Server stuff

This commit is contained in:
Bottersnike 2022-11-17 01:59:17 +00:00
parent f3e9db8cb1
commit 84a87f5a7f
16 changed files with 143 additions and 79 deletions

3
.gitignore vendored
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@ -4,6 +4,3 @@ __pycache__/
*.db *.db
misc/ misc/
*.egg-info *.egg-info
# Sorry
eaapi/keys.py

3
.gitmodules vendored
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@ -1,3 +0,0 @@
[submodule "server"]
path = eaapi/server
url = https://gitea.tendokyu.moe/eamuse/server.git

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@ -5,9 +5,14 @@ from .decoder import Decoder
from .wrapper import wrap, unwrap from .wrapper import wrap, unwrap
from .misc import parse_model from .misc import parse_model
from .exception import EAAPIException
from . import crypt
__all__ = ( __all__ = (
"Type", "ServicesMode", "Compression", "Type", "ServicesMode", "Compression",
"XMLNode", "Encoder", "Decoder", "XMLNode", "Encoder", "Decoder",
"wrap", "unwrap", "wrap", "unwrap",
"parse_model", "parse_model",
"EAAPIException",
"crypt",
) )

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@ -8,17 +8,17 @@ from .keys import CARDCONV_KEY
from .const import CARD_ALPHABET from .const import CARD_ALPHABET
def enc_des(uid): def enc_des(uid: bytes) -> bytes:
cipher = DES3.new(CARDCONV_KEY, DES3.MODE_CBC, iv=b'\0' * 8) cipher = DES3.new(CARDCONV_KEY, DES3.MODE_CBC, iv=b'\0' * 8)
return cipher.encrypt(uid) return cipher.encrypt(uid)
def dec_des(uid): def dec_des(uid: bytes) -> bytes:
cipher = DES3.new(CARDCONV_KEY, DES3.MODE_CBC, iv=b'\0' * 8) cipher = DES3.new(CARDCONV_KEY, DES3.MODE_CBC, iv=b'\0' * 8)
return cipher.decrypt(uid) return cipher.decrypt(uid)
def checksum(data): def checksum(data: bytes) -> int:
chk = sum(data[i] * (i % 3 + 1) for i in range(15)) chk = sum(data[i] * (i % 3 + 1) for i in range(15))
while chk > 31: while chk > 31:
@ -27,7 +27,7 @@ def checksum(data):
return chk return chk
def uid_to_konami(uid): def uid_to_konami(uid: str) -> str:
assert_true(len(uid) == 16, "UID must be 16 bytes", InvalidCard) assert_true(len(uid) == 16, "UID must be 16 bytes", InvalidCard)
if uid.upper().startswith("E004"): if uid.upper().startswith("E004"):
@ -52,7 +52,7 @@ def uid_to_konami(uid):
return "".join(CARD_ALPHABET[i] for i in out) return "".join(CARD_ALPHABET[i] for i in out)
def konami_to_uid(konami_id): def konami_to_uid(konami_id: str) -> str:
if konami_id[14] == "1": if konami_id[14] == "1":
card_type = 1 card_type = 1
elif konami_id[14] == "2": elif konami_id[14] == "2":
@ -62,7 +62,7 @@ def konami_to_uid(konami_id):
assert_true(len(konami_id) == 16, "ID must be 16 characters", InvalidCard) assert_true(len(konami_id) == 16, "ID must be 16 characters", InvalidCard)
assert_true(all(i in CARD_ALPHABET for i in konami_id), "ID contains invalid characters", InvalidCard) assert_true(all(i in CARD_ALPHABET for i in konami_id), "ID contains invalid characters", InvalidCard)
card = [CARD_ALPHABET.index(i) for i in konami_id] card = bytearray([CARD_ALPHABET.index(i) for i in konami_id])
assert_true(card[11] % 2 == card[12] % 2, "Parity check failed", InvalidCard) assert_true(card[11] % 2 == card[12] % 2, "Parity check failed", InvalidCard)
assert_true(card[13] == card[12] ^ 1, "Card invalid", InvalidCard) assert_true(card[13] == card[12] ^ 1, "Card invalid", InvalidCard)
assert_true(card[15] == checksum(card), "Checksum failed", InvalidCard) assert_true(card[15] == checksum(card), "Checksum failed", InvalidCard)

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@ -59,7 +59,7 @@ class _Type:
fmt: str fmt: str
names: List[str] names: List[str]
c_name: str c_name: str
convert: Callable convert: Callable | None
size: int = 1 size: int = 1
no_check: bool = False no_check: bool = False
@ -75,7 +75,14 @@ class _Type:
return (*map(self.convert, value),) return (*map(self.convert, value),)
def parse_ip(ip): def parse_ip(ip: int | str) -> tuple[int, int, int, int]:
if isinstance(ip, int):
return (
(ip >> 24) & 0xff,
(ip >> 16) & 0xff,
(ip >> 8) & 0xff,
(ip >> 0) & 0xff,
)
return (*map(int, ip.split(".")),) return (*map(int, ip.split(".")),)
@ -92,6 +99,7 @@ class Type(enum.Enum):
Blob = _Type(0x0a, "S", ["bin", "binary"], "char[]", bytes) Blob = _Type(0x0a, "S", ["bin", "binary"], "char[]", bytes)
Str = _Type(0x0b, "s", ["str", "string"], "char[]", unescape) Str = _Type(0x0b, "s", ["str", "string"], "char[]", unescape)
IPv4 = _Type(0x0c, "4B", ["ip4"], "uint8[4]", parse_ip, 1, True) IPv4 = _Type(0x0c, "4B", ["ip4"], "uint8[4]", parse_ip, 1, True)
IPv4_Int = _Type(0x0c, "I", ["ip4"], "uint8[4]", parse_ip, 1, True)
Time = _Type(0x0d, "I", ["time"], "uint32", int) Time = _Type(0x0d, "I", ["time"], "uint32", int)
Float = _Type(0x0e, "f", ["float", "f"], "float", float) Float = _Type(0x0e, "f", ["float", "f"], "float", float)
Double = _Type(0x0f, "d", ["double", "d"], "double", float) Double = _Type(0x0f, "d", ["double", "d"], "double", float)

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@ -25,7 +25,8 @@ prng = new_prng()
def validate_key(info): def validate_key(info):
match = re.match(r"^(\d)-([0-9a-f]{8})-([0-9a-f]{4})$", info) match = re.match(r"^(\d)-([0-9a-f]{8})-([0-9a-f]{4})$", info)
assert_true(match, "Invalid eamuse info key") assert_true(match is not None, "Invalid eamuse info key")
assert match is not None
version = match.group(1) version = match.group(1)
assert_true(version == "1", f"Unsupported encryption version ({version})") assert_true(version == "1", f"Unsupported encryption version ({version})")

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@ -14,7 +14,7 @@ except ModuleNotFoundError:
from .packer import Packer from .packer import Packer
from .const import ( from .const import (
NAME_MAX_COMPRESSED, NAME_MAX_DECOMPRESSED, ATTR, PACK_ALPHABET, END_NODE, END_DOC, ARRAY_BIT, NAME_MAX_COMPRESSED, NAME_MAX_DECOMPRESSED, ATTR, PACK_ALPHABET, END_NODE, END_DOC, ARRAY_BIT,
ENCODING, CONTENT, CONTENT_COMP, CONTENT_FULL, XML_ENCODING, Type ENCODING, CONTENT, CONTENT_COMP, CONTENT_FULL, XML_ENCODING, DEFAULT_ENCODING, Type
) )
from .misc import unpack, py_encoding, assert_true from .misc import unpack, py_encoding, assert_true
from .node import XMLNode from .node import XMLNode
@ -45,7 +45,7 @@ class Decoder:
if self.packer: if self.packer:
self.packer.notify_skipped(length) self.packer.notify_skipped(length)
raw = self.stream.read(length) raw = self.stream.read(length)
return raw.decode(py_encoding(self.encoding)).rstrip("\0") return raw.decode(py_encoding(self.encoding or DEFAULT_ENCODING)).rstrip("\0")
length = struct.calcsize("=" + s_format) length = struct.calcsize("=" + s_format)
if self.packer and align: if self.packer and align:
@ -55,22 +55,27 @@ class Decoder:
value = struct.unpack(">" + s_format, data) value = struct.unpack(">" + s_format, data)
return value[0] if single else value return value[0] if single else value
def _read_node_value(self, node): def _read_node_value(self, node: XMLNode) -> None:
fmt = node.type.value.fmt fmt = node.type.value.fmt
count = 1 count = 1
if node.is_array: if node.is_array:
length = struct.calcsize("=" + fmt) length = struct.calcsize("=" + fmt)
count = self.read("I") // length nbytes = self.read("I")
assert isinstance(nbytes, int)
count = nbytes // length
values = [] values = []
for _ in range(count): for _ in range(count):
values.append(self.read(fmt, single=len(fmt) == 1, align=False)) values.append(self.read(fmt, single=len(fmt) == 1, align=False))
self.packer.notify_skipped(count * length)
return values
assert self.packer is not None
self.packer.notify_skipped(count * length)
node.value = values
else:
node.value = self.read(fmt, single=len(fmt) == 1) node.value = self.read(fmt, single=len(fmt) == 1)
def _read_metadata_name(self): def _read_metadata_name(self) -> str:
length = self.read("B") length = self.read("B")
assert isinstance(length, int)
if not self.compressed: if not self.compressed:
if length < 0x80: if length < 0x80:
@ -78,14 +83,16 @@ class Decoder:
# i.e. length = (length & ~0x40) + 1 # i.e. length = (length & ~0x40) + 1
length -= 0x3f length -= 0x3f
else: else:
length = (length << 8) | self.read("B") extra = self.read("B")
assert isinstance(extra, int)
length = (length << 8) | extra
# i.e. length = (length & ~0x8000) + 0x41 # i.e. length = (length & ~0x8000) + 0x41
length -= 0x7fbf length -= 0x7fbf
assert_true(length <= NAME_MAX_DECOMPRESSED, "Name length too long", DecodeError) assert_true(length <= NAME_MAX_DECOMPRESSED, "Name length too long", DecodeError)
name = self.stream.read(length) name = self.stream.read(length)
assert_true(len(name) == length, "Not enough bytes to read name", DecodeError) assert_true(len(name) == length, "Not enough bytes to read name", DecodeError)
return name.decode(self.encoding) return name.decode(self.encoding or "")
out = "" out = ""
if length == 0: if length == 0:
@ -99,7 +106,7 @@ class Decoder:
def _read_metadata(self, type_): def _read_metadata(self, type_):
name = self._read_metadata_name() name = self._read_metadata_name()
node = XMLNode(name, type_, None, encoding=self.encoding) node = XMLNode(name, type_, None, encoding=self.encoding or DEFAULT_ENCODING)
while (child := self.read("B")) != END_NODE: while (child := self.read("B")) != END_NODE:
if child == ATTR: if child == ATTR:
@ -109,8 +116,8 @@ class Decoder:
node.children.append(attr) node.children.append(attr)
else: else:
node.children.append(self._read_metadata(child)) node.children.append(self._read_metadata(child))
is_array = not not (type_ & ARRAY_BIT)
if is_array: if type_ & ARRAY_BIT:
node.value = [] node.value = []
return node return node
@ -140,6 +147,8 @@ class Decoder:
def _read_xml_string(self): def _read_xml_string(self):
assert_true(etree is not None, "lxml missing", DecodeError) assert_true(etree is not None, "lxml missing", DecodeError)
assert etree is not None
parser = etree.XMLParser(remove_comments=True) parser = etree.XMLParser(remove_comments=True)
tree = etree.XML(self.stream.read(), parser) tree = etree.XML(self.stream.read(), parser)
self.encoding = XML_ENCODING[tree.getroottree().docinfo.encoding.upper()] self.encoding = XML_ENCODING[tree.getroottree().docinfo.encoding.upper()]
@ -164,7 +173,11 @@ class Decoder:
d_type = type_.value d_type = type_.value
if d_type.size == 1 and not is_array: if d_type.size == 1 and not is_array:
try:
value = d_type._parse(node.text or "") value = d_type._parse(node.text or "")
except ValueError:
print(f"Failed to parse {node.tag} ({d_type.names[0]}): {repr(node.text)}")
raise
else: else:
data = node.text.split(" ") data = node.text.split(" ")
@ -174,7 +187,7 @@ class Decoder:
if not is_array: if not is_array:
value = value[0] value = value[0]
xml_node = XMLNode(node.tag, type_, value, encoding=self.encoding) xml_node = XMLNode(node.tag, type_, value, encoding=self.encoding or DEFAULT_ENCODING)
for i in node.getchildren(): for i in node.getchildren():
xml_node.children.append(walk(i)) xml_node.children.append(walk(i))
@ -198,21 +211,27 @@ class Decoder:
self._read_magic() self._read_magic()
header_len = self.read("I") header_len = self.read("I")
assert isinstance(header_len, int)
start = self.stream.tell() start = self.stream.tell()
schema = self._read_metadata(self.read("B")) schema = self._read_metadata(self.read("B"))
assert_true(self.read("B") == END_DOC, "Unterminated schema", DecodeError) assert_true(self.read("B") == END_DOC, "Unterminated schema", DecodeError)
padding = header_len - (self.stream.tell() - start) padding = header_len - (self.stream.tell() - start)
assert_true(padding >= 0, "Invalid schema definition", DecodeError) assert_true(padding >= 0, "Invalid schema definition", DecodeError)
assert_true(all(i == 0 for i in self.stream.read(padding)), "Invalid schema padding", DecodeError) assert_true(
all(i == 0 for i in self.stream.read(padding)), "Invalid schema padding", DecodeError
)
body_len = self.read("I") body_len = self.read("I")
assert isinstance(body_len, int)
start = self.stream.tell() start = self.stream.tell()
self.packer = Packer(start) self.packer = Packer(start)
data = self._read_databody(schema) data = self._read_databody(schema)
self.stream.seek(self.packer.request_allocation(0)) self.stream.seek(self.packer.request_allocation(0))
padding = body_len - (self.stream.tell() - start) padding = body_len - (self.stream.tell() - start)
assert_true(padding >= 0, "Data shape not match schema", DecodeError) assert_true(padding >= 0, "Data shape not match schema", DecodeError)
assert_true(all(i == 0 for i in self.stream.read(padding)), "Invalid data padding", DecodeError) assert_true(
all(i == 0 for i in self.stream.read(padding)), "Invalid data padding", DecodeError
)
assert_true(self.stream.read(1) == b"", "Trailing data unconsumed", DecodeError) assert_true(self.stream.read(1) == b"", "Trailing data unconsumed", DecodeError)

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@ -9,6 +9,7 @@ from .const import (
CONTENT_ASCII_SCHEMA CONTENT_ASCII_SCHEMA
) )
from .exception import EncodeError from .exception import EncodeError
from .node import XMLNode
class Encoder: class Encoder:
@ -36,11 +37,13 @@ class Encoder:
def write(self, s_format, value, single=True): def write(self, s_format, value, single=True):
if s_format == "S": if s_format == "S":
assert self.packer is not None
self.write("L", len(value)) self.write("L", len(value))
self.stream.write(value) self.stream.write(value)
self.packer.notify_skipped(len(value)) self.packer.notify_skipped(len(value))
return return
if s_format == "s": if s_format == "s":
assert self.packer is not None
value = value.encode(py_encoding(ENCODING[self.encoding])) + b"\0" value = value.encode(py_encoding(ENCODING[self.encoding])) + b"\0"
self.write("L", len(value)) self.write("L", len(value))
self.stream.write(value) self.stream.write(value)
@ -49,17 +52,12 @@ class Encoder:
length = struct.calcsize("=" + s_format) length = struct.calcsize("=" + s_format)
if not isinstance(value, list): if isinstance(value, list):
value = [value] assert self.packer is not None
count = len(value) self.write("L", len(value) * length)
if count != 1: self.packer.notify_skipped(len(value) * length)
self.write("L", count * length)
self.packer.notify_skipped(count * length)
for x in value: for x in value:
if self.packer and count == 1:
self.stream.seek(self.packer.request_allocation(length))
try: try:
if single: if single:
self.stream.write(struct.pack(f">{s_format}", x)) self.stream.write(struct.pack(f">{s_format}", x))
@ -67,6 +65,17 @@ class Encoder:
self.stream.write(struct.pack(f">{s_format}", *x)) self.stream.write(struct.pack(f">{s_format}", *x))
except struct.error: except struct.error:
raise ValueError(f"Failed to pack {s_format}: {repr(x)}") raise ValueError(f"Failed to pack {s_format}: {repr(x)}")
else:
if self.packer:
self.stream.seek(self.packer.request_allocation(length))
try:
if single:
self.stream.write(struct.pack(f">{s_format}", value))
else:
self.stream.write(struct.pack(f">{s_format}", *value))
except struct.error:
raise ValueError(f"Failed to pack {s_format}: {repr(value)}")
def _write_node_value(self, type_, value): def _write_node_value(self, type_, value):
fmt = type_.value.fmt fmt = type_.value.fmt
@ -105,7 +114,7 @@ class Encoder:
self._write_metadata(child) self._write_metadata(child)
self.write("B", END_NODE) self.write("B", END_NODE)
def _write_databody(self, data): def _write_databody(self, data: XMLNode):
self._write_node_value(data.type, data.value) self._write_node_value(data.type, data.value)
for attr in data.attributes: for attr in data.attributes:

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@ -20,3 +20,15 @@ class EncodeError(CheckFailed):
class InvalidModel(EAAPIException): class InvalidModel(EAAPIException):
pass pass
class XMLStrutureError(EAAPIException):
pass
class NodeNotFound(XMLStrutureError, IndexError):
pass
class AttributeNotFound(XMLStrutureError, KeyError):
pass

4
eaapi/keys.py Normal file
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@ -0,0 +1,4 @@
CARDCONV_KEY = b"?I'llB2c.YouXXXeMeHaYpy!"
CARDCONV_KEY = bytes(i * 2 for i in CARDCONV_KEY) # Preprocess the key
EA_KEY = b"\x69\xD7\x46\x27\xD9\x85\xEE\x21\x87\x16\x15\x70\xD0\x8D\x93\xB1\x24\x55\x03\x5B\x6D\xF0\xD8\x20\x5D\xF5"

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@ -1,5 +0,0 @@
CARDCONV_KEY = b""
EA_KEY = b""
# Perhaps my [flag collection](https://bsnk.me/eamuse/flags.html) could be of interest
raise NotImplementedError

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@ -10,7 +10,7 @@ MAX_LEN = 0xF + THRESHOLD
MAX_BUFFER = 0x10 + 1 MAX_BUFFER = 0x10 + 1
def match_current(window, pos, max_len, data, dpos): def match_current(window: bytes, pos: int, max_len: int, data: bytes, dpos: int) -> int:
length = 0 length = 0
while ( while (
dpos + length < len(data) dpos + length < len(data)
@ -22,7 +22,7 @@ def match_current(window, pos, max_len, data, dpos):
return length return length
def match_window(window, pos, data, d_pos): def match_window(window: bytes, pos: int, data: bytes, d_pos: int) -> None | tuple[int, int]:
max_pos = 0 max_pos = 0
max_len = 0 max_len = 0
for i in range(THRESHOLD, LOOK_RANGE): for i in range(THRESHOLD, LOOK_RANGE):
@ -37,9 +37,9 @@ def match_window(window, pos, data, d_pos):
return None return None
def lz77_compress(data): def lz77_compress(data: bytes) -> bytes:
output = bytearray() output = bytearray()
window = [0] * WINDOW_SIZE window = bytearray(WINDOW_SIZE)
current_pos = 0 current_pos = 0
current_window = 0 current_window = 0
current_buffer = 0 current_buffer = 0
@ -95,10 +95,10 @@ def lz77_compress(data):
return bytes(output) return bytes(output)
def lz77_decompress(data): def lz77_decompress(data: bytes) -> bytes:
output = bytearray() output = bytearray()
cur_byte = 0 cur_byte = 0
window = [0] * WINDOW_SIZE window = bytearray(WINDOW_SIZE)
window_cursor = 0 window_cursor = 0
while cur_byte < len(data): while cur_byte < len(data):

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@ -1,24 +1,27 @@
import inspect import inspect
import re import re
from typing import Type
from .exception import CheckFailed, InvalidModel from .exception import CheckFailed, InvalidModel
def assert_true(check, reason, exc=CheckFailed): def assert_true(check: bool, reason: str, exc: Type[Exception] = CheckFailed):
if not check: if not check:
line = inspect.stack()[1].code_context line = inspect.stack()[1].code_context
if line:
print() print()
print("\n".join(line)) print("\n".join(line))
raise exc(reason) raise exc(reason)
def py_encoding(name): def py_encoding(name: str) -> str:
if name.startswith("shift-jis"): if name.startswith("shift-jis"):
return "shift-jis" return "shift-jis"
return name return name
def parse_model(model): def parse_model(model: str) -> tuple[str, str, str, str, str]:
# e.g. KFC:J:A:A:2019020600 # e.g. KFC:J:A:A:2019020600
match = re.match(r"^([A-Z0-9]{3}):([A-Z]):([A-Z]):([A-Z])(?::(\d{10}))?$", model) match = re.match(r"^([A-Z0-9]{3}):([A-Z]):([A-Z]):([A-Z])(?::(\d{10}))?$", model)
if match is None: if match is None:
@ -27,7 +30,7 @@ def parse_model(model):
return gamecode, dest, spec, rev, datecode return gamecode, dest, spec, rev, datecode
def pack(data, width): def pack(data, width: int) -> bytes:
assert_true(1 <= width <= 8, "Invalid pack size") assert_true(1 <= width <= 8, "Invalid pack size")
assert_true(all(i < (1 << width) for i in data), "Data too large for packing") assert_true(all(i < (1 << width) for i in data), "Data too large for packing")
bit_buf = in_buf = 0 bit_buf = in_buf = 0
@ -48,7 +51,7 @@ def pack(data, width):
return bytes(output) return bytes(output)
def unpack(data, width): def unpack(data, width: int) -> bytes:
assert_true(1 <= width <= 8, "Invalid pack size") assert_true(1 <= width <= 8, "Invalid pack size")
bit_buf = in_buf = 0 bit_buf = in_buf = 0
output = bytearray() output = bytearray()

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@ -1,17 +1,20 @@
import binascii import binascii
import re import re
from typing import Generator, Any
from html import escape from html import escape
from .misc import assert_true from .misc import assert_true
from .const import DEFAULT_ENCODING, NAME_MAX_COMPRESSED, XML_ENCODING_BACK, Type from .const import DEFAULT_ENCODING, NAME_MAX_COMPRESSED, XML_ENCODING_BACK, Type
from .exception import XMLStrutureError, NodeNotFound, AttributeNotFound
class XMLNode: class XMLNode:
def __init__(self, name, type_, value, attributes=None, encoding=DEFAULT_ENCODING): def __init__(self, name, type_, value, attributes=None, encoding=DEFAULT_ENCODING):
self.name = name self.name = name
self.type = type_ if isinstance(type_, Type) else Type.from_val(type_) self.type = type_ if isinstance(type_, Type) else Type.from_val(type_)
self.value = value self.value: Any = value # TODO: A stricter way to do this. Subclassing?
self.children = [] self.children = []
self.attributes = {} self.attributes = {}
if attributes is not None: if attributes is not None:
@ -41,12 +44,12 @@ class XMLNode:
for i in self.children: for i in self.children:
if i.name == child: if i.name == child:
return i._xpath(attr, path) return i._xpath(attr, path)
raise IndexError raise NodeNotFound
if not attr: if not attr:
return self return self
if attr in self.attributes: if attr in self.attributes:
return self.attributes[attr] return self.attributes[attr]
raise IndexError raise AttributeNotFound
def xpath(self, path): def xpath(self, path):
match = re.match(r"^(?:@([\w:]+)/)?((?:[\w:]+(?:/|$))+)", path) match = re.match(r"^(?:@([\w:]+)/)?((?:[\w:]+(?:/|$))+)", path)
@ -64,22 +67,26 @@ class XMLNode:
def __len__(self): def __len__(self):
return len(self.children) return len(self.children)
def __iter__(self): def __iter__(self) -> Generator["XMLNode", None, None]:
for i in self.children: for i in self.children:
yield i yield i
def get(self, name, default=None): def get(self, name, default=None):
try: try:
return self[name] return self[name]
except IndexError: except XMLStrutureError:
return default
except KeyError:
return default return default
def __getitem__(self, name): def __getitem__(self, name):
if isinstance(name, int): if isinstance(name, int):
try:
return self.children[name] return self.children[name]
except IndexError:
raise NodeNotFound
try:
return self.attributes[name] return self.attributes[name]
except KeyError:
raise AttributeNotFound
def __setitem__(self, name, value): def __setitem__(self, name, value):
self.attributes[name] = value self.attributes[name] = value
@ -94,12 +101,19 @@ class XMLNode:
def __str__(self): def __str__(self):
return self.to_str(pretty=True) return self.to_str(pretty=True)
def _value_str(self, value): def _value_str(self, value: Any) -> str:
if isinstance(value, list): if isinstance(value, list):
return " ".join(map(self._value_str, value)) return " ".join(map(self._value_str, value))
if self.type == Type.Blob: if self.type == Type.Blob:
return binascii.hexlify(value).decode() return binascii.hexlify(value).decode()
if self.type == Type.IPv4: if self.type == Type.IPv4 or self.type == Type.IPv4_Int:
if isinstance(value, int):
value = (
(value >> 24) & 0xff,
(value >> 16) & 0xff,
(value >> 8) & 0xff,
(value >> 0) & 0xff,
)
return f"{value[0]}.{value[1]}.{value[2]}.{value[3]}" return f"{value[0]}.{value[1]}.{value[2]}.{value[3]}"
if self.type in (Type.Float, Type.TwoFloat, Type.ThreeFloat): if self.type in (Type.Float, Type.TwoFloat, Type.ThreeFloat):
return f"{value:.6f}" return f"{value:.6f}"

View File

@ -2,17 +2,17 @@ import math
class Packer: class Packer:
def __init__(self, offset=0): def __init__(self, offset: int = 0):
self._word_cursor = offset self._word_cursor = offset
self._short_cursor = offset self._short_cursor = offset
self._byte_cursor = offset self._byte_cursor = offset
self._boundary = offset % 4 self._boundary = offset % 4
def _next_block(self): def _next_block(self) -> int:
self._word_cursor += 4 self._word_cursor += 4
return self._word_cursor - 4 return self._word_cursor - 4
def request_allocation(self, size): def request_allocation(self, size: int) -> int:
if size == 0: if size == 0:
return self._word_cursor return self._word_cursor
elif size == 1: elif size == 1:
@ -33,7 +33,7 @@ class Packer:
self._word_cursor += 4 self._word_cursor += 4
return old_cursor return old_cursor
def notify_skipped(self, no_bytes): def notify_skipped(self, no_bytes: int) -> None:
for _ in range(math.ceil(no_bytes / 4)): for _ in range(math.ceil(no_bytes / 4)):
self.request_allocation(4) self.request_allocation(4)

View File

@ -2,7 +2,7 @@ from .crypt import ea_symmetric_crypt
from .lz77 import lz77_compress, lz77_decompress from .lz77 import lz77_compress, lz77_decompress
def wrap(packet, info=None, compressed=True): def wrap(packet: bytes, info: str | None = None, compressed: bool = True) -> bytes:
if compressed: if compressed:
packet = lz77_compress(packet) packet = lz77_compress(packet)
if info is None: if info is None:
@ -10,7 +10,7 @@ def wrap(packet, info=None, compressed=True):
return ea_symmetric_crypt(packet, info) return ea_symmetric_crypt(packet, info)
def unwrap(packet, info=None, compressed=True): def unwrap(packet: bytes, info: str | None = None, compressed: bool = True) -> bytes:
if info is None: if info is None:
decrypted = packet decrypted = packet
else: else: