package jwt import ( "bytes" "encoding/json" "fmt" "strings" ) type Parser struct { ValidMethods []string // If populated, only these methods will be considered valid UseJSONNumber bool // Use JSON Number format in JSON decoder } // Parse, validate, and return a token. // keyFunc will receive the parsed token and should return the key for validating. // If everything is kosher, err will be nil func (p *Parser) Parse(tokenString string, keyFunc Keyfunc) (*Token, error) { parts := strings.Split(tokenString, ".") if len(parts) != 3 { return nil, &ValidationError{err: "token contains an invalid number of segments", Errors: ValidationErrorMalformed} } var err error token := &Token{Raw: tokenString} // parse Header var headerBytes []byte if headerBytes, err = DecodeSegment(parts[0]); err != nil { if strings.HasPrefix(strings.ToLower(tokenString), "bearer ") { return token, &ValidationError{err: "tokenstring should not contain 'bearer '", Errors: ValidationErrorMalformed} } return token, &ValidationError{err: err.Error(), Errors: ValidationErrorMalformed} } if err = json.Unmarshal(headerBytes, &token.Header); err != nil { return token, &ValidationError{err: err.Error(), Errors: ValidationErrorMalformed} } // parse Claims var claimBytes []byte if claimBytes, err = DecodeSegment(parts[1]); err != nil { return token, &ValidationError{err: err.Error(), Errors: ValidationErrorMalformed} } dec := json.NewDecoder(bytes.NewBuffer(claimBytes)) if p.UseJSONNumber { dec.UseNumber() } if err = dec.Decode(&token.Claims); err != nil { return token, &ValidationError{err: err.Error(), Errors: ValidationErrorMalformed} } // Lookup signature method if method, ok := token.Header["alg"].(string); ok { if token.Method = GetSigningMethod(method); token.Method == nil { return token, &ValidationError{err: "signing method (alg) is unavailable.", Errors: ValidationErrorUnverifiable} } } else { return token, &ValidationError{err: "signing method (alg) is unspecified.", Errors: ValidationErrorUnverifiable} } // Verify signing method is in the required set if p.ValidMethods != nil { var signingMethodValid = false var alg = token.Method.Alg() for _, m := range p.ValidMethods { if m == alg { signingMethodValid = true break } } if !signingMethodValid { // signing method is not in the listed set return token, &ValidationError{err: fmt.Sprintf("signing method %v is invalid", alg), Errors: ValidationErrorSignatureInvalid} } } // Lookup key var key interface{} if keyFunc == nil { // keyFunc was not provided. short circuiting validation return token, &ValidationError{err: "no Keyfunc was provided.", Errors: ValidationErrorUnverifiable} } if key, err = keyFunc(token); err != nil { // keyFunc returned an error return token, &ValidationError{err: err.Error(), Errors: ValidationErrorUnverifiable} } // Check expiration times vErr := &ValidationError{} now := TimeFunc().Unix() var exp, nbf int64 var vexp, vnbf bool // Parse 'exp' claim switch num := token.Claims["exp"].(type) { case json.Number: if exp, err = num.Int64(); err == nil { vexp = true } case float64: vexp = true exp = int64(num) } // Parse 'nbf' claim switch num := token.Claims["nbf"].(type) { case json.Number: if nbf, err = num.Int64(); err == nil { vnbf = true } case float64: vnbf = true nbf = int64(num) } if vexp && now > exp { vErr.err = "token is expired" vErr.Errors |= ValidationErrorExpired } if vnbf && now < nbf { vErr.err = "token is not valid yet" vErr.Errors |= ValidationErrorNotValidYet } // Perform validation token.Signature = parts[2] if err = token.Method.Verify(strings.Join(parts[0:2], "."), token.Signature, key); err != nil { vErr.err = err.Error() vErr.Errors |= ValidationErrorSignatureInvalid } if vErr.valid() { token.Valid = true return token, nil } return token, vErr }