lotus/chain/beacon/drand/drand.go

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package drand
import (
"context"
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"math/rand"
"sync"
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"time"
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"github.com/filecoin-project/lotus/build"
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"github.com/filecoin-project/lotus/chain/beacon"
"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/specs-actors/actors/abi"
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"golang.org/x/xerrors"
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logging "github.com/ipfs/go-log"
dbeacon "github.com/drand/drand/beacon"
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"github.com/drand/drand/core"
dkey "github.com/drand/drand/key"
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dnet "github.com/drand/drand/net"
dproto "github.com/drand/drand/protobuf/drand"
)
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var log = logging.Logger("drand")
var drandServers = []string{
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"nicolas.drand.fil-test.net:443",
"philipp.drand.fil-test.net:443",
"mathilde.drand.fil-test.net:443",
"ludovic.drand.fil-test.net:443",
"gabbi.drand.fil-test.net:443",
"linus.drand.fil-test.net:443",
"jeff.drand.fil-test.net:443",
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}
var drandPubKey *dkey.DistPublic
func init() {
drandPubKey = new(dkey.DistPublic)
err := drandPubKey.FromTOML(&dkey.DistPublicTOML{Coefficients: build.DrandCoeffs})
if err != nil {
panic(err)
}
}
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type drandPeer struct {
addr string
tls bool
}
func (dp *drandPeer) Address() string {
return dp.addr
}
func (dp *drandPeer) IsTLS() bool {
return dp.tls
}
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type DrandBeacon struct {
client dnet.Client
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peers []dnet.Peer
peersIndex int
peersIndexMtx sync.Mutex
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pubkey *dkey.DistPublic
// seconds
interval time.Duration
drandGenTime uint64
filGenTime uint64
filRoundTime uint64
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cacheLk sync.Mutex
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localCache map[uint64]types.BeaconEntry
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}
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func NewDrandBeacon(genesisTs, interval uint64) (*DrandBeacon, error) {
if genesisTs == 0 {
panic("what are you doing this cant be zero")
}
db := &DrandBeacon{
client: dnet.NewGrpcClient(),
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localCache: make(map[uint64]types.BeaconEntry),
}
for _, ds := range drandServers {
db.peers = append(db.peers, &drandPeer{addr: ds, tls: true})
}
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db.peersIndex = rand.Intn(len(db.peers))
groupResp, err := db.client.Group(context.TODO(), db.peers[db.peersIndex], &dproto.GroupRequest{})
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if err != nil {
return nil, xerrors.Errorf("failed to get group response from beacon peer: %w", err)
}
kgroup, err := core.ProtoToGroup(groupResp)
if err != nil {
return nil, xerrors.Errorf("failed to parse group response: %w", err)
}
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// TODO: verify these values are what we expect them to be
if !kgroup.PublicKey.Equal(drandPubKey) {
return nil, xerrors.Errorf("public key does not match")
}
// fmt.Printf("Drand Pubkey:\n%#v\n", kgroup.PublicKey.TOML()) // use to print public key
db.pubkey = drandPubKey
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db.interval = kgroup.Period
db.drandGenTime = uint64(kgroup.GenesisTime)
db.filRoundTime = interval
db.filGenTime = genesisTs
// TODO: the stream currently gives you back *all* values since drand genesis.
// Having the stream in the background is merely an optimization, so not a big deal to disable it for now
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// go db.handleStreamingUpdates()
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return db, nil
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}
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func (db *DrandBeacon) rotatePeersIndex() {
db.peersIndexMtx.Lock()
defer db.peersIndexMtx.Unlock()
db.peersIndex = (db.peersIndex + 1) % len(db.peers)
}
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func (db *DrandBeacon) handleStreamingUpdates() {
for {
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ch, err := db.client.PublicRandStream(context.Background(), db.peers[db.peersIndex], &dproto.PublicRandRequest{})
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if err != nil {
log.Warnf("failed to get public rand stream: %s", err)
log.Warnf("trying again in 10 seconds")
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db.rotatePeersIndex()
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time.Sleep(time.Second * 10)
continue
}
for e := range ch {
db.cacheValue(types.BeaconEntry{
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Round: e.Round,
Data: e.Signature,
})
}
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log.Warn("drand beacon stream broke, reconnecting in 10 seconds")
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db.rotatePeersIndex()
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time.Sleep(time.Second * 10)
}
}
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func (db *DrandBeacon) Entry(ctx context.Context, round uint64) <-chan beacon.Response {
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// check cache, it it if there, otherwise query the endpoint
cres := db.getCachedValue(round)
if cres != nil {
out := make(chan beacon.Response, 1)
out <- beacon.Response{Entry: *cres}
close(out)
return out
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}
out := make(chan beacon.Response, 1)
go func() {
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resp, err := db.client.PublicRand(ctx, db.peers[db.peersIndex], &dproto.PublicRandRequest{Round: round})
var br beacon.Response
if err != nil {
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db.rotatePeersIndex()
br.Err = err
} else {
br.Entry.Round = resp.GetRound()
br.Entry.Data = resp.GetSignature()
}
out <- br
close(out)
}()
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return out
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}
func (db *DrandBeacon) cacheValue(e types.BeaconEntry) {
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db.cacheLk.Lock()
defer db.cacheLk.Unlock()
db.localCache[e.Round] = e
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}
func (db *DrandBeacon) getCachedValue(round uint64) *types.BeaconEntry {
db.cacheLk.Lock()
defer db.cacheLk.Unlock()
v, ok := db.localCache[round]
if !ok {
return nil
}
return &v
}
func (db *DrandBeacon) VerifyEntry(curr types.BeaconEntry, prev types.BeaconEntry) error {
if prev.Round == 0 {
// TODO handle genesis better
return nil
}
b := &dbeacon.Beacon{
PreviousRound: prev.Round,
PreviousSig: prev.Data,
Round: curr.Round,
Signature: curr.Data,
}
//log.Warnw("VerifyEntry", "beacon", b)
err := dbeacon.VerifyBeacon(db.pubkey.Key(), b)
if err == nil {
db.cacheValue(curr)
}
return err
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}
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func (db *DrandBeacon) MaxBeaconRoundForEpoch(filEpoch abi.ChainEpoch, prevEntry types.BeaconEntry) uint64 {
// TODO: sometimes the genesis time for filecoin is zero and this goes negative
latestTs := ((uint64(filEpoch) * db.filRoundTime) + db.filGenTime) - db.filRoundTime
dround := (latestTs - db.drandGenTime) / uint64(db.interval.Seconds())
return dround
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}
var _ beacon.RandomBeacon = (*DrandBeacon)(nil)