1+
  • Go Protobuf Compiler
  • Golint

Part of the code is written in Go language so you need a set of tools to compile Go code and manage Go dependencies.

sudo apt-get install golang go-dep golang-goprotobuf-dev golint

Truffle and Ganache are used to develop and test Ethereum contracts so NodeJS development tools are required.

sudo apt-get install nodejs npm


IPFS is used to keep RPC models of the services which are published via SingularityNET platform. Follow instructions here to download and install IPFS. Following steps expects that ipfs is installed and can be run from the command line.

Part of the code is written in Python so you need a Python interpreter and Pip as python package manager.

sudo apt-get install python3 python3-pip


sudo apt-get install libudev-dev libusb-1.0-0-dev

Deploy local environment

Setup Go building environments

Go compiler expects that the path to the workspace is exported as GOPATH variable. SINGNET_REPOS is exported to simplify change directory commands below.

mkdir -p singnet/src/
cd singnet
mkdir log
export GOPATH=`pwd`
export PATH=${GOPATH}/bin:${PATH}

Deploy local IPFS instance

IPFS is used by SingularityNET to keep published services RPC models. For local test environment we will setup a private local IPFS instance.

Initialize IPFS data folder:

export IPFS_PATH=$GOPATH/ipfs
ipfs init

Remove all default IPFS bootstrap instances from default IPFS configuration (see IPFS private network).

Change IPFS API and Gateway ports because they intersect with default example-service and snet-daemon ports.

ipfs config Addresses.API /ip4/
ipfs config Addresses.Gateway /ip4/

Compile platform contracts

Clone platform-contracts repository:

git clone
cd platform-contracts

Install dependencies and Ganache using NPM:

npm install
npm install ganache-cli

Compile contracts using Truffle:

./node_modules/.bin/truffle compile

Setup snet command line interface

Clone snet-cli repository:

git clone
cd snet-cli

Install blockchain dependencies and snet-cli package in development mode.

# you need python 3.6 here, with python 3.5 you will get an error
./scripts/blockchain install
pip3 install -e .

Build snet-daemon

Clone snet-daemon repository:

git clone
cd snet-daemon

Build snet-daemon:

./scripts/install # install dependencies
./scripts/build linux amd64  # build project

Start environment and finalize snet configuration

Start local IPFS instance

Start IPFS daemon:

ipfs daemon >$GOPATH/log/ipfs.log 2>&1 &

Start local Ethereum network

Start a local Ethereum network. Pass mnemonic to produce a deterministic blockchain environment: accounts, private keys and behavior.

cd $SINGNET_REPOS/platform-contracts
./node_modules/.bin/ganache-cli --mnemonic 'gauge enact biology destroy normal tunnel slight slide wide sauce ladder produce' >$GOPATH/log/ganache.log 2>&1 &

Accounts and private keys printed by Ganache will be used in next steps. Deploy contracts using Truffle.

./node_modules/.bin/truffle migrate --network local
npm run package-npm

Contract addresses printed after deployment will be used to setup snet.

Truffle deploys contracts using the first account of the test network. As SingularityNETToken contract is deployed using this account, this account’s balance keeps all of SingularityNET tokens issued during deployment. Other contracts deployed are Registry and MultiPartyEscrow. Registry keeps the list of organization and published services, and MultiPartyEscrow is a part of our payment system.

Configure snet-cli for local environment

# run snet command  for the first time to create default config:
# add local Ethereum network to the `snet` configuration with the name "local".
snet network create local http://localhost:8545
# Create First identity (snet-user = first ganache identity)
snet identity create snet-user rpc --network local
# switch to snet-user (we will switch automatically to local network)
snet identity snet-user
# switch to local ipfs endpoint
snet set  default_ipfs_endpoint http://localhost:5002
# Configure contract addresses for local network (for kovan addresess are already configured!)
snet set current_singularitynettoken_at 0x6e5f20669177f5bdf3703ec5ea9c4d4fe3aabd14
snet set current_registry_at            0x4e74fefa82e83e0964f0d9f53c68e03f7298a8b2
snet set current_multipartyescrow_at    0x5c7a4290f6f8ff64c69eeffdfafc8644a4ec3a4e

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