"Stream",
"class_by_prefix",
"enframe",
+ "exposed_protos",
"inline_response",
"proto_handled",
"parse_message",
return lx
+def pblist(x: Union[str, List[Tuple[str, str]]]) -> List[Tuple[str, str]]:
+ if isinstance(x, str):
+
+ def splitpair(s: str) -> Tuple[str, str]:
+ a, b = s.split(":")
+ return a, b
+
+ lx = [splitpair(el) for el in x.split(",")]
+ else:
+ lx = x
+ if len(lx) > 5:
+ raise ValueError(str(lx) + " has too many elements (max 5)")
+ return lx
+
+
class MetaPkt(type):
"""
For each class corresponding to a message, automatically create
class BeeSurePkt(metaclass=MetaPkt):
RESPOND = Respond.NON # Do not send anything back by default
- PROTO: str
IN_KWARGS: Tuple[Tuple[str, Callable[[Any], Any], Any], ...] = ()
OUT_KWARGS: Tuple[Tuple[str, Callable[[Any], Any], Any], ...] = ()
KWARGS: Tuple[Tuple[str, Callable[[Any], Any], Any], ...] = ()
# Overridden in subclasses, otherwise command verb only
return ""
+ @property
+ def PROTO(self) -> str:
+ try:
+ proto, _ = self.__class__.__name__.split(".")
+ except ValueError:
+ proto = self.__class__.__name__
+ return proto
+
@property
def packed(self) -> bytes:
data = self.encode()
class UNKNOWN(BeeSurePkt):
- PROTO = "UNKNOWN"
+ pass
class LK(BeeSurePkt):
- PROTO = "LK"
RESPOND = Respond.INL
def in_decode(self, *args: str) -> None:
class CONFIG(BeeSurePkt):
- PROTO = "CONFIG"
+ pass
class ICCID(BeeSurePkt):
- PROTO = "ICCID"
+ pass
class _LOC_DATA(BeeSurePkt):
class UD(_LOC_DATA):
- PROTO = "UD"
+ pass
class UD2(_LOC_DATA):
- PROTO = "UD2"
+ pass
class TKQ(BeeSurePkt):
- PROTO = "TKQ"
RESPOND = Respond.INL
class TKQ2(BeeSurePkt):
- PROTO = "TKQ2"
RESPOND = Respond.INL
class AL(_LOC_DATA):
- PROTO = "AL"
RESPOND = Respond.INL
class CR(BeeSurePkt):
- PROTO = "CR"
+ pass
class FLOWER(BeeSurePkt):
- PROTO = "FLOWER"
OUT_KWARGS = (("number", int, 1),)
def out_encode(self) -> str:
return str(self.number)
+class _PHB(BeeSurePkt):
+ OUT_KWARGS: Tuple[Tuple[str, Callable[[Any], Any], Any], ...] = (
+ ("entries", pblist, []),
+ )
+
+ def out_encode(self) -> str:
+ self.entries: List[Tuple[str, str]]
+ return ",".join(
+ [
+ ",".join((num, name.encode("utf_16_be").hex()))
+ for name, num in self.entries
+ ]
+ )
+
+
+class PHB(_PHB):
+ pass
+
+
+class PHB2(_PHB):
+ pass
+
+
class POWEROFF(BeeSurePkt):
- PROTO = "POWEROFF"
+ pass
class RESET(BeeSurePkt):
- PROTO = "RESET"
+ pass
class SOS(BeeSurePkt):
- PROTO = "SOS"
OUT_KWARGS = (("phonenumbers", l3str, ["", "", ""]),)
def out_encode(self) -> str:
class SOS1(_SET_PHONE):
- PROTO = "SOS1"
+ pass
class SOS2(_SET_PHONE):
- PROTO = "SOS2"
+ pass
class SOS3(_SET_PHONE):
- PROTO = "SOS3"
+ pass
# Build dicts protocol number -> class and class name -> protocol number
CLASSES = {}
-PROTOS = {}
if True: # just to indent the code, sorry!
for cls in [
cls
and issubclass(cls, BeeSurePkt)
and not name.startswith("_")
]:
- if hasattr(cls, "PROTO"):
- CLASSES[cls.PROTO] = cls
- PROTOS[cls.__name__] = cls.PROTO
+ CLASSES[cls.__name__] = cls
def class_by_prefix(
prefix: str,
-) -> Union[Type[BeeSurePkt], List[Tuple[str, str]]]:
+) -> Union[Type[BeeSurePkt], List[str]]:
if prefix.startswith(PROTO_PREFIX):
pname = prefix[len(PROTO_PREFIX) :].upper()
else:
raise KeyError(pname)
- lst = [
- (name, proto)
- for name, proto in PROTOS.items()
- if name.upper().startswith(pname)
- ]
- for _, proto in lst:
+ lst = [name for name in CLASSES.keys() if name.upper().startswith(pname)]
+ for proto in lst:
if len(lst) == 1: # unique prefix match
return CLASSES[proto]
if proto == pname: # exact match
retobj = UNKNOWN.In(vendor, imei, datalength, payload)
else:
retobj = UNKNOWN.Out(vendor, imei, datalength, payload)
- retobj.PROTO = proto # Override class attr with object attr
+ retobj.proto = proto # Override class attr with object attr
retobj.cause = cause
return retobj
+
+
+def exposed_protos() -> List[Tuple[str, bool]]:
+ return [
+ (proto_name(UD), True),
+ (proto_name(UD2), False),
+ ]