app.rs

#![allow(unused)]
use coins_ledger::{
    common::{APDUAnswer, APDUCommand, APDUData},
    transports::{Ledger, LedgerAsync},
};
use futures_executor::block_on;
use futures_util::lock::Mutex;

use ethers_core::{
    types::{
        transaction::{eip2718::TypedTransaction, eip712::Eip712},
        Address, NameOrAddress, Signature, Transaction, TransactionRequest, TxHash, H256, U256,
    },
    utils::keccak256,
};
use std::convert::TryFrom;
use thiserror::Error;

use super::types::*;

/// A Ledger Ethereum App.
///
/// This is a simple wrapper around the [Ledger transport](Ledger)
#[derive(Debug)]
pub struct LedgerEthereum {
    transport: Mutex<Ledger>,
    derivation: DerivationType,
    pub(crate) chain_id: u64,
    pub(crate) address: Address,
}

const EIP712_MIN_VERSION: &str = ">=1.6.0";

impl LedgerEthereum {
    /// Instantiate the application by acquiring a lock on the ledger device.
    ///
    ///
    /// ```
    /// # async fn foo() -> Result<(), Box<dyn std::error::Error>> {
    /// use ethers_signers::{Ledger, HDPath};
    ///
    /// let ledger = Ledger::new(HDPath::LedgerLive(0), 1).await?;
    /// # Ok(())
    /// # }
    /// ```
    pub async fn new(derivation: DerivationType, chain_id: u64) -> Result<Self, LedgerError> {
        let transport = Ledger::init().await?;
        let address = Self::get_address_with_path_transport(&transport, &derivation).await?;

        Ok(Self { transport: Mutex::new(transport), derivation, chain_id, address })
    }

    /// Consume self and drop the ledger mutex
    pub fn close(self) {}

    /// Get the account which corresponds to our derivation path
    pub async fn get_address(&self) -> Result<Address, LedgerError> {
        self.get_address_with_path(&self.derivation).await
    }

    /// Gets the account which corresponds to the provided derivation path
    pub async fn get_address_with_path(
        &self,
        derivation: &DerivationType,
    ) -> Result<Address, LedgerError> {
        let data = APDUData::new(&Self::path_to_bytes(derivation));
        let transport = self.transport.lock().await;
        Self::get_address_with_path_transport(&transport, derivation).await
    }

    async fn get_address_with_path_transport(
        transport: &Ledger,
        derivation: &DerivationType,
    ) -> Result<Address, LedgerError> {
        let data = APDUData::new(&Self::path_to_bytes(derivation));

        let command = APDUCommand {
            ins: INS::GET_PUBLIC_KEY as u8,
            p1: P1::NON_CONFIRM as u8,
            p2: P2::NO_CHAINCODE as u8,
            data,
            response_len: None,
        };

        let answer = block_on(transport.exchange(&command))?;
        let result = answer.data().ok_or(LedgerError::UnexpectedNullResponse)?;

        let address = {
            // extract the address from the response
            let offset = 1 + result[0] as usize;
            let address_str = &result[offset + 1..offset + 1 + result[offset] as usize];
            let mut address = [0; 20];
            address.copy_from_slice(&hex::decode(address_str)?);
            Address::from(address)
        };

        Ok(address)
    }

    /// Returns the semver of the Ethereum ledger app
    pub async fn version(&self) -> Result<String, LedgerError> {
        let transport = self.transport.lock().await;

        let command = APDUCommand {
            ins: INS::GET_APP_CONFIGURATION as u8,
            p1: P1::NON_CONFIRM as u8,
            p2: P2::NO_CHAINCODE as u8,
            data: APDUData::new(&[]),
            response_len: None,
        };

        let answer = block_on(transport.exchange(&command))?;
        let result = answer.data().ok_or(LedgerError::UnexpectedNullResponse)?;

        Ok(format!("{}.{}.{}", result[1], result[2], result[3]))
    }

    /// Signs an Ethereum transaction (requires confirmation on the ledger)
    pub async fn sign_tx(&self, tx: &TypedTransaction) -> Result<Signature, LedgerError> {
        let mut tx_with_chain = tx.clone();
        if tx_with_chain.chain_id().is_none() {
            // in the case we don't have a chain_id, let's use the signer chain id instead
            tx_with_chain.set_chain_id(self.chain_id);
        }
        let mut payload = Self::path_to_bytes(&self.derivation);
        payload.extend_from_slice(tx_with_chain.rlp().as_ref());

        let mut signature = self.sign_payload(INS::SIGN, payload).await?;

        // modify `v` value of signature to match EIP-155 for chains with large chain ID
        // The logic is derived from Ledger's library
        // https://github.com/LedgerHQ/ledgerjs/blob/e78aac4327e78301b82ba58d63a72476ecb842fc/packages/hw-app-eth/src/Eth.ts#L300
        let eip155_chain_id = self.chain_id * 2 + 35;
        if eip155_chain_id + 1 > 255 {
            let one_byte_chain_id = eip155_chain_id % 256;
            let ecc_parity = if signature.v > one_byte_chain_id {
                signature.v - one_byte_chain_id
            } else {
                one_byte_chain_id - signature.v
            };

            signature.v = match tx {
                TypedTransaction::Eip2930(_) | TypedTransaction::Eip1559(_) => {
                    (ecc_parity % 2 != 1) as u64
                }
                TypedTransaction::Legacy(_) => eip155_chain_id + ecc_parity,
            };
        }

        Ok(signature)
    }

    /// Signs an ethereum personal message
    pub async fn sign_message<S: AsRef<[u8]>>(&self, message: S) -> Result<Signature, LedgerError> {
        let message = message.as_ref();

        let mut payload = Self::path_to_bytes(&self.derivation);
        payload.extend_from_slice(&(message.len() as u32).to_be_bytes());
        payload.extend_from_slice(message);

        self.sign_payload(INS::SIGN_PERSONAL_MESSAGE, payload).await
    }

    /// Signs an EIP712 encoded domain separator and message
    pub async fn sign_typed_struct<T>(&self, payload: &T) -> Result<Signature, LedgerError>
    where
        T: Eip712,
    {
        // See comment for v1.6.0 requirement
        // https://github.com/LedgerHQ/app-ethereum/issues/105#issuecomment-765316999
        let req = semver::VersionReq::parse(EIP712_MIN_VERSION)?;
        let version = semver::Version::parse(&self.version().await?)?;

        // Enforce app version is greater than EIP712_MIN_VERSION
        if !req.matches(&version) {
            return Err(LedgerError::UnsupportedAppVersion(EIP712_MIN_VERSION.to_string()))
        }

        let domain_separator =
            payload.domain_separator().map_err(|e| LedgerError::Eip712Error(e.to_string()))?;
        let struct_hash =
            payload.struct_hash().map_err(|e| LedgerError::Eip712Error(e.to_string()))?;

        let mut payload = Self::path_to_bytes(&self.derivation);
        payload.extend_from_slice(&domain_separator);
        payload.extend_from_slice(&struct_hash);

        self.sign_payload(INS::SIGN_ETH_EIP_712, payload).await
    }

    // Helper function for signing either transaction data, personal messages or EIP712 derived
    // structs
    pub async fn sign_payload(
        &self,
        command: INS,
        mut payload: Vec<u8>,
    ) -> Result<Signature, LedgerError> {
        let transport = self.transport.lock().await;
        let mut command = APDUCommand {
            ins: command as u8,
            p1: P1_FIRST,
            p2: P2::NO_CHAINCODE as u8,
            data: APDUData::new(&[]),
            response_len: None,
        };

        let mut result = Vec::new();

        // Iterate in 255 byte chunks
        while !payload.is_empty() {
            let chunk_size = std::cmp::min(payload.len(), 255);
            let data = payload.drain(0..chunk_size).collect::<Vec<_>>();
            command.data = APDUData::new(&data);

            let answer = block_on(transport.exchange(&command))?;
            result = answer.data().ok_or(LedgerError::UnexpectedNullResponse)?.to_vec();

            // We need more data
            command.p1 = P1::MORE as u8;
        }

        let v = result[0] as u64;
        let r = U256::from_big_endian(&result[1..33]);
        let s = U256::from_big_endian(&result[33..]);
        Ok(Signature { r, s, v })
    }

    // helper which converts a derivation path to bytes
    fn path_to_bytes(derivation: &DerivationType) -> Vec<u8> {
        let derivation = derivation.to_string();
        let elements = derivation.split('/').skip(1).collect::<Vec<_>>();
        let depth = elements.len();

        let mut bytes = vec![depth as u8];
        for derivation_index in elements {
            let hardened = derivation_index.contains('\'');
            let mut index = derivation_index.replace('\'', "").parse::<u32>().unwrap();
            if hardened {
                index |= 0x80000000;
            }

            bytes.extend(index.to_be_bytes());
        }

        bytes
    }
}

#[cfg(all(test, feature = "ledger"))]
mod tests {
    use super::*;
    use crate::Signer;
    use ethers_contract_derive::EthAbiType;
    use ethers_core::types::{
        transaction::eip712::Eip712, Address, TransactionRequest, I256, U256,
    };
    use ethers_derive_eip712::*;
    use std::str::FromStr;

    #[derive(Debug, Clone, Eip712, EthAbiType)]
    #[eip712(
        name = "Eip712Test",
        version = "1",
        chain_id = 1,
        verifying_contract = "0x0000000000000000000000000000000000000001",
        salt = "eip712-test-75F0CCte"
    )]
    struct FooBar {
        foo: I256,
        bar: U256,
        fizz: Vec<u8>,
        buzz: [u8; 32],
        far: String,
        out: Address,
    }

    #[tokio::test]
    #[ignore]
    // Replace this with your ETH addresses.
    async fn test_get_address() {
        // Instantiate it with the default ledger derivation path
        let ledger = LedgerEthereum::new(DerivationType::LedgerLive(0), 1).await.unwrap();
        assert_eq!(
            ledger.get_address().await.unwrap(),
            "eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee".parse().unwrap()
        );
        assert_eq!(
            ledger.get_address_with_path(&DerivationType::Legacy(0)).await.unwrap(),
            "eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee".parse().unwrap()
        );
    }

    #[tokio::test]
    #[ignore]
    async fn test_sign_tx() {
        let ledger = LedgerEthereum::new(DerivationType::LedgerLive(0), 1).await.unwrap();

        // approve uni v2 router 0xff
        let data = hex::decode("095ea7b30000000000000000000000007a250d5630b4cf539739df2c5dacb4c659f2488dffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff").unwrap();

        let tx_req = TransactionRequest::new()
            .to("2ed7afa17473e17ac59908f088b4371d28585476".parse::<Address>().unwrap())
            .gas(1000000)
            .gas_price(400e9 as u64)
            .nonce(5)
            .data(data)
            .value(ethers_core::utils::parse_ether(100).unwrap())
            .into();
        let tx = ledger.sign_transaction(&tx_req).await.unwrap();
    }

    #[tokio::test]
    #[ignore]
    async fn test_version() {
        let ledger = LedgerEthereum::new(DerivationType::LedgerLive(0), 1).await.unwrap();

        let version = ledger.version().await.unwrap();
        assert_eq!(version, "1.3.7");
    }

    #[tokio::test]
    #[ignore]
    async fn test_sign_message() {
        let ledger = LedgerEthereum::new(DerivationType::Legacy(0), 1).await.unwrap();
        let message = "hello world";
        let sig = ledger.sign_message(message).await.unwrap();
        let addr = ledger.get_address().await.unwrap();
        sig.verify(message, addr).unwrap();
    }

    #[tokio::test]
    #[ignore]
    async fn test_sign_eip712_struct() {
        let ledger = LedgerEthereum::new(DerivationType::LedgerLive(0), 1u64).await.unwrap();

        let foo_bar = FooBar {
            foo: I256::from(10),
            bar: U256::from(20),
            fizz: b"fizz".to_vec(),
            buzz: keccak256("buzz"),
            far: String::from("space"),
            out: Address::from([0; 20]),
        };

        let sig = ledger.sign_typed_struct(&foo_bar).await.expect("failed to sign typed data");
        let foo_bar_hash = foo_bar.encode_eip712().unwrap();
        sig.verify(foo_bar_hash, ledger.address).unwrap();
    }
}