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Bitcoin–Monero Cross-chain Atomic Swap
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| .github/workflows | ||
| docs/research/user-experience | ||
| monero-harness | ||
| swap | ||
| xmr-btc | ||
| .gitignore | ||
| .mergify.yml | ||
| bors.toml | ||
| BTC_XMR_atomic_swap_protocol.svg | ||
| Cargo.lock | ||
| Cargo.toml | ||
| LICENSE | ||
| README.md | ||
| rust-toolchain | ||
| rustfmt.toml | ||
XMR to BTC Atomic Swap
This repository is a proof of concept for atomically swapping XMR for BTC.
We define:
- Alice to be the actor that initially holds XMR.
- Bob to be the actor that initially holds BTC.
In the best-case scenario the protocol looks like this:
- Alice and Bob exchange a set of addresses, keys, zero-knowledge proofs and signatures.
- Bob publishes
Tx_lock, locking up his bitcoin in a 2-of-2 multisig output owned by Alice and Bob. Given the information exchanged in step 1, Bob can refund his bitcoin if he waits until timet_1by usingTx_cancelandTx_refund. If Bob doesn't refund after timet_1, Alice can punish Bob for being inactive by first publishingTx_canceland, aftert_2, spending the output usingTx_punish. - Alice sees that Bob has locked up the bitcoin, so she publishes
Tx_lockon the Monero blockchain, locking up her monero in an output which can only be spent with a secret key owned by Alice (s_a) and a secret key owned by Bob (s_b). This means that neither of them can actually spend this output unless they learn the secret key of the other party. - Bob sees that Alice has locked up the monero, so he now sends Alice a missing key bit of information which will allow Alice to redeem the bitcoin using
Tx_redeem. - Alice uses this information to spend the bitcoin to an address owned by her.
When doing so she leaks her Monero secret key
s_ato Bob through the magic of adaptor signatures. - Bob sees Alice's
Tx_redeemon Bitcoin, extracts Alice's secret key from it and combines it with his own to spend the monero to an address of his own.
The repository is structured as a library and a single test function that executes the swap. The library has the following modules:
alice: Defines the state machine that describes the swap for Alice. This includes the messages sent to/from Alice.bob: Defines the state machine that describes the swap for Bob. This includes the messages sent to/from Bob.bitcoin: Keys, signing functions, transactions etc. for Bitcoin. Also includes a test wallet (see below).monero: Keys, signing functions, transactions etc. for Monero. Also includes a test wallet (see below).
Currently we have a single test function that proves the following:
- Interaction with both block chains and their respective wallets works.
- The messages required are correct and can manually drive the state transitions to execute a swap.
- It is possible to interact with, and watch, the monero blockchain using
monero-wallet-rpc. - It is possible to watch a bitcoind instance using
bitcoin-harness(we already knew this :)
Currently we do not do:
- Actual network communication.
- Verification that the UI is acceptable. Since we do everything in a single test function there is no user interaction, this is unrealistic for a real product.
Testing
We wrote a few additional libraries to facilitate testing:
Wallets
bitcoinmodule contains a test wallet by way ofbitcoind.monero: module contains a test wallet by way ofmonero-wallet-rpc.
Blockchain harnesses
We have written two harnesses for interacting with bitcoin and monero.
These harnesses wrap interaction with bitcoind and monerod/monero-wallet-rpc.
We use testcontainers-rs to spin up bitcoind, monerod, and monero-wallet-rpc in docker containers during unit/integration testing.