829 lines
28 KiB
Nim
829 lines
28 KiB
Nim
import macros, strutils, options, math, json, tables, uri
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from os import DirSep
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import
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nimcrypto, stint, httputils, chronicles, chronos, json_rpc/rpcclient,
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stew/byteutils, eth/keys
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import web3/[ethtypes, ethprocs, conversions, ethhexstrings, transaction_signing]
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template sourceDir: string = currentSourcePath.rsplit(DirSep, 1)[0]
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## Generate client convenience marshalling wrappers from forward declarations
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createRpcSigs(RpcClient, sourceDir & DirSep & "web3" & DirSep & "ethcallsigs.nim")
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export UInt256, Int256, Uint128, Int128
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export ethtypes, conversions
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type
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Web3* = ref object
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provider*: RpcClient
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subscriptions*: Table[string, Subscription]
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defaultAccount*: Address
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privateKey*: PrivateKey
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onDisconnect*: proc() {.gcsafe.}
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Sender*[T] = ref object
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web3*: Web3
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contractAddress*: Address
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EncodeResult* = tuple[dynamic: bool, data: string]
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Subscription* = ref object
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id*: string
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web3*: Web3
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callback*: proc(j: JsonNode) {.gcsafe.}
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pendingEvents: seq[JsonNode]
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historicalEventsProcessed: bool
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removed: bool
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ContractCallBase = object {.pure, inheritable.}
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web3: Web3
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data: string
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to: Address
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value: Uint256
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ContractCall*[T] = object of ContractCallBase
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proc handleSubscriptionNotification(w: Web3, j: JsonNode) =
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let s = w.subscriptions.getOrDefault(j{"subscription"}.getStr())
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if not s.isNil and not s.removed:
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if s.historicalEventsProcessed:
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try:
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s.callback(j{"result"})
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except CatchableError as e:
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echo "Caught exception in handleSubscriptionNotification: ", e.msg
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echo e.getStackTrace()
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else:
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s.pendingEvents.add(j)
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proc newWeb3*(provider: RpcClient): Web3 =
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result = Web3(provider: provider)
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result.subscriptions = initTable[string, Subscription]()
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let r = result
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provider.setMethodHandler("eth_subscription") do(j: JsonNode):
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r.handleSubscriptionNotification(j)
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proc newWeb3*(uri: string): Future[Web3] {.async.} =
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let u = parseUri(uri)
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var provider: RpcClient
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case u.scheme
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of "http", "https":
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let p = newRpcHttpClient()
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await p.connect(uri)
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provider = p
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of "ws", "wss":
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let p = newRpcWebSocketClient()
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await p.connect(uri)
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provider = p
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else:
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raise newException(CatchableError, "Unknown web3 url scheme")
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result = newWeb3(provider)
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let r = result
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provider.onDisconnect = proc() =
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r.subscriptions.clear()
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if not r.onDisconnect.isNil:
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r.onDisconnect()
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proc close*(web3: Web3): Future[void] = web3.provider.close()
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proc getHistoricalEvents(s: Subscription, options: JsonNode) {.async.} =
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try:
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let logs = await s.web3.provider.eth_getLogs(options)
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for l in logs:
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if s.removed: break
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s.callback(l)
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s.historicalEventsProcessed = true
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var i = 0
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while i < s.pendingEvents.len: # Mind reentrancy
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if s.removed: break
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s.callback(s.pendingEvents[i])
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inc i
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s.pendingEvents = @[]
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except CatchableError as e:
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echo "Caught exception in getHistoricalEvents: ", e.msg
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echo e.getStackTrace()
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proc subscribe*(w: Web3, name: string, options: JsonNode, callback: proc(j: JsonNode) {.gcsafe.}): Future[Subscription] {.async.} =
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var options = options
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if options.isNil: options = newJNull()
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let id = await w.provider.eth_subscribe(name, options)
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result = Subscription(id: id, web3: w, callback: callback)
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w.subscriptions[id] = result
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proc subscribeToLogs*(w: Web3, options: JsonNode, callback: proc(j: JsonNode) {.gcsafe.}): Future[Subscription] {.async.} =
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result = await subscribe(w, "logs", options, callback)
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discard getHistoricalEvents(result, options)
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proc unsubscribe*(s: Subscription): Future[void] {.async.} =
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s.web3.subscriptions.del(s.id)
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s.removed = true
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discard await s.web3.provider.eth_unsubscribe(s.id)
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func encode*[bits: static[int]](x: Stuint[bits]): EncodeResult =
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## Encodes a `Stuint` to a textual representation for use in the JsonRPC
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## `sendTransaction` call.
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(dynamic: false, data: '0'.repeat((256 - bits) div 4) & x.dumpHex)
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func encode*[bits: static[int]](x: Stint[bits]): EncodeResult =
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## Encodes a `Stint` to a textual representation for use in the JsonRPC
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## `sendTransaction` call.
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(dynamic: false,
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data:
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if x.isNegative:
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'f'.repeat((256 - bits) div 4) & x.dumpHex
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else:
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'0'.repeat((256 - bits) div 4) & x.dumpHex
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)
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func decode*(input: string, offset: int, to: var Stuint): int =
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let meaningfulLen = to.bits div 8 * 2
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to = type(to).fromHex(input[offset .. offset + meaningfulLen - 1])
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meaningfulLen
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func decode*[N](input: string, offset: int, to: var Stint[N]): int =
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let meaningfulLen = N div 8 * 2
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fromHex(input[offset .. offset + meaningfulLen], to)
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meaningfulLen
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func fixedEncode(a: openarray[byte]): EncodeResult =
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var padding = a.len mod 32
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if padding != 0: padding = 32 - padding
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result = (dynamic: false, data: "00".repeat(padding) & byteutils.toHex(a))
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func encode*[N](b: FixedBytes[N]): EncodeResult = fixedEncode(array[N, byte](b))
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func encode*(b: Address): EncodeResult = fixedEncode(array[20, byte](b))
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proc skip0xPrefix*(s: string): int =
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if s.len > 1 and s[0] == '0' and s[1] in {'x', 'X'}: 2
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else: 0
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proc strip0xPrefix*(s: string): string =
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let prefixLen = skip0xPrefix(s)
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if prefixLen != 0:
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s[prefixLen .. ^1]
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else:
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s
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proc fromHexAux(s: string, result: var openarray[byte]) =
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let prefixLen = skip0xPrefix(s)
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let meaningfulLen = s.len - prefixLen
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let requiredChars = result.len * 2
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if meaningfulLen > requiredChars:
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let start = s.len - requiredChars
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hexToByteArray(s[start .. s.len - 1], result)
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elif meaningfulLen == requiredChars:
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hexToByteArray(s, result)
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else:
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raise newException(ValueError, "Short hex string (" & $meaningfulLen & ") for Bytes[" & $result.len & "]")
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func fromHex*[N](x: type FixedBytes[N], s: string): FixedBytes[N] {.inline.} =
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fromHexAux(s, array[N, byte](result))
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func fromHex*(x: type Address, s: string): Address {.inline.} =
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fromHexAux(s, array[20, byte](result))
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template toHex*[N](x: FixedBytes[N]): string =
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toHex(array[N, byte](x))
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func decodeFixed(input: string, offset: int, to: var openarray[byte]): int =
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let meaningfulLen = to.len * 2
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var padding = to.len mod 32
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if padding != 0: padding = (32 - padding) * 2
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let offset = offset + padding
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fromHexAux(input[offset .. offset + meaningfulLen - 1], to)
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meaningfulLen + padding
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func decode*[N](input: string, offset: int, to: var FixedBytes[N]): int {.inline.} =
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decodeFixed(input, offset, array[N, byte](to))
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func decode*(input: string, offset: int, to: var Address): int {.inline.} =
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decodeFixed(input, offset, array[20, byte](to))
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func encodeDynamic(v: openarray[byte]): EncodeResult =
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result.dynamic = true
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result.data = v.len.toHex(64).toLower
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for y in v:
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result.data &= y.toHex.toLower
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result.data &= "00".repeat(v.len mod 32)
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func encode*[N](x: DynamicBytes[N]): EncodeResult {.inline.} =
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encodeDynamic(array[N, byte](x))
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func fromHex*[N](x: type DynamicBytes[N], s: string): DynamicBytes[N] {.inline.} =
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fromHexAux(s, array[N, byte](result))
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func decodeDynamic(input: string, offset: int, to: var openarray[byte]): int =
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var dataOffset, dataLen: UInt256
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result = decode(input, offset, dataOffset)
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discard decode(input, dataOffset.toInt * 2, dataLen)
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# TODO: Check data len, and raise?
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let meaningfulLen = to.len * 2
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let actualDataOffset = (dataOffset.toInt + 32) * 2
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fromHexAux(input[actualDataOffset .. actualDataOffset + meaningfulLen - 1], to)
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func decode*[N](input: string, offset: int, to: var DynamicBytes[N]): int {.inline.} =
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decodeDynamic(input, offset, array[N, byte](to))
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proc unknownType() = discard # Used for informative errors
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template typeSignature(T: typedesc): string =
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when T is string:
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"string"
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elif T is DynamicBytes:
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"bytes"
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elif T is FixedBytes:
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"bytes" & $T.N
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elif T is StUint:
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"uint" & $T.bits
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elif T is Address:
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"address"
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else:
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unknownType(T)
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proc initContractCall[T](web3: Web3, data: string, to: Address): ContractCall[T] {.inline.} =
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result.web3 = web3
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result.data = data
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result.to = to
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macro makeTypeEnum(): untyped =
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## This macro creates all the various types of Solidity contracts and maps
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## them to the type used for their encoding. It also creates an enum to
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## identify these types in the contract signatures, along with encoder
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## functions used in the generated procedures.
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result = newStmtList()
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var lastpow2: int
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for i in countdown(256, 8, 8):
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let
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identUint = newIdentNode("Uint" & $i)
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identInt = newIdentNode("Int" & $i)
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if ceil(log2(i.float)) == floor(log2(i.float)):
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lastpow2 = i
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if i notin {256, 125}: # Int/Uint256/128 are already defined in stint. No need to repeat.
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result.add quote do:
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type
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`identUint`* = Stuint[`lastpow2`]
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`identInt`* = Stint[`lastpow2`]
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let
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identUint = ident("Uint")
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identInt = ident("Int")
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identBool = ident("Bool")
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result.add quote do:
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type
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`identUint`* = Uint256
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`identInt`* = Int256
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`identBool`* = distinct Int256
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for m in countup(8, 256, 8):
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let
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identInt = ident("Int" & $m)
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identUint = ident("Uint" & $m)
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identFixed = ident "Fixed" & $m
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identUfixed = ident "Ufixed" & $m
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identT = ident "T"
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result.add quote do:
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# Fixed stuff is not actually implemented yet, these procedures don't
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# do what they are supposed to.
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type
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`identFixed`*[N: static[int]] = distinct `identInt`
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`identUfixed`*[N: static[int]] = distinct `identUint`
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# func to*(x: `identInt`, `identT`: typedesc[`identFixed`]): `identT` =
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# T(x)
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# func to*(x: `identUint`, `identT`: typedesc[`identUfixed`]): `identT` =
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# T(x)
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# func encode*[N: static[int]](x: `identFixed`[N]): EncodeResult =
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# encode(`identInt`(x) * (10 ^ N).to(`identInt`))
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# func encode*[N: static[int]](x: `identUfixed`[N]): EncodeResult =
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# encode(`identUint`(x) * (10 ^ N).to(`identUint`))
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# func decode*[N: static[int]](input: string, to: `identFixed`[N]): `identFixed`[N] =
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# decode(input, `identInt`) div / (10 ^ N).to(`identInt`)
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# func decode*[N: static[int]](input: string, to: `identUfixed`[N]): `identFixed`[N] =
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# decode(input, `identUint`) div / (10 ^ N).to(`identUint`)
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let
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identFixed = ident("Fixed")
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identUfixed = ident("Ufixed")
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result.add quote do:
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type
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`identFixed`* = distinct Int128
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`identUfixed`* = distinct Uint128
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for i in 1..256:
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let
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identBytes = ident("Bytes" & $i)
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identResult = ident "result"
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result.add quote do:
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type
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`identBytes`* = DynamicBytes[`i`]
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#result.add newEnum(ident "FieldKind", fields, public = true, pure = true)
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makeTypeEnum()
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func encode*(x: Bool): EncodeResult = encode(Int256(x))
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func decode*[N](input: string, offset: int, to: var Bool): int {.inline.} =
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decode(input, offset, Stint(to))
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func decode*(input: string, offset: int, obj: var object): int =
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var offset = offset
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for field in fields(obj):
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offset += decode(input, offset, field)
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type
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Encodable = concept x
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encode(x) is EncodeResult
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func encode*(x: seq[Encodable]): EncodeResult =
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result.dynamic = true
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result.data = x.len.toHex(64).toLower
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var
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offset = 32*x.len
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data = ""
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for i in x:
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let encoded = encode(i)
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if encoded.dynamic:
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result.data &= offset.toHex(64).toLower
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data &= encoded.data
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else:
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result.data &= encoded.data
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offset += encoded.data.len
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result.data &= data
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func decode*[T](input: string, to: seq[T]): seq[T] =
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var count = input[0..64].decode(Stuint)
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result = newSeq[T](count)
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for i in 0..count:
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result[i] = input[i*64 .. (i+1)*64].decode(T)
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func encode*(x: openArray[Encodable]): EncodeResult =
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result.dynamic = false
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result.data = ""
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var
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offset = 32*x.len
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data = ""
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for i in x:
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let encoded = encode(i)
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if encoded.dynamic:
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result.data &= offset.toHex(64).toLower
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data &= encoded.data
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else:
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result.data &= encoded.data
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offset += encoded.data.len
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func decode*[T; I: static int](input: string, to: array[0..I, T]): array[0..I, T] =
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for i in 0..I:
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result[i] = input[i*64 .. (i+1)*64].decode(T)
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type
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InterfaceObjectKind = enum
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function, constructor, event
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MutabilityKind = enum
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pure, view, nonpayable, payable
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FunctionInputOutput = object
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name: string
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typ: NimNode
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EventInput = object
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name: string
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typ: NimNode
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indexed: bool
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FunctionObject = object
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name: string
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stateMutability: MutabilityKind
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inputs: seq[FunctionInputOutput]
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outputs: seq[FunctionInputOutput]
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ConstructorObject = object
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stateMutability: MutabilityKind
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inputs: seq[FunctionInputOutput]
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outputs: seq[FunctionInputOutput]
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EventObject = object
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name: string
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inputs: seq[EventInput]
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anonymous: bool
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InterfaceObject = object
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case kind: InterfaceObjectKind
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of function: functionObject: FunctionObject
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of constructor: constructorObject: ConstructorObject
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of event: eventObject: EventObject
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proc joinStrings(s: varargs[string]): string = join(s)
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proc getSignature(function: FunctionObject | EventObject): NimNode =
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result = newCall(bindSym"joinStrings")
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result.add(newLit(function.name & "("))
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for i, input in function.inputs:
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result.add(newCall(bindSym"typeSignature", input.typ))
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if i != function.inputs.high:
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result.add(newLit(","))
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result.add(newLit(")"))
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result = newCall(ident"static", result)
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|
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proc addAddressAndSignatureToOptions(options: JsonNode, address: Address, signature: string): JsonNode =
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result = options
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if result.isNil:
|
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result = newJObject()
|
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if "address" notin result:
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result["address"] = %address
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var topics = result{"topics"}
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if topics.isNil:
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topics = newJArray()
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result["topics"] = topics
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topics.elems.insert(%signature, 0)
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|
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proc parseContract(body: NimNode): seq[InterfaceObject] =
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proc parseOutputs(outputNode: NimNode): seq[FunctionInputOutput] =
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result.add FunctionInputOutput(typ: (if outputNode.kind == nnkEmpty: ident"void" else: outputNode))
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|
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proc parseInputs(inputNodes: NimNode): seq[FunctionInputOutput] =
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for i in 1..<inputNodes.len:
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let input = inputNodes[i]
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input.expectKind(nnkIdentDefs)
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let typ = input[^2]
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for j in 0 .. input.len - 3:
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let arg = input[j]
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result.add(FunctionInputOutput(
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name: $arg,
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typ: typ,
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))
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|
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proc parseEventInputs(inputNodes: NimNode): seq[EventInput] =
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for i in 1..<inputNodes.len:
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let input = inputNodes[i]
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input.expectKind(nnkIdentDefs)
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let typ = input[^2]
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for j in 0 .. input.len - 3:
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let arg = input[j]
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case typ.kind:
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of nnkBracketExpr:
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if $typ[0] == "indexed":
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result.add EventInput(
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name: $arg,
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typ: typ[1],
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indexed: true
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)
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else:
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result.add EventInput(name: $arg, typ: typ)
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else:
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result.add EventInput(name: $arg, typ: typ)
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|
|
var
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constructor: Option[ConstructorObject]
|
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functions: seq[FunctionObject]
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events: seq[EventObject]
|
|
for procdef in body:
|
|
doAssert(procdef.kind == nnkProcDef,
|
|
"Contracts can only be built with procedures")
|
|
let
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|
isconstructor = procdef[4].findChild(it.ident == !"constructor") != nil
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isevent = procdef[4].findChild(it.ident == !"event") != nil
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doAssert(not (isconstructor and constructor.isSome),
|
|
"Contract can only have a single constructor")
|
|
doAssert(not (isconstructor and isevent),
|
|
"Can't be both event and constructor")
|
|
if not isevent:
|
|
let
|
|
ispure = procdef[4].findChild(it.ident == !"pure") != nil
|
|
isview = procdef[4].findChild(it.ident == !"view") != nil
|
|
ispayable = procdef[4].findChild(it.ident == !"payable") != nil
|
|
doAssert(not (ispure and isview),
|
|
"can't be both `pure` and `view`")
|
|
doAssert(not ((ispure or isview) and ispayable),
|
|
"can't be both `pure` or `view` while being `payable`")
|
|
if isconstructor:
|
|
constructor = some(ConstructorObject(
|
|
stateMutability: if ispure: pure elif isview: view elif ispayable: payable else: nonpayable,
|
|
inputs: parseInputs(procdef[3]),
|
|
outputs: parseOutputs(procdef[3][0])
|
|
))
|
|
else:
|
|
functions.add FunctionObject(
|
|
name: $procdef[0].ident,
|
|
stateMutability: if ispure: pure elif isview: view elif ispayable: payable else: nonpayable,
|
|
inputs: parseInputs(procdef[3]),
|
|
outputs: parseOutputs(procdef[3][0])
|
|
)
|
|
else:
|
|
let isanonymous = procdef[4].findChild(it.ident == !"anonymous") != nil
|
|
doAssert(procdef[3][0].kind == nnkEmpty,
|
|
"Events can't have return values")
|
|
events.add EventObject(
|
|
name: $procdef[0].ident,
|
|
inputs: parseEventInputs(procdef[3]),
|
|
anonymous: isanonymous
|
|
)
|
|
|
|
if constructor.isSome:
|
|
result.add InterfaceObject(kind: InterfaceObjectKind.constructor, constructorObject: constructor.unsafeGet)
|
|
for function in functions:
|
|
result.add InterfaceObject(kind: InterfaceObjectKind.function, functionObject: function)
|
|
for event in events:
|
|
result.add InterfaceObject(kind: InterfaceObjectKind.event, eventObject: event)
|
|
|
|
macro contract*(cname: untyped, body: untyped): untyped =
|
|
var objects = parseContract(body)
|
|
result = newStmtList()
|
|
let
|
|
address = ident "address"
|
|
client = ident "client"
|
|
receipt = genSym(nskForVar)
|
|
receiver = ident "receiver"
|
|
eventListener = ident "eventListener"
|
|
result.add quote do:
|
|
type
|
|
`cname` = object
|
|
|
|
for obj in objects:
|
|
case obj.kind:
|
|
of function:
|
|
let
|
|
signature = getSignature(obj.functionObject)
|
|
procName = ident obj.functionObject.name
|
|
senderName = ident "sender"
|
|
output = if obj.functionObject.outputs.len != 1:
|
|
ident "void"
|
|
else:
|
|
obj.functionObject.outputs[0].typ
|
|
var
|
|
encodedParams = genSym(nskVar)#newLit("")
|
|
offset = genSym(nskVar)
|
|
dataBuf = genSym(nskVar)
|
|
encodings = genSym(nskVar)
|
|
encoder = newStmtList()
|
|
encoder.add quote do:
|
|
var
|
|
`offset` = 0
|
|
`encodedParams` = ""
|
|
`dataBuf` = ""
|
|
`encodings`: seq[EncodeResult]
|
|
for input in obj.functionObject.inputs:
|
|
let inputName = ident input.name
|
|
encoder.add quote do:
|
|
let encoding = encode(`inputName`)
|
|
`offset` += (if encoding.dynamic:
|
|
32
|
|
else:
|
|
encoding.data.len div 2)
|
|
`encodings`.add encoding
|
|
encoder.add quote do:
|
|
for encoding in `encodings`:
|
|
if encoding.dynamic:
|
|
`encodedParams` &= `offset`.toHex(64).toLower
|
|
`dataBuf` &= encoding.data
|
|
else:
|
|
`encodedParams` &= encoding.data
|
|
`offset` += encoding.data.len div 2
|
|
|
|
`encodedParams` &= `dataBuf`
|
|
var procDef = quote do:
|
|
proc `procName`(`senderName`: Sender[`cname`]): ContractCall[`output`] =
|
|
discard
|
|
for input in obj.functionObject.inputs:
|
|
procDef[3].add nnkIdentDefs.newTree(
|
|
ident input.name,
|
|
input.typ,
|
|
newEmptyNode()
|
|
)
|
|
procDef[6].add quote do:
|
|
`encoder`
|
|
return initContractCall[`output`](
|
|
`senderName`.web3,
|
|
($keccak_256.digest(`signature`))[0..<8].toLower & `encodedParams`,
|
|
`senderName`.contractAddress)
|
|
|
|
result.add procDef
|
|
of event:
|
|
if not obj.eventObject.anonymous:
|
|
let callbackIdent = ident "callback"
|
|
let jsonIdent = ident "j"
|
|
var
|
|
params = nnkFormalParams.newTree(newEmptyNode())
|
|
paramsWithRawData = nnkFormalParams.newTree(newEmptyNode())
|
|
|
|
argParseBody = newStmtList()
|
|
i = 1
|
|
call = nnkCall.newTree(callbackIdent)
|
|
callWithRawData = nnkCall.newTree(callbackIdent)
|
|
offset = ident "offset"
|
|
inputData = ident "inputData"
|
|
|
|
var offsetInited = false
|
|
|
|
for input in obj.eventObject.inputs:
|
|
let param = nnkIdentDefs.newTree(
|
|
ident input.name,
|
|
input.typ,
|
|
newEmptyNode()
|
|
)
|
|
params.add param
|
|
paramsWithRawData.add param
|
|
let
|
|
argument = genSym(nskVar)
|
|
kind = input.typ
|
|
if input.indexed:
|
|
argParseBody.add quote do:
|
|
var `argument`: `kind`
|
|
discard decode(strip0xPrefix(`jsonIdent`["topics"][`i`].getStr), 0, `argument`)
|
|
i += 1
|
|
else:
|
|
if not offsetInited:
|
|
argParseBody.add quote do:
|
|
var `inputData` = strip0xPrefix(`jsonIdent`["data"].getStr)
|
|
var `offset` = 0
|
|
|
|
offsetInited = true
|
|
|
|
argParseBody.add quote do:
|
|
var `argument`: `kind`
|
|
`offset` += decode(`inputData`, `offset`, `argument`)
|
|
call.add argument
|
|
callWithRawData.add argument
|
|
let
|
|
eventName = obj.eventObject.name
|
|
cbident = ident eventName
|
|
procTy = nnkProcTy.newTree(params, newEmptyNode())
|
|
signature = getSignature(obj.eventObject)
|
|
|
|
# generated with dumpAstGen - produces "{.raises: [Defect], gcsafe.}"
|
|
let pragmas = nnkPragma.newTree(
|
|
nnkExprColonExpr.newTree(
|
|
newIdentNode("raises"),
|
|
nnkBracket.newTree(
|
|
newIdentNode("Defect")
|
|
)
|
|
),
|
|
newIdentNode("gcsafe")
|
|
)
|
|
|
|
procTy[1] = pragmas
|
|
|
|
callWithRawData.add jsonIdent
|
|
paramsWithRawData.add nnkIdentDefs.newTree(
|
|
jsonIdent,
|
|
bindSym "JsonNode",
|
|
newEmptyNode()
|
|
)
|
|
|
|
let procTyWithRawData = nnkProcTy.newTree(paramsWithRawData, newEmptyNode())
|
|
procTyWithRawData[1] = pragmas
|
|
|
|
result.add quote do:
|
|
type `cbident` = object
|
|
|
|
template eventTopic*(T: type `cbident`): string =
|
|
"0x" & toLowerAscii($keccak256.digest(`signature`))
|
|
|
|
proc subscribe(s: Sender[`cname`],
|
|
t: type `cbident`,
|
|
options: JsonNode,
|
|
`callbackIdent`: `procTy`): Future[Subscription] =
|
|
let options = addAddressAndSignatureToOptions(options, s.contractAddress, eventTopic(`cbident`))
|
|
|
|
s.web3.subscribeToLogs(options) do(`jsonIdent`: JsonNode):
|
|
`argParseBody`
|
|
`call`
|
|
|
|
proc subscribe(s: Sender[`cname`],
|
|
t: type `cbident`,
|
|
options: JsonNode,
|
|
`callbackIdent`: `procTyWithRawData`): Future[Subscription] =
|
|
let options = addAddressAndSignatureToOptions(options, s.contractAddress, eventTopic(`cbident`))
|
|
|
|
s.web3.subscribeToLogs(options) do(`jsonIdent`: JsonNode):
|
|
`argParseBody`
|
|
`callWithRawData`
|
|
else:
|
|
discard
|
|
|
|
when defined(debugMacros) or defined(debugWeb3Macros):
|
|
echo result.repr
|
|
|
|
proc getJsonLogs*(s: Sender,
|
|
EventName: type,
|
|
fromBlock, toBlock = none(RtBlockIdentifier),
|
|
blockHash = none(BlockHash)): Future[JsonNode] =
|
|
mixin eventTopic
|
|
|
|
var options = newJObject()
|
|
options["address"] = %s.contractAddress
|
|
var topics = newJArray()
|
|
topics.elems.insert(%eventTopic(EventName), 0)
|
|
options["topics"] = topics
|
|
if blockHash.isSome:
|
|
doAssert fromBlock.isNone and toBlock.isNone
|
|
options["blockhash"] = %blockHash.unsafeGet
|
|
else:
|
|
if fromBlock.isSome:
|
|
options["fromBlock"] = %fromBlock.unsafeGet
|
|
if toBlock.isSome:
|
|
options["toBlock"] = %toBlock.unsafeGet
|
|
|
|
s.web3.provider.eth_getLogs(options)
|
|
|
|
proc signatureEnabled(w: Web3): bool {.inline.} =
|
|
w.privateKey.verify()
|
|
|
|
proc send*(web3: Web3, c: EthSend): Future[TxHash] {.async.} =
|
|
if web3.signatureEnabled():
|
|
var cc = c
|
|
if not cc.nonce.isSome:
|
|
let fromAddress = web3.privateKey.toPublicKey().tryGet().toCanonicalAddress.Address
|
|
cc.nonce = some(int(await web3.provider.eth_getTransactionCount(fromAddress, "latest")))
|
|
let t = "0x" & encodeTransaction(cc, web3.privateKey)
|
|
return await web3.provider.eth_sendRawTransaction(t)
|
|
else:
|
|
return await web3.provider.eth_sendTransaction(c)
|
|
|
|
proc send*(c: ContractCallBase, value = 0.u256, gas = 3000000'u64, gasPrice = 0): Future[TxHash] =
|
|
let web3 = c.web3
|
|
var cc: EthSend
|
|
cc.data = "0x" & c.data
|
|
cc.source = web3.defaultAccount
|
|
cc.to = some(c.to)
|
|
cc.gas = some(Quantity(gas))
|
|
cc.value = some(value)
|
|
|
|
if web3.signatureEnabled() or gasPrice != 0:
|
|
cc.gasPrice = some(gasPrice)
|
|
web3.send(cc)
|
|
|
|
proc call*[T](c: ContractCall[T],
|
|
value = 0.u256,
|
|
gas = 3000000'u64,
|
|
blockNumber = high(uint64)): Future[T] {.async.} =
|
|
var cc: EthCall
|
|
cc.data = some("0x" & c.data)
|
|
cc.source = some(c.web3.defaultAccount)
|
|
cc.to = c.to
|
|
cc.gas = some(Quantity(gas))
|
|
cc.value = some(value)
|
|
let response = strip0xPrefix:
|
|
if blockNumber != high(uint64):
|
|
await c.web3.provider.eth_call(cc, blockNumber)
|
|
else:
|
|
await c.web3.provider.eth_call(cc, "latest")
|
|
|
|
if response.len > 0:
|
|
var res: T
|
|
discard decode(response, 0, res)
|
|
return res
|
|
else:
|
|
raise newException(CatchableError, "No response from the Web3 provider")
|
|
|
|
proc getMinedTransactionReceipt*(web3: Web3, tx: TxHash): Future[ReceiptObject] {.async.} =
|
|
## Returns the receipt for the transaction. Waits for it to be mined if necessary.
|
|
# TODO: Potentially more optimal solution is to subscribe and wait for appropriate
|
|
# notification. Now we're just polling every 500ms which should be ok for most cases.
|
|
var r: Option[ReceiptObject]
|
|
while r.isNone:
|
|
r = await web3.provider.eth_getTransactionReceipt(tx)
|
|
if r.isNone:
|
|
await sleepAsync(500.milliseconds)
|
|
result = r.get
|
|
|
|
proc exec*[T](c: ContractCall[T], value = 0.u256, gas = 3000000'u64): Future[T] {.async.} =
|
|
let h = await c.send(value, gas)
|
|
let receipt = await c.web3.getMinedTransactionReceipt(h)
|
|
|
|
# TODO: decode result from receipt
|
|
|
|
|
|
# This call will generate the `cc.data` part to call that contract method in the code below
|
|
#sendCoin(fromHex(Stuint[256], "e375b6fb6d0bf0d86707884f3952fee3977251fe"), 600.to(Stuint[256]))
|
|
|
|
# Set up a JsonRPC call to send a transaction
|
|
# The idea here is to let the Web3 object contain the RPC calls, then allow the
|
|
# above DSL to create helpers to create the EthSend object and perform the
|
|
# transaction. The current idea is to make all this reduce to something like:
|
|
# var
|
|
# w3 = initWeb3("127.0.0.1", 8545)
|
|
# myContract = contract:
|
|
# <DSL>
|
|
# myContract.sender("0x780bc7b4055941c2cb0ee10510e3fc837eb093c1").sendCoin(
|
|
# fromHex(Stuint[256], "e375b6fb6d0bf0d86707884f3952fee3977251fe"),
|
|
# 600.to(Stuint[256])
|
|
# )
|
|
# If the address of the contract on the chain should be part of the DSL or
|
|
# dynamically registered is still not decided.
|
|
#var cc: EthSend
|
|
#cc.source = [0x78.byte, 0x0b, 0xc7, 0xb4, 0x05, 0x59, 0x41, 0xc2, 0xcb, 0x0e, 0xe1, 0x05, 0x10, 0xe3, 0xfc, 0x83, 0x7e, 0xb0, 0x93, 0xc1]
|
|
#cc.to = some([0x0a.byte, 0x78, 0xc0, 0x8F, 0x31, 0x4E, 0xB2, 0x5A, 0x35, 0x1B, 0xfB, 0xA9, 0x03,0x21, 0xa6, 0x96, 0x04, 0x74, 0xbD, 0x79])
|
|
#cc.data = "0x90b98a11000000000000000000000000e375b6fb6d0bf0d86707884f3952fee3977251FE0000000000000000000000000000000000000000000000000000000000000258"
|
|
|
|
#var w3 = initWeb3("127.0.0.1", 8545)
|
|
#let response = waitFor w3.eth.eth_sendTransaction(cc)
|
|
#echo response
|
|
|
|
proc contractSender*(web3: Web3, T: typedesc, toAddress: Address): Sender[T] =
|
|
Sender[T](web3: web3, contractAddress: toAddress)
|
|
|
|
proc subscribe*(s: Sender, t: typedesc, cb: proc): Future[Subscription] {.inline.} =
|
|
subscribe(s, t, nil, cb)
|
|
|
|
proc `$`*(b: Bool): string =
|
|
$(Stint[256](b))
|