433 lines
13 KiB
Nim
433 lines
13 KiB
Nim
# Nimbus
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# Copyright (c) 2019-2024 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
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# http://www.apache.org/licenses/LICENSE-2.0)
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# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
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# http://opensource.org/licenses/MIT)
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# at your option. This file may not be copied, modified, or distributed except
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# according to those terms.
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import
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std/[macrocache, strutils],
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eth/keys,
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unittest2,
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chronicles,
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stew/byteutils,
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stew/shims/macros
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import
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../nimbus/db/[ledger, distinct_tries],
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../nimbus/evm/types,
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../nimbus/vm_internals,
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../nimbus/transaction/[call_common, call_evm],
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../nimbus/[vm_types, vm_state],
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../nimbus/core/pow/difficulty
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# Ditto, for GasPrice.
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import ../nimbus/transaction except GasPrice
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import ../tools/common/helpers except LogLevel
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export byteutils
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{.experimental: "dynamicBindSym".}
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# backported from Nim 0.19.9
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# remove this when we use newer Nim
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#proc newLitFixed*(arg: enum): NimNode {.compileTime.} =
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# result = newCall(
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# arg.type.getTypeInst[1],
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# newLit(int(arg))
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# )
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type
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VMWord* = array[32, byte]
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Storage* = tuple[key, val: VMWord]
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Assembler* = object
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title* : string
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stack* : seq[VMWord]
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memory* : seq[VMWord]
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storage* : seq[Storage]
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code* : seq[byte]
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logs* : seq[Log]
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success* : bool
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gasLimit*: GasInt
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gasUsed* : GasInt
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data* : seq[byte]
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output* : seq[byte]
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MacroAssembler = object
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setup : NimNode
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asmBlock : Assembler
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forkStr : string
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const
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idToOpcode = CacheTable"NimbusMacroAssembler"
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var
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coreDbType* = DefaultDbMemory
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## This variable needs to be accessible for unit tests like
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## `test_op_memory` which implicitely uses the `initStorageTrie()` call
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## from the `distinct_tries` module. The `Aristo` API cannot handle that
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## because it needs the account address for accessing the storage trie.
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##
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## This problem can be fixed here in the `verifyAsmResult()` function once
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## there is the time to do it ...
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static:
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for n in Op:
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idToOpcode[$n] = newLit(ord(n))
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# EIP-4399 new opcode
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idToOpcode["PrevRandao"] = newLit(ord(Difficulty))
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proc validateVMWord(val: string, n: NimNode): VMWord =
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if val.len <= 2 or val.len > 66: error("invalid hex string", n)
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if not (val[0] == '0' and val[1] == 'x'): error("invalid hex string", n)
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let zerosLen = 64 - (val.len - 2)
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let value = repeat('0', zerosLen) & val.substr(2)
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hexToByteArray(value, result)
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proc validateVMWord(val: NimNode): VMWord =
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val.expectKind(nnkStrLit)
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validateVMWord(val.strVal, val)
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proc parseVMWords(list: NimNode): seq[VMWord] =
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result = @[]
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list.expectKind nnkStmtList
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for val in list:
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result.add validateVMWord(val)
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proc validateStorage(val: NimNode): Storage =
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val.expectKind(nnkCall)
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val[0].expectKind(nnkStrLit)
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val[1].expectKind(nnkStmtList)
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doAssert(val[1].len == 1)
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val[1][0].expectKind(nnkStrLit)
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result = (validateVMWord(val[0]), validateVMWord(val[1][0]))
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proc parseStorage(list: NimNode): seq[Storage] =
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result = @[]
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list.expectKind nnkStmtList
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for val in list:
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result.add validateStorage(val)
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proc parseStringLiteral(node: NimNode): string =
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let strNode = node[0]
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strNode.expectKind(nnkStrLit)
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strNode.strVal
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proc parseSuccess(list: NimNode): bool =
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list.expectKind nnkStmtList
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list[0].expectKind(nnkIdent)
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$list[0] == "true"
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proc parseData(list: NimNode): seq[byte] =
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result = @[]
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list.expectKind nnkStmtList
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for n in list:
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n.expectKind(nnkStrLit)
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result.add hexToSeqByte(n.strVal)
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proc parseLog(node: NimNode): Log =
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node.expectKind({nnkPar, nnkTupleConstr})
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for item in node:
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item.expectKind(nnkExprColonExpr)
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let label = item[0].strVal
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let body = item[1]
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case label.normalize
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of "address":
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body.expectKind(nnkStrLit)
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let value = body.strVal
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if value.len < 20:
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error("bad address format", body)
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hexToByteArray(value, result.address)
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of "topics":
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body.expectKind(nnkBracket)
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for x in body:
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result.topics.add validateVMWord(x.strVal, x)
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of "data":
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result.data = hexToSeqByte(body.strVal)
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else:error("unknown log section '" & label & "'", item[0])
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proc parseLogs(list: NimNode): seq[Log] =
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result = @[]
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list.expectKind nnkStmtList
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for n in list:
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result.add parseLog(n)
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proc validateOpcode(sym: NimNode) =
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let typ = getTypeInst(sym)
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typ.expectKind(nnkSym)
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if $typ != "Op":
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error("unknown opcode '" & $sym & "'", sym)
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proc addOpCode(code: var seq[byte], node, params: NimNode) =
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node.expectKind nnkSym
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let opcode = Op(idToOpcode[node.strVal].intVal)
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case opcode
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of Push1..Push32:
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if params.len != 1:
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error("expect 1 param, but got " & $params.len, node)
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let paramWidth = (opcode.ord - 95) * 2
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params[0].expectKind nnkStrLit
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var val = params[0].strVal
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if val[0] == '0' and val[1] == 'x':
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val = val.substr(2)
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if val.len != paramWidth:
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error("expected param with " & $paramWidth & " hex digits, got " & $val.len, node)
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code.add byte(opcode)
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code.add hexToSeqByte(val)
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else:
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error("invalid hex format", node)
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else:
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if params.len > 0:
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error("there should be no param for this instruction", node)
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code.add byte(opcode)
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proc parseCode(codes: NimNode): seq[byte] =
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let emptyNode = newEmptyNode()
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codes.expectKind nnkStmtList
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for pc, line in codes:
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line.expectKind({nnkCommand, nnkIdent, nnkStrLit})
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if line.kind == nnkStrLit:
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result.add hexToSeqByte(line.strVal)
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elif line.kind == nnkIdent:
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let sym = bindSym(line)
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validateOpcode(sym)
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result.addOpCode(sym, emptyNode)
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elif line.kind == nnkCommand:
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let sym = bindSym(line[0])
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validateOpcode(sym)
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var params = newNimNode(nnkBracket)
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for i in 1 ..< line.len:
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params.add line[i]
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result.addOpCode(sym, params)
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else:
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error("unknown syntax: " & line.toStrLit.strVal, line)
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proc parseFork(fork: NimNode): string =
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fork[0].expectKind({nnkIdent, nnkStrLit})
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fork[0].strVal
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proc parseGasUsed(gas: NimNode): GasInt =
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gas[0].expectKind(nnkIntLit)
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result = gas[0].intVal
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proc parseAssembler(list: NimNode): MacroAssembler =
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result.forkStr = "Frontier"
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result.asmBlock.success = true
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result.asmBlock.gasUsed = -1
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list.expectKind nnkStmtList
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for callSection in list:
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callSection.expectKind(nnkCall)
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let label = callSection[0].strVal
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let body = callSection[1]
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case label.normalize
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of "title" : result.asmBlock.title = parseStringLiteral(body)
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of "code" : result.asmBlock.code = parseCode(body)
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of "memory" : result.asmBlock.memory = parseVMWords(body)
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of "stack" : result.asmBlock.stack = parseVMWords(body)
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of "storage": result.asmBlock.storage = parseStorage(body)
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of "logs" : result.asmBlock.logs = parseLogs(body)
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of "success": result.asmBlock.success = parseSuccess(body)
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of "data" : result.asmBlock.data = parseData(body)
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of "output" : result.asmBlock.output = parseData(body)
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of "gasused": result.asmBlock.gasUsed = parseGasUsed(body)
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of "fork" : result.forkStr = parseFork(body)
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of "setup" : result.setup = body
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else: error("unknown section '" & label & "'", callSection[0])
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type VMProxy = tuple[sym: NimNode, pr: NimNode]
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proc generateVMProxy(masm: MacroAssembler): VMProxy =
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let
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vmProxySym = genSym(nskProc, "vmProxy")
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body = newLitFixed(masm.asmBlock)
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setup = if masm.setup.isNil:
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newEmptyNode()
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else:
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masm.setup
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vmState = ident("vmState")
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fork = masm.forkStr
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vmProxyProc = quote do:
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proc `vmProxySym`(): bool =
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let `vmState` = initVMEnv(`fork`)
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`setup`
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let boa = `body`
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runVM(`vmState`, boa)
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(vmProxySym, vmProxyProc)
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proc generateAssemblerTest(masm: MacroAssembler): NimNode =
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let
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(vmProxySym, vmProxyProc) = generateVMProxy(masm)
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title: string = masm.asmBlock.title
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result = quote do:
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test `title`:
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`vmProxyProc`
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{.gcsafe.}:
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check `vmProxySym`()
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when defined(macro_assembler_debug):
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echo result.toStrLit.strVal
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const
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codeAddress = hexToByteArray[20]("460121576cc7df020759730751f92bd62fd78dd6")
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coinbase = hexToByteArray[20]("bb7b8287f3f0a933474a79eae42cbca977791171")
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proc initVMEnv*(network: string): BaseVMState =
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let
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conf = getChainConfig(network)
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cdb = block:
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# Need static binding
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case coreDbType:
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of AristoDbMemory: newCoreDbRef AristoDbMemory
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else: raiseAssert "unsupported: " & $coreDbType
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com = CommonRef.new(
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cdb,
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conf,
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conf.chainId.NetworkId)
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parent = BlockHeader(stateRoot: EMPTY_ROOT_HASH)
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parentHash = rlpHash(parent)
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header = BlockHeader(
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blockNumber: 1.u256,
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stateRoot: EMPTY_ROOT_HASH,
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parentHash: parentHash,
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coinbase: coinbase,
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timestamp: EthTime(0x1234),
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difficulty: 1003.u256,
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gasLimit: 100_000
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)
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# Disable opportunistic DB layer features
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com.db.localDbOnly = true
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com.initializeEmptyDb()
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BaseVMState.new(parent, header, com)
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proc verifyAsmResult(vmState: BaseVMState, boa: Assembler, asmResult: CallResult): bool =
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let com = vmState.com
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if not asmResult.isError:
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if boa.success == false:
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error "different success value", expected=boa.success, actual=true
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return false
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else:
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if boa.success == true:
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error "different success value", expected=boa.success, actual=false
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return false
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if boa.gasUsed != -1:
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if boa.gasUsed != asmResult.gasUsed:
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error "different gasUsed", expected=boa.gasUsed, actual=asmResult.gasUsed
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return false
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if boa.stack.len != asmResult.stack.values.len:
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error "different stack len", expected=boa.stack.len, actual=asmResult.stack.values.len
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return false
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for i, v in asmResult.stack.values:
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let actual = v.dumpHex()
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let val = boa.stack[i].toHex()
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if actual != val:
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error "different stack value", idx=i, expected=val, actual=actual
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return false
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const chunkLen = 32
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let numChunks = asmResult.memory.len div chunkLen
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if numChunks != boa.memory.len:
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error "different memory len", expected=boa.memory.len, actual=numChunks
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return false
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for i in 0 ..< numChunks:
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let actual = asmResult.memory.bytes.toOpenArray(i * chunkLen, (i + 1) * chunkLen - 1).toHex()
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let mem = boa.memory[i].toHex()
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if mem != actual:
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error "different memory value", idx=i, expected=mem, actual=actual
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return false
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var stateDB = vmState.stateDB
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stateDB.persist()
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var
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storageRoot = stateDB.getStorageRoot(codeAddress)
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trie = initStorageTrie(com.db, storageRoot)
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for kv in boa.storage:
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let key = kv[0].toHex()
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let val = kv[1].toHex()
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let keyBytes = (@(kv[0]))
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let actual = trie.getSlotBytes(keyBytes).toHex()
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let zerosLen = 64 - (actual.len)
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let value = repeat('0', zerosLen) & actual
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if val != value:
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error "storage has different value", key=key, expected=val, actual=value
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return false
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let logs = vmState.getAndClearLogEntries()
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if logs.len != boa.logs.len:
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error "different logs len", expected=boa.logs.len, actual=logs.len
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return false
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for i, log in boa.logs:
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let eAddr = log.address.toHex()
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let aAddr = logs[i].address.toHex()
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if eAddr != aAddr:
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error "different address", expected=eAddr, actual=aAddr, idx=i
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return false
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let eData = log.data.toHex()
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let aData = logs[i].data.toHex()
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if eData != aData:
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error "different data", expected=eData, actual=aData, idx=i
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return false
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if log.topics.len != logs[i].topics.len:
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error "different topics len", expected=log.topics.len, actual=logs[i].topics.len, idx=i
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return false
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for x, t in log.topics:
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let eTopic = t.toHex()
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let aTopic = logs[i].topics[x].toHex()
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if eTopic != aTopic:
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error "different topic in log entry", expected=eTopic, actual=aTopic, logIdx=i, topicIdx=x
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return false
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if boa.output.len > 0:
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let actual = asmResult.output.toHex()
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let expected = boa.output.toHex()
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if expected != actual:
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error "different output detected", expected=expected, actual=actual
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return false
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result = true
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proc createSignedTx(payload: Blob, chainId: ChainId): Transaction =
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let privateKey = PrivateKey.fromHex("7a28b5ba57c53603b0b07b56bba752f7784bf506fa95edc395f5cf6c7514fe9d")[]
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let unsignedTx = Transaction(
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txType: TxEIP4844,
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nonce: 0,
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gasPrice: 1.GasInt,
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gasLimit: 500_000_000.GasInt,
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to: codeAddress.some,
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value: 500.u256,
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payload: payload,
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versionedHashes: @[EMPTY_UNCLE_HASH, EMPTY_SHA3]
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)
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signTransaction(unsignedTx, privateKey, chainId, false)
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proc runVM*(vmState: BaseVMState, boa: Assembler): bool =
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let
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com = vmState.com
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fork = com.toEVMFork()
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vmState.mutateStateDB:
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db.setCode(codeAddress, boa.code)
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db.setBalance(codeAddress, 1_000_000.u256)
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let tx = createSignedTx(boa.data, com.chainId)
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let asmResult = testCallEvm(tx, tx.getSender, vmState, fork)
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verifyAsmResult(vmState, boa, asmResult)
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macro assembler*(list: untyped): untyped =
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result = parseAssembler(list).generateAssemblerTest()
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macro evmByteCode*(list: untyped): untyped =
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list.expectKind nnkStmtList
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var code = parseCode(list)
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result = newLitFixed(code)
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