package drand
import (
"bytes"
"time"
"github.com/harmony-one/harmony/crypto/bls"
protobuf "github.com/golang/protobuf/proto"
msg_pb "github.com/harmony-one/harmony/api/proto/message"
"github.com/harmony-one/harmony/core"
"github.com/harmony-one/harmony/core/types"
"github.com/harmony-one/harmony/crypto/vdf"
"github.com/harmony-one/harmony/crypto/vrf/p256"
nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
"github.com/harmony-one/harmony/internal/utils"
"github.com/harmony-one/harmony/p2p/host"
)
const (
vdfDifficulty = 5000000 // This takes about 20s to finish the vdf
)
// WaitForEpochBlock waits for the first epoch block to run DRG on
func ( dRand * DRand ) WaitForEpochBlock ( blockChannel chan * types . Block , stopChan chan struct { } , stoppedChan chan struct { } ) {
go func ( ) {
defer close ( stoppedChan )
for {
select {
default :
// keep waiting for epoch block
newBlock := <- blockChannel
if core . IsEpochLastBlock ( newBlock ) {
dRand . init ( newBlock )
}
// TODO: use real vrf
pRnd := [ 32 ] byte { } //newBlock.Header().Vrf
zeros := [ 32 ] byte { }
if core . IsEpochBlock ( newBlock ) && ! bytes . Equal ( pRnd [ : ] , zeros [ : ] ) {
// The epoch block should contain the randomness preimage pRnd
// TODO ek – limit concurrency
go func ( ) {
vdf := vdf . New ( vdfDifficulty , pRnd )
outputChannel := vdf . GetOutputChannel ( )
start := time . Now ( )
vdf . Execute ( )
duration := time . Now ( ) . Sub ( start )
utils . Logger ( ) . Info ( ) . Dur ( "duration" , duration ) . Msg ( "VDF computation finished" )
output := <- outputChannel
rndBytes := [ 64 ] byte { } // The first 32 bytes are the randomness and the last 32 bytes are the hash of the block where the corresponding pRnd was generated
copy ( rndBytes [ : 32 ] , output [ : ] )
blockHash := newBlock . Hash ( )
copy ( rndBytes [ 32 : ] , blockHash [ : ] )
dRand . RndChannel <- rndBytes
} ( )
}
case <- stopChan :
return
}
}
} ( )
}
func ( dRand * DRand ) init ( epochBlock * types . Block ) {
utils . Logger ( ) . Debug ( ) . Msg ( "INITING DRAND" )
dRand . ResetState ( )
// Copy over block hash and block header data
blockHash := epochBlock . Hash ( )
copy ( dRand . blockHash [ : ] , blockHash [ : ] )
msgToSend := dRand . constructInitMessage ( )
// Leader commit vrf itself
rand , proof := dRand . vrf ( dRand . blockHash )
( * dRand . vrfs ) [ dRand . SelfAddress ] = append ( rand [ : ] , proof ... )
utils . Logger ( ) . Info ( ) .
Hex ( "msg" , msgToSend ) .
Str ( "leader.PubKey" , dRand . leader . ConsensusPubKey . SerializeToHexStr ( ) ) .
Msg ( "[DRG] sent init" )
dRand . host . SendMessageToGroups ( [ ] nodeconfig . GroupID { nodeconfig . NewGroupIDByShardID ( nodeconfig . ShardID ( dRand . ShardID ) ) } , host . ConstructP2pMessage ( byte ( 17 ) , msgToSend ) )
}
// ProcessMessageLeader dispatches messages for the leader to corresponding processors.
func ( dRand * DRand ) ProcessMessageLeader ( payload [ ] byte ) {
message := & msg_pb . Message { }
err := protobuf . Unmarshal ( payload , message )
if err != nil {
utils . Logger ( ) . Error ( ) . Err ( err ) . Interface ( "dRand" , dRand ) . Msg ( "Failed to unmarshal message payload" )
}
if message . GetDrand ( ) . ShardId != dRand . ShardID {
utils . Logger ( ) . Warn ( ) .
Uint32 ( "myShardId" , dRand . ShardID ) .
Uint32 ( "receivedShardId" , message . GetDrand ( ) . ShardId ) .
Msg ( "Received drand message from different shard" )
return
}
switch message . Type {
case msg_pb . MessageType_DRAND_COMMIT :
dRand . processCommitMessage ( message )
default :
utils . Logger ( ) . Error ( ) .
Uint32 ( "msgType" , uint32 ( message . Type ) ) .
Interface ( "dRand" , dRand ) .
Msg ( "Unexpected message type" )
}
}
// ProcessMessageValidator dispatches validator's consensus message.
func ( dRand * DRand ) processCommitMessage ( message * msg_pb . Message ) {
utils . Logger ( ) . Info ( ) . Msg ( "[DRG] Leader received commit" )
if message . Type != msg_pb . MessageType_DRAND_COMMIT {
utils . Logger ( ) . Error ( ) .
Uint32 ( "expected" , uint32 ( msg_pb . MessageType_DRAND_COMMIT ) ) .
Uint32 ( "got" , uint32 ( message . Type ) ) .
Msg ( "Wrong message type received" )
return
}
dRand . mutex . Lock ( )
defer dRand . mutex . Unlock ( )
drandMsg := message . GetDrand ( )
senderPubKey , err := bls . BytesToBlsPublicKey ( drandMsg . SenderPubkey )
if err != nil {
utils . Logger ( ) . Debug ( ) . Err ( err ) . Msg ( "Failed to deserialize BLS public key" )
return
}
validatorAddress := senderPubKey . SerializeToHexStr ( )
if ! dRand . IsValidatorInCommittee ( validatorAddress ) {
utils . Logger ( ) . Error ( ) . Str ( "validatorAddress" , validatorAddress ) . Msg ( "Invalid validator" )
return
}
vrfs := dRand . vrfs
if len ( ( * vrfs ) ) >= ( ( len ( dRand . PublicKeys ) ) / 3 + 1 ) {
utils . Logger ( ) . Debug ( ) .
Str ( "validatorAddress" , validatorAddress ) . Msg ( "Received additional randomness commit message" )
return
}
// Verify message signature
err = verifyMessageSig ( senderPubKey , message )
if err != nil {
utils . Logger ( ) . Debug ( ) .
Err ( err ) . Str ( "PubKey" , senderPubKey . SerializeToHexStr ( ) ) . Msg ( "[DRAND] failed to verify the message signature" )
return
}
rand := drandMsg . Payload [ : 32 ]
proof := drandMsg . Payload [ 32 : len ( drandMsg . Payload ) - 64 ]
pubKeyBytes := drandMsg . Payload [ len ( drandMsg . Payload ) - 64 : ]
_ , vrfPubKey := p256 . GenerateKey ( )
vrfPubKey . Deserialize ( pubKeyBytes )
expectedRand , err := vrfPubKey . ProofToHash ( dRand . blockHash [ : ] , proof )
if err != nil || ! bytes . Equal ( expectedRand [ : ] , rand ) {
utils . Logger ( ) . Error ( ) .
Err ( err ) .
Str ( "validatorAddress" , validatorAddress ) .
Hex ( "expectedRand" , expectedRand [ : ] ) .
Hex ( "receivedRand" , rand [ : ] ) .
Msg ( "[DRAND] Failed to verify the VRF" )
return
}
utils . Logger ( ) . Debug ( ) .
Int ( "numReceivedSoFar" , len ( ( * vrfs ) ) ) .
Str ( "validatorAddress" , validatorAddress ) .
Int ( "PublicKeys" , len ( dRand . PublicKeys ) ) .
Msg ( "Received new VRF commit" )
( * vrfs ) [ validatorAddress ] = drandMsg . Payload
dRand . bitmap . SetKey ( senderPubKey , true ) // Set the bitmap indicating that this validator signed.
if len ( ( * vrfs ) ) >= ( ( len ( dRand . PublicKeys ) ) / 3 + 1 ) {
// Construct pRand and initiate consensus on it
utils . Logger ( ) . Debug ( ) .
Int ( "numReceivedSoFar" , len ( ( * vrfs ) ) ) .
Str ( "validatorAddress" , validatorAddress ) .
Int ( "PublicKeys" , len ( dRand . PublicKeys ) ) .
Msg ( "[DRAND] {BINGO} Received enough randomness commit" )
pRnd := [ 32 ] byte { }
// Bitwise XOR on all the submitted vrfs
for _ , vrf := range * vrfs {
for i := 0 ; i < len ( pRnd ) ; i ++ {
pRnd [ i ] = pRnd [ i ] ^ vrf [ i ]
}
}
dRand . PRndChannel <- append ( pRnd [ : ] , dRand . bitmap . Bitmap ... )
}
}