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dht.go
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dht.go
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package fullrt
import (
"bytes"
"context"
"fmt"
"math/rand"
"sync"
"sync/atomic"
"time"
"github.com/multiformats/go-base32"
"github.com/multiformats/go-multiaddr"
"github.com/multiformats/go-multihash"
"github.com/libp2p/go-libp2p-core/host"
"github.com/libp2p/go-libp2p-core/network"
"github.com/libp2p/go-libp2p-core/peer"
"github.com/libp2p/go-libp2p-core/peerstore"
"github.com/libp2p/go-libp2p-core/protocol"
"github.com/libp2p/go-libp2p-core/routing"
"github.com/gogo/protobuf/proto"
"github.com/ipfs/go-cid"
ds "github.com/ipfs/go-datastore"
dssync "github.com/ipfs/go-datastore/sync"
u "github.com/ipfs/go-ipfs-util"
logging "github.com/ipfs/go-log"
kaddht "github.com/libp2p/go-libp2p-kad-dht"
"github.com/libp2p/go-libp2p-kad-dht/crawler"
"github.com/libp2p/go-libp2p-kad-dht/internal"
internalConfig "github.com/libp2p/go-libp2p-kad-dht/internal/config"
"github.com/libp2p/go-libp2p-kad-dht/internal/net"
dht_pb "github.com/libp2p/go-libp2p-kad-dht/pb"
"github.com/libp2p/go-libp2p-kad-dht/providers"
kb "github.com/libp2p/go-libp2p-kbucket"
record "github.com/libp2p/go-libp2p-record"
recpb "github.com/libp2p/go-libp2p-record/pb"
"github.com/libp2p/go-libp2p-xor/kademlia"
kadkey "github.com/libp2p/go-libp2p-xor/key"
"github.com/libp2p/go-libp2p-xor/trie"
"go.opentelemetry.io/otel"
"go.opentelemetry.io/otel/attribute"
"go.opentelemetry.io/otel/trace"
)
var Tracer = otel.Tracer("")
var logger = logging.Logger("fullrtdht")
// FullRT is an experimental DHT client that is under development. Expect breaking changes to occur in this client
// until it stabilizes.
type FullRT struct {
ctx context.Context
cancel context.CancelFunc
wg sync.WaitGroup
enableValues, enableProviders bool
Validator record.Validator
ProviderManager *providers.ProviderManager
datastore ds.Datastore
h host.Host
crawlerInterval time.Duration
lastCrawlTime time.Time
crawler *crawler.Crawler
protoMessenger *dht_pb.ProtocolMessenger
messageSender dht_pb.MessageSender
filterFromTable kaddht.QueryFilterFunc
rtLk sync.RWMutex
rt *trie.Trie
kMapLk sync.RWMutex
keyToPeerMap map[string]peer.ID
peerAddrsLk sync.RWMutex
peerAddrs map[peer.ID][]multiaddr.Multiaddr
bootstrapPeers []*peer.AddrInfo
bucketSize int
triggerRefresh chan struct{}
waitFrac float64
timeoutPerOp time.Duration
bulkSendParallelism int
}
// NewFullRT creates a DHT client that tracks the full network. It takes a protocol prefix for the given network,
// For example, the protocol /ipfs/kad/1.0.0 has the prefix /ipfs.
//
// FullRT is an experimental DHT client that is under development. Expect breaking changes to occur in this client
// until it stabilizes.
//
// Not all of the standard DHT options are supported in this DHT.
func NewFullRT(h host.Host, protocolPrefix protocol.ID, options ...Option) (*FullRT, error) {
var fullrtcfg config
if err := fullrtcfg.apply(options...); err != nil {
return nil, err
}
dhtcfg := &internalConfig.Config{
Datastore: dssync.MutexWrap(ds.NewMapDatastore()),
Validator: record.NamespacedValidator{},
ValidatorChanged: false,
EnableProviders: true,
EnableValues: true,
ProtocolPrefix: protocolPrefix,
}
if err := dhtcfg.Apply(fullrtcfg.dhtOpts...); err != nil {
return nil, err
}
if err := dhtcfg.ApplyFallbacks(h); err != nil {
return nil, err
}
if err := dhtcfg.Validate(); err != nil {
return nil, err
}
ms := net.NewMessageSenderImpl(h, []protocol.ID{dhtcfg.ProtocolPrefix + "/kad/1.0.0"})
protoMessenger, err := dht_pb.NewProtocolMessenger(ms)
if err != nil {
return nil, err
}
c, err := crawler.New(h, crawler.WithParallelism(200))
if err != nil {
return nil, err
}
ctx, cancel := context.WithCancel(context.Background())
pm, err := providers.NewProviderManager(ctx, h.ID(), h.Peerstore(), dhtcfg.Datastore)
if err != nil {
cancel()
return nil, err
}
var bsPeers []*peer.AddrInfo
for _, ai := range dhtcfg.BootstrapPeers() {
tmpai := ai
bsPeers = append(bsPeers, &tmpai)
}
rt := &FullRT{
ctx: ctx,
cancel: cancel,
enableValues: dhtcfg.EnableValues,
enableProviders: dhtcfg.EnableProviders,
Validator: dhtcfg.Validator,
ProviderManager: pm,
datastore: dhtcfg.Datastore,
h: h,
crawler: c,
messageSender: ms,
protoMessenger: protoMessenger,
filterFromTable: kaddht.PublicQueryFilter,
rt: trie.New(),
keyToPeerMap: make(map[string]peer.ID),
bucketSize: dhtcfg.BucketSize,
peerAddrs: make(map[peer.ID][]multiaddr.Multiaddr),
bootstrapPeers: bsPeers,
triggerRefresh: make(chan struct{}),
waitFrac: 0.3,
timeoutPerOp: 5 * time.Second,
crawlerInterval: time.Minute * 60,
bulkSendParallelism: 20,
}
rt.wg.Add(1)
go rt.runCrawler(ctx)
return rt, nil
}
type crawlVal struct {
addrs []multiaddr.Multiaddr
key kadkey.Key
}
func (dht *FullRT) TriggerRefresh(ctx context.Context) error {
select {
case <-ctx.Done():
return ctx.Err()
case dht.triggerRefresh <- struct{}{}:
return nil
case <-dht.ctx.Done():
return fmt.Errorf("dht is closed")
}
}
func (dht *FullRT) Stat() map[string]peer.ID {
newMap := make(map[string]peer.ID)
dht.kMapLk.RLock()
for k, v := range dht.keyToPeerMap {
newMap[k] = v
}
dht.kMapLk.RUnlock()
return newMap
}
func (dht *FullRT) Ready() bool {
dht.rtLk.RLock()
lastCrawlTime := dht.lastCrawlTime
dht.rtLk.RUnlock()
if time.Since(lastCrawlTime) > dht.crawlerInterval {
return false
}
// TODO: This function needs to be better defined. Perhaps based on going through the peer map and seeing when the
// last time we were connected to any of them was.
dht.peerAddrsLk.RLock()
rtSize := len(dht.keyToPeerMap)
dht.peerAddrsLk.RUnlock()
return rtSize > len(dht.bootstrapPeers)+1
}
func (dht *FullRT) Host() host.Host {
return dht.h
}
func (dht *FullRT) runCrawler(ctx context.Context) {
defer dht.wg.Done()
t := time.NewTicker(dht.crawlerInterval)
m := make(map[peer.ID]*crawlVal)
mxLk := sync.Mutex{}
initialTrigger := make(chan struct{}, 1)
initialTrigger <- struct{}{}
for {
select {
case <-t.C:
case <-initialTrigger:
case <-dht.triggerRefresh:
case <-ctx.Done():
return
}
var addrs []*peer.AddrInfo
dht.peerAddrsLk.Lock()
for k := range m {
addrs = append(addrs, &peer.AddrInfo{ID: k}) // Addrs: v.addrs
}
addrs = append(addrs, dht.bootstrapPeers...)
dht.peerAddrsLk.Unlock()
for k := range m {
delete(m, k)
}
start := time.Now()
dht.crawler.Run(ctx, addrs,
func(p peer.ID, rtPeers []*peer.AddrInfo) {
conns := dht.h.Network().ConnsToPeer(p)
var addrs []multiaddr.Multiaddr
for _, conn := range conns {
addr := conn.RemoteMultiaddr()
addrs = append(addrs, addr)
}
if len(addrs) == 0 {
logger.Debugf("no connections to %v after successful query. keeping addresses from the peerstore", p)
addrs = dht.h.Peerstore().Addrs(p)
}
keep := kaddht.PublicRoutingTableFilter(dht, p)
if !keep {
return
}
mxLk.Lock()
defer mxLk.Unlock()
m[p] = &crawlVal{
addrs: addrs,
}
},
func(p peer.ID, err error) {})
dur := time.Since(start)
logger.Infof("crawl took %v", dur)
peerAddrs := make(map[peer.ID][]multiaddr.Multiaddr)
kPeerMap := make(map[string]peer.ID)
newRt := trie.New()
for k, v := range m {
v.key = kadkey.KbucketIDToKey(kb.ConvertPeerID(k))
peerAddrs[k] = v.addrs
kPeerMap[string(v.key)] = k
newRt.Add(v.key)
}
dht.peerAddrsLk.Lock()
dht.peerAddrs = peerAddrs
dht.peerAddrsLk.Unlock()
dht.kMapLk.Lock()
dht.keyToPeerMap = kPeerMap
dht.kMapLk.Unlock()
dht.rtLk.Lock()
dht.rt = newRt
dht.lastCrawlTime = time.Now()
dht.rtLk.Unlock()
}
}
func (dht *FullRT) Close() error {
dht.cancel()
err := dht.ProviderManager.Process().Close()
dht.wg.Wait()
return err
}
func (dht *FullRT) Bootstrap(ctx context.Context) error {
return nil
}
// CheckPeers return (success, total)
func (dht *FullRT) CheckPeers(ctx context.Context, peers ...peer.ID) (int, int) {
var peerAddrs chan interface{}
var total int
if len(peers) == 0 {
dht.peerAddrsLk.RLock()
total = len(dht.peerAddrs)
peerAddrs = make(chan interface{}, total)
for k, v := range dht.peerAddrs {
peerAddrs <- peer.AddrInfo{
ID: k,
Addrs: v,
}
}
close(peerAddrs)
dht.peerAddrsLk.RUnlock()
} else {
total = len(peers)
peerAddrs = make(chan interface{}, total)
dht.peerAddrsLk.RLock()
for _, p := range peers {
peerAddrs <- peer.AddrInfo{
ID: p,
Addrs: dht.peerAddrs[p],
}
}
close(peerAddrs)
dht.peerAddrsLk.RUnlock()
}
var success uint64
workers(100, func(i interface{}) {
a := i.(peer.AddrInfo)
dialctx, dialcancel := context.WithTimeout(ctx, time.Second*3)
if err := dht.h.Connect(dialctx, a); err == nil {
atomic.AddUint64(&success, 1)
}
dialcancel()
}, peerAddrs)
return int(success), total
}
func workers(numWorkers int, fn func(interface{}), inputs <-chan interface{}) {
jobs := make(chan interface{})
defer close(jobs)
for i := 0; i < numWorkers; i++ {
go func() {
for j := range jobs {
fn(j)
}
}()
}
for i := range inputs {
jobs <- i
}
}
func (dht *FullRT) GetClosestPeers(ctx context.Context, key string) ([]peer.ID, error) {
ctx, span := Tracer.Start(ctx, "GetClosestPeers")
_ = ctx // not used, but we want to assign it _just_ in case we use it.
defer span.End()
kbID := kb.ConvertKey(key)
kadKey := kadkey.KbucketIDToKey(kbID)
dht.rtLk.RLock()
closestKeys := kademlia.ClosestN(kadKey, dht.rt, dht.bucketSize)
dht.rtLk.RUnlock()
peers := make([]peer.ID, 0, len(closestKeys))
for _, k := range closestKeys {
dht.kMapLk.RLock()
p, ok := dht.keyToPeerMap[string(k)]
if !ok {
logger.Errorf("key not found in map")
}
dht.kMapLk.RUnlock()
dht.peerAddrsLk.RLock()
peerAddrs := dht.peerAddrs[p]
dht.peerAddrsLk.RUnlock()
dht.h.Peerstore().AddAddrs(p, peerAddrs, peerstore.TempAddrTTL)
peers = append(peers, p)
}
return peers, nil
}
// PutValue adds value corresponding to given Key.
// This is the top level "Store" operation of the DHT
func (dht *FullRT) PutValue(ctx context.Context, key string, value []byte, opts ...routing.Option) (err error) {
if !dht.enableValues {
return routing.ErrNotSupported
}
logger.Debugw("putting value", "key", internal.LoggableRecordKeyString(key))
// don't even allow local users to put bad values.
if err := dht.Validator.Validate(key, value); err != nil {
return err
}
old, err := dht.getLocal(ctx, key)
if err != nil {
// Means something is wrong with the datastore.
return err
}
// Check if we have an old value that's not the same as the new one.
if old != nil && !bytes.Equal(old.GetValue(), value) {
// Check to see if the new one is better.
i, err := dht.Validator.Select(key, [][]byte{value, old.GetValue()})
if err != nil {
return err
}
if i != 0 {
return fmt.Errorf("can't replace a newer value with an older value")
}
}
rec := record.MakePutRecord(key, value)
rec.TimeReceived = u.FormatRFC3339(time.Now())
err = dht.putLocal(ctx, key, rec)
if err != nil {
return err
}
peers, err := dht.GetClosestPeers(ctx, key)
if err != nil {
return err
}
successes := dht.execOnMany(ctx, func(ctx context.Context, p peer.ID) error {
routing.PublishQueryEvent(ctx, &routing.QueryEvent{
Type: routing.Value,
ID: p,
})
err := dht.protoMessenger.PutValue(ctx, p, rec)
return err
}, peers, true)
if successes == 0 {
return fmt.Errorf("failed to complete put")
}
return nil
}
// RecvdVal stores a value and the peer from which we got the value.
type RecvdVal struct {
Val []byte
From peer.ID
}
// GetValue searches for the value corresponding to given Key.
func (dht *FullRT) GetValue(ctx context.Context, key string, opts ...routing.Option) (_ []byte, err error) {
if !dht.enableValues {
return nil, routing.ErrNotSupported
}
// apply defaultQuorum if relevant
var cfg routing.Options
if err := cfg.Apply(opts...); err != nil {
return nil, err
}
opts = append(opts, kaddht.Quorum(internalConfig.GetQuorum(&cfg)))
responses, err := dht.SearchValue(ctx, key, opts...)
if err != nil {
return nil, err
}
var best []byte
for r := range responses {
best = r
}
if ctx.Err() != nil {
return best, ctx.Err()
}
if best == nil {
return nil, routing.ErrNotFound
}
logger.Debugf("GetValue %v %x", internal.LoggableRecordKeyString(key), best)
return best, nil
}
// SearchValue searches for the value corresponding to given Key and streams the results.
func (dht *FullRT) SearchValue(ctx context.Context, key string, opts ...routing.Option) (<-chan []byte, error) {
if !dht.enableValues {
return nil, routing.ErrNotSupported
}
var cfg routing.Options
if err := cfg.Apply(opts...); err != nil {
return nil, err
}
responsesNeeded := 0
if !cfg.Offline {
responsesNeeded = internalConfig.GetQuorum(&cfg)
}
stopCh := make(chan struct{})
valCh, lookupRes := dht.getValues(ctx, key, stopCh)
out := make(chan []byte)
go func() {
defer close(out)
best, peersWithBest, aborted := dht.searchValueQuorum(ctx, key, valCh, stopCh, out, responsesNeeded)
if best == nil || aborted {
return
}
updatePeers := make([]peer.ID, 0, dht.bucketSize)
select {
case l := <-lookupRes:
if l == nil {
return
}
for _, p := range l.peers {
if _, ok := peersWithBest[p]; !ok {
updatePeers = append(updatePeers, p)
}
}
case <-ctx.Done():
return
}
ctx, cancel := context.WithTimeout(context.Background(), time.Second*5)
dht.updatePeerValues(ctx, key, best, updatePeers)
cancel()
}()
return out, nil
}
func (dht *FullRT) searchValueQuorum(ctx context.Context, key string, valCh <-chan RecvdVal, stopCh chan struct{},
out chan<- []byte, nvals int) ([]byte, map[peer.ID]struct{}, bool) {
numResponses := 0
return dht.processValues(ctx, key, valCh,
func(ctx context.Context, v RecvdVal, better bool) bool {
numResponses++
if better {
select {
case out <- v.Val:
case <-ctx.Done():
return false
}
}
if nvals > 0 && numResponses > nvals {
close(stopCh)
return true
}
return false
})
}
func (dht *FullRT) processValues(ctx context.Context, key string, vals <-chan RecvdVal,
newVal func(ctx context.Context, v RecvdVal, better bool) bool) (best []byte, peersWithBest map[peer.ID]struct{}, aborted bool) {
loop:
for {
if aborted {
return
}
select {
case v, ok := <-vals:
if !ok {
break loop
}
// Select best value
if best != nil {
if bytes.Equal(best, v.Val) {
peersWithBest[v.From] = struct{}{}
aborted = newVal(ctx, v, false)
continue
}
sel, err := dht.Validator.Select(key, [][]byte{best, v.Val})
if err != nil {
logger.Warnw("failed to select best value", "key", internal.LoggableRecordKeyString(key), "error", err)
continue
}
if sel != 1 {
aborted = newVal(ctx, v, false)
continue
}
}
peersWithBest = make(map[peer.ID]struct{})
peersWithBest[v.From] = struct{}{}
best = v.Val
aborted = newVal(ctx, v, true)
case <-ctx.Done():
return
}
}
return
}
func (dht *FullRT) updatePeerValues(ctx context.Context, key string, val []byte, peers []peer.ID) {
fixupRec := record.MakePutRecord(key, val)
for _, p := range peers {
go func(p peer.ID) {
//TODO: Is this possible?
if p == dht.h.ID() {
err := dht.putLocal(ctx, key, fixupRec)
if err != nil {
logger.Error("Error correcting local dht entry:", err)
}
return
}
ctx, cancel := context.WithTimeout(ctx, time.Second*5)
defer cancel()
err := dht.protoMessenger.PutValue(ctx, p, fixupRec)
if err != nil {
logger.Debug("Error correcting DHT entry: ", err)
}
}(p)
}
}
type lookupWithFollowupResult struct {
peers []peer.ID // the top K not unreachable peers at the end of the query
}
func (dht *FullRT) getValues(ctx context.Context, key string, stopQuery chan struct{}) (<-chan RecvdVal, <-chan *lookupWithFollowupResult) {
valCh := make(chan RecvdVal, 1)
lookupResCh := make(chan *lookupWithFollowupResult, 1)
logger.Debugw("finding value", "key", internal.LoggableRecordKeyString(key))
if rec, err := dht.getLocal(ctx, key); rec != nil && err == nil {
select {
case valCh <- RecvdVal{
Val: rec.GetValue(),
From: dht.h.ID(),
}:
case <-ctx.Done():
}
}
peers, err := dht.GetClosestPeers(ctx, key)
if err != nil {
lookupResCh <- &lookupWithFollowupResult{}
close(valCh)
close(lookupResCh)
return valCh, lookupResCh
}
go func() {
defer close(valCh)
defer close(lookupResCh)
queryFn := func(ctx context.Context, p peer.ID) error {
// For DHT query command
routing.PublishQueryEvent(ctx, &routing.QueryEvent{
Type: routing.SendingQuery,
ID: p,
})
rec, peers, err := dht.protoMessenger.GetValue(ctx, p, key)
if err != nil {
return err
}
// For DHT query command
routing.PublishQueryEvent(ctx, &routing.QueryEvent{
Type: routing.PeerResponse,
ID: p,
Responses: peers,
})
if rec == nil {
return nil
}
val := rec.GetValue()
if val == nil {
logger.Debug("received a nil record value")
return nil
}
if err := dht.Validator.Validate(key, val); err != nil {
// make sure record is valid
logger.Debugw("received invalid record (discarded)", "error", err)
return nil
}
// the record is present and valid, send it out for processing
select {
case valCh <- RecvdVal{
Val: val,
From: p,
}:
case <-ctx.Done():
return ctx.Err()
}
return nil
}
dht.execOnMany(ctx, queryFn, peers, false)
lookupResCh <- &lookupWithFollowupResult{peers: peers}
}()
return valCh, lookupResCh
}
// Provider abstraction for indirect stores.
// Some DHTs store values directly, while an indirect store stores pointers to
// locations of the value, similarly to Coral and Mainline DHT.
// Provide makes this node announce that it can provide a value for the given key
func (dht *FullRT) Provide(ctx context.Context, key cid.Cid, brdcst bool) (err error) {
ctx, span := Tracer.Start(ctx, "Provide")
defer span.End()
if !dht.enableProviders {
return routing.ErrNotSupported
} else if !key.Defined() {
return fmt.Errorf("invalid cid: undefined")
}
keyMH := key.Hash()
logger.Debugw("providing", "cid", key, "mh", internal.LoggableProviderRecordBytes(keyMH))
// add self locally
dht.ProviderManager.AddProvider(ctx, keyMH, peer.AddrInfo{ID: dht.h.ID()})
if !brdcst {
return nil
}
closerCtx := ctx
if deadline, ok := ctx.Deadline(); ok {
now := time.Now()
timeout := deadline.Sub(now)
if timeout < 0 {
// timed out
return context.DeadlineExceeded
} else if timeout < 10*time.Second {
// Reserve 10% for the final put.
deadline = deadline.Add(-timeout / 10)
} else {
// Otherwise, reserve a second (we'll already be
// connected so this should be fast).
deadline = deadline.Add(-time.Second)
}
var cancel context.CancelFunc
closerCtx, cancel = context.WithDeadline(ctx, deadline)
defer cancel()
}
var exceededDeadline bool
peers, err := dht.GetClosestPeers(closerCtx, string(keyMH))
switch err {
case context.DeadlineExceeded:
// If the _inner_ deadline has been exceeded but the _outer_
// context is still fine, provide the value to the closest peers
// we managed to find, even if they're not the _actual_ closest peers.
if ctx.Err() != nil {
return ctx.Err()
}
exceededDeadline = true
case nil:
default:
return err
}
successes := dht.execOnMany(ctx, func(ctx context.Context, p peer.ID) error {
err := dht.protoMessenger.PutProvider(ctx, p, keyMH, dht.h)
return err
}, peers, true)
if exceededDeadline {
return context.DeadlineExceeded
}
if successes == 0 {
return fmt.Errorf("failed to complete provide")
}
return ctx.Err()
}
// execOnMany executes the given function on each of the peers, although it may only wait for a certain chunk of peers
// to respond before considering the results "good enough" and returning.
//
// If sloppyExit is true then this function will return without waiting for all of its internal goroutines to close.
// If sloppyExit is true then the passed in function MUST be able to safely complete an arbitrary amount of time after
// execOnMany has returned (e.g. do not write to resources that might get closed or set to nil and therefore result in
// a panic instead of just returning an error).
func (dht *FullRT) execOnMany(ctx context.Context, fn func(context.Context, peer.ID) error, peers []peer.ID, sloppyExit bool) int {
ctx, span := Tracer.Start(ctx, "execOnMany")
defer span.End()
if len(peers) == 0 {
return 0
}
// having a buffer that can take all of the elements is basically a hack to allow for sloppy exits that clean up
// the goroutines after the function is done rather than before
errCh := make(chan error, len(peers))
numSuccessfulToWaitFor := int(float64(len(peers)) * dht.waitFrac)
putctx, cancel := context.WithTimeout(ctx, dht.timeoutPerOp)
defer cancel()
for _, p := range peers {
go func(p peer.ID) {
errCh <- fn(putctx, p)
}(p)
}
var numDone, numSuccess, successSinceLastTick int
var ticker *time.Ticker
var tickChan <-chan time.Time
for numDone < len(peers) {
select {
case err := <-errCh:
numDone++
if err == nil {
numSuccess++
if numSuccess >= numSuccessfulToWaitFor && ticker == nil {
// Once there are enough successes, wait a little longer
ticker = time.NewTicker(time.Millisecond * 500)
defer ticker.Stop()
tickChan = ticker.C
successSinceLastTick = numSuccess
}
// This is equivalent to numSuccess * 2 + numFailures >= len(peers) and is a heuristic that seems to be
// performing reasonably.
// TODO: Make this metric more configurable
// TODO: Have better heuristics in this function whether determined from observing static network
// properties or dynamically calculating them
if numSuccess+numDone >= len(peers) {
cancel()
if sloppyExit {
return numSuccess
}
}
}
case <-tickChan:
if numSuccess > successSinceLastTick {
// If there were additional successes, then wait another tick
successSinceLastTick = numSuccess
} else {
cancel()
if sloppyExit {
return numSuccess
}
}
}
}
return numSuccess
}
func (dht *FullRT) ProvideMany(ctx context.Context, keys []multihash.Multihash) error {
ctx, span := Tracer.Start(ctx, "ProvideMany")
defer span.End()
if !dht.enableProviders {
return routing.ErrNotSupported
}
// Compute addresses once for all provides
pi := peer.AddrInfo{
ID: dht.h.ID(),
Addrs: dht.h.Addrs(),
}
pbPeers := dht_pb.RawPeerInfosToPBPeers([]peer.AddrInfo{pi})
// TODO: We may want to limit the type of addresses in our provider records
// For example, in a WAN-only DHT prohibit sharing non-WAN addresses (e.g. 192.168.0.100)
if len(pi.Addrs) < 1 {
return fmt.Errorf("no known addresses for self, cannot put provider")
}
fn := func(ctx context.Context, p, k peer.ID) error {
pmes := dht_pb.NewMessage(dht_pb.Message_ADD_PROVIDER, multihash.Multihash(k), 0)
pmes.ProviderPeers = pbPeers
return dht.messageSender.SendMessage(ctx, p, pmes)
}
keysAsPeerIDs := make([]peer.ID, 0, len(keys))
for _, k := range keys {
keysAsPeerIDs = append(keysAsPeerIDs, peer.ID(k))
}
return dht.bulkMessageSend(ctx, keysAsPeerIDs, fn, true)
}
func (dht *FullRT) PutMany(ctx context.Context, keys []string, values [][]byte) error {
if !dht.enableValues {
return routing.ErrNotSupported
}
if len(keys) != len(values) {
return fmt.Errorf("number of keys does not match the number of values")
}
keysAsPeerIDs := make([]peer.ID, 0, len(keys))
keyRecMap := make(map[string][]byte)
for i, k := range keys {
keysAsPeerIDs = append(keysAsPeerIDs, peer.ID(k))
keyRecMap[k] = values[i]
}
if len(keys) != len(keyRecMap) {
return fmt.Errorf("does not support duplicate keys")
}
fn := func(ctx context.Context, p, k peer.ID) error {
keyStr := string(k)
return dht.protoMessenger.PutValue(ctx, p, record.MakePutRecord(keyStr, keyRecMap[keyStr]))
}
return dht.bulkMessageSend(ctx, keysAsPeerIDs, fn, false)
}
func (dht *FullRT) bulkMessageSend(ctx context.Context, keys []peer.ID, fn func(ctx context.Context, target, k peer.ID) error, isProvRec bool) error {
ctx, span := Tracer.Start(ctx, "bulkMessageSend", trace.WithAttributes(attribute.Int("numKeys", len(keys))))
defer span.End()
if len(keys) == 0 {
return nil
}
type report struct {
successes int
failures int
lastSuccess time.Time
mx sync.RWMutex
}
keySuccesses := make(map[peer.ID]*report, len(keys))
var numSkipped int64
for _, k := range keys {
keySuccesses[k] = &report{}
}
logger.Infof("bulk send: number of keys %d, unique %d", len(keys), len(keySuccesses))
numSuccessfulToWaitFor := int(float64(dht.bucketSize) * dht.waitFrac * 1.2)
sortedKeys := make([]peer.ID, 0, len(keySuccesses))
for k := range keySuccesses {
sortedKeys = append(sortedKeys, k)
}
sortedKeys = kb.SortClosestPeers(sortedKeys, kb.ID(make([]byte, 32)))
dht.kMapLk.RLock()
numPeers := len(dht.keyToPeerMap)
dht.kMapLk.RUnlock()
chunkSize := (len(sortedKeys) * dht.bucketSize * 2) / numPeers
if chunkSize == 0 {
chunkSize = 1
}