Metrix is a decentralized blockchain project forked from Qtum, built on Bitcoin's UTXO model, with support for Ethereum Virtual Machine based smart contracts, and secured by a proof of stake consensus model. It achieves this through the revolutionary Account Abstraction Layer which allows the EVM to communicate with Metrix's Bitcoin-like UTXO blockchain. For more general information about the original Qtum blockchain, go to https://qtum.org
Welcome to the Metrix Ignition Main Network. This is the main network where the tokens hold value and should be guarded very carefully. If you are testing the network, or developing unstable software on Metrix, we highly recommend using either testnet or regtest mode.
The major features of the Metrix network include:
- Compatibility with the Ethereum Virtual Machine, which allows for compatibility with most existing Solidity based smart contracts. No special solidity compiler is required to deploy your smart contract to Metrix.
- A Proof of Stake consensus system which is optimized for Metrix's contract model. Any user can stake and help to secure the network.
- The Decentralized Governance Protocol is completely implemented and functional, which allows certain network parameters to be modified without a fork or other network disruption. This currently controls parameters like block size, gas prices, etc.
- Uses the UTXO transaction model and is compatible with Bitcoin, allowing for existing tooling and workflows to be used with Metrix. This allows for the infamous SPV protocol to be used which is ideal for light wallets on mobile phones and IoT devices.
Note: Metrix Core is considered beta software. We make no warranties or guarantees of its security or stability.
These are some resources that might be helpful in understanding Metrix.
Basic usage resources:
•. Trent Richards - CEO
• Chris Bowe - Director of Web-wallet & Pool
Metrix Core is our primary mainnet wallet. It implements a full node and is capable of storing, validating, and distributing all history of the Metrix network. Metrix Core is considered the reference implementation for the Metrix network.
Metrix Core currently implements the following:
- Sending/Receiving MRX coins
- Sending/Receiving MRC20 tokens on the Metrix network
- Sending/Receiving MRC721 tokens on the Metrix network
- Staking and creating blocks for the Metrix network
- Creating and interacting with smart contracts
- Running a full node for distributing the blockchain to other users
- "Prune" mode, which minimizes disk usage
- Regtest mode, which enables developers to very quickly build their own private Metrix network for Dapp testing
- Testnet mode, using the public Metrix Testnet
- Compatibility with the Bitcoin Core set of RPC commands and APIs
- Full SegWit capability with p2sh-segwit (legacy) and bech32 (native) addresses
Metrix Core uses a full node model, and thus requires downloading the entire blockchain. If you do not need the entire blockchain, and do not intend on developing smart contracts, it may be more ideal to use an alternative wallet such as one of our light wallets that can be synchronized in a matter of seconds.
Download: https://github.com/TheLindaProjectInc/Altitude/releases
https://webwallet.metrixcoin.com
Make sure to check out these resources as well for more information and to keep up to date with all the latest news about Metrix. At least 1 developer is always around, so if you're developing on Metrix and need help, we'd love to welcome you to our community.
Website
Discord
Reddit
Twitter
GitHub
- EVM smart contracts cannot receive coins from or send coins to any address type other than pay-to-pubkeyhash (starts with M) addresses. This is due to a limitation in the EVM
- Contracts are not allowed to create contracts with an initial endowment of coins. The contract must first be created, and then be sent coins in a separate transaction. Humans are also not allowed to create contracts with an initial endowment of coins.
- Although all of the infrastructure is present, Metrix Core does not currently parse Solidity event data. You must parse this yourself using either searchlogs or -record-log-opcodes features.
- It is not possible to send a contract coins without also executing the contract. This is also the case of Ethereum. This was promised in earlier discussions and technically does work, but due to lack of time for testing this feature was disabled. We hope to reenable this feature with release of the x86 virtual machine in 2020.
- In Metrix there can be multiple addresses used to create a proof-of-stake block. However, the EVM can only see the first output using the coinbase operation in Solidity (this address is also the one registered for the continuous staker rewards after 500 blocks).
Metrix uses a tool called Gitian to make reproducible builds that can be verified by anyone. Instructions on setting up a Gitian VM and building Metrix are provided in Gitan Building
This is a quick start script for compiling Metrix on Ubuntu
Low resource systems need swap space to compile this also
## Create Swapfile
fallocate -l 3G /swapfile
chmod 600 /swapfile
mkswap /swapfile
swapon /swapfile
sudo echo -e "/swapfile none swap sw 0 0 \n" >> /etc/fstab
sudo apt-get install build-essential libtool autotools-dev automake pkg-config libssl-dev libevent-dev bsdmainutils git cmake libboost-all-dev libgmp3-dev
sudo apt-get install software-properties-common
sudo add-apt-repository ppa:bitcoin/bitcoin
sudo apt-get update
sudo apt-get install libdb4.8-dev libdb4.8++-dev
# If you want to build the Qt GUI:
sudo apt-get install libqt5gui5 libqt5core5a libqt5dbus5 qttools5-dev qttools5-dev-tools libprotobuf-dev protobuf-compiler qrencode
git clone https://github.com/TheLindaProjectInc/metrix --recursive
cd metrix
# Note autogen will prompt to install some more dependencies if needed
./autogen.sh
./configure --disable-bench
make -j2
Here is a brief description for compiling Metrix on CentOS, for more details please refer to the specific document
# Compiling boost manually
sudo yum install python-devel bzip2-devel
git clone https://github.com/boostorg/boost.git
cd boost
git checkout boost-1.66.0
git submodule update --init --recursive
./bootstrap.sh --prefix=/usr --libdir=/usr/lib64
./b2 headers
sudo ./b2 -j4 install
# Installing Dependencies for Metrix
sudo yum install epel-release
sudo yum install libtool libdb4-cxx-devel openssl-devel libevent-devel gmp-devel
# If you want to build the Qt GUI:
sudo yum install qt5-qttools-devel protobuf-devel qrencode-devel
# Building Metrix
git clone --recursive https://github.com/TheLindaProjectInc/metrix.git
cd metrix
./autogen.sh
./configure --disable-bench
make -j4
The commands in this guide should be executed in a Terminal application.
The built-in one is located in /Applications/Utilities/Terminal.app
.
Install the Mac OS command line tools:
xcode-select --install
When the popup appears, click Install
.
Then install Homebrew.
brew install cmake automake berkeley-db4 libtool boost miniupnpc openssl pkg-config protobuf qt5 libevent imagemagick librsvg qrencode gmp
NOTE: Building with Qt4 is still supported, however, could result in a broken UI. Building with Qt5 is recommended.
-
Clone the metrix source code and cd into
metrix
git clone --recursive https://github.com/TheLindaProjectInc/metrix.git cd metrix
-
Build metrix-core:
Configure and build the headless metrix binaries as well as the GUI (if Qt is found).
You can disable the GUI build by passing
--without-gui
to configure../autogen.sh ./configure --disable-bench make
-
It is recommended to build and run the unit tests:
make check
Then you can either run the command-line daemon using src/metrixd
and src/metrix-cli
, or you can run the Qt GUI using src/qt/metrix-qt
Metrix is GPLv3 licensed.
The master
branch is regularly built and tested, but is not guaranteed to be
completely stable. Tags are created
regularly to indicate new official, stable release versions of Metrix.
The contribution workflow is described in CONTRIBUTING.md.
Testing and code review is the bottleneck for development; we get more pull requests than we can review and test on short notice. Please be patient and help out by testing other people's pull requests, and remember this is a security-critical project where any mistake might cost people lots of money.
Developers are strongly encouraged to write unit tests for new code, and to
submit new unit tests for old code. Unit tests can be compiled and run
(assuming they weren't disabled in configure) with: make check
. Further details on running
and extending unit tests can be found in /src/test/README.md.
There are also regression and integration tests, written
in Python, that are run automatically on the build server.
These tests can be run (if the test dependencies are installed) with: test/functional/test_runner.py
Changes should be tested by somebody other than the developer who wrote the code. This is especially important for large or high-risk changes. It is useful to add a test plan to the pull request description if testing the changes is not straightforward.