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dht_bootstrap.go
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dht_bootstrap.go
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// Package dht implements a distributed hash table that satisfies the ipfs routing
// interface. This DHT is modeled after kademlia with Coral and S/Kademlia modifications.
package dht
import (
"crypto/rand"
"fmt"
"sync"
"time"
peer "github.com/ipfs/go-ipfs/p2p/peer"
routing "github.com/ipfs/go-ipfs/routing"
u "github.com/ipfs/go-ipfs/util"
goprocess "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/goprocess"
periodicproc "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/goprocess/periodic"
context "github.com/ipfs/go-ipfs/Godeps/_workspace/src/golang.org/x/net/context"
)
// BootstrapConfig specifies parameters used bootstrapping the DHT.
//
// Note there is a tradeoff between the bootstrap period and the
// number of queries. We could support a higher period with less
// queries.
type BootstrapConfig struct {
Queries int // how many queries to run per period
Period time.Duration // how often to run periodi cbootstrap.
Timeout time.Duration // how long to wait for a bootstrao query to run
}
var DefaultBootstrapConfig = BootstrapConfig{
// For now, this is set to 1 query.
// We are currently more interested in ensuring we have a properly formed
// DHT than making sure our dht minimizes traffic. Once we are more certain
// of our implementation's robustness, we should lower this down to 8 or 4.
Queries: 1,
// For now, this is set to 1 minute, which is a medium period. We are
// We are currently more interested in ensuring we have a properly formed
// DHT than making sure our dht minimizes traffic.
Period: time.Duration(5 * time.Minute),
Timeout: time.Duration(10 * time.Second),
}
// Bootstrap ensures the dht routing table remains healthy as peers come and go.
// it builds up a list of peers by requesting random peer IDs. The Bootstrap
// process will run a number of queries each time, and run every time signal fires.
// These parameters are configurable.
//
// As opposed to BootstrapWithConfig, Bootstrap satisfies the routing interface
func (dht *IpfsDHT) Bootstrap(ctx context.Context) error {
proc, err := dht.BootstrapWithConfig(DefaultBootstrapConfig)
if err != nil {
return err
}
// wait till ctx or dht.Context exits.
// we have to do it this way to satisfy the Routing interface (contexts)
go func() {
defer proc.Close()
select {
case <-ctx.Done():
case <-dht.Context().Done():
}
}()
return nil
}
// BootstrapWithConfig ensures the dht routing table remains healthy as peers come and go.
// it builds up a list of peers by requesting random peer IDs. The Bootstrap
// process will run a number of queries each time, and run every time signal fires.
// These parameters are configurable.
//
// BootstrapWithConfig returns a process, so the user can stop it.
func (dht *IpfsDHT) BootstrapWithConfig(config BootstrapConfig) (goprocess.Process, error) {
sig := time.Tick(config.Period)
return dht.BootstrapOnSignal(config, sig)
}
// SignalBootstrap ensures the dht routing table remains healthy as peers come and go.
// it builds up a list of peers by requesting random peer IDs. The Bootstrap
// process will run a number of queries each time, and run every time signal fires.
// These parameters are configurable.
//
// SignalBootstrap returns a process, so the user can stop it.
func (dht *IpfsDHT) BootstrapOnSignal(cfg BootstrapConfig, signal <-chan time.Time) (goprocess.Process, error) {
if cfg.Queries <= 0 {
return nil, fmt.Errorf("invalid number of queries: %d", cfg.Queries)
}
if signal == nil {
return nil, fmt.Errorf("invalid signal: %v", signal)
}
proc := periodicproc.Ticker(signal, func(worker goprocess.Process) {
// it would be useful to be able to send out signals of when we bootstrap, too...
// maybe this is a good case for whole module event pub/sub?
ctx := dht.Context()
if err := dht.runBootstrap(ctx, cfg); err != nil {
log.Warning(err)
// A bootstrapping error is important to notice but not fatal.
}
})
return proc, nil
}
// runBootstrap builds up list of peers by requesting random peer IDs
func (dht *IpfsDHT) runBootstrap(ctx context.Context, cfg BootstrapConfig) error {
bslog := func(msg string) {
log.Debugf("DHT %s dhtRunBootstrap %s -- routing table size: %d", dht.self, msg, dht.routingTable.Size())
}
bslog("start")
defer bslog("end")
defer log.EventBegin(ctx, "dhtRunBootstrap").Done()
var merr u.MultiErr
randomID := func() peer.ID {
// 16 random bytes is not a valid peer id. it may be fine becuase
// the dht will rehash to its own keyspace anyway.
id := make([]byte, 16)
rand.Read(id)
id = u.Hash(id)
return peer.ID(id)
}
// bootstrap sequentially, as results will compound
ctx, cancel := context.WithTimeout(ctx, cfg.Timeout)
defer cancel()
runQuery := func(ctx context.Context, id peer.ID) {
p, err := dht.FindPeer(ctx, id)
if err == routing.ErrNotFound {
// this isn't an error. this is precisely what we expect.
} else if err != nil {
merr = append(merr, err)
} else {
// woah, actually found a peer with that ID? this shouldn't happen normally
// (as the ID we use is not a real ID). this is an odd error worth logging.
err := fmt.Errorf("Bootstrap peer error: Actually FOUND peer. (%s, %s)", id, p)
log.Warningf("%s", err)
merr = append(merr, err)
}
}
sequential := true
if sequential {
// these should be parallel normally. but can make them sequential for debugging.
// note that the core/bootstrap context deadline should be extended too for that.
for i := 0; i < cfg.Queries; i++ {
id := randomID()
log.Debugf("Bootstrapping query (%d/%d) to random ID: %s", i+1, cfg.Queries, id)
runQuery(ctx, id)
}
} else {
// note on parallelism here: the context is passed in to the queries, so they
// **should** exit when it exceeds, making this function exit on ctx cancel.
// normally, we should be selecting on ctx.Done() here too, but this gets
// complicated to do with WaitGroup, and doesnt wait for the children to exit.
var wg sync.WaitGroup
for i := 0; i < cfg.Queries; i++ {
wg.Add(1)
go func() {
defer wg.Done()
id := randomID()
log.Debugf("Bootstrapping query (%d/%d) to random ID: %s", i+1, cfg.Queries, id)
runQuery(ctx, id)
}()
}
wg.Wait()
}
if len(merr) > 0 {
return merr
}
return nil
}