package model import ( "fmt" "io" "io/ioutil" "math" "os" "path/filepath" "regexp" "sort" "github.com/pkg/errors" log "github.com/sirupsen/logrus" ) // WorkflowPlanner contains methods for creating plans type WorkflowPlanner interface { PlanEvent(eventName string) *Plan PlanJob(jobName string) *Plan GetEvents() []string } // Plan contains a list of stages to run in series type Plan struct { Stages []*Stage } // Stage contains a list of runs to execute in parallel type Stage struct { Runs []*Run } // Run represents a job from a workflow that needs to be run type Run struct { Workflow *Workflow JobID string } func (r *Run) String() string { jobName := r.Job().Name if jobName == "" { jobName = r.JobID } return jobName } // Job returns the job for this Run func (r *Run) Job() *Job { return r.Workflow.GetJob(r.JobID) } // Helper function for FixIfstatement func FixIfStatement1(val string, lines [][][]byte, l int) (string, error) { if val != "" { line := lines[l-1][0] outcome := regexp.MustCompile(`\s+if:\s+".*".*`).FindSubmatch(line) if outcome != nil { oldLines := regexp.MustCompile(`"(.*?)"`).FindAllSubmatch(line, 2) val = "${{" + string(oldLines[0][1]) + "}}" } } return val, nil } // Fixes faulty if statements from decoder func FixIfStatement(content []byte, wr *Workflow) error { jobs := wr.Jobs lines := regexp.MustCompile(".*\n|.+$").FindAllSubmatch(content, -1) for j := range jobs { val, err := FixIfStatement1(jobs[j].If.Value, lines, jobs[j].If.Line) if err != nil { return err } jobs[j].If.Value = val for i := range jobs[j].Steps { val, err = FixIfStatement1(jobs[j].Steps[i].If.Value, lines, jobs[j].Steps[i].If.Line) if err != nil { return err } jobs[j].Steps[i].If.Value = val } } return nil } type WorkflowFiles struct { workflowFileInfo os.FileInfo dirPath string } // NewWorkflowPlanner will load a specific workflow, all workflows from a directory or all workflows from a directory and its subdirectories // nolint: gocyclo func NewWorkflowPlanner(path string, noWorkflowRecurse bool) (WorkflowPlanner, error) { path, err := filepath.Abs(path) if err != nil { return nil, err } fi, err := os.Stat(path) if err != nil { return nil, err } var workflows []WorkflowFiles if fi.IsDir() { log.Debugf("Loading workflows from '%s'", path) if noWorkflowRecurse { files, err := ioutil.ReadDir(path) if err != nil { return nil, err } for _, v := range files { workflows = append(workflows, WorkflowFiles{ dirPath: path, workflowFileInfo: v, }) } } else { log.Debug("Loading workflows recursively") if err := filepath.Walk(path, func(p string, f os.FileInfo, err error) error { if err != nil { return err } if !f.IsDir() { log.Debugf("Found workflow '%s' in '%s'", f.Name(), p) workflows = append(workflows, WorkflowFiles{ dirPath: filepath.Dir(p), workflowFileInfo: f, }) } return nil }); err != nil { return nil, err } } } else { log.Debugf("Loading workflow '%s'", path) dirname := filepath.Dir(path) workflows = append(workflows, WorkflowFiles{ dirPath: dirname, workflowFileInfo: fi, }) } if err != nil { return nil, err } wp := new(workflowPlanner) for _, wf := range workflows { ext := filepath.Ext(wf.workflowFileInfo.Name()) if ext == ".yml" || ext == ".yaml" { f, err := os.Open(filepath.Join(wf.dirPath, wf.workflowFileInfo.Name())) if err != nil { return nil, err } log.Debugf("Reading workflow '%s'", f.Name()) workflow, err := ReadWorkflow(f) if err != nil { f.Close() if err == io.EOF { return nil, errors.WithMessagef(err, "unable to read workflow, %s file is empty", wf.workflowFileInfo.Name()) } return nil, err } _, err = f.Seek(0, 0) if err != nil { f.Close() return nil, errors.WithMessagef(err, "error occurring when resetting io pointer, %s", wf.workflowFileInfo.Name()) } log.Debugf("Correcting if statements '%s'", f.Name()) content, err := ioutil.ReadFile(filepath.Join(wf.dirPath, wf.workflowFileInfo.Name())) if err != nil { return nil, errors.WithMessagef(err, "error occurring when reading file, %s", wf.workflowFileInfo.Name()) } err = FixIfStatement(content, workflow) if err != nil { return nil, err } workflow.File = wf.workflowFileInfo.Name() if workflow.Name == "" { workflow.Name = wf.workflowFileInfo.Name() } jobNameRegex := regexp.MustCompile(`^([[:alpha:]_][[:alnum:]_\-]*)$`) for k := range workflow.Jobs { if ok := jobNameRegex.MatchString(k); !ok { return nil, fmt.Errorf("workflow is not valid. '%s': Job name '%s' is invalid. Names must start with a letter or '_' and contain only alphanumeric characters, '-', or '_'", workflow.Name, k) } } wp.workflows = append(wp.workflows, workflow) f.Close() } } return wp, nil } type workflowPlanner struct { workflows []*Workflow } // PlanEvent builds a new list of runs to execute in parallel for an event name func (wp *workflowPlanner) PlanEvent(eventName string) *Plan { plan := new(Plan) if len(wp.workflows) == 0 { log.Debugf("no events found for workflow: %s", eventName) } for _, w := range wp.workflows { for _, e := range w.On() { if e == eventName { plan.mergeStages(createStages(w, w.GetJobIDs()...)) } } } return plan } // PlanJob builds a new run to execute in parallel for a job name func (wp *workflowPlanner) PlanJob(jobName string) *Plan { plan := new(Plan) if len(wp.workflows) == 0 { log.Debugf("no jobs found for workflow: %s", jobName) } for _, w := range wp.workflows { plan.mergeStages(createStages(w, jobName)) } return plan } // GetEvents gets all the events in the workflows file func (wp *workflowPlanner) GetEvents() []string { events := make([]string, 0) for _, w := range wp.workflows { found := false for _, e := range events { for _, we := range w.On() { if e == we { found = true break } } if found { break } } if !found { events = append(events, w.On()...) } } // sort the list based on depth of dependencies sort.Slice(events, func(i, j int) bool { return events[i] < events[j] }) return events } // MaxRunNameLen determines the max name length of all jobs func (p *Plan) MaxRunNameLen() int { maxRunNameLen := 0 for _, stage := range p.Stages { for _, run := range stage.Runs { runNameLen := len(run.String()) if runNameLen > maxRunNameLen { maxRunNameLen = runNameLen } } } return maxRunNameLen } // GetJobIDs will get all the job names in the stage func (s *Stage) GetJobIDs() []string { names := make([]string, 0) for _, r := range s.Runs { names = append(names, r.JobID) } return names } // Merge stages with existing stages in plan func (p *Plan) mergeStages(stages []*Stage) { newStages := make([]*Stage, int(math.Max(float64(len(p.Stages)), float64(len(stages))))) for i := 0; i < len(newStages); i++ { newStages[i] = new(Stage) if i >= len(p.Stages) { newStages[i].Runs = append(newStages[i].Runs, stages[i].Runs...) } else if i >= len(stages) { newStages[i].Runs = append(newStages[i].Runs, p.Stages[i].Runs...) } else { newStages[i].Runs = append(newStages[i].Runs, p.Stages[i].Runs...) newStages[i].Runs = append(newStages[i].Runs, stages[i].Runs...) } } p.Stages = newStages } func createStages(w *Workflow, jobIDs ...string) []*Stage { // first, build a list of all the necessary jobs to run, and their dependencies jobDependencies := make(map[string][]string) for len(jobIDs) > 0 { newJobIDs := make([]string, 0) for _, jID := range jobIDs { // make sure we haven't visited this job yet if _, ok := jobDependencies[jID]; !ok { if job := w.GetJob(jID); job != nil { jobDependencies[jID] = job.Needs() newJobIDs = append(newJobIDs, job.Needs()...) } } } jobIDs = newJobIDs } // next, build an execution graph stages := make([]*Stage, 0) for len(jobDependencies) > 0 { stage := new(Stage) for jID, jDeps := range jobDependencies { // make sure all deps are in the graph already if listInStages(jDeps, stages...) { stage.Runs = append(stage.Runs, &Run{ Workflow: w, JobID: jID, }) delete(jobDependencies, jID) } } if len(stage.Runs) == 0 { log.Fatalf("Unable to build dependency graph!") } stages = append(stages, stage) } return stages } // return true iff all strings in srcList exist in at least one of the stages func listInStages(srcList []string, stages ...*Stage) bool { for _, src := range srcList { found := false for _, stage := range stages { for _, search := range stage.GetJobIDs() { if src == search { found = true } } } if !found { return false } } return true }