This repository contains vigilante programs for Babylon. They are daemon programs that relay information between Babylon and Bitcoin for facilitating the Bitcoin timestamping protocol and the Bitcoin staking protocol.
There are four vigilante programs:
In order to build the vigilante,
make build
For the following:
BABYLON_PATH="path_where_babylon_is_built" # example: $HOME/Projects/Babylon/babylon
VIGILANTE_PATH="root_vigilante_dir" # example: $HOME/Projects/Babylon/vigilante
TESTNET_PATH="path_where_the_testnet_files_will_be_stored" # example: $HOME/Projects/Babylon/babylon/.testnet
Initially, create a testnet files for Babylon. In this snippet, we create only one node, but this can work for an arbitrary number of nodes.
$BABYLON_PATH/build/babylond testnet \
--v 1 \
--output-dir $TESTNET_PATH \
--starting-ip-address 192.168.10.2 \
--keyring-backend test \
--chain-id chain-test
Using this configuration, start the testnet for the single node.
$BABYLON_PATH/build/babylond start --home $TESTNET_PATH/node0/babylond
This will result in a Babylon node running in port 26657
and
a GRPC instance running in port 9090
.
Create a directory that will store the Bitcoin configuration. This will be later used to retrieve the certificate required for RPC connections.
mkdir $TESTNET_PATH/bitcoin
# Download Bitcoin Core binary
wget https://bitcoincore.org/bin/bitcoin-core-27.0/bitcoin-27.0-x86_64-linux-gnu.tar.gz # or choose a version depending on your os
# Extract the downloaded archive
tar -xvf bitcoin-27.0-x86_64-linux-gnu.tar.gz
# Provide execution permissions to binaries
chmod +x bitcoin-27.0/bin/bitcoind
chmod +x bitcoin-27.0/bin/bitcoin-cli
Launch a regtest Bitcoind node which listens for RPC connections at port 18443
.
bitcoind -regtest \
-txindex \
-rpcuser=<rpc_user> \
-rpcpassword=<rpc_password> \
-rpcbind=0.0.0.0:18443 \
-zmqpubsequence=tcp://0.0.0.0:28333 \
-datadir=/data/.bitcoin \
Leave this process running.
Then, create a regtest Bitcoin wallet.
If you want to use the default vigilante file, then give the password walletpass
.
Otherwise, make sure to edit the vigilante.yaml
to reflect the correct password.
bitcoin-cli -regtest \
-rpcuser=<rpc_user> \
-rpcpassword=<rpc_password> \
-named createwallet \
wallet_name="<wallet_name>" \
passphrase="<passphrase>" \
load_on_startup=true \
descriptors=true
You can generate a btc address through the getnewaddress
command:
bitcoin-cli -regtest \
-rpcuser=<rpc_user> \
-rpcpassword=<rpc_password> \
getnewaddress
While running this setup, one might want to generate BTC blocks.
We accomplish that through the bitcoin-cli
utility and the use
of the parameters we defined above.
bitcoin-cli -chain=regtest \
-rpcuser=<rpc_user> \
-rpcpassword=<rpc_password> \
-generate $NUM_BLOCKS
where $NUM_BLOCKS
is the number of blocks you want to generate.
Not that in order to spend the mining rewards, at least 100 blocks should be built on top of the block in which the reward was given.
Create a directory which will store the vigilante configuration,
copy the sample vigilante configuration into a vigilante.yml
file, and
adapt it to the specific requirements.
Currently, the vigilante configuration should be edited manually.
In the future, we will add functionality for generating this file through
a script.
For Docker deployments, we have created the sample-vigilante-docker.yaml
file which contains a configuration that will work out of this box for this guide.
mkdir $TESTNET_PATH/vigilante
Initially, copy the sample configuration
cp sample-vigilante.yml $TESTNET_PATH/vigilante/vigilante.yml
nano $TESTNET_PATH/vigilante/vigilante.yml # edit the config file to replace $TESTNET instances
go run $VIGILANTE_PATH/cmd/main.go reporter \
--config $TESTNET_PATH/vigilante/vigilante.yml \
--babylon-key-dir $BABYLON_PATH/.testnet/node0/babylond
go run $VIGILANTE_PATH/cmd/main.go submitter \
--config $TESTNET_PATH/vigilante/vigilante.yml
We first need to ensure that a BTC full node and the Babylon node that we want to monitor are started running.
Then we start the vigilante monitor:
go run $VIGILANTE_PATH/cmd/main.go monitor \
--genesis $BABYLON_NODE_PATH/config/genesis.json
--config $TESTNET_PATH/vigilante/vigilante.yml
We first need to ensure that a BTC full node and the Babylon node that we want to monitor are started running.
Then we start the BTC staking tracker:
go run $VIGILANTE_PATH/cmd/main.go bstracker \
--config $TESTNET_PATH/vigilante/vigilante.yml
Initially, build a Docker image named babylonchain/vigilante-reporter
cp sample-vigilante-docker.yml $TESTNET_PATH/vigilante/vigilante.yml
make reporter-build
Afterward, run the above image and attach the directories that contain the configuration for Babylon, Bitcoin, and the vigilante.
docker run --rm \
-v $TESTNET_PATH/bitcoin:/bitcoin \
-v $TESTNET_PATH/node0/babylond:/babylon \
-v $TESTNET_PATH/vigilante:/vigilante \
babylonchain/vigilante-reporter
Follow the same steps as above, but with the babylonchain/vigilante-submitter
Docker image.
docker run --rm \
-v $TESTNET_PATH/bitcoin:/bitcoin \
-v $TESTNET_PATH/node0/babylond:/babylon \
-v $TESTNET_PATH/vigilante:/vigilante \
babylonchain/vigilante-submitter
Follow the same steps as above, but with the babylonchain/vigilante-monitor
Docker image.
docker run --rm \
-v $TESTNET_PATH/bitcoin:/bitcoin \
-v $TESTNET_PATH/node0/babylond:/babylon \
-v $TESTNET_PATH/vigilante:/vigilante \
babylonchain/vigilante-monitor
Follow the same steps as above, but with the babylonchain/btc-staking-tracker
Docker image.
docker run --rm \
-v $TESTNET_PATH/bitcoin:/bitcoin \
-v $TESTNET_PATH/node0/babylond:/babylon \
-v $TESTNET_PATH/vigilante:/vigilante \
babylonchain/btc-staking-tracker
The above Dockerfile
s are also compatible with Docker's buildx feature
that allows multi-architectural builds. To have a multi-architectural build,
docker buildx create --use
make reporter-buildx # for the reporter
make submitter-buildx # for the submitter
make monitor-buildx # for the monitor