package query import ( "context" "crypto/rsa" "database/sql" "database/sql/driver" "errors" "fmt" "io" "math/big" "regexp" "testing" "time" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "go.uber.org/mock/gomock" "github.com/zitadel/zitadel/internal/api/authz" "github.com/zitadel/zitadel/internal/crypto" "github.com/zitadel/zitadel/internal/domain" "github.com/zitadel/zitadel/internal/eventstore" key_repo "github.com/zitadel/zitadel/internal/repository/keypair" "github.com/zitadel/zitadel/internal/zerrors" ) var ( preparePublicKeysStmt = `SELECT projections.keys4.id,` + ` projections.keys4.creation_date,` + ` projections.keys4.change_date,` + ` projections.keys4.sequence,` + ` projections.keys4.resource_owner,` + ` projections.keys4.algorithm,` + ` projections.keys4.use,` + ` projections.keys4_public.expiry,` + ` projections.keys4_public.key,` + ` COUNT(*) OVER ()` + ` FROM projections.keys4` + ` LEFT JOIN projections.keys4_public ON projections.keys4.id = projections.keys4_public.id AND projections.keys4.instance_id = projections.keys4_public.instance_id` + ` AS OF SYSTEM TIME '-1 ms' ` preparePublicKeysCols = []string{ "id", "creation_date", "change_date", "sequence", "resource_owner", "algorithm", "use", "expiry", "key", "count", } preparePrivateKeysStmt = `SELECT projections.keys4.id,` + ` projections.keys4.creation_date,` + ` projections.keys4.change_date,` + ` projections.keys4.sequence,` + ` projections.keys4.resource_owner,` + ` projections.keys4.algorithm,` + ` projections.keys4.use,` + ` projections.keys4_private.expiry,` + ` projections.keys4_private.key,` + ` COUNT(*) OVER ()` + ` FROM projections.keys4` + ` LEFT JOIN projections.keys4_private ON projections.keys4.id = projections.keys4_private.id AND projections.keys4.instance_id = projections.keys4_private.instance_id` + ` AS OF SYSTEM TIME '-1 ms' ` ) func Test_KeyPrepares(t *testing.T) { type want struct { sqlExpectations sqlExpectation err checkErr } tests := []struct { name string prepare interface{} want want object interface{} }{ { name: "preparePublicKeysQuery no result", prepare: preparePublicKeysQuery, want: want{ sqlExpectations: mockQueries( regexp.QuoteMeta(preparePublicKeysStmt), nil, nil, ), err: func(err error) (error, bool) { if !zerrors.IsNotFound(err) { return fmt.Errorf("err should be zitadel.NotFoundError got: %w", err), false } return nil, true }, }, object: &PublicKeys{Keys: []PublicKey{}}, }, { name: "preparePublicKeysQuery found", prepare: preparePublicKeysQuery, want: want{ sqlExpectations: mockQueries( regexp.QuoteMeta(preparePublicKeysStmt), preparePublicKeysCols, [][]driver.Value{ { "key-id", testNow, testNow, uint64(20211109), "ro", "RS256", 0, testNow, []byte("-----BEGIN RSA PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAsvX9P58JFxEs5C+L+H7W\nduFSWL5EPzber7C2m94klrSV6q0bAcrYQnGwFOlveThsY200hRbadKaKjHD7qIKH\nDEe0IY2PSRht33Jye52AwhkRw+M3xuQH/7R8LydnsNFk2KHpr5X2SBv42e37LjkE\nslKSaMRgJW+v0KZ30piY8QsdFRKKaVg5/Ajt1YToM1YVsdHXJ3vmXFMtypLdxwUD\ndIaLEX6pFUkU75KSuEQ/E2luT61Q3ta9kOWm9+0zvi7OMcbdekJT7mzcVnh93R1c\n13ZhQCLbh9A7si8jKFtaMWevjayrvqQABEcTN9N4Hoxcyg6l4neZtRDk75OMYcqm\nDQIDAQAB\n-----END RSA PUBLIC KEY-----\n"), }, }, ), }, object: &PublicKeys{ SearchResponse: SearchResponse{ Count: 1, }, Keys: []PublicKey{ &rsaPublicKey{ key: key{ id: "key-id", creationDate: testNow, changeDate: testNow, sequence: 20211109, resourceOwner: "ro", algorithm: "RS256", use: domain.KeyUsageSigning, }, expiry: testNow, publicKey: &rsa.PublicKey{ E: 65537, N: fromBase16("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"), }, }, }, }, }, { name: "preparePublicKeysQuery sql err", prepare: preparePublicKeysQuery, want: want{ sqlExpectations: mockQueryErr( regexp.QuoteMeta(preparePublicKeysStmt), sql.ErrConnDone, ), err: func(err error) (error, bool) { if !errors.Is(err, sql.ErrConnDone) { return fmt.Errorf("err should be sql.ErrConnDone got: %w", err), false } return nil, true }, }, object: (*PublicKeys)(nil), }, { name: "preparePrivateKeysQuery no result", prepare: preparePrivateKeysQuery, want: want{ sqlExpectations: mockQueries( regexp.QuoteMeta(preparePrivateKeysStmt), nil, nil, ), err: func(err error) (error, bool) { if !zerrors.IsNotFound(err) { return fmt.Errorf("err should be zitadel.NotFoundError got: %w", err), false } return nil, true }, }, object: &PrivateKeys{Keys: []PrivateKey{}}, }, { name: "preparePrivateKeysQuery found", prepare: preparePrivateKeysQuery, want: want{ sqlExpectations: mockQueries( regexp.QuoteMeta(preparePrivateKeysStmt), preparePublicKeysCols, [][]driver.Value{ { "key-id", testNow, testNow, uint64(20211109), "ro", "RS256", 0, testNow, []byte(`{"Algorithm": "enc", "Crypted": "cHJpdmF0ZUtleQ==", "CryptoType": 0, "KeyID": "id"}`), }, }, ), }, object: &PrivateKeys{ SearchResponse: SearchResponse{ Count: 1, }, Keys: []PrivateKey{ &privateKey{ key: key{ id: "key-id", creationDate: testNow, changeDate: testNow, sequence: 20211109, resourceOwner: "ro", algorithm: "RS256", use: domain.KeyUsageSigning, }, expiry: testNow, privateKey: &crypto.CryptoValue{ CryptoType: crypto.TypeEncryption, Algorithm: "enc", KeyID: "id", Crypted: []byte("privateKey"), }, }, }, }, }, { name: "preparePrivateKeysQuery sql err", prepare: preparePrivateKeysQuery, want: want{ sqlExpectations: mockQueryErr( regexp.QuoteMeta(preparePrivateKeysStmt), sql.ErrConnDone, ), err: func(err error) (error, bool) { if !errors.Is(err, sql.ErrConnDone) { return fmt.Errorf("err should be sql.ErrConnDone got: %w", err), false } return nil, true }, }, object: (*PrivateKeys)(nil), }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { assertPrepare(t, tt.prepare, tt.object, tt.want.sqlExpectations, tt.want.err, defaultPrepareArgs...) }) } } func fromBase16(base16 string) *big.Int { i, ok := new(big.Int).SetString(base16, 16) if !ok { panic("bad number: " + base16) } return i } const pubKey = `-----BEGIN PUBLIC KEY----- MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAs38btwb3c7r0tMaQpGvB mY+mPwMU/LpfuPoC0k2t4RsKp0fv40SMl50CRrHgk395wch8PMPYbl3+8TtYAJuy rFALIj3Ff1UcKIk0hOH5DDsfh7/q2wFuncTmS6bifYo8CfSq2vDGnM7nZnEvxY/M fSydZdcmIqlkUpfQmtzExw9+tSe5Dxq6gn5JtlGgLgZGt69r5iMMrTEGhhVAXzNu MZbmlCoBru+rC8ITlTX/0V1ZcsSbL8tYWhthyu9x6yjo1bH85wiVI4gs0MhU8f2a +kjL/KGZbR14Ua2eo6tonBZLC5DHWM2TkYXgRCDPufjcgmzN0Lm91E4P8KvBcvly 6QIDAQAB -----END PUBLIC KEY----- ` func TestQueries_GetPublicKeyByID(t *testing.T) { now := time.Now() future := now.Add(time.Hour) tests := []struct { name string eventstore func(*testing.T) *eventstore.Eventstore encryption func(*testing.T) *crypto.MockEncryptionAlgorithm want *rsaPublicKey wantErr error }{ { name: "filter error", eventstore: expectEventstore( expectFilterError(io.ErrClosedPipe), ), wantErr: io.ErrClosedPipe, }, { name: "not found error", eventstore: expectEventstore( expectFilter(), ), wantErr: zerrors.ThrowNotFound(nil, "QUERY-Ahf7x", "Errors.Key.NotFound"), }, { name: "decrypt error", eventstore: expectEventstore( expectFilter( eventFromEventPusher(key_repo.NewAddedEvent(context.Background(), &eventstore.Aggregate{ ID: "keyID", Type: key_repo.AggregateType, ResourceOwner: "instanceID", InstanceID: "instanceID", Version: key_repo.AggregateVersion, }, domain.KeyUsageSigning, "alg", &crypto.CryptoValue{ CryptoType: crypto.TypeEncryption, Algorithm: "alg", KeyID: "keyID", Crypted: []byte("private"), }, &crypto.CryptoValue{ CryptoType: crypto.TypeEncryption, Algorithm: "alg", KeyID: "keyID", Crypted: []byte("public"), }, future, future, )), ), ), encryption: func(t *testing.T) *crypto.MockEncryptionAlgorithm { encryption := crypto.NewMockEncryptionAlgorithm(gomock.NewController(t)) expect := encryption.EXPECT() expect.Algorithm().Return("alg") expect.DecryptionKeyIDs().Return([]string{}) return encryption }, wantErr: zerrors.ThrowInternal(nil, "QUERY-Ie4oh", "Errors.Internal"), }, { name: "parse error", eventstore: expectEventstore( expectFilter( eventFromEventPusher(key_repo.NewAddedEvent(context.Background(), &eventstore.Aggregate{ ID: "keyID", Type: key_repo.AggregateType, ResourceOwner: "instanceID", InstanceID: "instanceID", Version: key_repo.AggregateVersion, }, domain.KeyUsageSigning, "alg", &crypto.CryptoValue{ CryptoType: crypto.TypeEncryption, Algorithm: "alg", KeyID: "keyID", Crypted: []byte("private"), }, &crypto.CryptoValue{ CryptoType: crypto.TypeEncryption, Algorithm: "alg", KeyID: "keyID", Crypted: []byte("public"), }, future, future, )), ), ), encryption: func(t *testing.T) *crypto.MockEncryptionAlgorithm { encryption := crypto.NewMockEncryptionAlgorithm(gomock.NewController(t)) expect := encryption.EXPECT() expect.Algorithm().Return("alg") expect.DecryptionKeyIDs().Return([]string{"keyID"}) expect.Decrypt([]byte("public"), "keyID").Return([]byte("foo"), nil) return encryption }, wantErr: zerrors.ThrowInternal(nil, "QUERY-Kai2Z", "Errors.Internal"), }, { name: "success", eventstore: expectEventstore( expectFilter( eventFromEventPusher(key_repo.NewAddedEvent(context.Background(), &eventstore.Aggregate{ ID: "keyID", Type: key_repo.AggregateType, ResourceOwner: "instanceID", InstanceID: "instanceID", Version: key_repo.AggregateVersion, }, domain.KeyUsageSigning, "alg", &crypto.CryptoValue{ CryptoType: crypto.TypeEncryption, Algorithm: "alg", KeyID: "keyID", Crypted: []byte("private"), }, &crypto.CryptoValue{ CryptoType: crypto.TypeEncryption, Algorithm: "alg", KeyID: "keyID", Crypted: []byte("public"), }, future, future, )), ), ), encryption: func(t *testing.T) *crypto.MockEncryptionAlgorithm { encryption := crypto.NewMockEncryptionAlgorithm(gomock.NewController(t)) expect := encryption.EXPECT() expect.Algorithm().Return("alg") expect.DecryptionKeyIDs().Return([]string{"keyID"}) expect.Decrypt([]byte("public"), "keyID").Return([]byte(pubKey), nil) return encryption }, want: &rsaPublicKey{ key: key{ id: "keyID", resourceOwner: "instanceID", algorithm: "alg", use: domain.KeyUsageSigning, }, expiry: future, publicKey: func() *rsa.PublicKey { publicKey, err := crypto.BytesToPublicKey([]byte(pubKey)) if err != nil { panic(err) } return publicKey }(), }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { q := &Queries{ eventstore: tt.eventstore(t), } if tt.encryption != nil { q.keyEncryptionAlgorithm = tt.encryption(t) } ctx := authz.NewMockContext("instanceID", "orgID", "loginClient") key, err := q.GetPublicKeyByID(ctx, "keyID") if tt.wantErr != nil { require.ErrorIs(t, err, tt.wantErr) return } require.NoError(t, err) require.NotNil(t, key) got := key.(*rsaPublicKey) assert.WithinDuration(t, tt.want.expiry, got.expiry, time.Second) tt.want.expiry = time.Time{} got.expiry = time.Time{} assert.Equal(t, tt.want, got) }) } }