package consensus import ( "testing" "github.com/harmony-one/harmony/crypto/bls" bls_core "github.com/harmony-one/bls/ffi/go/bls" harmony_bls "github.com/harmony-one/harmony/crypto/bls" "github.com/stretchr/testify/assert" ) func TestBasicViewChanging(t *testing.T) { _, _, consensus, _, err := GenerateConsensusForTesting() assert.NoError(t, err) state := State{mode: Normal} // Change Mode assert.Equal(t, state.mode, consensus.current.mode) assert.Equal(t, state.Mode(), consensus.current.Mode()) consensus.current.SetMode(ViewChanging) assert.Equal(t, ViewChanging, consensus.current.mode) assert.Equal(t, ViewChanging, consensus.current.Mode()) // Change ViewID assert.Equal(t, state.GetViewChangingID(), consensus.current.GetViewChangingID()) newViewID := consensus.current.GetViewChangingID() + 1 consensus.SetViewIDs(newViewID) assert.Equal(t, newViewID, consensus.current.GetViewChangingID()) } func TestPhaseSwitching(t *testing.T) { type phaseSwitch struct { start FBFTPhase end FBFTPhase } phases := []FBFTPhase{FBFTAnnounce, FBFTPrepare, FBFTCommit} _, _, consensus, _, err := GenerateConsensusForTesting() assert.NoError(t, err) assert.Equal(t, FBFTAnnounce, consensus.phase.Get()) // It's a new consensus, we should be at the FBFTAnnounce phase. switches := []phaseSwitch{ {start: FBFTAnnounce, end: FBFTPrepare}, {start: FBFTPrepare, end: FBFTCommit}, {start: FBFTCommit, end: FBFTAnnounce}, } for _, sw := range switches { testPhaseGroupSwitching(t, consensus, phases, sw.start, sw.end) } for _, sw := range switches { testPhaseGroupSwitching(t, consensus, phases, sw.start, sw.end) } switches = []phaseSwitch{ {start: FBFTAnnounce, end: FBFTCommit}, {start: FBFTPrepare, end: FBFTAnnounce}, {start: FBFTCommit, end: FBFTPrepare}, } for _, sw := range switches { testPhaseGroupSwitching(t, consensus, phases, sw.start, sw.end) } } func testPhaseGroupSwitching(t *testing.T, consensus *Consensus, phases []FBFTPhase, startPhase FBFTPhase, desiredPhase FBFTPhase) { for range phases { consensus.switchPhase("test", desiredPhase) assert.Equal(t, desiredPhase, consensus.phase.Get()) } assert.Equal(t, desiredPhase, consensus.phase.Get()) return } func TestGetNextLeaderKeyShouldFailForStandardGeneratedConsensus(t *testing.T) { _, _, consensus, _, err := GenerateConsensusForTesting() assert.NoError(t, err) // The below results in: "panic: runtime error: integer divide by zero" // This happens because there's no check for if there are any participants or not in https://github.com/harmony-one/harmony/blob/main/consensus/quorum/quorum.go#L188-L197 assert.Panics(t, func() { consensus.getNextLeaderKey(uint64(1)) }) } func TestGetNextLeaderKeyShouldSucceed(t *testing.T) { _, _, consensus, _, err := GenerateConsensusForTesting() assert.NoError(t, err) assert.Equal(t, int64(0), consensus.Decider.ParticipantsCount()) blsKeys := []*bls_core.PublicKey{} wrappedBLSKeys := []bls.PublicKeyWrapper{} keyCount := int64(5) for i := int64(0); i < keyCount; i++ { blsKey := harmony_bls.RandPrivateKey() blsPubKey := blsKey.GetPublicKey() bytes := bls.SerializedPublicKey{} bytes.FromLibBLSPublicKey(blsPubKey) wrapped := bls.PublicKeyWrapper{Object: blsPubKey, Bytes: bytes} blsKeys = append(blsKeys, blsPubKey) wrappedBLSKeys = append(wrappedBLSKeys, wrapped) } consensus.Decider.UpdateParticipants(wrappedBLSKeys, []bls.PublicKeyWrapper{}) assert.Equal(t, keyCount, consensus.Decider.ParticipantsCount()) consensus.LeaderPubKey = &wrappedBLSKeys[0] nextKey := consensus.getNextLeaderKey(uint64(1)) assert.Equal(t, nextKey, &wrappedBLSKeys[1]) }