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

package transfer

import (
	"context"
	"database/sql"
	"math/big"
	"strings"
	"time"

	"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/rpc/chain"
	"github.com/status-im/status-go/services/wallet/async"
	"github.com/status-im/status-go/services/wallet/token"
	"github.com/status-im/status-go/services/wallet/walletevent"
)

const (
	// EventNewTransfers emitted when new block was added to the same canonical chan.
	EventNewTransfers walletevent.EventType = "new-transfers"
	// EventFetchingRecentHistory emitted when fetching of lastest tx history is started
	EventFetchingRecentHistory walletevent.EventType = "recent-history-fetching"
	// EventRecentHistoryReady emitted when fetching of lastest tx history is started
	EventRecentHistoryReady walletevent.EventType = "recent-history-ready"
	// EventFetchingHistoryError emitted when fetching of tx history failed
	EventFetchingHistoryError walletevent.EventType = "fetching-history-error"
	// EventNonArchivalNodeDetected emitted when a connection to a non archival node is detected
	EventNonArchivalNodeDetected walletevent.EventType = "non-archival-node-detected"

	numberOfBlocksCheckedPerIteration = 40
	noBlockLimit                      = 0
)

var (
	// This will work only for binance testnet as mainnet doesn't support
	// archival request.
	binanceChainMaxInitialRange  = big.NewInt(500000)
	binanceChainErc20BatchSize   = big.NewInt(5000)
	goerliErc20BatchSize         = big.NewInt(100000)
	goerliErc20ArbitrumBatchSize = big.NewInt(100000)
	erc20BatchSize               = big.NewInt(500000)
	binancChainID                = uint64(56)
	goerliChainID                = uint64(5)
	goerliArbitrumChainID        = uint64(421613)
	binanceTestChainID           = uint64(97)
)

type ethHistoricalCommand struct {
	address      common.Address
	chainClient  *chain.ClientWithFallback
	balanceCache *balanceCache
	feed         *event.Feed
	foundHeaders []*DBHeader
	error        error
	noLimit      bool

	from                          *Block
	to, resultingFrom, startBlock *big.Int
	threadLimit                   uint32
}

func (c *ethHistoricalCommand) Command() async.Command {
	return async.FiniteCommand{
		Interval: 5 * time.Second,
		Runable:  c.Run,
	}.Run
}

func (c *ethHistoricalCommand) Run(ctx context.Context) (err error) {
	log.Info("eth historical downloader start", "chainID", c.chainClient.ChainID, "address", c.address,
		"from", c.from.Number, "to", c.to, "noLimit", c.noLimit)

	start := time.Now()
	if c.from.Number != nil && c.from.Balance != nil {
		c.balanceCache.addBalanceToCache(c.address, c.from.Number, c.from.Balance)
	}
	if c.from.Number != nil && c.from.Nonce != nil {
		c.balanceCache.addNonceToCache(c.address, c.from.Number, c.from.Nonce)
	}
	from, headers, startBlock, err := findBlocksWithEthTransfers(ctx, c.chainClient,
		c.balanceCache, c.address, c.from.Number, c.to, c.noLimit, c.threadLimit)

	if err != nil {
		c.error = err
		log.Error("failed to find blocks with transfers", "error", err, "chainID", c.chainClient.ChainID,
			"address", c.address, "from", c.from.Number, "to", c.to)
		return nil
	}

	c.foundHeaders = headers
	c.resultingFrom = from
	c.startBlock = startBlock

	log.Info("eth historical downloader finished successfully", "chain", c.chainClient.ChainID,
		"address", c.address, "from", from, "to", c.to, "total blocks", len(headers), "time", time.Since(start))

	return nil
}

type erc20HistoricalCommand struct {
	erc20       BatchDownloader
	address     common.Address
	chainClient *chain.ClientWithFallback
	feed        *event.Feed

	iterator     *IterativeDownloader
	to           *big.Int
	from         *big.Int
	foundHeaders []*DBHeader
}

func (c *erc20HistoricalCommand) Command() async.Command {
	return async.FiniteCommand{
		Interval: 5 * time.Second,
		Runable:  c.Run,
	}.Run
}

func getErc20BatchSize(chainID uint64) *big.Int {
	if isBinanceChain(chainID) {
		return binanceChainErc20BatchSize
	}

	if chainID == goerliChainID {
		return goerliErc20BatchSize
	}

	if chainID == goerliArbitrumChainID {
		return goerliErc20ArbitrumBatchSize
	}

	return erc20BatchSize
}

func (c *erc20HistoricalCommand) Run(ctx context.Context) (err error) {
	log.Info("wallet historical downloader for erc20 transfers start", "address", c.address,
		"from", c.from, "to", c.to)

	start := time.Now()
	if c.iterator == nil {
		c.iterator, err = SetupIterativeDownloader(
			c.chainClient, c.address,
			c.erc20, getErc20BatchSize(c.chainClient.ChainID), c.to, c.from)
		if err != nil {
			log.Error("failed to setup historical downloader for erc20")
			return err
		}
	}
	for !c.iterator.Finished() {
		headers, _, _, err := c.iterator.Next(ctx)
		if err != nil {
			log.Error("failed to get next batch", "error", err)
			return err
		}
		c.foundHeaders = append(c.foundHeaders, headers...)
	}
	log.Info("wallet historical downloader for erc20 transfers finished", "address", c.address,
		"from", c.from, "to", c.to, "time", time.Since(start))
	return nil
}

// controlCommand implements following procedure (following parts are executed sequeantially):
// - verifies that the last header that was synced is still in the canonical chain
// - runs fast indexing for each account separately
// - starts listening to new blocks and watches for reorgs
type controlCommand struct {
	accounts           []common.Address
	db                 *Database
	blockDAO           *BlockDAO
	eth                *ETHDownloader
	erc20              *ERC20TransfersDownloader
	chainClient        *chain.ClientWithFallback
	feed               *event.Feed
	errorsCount        int
	nonArchivalRPCNode bool
	transactionManager *TransactionManager
	tokenManager       *token.Manager
}

func (c *controlCommand) LoadTransfers(ctx context.Context, limit int) (map[common.Address][]Transfer, error) {
	return loadTransfers(ctx, c.accounts, c.blockDAO, c.db, c.chainClient, limit, make(map[common.Address][]*big.Int), c.transactionManager, c.tokenManager)
}

func (c *controlCommand) Run(parent context.Context) error {
	log.Info("start control command")
	ctx, cancel := context.WithTimeout(parent, 3*time.Second)
	head, err := c.chainClient.HeaderByNumber(ctx, nil)
	cancel()
	if err != nil {
		if c.NewError(err) {
			return nil
		}
		return err
	}

	if c.feed != nil {
		c.feed.Send(walletevent.Event{
			Type:     EventFetchingRecentHistory,
			Accounts: c.accounts,
		})
	}

	log.Info("current head is", "block number", head.Number)

	// Get last known block for each account
	lastKnownEthBlocks, accountsWithoutHistory, err := c.blockDAO.GetLastKnownBlockByAddresses(c.chainClient.ChainID, c.accounts)
	if err != nil {
		log.Error("failed to load last head from database", "error", err)
		if c.NewError(err) {
			return nil
		}
		return err
	}

	// For accounts without history, find the block where 20 < headNonce - nonce < 25 (blocks have between 20-25 transactions)
	fromMap := map[common.Address]*big.Int{}

	if !c.nonArchivalRPCNode {
		fromMap, err = findFirstRanges(parent, accountsWithoutHistory, head.Number, c.chainClient)
		if err != nil {
			if c.NewError(err) {
				return nil
			}
			return err
		}
	}

	// Set "fromByAddress" from the information we have
	target := head.Number
	fromByAddress := map[common.Address]*Block{}
	toByAddress := map[common.Address]*big.Int{}

	for _, address := range c.accounts {
		from, ok := lastKnownEthBlocks[address]
		if !ok {
			from = &Block{Number: fromMap[address]}
		}
		if c.nonArchivalRPCNode {
			from = &Block{Number: big.NewInt(0).Sub(target, big.NewInt(100))}
		}

		fromByAddress[address] = from
		toByAddress[address] = target
	}

	bCache := newBalanceCache()
	cmnd := &findAndCheckBlockRangeCommand{
		accounts:      c.accounts,
		db:            c.db,
		blockDAO:      c.blockDAO,
		chainClient:   c.chainClient,
		balanceCache:  bCache,
		feed:          c.feed,
		fromByAddress: fromByAddress,
		toByAddress:   toByAddress,
	}

	err = cmnd.Command()(parent)
	if err != nil {
		if c.NewError(err) {
			return nil
		}
		return err
	}

	if cmnd.error != nil {
		if c.NewError(cmnd.error) {
			return nil
		}
		return cmnd.error
	}

	_, err = c.LoadTransfers(parent, numberOfBlocksCheckedPerIteration)
	if err != nil {
		if c.NewError(err) {
			return nil
		}
		return err
	}

	if c.feed != nil {
		events := map[common.Address]walletevent.Event{}
		for _, address := range c.accounts {
			event := walletevent.Event{
				Type:     EventNewTransfers,
				Accounts: []common.Address{address},
			}
			for _, header := range cmnd.foundHeaders[address] {
				if event.BlockNumber == nil || header.Number.Cmp(event.BlockNumber) == 1 {
					event.BlockNumber = header.Number
				}
			}
			if event.BlockNumber != nil {
				events[address] = event
			}
		}

		for _, event := range events {
			c.feed.Send(event)
		}

		c.feed.Send(walletevent.Event{
			Type:        EventRecentHistoryReady,
			Accounts:    c.accounts,
			BlockNumber: target,
		})
	}

	log.Info("end control command")
	return err
}

func nonArchivalNodeError(err error) bool {
	return strings.Contains(err.Error(), "missing trie node") ||
		strings.Contains(err.Error(), "project ID does not have access to archive state")
}

func (c *controlCommand) NewError(err error) bool {
	c.errorsCount++
	log.Error("controlCommand error", "error", err, "counter", c.errorsCount)
	if nonArchivalNodeError(err) {
		log.Info("Non archival node detected")
		c.nonArchivalRPCNode = true
		c.feed.Send(walletevent.Event{
			Type: EventNonArchivalNodeDetected,
		})
	}
	if c.errorsCount >= 3 {
		c.feed.Send(walletevent.Event{
			Type:    EventFetchingHistoryError,
			Message: err.Error(),
		})
		return true
	}
	return false
}

func (c *controlCommand) Command() async.Command {
	return async.FiniteCommand{
		Interval: 5 * time.Second,
		Runable:  c.Run,
	}.Run
}

type transfersCommand struct {
	db                 *Database
	blockDAO           *BlockDAO
	eth                *ETHDownloader
	blockNums          []*big.Int
	address            common.Address
	chainClient        *chain.ClientWithFallback
	blocksLimit        int
	transactionManager *TransactionManager
	tokenManager       *token.Manager

	// result
	fetchedTransfers []Transfer
}

func (c *transfersCommand) Command() async.Command {
	return async.FiniteCommand{
		Interval: 5 * time.Second,
		Runable:  c.Run,
	}.Run
}

func (c *transfersCommand) Run(ctx context.Context) (err error) {
	// Take blocks from cache if available and disrespect the limit
	// If no blocks are available in cache, take blocks from DB respecting the limit
	// If no limit is set, take all blocks from DB
	for {
		blocks := c.blockNums
		if blocks == nil {
			blocks, _ = c.blockDAO.GetBlocksToLoadByAddress(c.chainClient.ChainID, c.address, numberOfBlocksCheckedPerIteration)
		}

		for _, blockNum := range blocks {
			log.Info("start transfersCommand", "chain", c.chainClient.ChainID, "address", c.address, "block", blockNum)

			startTs := time.Now()

			allTransfers, err := c.eth.GetTransfersByNumber(ctx, blockNum)
			if err != nil {
				log.Error("getTransfersByBlocks error", "error", err)
				return err
			}

			err = c.processMultiTransactions(ctx, allTransfers)
			if err != nil {
				return err
			}

			if len(allTransfers) > 0 {
				err = c.db.SaveTransfersMarkBlocksLoaded(c.chainClient.ChainID, c.address, allTransfers, []*big.Int{blockNum})
				if err != nil {
					log.Error("SaveTransfers error", "error", err)
					return err
				}
			} else {
				// If no transfers found, that is suspecting, because downloader returned this block as containing transfers
				log.Error("no transfers found in block", "chain", c.chainClient.ChainID, "address", c.address, "block", blockNum)

				err = markBlocksAsLoaded(c.chainClient.ChainID, c.db.client, c.address, []*big.Int{blockNum})
				if err != nil {
					log.Error("Mark blocks loaded error", "error", err)
					return err
				}
			}

			c.fetchedTransfers = append(c.fetchedTransfers, allTransfers...)

			log.Debug("end transfersCommand", "chain", c.chainClient.ChainID, "address", c.address,
				"block", blockNum, "len", len(allTransfers), "in", time.Since(startTs))
		}

		if c.blockNums != nil || len(blocks) == 0 ||
			(c.blocksLimit > noBlockLimit && len(blocks) >= c.blocksLimit) {
			log.Debug("loadTransfers breaking loop on block limits reached or 0 blocks", "chain", c.chainClient.ChainID,
				"address", c.address, "limit", c.blocksLimit, "blocks", len(blocks))
			break
		}
	}

	return nil
}

func (c *transfersCommand) checkAndProcessPendingMultiTx(subTx *Transfer) (MultiTransactionIDType, error) {
	// Update MultiTransactionID from pending entry
	entry, err := c.transactionManager.GetPendingEntry(c.chainClient.ChainID, subTx.ID)
	if err == nil {
		// Propagate the MultiTransactionID, in case the pending entry was a multi-transaction
		return entry.MultiTransactionID, nil
	} else if err != sql.ErrNoRows {
		log.Error("GetPendingEntry error", "error", err)
		return NoMultiTransactionID, err
	}

	return NoMultiTransactionID, nil
}

func (c *transfersCommand) checkAndProcessSwapMultiTx(ctx context.Context, subTx *Transfer) (MultiTransactionIDType, error) {
	switch subTx.Type {
	// If the Tx contains any uniswapV2Swap/uniswapV3Swap subTx, generate a Swap multiTx
	case uniswapV2Swap, uniswapV3Swap:
		multiTransaction, err := buildUniswapSwapMultitransaction(ctx, c.chainClient, c.tokenManager, subTx)
		if err != nil {
			return NoMultiTransactionID, err
		}

		if multiTransaction != nil {
			id, err := c.transactionManager.InsertMultiTransaction(multiTransaction)
			if err != nil {
				return NoMultiTransactionID, err
			}
			return id, nil
		}
	}

	return NoMultiTransactionID, nil
}

func (c *transfersCommand) processMultiTransactions(ctx context.Context, allTransfers []Transfer) error {
	subTxsByTxHash := subTransactionsByTxHash(allTransfers)

	// Detect / Generate multitransactions
	// Iterate over all detected transactions
	for _, subTxs := range subTxsByTxHash {
		multiTxID := NoMultiTransactionID
		var err error
		// Iterate over transaction's subtransactions
		for _, subTx := range subTxs {
			if subTx.MultiTransactionID == NoMultiTransactionID {
				// First check every subTX for pending transaction
				multiTxID, err = c.checkAndProcessPendingMultiTx(subTx)
				if err != nil {
					return err
				}
				if multiTxID != NoMultiTransactionID {
					break
				}

				// Then check for a Swap transaction
				multiTxID, err = c.checkAndProcessSwapMultiTx(ctx, subTx)
				if err != nil {
					return err
				}
				if multiTxID != NoMultiTransactionID {
					break
				}
			}
		}

		// Mark all subTxs of a given Tx with the same multiTxID
		if multiTxID != NoMultiTransactionID {
			for _, subTx := range subTxs {
				subTx.MultiTransactionID = multiTxID
			}
		}
	}

	return nil
}

type loadTransfersCommand struct {
	accounts                []common.Address
	db                      *Database
	blockDAO                *BlockDAO
	chainClient             *chain.ClientWithFallback
	blocksByAddress         map[common.Address][]*big.Int
	foundTransfersByAddress map[common.Address][]Transfer
	transactionManager      *TransactionManager
	blocksLimit             int
	tokenManager            *token.Manager
}

func (c *loadTransfersCommand) Command() async.Command {
	return async.FiniteCommand{
		Interval: 5 * time.Second,
		Runable:  c.Run,
	}.Run
}

func (c *loadTransfersCommand) LoadTransfers(ctx context.Context, limit int, blocksByAddress map[common.Address][]*big.Int) (map[common.Address][]Transfer, error) {
	return loadTransfers(ctx, c.accounts, c.blockDAO, c.db, c.chainClient, limit, blocksByAddress, c.transactionManager, c.tokenManager)
}

func (c *loadTransfersCommand) Run(parent context.Context) (err error) {
	transfersByAddress, err := c.LoadTransfers(parent, c.blocksLimit, c.blocksByAddress)
	if err != nil {
		return err
	}
	c.foundTransfersByAddress = transfersByAddress

	return
}

type findAndCheckBlockRangeCommand struct {
	accounts      []common.Address
	db            *Database
	blockDAO      *BlockDAO
	chainClient   *chain.ClientWithFallback
	balanceCache  *balanceCache
	feed          *event.Feed
	fromByAddress map[common.Address]*Block
	toByAddress   map[common.Address]*big.Int
	foundHeaders  map[common.Address][]*DBHeader
	noLimit       bool
	error         error
}

func (c *findAndCheckBlockRangeCommand) Command() async.Command {
	return async.FiniteCommand{
		Interval: 5 * time.Second,
		Runable:  c.Run,
	}.Run
}

func (c *findAndCheckBlockRangeCommand) Run(parent context.Context) error {
	log.Debug("start findAndCHeckBlockRangeCommand")

	newFromByAddress, ethHeadersByAddress, err := c.fastIndex(parent, c.balanceCache, c.fromByAddress, c.toByAddress)
	if err != nil {
		c.error = err
		// return err // In case c.noLimit is true, hystrix "max concurrency" may be reached and we will not be able to index ETH transfers. But if we return error, we will get stuck in inifinite loop.
		return nil
	}
	if c.noLimit {
		newFromByAddress = map[common.Address]*big.Int{}
		for _, address := range c.accounts {
			newFromByAddress[address] = c.fromByAddress[address].Number
		}
	}
	erc20HeadersByAddress, err := c.fastIndexErc20(parent, newFromByAddress, c.toByAddress)
	if err != nil {
		return err
	}

	foundHeaders := map[common.Address][]*DBHeader{}
	for _, address := range c.accounts {
		ethHeaders := ethHeadersByAddress[address]
		erc20Headers := erc20HeadersByAddress[address]
		allHeaders := append(ethHeaders, erc20Headers...)

		// Ensure only 1 DBHeader per block hash.
		uniqHeaders := []*DBHeader{}
		if len(allHeaders) > 0 {
			uniqHeaders = uniqueHeaderPerBlockHash(allHeaders)
		}

		// Ensure only 1 PreloadedTransaction per transaction hash during block discovery.
		// Full list of SubTransactions will be obtained from the receipt logs
		// at a later stage.
		for _, header := range uniqHeaders {
			header.PreloadedTransactions = uniquePreloadedTransactionPerTxHash(header.PreloadedTransactions)
		}

		foundHeaders[address] = uniqHeaders

		lastBlockNumber := c.toByAddress[address]
		log.Debug("saving headers", "len", len(uniqHeaders), "lastBlockNumber", lastBlockNumber,
			"balance", c.balanceCache.ReadCachedBalance(address, lastBlockNumber), "nonce", c.balanceCache.ReadCachedNonce(address, lastBlockNumber))

		to := &Block{
			Number:  lastBlockNumber,
			Balance: c.balanceCache.ReadCachedBalance(address, lastBlockNumber),
			Nonce:   c.balanceCache.ReadCachedNonce(address, lastBlockNumber),
		}
		err = c.db.ProcessBlocks(c.chainClient.ChainID, address, newFromByAddress[address], to, uniqHeaders)
		if err != nil {
			return err
		}
	}

	c.foundHeaders = foundHeaders

	log.Debug("end findAndCheckBlockRangeCommand")
	return 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 *findAndCheckBlockRangeCommand) fastIndex(ctx context.Context, bCache *balanceCache,
	fromByAddress map[common.Address]*Block, toByAddress map[common.Address]*big.Int) (map[common.Address]*big.Int,
	map[common.Address][]*DBHeader, error) {

	log.Info("fast indexer started")

	start := time.Now()
	group := async.NewGroup(ctx)

	commands := make([]*ethHistoricalCommand, len(c.accounts))
	for i, address := range c.accounts {
		eth := &ethHistoricalCommand{
			chainClient:  c.chainClient,
			balanceCache: bCache,
			address:      address,
			feed:         c.feed,
			from:         fromByAddress[address],
			to:           toByAddress[address],
			noLimit:      c.noLimit,
			threadLimit:  NoThreadLimit,
		}
		commands[i] = eth
		group.Add(eth.Command())
	}
	select {
	case <-ctx.Done():
		return nil, nil, ctx.Err()
	case <-group.WaitAsync():
		resultingFromByAddress := map[common.Address]*big.Int{}
		headers := map[common.Address][]*DBHeader{}
		for _, command := range commands {
			if command.error != nil {
				return nil, nil, command.error
			}
			resultingFromByAddress[command.address] = command.resultingFrom
			headers[command.address] = command.foundHeaders
		}
		log.Info("fast indexer finished", "in", time.Since(start))
		return resultingFromByAddress, headers, 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 *findAndCheckBlockRangeCommand) fastIndexErc20(ctx context.Context, fromByAddress map[common.Address]*big.Int, toByAddress map[common.Address]*big.Int) (map[common.Address][]*DBHeader, error) {
	log.Info("fast indexer Erc20 started")

	start := time.Now()
	group := async.NewGroup(ctx)

	commands := make([]*erc20HistoricalCommand, len(c.accounts))
	for i, address := range c.accounts {
		erc20 := &erc20HistoricalCommand{
			erc20:        NewERC20TransfersDownloader(c.chainClient, []common.Address{address}, types.NewLondonSigner(c.chainClient.ToBigInt())),
			chainClient:  c.chainClient,
			feed:         c.feed,
			address:      address,
			from:         fromByAddress[address],
			to:           toByAddress[address],
			foundHeaders: []*DBHeader{},
		}
		commands[i] = erc20
		group.Add(erc20.Command())
	}
	select {
	case <-ctx.Done():
		return nil, ctx.Err()
	case <-group.WaitAsync():
		headers := map[common.Address][]*DBHeader{}
		for _, command := range commands {
			headers[command.address] = command.foundHeaders
		}
		log.Info("fast indexer Erc20 finished", "in", time.Since(start))
		return headers, nil
	}
}

func loadTransfers(ctx context.Context, accounts []common.Address, blockDAO *BlockDAO, db *Database,
	chainClient *chain.ClientWithFallback, blocksLimitPerAccount int, blocksByAddress map[common.Address][]*big.Int,
	transactionManager *TransactionManager, tokenManager *token.Manager) (map[common.Address][]Transfer, error) {
	log.Info("loadTransfers start", "accounts", accounts, "chain", chainClient.ChainID, "limit", blocksLimitPerAccount)

	start := time.Now()
	group := async.NewGroup(ctx)

	commands := []*transfersCommand{}
	for _, address := range accounts {
		transfers := &transfersCommand{
			db:          db,
			blockDAO:    blockDAO,
			chainClient: chainClient,
			address:     address,
			eth: &ETHDownloader{
				chainClient: chainClient,
				accounts:    []common.Address{address},
				signer:      types.NewLondonSigner(chainClient.ToBigInt()),
				db:          db,
			},
			blockNums:          blocksByAddress[address],
			transactionManager: transactionManager,
			tokenManager:       tokenManager,
		}
		commands = append(commands, transfers)
		group.Add(transfers.Command())
	}

	select {
	case <-ctx.Done():
		return nil, ctx.Err()
	case <-group.WaitAsync():
		transfersByAddress := map[common.Address][]Transfer{}
		for _, command := range commands {
			if len(command.fetchedTransfers) == 0 {
				continue
			}

			transfersByAddress[command.address] = append(transfersByAddress[command.address], command.fetchedTransfers...)
		}
		log.Info("loadTransfers finished for account", "in", time.Since(start), "chain", chainClient.ChainID)
		return transfersByAddress, nil
	}
}

func isBinanceChain(chainID uint64) bool {
	return chainID == binancChainID || chainID == binanceTestChainID
}

func getLowestFrom(chainID uint64, to *big.Int) *big.Int {
	from := big.NewInt(0)
	if isBinanceChain(chainID) && big.NewInt(0).Sub(to, from).Cmp(binanceChainMaxInitialRange) == 1 {
		from = big.NewInt(0).Sub(to, binanceChainMaxInitialRange)
	}

	return from
}

// Finds the latest range up to initialTo where the number of transactions is between 20 and 25
func findFirstRange(c context.Context, account common.Address, initialTo *big.Int, client *chain.ClientWithFallback) (*big.Int, error) {
	log.Info("findFirstRange", "account", account, "initialTo", initialTo, "client", client)

	from := getLowestFrom(client.ChainID, initialTo)
	to := initialTo
	goal := uint64(20)

	if from.Cmp(to) == 0 {
		return to, nil
	}

	firstNonce, err := client.NonceAt(c, account, to) // this is the latest nonce actually
	log.Info("find range with 20 <= len(tx) <= 25", "account", account, "firstNonce", firstNonce, "from", from, "to", to)

	if err != nil {
		return nil, err
	}

	if firstNonce <= goal {
		return from, nil
	}

	nonceDiff := firstNonce
	iterations := 0
	for iterations < 50 {
		iterations = iterations + 1

		if nonceDiff > goal {
			// from = (from + to) / 2
			from = from.Add(from, to)
			from = from.Div(from, big.NewInt(2))
		} else {
			// from = from - (to - from) / 2
			// to = from
			diff := big.NewInt(0).Sub(to, from)
			diff.Div(diff, big.NewInt(2))
			to = big.NewInt(from.Int64())
			from.Sub(from, diff)
		}
		fromNonce, err := client.NonceAt(c, account, from)
		if err != nil {
			return nil, err
		}
		nonceDiff = firstNonce - fromNonce

		log.Info("next nonce", "from", from, "n", fromNonce, "diff", firstNonce-fromNonce)

		if goal <= nonceDiff && nonceDiff <= (goal+5) {
			log.Info("range found", "account", account, "from", from, "to", to)
			return from, nil
		}
	}

	log.Info("range found", "account", account, "from", from, "to", to)

	return from, nil
}

// Finds the latest ranges up to initialTo where the number of transactions is between 20 and 25
func findFirstRanges(c context.Context, accounts []common.Address, initialTo *big.Int, client *chain.ClientWithFallback) (map[common.Address]*big.Int, error) {
	res := map[common.Address]*big.Int{}

	for _, address := range accounts {
		from, err := findFirstRange(c, address, initialTo, client)
		if err != nil {
			return nil, err
		}

		res[address] = from
	}

	return res, nil
}

// Ensure 1 DBHeader per Block Hash
func uniqueHeaderPerBlockHash(allHeaders []*DBHeader) []*DBHeader {
	uniqHeadersByHash := map[common.Hash]*DBHeader{}
	for _, header := range allHeaders {
		uniqHeader, ok := uniqHeadersByHash[header.Hash]
		if ok {
			if len(header.PreloadedTransactions) > 0 {
				uniqHeader.PreloadedTransactions = append(uniqHeader.PreloadedTransactions, header.PreloadedTransactions...)
			}
			uniqHeadersByHash[header.Hash] = uniqHeader
		} else {
			uniqHeadersByHash[header.Hash] = header
		}
	}

	uniqHeaders := []*DBHeader{}
	for _, header := range uniqHeadersByHash {
		uniqHeaders = append(uniqHeaders, header)
	}

	return uniqHeaders
}

// Ensure 1 PreloadedTransaction per Transaction Hash
func uniquePreloadedTransactionPerTxHash(allTransactions []*PreloadedTransaction) []*PreloadedTransaction {
	uniqTransactionsByTransactionHash := map[common.Hash]*PreloadedTransaction{}
	for _, transaction := range allTransactions {
		uniqTransactionsByTransactionHash[transaction.Log.TxHash] = transaction
	}
	uniqTransactions := []*PreloadedTransaction{}
	for _, transaction := range uniqTransactionsByTransactionHash {
		uniqTransactions = append(uniqTransactions, transaction)
	}

	return uniqTransactions
}

// Organize subTransactions by Transaction Hash
func subTransactionsByTxHash(subTransactions []Transfer) map[common.Hash][]*Transfer {
	rst := map[common.Hash][]*Transfer{}

	for index := range subTransactions {
		subTx := &subTransactions[index]
		txHash := subTx.Transaction.Hash()

		if _, ok := rst[txHash]; !ok {
			rst[txHash] = make([]*Transfer, 0)
		}
		rst[txHash] = append(rst[txHash], subTx)
	}

	return rst
}