// GET: /job // To do: // - Iterate job queries func (cr *JobController) ReadMany(cx *goweb.Context) { LogRequest(cx.Request) // Try to authenticate user. u, err := request.Authenticate(cx.Request) if err != nil && err.Error() != e.NoAuth { cx.RespondWithErrorMessage(err.Error(), http.StatusUnauthorized) return } // Gather query params query := &Query{Li: cx.Request.URL.Query()} // Setup query and jobs objects q := bson.M{} jobs := core.Jobs{} if u != nil { // Add authorization checking to query if the user is not an admin if u.Admin == false { q["$or"] = []bson.M{bson.M{"acl.read": "public"}, bson.M{"acl.read": u.Uuid}, bson.M{"acl.owner": u.Uuid}, bson.M{"acl": bson.M{"$exists": "false"}}} } } else { // User is anonymous if conf.ANON_READ { // select on only jobs that are publicly readable q["acl.read"] = "public" } else { cx.RespondWithErrorMessage(e.NoAuth, http.StatusUnauthorized) return } } limit := conf.DEFAULT_PAGE_SIZE offset := 0 order := "info.submittime" direction := "desc" if query.Has("limit") { limit, err = strconv.Atoi(query.Value("limit")) if err != nil { cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } } if query.Has("offset") { offset, err = strconv.Atoi(query.Value("offset")) if err != nil { cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } } if query.Has("order") { order = query.Value("order") } if query.Has("direction") { direction = query.Value("direction") } // Gather params to make db query. Do not include the // following list. skip := map[string]int{"limit": 1, "offset": 1, "query": 1, "recent": 1, "order": 1, "direction": 1, "active": 1, "suspend": 1, "registered": 1, "verbosity": 1, "userattr": 1, } if query.Has("query") { const shortForm = "2006-01-02" date_query := bson.M{} for key, val := range query.All() { _, s := skip[key] if !s { // special case for date range, either full date-time or just date if (key == "date_start") || (key == "date_end") { opr := "$gte" if key == "date_end" { opr = "$lt" } if t_long, err := time.Parse(time.RFC3339, val[0]); err != nil { if t_short, err := time.Parse(shortForm, val[0]); err != nil { cx.RespondWithErrorMessage("Invalid datetime format: "+val[0], http.StatusBadRequest) return } else { date_query[opr] = t_short } } else { date_query[opr] = t_long } } else { // handle either multiple values for key, or single comma-spereated value if len(val) == 1 { queryvalues := strings.Split(val[0], ",") q[key] = bson.M{"$in": queryvalues} } else if len(val) > 1 { q[key] = bson.M{"$in": val} } } } } // add submittime and completedtime range query if len(date_query) > 0 { q["$or"] = []bson.M{bson.M{"info.submittime": date_query}, bson.M{"info.completedtime": date_query}} } } else if query.Has("active") { q["state"] = bson.M{"$in": core.JOB_STATS_ACTIVE} } else if query.Has("suspend") { q["state"] = core.JOB_STAT_SUSPEND } else if query.Has("registered") { q["state"] = bson.M{"$in": core.JOB_STATS_REGISTERED} } //getting real active (in-progress) job (some jobs are in "submitted" states but not in the queue, //because they may have failed and not recovered from the mongodb). if query.Has("active") { err := jobs.GetAll(q, order, direction) if err != nil { logger.Error("err " + err.Error()) cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } filtered_jobs := []core.Job{} act_jobs := core.QMgr.GetActiveJobs() length := jobs.Length() skip := 0 count := 0 for i := 0; i < length; i++ { job := jobs.GetJobAt(i) if _, ok := act_jobs[job.Id]; ok { if skip < offset { skip += 1 continue } job.Registered = true filtered_jobs = append(filtered_jobs, job) count += 1 if count == limit { break } } } cx.RespondWithPaginatedData(filtered_jobs, limit, offset, len(act_jobs)) return } //geting suspended job in the current queue (excluding jobs in db but not in qmgr) if query.Has("suspend") { err := jobs.GetAll(q, order, direction) if err != nil { logger.Error("err " + err.Error()) cx.RespondWithError(http.StatusBadRequest) return } filtered_jobs := []core.Job{} suspend_jobs := core.QMgr.GetSuspendJobs() length := jobs.Length() skip := 0 count := 0 for i := 0; i < length; i++ { job := jobs.GetJobAt(i) if _, ok := suspend_jobs[job.Id]; ok { if skip < offset { skip += 1 continue } job.Registered = true filtered_jobs = append(filtered_jobs, job) count += 1 if count == limit { break } } } cx.RespondWithPaginatedData(filtered_jobs, limit, offset, len(suspend_jobs)) return } if query.Has("registered") { err := jobs.GetAll(q, order, direction) if err != nil { logger.Error("err " + err.Error()) cx.RespondWithError(http.StatusBadRequest) return } paged_jobs := []core.Job{} registered_jobs := []core.Job{} length := jobs.Length() total := 0 for i := 0; i < length; i++ { job := jobs.GetJobAt(i) if core.QMgr.IsJobRegistered(job.Id) { job.Registered = true registered_jobs = append(registered_jobs, job) total += 1 } } count := 0 for i := offset; i < len(registered_jobs); i++ { paged_jobs = append(paged_jobs, registered_jobs[i]) count += 1 if count == limit { break } } cx.RespondWithPaginatedData(paged_jobs, limit, offset, total) return } if query.Has("verbosity") && (query.Value("verbosity") == "minimal") { // TODO - have mongo query only return fields needed to populate JobMin struct total, err := jobs.GetPaginated(q, limit, offset, order, direction) if err != nil { logger.Error("err " + err.Error()) cx.RespondWithError(http.StatusBadRequest) return } minimal_jobs := []core.JobMin{} length := jobs.Length() for i := 0; i < length; i++ { job := jobs.GetJobAt(i) // create and populate minimal job mjob := core.JobMin{} mjob.Id = job.Id mjob.Name = job.Info.Name mjob.SubmitTime = job.Info.SubmitTime mjob.CompletedTime = job.Info.CompletedTime // get size of input var size_sum int64 = 0 for _, v := range job.Tasks[0].Inputs { size_sum = size_sum + v.Size } mjob.Size = size_sum // add userattr fields if query.Has("userattr") { mjob.UserAttr = map[string]string{} for _, attr := range query.List("userattr") { if val, ok := job.Info.UserAttr[attr]; ok { mjob.UserAttr[attr] = val } } } if (job.State == "completed") || (job.State == "deleted") { // if completed or deleted move on, empty task array mjob.State = append(mjob.State, job.State) } else if job.State == "suspend" { // get failed task if info available, otherwise empty task array mjob.State = append(mjob.State, "suspend") parts := strings.Split(job.LastFailed, "_") if (len(parts) == 2) || (len(parts) == 3) { if tid, err := strconv.Atoi(parts[1]); err == nil { mjob.Task = append(mjob.Task, tid) } } } else { // get multiple tasks in state queued or in-progress for j := 0; j < len(job.Tasks); j++ { task := job.Tasks[j] if (task.State == "in-progress") || (task.State == "queued") { mjob.State = append(mjob.State, task.State) mjob.Task = append(mjob.Task, j) } } // otherwise get oldest pending or init task if len(mjob.State) == 0 { for j := 0; j < len(job.Tasks); j++ { task := job.Tasks[j] if (task.State == "pending") || (task.State == "init") { mjob.State = append(mjob.State, task.State) mjob.Task = append(mjob.Task, j) break } } } } minimal_jobs = append(minimal_jobs, mjob) } cx.RespondWithPaginatedData(minimal_jobs, limit, offset, total) return } total, err := jobs.GetPaginated(q, limit, offset, order, direction) if err != nil { logger.Error("err " + err.Error()) cx.RespondWithError(http.StatusBadRequest) return } filtered_jobs := []core.Job{} length := jobs.Length() for i := 0; i < length; i++ { job := jobs.GetJobAt(i) if core.QMgr.IsJobRegistered(job.Id) { job.Registered = true } else { job.Registered = false } filtered_jobs = append(filtered_jobs, job) } cx.RespondWithPaginatedData(filtered_jobs, limit, offset, total) return }
// GET: /work // checkout a workunit with earliest submission time // to-do: to support more options for workunit checkout func (cr *WorkController) ReadMany(cx *goweb.Context) { LogRequest(cx.Request) // Gather query params query := &Query{Li: cx.Request.URL.Query()} if !query.Has("client") { //view workunits // Try to authenticate user. u, err := request.Authenticate(cx.Request) if err != nil && err.Error() != e.NoAuth { cx.RespondWithErrorMessage(err.Error(), http.StatusUnauthorized) return } // If no auth was provided, and anonymous read is allowed, use the public user if u == nil { if conf.ANON_READ == true { u = &user.User{Uuid: "public"} } else { cx.RespondWithErrorMessage(e.NoAuth, http.StatusUnauthorized) return } } // get pagination options limit := conf.DEFAULT_PAGE_SIZE offset := 0 order := "info.submittime" direction := "desc" if query.Has("limit") { limit, err = strconv.Atoi(query.Value("limit")) if err != nil { cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } } if query.Has("offset") { offset, err = strconv.Atoi(query.Value("offset")) if err != nil { cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } } if query.Has("order") { order = query.Value("order") } if query.Has("direction") { direction = query.Value("direction") } var workunits []*core.Workunit if query.Has("state") { workunits = core.QMgr.ShowWorkunitsByUser(query.Value("state"), u) } else { workunits = core.QMgr.ShowWorkunitsByUser("", u) } // if using query syntax then do pagination and sorting if query.Has("query") { filtered_work := []core.Workunit{} sorted_work := core.WorkunitsSortby{order, direction, workunits} sort.Sort(sorted_work) skip := 0 count := 0 for _, w := range sorted_work.Workunits { if skip < offset { skip += 1 continue } filtered_work = append(filtered_work, *w) count += 1 if count == limit { break } } cx.RespondWithPaginatedData(filtered_work, limit, offset, len(sorted_work.Workunits)) return } else { cx.RespondWithData(workunits) return } } cg, err := request.AuthenticateClientGroup(cx.Request) if err != nil { if err.Error() == e.NoAuth || err.Error() == e.UnAuth || err.Error() == e.InvalidAuth { if conf.CLIENT_AUTH_REQ == true { cx.RespondWithError(http.StatusUnauthorized) return } } else { logger.Error("Err@AuthenticateClientGroup: " + err.Error()) cx.RespondWithError(http.StatusInternalServerError) return } } // check that clientgroup auth token matches group of client clientid := query.Value("client") client, ok := core.QMgr.GetClient(clientid) if !ok { cx.RespondWithErrorMessage(e.ClientNotFound, http.StatusBadRequest) return } if cg != nil && client.Group != cg.Name { cx.RespondWithErrorMessage("Clientgroup name in token does not match that in the client configuration.", http.StatusBadRequest) return } if core.Service == "proxy" { //drive proxy workStealer to checkout work from server core.ProxyWorkChan <- true } //checkout a workunit in FCFS order workunits, err := core.QMgr.CheckoutWorkunits("FCFS", clientid, 1) if err != nil { if err.Error() != e.QueueEmpty && err.Error() != e.NoEligibleWorkunitFound && err.Error() != e.ClientNotFound && err.Error() != e.ClientSuspended { logger.Error("Err@work_ReadMany:core.QMgr.GetWorkByFCFS(): " + err.Error() + ";client=" + clientid) } cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } //log event about workunit checkout (WO) workids := []string{} for _, work := range workunits { workids = append(workids, work.Id) } logger.Event(event.WORK_CHECKOUT, "workids="+strings.Join(workids, ","), "clientid="+clientid) // Base case respond with node in json cx.RespondWithData(workunits[0]) return }
// GET: /cgroup func (cr *ClientGroupController) ReadMany(cx *goweb.Context) { LogRequest(cx.Request) // Try to authenticate user. u, err := request.Authenticate(cx.Request) if err != nil && err.Error() != e.NoAuth { cx.RespondWithErrorMessage(err.Error(), http.StatusUnauthorized) return } // If no auth was provided and ANON_CG_READ is true, use the public user. // Otherwise if no auth was provided, throw an error. // Otherwise, proceed with retrieval of the clientgroups using the user. if u == nil { if conf.ANON_CG_READ == true { u = &user.User{Uuid: "public"} } else { cx.RespondWithErrorMessage(e.UnAuth, http.StatusUnauthorized) return } } // Gather query params query := &Query{Li: cx.Request.URL.Query()} // Setup query and clientgroups objects q := bson.M{} cgs := core.ClientGroups{} // Add authorization checking to query if the user is not an admin if u.Admin == false { q["$or"] = []bson.M{bson.M{"acl.read": "public"}, bson.M{"acl.read": u.Uuid}, bson.M{"acl.owner": u.Uuid}} } limit := conf.DEFAULT_PAGE_SIZE offset := 0 order := "last_modified" direction := "desc" if query.Has("limit") { limit, err = strconv.Atoi(query.Value("limit")) if err != nil { cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } } if query.Has("offset") { offset, err = strconv.Atoi(query.Value("offset")) if err != nil { cx.RespondWithErrorMessage(err.Error(), http.StatusBadRequest) return } } if query.Has("order") { order = query.Value("order") } if query.Has("direction") { direction = query.Value("direction") } // Gather params to make db query. Do not include the following list. skip := map[string]int{ "limit": 1, "offset": 1, "order": 1, "direction": 1, } for key, val := range query.All() { _, s := skip[key] if !s { queryvalues := strings.Split(val[0], ",") q[key] = bson.M{"$in": queryvalues} } } total, err := cgs.GetPaginated(q, limit, offset, order, direction) if err != nil { cx.RespondWithError(http.StatusBadRequest) return } cx.RespondWithPaginatedData(cgs, limit, offset, total) return }