nimbus-eth1/tests/macro_assembler.nim

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Nim
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import
macrocache, strutils, sequtils, unittest2, times,
stew/byteutils, chronicles, eth/[common, keys],
stew/shims/macros
import
options, eth/trie/[db, hexary],
../nimbus/db/[db_chain, accounts_cache],
../nimbus/vm_internals, ../nimbus/forks,
../nimbus/transaction/call_evm,
../nimbus/[transaction, chain_config, genesis, vm_types, vm_state],
../nimbus/utils/difficulty
export byteutils
{.experimental: "dynamicBindSym".}
# backported from Nim 0.19.9
# remove this when we use newer Nim
proc newLitFixed*(arg: enum): NimNode {.compileTime.} =
result = newCall(
arg.type.getTypeInst[1],
newLit(int(arg))
)
type
VMWord* = array[32, byte]
Storage* = tuple[key, val: VMWord]
Assembler* = object
title*: string
stack*: seq[VMWord]
memory*: seq[VMWord]
storage*: seq[Storage]
code*: seq[byte]
logs*: seq[Log]
success*: bool
gasLimit*: GasInt
gasUsed*: GasInt
data*: seq[byte]
output*: seq[byte]
fork*: Fork
const
idToOpcode = CacheTable"NimbusMacroAssembler"
static:
for n in Op:
idToOpcode[$n] = newLit(ord(n))
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# EIP-4399 new opcode
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idToOpcode["PrevRandao"] = newLit(ord(Difficulty))
proc validateVMWord(val: string, n: NimNode): VMWord =
if val.len <= 2 or val.len > 66: error("invalid hex string", n)
if not (val[0] == '0' and val[1] == 'x'): error("invalid hex string", n)
let zerosLen = 64 - (val.len - 2)
let value = repeat('0', zerosLen) & val.substr(2)
hexToByteArray(value, result)
proc validateVMWord(val: NimNode): VMWord =
val.expectKind(nnkStrLit)
validateVMWord(val.strVal, val)
proc parseVMWords(list: NimNode): seq[VMWord] =
result = @[]
list.expectKind nnkStmtList
for val in list:
result.add validateVMWord(val)
proc validateStorage(val: NimNode): Storage =
val.expectKind(nnkCall)
val[0].expectKind(nnkStrLit)
val[1].expectKind(nnkStmtList)
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doAssert(val[1].len == 1)
val[1][0].expectKind(nnkStrLit)
result = (validateVMWord(val[0]), validateVMWord(val[1][0]))
proc parseStorage(list: NimNode): seq[Storage] =
result = @[]
list.expectKind nnkStmtList
for val in list:
result.add validateStorage(val)
proc parseSuccess(list: NimNode): bool =
list.expectKind nnkStmtList
list[0].expectKind(nnkIdent)
$list[0] == "true"
proc parseData(list: NimNode): seq[byte] =
result = @[]
list.expectKind nnkStmtList
for n in list:
n.expectKind(nnkStrLit)
result.add hexToSeqByte(n.strVal)
proc parseLog(node: NimNode): Log =
node.expectKind(nnkPar)
for item in node:
item.expectKind(nnkExprColonExpr)
let label = item[0].strVal
let body = item[1]
case label.normalize
of "address":
body.expectKind(nnkStrLit)
let value = body.strVal
if value.len < 20:
error("bad address format", body)
hexToByteArray(value, result.address)
of "topics":
body.expectKind(nnkBracket)
for x in body:
result.topics.add validateVMWord(x.strVal, x)
of "data":
result.data = hexToSeqByte(body.strVal)
else:error("unknown log section '" & label & "'", item[0])
proc parseLogs(list: NimNode): seq[Log] =
result = @[]
list.expectKind nnkStmtList
for n in list:
result.add parseLog(n)
proc validateOpcode(sym: NimNode) =
let typ = getTypeInst(sym)
typ.expectKind(nnkSym)
if $typ != "Op":
error("unknown opcode '" & $sym & "'", sym)
proc addOpCode(code: var seq[byte], node, params: NimNode) =
node.expectKind nnkSym
let opcode = Op(idToOpcode[node.strVal].intVal)
case opcode
of Push1..Push32:
if params.len != 1:
error("expect 1 param, but got " & $params.len, node)
let paramWidth = (opcode.ord - 95) * 2
params[0].expectKind nnkStrLit
var val = params[0].strVal
if val[0] == '0' and val[1] == 'x':
val = val.substr(2)
if val.len != paramWidth:
error("expected param with " & $paramWidth & " hex digits, got " & $val.len, node)
code.add byte(opcode)
code.add hexToSeqByte(val)
else:
error("invalid hex format", node)
else:
if params.len > 0:
error("there should be no param for this instruction", node)
code.add byte(opcode)
proc parseCode(codes: NimNode): seq[byte] =
let emptyNode = newEmptyNode()
codes.expectKind nnkStmtList
for pc, line in codes:
line.expectKind({nnkCommand, nnkIdent, nnkStrLit})
if line.kind == nnkStrLit:
result.add hexToSeqByte(line.strVal)
elif line.kind == nnkIdent:
let sym = bindSym(line)
validateOpcode(sym)
result.addOpCode(sym, emptyNode)
elif line.kind == nnkCommand:
let sym = bindSym(line[0])
validateOpcode(sym)
var params = newNimNode(nnkBracket)
for i in 1 ..< line.len:
params.add line[i]
result.addOpCode(sym, params)
else:
error("unknown syntax: " & line.toStrLit.strVal, line)
proc parseFork(fork: NimNode): Fork =
fork[0].expectKind({nnkIdent, nnkStrLit})
# Normalise whitespace and capitalize each word because `parseEnum` matches
# enum string values not symbols, and the strings are capitalized in `Fork`.
parseEnum[Fork](fork[0].strVal.splitWhitespace().map(capitalizeAscii).join(" "))
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proc parseGasUsed(gas: NimNode): GasInt =
gas[0].expectKind(nnkIntLit)
result = gas[0].intVal
proc generateVMProxy(boa: Assembler): NimNode =
let
vmProxy = genSym(nskProc, "vmProxy")
chainDB = ident("chainDB")
vmState = ident("vmState")
title = boa.title
body = newLitFixed(boa)
result = quote do:
test `title`:
proc `vmProxy`(): bool =
let boa = `body`
runVM(`vmState`, `chainDB`, boa)
{.gcsafe.}:
check `vmProxy`()
when defined(macro_assembler_debug):
echo result.toStrLit.strVal
proc initDatabase*(networkId = MainNet): (BaseVMState, BaseChainDB) =
let db = newBaseChainDB(newMemoryDB(), false, networkId, networkParams(networkId))
initializeEmptyDb(db)
let
parent = getCanonicalHead(db)
coinbase = hexToByteArray[20]("bb7b8287f3f0a933474a79eae42cbca977791171")
timestamp = parent.timestamp + initDuration(seconds = 1)
header = BlockHeader(
blockNumber: 1.u256,
stateRoot: parent.stateRoot,
parentHash: parent.blockHash,
coinbase: coinbase,
timestamp: timestamp,
difficulty: db.config.calcDifficulty(timestamp, parent),
gasLimit: 100_000
)
Redesign of BaseVMState descriptor (#923) * Redesign of BaseVMState descriptor why: BaseVMState provides an environment for executing transactions. The current descriptor also provides data that cannot generally be known within the execution environment, e.g. the total gasUsed which is available not before after all transactions have finished. Also, the BaseVMState constructor has been replaced by a constructor that does not need pre-initialised input of the account database. also: Previous constructor and some fields are provided with a deprecated annotation (producing a lot of noise.) * Replace legacy directives in production sources * Replace legacy directives in unit test sources * fix CI (missing premix update) * Remove legacy directives * chase CI problem * rebased * Re-introduce 'AccountsCache' constructor optimisation for 'BaseVmState' re-initialisation why: Constructing a new 'AccountsCache' descriptor can be avoided sometimes when the current state root is properly positioned already. Such a feature existed already as the update function 'initStateDB()' for the 'BaseChanDB' where the accounts cache was linked into this desctiptor. The function 'initStateDB()' was removed and re-implemented into the 'BaseVmState' constructor without optimisation. The old version was of restricted use as a wrong accounts cache state would unconditionally throw an exception rather than conceptually ask for a remedy. The optimised 'BaseVmState' re-initialisation has been implemented for the 'persistBlocks()' function. also: moved some test helpers to 'test/replay' folder * Remove unused & undocumented fields from Chain descriptor why: Reduces attack surface in general & improves reading the code.
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vmState = BaseVMState.new(header, db)
(vmState, db)
proc runVM*(vmState: BaseVMState, chainDB: BaseChainDB, boa: Assembler): bool =
const codeAddress = hexToByteArray[20]("460121576cc7df020759730751f92bd62fd78dd6")
let privateKey = PrivateKey.fromHex("7a28b5ba57c53603b0b07b56bba752f7784bf506fa95edc395f5cf6c7514fe9d")[]
vmState.mutateStateDB:
db.setCode(codeAddress, boa.code)
db.setBalance(codeAddress, 1_000_000.u256)
let unsignedTx = Transaction(
txType: TxLegacy,
nonce: 0,
gasPrice: 1.GasInt,
gasLimit: 500_000_000.GasInt,
to: codeAddress.some,
value: 500.u256,
payload: boa.data
)
let tx = signTransaction(unsignedTx, privateKey, chainDB.config.chainId, false)
let asmResult = testCallEvm(tx, tx.getSender, vmState, boa.fork)
if not asmResult.isError:
if boa.success == false:
error "different success value", expected=boa.success, actual=true
return false
else:
if boa.success == true:
error "different success value", expected=boa.success, actual=false
return false
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if boa.gasUsed != -1:
if boa.gasUsed != asmResult.gasUsed:
error "different gasUsed", expected=boa.gasUsed, actual=asmResult.gasUsed
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return false
if boa.stack.len != asmResult.stack.values.len:
error "different stack len", expected=boa.stack.len, actual=asmResult.stack.values.len
return false
for i, v in asmResult.stack.values:
let actual = v.dumpHex()
let val = boa.stack[i].toHex()
if actual != val:
error "different stack value", idx=i, expected=val, actual=actual
return false
const chunkLen = 32
let numChunks = asmResult.memory.len div chunkLen
if numChunks != boa.memory.len:
error "different memory len", expected=boa.memory.len, actual=numChunks
return false
for i in 0 ..< numChunks:
let actual = asmResult.memory.bytes.toOpenArray(i * chunkLen, (i + 1) * chunkLen - 1).toHex()
let mem = boa.memory[i].toHex()
if mem != actual:
error "different memory value", idx=i, expected=mem, actual=actual
return false
var stateDB = vmState.stateDB
stateDB.persist()
var
storageRoot = stateDB.getStorageRoot(codeAddress)
trie = initSecureHexaryTrie(chainDB.db, storageRoot)
for kv in boa.storage:
let key = kv[0].toHex()
let val = kv[1].toHex()
let keyBytes = (@(kv[0]))
let actual = trie.get(keyBytes).toHex()
let zerosLen = 64 - (actual.len)
let value = repeat('0', zerosLen) & actual
if val != value:
error "storage has different value", key=key, expected=val, actual=value
return false
let logs = vmState.logEntries
if logs.len != boa.logs.len:
error "different logs len", expected=boa.logs.len, actual=logs.len
return false
for i, log in boa.logs:
let eAddr = log.address.toHex()
let aAddr = logs[i].address.toHex()
if eAddr != aAddr:
error "different address", expected=eAddr, actual=aAddr, idx=i
return false
let eData = log.data.toHex()
let aData = logs[i].data.toHex()
if eData != aData:
error "different data", expected=eData, actual=aData, idx=i
return false
if log.topics.len != logs[i].topics.len:
error "different topics len", expected=log.topics.len, actual=logs[i].topics.len, idx=i
return false
for x, t in log.topics:
let eTopic = t.toHex()
let aTopic = logs[i].topics[x].toHex()
if eTopic != aTopic:
error "different topic in log entry", expected=eTopic, actual=aTopic, logIdx=i, topicIdx=x
return false
if boa.output.len > 0:
let actual = asmResult.output.toHex()
let expected = boa.output.toHex()
if expected != actual:
error "different output detected", expected=expected, actual=actual
return false
result = true
macro assembler*(list: untyped): untyped =
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var boa = Assembler(success: true, fork: FkFrontier, gasUsed: -1)
list.expectKind nnkStmtList
for callSection in list:
callSection.expectKind(nnkCall)
let label = callSection[0].strVal
let body = callSection[1]
case label.normalize
of "title":
let title = body[0]
title.expectKind(nnkStrLit)
boa.title = title.strVal
of "code" : boa.code = parseCode(body)
of "memory": boa.memory = parseVMWords(body)
of "stack" : boa.stack = parseVMWords(body)
of "storage": boa.storage = parseStorage(body)
of "logs": boa.logs = parseLogs(body)
of "success": boa.success = parseSuccess(body)
of "data": boa.data = parseData(body)
of "output": boa.output = parseData(body)
of "fork": boa.fork = parseFork(body)
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of "gasused": boa.gasUsed = parseGasUsed(body)
else: error("unknown section '" & label & "'", callSection[0])
result = boa.generateVMProxy()
macro evmByteCode*(list: untyped): untyped =
list.expectKind nnkStmtList
var code = parseCode(list)
result = newLitFixed(code)