The core protocol of WoopChain
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woop/core/resharding_test.go

150 lines
4.5 KiB

package core
import (
"fmt"
"math/rand"
"strconv"
"testing"
"github.com/ethereum/go-ethereum/common"
"github.com/harmony-one/harmony/shard"
"github.com/stretchr/testify/assert"
)
var (
blsPubKey1 = [48]byte{}
blsPubKey2 = [48]byte{}
blsPubKey3 = [48]byte{}
blsPubKey4 = [48]byte{}
blsPubKey5 = [48]byte{}
blsPubKey6 = [48]byte{}
blsPubKey7 = [48]byte{}
blsPubKey8 = [48]byte{}
blsPubKey9 = [48]byte{}
blsPubKey10 = [48]byte{}
)
func init() {
copy(blsPubKey1[:], []byte("random key 1"))
copy(blsPubKey2[:], []byte("random key 2"))
copy(blsPubKey3[:], []byte("random key 3"))
copy(blsPubKey4[:], []byte("random key 4"))
copy(blsPubKey5[:], []byte("random key 5"))
copy(blsPubKey6[:], []byte("random key 6"))
copy(blsPubKey7[:], []byte("random key 7"))
copy(blsPubKey8[:], []byte("random key 8"))
copy(blsPubKey9[:], []byte("random key 9"))
copy(blsPubKey10[:], []byte("random key 10"))
}
func fakeGetInitShardState(numberOfShards, numOfNodes int) shard.State {
rand.Seed(int64(42))
shardState := shard.State{}
for i := 0; i < numberOfShards; i++ {
sid := uint32(i)
com := shard.Committee{ShardID: sid}
for j := 0; j < numOfNodes; j++ {
nid := strconv.Itoa(int(rand.Int63()))
blsPubKey := [48]byte{}
copy(blsPubKey1[:], []byte(nid))
com.NodeList = append(com.NodeList, shard.NodeID{
EcdsaAddress: common.BytesToAddress([]byte(nid)),
BlsPublicKey: blsPubKey,
})
}
shardState = append(shardState, com)
}
return shardState
}
func fakeNewNodeList(seed int64) []shard.NodeID {
rand.Seed(seed)
numNewNodes := rand.Intn(10)
nodeList := []shard.NodeID{}
for i := 0; i < numNewNodes; i++ {
nid := strconv.Itoa(int(rand.Int63()))
blsPubKey := [48]byte{}
copy(blsPubKey1[:], []byte(nid))
nodeList = append(nodeList, shard.NodeID{
EcdsaAddress: common.BytesToAddress([]byte(nid)),
BlsPublicKey: blsPubKey,
})
}
return nodeList
}
func TestFakeNewNodeList(t *testing.T) {
nodeList := fakeNewNodeList(42)
fmt.Println("newNodeList: ", nodeList)
}
func TestShuffle(t *testing.T) {
nodeList := []shard.NodeID{
{EcdsaAddress: common.Address{0x12}, BlsPublicKey: blsPubKey1},
{EcdsaAddress: common.Address{0x22}, BlsPublicKey: blsPubKey2},
{EcdsaAddress: common.Address{0x32}, BlsPublicKey: blsPubKey3},
{EcdsaAddress: common.Address{0x42}, BlsPublicKey: blsPubKey4},
{EcdsaAddress: common.Address{0x52}, BlsPublicKey: blsPubKey5},
{EcdsaAddress: common.Address{0x62}, BlsPublicKey: blsPubKey6},
{EcdsaAddress: common.Address{0x72}, BlsPublicKey: blsPubKey7},
{EcdsaAddress: common.Address{0x82}, BlsPublicKey: blsPubKey8},
{EcdsaAddress: common.Address{0x92}, BlsPublicKey: blsPubKey9},
{EcdsaAddress: common.Address{0x02}, BlsPublicKey: blsPubKey10},
6 years ago
}
cpList := []shard.NodeID{}
cpList = append(cpList, nodeList...)
Shuffle(nodeList)
cnt := 0
for i := 0; i < 10; i++ {
if cpList[i] == nodeList[i] {
cnt++
}
}
if cnt == 10 {
t.Error("Shuffle list is the same as original list")
}
return
}
func TestSortCommitteeBySize(t *testing.T) {
shardState := fakeGetInitShardState(6, 10)
ss := &ShardingState{epoch: 1, rnd: 42, shardState: shardState, numShards: len(shardState)}
ss.sortCommitteeBySize()
for i := 0; i < ss.numShards-1; i++ {
assert.Equal(t, true, len(ss.shardState[i].NodeList) >= len(ss.shardState[i+1].NodeList))
}
}
func TestUpdateShardState(t *testing.T) {
shardState := fakeGetInitShardState(6, 10)
ss := &ShardingState{epoch: 1, rnd: 42, shardState: shardState, numShards: len(shardState)}
newNodeList := []shard.NodeID{
{EcdsaAddress: common.Address{0x12}, BlsPublicKey: blsPubKey1},
{EcdsaAddress: common.Address{0x22}, BlsPublicKey: blsPubKey2},
{EcdsaAddress: common.Address{0x32}, BlsPublicKey: blsPubKey3},
{EcdsaAddress: common.Address{0x42}, BlsPublicKey: blsPubKey4},
{EcdsaAddress: common.Address{0x52}, BlsPublicKey: blsPubKey5},
{EcdsaAddress: common.Address{0x62}, BlsPublicKey: blsPubKey6},
}
ss.Reshard(newNodeList, 0.2)
assert.Equal(t, 6, ss.numShards)
}
func TestAssignNewNodes(t *testing.T) {
shardState := fakeGetInitShardState(2, 2)
ss := &ShardingState{epoch: 1, rnd: 42, shardState: shardState, numShards: len(shardState)}
newNodes := []shard.NodeID{
{EcdsaAddress: common.Address{0x12}, BlsPublicKey: blsPubKey1},
{EcdsaAddress: common.Address{0x22}, BlsPublicKey: blsPubKey2},
{EcdsaAddress: common.Address{0x32}, BlsPublicKey: blsPubKey3},
}
ss.assignNewNodes(newNodes)
assert.Equal(t, 2, ss.numShards)
assert.Equal(t, 5, len(ss.shardState[0].NodeList))
}