Hello Bitcoin
This guide provides step-by-step instructions on how to deploy smart contracts on BOB.
We will provide instructions for using Remix and Foundry.
- Developer Starter Kit the kit serves as the foundation to develop on BOB.
- Remix is a web-based IDE for writing smart contracts. This is a great option if you do not want to install any software on your computer.
- Foundry is a Rust-based development environment for writing smart contracts. This is a great option if you want to use a local development environment.
HelloBitcoin Contract
Overview of the contract
- The contract integrates the BTC relay to enable seamless communication between the Bitcoin blockchain and the BOB testnet.
- The contract allows swapping between BTC->USDT and Ordinal->USDT using the BTC relay on testnet.
Objectives
- Set up a development environment: Learn how to set up a development environment for your BOB smart contract development.
- Create a Smart Contract for BOB: We will use HelloBitcoin smart contract present in the developer kit.
- Compile a Smart Contract for BOB: Compile your HelloBitcoin smart contract using the development environment.
- Deploy a Smart Contract to BOB: Deploy your compiled smart contract to the BOB platform.
- Interact with a Smart Contract Deployed on BOB: Learn how to interact with the smart contract you've deployed on the BOB platform.
Prerequisites
Before you can deploy smart contracts on BOB, ensure you have the following prerequisites:
- An EVM wallet with funds from the testnet faucet.
- Setup either Remix or Foundry as your development environment.
- Remix
- Foundry
Open the Remix IDE in your browser.
Follow the steps from the foundry book to install the Foundry toolsuite, which contains the forge
, cast
, anvil
and chisel
tools.
Creating the HelloBitcoin Contract
- Remix
- Foundry
Create a new project with Remix. Under contracts
folder create a new file HelloBitcoin.sol
.
Add the following remappings in compiler_config.json
under settings
{
"language": "Solidity",
"settings": {
"optimizer": {
"enabled": true,
"runs": 200
},
"outputSelection": {
"*": {
"": ["ast"],
"*": ["abi", "metadata", "devdoc", "userdoc", "storageLayout", "evm.legacyAssembly", "evm.bytecode", "evm.deployedBytecode", "evm.methodIdentifiers", "evm.gasEstimates", "evm.assembly"]
}
},
"remappings":[
"@openzeppelin/contracts/=https://github.com/OpenZeppelin/openzeppelin-contracts/blob/v4.5.0/contracts/",
"@bob-collective/bitcoin-spv/=https://github.com/bob-collective/bitcoin-spv/blob/master/src/",
"@bob-collective/bob/=https://github.com/bob-collective/bob/blob/master/src/"
]
}
}
Enter the below code in HelloBitcoin.sol
file.
To learn more about the Solidity contracts in general checkout the Solidity tutorial guide.
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.13;
import "@openzeppelin/contracts/token/ERC20/IERC20.sol";
import "@openzeppelin/contracts/token/ERC20/utils/SafeERC20.sol";
import {BTCUtils} from "@bob-collective/bitcoin-spv/BTCUtils.sol";
import {BitcoinTx} from "@bob-collective/bob/bridge/BitcoinTx.sol";
import {IRelay} from "@bob-collective/bob/bridge/IRelay.sol";
import {TestLightRelay} from "@bob-collective/bob/relay/TestLightRelay.sol";
import {BridgeState} from "@bob-collective/bob/bridge/BridgeState.sol";
using SafeERC20 for IERC20;
contract HelloBitcoin {
using BitcoinTx for BridgeState.Storage;
/**
* @dev Mapping to store BTC to USDT (or other ERC20) swap orders based on their unique identifiers.
* Each order is associated with a unique ID, and the order details are stored in the BtcSellOrder struct.
*/
mapping(uint256 => BtcSellOrder) public btcSellOrders;
/**
* @dev Mapping to store ordinal sell orders for swapping BTC to USDT (or other ERC20) based on their unique identifiers.
* Each ordinal sell order is associated with a unique ID, and the order details are stored in the OrdinalSellOrder struct.
*/
mapping(uint256 => OrdinalSellOrder) public ordinalSellOrders;
/**
* @dev The address of the ERC-20 contract. You can use this variable for any ERC-20 token,
* not just USDT (Tether). Make sure to set this to the appropriate ERC-20 contract address.
*/
IERC20 public usdtContractAddress;
/**
* @dev Counter for generating unique identifiers for BTC to USDT swap orders.
* The `nextBtcOrderId` is incremented each time a new BTC to USDT swap order is created,
* ensuring that each order has a unique identifier.
*/
uint256 nextBtcOrderId;
/**
* @dev Counter for generating unique identifiers for ordinal sell orders.
* The `nextOrdinalOrderId` is incremented each time a new ordinal sell order is created,
* ensuring that each ordinal order has a unique identifier.
*/
uint256 nextOrdinalOrderId;
/**
* @dev Struct representing a BTC to USDT swap order.
*/
struct BtcSellOrder {
uint256 sellAmountBtc; // Amount of BTC to be sold in the order.
uint256 buyAmount; // Amount of USDT (or other ERC20) to be bought in the order.
address btcSeller; // Address of the seller initiating the order.
BitcoinAddress btcBuyer; // Bitcoin address of the buyer (initialized with an empty scriptPubKey).
bool isOrderAccepted; // Flag indicating whether the order has been accepted.
}
/**
* @dev Struct representing an ordinal sell order for swapping Ordinal to USDT.
*/
struct OrdinalSellOrder {
OrdinalId ordinalID; // Unique identifier for the ordinal sell order.
uint256 buyAmount; // Amount of USDT (or other ERC20) to be bought in the order.
BitcoinTx.UTXO utxo; // UTXO associated with the BTC to USDT swap order.
address ordinalSeller; // Address of the seller initiating the ordinal order.
BitcoinAddress ordinalBuyer; // Bitcoin address of the buyer (initialized with an empty scriptPubKey).
bool isOrderAccepted; // Flag indicating whether the ordinal order has been accepted.
}
/**
* @dev Struct representing a unique identifier for an ordinal sell order.
*/
struct OrdinalId {
bytes32 txId; // Transaction ID associated with the ordinal order.
uint32 index; // Index associated with the ordinal order.
}
/**
* @dev Struct representing a Bitcoin address with a scriptPubKey.
*/
struct BitcoinAddress {
bytes scriptPubKey; // Script public key associated with the Bitcoin address.
}
event btcSellOrderSuccessfullyPlaced(uint256 indexed orderId, uint256 sellAmountBtc, uint256 buyAmount);
event btcSellOrderBtcSellOrderAccepted(uint256 indexed id, BitcoinAddress bitcoinAddress);
event btcSuccessfullySendtoDestination(uint256 id);
event ordinalSellOrderSuccessfullyPlaced(uint256 indexed id, OrdinalId ordinalID, uint256 buyAmount);
event ordinalSellOrderBtcSellOrderAccepted(uint256 indexed id, BitcoinAddress bitcoinAddress);
event ordinalSuccessfullySendtoDestination(uint256 id);
BridgeState.Storage internal relay;
TestLightRelay internal testLightRelay;
/**
* @dev Constructor to initialize the contract with the relay and ERC20 token address.
* @param _relay The relay contract implementing the IRelay interface.
* @param _usdtContractAddress The address of the USDT contract.
*
* Additional functionalities of the relay can be found in the documentation available at:
* https://docs.gobob.xyz/docs/contracts/src/src/relay/LightRelay.sol/contract.LightRelay
*/
constructor(IRelay _relay, address _usdtContractAddress) {
relay.relay = _relay;
relay.txProofDifficultyFactor = 1;
testLightRelay = TestLightRelay(address(relay.relay));
usdtContractAddress = IERC20(_usdtContractAddress);
}
/**
* @dev Set the relay contract for the bridge.
* @param _relay The relay contract implementing the IRelay interface.
*/
function setRelay(IRelay _relay) internal {
relay.relay = _relay;
}
/**
* @notice Places a BTC sell order in the contract.
* @dev Emits a `btcSellOrderSuccessfullyPlaced` event upon successful placement.
* @param sellAmountBtc The amount of BTC to sell.
* @param buyAmount The corresponding amount to be received in exchange for the BTC.
* @dev Requirements:
* - `sellAmountBtc` must be greater than 0.
* - `buyAmount` must be greater than 0.
*/
function placeBtcSellOrder(uint256 sellAmountBtc, uint256 buyAmount) public {
require(sellAmountBtc > 0, "Sell amount must be greater than 0");
require(buyAmount > 0, "Buy amount must be greater than 0");
uint256 id = nextBtcOrderId++;
btcSellOrders[id] = BtcSellOrder({
sellAmountBtc: sellAmountBtc,
buyAmount: buyAmount,
btcSeller: msg.sender,
btcBuyer: BitcoinAddress({scriptPubKey: new bytes(0)}),
isOrderAccepted: false
});
emit btcSellOrderSuccessfullyPlaced(id, sellAmountBtc, buyAmount);
}
/**
* @notice Accepts a BTC sell order, providing the Bitcoin address for the buyer.
* @dev Transfers the corresponding currency from the buyer to the contract and updates the order details.
* @param id The unique identifier of the BTC sell order.
* @param bitcoinAddress The Bitcoin address of the buyer to receive the BTC.
* @dev Requirements:
* - The specified order must not have been accepted previously.
* - The buyer must transfer the required currency amount to the contract.
* @dev Emits a `btcSellOrderBtcSellOrderAccepted` event upon successful acceptance.
*/
function acceptBtcSellOrder(uint256 id, BitcoinAddress calldata bitcoinAddress) public {
BtcSellOrder storage placedOrder = btcSellOrders[id];
require(placedOrder.isOrderAccepted == false, "Order has already been accepted");
// "lock" selling token by transferring to contract
IERC20(usdtContractAddress).safeTransferFrom(msg.sender, address(this), placedOrder.buyAmount);
placedOrder.btcBuyer = bitcoinAddress;
placedOrder.isOrderAccepted = true;
emit btcSellOrderBtcSellOrderAccepted(id, bitcoinAddress);
}
/**
* @notice Completes a BTC sell order by validating and processing the provided Bitcoin transaction proof.
* @dev This function is intended to be called by the original seller.
* @param id The unique identifier of the BTC sell order.
* @param transaction Information about the Bitcoin transaction.
* @param proof Proof associated with the Bitcoin transaction.
* @dev Requirements:
* - The specified order must have been previously accepted.
* - The caller must be the original seller of the BTC.
* - The Bitcoin transaction proof must be valid.
* - The BTC transaction output must match the expected amount and recipient.
* @dev Effects:
* - Sets the relay difficulty based on the Bitcoin headers in the proof.
* - Transfers the locked USDT amount to the original seller.
* - Removes the order from the mapping after successful processing.
* @dev Emits a `btcSuccessfullySendtoDestination` event upon successful completion.
*/
function completeBtcSellOrder(uint256 id, BitcoinTx.Info calldata transaction, BitcoinTx.Proof calldata proof)
public
{
// Retrieve the accepted order based on the provided ID
BtcSellOrder storage acceptedOrder = btcSellOrders[id];
// Ensure that the order has been accepted and the caller is the original seller
require(acceptedOrder.isOrderAccepted == true, "Order must be accepted");
require(acceptedOrder.btcSeller == msg.sender, "Only the original seller can provide proof");
// Set the difficulty of the relay based on the Bitcoin headers in the proof
testLightRelay.setDifficultyFromHeaders(proof.bitcoinHeaders);
// Validate the BTC transaction proof using the relay
relay.validateProof(transaction, proof);
// Check if the BTC transaction output matches the expected amount and recipient
_checkBitcoinTxOutput(acceptedOrder.sellAmountBtc, acceptedOrder.btcBuyer, transaction);
// Transfer the locked USDT to the original seller
IERC20(usdtContractAddress).safeTransfer(acceptedOrder.btcSeller, acceptedOrder.buyAmount);
// Remove the order from the mapping since it has been successfully processed
delete btcSellOrders[id];
// Emit an event indicating the successful completion of the BTC to USDT swap
emit btcSuccessfullySendtoDestination(id);
}
/**
* @notice Places an ordinal sell order in the contract.
* @dev Emits an `ordinalSellOrderSuccessfullyPlaced` event upon successful placement.
* @param ordinalID The unique identifier for the ordinal.
* @param utxo Information about the Bitcoin UTXO associated with the ordinal.
* @param buyAmount The amount to be received in exchange for the ordinal.
* @dev Requirements:
* - `buyAmount` must be greater than 0.
* @dev Effects:
* - Creates a new ordinal sell order with the provided details.
*/
function placeOrdinalSellOrder(OrdinalId calldata ordinalID, BitcoinTx.UTXO calldata utxo, uint256 buyAmount)
public
{
require(buyAmount > 0, "Buying amount should be greater than 0");
uint256 id = nextOrdinalOrderId++;
ordinalSellOrders[id] = OrdinalSellOrder({
ordinalID: ordinalID,
buyAmount: buyAmount,
utxo: utxo,
ordinalSeller: msg.sender,
isOrderAccepted: false,
ordinalBuyer: BitcoinAddress({scriptPubKey: new bytes(0)})
});
emit ordinalSellOrderSuccessfullyPlaced(id, ordinalID, buyAmount);
}
/**
* @notice Accepts an ordinal sell order, providing the Bitcoin address for the buyer.
* @dev Transfers the corresponding currency from the buyer to the contract and updates the order details.
* @param id The unique identifier of the ordinal sell order.
* @param bitcoinAddress The Bitcoin address of the buyer to receive the ordinal.
* @dev Requirements:
* - The specified order must not have been accepted previously.
* - The buyer must transfer the required currency amount to this contract.
* @dev Effects:
* - "Locks" the selling token by transferring it to the contract.
* - Updates the ordinal sell order with the buyer's Bitcoin address and marks the order as accepted.
* @dev Emits an `ordinalSellOrderBtcSellOrderAccepted` event upon successful acceptance.
*/
function acceptOrdinalSellOrder(uint256 id, BitcoinAddress calldata bitcoinAddress) public {
OrdinalSellOrder storage placedOrder = ordinalSellOrders[id];
require(placedOrder.isOrderAccepted == false, "Order already accepted");
// "lock" sell token by transferring to contract
IERC20(usdtContractAddress).safeTransferFrom(msg.sender, address(this), placedOrder.buyAmount);
placedOrder.ordinalBuyer = bitcoinAddress;
placedOrder.isOrderAccepted = true;
emit ordinalSellOrderBtcSellOrderAccepted(id, bitcoinAddress);
}
/**
* @notice Completes an ordinal sell order by validating and processing the provided Bitcoin transaction proof.
* @dev This function is intended to be called by the original seller.
* @param id The unique identifier of the ordinal sell order.
* @param transaction Information about the Bitcoin transaction.
* @param proof Proof associated with the Bitcoin transaction.
* @dev Requirements:
* - The specified order must have been previously accepted.
* - The caller must be the original seller of the ordinal.
* - The Bitcoin transaction proof must be valid.
* - The BTC transaction input must spend the specified UTXO associated with the ordinal sell order.
* - The BTC transaction output must be to the buyer's address.
* @dev Effects:
* - Sets the relay difficulty based on the Bitcoin headers in the proof.
* - Validates the BTC transaction proof using the relay.
* - Ensures that the BTC transaction input spends the specified UTXO.
* - Checks the BTC transaction output to the buyer's address.
* - Transfers the locked USDT amount to the original seller.
* - Removes the ordinal sell order from storage after successful processing.
* @dev Emits an `ordinalSuccessfullySendtoDestination` event upon successful completion.
*/
function completeOrdinalSellOrder(uint256 id, BitcoinTx.Info calldata transaction, BitcoinTx.Proof calldata proof)
public
{
OrdinalSellOrder storage acceptedOrder = ordinalSellOrders[id];
// Ensure that the order has been accepted and the caller is the original seller
require(acceptedOrder.isOrderAccepted == true, "Order must be accepted");
require(acceptedOrder.ordinalSeller == msg.sender, "Only the original seller can provide proof");
// Set the relay difficulty based on the Bitcoin headers in the proof
testLightRelay.setDifficultyFromHeaders(proof.bitcoinHeaders);
// Validate the BTC transaction proof using the relay
relay.validateProof(transaction, proof);
// Ensure that the BTC transaction input spends the specified UTXO associated with the ordinal sell order
BitcoinTx.ensureTxInputSpendsUtxo(transaction.inputVector, acceptedOrder.utxo);
// Check if the BTC transaction output is to the buyer's address
_checkBitcoinTxOutput(0, acceptedOrder.ordinalBuyer, transaction);
// ToDo: Check that the correct satoshis are being spent to the buyer's address if needed
// Transfer the locked USDT to the original seller
IERC20(usdtContractAddress).safeTransfer(acceptedOrder.ordinalSeller, acceptedOrder.buyAmount);
// Remove the ordinal sell order from storage as it has been successfully processed
delete ordinalSellOrders[id];
// Emit an event to indicate the successful completion of the ordinal sell order
emit ordinalSuccessfullySendtoDestination(id);
}
/**
* Checks output script pubkey (recipient address) and amount.
* Reverts if transaction amount is lower or bitcoin address is not found.
*
* @param expectedBtcAmount BTC amount requested in order.
* @param bitcoinAddress Recipient's bitcoin address.
* @param transaction Transaction fulfilling the order.
*/
//ToDo: Should we move this into the library.
function _checkBitcoinTxOutput(
uint256 expectedBtcAmount,
BitcoinAddress storage bitcoinAddress,
BitcoinTx.Info calldata transaction
) private {
// Prefixes scriptpubkey with its size to match script output data.
bytes32 scriptPubKeyHash =
keccak256(abi.encodePacked(uint8(bitcoinAddress.scriptPubKey.length), bitcoinAddress.scriptPubKey));
uint256 txOutputValue = BitcoinTx.getTxOutputValue(scriptPubKeyHash, transaction.outputVector);
require(txOutputValue >= expectedBtcAmount, "Bitcoin transaction amount is lower than in accepted order.");
}
}
Also create a TestLightRelay.sol
file for deploying your own bitcoin relay.
pragma solidity 0.8.17;
import {BTCUtils} from "@bob-collective/bitcoin-spv/BTCUtils.sol";
import "@bob-collective/bob/relay/LightRelay.sol";
/**
* @title HelloBitcoin
* @dev contract allows swapping between BTC->USDT and Ordinal->USDT using the BTC relay on testnet.
* @custom:dev-run-script ./scripts/deploy_relay.ts
*/
contract TestLightRelay is LightRelay {
using BTCUtils for bytes;
using BTCUtils for uint256;
/// @notice Sets the current and previous difficulty based on the difficulty
/// inferred from the provided Bitcoin headers.
function setDifficultyFromHeaders(bytes memory bitcoinHeaders) external {
uint256 firstHeaderDiff = bitcoinHeaders.extractTarget().calculateDifficulty();
currentEpochDifficulty = firstHeaderDiff;
prevEpochDifficulty = firstHeaderDiff;
}
}
Clone the starter toolkit provided.
git clone https://github.com/bob-collective/StarterKit.git
cd StarterKit
The HelloBitcoin
contract should already be present inside the src directory. To create a new contract:
touch src/<Contract_Name>.sol
Compile the Contract
- Remix
- Foundry
In Advanced Configurations
section of Solidity Compiler switch from Compiler configuration
to Use configuration file
.
To compile the contract, go to the Solidity Compiler
section of the IDE, select and compile the HelloBitcoin
smart contract.
You can also directly compile the HelloBitcoin
smart contract by right-clicking on the HelloBitcoin.sol
file and select compile.
In the same way TestLightRelay.sol
contract should also be compiled.
To compile the contract run the followling command:
forge build
Deploy the HelloBitcoin Contract
- Remix
- Foundry
To deploy the compiled coin smart contract first open the MetaMask extension and make sure the wallet is connected to the BOB network.
Choose the Remix ENVIRONMENT
and Injected Provider - MetaMask
. Remix will deploy contract to connected network, i.e., BOB.
Select contract as TestLightRelay
. Click Deploy
and sign the transaction pop up message.
Copy the TestLightRelay
contract address from the terminal this will be used as a constructor argument for HelloBitcoin
contract.
Select contract as HelloBitcoin
.
Add the _RELAY
ie TestLightRelay
address copied above.
Add the _USDTCONTRACTADDRESS
address as 0xF58de5056b7057D74f957e75bFfe865F571c3fB6
.
If you want, you can also modify the contract at a later stage and use other ERC20 contracts already deployed on BOB testnet.
Click Deploy
and sign the transaction pop up message.
The contract details will be displayed in the Remix terminal.
To deploy the contract via the terminal, you'll need your private key. If you're using MetaMask, be cautious when exporting your private key as it can be risky. Checkout this article to get your private key from MetaMask.
To deploy the compiled smart contract on testnet will use the HelloBitcoin
script present under scripts/HelloBitcoin.sol
:
Run the following command
export PRIVATE_KEY=<your-private-key>
export USDT_ADDRESS=0xF58de5056b7057D74f957e75bFfe865F571c3fB6
export RPC_URL=https://testnet.rpc.gobob.xyz
export VERIFIER_URL=https://testnet-explorer.gobob.xyz/api?
forge script script/HelloBitcoin.sol --rpc-url=$RPC_URL --broadcast --verify --verifier blockscout --verifier-url=$VERIFIER_URL
The output in the terminal should look similar to this:
Script ran successfully.
...
✅ [Success]Hash: 0x7a1653e0a0673bd363c28ebd610eb643b29408087f29bf1565df81ded78d2f8b
Contract Address: 0x14F932d0184d4595A3d152ec13F64A36393701B7
Block: 4325242
Paid: 0.00551169309186155 ETH (1837231 gas * 3.00000005 gwei)
✅ [Success]Hash: 0x1d8edfa2be54524804a69507cc967adbdc34716404c43b0d27b9b2375aaf221c
Contract Address: 0x141eE0F02Df17bE850032D578CC4b3BF7d1c7f4F
Block: 4325242
Paid: 0.0082765501379425 ETH (2758850 gas * 3.00000005 gwei)
Interact with the HelloBitcoin Contract
Checkout the testnet explorer to get contract details using the transaction hash from the previous step.
- Remix
- Foundry
Finished
Congratulations! You have successfully deployed your first smart contract on BOB.
Extra: Publish and verify the HelloBitcoin Contract
At this point, your smart contract is ready to be used, but we can go a step further to verify and publish the smart contract in the explorer. By doing this you will be able to interact with any existing read or write calls in the contract right on the explorer. To do so follow these steps:
Go to the Remix IDE. Check if the contract imports other contracts. If it does, check step 2. If it doesn't, simply copy the contract code into your clipboard and jump to step 3.
In case your contract imports other contract, you need to flatten your contract. To do that you just need right click your contract file in Remix IDE file explorer and copy the flattened code into your clipboard.
Head over to the testnet explorer and search for your published contract page.
Click on the "Contract" tab and click on "Verify & Publish" button.
Click on the "Code" tab and click on "Verify & Publish" button.
Now you should be presented we a set of possilities for verifying you published contract, but we will proceed with "Via flattened source code".
Fill the form with the specific information about the contract and how it was deployed. Make sure every field is correctly populated before submitting. Any incorrect field will lead to a failed verification. After submitting, the verification might take a couple of minutes.
- Once submitted correctly, the contract source code should be visible in the "Code" tab, alongside with new "Read Contract" and "Write Contract". You are now ready to interact with the contract right on the explorer.
Next Steps
BOB is built to make it easy to interact with Bitcoin.
Verifying Bitcoin Transactions
You might be interested in verifying Bitcoin transactions on BOB. Check out the Bitcoin Light Client guide to learn more.
Examples
Check out examples of how to work with a BTC light client, ordinals, and unifying assets: Example list.
We recommend taking a look at our Trustless P2P Swap example first.
Join the Discord
Join the Discord to connect with the community and ask questions.
Notes
Please note the following:
Links provided in this guide can change over time. Make sure to check for the most up-to-date resources and documentation.
Testnet environments, like the one mentioned in this guide, may be restarted or reset periodically. Be prepared for changes and interruptions in testnet activities.
Feel free to revisit this guide and check for updates or changes in the links and testnet status as needed.