package types import ( "math" "testing" "time" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "github.com/tendermint/tendermint/crypto" "github.com/tendermint/tendermint/crypto/ed25519" "github.com/tendermint/tendermint/crypto/tmhash" tmrand "github.com/tendermint/tendermint/libs/rand" tmproto "github.com/tendermint/tendermint/proto/tendermint/types" ) type voteData struct { vote1 *Vote vote2 *Vote valid bool } var defaultVoteTime = time.Date(2019, 1, 1, 0, 0, 0, 0, time.UTC) func TestDuplicateVoteEvidence(t *testing.T) { val := NewMockPV() val2 := NewMockPV() blockID := makeBlockID([]byte("blockhash"), 1000, []byte("partshash")) blockID2 := makeBlockID([]byte("blockhash2"), 1000, []byte("partshash")) blockID3 := makeBlockID([]byte("blockhash"), 10000, []byte("partshash")) blockID4 := makeBlockID([]byte("blockhash"), 10000, []byte("partshash2")) const chainID = "mychain" vote1 := makeVote(t, val, chainID, 0, 10, 2, 1, blockID, defaultVoteTime) v1 := vote1.ToProto() err := val.SignVote(chainID, v1) require.NoError(t, err) badVote := makeVote(t, val, chainID, 0, 10, 2, 1, blockID, defaultVoteTime) bv := badVote.ToProto() err = val2.SignVote(chainID, bv) require.NoError(t, err) vote1.Signature = v1.Signature badVote.Signature = bv.Signature cases := []voteData{ {vote1, makeVote(t, val, chainID, 0, 10, 2, 1, blockID2, defaultVoteTime), true}, // different block ids {vote1, makeVote(t, val, chainID, 0, 10, 2, 1, blockID3, defaultVoteTime), true}, {vote1, makeVote(t, val, chainID, 0, 10, 2, 1, blockID4, defaultVoteTime), true}, {vote1, makeVote(t, val, chainID, 0, 10, 2, 1, blockID, defaultVoteTime), false}, // wrong block id {vote1, makeVote(t, val, "mychain2", 0, 10, 2, 1, blockID2, defaultVoteTime), false}, // wrong chain id {vote1, makeVote(t, val, chainID, 0, 11, 2, 1, blockID2, defaultVoteTime), false}, // wrong height {vote1, makeVote(t, val, chainID, 0, 10, 3, 1, blockID2, defaultVoteTime), false}, // wrong round {vote1, makeVote(t, val, chainID, 0, 10, 2, 2, blockID2, defaultVoteTime), false}, // wrong step {vote1, makeVote(t, val2, chainID, 0, 10, 2, 1, blockID, defaultVoteTime), false}, // wrong validator {vote1, makeVote(t, val2, chainID, 0, 10, 2, 1, blockID, time.Date(2020, 1, 1, 0, 0, 0, 0, time.UTC)), false}, {vote1, badVote, false}, // signed by wrong key } pubKey, err := val.GetPubKey() require.NoError(t, err) for _, c := range cases { ev := &DuplicateVoteEvidence{ VoteA: c.vote1, VoteB: c.vote2, Timestamp: defaultVoteTime, } if c.valid { assert.Nil(t, ev.Verify(chainID, pubKey), "evidence should be valid") } else { assert.NotNil(t, ev.Verify(chainID, pubKey), "evidence should be invalid") } } ev := randomDuplicatedVoteEvidence(t) assert.True(t, ev.Equal(ev)) assert.False(t, ev.Equal(&DuplicateVoteEvidence{})) } func TestEvidenceList(t *testing.T) { ev := randomDuplicatedVoteEvidence(t) evl := EvidenceList([]Evidence{ev}) assert.NotNil(t, evl.Hash()) assert.True(t, evl.Has(ev)) assert.False(t, evl.Has(&DuplicateVoteEvidence{})) } func TestMaxEvidenceBytes(t *testing.T) { val := NewMockPV() blockID := makeBlockID(tmhash.Sum([]byte("blockhash")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) blockID2 := makeBlockID(tmhash.Sum([]byte("blockhash2")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) maxTime := time.Date(9999, 0, 0, 0, 0, 0, 0, time.UTC) const chainID = "mychain" ev := &DuplicateVoteEvidence{ VoteA: makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, math.MaxInt32, math.MaxInt64, blockID, maxTime), VoteB: makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, math.MaxInt32, math.MaxInt64, blockID2, maxTime), } //TODO: Add other types of evidence to test and set MaxEvidenceBytes accordingly // evl := &LunaticValidatorEvidence{ // Header: makeHeaderRandom(), // Vote: makeVote(t, val, chainID, math.MaxInt64, math.MaxInt64, math.MaxInt64, math.MaxInt64, blockID2), // InvalidHeaderField: "", // } // signedHeader := SignedHeader{Header: makeHeaderRandom(), Commit: randCommit(time.Now())} // evc := &ConflictingHeadersEvidence{ // H1: &signedHeader, // H2: &signedHeader, // } testCases := []struct { testName string evidence Evidence }{ {"DuplicateVote", ev}, // {"LunaticValidatorEvidence", evl}, // {"ConflictingHeadersEvidence", evc}, } for _, tt := range testCases { pb, err := EvidenceToProto(tt.evidence) require.NoError(t, err, tt.testName) bz, err := pb.Marshal() require.NoError(t, err, tt.testName) assert.LessOrEqual(t, int64(len(bz)), MaxEvidenceBytes, tt.testName) } } func randomDuplicatedVoteEvidence(t *testing.T) *DuplicateVoteEvidence { val := NewMockPV() blockID := makeBlockID([]byte("blockhash"), 1000, []byte("partshash")) blockID2 := makeBlockID([]byte("blockhash2"), 1000, []byte("partshash")) const chainID = "mychain" return &DuplicateVoteEvidence{ VoteA: makeVote(t, val, chainID, 0, 10, 2, 1, blockID, defaultVoteTime), VoteB: makeVote(t, val, chainID, 0, 10, 2, 1, blockID2, defaultVoteTime.Add(1*time.Minute)), } } func TestDuplicateVoteEvidenceValidation(t *testing.T) { val := NewMockPV() blockID := makeBlockID(tmhash.Sum([]byte("blockhash")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) blockID2 := makeBlockID(tmhash.Sum([]byte("blockhash2")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) const chainID = "mychain" testCases := []struct { testName string malleateEvidence func(*DuplicateVoteEvidence) expectErr bool }{ {"Good DuplicateVoteEvidence", func(ev *DuplicateVoteEvidence) {}, false}, {"Nil vote A", func(ev *DuplicateVoteEvidence) { ev.VoteA = nil }, true}, {"Nil vote B", func(ev *DuplicateVoteEvidence) { ev.VoteB = nil }, true}, {"Nil votes", func(ev *DuplicateVoteEvidence) { ev.VoteA = nil ev.VoteB = nil }, true}, {"Invalid vote type", func(ev *DuplicateVoteEvidence) { ev.VoteA = makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, math.MaxInt32, 0, blockID2, defaultVoteTime) }, true}, {"Invalid vote order", func(ev *DuplicateVoteEvidence) { swap := ev.VoteA.Copy() ev.VoteA = ev.VoteB.Copy() ev.VoteB = swap }, true}, } for _, tc := range testCases { tc := tc t.Run(tc.testName, func(t *testing.T) { vote1 := makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, math.MaxInt32, 0x02, blockID, defaultVoteTime) vote2 := makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, math.MaxInt32, 0x02, blockID2, defaultVoteTime) ev := NewDuplicateVoteEvidence(vote1, vote2, vote1.Timestamp) tc.malleateEvidence(ev) assert.Equal(t, tc.expectErr, ev.ValidateBasic() != nil, "Validate Basic had an unexpected result") }) } } func TestMockEvidenceValidateBasic(t *testing.T) { goodEvidence := NewMockDuplicateVoteEvidence(int64(1), time.Now(), "mock-chain-id") assert.Nil(t, goodEvidence.ValidateBasic()) } func TestLunaticValidatorEvidence(t *testing.T) { var ( invalidBlockID = makeBlockIDRandom() header = makeHeaderRandom() altHeader = makeHeaderRandom() bTime, _ = time.Parse(time.RFC3339, "2006-01-02T15:04:05Z") val = NewMockPV() ) header.Time = bTime blockID := BlockID{ Hash: header.Hash(), PartSetHeader: PartSetHeader{ Total: 100, Hash: crypto.CRandBytes(tmhash.Size), }, } vote := makeVote(t, val, header.ChainID, 0, header.Height, 0, 2, blockID, defaultVoteTime) ev := NewLunaticValidatorEvidence(header, vote, "AppHash", bTime) //happy path assert.Equal(t, header.Height, ev.Height()) assert.Equal(t, bTime, ev.Time()) assert.EqualValues(t, vote.ValidatorAddress, ev.Address()) assert.NotEmpty(t, ev.Hash()) assert.NotEmpty(t, ev.Bytes()) assert.True(t, ev.Equal(ev)) pubKey, err := val.GetPubKey() require.NoError(t, err) assert.NoError(t, ev.Verify(header.ChainID, pubKey)) assert.NoError(t, ev.ValidateBasic()) assert.NotEmpty(t, ev.String()) assert.NoError(t, ev.VerifyHeader(altHeader)) // invalid evidence assert.Error(t, ev.Verify("other", pubKey)) privKey2 := ed25519.GenPrivKey() pubKey2 := privKey2.PubKey() assert.Error(t, ev.Verify(header.ChainID, pubKey2)) assert.Error(t, ev.VerifyHeader(header)) invalidVote := makeVote(t, val, header.ChainID, 0, header.Height, 0, 2, invalidBlockID, defaultVoteTime) invalidHeightVote := makeVote(t, val, header.ChainID, 0, header.Height+1, 0, 2, blockID, defaultVoteTime) emptyBlockVote := makeVote(t, val, header.ChainID, 0, header.Height, 0, 2, BlockID{}, defaultVoteTime) invalidLunaticEvidence := []*LunaticValidatorEvidence{ NewLunaticValidatorEvidence(header, invalidVote, "AppHash", header.Time), NewLunaticValidatorEvidence(header, invalidHeightVote, "AppHash", header.Time), NewLunaticValidatorEvidence(nil, vote, "AppHash", vote.Timestamp), NewLunaticValidatorEvidence(header, nil, "AppHash", header.Time), NewLunaticValidatorEvidence(header, vote, "other", header.Time), NewLunaticValidatorEvidence(header, emptyBlockVote, "AppHash", header.Time), } for idx, ev := range invalidLunaticEvidence { assert.Error(t, ev.ValidateBasic(), "#%d", idx) } } func TestConflictingHeadersEvidence(t *testing.T) { const ( chainID = "TestConflictingHeadersEvidence" height int64 = 37 ) var ( blockID = makeBlockIDRandom() header1 = makeHeaderRandom() header2 = makeHeaderRandom() ) header1.Height = height header1.LastBlockID = blockID header1.ChainID = chainID header2.Height = height header2.LastBlockID = blockID header2.ChainID = chainID voteSet1, valSet, vals := randVoteSet(height, 1, tmproto.PrecommitType, 10, 1) voteSet2 := NewVoteSet(chainID, height, 1, tmproto.PrecommitType, valSet) commit1, err := MakeCommit(BlockID{ Hash: header1.Hash(), PartSetHeader: PartSetHeader{ Total: 100, Hash: crypto.CRandBytes(tmhash.Size), }, }, height, 1, voteSet1, vals, time.Now()) require.NoError(t, err) commit2, err := MakeCommit(BlockID{ Hash: header2.Hash(), PartSetHeader: PartSetHeader{ Total: 100, Hash: crypto.CRandBytes(tmhash.Size), }, }, height, 1, voteSet2, vals, time.Now()) require.NoError(t, err) h1 := &SignedHeader{ Header: header1, Commit: commit1, } h2 := &SignedHeader{ Header: header2, Commit: commit2, } ev := NewConflictingHeadersEvidence(h1, h2) assert.Panics(t, func() { ev.Address() }) assert.Panics(t, func() { pubKey, _ := vals[0].GetPubKey() ev.Verify(chainID, pubKey) }) assert.Equal(t, height, ev.Height()) assert.Equal(t, ev.H2.Time, ev.Time()) assert.NotEmpty(t, ev.Hash()) assert.NotEmpty(t, ev.Bytes()) assert.NoError(t, ev.VerifyComposite(header1, valSet)) assert.True(t, ev.Equal(ev)) assert.NoError(t, ev.ValidateBasic()) assert.NotEmpty(t, ev.String()) } func TestPotentialAmnesiaEvidence(t *testing.T) { const ( chainID = "TestPotentialAmnesiaEvidence" height int64 = 37 ) var ( val = NewMockPV() val2 = NewMockPV() blockID = makeBlockID(tmhash.Sum([]byte("blockhash")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) blockID2 = makeBlockID(tmhash.Sum([]byte("blockhash2")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) vote1 = makeVote(t, val, chainID, 0, height, 0, 2, blockID, defaultVoteTime) vote2 = makeVote(t, val, chainID, 0, height, 1, 2, blockID2, defaultVoteTime.Add(1*time.Second)) vote3 = makeVote(t, val, chainID, 0, height, 2, 2, blockID, defaultVoteTime) ) ev := NewPotentialAmnesiaEvidence(vote1, vote2, vote1.Timestamp) assert.Equal(t, height, ev.Height()) assert.Equal(t, vote1.Timestamp, ev.Time()) assert.EqualValues(t, vote1.ValidatorAddress, ev.Address()) assert.NotEmpty(t, ev.Hash()) assert.NotEmpty(t, ev.Bytes()) pubKey, err := val.GetPubKey() require.NoError(t, err) assert.NoError(t, ev.Verify(chainID, pubKey)) assert.Error(t, ev.Verify("other", pubKey)) privKey2 := ed25519.GenPrivKey() pubKey2 := privKey2.PubKey() assert.Error(t, ev.Verify("other", pubKey2)) assert.True(t, ev.Equal(ev)) assert.NoError(t, ev.ValidateBasic()) assert.NotEmpty(t, ev.String()) ev2 := &PotentialAmnesiaEvidence{ VoteA: vote1, VoteB: vote2, HeightStamp: 5, } assert.True(t, ev.Equal(ev2)) assert.Equal(t, ev.Hash(), ev2.Hash()) ev3 := NewPotentialAmnesiaEvidence(vote2, vote1, vote1.Timestamp) assert.True(t, ev3.Equal(ev)) ev4 := &PotentialAmnesiaEvidence{ VoteA: vote3, VoteB: vote2, } assert.NoError(t, ev4.ValidateBasic()) assert.NotEqual(t, ev.Hash(), ev4.Hash()) assert.False(t, ev.Equal(ev4)) // bad evidence badEv := []*PotentialAmnesiaEvidence{ // first vote is for a later time than the second vote { VoteA: vote2, VoteB: vote1, }, // votes are for the same round { VoteA: vote1, VoteB: makeVote(t, val, chainID, 0, height, 0, 2, blockID2, defaultVoteTime.Add(1*time.Second)), }, // first vote was for a nil block - not locked { VoteA: makeVote(t, val, chainID, 0, height, 0, 2, BlockID{}, defaultVoteTime.Add(1*time.Second)), VoteB: vote2, }, // second vote is from a different validator { VoteA: vote1, VoteB: makeVote(t, val2, chainID, 0, height, 1, 2, blockID2, defaultVoteTime.Add(1*time.Second)), }, } for _, ev := range badEv { assert.Error(t, ev.ValidateBasic()) } } func TestProofOfLockChange(t *testing.T) { const ( chainID = "test_chain_id" height int64 = 37 ) // 1: valid POLC - nothing should fail voteSet, valSet, privValidators, blockID := buildVoteSet(height, 1, 3, 7, 0, tmproto.PrecommitType) pubKey, err := privValidators[7].GetPubKey() require.NoError(t, err) polc, err := NewPOLCFromVoteSet(voteSet, pubKey, blockID) assert.NoError(t, err) assert.Equal(t, height, polc.Height()) assert.NoError(t, polc.ValidateBasic()) assert.NoError(t, polc.ValidateVotes(valSet, chainID)) assert.NotEmpty(t, polc.String()) // tamper with one of the votes polc.Votes[0].Timestamp = time.Now().Add(1 * time.Second) err = polc.ValidateVotes(valSet, chainID) t.Log(err) assert.Error(t, err) // remove a vote such that majority wasn't reached polc.Votes = polc.Votes[1:] err = polc.ValidateVotes(valSet, chainID) t.Log(err) assert.Error(t, err) // test validate basic on a set of bad cases var badPOLCs []*ProofOfLockChange // 2: node has already voted in next round pubKey, err = privValidators[0].GetPubKey() require.NoError(t, err) polc2 := newPOLCFromVoteSet(voteSet, pubKey, blockID) badPOLCs = append(badPOLCs, polc2) // 3: one vote was from a different round voteSet, _, privValidators, blockID = buildVoteSet(height, 1, 3, 7, 0, tmproto.PrecommitType) pubKey, err = privValidators[7].GetPubKey() require.NoError(t, err) polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) badVote := makeVote(t, privValidators[8], chainID, 8, height, 2, 2, blockID, defaultVoteTime) polc.Votes = append(polc.Votes, badVote) badPOLCs = append(badPOLCs, polc) // 4: one vote was from a different height polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) badVote = makeVote(t, privValidators[8], chainID, 8, height+1, 1, 2, blockID, defaultVoteTime) polc.Votes = append(polc.Votes, badVote) badPOLCs = append(badPOLCs, polc) // 5: one vote was from a different vote type polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) badVote = makeVote(t, privValidators[8], chainID, 8, height, 1, 1, blockID, defaultVoteTime) polc.Votes = append(polc.Votes, badVote) badPOLCs = append(badPOLCs, polc) // 5: one of the votes was for a nil block polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) badVote = makeVote(t, privValidators[8], chainID, 8, height, 1, 2, BlockID{}, defaultVoteTime) polc.Votes = append(polc.Votes, badVote) badPOLCs = append(badPOLCs, polc) for idx, polc := range badPOLCs { err := polc.ValidateBasic() t.Logf("case: %d: %v", idx+2, err) assert.Error(t, err) if err == nil { t.Errorf("test no. %d failed", idx+2) } } } func TestAmnesiaEvidence(t *testing.T) { const ( chainID = "test_chain_id" height int64 = 37 ) voteSet, valSet, privValidators, blockID := buildVoteSet(height, 1, 2, 7, 0, tmproto.PrecommitType) var ( val = privValidators[7] pubKey, _ = val.GetPubKey() blockID2 = makeBlockID(tmhash.Sum([]byte("blockhash2")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) vote1 = makeVote(t, val, chainID, 7, height, 0, 2, blockID2, time.Now()) vote2 = makeVote(t, val, chainID, 7, height, 1, 2, blockID, time.Now().Add(time.Second)) vote3 = makeVote(t, val, chainID, 7, height, 2, 2, blockID2, time.Now()) polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) ) require.False(t, polc.IsAbsent()) pe := &PotentialAmnesiaEvidence{ VoteA: vote1, VoteB: vote2, } emptyAmnesiaEvidence := NewAmnesiaEvidence(pe, NewEmptyPOLC()) assert.NoError(t, emptyAmnesiaEvidence.ValidateBasic()) violated, reason := emptyAmnesiaEvidence.ViolatedConsensus() if assert.True(t, violated) { assert.Equal(t, reason, "no proof of lock was provided") } assert.NoError(t, emptyAmnesiaEvidence.Verify(chainID, pubKey)) completeAmnesiaEvidence := NewAmnesiaEvidence(pe, polc) assert.NoError(t, completeAmnesiaEvidence.ValidateBasic()) violated, reason = completeAmnesiaEvidence.ViolatedConsensus() if !assert.False(t, violated) { t.Log(reason) } assert.NoError(t, completeAmnesiaEvidence.Verify(chainID, pubKey)) assert.NoError(t, completeAmnesiaEvidence.Polc.ValidateVotes(valSet, chainID)) assert.True(t, completeAmnesiaEvidence.Equal(emptyAmnesiaEvidence)) assert.Equal(t, completeAmnesiaEvidence.Hash(), emptyAmnesiaEvidence.Hash()) assert.NotEmpty(t, completeAmnesiaEvidence.Hash()) assert.NotEmpty(t, completeAmnesiaEvidence.Bytes()) pe2 := &PotentialAmnesiaEvidence{ VoteA: vote3, VoteB: vote2, } // validator has incorrectly voted for a previous round after voting for a later round ae := NewAmnesiaEvidence(pe2, NewEmptyPOLC()) assert.NoError(t, ae.ValidateBasic()) violated, reason = ae.ViolatedConsensus() if assert.True(t, violated) { assert.Equal(t, reason, "validator went back and voted on a previous round") } var badAE []*AmnesiaEvidence // 1) Polc is at an incorrect height voteSet, _, _ = buildVoteSetForBlock(height+1, 1, 2, 7, 0, tmproto.PrecommitType, blockID) polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) badAE = append(badAE, NewAmnesiaEvidence(pe, polc)) // 2) Polc is of a later round voteSet, _, _ = buildVoteSetForBlock(height, 2, 2, 7, 0, tmproto.PrecommitType, blockID) polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) badAE = append(badAE, NewAmnesiaEvidence(pe, polc)) // 3) Polc has a different public key voteSet, _, privValidators = buildVoteSetForBlock(height, 1, 2, 7, 0, tmproto.PrecommitType, blockID) pubKey2, _ := privValidators[7].GetPubKey() polc = newPOLCFromVoteSet(voteSet, pubKey2, blockID) badAE = append(badAE, NewAmnesiaEvidence(pe, polc)) // 4) Polc has a different block ID voteSet, _, _, blockID = buildVoteSet(height, 1, 2, 7, 0, tmproto.PrecommitType) polc = newPOLCFromVoteSet(voteSet, pubKey, blockID) badAE = append(badAE, NewAmnesiaEvidence(pe, polc)) for idx, ae := range badAE { t.Log(ae.ValidateBasic()) if !assert.Error(t, ae.ValidateBasic()) { t.Errorf("test no. %d failed", idx+1) } } } func makeVote( t *testing.T, val PrivValidator, chainID string, valIndex int32, height int64, round int32, step int, blockID BlockID, time time.Time) *Vote { pubKey, err := val.GetPubKey() require.NoError(t, err) v := &Vote{ ValidatorAddress: pubKey.Address(), ValidatorIndex: valIndex, Height: height, Round: round, Type: tmproto.SignedMsgType(step), BlockID: blockID, Timestamp: time, } vpb := v.ToProto() err = val.SignVote(chainID, vpb) if err != nil { panic(err) } v.Signature = vpb.Signature return v } func makeHeaderRandom() *Header { return &Header{ ChainID: tmrand.Str(12), Height: int64(tmrand.Uint16()) + 1, Time: time.Now(), LastBlockID: makeBlockIDRandom(), LastCommitHash: crypto.CRandBytes(tmhash.Size), DataHash: crypto.CRandBytes(tmhash.Size), ValidatorsHash: crypto.CRandBytes(tmhash.Size), NextValidatorsHash: crypto.CRandBytes(tmhash.Size), ConsensusHash: crypto.CRandBytes(tmhash.Size), AppHash: crypto.CRandBytes(tmhash.Size), LastResultsHash: crypto.CRandBytes(tmhash.Size), EvidenceHash: crypto.CRandBytes(tmhash.Size), ProposerAddress: crypto.CRandBytes(crypto.AddressSize), } } func TestEvidenceProto(t *testing.T) { // -------- Votes -------- val := NewMockPV() blockID := makeBlockID(tmhash.Sum([]byte("blockhash")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) blockID2 := makeBlockID(tmhash.Sum([]byte("blockhash2")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) const chainID = "mychain" v := makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, 1, 0x01, blockID, defaultVoteTime) v2 := makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, 2, 0x01, blockID2, defaultVoteTime) // -------- SignedHeaders -------- const height int64 = 37 var ( header1 = makeHeaderRandom() header2 = makeHeaderRandom() ) header1.Height = height header1.LastBlockID = blockID header1.ChainID = chainID header2.Height = height header2.LastBlockID = blockID header2.ChainID = chainID voteSet1, valSet, vals := randVoteSet(height, 1, tmproto.PrecommitType, 10, 1) voteSet2 := NewVoteSet(chainID, height, 1, tmproto.PrecommitType, valSet) commit1, err := MakeCommit(BlockID{ Hash: header1.Hash(), PartSetHeader: PartSetHeader{ Total: 100, Hash: crypto.CRandBytes(tmhash.Size), }, }, height, 1, voteSet1, vals, time.Now()) require.NoError(t, err) commit2, err := MakeCommit(BlockID{ Hash: header2.Hash(), PartSetHeader: PartSetHeader{ Total: 100, Hash: crypto.CRandBytes(tmhash.Size), }, }, height, 1, voteSet2, vals, time.Now()) require.NoError(t, err) h1 := &SignedHeader{ Header: header1, Commit: commit1, } h2 := &SignedHeader{ Header: header2, Commit: commit2, } tests := []struct { testName string evidence Evidence toProtoErr bool fromProtoErr bool }{ {"nil fail", nil, true, true}, {"DuplicateVoteEvidence empty fail", &DuplicateVoteEvidence{}, false, true}, {"DuplicateVoteEvidence nil voteB", &DuplicateVoteEvidence{VoteA: v, VoteB: nil}, false, true}, {"DuplicateVoteEvidence nil voteA", &DuplicateVoteEvidence{VoteA: nil, VoteB: v}, false, true}, {"DuplicateVoteEvidence success", &DuplicateVoteEvidence{VoteA: v2, VoteB: v}, false, false}, {"ConflictingHeadersEvidence empty fail", &ConflictingHeadersEvidence{}, false, true}, {"ConflictingHeadersEvidence nil H2", &ConflictingHeadersEvidence{H1: h1, H2: nil}, false, true}, {"ConflictingHeadersEvidence nil H1", &ConflictingHeadersEvidence{H1: nil, H2: h2}, false, true}, {"ConflictingHeadersEvidence success", &ConflictingHeadersEvidence{H1: h1, H2: h2}, false, false}, {"LunaticValidatorEvidence success", &LunaticValidatorEvidence{Header: header1, Vote: v, InvalidHeaderField: "ValidatorsHash"}, false, true}, {"&LunaticValidatorEvidence empty fail", &LunaticValidatorEvidence{}, false, true}, {"LunaticValidatorEvidence only header fail", &LunaticValidatorEvidence{Header: header1}, false, true}, {"LunaticValidatorEvidence only vote fail", &LunaticValidatorEvidence{Vote: v}, false, true}, {"LunaticValidatorEvidence header & vote fail", &LunaticValidatorEvidence{Header: header1, Vote: v}, false, true}, {"LunaticValidatorEvidence empty fail", &LunaticValidatorEvidence{}, false, true}, {"PotentialAmnesiaEvidence empty fail", &PotentialAmnesiaEvidence{}, false, true}, {"PotentialAmnesiaEvidence nil VoteB", &PotentialAmnesiaEvidence{VoteA: v, VoteB: nil}, false, true}, {"PotentialAmnesiaEvidence nil VoteA", &PotentialAmnesiaEvidence{VoteA: nil, VoteB: v2}, false, true}, {"PotentialAmnesiaEvidence success", &PotentialAmnesiaEvidence{VoteA: v2, VoteB: v}, false, false}, {"AmnesiaEvidence nil ProofOfLockChange", &AmnesiaEvidence{PotentialAmnesiaEvidence: &PotentialAmnesiaEvidence{}, Polc: NewEmptyPOLC()}, false, true}, {"AmnesiaEvidence nil Polc", &AmnesiaEvidence{PotentialAmnesiaEvidence: &PotentialAmnesiaEvidence{VoteA: v2, VoteB: v}, Polc: &ProofOfLockChange{}}, false, false}, {"AmnesiaEvidence success", &AmnesiaEvidence{PotentialAmnesiaEvidence: &PotentialAmnesiaEvidence{VoteA: v2, VoteB: v}, Polc: NewEmptyPOLC()}, false, false}, } for _, tt := range tests { tt := tt t.Run(tt.testName, func(t *testing.T) { pb, err := EvidenceToProto(tt.evidence) if tt.toProtoErr { assert.Error(t, err, tt.testName) return } assert.NoError(t, err, tt.testName) evi, err := EvidenceFromProto(pb) if tt.fromProtoErr { assert.Error(t, err, tt.testName) return } require.Equal(t, tt.evidence, evi, tt.testName) }) } } func TestProofOfLockChangeProtoBuf(t *testing.T) { // -------- Votes -------- val := NewMockPV() val2 := NewMockPV() val3 := NewMockPV() blockID := makeBlockID(tmhash.Sum([]byte("blockhash")), math.MaxInt32, tmhash.Sum([]byte("partshash"))) const chainID = "mychain" v := makeVote(t, val, chainID, math.MaxInt32, math.MaxInt64, 1, 0x01, blockID, defaultVoteTime) v2 := makeVote(t, val2, chainID, math.MaxInt32, math.MaxInt64, 1, 0x01, blockID, defaultVoteTime) testCases := []struct { msg string polc *ProofOfLockChange toProtoErr bool fromProtoErr bool }{ {"failure, empty key", &ProofOfLockChange{Votes: []*Vote{v, v2}, PubKey: nil}, true, false}, {"failure, empty votes", &ProofOfLockChange{PubKey: val3.PrivKey.PubKey()}, true, false}, {"success empty ProofOfLockChange", NewEmptyPOLC(), false, false}, {"success", &ProofOfLockChange{Votes: []*Vote{v, v2}, PubKey: val3.PrivKey.PubKey()}, false, false}, } for _, tc := range testCases { tc := tc pbpolc, err := tc.polc.ToProto() if tc.toProtoErr { assert.Error(t, err, tc.msg) } else { assert.NoError(t, err, tc.msg) } c, err := ProofOfLockChangeFromProto(pbpolc) if !tc.fromProtoErr { assert.NoError(t, err, tc.msg) if !tc.toProtoErr { assert.Equal(t, tc.polc, c, tc.msg) } } else { assert.Error(t, err, tc.msg) } } }