nim-ethers/ethers/provider.nim

import pkg/chronicles
import pkg/serde
import pkg/stew/byteutils
import ./basics
import ./transaction
import ./blocktag

export basics
export transaction
export blocktag

{.push raises: [].}

type
  Provider* = ref object of RootObj
  ProviderError* = object of EthersError
  Subscription* = ref object of RootObj
  EventFilter* {.serialize.} = ref object of RootObj
    address*: Address
    topics*: seq[Topic]
  Filter* {.serialize.} = ref object of EventFilter
    fromBlock*: BlockTag
    toBlock*: BlockTag
  FilterByBlockHash* {.serialize.} = ref object of EventFilter
    blockHash*: BlockHash
  Log* {.serialize.} = object
    blockNumber*: UInt256
    data*: seq[byte]
    logIndex*: UInt256
    removed*: bool
    topics*: seq[Topic]
  TransactionHash* = array[32, byte]
  BlockHash* = array[32, byte]
  TransactionStatus* = enum
    Failure = 0,
    Success = 1,
    Invalid = 2
  TransactionResponse* = object
    provider*: Provider
    hash* {.serialize.}: TransactionHash
  TransactionReceipt* {.serialize.} = object
    sender* {.serialize("from"), deserialize("from").}: ?Address
    to*: ?Address
    contractAddress*: ?Address
    transactionIndex*: UInt256
    gasUsed*: UInt256
    logsBloom*: seq[byte]
    blockHash*: ?BlockHash
    transactionHash*: TransactionHash
    logs*: seq[Log]
    blockNumber*: ?UInt256
    cumulativeGasUsed*: UInt256
    effectiveGasPrice*: ?UInt256
    status*: TransactionStatus
    transactionType* {.serialize("type"), deserialize("type").}: TransactionType
  LogHandler* = proc(log: Log) {.gcsafe, raises:[].}
  BlockHandler* = proc(blck: Block) {.gcsafe, raises:[].}
  Topic* = array[32, byte]
  Block* {.serialize.} = object
    number*: ?UInt256
    timestamp*: UInt256
    hash*: ?BlockHash
  PastTransaction* {.serialize.} = object
    blockHash*: BlockHash
    blockNumber*: UInt256
    sender* {.serialize("from"), deserialize("from").}: Address
    gas*: UInt256
    gasPrice*: UInt256
    hash*: TransactionHash
    input*: seq[byte]
    nonce*: UInt256
    to*: Address
    transactionIndex*: UInt256
    transactionType* {.serialize("type"), deserialize("type").}: ?TransactionType
    chainId*: ?UInt256
    value*: UInt256
    v*, r*, s*: UInt256

const EthersDefaultConfirmations* {.intdefine.} = 12
const EthersReceiptTimeoutBlks* {.intdefine.} = 50 # in blocks

logScope:
  topics = "ethers provider"

template raiseProviderError(msg: string) =
  raise newException(ProviderError, msg)

func toTransaction*(past: PastTransaction): Transaction =
  Transaction(
    sender: some past.sender,
    to: past.to,
    data: past.input,
    value: past.value,
    nonce: some past.nonce,
    chainId: past.chainId,
    gasPrice: some past.gasPrice,
    gasLimit: some past.gas,
    transactionType: past.transactionType
  )

method getBlockNumber*(
  provider: Provider): Future[UInt256] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method getBlock*(
  provider: Provider,
  tag: BlockTag): Future[?Block] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method call*(
  provider: Provider,
  tx: Transaction,
  blockTag = BlockTag.latest): Future[seq[byte]] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method getGasPrice*(
  provider: Provider): Future[UInt256] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method getTransactionCount*(
  provider: Provider,
  address: Address,
  blockTag = BlockTag.latest): Future[UInt256] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method getTransaction*(
  provider: Provider,
  txHash: TransactionHash): Future[?PastTransaction] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method getTransactionReceipt*(
  provider: Provider,
  txHash: TransactionHash): Future[?TransactionReceipt] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method sendTransaction*(
  provider: Provider,
  rawTransaction: seq[byte]): Future[TransactionResponse] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method getLogs*(
  provider: Provider,
  filter: EventFilter): Future[seq[Log]] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method estimateGas*(
  provider: Provider,
  transaction: Transaction,
  blockTag = BlockTag.latest): Future[UInt256] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method getChainId*(
  provider: Provider): Future[UInt256] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method subscribe*(
  provider: Provider,
  filter: EventFilter,
  callback: LogHandler): Future[Subscription] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method subscribe*(
  provider: Provider,
  callback: BlockHandler): Future[Subscription] {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method unsubscribe*(
  subscription: Subscription) {.base, async: (raises:[ProviderError]).} =

  doAssert false, "not implemented"

method isSyncing*(provider: Provider): Future[bool] {.base, async.} =
  doAssert false, "not implemented"

proc replay*(
  provider: Provider,
  tx: Transaction,
  blockNumber: UInt256) {.async: (raises:[ProviderError]).} =
  # Replay transaction at block. Useful for fetching revert reasons, which will
  # be present in the raised error message. The replayed block number should
  # include the state of the chain in the block previous to the block in which
  # the transaction was mined. This means that transactions that were mined in
  # the same block BEFORE this transaction will not have their state transitions
  # included in the replay.
  # More information: https://snakecharmers.ethereum.org/web3py-revert-reason-parsing/
  trace "replaying transaction", gasLimit = tx.gasLimit, tx = $tx
  discard await provider.call(tx, BlockTag.init(blockNumber))

method getRevertReason*(
  provider: Provider,
  hash: TransactionHash,
  blockNumber: UInt256): Future[?string] {.base, async: (raises: [ProviderError]).} =

  without pastTx =? await provider.getTransaction(hash):
    return none string

  try:
    await provider.replay(pastTx.toTransaction, blockNumber)
    return none string
  except ProviderError as e:
    # should contain the revert reason
    return some e.msg

method getRevertReason*(
  provider: Provider,
  receipt: TransactionReceipt): Future[?string] {.base, async: (raises: [ProviderError]).} =

  if receipt.status != TransactionStatus.Failure:
    return none string

  without blockNumber =? receipt.blockNumber:
    return none string

  return await provider.getRevertReason(receipt.transactionHash, blockNumber - 1)

proc ensureSuccess(
  provider: Provider,
  receipt: TransactionReceipt) {.async: (raises: [ProviderError]).} =
  ## If the receipt.status is Failed, the tx is replayed to obtain a revert
  ## reason, after which a ProviderError with the revert reason is raised.
  ## If no revert reason was obtained

  # TODO: handle TransactionStatus.Invalid?
  if receipt.status == TransactionStatus.Failure:
    logScope:
      transactionHash = receipt.transactionHash.to0xHex

    trace "transaction failed, replaying transaction to get revert reason"

    if revertReason =? await provider.getRevertReason(receipt):
      trace "transaction revert reason obtained", revertReason
      raiseProviderError(revertReason)
    else:
      trace "transaction replay completed, no revert reason obtained"
      raiseProviderError("Transaction reverted with unknown reason")

proc confirm*(
  tx: TransactionResponse,
  confirmations = EthersDefaultConfirmations,
  timeout = EthersReceiptTimeoutBlks): Future[TransactionReceipt]
  {.async: (raises: [CancelledError, ProviderError, EthersError]).} =

  ## 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 blockNumber: UInt256
  let blockEvent = newAsyncEvent()

  proc onBlockNumber(number: UInt256) =
    blockNumber = number
    blockEvent.fire()

  proc onBlock(blck: Block) =
    if number =? blck.number:
      onBlockNumber(number)

  onBlockNumber(await tx.provider.getBlockNumber())
  let subscription = await tx.provider.subscribe(onBlock)

  let finish = blockNumber + timeout.u256
  var receipt: ?TransactionReceipt

  while true:
    await blockEvent.wait()
    blockEvent.clear()

    if blockNumber >= finish:
      await subscription.unsubscribe()
      raise newException(EthersError, "tx not mined before timeout")

    if receipt.?blockNumber.isNone:
      receipt = await tx.provider.getTransactionReceipt(tx.hash)

    without receipt =? receipt and txBlockNumber =? receipt.blockNumber:
      continue

    if txBlockNumber + confirmations.u256 <= blockNumber + 1:
      await subscription.unsubscribe()
      await tx.provider.ensureSuccess(receipt)
      return receipt

proc confirm*(
  tx: Future[TransactionResponse],
  confirmations: int = EthersDefaultConfirmations,
  timeout: int = 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(confirmations, timeout)

method close*(provider: Provider) {.base, async: (raises:[ProviderError]).} =
  discard