mirror of
https://gitlab.com/pulsechaincom/prysm-pulse.git
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9145310647
* get rid of v2 in prysm codebase * replace block2 * builds * terence comments * gazelle
370 lines
12 KiB
Go
370 lines
12 KiB
Go
package initialsync
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import (
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"context"
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"fmt"
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"sync"
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"time"
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"github.com/kevinms/leakybucket-go"
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"github.com/libp2p/go-libp2p-core/peer"
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"github.com/pkg/errors"
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types "github.com/prysmaticlabs/eth2-types"
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"github.com/prysmaticlabs/prysm/beacon-chain/db"
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"github.com/prysmaticlabs/prysm/beacon-chain/p2p"
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p2pTypes "github.com/prysmaticlabs/prysm/beacon-chain/p2p/types"
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prysmsync "github.com/prysmaticlabs/prysm/beacon-chain/sync"
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"github.com/prysmaticlabs/prysm/cmd/beacon-chain/flags"
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p2ppb "github.com/prysmaticlabs/prysm/proto/prysm/v1alpha1"
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"github.com/prysmaticlabs/prysm/proto/prysm/v1alpha1/block"
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"github.com/prysmaticlabs/prysm/shared/params"
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"github.com/prysmaticlabs/prysm/shared/rand"
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"github.com/sirupsen/logrus"
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"go.opencensus.io/trace"
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)
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const (
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// maxPendingRequests limits how many concurrent fetch request one can initiate.
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maxPendingRequests = 64
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// peersPercentagePerRequest caps percentage of peers to be used in a request.
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peersPercentagePerRequest = 0.75
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// handshakePollingInterval is a polling interval for checking the number of received handshakes.
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handshakePollingInterval = 5 * time.Second
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// peerLocksPollingInterval is a polling interval for checking if there are stale peer locks.
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peerLocksPollingInterval = 5 * time.Minute
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// peerLockMaxAge is maximum time before stale lock is purged.
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peerLockMaxAge = 60 * time.Minute
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// nonSkippedSlotsFullSearchEpochs how many epochs to check in full, before resorting to random
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// sampling of slots once per epoch
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nonSkippedSlotsFullSearchEpochs = 10
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// peerFilterCapacityWeight defines how peer's capacity affects peer's score. Provided as
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// percentage, i.e. 0.3 means capacity will determine 30% of peer's score.
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peerFilterCapacityWeight = 0.2
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// backtrackingMaxHops how many hops (during search for common ancestor in backtracking) to do
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// before giving up.
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backtrackingMaxHops = 128
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)
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var (
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errNoPeersAvailable = errors.New("no peers available, waiting for reconnect")
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errFetcherCtxIsDone = errors.New("fetcher's context is done, reinitialize")
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errSlotIsTooHigh = errors.New("slot is higher than the finalized slot")
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errBlockAlreadyProcessed = errors.New("block is already processed")
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errParentDoesNotExist = errors.New("beacon node doesn't have a parent in db with root")
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errNoPeersWithAltBlocks = errors.New("no peers with alternative blocks found")
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)
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// blocksFetcherConfig is a config to setup the block fetcher.
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type blocksFetcherConfig struct {
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chain blockchainService
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p2p p2p.P2P
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db db.ReadOnlyDatabase
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peerFilterCapacityWeight float64
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mode syncMode
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}
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// blocksFetcher is a service to fetch chain data from peers.
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// On an incoming requests, requested block range is evenly divided
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// among available peers (for fair network load distribution).
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type blocksFetcher struct {
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sync.Mutex
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ctx context.Context
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cancel context.CancelFunc
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rand *rand.Rand
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chain blockchainService
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p2p p2p.P2P
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db db.ReadOnlyDatabase
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blocksPerSecond uint64
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rateLimiter *leakybucket.Collector
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peerLocks map[peer.ID]*peerLock
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fetchRequests chan *fetchRequestParams
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fetchResponses chan *fetchRequestResponse
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capacityWeight float64 // how remaining capacity affects peer selection
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mode syncMode // allows to use fetcher in different sync scenarios
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quit chan struct{} // termination notifier
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}
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// peerLock restricts fetcher actions on per peer basis. Currently, used for rate limiting.
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type peerLock struct {
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sync.Mutex
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accessed time.Time
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}
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// fetchRequestParams holds parameters necessary to schedule a fetch request.
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type fetchRequestParams struct {
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ctx context.Context // if provided, it is used instead of global fetcher's context
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start types.Slot // starting slot
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count uint64 // how many slots to receive (fetcher may return fewer slots)
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}
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// fetchRequestResponse is a combined type to hold results of both successful executions and errors.
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// Valid usage pattern will be to check whether result's `err` is nil, before using `blocks`.
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type fetchRequestResponse struct {
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pid peer.ID
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start types.Slot
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count uint64
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blocks []block.SignedBeaconBlock
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err error
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}
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// newBlocksFetcher creates ready to use fetcher.
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func newBlocksFetcher(ctx context.Context, cfg *blocksFetcherConfig) *blocksFetcher {
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blocksPerSecond := flags.Get().BlockBatchLimit
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allowedBlocksBurst := flags.Get().BlockBatchLimitBurstFactor * flags.Get().BlockBatchLimit
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// Allow fetcher to go almost to the full burst capacity (less a single batch).
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rateLimiter := leakybucket.NewCollector(
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float64(blocksPerSecond), int64(allowedBlocksBurst-blocksPerSecond),
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false /* deleteEmptyBuckets */)
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capacityWeight := cfg.peerFilterCapacityWeight
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if capacityWeight >= 1 {
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capacityWeight = peerFilterCapacityWeight
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}
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ctx, cancel := context.WithCancel(ctx)
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return &blocksFetcher{
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ctx: ctx,
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cancel: cancel,
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rand: rand.NewGenerator(),
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chain: cfg.chain,
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p2p: cfg.p2p,
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db: cfg.db,
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blocksPerSecond: uint64(blocksPerSecond),
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rateLimiter: rateLimiter,
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peerLocks: make(map[peer.ID]*peerLock),
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fetchRequests: make(chan *fetchRequestParams, maxPendingRequests),
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fetchResponses: make(chan *fetchRequestResponse, maxPendingRequests),
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capacityWeight: capacityWeight,
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mode: cfg.mode,
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quit: make(chan struct{}),
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}
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}
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// start boots up the fetcher, which starts listening for incoming fetch requests.
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func (f *blocksFetcher) start() error {
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select {
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case <-f.ctx.Done():
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return errFetcherCtxIsDone
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default:
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go f.loop()
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return nil
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}
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}
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// stop terminates all fetcher operations.
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func (f *blocksFetcher) stop() {
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defer func() {
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if f.rateLimiter != nil {
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f.rateLimiter.Free()
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f.rateLimiter = nil
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}
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}()
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f.cancel()
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<-f.quit // make sure that loop() is done
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}
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// requestResponses exposes a channel into which fetcher pushes generated request responses.
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func (f *blocksFetcher) requestResponses() <-chan *fetchRequestResponse {
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return f.fetchResponses
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}
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// loop is a main fetcher loop, listens for incoming requests/cancellations, forwards outgoing responses.
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func (f *blocksFetcher) loop() {
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defer close(f.quit)
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// Wait for all loop's goroutines to finish, and safely release resources.
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wg := &sync.WaitGroup{}
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defer func() {
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wg.Wait()
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close(f.fetchResponses)
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}()
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// Periodically remove stale peer locks.
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go func() {
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ticker := time.NewTicker(peerLocksPollingInterval)
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defer ticker.Stop()
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for {
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select {
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case <-ticker.C:
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f.removeStalePeerLocks(peerLockMaxAge)
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case <-f.ctx.Done():
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return
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}
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}
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}()
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// Main loop.
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for {
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// Make sure there is are available peers before processing requests.
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if _, err := f.waitForMinimumPeers(f.ctx); err != nil {
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log.Error(err)
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}
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select {
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case <-f.ctx.Done():
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log.Debug("Context closed, exiting goroutine (blocks fetcher)")
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return
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case req := <-f.fetchRequests:
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wg.Add(1)
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go func() {
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defer wg.Done()
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select {
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case <-f.ctx.Done():
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case f.fetchResponses <- f.handleRequest(req.ctx, req.start, req.count):
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}
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}()
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}
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}
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}
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// scheduleRequest adds request to incoming queue.
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func (f *blocksFetcher) scheduleRequest(ctx context.Context, start types.Slot, count uint64) error {
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if ctx.Err() != nil {
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return ctx.Err()
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}
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request := &fetchRequestParams{
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ctx: ctx,
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start: start,
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count: count,
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}
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select {
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case <-f.ctx.Done():
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return errFetcherCtxIsDone
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case f.fetchRequests <- request:
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}
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return nil
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}
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// handleRequest parses fetch request and forwards it to response builder.
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func (f *blocksFetcher) handleRequest(ctx context.Context, start types.Slot, count uint64) *fetchRequestResponse {
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ctx, span := trace.StartSpan(ctx, "initialsync.handleRequest")
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defer span.End()
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response := &fetchRequestResponse{
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start: start,
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count: count,
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blocks: []block.SignedBeaconBlock{},
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err: nil,
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}
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if ctx.Err() != nil {
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response.err = ctx.Err()
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return response
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}
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_, targetEpoch, peers := f.calculateHeadAndTargetEpochs()
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if len(peers) == 0 {
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response.err = errNoPeersAvailable
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return response
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}
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// Short circuit start far exceeding the highest finalized epoch in some infinite loop.
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if f.mode == modeStopOnFinalizedEpoch {
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highestFinalizedSlot := params.BeaconConfig().SlotsPerEpoch.Mul(uint64(targetEpoch + 1))
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if start > highestFinalizedSlot {
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response.err = fmt.Errorf("%w, slot: %d, highest finalized slot: %d",
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errSlotIsTooHigh, start, highestFinalizedSlot)
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return response
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}
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}
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response.blocks, response.pid, response.err = f.fetchBlocksFromPeer(ctx, start, count, peers)
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return response
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}
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// fetchBlocksFromPeer fetches blocks from a single randomly selected peer.
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func (f *blocksFetcher) fetchBlocksFromPeer(
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ctx context.Context,
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start types.Slot, count uint64,
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peers []peer.ID,
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) ([]block.SignedBeaconBlock, peer.ID, error) {
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ctx, span := trace.StartSpan(ctx, "initialsync.fetchBlocksFromPeer")
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defer span.End()
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peers = f.filterPeers(ctx, peers, peersPercentagePerRequest)
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req := &p2ppb.BeaconBlocksByRangeRequest{
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StartSlot: start,
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Count: count,
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Step: 1,
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}
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for i := 0; i < len(peers); i++ {
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if blocks, err := f.requestBlocks(ctx, req, peers[i]); err == nil {
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f.p2p.Peers().Scorers().BlockProviderScorer().Touch(peers[i])
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return blocks, peers[i], err
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}
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}
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return nil, "", errNoPeersAvailable
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}
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// requestBlocks is a wrapper for handling BeaconBlocksByRangeRequest requests/streams.
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func (f *blocksFetcher) requestBlocks(
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ctx context.Context,
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req *p2ppb.BeaconBlocksByRangeRequest,
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pid peer.ID,
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) ([]block.SignedBeaconBlock, error) {
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if ctx.Err() != nil {
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return nil, ctx.Err()
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}
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l := f.peerLock(pid)
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l.Lock()
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log.WithFields(logrus.Fields{
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"peer": pid,
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"start": req.StartSlot,
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"count": req.Count,
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"step": req.Step,
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"capacity": f.rateLimiter.Remaining(pid.String()),
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"score": f.p2p.Peers().Scorers().BlockProviderScorer().FormatScorePretty(pid),
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}).Debug("Requesting blocks")
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if f.rateLimiter.Remaining(pid.String()) < int64(req.Count) {
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if err := f.waitForBandwidth(pid); err != nil {
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return nil, err
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}
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}
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f.rateLimiter.Add(pid.String(), int64(req.Count))
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l.Unlock()
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return prysmsync.SendBeaconBlocksByRangeRequest(ctx, f.chain, f.p2p, pid, req, nil)
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}
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// requestBlocksByRoot is a wrapper for handling BeaconBlockByRootsReq requests/streams.
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func (f *blocksFetcher) requestBlocksByRoot(
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ctx context.Context,
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req *p2pTypes.BeaconBlockByRootsReq,
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pid peer.ID,
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) ([]block.SignedBeaconBlock, error) {
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if ctx.Err() != nil {
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return nil, ctx.Err()
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}
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l := f.peerLock(pid)
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l.Lock()
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log.WithFields(logrus.Fields{
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"peer": pid,
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"numRoots": len(*req),
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"capacity": f.rateLimiter.Remaining(pid.String()),
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"score": f.p2p.Peers().Scorers().BlockProviderScorer().FormatScorePretty(pid),
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}).Debug("Requesting blocks (by roots)")
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if f.rateLimiter.Remaining(pid.String()) < int64(len(*req)) {
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if err := f.waitForBandwidth(pid); err != nil {
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return nil, err
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}
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}
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f.rateLimiter.Add(pid.String(), int64(len(*req)))
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l.Unlock()
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return prysmsync.SendBeaconBlocksByRootRequest(ctx, f.chain, f.p2p, pid, req, nil)
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}
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// waitForBandwidth blocks up until peer's bandwidth is restored.
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func (f *blocksFetcher) waitForBandwidth(pid peer.ID) error {
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log.WithField("peer", pid).Debug("Slowing down for rate limit")
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timer := time.NewTimer(f.rateLimiter.TillEmpty(pid.String()))
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defer timer.Stop()
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select {
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case <-f.ctx.Done():
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return errFetcherCtxIsDone
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case <-timer.C:
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// Peer has gathered enough capacity to be polled again.
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}
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return nil
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}
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