import ./basics import ./provider export basics type Signer* = ref object of RootObj lastSeenNonce: ?UInt256 populateLock: AsyncLock type SignerError* = object of EthersError EstimateGasError* = object of SignerError transaction*: Transaction template raiseSignerError(message: string, parent: ref ProviderError = nil) = raise newException(SignerError, message, parent) proc raiseEstimateGasError( transaction: Transaction, parent: ref ProviderError = nil ) = let e = (ref EstimateGasError)( msg: "Estimate gas failed", transaction: transaction, parent: parent) raise e method provider*(signer: Signer): Provider {.base, gcsafe.} = doAssert false, "not implemented" method getAddress*(signer: Signer): Future[Address] {.base, gcsafe.} = doAssert false, "not implemented" method signMessage*(signer: Signer, message: seq[byte]): Future[seq[byte]] {.base, async.} = doAssert false, "not implemented" method sendTransaction*(signer: Signer, transaction: Transaction): Future[TransactionResponse] {.base, async.} = doAssert false, "not implemented" method getGasPrice*(signer: Signer): Future[UInt256] {.base, gcsafe.} = signer.provider.getGasPrice() method getTransactionCount*(signer: Signer, blockTag = BlockTag.latest): Future[UInt256] {.base, async.} = let address = await signer.getAddress() return await signer.provider.getTransactionCount(address, blockTag) method estimateGas*(signer: Signer, transaction: Transaction, blockTag = BlockTag.latest): Future[UInt256] {.base, async.} = var transaction = transaction transaction.sender = some(await signer.getAddress) try: return await signer.provider.estimateGas(transaction) except ProviderError as e: raiseEstimateGasError transaction, e method getChainId*(signer: Signer): Future[UInt256] {.base, gcsafe.} = signer.provider.getChainId() method getNonce(signer: Signer): Future[UInt256] {.base, gcsafe, async.} = var nonce = await signer.getTransactionCount(BlockTag.pending) if lastSeen =? signer.lastSeenNonce and lastSeen >= nonce: nonce = (lastSeen + 1.u256) signer.lastSeenNonce = some nonce return nonce method updateNonce*( signer: Signer, nonce: UInt256 ) {.base, gcsafe.} = without lastSeen =? signer.lastSeenNonce: signer.lastSeenNonce = some nonce return if nonce > lastSeen: signer.lastSeenNonce = some nonce method decreaseNonce*(signer: Signer) {.base, gcsafe.} = if lastSeen =? signer.lastSeenNonce and lastSeen > 0: signer.lastSeenNonce = some lastSeen - 1 method populateTransaction*(signer: Signer, transaction: Transaction): Future[Transaction] {.base, async.} = if sender =? transaction.sender and sender != await signer.getAddress(): raiseSignerError("from address mismatch") if chainId =? transaction.chainId and chainId != await signer.getChainId(): raiseSignerError("chain id mismatch") if signer.populateLock.isNil: signer.populateLock = newAsyncLock() await signer.populateLock.acquire() var populated = transaction try: if transaction.sender.isNone: populated.sender = some(await signer.getAddress()) if transaction.chainId.isNone: populated.chainId = some(await signer.getChainId()) if transaction.gasPrice.isNone and (transaction.maxFee.isNone or transaction.maxPriorityFee.isNone): populated.gasPrice = some(await signer.getGasPrice()) if transaction.nonce.isNone and transaction.gasLimit.isNone: # when both nonce and gasLimit are not populated, we must ensure getNonce is # followed by an estimateGas so we can determine if there was an error. If # there is an error, the nonce must be decreased to prevent nonce gaps and # stuck transactions populated.nonce = some(await signer.getNonce()) try: populated.gasLimit = some(await signer.estimateGas(populated)) except ProviderError, EstimateGasError: let e = getCurrentException() signer.decreaseNonce() raise e else: if transaction.nonce.isNone: populated.nonce = some(await signer.getNonce()) if transaction.gasLimit.isNone: populated.gasLimit = some(await signer.estimateGas(populated)) finally: signer.populateLock.release() return populated method cancelTransaction*( signer: Signer, tx: Transaction ): Future[TransactionResponse] {.async, base.} = # cancels a transaction by sending with a 0-valued transaction to ourselves # with the failed tx's nonce without sender =? tx.sender: raiseSignerError "transaction must have sender" without nonce =? tx.nonce: raiseSignerError "transaction must have nonce" var cancelTx = Transaction(to: sender, value: 0.u256, nonce: some nonce) cancelTx = await signer.populateTransaction(cancelTx) return await signer.sendTransaction(cancelTx)