nwaku/tests/waku_rln_relay/utils_onchain.nim

227 lines
7.2 KiB
Nim
Raw Normal View History

{.used.}
{.push raises: [].}
import
std/[options, os, osproc, sequtils, deques, streams, strutils, tempfiles, strformat],
stew/[results, byteutils],
testutils/unittests,
chronos,
chronicles,
stint,
web3,
json,
libp2p/crypto/crypto,
eth/keys
import
waku/[
waku_rln_relay,
waku_rln_relay/protocol_types,
waku_rln_relay/constants,
waku_rln_relay/contract,
waku_rln_relay/rln,
],
../testlib/common,
./utils
const CHAIN_ID* = 1337
proc generateCredentials*(rlnInstance: ptr RLN): IdentityCredential =
let credRes = membershipKeyGen(rlnInstance)
return credRes.get()
proc getRateCommitment*(
idCredential: IdentityCredential, userMessageLimit: UserMessageLimit
): RlnRelayResult[RawRateCommitment] =
return RateCommitment(
idCommitment: idCredential.idCommitment, userMessageLimit: userMessageLimit
).toLeaf()
proc generateCredentials*(rlnInstance: ptr RLN, n: int): seq[IdentityCredential] =
var credentials: seq[IdentityCredential]
for i in 0 ..< n:
credentials.add(generateCredentials(rlnInstance))
return credentials
# a util function used for testing purposes
# it deploys membership contract on Anvil (or any Eth client available on EthClient address)
# must be edited if used for a different contract than membership contract
# <the difference between this and rln-v1 is that there is no need to deploy the poseidon hasher contract>
proc uploadRLNContract*(ethClientAddress: string): Future[Address] {.async.} =
let web3 = await newWeb3(ethClientAddress)
debug "web3 connected to", ethClientAddress
# fetch the list of registered accounts
let accounts = await web3.provider.eth_accounts()
web3.defaultAccount = accounts[1]
let add = web3.defaultAccount
debug "contract deployer account address ", add
let balance = await web3.provider.eth_getBalance(web3.defaultAccount, "latest")
debug "Initial account balance: ", balance
# deploy poseidon hasher bytecode
let poseidonT3Receipt = await web3.deployContract(PoseidonT3)
let poseidonT3Address = poseidonT3Receipt.contractAddress.get()
let poseidonAddressStripped = strip0xPrefix($poseidonT3Address)
# deploy lazy imt bytecode
let lazyImtReceipt = await web3.deployContract(
LazyIMT.replace("__$PoseidonT3$__", poseidonAddressStripped)
)
let lazyImtAddress = lazyImtReceipt.contractAddress.get()
let lazyImtAddressStripped = strip0xPrefix($lazyImtAddress)
# deploy waku rlnv2 contract
let wakuRlnContractReceipt = await web3.deployContract(
WakuRlnV2Contract.replace("__$PoseidonT3$__", poseidonAddressStripped).replace(
"__$LazyIMT$__", lazyImtAddressStripped
)
)
let wakuRlnContractAddress = wakuRlnContractReceipt.contractAddress.get()
let wakuRlnAddressStripped = strip0xPrefix($wakuRlnContractAddress)
debug "Address of the deployed rlnv2 contract: ", wakuRlnContractAddress
# need to send concat: impl & init_bytes
let contractInput = encode(wakuRlnContractAddress).data & Erc1967ProxyContractInput
debug "contractInput", contractInput
let proxyReceipt =
await web3.deployContract(Erc1967Proxy, contractInput = contractInput)
debug "proxy receipt", proxyReceipt
let proxyAddress = proxyReceipt.contractAddress.get()
let newBalance = await web3.provider.eth_getBalance(web3.defaultAccount, "latest")
debug "Account balance after the contract deployment: ", newBalance
await web3.close()
debug "disconnected from ", ethClientAddress
return proxyAddress
proc createEthAccount*(
ethAmount: UInt256 = 1000.u256
): Future[(keys.PrivateKey, Address)] {.async.} =
let web3 = await newWeb3(EthClient)
let accounts = await web3.provider.eth_accounts()
let gasPrice = int(await web3.provider.eth_gasPrice())
web3.defaultAccount = accounts[0]
let pk = keys.PrivateKey.random(rng[])
let acc = Address(toCanonicalAddress(pk.toPublicKey()))
var tx: EthSend
tx.source = accounts[0]
tx.value = some(ethToWei(ethAmount))
tx.to = some(acc)
tx.gasPrice = some(gasPrice)
# Send ethAmount to acc
discard await web3.send(tx)
let balance = await web3.provider.eth_getBalance(acc, "latest")
assert balance == ethToWei(ethAmount),
fmt"Balance is {balance} but expected {ethToWei(ethAmount)}"
return (pk, acc)
proc getAnvilPath*(): string =
var anvilPath = ""
if existsEnv("XDG_CONFIG_HOME"):
anvilPath = joinPath(anvilPath, os.getEnv("XDG_CONFIG_HOME", ""))
else:
anvilPath = joinPath(anvilPath, os.getEnv("HOME", ""))
anvilPath = joinPath(anvilPath, ".foundry/bin/anvil")
return $anvilPath
# Runs Anvil daemon
proc runAnvil*(port: int = 8540, chainId: string = "1337"): Process =
# Passed options are
# --port Port to listen on.
# --gas-limit Sets the block gas limit in WEI.
# --balance The default account balance, specified in ether.
# --chain-id Chain ID of the network.
# See anvil documentation https://book.getfoundry.sh/reference/anvil/ for more details
try:
let anvilPath = getAnvilPath()
debug "Anvil path", anvilPath
let runAnvil = startProcess(
anvilPath,
args = [
"--port",
"8540",
"--gas-limit",
"300000000000000",
"--balance",
"1000000000",
"--chain-id",
$CHAIN_ID,
],
options = {poUsePath},
)
let anvilPID = runAnvil.processID
# We read stdout from Anvil to see when daemon is ready
var anvilStartLog: string
var cmdline: string
while true:
try:
if runAnvil.outputstream.readLine(cmdline):
anvilStartLog.add(cmdline)
if cmdline.contains("Listening on 127.0.0.1:" & $port):
break
except Exception, CatchableError:
break
debug "Anvil daemon is running and ready", pid = anvilPID, startLog = anvilStartLog
return runAnvil
except: # TODO: Fix "BareExcept" warning
error "Anvil daemon run failed", err = getCurrentExceptionMsg()
# Stops Anvil daemon
proc stopAnvil*(runAnvil: Process) {.used.} =
let anvilPID = runAnvil.processID
# We wait the daemon to exit
try:
# We terminate Anvil daemon by sending a SIGTERM signal to the runAnvil PID to trigger RPC server termination and clean-up
kill(runAnvil)
debug "Sent SIGTERM to Anvil", anvilPID = anvilPID
except:
error "Anvil daemon termination failed: ", err = getCurrentExceptionMsg()
proc setup*(
ethClientAddress: string = EthClient, ethAmount: UInt256 = 10.u256
): Future[OnchainGroupManager] {.async.} =
let rlnInstanceRes =
createRlnInstance(tree_path = genTempPath("rln_tree", "group_manager_onchain"))
check:
rlnInstanceRes.isOk()
let rlnInstance = rlnInstanceRes.get()
let contractAddress = await uploadRLNContract(ethClientAddress)
# connect to the eth client
let web3 = await newWeb3(ethClientAddress)
let accounts = await web3.provider.eth_accounts()
web3.defaultAccount = accounts[0]
var pk = none(string)
let (privateKey, _) = await createEthAccount(ethAmount)
pk = some($privateKey)
let manager = OnchainGroupManager(
ethClientUrl: ethClientAddress,
ethContractAddress: $contractAddress,
chainId: CHAIN_ID,
ethPrivateKey: pk,
rlnInstance: rlnInstance,
onFatalErrorAction: proc(errStr: string) =
raiseAssert errStr
,
)
return manager
{.pop.}