package peering_test import ( "context" "encoding/base64" "encoding/json" "fmt" "io/ioutil" "net" "path" "testing" "time" "github.com/hashicorp/go-hclog" "github.com/hashicorp/go-uuid" "github.com/stretchr/testify/require" gogrpc "google.golang.org/grpc" "google.golang.org/grpc/codes" grpcstatus "google.golang.org/grpc/status" "github.com/hashicorp/consul/acl" "github.com/hashicorp/consul/agent/consul" "github.com/hashicorp/consul/agent/consul/state" "github.com/hashicorp/consul/agent/consul/stream" external "github.com/hashicorp/consul/agent/grpc-external" grpc "github.com/hashicorp/consul/agent/grpc-internal" "github.com/hashicorp/consul/agent/grpc-internal/resolver" "github.com/hashicorp/consul/agent/pool" "github.com/hashicorp/consul/agent/router" "github.com/hashicorp/consul/agent/rpc/middleware" "github.com/hashicorp/consul/agent/rpc/peering" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/agent/token" "github.com/hashicorp/consul/lib" "github.com/hashicorp/consul/proto/pbpeering" "github.com/hashicorp/consul/proto/prototest" "github.com/hashicorp/consul/sdk/freeport" "github.com/hashicorp/consul/sdk/testutil" "github.com/hashicorp/consul/sdk/testutil/retry" "github.com/hashicorp/consul/testrpc" "github.com/hashicorp/consul/tlsutil" "github.com/hashicorp/consul/types" ) const ( testTokenPeeringReadSecret = "9a83c138-a0c7-40f1-89fa-6acf9acd78f5" testTokenPeeringWriteSecret = "91f90a41-0840-4afe-b615-68745f9e16c1" testTokenServiceReadSecret = "1ef8e3cf-6e95-49aa-9f73-a0d3ad1a77d4" testTokenServiceWriteSecret = "4a3dc05d-d86c-4f20-be43-8f4f8f045fea" ) func generateTooManyMetaKeys() map[string]string { // todo -- modularize in structs.go or testing.go tooMuchMeta := make(map[string]string) for i := 0; i < 64+1; i++ { tooMuchMeta[fmt.Sprint(i)] = "value" } return tooMuchMeta } func TestPeeringService_GenerateToken(t *testing.T) { dir := testutil.TempDir(t, "consul") signer, _, _ := tlsutil.GeneratePrivateKey() ca, _, _ := tlsutil.GenerateCA(tlsutil.CAOpts{Signer: signer}) cafile := path.Join(dir, "cacert.pem") require.NoError(t, ioutil.WriteFile(cafile, []byte(ca), 0600)) // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(c *consul.Config) { c.SerfLANConfig.MemberlistConfig.AdvertiseAddr = "127.0.0.1" c.TLSConfig.GRPC.CAFile = cafile c.DataDir = dir }) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) // TODO(peering): for more failure cases, consider using a table test // check meta tags reqE := pbpeering.GenerateTokenRequest{PeerName: "peerB", Meta: generateTooManyMetaKeys()} _, errE := client.GenerateToken(ctx, &reqE) require.EqualError(t, errE, "rpc error: code = Unknown desc = meta tags failed validation: Node metadata cannot contain more than 64 key/value pairs") var ( peerID string secret string ) testutil.RunStep(t, "peering token is generated with data", func(t *testing.T) { req := pbpeering.GenerateTokenRequest{PeerName: "peerB", Meta: map[string]string{"foo": "bar"}} resp, err := client.GenerateToken(ctx, &req) require.NoError(t, err) tokenJSON, err := base64.StdEncoding.DecodeString(resp.PeeringToken) require.NoError(t, err) token := &structs.PeeringToken{} require.NoError(t, json.Unmarshal(tokenJSON, token)) require.Equal(t, "server.dc1.consul", token.ServerName) require.Len(t, token.ServerAddresses, 1) require.Equal(t, s.PublicGRPCAddr, token.ServerAddresses[0]) require.Equal(t, []string{ca}, token.CA) require.NotEmpty(t, token.EstablishmentSecret) secret = token.EstablishmentSecret require.NotEmpty(t, token.PeerID) peerID = token.PeerID _, err = uuid.ParseUUID(token.PeerID) require.NoError(t, err) }) testutil.RunStep(t, "peerings is created by generating a token", func(t *testing.T) { _, peers, err := s.Server.FSM().State().PeeringList(nil, *structs.DefaultEnterpriseMetaInDefaultPartition()) require.NoError(t, err) require.Len(t, peers, 1) peers[0].ModifyIndex = 0 peers[0].CreateIndex = 0 expect := &pbpeering.Peering{ Name: "peerB", Partition: acl.DefaultPartitionName, ID: peerID, State: pbpeering.PeeringState_PENDING, Meta: map[string]string{"foo": "bar"}, } require.Equal(t, expect, peers[0]) }) testutil.RunStep(t, "generating a token persists establishment secret", func(t *testing.T) { s, err := s.Server.FSM().State().PeeringSecretsRead(nil, peerID) require.NoError(t, err) require.NotNil(t, s) require.Equal(t, secret, s.GetEstablishment().GetSecretID()) }) testutil.RunStep(t, "re-generating a peering token re-generates the secret", func(t *testing.T) { req := pbpeering.GenerateTokenRequest{PeerName: "peerB", Meta: map[string]string{"foo": "bar"}} resp, err := client.GenerateToken(ctx, &req) require.NoError(t, err) tokenJSON, err := base64.StdEncoding.DecodeString(resp.PeeringToken) require.NoError(t, err) token := &structs.PeeringToken{} require.NoError(t, json.Unmarshal(tokenJSON, token)) // There should be a new establishment secret, different from the past one require.NotEmpty(t, token.EstablishmentSecret) require.NotEqual(t, secret, token.EstablishmentSecret) s, err := s.Server.FSM().State().PeeringSecretsRead(nil, peerID) require.NoError(t, err) require.NotNil(t, s) // The secret must be persisted on the server that generated it. require.Equal(t, token.EstablishmentSecret, s.GetEstablishment().GetSecretID()) }) } func TestPeeringService_GenerateTokenExternalAddress(t *testing.T) { dir := testutil.TempDir(t, "consul") signer, _, _ := tlsutil.GeneratePrivateKey() ca, _, _ := tlsutil.GenerateCA(tlsutil.CAOpts{Signer: signer}) cafile := path.Join(dir, "cacert.pem") require.NoError(t, ioutil.WriteFile(cafile, []byte(ca), 0600)) // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(c *consul.Config) { c.SerfLANConfig.MemberlistConfig.AdvertiseAddr = "127.0.0.1" c.TLSConfig.GRPC.CAFile = cafile c.DataDir = dir }) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) externalAddress := "32.1.2.3:8502" // happy path req := pbpeering.GenerateTokenRequest{PeerName: "peerB", Meta: map[string]string{"foo": "bar"}, ServerExternalAddresses: []string{externalAddress}} resp, err := client.GenerateToken(ctx, &req) require.NoError(t, err) tokenJSON, err := base64.StdEncoding.DecodeString(resp.PeeringToken) require.NoError(t, err) token := &structs.PeeringToken{} require.NoError(t, json.Unmarshal(tokenJSON, token)) require.Equal(t, "server.dc1.consul", token.ServerName) require.Len(t, token.ServerAddresses, 1) require.Equal(t, externalAddress, token.ServerAddresses[0]) require.Equal(t, []string{ca}, token.CA) } func TestPeeringService_GenerateToken_ACLEnforcement(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(conf *consul.Config) { conf.ACLsEnabled = true conf.ACLResolverSettings.ACLDefaultPolicy = acl.PolicyDeny }) upsertTestACLs(t, s.Server.FSM().State()) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.GenerateTokenRequest token string expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) _, err := client.GenerateToken(external.ContextWithToken(ctx, tc.token), tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) } tcs := []testcase{ { name: "anonymous token lacks permissions", req: &pbpeering.GenerateTokenRequest{PeerName: "foo"}, expectErr: "lacks permission 'peering:write'", }, { name: "read token lacks permissions", req: &pbpeering.GenerateTokenRequest{ PeerName: "foo", }, token: testTokenPeeringReadSecret, expectErr: "lacks permission 'peering:write'", }, { name: "write token grants permission", req: &pbpeering.GenerateTokenRequest{ PeerName: "foo", }, token: testTokenPeeringWriteSecret, }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } func TestPeeringService_Establish_Validation(t *testing.T) { validToken := peering.TestPeeringToken("83474a06-cca4-4ff4-99a4-4152929c8160") validTokenJSON, _ := json.Marshal(&validToken) validTokenB64 := base64.StdEncoding.EncodeToString(validTokenJSON) // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, nil) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.EstablishRequest expectResp *pbpeering.EstablishResponse expectPeering *pbpeering.Peering expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.Establish(ctx, tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) prototest.AssertDeepEqual(t, tc.expectResp, resp) // if a peering was expected to be written, try to read it back if tc.expectPeering != nil { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.PeeringRead(ctx, &pbpeering.PeeringReadRequest{Name: tc.expectPeering.Name}) require.NoError(t, err) // check individual values we care about since we don't know exactly // what the create/modify indexes will be require.Equal(t, tc.expectPeering.Name, resp.Peering.Name) require.Equal(t, tc.expectPeering.Partition, resp.Peering.Partition) require.Equal(t, tc.expectPeering.State, resp.Peering.State) require.Equal(t, tc.expectPeering.PeerCAPems, resp.Peering.PeerCAPems) require.Equal(t, tc.expectPeering.PeerServerAddresses, resp.Peering.PeerServerAddresses) require.Equal(t, tc.expectPeering.PeerServerName, resp.Peering.PeerServerName) } } tcs := []testcase{ { name: "invalid peer name", req: &pbpeering.EstablishRequest{PeerName: "--AA--"}, expectErr: "--AA-- is not a valid peer name", }, { name: "invalid token (base64)", req: &pbpeering.EstablishRequest{ PeerName: "peer1-usw1", PeeringToken: "+++/+++", }, expectErr: "illegal base64 data", }, { name: "invalid token (JSON)", req: &pbpeering.EstablishRequest{ PeerName: "peer1-usw1", PeeringToken: "Cg==", // base64 of "-" }, expectErr: "unexpected end of JSON input", }, { name: "invalid token (empty)", req: &pbpeering.EstablishRequest{ PeerName: "peer1-usw1", PeeringToken: "e30K", // base64 of "{}" }, expectErr: "peering token server addresses value is empty", }, { name: "too many meta tags", req: &pbpeering.EstablishRequest{ PeerName: "peer1-usw1", PeeringToken: validTokenB64, Meta: generateTooManyMetaKeys(), }, expectErr: "meta tags failed validation:", }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } // We define a valid peering by a peering that does not occur over the same server addresses func TestPeeringService_Establish_validPeeringInPartition(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, nil) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) req := pbpeering.GenerateTokenRequest{PeerName: "peerOne"} resp, err := client.GenerateToken(ctx, &req) require.NoError(t, err) require.NotEmpty(t, resp) establishReq := &pbpeering.EstablishRequest{ PeerName: "peerTwo", PeeringToken: resp.PeeringToken} respE, errE := client.Establish(ctx, establishReq) require.Error(t, errE) require.Contains(t, errE.Error(), "cannot create a peering within the same partition (ENT) or cluster (OSS)") require.Nil(t, respE) } func TestPeeringService_Establish(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s1 := newTestServer(t, nil) client1 := pbpeering.NewPeeringServiceClient(s1.ClientConn(t)) s2 := newTestServer(t, func(conf *consul.Config) { conf.GRPCPort = 5301 }) client2 := pbpeering.NewPeeringServiceClient(s2.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) // Generate a peering token for s2 tokenResp, err := client1.GenerateToken(ctx, &pbpeering.GenerateTokenRequest{PeerName: "my-peer-s2"}) require.NoError(t, err) ctx, cancel = context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) var peerID string testutil.RunStep(t, "peering can be established from token", func(t *testing.T) { _, err = client2.Establish(ctx, &pbpeering.EstablishRequest{PeerName: "my-peer-s1", PeeringToken: tokenResp.PeeringToken}) require.NoError(t, err) ctx, cancel = context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) // Read the expected peering at s2 to validate it resp, err := client2.PeeringRead(ctx, &pbpeering.PeeringReadRequest{Name: "my-peer-s1"}) require.NoError(t, err) peerID = resp.Peering.ID // Check individual values, ignoring the create/modify indexes. tokenJSON, err := base64.StdEncoding.DecodeString(tokenResp.PeeringToken) require.NoError(t, err) var token structs.PeeringToken require.NoError(t, json.Unmarshal(tokenJSON, &token)) require.Equal(t, "my-peer-s1", resp.Peering.Name) require.Equal(t, token.CA, resp.Peering.PeerCAPems) require.Equal(t, token.ServerAddresses, resp.Peering.PeerServerAddresses) require.Equal(t, token.ServerName, resp.Peering.PeerServerName) }) testutil.RunStep(t, "stream secret is persisted", func(t *testing.T) { secret, err := s2.Server.FSM().State().PeeringSecretsRead(nil, peerID) require.NoError(t, err) require.NotEmpty(t, secret.GetStream().GetActiveSecretID()) }) testutil.RunStep(t, "peering tokens cannot be reused after secret exchange", func(t *testing.T) { ctx, cancel = context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) _, err = client2.Establish(ctx, &pbpeering.EstablishRequest{PeerName: "my-peer-s1", PeeringToken: tokenResp.PeeringToken}) require.Contains(t, err.Error(), "invalid peering establishment secret") }) } func TestPeeringService_Establish_ACLEnforcement(t *testing.T) { validToken := peering.TestPeeringToken("83474a06-cca4-4ff4-99a4-4152929c8160") validTokenJSON, _ := json.Marshal(&validToken) validTokenB64 := base64.StdEncoding.EncodeToString(validTokenJSON) // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(conf *consul.Config) { conf.ACLsEnabled = true conf.ACLResolverSettings.ACLDefaultPolicy = acl.PolicyDeny }) upsertTestACLs(t, s.Server.FSM().State()) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.EstablishRequest token string expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) _, err := client.Establish(external.ContextWithToken(ctx, tc.token), tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NotContains(t, err.Error(), "lacks permission") } tcs := []testcase{ { name: "anonymous token lacks permissions", req: &pbpeering.EstablishRequest{ PeerName: "foo", PeeringToken: validTokenB64, }, expectErr: "lacks permission 'peering:write'", }, { name: "read token lacks permissions", req: &pbpeering.EstablishRequest{ PeerName: "foo", PeeringToken: validTokenB64, }, token: testTokenPeeringReadSecret, expectErr: "lacks permission 'peering:write'", }, { name: "write token grants permission", req: &pbpeering.EstablishRequest{ PeerName: "foo", PeeringToken: validTokenB64, }, token: testTokenPeeringWriteSecret, }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } func TestPeeringService_Read(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, nil) // insert peering directly to state store p := &pbpeering.Peering{ ID: testUUID(t), Name: "foo", State: pbpeering.PeeringState_ESTABLISHING, PeerCAPems: nil, PeerServerName: "test", PeerServerAddresses: []string{"addr1"}, ImportedServiceCount: 0, ExportedServiceCount: 0, } err := s.Server.FSM().State().PeeringWrite(10, &pbpeering.PeeringWriteRequest{Peering: p}) require.NoError(t, err) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.PeeringReadRequest expect *pbpeering.PeeringReadResponse expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.PeeringRead(ctx, tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) prototest.AssertDeepEqual(t, tc.expect, resp) } tcs := []testcase{ { name: "returns foo", req: &pbpeering.PeeringReadRequest{Name: "foo"}, expect: &pbpeering.PeeringReadResponse{Peering: p}, expectErr: "", }, { name: "bar not found", req: &pbpeering.PeeringReadRequest{Name: "bar"}, expect: &pbpeering.PeeringReadResponse{}, expectErr: "", }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } func TestPeeringService_Read_ACLEnforcement(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(conf *consul.Config) { conf.ACLsEnabled = true conf.ACLResolverSettings.ACLDefaultPolicy = acl.PolicyDeny }) upsertTestACLs(t, s.Server.FSM().State()) // insert peering directly to state store p := &pbpeering.Peering{ ID: testUUID(t), Name: "foo", State: pbpeering.PeeringState_ESTABLISHING, PeerCAPems: nil, PeerServerName: "test", PeerServerAddresses: []string{"addr1"}, ImportedServiceCount: 0, ExportedServiceCount: 0, } err := s.Server.FSM().State().PeeringWrite(10, &pbpeering.PeeringWriteRequest{Peering: p}) require.NoError(t, err) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.PeeringReadRequest expect *pbpeering.PeeringReadResponse token string expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.PeeringRead(external.ContextWithToken(ctx, tc.token), tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) prototest.AssertDeepEqual(t, tc.expect, resp) } tcs := []testcase{ { name: "anonymous token lacks permissions", req: &pbpeering.PeeringReadRequest{Name: "foo"}, expect: &pbpeering.PeeringReadResponse{Peering: p}, expectErr: "lacks permission 'peering:read'", }, { name: "read token grants permission", req: &pbpeering.PeeringReadRequest{ Name: "foo", }, expect: &pbpeering.PeeringReadResponse{Peering: p}, token: testTokenPeeringReadSecret, }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } func TestPeeringService_Delete(t *testing.T) { tt := map[string]pbpeering.PeeringState{ "active peering": pbpeering.PeeringState_ACTIVE, "terminated peering": pbpeering.PeeringState_TERMINATED, } for name, overrideState := range tt { t.Run(name, func(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, nil) // A pointer is kept for the following peering so that we can modify the object without another PeeringWrite. p := &pbpeering.Peering{ ID: testUUID(t), Name: "foo", PeerCAPems: nil, PeerServerName: "test", PeerServerAddresses: []string{"addr1"}, } err := s.Server.FSM().State().PeeringWrite(10, &pbpeering.PeeringWriteRequest{Peering: p}) require.NoError(t, err) require.Nil(t, p.DeletedAt) require.True(t, p.IsActive()) // Overwrite the peering state to simulate deleting from a non-initial state. p.State = overrideState client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) _, err = client.PeeringDelete(ctx, &pbpeering.PeeringDeleteRequest{Name: "foo"}) require.NoError(t, err) retry.Run(t, func(r *retry.R) { _, resp, err := s.Server.FSM().State().PeeringRead(nil, state.Query{Value: "foo"}) require.NoError(r, err) // Initially the peering will be marked for deletion but eventually the leader // routine will clean it up. require.Nil(r, resp) }) }) } } func TestPeeringService_Delete_ACLEnforcement(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(conf *consul.Config) { conf.ACLsEnabled = true conf.ACLResolverSettings.ACLDefaultPolicy = acl.PolicyDeny }) upsertTestACLs(t, s.Server.FSM().State()) p := &pbpeering.Peering{ ID: testUUID(t), Name: "foo", State: pbpeering.PeeringState_ESTABLISHING, PeerCAPems: nil, PeerServerName: "test", PeerServerAddresses: []string{"addr1"}, } err := s.Server.FSM().State().PeeringWrite(10, &pbpeering.PeeringWriteRequest{Peering: p}) require.NoError(t, err) require.Nil(t, p.DeletedAt) require.True(t, p.IsActive()) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.PeeringDeleteRequest token string expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) _, err = client.PeeringDelete(external.ContextWithToken(ctx, tc.token), tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) } tcs := []testcase{ { name: "anonymous token lacks permissions", req: &pbpeering.PeeringDeleteRequest{Name: "foo"}, expectErr: "lacks permission 'peering:write'", }, { name: "read token lacks permissions", req: &pbpeering.PeeringDeleteRequest{ Name: "foo", }, token: testTokenPeeringReadSecret, expectErr: "lacks permission 'peering:write'", }, { name: "write token grants permission", req: &pbpeering.PeeringDeleteRequest{ Name: "foo", }, token: testTokenPeeringWriteSecret, }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } func TestPeeringService_List(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, nil) // Insert peerings directly to state store. // Note that the state store holds reference to the underlying // variables; do not modify them after writing. foo := &pbpeering.Peering{ ID: testUUID(t), Name: "foo", State: pbpeering.PeeringState_ESTABLISHING, PeerCAPems: nil, PeerServerName: "fooservername", PeerServerAddresses: []string{"addr1"}, ImportedServiceCount: 0, ExportedServiceCount: 0, } require.NoError(t, s.Server.FSM().State().PeeringWrite(10, &pbpeering.PeeringWriteRequest{Peering: foo})) bar := &pbpeering.Peering{ ID: testUUID(t), Name: "bar", State: pbpeering.PeeringState_ACTIVE, PeerCAPems: nil, PeerServerName: "barservername", PeerServerAddresses: []string{"addr1"}, ImportedServiceCount: 0, ExportedServiceCount: 0, } require.NoError(t, s.Server.FSM().State().PeeringWrite(15, &pbpeering.PeeringWriteRequest{Peering: bar})) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.PeeringList(ctx, &pbpeering.PeeringListRequest{}) require.NoError(t, err) expect := &pbpeering.PeeringListResponse{ Peerings: []*pbpeering.Peering{bar, foo}, } prototest.AssertDeepEqual(t, expect, resp) } func TestPeeringService_List_ACLEnforcement(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(conf *consul.Config) { conf.ACLsEnabled = true conf.ACLResolverSettings.ACLDefaultPolicy = acl.PolicyDeny }) upsertTestACLs(t, s.Server.FSM().State()) // insert peering directly to state store foo := &pbpeering.Peering{ ID: testUUID(t), Name: "foo", State: pbpeering.PeeringState_ESTABLISHING, PeerCAPems: nil, PeerServerName: "fooservername", PeerServerAddresses: []string{"addr1"}, ImportedServiceCount: 0, ExportedServiceCount: 0, } require.NoError(t, s.Server.FSM().State().PeeringWrite(10, &pbpeering.PeeringWriteRequest{Peering: foo})) bar := &pbpeering.Peering{ ID: testUUID(t), Name: "bar", State: pbpeering.PeeringState_ACTIVE, PeerCAPems: nil, PeerServerName: "barservername", PeerServerAddresses: []string{"addr1"}, ImportedServiceCount: 0, ExportedServiceCount: 0, } require.NoError(t, s.Server.FSM().State().PeeringWrite(15, &pbpeering.PeeringWriteRequest{Peering: bar})) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string token string expect *pbpeering.PeeringListResponse expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.PeeringList(external.ContextWithToken(ctx, tc.token), &pbpeering.PeeringListRequest{}) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) prototest.AssertDeepEqual(t, tc.expect, resp) } tcs := []testcase{ { name: "anonymous token lacks permissions", expectErr: "lacks permission 'peering:read'", }, { name: "read token grants permission", token: testTokenPeeringReadSecret, expect: &pbpeering.PeeringListResponse{ Peerings: []*pbpeering.Peering{bar, foo}, }, }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } func TestPeeringService_TrustBundleRead(t *testing.T) { srv := newTestServer(t, nil) store := srv.Server.FSM().State() client := pbpeering.NewPeeringServiceClient(srv.ClientConn(t)) var lastIdx uint64 = 1 _ = setupTestPeering(t, store, "my-peering", lastIdx) bundle := &pbpeering.PeeringTrustBundle{ TrustDomain: "peer1.com", PeerName: "my-peering", RootPEMs: []string{"peer1-root-1"}, } lastIdx++ require.NoError(t, store.PeeringTrustBundleWrite(lastIdx, bundle)) ctx, cancel := context.WithCancel(context.Background()) defer cancel() resp, err := client.TrustBundleRead(ctx, &pbpeering.TrustBundleReadRequest{ Name: "my-peering", }) require.NoError(t, err) require.Equal(t, lastIdx, resp.Index) require.NotNil(t, resp.Bundle) prototest.AssertDeepEqual(t, bundle, resp.Bundle) } func TestPeeringService_TrustBundleRead_ACLEnforcement(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(conf *consul.Config) { conf.ACLsEnabled = true conf.ACLResolverSettings.ACLDefaultPolicy = acl.PolicyDeny }) store := s.Server.FSM().State() upsertTestACLs(t, s.Server.FSM().State()) // Insert peering and trust bundle directly to state store. _ = setupTestPeering(t, store, "my-peering", 10) bundle := &pbpeering.PeeringTrustBundle{ TrustDomain: "peer1.com", PeerName: "my-peering", RootPEMs: []string{"peer1-root-1"}, } require.NoError(t, store.PeeringTrustBundleWrite(11, bundle)) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.TrustBundleReadRequest token string expect *pbpeering.PeeringTrustBundle expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.TrustBundleRead(external.ContextWithToken(ctx, tc.token), tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) prototest.AssertDeepEqual(t, tc.expect, resp.Bundle) } tcs := []testcase{ { name: "anonymous token lacks permissions", req: &pbpeering.TrustBundleReadRequest{Name: "foo"}, expectErr: "lacks permission 'service:write'", }, { name: "service read token lacks permissions", req: &pbpeering.TrustBundleReadRequest{ Name: "my-peering", }, token: testTokenServiceReadSecret, expectErr: "lacks permission 'service:write'", }, { name: "with service write token", req: &pbpeering.TrustBundleReadRequest{ Name: "my-peering", }, token: testTokenServiceWriteSecret, expect: bundle, }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } // Setup: // - Peerings "foo" and "bar" with trust bundles saved // - "api" service exported to both "foo" and "bar" // - "web" service exported to "baz" func TestPeeringService_TrustBundleListByService(t *testing.T) { s := newTestServer(t, nil) store := s.Server.FSM().State() var lastIdx uint64 = 10 lastIdx++ require.NoError(t, s.Server.FSM().State().PeeringWrite(lastIdx, &pbpeering.PeeringWriteRequest{ Peering: &pbpeering.Peering{ ID: testUUID(t), Name: "foo", State: pbpeering.PeeringState_ESTABLISHING, PeerServerName: "test", PeerServerAddresses: []string{"addr1"}, }, })) lastIdx++ require.NoError(t, s.Server.FSM().State().PeeringWrite(lastIdx, &pbpeering.PeeringWriteRequest{ Peering: &pbpeering.Peering{ ID: testUUID(t), Name: "bar", State: pbpeering.PeeringState_ESTABLISHING, PeerServerName: "test-bar", PeerServerAddresses: []string{"addr2"}, }, })) lastIdx++ require.NoError(t, store.PeeringTrustBundleWrite(lastIdx, &pbpeering.PeeringTrustBundle{ TrustDomain: "foo.com", PeerName: "foo", RootPEMs: []string{"foo-root-1"}, })) lastIdx++ require.NoError(t, store.PeeringTrustBundleWrite(lastIdx, &pbpeering.PeeringTrustBundle{ TrustDomain: "bar.com", PeerName: "bar", RootPEMs: []string{"bar-root-1"}, })) lastIdx++ require.NoError(t, store.EnsureNode(lastIdx, &structs.Node{ Node: "my-node", Address: "127.0.0.1", })) lastIdx++ require.NoError(t, store.EnsureService(lastIdx, "my-node", &structs.NodeService{ ID: "api", Service: "api", Port: 8000, })) entry := structs.ExportedServicesConfigEntry{ Name: "default", Services: []structs.ExportedService{ { Name: "api", Consumers: []structs.ServiceConsumer{ { PeerName: "foo", }, { PeerName: "bar", }, }, }, { Name: "web", Consumers: []structs.ServiceConsumer{ { PeerName: "baz", }, }, }, }, } require.NoError(t, entry.Normalize()) require.NoError(t, entry.Validate()) lastIdx++ require.NoError(t, store.EnsureConfigEntry(lastIdx, &entry)) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) req := pbpeering.TrustBundleListByServiceRequest{ ServiceName: "api", } resp, err := client.TrustBundleListByService(context.Background(), &req) require.NoError(t, err) require.Len(t, resp.Bundles, 2) require.Equal(t, []string{"bar-root-1"}, resp.Bundles[0].RootPEMs) require.Equal(t, []string{"foo-root-1"}, resp.Bundles[1].RootPEMs) } func TestPeeringService_validatePeer(t *testing.T) { s1 := newTestServer(t, func(c *consul.Config) { c.SerfLANConfig.MemberlistConfig.AdvertiseAddr = "127.0.0.1" }) client1 := pbpeering.NewPeeringServiceClient(s1.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) testutil.RunStep(t, "generate a token", func(t *testing.T) { req := pbpeering.GenerateTokenRequest{PeerName: "peerB"} resp, err := client1.GenerateToken(ctx, &req) require.NoError(t, err) require.NotEmpty(t, resp) }) s2 := newTestServer(t, func(conf *consul.Config) { conf.GRPCPort = 5301 }) client2 := pbpeering.NewPeeringServiceClient(s2.ClientConn(t)) req := pbpeering.GenerateTokenRequest{PeerName: "my-peer-s1"} resp, err := client2.GenerateToken(ctx, &req) require.NoError(t, err) require.NotEmpty(t, resp) s2Token := resp.PeeringToken testutil.RunStep(t, "send an establish request for a different peer name", func(t *testing.T) { resp, err := client1.Establish(ctx, &pbpeering.EstablishRequest{ PeerName: "peerC", PeeringToken: s2Token, }) require.NoError(t, err) require.NotEmpty(t, resp) }) testutil.RunStep(t, "attempt to generate token with the same name used as dialer", func(t *testing.T) { req := pbpeering.GenerateTokenRequest{PeerName: "peerC"} resp, err := client1.GenerateToken(ctx, &req) require.Error(t, err) require.Contains(t, err.Error(), "cannot create peering with name: \"peerC\"; there is already an established peering") require.Nil(t, resp) }) testutil.RunStep(t, "attempt to establish the with the same name used as acceptor", func(t *testing.T) { resp, err := client1.Establish(ctx, &pbpeering.EstablishRequest{ PeerName: "peerB", PeeringToken: s2Token, }) require.Error(t, err) require.Contains(t, err.Error(), "cannot create peering with name: \"peerB\"; there is an existing peering expecting to be dialed") require.Nil(t, resp) }) } // Test RPC endpoint responses when peering is disabled. They should all return an error. func TestPeeringService_PeeringDisabled(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(c *consul.Config) { c.PeeringEnabled = false }) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) ctx, cancel := context.WithTimeout(context.Background(), 3*time.Second) t.Cleanup(cancel) // assertFailedResponse is a helper function that checks the error from a gRPC // response is what we expect when peering is disabled. assertFailedResponse := func(t *testing.T, err error) { actErr, ok := grpcstatus.FromError(err) require.True(t, ok) require.Equal(t, codes.FailedPrecondition, actErr.Code()) require.Equal(t, "peering must be enabled to use this endpoint", actErr.Message()) } // Test all the endpoints. t.Run("PeeringWrite", func(t *testing.T) { _, err := client.PeeringWrite(ctx, &pbpeering.PeeringWriteRequest{}) assertFailedResponse(t, err) }) t.Run("PeeringRead", func(t *testing.T) { _, err := client.PeeringRead(ctx, &pbpeering.PeeringReadRequest{}) assertFailedResponse(t, err) }) t.Run("PeeringDelete", func(t *testing.T) { _, err := client.PeeringDelete(ctx, &pbpeering.PeeringDeleteRequest{}) assertFailedResponse(t, err) }) t.Run("PeeringList", func(t *testing.T) { _, err := client.PeeringList(ctx, &pbpeering.PeeringListRequest{}) assertFailedResponse(t, err) }) t.Run("Establish", func(t *testing.T) { _, err := client.Establish(ctx, &pbpeering.EstablishRequest{}) assertFailedResponse(t, err) }) t.Run("GenerateToken", func(t *testing.T) { _, err := client.GenerateToken(ctx, &pbpeering.GenerateTokenRequest{}) assertFailedResponse(t, err) }) t.Run("TrustBundleRead", func(t *testing.T) { _, err := client.TrustBundleRead(ctx, &pbpeering.TrustBundleReadRequest{}) assertFailedResponse(t, err) }) t.Run("TrustBundleListByService", func(t *testing.T) { _, err := client.TrustBundleListByService(ctx, &pbpeering.TrustBundleListByServiceRequest{}) assertFailedResponse(t, err) }) } func TestPeeringService_TrustBundleListByService_ACLEnforcement(t *testing.T) { // TODO(peering): see note on newTestServer, refactor to not use this s := newTestServer(t, func(conf *consul.Config) { conf.ACLsEnabled = true conf.ACLResolverSettings.ACLDefaultPolicy = acl.PolicyDeny }) store := s.Server.FSM().State() upsertTestACLs(t, s.Server.FSM().State()) var lastIdx uint64 = 10 lastIdx++ require.NoError(t, s.Server.FSM().State().PeeringWrite(lastIdx, &pbpeering.PeeringWriteRequest{ Peering: &pbpeering.Peering{ ID: testUUID(t), Name: "foo", State: pbpeering.PeeringState_ESTABLISHING, PeerServerName: "test", PeerServerAddresses: []string{"addr1"}, }, })) lastIdx++ require.NoError(t, store.PeeringTrustBundleWrite(lastIdx, &pbpeering.PeeringTrustBundle{ TrustDomain: "foo.com", PeerName: "foo", RootPEMs: []string{"foo-root-1"}, })) lastIdx++ require.NoError(t, store.EnsureNode(lastIdx, &structs.Node{ Node: "my-node", Address: "127.0.0.1", })) lastIdx++ require.NoError(t, store.EnsureService(lastIdx, "my-node", &structs.NodeService{ ID: "api", Service: "api", Port: 8000, })) entry := structs.ExportedServicesConfigEntry{ Name: "default", Services: []structs.ExportedService{ { Name: "api", Consumers: []structs.ServiceConsumer{ { PeerName: "foo", }, }, }, }, } require.NoError(t, entry.Normalize()) require.NoError(t, entry.Validate()) lastIdx++ require.NoError(t, store.EnsureConfigEntry(lastIdx, &entry)) client := pbpeering.NewPeeringServiceClient(s.ClientConn(t)) type testcase struct { name string req *pbpeering.TrustBundleListByServiceRequest token string expect []string expectErr string } run := func(t *testing.T, tc testcase) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) resp, err := client.TrustBundleListByService(external.ContextWithToken(ctx, tc.token), tc.req) if tc.expectErr != "" { require.Contains(t, err.Error(), tc.expectErr) return } require.NoError(t, err) require.Len(t, resp.Bundles, 1) require.Equal(t, tc.expect, resp.Bundles[0].RootPEMs) } tcs := []testcase{ { name: "anonymous token lacks permissions", req: &pbpeering.TrustBundleListByServiceRequest{ServiceName: "api"}, expectErr: "lacks permission 'service:write'", }, { name: "service read token lacks permission", req: &pbpeering.TrustBundleListByServiceRequest{ ServiceName: "api", }, token: testTokenServiceReadSecret, expectErr: "lacks permission 'service:write'", }, { name: "with service write token", req: &pbpeering.TrustBundleListByServiceRequest{ ServiceName: "api", }, token: testTokenServiceWriteSecret, expect: []string{"foo-root-1"}, }, } for _, tc := range tcs { t.Run(tc.name, func(t *testing.T) { run(t, tc) }) } } // newTestServer is copied from partition/service_test.go, with the addition of certs/cas. // TODO(peering): these are endpoint tests and should live in the agent/consul // package. Instead, these can be written around a mock client (see testing.go) // and a mock backend (future) func newTestServer(t *testing.T, cb func(conf *consul.Config)) testingServer { t.Helper() conf := consul.DefaultConfig() dir := testutil.TempDir(t, "consul") ports := freeport.GetN(t, 4) // {rpc, serf_lan, serf_wan, grpc} conf.PeeringEnabled = true conf.Bootstrap = true conf.Datacenter = "dc1" conf.DataDir = dir conf.RPCAddr = &net.TCPAddr{IP: []byte{127, 0, 0, 1}, Port: ports[0]} conf.RaftConfig.ElectionTimeout = 200 * time.Millisecond conf.RaftConfig.LeaderLeaseTimeout = 100 * time.Millisecond conf.RaftConfig.HeartbeatTimeout = 200 * time.Millisecond conf.TLSConfig.Domain = "consul" conf.SerfLANConfig.MemberlistConfig.BindAddr = "127.0.0.1" conf.SerfLANConfig.MemberlistConfig.BindPort = ports[1] conf.SerfLANConfig.MemberlistConfig.AdvertisePort = ports[1] conf.SerfWANConfig.MemberlistConfig.BindAddr = "127.0.0.1" conf.SerfWANConfig.MemberlistConfig.BindPort = ports[2] conf.SerfWANConfig.MemberlistConfig.AdvertisePort = ports[2] conf.PrimaryDatacenter = "dc1" conf.ConnectEnabled = true conf.GRPCPort = ports[3] nodeID, err := uuid.GenerateUUID() if err != nil { t.Fatal(err) } conf.NodeID = types.NodeID(nodeID) if cb != nil { cb(conf) } // Apply config to copied fields because many tests only set the old // values. conf.ACLResolverSettings.ACLsEnabled = conf.ACLsEnabled conf.ACLResolverSettings.NodeName = conf.NodeName conf.ACLResolverSettings.Datacenter = conf.Datacenter conf.ACLResolverSettings.EnterpriseMeta = *conf.AgentEnterpriseMeta() externalGRPCServer := gogrpc.NewServer() deps := newDefaultDeps(t, conf) server, err := consul.NewServer(conf, deps, externalGRPCServer) require.NoError(t, err) t.Cleanup(func() { require.NoError(t, server.Shutdown()) }) // Normally the gRPC server listener is created at the agent level and // passed down into the Server creation. grpcAddr := fmt.Sprintf("127.0.0.1:%d", conf.GRPCPort) ln, err := net.Listen("tcp", grpcAddr) require.NoError(t, err) go func() { _ = externalGRPCServer.Serve(ln) }() t.Cleanup(externalGRPCServer.Stop) testrpc.WaitForLeader(t, server.RPC, conf.Datacenter) return testingServer{ Server: server, PublicGRPCAddr: grpcAddr, } } func (s testingServer) ClientConn(t *testing.T) *gogrpc.ClientConn { t.Helper() ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) t.Cleanup(cancel) rpcAddr := s.Server.Listener.Addr().String() conn, err := gogrpc.DialContext(ctx, rpcAddr, gogrpc.WithContextDialer(newServerDialer(rpcAddr)), gogrpc.WithInsecure(), gogrpc.WithBlock()) require.NoError(t, err) t.Cleanup(func() { conn.Close() }) return conn } func newServerDialer(serverAddr string) func(context.Context, string) (net.Conn, error) { return func(ctx context.Context, addr string) (net.Conn, error) { d := net.Dialer{} conn, err := d.DialContext(ctx, "tcp", serverAddr) if err != nil { return nil, err } _, err = conn.Write([]byte{byte(pool.RPCGRPC)}) if err != nil { conn.Close() return nil, err } return conn, nil } } type testingServer struct { Server *consul.Server PublicGRPCAddr string } // TODO(peering): remove duplication between this and agent/consul tests func newDefaultDeps(t *testing.T, c *consul.Config) consul.Deps { t.Helper() logger := hclog.NewInterceptLogger(&hclog.LoggerOptions{ Name: c.NodeName, Level: hclog.Debug, Output: testutil.NewLogBuffer(t), }) tls, err := tlsutil.NewConfigurator(c.TLSConfig, logger) require.NoError(t, err, "failed to create tls configuration") r := router.NewRouter(logger, c.Datacenter, fmt.Sprintf("%s.%s", c.NodeName, c.Datacenter), nil) builder := resolver.NewServerResolverBuilder(resolver.Config{}) resolver.Register(builder) connPool := &pool.ConnPool{ Server: false, SrcAddr: c.RPCSrcAddr, Logger: logger.StandardLogger(&hclog.StandardLoggerOptions{InferLevels: true}), MaxTime: 2 * time.Minute, MaxStreams: 4, TLSConfigurator: tls, Datacenter: c.Datacenter, } return consul.Deps{ EventPublisher: stream.NewEventPublisher(10 * time.Second), Logger: logger, TLSConfigurator: tls, Tokens: new(token.Store), Router: r, ConnPool: connPool, GRPCConnPool: grpc.NewClientConnPool(grpc.ClientConnPoolConfig{ Servers: builder, TLSWrapper: grpc.TLSWrapper(tls.OutgoingRPCWrapper()), UseTLSForDC: tls.UseTLS, DialingFromServer: true, DialingFromDatacenter: c.Datacenter, }), LeaderForwarder: builder, EnterpriseDeps: newDefaultDepsEnterprise(t, logger, c), NewRequestRecorderFunc: middleware.NewRequestRecorder, GetNetRPCInterceptorFunc: middleware.GetNetRPCInterceptor, } } func upsertTestACLs(t *testing.T, store *state.Store) { var ( testPolicyPeeringReadID = "43fed171-ad1d-4d3b-9df3-c99c1c835c37" testPolicyPeeringWriteID = "cddb0821-e720-4411-bbdd-cc62ce417eac" testPolicyServiceReadID = "0e054136-f5d3-4627-a7e6-198f1df923d3" testPolicyServiceWriteID = "b55e03f4-c9dd-4210-8d24-f7ea8e2a1918" ) policies := structs.ACLPolicies{ { ID: testPolicyPeeringReadID, Name: "peering-read", Rules: `peering = "read"`, Syntax: acl.SyntaxCurrent, }, { ID: testPolicyPeeringWriteID, Name: "peering-write", Rules: `peering = "write"`, Syntax: acl.SyntaxCurrent, }, { ID: testPolicyServiceReadID, Name: "service-read", Rules: `service "api" { policy = "read" }`, Syntax: acl.SyntaxCurrent, }, { ID: testPolicyServiceWriteID, Name: "service-write", Rules: `service "api" { policy = "write" }`, Syntax: acl.SyntaxCurrent, }, } require.NoError(t, store.ACLPolicyBatchSet(100, policies)) tokens := structs.ACLTokens{ &structs.ACLToken{ AccessorID: "22500c91-723c-4335-be8a-6697417dc35b", SecretID: testTokenPeeringReadSecret, Description: "peering read", Policies: []structs.ACLTokenPolicyLink{ { ID: testPolicyPeeringReadID, }, }, }, &structs.ACLToken{ AccessorID: "de924f93-cfec-404c-9a7e-c1c9b96b8cae", SecretID: testTokenPeeringWriteSecret, Description: "peering write", Policies: []structs.ACLTokenPolicyLink{ { ID: testPolicyPeeringWriteID, }, }, }, &structs.ACLToken{ AccessorID: "53c54f79-ffed-47d4-904e-e2e0e40c0a01", SecretID: testTokenServiceReadSecret, Description: "service read", Policies: []structs.ACLTokenPolicyLink{ { ID: testPolicyServiceReadID, }, }, }, &structs.ACLToken{ AccessorID: "a100fa5f-db72-49f0-8f61-aa1f9f92f657", SecretID: testTokenServiceWriteSecret, Description: "service write", Policies: []structs.ACLTokenPolicyLink{ { ID: testPolicyServiceWriteID, }, }, }, } require.NoError(t, store.ACLTokenBatchSet(101, tokens, state.ACLTokenSetOptions{})) } func setupTestPeering(t *testing.T, store *state.Store, name string, index uint64) string { t.Helper() err := store.PeeringWrite(index, &pbpeering.PeeringWriteRequest{ Peering: &pbpeering.Peering{ ID: testUUID(t), Name: name, }, }) require.NoError(t, err) _, p, err := store.PeeringRead(nil, state.Query{Value: name}) require.NoError(t, err) require.NotNil(t, p) return p.ID } func testUUID(t *testing.T) string { v, err := lib.GenerateUUID(nil) require.NoError(t, err) return v }