package transfer import ( "context" "math/big" "sort" "sync" "time" "github.com/pkg/errors" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/log" "github.com/status-im/status-go/services/wallet/async" "github.com/status-im/status-go/services/wallet/balance" ) const ( NoThreadLimit uint32 = 0 SequentialThreadLimit uint32 = 10 ) // NewConcurrentDownloader creates ConcurrentDownloader instance. func NewConcurrentDownloader(ctx context.Context, limit uint32) *ConcurrentDownloader { runner := async.NewQueuedAtomicGroup(ctx, limit) result := &Result{} return &ConcurrentDownloader{runner, result} } type ConcurrentDownloader struct { *async.QueuedAtomicGroup *Result } type Result struct { mu sync.Mutex transfers []Transfer headers []*DBHeader blockRanges [][]*big.Int } var errDownloaderStuck = errors.New("eth downloader is stuck") func (r *Result) Push(transfers ...Transfer) { r.mu.Lock() defer r.mu.Unlock() r.transfers = append(r.transfers, transfers...) } func (r *Result) Get() []Transfer { r.mu.Lock() defer r.mu.Unlock() rst := make([]Transfer, len(r.transfers)) copy(rst, r.transfers) return rst } func (r *Result) PushHeader(block *DBHeader) { r.mu.Lock() defer r.mu.Unlock() r.headers = append(r.headers, block) } func (r *Result) GetHeaders() []*DBHeader { r.mu.Lock() defer r.mu.Unlock() rst := make([]*DBHeader, len(r.headers)) copy(rst, r.headers) return rst } func (r *Result) PushRange(blockRange []*big.Int) { r.mu.Lock() defer r.mu.Unlock() r.blockRanges = append(r.blockRanges, blockRange) } func (r *Result) GetRanges() [][]*big.Int { r.mu.Lock() defer r.mu.Unlock() rst := make([][]*big.Int, len(r.blockRanges)) copy(rst, r.blockRanges) r.blockRanges = [][]*big.Int{} return rst } // Downloader downloads transfers from single block using number. type Downloader interface { GetTransfersByNumber(context.Context, *big.Int) ([]Transfer, error) } // Returns new block ranges that contain transfers and found block headers that contain transfers, and a block where // beginning of trasfers history detected func checkRangesWithStartBlock(parent context.Context, client balance.Reader, cache balance.Cacher, account common.Address, ranges [][]*big.Int, threadLimit uint32, startBlock *big.Int) ( resRanges [][]*big.Int, headers []*DBHeader, newStartBlock *big.Int, err error) { log.Debug("start checkRanges", "account", account.Hex(), "ranges len", len(ranges), "startBlock", startBlock) ctx, cancel := context.WithTimeout(parent, 30*time.Second) defer cancel() c := NewConcurrentDownloader(ctx, threadLimit) newStartBlock = startBlock for _, blocksRange := range ranges { from := blocksRange[0] to := blocksRange[1] log.Debug("check block range", "from", from, "to", to) if startBlock != nil { if to.Cmp(newStartBlock) <= 0 { log.Debug("'to' block is less than 'start' block", "to", to, "startBlock", startBlock) continue } } c.Add(func(ctx context.Context) error { if from.Cmp(to) >= 0 { log.Debug("'from' block is greater than or equal to 'to' block", "from", from, "to", to) return nil } log.Debug("eth transfers comparing blocks", "from", from, "to", to) if startBlock != nil { if to.Cmp(startBlock) <= 0 { log.Debug("'to' block is less than 'start' block", "to", to, "startBlock", startBlock) return nil } } lb, err := cache.BalanceAt(ctx, client, account, from) if err != nil { return err } hb, err := cache.BalanceAt(ctx, client, account, to) if err != nil { return err } if lb.Cmp(hb) == 0 { log.Debug("balances are equal", "from", from, "to", to, "lb", lb, "hb", hb) hn, err := cache.NonceAt(ctx, client, account, to) if err != nil { return err } // if nonce is zero in a newer block then there is no need to check an older one if *hn == 0 { log.Debug("zero nonce", "to", to) if hb.Cmp(big.NewInt(0)) == 0 { // balance is 0, nonce is 0, we stop checking further, that will be the start block (even though the real one can be a later one) if startBlock != nil { if to.Cmp(newStartBlock) > 0 { log.Debug("found possible start block, we should not search back", "block", to) newStartBlock = to // increase newStartBlock if we found a new higher block } } else { newStartBlock = to } } return nil } ln, err := cache.NonceAt(ctx, client, account, from) if err != nil { return err } if *ln == *hn { log.Debug("transaction count is also equal", "from", from, "to", to, "ln", *ln, "hn", *hn) return nil } } if new(big.Int).Sub(to, from).Cmp(one) == 0 { header, err := client.HeaderByNumber(ctx, to) if err != nil { return err } c.PushHeader(toDBHeader(header, account)) return nil } mid := new(big.Int).Add(from, to) mid = mid.Div(mid, two) _, err = cache.BalanceAt(ctx, client, account, mid) if err != nil { return err } log.Debug("balances are not equal", "from", from, "mid", mid, "to", to) c.PushRange([]*big.Int{mid, to}) c.PushRange([]*big.Int{from, mid}) return nil }) } select { case <-c.WaitAsync(): case <-ctx.Done(): return nil, nil, nil, errDownloaderStuck } if c.Error() != nil { return nil, nil, nil, errors.Wrap(c.Error(), "failed to dowload transfers using concurrent downloader") } log.Debug("end checkRanges", "account", account.Hex(), "newStartBlock", newStartBlock) return c.GetRanges(), c.GetHeaders(), newStartBlock, nil } func findBlocksWithEthTransfers(parent context.Context, client balance.Reader, cache balance.Cacher, account common.Address, low, high *big.Int, noLimit bool, threadLimit uint32) ( from *big.Int, headers []*DBHeader, resStartBlock *big.Int, err error) { ranges := [][]*big.Int{{low, high}} from = big.NewInt(low.Int64()) headers = []*DBHeader{} var lvl = 1 for len(ranges) > 0 && lvl <= 30 { log.Debug("check blocks ranges", "lvl", lvl, "ranges len", len(ranges)) lvl++ // Check if there are transfers in blocks in ranges. To do that, nonce and balance is checked // the block ranges that have transfers are returned newRanges, newHeaders, strtBlock, err := checkRangesWithStartBlock(parent, client, cache, account, ranges, threadLimit, resStartBlock) resStartBlock = strtBlock if err != nil { return nil, nil, nil, err } headers = append(headers, newHeaders...) if len(newRanges) > 0 { log.Debug("found new ranges", "account", account, "lvl", lvl, "new ranges len", len(newRanges)) } if len(newRanges) > 60 && !noLimit { sort.SliceStable(newRanges, func(i, j int) bool { return newRanges[i][0].Cmp(newRanges[j][0]) == 1 }) newRanges = newRanges[:60] from = newRanges[len(newRanges)-1][0] } ranges = newRanges } return }