package fasthttp import ( "bytes" "errors" "io" "sync" "time" ) var zeroTime time.Time var ( // CookieExpireDelete may be set on Cookie.Expire for expiring the given cookie. CookieExpireDelete = time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC) // CookieExpireUnlimited indicates that the cookie doesn't expire. CookieExpireUnlimited = zeroTime ) // CookieSameSite is an enum for the mode in which the SameSite flag should be set for the given cookie. // See https://tools.ietf.org/html/draft-ietf-httpbis-cookie-same-site-00 for details. type CookieSameSite int const ( // CookieSameSiteDisabled removes the SameSite flag CookieSameSiteDisabled CookieSameSite = iota // CookieSameSiteDefaultMode sets the SameSite flag CookieSameSiteDefaultMode // CookieSameSiteLaxMode sets the SameSite flag with the "Lax" parameter CookieSameSiteLaxMode // CookieSameSiteStrictMode sets the SameSite flag with the "Strict" parameter CookieSameSiteStrictMode // CookieSameSiteNoneMode sets the SameSite flag with the "None" parameter // see https://tools.ietf.org/html/draft-west-cookie-incrementalism-00 CookieSameSiteNoneMode ) // AcquireCookie returns an empty Cookie object from the pool. // // The returned object may be returned back to the pool with ReleaseCookie. // This allows reducing GC load. func AcquireCookie() *Cookie { return cookiePool.Get().(*Cookie) } // ReleaseCookie returns the Cookie object acquired with AcquireCookie back // to the pool. // // Do not access released Cookie object, otherwise data races may occur. func ReleaseCookie(c *Cookie) { c.Reset() cookiePool.Put(c) } var cookiePool = &sync.Pool{ New: func() interface{} { return &Cookie{} }, } // Cookie represents HTTP response cookie. // // Do not copy Cookie objects. Create new object and use CopyTo instead. // // Cookie instance MUST NOT be used from concurrently running goroutines. type Cookie struct { noCopy noCopy //nolint:unused,structcheck key []byte value []byte expire time.Time maxAge int domain []byte path []byte httpOnly bool secure bool sameSite CookieSameSite bufKV argsKV buf []byte } // CopyTo copies src cookie to c. func (c *Cookie) CopyTo(src *Cookie) { c.Reset() c.key = append(c.key[:0], src.key...) c.value = append(c.value[:0], src.value...) c.expire = src.expire c.maxAge = src.maxAge c.domain = append(c.domain[:0], src.domain...) c.path = append(c.path[:0], src.path...) c.httpOnly = src.httpOnly c.secure = src.secure c.sameSite = src.sameSite } // HTTPOnly returns true if the cookie is http only. func (c *Cookie) HTTPOnly() bool { return c.httpOnly } // SetHTTPOnly sets cookie's httpOnly flag to the given value. func (c *Cookie) SetHTTPOnly(httpOnly bool) { c.httpOnly = httpOnly } // Secure returns true if the cookie is secure. func (c *Cookie) Secure() bool { return c.secure } // SetSecure sets cookie's secure flag to the given value. func (c *Cookie) SetSecure(secure bool) { c.secure = secure } // SameSite returns the SameSite mode. func (c *Cookie) SameSite() CookieSameSite { return c.sameSite } // SetSameSite sets the cookie's SameSite flag to the given value. // set value CookieSameSiteNoneMode will set Secure to true also to avoid browser rejection func (c *Cookie) SetSameSite(mode CookieSameSite) { c.sameSite = mode if mode == CookieSameSiteNoneMode { c.SetSecure(true) } } // Path returns cookie path. func (c *Cookie) Path() []byte { return c.path } // SetPath sets cookie path. func (c *Cookie) SetPath(path string) { c.buf = append(c.buf[:0], path...) c.path = normalizePath(c.path, c.buf) } // SetPathBytes sets cookie path. func (c *Cookie) SetPathBytes(path []byte) { c.buf = append(c.buf[:0], path...) c.path = normalizePath(c.path, c.buf) } // Domain returns cookie domain. // // The returned domain is valid until the next Cookie modification method call. func (c *Cookie) Domain() []byte { return c.domain } // SetDomain sets cookie domain. func (c *Cookie) SetDomain(domain string) { c.domain = append(c.domain[:0], domain...) } // SetDomainBytes sets cookie domain. func (c *Cookie) SetDomainBytes(domain []byte) { c.domain = append(c.domain[:0], domain...) } // MaxAge returns the seconds until the cookie is meant to expire or 0 // if no max age. func (c *Cookie) MaxAge() int { return c.maxAge } // SetMaxAge sets cookie expiration time based on seconds. This takes precedence // over any absolute expiry set on the cookie // // Set max age to 0 to unset func (c *Cookie) SetMaxAge(seconds int) { c.maxAge = seconds } // Expire returns cookie expiration time. // // CookieExpireUnlimited is returned if cookie doesn't expire func (c *Cookie) Expire() time.Time { expire := c.expire if expire.IsZero() { expire = CookieExpireUnlimited } return expire } // SetExpire sets cookie expiration time. // // Set expiration time to CookieExpireDelete for expiring (deleting) // the cookie on the client. // // By default cookie lifetime is limited by browser session. func (c *Cookie) SetExpire(expire time.Time) { c.expire = expire } // Value returns cookie value. // // The returned value is valid until the next Cookie modification method call. func (c *Cookie) Value() []byte { return c.value } // SetValue sets cookie value. func (c *Cookie) SetValue(value string) { c.value = append(c.value[:0], value...) } // SetValueBytes sets cookie value. func (c *Cookie) SetValueBytes(value []byte) { c.value = append(c.value[:0], value...) } // Key returns cookie name. // // The returned value is valid until the next Cookie modification method call. func (c *Cookie) Key() []byte { return c.key } // SetKey sets cookie name. func (c *Cookie) SetKey(key string) { c.key = append(c.key[:0], key...) } // SetKeyBytes sets cookie name. func (c *Cookie) SetKeyBytes(key []byte) { c.key = append(c.key[:0], key...) } // Reset clears the cookie. func (c *Cookie) Reset() { c.key = c.key[:0] c.value = c.value[:0] c.expire = zeroTime c.maxAge = 0 c.domain = c.domain[:0] c.path = c.path[:0] c.httpOnly = false c.secure = false c.sameSite = CookieSameSiteDisabled } // AppendBytes appends cookie representation to dst and returns // the extended dst. func (c *Cookie) AppendBytes(dst []byte) []byte { if len(c.key) > 0 { dst = append(dst, c.key...) dst = append(dst, '=') } dst = append(dst, c.value...) if c.maxAge > 0 { dst = append(dst, ';', ' ') dst = append(dst, strCookieMaxAge...) dst = append(dst, '=') dst = AppendUint(dst, c.maxAge) } else if !c.expire.IsZero() { c.bufKV.value = AppendHTTPDate(c.bufKV.value[:0], c.expire) dst = append(dst, ';', ' ') dst = append(dst, strCookieExpires...) dst = append(dst, '=') dst = append(dst, c.bufKV.value...) } if len(c.domain) > 0 { dst = appendCookiePart(dst, strCookieDomain, c.domain) } if len(c.path) > 0 { dst = appendCookiePart(dst, strCookiePath, c.path) } if c.httpOnly { dst = append(dst, ';', ' ') dst = append(dst, strCookieHTTPOnly...) } if c.secure { dst = append(dst, ';', ' ') dst = append(dst, strCookieSecure...) } switch c.sameSite { case CookieSameSiteDefaultMode: dst = append(dst, ';', ' ') dst = append(dst, strCookieSameSite...) case CookieSameSiteLaxMode: dst = append(dst, ';', ' ') dst = append(dst, strCookieSameSite...) dst = append(dst, '=') dst = append(dst, strCookieSameSiteLax...) case CookieSameSiteStrictMode: dst = append(dst, ';', ' ') dst = append(dst, strCookieSameSite...) dst = append(dst, '=') dst = append(dst, strCookieSameSiteStrict...) case CookieSameSiteNoneMode: dst = append(dst, ';', ' ') dst = append(dst, strCookieSameSite...) dst = append(dst, '=') dst = append(dst, strCookieSameSiteNone...) } return dst } // Cookie returns cookie representation. // // The returned value is valid until the next call to Cookie methods. func (c *Cookie) Cookie() []byte { c.buf = c.AppendBytes(c.buf[:0]) return c.buf } // String returns cookie representation. func (c *Cookie) String() string { return string(c.Cookie()) } // WriteTo writes cookie representation to w. // // WriteTo implements io.WriterTo interface. func (c *Cookie) WriteTo(w io.Writer) (int64, error) { n, err := w.Write(c.Cookie()) return int64(n), err } var errNoCookies = errors.New("no cookies found") // Parse parses Set-Cookie header. func (c *Cookie) Parse(src string) error { c.buf = append(c.buf[:0], src...) return c.ParseBytes(c.buf) } // ParseBytes parses Set-Cookie header. func (c *Cookie) ParseBytes(src []byte) error { c.Reset() var s cookieScanner s.b = src kv := &c.bufKV if !s.next(kv) { return errNoCookies } c.key = append(c.key[:0], kv.key...) c.value = append(c.value[:0], kv.value...) for s.next(kv) { if len(kv.key) != 0 { // Case insensitive switch on first char switch kv.key[0] | 0x20 { case 'm': if caseInsensitiveCompare(strCookieMaxAge, kv.key) { maxAge, err := ParseUint(kv.value) if err != nil { return err } c.maxAge = maxAge } case 'e': // "expires" if caseInsensitiveCompare(strCookieExpires, kv.key) { v := b2s(kv.value) // Try the same two formats as net/http // See: https://github.com/golang/go/blob/00379be17e63a5b75b3237819392d2dc3b313a27/src/net/http/cookie.go#L133-L135 exptime, err := time.ParseInLocation(time.RFC1123, v, time.UTC) if err != nil { exptime, err = time.Parse("Mon, 02-Jan-2006 15:04:05 MST", v) if err != nil { return err } } c.expire = exptime } case 'd': // "domain" if caseInsensitiveCompare(strCookieDomain, kv.key) { c.domain = append(c.domain[:0], kv.value...) } case 'p': // "path" if caseInsensitiveCompare(strCookiePath, kv.key) { c.path = append(c.path[:0], kv.value...) } case 's': // "samesite" if caseInsensitiveCompare(strCookieSameSite, kv.key) { // Case insensitive switch on first char switch kv.value[0] | 0x20 { case 'l': // "lax" if caseInsensitiveCompare(strCookieSameSiteLax, kv.value) { c.sameSite = CookieSameSiteLaxMode } case 's': // "strict" if caseInsensitiveCompare(strCookieSameSiteStrict, kv.value) { c.sameSite = CookieSameSiteStrictMode } case 'n': // "none" if caseInsensitiveCompare(strCookieSameSiteNone, kv.value) { c.sameSite = CookieSameSiteNoneMode } } } } } else if len(kv.value) != 0 { // Case insensitive switch on first char switch kv.value[0] | 0x20 { case 'h': // "httponly" if caseInsensitiveCompare(strCookieHTTPOnly, kv.value) { c.httpOnly = true } case 's': // "secure" if caseInsensitiveCompare(strCookieSecure, kv.value) { c.secure = true } else if caseInsensitiveCompare(strCookieSameSite, kv.value) { c.sameSite = CookieSameSiteDefaultMode } } } // else empty or no match } return nil } func appendCookiePart(dst, key, value []byte) []byte { dst = append(dst, ';', ' ') dst = append(dst, key...) dst = append(dst, '=') return append(dst, value...) } func getCookieKey(dst, src []byte) []byte { n := bytes.IndexByte(src, '=') if n >= 0 { src = src[:n] } return decodeCookieArg(dst, src, false) } func appendRequestCookieBytes(dst []byte, cookies []argsKV) []byte { for i, n := 0, len(cookies); i < n; i++ { kv := &cookies[i] if len(kv.key) > 0 { dst = append(dst, kv.key...) dst = append(dst, '=') } dst = append(dst, kv.value...) if i+1 < n { dst = append(dst, ';', ' ') } } return dst } // For Response we can not use the above function as response cookies // already contain the key= in the value. func appendResponseCookieBytes(dst []byte, cookies []argsKV) []byte { for i, n := 0, len(cookies); i < n; i++ { kv := &cookies[i] dst = append(dst, kv.value...) if i+1 < n { dst = append(dst, ';', ' ') } } return dst } func parseRequestCookies(cookies []argsKV, src []byte) []argsKV { var s cookieScanner s.b = src var kv *argsKV cookies, kv = allocArg(cookies) for s.next(kv) { if len(kv.key) > 0 || len(kv.value) > 0 { cookies, kv = allocArg(cookies) } } return releaseArg(cookies) } type cookieScanner struct { b []byte } func (s *cookieScanner) next(kv *argsKV) bool { b := s.b if len(b) == 0 { return false } isKey := true k := 0 for i, c := range b { switch c { case '=': if isKey { isKey = false kv.key = decodeCookieArg(kv.key, b[:i], false) k = i + 1 } case ';': if isKey { kv.key = kv.key[:0] } kv.value = decodeCookieArg(kv.value, b[k:i], true) s.b = b[i+1:] return true } } if isKey { kv.key = kv.key[:0] } kv.value = decodeCookieArg(kv.value, b[k:], true) s.b = b[len(b):] return true } func decodeCookieArg(dst, src []byte, skipQuotes bool) []byte { for len(src) > 0 && src[0] == ' ' { src = src[1:] } for len(src) > 0 && src[len(src)-1] == ' ' { src = src[:len(src)-1] } if skipQuotes { if len(src) > 1 && src[0] == '"' && src[len(src)-1] == '"' { src = src[1 : len(src)-1] } } return append(dst[:0], src...) } // caseInsensitiveCompare does a case insensitive equality comparison of // two []byte. Assumes only letters need to be matched. func caseInsensitiveCompare(a, b []byte) bool { if len(a) != len(b) { return false } for i := 0; i < len(a); i++ { if a[i]|0x20 != b[i]|0x20 { return false } } return true }