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

1268 lines
41 KiB
Go

package transfer
import (
"context"
"math/big"
"sync/atomic"
"time"
"github.com/ethereum/go-ethereum/accounts/abi/bind"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/event"
"github.com/ethereum/go-ethereum/log"
"github.com/status-im/status-go/contracts"
nodetypes "github.com/status-im/status-go/eth-node/types"
"github.com/status-im/status-go/multiaccounts/accounts"
"github.com/status-im/status-go/rpc/chain"
"github.com/status-im/status-go/services/wallet/async"
"github.com/status-im/status-go/services/wallet/balance"
"github.com/status-im/status-go/services/wallet/blockchainstate"
"github.com/status-im/status-go/services/wallet/token"
"github.com/status-im/status-go/services/wallet/walletevent"
"github.com/status-im/status-go/transactions"
)
var findBlocksRetryInterval = 5 * time.Second
type nonceInfo struct {
nonce *int64
blockNumber *big.Int
}
type findNewBlocksCommand struct {
*findBlocksCommand
contractMaker *contracts.ContractMaker
iteration int
blockChainState *blockchainstate.BlockChainState
lastNonces map[common.Address]nonceInfo
nonceCheckIntervalIterations int
logsCheckIntervalIterations int
}
func (c *findNewBlocksCommand) Command() async.Command {
return async.InfiniteCommand{
Interval: 2 * time.Minute,
Runable: c.Run,
}.Run
}
var requestTimeout = 20 * time.Second
func (c *findNewBlocksCommand) detectTransfers(parent context.Context, accounts []common.Address) (*big.Int, []common.Address, error) {
bc, err := c.contractMaker.NewBalanceChecker(c.chainClient.NetworkID())
if err != nil {
log.Error("findNewBlocksCommand error creating balance checker", "error", err, "chain", c.chainClient.NetworkID())
return nil, nil, err
}
tokens, err := c.tokenManager.GetTokens(c.chainClient.NetworkID())
if err != nil {
return nil, nil, err
}
tokenAddresses := []common.Address{}
nilAddress := common.Address{}
for _, token := range tokens {
if token.Address != nilAddress {
tokenAddresses = append(tokenAddresses, token.Address)
}
}
log.Info("findNewBlocksCommand detectTransfers", "cnt", len(tokenAddresses), "addresses", tokenAddresses)
ctx, cancel := context.WithTimeout(parent, requestTimeout)
defer cancel()
blockNum, hashes, err := bc.BalancesHash(&bind.CallOpts{Context: ctx}, c.accounts, tokenAddresses)
if err != nil {
log.Error("findNewBlocksCommand can't get balances hashes", "error", err)
return nil, nil, err
}
addressesToCheck := []common.Address{}
for idx, account := range accounts {
blockRange, _, err := c.blockRangeDAO.getBlockRange(c.chainClient.NetworkID(), account)
if err != nil {
log.Error("findNewBlocksCommand can't get block range", "error", err, "account", account, "chain", c.chainClient.NetworkID())
return nil, nil, err
}
checkHash := common.BytesToHash(hashes[idx][:])
log.Debug("findNewBlocksCommand comparing hashes", "account", account, "network", c.chainClient.NetworkID(), "old hash", blockRange.balanceCheckHash, "new hash", checkHash.String())
if checkHash.String() != blockRange.balanceCheckHash {
addressesToCheck = append(addressesToCheck, account)
}
blockRange.balanceCheckHash = checkHash.String()
err = c.blockRangeDAO.upsertRange(c.chainClient.NetworkID(), account, blockRange)
if err != nil {
log.Error("findNewBlocksCommand can't update balance check", "error", err, "account", account, "chain", c.chainClient.NetworkID())
return nil, nil, err
}
}
return blockNum, addressesToCheck, nil
}
func (c *findNewBlocksCommand) detectNonceChange(parent context.Context, to *big.Int, accounts []common.Address) (map[common.Address]*big.Int, error) {
addressesWithChange := map[common.Address]*big.Int{}
for _, account := range accounts {
var oldNonce *int64
blockRange, _, err := c.blockRangeDAO.getBlockRange(c.chainClient.NetworkID(), account)
if err != nil {
log.Error("findNewBlocksCommand can't get block range", "error", err, "account", account, "chain", c.chainClient.NetworkID())
return nil, err
}
lastNonceInfo, ok := c.lastNonces[account]
if !ok || lastNonceInfo.blockNumber.Cmp(blockRange.eth.LastKnown) != 0 {
log.Info("Fetching old nonce", "at", blockRange.eth.LastKnown, "acc", account)
oldNonce, err = c.balanceCacher.NonceAt(parent, c.chainClient, account, blockRange.eth.LastKnown)
if err != nil {
log.Error("findNewBlocksCommand can't get nonce", "error", err, "account", account, "chain", c.chainClient.NetworkID())
return nil, err
}
} else {
oldNonce = lastNonceInfo.nonce
}
newNonce, err := c.balanceCacher.NonceAt(parent, c.chainClient, account, to)
if err != nil {
log.Error("findNewBlocksCommand can't get nonce", "error", err, "account", account, "chain", c.chainClient.NetworkID())
return nil, err
}
log.Info("Comparing nonces", "oldNonce", *oldNonce, "newNonce", *newNonce, "to", to, "acc", account)
if *newNonce != *oldNonce {
addressesWithChange[account] = blockRange.eth.LastKnown
}
if c.lastNonces == nil {
c.lastNonces = map[common.Address]nonceInfo{}
}
c.lastNonces[account] = nonceInfo{
nonce: newNonce,
blockNumber: to,
}
}
return addressesWithChange, nil
}
var nonceCheckIntervalIterations = 30
var logsCheckIntervalIterations = 5
func (c *findNewBlocksCommand) Run(parent context.Context) error {
mnemonicWasNotShown, err := c.accountsDB.GetMnemonicWasNotShown()
if err != nil {
return err
}
accountsToCheck := []common.Address{}
// accounts which might have outgoing transfers initiated outside
// the application, e.g. watch only or restored from mnemonic phrase
accountsWithOutsideTransfers := []common.Address{}
for _, account := range c.accounts {
acc, err := c.accountsDB.GetAccountByAddress(nodetypes.Address(account))
if err != nil {
return err
}
if mnemonicWasNotShown {
if acc.AddressWasNotShown {
log.Info("skip findNewBlocksCommand, mnemonic has not been shown and the address has not been shared yet", "address", account)
continue
}
}
if !mnemonicWasNotShown || acc.Type != accounts.AccountTypeGenerated {
accountsWithOutsideTransfers = append(accountsWithOutsideTransfers, account)
}
accountsToCheck = append(accountsToCheck, account)
}
if len(accountsToCheck) == 0 {
return nil
}
headNum, accountsWithDetectedChanges, err := c.detectTransfers(parent, accountsToCheck)
if err != nil {
log.Error("findNewBlocksCommand error on transfer detection", "error", err, "chain", c.chainClient.NetworkID())
return err
}
c.blockChainState.SetLastBlockNumber(c.chainClient.NetworkID(), headNum.Uint64())
if len(accountsWithDetectedChanges) != 0 {
log.Debug("findNewBlocksCommand detected accounts with changes, proceeding", "accounts", accountsWithDetectedChanges, "from", c.fromBlockNumber)
err = c.findAndSaveEthBlocks(parent, c.fromBlockNumber, headNum, accountsToCheck)
if err != nil {
return err
}
} else if c.iteration%c.nonceCheckIntervalIterations == 0 && len(accountsWithOutsideTransfers) > 0 {
log.Debug("findNewBlocksCommand nonce check", "accounts", accountsWithOutsideTransfers)
accountsWithNonceChanges, err := c.detectNonceChange(parent, headNum, accountsWithOutsideTransfers)
if err != nil {
return err
}
if len(accountsWithNonceChanges) > 0 {
log.Debug("findNewBlocksCommand detected nonce diff", "accounts", accountsWithNonceChanges)
for account, from := range accountsWithNonceChanges {
err = c.findAndSaveEthBlocks(parent, from, headNum, []common.Address{account})
if err != nil {
return err
}
}
}
for _, account := range accountsToCheck {
if _, ok := accountsWithNonceChanges[account]; ok {
continue
}
err := c.markEthBlockRangeChecked(account, &BlockRange{nil, c.fromBlockNumber, headNum})
if err != nil {
return err
}
}
}
if len(accountsWithDetectedChanges) != 0 || c.iteration%c.logsCheckIntervalIterations == 0 {
from := c.fromBlockNumber
if c.logsCheckLastKnownBlock != nil {
from = c.logsCheckLastKnownBlock
}
err = c.findAndSaveTokenBlocks(parent, from, headNum)
if err != nil {
return err
}
c.logsCheckLastKnownBlock = headNum
}
c.fromBlockNumber = headNum
c.iteration++
return nil
}
func (c *findNewBlocksCommand) findAndSaveEthBlocks(parent context.Context, fromNum, headNum *big.Int, accounts []common.Address) error {
// Check ETH transfers for each account independently
mnemonicWasNotShown, err := c.accountsDB.GetMnemonicWasNotShown()
if err != nil {
return err
}
for _, account := range accounts {
if mnemonicWasNotShown {
acc, err := c.accountsDB.GetAccountByAddress(nodetypes.Address(account))
if err != nil {
return err
}
if acc.AddressWasNotShown {
log.Info("skip findNewBlocksCommand, mnemonic has not been shown and the address has not been shared yet", "address", account)
continue
}
}
log.Debug("start findNewBlocksCommand", "account", account, "chain", c.chainClient.NetworkID(), "noLimit", c.noLimit, "from", fromNum, "to", headNum)
headers, startBlockNum, err := c.findBlocksWithEthTransfers(parent, account, fromNum, headNum)
if err != nil {
return err
}
if len(headers) > 0 {
log.Debug("findNewBlocksCommand saving headers", "len", len(headers), "lastBlockNumber", headNum,
"balance", c.balanceCacher.Cache().GetBalance(account, c.chainClient.NetworkID(), headNum),
"nonce", c.balanceCacher.Cache().GetNonce(account, c.chainClient.NetworkID(), headNum))
err := c.db.SaveBlocks(c.chainClient.NetworkID(), headers)
if err != nil {
return err
}
c.blocksFound(headers)
}
err = c.markEthBlockRangeChecked(account, &BlockRange{startBlockNum, fromNum, headNum})
if err != nil {
return err
}
log.Debug("end findNewBlocksCommand", "account", account, "chain", c.chainClient.NetworkID(), "noLimit", c.noLimit, "from", fromNum, "to", headNum)
}
return nil
}
func (c *findNewBlocksCommand) findAndSaveTokenBlocks(parent context.Context, fromNum, headNum *big.Int) error {
// Check token transfers for all accounts.
// Each account's last checked block can be different, so we can get duplicated headers,
// so we need to deduplicate them
const incomingOnly = false
erc20Headers, err := c.fastIndexErc20(parent, fromNum, headNum, incomingOnly)
if err != nil {
log.Error("findNewBlocksCommand fastIndexErc20", "err", err, "account", c.accounts, "chain", c.chainClient.NetworkID())
return err
}
if len(erc20Headers) > 0 {
log.Debug("findNewBlocksCommand saving headers", "len", len(erc20Headers), "from", fromNum, "to", headNum)
// get not loaded headers from DB for all accs and blocks
preLoadedTransactions, err := c.db.GetTransactionsToLoad(c.chainClient.NetworkID(), common.Address{}, nil)
if err != nil {
return err
}
tokenBlocksFiltered := filterNewPreloadedTransactions(erc20Headers, preLoadedTransactions)
err = c.db.SaveBlocks(c.chainClient.NetworkID(), tokenBlocksFiltered)
if err != nil {
return err
}
c.blocksFound(tokenBlocksFiltered)
}
return c.markTokenBlockRangeChecked(c.accounts, fromNum, headNum)
}
func (c *findBlocksCommand) markTokenBlockRangeChecked(accounts []common.Address, from, to *big.Int) error {
log.Debug("markTokenBlockRangeChecked", "chain", c.chainClient.NetworkID(), "from", from.Uint64(), "to", to.Uint64())
for _, account := range accounts {
err := c.blockRangeDAO.updateTokenRange(c.chainClient.NetworkID(), account, &BlockRange{FirstKnown: from, LastKnown: to})
if err != nil {
log.Error("findNewBlocksCommand upsertTokenRange", "error", err)
return err
}
}
return nil
}
func filterNewPreloadedTransactions(erc20Headers []*DBHeader, preLoadedTransfers []*PreloadedTransaction) []*DBHeader {
var uniqueErc20Headers []*DBHeader
for _, header := range erc20Headers {
loaded := false
for _, transfer := range preLoadedTransfers {
if header.PreloadedTransactions[0].ID == transfer.ID {
loaded = true
break
}
}
if !loaded {
uniqueErc20Headers = append(uniqueErc20Headers, header)
}
}
return uniqueErc20Headers
}
func (c *findNewBlocksCommand) findBlocksWithEthTransfers(parent context.Context, account common.Address, fromOrig, toOrig *big.Int) (headers []*DBHeader, startBlockNum *big.Int, err error) {
log.Debug("start findNewBlocksCommand::findBlocksWithEthTransfers", "account", account, "chain", c.chainClient.NetworkID(), "noLimit", c.noLimit, "from", c.fromBlockNumber, "to", c.toBlockNumber)
rangeSize := big.NewInt(int64(c.defaultNodeBlockChunkSize))
from, to := new(big.Int).Set(fromOrig), new(big.Int).Set(toOrig)
// Limit the range size to DefaultNodeBlockChunkSize
if new(big.Int).Sub(to, from).Cmp(rangeSize) > 0 {
from.Sub(to, rangeSize)
}
for {
if from.Cmp(to) == 0 {
log.Debug("findNewBlocksCommand empty range", "from", from, "to", to)
break
}
fromBlock := &Block{Number: from}
var newFromBlock *Block
var ethHeaders []*DBHeader
newFromBlock, ethHeaders, startBlockNum, err = c.fastIndex(parent, account, c.balanceCacher, fromBlock, to)
if err != nil {
log.Error("findNewBlocksCommand checkRange fastIndex", "err", err, "account", account,
"chain", c.chainClient.NetworkID())
return nil, nil, err
}
log.Debug("findNewBlocksCommand checkRange", "chainID", c.chainClient.NetworkID(), "account", account,
"startBlock", startBlockNum, "newFromBlock", newFromBlock.Number, "toBlockNumber", to, "noLimit", c.noLimit)
headers = append(headers, ethHeaders...)
if startBlockNum != nil && startBlockNum.Cmp(from) >= 0 {
log.Debug("Checked all ranges, stop execution", "startBlock", startBlockNum, "from", from, "to", to)
break
}
nextFrom, nextTo := nextRange(c.defaultNodeBlockChunkSize, newFromBlock.Number, fromOrig)
if nextFrom.Cmp(from) == 0 && nextTo.Cmp(to) == 0 {
log.Debug("findNewBlocksCommand empty next range", "from", from, "to", to)
break
}
from = nextFrom
to = nextTo
}
log.Debug("end findNewBlocksCommand::findBlocksWithEthTransfers", "account", account, "chain", c.chainClient.NetworkID(), "noLimit", c.noLimit)
return headers, startBlockNum, nil
}
// TODO NewFindBlocksCommand
type findBlocksCommand struct {
accounts []common.Address
db *Database
accountsDB *accounts.Database
blockRangeDAO BlockRangeDAOer
chainClient chain.ClientInterface
balanceCacher balance.Cacher
feed *event.Feed
noLimit bool
transactionManager *TransactionManager
tokenManager *token.Manager
fromBlockNumber *big.Int
logsCheckLastKnownBlock *big.Int
toBlockNumber *big.Int
blocksLoadedCh chan<- []*DBHeader
defaultNodeBlockChunkSize int
// Not to be set by the caller
resFromBlock *Block
startBlockNumber *big.Int
reachedETHHistoryStart bool
}
func (c *findBlocksCommand) Runner(interval ...time.Duration) async.Runner {
intvl := findBlocksRetryInterval
if len(interval) > 0 {
intvl = interval[0]
}
return async.FiniteCommandWithErrorCounter{
FiniteCommand: async.FiniteCommand{
Interval: intvl,
Runable: c.Run,
},
ErrorCounter: async.NewErrorCounter(3, "findBlocksCommand"),
}
}
func (c *findBlocksCommand) Command(interval ...time.Duration) async.Command {
return c.Runner(interval...).Run
}
type ERC20BlockRange struct {
from *big.Int
to *big.Int
}
func (c *findBlocksCommand) ERC20ScanByBalance(parent context.Context, account common.Address, fromBlock, toBlock *big.Int, token common.Address) ([]ERC20BlockRange, error) {
var err error
batchSize := getErc20BatchSize(c.chainClient.NetworkID())
ranges := [][]*big.Int{{fromBlock, toBlock}}
foundRanges := []ERC20BlockRange{}
cache := map[int64]*big.Int{}
for {
nextRanges := [][]*big.Int{}
for _, blockRange := range ranges {
from, to := blockRange[0], blockRange[1]
fromBalance, ok := cache[from.Int64()]
if !ok {
fromBalance, err = c.tokenManager.GetTokenBalanceAt(parent, c.chainClient, account, token, from)
if err != nil {
return nil, err
}
if fromBalance == nil {
fromBalance = big.NewInt(0)
}
cache[from.Int64()] = fromBalance
}
toBalance, ok := cache[to.Int64()]
if !ok {
toBalance, err = c.tokenManager.GetTokenBalanceAt(parent, c.chainClient, account, token, to)
if err != nil {
return nil, err
}
if toBalance == nil {
toBalance = big.NewInt(0)
}
cache[to.Int64()] = toBalance
}
if fromBalance.Cmp(toBalance) != 0 {
diff := new(big.Int).Sub(to, from)
if diff.Cmp(batchSize) <= 0 {
foundRanges = append(foundRanges, ERC20BlockRange{from, to})
continue
}
halfOfDiff := new(big.Int).Div(diff, big.NewInt(2))
mid := new(big.Int).Add(from, halfOfDiff)
nextRanges = append(nextRanges, []*big.Int{from, mid})
nextRanges = append(nextRanges, []*big.Int{mid, to})
}
}
if len(nextRanges) == 0 {
break
}
ranges = nextRanges
}
return foundRanges, nil
}
func (c *findBlocksCommand) checkERC20Tail(parent context.Context, account common.Address) ([]*DBHeader, error) {
log.Debug("checkERC20Tail", "account", account, "to block", c.startBlockNumber, "from", c.resFromBlock.Number)
tokens, err := c.tokenManager.GetTokens(c.chainClient.NetworkID())
if err != nil {
return nil, err
}
addresses := make([]common.Address, len(tokens))
for i, token := range tokens {
addresses[i] = token.Address
}
from := new(big.Int).Sub(c.resFromBlock.Number, big.NewInt(1))
clients := make(map[uint64]chain.ClientInterface, 1)
clients[c.chainClient.NetworkID()] = c.chainClient
atBlocks := make(map[uint64]*big.Int, 1)
atBlocks[c.chainClient.NetworkID()] = from
balances, err := c.tokenManager.GetBalancesAtByChain(parent, clients, []common.Address{account}, addresses, atBlocks)
if err != nil {
return nil, err
}
foundRanges := []ERC20BlockRange{}
for token, balance := range balances[c.chainClient.NetworkID()][account] {
bigintBalance := big.NewInt(balance.ToInt().Int64())
if bigintBalance.Cmp(big.NewInt(0)) <= 0 {
continue
}
result, err := c.ERC20ScanByBalance(parent, account, big.NewInt(0), from, token)
if err != nil {
return nil, err
}
foundRanges = append(foundRanges, result...)
}
uniqRanges := []ERC20BlockRange{}
rangesMap := map[string]bool{}
for _, rangeItem := range foundRanges {
key := rangeItem.from.String() + "-" + rangeItem.to.String()
if _, ok := rangesMap[key]; !ok {
rangesMap[key] = true
uniqRanges = append(uniqRanges, rangeItem)
}
}
foundHeaders := []*DBHeader{}
for _, rangeItem := range uniqRanges {
headers, err := c.fastIndexErc20(parent, rangeItem.from, rangeItem.to, true)
if err != nil {
return nil, err
}
foundHeaders = append(foundHeaders, headers...)
}
return foundHeaders, nil
}
func (c *findBlocksCommand) Run(parent context.Context) (err error) {
log.Debug("start findBlocksCommand", "accounts", c.accounts, "chain", c.chainClient.NetworkID(), "noLimit", c.noLimit, "from", c.fromBlockNumber, "to", c.toBlockNumber)
account := c.accounts[0] // For now this command supports only 1 account
mnemonicWasNotShown, err := c.accountsDB.GetMnemonicWasNotShown()
if err != nil {
return err
}
if mnemonicWasNotShown {
account, err := c.accountsDB.GetAccountByAddress(nodetypes.BytesToAddress(account.Bytes()))
if err != nil {
return err
}
if account.AddressWasNotShown {
log.Info("skip findBlocksCommand, mnemonic has not been shown and the address has not been shared yet", "address", account)
return nil
}
}
rangeSize := big.NewInt(int64(c.defaultNodeBlockChunkSize))
from, to := new(big.Int).Set(c.fromBlockNumber), new(big.Int).Set(c.toBlockNumber)
// Limit the range size to DefaultNodeBlockChunkSize
if new(big.Int).Sub(to, from).Cmp(rangeSize) > 0 {
from.Sub(to, rangeSize)
}
for {
if from.Cmp(to) == 0 {
log.Debug("findBlocksCommand empty range", "from", from, "to", to)
break
}
var headers []*DBHeader
if c.reachedETHHistoryStart {
if c.fromBlockNumber.Cmp(zero) == 0 && c.startBlockNumber != nil && c.startBlockNumber.Cmp(zero) == 1 {
headers, err = c.checkERC20Tail(parent, account)
if err != nil {
log.Error("findBlocksCommand checkERC20Tail", "err", err, "account", account, "chain", c.chainClient.NetworkID())
break
}
}
} else {
headers, err = c.checkRange(parent, from, to)
if err != nil {
break
}
}
if len(headers) > 0 {
log.Debug("findBlocksCommand saving headers", "len", len(headers), "lastBlockNumber", to,
"balance", c.balanceCacher.Cache().GetBalance(account, c.chainClient.NetworkID(), to),
"nonce", c.balanceCacher.Cache().GetNonce(account, c.chainClient.NetworkID(), to))
err = c.db.SaveBlocks(c.chainClient.NetworkID(), headers)
if err != nil {
break
}
c.blocksFound(headers)
}
if c.reachedETHHistoryStart {
err = c.markTokenBlockRangeChecked([]common.Address{account}, big.NewInt(0), to)
if err != nil {
break
}
log.Debug("findBlocksCommand reached first ETH transfer and checked erc20 tail", "chain", c.chainClient.NetworkID(), "account", account)
break
}
err = c.markEthBlockRangeChecked(account, &BlockRange{c.startBlockNumber, c.resFromBlock.Number, to})
if err != nil {
break
}
err = c.markTokenBlockRangeChecked([]common.Address{account}, c.resFromBlock.Number, to)
if err != nil {
break
}
// if we have found first ETH block and we have not reached the start of ETH history yet
if c.startBlockNumber != nil && c.fromBlockNumber.Cmp(from) == -1 {
log.Debug("ERC20 tail should be checked", "initial from", c.fromBlockNumber, "actual from", from, "first ETH block", c.startBlockNumber)
c.reachedETHHistoryStart = true
continue
}
if c.startBlockNumber != nil && c.startBlockNumber.Cmp(from) >= 0 {
log.Debug("Checked all ranges, stop execution", "startBlock", c.startBlockNumber, "from", from, "to", to)
break
}
nextFrom, nextTo := nextRange(c.defaultNodeBlockChunkSize, c.resFromBlock.Number, c.fromBlockNumber)
if nextFrom.Cmp(from) == 0 && nextTo.Cmp(to) == 0 {
log.Debug("findBlocksCommand empty next range", "from", from, "to", to)
break
}
from = nextFrom
to = nextTo
}
log.Debug("end findBlocksCommand", "account", account, "chain", c.chainClient.NetworkID(), "noLimit", c.noLimit, "err", err)
return err
}
func (c *findBlocksCommand) blocksFound(headers []*DBHeader) {
c.blocksLoadedCh <- headers
}
func (c *findBlocksCommand) markEthBlockRangeChecked(account common.Address, blockRange *BlockRange) error {
log.Debug("upsert block range", "Start", blockRange.Start, "FirstKnown", blockRange.FirstKnown, "LastKnown", blockRange.LastKnown,
"chain", c.chainClient.NetworkID(), "account", account)
err := c.blockRangeDAO.upsertEthRange(c.chainClient.NetworkID(), account, blockRange)
if err != nil {
log.Error("findBlocksCommand upsertRange", "error", err)
return err
}
return nil
}
func (c *findBlocksCommand) checkRange(parent context.Context, from *big.Int, to *big.Int) (
foundHeaders []*DBHeader, err error) {
account := c.accounts[0]
fromBlock := &Block{Number: from}
newFromBlock, ethHeaders, startBlock, err := c.fastIndex(parent, account, c.balanceCacher, fromBlock, to)
if err != nil {
log.Error("findBlocksCommand checkRange fastIndex", "err", err, "account", account,
"chain", c.chainClient.NetworkID())
return nil, err
}
log.Debug("findBlocksCommand checkRange", "chainID", c.chainClient.NetworkID(), "account", account,
"startBlock", startBlock, "newFromBlock", newFromBlock.Number, "toBlockNumber", to, "noLimit", c.noLimit)
// There could be incoming ERC20 transfers which don't change the balance
// and nonce of ETH account, so we keep looking for them
erc20Headers, err := c.fastIndexErc20(parent, newFromBlock.Number, to, false)
if err != nil {
log.Error("findBlocksCommand checkRange fastIndexErc20", "err", err, "account", account, "chain", c.chainClient.NetworkID())
return nil, err
}
allHeaders := append(ethHeaders, erc20Headers...)
if len(allHeaders) > 0 {
foundHeaders = uniqueHeaderPerBlockHash(allHeaders)
}
c.resFromBlock = newFromBlock
c.startBlockNumber = startBlock
log.Debug("end findBlocksCommand checkRange", "chainID", c.chainClient.NetworkID(), "account", account,
"c.startBlock", c.startBlockNumber, "newFromBlock", newFromBlock.Number,
"toBlockNumber", to, "c.resFromBlock", c.resFromBlock.Number)
return
}
func loadBlockRangeInfo(chainID uint64, account common.Address, blockDAO BlockRangeDAOer) (
*ethTokensBlockRanges, error) {
blockRange, _, err := blockDAO.getBlockRange(chainID, account)
if err != nil {
log.Error("failed to load block ranges from database", "chain", chainID, "account", account,
"error", err)
return nil, err
}
return blockRange, nil
}
// Returns if all blocks are loaded, which means that start block (beginning of account history)
// has been found and all block headers saved to the DB
func areAllHistoryBlocksLoaded(blockInfo *BlockRange) bool {
if blockInfo != nil && blockInfo.FirstKnown != nil &&
((blockInfo.Start != nil && blockInfo.Start.Cmp(blockInfo.FirstKnown) >= 0) ||
blockInfo.FirstKnown.Cmp(zero) == 0) {
return true
}
return false
}
func areAllHistoryBlocksLoadedForAddress(blockRangeDAO BlockRangeDAOer, chainID uint64,
address common.Address) (bool, error) {
blockRange, _, err := blockRangeDAO.getBlockRange(chainID, address)
if err != nil {
log.Error("findBlocksCommand getBlockRange", "error", err)
return false, err
}
return areAllHistoryBlocksLoaded(blockRange.eth) && areAllHistoryBlocksLoaded(blockRange.tokens), nil
}
// run fast indexing for every accont up to canonical chain head minus safety depth.
// every account will run it from last synced header.
func (c *findBlocksCommand) fastIndex(ctx context.Context, account common.Address, bCacher balance.Cacher,
fromBlock *Block, toBlockNumber *big.Int) (resultingFrom *Block, headers []*DBHeader,
startBlock *big.Int, err error) {
log.Debug("fast index started", "chainID", c.chainClient.NetworkID(), "account", account,
"from", fromBlock.Number, "to", toBlockNumber)
start := time.Now()
group := async.NewGroup(ctx)
command := &ethHistoricalCommand{
chainClient: c.chainClient,
balanceCacher: bCacher,
address: account,
feed: c.feed,
from: fromBlock,
to: toBlockNumber,
noLimit: c.noLimit,
threadLimit: SequentialThreadLimit,
}
group.Add(command.Command())
select {
case <-ctx.Done():
err = ctx.Err()
log.Debug("fast indexer ctx Done", "error", err)
return
case <-group.WaitAsync():
if command.error != nil {
err = command.error
return
}
resultingFrom = &Block{Number: command.resultingFrom}
headers = command.foundHeaders
startBlock = command.startBlock
log.Debug("fast indexer finished", "chainID", c.chainClient.NetworkID(), "account", account, "in", time.Since(start),
"startBlock", command.startBlock, "resultingFrom", resultingFrom.Number, "headers", len(headers))
return
}
}
// run fast indexing for every accont up to canonical chain head minus safety depth.
// every account will run it from last synced header.
func (c *findBlocksCommand) fastIndexErc20(ctx context.Context, fromBlockNumber *big.Int,
toBlockNumber *big.Int, incomingOnly bool) ([]*DBHeader, error) {
start := time.Now()
group := async.NewGroup(ctx)
erc20 := &erc20HistoricalCommand{
erc20: NewERC20TransfersDownloader(c.chainClient, c.accounts, types.LatestSignerForChainID(c.chainClient.ToBigInt()), incomingOnly),
chainClient: c.chainClient,
feed: c.feed,
from: fromBlockNumber,
to: toBlockNumber,
foundHeaders: []*DBHeader{},
}
group.Add(erc20.Command())
select {
case <-ctx.Done():
return nil, ctx.Err()
case <-group.WaitAsync():
headers := erc20.foundHeaders
log.Debug("fast indexer Erc20 finished", "chainID", c.chainClient.NetworkID(),
"in", time.Since(start), "headers", len(headers))
return headers, nil
}
}
// Start transfers loop to load transfers for new blocks
func (c *loadBlocksAndTransfersCommand) startTransfersLoop(ctx context.Context) {
c.incLoops()
go func() {
defer func() {
c.decLoops()
}()
log.Debug("loadTransfersLoop start", "chain", c.chainClient.NetworkID())
for {
select {
case <-ctx.Done():
log.Debug("startTransfersLoop done", "chain", c.chainClient.NetworkID(), "error", ctx.Err())
return
case dbHeaders := <-c.blocksLoadedCh:
log.Debug("loadTransfersOnDemand transfers received", "chain", c.chainClient.NetworkID(), "headers", len(dbHeaders))
blocksByAddress := map[common.Address][]*big.Int{}
// iterate over headers and group them by address
for _, dbHeader := range dbHeaders {
blocksByAddress[dbHeader.Address] = append(blocksByAddress[dbHeader.Address], dbHeader.Number)
}
go func() {
_ = loadTransfers(ctx, c.blockDAO, c.db, c.chainClient, noBlockLimit,
blocksByAddress, c.transactionManager, c.pendingTxManager, c.tokenManager, c.feed)
}()
}
}
}()
}
func newLoadBlocksAndTransfersCommand(accounts []common.Address, db *Database, accountsDB *accounts.Database,
blockDAO *BlockDAO, blockRangesSeqDAO BlockRangeDAOer, chainClient chain.ClientInterface, feed *event.Feed,
transactionManager *TransactionManager, pendingTxManager *transactions.PendingTxTracker,
tokenManager *token.Manager, balanceCacher balance.Cacher, omitHistory bool,
blockChainState *blockchainstate.BlockChainState) *loadBlocksAndTransfersCommand {
return &loadBlocksAndTransfersCommand{
accounts: accounts,
db: db,
blockRangeDAO: blockRangesSeqDAO,
accountsDB: accountsDB,
blockDAO: blockDAO,
chainClient: chainClient,
feed: feed,
balanceCacher: balanceCacher,
transactionManager: transactionManager,
pendingTxManager: pendingTxManager,
tokenManager: tokenManager,
blocksLoadedCh: make(chan []*DBHeader, 100),
omitHistory: omitHistory,
contractMaker: tokenManager.ContractMaker,
blockChainState: blockChainState,
}
}
type loadBlocksAndTransfersCommand struct {
accounts []common.Address
db *Database
accountsDB *accounts.Database
blockRangeDAO BlockRangeDAOer
blockDAO *BlockDAO
chainClient chain.ClientInterface
feed *event.Feed
balanceCacher balance.Cacher
// nonArchivalRPCNode bool // TODO Make use of it
transactionManager *TransactionManager
pendingTxManager *transactions.PendingTxTracker
tokenManager *token.Manager
blocksLoadedCh chan []*DBHeader
omitHistory bool
contractMaker *contracts.ContractMaker
blockChainState *blockchainstate.BlockChainState
// Not to be set by the caller
transfersLoaded map[common.Address]bool // For event RecentHistoryReady to be sent only once per account during app lifetime
loops atomic.Int32
// onExit func(ctx context.Context, err error)
}
func (c *loadBlocksAndTransfersCommand) incLoops() {
c.loops.Add(1)
}
func (c *loadBlocksAndTransfersCommand) decLoops() {
c.loops.Add(-1)
}
func (c *loadBlocksAndTransfersCommand) isStarted() bool {
return c.loops.Load() > 0
}
func (c *loadBlocksAndTransfersCommand) Run(parent context.Context) (err error) {
log.Debug("start load all transfers command", "chain", c.chainClient.NetworkID(), "accounts", c.accounts)
// Finite processes (to be restarted on error, but stopped on success or context cancel):
// fetching transfers for loaded blocks
// fetching history blocks
// Infinite processes (to be restarted on error), but stopped on context cancel:
// fetching new blocks
// fetching transfers for new blocks
ctx := parent
finiteGroup := async.NewAtomicGroup(ctx)
finiteGroup.SetName("finiteGroup")
defer func() {
finiteGroup.Stop()
finiteGroup.Wait()
}()
fromNum := big.NewInt(0)
headNum, err := getHeadBlockNumber(ctx, c.chainClient)
if err != nil {
return err
}
// It will start loadTransfersCommand which will run until all transfers from DB are loaded or any one failed to load
err = c.startFetchingTransfersForLoadedBlocks(finiteGroup)
if err != nil {
log.Error("loadBlocksAndTransfersCommand fetchTransfersForLoadedBlocks", "error", err)
return err
}
if !c.isStarted() {
c.startTransfersLoop(ctx)
c.startFetchingNewBlocks(ctx, c.accounts, headNum, c.blocksLoadedCh)
}
// It will start findBlocksCommands which will run until success when all blocks are loaded
err = c.fetchHistoryBlocks(finiteGroup, c.accounts, fromNum, headNum, c.blocksLoadedCh)
if err != nil {
log.Error("loadBlocksAndTransfersCommand fetchHistoryBlocks", "error", err)
return err
}
select {
case <-ctx.Done():
log.Debug("loadBlocksAndTransfers command cancelled", "chain", c.chainClient.NetworkID(), "accounts", c.accounts, "error", ctx.Err())
case <-finiteGroup.WaitAsync():
err = finiteGroup.Error() // if there was an error, rerun the command
log.Debug("end loadBlocksAndTransfers command", "chain", c.chainClient.NetworkID(), "accounts", c.accounts, "error", err, "group", finiteGroup.Name())
}
return err
}
func (c *loadBlocksAndTransfersCommand) Runner(interval ...time.Duration) async.Runner {
// 30s - default interval for Infura's delay returned in error. That should increase chances
// for request to succeed with the next attempt for now until we have a proper retry mechanism
intvl := 30 * time.Second
if len(interval) > 0 {
intvl = interval[0]
}
return async.FiniteCommand{
Interval: intvl,
Runable: c.Run,
}
}
func (c *loadBlocksAndTransfersCommand) Command(interval ...time.Duration) async.Command {
return c.Runner(interval...).Run
}
func (c *loadBlocksAndTransfersCommand) fetchHistoryBlocks(group *async.AtomicGroup, accounts []common.Address, fromNum, toNum *big.Int, blocksLoadedCh chan []*DBHeader) (err error) {
for _, account := range accounts {
err = c.fetchHistoryBlocksForAccount(group, account, fromNum, toNum, c.blocksLoadedCh)
if err != nil {
return err
}
}
return nil
}
func (c *loadBlocksAndTransfersCommand) fetchHistoryBlocksForAccount(group *async.AtomicGroup, account common.Address, fromNum, toNum *big.Int, blocksLoadedCh chan []*DBHeader) error {
log.Debug("fetchHistoryBlocks start", "chainID", c.chainClient.NetworkID(), "account", account, "omit", c.omitHistory)
if c.omitHistory {
blockRange := &ethTokensBlockRanges{eth: &BlockRange{nil, big.NewInt(0), toNum}, tokens: &BlockRange{nil, big.NewInt(0), toNum}}
err := c.blockRangeDAO.upsertRange(c.chainClient.NetworkID(), account, blockRange)
log.Error("fetchHistoryBlocks upsertRange", "error", err)
return err
}
blockRange, err := loadBlockRangeInfo(c.chainClient.NetworkID(), account, c.blockRangeDAO)
if err != nil {
log.Error("fetchHistoryBlocks loadBlockRangeInfo", "error", err)
return err
}
ranges := [][]*big.Int{}
// There are 2 history intervals:
// 1) from 0 to FirstKnown
// 2) from LastKnown to `toNum`` (head)
// If we blockRange is nil, we need to load all blocks from `fromNum` to `toNum`
// As current implementation checks ETH first then tokens, tokens ranges maybe behind ETH ranges in
// cases when block searching was interrupted, so we use tokens ranges
if blockRange.tokens.LastKnown != nil || blockRange.tokens.FirstKnown != nil {
if blockRange.tokens.LastKnown != nil && toNum.Cmp(blockRange.tokens.LastKnown) > 0 {
ranges = append(ranges, []*big.Int{blockRange.tokens.LastKnown, toNum})
}
if blockRange.tokens.FirstKnown != nil {
if fromNum.Cmp(blockRange.tokens.FirstKnown) < 0 {
ranges = append(ranges, []*big.Int{fromNum, blockRange.tokens.FirstKnown})
} else {
if !c.transfersLoaded[account] {
transfersLoaded, err := c.areAllTransfersLoaded(account)
if err != nil {
return err
}
if transfersLoaded {
if c.transfersLoaded == nil {
c.transfersLoaded = make(map[common.Address]bool)
}
c.transfersLoaded[account] = true
c.notifyHistoryReady(account)
}
}
}
}
} else {
ranges = append(ranges, []*big.Int{fromNum, toNum})
}
for _, rangeItem := range ranges {
log.Debug("range item", "r", rangeItem, "n", c.chainClient.NetworkID(), "a", account)
fbc := &findBlocksCommand{
accounts: []common.Address{account},
db: c.db,
accountsDB: c.accountsDB,
blockRangeDAO: c.blockRangeDAO,
chainClient: c.chainClient,
balanceCacher: c.balanceCacher,
feed: c.feed,
noLimit: false,
fromBlockNumber: rangeItem[0],
toBlockNumber: rangeItem[1],
transactionManager: c.transactionManager,
tokenManager: c.tokenManager,
blocksLoadedCh: blocksLoadedCh,
defaultNodeBlockChunkSize: DefaultNodeBlockChunkSize,
}
group.Add(fbc.Command())
}
return nil
}
func (c *loadBlocksAndTransfersCommand) startFetchingNewBlocks(ctx context.Context, addresses []common.Address, fromNum *big.Int, blocksLoadedCh chan<- []*DBHeader) {
log.Debug("startFetchingNewBlocks start", "chainID", c.chainClient.NetworkID(), "accounts", addresses)
c.incLoops()
go func() {
defer func() {
c.decLoops()
}()
newBlocksCmd := &findNewBlocksCommand{
findBlocksCommand: &findBlocksCommand{
accounts: addresses,
db: c.db,
accountsDB: c.accountsDB,
blockRangeDAO: c.blockRangeDAO,
chainClient: c.chainClient,
balanceCacher: c.balanceCacher,
feed: c.feed,
noLimit: false,
fromBlockNumber: fromNum,
transactionManager: c.transactionManager,
tokenManager: c.tokenManager,
blocksLoadedCh: blocksLoadedCh,
defaultNodeBlockChunkSize: DefaultNodeBlockChunkSize,
},
contractMaker: c.contractMaker,
blockChainState: c.blockChainState,
nonceCheckIntervalIterations: nonceCheckIntervalIterations,
logsCheckIntervalIterations: logsCheckIntervalIterations,
}
group := async.NewGroup(ctx)
group.Add(newBlocksCmd.Command())
// No need to wait for the group since it is infinite
<-ctx.Done()
log.Debug("startFetchingNewBlocks end", "chainID", c.chainClient.NetworkID(), "accounts", addresses, "error", ctx.Err())
}()
}
func (c *loadBlocksAndTransfersCommand) getBlocksToLoad() (map[common.Address][]*big.Int, error) {
blocksMap := make(map[common.Address][]*big.Int)
for _, account := range c.accounts {
blocks, err := c.blockDAO.GetBlocksToLoadByAddress(c.chainClient.NetworkID(), account, numberOfBlocksCheckedPerIteration)
if err != nil {
log.Error("loadBlocksAndTransfersCommand GetBlocksToLoadByAddress", "error", err)
return nil, err
}
if len(blocks) == 0 {
log.Debug("fetchTransfers no blocks to load", "chainID", c.chainClient.NetworkID(), "account", account)
continue
}
blocksMap[account] = blocks
}
if len(blocksMap) == 0 {
log.Debug("fetchTransfers no blocks to load", "chainID", c.chainClient.NetworkID())
}
return blocksMap, nil
}
func (c *loadBlocksAndTransfersCommand) startFetchingTransfersForLoadedBlocks(group *async.AtomicGroup) error {
log.Debug("fetchTransfers start", "chainID", c.chainClient.NetworkID(), "accounts", c.accounts)
blocksMap, err := c.getBlocksToLoad()
if err != nil {
return err
}
go func() {
txCommand := &loadTransfersCommand{
accounts: c.accounts,
db: c.db,
blockDAO: c.blockDAO,
chainClient: c.chainClient,
transactionManager: c.transactionManager,
pendingTxManager: c.pendingTxManager,
tokenManager: c.tokenManager,
blocksByAddress: blocksMap,
feed: c.feed,
}
group.Add(txCommand.Command())
log.Debug("fetchTransfers end", "chainID", c.chainClient.NetworkID(), "accounts", c.accounts)
}()
return nil
}
func (c *loadBlocksAndTransfersCommand) notifyHistoryReady(account common.Address) {
if c.feed != nil {
c.feed.Send(walletevent.Event{
Type: EventRecentHistoryReady,
Accounts: []common.Address{account},
ChainID: c.chainClient.NetworkID(),
})
}
}
func (c *loadBlocksAndTransfersCommand) areAllTransfersLoaded(account common.Address) (bool, error) {
allBlocksLoaded, err := areAllHistoryBlocksLoadedForAddress(c.blockRangeDAO, c.chainClient.NetworkID(), account)
if err != nil {
log.Error("loadBlockAndTransfersCommand allHistoryBlocksLoaded", "error", err)
return false, err
}
if allBlocksLoaded {
headers, err := c.blockDAO.GetBlocksToLoadByAddress(c.chainClient.NetworkID(), account, 1)
if err != nil {
log.Error("loadBlocksAndTransfersCommand GetFirstSavedBlock", "error", err)
return false, err
}
if len(headers) == 0 {
return true, nil
}
}
return false, nil
}
// TODO - make it a common method for every service that wants head block number, that will cache the latest block
// and updates it on timeout
func getHeadBlockNumber(parent context.Context, chainClient chain.ClientInterface) (*big.Int, error) {
ctx, cancel := context.WithTimeout(parent, 3*time.Second)
head, err := chainClient.HeaderByNumber(ctx, nil)
cancel()
if err != nil {
log.Error("getHeadBlockNumber", "error", err)
return nil, err
}
return head.Number, err
}
func nextRange(maxRangeSize int, prevFrom, zeroBlockNumber *big.Int) (*big.Int, *big.Int) {
log.Debug("next range start", "from", prevFrom, "zeroBlockNumber", zeroBlockNumber)
rangeSize := big.NewInt(int64(maxRangeSize))
to := big.NewInt(0).Set(prevFrom)
from := big.NewInt(0).Sub(to, rangeSize)
if from.Cmp(zeroBlockNumber) < 0 {
from = new(big.Int).Set(zeroBlockNumber)
}
log.Debug("next range end", "from", from, "to", to, "zeroBlockNumber", zeroBlockNumber)
return from, to
}