nimbus-eth1/tests/test_generalstate_json.nim

237 lines
8.6 KiB
Nim

# Nimbus
# Copyright (c) 2018 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed except according to those terms.
import
unittest2, strutils, tables, json, times, os, sets,
nimcrypto, options,
eth/[rlp, common], eth/trie/[db, trie_defs], chronicles,
./test_helpers, ./test_allowed_to_fail,
../nimbus/p2p/executor, test_config,
../nimbus/transaction,
../nimbus/[vm_state, vm_types, utils],
../nimbus/vm_internals,
../nimbus/db/[db_chain, accounts_cache]
type
Tester = object
name: string
header: BlockHeader
pre: JsonNode
tx: Transaction
expectedHash: string
expectedLogs: string
fork: Fork
debugMode: bool
trace: bool
index: int
GST_VMState = ref object of BaseVMState
proc toBytes(x: string): seq[byte] =
result = newSeq[byte](x.len)
for i in 0..<x.len: result[i] = x[i].byte
proc newGST_VMState(prevStateRoot: Hash256, header: BlockHeader, chainDB: BaseChainDB, tracerFlags: set[TracerFlags]): GST_VMState =
new result
result.init(prevStateRoot, header, chainDB, tracerFlags)
method getAncestorHash*(vmState: GST_VMState, blockNumber: BlockNumber): Hash256 {.gcsafe.} =
if blockNumber >= vmState.blockNumber:
return
elif blockNumber < 0:
return
elif blockNumber < vmState.blockNumber - 256:
return
else:
return keccakHash(toBytes($blockNumber))
proc dumpAccount(accountDb: ReadOnlyStateDB, address: EthAddress, name: string): JsonNode =
result = %{
"name": %name,
"address": %($address),
"nonce": %toHex(accountDb.getNonce(address)),
"balance": %accountDb.getBalance(address).toHex(),
"codehash": %($accountDb.getCodeHash(address)),
"storageRoot": %($accountDb.getStorageRoot(address))
}
proc dumpDebugData(tester: Tester, vmState: BaseVMState, sender: EthAddress, gasUsed: GasInt, success: bool) =
let recipient = tester.tx.getRecipient(sender)
let miner = tester.header.coinbase
var accounts = newJObject()
accounts[$miner] = dumpAccount(vmState.readOnlyStateDB, miner, "miner")
accounts[$sender] = dumpAccount(vmState.readOnlyStateDB, sender, "sender")
accounts[$recipient] = dumpAccount(vmState.readOnlyStateDB, recipient, "recipient")
let accountList = [sender, miner, recipient]
var i = 0
for ac, _ in tester.pre:
let account = ethAddressFromHex(ac)
if account notin accountList:
accounts[$account] = dumpAccount(vmState.readOnlyStateDB, account, "pre" & $i)
inc i
let tracingResult = if tester.trace: vmState.getTracingResult() else: %[]
let debugData = %{
"gasUsed": %gasUsed,
"structLogs": tracingResult,
"accounts": accounts
}
let status = if success: "_success" else: "_failed"
writeFile("debug_" & tester.name & "_" & $tester.index & status & ".json", debugData.pretty())
proc testFixtureIndexes(tester: Tester, testStatusIMPL: var TestStatus) =
var tracerFlags: set[TracerFlags] = if tester.trace: {TracerFlags.EnableTracing} else : {}
var chainDB = newBaseChainDB(newMemoryDb(), pruneTrie = getConfiguration().pruning)
var vmState = newGST_VMState(emptyRlpHash, tester.header, chainDB, tracerFlags)
var gasUsed: GasInt
let sender = tester.tx.getSender()
vmState.mutateStateDB:
setupStateDB(tester.pre, db)
# this is an important step when using accounts_cache
# it will affect the account storage's location
# during the next call to `getComittedStorage`
db.persist()
defer:
let obtainedHash = "0x" & `$`(vmState.readOnlyStateDB.rootHash).toLowerAscii
check obtainedHash == tester.expectedHash
let logEntries = vmState.getAndClearLogEntries()
let actualLogsHash = hashLogEntries(logEntries)
let expectedLogsHash = toLowerAscii(tester.expectedLogs)
check(expectedLogsHash == actualLogsHash)
if tester.debugMode:
let success = expectedLogsHash == actualLogsHash and obtainedHash == tester.expectedHash
tester.dumpDebugData(vmState, sender, gasUsed, success)
gasUsed = tester.tx.processTransaction(sender, vmState, tester.fork)
# This is necessary due to the manner in which the state tests are
# generated. State tests are generated from the BlockChainTest tests
# in which these transactions are included in the larger context of a
# block and thus, the mechanisms which would touch/create/clear the
# coinbase account based on the mining reward are present during test
# generation, but not part of the execution, thus we must artificially
# create the account in VMs prior to the state clearing rules,
# as well as conditionally cleaning up the coinbase account when left
# empty in VMs after the state clearing rules came into effect.
let miner = tester.header.coinbase
if miner in vmState.selfDestructs:
vmState.mutateStateDB:
db.addBalance(miner, 0.u256)
if tester.fork >= FkSpurious:
if db.isEmptyAccount(miner):
db.deleteAccount(miner)
# this is an important step when using accounts_cache
# it will affect the account storage's location
# during the next call to `getComittedStorage`
# and the result of rootHash
db.persist()
proc testFixture(fixtures: JsonNode, testStatusIMPL: var TestStatus,
trace = false, debugMode = false, supportedForks: set[Fork] = supportedForks) =
var tester: Tester
var fixture: JsonNode
for label, child in fixtures:
fixture = child
tester.name = label
break
let fenv = fixture["env"]
tester.header = BlockHeader(
coinbase: fenv["currentCoinbase"].getStr.ethAddressFromHex,
difficulty: fromHex(UInt256, fenv{"currentDifficulty"}.getStr),
blockNumber: fenv{"currentNumber"}.getHexadecimalInt.u256,
gasLimit: fenv{"currentGasLimit"}.getHexadecimalInt.GasInt,
timestamp: fenv{"currentTimestamp"}.getHexadecimalInt.int64.fromUnix,
stateRoot: emptyRlpHash
)
let specifyIndex = getConfiguration().index
tester.trace = trace
tester.debugMode = debugMode
let ftrans = fixture["transaction"]
var testedInFork = false
var numIndex = -1
for fork in supportedForks:
if fixture["post"].hasKey(forkNames[fork]):
numIndex = fixture["post"][forkNames[fork]].len
for expectation in fixture["post"][forkNames[fork]]:
inc tester.index
if specifyIndex > 0 and tester.index != specifyIndex:
continue
testedInFork = true
tester.expectedHash = expectation["hash"].getStr
tester.expectedLogs = expectation["logs"].getStr
let
indexes = expectation["indexes"]
dataIndex = indexes["data"].getInt
gasIndex = indexes["gas"].getInt
valueIndex = indexes["value"].getInt
tester.tx = ftrans.getFixtureTransaction(dataIndex, gasIndex, valueIndex)
tester.pre = fixture["pre"]
tester.fork = fork
testFixtureIndexes(tester, testStatusIMPL)
if not testedInFork:
echo "test subject '", tester.name, "' not tested in any forks/subtests"
if specifyIndex <= 0 or specifyIndex > numIndex:
echo "Maximum subtest available: ", numIndex
else:
echo "available forks in this test:"
for fork in test_helpers.supportedForks:
if fixture["post"].hasKey(forkNames[fork]):
echo fork
proc generalStateJsonMain*(debugMode = false) =
const
legacyFolder = "eth_tests" / "LegacyTests" / "Constantinople" / "GeneralStateTests"
newFolder = "eth_tests" / "GeneralStateTests"
let config = getConfiguration()
if config.testSubject == "" or not debugMode:
# run all test fixtures
if config.legacy:
suite "generalstate json tests":
jsonTest(legacyFolder , "GeneralStateTests", testFixture, skipGSTTests)
else:
suite "new generalstate json tests":
jsonTest(newFolder, "newGeneralStateTests", testFixture, skipNewGSTTests)
else:
# execute single test in debug mode
if config.testSubject.len == 0:
echo "missing test subject"
quit(QuitFailure)
let folder = if config.legacy: legacyFolder else: newFolder
let path = "tests" / "fixtures" / folder
let n = json.parseFile(path / config.testSubject)
var testStatusIMPL: TestStatus
var forks: set[Fork] = {}
forks.incl config.fork
testFixture(n, testStatusIMPL, config.trace, true, forks)
when isMainModule:
var message: string
## Processing command line arguments
if processArguments(message) != Success:
echo message
quit(QuitFailure)
else:
if len(message) > 0:
echo message
quit(QuitSuccess)
disableParamFiltering()
generalStateJsonMain(true)