package votepower import ( "math/big" "math/rand" "testing" "github.com/ethereum/go-ethereum/common" "github.com/harmony-one/bls/ffi/go/bls" "github.com/harmony-one/harmony/numeric" "github.com/harmony-one/harmony/shard" ) var ( slotList shard.SlotList totalStake numeric.Dec harmonyNodes = 10 stakedNodes = 10 maxAccountGen = int64(98765654323123134) accountGen = rand.New(rand.NewSource(1337)) maxKeyGen = int64(98765654323123134) keyGen = rand.New(rand.NewSource(42)) maxStakeGen = int64(200) stakeGen = rand.New(rand.NewSource(541)) ) func init() { for i := 0; i < harmonyNodes; i++ { newSlot := generateRandomSlot() newSlot.EffectiveStake = nil slotList = append(slotList, newSlot) } totalStake = numeric.ZeroDec() for j := 0; j < stakedNodes; j++ { newSlot := generateRandomSlot() totalStake = totalStake.Add(*newSlot.EffectiveStake) slotList = append(slotList, newSlot) } } func generateRandomSlot() shard.Slot { addr := common.Address{} addr.SetBytes(big.NewInt(int64(accountGen.Int63n(maxAccountGen))).Bytes()) secretKey := bls.SecretKey{} secretKey.Deserialize(big.NewInt(int64(keyGen.Int63n(maxKeyGen))).Bytes()) key := shard.BlsPublicKey{} key.FromLibBLSPublicKey(secretKey.GetPublicKey()) stake := numeric.NewDecFromBigInt(big.NewInt(int64(stakeGen.Int63n(maxStakeGen)))) return shard.Slot{addr, key, &stake} } func TestCompute(t *testing.T) { expectedRoster := NewRoster(shard.BeaconChainShardID) // Calculated when generated expectedRoster.TotalEffectiveStake = totalStake expectedRoster.HMYSlotCount = int64(harmonyNodes) asDecHMYSlotCount := numeric.NewDec(expectedRoster.HMYSlotCount) ourPercentage := numeric.ZeroDec() theirPercentage := numeric.ZeroDec() staked := slotList for i := range staked { member := AccommodateHarmonyVote{ PureStakedVote: PureStakedVote{ EarningAccount: staked[i].EcdsaAddress, Identity: staked[i].BlsPublicKey, GroupPercent: numeric.ZeroDec(), EffectiveStake: numeric.ZeroDec(), }, OverallPercent: numeric.ZeroDec(), IsHarmonyNode: false, } // Real Staker if e := staked[i].EffectiveStake; e != nil { member.EffectiveStake = member.EffectiveStake.Add(*e) member.GroupPercent = e.Quo(expectedRoster.TotalEffectiveStake) member.OverallPercent = member.GroupPercent.Mul(StakersShare) theirPercentage = theirPercentage.Add(member.OverallPercent) } else { // Our node member.IsHarmonyNode = true member.OverallPercent = HarmonysShare.Quo(asDecHMYSlotCount) member.GroupPercent = member.OverallPercent.Quo(HarmonysShare) ourPercentage = ourPercentage.Add(member.OverallPercent) } expectedRoster.Voters[staked[i].BlsPublicKey] = &member } expectedRoster.OurVotingPowerTotalPercentage = ourPercentage expectedRoster.TheirVotingPowerTotalPercentage = theirPercentage computedRoster, err := Compute(&shard.Committee{ shard.BeaconChainShardID, slotList, }) if err != nil { t.Error("Computed Roster failed on vote summation to one") } if !compareRosters(expectedRoster, computedRoster, t) { t.Errorf("Compute Roster mismatch with expected Roster") } // Check that voting percents sum to 100 if !computedRoster.OurVotingPowerTotalPercentage.Add( computedRoster.TheirVotingPowerTotalPercentage, ).Equal(numeric.OneDec()) { t.Errorf( "Total voting power does not equal 1. Harmony voting power: %s, Staked voting power: %s", computedRoster.OurVotingPowerTotalPercentage, computedRoster.TheirVotingPowerTotalPercentage, ) } } func compareRosters(a, b *Roster, t *testing.T) bool { voterMatch := true for k, voter := range a.Voters { if other, exists := b.Voters[k]; exists { if !compareStakedVoter(voter, other) { t.Error("voter slot not match") voterMatch = false } } else { t.Error("computed roster missing") voterMatch = false } } return a.OurVotingPowerTotalPercentage.Equal(b.OurVotingPowerTotalPercentage) && a.TheirVotingPowerTotalPercentage.Equal(b.TheirVotingPowerTotalPercentage) && a.TotalEffectiveStake.Equal(b.TotalEffectiveStake) && a.HMYSlotCount == b.HMYSlotCount && voterMatch } func compareStakedVoter(a, b *AccommodateHarmonyVote) bool { return a.IsHarmonyNode == b.IsHarmonyNode && a.EarningAccount == b.EarningAccount && a.OverallPercent.Equal(b.OverallPercent) && a.EffectiveStake.Equal(b.EffectiveStake) }