package s3local import ( "context" "flag" "fmt" "time" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/layer" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/pkg/service/tree" "git.frostfs.info/TrueCloudLab/xk6-frostfs/internal/local" "git.frostfs.info/TrueCloudLab/xk6-frostfs/internal/local/rawclient" "git.frostfs.info/TrueCloudLab/xk6-frostfs/internal/stats" "go.k6.io/k6/js/modules" "go.k6.io/k6/metrics" "go.uber.org/zap" ) // RootModule is the global module object type. It is instantiated once per test // run and will be used to create k6/x/frostfs/s3local module instances for each VU. type RootModule struct { m *local.RootModule } // Local represents an instance of the module for every VU. type Local struct { l *local.Local } // Ensure the interfaces are implemented correctly. var ( _ modules.Module = &RootModule{} _ modules.Instance = &Local{} internalObjPutTotal, internalObjPutFails, internalObjPutDuration *metrics.Metric internalObjGetTotal, internalObjGetFails, internalObjGetDuration *metrics.Metric objPutTotal, objPutFails, objPutDuration *metrics.Metric objGetTotal, objGetFails, objGetDuration *metrics.Metric ) func init() { modules.Register("k6/x/frostfs/s3local", &RootModule{ m: &local.RootModule{}, }) } // NewModuleInstance implements the modules.Module interface and returns // a new instance for each VU. func (r *RootModule) NewModuleInstance(vu modules.VU) modules.Instance { return &Local{local.NewLocalModuleInstance(vu, r.m.GetOrCreateEngine)} } // Exports implements the modules.Instance interface and returns the exports // of the JS module. func (s *Local) Exports() modules.Exports { return modules.Exports{Default: s} } func (s *Local) Connect(configFile string, params map[string]string, bucketMapping map[string]string) (*Client, error) { // Parse configuration flags. fs := flag.NewFlagSet("s3local", flag.ContinueOnError) hexKey := fs.String("hex_key", "", "Private key to use as a hexadecimal string. A random one is created if none is provided") nodePosition := fs.Int("node_position", 0, "Position of this node in the node array if loading multiple nodes independently") nodeCount := fs.Int("node_count", 1, "Number of nodes in the node array if loading multiple nodes independently") { args := make([]string, 0, 2*len(params)) for k, v := range params { args = append(args, "-"+k, v) } if err := fs.Parse(args); err != nil { return nil, fmt.Errorf("parsing parameters: %v", err) } } // Validate and read configuration flags. key, err := local.ParseOrCreateKey(*hexKey) if err != nil { return nil, fmt.Errorf("parsing hex_key: %v", err) } if *nodeCount <= 0 { return nil, fmt.Errorf("node_count must be positive") } if *nodePosition < 0 || *nodePosition >= *nodeCount { return nil, fmt.Errorf("node_position must be in the range [0, node_count-1]") } // Register metrics. registry := metrics.NewRegistry() internalObjPutTotal, _ = registry.NewMetric("s3local_internal_obj_put_total", metrics.Counter) internalObjPutFails, _ = registry.NewMetric("s3local_internal_obj_put_fails", metrics.Counter) internalObjPutDuration, _ = registry.NewMetric("s3local_internal_obj_put_duration", metrics.Trend, metrics.Time) internalObjGetTotal, _ = registry.NewMetric("s3local_internal_obj_get_total", metrics.Counter) internalObjGetFails, _ = registry.NewMetric("s3local_internal_obj_get_fails", metrics.Counter) internalObjGetDuration, _ = registry.NewMetric("s3local_internal_obj_get_duration", metrics.Trend, metrics.Time) objPutTotal, _ = registry.NewMetric("s3local_obj_put_total", metrics.Counter) objPutFails, _ = registry.NewMetric("s3local_obj_put_fails", metrics.Counter) objPutDuration, _ = registry.NewMetric("s3local_obj_put_duration", metrics.Trend, metrics.Time) objGetTotal, _ = registry.NewMetric("s3local_obj_get_total", metrics.Counter) objGetFails, _ = registry.NewMetric("s3local_obj_get_fails", metrics.Counter) objGetDuration, _ = registry.NewMetric("s3local_obj_get_duration", metrics.Trend, metrics.Time) // Create S3 layer backed by local storage engine and tree service. ng, err := s.l.ResolveEngine(s.l.VU().Context(), configFile) if err != nil { return nil, fmt.Errorf("connecting to engine for config %q: %v", configFile, err) } treeSvc := tree.NewTree(treeServiceEngineWrapper{ ng: ng, pos: *nodePosition, size: *nodeCount, }) rc := rawclient.New(ng, rawclient.WithKey(key.PrivateKey), rawclient.WithPutHandler(func(sz uint64, err error, dt time.Duration) { if err != nil { stats.Report(s.l.VU(), internalObjPutFails, 1) } else { stats.Report(s.l.VU(), internalObjPutTotal, 1) stats.Report(s.l.VU(), internalObjPutDuration, metrics.D(dt)) } }), rawclient.WithGetHandler(func(sz uint64, err error, dt time.Duration) { if err != nil { stats.Report(s.l.VU(), internalObjGetFails, 1) } else { stats.Report(s.l.VU(), internalObjGetTotal, 1) stats.Report(s.l.VU(), internalObjGetDuration, metrics.D(dt)) } }), ) resolver, err := newFixedBucketResolver(bucketMapping) if err != nil { return nil, fmt.Errorf("creating bucket resolver: %v", err) } cfg := &layer.Config{ Caches: layer.DefaultCachesConfigs(zap.L()), AnonKey: layer.AnonymousKey{Key: key}, Resolver: resolver, TreeService: treeSvc, } l := layer.NewLayer(zap.L(), &frostfs{rc}, cfg) l.Initialize(s.l.VU().Context(), nopEventListener{}) return &Client{ vu: s.l.VU(), l: l, ownerID: rc.OwnerID(), resolver: resolver, }, nil } type nopEventListener struct{} func (nopEventListener) Subscribe(context.Context, string, layer.MsgHandler) error { return nil } func (nopEventListener) Listen(context.Context) {}