The core protocol of WoopChain
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woop/node/node_handler_test.go

180 lines
5.4 KiB

package node
import (
"math/big"
"testing"
"github.com/ethereum/go-ethereum/common"
"github.com/harmony-one/harmony/consensus"
"github.com/harmony-one/harmony/consensus/quorum"
"github.com/harmony-one/harmony/core/types"
"github.com/harmony-one/harmony/crypto/bls"
nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
"github.com/harmony-one/harmony/internal/utils"
"github.com/harmony-one/harmony/multibls"
"github.com/harmony-one/harmony/p2p"
"github.com/harmony-one/harmony/shard"
staking "github.com/harmony-one/harmony/staking/types"
)
func TestAddNewBlock(t *testing.T) {
blsKey := bls.RandPrivateKey()
pubKey := blsKey.GetPublicKey()
leader := p2p.Peer{IP: "127.0.0.1", Port: "9882", ConsensusPubKey: pubKey}
priKey, _, _ := utils.GenKeyP2P("127.0.0.1", "9902")
host, err := p2p.NewHost(p2p.HostConfig{
Self: &leader,
BLSKey: priKey,
})
if err != nil {
t.Fatalf("newhost failure: %v", err)
}
decider := quorum.NewDecider(
quorum.SuperMajorityVote, shard.BeaconChainShardID,
)
consensus, err := consensus.New(
host, shard.BeaconChainShardID, leader, multibls.GetPrivateKeys(blsKey), decider,
)
if err != nil {
t.Fatalf("Cannot craeate consensus: %v", err)
}
nodeconfig.SetNetworkType(nodeconfig.Devnet)
node := New(host, consensus, testDBFactory, nil, nil, nil, nil)
txs := make(map[common.Address]types.Transactions)
stks := staking.StakingTransactions{}
node.Worker.CommitTransactions(
txs, stks, common.Address{},
)
commitSigs := make(chan []byte)
go func() {
commitSigs <- []byte{}
}()
block, _ := node.Worker.FinalizeNewBlock(
commitSigs, func() uint64 { return 0 }, common.Address{}, nil, nil,
)
_, err = node.Blockchain().InsertChain([]*types.Block{block}, true)
if err != nil {
t.Errorf("error when adding new block %v", err)
}
if node.Blockchain().CurrentBlock().NumberU64() != 1 {
t.Error("New block is not added successfully")
}
}
func TestVerifyNewBlock(t *testing.T) {
blsKey := bls.RandPrivateKey()
pubKey := blsKey.GetPublicKey()
leader := p2p.Peer{IP: "127.0.0.1", Port: "8882", ConsensusPubKey: pubKey}
priKey, _, _ := utils.GenKeyP2P("127.0.0.1", "9902")
host, err := p2p.NewHost(p2p.HostConfig{
Self: &leader,
BLSKey: priKey,
})
if err != nil {
t.Fatalf("newhost failure: %v", err)
}
decider := quorum.NewDecider(
quorum.SuperMajorityVote, shard.BeaconChainShardID,
)
consensus, err := consensus.New(
host, shard.BeaconChainShardID, leader, multibls.GetPrivateKeys(blsKey), decider,
)
if err != nil {
t.Fatalf("Cannot craeate consensus: %v", err)
}
archiveMode := make(map[uint32]bool)
archiveMode[0] = true
archiveMode[1] = false
node := New(host, consensus, testDBFactory, nil, nil, archiveMode, nil)
txs := make(map[common.Address]types.Transactions)
stks := staking.StakingTransactions{}
node.Worker.CommitTransactions(
txs, stks, common.Address{},
)
commitSigs := make(chan []byte)
go func() {
commitSigs <- []byte{}
}()
block, _ := node.Worker.FinalizeNewBlock(
commitSigs, func() uint64 { return 0 }, common.Address{}, nil, nil,
)
// work around vrf verification as it's tested in another test.
node.Blockchain().Config().VRFEpoch = big.NewInt(2)
if err := node.VerifyNewBlock(block); err != nil {
t.Error("New block is not verified successfully:", err)
}
}
func TestVerifyVRF(t *testing.T) {
blsKey := bls.RandPrivateKey()
pubKey := blsKey.GetPublicKey()
leader := p2p.Peer{IP: "127.0.0.1", Port: "8882", ConsensusPubKey: pubKey}
priKey, _, _ := utils.GenKeyP2P("127.0.0.1", "9902")
host, err := p2p.NewHost(p2p.HostConfig{
Self: &leader,
BLSKey: priKey,
})
if err != nil {
t.Fatalf("newhost failure: %v", err)
}
decider := quorum.NewDecider(
quorum.SuperMajorityVote, shard.BeaconChainShardID,
)
consensus, err := consensus.New(
host, shard.BeaconChainShardID, leader, multibls.GetPrivateKeys(blsKey), decider,
)
if err != nil {
t.Fatalf("Cannot craeate consensus: %v", err)
}
archiveMode := make(map[uint32]bool)
archiveMode[0] = true
archiveMode[1] = false
node := New(host, consensus, testDBFactory, nil, nil, archiveMode, nil)
consensus.Blockchain = node.Blockchain()
txs := make(map[common.Address]types.Transactions)
stks := staking.StakingTransactions{}
node.Worker.CommitTransactions(
txs, stks, common.Address{},
)
commitSigs := make(chan []byte)
go func() {
commitSigs <- []byte{}
}()
ecdsaAddr := pubKey.GetAddress()
shardState := &shard.State{}
com := shard.Committee{ShardID: uint32(0)}
spKey := bls.SerializedPublicKey{}
spKey.FromLibBLSPublicKey(pubKey)
curNodeID := shard.Slot{
EcdsaAddress: ecdsaAddr,
BLSPublicKey: spKey,
}
com.Slots = append(com.Slots, curNodeID)
shardState.Epoch = big.NewInt(1)
shardState.Shards = append(shardState.Shards, com)
node.Consensus.LeaderPubKey = &bls.PublicKeyWrapper{Bytes: spKey, Object: pubKey}
node.Worker.GetCurrentHeader().SetEpoch(big.NewInt(1))
node.Consensus.GenerateVrfAndProof(node.Worker.GetCurrentHeader())
block, _ := node.Worker.FinalizeNewBlock(
commitSigs, func() uint64 { return 0 }, ecdsaAddr, nil, shardState,
)
// Write shard state for the new epoch
node.Blockchain().WriteShardStateBytes(node.Blockchain().ChainDb(), big.NewInt(1), node.Worker.GetCurrentHeader().ShardState())
node.Blockchain().Config().VRFEpoch = big.NewInt(0)
if err := node.Blockchain().Engine().VerifyVRF(
node.Blockchain(), block.Header(),
); err != nil {
t.Error("New vrf is not verified successfully:", err)
}
}