// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package encryption import ( "fmt" "testing" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "storj.io/storj/pkg/paths" "storj.io/storj/pkg/storj" ) func printLookup(revealed map[string]string, consumed interface{ Raw() string }, base *Base) { if base == nil { fmt.Printf("<%q, %q, nil>\n", revealed, consumed.Raw()) } else { fmt.Printf("<%q, %q, <%q, %q, %q>>\n", revealed, consumed, base.Unencrypted, base.Encrypted, base.Key[:2]) } } func toKey(val string) (out storj.Key) { copy(out[:], val) return out } func abortIfError(err error) { if err != nil { panic(fmt.Sprintf("%+v", err)) } } func ExampleStore() { s := NewStore() ep := paths.NewEncrypted up := paths.NewUnencrypted // Add a fairly complicated tree to the store. abortIfError(s.Add("b1", up("u1/u2/u3"), ep("e1/e2/e3"), toKey("k3"))) abortIfError(s.Add("b1", up("u1/u2/u3/u4"), ep("e1/e2/e3/e4"), toKey("k4"))) abortIfError(s.Add("b1", up("u1/u5"), ep("e1/e5"), toKey("k5"))) abortIfError(s.Add("b1", up("u6"), ep("e6"), toKey("k6"))) abortIfError(s.Add("b1", up("u6/u7/u8"), ep("e6/e7/e8"), toKey("k8"))) abortIfError(s.Add("b2", up("u1"), ep("e1'"), toKey("k1"))) abortIfError(s.Add("b3", paths.Unencrypted{}, paths.Encrypted{}, toKey("m1"))) // Look up some complicated queries by the unencrypted path. printLookup(s.LookupUnencrypted("b1", up("u1"))) printLookup(s.LookupUnencrypted("b1", up("u1/u2/u3"))) printLookup(s.LookupUnencrypted("b1", up("u1/u2/u3/u6"))) printLookup(s.LookupUnencrypted("b1", up("u1/u2/u3/u4"))) printLookup(s.LookupUnencrypted("b1", up("u6/u7"))) printLookup(s.LookupUnencrypted("b2", up("u1"))) printLookup(s.LookupUnencrypted("b3", paths.Unencrypted{})) printLookup(s.LookupUnencrypted("b3", up("z1"))) fmt.Println() // Look up some complicated queries by the encrypted path. printLookup(s.LookupEncrypted("b1", ep("e1"))) printLookup(s.LookupEncrypted("b1", ep("e1/e2/e3"))) printLookup(s.LookupEncrypted("b1", ep("e1/e2/e3/e6"))) printLookup(s.LookupEncrypted("b1", ep("e1/e2/e3/e4"))) printLookup(s.LookupEncrypted("b1", ep("e6/e7"))) printLookup(s.LookupEncrypted("b2", ep("e1'"))) printLookup(s.LookupEncrypted("b3", paths.Encrypted{})) printLookup(s.LookupEncrypted("b3", ep("z1"))) // output: // // // > // > // > // > // > // > // > // // // > // > // > // > // > // > // > } func TestStoreErrors(t *testing.T) { s := NewStore() ep := paths.NewEncrypted up := paths.NewUnencrypted // Too many encrypted parts require.Error(t, s.Add("b1", up("u1"), ep("e1/e2/e3"), storj.Key{})) // Too many unencrypted parts require.Error(t, s.Add("b1", up("u1/u2/u3"), ep("e1"), storj.Key{})) // Mismatches require.NoError(t, s.Add("b1", up("u1"), ep("e1"), storj.Key{})) require.Error(t, s.Add("b1", up("u2"), ep("e1"), storj.Key{})) require.Error(t, s.Add("b1", up("u1"), ep("f1"), storj.Key{})) } func TestStoreErrorState(t *testing.T) { s := NewStore() ep := paths.NewEncrypted up := paths.NewUnencrypted // Do an empty lookup. revealed1, consumed1, base1 := s.LookupUnencrypted("b1", up("u1/u2")) // Attempt to do an addition that fails. require.Error(t, s.Add("b1", up("u1/u2"), ep("e1/e2/e3"), storj.Key{})) // Ensure that we get the same results as before revealed2, consumed2, base2 := s.LookupUnencrypted("b1", up("u1/u2")) assert.Equal(t, revealed1, revealed2) assert.Equal(t, consumed1, consumed2) assert.Equal(t, base1, base2) }