package authentication import ( "errors" "fmt" "strconv" "strings" "github.com/simia-tech/crypt" "github.com/authelia/authelia/internal/utils" ) // PasswordHash represents all characteristics of a password hash. // Authelia only supports salted SHA512 or salted argon2id method, i.e., $6$ mode or $argon2id$ mode type PasswordHash struct { Algorithm string Iterations int Salt string Key string KeyLength int Memory int Parallelism int } // ParseHash extracts all characteristics of a hash given its string representation func ParseHash(hash string) (passwordHash *PasswordHash, err error) { parts := strings.Split(hash, "$") // This error can be ignored as it's always nil code, parameters, salt, key, _ := crypt.DecodeSettings(hash) h := &PasswordHash{} h.Salt = salt h.Key = key if h.Key != parts[len(parts)-1] { return nil, fmt.Errorf("Hash key is not the last parameter, the hash is likely malformed (%s)", hash) } if h.Key == "" { return nil, fmt.Errorf("Hash key contains no characters or the field length is invalid (%s)", hash) } _, err = crypt.Base64Encoding.DecodeString(h.Salt) if err != nil { return nil, errors.New("Salt contains invalid base64 characters") } if code == HashingAlgorithmSHA512 { h.Iterations = parameters.GetInt("rounds", HashingDefaultSHA512Iterations) h.Algorithm = HashingAlgorithmSHA512 if parameters["rounds"] != "" && parameters["rounds"] != strconv.Itoa(h.Iterations) { return nil, fmt.Errorf("SHA512 iterations is not numeric (%s)", parameters["rounds"]) } } else if code == HashingAlgorithmArgon2id { version := parameters.GetInt("v", 0) if version < 19 { if version == 0 { return nil, fmt.Errorf("Argon2id version parameter not found (%s)", hash) } return nil, fmt.Errorf("Argon2id versions less than v19 are not supported (hash is version %d)", version) } else if version > 19 { return nil, fmt.Errorf("Argon2id versions greater than v19 are not supported (hash is version %d)", version) } h.Algorithm = HashingAlgorithmArgon2id h.Memory = parameters.GetInt("m", HashingDefaultArgon2idMemory) h.Iterations = parameters.GetInt("t", HashingDefaultArgon2idTime) h.Parallelism = parameters.GetInt("p", HashingDefaultArgon2idParallelism) h.KeyLength = parameters.GetInt("k", HashingDefaultArgon2idKeyLength) decodedKey, err := crypt.Base64Encoding.DecodeString(h.Key) if err != nil { return nil, errors.New("Hash key contains invalid base64 characters") } if len(decodedKey) != h.KeyLength { return nil, fmt.Errorf("Argon2id key length parameter (%d) does not match the actual key length (%d)", h.KeyLength, len(decodedKey)) } } else { return nil, fmt.Errorf("Authelia only supports salted SHA512 hashing ($6$) and salted argon2id ($argon2id$), not $%s$", code) } return h, nil } // HashPassword generate a salt and hash the password with the salt and a constant number of rounds //nolint:gocyclo // TODO: Consider refactoring/simplifying, time permitting func HashPassword(password, salt, algorithm string, iterations, memory, parallelism, keyLength, saltLength int) (hash string, err error) { var settings string if algorithm != HashingAlgorithmArgon2id && algorithm != HashingAlgorithmSHA512 { return "", fmt.Errorf("Hashing algorithm input of '%s' is invalid, only values of %s and %s are supported", algorithm, HashingAlgorithmArgon2id, HashingAlgorithmSHA512) } if salt == "" { if saltLength < 2 { return "", fmt.Errorf("Salt length input of %d is invalid, it must be 2 or higher", saltLength) } else if saltLength > 16 { return "", fmt.Errorf("Salt length input of %d is invalid, it must be 16 or lower", saltLength) } } else if len(salt) > 16 { return "", fmt.Errorf("Salt input of %s is invalid (%d characters), it must be 16 or fewer characters", salt, len(salt)) } else if len(salt) < 2 { return "", fmt.Errorf("Salt input of %s is invalid (%d characters), it must be 2 or more characters", salt, len(salt)) } else if _, err = crypt.Base64Encoding.DecodeString(salt); err != nil { return "", fmt.Errorf("Salt input of %s is invalid, only characters [a-zA-Z0-9+/] are valid for input", salt) } if algorithm == HashingAlgorithmArgon2id { // Caution: Increasing any of the values in the below block has a high chance in old passwords that cannot be verified if memory < 8 { return "", fmt.Errorf("Memory (argon2id) input of %d is invalid, it must be 8 or higher", memory) } if parallelism < 1 { return "", fmt.Errorf("Parallelism (argon2id) input of %d is invalid, it must be 1 or higher", parallelism) } if memory < parallelism*8 { return "", fmt.Errorf("Memory (argon2id) input of %d is invalid with a parallelism input of %d, it must be %d (parallelism * 8) or higher", memory, parallelism, parallelism*8) } if keyLength < 16 { return "", fmt.Errorf("Key length (argon2id) input of %d is invalid, it must be 16 or higher", keyLength) } if iterations < 1 { return "", fmt.Errorf("Iterations (argon2id) input of %d is invalid, it must be 1 or more", iterations) } // Caution: Increasing any of the values in the above block has a high chance in old passwords that cannot be verified } if salt == "" { salt = utils.RandomString(saltLength, HashingPossibleSaltCharacters) } settings = getCryptSettings(salt, algorithm, iterations, memory, parallelism, keyLength) // This error can be ignored because we check for it before a user gets here hash, _ = crypt.Crypt(password, settings) return hash, nil } // CheckPassword check a password against a hash func CheckPassword(password, hash string) (ok bool, err error) { passwordHash, err := ParseHash(hash) if err != nil { return false, err } expectedHash, err := HashPassword(password, passwordHash.Salt, passwordHash.Algorithm, passwordHash.Iterations, passwordHash.Memory, passwordHash.Parallelism, passwordHash.KeyLength, len(passwordHash.Salt)) if err != nil { return false, err } return hash == expectedHash, nil } func getCryptSettings(salt, algorithm string, iterations, memory, parallelism, keyLength int) (settings string) { if algorithm == HashingAlgorithmArgon2id { settings, _ = crypt.Argon2idSettings(memory, iterations, parallelism, keyLength, salt) } else if algorithm == HashingAlgorithmSHA512 { settings = fmt.Sprintf("$6$rounds=%d$%s", iterations, salt) } else { panic("invalid password hashing algorithm provided") } return settings }