// Copyright 2019 Sorint.lab // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied // See the License for the specific language governing permissions and // limitations under the License. package api import ( "bufio" "encoding/json" "io" "net/http" "strconv" "time" "github.com/pkg/errors" "github.com/sorintlab/agola/internal/services/gateway/action" rstypes "github.com/sorintlab/agola/internal/services/runservice/types" "github.com/sorintlab/agola/internal/util" "go.uber.org/zap" "github.com/gorilla/mux" ) type RunsResponse struct { ID string `json:"id"` Counter uint64 `json:"counter"` Name string `json:"name"` Annotations map[string]string `json:"annotations"` Phase rstypes.RunPhase `json:"phase"` Result rstypes.RunResult `json:"result"` TasksWaitingApproval []string `json:"tasks_waiting_approval"` EnqueueTime *time.Time `json:"enqueue_time"` StartTime *time.Time `json:"start_time"` EndTime *time.Time `json:"end_time"` } type RunResponse struct { ID string `json:"id"` Counter uint64 `json:"counter"` Name string `json:"name"` Annotations map[string]string `json:"annotations"` Phase rstypes.RunPhase `json:"phase"` Result rstypes.RunResult `json:"result"` SetupErrors []string `json:"setup_errors"` Tasks map[string]*RunResponseTask `json:"tasks"` TasksWaitingApproval []string `json:"tasks_waiting_approval"` EnqueueTime *time.Time `json:"enqueue_time"` StartTime *time.Time `json:"start_time"` EndTime *time.Time `json:"end_time"` CanRestartFromScratch bool `json:"can_restart_from_scratch"` CanRestartFromFailedTasks bool `json:"can_restart_from_failed_tasks"` } type RunResponseTask struct { ID string `json:"id"` Name string `json:"name"` Status rstypes.RunTaskStatus `json:"status"` Level int `json:"level"` Depends map[string]*rstypes.RunConfigTaskDepend `json:"depends"` WaitingApproval bool `json:"waiting_approval"` Approved bool `json:"approved"` ApprovalAnnotations map[string]string `json:"approval_annotations"` StartTime *time.Time `json:"start_time"` EndTime *time.Time `json:"end_time"` } type RunTaskResponse struct { ID string `json:"id"` Name string `json:"name"` Status rstypes.RunTaskStatus `json:"status"` WaitingApproval bool `json:"waiting_approval"` Approved bool `json:"approved"` ApprovalAnnotations map[string]string `json:"approval_annotations"` SetupStep *RunTaskResponseSetupStep `json:"setup_step"` Steps []*RunTaskResponseStep `json:"steps"` StartTime *time.Time `json:"start_time"` EndTime *time.Time `json:"end_time"` } type RunTaskResponseSetupStep struct { Phase rstypes.ExecutorTaskPhase `json:"phase"` Name string `json:"name"` StartTime *time.Time `json:"start_time"` EndTime *time.Time `json:"end_time"` } type RunTaskResponseStep struct { Phase rstypes.ExecutorTaskPhase `json:"phase"` Name string `json:"name"` Command string `json:"command"` StartTime *time.Time `json:"start_time"` EndTime *time.Time `json:"end_time"` } func createRunResponse(r *rstypes.Run, rc *rstypes.RunConfig) *RunResponse { run := &RunResponse{ ID: r.ID, Counter: r.Counter, Name: r.Name, Annotations: r.Annotations, Phase: r.Phase, Result: r.Result, SetupErrors: rc.SetupErrors, Tasks: make(map[string]*RunResponseTask), TasksWaitingApproval: r.TasksWaitingApproval(), EnqueueTime: r.EnqueueTime, StartTime: r.StartTime, EndTime: r.EndTime, } run.CanRestartFromScratch, _ = r.CanRestartFromScratch() run.CanRestartFromFailedTasks, _ = r.CanRestartFromFailedTasks() for name, rt := range r.Tasks { rct := rc.Tasks[rt.ID] run.Tasks[name] = createRunResponseTask(r, rt, rct) } return run } func createRunResponseTask(r *rstypes.Run, rt *rstypes.RunTask, rct *rstypes.RunConfigTask) *RunResponseTask { t := &RunResponseTask{ ID: rt.ID, Name: rct.Name, Status: rt.Status, StartTime: rt.StartTime, EndTime: rt.EndTime, WaitingApproval: rt.WaitingApproval, Approved: rt.Approved, ApprovalAnnotations: rt.Annotations, Level: rct.Level, Depends: rct.Depends, } return t } func createRunTaskResponse(rt *rstypes.RunTask, rct *rstypes.RunConfigTask) *RunTaskResponse { t := &RunTaskResponse{ ID: rt.ID, Name: rct.Name, Status: rt.Status, WaitingApproval: rt.WaitingApproval, Approved: rt.Approved, ApprovalAnnotations: rt.Annotations, Steps: make([]*RunTaskResponseStep, len(rt.Steps)), StartTime: rt.StartTime, EndTime: rt.EndTime, } t.SetupStep = &RunTaskResponseSetupStep{ Name: "Task setup", Phase: rt.SetupStep.Phase, StartTime: rt.SetupStep.StartTime, EndTime: rt.SetupStep.EndTime, } for i := 0; i < len(t.Steps); i++ { s := &RunTaskResponseStep{ Phase: rt.Steps[i].Phase, StartTime: rt.Steps[i].StartTime, EndTime: rt.Steps[i].EndTime, } rcts := rct.Steps[i] switch rcts := rcts.(type) { case *rstypes.RunStep: s.Name = rcts.Name s.Command = rcts.Command case *rstypes.SaveToWorkspaceStep: s.Name = "save to workspace" case *rstypes.RestoreWorkspaceStep: s.Name = "restore workspace" case *rstypes.SaveCacheStep: s.Name = "save cache" case *rstypes.RestoreCacheStep: s.Name = "restore cache" } t.Steps[i] = s } return t } type RunHandler struct { log *zap.SugaredLogger ah *action.ActionHandler } func NewRunHandler(logger *zap.Logger, ah *action.ActionHandler) *RunHandler { return &RunHandler{log: logger.Sugar(), ah: ah} } func (h *RunHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { ctx := r.Context() vars := mux.Vars(r) runID := vars["runid"] runResp, err := h.ah.GetRun(ctx, runID) if httpError(w, err) { h.log.Errorf("err: %+v", err) return } res := createRunResponse(runResp.Run, runResp.RunConfig) if err := httpResponse(w, http.StatusOK, res); err != nil { h.log.Errorf("err: %+v", err) } } type RuntaskHandler struct { log *zap.SugaredLogger ah *action.ActionHandler } func NewRuntaskHandler(logger *zap.Logger, ah *action.ActionHandler) *RuntaskHandler { return &RuntaskHandler{log: logger.Sugar(), ah: ah} } func (h *RuntaskHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { ctx := r.Context() vars := mux.Vars(r) runID := vars["runid"] taskID := vars["taskid"] runResp, err := h.ah.GetRun(ctx, runID) if httpError(w, err) { h.log.Errorf("err: %+v", err) return } run := runResp.Run rc := runResp.RunConfig rt, ok := run.Tasks[taskID] if !ok { httpError(w, util.NewErrNotFound(errors.Errorf("run %q task %q not found", runID, taskID))) return } rct := rc.Tasks[rt.ID] res := createRunTaskResponse(rt, rct) if err := httpResponse(w, http.StatusOK, res); err != nil { h.log.Errorf("err: %+v", err) } } const ( DefaultRunsLimit = 25 MaxRunsLimit = 40 ) func createRunsResponse(r *rstypes.Run) *RunsResponse { run := &RunsResponse{ ID: r.ID, Counter: r.Counter, Name: r.Name, Annotations: r.Annotations, Phase: r.Phase, Result: r.Result, TasksWaitingApproval: r.TasksWaitingApproval(), EnqueueTime: r.EnqueueTime, StartTime: r.StartTime, EndTime: r.EndTime, } return run } type RunsHandler struct { log *zap.SugaredLogger ah *action.ActionHandler } func NewRunsHandler(logger *zap.Logger, ah *action.ActionHandler) *RunsHandler { return &RunsHandler{log: logger.Sugar(), ah: ah} } func (h *RunsHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { ctx := r.Context() q := r.URL.Query() // we currently accept only one group group := q.Get("group") // we require that groups are specified to not return all runs if group == "" { httpError(w, util.NewErrBadRequest(errors.Errorf("no groups specified"))) return } phaseFilter := q["phase"] changeGroups := q["changegroup"] _, lastRun := q["lastrun"] limitS := q.Get("limit") limit := DefaultRunsLimit if limitS != "" { var err error limit, err = strconv.Atoi(limitS) if err != nil { httpError(w, util.NewErrBadRequest(errors.Wrapf(err, "cannot parse limit"))) return } } if limit < 0 { httpError(w, util.NewErrBadRequest(errors.Errorf("limit must be greater or equal than 0"))) return } if limit > MaxRunsLimit { limit = MaxRunsLimit } asc := false if _, ok := q["asc"]; ok { asc = true } start := q.Get("start") areq := &action.GetRunsRequest{ PhaseFilter: phaseFilter, Group: group, LastRun: lastRun, ChangeGroups: changeGroups, StartRunID: start, Limit: limit, Asc: asc, } runsResp, err := h.ah.GetRuns(ctx, areq) if httpError(w, err) { h.log.Errorf("err: %+v", err) return } runs := make([]*RunsResponse, len(runsResp.Runs)) for i, r := range runsResp.Runs { runs[i] = createRunsResponse(r) } if err := httpResponse(w, http.StatusOK, runs); err != nil { h.log.Errorf("err: %+v", err) } } type RunActionsRequest struct { ActionType action.RunActionType `json:"action_type"` // Restart FromStart bool `json:"from_start"` } type RunActionsHandler struct { log *zap.SugaredLogger ah *action.ActionHandler } func NewRunActionsHandler(logger *zap.Logger, ah *action.ActionHandler) *RunActionsHandler { return &RunActionsHandler{log: logger.Sugar(), ah: ah} } func (h *RunActionsHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { ctx := r.Context() vars := mux.Vars(r) runID := vars["runid"] var req RunActionsRequest d := json.NewDecoder(r.Body) if err := d.Decode(&req); err != nil { httpError(w, util.NewErrBadRequest(err)) return } areq := &action.RunActionsRequest{ RunID: runID, ActionType: req.ActionType, FromStart: req.FromStart, } err := h.ah.RunAction(ctx, areq) if httpError(w, err) { h.log.Errorf("err: %+v", err) return } } type RunTaskActionsRequest struct { ActionType action.RunTaskActionType `json:"action_type"` } type RunTaskActionsHandler struct { log *zap.SugaredLogger ah *action.ActionHandler } func NewRunTaskActionsHandler(logger *zap.Logger, ah *action.ActionHandler) *RunTaskActionsHandler { return &RunTaskActionsHandler{log: logger.Sugar(), ah: ah} } func (h *RunTaskActionsHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { ctx := r.Context() vars := mux.Vars(r) runID := vars["runid"] taskID := vars["taskid"] var req RunTaskActionsRequest d := json.NewDecoder(r.Body) if err := d.Decode(&req); err != nil { httpError(w, util.NewErrBadRequest(err)) return } areq := &action.RunTaskActionsRequest{ RunID: runID, TaskID: taskID, ActionType: req.ActionType, } err := h.ah.RunTaskAction(ctx, areq) if httpError(w, err) { h.log.Errorf("err: %+v", err) return } } type LogsHandler struct { log *zap.SugaredLogger ah *action.ActionHandler } func NewLogsHandler(logger *zap.Logger, ah *action.ActionHandler) *LogsHandler { return &LogsHandler{log: logger.Sugar(), ah: ah} } func (h *LogsHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { ctx := r.Context() q := r.URL.Query() runID := q.Get("runID") if runID == "" { httpError(w, util.NewErrBadRequest(errors.Errorf("empty run id"))) return } taskID := q.Get("taskID") if taskID == "" { httpError(w, util.NewErrBadRequest(errors.Errorf("empty task id"))) return } _, setup := q["setup"] stepStr := q.Get("step") if !setup && stepStr == "" { httpError(w, util.NewErrBadRequest(errors.Errorf("no setup or step number provided"))) return } if setup && stepStr != "" { httpError(w, util.NewErrBadRequest(errors.Errorf("both setup and step number provided"))) return } var step int if stepStr != "" { var err error step, err = strconv.Atoi(stepStr) if err != nil { httpError(w, util.NewErrBadRequest(errors.Wrapf(err, "cannot parse step number"))) return } } follow := false if _, ok := q["follow"]; ok { follow = true } stream := false if _, ok := q["stream"]; ok { stream = true } if follow { stream = true } areq := &action.GetLogsRequest{ RunID: runID, TaskID: taskID, Setup: setup, Step: step, Follow: follow, Stream: stream, } resp, err := h.ah.GetLogs(ctx, areq) if httpError(w, err) { h.log.Errorf("err: %+v", err) return } if stream { w.Header().Set("Content-Type", "text/event-stream") } w.Header().Set("Cache-Control", "no-cache") w.Header().Set("Connection", "keep-alive") defer resp.Body.Close() if stream { if err := sendLogs(w, resp.Body); err != nil { h.log.Errorf("err: %+v", err) return } } else { if _, err := io.Copy(w, resp.Body); err != nil { h.log.Errorf("err: %+v", err) return } } } // sendLogs is used during streaming to flush logs lines // TODO(sgotti) there's no need to do br.ReadBytes since the response is // already flushed by the runservice. func sendLogs(w io.Writer, r io.Reader) error { br := bufio.NewReader(r) var flusher http.Flusher if fl, ok := w.(http.Flusher); ok { flusher = fl } stop := false for { if stop { return nil } data, err := br.ReadBytes('\n') if err != nil { if err != io.EOF { return err } if len(data) == 0 { return nil } stop = true } if _, err := w.Write(data); err != nil { return err } if flusher != nil { flusher.Flush() } } }