package state import ( "bytes" "fmt" "math" "math/big" "testing" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/crypto" "github.com/tendermint/tendermint/crypto/ed25519" cmn "github.com/tendermint/tendermint/libs/common" dbm "github.com/tendermint/tendermint/libs/db" cfg "github.com/tendermint/tendermint/config" "github.com/tendermint/tendermint/types" ) // setupTestCase does setup common to all test cases. func setupTestCase(t *testing.T) (func(t *testing.T), dbm.DB, State) { config := cfg.ResetTestRoot("state_") dbType := dbm.DBBackendType(config.DBBackend) stateDB := dbm.NewDB("state", dbType, config.DBDir()) state, err := LoadStateFromDBOrGenesisFile(stateDB, config.GenesisFile()) assert.NoError(t, err, "expected no error on LoadStateFromDBOrGenesisFile") tearDown := func(t *testing.T) {} return tearDown, stateDB, state } // TestStateCopy tests the correct copying behaviour of State. func TestStateCopy(t *testing.T) { tearDown, _, state := setupTestCase(t) defer tearDown(t) // nolint: vetshadow assert := assert.New(t) stateCopy := state.Copy() assert.True(state.Equals(stateCopy), fmt.Sprintf("expected state and its copy to be identical.\ngot: %v\nexpected: %v\n", stateCopy, state)) stateCopy.LastBlockHeight++ assert.False(state.Equals(stateCopy), fmt.Sprintf(`expected states to be different. got same %v`, state)) } //TestMakeGenesisStateNilValidators tests state's consistency when genesis file's validators field is nil. func TestMakeGenesisStateNilValidators(t *testing.T) { doc := types.GenesisDoc{ ChainID: "dummy", Validators: nil, } require.Nil(t, doc.ValidateAndComplete()) state, err := MakeGenesisState(&doc) require.Nil(t, err) require.Equal(t, 0, len(state.Validators.Validators)) require.Equal(t, 0, len(state.NextValidators.Validators)) } // TestStateSaveLoad tests saving and loading State from a db. func TestStateSaveLoad(t *testing.T) { tearDown, stateDB, state := setupTestCase(t) defer tearDown(t) // nolint: vetshadow assert := assert.New(t) state.LastBlockHeight++ SaveState(stateDB, state) loadedState := LoadState(stateDB) assert.True(state.Equals(loadedState), fmt.Sprintf("expected state and its copy to be identical.\ngot: %v\nexpected: %v\n", loadedState, state)) } // TestABCIResponsesSaveLoad tests saving and loading ABCIResponses. func TestABCIResponsesSaveLoad1(t *testing.T) { tearDown, stateDB, state := setupTestCase(t) defer tearDown(t) // nolint: vetshadow assert := assert.New(t) state.LastBlockHeight++ // Build mock responses. block := makeBlock(state, 2) abciResponses := NewABCIResponses(block) abciResponses.DeliverTx[0] = &abci.ResponseDeliverTx{Data: []byte("foo"), Tags: nil} abciResponses.DeliverTx[1] = &abci.ResponseDeliverTx{Data: []byte("bar"), Log: "ok", Tags: nil} abciResponses.EndBlock = &abci.ResponseEndBlock{ValidatorUpdates: []abci.ValidatorUpdate{ types.TM2PB.NewValidatorUpdate(ed25519.GenPrivKey().PubKey(), 10), }} saveABCIResponses(stateDB, block.Height, abciResponses) loadedABCIResponses, err := LoadABCIResponses(stateDB, block.Height) assert.Nil(err) assert.Equal(abciResponses, loadedABCIResponses, fmt.Sprintf("ABCIResponses don't match:\ngot: %v\nexpected: %v\n", loadedABCIResponses, abciResponses)) } // TestResultsSaveLoad tests saving and loading ABCI results. func TestABCIResponsesSaveLoad2(t *testing.T) { tearDown, stateDB, _ := setupTestCase(t) defer tearDown(t) // nolint: vetshadow assert := assert.New(t) cases := [...]struct { // Height is implied to equal index+2, // as block 1 is created from genesis. added []*abci.ResponseDeliverTx expected types.ABCIResults }{ 0: { nil, nil, }, 1: { []*abci.ResponseDeliverTx{ {Code: 32, Data: []byte("Hello"), Log: "Huh?"}, }, types.ABCIResults{ {32, []byte("Hello")}, }}, 2: { []*abci.ResponseDeliverTx{ {Code: 383}, {Data: []byte("Gotcha!"), Tags: []cmn.KVPair{ {Key: []byte("a"), Value: []byte("1")}, {Key: []byte("build"), Value: []byte("stuff")}, }}, }, types.ABCIResults{ {383, nil}, {0, []byte("Gotcha!")}, }}, 3: { nil, nil, }, } // Query all before, this should return error. for i := range cases { h := int64(i + 1) res, err := LoadABCIResponses(stateDB, h) assert.Error(err, "%d: %#v", i, res) } // Add all cases. for i, tc := range cases { h := int64(i + 1) // last block height, one below what we save responses := &ABCIResponses{ DeliverTx: tc.added, EndBlock: &abci.ResponseEndBlock{}, } saveABCIResponses(stateDB, h, responses) } // Query all before, should return expected value. for i, tc := range cases { h := int64(i + 1) res, err := LoadABCIResponses(stateDB, h) assert.NoError(err, "%d", i) assert.Equal(tc.expected.Hash(), res.ResultsHash(), "%d", i) } } // TestValidatorSimpleSaveLoad tests saving and loading validators. func TestValidatorSimpleSaveLoad(t *testing.T) { tearDown, stateDB, state := setupTestCase(t) defer tearDown(t) // nolint: vetshadow assert := assert.New(t) // Can't load anything for height 0. v, err := LoadValidators(stateDB, 0) assert.IsType(ErrNoValSetForHeight{}, err, "expected err at height 0") // Should be able to load for height 1. v, err = LoadValidators(stateDB, 1) assert.Nil(err, "expected no err at height 1") assert.Equal(v.Hash(), state.Validators.Hash(), "expected validator hashes to match") // Should be able to load for height 2. v, err = LoadValidators(stateDB, 2) assert.Nil(err, "expected no err at height 2") assert.Equal(v.Hash(), state.NextValidators.Hash(), "expected validator hashes to match") // Increment height, save; should be able to load for next & next next height. state.LastBlockHeight++ nextHeight := state.LastBlockHeight + 1 saveValidatorsInfo(stateDB, nextHeight+1, state.LastHeightValidatorsChanged, state.NextValidators) vp0, err := LoadValidators(stateDB, nextHeight+0) assert.Nil(err, "expected no err") vp1, err := LoadValidators(stateDB, nextHeight+1) assert.Nil(err, "expected no err") assert.Equal(vp0.Hash(), state.Validators.Hash(), "expected validator hashes to match") assert.Equal(vp1.Hash(), state.NextValidators.Hash(), "expected next validator hashes to match") } // TestValidatorChangesSaveLoad tests saving and loading a validator set with changes. func TestOneValidatorChangesSaveLoad(t *testing.T) { tearDown, stateDB, state := setupTestCase(t) defer tearDown(t) // Change vals at these heights. changeHeights := []int64{1, 2, 4, 5, 10, 15, 16, 17, 20} N := len(changeHeights) // Build the validator history by running updateState // with the right validator set for each height. highestHeight := changeHeights[N-1] + 5 changeIndex := 0 _, val := state.Validators.GetByIndex(0) power := val.VotingPower var err error var validatorUpdates []*types.Validator for i := int64(1); i < highestHeight; i++ { // When we get to a change height, use the next pubkey. if changeIndex < len(changeHeights) && i == changeHeights[changeIndex] { changeIndex++ power++ } header, blockID, responses := makeHeaderPartsResponsesValPowerChange(state, i, power) validatorUpdates, err = types.PB2TM.ValidatorUpdates(responses.EndBlock.ValidatorUpdates) require.NoError(t, err) state, err = updateState(state, blockID, &header, responses, validatorUpdates) require.NoError(t, err) nextHeight := state.LastBlockHeight + 1 saveValidatorsInfo(stateDB, nextHeight+1, state.LastHeightValidatorsChanged, state.NextValidators) } // On each height change, increment the power by one. testCases := make([]int64, highestHeight) changeIndex = 0 power = val.VotingPower for i := int64(1); i < highestHeight+1; i++ { // We get to the height after a change height use the next pubkey (note // our counter starts at 0 this time). if changeIndex < len(changeHeights) && i == changeHeights[changeIndex]+1 { changeIndex++ power++ } testCases[i-1] = power } for i, power := range testCases { v, err := LoadValidators(stateDB, int64(i+1+1)) // +1 because vset changes delayed by 1 block. assert.Nil(t, err, fmt.Sprintf("expected no err at height %d", i)) assert.Equal(t, v.Size(), 1, "validator set size is greater than 1: %d", v.Size()) _, val := v.GetByIndex(0) assert.Equal(t, val.VotingPower, power, fmt.Sprintf(`unexpected powerat height %d`, i)) } } func TestProposerFrequency(t *testing.T) { // some explicit test cases testCases := []struct { powers []int64 }{ // 2 vals {[]int64{1, 1}}, {[]int64{1, 2}}, {[]int64{1, 100}}, {[]int64{5, 5}}, {[]int64{5, 100}}, {[]int64{50, 50}}, {[]int64{50, 100}}, {[]int64{1, 1000}}, // 3 vals {[]int64{1, 1, 1}}, {[]int64{1, 2, 3}}, {[]int64{1, 2, 3}}, {[]int64{1, 1, 10}}, {[]int64{1, 1, 100}}, {[]int64{1, 10, 100}}, {[]int64{1, 1, 1000}}, {[]int64{1, 10, 1000}}, {[]int64{1, 100, 1000}}, // 4 vals {[]int64{1, 1, 1, 1}}, {[]int64{1, 2, 3, 4}}, {[]int64{1, 1, 1, 10}}, {[]int64{1, 1, 1, 100}}, {[]int64{1, 1, 1, 1000}}, {[]int64{1, 1, 10, 100}}, {[]int64{1, 1, 10, 1000}}, {[]int64{1, 1, 100, 1000}}, {[]int64{1, 10, 100, 1000}}, } for caseNum, testCase := range testCases { // run each case 5 times to sample different // initial priorities for i := 0; i < 5; i++ { valSet := genValSetWithPowers(testCase.powers) testProposerFreq(t, caseNum, valSet) } } // some random test cases with up to 100 validators maxVals := 100 maxPower := 1000 nTestCases := 5 for i := 0; i < nTestCases; i++ { N := cmn.RandInt()%maxVals + 1 vals := make([]*types.Validator, N) totalVotePower := int64(0) for j := 0; j < N; j++ { // make sure votePower > 0 votePower := int64(cmn.RandInt()%maxPower) + 1 totalVotePower += votePower privVal := types.NewMockPV() pubKey := privVal.GetPubKey() val := types.NewValidator(pubKey, votePower) val.ProposerPriority = cmn.RandInt64() vals[j] = val } valSet := types.NewValidatorSet(vals) valSet.RescalePriorities(totalVotePower) testProposerFreq(t, i, valSet) } } // new val set with given powers and random initial priorities func genValSetWithPowers(powers []int64) *types.ValidatorSet { size := len(powers) vals := make([]*types.Validator, size) totalVotePower := int64(0) for i := 0; i < size; i++ { totalVotePower += powers[i] val := types.NewValidator(ed25519.GenPrivKey().PubKey(), powers[i]) val.ProposerPriority = cmn.RandInt64() vals[i] = val } valSet := types.NewValidatorSet(vals) valSet.RescalePriorities(totalVotePower) return valSet } // test a proposer appears as frequently as expected func testProposerFreq(t *testing.T, caseNum int, valSet *types.ValidatorSet) { N := valSet.Size() totalPower := valSet.TotalVotingPower() // run the proposer selection and track frequencies runMult := 1 runs := int(totalPower) * runMult freqs := make([]int, N) for i := 0; i < runs; i++ { prop := valSet.GetProposer() idx, _ := valSet.GetByAddress(prop.Address) freqs[idx] += 1 valSet.IncrementProposerPriority(1) } // assert frequencies match expected (max off by 1) for i, freq := range freqs { _, val := valSet.GetByIndex(i) expectFreq := int(val.VotingPower) * runMult gotFreq := freq abs := int(math.Abs(float64(expectFreq - gotFreq))) // max bound on expected vs seen freq was proven // to be 1 for the 2 validator case in // https://github.com/cwgoes/tm-proposer-idris // and inferred to generalize to N-1 bound := N - 1 require.True(t, abs <= bound, fmt.Sprintf("Case %d val %d (%d): got %d, expected %d", caseNum, i, N, gotFreq, expectFreq)) } } // TestProposerPriorityDoesNotGetResetToZero assert that we preserve accum when calling updateState // see https://github.com/tendermint/tendermint/issues/2718 func TestProposerPriorityDoesNotGetResetToZero(t *testing.T) { tearDown, _, state := setupTestCase(t) defer tearDown(t) val1VotingPower := int64(10) val1PubKey := ed25519.GenPrivKey().PubKey() val1 := &types.Validator{Address: val1PubKey.Address(), PubKey: val1PubKey, VotingPower: val1VotingPower} state.Validators = types.NewValidatorSet([]*types.Validator{val1}) state.NextValidators = state.Validators // NewValidatorSet calls IncrementProposerPriority but uses on a copy of val1 assert.EqualValues(t, 0, val1.ProposerPriority) block := makeBlock(state, state.LastBlockHeight+1) blockID := types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err := types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) updatedState, err := updateState(state, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) curTotal := val1VotingPower // one increment step and one validator: 0 + power - total_power == 0 assert.Equal(t, 0+val1VotingPower-curTotal, updatedState.NextValidators.Validators[0].ProposerPriority) // add a validator val2PubKey := ed25519.GenPrivKey().PubKey() val2VotingPower := int64(100) updateAddVal := abci.ValidatorUpdate{PubKey: types.TM2PB.PubKey(val2PubKey), Power: val2VotingPower} validatorUpdates, err = types.PB2TM.ValidatorUpdates([]abci.ValidatorUpdate{updateAddVal}) assert.NoError(t, err) updatedState2, err := updateState(updatedState, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) require.Equal(t, len(updatedState2.NextValidators.Validators), 2) _, updatedVal1 := updatedState2.NextValidators.GetByAddress(val1PubKey.Address()) _, addedVal2 := updatedState2.NextValidators.GetByAddress(val2PubKey.Address()) // adding a validator should not lead to a ProposerPriority equal to zero (unless the combination of averaging and // incrementing would cause so; which is not the case here) // Steps from adding new validator: // 0 - val1 prio is 0, TVP after add: wantVal1Prio := int64(0) totalPowerAfter := val1VotingPower + val2VotingPower // 1. Add - Val2 should be initially added with (-123) => wantVal2Prio := -(totalPowerAfter + (totalPowerAfter >> 3)) // 2. Scale - noop // 3. Center - with avg, resulting val2:-61, val1:62 avg := big.NewInt(0).Add(big.NewInt(wantVal1Prio), big.NewInt(wantVal2Prio)) avg.Div(avg, big.NewInt(2)) wantVal2Prio = wantVal2Prio - avg.Int64() // -61 wantVal1Prio = wantVal1Prio - avg.Int64() // 62 // 4. Steps from IncrementProposerPriority wantVal1Prio = wantVal1Prio + val1VotingPower // 72 wantVal2Prio = wantVal2Prio + val2VotingPower // 39 wantVal1Prio = wantVal1Prio - totalPowerAfter // -38 as val1 is proposer assert.Equal(t, wantVal1Prio, updatedVal1.ProposerPriority) assert.Equal(t, wantVal2Prio, addedVal2.ProposerPriority) // Updating a validator does not reset the ProposerPriority to zero: // 1. Add - Val2 VotingPower change to 1 => updatedVotingPowVal2 := int64(1) updateVal := abci.ValidatorUpdate{PubKey: types.TM2PB.PubKey(val2PubKey), Power: updatedVotingPowVal2} validatorUpdates, err = types.PB2TM.ValidatorUpdates([]abci.ValidatorUpdate{updateVal}) assert.NoError(t, err) // this will cause the diff of priorities (77) // to be larger than threshold == 2*totalVotingPower (22): updatedState3, err := updateState(updatedState2, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) require.Equal(t, len(updatedState3.NextValidators.Validators), 2) _, prevVal1 := updatedState3.Validators.GetByAddress(val1PubKey.Address()) _, prevVal2 := updatedState3.Validators.GetByAddress(val2PubKey.Address()) _, updatedVal1 = updatedState3.NextValidators.GetByAddress(val1PubKey.Address()) _, updatedVal2 := updatedState3.NextValidators.GetByAddress(val2PubKey.Address()) // 2. Scale // old prios: v1(10):-38, v2(1):39 wantVal1Prio = prevVal1.ProposerPriority wantVal2Prio = prevVal2.ProposerPriority // scale to diffMax = 22 = 2 * tvp, diff=39-(-38)=77 // new totalPower totalPower := updatedVal1.VotingPower + updatedVal2.VotingPower dist := wantVal2Prio - wantVal1Prio // ratio := (dist + 2*totalPower - 1) / 2*totalPower = 98/22 = 4 ratio := (dist + 2*totalPower - 1) / (2 * totalPower) // v1(10):-38/4, v2(1):39/4 wantVal1Prio /= ratio // -9 wantVal2Prio /= ratio // 9 // 3. Center - noop // 4. IncrementProposerPriority() -> // v1(10):-9+10, v2(1):9+1 -> v2 proposer so subsract tvp(11) // v1(10):1, v2(1):-1 wantVal2Prio += updatedVal2.VotingPower // 10 -> prop wantVal1Prio += updatedVal1.VotingPower // 1 wantVal2Prio -= totalPower // -1 assert.Equal(t, wantVal2Prio, updatedVal2.ProposerPriority) assert.Equal(t, wantVal1Prio, updatedVal1.ProposerPriority) } func TestProposerPriorityProposerAlternates(t *testing.T) { // Regression test that would fail if the inner workings of // IncrementProposerPriority change. // Additionally, make sure that same power validators alternate if both // have the same voting power (and the 2nd was added later). tearDown, _, state := setupTestCase(t) defer tearDown(t) val1VotingPower := int64(10) val1PubKey := ed25519.GenPrivKey().PubKey() val1 := &types.Validator{Address: val1PubKey.Address(), PubKey: val1PubKey, VotingPower: val1VotingPower} // reset state validators to above validator state.Validators = types.NewValidatorSet([]*types.Validator{val1}) state.NextValidators = state.Validators // we only have one validator: assert.Equal(t, val1PubKey.Address(), state.Validators.Proposer.Address) block := makeBlock(state, state.LastBlockHeight+1) blockID := types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} // no updates: abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err := types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) updatedState, err := updateState(state, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) // 0 + 10 (initial prio) - 10 (avg) - 10 (mostest - total) = -10 totalPower := val1VotingPower wantVal1Prio := 0 + val1VotingPower - totalPower assert.Equal(t, wantVal1Prio, updatedState.NextValidators.Validators[0].ProposerPriority) assert.Equal(t, val1PubKey.Address(), updatedState.NextValidators.Proposer.Address) // add a validator with the same voting power as the first val2PubKey := ed25519.GenPrivKey().PubKey() updateAddVal := abci.ValidatorUpdate{PubKey: types.TM2PB.PubKey(val2PubKey), Power: val1VotingPower} validatorUpdates, err = types.PB2TM.ValidatorUpdates([]abci.ValidatorUpdate{updateAddVal}) assert.NoError(t, err) updatedState2, err := updateState(updatedState, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) require.Equal(t, len(updatedState2.NextValidators.Validators), 2) assert.Equal(t, updatedState2.Validators, updatedState.NextValidators) // val1 will still be proposer as val2 just got added: assert.Equal(t, val1PubKey.Address(), updatedState.NextValidators.Proposer.Address) assert.Equal(t, updatedState2.Validators.Proposer.Address, updatedState2.NextValidators.Proposer.Address) assert.Equal(t, updatedState2.Validators.Proposer.Address, val1PubKey.Address()) assert.Equal(t, updatedState2.NextValidators.Proposer.Address, val1PubKey.Address()) _, updatedVal1 := updatedState2.NextValidators.GetByAddress(val1PubKey.Address()) _, oldVal1 := updatedState2.Validators.GetByAddress(val1PubKey.Address()) _, updatedVal2 := updatedState2.NextValidators.GetByAddress(val2PubKey.Address()) // 1. Add val2VotingPower := val1VotingPower totalPower = val1VotingPower + val2VotingPower // 20 v2PrioWhenAddedVal2 := -(totalPower + (totalPower >> 3)) // -22 // 2. Scale - noop // 3. Center avgSum := big.NewInt(0).Add(big.NewInt(v2PrioWhenAddedVal2), big.NewInt(oldVal1.ProposerPriority)) avg := avgSum.Div(avgSum, big.NewInt(2)) // -11 expectedVal2Prio := v2PrioWhenAddedVal2 - avg.Int64() // -11 expectedVal1Prio := oldVal1.ProposerPriority - avg.Int64() // 11 // 4. Increment expectedVal2Prio = expectedVal2Prio + val2VotingPower // -11 + 10 = -1 expectedVal1Prio = expectedVal1Prio + val1VotingPower // 11 + 10 == 21 expectedVal1Prio = expectedVal1Prio - totalPower // 1, val1 proposer assert.EqualValues(t, expectedVal1Prio, updatedVal1.ProposerPriority) assert.EqualValues(t, expectedVal2Prio, updatedVal2.ProposerPriority, "unexpected proposer priority for validator: %v", updatedVal2) validatorUpdates, err = types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) updatedState3, err := updateState(updatedState2, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) assert.Equal(t, updatedState3.Validators.Proposer.Address, updatedState3.NextValidators.Proposer.Address) assert.Equal(t, updatedState3.Validators, updatedState2.NextValidators) _, updatedVal1 = updatedState3.NextValidators.GetByAddress(val1PubKey.Address()) _, updatedVal2 = updatedState3.NextValidators.GetByAddress(val2PubKey.Address()) // val1 will still be proposer: assert.Equal(t, val1PubKey.Address(), updatedState3.NextValidators.Proposer.Address) // check if expected proposer prio is matched: // Increment expectedVal2Prio2 := expectedVal2Prio + val2VotingPower // -1 + 10 = 9 expectedVal1Prio2 := expectedVal1Prio + val1VotingPower // 1 + 10 == 11 expectedVal1Prio2 = expectedVal1Prio2 - totalPower // -9, val1 proposer assert.EqualValues(t, expectedVal1Prio2, updatedVal1.ProposerPriority, "unexpected proposer priority for validator: %v", updatedVal2) assert.EqualValues(t, expectedVal2Prio2, updatedVal2.ProposerPriority, "unexpected proposer priority for validator: %v", updatedVal2) // no changes in voting power and both validators have same voting power // -> proposers should alternate: oldState := updatedState3 abciResponses = &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err = types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) oldState, err = updateState(oldState, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) expectedVal1Prio2 = 1 expectedVal2Prio2 = -1 expectedVal1Prio = -9 expectedVal2Prio = 9 for i := 0; i < 1000; i++ { // no validator updates: abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err = types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) updatedState, err := updateState(oldState, blockID, &block.Header, abciResponses, validatorUpdates) assert.NoError(t, err) // alternate (and cyclic priorities): assert.NotEqual(t, updatedState.Validators.Proposer.Address, updatedState.NextValidators.Proposer.Address, "iter: %v", i) assert.Equal(t, oldState.Validators.Proposer.Address, updatedState.NextValidators.Proposer.Address, "iter: %v", i) _, updatedVal1 = updatedState.NextValidators.GetByAddress(val1PubKey.Address()) _, updatedVal2 = updatedState.NextValidators.GetByAddress(val2PubKey.Address()) if i%2 == 0 { assert.Equal(t, updatedState.Validators.Proposer.Address, val2PubKey.Address()) assert.Equal(t, expectedVal1Prio, updatedVal1.ProposerPriority) // -19 assert.Equal(t, expectedVal2Prio, updatedVal2.ProposerPriority) // 0 } else { assert.Equal(t, updatedState.Validators.Proposer.Address, val1PubKey.Address()) assert.Equal(t, expectedVal1Prio2, updatedVal1.ProposerPriority) // -9 assert.Equal(t, expectedVal2Prio2, updatedVal2.ProposerPriority) // -10 } // update for next iteration: oldState = updatedState } } func TestLargeGenesisValidator(t *testing.T) { tearDown, _, state := setupTestCase(t) defer tearDown(t) genesisVotingPower := int64(types.MaxTotalVotingPower / 1000) genesisPubKey := ed25519.GenPrivKey().PubKey() // fmt.Println("genesis addr: ", genesisPubKey.Address()) genesisVal := &types.Validator{Address: genesisPubKey.Address(), PubKey: genesisPubKey, VotingPower: genesisVotingPower} // reset state validators to above validator state.Validators = types.NewValidatorSet([]*types.Validator{genesisVal}) state.NextValidators = state.Validators require.True(t, len(state.Validators.Validators) == 1) // update state a few times with no validator updates // asserts that the single validator's ProposerPrio stays the same oldState := state for i := 0; i < 10; i++ { // no updates: abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err := types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) block := makeBlock(oldState, oldState.LastBlockHeight+1) blockID := types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} updatedState, err := updateState(oldState, blockID, &block.Header, abciResponses, validatorUpdates) // no changes in voting power (ProposerPrio += VotingPower == Voting in 1st round; than shiftByAvg == 0, // than -Total == -Voting) // -> no change in ProposerPrio (stays zero): assert.EqualValues(t, oldState.NextValidators, updatedState.NextValidators) assert.EqualValues(t, 0, updatedState.NextValidators.Proposer.ProposerPriority) oldState = updatedState } // add another validator, do a few iterations (create blocks), // add more validators with same voting power as the 2nd // let the genesis validator "unbond", // see how long it takes until the effect wears off and both begin to alternate // see: https://github.com/tendermint/tendermint/issues/2960 firstAddedValPubKey := ed25519.GenPrivKey().PubKey() firstAddedValVotingPower := int64(10) firstAddedVal := abci.ValidatorUpdate{PubKey: types.TM2PB.PubKey(firstAddedValPubKey), Power: firstAddedValVotingPower} validatorUpdates, err := types.PB2TM.ValidatorUpdates([]abci.ValidatorUpdate{firstAddedVal}) assert.NoError(t, err) abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: []abci.ValidatorUpdate{firstAddedVal}}, } block := makeBlock(oldState, oldState.LastBlockHeight+1) blockID := types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} updatedState, err := updateState(oldState, blockID, &block.Header, abciResponses, validatorUpdates) lastState := updatedState for i := 0; i < 200; i++ { // no updates: abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err := types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) block := makeBlock(lastState, lastState.LastBlockHeight+1) blockID := types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} updatedStateInner, err := updateState(lastState, blockID, &block.Header, abciResponses, validatorUpdates) lastState = updatedStateInner } // set state to last state of above iteration state = lastState // set oldState to state before above iteration oldState = updatedState _, oldGenesisVal := oldState.NextValidators.GetByAddress(genesisVal.Address) _, newGenesisVal := state.NextValidators.GetByAddress(genesisVal.Address) _, addedOldVal := oldState.NextValidators.GetByAddress(firstAddedValPubKey.Address()) _, addedNewVal := state.NextValidators.GetByAddress(firstAddedValPubKey.Address()) // expect large negative proposer priority for both (genesis validator decreased, 2nd validator increased): assert.True(t, oldGenesisVal.ProposerPriority > newGenesisVal.ProposerPriority) assert.True(t, addedOldVal.ProposerPriority < addedNewVal.ProposerPriority) // add 10 validators with the same voting power as the one added directly after genesis: for i := 0; i < 10; i++ { addedPubKey := ed25519.GenPrivKey().PubKey() addedVal := abci.ValidatorUpdate{PubKey: types.TM2PB.PubKey(addedPubKey), Power: firstAddedValVotingPower} validatorUpdates, err := types.PB2TM.ValidatorUpdates([]abci.ValidatorUpdate{addedVal}) assert.NoError(t, err) abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: []abci.ValidatorUpdate{addedVal}}, } block := makeBlock(oldState, oldState.LastBlockHeight+1) blockID := types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} state, err = updateState(state, blockID, &block.Header, abciResponses, validatorUpdates) } require.Equal(t, 10+2, len(state.NextValidators.Validators)) // remove genesis validator: removeGenesisVal := abci.ValidatorUpdate{PubKey: types.TM2PB.PubKey(genesisPubKey), Power: 0} abciResponses = &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: []abci.ValidatorUpdate{removeGenesisVal}}, } block = makeBlock(oldState, oldState.LastBlockHeight+1) blockID = types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} validatorUpdates, err = types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) updatedState, err = updateState(state, blockID, &block.Header, abciResponses, validatorUpdates) require.NoError(t, err) // only the first added val (not the genesis val) should be left assert.Equal(t, 11, len(updatedState.NextValidators.Validators)) // call update state until the effect for the 3rd added validator // being proposer for a long time after the genesis validator left wears off: curState := updatedState count := 0 isProposerUnchanged := true for isProposerUnchanged { abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err = types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) block = makeBlock(curState, curState.LastBlockHeight+1) blockID = types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} curState, err = updateState(curState, blockID, &block.Header, abciResponses, validatorUpdates) if !bytes.Equal(curState.Validators.Proposer.Address, curState.NextValidators.Proposer.Address) { isProposerUnchanged = false } count++ } updatedState = curState // the proposer changes after this number of blocks firstProposerChangeExpectedAfter := 1 assert.Equal(t, firstProposerChangeExpectedAfter, count) // store proposers here to see if we see them again in the same order: numVals := len(updatedState.Validators.Validators) proposers := make([]*types.Validator, numVals) for i := 0; i < 100; i++ { // no updates: abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } validatorUpdates, err := types.PB2TM.ValidatorUpdates(abciResponses.EndBlock.ValidatorUpdates) require.NoError(t, err) block := makeBlock(updatedState, updatedState.LastBlockHeight+1) blockID := types.BlockID{block.Hash(), block.MakePartSet(testPartSize).Header()} updatedState, err = updateState(updatedState, blockID, &block.Header, abciResponses, validatorUpdates) if i > numVals { // expect proposers to cycle through after the first iteration (of numVals blocks): if proposers[i%numVals] == nil { proposers[i%numVals] = updatedState.NextValidators.Proposer } else { assert.Equal(t, proposers[i%numVals], updatedState.NextValidators.Proposer) } } } } func TestStoreLoadValidatorsIncrementsProposerPriority(t *testing.T) { const valSetSize = 2 tearDown, stateDB, state := setupTestCase(t) state.Validators = genValSet(valSetSize) state.NextValidators = state.Validators.CopyIncrementProposerPriority(1) SaveState(stateDB, state) defer tearDown(t) nextHeight := state.LastBlockHeight + 1 v0, err := LoadValidators(stateDB, nextHeight) assert.Nil(t, err) acc0 := v0.Validators[0].ProposerPriority v1, err := LoadValidators(stateDB, nextHeight+1) assert.Nil(t, err) acc1 := v1.Validators[0].ProposerPriority assert.NotEqual(t, acc1, acc0, "expected ProposerPriority value to change between heights") } // TestValidatorChangesSaveLoad tests saving and loading a validator set with // changes. func TestManyValidatorChangesSaveLoad(t *testing.T) { const valSetSize = 7 tearDown, stateDB, state := setupTestCase(t) require.Equal(t, int64(0), state.LastBlockHeight) state.Validators = genValSet(valSetSize) state.NextValidators = state.Validators.CopyIncrementProposerPriority(1) SaveState(stateDB, state) defer tearDown(t) _, valOld := state.Validators.GetByIndex(0) var pubkeyOld = valOld.PubKey pubkey := ed25519.GenPrivKey().PubKey() const height = 1 // Swap the first validator with a new one (validator set size stays the same). header, blockID, responses := makeHeaderPartsResponsesValPubKeyChange(state, height, pubkey) // Save state etc. var err error var validatorUpdates []*types.Validator validatorUpdates, err = types.PB2TM.ValidatorUpdates(responses.EndBlock.ValidatorUpdates) require.NoError(t, err) state, err = updateState(state, blockID, &header, responses, validatorUpdates) require.Nil(t, err) nextHeight := state.LastBlockHeight + 1 saveValidatorsInfo(stateDB, nextHeight+1, state.LastHeightValidatorsChanged, state.NextValidators) // Load nextheight, it should be the oldpubkey. v0, err := LoadValidators(stateDB, nextHeight) assert.Nil(t, err) assert.Equal(t, valSetSize, v0.Size()) index, val := v0.GetByAddress(pubkeyOld.Address()) assert.NotNil(t, val) if index < 0 { t.Fatal("expected to find old validator") } // Load nextheight+1, it should be the new pubkey. v1, err := LoadValidators(stateDB, nextHeight+1) assert.Nil(t, err) assert.Equal(t, valSetSize, v1.Size()) index, val = v1.GetByAddress(pubkey.Address()) assert.NotNil(t, val) if index < 0 { t.Fatal("expected to find newly added validator") } } func genValSet(size int) *types.ValidatorSet { vals := make([]*types.Validator, size) for i := 0; i < size; i++ { vals[i] = types.NewValidator(ed25519.GenPrivKey().PubKey(), 10) } return types.NewValidatorSet(vals) } func TestStateMakeBlock(t *testing.T) { tearDown, _, state := setupTestCase(t) defer tearDown(t) proposerAddress := state.Validators.GetProposer().Address stateVersion := state.Version.Consensus block := makeBlock(state, 2) // test we set some fields assert.Equal(t, stateVersion, block.Version) assert.Equal(t, proposerAddress, block.ProposerAddress) } // TestConsensusParamsChangesSaveLoad tests saving and loading consensus params // with changes. func TestConsensusParamsChangesSaveLoad(t *testing.T) { tearDown, stateDB, state := setupTestCase(t) defer tearDown(t) // Change vals at these heights. changeHeights := []int64{1, 2, 4, 5, 10, 15, 16, 17, 20} N := len(changeHeights) // Each valset is just one validator. // create list of them. params := make([]types.ConsensusParams, N+1) params[0] = state.ConsensusParams for i := 1; i < N+1; i++ { params[i] = *types.DefaultConsensusParams() params[i].BlockSize.MaxBytes += int64(i) } // Build the params history by running updateState // with the right params set for each height. highestHeight := changeHeights[N-1] + 5 changeIndex := 0 cp := params[changeIndex] var err error var validatorUpdates []*types.Validator for i := int64(1); i < highestHeight; i++ { // When we get to a change height, use the next params. if changeIndex < len(changeHeights) && i == changeHeights[changeIndex] { changeIndex++ cp = params[changeIndex] } header, blockID, responses := makeHeaderPartsResponsesParams(state, i, cp) validatorUpdates, err = types.PB2TM.ValidatorUpdates(responses.EndBlock.ValidatorUpdates) require.NoError(t, err) state, err = updateState(state, blockID, &header, responses, validatorUpdates) require.Nil(t, err) nextHeight := state.LastBlockHeight + 1 saveConsensusParamsInfo(stateDB, nextHeight, state.LastHeightConsensusParamsChanged, state.ConsensusParams) } // Make all the test cases by using the same params until after the change. testCases := make([]paramsChangeTestCase, highestHeight) changeIndex = 0 cp = params[changeIndex] for i := int64(1); i < highestHeight+1; i++ { // We get to the height after a change height use the next pubkey (note // our counter starts at 0 this time). if changeIndex < len(changeHeights) && i == changeHeights[changeIndex]+1 { changeIndex++ cp = params[changeIndex] } testCases[i-1] = paramsChangeTestCase{i, cp} } for _, testCase := range testCases { p, err := LoadConsensusParams(stateDB, testCase.height) assert.Nil(t, err, fmt.Sprintf("expected no err at height %d", testCase.height)) assert.Equal(t, testCase.params, p, fmt.Sprintf(`unexpected consensus params at height %d`, testCase.height)) } } func makeParams(blockBytes, blockGas, evidenceAge int64) types.ConsensusParams { return types.ConsensusParams{ BlockSize: types.BlockSizeParams{ MaxBytes: blockBytes, MaxGas: blockGas, }, Evidence: types.EvidenceParams{ MaxAge: evidenceAge, }, } } func TestApplyUpdates(t *testing.T) { initParams := makeParams(1, 2, 3) cases := [...]struct { init types.ConsensusParams updates abci.ConsensusParams expected types.ConsensusParams }{ 0: {initParams, abci.ConsensusParams{}, initParams}, 1: {initParams, abci.ConsensusParams{}, initParams}, 2: {initParams, abci.ConsensusParams{ BlockSize: &abci.BlockSizeParams{ MaxBytes: 44, MaxGas: 55, }, }, makeParams(44, 55, 3)}, 3: {initParams, abci.ConsensusParams{ Evidence: &abci.EvidenceParams{ MaxAge: 66, }, }, makeParams(1, 2, 66)}, } for i, tc := range cases { res := tc.init.Update(&(tc.updates)) assert.Equal(t, tc.expected, res, "case %d", i) } } func makeHeaderPartsResponsesValPubKeyChange(state State, height int64, pubkey crypto.PubKey) (types.Header, types.BlockID, *ABCIResponses) { block := makeBlock(state, state.LastBlockHeight+1) abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } // If the pubkey is new, remove the old and add the new. _, val := state.NextValidators.GetByIndex(0) if !bytes.Equal(pubkey.Bytes(), val.PubKey.Bytes()) { abciResponses.EndBlock = &abci.ResponseEndBlock{ ValidatorUpdates: []abci.ValidatorUpdate{ types.TM2PB.NewValidatorUpdate(val.PubKey, 0), types.TM2PB.NewValidatorUpdate(pubkey, 10), }, } } return block.Header, types.BlockID{block.Hash(), types.PartSetHeader{}}, abciResponses } func makeHeaderPartsResponsesValPowerChange(state State, height int64, power int64) (types.Header, types.BlockID, *ABCIResponses) { block := makeBlock(state, state.LastBlockHeight+1) abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ValidatorUpdates: nil}, } // If the pubkey is new, remove the old and add the new. _, val := state.NextValidators.GetByIndex(0) if val.VotingPower != power { abciResponses.EndBlock = &abci.ResponseEndBlock{ ValidatorUpdates: []abci.ValidatorUpdate{ types.TM2PB.NewValidatorUpdate(val.PubKey, power), }, } } return block.Header, types.BlockID{block.Hash(), types.PartSetHeader{}}, abciResponses } func makeHeaderPartsResponsesParams(state State, height int64, params types.ConsensusParams) (types.Header, types.BlockID, *ABCIResponses) { block := makeBlock(state, state.LastBlockHeight+1) abciResponses := &ABCIResponses{ EndBlock: &abci.ResponseEndBlock{ConsensusParamUpdates: types.TM2PB.ConsensusParams(¶ms)}, } return block.Header, types.BlockID{block.Hash(), types.PartSetHeader{}}, abciResponses } type paramsChangeTestCase struct { height int64 params types.ConsensusParams }