package task import ( "context" "errors" "fmt" "io" "os" "strconv" "sync" "sync/atomic" "github.com/go-task/task/v2/internal/compiler" compilerv1 "github.com/go-task/task/v2/internal/compiler/v1" compilerv2 "github.com/go-task/task/v2/internal/compiler/v2" "github.com/go-task/task/v2/internal/execext" "github.com/go-task/task/v2/internal/logger" "github.com/go-task/task/v2/internal/output" "github.com/go-task/task/v2/internal/summary" "github.com/go-task/task/v2/internal/taskfile" "github.com/go-task/task/v2/internal/taskfile/read" "golang.org/x/sync/errgroup" ) const ( // MaximumTaskCall is the max number of times a task can be called. // This exists to prevent infinite loops on cyclic dependencies MaximumTaskCall = 100 ) // Executor executes a Taskfile type Executor struct { Taskfile *taskfile.Taskfile Dir string Force bool Watch bool Verbose bool Silent bool Dry bool Summary bool Stdin io.Reader Stdout io.Writer Stderr io.Writer Logger *logger.Logger Compiler compiler.Compiler Output output.Output OutputStyle string taskvars taskfile.Vars taskCallCount map[string]*int32 mkdirMutexMap map[string]*sync.Mutex } // Run runs Task func (e *Executor) Run(ctx context.Context, calls ...taskfile.Call) error { // check if given tasks exist for _, c := range calls { if _, ok := e.Taskfile.Tasks[c.Task]; !ok { // FIXME: move to the main package e.PrintTasksHelp() return &taskNotFoundError{taskName: c.Task} } } if e.Summary { summary.PrintTasks(e.Logger, e.Taskfile, calls) return nil } if e.Watch { return e.watchTasks(calls...) } for _, c := range calls { if err := e.RunTask(ctx, c); err != nil { return err } } return nil } // Setup setups Executor's internal state func (e *Executor) Setup() error { var err error e.Taskfile, err = read.Taskfile(e.Dir) if err != nil { return err } e.taskvars, err = read.Taskvars(e.Dir) if err != nil { return err } if e.Stdin == nil { e.Stdin = os.Stdin } if e.Stdout == nil { e.Stdout = os.Stdout } if e.Stderr == nil { e.Stderr = os.Stderr } e.Logger = &logger.Logger{ Stdout: e.Stdout, Stderr: e.Stderr, Verbose: e.Verbose, } v, err := strconv.ParseFloat(e.Taskfile.Version, 64) if err != nil { return fmt.Errorf(`task: Could not parse taskfile version "%s": %v`, e.Taskfile.Version, err) } // consider as equal to the greater version if round if v == 2.0 { v = 2.6 } if v < 1 { return fmt.Errorf(`task: Taskfile version should be greater or equal to v1`) } if v > 2.6 { return fmt.Errorf(`task: Taskfile versions greater than v2.6 not implemented in the version of Task`) } if v < 2 { e.Compiler = &compilerv1.CompilerV1{ Dir: e.Dir, Vars: e.taskvars, Logger: e.Logger, } } else { // v >= 2 e.Compiler = &compilerv2.CompilerV2{ Dir: e.Dir, Taskvars: e.taskvars, TaskfileVars: e.Taskfile.Vars, Expansions: e.Taskfile.Expansions, Logger: e.Logger, } } if v < 2.1 && e.Taskfile.Output != "" { return fmt.Errorf(`task: Taskfile option "output" is only available starting on Taskfile version v2.1`) } if v < 2.2 && len(e.Taskfile.Includes) > 0 { return fmt.Errorf(`task: Including Taskfiles is only available starting on Taskfile version v2.2`) } if e.OutputStyle != "" { e.Taskfile.Output = e.OutputStyle } switch e.Taskfile.Output { case "", "interleaved": e.Output = output.Interleaved{} case "group": e.Output = output.Group{} case "prefixed": e.Output = output.Prefixed{} default: return fmt.Errorf(`task: output option "%s" not recognized`, e.Taskfile.Output) } if v <= 2.1 { err := errors.New(`task: Taskfile option "ignore_error" is only available starting on Taskfile version v2.1`) for _, task := range e.Taskfile.Tasks { if task.IgnoreError { return err } for _, cmd := range task.Cmds { if cmd.IgnoreError { return err } } } } if v < 2.6 { for _, task := range e.Taskfile.Tasks { if len(task.Preconditions) > 0 { return errors.New(`task: Task option "preconditions" is only available starting on Taskfile version v2.6`) } } } e.taskCallCount = make(map[string]*int32, len(e.Taskfile.Tasks)) e.mkdirMutexMap = make(map[string]*sync.Mutex, len(e.Taskfile.Tasks)) for k := range e.Taskfile.Tasks { e.taskCallCount[k] = new(int32) e.mkdirMutexMap[k] = &sync.Mutex{} } return nil } // RunTask runs a task by its name func (e *Executor) RunTask(ctx context.Context, call taskfile.Call) error { t, err := e.CompiledTask(call) if err != nil { return err } if !e.Watch && atomic.AddInt32(e.taskCallCount[call.Task], 1) >= MaximumTaskCall { return &MaximumTaskCallExceededError{task: call.Task} } if err := e.runDeps(ctx, t); err != nil { return err } if !e.Force { preCondMet, err := e.areTaskPreconditionsMet(ctx, t) if err != nil { return err } upToDate, err := e.isTaskUpToDate(ctx, t) if err != nil { return err } if upToDate && preCondMet { if !e.Silent { e.Logger.Errf(`task: Task "%s" is up to date`, t.Task) } return nil } } if err := e.mkdir(t); err != nil { e.Logger.Errf("task: cannot make directory %q: %v", t.Dir, err) } for i := range t.Cmds { if err := e.runCommand(ctx, t, call, i); err != nil { if err2 := e.statusOnError(t); err2 != nil { e.Logger.VerboseErrf("task: error cleaning status on error: %v", err2) } if execext.IsExitError(err) && t.IgnoreError { e.Logger.VerboseErrf("task: task error ignored: %v", err) continue } return &taskRunError{t.Task, err} } } return nil } func (e *Executor) mkdir(t *taskfile.Task) error { if t.Dir == "" { return nil } mutex := e.mkdirMutexMap[t.Task] mutex.Lock() defer mutex.Unlock() if _, err := os.Stat(t.Dir); os.IsNotExist(err) { if err := os.MkdirAll(t.Dir, 0755); err != nil { return err } } return nil } func (e *Executor) runDeps(ctx context.Context, t *taskfile.Task) error { g, ctx := errgroup.WithContext(ctx) for _, d := range t.Deps { d := d g.Go(func() error { err := e.RunTask(ctx, taskfile.Call{Task: d.Task, Vars: d.Vars}) if err != nil { return err } return nil }) } return g.Wait() } func (e *Executor) runCommand(ctx context.Context, t *taskfile.Task, call taskfile.Call, i int) error { cmd := t.Cmds[i] switch { case cmd.Task != "": err := e.RunTask(ctx, taskfile.Call{Task: cmd.Task, Vars: cmd.Vars}) if err != nil { return err } return nil case cmd.Cmd != "": if e.Verbose || (!cmd.Silent && !t.Silent && !e.Silent) { e.Logger.Errf(cmd.Cmd) } if e.Dry { return nil } stdOut := e.Output.WrapWriter(e.Stdout, t.Prefix) stdErr := e.Output.WrapWriter(e.Stderr, t.Prefix) defer func() { if _, ok := stdOut.(*os.File); !ok { if closer, ok := stdOut.(io.Closer); ok { closer.Close() } } if _, ok := stdErr.(*os.File); !ok { if closer, ok := stdErr.(io.Closer); ok { closer.Close() } } }() err := execext.RunCommand(ctx, &execext.RunCommandOptions{ Command: cmd.Cmd, Dir: t.Dir, Env: getEnviron(t), Stdin: e.Stdin, Stdout: stdOut, Stderr: stdErr, }) if execext.IsExitError(err) && cmd.IgnoreError { e.Logger.VerboseErrf("task: command error ignored: %v", err) return nil } return err default: return nil } } func getEnviron(t *taskfile.Task) []string { if t.Env == nil { return nil } environ := os.Environ() for k, v := range t.Env.ToStringMap() { environ = append(environ, fmt.Sprintf("%s=%s", k, v)) } return environ }