""" Helper classes and methods used in mixins implementing various commands. Unlike _helpers.py, here the methods should be used only in mixins. """ import functools import math import re import sys import time from typing import Tuple, Union, Optional, Any, Type, List, Callable, Sequence, Dict, Set, Collection from . import _msgs as msgs from ._helpers import null_terminate, SimpleError, Database MAX_STRING_SIZE = 512 * 1024 * 1024 SUPPORTED_COMMANDS: Dict[str, "Signature"] = dict() # Dictionary of supported commands name => Signature COMMANDS_WITH_SUB: Set[str] = set() # Commands with sub-commands class Key: """Marker to indicate that argument in signature is a key""" UNSPECIFIED = object() def __init__(self, type_: Optional[Type[Any]] = None, missing_return: Any = UNSPECIFIED) -> None: self.type_ = type_ self.missing_return = missing_return class Item: """An item stored in the database""" __slots__ = ["value", "expireat"] def __init__(self, value: Any) -> None: self.value = value self.expireat = None class CommandItem: """An item referenced by a command. It wraps an Item but has extra fields to manage updates and notifications. """ def __init__(self, key: bytes, db: Database, item: Optional["CommandItem"] = None, default: Any = None) -> None: self._expireat: Optional[float] if item is None: self._value = default self._expireat = None else: self._value = item.value self._expireat = item.expireat self.key = key self.db = db self._modified = False self._expireat_modified = False @property def value(self) -> Any: return self._value @value.setter def value(self, new_value: Any) -> None: self._value = new_value self._modified = True self.expireat = None @property def expireat(self) -> Optional[float]: return self._expireat @expireat.setter def expireat(self, value: Optional[float]) -> None: self._expireat = value self._expireat_modified = True self._modified = True # Since redis 6.0.7 def get(self, default: Any) -> Any: return self._value if self else default def update(self, new_value: Any) -> None: self._value = new_value self._modified = True def updated(self) -> None: self._modified = True def writeback(self, remove_empty_val: bool = True) -> None: if self._modified: self.db.notify_watch(self.key) if not isinstance(self.value, bytes) and (self.value is None or (not self.value and remove_empty_val)): self.db.pop(self.key, None) return item = self.db.setdefault(self.key, Item(None)) item.value = self.value item.expireat = self.expireat return if self._expireat_modified and self.key in self.db: self.db[self.key].expireat = self.expireat def __bool__(self) -> bool: return bool(self._value) or isinstance(self._value, bytes) __nonzero__ = __bool__ # For Python 2 class RedisType: @classmethod def decode(cls, *args, **kwargs): # type:ignore raise NotImplementedError class Int(RedisType): """Argument converter for 64-bit signed integers""" DECODE_ERROR = msgs.INVALID_INT_MSG ENCODE_ERROR = msgs.OVERFLOW_MSG MIN_VALUE = -(2**63) MAX_VALUE = 2**63 - 1 @classmethod def valid(cls, value: int) -> bool: return cls.MIN_VALUE <= value <= cls.MAX_VALUE @classmethod def decode(cls, value: bytes, decode_error: Optional[str] = None) -> int: try: out = int(value) if not cls.valid(out) or str(out).encode() != value: raise ValueError return out except ValueError: raise SimpleError(decode_error or cls.DECODE_ERROR) @classmethod def encode(cls, value: int) -> bytes: if cls.valid(value): return str(value).encode() else: raise SimpleError(cls.ENCODE_ERROR) class DbIndex(Int): """Argument converter for database indices""" DECODE_ERROR = msgs.INVALID_DB_MSG MIN_VALUE = 0 MAX_VALUE = 15 class BitOffset(Int): """Argument converter for unsigned bit positions""" DECODE_ERROR = msgs.INVALID_BIT_OFFSET_MSG MIN_VALUE = 0 MAX_VALUE = 8 * MAX_STRING_SIZE - 1 # Redis imposes 512MB limit on keys class BitValue(Int): DECODE_ERROR = msgs.INVALID_BIT_VALUE_MSG MIN_VALUE = 0 MAX_VALUE = 1 class Float(RedisType): """Argument converter for floating-point values. Redis uses long double for some cases (INCRBYFLOAT, HINCRBYFLOAT) and double for others (zset scores), but Python doesn't support `long double`. """ DECODE_ERROR = msgs.INVALID_FLOAT_MSG @classmethod def decode( cls, value: bytes, allow_leading_whitespace: bool = False, allow_erange: bool = False, allow_empty: bool = False, crop_null: bool = False, decode_error: Optional[str] = None, ) -> float: # Redis has some quirks in float parsing, with several variants. # See https://github.com/antirez/redis/issues/5706 try: if crop_null: value = null_terminate(value) if allow_empty and value == b"": value = b"0.0" if not allow_leading_whitespace and value[:1].isspace(): raise ValueError if value[-1:].isspace(): raise ValueError out = float(value) if math.isnan(out): raise ValueError if not allow_erange: # Values that over- or under-flow are explicitly rejected by # redis. This is a crude hack to determine whether the input # may have been such a value. if out in (math.inf, -math.inf, 0.0) and re.match(b"^[^a-zA-Z]*[1-9]", value): raise ValueError return out except ValueError: raise SimpleError(decode_error or cls.DECODE_ERROR) @classmethod def encode(cls, value: float, humanfriendly: bool) -> bytes: if math.isinf(value): return str(value).encode() elif humanfriendly: # Algorithm from `ld2string` in redis out = "{:.17f}".format(value) out = re.sub(r"\.?0+$", "", out) return out.encode() else: return "{:.17g}".format(value).encode() class Timeout(Float): """Argument converter for timeouts""" DECODE_ERROR = msgs.TIMEOUT_NEGATIVE_MSG MIN_VALUE = 0.0 class SortFloat(Float): DECODE_ERROR = msgs.INVALID_SORT_FLOAT_MSG @classmethod def decode( cls, value: bytes, allow_leading_whitespace: bool = True, allow_erange: bool = False, allow_empty: bool = True, crop_null: bool = True, decode_error: Optional[str] = None, ) -> float: return super().decode(value, allow_leading_whitespace=True, allow_empty=True, crop_null=True) @functools.total_ordering class BeforeAny: def __gt__(self, other: Any) -> bool: return False def __eq__(self, other: Any) -> bool: return isinstance(other, BeforeAny) def __hash__(self) -> int: return 1 @functools.total_ordering class AfterAny: def __lt__(self, other: Any) -> bool: return False def __eq__(self, other: Any) -> bool: return isinstance(other, AfterAny) def __hash__(self) -> int: return 1 class ScoreTest(RedisType): """Argument converter for sorted set score endpoints.""" def __init__(self, value: float, exclusive: bool = False, bytes_val: Optional[bytes] = None): self.value = value self.exclusive = exclusive self.bytes_val = bytes_val @classmethod def decode(cls, value: bytes) -> "ScoreTest": try: original_value = value exclusive = False if value[:1] == b"(": exclusive = True value = value[1:] fvalue = Float.decode( value, allow_leading_whitespace=True, allow_erange=True, allow_empty=True, crop_null=True, ) return cls(fvalue, exclusive, original_value) except SimpleError: raise SimpleError(msgs.INVALID_MIN_MAX_FLOAT_MSG) def __str__(self) -> str: if self.exclusive: return "({!r}".format(self.value) else: return repr(self.value) @property def lower_bound(self) -> Tuple[float, Union[AfterAny, BeforeAny]]: return self.value, AfterAny() if self.exclusive else BeforeAny() @property def upper_bound(self) -> Tuple[float, Union[AfterAny, BeforeAny]]: return self.value, BeforeAny() if self.exclusive else AfterAny() class StringTest(RedisType): """Argument converter for sorted set LEX endpoints.""" def __init__(self, value: Union[bytes, BeforeAny, AfterAny], exclusive: bool): self.value = value self.exclusive = exclusive @classmethod def decode(cls, value: bytes) -> "StringTest": if value == b"-": return cls(BeforeAny(), True) elif value == b"+": return cls(AfterAny(), True) elif value[:1] == b"(": return cls(value[1:], True) elif value[:1] == b"[": return cls(value[1:], False) else: raise SimpleError(msgs.INVALID_MIN_MAX_STR_MSG) # def to_scoretest(self, zset: ZSet) -> ScoreTest: # if isinstance(self.value, BeforeAny): # return ScoreTest(float("-inf"), False) # if isinstance(self.value, AfterAny): # return ScoreTest(float("inf"), False) # val: float = zset.get(self.value, None) # return ScoreTest(val, self.exclusive) class Signature: def __init__( self, name: str, func_name: str, fixed: Tuple[Type[Union[RedisType, bytes]]], repeat: Tuple[Type[Union[RedisType, bytes]]] = (), # type:ignore args: Tuple[str] = (), # type:ignore flags: str = "", server_types: Collection[str] = ( "redis", "valkey", "dragonfly", ), # supported server types: redis, dragonfly, valkey ): self.name = name self.func_name = func_name self.fixed = fixed self.repeat = repeat self.flags = set(flags) self.command_args = args self.server_types: Set[str] = set(server_types) def check_arity(self, args: Sequence[Any], version: Tuple[int, ...]) -> None: if len(args) == len(self.fixed): return delta = len(args) - len(self.fixed) if delta < 0 or not self.repeat: msg = msgs.WRONG_ARGS_MSG6.format(self.name) raise SimpleError(msg) if delta % len(self.repeat) != 0: msg = msgs.WRONG_ARGS_MSG7 if version >= (7,) else msgs.WRONG_ARGS_MSG6.format(self.name) raise SimpleError(msg) def apply( self, args: Sequence[Any], db: Database, version: Tuple[int, ...] ) -> Union[Tuple[Any], Tuple[List[Any], List[CommandItem]]]: """Returns a tuple, which is either: - transformed args and a dict of CommandItems; or - a single containing a short-circuit return value """ self.check_arity(args, version) types = list(self.fixed) for i in range(len(args) - len(types)): types.append(self.repeat[i % len(self.repeat)]) args_list = list(args) # First pass: convert/validate non-keys, and short-circuit on missing keys for i, (arg, type_) in enumerate(zip(args_list, types)): if isinstance(type_, Key): if type_.missing_return is not Key.UNSPECIFIED and arg not in db: return (type_.missing_return,) elif type_ is not bytes: args_list[i] = type_.decode( args_list[i], ) # Second pass: read keys and check their types command_items: List[CommandItem] = [] for i, (arg, type_) in enumerate(zip(args_list, types)): if isinstance(type_, Key): item = db.get(arg) default = None if type_.type_ is not None and item is not None and type(item.value) is not type_.type_: raise SimpleError(msgs.WRONGTYPE_MSG) if ( msgs.FLAG_DO_NOT_CREATE not in self.flags and type_.type_ is not None and item is None and type_.type_ is not bytes ): default = type_.type_() args_list[i] = CommandItem(arg, db, item, default=default) command_items.append(args_list[i]) return args_list, command_items def command(*args, **kwargs) -> Callable: # type:ignore def create_signature(func: Callable[..., Any], cmd_name: str) -> None: if " " in cmd_name: COMMANDS_WITH_SUB.add(cmd_name.split(" ")[0]) SUPPORTED_COMMANDS[cmd_name] = Signature(cmd_name, func.__name__, *args, **kwargs) def decorator(func: Callable[..., Any]) -> Callable[..., Any]: cmd_names = kwargs.pop("name", func.__name__) if isinstance(cmd_names, list): # Support for alias commands for cmd_name in cmd_names: create_signature(func, cmd_name.lower()) elif isinstance(cmd_names, str): create_signature(func, cmd_names.lower()) else: raise ValueError("command name should be a string or list of strings") return func return decorator def delete_keys(*keys: CommandItem) -> int: ans = 0 done = set() for key in keys: if key and key.key not in done: key.value = None done.add(key.key) ans += 1 return ans def fix_range(start: int, end: int, length: int) -> Tuple[int, int]: # Redis handles negative slightly differently for zrange if start < 0: start = max(0, start + length) if end < 0: end += length if start > end or start >= length: return -1, -1 end = min(end, length - 1) return start, end + 1 def fix_range_string(start: int, end: int, length: int) -> Tuple[int, int]: # Negative number handling is based on the redis source code if 0 > start > end and end < 0: return -1, -1 if start < 0: start = max(0, start + length) if end < 0: end = max(0, end + length) end = min(end, length - 1) return start, end + 1 class Timestamp(Int): """Argument converter for timestamps""" @classmethod def decode(cls, value: bytes, decode_error: Optional[str] = None) -> int: if value == b"*": return int(time.time() * 1000) if value == b"-": return -1 if value == b"+": return sys.maxsize return super().decode(value, decode_error=msgs.INVALID_EXPIRE_MSG)