package main import ( "context" "errors" "fmt" "io" "io/ioutil" "log" "net/http" "os" "os/exec" "path/filepath" "runtime" "strings" "sync" "time" "github.com/distatus/battery" process "github.com/shirou/gopsutil/v3/process" ) const ( unknown = "unknown" windowsPlatform = "windows" darwinPlatform = "darwin" linuxPlatform = "linux" ) type commandError struct { err string exitCode int } func (e *commandError) Error() string { return e.err } type noBatteryError struct{} func (m *noBatteryError) Error() string { return "no battery" } type fileInfo struct { parentFolder string path string isDir bool } type cache interface { init(home string) close() get(key string) (string, bool) // ttl in minutes set(key, value string, ttl int) } type environmentInfo interface { getenv(key string) string getcwd() string homeDir() string hasFiles(pattern string) bool hasFilesInDir(dir, pattern string) bool hasFolder(folder string) bool getFileContent(file string) string getFoldersList(path string) []string getPathSeperator() string getCurrentUser() string isRunningAsRoot() bool getHostName() (string, error) getRuntimeGOOS() string getPlatform() string hasCommand(command string) bool runCommand(command string, args ...string) (string, error) runShellCommand(shell, command string) string lastErrorCode() int executionTime() float64 getArgs() *args getBatteryInfo() ([]*battery.Battery, error) getShellName() string getWindowTitle(imageName, windowTitleRegex string) (string, error) getWindowsRegistryKeyValue(regPath, regKey string) (string, error) doGet(url string, timeout int) ([]byte, error) hasParentFilePath(path string) (fileInfo *fileInfo, err error) isWsl() bool stackCount() int getTerminalWidth() (int, error) getCachePath() string cache() cache close() logs() string } type commandCache struct { commands *concurrentMap } func (c *commandCache) set(command, path string) { c.commands.set(command, path) } func (c *commandCache) get(command string) (string, bool) { cmd, found := c.commands.get(command) if !found { return "", false } command, ok := cmd.(string) return command, ok } type logType string const ( Error logType = "error" Debug logType = "debug" ) type environment struct { args *args cwd string cmdCache *commandCache fileCache *fileCache logBuilder strings.Builder debug bool } func (env *environment) init(args *args) { env.args = args env.cmdCache = &commandCache{ commands: newConcurrentMap(), } if env.args != nil && *env.args.Debug { env.debug = true log.SetOutput(&env.logBuilder) } env.fileCache = &fileCache{} env.fileCache.init(env.getCachePath()) } func (env *environment) trace(start time.Time, function string, args ...string) { if !env.debug { return } elapsed := time.Since(start) trace := fmt.Sprintf("%s duration: %s, args: %s", function, elapsed, strings.Trim(fmt.Sprint(args), "[]")) log.Println(trace) } func (env *environment) log(lt logType, function, message string) { if !env.debug { return } trace := fmt.Sprintf("%s: %s\n%s", lt, function, message) log.Println(trace) } func (env *environment) getenv(key string) string { defer env.trace(time.Now(), "getenv", key) val := os.Getenv(key) env.log(Debug, "getenv", val) return val } func (env *environment) getcwd() string { defer env.trace(time.Now(), "getcwd") if env.cwd != "" { return env.cwd } correctPath := func(pwd string) string { // on Windows, and being case sensitive and not consistent and all, this gives silly issues driveLetter := getCompiledRegex(`^[a-z]:`) return driveLetter.ReplaceAllStringFunc(pwd, strings.ToUpper) } if env.args != nil && *env.args.PWD != "" { env.cwd = correctPath(*env.args.PWD) return env.cwd } dir, err := os.Getwd() if err != nil { env.log(Error, "getcwd", err.Error()) return "" } env.cwd = correctPath(dir) return env.cwd } func (env *environment) hasFiles(pattern string) bool { defer env.trace(time.Now(), "hasFiles", pattern) cwd := env.getcwd() pattern = cwd + env.getPathSeperator() + pattern matches, err := filepath.Glob(pattern) if err != nil { env.log(Error, "hasFiles", err.Error()) return false } return len(matches) > 0 } func (env *environment) hasFilesInDir(dir, pattern string) bool { defer env.trace(time.Now(), "hasFilesInDir", pattern) pattern = dir + env.getPathSeperator() + pattern matches, err := filepath.Glob(pattern) if err != nil { env.log(Error, "hasFilesInDir", err.Error()) return false } return len(matches) > 0 } func (env *environment) hasFolder(folder string) bool { defer env.trace(time.Now(), "hasFolder", folder) _, err := os.Stat(folder) return !os.IsNotExist(err) } func (env *environment) getFileContent(file string) string { defer env.trace(time.Now(), "getFileContent", file) content, err := ioutil.ReadFile(file) if err != nil { env.log(Error, "getFileContent", err.Error()) return "" } return string(content) } func (env *environment) getFoldersList(path string) []string { defer env.trace(time.Now(), "getFoldersList", path) content, err := os.ReadDir(path) if err != nil { env.log(Error, "getFoldersList", err.Error()) return nil } var folderNames []string for _, s := range content { if s.IsDir() { folderNames = append(folderNames, s.Name()) } } return folderNames } func (env *environment) getPathSeperator() string { defer env.trace(time.Now(), "getPathSeperator") return string(os.PathSeparator) } func (env *environment) getCurrentUser() string { defer env.trace(time.Now(), "getCurrentUser") user := os.Getenv("USER") if user == "" { user = os.Getenv("USERNAME") } return user } func (env *environment) getHostName() (string, error) { defer env.trace(time.Now(), "getHostName") hostName, err := os.Hostname() if err != nil { env.log(Error, "getHostName", err.Error()) return "", err } return cleanHostName(hostName), nil } func (env *environment) getRuntimeGOOS() string { defer env.trace(time.Now(), "getRuntimeGOOS") return runtime.GOOS } func (env *environment) runCommand(command string, args ...string) (string, error) { defer env.trace(time.Now(), "runCommand", append([]string{command}, args...)...) if cmd, ok := env.cmdCache.get(command); ok { command = cmd } copyAndCapture := func(r io.Reader) ([]byte, error) { var out []byte buf := make([]byte, 1024) for { n, err := r.Read(buf) if n > 0 { d := buf[:n] out = append(out, d...) } if err == nil { continue } // Read returns io.EOF at the end of file, which is not an error for us if err == io.EOF { err = nil } return out, err } } normalizeOutput := func(out []byte) string { return strings.TrimSuffix(string(out), "\n") } cmd := exec.Command(command, args...) var stdout, stderr []byte var stdoutErr, stderrErr error stdoutIn, _ := cmd.StdoutPipe() stderrIn, _ := cmd.StderrPipe() err := cmd.Start() if err != nil { errorStr := fmt.Sprintf("cmd.Start() failed with '%s'", err) env.log(Error, "runCommand", errorStr) return "", errors.New(errorStr) } // cmd.Wait() should be called only after we finish reading // from stdoutIn and stderrIn. // wg ensures that we finish var wg sync.WaitGroup wg.Add(1) go func() { stdout, stdoutErr = copyAndCapture(stdoutIn) wg.Done() }() stderr, stderrErr = copyAndCapture(stderrIn) wg.Wait() err = cmd.Wait() if err != nil { env.log(Error, "runCommand", err.Error()) if exitErr, ok := err.(*exec.ExitError); ok { return "", &commandError{ err: exitErr.Error(), exitCode: exitErr.ExitCode(), } } } if stdoutErr != nil || stderrErr != nil { errString := "failed to capture stdout or stderr" env.log(Error, "runCommand", errString) return "", errors.New(errString) } stderrStr := normalizeOutput(stderr) if len(stderrStr) > 0 { return stderrStr, nil } output := normalizeOutput(stdout) env.log(Debug, "runCommand", output) return output, nil } func (env *environment) runShellCommand(shell, command string) string { defer env.trace(time.Now(), "runShellCommand", shell, command) out, _ := env.runCommand(shell, "-c", command) return out } func (env *environment) hasCommand(command string) bool { defer env.trace(time.Now(), "hasCommand", command) if _, ok := env.cmdCache.get(command); ok { return true } path, err := exec.LookPath(command) if err == nil { env.cmdCache.set(command, path) return true } env.log(Error, "hasCommand", err.Error()) return false } func (env *environment) lastErrorCode() int { defer env.trace(time.Now(), "lastErrorCode") return *env.args.ErrorCode } func (env *environment) executionTime() float64 { defer env.trace(time.Now(), "executionTime") if *env.args.ExecutionTime < 0 { return 0 } return *env.args.ExecutionTime } func (env *environment) getArgs() *args { defer env.trace(time.Now(), "getArgs") return env.args } func (env *environment) getBatteryInfo() ([]*battery.Battery, error) { defer env.trace(time.Now(), "getBatteryInfo") batteries, err := battery.GetAll() // actual error, return it if err != nil && len(batteries) == 0 { env.log(Error, "getBatteryInfo", err.Error()) return nil, err } // there are no batteries found if len(batteries) == 0 { return nil, &noBatteryError{} } // some batteries fail to get retrieved, filter them out if present validBatteries := []*battery.Battery{} for _, batt := range batteries { if batt != nil { validBatteries = append(validBatteries, batt) } } unableToRetrieveBatteryInfo := "A device which does not exist was specified." // when battery info fails to get retrieved but there is at least one valid battery, return it without error if len(validBatteries) > 0 && err != nil && strings.Contains(err.Error(), unableToRetrieveBatteryInfo) { return validBatteries, nil } // another error occurred (possibly unmapped use-case), return it if err != nil { env.log(Error, "getBatteryInfo", err.Error()) return nil, err } // everything is fine return validBatteries, nil } func (env *environment) getShellName() string { defer env.trace(time.Now(), "getShellName") if *env.args.Shell != "" { return *env.args.Shell } pid := os.Getppid() p, _ := process.NewProcess(int32(pid)) name, err := p.Name() if err != nil { env.log(Error, "getShellName", err.Error()) return unknown } if name == "cmd.exe" { p, _ = p.Parent() name, err = p.Name() } if err != nil { env.log(Error, "getShellName", err.Error()) return unknown } // Cache the shell value to speed things up. *env.args.Shell = strings.Trim(strings.Replace(name, ".exe", "", 1), " ") return *env.args.Shell } func (env *environment) doGet(url string, timeout int) ([]byte, error) { defer env.trace(time.Now(), "doGet", url) ctx, cncl := context.WithTimeout(context.Background(), time.Millisecond*time.Duration(timeout)) defer cncl() request, err := http.NewRequestWithContext(ctx, http.MethodGet, url, nil) if err != nil { return nil, err } response, err := client.Do(request) if err != nil { env.log(Error, "doGet", err.Error()) return nil, err } defer response.Body.Close() body, err := ioutil.ReadAll(response.Body) if err != nil { env.log(Error, "doGet", err.Error()) return nil, err } return body, nil } func (env *environment) hasParentFilePath(path string) (*fileInfo, error) { defer env.trace(time.Now(), "hasParentFilePath", path) currentFolder := env.getcwd() for { searchPath := filepath.Join(currentFolder, path) info, err := os.Stat(searchPath) if err == nil { return &fileInfo{ parentFolder: currentFolder, path: searchPath, isDir: info.IsDir(), }, nil } if !os.IsNotExist(err) { return nil, err } if dir := filepath.Dir(currentFolder); dir != currentFolder { currentFolder = dir continue } env.log(Error, "hasParentFilePath", err.Error()) return nil, errors.New("no match at root level") } } func (env *environment) stackCount() int { defer env.trace(time.Now(), "stackCount") if *env.args.StackCount < 0 { return 0 } return *env.args.StackCount } func (env *environment) cache() cache { return env.fileCache } func (env *environment) close() { env.fileCache.close() } func (env *environment) logs() string { return env.logBuilder.String() } func cleanHostName(hostName string) string { garbage := []string{ ".lan", ".local", ".localdomain", } for _, g := range garbage { if strings.HasSuffix(hostName, g) { hostName = strings.Replace(hostName, g, "", 1) } } return hostName } func returnOrBuildCachePath(path string) string { // validate root path if _, err := os.Stat(path); err != nil { return "" } // validate oh-my-posh folder, if non existent, create it cachePath := path + "/oh-my-posh" if _, err := os.Stat(cachePath); err == nil { return cachePath } if err := os.Mkdir(cachePath, 0755); err != nil { return "" } return cachePath }