The Tari protocol

A number of applications have been developed by the Tari community to implement the Tari protocol. These are:

• Minotari Base Node
• Minotari Wallet
• Minotari Miner
• Minotari Merge Mining Proxy
• Minotari Aurora wallets for Android and iOS

Only the first four applications will be discussed in this README (see wallet-android and wallet-ios for mobile wallets' repos).

Developers

Want to contribute? Start by reading the Contributing Guide and the Reviewing Guide.

Installing using binaries

Versions

The recommended running versions of each network are:

Network	Version
Stagenet	1.0.0-alpha.0a
Nextnet	1.0.0-rc.8
Esmeralda	1.1.0-pre.2

For more detail about versioning, see Release Ideology.

Download

Download binaries from tari.com. This is the easiest way to run a Tari node, but you're essentially trusting the person that built and uploaded them that nothing untoward has happened.

Hashes of the binaries are available alongside the downloads. You can get the hash of your download by opening a terminal or command prompt and running the following:

(*nix)

shasum -a256 <PATH_TO_BINARY_INSTALL_FILE>

(Windows)

certUtil -hashfile <PATH_TO_BINARY_INSTALL_FILE> SHA256

If the result doesn't match the published hash, don't run the binary. Note that this only checks that your binary was downloaded correctly; it cannot detect if the binary was replaced by a bad actor. If you need to ensure that your binary matches the source, see Building from source below.

Install

After you have downloaded the binaries, you need to install them. This is easy to do, and works as follows:

On *Nix

Assuming you want to install the Tari applications into your home folder, run the following:

cd ~
tar -xf <PATH_TO_BINARY_INSTALL_FILE>

After this, the Tari applications will be located in ~/tari_esmeralda_testnet with a selection of soft links to run them.

On Windows

Just double-click the installer and accept all the default prompts. The Tari applications will be located in the folder you selected during installation, and can be run by double-clicking the various shortcuts or via the Windows menu (Tari Testnet).

Runtime links

Use the one-click miner

Execute the start_all soft link/shortcut; this will start everything you need depending on the choices you make when prompted:

• Tor services started by default
• Minotari Base Node, or
• Minotari Base Node & Minotari Wallet, or
• Minotari Base Node & Minotari Wallet & Minotari Miner, or
• Minotari Base Node & Minotari Wallet & Minotari Merge Mining Proxy & XMRig

Start all applications individually

• Execute the start_minotari_node soft link/shortcut; this will also start the Tor services if not running already that needs to be running before the base node can run (do not close the Tor console).

• Execute the start_minotari_console_wallet soft link/shortcut; this will also start the Tor services that needs to be running before the base node can run (do not close the Tor console).

  Note: The Tor console will output [notice] Bootstrapped 100% (done): Done when the Tor services have fully started.

• Depending on your choice of mining:

  • SHA3 standalone mining
    • Execute the start_minotari_miner soft link/shortcut.
  • Merge mining with Monero
    • Execute the start_minotari_merge_mining_proxy soft link/shortcut.
    • Execute the start_xmrig shortcut.

Building from source

To build the Minotari codebase from source, there are a few dependencies you need to have installed.

Install development packages

First you'll need to make sure you have a full development environment set up:

(macOS)

brew update
brew install coreutils tor openssl \
  cmake make libtool autoconf automake protobuf

(macOS M1 chipset)

If RandomX unit tests are failing, please update the Mac to ensure it's running at least Darwin Kernel Version 22.3.0.

(Ubuntu 18.04, including WSL-2 on Windows)

sudo apt-get update
sudo apt-get -y install openssl libssl-dev pkg-config libsqlite3-dev clang git cmake libc++-dev libc++abi-dev libprotobuf-dev protobuf-compiler libncurses5-dev libncursesw5-dev
sudo apt-get install -y wget apt-transport-https
sudo wget -q "https://packages.microsoft.com/config/ubuntu/$(lsb_release -rs)/packages-microsoft-prod.deb"
sudo dpkg -i packages-microsoft-prod.deb
sudo apt-get update
sudo add-apt-repository universe
sudo apt-get install -y powershell

(Windows)

First you'll need to make sure you have a full development environment set up:

• LLVM

  • https://releases.llvm.org/
  • Create a LIBCLANG_PATH environment variable pointing to the LLVM lib path, e.g.

    setx LIBCLANG_PATH "C:\Program Files\LLVM\lib"
    

• Build Tools

  • CMake (Used for RandomX)

  • Either:

    • Microsoft Visual Studio Version 2019 or later
      • C++ CMake tools for Windows
      • MSVC build tools (latest version for your platform ARM, ARM64 or x64.x86)
      • Spectre-mitigated libs (latest version for your platform ARM, ARM64 or x64.x86)

    or

    • Build Tools for Visual Studio 2019

• Perl for OpenSSL:

  • OpenSSL is compiled and statically linked by the included rust-openssl crate
  • Perl is required to compile this source on Windows, please download and install StrawberryPerl

• Protocol Buffers

  • Install from https://github.com/protocolbuffers/protobuf#protobuf-compiler-installation or if you using The Package Manager for Windows, run choco upgrade protoc -y

• Tor

  • Download Tor Windows Expert Bundle
  • Extract to local path, e.g. C:\Program Files (x86)\Tor Services
  • Ensure the directory containing the Tor executable, e.g. C:\Program Files (x86)\Tor Services\Tor, is in the path

Install Rust (*nix)

You can follow along at The Rust Website or just follow these steps to get Rust installed on your machine:

curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh

Then make sure that cargo has been added to your path:

export PATH="$HOME/.cargo/bin:$PATH"

Install Rust (Windows 10)

Follow the installation process for Windows at The Rust Website. Then make sure that cargo and rustc have been added to your path:

cargo --version
rustc --version

Checkout the source code

In your directory of choice (e.g. %USERPROFILE%\Code on Windows), clone the Tari repo:

git clone https://github.com/tari-project/tari.git

Build

Grab a cup of coffee and begin the Tari build.

(*nix)

cd tari
cargo build --release

(Windows)

This is similar to building in Ubuntu, except the Microsoft Visual Studio environment must be sourced. Open the appropriate x64\x86 Native Tools Command Prompt for VS 2019, and in your main Tari directory perform the build, which will create the executable inside your %USERPROFILE%\Code\tari\target\release directory:

cd %USERPROFILE%\Code\tari
cargo build --release

A successful build should output something like this:

   Compiling minotari_wallet v0.0.9 (.../tari/base_layer/wallet)
   Compiling minotari_wallet_ffi v0.0.9 (.../tari/base_layer/wallet_ffi)
   Compiling minotari_node v0.0.9 (.../tari/applications/minotari_node)
    Finished release [optimized] target(s) in 12m 24s

Compiled executables can be found at these paths::

./target/release/minotari_node
./target/release/minotari_console_wallet
./target/release/minotari_merge_mining_proxy
./target/release/minotari_miner

Alternatively, cargo can build and install the executable into ~/.cargo/bin (%USERPROFILE%\.cargo\bin on Windows), so it will be executable from anywhere on your system:

cargo install --path=applications/minotari_node --force
cargo install --path=applications/minotari_console_wallet --force
cargo install --path=applications/minotari_merge_mining_proxy --force
cargo install --path=applications/minotari_miner --force

---

Alternatively, cargo can build and install the executable into %USERPROFILE%\.cargo\bin, so it will be executable from anywhere on your system:

cargo install --path=applications/minotari_node --force
cargo install --path=applications/minotari_console_wallet --force
cargo install --path=applications/minotari_merge_mining_proxy --force
cargo install --path=applications/minotari_miner --force

Run

The executables will either be inside your ~/tari/target/release (on Linux) or %USERPROFILE%\Code\tari\target\release (on Windows) directory, or alternatively, inside your ~/.cargo/bin (on Linux) %USERPROFILE%\.cargo\bin (on Windows) directory, depending on the build choice above, and must be run from the command line. If the former build method was used, you can run it from that directory, or you more likely want to copy it somewhere more convenient. Make sure to start the Tor service ~/tari/applications/minotari_node/osx/start_tor (on Mac), ~/tari/applications/minotari_node/linux/start_tor (on Linux) or %USERPROFILE%\Code\tari\applications\minotari_node\windows\start_tor.lnk (on Windows).

To run from any directory of your choice, where the executable is visible in the path (first-time use):

minotari_node --init
minotari_node

minotari_console_wallet --init

minotari_merge_mining_proxy

minotari_miner --init

Consecutive runs:

minotari_node

minotari_console_wallet

minotari_merge_mining_proxy

minotari_miner

Alternatively, you can run the Tari applications from your source directory using cargo, and just omit the --release flag if you want to run in debug mode (first time use):

cargo run --bin minotari_node --release --  --init
cargo run --bin minotari_node --release

cargo run --bin minotari_merge_mining_proxy --release

cargo run --bin minotari_console_wallet --release --  --init

cargo run --bin minotari_miner --release

On consecutive runs:

cargo run --bin minotari_node --release

cargo run --bin minotari_console_wallet --release

cargo run --bin minotari_merge_mining_proxy --release

cargo run --bin minotari_miner --release

Using all the default options, the blockchain database, wallet database, console wallet database, log files and all configuration files will be created in the ~/.tari (on Linux) or %USERPROFILE%\.tari (on Windows) directory. Alternatively, by specifying --base-path <base-path> on the command line as well, all of this will be created in that directory.

Advanced build configurations

• Vagrant: See Building with Vagrant, using Vagrant to build and run a basenode, as cleanly as possible.

Using Docker

Running the base node with a Docker image

Minotari Base Node Docker images can be found at https://quay.io/repository/tarilabs/minotari_node

Using docker-compose.yaml:

version: "3"

services:
  minotari_node:
    image: quay.io/tarilabs/minotari_node:v0.5.4
    restart: unless-stopped
    volumes:
      - ./data:/root/.tari
# These 2 params are required for an interactive docker-compose session
    stdin_open: true
    tty: true
    expose:
      - 18142
    ports:
      - "18142:18142"

Then run docker-compose up -d to start your docker service.

Check the running state with docker-compose ps:

        Name           Command    State            Ports
------------------------------------------------------------------
tbn_minotari_node_1   start.sh   Up      0.0.0.0:18142->18142/tcp

To connect to the console, use docker ps to get the container ID to which to attach the `minotari_node`` in Docker:

CONTAINER ID        IMAGE                                    COMMAND             CREATED             STATUS              PORTS                      NAMES
73427509a4bb        quay.io/tarilabs/minotari_node:v0.5.4   "start.sh"          45 minutes ago      Up 26 minutes       0.0.0.0:18142->18142/tcp   tbn_minotari_node_1

With the container ID 73427509a4bb, connect to the minotari_node console using docker attach 73427509a4bb:

>> help
Available commands are:
help, version, get-chain-metadata, list-peers, reset-offline-peers, ban-peer, unban-peer, list-connections, list-headers,
check-db, calc-timing, discover-peer, get-block, search-utxo, search-kernel, search-stxo, get-mempool-stats,
get-mempool-state, whoami, get-state-info, quit, exit
>> get-chain-metadata
Height of longest chain : 5228
Geometric mean of longest chain : 5892870
Best block : 2c4f92854b2160324b8afebaa476b39be4004d2a7a19c69dd2d4e4da257bfee2
Pruning horizon : 0
Effective pruned height : 0
>> get-state-info
Current state machine state:
Synchronizing blocks: Syncing from the following peers:
510c83279adc7cb7d7dda0aa07
Syncing 5229/5233

---

Building a Docker image

If you don't want to use the Docker images provided by the community, you can roll your own!

First, clone the Tari repo:

git clone git@github.com:tari-project/tari.git

Then build the image using the dockerfile in buildtools. The base node dockerfile builds the application and then places the binary inside a small container, keeping the executable binary to a minimum:

docker build -t minotari_node:latest -f ./buildtools/base_node.Dockerfile .

Test your image:

docker run --rm -ti minotari_node minotari_node --help

Run the base node:

docker run -ti -v /path/to/config/dir:/root/.tari minotari_node

Default Docker builds for base x86-64 CPU. Better performing builds can be created by passing build options:

docker build -t minotari_node:performance --build-arg TBN_ARCH=skylake --build-arg TBN_FEATURES=avx2 -f ./buildtools/base_node.Dockerfile .

---

Mining

The Tari protocol supports hybrid mining; stand-alone or pooled SHA3 mining using the Minotari Miner or merged mining with Monero using the Minotari Merge Mining Proxy in conjunction with XMRig (RandomX-based mining). Blocks to be won by standalone and pooled SHA3 mining have been apportioned to approximately 40% and with Monero merged mining to approximately 60%. This apportionment is deeply baked into the Tari protocol and part of the consensus rules. The 40/60 split is determined by slightly different block target times for each algorithm, that when combined will give an average block time of approximately 120 seconds. Each mining algorithm makes use of Linear Weighted Moving Average (LWMA) maths to gracefully adjust the target difficulties to adhere to the respective target block times. Any block won by either mining algorithm will be accepted, and when there is a tie, a geometric mean calculation will be used to decide the winner. This system is completely fair without any additional empirical meddling to try force a certain outcome.

Tari SHA3 mining

In order to perform SHA3 mining with Tari, the following applications are needed:

• A Minotari Base Node [to supply blockchain metadata information];
• A Minotari Wallet [to collect the Minotari block rewards (coinbase transactions)];
• A Minotari Miner [to perform the mining];

In order to perform pooled SHA3 mining with Tari, the following applications are needed:

• For a pool operator:

  • A Minotari Base Node [to supply blockchain metadata information];
  • A Minotari Wallet [to collect the Minotari block rewards (coinbase transactions)];
  • Miningcore [pool software supporting various cryptocurrencies, configured for Tari]

• For a miner:

  • A Minotari Wallet [to collect the share rewards (pool payouts)];
  • A Minotari Miner [to perform the mining];

Runtime prerequisites

The Minotari Base Node, Minotari Wallet and Minotari Miner can all run in the same directory. By performing the default installation as described in Installing using binaries, all these applications will be available.

For MiningCore see the Linux and Windows build instructions.

Configuration prerequisites

The configuration prerequisites are the same for all four Tari applications. After performing a default installation, locate the main configuration file (config.toml), which will be created in the ~/tari_esmeralda_testnet/config (on Linux) or %USERPROFILE%\.tari-testnet\config (on Windows) directory.

With the main configuration file, in addition to the settings already present, the following must also be enabled for the Minotari Base Node and the Minotari Wallet, if they are not enabled already. Under sections base_node.esmeralda and wallet respectively:

[wallet]

grpc_address = "127.0.0.1:18143"

[base_node.esmeralda]
transport = "tor"
allow_test_addresses = false
grpc_enabled = true
grpc_base_node_address = "127.0.0.1:18142"

For MiningCore:

See example configuration here.

For the Minotari Miner there are some additional settings under section miner that can be changed:

• For SHA3 Mining:

[miner]
# Number of mining threads
# Default: number of logical CPU cores
#num_mining_threads=8

# GRPC address of base node
# Default: value from `base_node.grpc_base_node_address`
#base_node_grpc_address = "127.0.0.1:18142"

# GRPC address of console wallet
# Default: value from `wallet.grpc_address`
#wallet_grpc_address = "127.0.0.1:18143"

# Start mining only when base node is bootstrapped
# and current block height is on the tip of network
# Default: true
#mine_on_tip_only=true

# Will check tip with node every N seconds and restart mining
# if height already taken and option `mine_on_tip_only` is set
# to true
# Default: 30 seconds
#validate_tip_timeout_sec=30

For pooled SHA3 mining:

[miner]
# Number of mining threads
# Default: number of logical CPU cores
#num_mining_threads=8

# Stratum Mode configuration
# mining_pool_address = "miningcore.tari.com:3052"
# mining_wallet_address = "YOUR_WALLET_PUBLIC_KEY"
# mining_worker_name = "worker1"

Uncomment mining_pool_address and mining_wallet_address. Adjust the values to your intended configuration. mining_worker_name is an optional configuration field allowing you to name your worker.

Perform SHA3 mining

• For SHA3 mining: Tor and the required Tari applications must be started and preferably in this order:

  • Tor:

    • Linux/OSX: Execute start_tor.sh.

    • Windows: Start Tor Serviecs menu item or start_tor shortcut in the Tari installation folder.

    • Tari Base Node:

    • Linux/OSX: As per Runtime links.

    • Windows: As per Runtime links or Start Base Node menu item or start_minotari_node shortcut in the Tari installation folder.

  • Tari Console Wallet:

    • Linux/OSX: As per Runtime links.
    • Windows: As per Runtime links or Start Console Wallet menu item or start_tari_console_wallet shortcut in the Tari installation folder.

  • Tari Miner:

    • Linux/OSX: As per Runtime links.
    • Windows: As per Runtime links or Start Miner menu item or start_tari_miner shortcut in the Tari installation folder.

Look out for the following types of messages on the Tari Miner console to confirm that it is connected properly and performing mining:

2021-02-26 11:24:23.604202000 [minotari_miner] INFO  Connecting to base node at http://127.0.0.1:18151
2021-02-26 11:24:23.606260800 [minotari_miner] INFO  Connecting to wallet at http://127.0.0.1:18161
2021-02-26 11:24:23.721890400 [minotari_miner::miner] INFO  Mining thread 0 started
2021-02-26 11:24:23.722287800 [minotari_miner::miner] INFO  Mining thread 1 started
2021-02-26 11:24:23.722505500 [minotari_miner::miner] INFO  Mining thread 2 started
2021-02-26 11:28:19.687855700 [minotari_miner::miner] INFO  Mining thread 2 stopped
2021-02-26 11:28:19.688251200 [minotari_miner] INFO  Miner 2 found block header BlockHeader { hash: [...], version: 1,
  height: 8493, prev_hash: [...], timestamp: Some(Timestamp { seconds: 1614331698, nanos: 0 }), output_mr: [...],
  witness_mr: [...], total_kernel_offset: [...], nonce: 8415580256943728281, pow: Some(ProofOfWork { pow_algo: 2,
  pow_data: [] }), kernel_mmr_size: 24983, output_mmr_size: 125474 } with difficulty 7316856839

• For pooled SHA3 Mining:

  • Pool Operators: Tor and the required Minotari applications must be started in this order:

    • Tor:

      • Linux/OSX: Execute start_tor.sh.
      • Windows: Start Tor Serviecs menu item or start_tor shortcut in the Tari installation folder.

    • Minotari Base Node:

      • Linux/OSX: As per Runtime links.
      • Windows: As per Runtime links or Start Base Node menu item or start_minotari_node shortcut in the Tari installation folder.

    • Minotari Wallet:

      • Linux/OSX: As per Runtime links.
      • Windows: As per Runtime links or Start Console Wallet menu item or start_tari_console_wallet shortcut in the Tari installation folder.

    • MiningCore

  • Miners:

    • Minotari Miner:
      • Linux/OSX: As per Runtime links.
      • Windows: As per Runtime links or Start Miner menu item or start_tari_miner shortcut in the Tari installation folder.

Tari merge mining

In order to perform merge mining with Tari, the following applications are needed:

• A Minotari Base Node [to supply blockchain metadata information];
• A Minotari Wallet [to collect the Tari block rewards (coinbase transactions)];
• A Minotari Merge Mining Proxy [to enable communication between all applications];
• XMRig [to perform the mining];
• Monero wallet (specifically a stagenet wallet address during testnet; the one provided can be used, or a custom one can be set up) [to collect Monero block rewards (coinbase transactions)].

The Minotari Merge Mining Proxy will be the communication gateway between all these applications and will coordinate all activities. It will also submit finalized Minotari and Monero blocks to the respective networks when RandomX is solved at the respective difficulties.

Runtime prerequisites

The Minotari Base Node, Minotari Wallet and Minotari Merge Mining Proxy can all run in the same directory, whereas XMRig will run in its own directory. By performing the default installation as described in Installing using binaries, all these applications will be available.

XMRig can also be build from sources. If that is your preference, follow these instructions: https://xmrig.com/docs/miner/.

Configuration prerequisites

Minotari applications

The configuration prerequisites are the same for all three Minotari applications. After performing a default installation, locate the main configuration file (config.toml), which will be created in the ~/tari_esmeralda_testnet/config (on Linux) or %USERPROFILE%\.tari-testnet\config (on Windows) directory.

With the main configuration file, in addition to the settings already present, the following must also be enabled if they are not enabled already:

• For the Minotari Base Node and the Minotari Wallet, under sections base_node.esmeralda and wallet respectively

  [wallet]
  grpc_address = "127.0.0.1:18143"
  

  [base_node.esmeralda]
  transpo*_r_*t = "tor"
  allow_test_addresses = false
  base_node_grpc_address = "127.0.0.1:18142"
  

Depending on if you are using solo mining or self-select mining, you will use one of the following:

Solo mining

• For the Minotari Merge Mining Proxy, under section merge_mining_proxy

  [merge_mining_proxy]
  monerod_url = [ # stagenet
    "http://stagenet.xmr-tw.org:38081",
    "http://stagenet.community.xmr.to:38081",
    "http://monero-stagenet.exan.tech:38081",
    "http://xmr-lux.boldsuck.org:38081",
    "http://singapore.node.xmr.pm:38081",
  ]
  
  proxy_host_address = "127.0.0.1:18081"
  proxy_submit_to_origin = true
  monerod_use_auth = false
  monerod_username = ""
  monerod_password = ""
  

Self-Select mining

• For the Minotari Merge Mining Proxy, under section merge_mining_proxy

  [merge_mining_proxy]
  monerod_url = [ # stagenet
    "http://stagenet.xmr-tw.org:38081",
    "http://stagenet.community.xmr.to:38081",
    "http://monero-stagenet.exan.tech:38081",
    "http://xmr-lux.boldsuck.org:38081",
    "http://singapore.node.xmr.pm:38081",
  ]
  
  proxy_host_address = "127.0.0.1:18081"
  proxy_submit_to_origin = false
  monerod_use_auth = false
  monerod_username = ""
  monerod_password = ""
  

Note: The ports 18081, 18142 and 18143 shown in the example above should not be in use by other processes. If they are, choose different ports. You will need to update the ports in the steps below as well.

The monerod_url set must contain valid addresses (host:port) for monerod that is running Monero mainnet (e.g. ["http://18.132.124.81:18081"]) or stagenet (e.g. ["http://monero-stagenet.exan.tech:38081"]), which can be a public node or local instance. To test if the monerod_url address is working properly, try to paste host:port/get_height in an internet browser, for example:

http://18.132.124.81:18081/get_height

A typical response would be:

{
  "hash": "ce32dd0a6e3220d57c368f2cd01e5980a9b4d70f02b27274d67142d5b26cb4d6",
  "height": 2277206,
  "status": "OK",
  "untrusted": false
}

Note: A guide to setting up a local Monero stagenet on Linux can be found here.

XMRig configuration

The XMRig configuration must be prepared for either solo or pool merged mining with Monero. It is advisable to use a configuration file for XMRig as this offers more flexibility, otherwise, the configuration parameters can be passed in via the command line upon runtime.

Notes:

• Monero mainnet and stagenet wallet addresses can only be used with the corresponding network. The monerod_url configuration setting (see Minotari applications) must also correspond to the chosen network.
• For the solo mining configuration, Monero doesn't currently support requesting templates to mine on with the address being a subaddress. It is possible to do with the self-select configuration since the template is requested by the miner with the wallet address of the pool.

Solo-mining

The XMRig configuration wizard can be used to create a solo mining configuration file in JSON format:

• Start -> + New configuration

• Pools -> + Add daemon

  • With Add new daemon for Solo mining, complete the required information, then + Add daemon:
    • Host, Port: This must correspond to the proxy_host_address in the Tari configuration file.
    • Secure connection (TLS): Uncheck.
    • Coin: Monero.
    • Wallet address: This must be your own stagenet or mainnet wallet address, or you can use these donation addresses:
      • Public stagenet address at https://coin.fyi/news/monero/stagenet-wallet-8jyt89#! 55LTR8KniP4LQGJSPtbYDacR7dz8RBFnsfAKMaMuwUNYX6aQbBcovzDPyrQF9KXF9tVU6Xk3K8no1BywnJX6GvZX8yJsXvt
      • Mainnet address <Enter your own mainnet wallet address here>

• Backends -> Select CPU (OpenCL or CUDA also possible depending on your computer hardware).

• Misc -> With Donate, type in your preference.

• Result -> With Config file, copy or download, than save as config.json.

Using the public stagenet wallet address above, the resulting configuration file should look like this:

{
    "autosave": true,
    "cpu": true,
    "opencl": false,
    "cuda": false,
    "pools": [
        {
            "coin": "monero",
            "url": "127.0.0.1:18081",
            "user": "55LTR8KniP4LQGJSPtbYDacR7dz8RBFnsfAKMaMuwUNYX6aQbBcovzDPyrQF9KXF9tVU6Xk3K8no1BywnJX6GvZX8yJsXvt",
            "tls": false,
            "daemon": true
        }
    ]
}

Pool mining with Self-Select

For pool mining, the configuration file obtained from the XMRig configuration wizard must be augmented with Tari specific settings. Using the wizard, create the following:

• Start -> + New configuration

• Pools -> + Add pool -> Custom pool

  • With Add new custom pool, complete the required information, then + Add pool:
    • Host, Port: This must be for a Monero mainnet mining pool that supports the self-select.
    • Secure connection (TLS): Check/Uncheck (based on the pool requirements).
    • keepalive: Check.
    • nicehash: Uncheck.
    • User: This must be your own mainnet wallet address, or you can use this address to donate to Monero:
      • Public mainnet address at https://www.getmonero.org/get-started/contributing/ 888tNkZrPN6JsEgekjMnABU4TBzc2Dt29EPAvkRxbANsAnjyPbb3iQ1YBRk1UXcdRsiKc9dhwMVgN5S9cQUiyoogDavup3H
    • Password: A custom field that could be your wallet name or some other pool settings.
    • Coin: Monero.
    • Algorithm: rx/0.

• Backends -> Select CPU (OpenCL or CUDA also possible depending on your computer hardware).

• Misc -> With Donate, type in your preference.

• Result -> With Config file, copy or download, than save as config.json.

• Add custom entries for "self-select": "127.0.0.1:18081" and "submit-to-origin": true in the "pools" section.

Mining pool cryptonote.social requires you to add a personalized handle to the wallet address so that you can query your own pool statistics, separated by a full stop, i.e. <YOUR WALLET ADDRESS>.<pool specific user name>. For demonstration purposes, donatemonero has been associated with the public mainnet wallet address above. If you go to https://cryptonote.social/xmr and enter donatemonero in the Username: text box you will see some merge mining activity for that address. The configuration file used for this exercise is shown below:

{
    "autosave": true,
    "cpu": true,
    "opencl": false,
    "cuda": false,
    "pools": [
        {
            "coin": "monero",
            "algo": "rx/0",
            "url": "cryptonote.social:5555",
            "user": "888tNkZrPN6JsEgekjMnABU4TBzc2Dt29EPAvkRxbANsAnjyPbb3iQ1YBRk1UXcdRsiKc9dhwMVgN5S9cQUiyoogDavup3H.donatemonero",
            "pass": "start_diff=220000;payment_scheme=pprop;donate=0.5",
            "tls": false,
            "keepalive": true,
            "nicehash": false,
            "self-select": "127.0.0.1:18081",
            "submit-to-origin": true
        }
    ]
}

Perform merge mining

Tor and the required Minotari applications must be started, preferably in this order:

• Tor:

  • Linux/OSX: Execute start_tor.sh.
  • Windows: Start Tor Serviecs menu item or start_tor shortcut in the Tari installation folder.

• Tari Base Node:

  • Linux/OSX: As per Runtime links.
  • Windows: As per Runtime links or Start Base Node menu item or start_minotari_node shortcut in the Tari installation folder.

• Tari Console Wallet:

  • Linux/OSX: As per Runtime links.
  • Windows: As per Runtime links or Start Console Wallet menu item or start_minotari_console_wallet shortcut in the Tari installation folder.

• Tari Merge Mining Proxy:

  • Linux/OSX: As per Runtime links.
  • Windows: As per Runtime links or Start Merge Mining Proxy menu item or start_minotari_merge_mining_proxy shortcut in the Tari installation folder.

In addition, select one of the merge mining options as outlined in solo or pool mining in the next paragraphs.

Solo merged mining with Monero

This paragraph is applicable to solo mining Monero on mainnet or stagenet and solo mining Tari on testnet.

Solo merged mining with Monero is supported using the daemon option.

Merge Mining Proxy configuration

As mentioned previously, the monerod_url field in the config.toml should be enabled for the corresponding mainnet or stagenet network Monero wallet address:

# URL to monerod
  monerod_url = [ # mainnet
  "http://18.132.124.81:18081",
  "http://xmr.support:18081",
  "http://node1.xmr-tw.org:18081",
  "http://xmr.nthrow.nyc:18081",
  ]
  monerod_url = [ # stagenet
    "http://stagenet.xmr-tw.org:38081",
    "http://stagenet.community.xmr.to:38081",
    "http://monero-stagenet.exan.tech:38081",
    "http://xmr-lux.boldsuck.org:38081",
    "http://singapore.node.xmr.pm:38081",
  ]

Runtime

Ensure the config.json configuration file discussed in Solo mining is copied to the XMRig build or install folder, then start XMRig:

• Linux/OSX: Execute ./xmrig in the XMRig build or install folder.

• Windows: Execute xmrig in the XMRig build or install folder, or Start XMRig menu item or start_xmrig shortcut in the Tari installation folder.

  Note: On modern Windows versions, coin mining software is blocked by default, for example by Windows Defender. Ensure that these processes are allowed to run when challenged:

  • PUA:Win32/CoinMiner
  • PUA:Win64/CoinMiner
  • App:XMRigMiner

Look out for the following outputs in the XMRig console to confirm that it is connected to the Merge Mining Proxy and accepting jobs:

* POOL #1      127.0.0.1:18081 coin monero

[2021-01-21 12:10:18.960]  net      use daemon 127.0.0.1:18081  127.0.0.1
[2021-01-21 12:10:18.960]  net      new job from 127.0.0.1:18081 diff 286811 algo rx/0 height 756669
[2021-01-21 12:10:56.730]  cpu      rejected (0/1) diff 286811 "Block not accepted" (656 ms)
[2021-01-21 12:10:57.398]  net      new job from 127.0.0.1:18081 diff 293330 algo rx/0 height 756670
[2021-01-21 12:12:23.695]  miner    speed 10s/60s/15m 4089.0 4140.2 n/a H/s max 4390.9 H/s
[2021-01-21 12:12:57.983]  cpu      accepted (1/1) diff 293330 (594 ms)

The cpu: rejected and cpu: accepted messages originate from stagenet or mainnet monerod, and show the Monero statistics. At this point, the mined and rejected Minotari coinbases should be visible in the Minotari Wallet.

Pool merged mining with Monero (self select)

This paragraph is applicable to pool mining Monero on mainnet and solo mining Minotari on testnet.

Pool merged mining with Monero is supported using the Stratum mode self-select option via XMRig. Two mining pools we have tried out that support this feature are monero-pool, with its reference pool implementation running here, and cryptonote.social. With normal self select mode, XMRig requests a Monero block template from a third party and submits the solution to the mining pool. Minotari added a submit-to-origin option to the self select mode whereby, if a solution has been found that only matches the pool difficulty, XMRig will submit the solution to the pool only; but if the achieved difficulty meets both that of the pool and Minotari, it will be submitted to the Merge Mining Proxy as well as to the mining pool.

Merge Mining Proxy configuration

The monerod_url field in the config.toml should be enabled for the mainnet value:

# URL to monerod
  monerod_url = [ # mainnet
  "http://18.132.124.81:18081",
  "http://xmr.support:18081",
  "http://node1.xmr-tw.org:18081",
  "http://xmr.nthrow.nyc:18081",
  ]

Runtime

Ensure the config.json configuration file discussed in Pool mining with self select is copied to the XMRig build or install folder, then start XMRig as before for solo mining.

Look out for the following outputs in the XMRig console to confirm that it is connected to the pool and the Merge Mining Proxy and accepting jobs:

* POOL #1      cryptonote.social:5555 coin monero self-select 127.0.0.1:18081 submit-to-origin

[2021-01-18 11:40:48.392]  net      new job from cryptonote.social:5555 diff 220006 algo rx/0 height 2277084
[2021-01-18 11:41:22.378]  origin   submitted to origin daemon (1/0)  diff 284557 vs. 371742
[2021-01-18 11:41:22.812]  cpu      accepted (1/0) diff 220006 (433 ms)
[2021-01-18 11:41:39.201]  miner    speed 10s/60s/15m 1562.2 1630.4 n/a H/s max 1710.0 H/s
[2021-01-18 11:42:06.320]  cpu      accepted (2/0) diff 220006 (482 ms)

Status essages origin: submitted to origin daemon (1/0) and origin: not submitted to origin daemon, difficulty too low (1/1) pertains to submissions to the Tari network, and cpu: accepted (1/0) to the pool.

Mined and rejected Tari coinbases should be visible in the Tari Console Wallet, and pool shares in the pool interface. If you are using cryptonote.social:5555 as in the example above, go to https://cryptonote.social/xmr and type in your wallet identity under Username: to see your shares, or try taritest if you used this configuration example.

Project documentation

• RFC documents are hosted on Github Pages. The source markdown is in the RFC directory.
• Source code documentation is hosted on docs.rs
• RFC repo

RFC documents

The RFCs are long-form technical documents proposing changes and features to the Tari network and ecosystem. They are hosted at https://rfc.tari.com, and the RFC repo is at https://github.com/tari-project/rfcs.

Source code documentation

Run

cargo doc

to generate the documentation. The generated html sits in target/doc/. Alternatively, to open a specific package's documentation directly in your browser, run the following:

cargo doc -p <package> --open

Conversation channels

We're generally on Discord.