public TxReceipt Decode(RlpStream rlpStream, RlpBehaviors rlpBehaviors = RlpBehaviors.None) { if (rlpStream.IsNextItemNull()) { rlpStream.ReadByte(); return(null); } TxReceipt txReceipt = new TxReceipt(); rlpStream.ReadSequenceLength(); byte[] firstItem = rlpStream.DecodeByteArray(); if (firstItem.Length == 1) { txReceipt.StatusCode = firstItem[0]; } else { txReceipt.PostTransactionState = firstItem.Length == 0 ? null : new Keccak(firstItem); } txReceipt.GasUsedTotal = (long)rlpStream.DecodeUBigInt(); txReceipt.Bloom = rlpStream.DecodeBloom(); int lastCheck = rlpStream.ReadSequenceLength() + rlpStream.Position; List <LogEntry> logEntries = new List <LogEntry>(); while (rlpStream.Position < lastCheck) { logEntries.Add(Rlp.Decode <LogEntry>(rlpStream, RlpBehaviors.AllowExtraData)); } txReceipt.Logs = logEntries.ToArray(); return(txReceipt); }
public TxReceipt Decode(RlpStream rlpStream, RlpBehaviors rlpBehaviors = RlpBehaviors.None) { if (rlpStream.IsNextItemNull()) { rlpStream.ReadByte(); return(null); } TxReceipt txReceipt = new(); if (!rlpStream.IsSequenceNext()) { rlpStream.SkipLength(); txReceipt.TxType = (TxType)rlpStream.ReadByte(); } _ = rlpStream.ReadSequenceLength(); byte[] firstItem = rlpStream.DecodeByteArray(); if (firstItem.Length == 1 && (firstItem[0] == 0 || firstItem[0] == 1)) { txReceipt.StatusCode = firstItem[0]; txReceipt.GasUsedTotal = (long)rlpStream.DecodeUBigInt(); } else if (firstItem.Length >= 1 && firstItem.Length <= 4) { txReceipt.GasUsedTotal = (long)firstItem.ToUnsignedBigInteger(); txReceipt.SkipStateAndStatusInRlp = true; } else { txReceipt.PostTransactionState = firstItem.Length == 0 ? null : new Keccak(firstItem); txReceipt.GasUsedTotal = (long)rlpStream.DecodeUBigInt(); } txReceipt.Bloom = rlpStream.DecodeBloom(); int lastCheck = rlpStream.ReadSequenceLength() + rlpStream.Position; int numberOfReceipts = rlpStream.ReadNumberOfItemsRemaining(lastCheck); LogEntry[] entries = new LogEntry[numberOfReceipts]; for (int i = 0; i < numberOfReceipts; i++) { entries[i] = Rlp.Decode <LogEntry>(rlpStream, RlpBehaviors.AllowExtraData); } txReceipt.Logs = entries; return(txReceipt); }
public LogEntry?Decode(RlpStream rlpStream, RlpBehaviors rlpBehaviors = RlpBehaviors.None) { if (rlpStream.IsNextItemNull()) { rlpStream.ReadByte(); return(null); } rlpStream.ReadSequenceLength(); Address?address = rlpStream.DecodeAddress(); long sequenceLength = rlpStream.ReadSequenceLength(); Keccak[] topics = new Keccak[sequenceLength / 33]; for (int i = 0; i < topics.Length; i++) { topics[i] = rlpStream.DecodeKeccak(); } byte[] data = rlpStream.DecodeByteArray(); return(new LogEntry(address, data, topics)); }
public TxReceipt Decode(RlpStream rlpStream, RlpBehaviors rlpBehaviors = RlpBehaviors.None) { if (rlpStream.IsNextItemNull()) { rlpStream.ReadByte(); return(null); } bool isStorage = (rlpBehaviors & RlpBehaviors.Storage) != 0; TxReceipt txReceipt = new TxReceipt(); rlpStream.ReadSequenceLength(); byte[] firstItem = rlpStream.DecodeByteArray(); if (firstItem.Length == 1) { txReceipt.StatusCode = firstItem[0]; } else { txReceipt.PostTransactionState = firstItem.Length == 0 ? null : new Keccak(firstItem); } if (isStorage) { txReceipt.BlockHash = rlpStream.DecodeKeccak(); } if (isStorage) { txReceipt.BlockNumber = (long)rlpStream.DecodeUInt256(); } if (isStorage) { txReceipt.Index = rlpStream.DecodeInt(); } if (isStorage) { txReceipt.Sender = rlpStream.DecodeAddress(); } if (isStorage) { txReceipt.Recipient = rlpStream.DecodeAddress(); } if (isStorage) { txReceipt.ContractAddress = rlpStream.DecodeAddress(); } if (isStorage) { txReceipt.GasUsed = (long)rlpStream.DecodeUBigInt(); } txReceipt.GasUsedTotal = (long)rlpStream.DecodeUBigInt(); txReceipt.Bloom = rlpStream.DecodeBloom(); int lastCheck = rlpStream.ReadSequenceLength() + rlpStream.Position; List <LogEntry> logEntries = new List <LogEntry>(); while (rlpStream.Position < lastCheck) { logEntries.Add(Rlp.Decode <LogEntry>(rlpStream, RlpBehaviors.AllowExtraData)); } bool allowExtraData = (rlpBehaviors & RlpBehaviors.AllowExtraData) != 0; if (!allowExtraData) { rlpStream.Check(lastCheck); } if (!allowExtraData) { if (isStorage && _supportTxHash) { // since txHash was added later and may not be in rlp, we provide special mark byte that it will be next if (rlpStream.PeekByte() == MarkTxHashByte) { rlpStream.ReadByte(); txReceipt.TxHash = rlpStream.DecodeKeccak(); } } // since error was added later we can only rely on it in cases where we read receipt only and no data follows, empty errors might not be serialized if (rlpStream.Position != rlpStream.Length) { txReceipt.Error = rlpStream.DecodeString(); } } txReceipt.Logs = logEntries.ToArray(); return(txReceipt); }
public BlockHeader?Decode(RlpStream rlpStream, RlpBehaviors rlpBehaviors = RlpBehaviors.None) { if (rlpStream.IsNextItemNull()) { rlpStream.ReadByte(); return(null); } Span <byte> headerRlp = rlpStream.PeekNextItem(); int headerSequenceLength = rlpStream.ReadSequenceLength(); int headerCheck = rlpStream.Position + headerSequenceLength; Keccak? parentHash = rlpStream.DecodeKeccak(); Keccak? unclesHash = rlpStream.DecodeKeccak(); Address?beneficiary = rlpStream.DecodeAddress(); Keccak? stateRoot = rlpStream.DecodeKeccak(); Keccak? transactionsRoot = rlpStream.DecodeKeccak(); Keccak? receiptsRoot = rlpStream.DecodeKeccak(); Bloom? bloom = rlpStream.DecodeBloom(); UInt256 difficulty = rlpStream.DecodeUInt256(); long number = rlpStream.DecodeLong(); long gasLimit = rlpStream.DecodeLong(); long gasUsed = rlpStream.DecodeLong(); UInt256 timestamp = rlpStream.DecodeUInt256(); byte[]? extraData = rlpStream.DecodeByteArray(); BlockHeader blockHeader = new( parentHash, unclesHash, beneficiary, difficulty, number, gasLimit, timestamp, extraData) { StateRoot = stateRoot, TxRoot = transactionsRoot, ReceiptsRoot = receiptsRoot, Bloom = bloom, GasUsed = gasUsed, Hash = Keccak.Compute(headerRlp) }; if (rlpStream.PeekPrefixAndContentLength().ContentLength == Keccak.Size) { blockHeader.MixHash = rlpStream.DecodeKeccak(); blockHeader.Nonce = (ulong)rlpStream.DecodeUBigInt(); } else { blockHeader.AuRaStep = (long)rlpStream.DecodeUInt256(); blockHeader.AuRaSignature = rlpStream.DecodeByteArray(); } if (blockHeader.Number >= Eip1559TransitionBlock) { blockHeader.BaseFeePerGas = rlpStream.DecodeUInt256(); } if ((rlpBehaviors & RlpBehaviors.AllowExtraData) != RlpBehaviors.AllowExtraData) { rlpStream.Check(headerCheck); } return(blockHeader); }
public BlockHeader Decode(RlpStream rlpStream, RlpBehaviors rlpBehaviors = RlpBehaviors.None) { if (rlpStream.IsNextItemNull()) { rlpStream.ReadByte(); return(null); } var headerRlp = rlpStream.PeekNextItem(); int headerSequenceLength = rlpStream.ReadSequenceLength(); int headerCheck = rlpStream.Position + headerSequenceLength; Keccak parentHash = rlpStream.DecodeKeccak(); Keccak ommersHash = rlpStream.DecodeKeccak(); Address beneficiary = rlpStream.DecodeAddress(); Keccak stateRoot = rlpStream.DecodeKeccak(); Keccak transactionsRoot = rlpStream.DecodeKeccak(); Keccak receiptsRoot = rlpStream.DecodeKeccak(); Bloom bloom = rlpStream.DecodeBloom(); UInt256 difficulty = rlpStream.DecodeUInt256(); UInt256 number = rlpStream.DecodeUInt256(); UInt256 gasLimit = rlpStream.DecodeUInt256(); UInt256 gasUsed = rlpStream.DecodeUInt256(); UInt256 timestamp = rlpStream.DecodeUInt256(); byte[] extraData = rlpStream.DecodeByteArray(); BlockHeader blockHeader = new BlockHeader( parentHash, ommersHash, beneficiary, difficulty, (long)number, (long)gasLimit, timestamp, extraData) { StateRoot = stateRoot, TxRoot = transactionsRoot, ReceiptsRoot = receiptsRoot, Bloom = bloom, GasUsed = (long)gasUsed, Hash = Keccak.Compute(headerRlp) }; if (rlpStream.PeekPrefixAndContentLength().ContentLength == Keccak.Size) { blockHeader.MixHash = rlpStream.DecodeKeccak(); blockHeader.Nonce = (ulong)rlpStream.DecodeUBigInt(); } else { blockHeader.AuRaStep = (long)rlpStream.DecodeUInt256(); blockHeader.AuRaSignature = rlpStream.DecodeByteArray(); } if ((rlpBehaviors & RlpBehaviors.AllowExtraData) != RlpBehaviors.AllowExtraData) { rlpStream.Check(headerCheck); } return(blockHeader); }
public Transaction Decode(RlpStream rlpStream, RlpBehaviors rlpBehaviors = RlpBehaviors.None) { if (rlpStream.IsNextItemNull()) { rlpStream.ReadByte(); return(null); } var transactionSequence = rlpStream.PeekNextItem(); int transactionLength = rlpStream.ReadSequenceLength(); int lastCheck = rlpStream.Position + transactionLength; Transaction transaction = new Transaction(); transaction.Nonce = rlpStream.DecodeUInt256(); transaction.GasPrice = rlpStream.DecodeUInt256(); transaction.GasLimit = rlpStream.DecodeLong(); transaction.To = rlpStream.DecodeAddress(); transaction.Value = rlpStream.DecodeUInt256(); if (transaction.To == null) { transaction.Init = rlpStream.DecodeByteArray(); } else { transaction.Data = rlpStream.DecodeByteArray(); } if (rlpStream.Position < lastCheck) { ReadOnlySpan <byte> vBytes = rlpStream.DecodeByteArraySpan(); ReadOnlySpan <byte> rBytes = rlpStream.DecodeByteArraySpan(); ReadOnlySpan <byte> sBytes = rlpStream.DecodeByteArraySpan(); bool allowUnsigned = (rlpBehaviors & RlpBehaviors.AllowUnsigned) == RlpBehaviors.AllowUnsigned; bool isSignatureOk = true; string signatureError = null; if (vBytes == null || rBytes == null || sBytes == null) { isSignatureOk = false; signatureError = "VRS null when decoding Transaction"; } else if (vBytes.Length == 0 || rBytes.Length == 0 || sBytes.Length == 0) { isSignatureOk = false; signatureError = "VRS is 0 length when decoding Transaction"; } else if (vBytes[0] == 0 || rBytes[0] == 0 || sBytes[0] == 0) { isSignatureOk = false; signatureError = "VRS starting with 0"; } else if (rBytes.Length > 32 || sBytes.Length > 32) { isSignatureOk = false; signatureError = "R and S lengths expected to be less or equal 32"; } else if (rBytes.SequenceEqual(Bytes.Zero32) && sBytes.SequenceEqual(Bytes.Zero32)) { isSignatureOk = false; signatureError = "Both 'r' and 's' are zero when decoding a transaction."; } if (isSignatureOk) { int v = vBytes.ReadEthInt32(); Signature signature = new Signature(rBytes, sBytes, v); transaction.Signature = signature; transaction.Hash = Keccak.Compute(transactionSequence); } else { if (!allowUnsigned) { throw new RlpException(signatureError); } } } if ((rlpBehaviors & RlpBehaviors.AllowExtraData) != RlpBehaviors.AllowExtraData) { rlpStream.Check(lastCheck); } return(transaction); }