package pipeline import ( "context" "strings" "time" "github.com/rs/zerolog" "github.com/rs/zerolog/log" "golang.org/x/sync/errgroup" backend "github.com/woodpecker-ci/woodpecker/pipeline/backend/types" "github.com/woodpecker-ci/woodpecker/pipeline/multipart" ) type ( // State defines the pipeline and process state. State struct { // Global state of the pipeline. Pipeline struct { // Pipeline time started Time int64 `json:"time"` // Current pipeline step Step *backend.Step `json:"step"` // Current pipeline error state Error error `json:"error"` } // Current process state. Process *backend.State } ) // Runtime is a configuration runtime. type Runtime struct { err error spec *backend.Config engine backend.Engine started int64 ctx context.Context tracer Tracer logger Logger Description map[string]string // The runtime descriptors. } // New returns a new runtime using the specified runtime // configuration and runtime engine. func New(spec *backend.Config, opts ...Option) *Runtime { r := new(Runtime) r.Description = map[string]string{} r.spec = spec r.ctx = context.Background() for _, opts := range opts { opts(r) } return r } func (r *Runtime) MakeLogger() zerolog.Logger { logCtx := log.With() for key, val := range r.Description { logCtx = logCtx.Str(key, val) } return logCtx.Logger() } // Starts the execution of the pipeline and waits for it to complete func (r *Runtime) Run() error { logger := r.MakeLogger() logger.Debug().Msgf("Executing %d stages, in order of:", len(r.spec.Stages)) for _, stage := range r.spec.Stages { steps := []string{} for _, step := range stage.Steps { steps = append(steps, step.Name) } logger.Debug(). Str("Stage", stage.Name). Str("Steps", strings.Join(steps, ",")). Msg("stage") } defer func() { if err := r.engine.Destroy(r.ctx, r.spec); err != nil { logger.Error().Err(err).Msg("could not destroy engine") } }() r.started = time.Now().Unix() if err := r.engine.Setup(r.ctx, r.spec); err != nil { return err } for _, stage := range r.spec.Stages { select { case <-r.ctx.Done(): return ErrCancel case err := <-r.execAll(stage.Steps): if err != nil { r.err = err } } } return r.err } // Updates the current status of a step func (r *Runtime) traceStep(processState *backend.State, err error, step *backend.Step) error { if r.tracer == nil { // no tracer nothing to trace :) return nil } if processState == nil { processState = new(backend.State) if err != nil { processState.Error = err processState.Exited = true processState.OOMKilled = false processState.ExitCode = 126 // command invoked cannot be executed. } } state := new(State) state.Pipeline.Time = r.started state.Pipeline.Step = step state.Process = processState // empty state.Pipeline.Error = r.err if traceErr := r.tracer.Trace(state); traceErr != nil { return traceErr } return err } // Executes a set of parallel steps func (r *Runtime) execAll(steps []*backend.Step) <-chan error { var g errgroup.Group done := make(chan error) logger := r.MakeLogger() for _, step := range steps { // required since otherwise the loop variable // will be captured by the function. This will // recreate the step "variable" step := step g.Go(func() error { // Case the pipeline was already complete. logger.Debug(). Str("Step", step.Name). Msg("Prepare") switch { case r.err != nil && !step.OnFailure: logger.Debug(). Str("Step", step.Name). Err(r.err). Msgf("Skipped due to OnFailure=%t", step.OnFailure) return nil case r.err == nil && !step.OnSuccess: logger.Debug(). Str("Step", step.Name). Msgf("Skipped due to OnSuccess=%t", step.OnSuccess) return nil } // Trace started. err := r.traceStep(nil, nil, step) if err != nil { return err } logger.Debug(). Str("Step", step.Name). Msg("Executing") processState, err := r.exec(step) logger.Debug(). Str("Step", step.Name). Msg("Complete") // if we got a nil process but an error state // then we need to log the internal error to the step. if r.logger != nil && err != nil && processState == nil { _ = r.logger.Log(step, multipart.New(strings.NewReader( "Backend engine error while running step: "+err.Error(), ))) } // Return the error after tracing it. return r.traceStep(processState, err, step) }) } go func() { done <- g.Wait() close(done) }() return done } // Executes the step and returns the state and error. func (r *Runtime) exec(step *backend.Step) (*backend.State, error) { // TODO: using DRONE_ will be deprecated with 0.15.0. remove fallback with following release for key, value := range step.Environment { if strings.HasPrefix(key, "CI_") { step.Environment[strings.Replace(key, "CI_", "DRONE_", 1)] = value } } if err := r.engine.Exec(r.ctx, step); err != nil { return nil, err } if r.logger != nil { rc, err := r.engine.Tail(r.ctx, step) if err != nil { return nil, err } go func() { logger := r.MakeLogger() if err := r.logger.Log(step, multipart.New(rc)); err != nil { logger.Error().Err(err).Msg("process logging failed") } _ = rc.Close() }() } // nothing else to do, this is a detached process. if step.Detached { return nil, nil } waitState, err := r.engine.Wait(r.ctx, step) if err != nil { return nil, err } if waitState.OOMKilled { return waitState, &OomError{ Name: step.Name, Code: waitState.ExitCode, } } else if waitState.ExitCode != 0 { return waitState, &ExitError{ Name: step.Name, Code: waitState.ExitCode, } } return waitState, nil }