package keepclient import ( "crypto/md5" "encoding/json" "errors" "fmt" "git.curoverse.com/arvados.git/sdk/go/streamer" "io" "io/ioutil" "log" "net" "net/http" "strings" "time" ) type keepService struct { Uuid string `json:"uuid"` Hostname string `json:"service_host"` Port int `json:"service_port"` SSL bool `json:"service_ssl_flag"` SvcType string `json:"service_type"` ReadOnly bool `json:"read_only"` } // Md5String returns md5 hash for the bytes in the given string func Md5String(s string) string { return fmt.Sprintf("%x", md5.Sum([]byte(s))) } // Set timeouts apply when connecting to keepproxy services (assumed to be over // the Internet). func (this *KeepClient) setClientSettingsProxy() { if this.Client.Timeout == 0 { // Maximum time to wait for a complete response this.Client.Timeout = 300 * time.Second // TCP and TLS connection settings this.Client.Transport = &http.Transport{ Dial: (&net.Dialer{ // The maximum time to wait to set up // the initial TCP connection. Timeout: 30 * time.Second, // The TCP keep alive heartbeat // interval. KeepAlive: 120 * time.Second, }).Dial, TLSHandshakeTimeout: 10 * time.Second, } } } // Set timeouts apply when connecting to keepstore services directly (assumed // to be on the local network). func (this *KeepClient) setClientSettingsDisk() { if this.Client.Timeout == 0 { // Maximum time to wait for a complete response this.Client.Timeout = 20 * time.Second // TCP and TLS connection timeouts this.Client.Transport = &http.Transport{ Dial: (&net.Dialer{ // The maximum time to wait to set up // the initial TCP connection. Timeout: 2 * time.Second, // The TCP keep alive heartbeat // interval. KeepAlive: 180 * time.Second, }).Dial, TLSHandshakeTimeout: 4 * time.Second, } } } type svcList struct { Items []keepService `json:"items"` } // DiscoverKeepServers gets list of available keep services from api server func (this *KeepClient) DiscoverKeepServers() error { var list svcList // Get keep services from api server err := this.Arvados.Call("GET", "keep_services", "", "accessible", nil, &list) if err != nil { return err } return this.loadKeepServers(list) } // DiscoverKeepServersFromJSON gets list of available keep services from given JSON func (this *KeepClient) DiscoverKeepServersFromJSON(services string) error { var list svcList // Load keep services from given json dec := json.NewDecoder(strings.NewReader(services)) if err := dec.Decode(&list); err != nil { return err } return this.loadKeepServers(list) } // loadKeepServers func (this *KeepClient) loadKeepServers(list svcList) error { listed := make(map[string]bool) localRoots := make(map[string]string) gatewayRoots := make(map[string]string) writableLocalRoots := make(map[string]string) // replicasPerService is 1 for disks; unknown or unlimited otherwise this.replicasPerService = 1 this.Using_proxy = false for _, service := range list.Items { scheme := "http" if service.SSL { scheme = "https" } url := fmt.Sprintf("%s://%s:%d", scheme, service.Hostname, service.Port) // Skip duplicates if listed[url] { continue } listed[url] = true localRoots[service.Uuid] = url if service.SvcType == "proxy" { this.Using_proxy = true } if service.ReadOnly == false { writableLocalRoots[service.Uuid] = url if service.SvcType != "disk" { this.replicasPerService = 0 } } // Gateway services are only used when specified by // UUID, so there's nothing to gain by filtering them // by service type. Including all accessible services // (gateway and otherwise) merely accommodates more // service configurations. gatewayRoots[service.Uuid] = url } if this.Using_proxy { this.setClientSettingsProxy() } else { this.setClientSettingsDisk() } this.SetServiceRoots(localRoots, writableLocalRoots, gatewayRoots) return nil } type uploadStatus struct { err error url string statusCode int replicas_stored int response string } func (this KeepClient) uploadToKeepServer(host string, hash string, body io.ReadCloser, upload_status chan<- uploadStatus, expectedLength int64, requestId string) { var req *http.Request var err error var url = fmt.Sprintf("%s/%s", host, hash) if req, err = http.NewRequest("PUT", url, nil); err != nil { log.Printf("[%v] Error creating request PUT %v error: %v", requestId, url, err.Error()) upload_status <- uploadStatus{err, url, 0, 0, ""} body.Close() return } req.ContentLength = expectedLength if expectedLength > 0 { // http.Client.Do will close the body ReadCloser when it is // done with it. req.Body = body } else { // "For client requests, a value of 0 means unknown if Body is // not nil." In this case we do want the body to be empty, so // don't set req.Body. However, we still need to close the // body ReadCloser. body.Close() } req.Header.Add("Authorization", fmt.Sprintf("OAuth2 %s", this.Arvados.ApiToken)) req.Header.Add("Content-Type", "application/octet-stream") req.Header.Add(X_Keep_Desired_Replicas, fmt.Sprint(this.Want_replicas)) var resp *http.Response if resp, err = this.Client.Do(req); err != nil { log.Printf("[%v] Upload failed %v error: %v", requestId, url, err.Error()) upload_status <- uploadStatus{err, url, 0, 0, ""} return } rep := 1 if xr := resp.Header.Get(X_Keep_Replicas_Stored); xr != "" { fmt.Sscanf(xr, "%d", &rep) } defer resp.Body.Close() defer io.Copy(ioutil.Discard, resp.Body) respbody, err2 := ioutil.ReadAll(&io.LimitedReader{resp.Body, 4096}) response := strings.TrimSpace(string(respbody)) if err2 != nil && err2 != io.EOF { log.Printf("[%v] Upload %v error: %v response: %v", requestId, url, err2.Error(), response) upload_status <- uploadStatus{err2, url, resp.StatusCode, rep, response} } else if resp.StatusCode == http.StatusOK { log.Printf("[%v] Upload %v success", requestId, url) upload_status <- uploadStatus{nil, url, resp.StatusCode, rep, response} } else { log.Printf("[%v] Upload %v error: %v response: %v", requestId, url, resp.StatusCode, response) upload_status <- uploadStatus{errors.New(resp.Status), url, resp.StatusCode, rep, response} } } func (this KeepClient) putReplicas( hash string, tr *streamer.AsyncStream, expectedLength int64) (locator string, replicas int, err error) { // Take the hash of locator and timestamp in order to identify this // specific transaction in log statements. requestId := fmt.Sprintf("%x", md5.Sum([]byte(locator+time.Now().String())))[0:8] // Calculate the ordering for uploading to servers sv := NewRootSorter(this.WritableLocalRoots(), hash).GetSortedRoots() // The next server to try contacting next_server := 0 // The number of active writers active := 0 // Used to communicate status from the upload goroutines upload_status := make(chan uploadStatus) defer close(upload_status) // Desired number of replicas remaining_replicas := this.Want_replicas replicasPerThread := this.replicasPerService if replicasPerThread < 1 { // unlimited or unknown replicasPerThread = remaining_replicas } for remaining_replicas > 0 { for active*replicasPerThread < remaining_replicas { // Start some upload requests if next_server < len(sv) { log.Printf("[%v] Begin upload %s to %s", requestId, hash, sv[next_server]) go this.uploadToKeepServer(sv[next_server], hash, tr.MakeStreamReader(), upload_status, expectedLength, requestId) next_server += 1 active += 1 } else { if active == 0 { return locator, (this.Want_replicas - remaining_replicas), InsufficientReplicasError } else { break } } } log.Printf("[%v] Replicas remaining to write: %v active uploads: %v", requestId, remaining_replicas, active) // Now wait for something to happen. status := <-upload_status active -= 1 if status.statusCode == 200 { // good news! remaining_replicas -= status.replicas_stored locator = status.response } } return locator, this.Want_replicas, nil }