import std/json import std/macros import std/sequtils import pkg/chronicles import pkg/chronos import pkg/contractabi import ./basics import ./provider import ./signer import ./events import ./fields export basics export provider export events logScope: topics = "ethers contract" type Contract* = ref object of RootObj provider: Provider signer: ?Signer address: Address TransactionOverrides* = ref object of RootObj nonce*: ?UInt256 chainId*: ?UInt256 gasPrice*: ?UInt256 maxFee*: ?UInt256 maxPriorityFee*: ?UInt256 gasLimit*: ?UInt256 CallOverrides* = ref object of TransactionOverrides blockTag*: ?BlockTag ContractError* = object of EthersError Confirmable* = ?TransactionResponse EventHandler*[E: Event] = proc(event: E) {.gcsafe, raises:[].} func new*(ContractType: type Contract, address: Address, provider: Provider): ContractType = ContractType(provider: provider, address: address) func new*(ContractType: type Contract, address: Address, signer: Signer): ContractType = ContractType(signer: some signer, provider: signer.provider, address: address) func connect*[T: Contract](contract: T, provider: Provider | Signer): T = T.new(contract.address, provider) func provider*(contract: Contract): Provider = contract.provider func signer*(contract: Contract): ?Signer = contract.signer func address*(contract: Contract): Address = contract.address template raiseContractError(message: string) = raise newException(ContractError, message) proc createTransaction(contract: Contract, function: string, parameters: tuple, overrides = TransactionOverrides()): Transaction = let selector = selector(function, typeof parameters).toArray let data = @selector & AbiEncoder.encode(parameters) Transaction( to: contract.address, data: data, nonce: overrides.nonce, chainId: overrides.chainId, gasPrice: overrides.gasPrice, maxFee: overrides.maxFee, maxPriorityFee: overrides.maxPriorityFee, gasLimit: overrides.gasLimit, ) proc decodeResponse(T: type, multiple: static bool, bytes: seq[byte]): T = when multiple: without decoded =? AbiDecoder.decode(bytes, T): raiseContractError "unable to decode return value as " & $T return decoded else: return decodeResponse((T,), true, bytes)[0] proc call(provider: Provider, transaction: Transaction, overrides: TransactionOverrides): Future[seq[byte]] = if overrides of CallOverrides and blockTag =? CallOverrides(overrides).blockTag: provider.call(transaction, blockTag) else: provider.call(transaction) proc call(contract: Contract, function: string, parameters: tuple, overrides = TransactionOverrides()) {.async.} = var transaction = createTransaction(contract, function, parameters, overrides) if signer =? contract.signer and transaction.sender.isNone: transaction.sender = some(await signer.getAddress()) discard await contract.provider.call(transaction, overrides) proc call(contract: Contract, function: string, parameters: tuple, ReturnType: type, returnMultiple: static bool, overrides = TransactionOverrides()): Future[ReturnType] {.async.} = var transaction = createTransaction(contract, function, parameters, overrides) if signer =? contract.signer and transaction.sender.isNone: transaction.sender = some(await signer.getAddress()) let response = await contract.provider.call(transaction, overrides) return decodeResponse(ReturnType, returnMultiple, response) proc send(contract: Contract, function: string, parameters: tuple, overrides = TransactionOverrides()): Future[?TransactionResponse] {.async.} = if signer =? contract.signer: let transaction = createTransaction(contract, function, parameters, overrides) let populated = await signer.populateTransaction(transaction) let txResp = await signer.sendTransaction(populated) return txResp.some else: await call(contract, function, parameters, overrides) return TransactionResponse.none func getParameterTuple(procedure: NimNode): NimNode = let parameters = procedure[3] var tupl = newNimNode(nnkTupleConstr, parameters) for parameter in parameters[2..^1]: for name in parameter[0..^3]: tupl.add name return tupl func isConstant(procedure: NimNode): bool = let pragmas = procedure[4] for pragma in pragmas: if pragma.eqIdent "view": return true elif pragma.eqIdent "pure": return true false func isMultipleReturn(returnType: NimNode): bool = (returnType.kind == nnkPar and returnType.len > 1) or (returnType.kind == nnkTupleConstr) or (returnType.kind == nnkTupleTy) func addOverrides(procedure: var NimNode) = procedure[3].add( newIdentDefs( ident("overrides"), newEmptyNode(), quote do: TransactionOverrides() ) ) func addContractCall(procedure: var NimNode) = let contract = procedure[3][1][0] let function = $basename(procedure[0]) let parameters = getParameterTuple(procedure) let returnType = procedure[3][0] let returnMultiple = returnType.isMultipleReturn.newLit procedure.addOverrides() func call: NimNode = if returnType.kind == nnkEmpty: quote: await call(`contract`, `function`, `parameters`, overrides) else: quote: return await call( `contract`, `function`, `parameters`, `returnType`, `returnMultiple`, overrides) func send: NimNode = if returnType.kind == nnkEmpty: quote: discard await send(`contract`, `function`, `parameters`, overrides) else: quote: when typeof(result) isnot Confirmable: {.error: "unexpected return type, missing {.view.} or {.pure.} ?".} return await send(`contract`, `function`, `parameters`, overrides) procedure[6] = if procedure.isConstant: call() else: send() func addFuture(procedure: var NimNode) = let returntype = procedure[3][0] if returntype.kind != nnkEmpty: procedure[3][0] = quote: Future[`returntype`] func addAsyncPragma(procedure: var NimNode) = let pragmas = procedure[4] if pragmas.kind == nnkEmpty: procedure[4] = newNimNode(nnkPragma) procedure[4].add ident("async") macro contract*(procedure: untyped{nkProcDef|nkMethodDef}): untyped = let parameters = procedure[3] let body = procedure[6] parameters.expectMinLen(2) # at least return type and contract instance body.expectKind(nnkEmpty) var contractcall = copyNimTree(procedure) contractcall.addContractCall() contractcall.addFuture() contractcall.addAsyncPragma() contractcall template view* {.pragma.} template pure* {.pragma.} proc subscribe*[E: Event](contract: Contract, _: type E, handler: EventHandler[E]): Future[Subscription] = let topic = topic($E, E.fieldTypes).toArray let filter = EventFilter(address: contract.address, topics: @[topic]) proc logHandler(log: Log) {.raises: [].} = if event =? E.decode(log.data, log.topics): handler(event) contract.provider.subscribe(filter, logHandler) proc confirm*(tx: Future[?TransactionResponse], confirmations: int = EthersDefaultConfirmations, timeout: int = EthersReceiptTimeoutBlks): Future[TransactionReceipt] {.async.} = ## Convenience method that allows confirm to be chained to a contract ## transaction, eg: ## `await token.connect(signer0) ## .mint(accounts[1], 100.u256) ## .confirm(3)` without response =? (await tx): raise newException( EthersError, "Transaction hash required. Possibly was a call instead of a send?" ) return await response.confirm(confirmations, timeout) proc queryFilter[E: Event](contract: Contract, _: type E, filter: EventFilter): Future[seq[E]] {.async.} = var logs = await contract.provider.getLogs(filter) logs.keepItIf(not it.removed) var events: seq[E] = @[] for log in logs: if event =? E.decode(log.data, log.topics): events.add event return events proc queryFilter*[E: Event](contract: Contract, _: type E): Future[seq[E]] = let topic = topic($E, E.fieldTypes).toArray let filter = EventFilter(address: contract.address, topics: @[topic]) contract.queryFilter(E, filter) proc queryFilter*[E: Event](contract: Contract, _: type E, blockHash: BlockHash): Future[seq[E]] = let topic = topic($E, E.fieldTypes).toArray let filter = FilterByBlockHash(address: contract.address, topics: @[topic], blockHash: blockHash) contract.queryFilter(E, filter) proc queryFilter*[E: Event](contract: Contract, _: type E, fromBlock: BlockTag, toBlock: BlockTag): Future[seq[E]] = let topic = topic($E, E.fieldTypes).toArray let filter = Filter(address: contract.address, topics: @[topic], fromBlock: fromBlock, toBlock: toBlock) contract.queryFilter(E, filter)