package runner import ( "bytes" "context" "fmt" "io" "os" "strings" "sync" "github.com/nektos/act/pkg/common" "github.com/sirupsen/logrus" "golang.org/x/term" ) const ( // nocolor = 0 red = 31 green = 32 yellow = 33 blue = 34 magenta = 35 cyan = 36 gray = 37 ) var colors []int var nextColor int var mux sync.Mutex func init() { nextColor = 0 colors = []int{ blue, yellow, green, magenta, red, gray, cyan, } } type masksContextKey string const masksContextKeyVal = masksContextKey("logrus.FieldLogger") // Logger returns the appropriate logger for current context func Masks(ctx context.Context) *[]string { val := ctx.Value(masksContextKeyVal) if val != nil { if masks, ok := val.(*[]string); ok { return masks } } return &[]string{} } // WithLogger adds a value to the context for the logger func WithMasks(ctx context.Context, masks *[]string) context.Context { return context.WithValue(ctx, masksContextKeyVal, masks) } type JobLoggerFactory interface { WithJobLogger() *logrus.Logger } type jobLoggerFactoryContextKey string var jobLoggerFactoryContextKeyVal = (jobLoggerFactoryContextKey)("jobloggerkey") func WithJobLoggerFactory(ctx context.Context, factory JobLoggerFactory) context.Context { return context.WithValue(ctx, jobLoggerFactoryContextKeyVal, factory) } // WithJobLogger attaches a new logger to context that is aware of steps func WithJobLogger(ctx context.Context, jobID string, jobName string, config *Config, masks *[]string, matrix map[string]interface{}) context.Context { ctx = WithMasks(ctx, masks) var logger *logrus.Logger if jobLoggerFactory, ok := ctx.Value(jobLoggerFactoryContextKeyVal).(JobLoggerFactory); ok && jobLoggerFactory != nil { logger = jobLoggerFactory.WithJobLogger() } else { var formatter logrus.Formatter if config.JSONLogger { formatter = &logrus.JSONFormatter{} } else { mux.Lock() defer mux.Unlock() nextColor++ formatter = &jobLogFormatter{ color: colors[nextColor%len(colors)], } } logger = logrus.New() logger.SetOutput(os.Stdout) logger.SetLevel(logrus.GetLevel()) logger.SetFormatter(formatter) } logger.SetFormatter(&maskedFormatter{ Formatter: logger.Formatter, masker: valueMasker(config.InsecureSecrets, config.Secrets), }) rtn := logger.WithFields(logrus.Fields{ "job": jobName, "jobID": jobID, "dryrun": common.Dryrun(ctx), "matrix": matrix, }).WithContext(ctx) return common.WithLogger(ctx, rtn) } func WithCompositeLogger(ctx context.Context, masks *[]string) context.Context { ctx = WithMasks(ctx, masks) return common.WithLogger(ctx, common.Logger(ctx).WithFields(logrus.Fields{}).WithContext(ctx)) } func WithCompositeStepLogger(ctx context.Context, stepID string) context.Context { val := common.Logger(ctx) stepIDs := make([]string, 0) if logger, ok := val.(*logrus.Entry); ok { if oldStepIDs, ok := logger.Data["stepID"].([]string); ok { stepIDs = append(stepIDs, oldStepIDs...) } } stepIDs = append(stepIDs, stepID) return common.WithLogger(ctx, common.Logger(ctx).WithFields(logrus.Fields{ "stepID": stepIDs, }).WithContext(ctx)) } func withStepLogger(ctx context.Context, stepID string, stepName string, stageName string) context.Context { rtn := common.Logger(ctx).WithFields(logrus.Fields{ "step": stepName, "stepID": []string{stepID}, "stage": stageName, }) return common.WithLogger(ctx, rtn) } type entryProcessor func(entry *logrus.Entry) *logrus.Entry func valueMasker(insecureSecrets bool, secrets map[string]string) entryProcessor { return func(entry *logrus.Entry) *logrus.Entry { if insecureSecrets { return entry } masks := Masks(entry.Context) for _, v := range secrets { if v != "" { entry.Message = strings.ReplaceAll(entry.Message, v, "***") } } for _, v := range *masks { if v != "" { entry.Message = strings.ReplaceAll(entry.Message, v, "***") } } return entry } } type maskedFormatter struct { logrus.Formatter masker entryProcessor } func (f *maskedFormatter) Format(entry *logrus.Entry) ([]byte, error) { return f.Formatter.Format(f.masker(entry)) } type jobLogFormatter struct { color int } func (f *jobLogFormatter) Format(entry *logrus.Entry) ([]byte, error) { b := &bytes.Buffer{} if f.isColored(entry) { f.printColored(b, entry) } else { f.print(b, entry) } b.WriteByte('\n') return b.Bytes(), nil } func (f *jobLogFormatter) printColored(b *bytes.Buffer, entry *logrus.Entry) { entry.Message = strings.TrimSuffix(entry.Message, "\n") jobName := entry.Data["job"] debugFlag := "" if entry.Level == logrus.DebugLevel { debugFlag = "[DEBUG] " } if entry.Data["raw_output"] == true { fmt.Fprintf(b, "\x1b[%dm|\x1b[0m %s", f.color, entry.Message) } else if entry.Data["dryrun"] == true { fmt.Fprintf(b, "\x1b[1m\x1b[%dm\x1b[7m*DRYRUN*\x1b[0m \x1b[%dm[%s] \x1b[0m%s%s", gray, f.color, jobName, debugFlag, entry.Message) } else { fmt.Fprintf(b, "\x1b[%dm[%s] \x1b[0m%s%s", f.color, jobName, debugFlag, entry.Message) } } func (f *jobLogFormatter) print(b *bytes.Buffer, entry *logrus.Entry) { entry.Message = strings.TrimSuffix(entry.Message, "\n") jobName := entry.Data["job"] debugFlag := "" if entry.Level == logrus.DebugLevel { debugFlag = "[DEBUG] " } if entry.Data["raw_output"] == true { fmt.Fprintf(b, "[%s] | %s", jobName, entry.Message) } else if entry.Data["dryrun"] == true { fmt.Fprintf(b, "*DRYRUN* [%s] %s%s", jobName, debugFlag, entry.Message) } else { fmt.Fprintf(b, "[%s] %s%s", jobName, debugFlag, entry.Message) } } func (f *jobLogFormatter) isColored(entry *logrus.Entry) bool { isColored := checkIfTerminal(entry.Logger.Out) if force, ok := os.LookupEnv("CLICOLOR_FORCE"); ok && force != "0" { isColored = true } else if ok && force == "0" { isColored = false } else if os.Getenv("CLICOLOR") == "0" { isColored = false } return isColored } func checkIfTerminal(w io.Writer) bool { switch v := w.(type) { case *os.File: return term.IsTerminal(int(v.Fd())) default: return false } }