zolfa
/
tendermint


								package state_test


								import (

									"context"

									"fmt"

									"math/rand"

									"os"

									"testing"


									"github.com/stretchr/testify/assert"

									"github.com/stretchr/testify/require"

									dbm "github.com/tendermint/tm-db"


									abci "github.com/tendermint/tendermint/abci/types"

									"github.com/tendermint/tendermint/config"

									"github.com/tendermint/tendermint/crypto"

									"github.com/tendermint/tendermint/crypto/ed25519"

									sm "github.com/tendermint/tendermint/internal/state"

									"github.com/tendermint/tendermint/internal/test/factory"

									tmrand "github.com/tendermint/tendermint/libs/rand"

									tmstate "github.com/tendermint/tendermint/proto/tendermint/state"

									"github.com/tendermint/tendermint/types"

								)


								const (

									// make sure this is the same as in state/store.go

									valSetCheckpointInterval = 100000

								)


								func TestStoreBootstrap(t *testing.T) {

									stateDB := dbm.NewMemDB()

									stateStore := sm.NewStore(stateDB)

									ctx, cancel := context.WithCancel(context.Background())

									defer cancel()

									val, _, err := factory.Validator(ctx, 10+int64(rand.Uint32()))

									require.NoError(t, err)

									val2, _, err := factory.Validator(ctx, 10+int64(rand.Uint32()))

									require.NoError(t, err)

									val3, _, err := factory.Validator(ctx, 10+int64(rand.Uint32()))

									require.NoError(t, err)

									vals := types.NewValidatorSet([]*types.Validator{val, val2, val3})

									bootstrapState := makeRandomStateFromValidatorSet(vals, 100, 100)

									require.NoError(t, stateStore.Bootstrap(bootstrapState))


									// bootstrap should also save the previous validator

									_, err = stateStore.LoadValidators(99)

									require.NoError(t, err)


									_, err = stateStore.LoadValidators(100)

									require.NoError(t, err)


									_, err = stateStore.LoadValidators(101)

									require.NoError(t, err)


									state, err := stateStore.Load()

									require.NoError(t, err)

									require.Equal(t, bootstrapState, state)

								}


								func TestStoreLoadValidators(t *testing.T) {

									stateDB := dbm.NewMemDB()

									stateStore := sm.NewStore(stateDB)

									ctx, cancel := context.WithCancel(context.Background())

									defer cancel()

									val, _, err := factory.Validator(ctx, 10+int64(rand.Uint32()))

									require.NoError(t, err)

									val2, _, err := factory.Validator(ctx, 10+int64(rand.Uint32()))

									require.NoError(t, err)

									val3, _, err := factory.Validator(ctx, 10+int64(rand.Uint32()))

									require.NoError(t, err)

									vals := types.NewValidatorSet([]*types.Validator{val, val2, val3})


									// 1) LoadValidators loads validators using a height where they were last changed

									// Note that only the next validators at height h + 1 are saved

									require.NoError(t, stateStore.Save(makeRandomStateFromValidatorSet(vals, 1, 1)))

									require.NoError(t, stateStore.Save(makeRandomStateFromValidatorSet(vals.CopyIncrementProposerPriority(1), 2, 1)))

									loadedVals, err := stateStore.LoadValidators(3)

									require.NoError(t, err)

									require.Equal(t, vals.CopyIncrementProposerPriority(3), loadedVals)


									// 2) LoadValidators loads validators using a checkpoint height


									// add a validator set at the checkpoint

									err = stateStore.Save(makeRandomStateFromValidatorSet(vals, valSetCheckpointInterval, 1))

									require.NoError(t, err)


									// check that a request will go back to the last checkpoint

									_, err = stateStore.LoadValidators(valSetCheckpointInterval + 1)

									require.Error(t, err)

									require.Equal(t, fmt.Sprintf("couldn't find validators at height %d (height %d was originally requested): "+

										"value retrieved from db is empty",

										valSetCheckpointInterval, valSetCheckpointInterval+1), err.Error())


									// now save a validator set at that checkpoint

									err = stateStore.Save(makeRandomStateFromValidatorSet(vals, valSetCheckpointInterval-1, 1))

									require.NoError(t, err)


									loadedVals, err = stateStore.LoadValidators(valSetCheckpointInterval)

									require.NoError(t, err)

									// validator set gets updated with the one given hence we expect it to equal next validators (with an increment of one)

									// as opposed to being equal to an increment of 100000 - 1 (if we didn't save at the checkpoint)

									require.Equal(t, vals.CopyIncrementProposerPriority(2), loadedVals)

									require.NotEqual(t, vals.CopyIncrementProposerPriority(valSetCheckpointInterval), loadedVals)

								}


								// This benchmarks the speed of loading validators from different heights if there is no validator set change.

								// NOTE: This isn't too indicative of validator retrieval speed as the db is always (regardless of height) only

								// performing two operations: 1) retrieve validator info at height x, which has a last validator set change of 1

								// and 2) retrieve the validator set at the aforementioned height 1.

								func BenchmarkLoadValidators(b *testing.B) {

									const valSetSize = 100


									cfg, err := config.ResetTestRoot(b.TempDir(), "state_")

									require.NoError(b, err)


									defer os.RemoveAll(cfg.RootDir)

									dbType := dbm.BackendType(cfg.DBBackend)

									stateDB, err := dbm.NewDB("state", dbType, cfg.DBDir())

									require.NoError(b, err)

									stateStore := sm.NewStore(stateDB)

									state, err := sm.MakeGenesisStateFromFile(cfg.GenesisFile())

									if err != nil {

										b.Fatal(err)

									}


									state.Validators = genValSet(valSetSize)

									state.NextValidators = state.Validators.CopyIncrementProposerPriority(1)

									err = stateStore.Save(state)

									require.NoError(b, err)


									b.ResetTimer()


									for i := 10; i < 10000000000; i *= 10 { // 10, 100, 1000, ...

										i := i

										err = stateStore.Save(makeRandomStateFromValidatorSet(state.NextValidators,

											int64(i)-1, state.LastHeightValidatorsChanged))

										if err != nil {

											b.Fatalf("error saving store: %v", err)

										}


										b.Run(fmt.Sprintf("height=%d", i), func(b *testing.B) {

											for n := 0; n < b.N; n++ {

												_, err := stateStore.LoadValidators(int64(i))

												if err != nil {

													b.Fatal(err)

												}

											}

										})

									}

								}


								func TestStoreLoadConsensusParams(t *testing.T) {

									ctx, cancel := context.WithCancel(context.Background())

									defer cancel()


									stateDB := dbm.NewMemDB()

									stateStore := sm.NewStore(stateDB)

									err := stateStore.Save(makeRandomStateFromConsensusParams(ctx, t, types.DefaultConsensusParams(), 1, 1))

									require.NoError(t, err)

									params, err := stateStore.LoadConsensusParams(1)

									require.NoError(t, err)

									require.Equal(t, types.DefaultConsensusParams(), &params)


									// we give the state store different params but say that the height hasn't changed, hence

									// it should save a pointer to the params at height 1

									differentParams := types.DefaultConsensusParams()

									differentParams.Block.MaxBytes = 20000

									err = stateStore.Save(makeRandomStateFromConsensusParams(ctx, t, differentParams, 10, 1))

									require.NoError(t, err)

									res, err := stateStore.LoadConsensusParams(10)

									require.NoError(t, err)

									require.Equal(t, res, params)

									require.NotEqual(t, res, differentParams)

								}


								func TestPruneStates(t *testing.T) {

									testcases := map[string]struct {

										startHeight           int64

										endHeight             int64

										pruneHeight           int64

										expectErr             bool

										remainingValSetHeight int64

										remainingParamsHeight int64

									}{

										"error when prune height is 0":           {1, 100, 0, true, 0, 0},

										"error when prune height is negative":    {1, 100, -10, true, 0, 0},

										"error when prune height does not exist": {1, 100, 101, true, 0, 0},

										"prune all":                              {1, 100, 100, false, 93, 95},

										"prune from non 1 height":                {10, 50, 40, false, 33, 35},

										"prune some":                             {1, 10, 8, false, 3, 5},

										// we test this because we flush to disk every 1000 "states"

										"prune more than 1000 state": {1, 1010, 1010, false, 1003, 1005},

										"prune across checkpoint":    {99900, 100002, 100002, false, 100000, 99995},

									}

									for name, tc := range testcases {

										tc := tc

										t.Run(name, func(t *testing.T) {

											db := dbm.NewMemDB()


											stateStore := sm.NewStore(db)

											pk := ed25519.GenPrivKey().PubKey()


											// Generate a bunch of state data. Validators change for heights ending with 3, and

											// parameters when ending with 5.

											validator := &types.Validator{Address: tmrand.Bytes(crypto.AddressSize), VotingPower: 100, PubKey: pk}

											validatorSet := &types.ValidatorSet{

												Validators: []*types.Validator{validator},

												Proposer:   validator,

											}

											valsChanged := int64(0)

											paramsChanged := int64(0)


											for h := tc.startHeight; h <= tc.endHeight; h++ {

												if valsChanged == 0 || h%10 == 2 {

													valsChanged = h + 1 // Have to add 1, since NextValidators is what's stored

												}

												if paramsChanged == 0 || h%10 == 5 {

													paramsChanged = h

												}


												state := sm.State{

													InitialHeight:   1,

													LastBlockHeight: h - 1,

													Validators:      validatorSet,

													NextValidators:  validatorSet,

													ConsensusParams: types.ConsensusParams{

														Block: types.BlockParams{MaxBytes: 10e6},

													},

													LastHeightValidatorsChanged:      valsChanged,

													LastHeightConsensusParamsChanged: paramsChanged,

												}


												if state.LastBlockHeight >= 1 {

													state.LastValidators = state.Validators

												}


												err := stateStore.Save(state)

												require.NoError(t, err)


												err = stateStore.SaveABCIResponses(h, &tmstate.ABCIResponses{

													FinalizeBlock: &abci.ResponseFinalizeBlock{

														TxResults: []*abci.ExecTxResult{

															{Data: []byte{1}},

															{Data: []byte{2}},

															{Data: []byte{3}},

														},

													},

												})

												require.NoError(t, err)

											}


											// Test assertions

											err := stateStore.PruneStates(tc.pruneHeight)

											if tc.expectErr {

												require.Error(t, err)

												return

											}

											require.NoError(t, err)


											for h := tc.pruneHeight; h <= tc.endHeight; h++ {

												vals, err := stateStore.LoadValidators(h)

												require.NoError(t, err, h)

												require.NotNil(t, vals, h)


												params, err := stateStore.LoadConsensusParams(h)

												require.NoError(t, err, h)

												require.NotNil(t, params, h)


												abci, err := stateStore.LoadABCIResponses(h)

												require.NoError(t, err, h)

												require.NotNil(t, abci, h)

											}


											emptyParams := types.ConsensusParams{}


											for h := tc.startHeight; h < tc.pruneHeight; h++ {

												vals, err := stateStore.LoadValidators(h)

												if h == tc.remainingValSetHeight {

													require.NoError(t, err, h)

													require.NotNil(t, vals, h)

												} else {

													require.Error(t, err, h)

													require.Nil(t, vals, h)

												}


												params, err := stateStore.LoadConsensusParams(h)

												if h == tc.remainingParamsHeight {

													require.NoError(t, err, h)

													require.NotEqual(t, emptyParams, params, h)

												} else {

													require.Error(t, err, h)

													require.Equal(t, emptyParams, params, h)

												}


												abci, err := stateStore.LoadABCIResponses(h)

												require.Error(t, err, h)

												require.Nil(t, abci, h)

											}

										})

									}

								}


								func TestABCIResponsesResultsHash(t *testing.T) {

									responses := &tmstate.ABCIResponses{

										FinalizeBlock: &abci.ResponseFinalizeBlock{

											TxResults: []*abci.ExecTxResult{

												{Code: 32, Data: []byte("Hello"), Log: "Huh?"},

											},

										},

									}


									root := sm.ABCIResponsesResultsHash(responses)


									// root should be Merkle tree root of FinalizeBlock tx responses

									results := types.NewResults(responses.FinalizeBlock.TxResults)

									assert.Equal(t, root, results.Hash())


									// test we can prove first tx in FinalizeBlock

									proof := results.ProveResult(0)

									bz, err := results[0].Marshal()

									require.NoError(t, err)

									assert.NoError(t, proof.Verify(root, bz))

								}