Welcome to Floresta, a lightweight Bitcoin full node implementation written in Rust, powered by Utreexo a novel dynamic accumulator designed for the Bitcoin UTXO set.
This project is composed of two parts, libfloresta
and florestad
. libfloresta
is
a set of reusable components that can be used to build Bitcoin applications. florestad
is built on top of libfloresta
to provide a full node implementation, including a watch-only wallet and an Electrum server. If you just want to run a full node, you can use florestad
directly, either by building it from source or by downloading a pre-built binary from the releases.
If you want to use libfloresta
to build your own Bitcoin application, you can find the documentation here.
- Building
- Running
- Running the Tests
- Running Benchmarks
- Fuzzing
- Contributing
- Using Nix
- License
- Acknowledgments
- Consensus Implementation
If you want to discuss this project, you can join our Discord server here. If you want to disclose
a security vulnerability, please email Davidson Souza at me AT dlsouza DOT lol
, using the PGP key 2C8E0F 836FD7D BBBB9E 9B2EF899 64EC3AB 22B2E3
.
sudo apt update
sudo apt install gcc build-essential pkg-config libssl-dev
You'll need Rust and Cargo, refer to this for more details. Minimum support version is rustc 1.74 and newer.
Once you have Cargo, clone the repository with:
git clone https://github.com/vinteumorg/Floresta.git
go to the Floresta directory
cd Floresta/
and build with cargo build
cargo build --release
# Optionally, you can add florestad to the path with
cargo install --path ./florestad
The following steps should be executed in a Terminal application. Tip: press Command (⌘) + Space
and search for terminal
.
To install, run the following command from your terminal:
xcode-select --install
Upon running the command, you should see a popup appear.
Click on Install
to continue the installation process.
Homebrew is a package manager for macOS that allows one to install packages from the command line easily. You can use the package manager of your preference.
To install the Homebrew package manager, see: https://brew.sh
Note: If you run into issues while installing Homebrew or pulling packages, refer to Homebrew's troubleshooting page.
On the Terminal, using Homebrew, run the following:
brew update
brew install gcc pkg-config openssl
- At this point you can proceed from cargo and rust at the previous section.
If you're using Nix, you can add Florestad to your system with its overlay.
{
#Here you declare the floresta set for your flake
inputs.floresta-node = {
url = "github:vinteumorg/Floresta";
inputs = {
nixpkgs.follows = "nixpkgs";
flake-parts.follows = "flake-parts";
};
};
#Pass floresta-node as a input to "output".
outputs = { self, floresta-node }:
{
imports = [
{
overlays = [
# Here you use the floresta overlay with your others
floresta-node.overlay.default
];
}
];
};
then florestad
and floresta-cli
will be available just like any other package with
pkgs.floresta-node
After building, florestad and floresta-cli will be available in the target directory. You can run the full node with
./target/release/florestad
# or, if you installed it with cargo install
florestad
You may run it as a background process with the --daemon
flag.
florestad --daemon
This will start the full node, and you can connect to it with an Electrum wallet or with the floresta-cli
tool.
floresta-cli getblockchaininfo
For more information on how to use the floresta-cli
tool, you can check the api documentation.
Before running you can create the SSL certificates. If you don't do it, it will display a logging Failed to load SSL certificates, ignoring SSL
. However, it is not mandatory to have the certificates to run the full node.
If you want to skip the IBD process, you can use the --assume-utreexo
flag. This flag will start the node at a given height, with the state
provided by this implementation. Therefore, you're trusting that we are giving you the correct state. Everything after that height will be
verified by the node just like any other node.
florestad --assume-utreexo
Floresta supports compact block filters, which can be used to scan for transactions in a block without downloading the entire block. You can start the node with the --cfilters
flag to download the filters for the blocks that you're interested in. You can also use the --filters-start-height
flag to specify the block height that you want to start downloading the filters from. This is useful if you want to download only the filters for a specific range of blocks.
florestad --cfilters --filters-start-height 800000
You can get a list of all the available commands by running
floresta-cli help
and you can get the cli parameters by running
floresta-cli help <command>
Floresta comes with a watch-only wallet that you can use to track your transactions. You just need to provide the wallet
information, either as a configuration file or as a command line argument. See the sample configuration file for an example config. Floresta supports SLIP-132 extended public keys (xpubs) and output descriptors. You can add new wallets to follow at any time, just
call the rescan
rpc after adding the wallet.
You can add new descriptors to the wallet with the importdescriptor
rpc.
floresta-cli importdescriptor "wpkh(xpub6CFy3kRXorC3NMTt8qrsY9ucUfxVLXyFQ49JSLm3iEG5gfAmWewYFzjNYFgRiCjoB9WWEuJQiyYGCdZvUTwPEUPL9pPabT8bkbiD9Po47XG/<0;1>/*)"
The rescan assumes that you have compact block filters for the blocks that you're scanning. You can either download all the filters
(about 11GB on mainnet) or, if you know the block range that you're interested in, you can download only the filters for that range
using the --filters-start-height
option. Let's you know that none of your wallets are older than block 800,000. Just start the node with.
./target/release/florestad --cfilters --filters-start-height 800000
if you add a wallet and want to rescan the blocks from 800,000 to the current height, you can use the rescan
rpc.
floresta-cli rescan 800000
Once you have a transaction cached in your watch-only, you can use either the rpc or integrated electrum server to retrieve information about your wallet. You can use wallets like Electrum or Sparrow to connect to your node and retrieve information about your wallet. Just connect with the server running at 127.0.0.1:50001:t
. On electrum you may want to use the --oneserver
flag to connect to a single server, for better privacy.
The tests in floresta-cli
depend on the compiled florestad
binary. Make sure to build the entire project first by running:
cargo build
There's a set of tests that you can run with:
cargo test
For the full test suite, including long-running tests, use:
cargo test --release
Additional functional tests are available (minimum python version: 3.12).
- Install poetry dependencies manager. There are many ways to do this:
# recomended way
pipx install poetry
# official installer (linux / mac)
curl -sSL https://install.python-poetry.org | python3 -
# official isntaller (windows - powershell)
(Invoke-WebRequest -Uri https://install.python-poetry.org -UseBasicParsing).Content | py -
# mannually
python3 -m venv $VENV_PATH
$VENV_PATH/bin/pip install -U pip setuptools
$VENV_PATH/bin/pip install poetry
- Configure an isolated environment and install module dependencies:
poetry install --no-root
- Run tests:
poetry run poe tests
- Before run tests, check the pre-commit:
poetry run poe pre-commit
- Manual way without poetry: install dependencies and run the test script. This is discouraged since that can lead to inconsistences between different python versions:
pip3 install -r tests/requirements.txt
python tests/run_tests.py
Floresta uses criterion.rs
for benchmarking. You can run the default set of benchmarks with:
cargo bench
By default, benchmarks that are resource-intensive are excluded to allow for quicker testing. If you'd like to include all benchmarks, use the following command:
EXPENSIVE_BENCHES=1 cargo bench
Note: Running with
EXPENSIVE_BENCHES=1
enables the full benchmark suite, which will take several minutes to complete.
This project uses cargo-fuzz
(libfuzzer) for fuzzing, you can run a fuzz target with:
cargo +nightly fuzz run local_address_str
You can replace local_address_str
with the name of any other target you want to run.
This project uses Prometheus
as a monitoring system. To enable it you must build the project with the metrics
feature enabled:
cargo build --release --features metrics
The easiest way to visualize those metrics is by using some observability graphic tool like Grafana. To make it easier, you can also straight away use the docker-compose.yml
file to spin up an infrastructure that will run the project with Prometheus and Grafana.
To run it, first make sure you have Docker Compose installed and then:
docker-compose up -d --build
Grafana should now be available to you at http://localhost:3000. To log in, please check the credentials defined in the docker-compose.yml
file.
Contributions are welcome, feel free to open an issue or a pull request.
If you want to contribute but don't know where to start, take a look at the issues, there's a few of them marked as good first issue
.
Here's some Guidelines:
- Has to compile.
- Has to run.
- Use pre-commit for the language that you're using (if possible 👍).
You can run just pcc
, which stands for pre-commit check, to check everything is correct before opening a pull request.
You can also accomplish that using our flake.nix for development.
If you already have Nix you just need to do:
$ nix develop
and use our flake for development which include
- nix(fmt) and rust(fmt) in pre-commit.
- pre-commit.
- rustup.
- Typos in pre-commit.
- Just, the command runner.
If you do not have Nix you can Check their guide.
This project is licensed under the MIT License - see the LICENSE file for details
One of the most challenging parts of working with Bitcoin is keeping up with the consensus rules. Given its nature as a consensus protocol, it's very important to make sure that the implementation is correct. Instead of reimplementing a Script interpreter, we use rust-bitcoinconsensus
to verify transactions. This is a bind around a shared library that is part of Bitcoin Core. This way, we can be sure that the consensus rules are the same as Bitcoin Core, at least for scripts.
Although tx validation is arguably the hardest part in this process. This integration can be further improved by using libbitcoinkernel
, that will increase the scope of libbitcoinconsensus
to outside scripts, but this is still a work in progress.