nim-eth/tests/common/test_eip4844.nim

237 lines
6.5 KiB
Nim

# Nimbus
# Copyright (c) 2023 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.
{.used.}
import
stew/byteutils,
unittest2,
../../eth/common,
../../eth/rlp,
../../eth/common/transaction
const
recipient = hexToByteArray[20]("095e7baea6a6c7c4c2dfeb977efac326af552d87")
zeroG1 = hexToByteArray[48]("0xc00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000")
source = hexToByteArray[20]("0x0000000000000000000000000000000000000001")
storageKey= default(StorageKey)
accesses = @[AccessPair(address: source, storageKeys: @[storageKey])]
blob = default(NetworkBlob)
abcdef = hexToSeqByte("abcdef")
proc tx0(i: int): Transaction =
Transaction(
txType: TxLegacy,
nonce: i.AccountNonce,
to: recipient.some,
gasLimit: 1.GasInt,
gasPrice: 2.GasInt,
payload: abcdef)
proc tx1(i: int): Transaction =
Transaction(
# Legacy tx contract creation.
txType: TxLegacy,
nonce: i.AccountNonce,
gasLimit: 1.GasInt,
gasPrice: 2.GasInt,
payload: abcdef)
proc tx2(i: int): Transaction =
Transaction(
# Tx with non-zero access list.
txType: TxEip2930,
chainId: 1.ChainId,
nonce: i.AccountNonce,
to: recipient.some,
gasLimit: 123457.GasInt,
gasPrice: 10.GasInt,
accessList: accesses,
payload: abcdef)
proc tx3(i: int): Transaction =
Transaction(
# Tx with empty access list.
txType: TxEip2930,
chainId: 1.ChainId,
nonce: i.AccountNonce,
to: recipient.some,
gasLimit: 123457.GasInt,
gasPrice: 10.GasInt,
payload: abcdef)
proc tx4(i: int): Transaction =
Transaction(
# Contract creation with access list.
txType: TxEip2930,
chainId: 1.ChainId,
nonce: i.AccountNonce,
gasLimit: 123457.GasInt,
gasPrice: 10.GasInt,
accessList: accesses)
proc tx5(i: int): Transaction =
Transaction(
txType: TxEip1559,
chainId: 1.ChainId,
nonce: i.AccountNonce,
gasLimit: 123457.GasInt,
maxPriorityFee: 42.GasInt,
maxFee: 10.GasInt,
accessList: accesses)
proc tx6(i: int): Transaction =
const
digest = "010657f37554c781402a22917dee2f75def7ab966d7b770905398eba3c444014".toDigest
Transaction(
txType: TxEip4844,
chainId: 1.ChainId,
nonce: i.AccountNonce,
gasLimit: 123457.GasInt,
maxPriorityFee: 42.GasInt,
maxFee: 10.GasInt,
accessList: accesses,
versionedHashes: @[digest],
networkPayload: NetworkPayload(
blobs: @[blob],
commitments: @[zeroG1],
proofs: @[zeroG1],
)
)
proc tx7(i: int): Transaction =
const
digest = "01624652859a6e98ffc1608e2af0147ca4e86e1ce27672d8d3f3c9d4ffd6ef7e".toDigest
Transaction(
txType: TxEip4844,
chainID: 1.ChainId,
nonce: i.AccountNonce,
gasLimit: 123457.GasInt,
maxPriorityFee: 42.GasInt,
maxFee: 10.GasInt,
accessList: accesses,
versionedHashes: @[digest],
maxFeePerBlobGas: 10000000.u256,
)
proc tx8(i: int): Transaction =
const
digest = "01624652859a6e98ffc1608e2af0147ca4e86e1ce27672d8d3f3c9d4ffd6ef7e".toDigest
Transaction(
txType: TxEip4844,
chainID: 1.ChainId,
nonce: i.AccountNonce,
to: some(recipient),
gasLimit: 123457.GasInt,
maxPriorityFee: 42.GasInt,
maxFee: 10.GasInt,
accessList: accesses,
versionedHashes: @[digest],
maxFeePerBlobGas: 10000000.u256,
)
template roundTrip(txFunc: untyped, i: int) =
let tx = txFunc(i)
let bytes = rlp.encode(tx)
let tx2 = rlp.decode(bytes, Transaction)
let bytes2 = rlp.encode(tx2)
check bytes == bytes2
suite "Transaction RLP Encoding":
test "Legacy Tx Call":
roundTrip(tx0, 1)
test "Legacy tx contract creation":
roundTrip(tx1, 2)
test "Tx with non-zero access list":
roundTrip(tx2, 3)
test "Tx with empty access list":
roundTrip(tx3, 4)
test "Contract creation with access list":
roundTrip(tx4, 5)
test "Dynamic Fee Tx":
roundTrip(tx5, 6)
test "NetworkBlob Tx":
roundTrip(tx6, 7)
test "Minimal Blob Tx":
roundTrip(tx7, 8)
test "Minimal Blob Tx contract creation":
roundTrip(tx8, 9)
test "Network payload survive encode decode":
let tx = tx6(10)
let bytes = rlp.encode(tx)
let zz = rlp.decode(bytes, Transaction)
check not zz.networkPayload.isNil
check zz.networkPayload.proofs == tx.networkPayload.proofs
check zz.networkPayload.blobs == tx.networkPayload.blobs
check zz.networkPayload.commitments == tx.networkPayload.commitments
test "No Network payload still no network payload":
let tx = tx7(11)
let bytes = rlp.encode(tx)
let zz = rlp.decode(bytes, Transaction)
check zz.networkPayload.isNil
test "Minimal Blob tx recipient survive encode decode":
let tx = tx8(12)
let bytes = rlp.encode(tx)
let zz = rlp.decode(bytes, Transaction)
check zz.to.isSome
test "Tx List 0,1,2,3,4,5,6,7,8":
let txs = @[tx0(3), tx1(3), tx2(3), tx3(3), tx4(3),
tx5(3), tx6(3), tx7(3), tx8(3)]
let bytes = rlp.encode(txs)
let zz = rlp.decode(bytes, seq[Transaction])
let bytes2 = rlp.encode(zz)
check bytes2 == bytes
test "Tx List 8,7,6,5,4,3,2,1,0":
let txs = @[tx8(3), tx7(3) , tx6(3), tx5(3), tx4(3),
tx3(3), tx2(3), tx1(3), tx0(3)]
let bytes = rlp.encode(txs)
let zz = rlp.decode(bytes, seq[Transaction])
let bytes2 = rlp.encode(zz)
check bytes2 == bytes
test "Tx List 0,5,8,7,6,4,3,2,1":
let txs = @[tx0(3), tx5(3), tx8(3), tx7(3), tx6(3),
tx4(3), tx3(3), tx2(3), tx1(3)]
let bytes = rlp.encode(txs)
let zz = rlp.decode(bytes, seq[Transaction])
let bytes2 = rlp.encode(zz)
check bytes2 == bytes
test "Receipts":
let rec = Receipt(
receiptType: Eip4844Receipt,
isHash: false,
status: false,
cumulativeGasUsed: 100.GasInt)
let bytes = rlp.encode(rec)
let zz = rlp.decode(bytes, Receipt)
let bytes2 = rlp.encode(zz)
check bytes2 == bytes