status-go/services/wallet/transfer/helpers.go

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package transfer
import (
"database/sql"
"encoding/hex"
"errors"
"fmt"
"math/big"
"time"
"go.uber.org/zap"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/hexutil"
"github.com/status-im/status-go/account"
"github.com/status-im/status-go/eth-node/crypto"
"github.com/status-im/status-go/eth-node/types"
"github.com/status-im/status-go/logutils"
wallet_common "github.com/status-im/status-go/services/wallet/common"
"github.com/status-im/status-go/services/wallet/requests"
"github.com/status-im/status-go/services/wallet/router/pathprocessor"
)
func rowsToMultiTransactions(rows *sql.Rows) ([]*MultiTransaction, error) {
var multiTransactions []*MultiTransaction
for rows.Next() {
multiTransaction := &MultiTransaction{}
var fromAmountDB, toAmountDB sql.NullString
var fromTxHash, toTxHash sql.RawBytes
err := rows.Scan(
&multiTransaction.ID,
&multiTransaction.FromNetworkID,
&fromTxHash,
&multiTransaction.FromAddress,
&multiTransaction.FromAsset,
&fromAmountDB,
&multiTransaction.ToNetworkID,
&toTxHash,
&multiTransaction.ToAddress,
&multiTransaction.ToAsset,
&toAmountDB,
&multiTransaction.Type,
&multiTransaction.CrossTxID,
&multiTransaction.Timestamp,
)
if len(fromTxHash) > 0 {
multiTransaction.FromTxHash = common.BytesToHash(fromTxHash)
}
if len(toTxHash) > 0 {
multiTransaction.ToTxHash = common.BytesToHash(toTxHash)
}
if err != nil {
return nil, err
}
if fromAmountDB.Valid {
multiTransaction.FromAmount = new(hexutil.Big)
if _, ok := (*big.Int)(multiTransaction.FromAmount).SetString(fromAmountDB.String, 0); !ok {
return nil, errors.New("failed to convert fromAmountDB.String to big.Int: " + fromAmountDB.String)
}
}
if toAmountDB.Valid {
multiTransaction.ToAmount = new(hexutil.Big)
if _, ok := (*big.Int)(multiTransaction.ToAmount).SetString(toAmountDB.String, 0); !ok {
return nil, errors.New("failed to convert fromAmountDB.String to big.Int: " + toAmountDB.String)
}
}
multiTransactions = append(multiTransactions, multiTransaction)
}
return multiTransactions, nil
}
func addSignaturesToTransactions(transactions map[common.Hash]*TransactionDescription, signatures map[string]requests.SignatureDetails) error {
if len(transactions) == 0 {
return errors.New("no transactions to proceed with")
}
if len(signatures) != len(transactions) {
return errors.New("not all transactions have been signed")
}
// check if all transactions have been signed
for hash, desc := range transactions {
sigDetails, ok := signatures[hash.String()]
if !ok {
return fmt.Errorf("missing signature for transaction %s", hash)
}
rBytes, _ := hex.DecodeString(sigDetails.R)
sBytes, _ := hex.DecodeString(sigDetails.S)
vByte := byte(0)
if sigDetails.V == "01" {
vByte = 1
}
desc.signature = make([]byte, crypto.SignatureLength)
copy(desc.signature[32-len(rBytes):32], rBytes)
copy(desc.signature[64-len(rBytes):64], sBytes)
desc.signature[64] = vByte
}
return nil
}
func multiTransactionFromCommand(command *MultiTransactionCommand) *MultiTransaction {
toAmount := new(hexutil.Big)
if command.ToAmount != nil {
toAmount = command.ToAmount
}
multiTransaction := NewMultiTransaction(
/* Timestamp: */ uint64(time.Now().Unix()),
/* FromNetworkID: */ 0,
/* ToNetworkID: */ 0,
/* FromTxHash: */ common.Hash{},
/* ToTxHash: */ common.Hash{},
/* FromAddress: */ command.FromAddress,
/* ToAddress: */ command.ToAddress,
/* FromAsset: */ command.FromAsset,
/* ToAsset: */ command.ToAsset,
/* FromAmount: */ command.FromAmount,
/* ToAmount: */ toAmount,
/* Type: */ command.Type,
/* CrossTxID: */ "",
)
return multiTransaction
}
func updateDataFromMultiTx(data []*pathprocessor.MultipathProcessorTxArgs, multiTransaction *MultiTransaction) {
for _, tx := range data {
if tx.TransferTx != nil {
tx.TransferTx.MultiTransactionID = multiTransaction.ID
tx.TransferTx.Symbol = multiTransaction.FromAsset
}
if tx.HopTx != nil {
tx.HopTx.MultiTransactionID = multiTransaction.ID
tx.HopTx.Symbol = multiTransaction.FromAsset
}
if tx.CbridgeTx != nil {
tx.CbridgeTx.MultiTransactionID = multiTransaction.ID
tx.CbridgeTx.Symbol = multiTransaction.FromAsset
}
if tx.ERC721TransferTx != nil {
tx.ERC721TransferTx.MultiTransactionID = multiTransaction.ID
tx.ERC721TransferTx.Symbol = multiTransaction.FromAsset
}
if tx.ERC1155TransferTx != nil {
tx.ERC1155TransferTx.MultiTransactionID = multiTransaction.ID
tx.ERC1155TransferTx.Symbol = multiTransaction.FromAsset
}
if tx.SwapTx != nil {
tx.SwapTx.MultiTransactionID = multiTransaction.ID
tx.SwapTx.Symbol = multiTransaction.FromAsset
}
}
}
func sendTransactions(data []*pathprocessor.MultipathProcessorTxArgs, pathProcessors map[string]pathprocessor.PathProcessor, account *account.SelectedExtKey) (
map[uint64][]types.Hash, error) {
hashes := make(map[uint64][]types.Hash)
usedNonces := make(map[uint64]int64)
for _, tx := range data {
lastUsedNonce := int64(-1)
if nonce, ok := usedNonces[tx.ChainID]; ok {
lastUsedNonce = nonce
}
hash, usedNonce, err := pathProcessors[tx.Name].Send(tx, lastUsedNonce, account)
if err != nil {
return nil, err // TODO: One of transfers within transaction could have been sent. Need to notify user about it
}
hashes[tx.ChainID] = append(hashes[tx.ChainID], hash)
usedNonces[tx.ChainID] = int64(usedNonce)
}
return hashes, nil
}
func idFromTimestamp() wallet_common.MultiTransactionIDType {
return wallet_common.MultiTransactionIDType(time.Now().UnixMilli())
}
var multiTransactionIDGenerator func() wallet_common.MultiTransactionIDType = idFromTimestamp
func (tm *TransactionManager) removeMultiTransactionByAddress(address common.Address) error {
// We must not remove those transactions, where from_address and to_address are different and both are stored in accounts DB
// and one of them is equal to the address, as we want to keep the records for the other address
// That is why we don't use cascade delete here with references to transfers table, as we might have 2 records in multi_transactions
// for the same transaction, one for each address
details := NewMultiTxDetails()
details.FromAddress = address
mtxs, err := tm.storage.ReadMultiTransactions(details)
ids := make([]wallet_common.MultiTransactionIDType, 0)
for _, mtx := range mtxs {
// Remove self transactions as well, leave only those where we have the counterparty in accounts DB
if mtx.FromAddress != mtx.ToAddress {
// If both addresses are stored in accounts DB, we don't remove the record
var addressToCheck common.Address
if mtx.FromAddress == address {
addressToCheck = mtx.ToAddress
} else {
addressToCheck = mtx.FromAddress
}
counterpartyExists, err := tm.accountsDB.AddressExists(types.Address(addressToCheck))
if err != nil {
logutils.ZapLogger().Error("Failed to query accounts db for a given address",
zap.Stringer("address", address),
zap.Error(err),
)
continue
}
// Skip removal if counterparty is in accounts DB and removed address is not sender
if counterpartyExists && address != mtx.FromAddress {
continue
}
}
ids = append(ids, mtx.ID)
}
if len(ids) > 0 {
for _, id := range ids {
err = tm.storage.DeleteMultiTransaction(id)
if err != nil {
logutils.ZapLogger().Error("Failed to delete multi transaction", zap.Int64("id", int64(id)), zap.Error(err))
}
}
}
return err
}