// nolint: vetshadow package lite_test import ( "fmt" "testing" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "github.com/tendermint/tendermint/lite" ) func TestInquirerValidPath(t *testing.T) { assert, require := assert.New(t), require.New(t) trust := lite.NewMemStoreProvider() source := lite.NewMemStoreProvider() // set up the validators to generate test blocks var vote int64 = 10 keys := lite.GenValKeys(5) // construct a bunch of commits, each with one more height than the last chainID := "inquiry-test" consHash := []byte("params") resHash := []byte("results") count := 50 commits := make([]lite.FullCommit, count) for i := 0; i < count; i++ { // extend the keys by 1 each time keys = keys.Extend(1) vals := keys.ToValidators(vote, 0) h := int64(20 + 10*i) appHash := []byte(fmt.Sprintf("h=%d", h)) commits[i] = keys.GenFullCommit(chainID, h, nil, vals, appHash, consHash, resHash, 0, len(keys)) } // initialize a certifier with the initial state cert, err := lite.NewInquiring(chainID, commits[0], trust, source) require.Nil(err) // this should fail validation.... commit := commits[count-1].Commit err = cert.Certify(commit) require.NotNil(err) // adding a few commits in the middle should be insufficient for i := 10; i < 13; i++ { err := source.StoreCommit(commits[i]) require.Nil(err) } err = cert.Certify(commit) assert.NotNil(err) // with more info, we succeed for i := 0; i < count; i++ { err := source.StoreCommit(commits[i]) require.Nil(err) } err = cert.Certify(commit) assert.Nil(err, "%+v", err) } func TestInquirerMinimalPath(t *testing.T) { assert, require := assert.New(t), require.New(t) trust := lite.NewMemStoreProvider() source := lite.NewMemStoreProvider() // set up the validators to generate test blocks var vote int64 = 10 keys := lite.GenValKeys(5) // construct a bunch of commits, each with one more height than the last chainID := "minimal-path" consHash := []byte("other-params") count := 12 commits := make([]lite.FullCommit, count) for i := 0; i < count; i++ { // extend the validators, so we are just below 2/3 keys = keys.Extend(len(keys)/2 - 1) vals := keys.ToValidators(vote, 0) h := int64(5 + 10*i) appHash := []byte(fmt.Sprintf("h=%d", h)) resHash := []byte(fmt.Sprintf("res=%d", h)) commits[i] = keys.GenFullCommit(chainID, h, nil, vals, appHash, consHash, resHash, 0, len(keys)) } // initialize a certifier with the initial state cert, _ := lite.NewInquiring(chainID, commits[0], trust, source) // this should fail validation.... commit := commits[count-1].Commit err := cert.Certify(commit) require.NotNil(err) // add a few seed in the middle should be insufficient for i := 5; i < 8; i++ { err := source.StoreCommit(commits[i]) require.Nil(err) } err = cert.Certify(commit) assert.NotNil(err) // with more info, we succeed for i := 0; i < count; i++ { err := source.StoreCommit(commits[i]) require.Nil(err) } err = cert.Certify(commit) assert.Nil(err, "%+v", err) } func TestInquirerVerifyHistorical(t *testing.T) { assert, require := assert.New(t), require.New(t) trust := lite.NewMemStoreProvider() source := lite.NewMemStoreProvider() // set up the validators to generate test blocks var vote int64 = 10 keys := lite.GenValKeys(5) // construct a bunch of commits, each with one more height than the last chainID := "inquiry-test" count := 10 consHash := []byte("special-params") commits := make([]lite.FullCommit, count) for i := 0; i < count; i++ { // extend the keys by 1 each time keys = keys.Extend(1) vals := keys.ToValidators(vote, 0) h := int64(20 + 10*i) appHash := []byte(fmt.Sprintf("h=%d", h)) resHash := []byte(fmt.Sprintf("res=%d", h)) commits[i] = keys.GenFullCommit(chainID, h, nil, vals, appHash, consHash, resHash, 0, len(keys)) } // initialize a certifier with the initial state cert, _ := lite.NewInquiring(chainID, commits[0], trust, source) // store a few commits as trust for _, i := range []int{2, 5} { trust.StoreCommit(commits[i]) } // let's see if we can jump forward using trusted commits err := source.StoreCommit(commits[7]) require.Nil(err, "%+v", err) check := commits[7].Commit err = cert.Certify(check) require.Nil(err, "%+v", err) assert.Equal(check.Height(), cert.LastHeight()) // add access to all commits via untrusted source for i := 0; i < count; i++ { err := source.StoreCommit(commits[i]) require.Nil(err) } // try to check an unknown seed in the past mid := commits[3].Commit err = cert.Certify(mid) require.Nil(err, "%+v", err) assert.Equal(mid.Height(), cert.LastHeight()) // and jump all the way forward again end := commits[count-1].Commit err = cert.Certify(end) require.Nil(err, "%+v", err) assert.Equal(end.Height(), cert.LastHeight()) }