util.go 11 KB

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  1. package util
  2. import (
  3. "bytes"
  4. "encoding/base64"
  5. "encoding/json"
  6. "errors"
  7. "fmt"
  8. "io"
  9. "math"
  10. "math/rand"
  11. "net/netip"
  12. "os"
  13. "regexp"
  14. "strconv"
  15. "strings"
  16. "sync"
  17. "time"
  18. "golang.org/x/time/rate"
  19. "github.com/gabriel-vasile/mimetype"
  20. "golang.org/x/term"
  21. )
  22. const (
  23. randomStringCharset = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"
  24. randomStringLowerCaseCharset = "abcdefghijklmnopqrstuvwxyz0123456789"
  25. )
  26. var (
  27. random = rand.New(rand.NewSource(time.Now().UnixNano()))
  28. randomMutex = sync.Mutex{}
  29. sizeStrRegex = regexp.MustCompile(`(?i)^(\d+)([gmkb])?$`)
  30. errInvalidPriority = errors.New("invalid priority")
  31. noQuotesRegex = regexp.MustCompile(`^[-_./:@a-zA-Z0-9]+$`)
  32. )
  33. // Errors for UnmarshalJSON and UnmarshalJSONWithLimit functions
  34. var (
  35. ErrUnmarshalJSON = errors.New("unmarshalling JSON failed")
  36. ErrTooLargeJSON = errors.New("too large JSON")
  37. )
  38. // FileExists checks if a file exists, and returns true if it does
  39. func FileExists(filename string) bool {
  40. stat, _ := os.Stat(filename)
  41. return stat != nil
  42. }
  43. // Contains returns true if needle is contained in haystack
  44. func Contains[T comparable](haystack []T, needle T) bool {
  45. for _, s := range haystack {
  46. if s == needle {
  47. return true
  48. }
  49. }
  50. return false
  51. }
  52. // ContainsIP returns true if any one of the of prefixes contains the ip.
  53. func ContainsIP(haystack []netip.Prefix, needle netip.Addr) bool {
  54. for _, s := range haystack {
  55. if s.Contains(needle) {
  56. return true
  57. }
  58. }
  59. return false
  60. }
  61. // ContainsAll returns true if all needles are contained in haystack
  62. func ContainsAll[T comparable](haystack []T, needles []T) bool {
  63. for _, needle := range needles {
  64. if !Contains(haystack, needle) {
  65. return false
  66. }
  67. }
  68. return true
  69. }
  70. // SplitNoEmpty splits a string using strings.Split, but filters out empty strings
  71. func SplitNoEmpty(s string, sep string) []string {
  72. res := make([]string, 0)
  73. for _, r := range strings.Split(s, sep) {
  74. if r != "" {
  75. res = append(res, r)
  76. }
  77. }
  78. return res
  79. }
  80. // SplitKV splits a string into a key/value pair using a separator, and trimming space. If the separator
  81. // is not found, key is empty.
  82. func SplitKV(s string, sep string) (key string, value string) {
  83. kv := strings.SplitN(strings.TrimSpace(s), sep, 2)
  84. if len(kv) == 2 {
  85. return strings.TrimSpace(kv[0]), strings.TrimSpace(kv[1])
  86. }
  87. return "", strings.TrimSpace(kv[0])
  88. }
  89. // LastString returns the last string in a slice, or def if s is empty
  90. func LastString(s []string, def string) string {
  91. if len(s) == 0 {
  92. return def
  93. }
  94. return s[len(s)-1]
  95. }
  96. // RandomString returns a random string with a given length
  97. func RandomString(length int) string {
  98. return RandomStringPrefix("", length)
  99. }
  100. // RandomStringPrefix returns a random string with a given length, with a prefix
  101. func RandomStringPrefix(prefix string, length int) string {
  102. return randomStringPrefixWithCharset(prefix, length, randomStringCharset)
  103. }
  104. // RandomLowerStringPrefix returns a random lowercase-only string with a given length, with a prefix
  105. func RandomLowerStringPrefix(prefix string, length int) string {
  106. return randomStringPrefixWithCharset(prefix, length, randomStringLowerCaseCharset)
  107. }
  108. func randomStringPrefixWithCharset(prefix string, length int, charset string) string {
  109. randomMutex.Lock() // Who would have thought that random.Intn() is not thread-safe?!
  110. defer randomMutex.Unlock()
  111. b := make([]byte, length-len(prefix))
  112. for i := range b {
  113. b[i] = charset[random.Intn(len(charset))]
  114. }
  115. return prefix + string(b)
  116. }
  117. // ValidRandomString returns true if the given string matches the format created by RandomString
  118. func ValidRandomString(s string, length int) bool {
  119. if len(s) != length {
  120. return false
  121. }
  122. for _, c := range strings.Split(s, "") {
  123. if !strings.Contains(randomStringCharset, c) {
  124. return false
  125. }
  126. }
  127. return true
  128. }
  129. // ParsePriority parses a priority string into its equivalent integer value
  130. func ParsePriority(priority string) (int, error) {
  131. p := strings.TrimSpace(strings.ToLower(priority))
  132. switch p {
  133. case "":
  134. return 0, nil
  135. case "1", "min":
  136. return 1, nil
  137. case "2", "low":
  138. return 2, nil
  139. case "3", "default":
  140. return 3, nil
  141. case "4", "high":
  142. return 4, nil
  143. case "5", "max", "urgent":
  144. return 5, nil
  145. default:
  146. return 0, errInvalidPriority
  147. }
  148. }
  149. // PriorityString converts a priority number to a string
  150. func PriorityString(priority int) (string, error) {
  151. switch priority {
  152. case 0:
  153. return "default", nil
  154. case 1:
  155. return "min", nil
  156. case 2:
  157. return "low", nil
  158. case 3:
  159. return "default", nil
  160. case 4:
  161. return "high", nil
  162. case 5:
  163. return "max", nil
  164. default:
  165. return "", errInvalidPriority
  166. }
  167. }
  168. // ShortTopicURL shortens the topic URL to be human-friendly, removing the http:// or https://
  169. func ShortTopicURL(s string) string {
  170. return strings.TrimPrefix(strings.TrimPrefix(s, "https://"), "http://")
  171. }
  172. // DetectContentType probes the byte array b and returns mime type and file extension.
  173. // The filename is only used to override certain special cases.
  174. func DetectContentType(b []byte, filename string) (mimeType string, ext string) {
  175. if strings.HasSuffix(strings.ToLower(filename), ".apk") {
  176. return "application/vnd.android.package-archive", ".apk"
  177. }
  178. m := mimetype.Detect(b)
  179. mimeType, ext = m.String(), m.Extension()
  180. if ext == "" {
  181. ext = ".bin"
  182. }
  183. return
  184. }
  185. // ParseSize parses a size string like 2K or 2M into bytes. If no unit is found, e.g. 123, bytes is assumed.
  186. func ParseSize(s string) (int64, error) {
  187. matches := sizeStrRegex.FindStringSubmatch(s)
  188. if matches == nil {
  189. return -1, fmt.Errorf("invalid size %s", s)
  190. }
  191. value, err := strconv.Atoi(matches[1])
  192. if err != nil {
  193. return -1, fmt.Errorf("cannot convert number %s", matches[1])
  194. }
  195. switch strings.ToUpper(matches[2]) {
  196. case "T":
  197. return int64(value) * 1024 * 1024 * 1024 * 1024, nil
  198. case "G":
  199. return int64(value) * 1024 * 1024 * 1024, nil
  200. case "M":
  201. return int64(value) * 1024 * 1024, nil
  202. case "K":
  203. return int64(value) * 1024, nil
  204. default:
  205. return int64(value), nil
  206. }
  207. }
  208. // FormatSize formats the size in a way that it can be parsed by ParseSize.
  209. // It does not include decimal places. Uneven sizes are rounded down.
  210. func FormatSize(b int64) string {
  211. const unit = 1024
  212. if b < unit {
  213. return fmt.Sprintf("%d", b)
  214. }
  215. div, exp := int64(unit), 0
  216. for n := b / unit; n >= unit; n /= unit {
  217. div *= unit
  218. exp++
  219. }
  220. return fmt.Sprintf("%d%c", int(math.Floor(float64(b)/float64(div))), "KMGT"[exp])
  221. }
  222. // FormatSizeHuman formats bytes into a human-readable notation, e.g. 2.1 MB
  223. func FormatSizeHuman(b int64) string {
  224. const unit = 1024
  225. if b < unit {
  226. return fmt.Sprintf("%d bytes", b)
  227. }
  228. div, exp := int64(unit), 0
  229. for n := b / unit; n >= unit; n /= unit {
  230. div *= unit
  231. exp++
  232. }
  233. return fmt.Sprintf("%.1f %cB", float64(b)/float64(div), "KMGT"[exp])
  234. }
  235. // ReadPassword will read a password from STDIN. If the terminal supports it, it will not print the
  236. // input characters to the screen. If not, it'll just read using normal readline semantics (useful for testing).
  237. func ReadPassword(in io.Reader) ([]byte, error) {
  238. // If in is a file and a character device (a TTY), use term.ReadPassword
  239. if f, ok := in.(*os.File); ok {
  240. stat, err := f.Stat()
  241. if err != nil {
  242. return nil, err
  243. }
  244. if (stat.Mode() & os.ModeCharDevice) == os.ModeCharDevice {
  245. password, err := term.ReadPassword(int(f.Fd())) // This is always going to be 0
  246. if err != nil {
  247. return nil, err
  248. } else if len(password) == 0 {
  249. return nil, errors.New("password cannot be empty")
  250. }
  251. return password, nil
  252. }
  253. }
  254. // Fallback: Manually read util \n if found, see #69 for details why this is so manual
  255. password := make([]byte, 0)
  256. buf := make([]byte, 1)
  257. for {
  258. _, err := in.Read(buf)
  259. if err == io.EOF || buf[0] == '\n' {
  260. break
  261. } else if err != nil {
  262. return nil, err
  263. } else if len(password) > 10240 {
  264. return nil, errors.New("passwords this long are not supported")
  265. }
  266. password = append(password, buf[0])
  267. }
  268. if len(password) == 0 {
  269. return nil, errors.New("password cannot be empty")
  270. }
  271. return password, nil
  272. }
  273. // BasicAuth encodes the Authorization header value for basic auth
  274. func BasicAuth(user, pass string) string {
  275. return fmt.Sprintf("Basic %s", base64.StdEncoding.EncodeToString([]byte(fmt.Sprintf("%s:%s", user, pass))))
  276. }
  277. // BearerAuth encodes the Authorization header value for a bearer/token auth
  278. func BearerAuth(token string) string {
  279. return fmt.Sprintf("Bearer %s", token)
  280. }
  281. // MaybeMarshalJSON returns a JSON string of the given object, or "<cannot serialize>" if serialization failed.
  282. // This is useful for logging purposes where a failure doesn't matter that much.
  283. func MaybeMarshalJSON(v any) string {
  284. jsonBytes, err := json.MarshalIndent(v, "", " ")
  285. if err != nil {
  286. return "<cannot serialize>"
  287. }
  288. if len(jsonBytes) > 5000 {
  289. return string(jsonBytes)[:5000]
  290. }
  291. return string(jsonBytes)
  292. }
  293. // QuoteCommand combines a command array to a string, quoting arguments that need quoting.
  294. // This function is naive, and sometimes wrong. It is only meant for lo pretty-printing a command.
  295. //
  296. // Warning: Never use this function with the intent to run the resulting command.
  297. //
  298. // Example:
  299. //
  300. // []string{"ls", "-al", "Document Folder"} -> ls -al "Document Folder"
  301. func QuoteCommand(command []string) string {
  302. var quoted []string
  303. for _, c := range command {
  304. if noQuotesRegex.MatchString(c) {
  305. quoted = append(quoted, c)
  306. } else {
  307. quoted = append(quoted, fmt.Sprintf(`"%s"`, c))
  308. }
  309. }
  310. return strings.Join(quoted, " ")
  311. }
  312. // UnmarshalJSON reads the given io.ReadCloser into a struct
  313. func UnmarshalJSON[T any](body io.ReadCloser) (*T, error) {
  314. var obj T
  315. if err := json.NewDecoder(body).Decode(&obj); err != nil {
  316. return nil, ErrUnmarshalJSON
  317. }
  318. return &obj, nil
  319. }
  320. // UnmarshalJSONWithLimit reads the given io.ReadCloser into a struct, but only until limit is reached
  321. func UnmarshalJSONWithLimit[T any](r io.ReadCloser, limit int, allowEmpty bool) (*T, error) {
  322. defer r.Close()
  323. p, err := Peek(r, limit)
  324. if err != nil {
  325. return nil, err
  326. } else if p.LimitReached {
  327. return nil, ErrTooLargeJSON
  328. }
  329. var obj T
  330. if len(bytes.TrimSpace(p.PeekedBytes)) == 0 && allowEmpty {
  331. return &obj, nil
  332. } else if err := json.NewDecoder(p).Decode(&obj); err != nil {
  333. return nil, ErrUnmarshalJSON
  334. }
  335. return &obj, nil
  336. }
  337. // Retry executes function f until if succeeds, and then returns t. If f fails, it sleeps
  338. // and tries again. The sleep durations are passed as the after params.
  339. func Retry[T any](f func() (*T, error), after ...time.Duration) (t *T, err error) {
  340. for _, delay := range after {
  341. if t, err = f(); err == nil {
  342. return t, nil
  343. }
  344. time.Sleep(delay)
  345. }
  346. return nil, err
  347. }
  348. // MinMax returns value if it is between min and max, or either
  349. // min or max if it is out of range
  350. func MinMax[T int | int64](value, min, max T) T {
  351. if value < min {
  352. return min
  353. } else if value > max {
  354. return max
  355. }
  356. return value
  357. }
  358. // Max returns the maximum value of the two given values
  359. func Max[T int | int64 | rate.Limit](a, b T) T {
  360. if a > b {
  361. return a
  362. }
  363. return b
  364. }
  365. // String turns a string into a pointer of a string
  366. func String(v string) *string {
  367. return &v
  368. }
  369. // Int turns an int into a pointer of an int
  370. func Int(v int) *int {
  371. return &v
  372. }
  373. // Time turns a time.Time into a pointer
  374. func Time(v time.Time) *time.Time {
  375. return &v
  376. }