package main import ( "bufio" "bytes" "fmt" "github.com/pkg/errors" "log" "os" "os/exec" "path/filepath" "regexp" "strings" "sync" "time" ) // GoCompile is used for compile a project func (p *Project) goCompile(stop <-chan bool, method []string, args []string) (string, error) { var out bytes.Buffer var stderr bytes.Buffer done := make(chan error) args = append(method, args...) cmd := exec.Command(args[0], args[1:]...) cmd.Dir = p.Path cmd.Stdout = &out cmd.Stderr = &stderr // Start command cmd.Start() go func() { done <- cmd.Wait() }() // Wait a result select { case <-stop: // Stop running command cmd.Process.Kill() return msgStop, nil case err := <-done: // Command completed if err != nil { return stderr.String(), err } return "", nil } return "", nil } // GoRun is an implementation of the bin execution func (p *Project) goRun(stop <-chan bool, runner chan bool) { var build *exec.Cmd var args []string // custom error pattern isErrorText := func(string) bool { return false } errRegexp, err := regexp.Compile(p.ErrorOutputPattern) if err != nil { msg := fmt.Sprintln(p.pname(p.Name, 3), ":", blue.regular(err.Error())) out := BufferOut{Time: time.Now(), Text: err.Error(), Type: "Go Run"} p.stamp("error", out, msg, "") } else { isErrorText = func(t string) bool { return errRegexp.MatchString(t) } } // add additional arguments for _, arg := range p.Args { a := strings.FieldsFunc(arg, func(i rune) bool { return i == '"' || i == '=' || i == '\'' }) args = append(args, a...) } gobin := os.Getenv("GOBIN") path := filepath.Join(gobin, p.name) if _, err := os.Stat(path); err == nil { build = exec.Command(path, args...) } else if _, err := os.Stat(path + extWindows); err == nil { build = exec.Command(path+extWindows, args...) } else { path := filepath.Join(p.Path, p.name) if _, err = os.Stat(path); err == nil { build = exec.Command(path, args...) } else if _, err = os.Stat(path + extWindows); err == nil { build = exec.Command(path+extWindows, args...) } else { p.err(errors.New("Build not found")) return } } defer func() { if err := build.Process.Kill(); err != nil { p.Buffer.StdLog = append(p.Buffer.StdLog, BufferOut{Time: time.Now(), Text: "Failed to stop: " + err.Error()}) p.fatal(err, "Failed to stop", ":") } msg := fmt.Sprintln(p.pname(p.Name, 2), ":", red.regular("Ended")) out := BufferOut{Time: time.Now(), Text: "Ended", Type: "Go Run"} p.stamp("log", out, msg, "") }() // scan project stream stdout, err := build.StdoutPipe() stderr, err := build.StderrPipe() if err != nil { log.Println(red.bold(err.Error())) return } if err := build.Start(); err != nil { log.Println(red.bold(err.Error())) return } close(runner) execOutput, execError := bufio.NewScanner(stdout), bufio.NewScanner(stderr) stopOutput, stopError := make(chan bool, 1), make(chan bool, 1) scanner := func(stop chan bool, output *bufio.Scanner, isError bool) { for output.Scan() { text := output.Text() msg := fmt.Sprintln(p.pname(p.Name, 3), ":", blue.regular(text)) if isError && !isErrorText(text) { out := BufferOut{Time: time.Now(), Text: text, Type: "Go Run"} p.stamp("error", out, msg, "") } else { out := BufferOut{Time: time.Now(), Text: text, Type: "Go Run"} p.stamp("out", out, msg, "") } } close(stop) } go scanner(stopOutput, execOutput, false) go scanner(stopError, execError, true) for { select { case <-stop: return case <-stopOutput: return case <-stopError: return } } } // Exec an additional command from a defined path if specified func (p *Project) command(stop <-chan bool, cmd Command) (string, string) { var stdout bytes.Buffer var stderr bytes.Buffer done := make(chan error) args := strings.Split(strings.Replace(strings.Replace(cmd.Command, "'", "", -1), "\"", "", -1), " ") ex := exec.Command(args[0], args[1:]...) ex.Dir = p.Path // make cmd path if cmd.Path != "" { if strings.Contains(cmd.Path, p.Path) { ex.Dir = cmd.Path } else { ex.Dir = filepath.Join(p.Path, cmd.Path) } } ex.Stdout = &stdout ex.Stderr = &stderr // Start command ex.Start() go func() { done <- ex.Wait() }() // Wait a result select { case <-stop: // Stop running command ex.Process.Kill() return "", "" case err := <-done: // Command completed if err != nil { return stderr.String(), stdout.String() } } return "", stdout.String() } // GoTool is used for run go tools methods such as fmt, test, generate and so on func (p *Project) goTool(wg *sync.WaitGroup, stop <-chan bool, result chan<- tool, path string, tool tool) { defer wg.Done() if tool.status { if tool.dir && filepath.Ext(path) != "" { path = filepath.Dir(path) } if strings.HasSuffix(path, ".go") || strings.HasSuffix(path, "") { if strings.HasSuffix(path, ".go") { tool.options = append(tool.options, path) path = p.Path } if s := ext(path); s == "" || s == "go" { var out, stderr bytes.Buffer done := make(chan error) tool.cmd = append(tool.cmd, tool.options...) cmd := exec.Command(tool.cmd[0], tool.cmd[1:]...) cmd.Dir = path cmd.Stdout = &out cmd.Stderr = &stderr // Start command cmd.Start() go func() { done <- cmd.Wait() }() // Wait a result select { case <-stop: // Stop running command cmd.Process.Kill() return case err := <-done: // Command completed if err != nil { tool.err = stderr.String() + out.String() // send command result result <- tool } else { tool.out = out.String() } return } } } } }