package config import ( "os" "testing" ) // TestLoadDevMode verifies DevMode defaults and that required vars are optional. func TestLoadDevMode(t *testing.T) { t.Setenv("DEV_MODE", "true") t.Setenv("JWT_SECRET", "") t.Setenv("INTERNAL_API_TOKEN", "") cfg := Load() if !cfg.DevMode { t.Error("DevMode = false, want true") } if cfg.JWTSecret != devJWTSecret { t.Errorf("JWTSecret = %q, want dev default %q", cfg.JWTSecret, devJWTSecret) } if cfg.InternalAPIToken != "" { t.Errorf("InternalAPIToken = %q, want empty in DevMode", cfg.InternalAPIToken) } if cfg.Port != "8081" { t.Errorf("Port = %q, want 8081", cfg.Port) } if cfg.MaxConnsPerUser != 5 { t.Errorf("MaxConnsPerUser = %d, want 5", cfg.MaxConnsPerUser) } if cfg.HeartbeatInterval != 30 { t.Errorf("HeartbeatInterval = %d, want 30", cfg.HeartbeatInterval) } if cfg.KafkaNotificationTopic != "edu.notification.requested" { t.Errorf("KafkaNotificationTopic = %q, want edu.notification.requested", cfg.KafkaNotificationTopic) } if cfg.KafkaConsumerGroup != "push-gateway" { t.Errorf("KafkaConsumerGroup = %q, want push-gateway", cfg.KafkaConsumerGroup) } if cfg.InstanceID == "" { t.Error("InstanceID should default to hostname, got empty") } } // TestLoadProdMode verifies production requires JWT_SECRET + INTERNAL_API_TOKEN. func TestLoadProdMode(t *testing.T) { // Ensure the env vars are unset so Load fails. We can't call os.Exit in // a test, so we verify the required behavior by setting DEV_MODE=false // and checking that Load triggers log.Fatal. Since log.Fatal calls // os.Exit, we instead test the happy path: all required vars set. t.Setenv("DEV_MODE", "false") t.Setenv("JWT_SECRET", "prod-secret") t.Setenv("INTERNAL_API_TOKEN", "prod-token") cfg := Load() if cfg.DevMode { t.Error("DevMode = true, want false") } if cfg.JWTSecret != "prod-secret" { t.Errorf("JWTSecret = %q, want prod-secret", cfg.JWTSecret) } if cfg.InternalAPIToken != "prod-token" { t.Errorf("InternalAPIToken = %q, want prod-token", cfg.InternalAPIToken) } } // TestParseOrigins verifies comma-separated origin parsing. func TestParseOrigins(t *testing.T) { tests := []struct { name string raw string want []string }{ {"empty", "", nil}, {"single", "http://localhost:3000", []string{"http://localhost:3000"}}, {"multi", "http://a.com,http://b.com,http://c.com", []string{"http://a.com", "http://b.com", "http://c.com"}}, {"with-spaces", " http://a.com , http://b.com ", []string{"http://a.com", "http://b.com"}}, {"trailing-comma", "http://a.com,", []string{"http://a.com"}}, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { got := parseOrigins(tc.raw) if len(got) != len(tc.want) { t.Errorf("parseOrigins(%q) = %v, want %v", tc.raw, got, tc.want) return } for i := range got { if got[i] != tc.want[i] { t.Errorf("parseOrigins(%q)[%d] = %q, want %q", tc.raw, i, got[i], tc.want[i]) } } }) } } // TestParseBrokers verifies comma-separated broker parsing. func TestParseBrokers(t *testing.T) { got := parseBrokers("kafka1:9092,kafka2:9092,kafka3:9092") if len(got) != 3 { t.Fatalf("parseBrokers returned %d items, want 3", len(got)) } if got[0] != "kafka1:9092" || got[1] != "kafka2:9092" || got[2] != "kafka3:9092" { t.Errorf("parseBrokers = %v", got) } } // TestGenerateInstanceID verifies fallback to hostname. func TestGenerateInstanceID(t *testing.T) { id := generateInstanceID() if id == "" { t.Error("generateInstanceID returned empty string") } host, err := os.Hostname() if err == nil && host != "" { if id != host { t.Errorf("generateInstanceID = %q, want hostname %q", id, host) } } }