package node
import (
"encoding/binary"
"github.com/ethereum/go-ethereum/rlp"
"github.com/harmony-one/bls/ffi/go/bls"
"github.com/harmony-one/harmony/consensus/quorum"
"github.com/harmony-one/harmony/core/types"
bls_cosi "github.com/harmony-one/harmony/crypto/bls"
"github.com/harmony-one/harmony/internal/ctxerror"
"github.com/harmony-one/harmony/internal/utils"
"github.com/harmony-one/harmony/shard"
)
const (
maxPendingCrossLinkSize = 1000
crossLinkBatchSize = 10
)
// VerifyBlockCrossLinks verifies the cross links of the block
func ( node * Node ) VerifyBlockCrossLinks ( block * types . Block ) error {
if len ( block . Header ( ) . CrossLinks ( ) ) == 0 {
utils . Logger ( ) . Debug ( ) . Msgf ( "[CrossLinkVerification] Zero CrossLinks in the header" )
return nil
}
crossLinks := & types . CrossLinks { }
err := rlp . DecodeBytes ( block . Header ( ) . CrossLinks ( ) , crossLinks )
if err != nil {
return ctxerror . New ( "[CrossLinkVerification] failed to decode cross links" ,
"blockHash" , block . Hash ( ) ,
"crossLinks" , len ( block . Header ( ) . CrossLinks ( ) ) ,
) . WithCause ( err )
}
if ! crossLinks . IsSorted ( ) {
return ctxerror . New ( "[CrossLinkVerification] cross links are not sorted" ,
"blockHash" , block . Hash ( ) ,
"crossLinks" , len ( block . Header ( ) . CrossLinks ( ) ) ,
)
}
for _ , crossLink := range * crossLinks {
cl , err := node . Blockchain ( ) . ReadCrossLink ( crossLink . ShardID ( ) , crossLink . BlockNum ( ) )
if err == nil && cl != nil {
// Add slash for exist same blocknum but different crosslink
return ctxerror . New ( "crosslink already exist!" )
}
if err = node . VerifyCrossLink ( crossLink ) ; err != nil {
return ctxerror . New ( "cannot VerifyBlockCrossLinks" ,
"blockHash" , block . Hash ( ) ,
"blockNum" , block . Number ( ) ,
"crossLinkShard" , crossLink . ShardID ( ) ,
"crossLinkBlock" , crossLink . BlockNum ( ) ,
"numTx" , len ( block . Transactions ( ) ) ,
) . WithCause ( err )
}
}
return nil
}
// ProcessCrossLinkMessage verify and process Node/CrossLink message into crosslink when it's valid
func ( node * Node ) ProcessCrossLinkMessage ( msgPayload [ ] byte ) {
if node . NodeConfig . ShardID == 0 {
pendingCLs , err := node . Blockchain ( ) . ReadPendingCrossLinks ( )
if err == nil && len ( pendingCLs ) >= maxPendingCrossLinkSize {
utils . Logger ( ) . Debug ( ) .
Msgf ( "[ProcessingCrossLink] Pending Crosslink reach maximum size: %d" , len ( pendingCLs ) )
return
}
var crosslinks [ ] types . CrossLink
err = rlp . DecodeBytes ( msgPayload , & crosslinks )
if err != nil {
utils . Logger ( ) . Error ( ) .
Err ( err ) .
Msg ( "[ProcessingCrossLink] Crosslink Message Broadcast Unable to Decode" )
return
}
candidates := [ ] types . CrossLink { }
utils . Logger ( ) . Debug ( ) .
Msgf ( "[ProcessingCrossLink] Received crosslinks: %d" , len ( crosslinks ) )
for i , cl := range crosslinks {
if i > crossLinkBatchSize {
break
}
exist , err := node . Blockchain ( ) . ReadCrossLink ( cl . ShardID ( ) , cl . Number ( ) . Uint64 ( ) )
if err == nil && exist != nil {
// TODO: leader add double sign checking
utils . Logger ( ) . Err ( err ) .
Msgf ( "[ProcessingCrossLink] Cross Link already exists, pass. Beacon Epoch: %d, Block num: %d, Epoch: %d, shardID %d" , node . Blockchain ( ) . CurrentHeader ( ) . Epoch ( ) , cl . Number ( ) , cl . Epoch ( ) , cl . ShardID ( ) )
continue
}
if err = node . VerifyCrossLink ( cl ) ; err != nil {
utils . Logger ( ) . Err ( err ) .
Msgf ( "[ProcessingCrossLink] Failed to verify new cross link for blockNum %d epochNum %d shard %d skipped: %v" , cl . BlockNum ( ) , cl . Epoch ( ) . Uint64 ( ) , cl . ShardID ( ) , cl )
continue
}
candidates = append ( candidates , cl )
utils . Logger ( ) . Debug ( ) .
Msgf ( "[ProcessingCrossLink] Committing for shardID %d, blockNum %d" , cl . ShardID ( ) , cl . Number ( ) . Uint64 ( ) )
}
node . pendingCLMutex . Lock ( )
Len , _ := node . Blockchain ( ) . AddPendingCrossLinks ( candidates )
node . pendingCLMutex . Unlock ( )
utils . Logger ( ) . Debug ( ) .
Msgf ( "[ProcessingCrossLink] Add pending crosslinks, total pending: %d" , Len )
}
}
// VerifyCrossLink verifies the header is valid
func ( node * Node ) VerifyCrossLink ( cl types . CrossLink ) error {
if node . Blockchain ( ) . ShardID ( ) != shard . BeaconChainShardID {
return ctxerror . New ( "[VerifyCrossLink] Shard chains should not verify cross links" )
}
if cl . BlockNum ( ) <= 1 {
return ctxerror . New ( "[VerifyCrossLink] CrossLink BlockNumber should greater than 1" )
}
if ! node . Blockchain ( ) . Config ( ) . IsCrossLink ( cl . Epoch ( ) ) {
return ctxerror . New ( "[VerifyCrossLink] CrossLink Epoch should >= cross link starting epoch" , "crossLinkEpoch" , cl . Epoch ( ) , "cross_link_starting_eoch" , node . Blockchain ( ) . Config ( ) . CrossLinkEpoch )
}
// Verify signature of the new cross link header
// TODO: check whether to recalculate shard state
shardState , err := node . Blockchain ( ) . ReadShardState ( cl . Epoch ( ) )
committee := shardState . FindCommitteeByID ( cl . ShardID ( ) )
if err != nil || committee == nil {
return ctxerror . New ( "[VerifyCrossLink] Failed to read shard state for cross link" , "beaconEpoch" , node . Blockchain ( ) . CurrentHeader ( ) . Epoch ( ) , "epoch" , cl . Epoch ( ) , "shardID" , cl . ShardID ( ) , "blockNum" , cl . BlockNum ( ) ) . WithCause ( err )
}
var committerKeys [ ] * bls . PublicKey
parseKeysSuccess := true
for _ , member := range committee . Slots {
committerKey := new ( bls . PublicKey )
err = member . BlsPublicKey . ToLibBLSPublicKey ( committerKey )
if err != nil {
parseKeysSuccess = false
break
}
committerKeys = append ( committerKeys , committerKey )
}
if ! parseKeysSuccess {
return ctxerror . New ( "[VerifyCrossLink] cannot convert BLS public key" , "shardID" , cl . ShardID ( ) , "blockNum" , cl . BlockNum ( ) ) . WithCause ( err )
}
mask , err := bls_cosi . NewMask ( committerKeys , nil )
if err != nil {
return ctxerror . New ( "[VerifyCrossLink] cannot create group sig mask" , "shardID" , cl . ShardID ( ) , "blockNum" , cl . BlockNum ( ) ) . WithCause ( err )
}
if err := mask . SetMask ( cl . Bitmap ( ) ) ; err != nil {
return ctxerror . New ( "[VerifyCrossLink] cannot set group sig mask bits" , "shardID" , cl . ShardID ( ) , "blockNum" , cl . BlockNum ( ) ) . WithCause ( err )
}
decider := quorum . NewDecider ( quorum . SuperMajorityStake )
decider . SetShardIDProvider ( func ( ) ( uint32 , error ) {
return cl . ShardID ( ) , nil
} )
decider . SetMyPublicKeyProvider ( func ( ) ( * bls . PublicKey , error ) {
return nil , nil
} )
if _ , err := decider . SetVoters ( committee . Slots , false ) ; err != nil {
return ctxerror . New ( "[VerifyCrossLink] Cannot SetVoters for committee" , "shardID" , cl . ShardID ( ) )
}
if ! decider . IsQuorumAchievedByMask ( mask , false ) {
return ctxerror . New ( "[VerifyCrossLink] Not enough voting power for crosslink" , "shardID" , cl . ShardID ( ) )
}
aggSig := bls . Sign { }
sig := cl . Signature ( )
err = aggSig . Deserialize ( sig [ : ] )
if err != nil {
return ctxerror . New ( "[VerifyCrossLink] unable to deserialize multi-signature from payload" ) . WithCause ( err )
}
hash := cl . Hash ( )
blockNumBytes := make ( [ ] byte , 8 )
binary . LittleEndian . PutUint64 ( blockNumBytes , cl . BlockNum ( ) )
commitPayload := append ( blockNumBytes , hash [ : ] ... )
if ! aggSig . VerifyHash ( mask . AggregatePublic , commitPayload ) {
return ctxerror . New ( "[VerifyCrossLink] Failed to verify the signature for cross link" , "shardID" , cl . ShardID ( ) , "blockNum" , cl . BlockNum ( ) )
}
return nil
}