# This is an automatically generated file.
# DO NOT EDIT or your changes may be overwritten
from __future__ import annotations
import base64
import json
from xdrlib3 import Packer, Unpacker
from .base import DEFAULT_XDR_MAX_DEPTH, Opaque
from .ip_addr_type import IPAddrType
__all__ = ["PeerAddressIp"]
[docs]
class PeerAddressIp:
"""
XDR Source Code::
union switch (IPAddrType type)
{
case IPv4:
opaque ipv4[4];
case IPv6:
opaque ipv6[16];
}
"""
def __init__(
self,
type: IPAddrType,
ipv4: bytes | None = None,
ipv6: bytes | None = None,
) -> None:
_expect_length = 4
if ipv4 and len(ipv4) != _expect_length:
raise ValueError(
f"The length of `ipv4` should be {_expect_length}, but got {len(ipv4)}."
)
_expect_length = 16
if ipv6 and len(ipv6) != _expect_length:
raise ValueError(
f"The length of `ipv6` should be {_expect_length}, but got {len(ipv6)}."
)
self.type = type
self.ipv4 = ipv4
self.ipv6 = ipv6
def pack(self, packer: Packer) -> None:
self.type.pack(packer)
if self.type == IPAddrType.IPv4:
if self.ipv4 is None:
raise ValueError("ipv4 should not be None.")
Opaque(self.ipv4, 4, True).pack(packer)
return
if self.type == IPAddrType.IPv6:
if self.ipv6 is None:
raise ValueError("ipv6 should not be None.")
Opaque(self.ipv6, 16, True).pack(packer)
return
raise ValueError("Invalid type.")
@classmethod
def unpack(
cls, unpacker: Unpacker, depth_limit: int = DEFAULT_XDR_MAX_DEPTH
) -> PeerAddressIp:
if depth_limit <= 0:
raise ValueError("Maximum decoding depth reached")
type = IPAddrType.unpack(unpacker)
if type == IPAddrType.IPv4:
ipv4 = Opaque.unpack(unpacker, 4, True)
return cls(type=type, ipv4=ipv4)
if type == IPAddrType.IPv6:
ipv6 = Opaque.unpack(unpacker, 16, True)
return cls(type=type, ipv6=ipv6)
raise ValueError("Invalid type.")
def to_xdr_bytes(self) -> bytes:
packer = Packer()
self.pack(packer)
return packer.get_buffer()
@classmethod
def from_xdr_bytes(cls, xdr: bytes) -> PeerAddressIp:
unpacker = Unpacker(xdr)
result = cls.unpack(unpacker)
remaining = len(xdr) - unpacker.get_position()
if remaining != 0:
raise ValueError(f"Unexpected trailing {remaining} bytes in XDR data")
return result
def to_xdr(self) -> str:
xdr_bytes = self.to_xdr_bytes()
return base64.b64encode(xdr_bytes).decode()
@classmethod
def from_xdr(cls, xdr: str) -> PeerAddressIp:
xdr_bytes = base64.b64decode(xdr.encode())
return cls.from_xdr_bytes(xdr_bytes)
def to_json(self) -> str:
return json.dumps(self.to_json_dict())
@classmethod
def from_json(cls, json_str: str) -> PeerAddressIp:
return cls.from_json_dict(json.loads(json_str))
def to_json_dict(self):
if self.type == IPAddrType.IPv4:
assert self.ipv4 is not None
return {"ipv4": Opaque.to_json_dict(self.ipv4)}
if self.type == IPAddrType.IPv6:
assert self.ipv6 is not None
return {"ipv6": Opaque.to_json_dict(self.ipv6)}
raise ValueError(f"Unknown type in PeerAddressIp: {self.type}")
@classmethod
def from_json_dict(cls, json_value: dict) -> PeerAddressIp:
if len(json_value) != 1:
raise ValueError(
f"Expected a single-key object for PeerAddressIp, got: {json_value}"
)
key = next(iter(json_value))
type = IPAddrType.from_json_dict(key)
if key == "ipv4":
ipv4 = Opaque.from_json_dict(json_value["ipv4"])
return cls(type=type, ipv4=ipv4)
if key == "ipv6":
ipv6 = Opaque.from_json_dict(json_value["ipv6"])
return cls(type=type, ipv6=ipv6)
raise ValueError(f"Unknown key '{key}' for PeerAddressIp")
def __hash__(self):
return hash(
(
self.type,
self.ipv4,
self.ipv6,
)
)
def __eq__(self, other: object):
if not isinstance(other, self.__class__):
return NotImplemented
return (
self.type == other.type
and self.ipv4 == other.ipv4
and self.ipv6 == other.ipv6
)
def __repr__(self):
out = []
out.append(f"type={self.type}")
if self.ipv4 is not None:
out.append(f"ipv4={self.ipv4}")
if self.ipv6 is not None:
out.append(f"ipv6={self.ipv6}")
return f"<PeerAddressIp [{', '.join(out)}]>"