Improve tty error logging when buildkit vertex is unknown (#2188)

* Improve tty error logging when buildkit vertex is unknown Creates a generic "system" group in the tty output which captures buildkit events that report a non-dagger vertex name. This happens currently when using core.#Dockerfile actions since Dagger delegates the LLB generation to buildkit through it's frontend and we don't get meaningful events that we can correlate from Dagger's side Signed-off-by: Marcos Lilljedahl <marcosnils@gmail.com>
2022-04-18 21:50:34 -03:00 · 2022-04-18 21:50:34 -03:00 · 27d878456f
commit 27d878456f
parent 437f4517b6
8 changed files with 163 additions and 87 deletions
--- a/cmd/dagger/logger/plain.go
+++ b/cmd/dagger/logger/plain.go
@ -23,6 +23,8 @@ type PlainOutput struct {
 	Out io.Writer
 }

+const systemGroup = "system"
+
 func (c *PlainOutput) Write(p []byte) (int, error) {
 	event := map[string]interface{}{}
 	d := json.NewDecoder(bytes.NewReader(p))
@ -117,7 +119,7 @@ func formatMessage(event map[string]interface{}) string {
 }

 func parseSource(event map[string]interface{}) string {
-	source := "system"
+	source := systemGroup
 	if task, ok := event["task"].(string); ok && task != "" {
 		source = task
 	}
--- a/cmd/dagger/logger/tty.go
+++ b/cmd/dagger/logger/tty.go
@ -43,8 +43,14 @@ func (l *Logs) Add(event Event) error {
 	l.l.Lock()
 	defer l.l.Unlock()

+	// same thing as in plain.go group all the non-identified tasks
+	// into a general group called system
+	source := systemGroup
 	taskPath, ok := event["task"].(string)
-	if !ok {
+
+	if ok && len(taskPath) > 0 {
+		source = taskPath
+	} else if !ok {
 		l.Messages = append(l.Messages, Message{
 			Event: event,
 		})
@ -53,7 +59,7 @@ func (l *Logs) Add(event Event) error {
 	}

 	// Hide hidden fields (e.g. `._*`) from log group names
-	groupKey := strings.Split(taskPath, "._")[0]
+	groupKey := strings.Split(source, "._")[0]

 	group := l.groups[groupKey]

@ -78,12 +84,20 @@ func (l *Logs) Add(event Event) error {
 	// For each task in a group, the status will transition from computing to complete, then back to computing and so on.
 	// The transition is fast enough not to cause a problem.
 	if st, ok := event["state"].(string); ok {
-		group.State = task.State(st)
-		if group.State == task.StateComputing {
-			group.Completed = nil
-		} else {
-			now := time.Now()
-			group.Completed = &now
+		if t, err := task.ParseState(st); err != nil {
+			return err
+			// concurrent "system" tasks are the only exception to transition
+			// from another state to failed since we need to show the error to
+			// the user
+		} else if group.State.CanTransition(t) ||
+			(group.Name == systemGroup && t == task.StateFailed) {
+			group.State = t
+			if group.State == task.StateComputing {
+				group.Completed = nil
+			} else {
+				now := time.Now()
+				group.Completed = &now
+			}
 		}

 		return nil
@ -262,52 +276,57 @@ func (c *TTYOutput) printLine(w io.Writer, event Event, width int) int {
 func (c *TTYOutput) printGroup(group *Group, width, maxLines int) int {
 	lineCount := 0

-	prefix := ""
-	switch group.State {
-	case task.StateComputing:
-		prefix = "[+]"
-	case task.StateCanceled:
-		prefix = "[✗]"
-	case task.StateFailed:
-		prefix = "[✗]"
-	case task.StateCompleted:
-		prefix = "[✔]"
+	var out string
+	// treat the "system" group as a special case as we don't
+	// want it to be displayed as an action in the output
+	if group.Name != systemGroup {
+		prefix := ""
+		switch group.State {
+		case task.StateComputing:
+			prefix = "[+]"
+		case task.StateCanceled:
+			prefix = "[✗]"
+		case task.StateFailed:
+			prefix = "[✗]"
+		case task.StateCompleted:
+			prefix = "[✔]"
+		}
+
+		out = prefix + " " + group.Name
+
+		endTime := time.Now()
+		if group.Completed != nil {
+			endTime = *group.Completed
+		}
+
+		dt := endTime.Sub(*group.Started).Seconds()
+		if dt < 0.05 {
+			dt = 0
+		}
+		timer := fmt.Sprintf("%3.1fs", dt)
+
+		// align
+		out += strings.Repeat(" ", width-utf8.RuneCountInString(out)-len(timer))
+		out += timer
+		out += "\n"
+
+		// color
+		switch group.State {
+		case task.StateComputing:
+			out = aec.Apply(out, aec.LightBlueF)
+		case task.StateCanceled:
+			out = aec.Apply(out, aec.LightYellowF)
+		case task.StateFailed:
+			out = aec.Apply(out, aec.LightRedF)
+		case task.StateCompleted:
+			out = aec.Apply(out, aec.LightGreenF)
+		}
+
+		// Print
+		fmt.Fprint(c.cons, out)
+		lineCount++
 	}

-	out := prefix + " " + group.Name
-
-	endTime := time.Now()
-	if group.Completed != nil {
-		endTime = *group.Completed
-	}
-
-	dt := endTime.Sub(*group.Started).Seconds()
-	if dt < 0.05 {
-		dt = 0
-	}
-	timer := fmt.Sprintf("%3.1fs", dt)
-
-	// align
-	out += strings.Repeat(" ", width-utf8.RuneCountInString(out)-len(timer))
-	out += timer
-	out += "\n"
-
-	// color
-	switch group.State {
-	case task.StateComputing:
-		out = aec.Apply(out, aec.LightBlueF)
-	case task.StateCanceled:
-		out = aec.Apply(out, aec.LightYellowF)
-	case task.StateFailed:
-		out = aec.Apply(out, aec.LightRedF)
-	case task.StateCompleted:
-		out = aec.Apply(out, aec.LightGreenF)
-	}
-
-	// Print
-	fmt.Fprint(c.cons, out)
-	lineCount++
-
 	printEvents := []Event{}
 	switch group.State {
 	case task.StateComputing:
--- a/plan/runner.go
+++ b/plan/runner.go
@ -8,6 +8,7 @@ import (
 	"time"

 	"go.dagger.io/dagger/compiler"
+
 	"go.dagger.io/dagger/plan/task"
 	"go.dagger.io/dagger/plancontext"
 	"go.dagger.io/dagger/solver"
@ -15,6 +16,7 @@ import (
 	"cuelang.org/go/cue"
 	cueflow "cuelang.org/go/tools/flow"

+	"github.com/rs/zerolog"
 	"github.com/rs/zerolog/log"
 	"go.opentelemetry.io/otel"
 )
@ -124,6 +126,15 @@ func (r *Runner) shouldRun(p cue.Path) bool {
 	return ok
 }

+func taskLog(tp string, log *zerolog.Logger, t task.Task, fn func(lg zerolog.Logger)) {
+	fn(log.With().Str("task", tp).Logger())
+	// setup logger here
+	_, isDockerfileTask := t.(*task.DockerfileTask)
+	if isDockerfileTask {
+		fn(log.With().Str("task", "system").Logger())
+	}
+}
+
 func (r *Runner) taskFunc(flowVal cue.Value) (cueflow.Runner, error) {
 	v := compiler.Wrap(flowVal)
 	handler, err := task.Lookup(v)
@ -142,31 +153,45 @@ func (r *Runner) taskFunc(flowVal cue.Value) (cueflow.Runner, error) {
 	// Wrapper around `task.Run` that handles logging, tracing, etc.
 	return cueflow.RunnerFunc(func(t *cueflow.Task) error {
 		ctx := t.Context()
-		lg := log.Ctx(ctx).With().Str("task", t.Path().String()).Logger()
+		taskPath := t.Path().String()
+		lg := log.Ctx(ctx).With().Logger()
 		ctx = lg.WithContext(ctx)
 		ctx, span := otel.Tracer("dagger").Start(ctx, fmt.Sprintf("up: %s", t.Path().String()))
 		defer span.End()

-		lg.Info().Str("state", string(task.StateComputing)).Msg(string(task.StateComputing))
+		taskLog(taskPath, &lg, handler, func(lg zerolog.Logger) {
+			lg.Info().Str("state", task.StateComputing.String()).Msg(task.StateComputing.String())
+		})

 		// Debug: dump dependencies
 		for _, dep := range t.Dependencies() {
-			lg.Debug().Str("dependency", dep.Path().String()).Msg("dependency detected")
+			taskLog(taskPath, &lg, handler, func(lg zerolog.Logger) {
+				lg.Debug().Str("dependency", dep.Path().String()).Msg("dependency detected")
+			})
 		}

 		start := time.Now()
 		result, err := handler.Run(ctx, r.pctx, r.s, compiler.Wrap(t.Value()))
 		if err != nil {
 			// FIXME: this should use errdefs.IsCanceled(err)
+
+			// we don't wrap taskLog here since in some cases, actions could still be
+			// running in goroutines which will scramble outputs.
 			if strings.Contains(err.Error(), "context canceled") {
-				lg.Error().Dur("duration", time.Since(start)).Str("state", string(task.StateCanceled)).Msg(string(task.StateCanceled))
+				taskLog(taskPath, &lg, handler, func(lg zerolog.Logger) {
+					lg.Error().Dur("duration", time.Since(start)).Str("state", task.StateCanceled.String()).Msg(task.StateCanceled.String())
+				})
 			} else {
-				lg.Error().Dur("duration", time.Since(start)).Err(compiler.Err(err)).Str("state", string(task.StateFailed)).Msg(string(task.StateFailed))
+				taskLog(taskPath, &lg, handler, func(lg zerolog.Logger) {
+					lg.Error().Dur("duration", time.Since(start)).Err(compiler.Err(err)).Str("state", task.StateFailed.String()).Msg(task.StateFailed.String())
+				})
 			}
 			return fmt.Errorf("%s: %w", t.Path().String(), compiler.Err(err))
 		}

-		lg.Info().Dur("duration", time.Since(start)).Str("state", string(task.StateCompleted)).Msg(string(task.StateCompleted))
+		taskLog(taskPath, &lg, handler, func(lg zerolog.Logger) {
+			lg.Info().Dur("duration", time.Since(start)).Str("state", task.StateCompleted.String()).Msg(task.StateCompleted.String())
+		})

 		// If the result is not concrete (e.g. empty value), there's nothing to merge.
 		if !result.IsConcrete() {
@ -174,7 +199,9 @@ func (r *Runner) taskFunc(flowVal cue.Value) (cueflow.Runner, error) {
 		}

 		if src, err := result.Source(); err == nil {
-			lg.Debug().Str("result", string(src)).Msg("merging task result")
+			taskLog(taskPath, &lg, handler, func(lg zerolog.Logger) {
+				lg.Debug().Str("result", string(src)).Msg("merging task result")
+			})
 		}

 		// Mirror task result and re-scan tasks that should run.
@ -184,7 +211,9 @@ func (r *Runner) taskFunc(flowVal cue.Value) (cueflow.Runner, error) {
 		// }

 		if err := t.Fill(result.Cue()); err != nil {
-			lg.Error().Err(err).Msg("failed to fill task")
+			taskLog(taskPath, &lg, handler, func(lg zerolog.Logger) {
+				lg.Error().Err(err).Msg("failed to fill task")
+			})
 			return err
 		}

--- a/plan/task/dockerfile.go
+++ b/plan/task/dockerfile.go
@ -22,13 +22,12 @@ import (
 )

 func init() {
-	Register("Dockerfile", func() Task { return &dockerfileTask{} })
+	Register("Dockerfile", func() Task { return &DockerfileTask{} })
 }

-type dockerfileTask struct {
-}
+type DockerfileTask struct{}

-func (t *dockerfileTask) Run(ctx context.Context, pctx *plancontext.Context, s *solver.Solver, v *compiler.Value) (*compiler.Value, error) {
+func (t *DockerfileTask) Run(ctx context.Context, pctx *plancontext.Context, s *solver.Solver, v *compiler.Value) (*compiler.Value, error) {
 	lg := log.Ctx(ctx)
 	auths, err := v.Lookup("auth").Fields()
 	if err != nil {
@ -76,7 +75,7 @@ func (t *dockerfileTask) Run(ctx context.Context, pctx *plancontext.Context, s *
 		}
 		dockerfileDef, err = s.Marshal(ctx,
 			llb.Scratch().File(
-				llb.Mkfile("/Dockerfile", 0644, []byte(contents)),
+				llb.Mkfile("/Dockerfile", 0o644, []byte(contents)),
 			),
 		)
 		if err != nil {
@ -139,7 +138,7 @@ func (t *dockerfileTask) Run(ctx context.Context, pctx *plancontext.Context, s *
 	})
 }

-func (t *dockerfileTask) dockerBuildOpts(v *compiler.Value, pctx *plancontext.Context) (map[string]string, error) {
+func (t *DockerfileTask) dockerBuildOpts(v *compiler.Value, pctx *plancontext.Context) (map[string]string, error) {
 	opts := map[string]string{}

 	if dockerfilePath := v.Lookup("dockerfile.path"); dockerfilePath.Exists() {
--- a/plan/task/task.go
+++ b/plan/task/task.go
@ -28,13 +28,36 @@ var (
 )

 // State is the state of the task.
-type State string
+type State int8
+
+func (s State) String() string {
+	return [...]string{"computing", "cancelled", "failed", "completed"}[s]
+}
+
+func ParseState(s string) (State, error) {
+	switch s {
+	case "computing":
+		return StateComputing, nil
+	case "cancelled":
+		return StateCanceled, nil
+	case "failed":
+		return StateFailed, nil
+	case "completed":
+		return StateCompleted, nil
+	}
+
+	return -1, fmt.Errorf("invalid state [%s]", s)
+}
+
+func (s State) CanTransition(t State) bool {
+	return s == StateComputing && s <= t
+}

 const (
-	StateComputing = State("computing")
-	StateCanceled  = State("canceled")
-	StateFailed    = State("failed")
-	StateCompleted = State("completed")
+	StateComputing State = iota
+	StateCanceled
+	StateFailed
+	StateCompleted
 )

 type NewFunc func() Task
--- a/plancontext/fs.go
+++ b/plancontext/fs.go
@ -12,12 +12,10 @@ import (
 	"go.dagger.io/dagger/pkg"
 )

-var (
-	fsIDPath = cue.MakePath(
-		cue.Str("$dagger"),
-		cue.Str("fs"),
-		cue.Hid("_id", pkg.DaggerPackage),
-	)
+var fsIDPath = cue.MakePath(
+	cue.Str("$dagger"),
+	cue.Str("fs"),
+	cue.Hid("_id", pkg.DaggerPackage),
 )

 func IsFSValue(v *compiler.Value) bool {
--- a/util/progressui/display.go
+++ b/util/progressui/display.go
@ -25,9 +25,11 @@ const (
 	defaultDisplayTimeout = 100 * time.Millisecond
 )

-type VertexPrintFunc func(v *client.Vertex, index int)
-type StatusPrintFunc func(v *client.Vertex, format string, a ...interface{})
-type LogPrintFunc func(v *client.Vertex, stream int, partial bool, format string, a ...interface{})
+type (
+	VertexPrintFunc func(v *client.Vertex, index int)
+	StatusPrintFunc func(v *client.Vertex, format string, a ...interface{})
+	LogPrintFunc    func(v *client.Vertex, stream int, partial bool, format string, a ...interface{})
+)

 func PrintSolveStatus(ctx context.Context, ch chan *client.SolveStatus, vertexPrintCb VertexPrintFunc, statusPrintCb StatusPrintFunc, logPrintCb LogPrintFunc) error {
 	printer := &textMux{
@ -148,8 +150,10 @@ func DisplaySolveStatus(ctx context.Context, phase string, c console.Console, w
 	}
 }

-const termHeight = 6
-const termPad = 10
+const (
+	termHeight = 6
+	termPad    = 10
+)

 type displayInfo struct {
 	startTime      time.Time
--- a/util/progressui/printer.go
+++ b/util/progressui/printer.go
@ -11,10 +11,12 @@ import (
 	"github.com/tonistiigi/units"
 )

-const antiFlicker = 5 * time.Second
-const maxDelay = 10 * time.Second
-const minTimeDelta = 5 * time.Second
-const minProgressDelta = 0.05 // %
+const (
+	antiFlicker      = 5 * time.Second
+	maxDelay         = 10 * time.Second
+	minTimeDelta     = 5 * time.Second
+	minProgressDelta = 0.05 // %
+)

 type lastStatus struct {
 	Current   int64