import ./basics import ./transaction import ./blocktag export basics export transaction export blocktag push: {.upraises: [].} type Provider* = ref object of RootObj ProviderError* = object of EthersError Subscription* = ref object of RootObj Filter* = object address*: Address topics*: seq[Topic] Log* = object data*: seq[byte] topics*: seq[Topic] TransactionHash* = array[32, byte] BlockHash* = array[32, byte] TransactionStatus* = enum Failure = 0, Success = 1, Invalid = 2 TransactionResponse* = object provider*: Provider hash*: TransactionHash TransactionReceipt* = object sender*: ?Address to*: ?Address contractAddress*: ?Address transactionIndex*: UInt256 gasUsed*: UInt256 logsBloom*: seq[byte] blockHash*: ?BlockHash transactionHash*: TransactionHash logs*: seq[Log] blockNumber*: ?UInt256 cumulativeGasUsed*: UInt256 status*: TransactionStatus LogHandler* = proc(log: Log) {.gcsafe, upraises:[].} BlockHandler* = proc(blck: Block): Future[void] {.gcsafe, upraises:[].} Topic* = array[32, byte] Block* = object number*: ?UInt256 timestamp*: UInt256 hash*: ?array[32, byte] const EthersDefaultConfirmations* {.intdefine.} = 12 const EthersReceiptTimeoutBlks* {.intdefine.} = 50 # in blocks method getBlockNumber*(provider: Provider): Future[UInt256] {.base.} = doAssert false, "not implemented" method getBlock*(provider: Provider, tag: BlockTag): Future[?Block] {.base.} = doAssert false, "not implemented" method call*(provider: Provider, tx: Transaction, blockTag = BlockTag.latest): Future[seq[byte]] {.base.} = doAssert false, "not implemented" method getGasPrice*(provider: Provider): Future[UInt256] {.base.} = doAssert false, "not implemented" method getTransactionCount*(provider: Provider, address: Address, blockTag = BlockTag.latest): Future[UInt256] {.base.} = doAssert false, "not implemented" method getTransactionReceipt*(provider: Provider, txHash: TransactionHash): Future[?TransactionReceipt] {.base.} = doAssert false, "not implemented" method sendTransaction*(provider: Provider, rawTransaction: seq[byte]): Future[TransactionResponse] {.base.} = doAssert false, "not implemented" method estimateGas*(provider: Provider, transaction: Transaction): Future[UInt256] {.base.} = doAssert false, "not implemented" method getChainId*(provider: Provider): Future[UInt256] {.base.} = doAssert false, "not implemented" method subscribe*(provider: Provider, filter: Filter, callback: LogHandler): Future[Subscription] {.base.} = doAssert false, "not implemented" method subscribe*(provider: Provider, callback: BlockHandler): Future[Subscription] {.base.} = doAssert false, "not implemented" method unsubscribe*(subscription: Subscription) {.base, async.} = doAssert false, "not implemented" # Removed from `confirm` closure and exported so it can be tested. # Likely there is a better way func confirmations*(receiptBlk, atBlk: UInt256): UInt256 = ## Calculates the number of confirmations between two blocks if atBlk < receiptBlk: return 0.u256 else: return (atBlk - receiptBlk) + 1 # add 1 for current block # Removed from `confirm` closure and exported so it can be tested. # Likely there is a better way func hasBeenMined*(receipt: TransactionReceipt, atBlock: UInt256, wantedConfirms: int): bool = ## Returns true if the transaction receipt has been returned from the node ## with a valid block number and block hash and the specified number of ## blocks have passed since the tx was mined (confirmations) if number =? receipt.blockNumber and number > 0 and # from ethers.js: "geth-etc" returns receipts before they are ready receipt.blockHash.isSome: return number.confirmations(atBlock) >= wantedConfirms.u256 return false proc confirm*(tx: TransactionResponse, wantedConfirms: Positive = EthersDefaultConfirmations, timeoutInBlocks: Natural = EthersReceiptTimeoutBlks): Future[TransactionReceipt] {.async, upraises: [EthersError].} = # raises for clarity ## Waits for a transaction to be mined and for the specified number of blocks ## to pass since it was mined (confirmations). ## A timeout, in blocks, can be specified that will raise an error if too many ## blocks have passed without the tx having been mined. var subscription: Subscription let provider = tx.provider retFut = newFuture[TransactionReceipt]("wait") # used to check for block timeouts let startBlock = await provider.getBlockNumber() proc newBlock(blk: Block) {.async.} = ## subscription callback, called every time a new block event is sent from ## the node # if ethereum node doesn't include blockNumber in the event without blkNum =? blk.number: return if receipt =? (await provider.getTransactionReceipt(tx.hash)) and receipt.hasBeenMined(blkNum, wantedConfirms): # fire and forget discard subscription.unsubscribe() if not retFut.finished: retFut.complete(receipt) elif timeoutInBlocks > 0: let blocksPassed = (blkNum - startBlock) + 1 if blocksPassed >= timeoutInBlocks.u256: discard subscription.unsubscribe() if not retFut.finished: let message = "Transaction was not mined in " & $timeoutInBlocks & " blocks" retFut.fail(newException(EthersError, message)) # If our tx is already mined, return the receipt. Otherwise, check each # new block to see if the tx has been mined if receipt =? (await provider.getTransactionReceipt(tx.hash)) and receipt.hasBeenMined(startBlock, wantedConfirms): return receipt else: subscription = await provider.subscribe(newBlock) return (await retFut) proc confirm*(tx: Future[TransactionResponse], wantedConfirms: Positive = EthersDefaultConfirmations, timeoutInBlocks: Natural = EthersReceiptTimeoutBlks): Future[TransactionReceipt] {.async.} = ## Convenience method that allows wait to be chained to a sendTransaction ## call, eg: ## `await signer.sendTransaction(populated).confirm(3)` let txResp = await tx return await txResp.confirm(wantedConfirms, timeoutInBlocks) proc confirm*(tx: Future[?TransactionResponse], wantedConfirms: Positive = EthersDefaultConfirmations, timeoutInBlocks: Natural = EthersReceiptTimeoutBlks): Future[TransactionReceipt] {.async.} = ## Convenience method that allows wait to be chained to a contract ## transaction, eg: ## `await token.connect(signer0) ## .mint(accounts[1], 100.u256) ## .confirm(3)` without txResp =? (await tx): raise newException( EthersError, "Transaction hash required. Possibly was a call instead of a send?" ) return await txResp.confirm(wantedConfirms, timeoutInBlocks) method close*(provider: Provider) {.async, base.} = discard