package node
import (
"math/big"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/log"
"github.com/harmony-one/harmony/core"
"github.com/harmony-one/harmony/core/types"
nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
"github.com/harmony-one/harmony/internal/ctxerror"
"github.com/harmony-one/harmony/internal/utils"
)
// Constants of lower bound limit of a new block.
const (
ConsensusTimeOut = 30
PeriodicBlock = 200 * time . Millisecond
)
// WaitForConsensusReadyv2 listen for the readiness signal from consensus and generate new block for consensus.
// only leader will receive the ready signal
// TODO: clean pending transactions for validators; or validators not prepare pending transactions
func ( node * Node ) WaitForConsensusReadyv2 ( readySignal chan struct { } , stopChan chan struct { } , stoppedChan chan struct { } ) {
go func ( ) {
// Setup stoppedChan
defer close ( stoppedChan )
utils . GetLogInstance ( ) . Debug ( "Waiting for Consensus ready" )
time . Sleep ( 30 * time . Second ) // Wait for other nodes to be ready (test-only)
timeoutCount := 0
var newBlock * types . Block
// Set up the very first deadline.
deadline := time . Now ( ) . Add ( node . BlockPeriod )
for {
// keep waiting for Consensus ready
select {
case <- stopChan :
utils . GetLogInstance ( ) . Debug ( "Consensus new block proposal: STOPPED!" )
return
case <- time . After ( ConsensusTimeOut * time . Second ) :
if node . Consensus . PubKey . IsEqual ( node . Consensus . LeaderPubKey ) {
utils . GetLogInstance ( ) . Debug ( "Leader consensus timeout, retry!" , "count" , timeoutCount )
//node.Consensus.ResetState()
timeoutCount ++
if newBlock != nil {
// Send the new block to Consensus so it can be confirmed.
node . BlockChannel <- newBlock
}
}
case <- readySignal :
for {
time . Sleep ( PeriodicBlock )
if time . Now ( ) . Before ( deadline ) {
continue
}
coinbase := node . Consensus . SelfAddress
// Normal tx block consensus
selectedTxs := types . Transactions { } // Empty transaction list
if node . NodeConfig . GetNetworkType ( ) != nodeconfig . Mainnet {
selectedTxs = node . getTransactionsForNewBlock ( MaxNumberOfTransactionsPerBlock , coinbase )
}
utils . GetLogInstance ( ) . Info ( "PROPOSING NEW BLOCK ------------------------------------------------" , "blockNum" , node . Blockchain ( ) . CurrentBlock ( ) . NumberU64 ( ) + 1 , "selectedTxs" , len ( selectedTxs ) )
if err := node . Worker . CommitTransactions ( selectedTxs , coinbase ) ; err != nil {
ctxerror . Log15 ( utils . GetLogger ( ) . Error ,
ctxerror . New ( "cannot commit transactions" ) .
WithCause ( err ) )
}
sig , mask , err := node . Consensus . LastCommitSig ( )
if err != nil {
ctxerror . Log15 ( utils . GetLogger ( ) . Error ,
ctxerror . New ( "Cannot got commit signatures from last block" ) .
WithCause ( err ) )
continue
}
viewID := node . Consensus . GetViewID ( )
// add aggregated commit signatures from last block, except for the first two blocks
err = node . Worker . UpdateCurrent ( coinbase )
if err != nil {
utils . GetLogger ( ) . Debug ( "Failed updating worker's state" , "Error" , err )
continue
}
newBlock , err = node . Worker . Commit ( sig , mask , viewID , coinbase )
if err != nil {
ctxerror . Log15 ( utils . GetLogger ( ) . Error ,
ctxerror . New ( "cannot commit new block" ) .
WithCause ( err ) )
continue
} else if err := node . proposeShardState ( newBlock ) ; err != nil {
ctxerror . Log15 ( utils . GetLogger ( ) . Error ,
ctxerror . New ( "cannot add shard state" ) .
WithCause ( err ) )
} else {
utils . GetLogInstance ( ) . Debug ( "Successfully proposed new block" , "blockNum" , newBlock . NumberU64 ( ) , "numTxs" , newBlock . Transactions ( ) . Len ( ) )
// Set deadline will be BlockPeriod from now at this place. Announce stage happens right after this.
deadline = time . Now ( ) . Add ( node . BlockPeriod )
// Send the new block to Consensus so it can be confirmed.
node . BlockChannel <- newBlock
break
}
}
}
}
} ( )
}
func ( node * Node ) proposeShardState ( block * types . Block ) error {
switch node . Consensus . ShardID {
case 0 :
return node . proposeBeaconShardState ( block )
default :
node . proposeLocalShardState ( block )
return nil
}
}
func ( node * Node ) proposeBeaconShardState ( block * types . Block ) error {
// TODO ek - replace this with variable epoch logic.
if ! core . IsEpochLastBlock ( block ) {
// We haven't reached the end of this epoch; don't propose yet.
return nil
}
nextEpoch := new ( big . Int ) . Add ( block . Header ( ) . Epoch , common . Big1 )
shardState , err := core . CalculateNewShardState (
node . Blockchain ( ) , nextEpoch , & node . CurrentStakes )
if err != nil {
return err
}
return block . AddShardState ( shardState )
}
func ( node * Node ) proposeLocalShardState ( block * types . Block ) {
logger := block . Logger ( utils . GetLogInstance ( ) )
getLogger := func ( ) log . Logger { return utils . WithCallerSkip ( logger , 1 ) }
// TODO ek – read this from beaconchain once BC sync is fixed
if node . nextShardState . master == nil {
getLogger ( ) . Debug ( "yet to receive master proposal from beaconchain" )
return
}
logger = logger . New (
"nextEpoch" , node . nextShardState . master . Epoch ,
"proposeTime" , node . nextShardState . proposeTime )
if time . Now ( ) . Before ( node . nextShardState . proposeTime ) {
getLogger ( ) . Debug ( "still waiting for shard state to propagate" )
return
}
masterShardState := node . nextShardState . master . ShardState
var localShardState types . ShardState
committee := masterShardState . FindCommitteeByID ( block . ShardID ( ) )
if committee != nil {
getLogger ( ) . Info ( "found local shard info; proposing it" )
localShardState = append ( localShardState , * committee )
} else {
getLogger ( ) . Info ( "beacon committee disowned us; proposing nothing" )
// Leave local proposal empty to signal the end of shard (disbanding).
}
err := block . AddShardState ( localShardState )
if err != nil {
getLogger ( ) . Error ( "Failed proposin local shard state" , "error" , err )
}
}