// // Copyright (c) 2018 // Mainflux // // SPDX-License-Identifier: Apache-2.0 // package grpc_test import ( "context" "fmt" "testing" "time" "github.com/mainflux/mainflux" "github.com/mainflux/mainflux/things" grpcapi "github.com/mainflux/mainflux/things/api/auth/grpc" "github.com/stretchr/testify/assert" "google.golang.org/grpc" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" ) const wrongID = "" var ( thing = things.Thing{Name: "test_app", Metadata: map[string]interface{}{"test": "test"}} channel = things.Channel{Name: "test", Metadata: map[string]interface{}{"test": "test"}} ) func TestCanAccess(t *testing.T) { oth, _ := svc.AddThing(token, thing) cth, _ := svc.AddThing(token, thing) sch, _ := svc.CreateChannel(token, channel) svc.Connect(token, sch.ID, cth.ID) usersAddr := fmt.Sprintf("localhost:%d", port) conn, _ := grpc.Dial(usersAddr, grpc.WithInsecure()) cli := grpcapi.NewClient(conn) ctx, cancel := context.WithTimeout(context.Background(), time.Second) defer cancel() cases := map[string]struct { key string chanID string thingID string code codes.Code }{ "check if connected thing can access existing channel": { key: cth.Key, chanID: sch.ID, thingID: cth.ID, code: codes.OK, }, "check if unconnected thing can access existing channel": { key: oth.Key, chanID: sch.ID, thingID: wrongID, code: codes.PermissionDenied, }, "check if thing with wrong access key can access existing channel": { key: wrong, chanID: sch.ID, thingID: wrongID, code: codes.PermissionDenied, }, "check if connected thing can access non-existent channel": { key: cth.Key, chanID: wrongID, thingID: wrongID, code: codes.InvalidArgument, }, } for desc, tc := range cases { id, err := cli.CanAccess(ctx, &mainflux.AccessReq{Token: tc.key, ChanID: tc.chanID}) e, ok := status.FromError(err) assert.True(t, ok, "OK expected to be true") assert.Equal(t, tc.thingID, id.GetValue(), fmt.Sprintf("%s: expected %s got %s", desc, tc.thingID, id.GetValue())) assert.Equal(t, tc.code, e.Code(), fmt.Sprintf("%s: expected %s got %s", desc, tc.code, e.Code())) } } func TestCanAccessByID(t *testing.T) { oth, _ := svc.AddThing(token, thing) cth, _ := svc.AddThing(token, thing) sch, _ := svc.CreateChannel(token, channel) svc.Connect(token, sch.ID, cth.ID) usersAddr := fmt.Sprintf("localhost:%d", port) conn, _ := grpc.Dial(usersAddr, grpc.WithInsecure()) cli := grpcapi.NewClient(conn) ctx, cancel := context.WithTimeout(context.Background(), time.Second) defer cancel() cases := map[string]struct { chanID string thingID string code codes.Code }{ "check if connected thing can access existing channel": { chanID: sch.ID, thingID: cth.ID, code: codes.OK, }, "check if unconnected thing can access existing channel": { chanID: sch.ID, thingID: oth.ID, code: codes.PermissionDenied, }, "check if connected thing can access non-existent channel": { chanID: wrongID, thingID: cth.ID, code: codes.InvalidArgument, }, "check if thing with empty ID can access existing channel": { chanID: sch.ID, thingID: "", code: codes.InvalidArgument, }, "check if connected thing can access channel with empty ID": { chanID: "", thingID: cth.ID, code: codes.InvalidArgument, }, } for desc, tc := range cases { _, err := cli.CanAccessByID(ctx, &mainflux.AccessByIDReq{ThingID: tc.thingID, ChanID: tc.chanID}) e, ok := status.FromError(err) assert.True(t, ok, "OK expected to be true") assert.Equal(t, tc.code, e.Code(), fmt.Sprintf("%s: expected %s got %s", desc, tc.code, e.Code())) } } func TestIdentify(t *testing.T) { sth, _ := svc.AddThing(token, thing) usersAddr := fmt.Sprintf("localhost:%d", port) conn, _ := grpc.Dial(usersAddr, grpc.WithInsecure()) cli := grpcapi.NewClient(conn) ctx, cancel := context.WithTimeout(context.Background(), time.Second) defer cancel() cases := map[string]struct { key string id string code codes.Code }{ "identify existing thing": { key: sth.Key, id: sth.ID, code: codes.OK, }, "identify non-existent thing": { key: wrong, id: wrongID, code: codes.PermissionDenied, }, } for desc, tc := range cases { id, err := cli.Identify(ctx, &mainflux.Token{Value: tc.key}) e, ok := status.FromError(err) assert.True(t, ok, "OK expected to be true") assert.Equal(t, tc.id, id.GetValue(), fmt.Sprintf("%s: expected %s got %s", desc, tc.id, id.GetValue())) assert.Equal(t, tc.code, e.Code(), fmt.Sprintf("%s: expected %s got %s", desc, tc.code, e.Code())) } }