This repository contains the reference implementation of the Ergo Platform protocol, which is an alternative to the Bitcoin protocol.
Ergo Platform website: https://ergoplatform.org/
Differences from Bitcoin
- Powerful contracts in the multi-stage extended UTXO model (see ErgoScript whitepaper)
- Memory-hard non-outsourceable Proof-of-Work function Autolykos
- New modes of operation: light-fullnode, light-SPV, hybrid modes
- Alternative transactional language, which is more powerful that Bitcoin Script but also safe against heavy validation attacks
- Alternative fee model with mandatory storage-rent component
A White Paper with a brief description is available. A Yellow Paper with detailed specification is underway and will be available shortly. At the moment, there are drafts of the Yellow Paper available, and currently the reference implementation code should be considered as the specification.
You can check our Setup A Full Node wiki page to learn how to manually setup and configure a node.
Alternatively you can run the prepared ergo-installer.sh script. With this script you'll have the latest Ergo node installed without any hassle (only availalbe for Linux distributions):
curl -s https://raw.githubusercontent.com/ergoplatform/ergo/master/ergo-installer.sh | sh -s -- --api-key=<YOUR_API_KEY>
Build from source
In order to build the Ergo node from sources you need JDK (>= 1.8) and SBT to be installed on your machine.
In order to simply get a single jar run:
sbt assembly - assembly would appear in
If you want to create a package for a specific platform with launching scripts the one of the following packager commands could be chosen (depending on desired system type you want to build for):
universal:packageBin- Generates a universal zip file
universal:packageZipTarball- Generates a universal tgz file
debian:packageBin- Generates a deb
docker:publishLocal- Builds a Docker image using the local Docker server
rpm:packageBin- Generates an rpm
universal:packageOsxDmg- Generates a DMG file with the same contents as the universal zip/tgz.
windows:packageBin- Generates an MSI
The final build command should look like:
sbt <packager_command>, example:
sbt universal:packageBin. A resulted package could be found in the
Running the node
The node can be started in a couple different ways:
- In case you only have a jar:
java -jar /path/to/ergo-<version>.jar --<networkId> -c /path/to/local.conf
- Using start script from sbt-native-packager:
sh /path/to/bin/ergo --<networkId> -c /path/to/local.conf
Node UI (graphical interface) could be accessed at
<node_ip>:<api_port>/panel in your browser.
Docker Quick Start
Ergo has officially supported Docker package. To run last Ergo version in mainnet as a console application with logs printed to console:
sudo docker run --rm -p 9030:9030 -p 127.0.0.1:9053:9053 -v /path/on/host/to/ergo/data:/home/ergo/.ergo ergoplatform/ergo --mainnet
This will connect to Ergo mainnet with default config and open port
9030 globally and
9053 locally on the host system. All data will be stored in your host directory
To run specific Ergo version
<VERSION> as a service with custom config
sudo docker run -d \ -p 9030:9030 \ -p 127.0.0.1:9053:9053 \ -v /path/on/host/to/ergo/data:/home/ergo/.ergo \ -v /path/on/host/system/to/myergo.conf:/etc/myergo.conf \ -e MAX_HEAP=3G \ ergoplatform/ergo:<VERSION> --<networkId> -c /etc/myergo.conf
Available versions can be found on Ergo Docker image page, for example,
This will connect to the Ergo mainnet or testnet following your configuration passed in
myergo.conf and network flag
--<networkId>. Every default config value would be overwritten with corresponding value in
MAX_HEAP variable can be used to control how much memory can the node consume.
This command also would store your data in
/path/on/host/to/ergo/data on host system, and open ports
9030 (node communication) globally and
9053 (REST API) locally on host system. The
/path/on/host/to/ergo/data directory must has
777 permissions or has owner/group numeric id equal to
9052 to be writable by container, as
ergo user inside Docker image (please refer to Dockerfile).
Ergo node works normally behind NAT, so you can keep closed your
9030 port, hence other nodes could not discover and connect to yours one, only your node could initiate connections.
It is also a good practice to keep closed REST API port
9053, and connect to your node from inside another container in the same Docker network (this case not covered by this short quick start manual).
There are three kinds of tests:
- Unit and property tests, run them with
- Integration tests, they require for Docker to be installed, then run
sudo sbt it:test.
- Bootstrapping tests, very slow as they are checking that the node is indeed catching up with the main network in different regimes, they require for Docker too, run as
sudo sbt it2:test.
Open project in IDE
Your can use IntelliJ IDEA (Community or Ultimate edition) or VSCode + Metals. Before opening the project in IDE make sure it can be built with sbt. You may need to fix dependency resolution errors first.
After that you can open the project folder in Idea (File / Open) which will run Project Import Wizard. The wizard will use SBT configuration (build.sbt file) to generate Idea's project configuration files. You can open
File / Project Structure... dialog to see project configuration. If everything is successful you can compile the project in IDE.
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