// runTest initializes the environment for the tests and allows for // the proper return code if the test fails or succeeds. func runTest(m *testing.M) int { // Initialize MongoDB using the `tests.TestSession` as the name of the // master session. if err := db.RegMasterSession(tests.Context, tests.TestSession, cfg.MustURL("MONGO_URI").String(), 0); err != nil { fmt.Println("Can't register master session: " + err.Error()) return 1 } // Setup the app for performing tests. a = routes.API() // Snatch the mongo session so we can create some test data. db, err := db.NewMGO(tests.Context, tests.TestSession) if err != nil { fmt.Println("Unable to get Mongo session") return 1 } defer db.CloseMGO(tests.Context) // Generate the test data. tstdata.Generate(db) defer tstdata.Drop(db) // Load in the submissions from the fixture. if err = loadSubmissions(db); err != nil { fmt.Println("Unable to load submissions: ", err) } defer aggfix.Remove(tests.Context, db, "") return m.Run() }
// runTest initializes the environment for the tests and allows for // the proper return code if the test fails or succeeds. func runTest(m *testing.M) int { // Create stub server for Sponged. server := setup() cfg.SetString("SPONGED_URL", server) mongoURI := cfg.MustURL("MONGO_URI") // Initialize MongoDB using the `tests.TestSession` as the name of the // master session. if err := db.RegMasterSession(tests.Context, tests.TestSession, mongoURI.String(), 0); err != nil { fmt.Println("Can't register master session: " + err.Error()) return 1 } a = routes.API() // Snatch the mongo session so we can create some test data. db, err := db.NewMGO(tests.Context, tests.TestSession) if err != nil { fmt.Println("Unable to get Mongo session") return 1 } defer db.CloseMGO(tests.Context) if err = db.NewCayley(tests.Context, tests.TestSession); err != nil { fmt.Println("Unable to get Cayley support") } store, err := db.GraphHandle(tests.Context) if err != nil { fmt.Println("Unable to get Cayley handle") return 1 } defer store.Close() if err := tstdata.Generate(db); err != nil { fmt.Println("Could not generate test data.") return 1 } defer tstdata.Drop(db) if err := loadItems("context", db, store); err != nil { fmt.Println("Could not import items") return 1 } defer unloadItems("context", db, store) return m.Run() }
// unloadTestData removes all the test data from the database. func unloadTestData(t *testing.T, db *db.DB) { t.Log("\tWhen unloading data for the tests") { tstdata.Drop(db) if err := sfix.Remove(db, "STEST_T"); err != nil { t.Fatalf("\t%s\tShould be able to remove the scripts : %v", tests.Failed, err) } t.Logf("\t%s\tShould be able to remove the scripts.", tests.Success) if err := mfix.Remove(db, "test_xenia_data"); err != nil { t.Fatalf("\t%s\tShould be able to remove the masks : %v", tests.Failed, err) } t.Logf("\t%s\tShould be able to remove the masks.", tests.Success) } }
// runTest initializes the environment for the tests and allows for // the proper return code if the test fails or succeeds. func runTest(m *testing.M) int { mongoURI := cfg.MustURL("MONGO_URI") // Initialize MongoDB using the `tests.TestSession` as the name of the // master session. if err := db.RegMasterSession(tests.Context, tests.TestSession, mongoURI.String(), 0); err != nil { fmt.Println("Can't register master session: " + err.Error()) return 1 } // Setup the app for performing tests. a = routes.API() // Snatch the mongo session so we can create some test data. db, err := db.NewMGO(tests.Context, tests.TestSession) if err != nil { fmt.Println("Unable to get Mongo session") return 1 } defer db.CloseMGO(tests.Context) if err := db.NewCayley(tests.Context, tests.TestSession); err != nil { fmt.Println("Unable to get Cayley support") } store, err := db.GraphHandle(tests.Context) if err != nil { fmt.Println("Unable to get Cayley handle") return 1 } defer store.Close() if err := tstdata.Generate(db); err != nil { fmt.Println("Could not generate test data.") return 1 } defer tstdata.Drop(db) // Load the queries. if err := loadQuery(db, "basic.json"); err != nil { fmt.Println("Could not load queries in basic.json") return 1 } if err := loadQuery(db, "basic_view.json"); err != nil { fmt.Println("Could not load queries in basic.json") return 1 } if err := loadQuery(db, "basic_var.json"); err != nil { fmt.Println("Could not load queries in basic_var.json") return 1 } defer qfix.Remove(db, "QTEST_O") if err := loadScript(db, "basic_script_pre.json"); err != nil { fmt.Println("Could not load scripts in basic_script_pre.json") return 1 } if err := loadScript(db, "basic_script_pst.json"); err != nil { fmt.Println("Could not load scripts in basic_script_pst.json") return 1 } defer sfix.Remove(db, "STEST_O") if err := loadMasks(db, "basic.json"); err != nil { fmt.Println("Could not load masks.") return 1 } defer mfix.Remove(db, "test_xenia_data") if err := loadRelationships("context", db); err != nil { fmt.Println("Could not load relationships.") return 1 } defer relationshipfix.Remove("context", db, relPrefix) if err := loadViews("context", db); err != nil { fmt.Println("Could not load views.") return 1 } defer viewfix.Remove("context", db, viewPrefix) if err := loadPatterns("context", db); err != nil { fmt.Println("Could not load patterns") return 1 } defer patternfix.Remove("context", db, "PTEST_") if err := loadItems("context", db, store); err != nil { fmt.Println("Could not import items") return 1 } defer unloadItems("context", db, store) return m.Run() }