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bemaniutils/bemani/protocol/xml.py

595 lines
20 KiB
Python

import copy
import struct
from typing import Any, Dict, Iterator, List, Optional, Tuple
from typing_extensions import Final
from bemani.protocol.stream import InputStream
from bemani.protocol.node import Node
class XmlEncodingException(Exception):
"""
An exception that is thrown when we encounter an error encoding to or decoding from XML.
"""
class XmlDecoder:
"""
A hand-rolled XML parser, suitable for parsing old-style XML documents in
game data or from legacy game traffic. I did consider using lxml and other
data stores, but they insist on mangling data inside binary/string blobs
making them unsuitable for a protocol with exact specifications.
"""
def __init__(self, data: bytes, encoding: str) -> None:
"""
Initialize the XML decoder.
Parameters:
data - String XML data which should be decoded into Nodes.
encoding - The expected encoding of the XML.
"""
self.stream = InputStream(data)
self.root: Optional[Node] = None
self.current: List[Node] = []
self.encoding = encoding
def __start_element(self, tag: bytes, attributes: Dict[str, str]) -> None:
"""
Called when we encounter an element open tag. Also called when we encounter
an empty element. Creates a new node with the specified name and attributes.
Parameters:
tag - The string tag name.
attributes - A dictionary keyed by attribute name and whose values are the string
attribute values. This attribute values should already be decoded from
the XML's encoding.
"""
data_type = attributes.get("__type")
array_str = attributes.get("__count")
if array_str is not None:
array = True
else:
array = False
if data_type is None:
# Special case for nodes that don't have a type
node = Node(name=tag.decode("ascii"), type=Node.NODE_TYPE_VOID)
else:
# Get the data value
type_int = Node.typename_to_type(data_type)
if type_int is None:
raise XmlEncodingException(
f'Invalid node type {data_type} for node {tag.decode("ascii")}'
)
node = Node(name=tag.decode("ascii"), type=type_int, array=array)
# Now, do the attributes
for attr in attributes:
if attr == "__type" or attr == "__count":
# Skip these, handled
continue
else:
node.set_attribute(attr, attributes[attr])
self.current.append(node)
def __end_element(self, tag: bytes) -> None:
"""
Called when we encounter an element close tag. Also called when we encounter an empty element,
after __start_element is called. Does bookkeeping related to element order.
Parameters:
tag - The string tag name.
"""
node = self.current.pop()
if node.name != tag.decode("ascii"):
raise Exception(
f'Logic error, expected {tag.decode("ascii")} but got {node.name}'
)
if len(self.current) == 0:
self.root = node
else:
parent = self.current[-1]
parent.add_child(node)
def __yield_values(self, text: str) -> Iterator[str]:
value = ""
for c in text:
if c.isspace():
if len(value) > 0:
yield value
value = ""
else:
value = value + c
if len(value) > 0:
yield value
def __text(self, text: bytes) -> None:
"""
Called when we finish parsing arbitrary non-element text. Note that the text passed in is in
the XML document's encoding and it is this function's responsibility to decode it.
Parameters:
text - String text value of the node, as encoded by the XML document's encoding.
"""
try:
value = text.decode(self.encoding)
except UnicodeDecodeError:
raise XmlEncodingException("Failed to decode text node with given encoding")
if len(self.current) > 0:
data_type = self.current[-1].data_type
composite = self.current[-1].is_composite
array = self.current[-1].is_array
if data_type == "void":
# We can't handle this
return
if data_type == "str":
# Do nothing, already fine
value = value.replace("&", "&")
value = value.replace("&lt;", "<")
value = value.replace("&gt;", ">")
value = value.replace("&apos;", "'")
value = value.replace("&quot;", '"')
if self.current[-1].value is None:
self.current[-1].set_value(value)
else:
self.current[-1].set_value(self.current[-1].value + value)
elif data_type == "bin":
# Convert from a hex string
def hex_to_bin(hexval: str) -> bytes:
intval = int(hexval, 16)
return struct.pack(">B", intval)
# Remove any spaces first
value = "".join([c for c in value if not c.isspace()])
if self.current[-1].value is None:
self.current[-1].set_value(
b"".join(
[
hex_to_bin(value[i : (i + 2)])
for i in range(0, len(value), 2)
]
)
)
else:
self.current[-1].set_value(
self.current[-1].value
+ b"".join(
[
hex_to_bin(value[i : (i + 2)])
for i in range(0, len(value), 2)
]
)
)
elif data_type == "ip4":
# Do nothing, already fine
self.current[-1].set_value(value)
elif data_type == "bool":
def conv_bool(val: str) -> bool:
if val and val.lower() in ["0", "false"]:
return False
else:
return True
if array or composite:
self.current[-1].set_value(
[conv_bool(v) for v in self.__yield_values(value)]
)
else:
self.current[-1].set_value(conv_bool(value))
elif data_type == "float":
if array or composite:
self.current[-1].set_value(
[float(v) for v in self.__yield_values(value)]
)
else:
self.current[-1].set_value(float(value))
else:
if array or composite:
self.current[-1].set_value(
[int(v) for v in self.__yield_values(value)]
)
else:
self.current[-1].set_value(int(value))
def __parse_attributes(self, attributes: bytes) -> Dict[str, str]:
"""
Given a string representing zero or more possible attributes, parse them into
a dictionary.
Returns:
A dictionary keyed by the attribute name and who's values are unescaped strings.
If no attributes exist, this returns an empty dictionary.
"""
attr_stream = InputStream(attributes)
parsed_attrs: Dict[str, str] = {}
state = "space"
attr = b""
val = b""
def unescape(value: bytes) -> str:
val = value.decode(self.encoding)
val = val.replace("&amp;", "&")
val = val.replace("&lt;", "<")
val = val.replace("&gt;", ">")
val = val.replace("&apos;", "'")
val = val.replace("&quot;", '"')
val = val.replace("&#13;", "\r")
return val.replace("&#10;", "\n")
while True:
c = attr_stream.read_byte()
if c is None:
return parsed_attrs
if state == "space":
if not c.isspace():
state = "attr"
attr = c
elif state == "attr":
if c == b"=":
attr = attr.strip()
state = "valstart"
else:
attr = attr + c
elif state == "valstart":
if c == b'"':
state = "valdouble"
val = b""
elif c == b"'":
state = "valsingle"
val = b""
elif state == "valdouble":
if c == b'"':
state = "space"
parsed_attrs[attr.decode("ascii")] = unescape(val)
else:
val = val + c
elif state == "valsingle":
if c == b"'":
state = "space"
parsed_attrs[attr.decode("ascii")] = unescape(val)
else:
val = val + c
def __split_node(self, content: bytes) -> Tuple[bytes, bytes]:
node_stream = InputStream(content)
tag = b""
attributes = b""
state = "tag"
while True:
c = node_stream.read_byte()
if c is None:
break
if state == "tag":
if c.isspace():
state = "space"
else:
tag = tag + c
elif state == "space":
if not c.isspace():
attributes = c
state = "attributes"
elif state == "attributes":
attributes = attributes + c
return (tag, attributes)
def __handle_node(self, content: bytes) -> None:
"""
Called whenever we encounter any node type. Filters out special nodes,
determines whether this is a start, end or empty node, and fires off
calls to the respective __start_element and __end_element functions.
Parameters:
The node contents, minus the < and > characters. This will be encoded
in the XML document's encoding.
"""
if content[:1] == b"?" and content[-1:] == b"?":
# Special node, parse to get the encoding.
tag, attributes = self.__split_node(content[1:-1])
if tag == b"xml":
attributes_dict = self.__parse_attributes(attributes)
if "encoding" in attributes_dict:
self.encoding = attributes_dict["encoding"]
return
if content[:1] == b"/":
# We got an element end
self.__end_element(content[1:])
else:
# We got a start element
if content[-1:] == b"/":
# This is an empty element
empty = True
content = content[:-1]
else:
# This node has subnodes or text
empty = False
tag, attributes = self.__split_node(content)
self.__start_element(tag, self.__parse_attributes(attributes))
if empty:
self.__end_element(tag)
def get_tree(self) -> Optional[Node]:
"""
Walk the XML document and parse into nodes.
Returns:
A Node object representing the root of the XML document.
"""
state = "text"
text = b""
node = b""
while True:
c = self.stream.read_byte()
if c is None:
return self.root
elif state == "text":
if c == b"<":
self.__text(text)
state = "node"
node = b""
else:
text = text + c
elif state == "node":
if c == b">":
self.__handle_node(node)
state = "text"
text = b""
else:
node = node + c
class XmlEncoder:
def __init__(self, tree: Node, encoding: str) -> None:
"""
Initialize the XML encoder.
Parameters:
tree - A binary blob of data to be decoded
encoding - A string representing the text encoding for string elements. Should be either
'shift-jis', 'euc-jp', 'utf-8' or 'ascii'.
"""
self.tree = tree
self.encoding = encoding
def get_data(self) -> bytes:
magic = f'<?xml version="1.0" encoding="{self.encoding}"?>'.encode("ascii")
payload = self.to_xml(self.tree)
return magic + payload
def to_xml(self, node: Node) -> bytes:
"""
Convert this node, attributes and all children to an XML-like representation of the tree.
Parameters:
node: A Node representing the root of the tree to be encoded.
Returns:
Bytes representing the XML-like data for this node and all children.
"""
attrs_dict = copy.deepcopy(node.attributes)
order = sorted(attrs_dict.keys())
if node.data_length != 0:
# Represent type and length
if node.is_array:
if node.value is None:
attrs_dict["__count"] = "0"
else:
attrs_dict["__count"] = str(len(node.value))
order.insert(0, "__count")
attrs_dict["__type"] = node.data_type
order.insert(0, "__type")
def escape(val: Any, attr: bool = False) -> bytes:
if isinstance(val, str):
val = val.replace("&", "&amp;")
val = val.replace("<", "&lt;")
val = val.replace(">", "&gt;")
val = val.replace("'", "&apos;")
val = val.replace('"', "&quot;")
if attr:
val = val.replace("\r", "&#13;")
val = val.replace("\n", "&#10;")
return val.encode(self.encoding)
else:
return str(val).encode("ascii")
if attrs_dict:
attrs = b" " + b" ".join(
[
b"".join(
[
attr.encode("ascii"),
b'="',
escape(attrs_dict[attr], attr=True),
b'"',
]
)
for attr in order
]
)
else:
attrs = b""
if node.children:
# Has children nodes
children = [self.to_xml(child) for child in node.children]
string = b"".join(
[
b"<",
node.name.encode("ascii"),
attrs,
b">",
b"".join(children),
b"</",
node.name.encode("ascii"),
b">",
]
)
else:
# Doesn't have children nodes
if node.data_length == 0:
# Void node
string = b"".join(
[
b"<",
node.name.encode("ascii"),
attrs,
b"/>",
]
)
else:
# Node with values
if node.is_array or node.is_composite:
if node.value is None:
vals = ""
else:
if node.data_type == "bool":
vals = " ".join(
[("1" if val else "0") for val in node.value]
)
else:
vals = " ".join([str(val) for val in node.value])
binary = vals.encode("ascii")
elif node.data_type == "str":
binary = escape(node.value)
elif node.data_type == "bool":
binary = b"1" if node.value else b"0"
elif node.data_type == "ip4":
vals = ".".join([str(val) for val in node.value])
binary = vals.encode("ascii")
elif node.data_type == "bin":
# Convert to a hex string
def bin_to_hex(binary: int) -> str:
val = hex(binary)[2:]
while len(val) < 2:
val = "0" + val
return val
vals = "".join([bin_to_hex(v) for v in node.value])
binary = vals.encode("ascii")
else:
vals = str(node.value)
binary = vals.encode("ascii")
string = b"".join(
[
b"<",
node.name.encode("ascii"),
attrs,
b">",
binary,
b"</",
node.name.encode("ascii"),
b">",
]
)
return string
class XmlEncoding:
"""
Wrapper class representing an XML encoding.
"""
# The string values should match the constants in EAmuseProtocol.
# I have no better way to link these than to write this comment,
# as otherwise we would have a circular dependency.
ACCEPTED_ENCODINGS: Final[List[str]] = ["shift-jis", "euc-jp", "utf-8", "ascii"]
def __init__(self) -> None:
"""
Initialize the encoding object.
"""
self.encoding: Optional[str] = None
def __fix_encoding(self, encoding: str) -> str:
"""
Given an encoding, try to normalize it, looking for specific ways that
older games might send it back.
Parameters:
encoding - The encoding we want to normalize.
Returns:
A new encoding string that is equivalent but normalized.
"""
encoding = encoding.lower()
encoding = encoding.replace("_", "-")
return encoding
def decode(self, data: bytes, skip_on_exceptions: bool = False) -> Optional[Node]:
"""
Given a data blob, decode the data with the current encoding. Will set
the class property value 'encoding' to the encoding used on the last
decode.
Parameters:
data - Blob of text representing the data to decode.
Returns:
Node object representing the root of the decoded tree, or None
if we couldn't decode the object for some reason.
"""
# Always assume this, unless we get told otherwise in the XML
self.encoding = "shift-jis"
# Decode property/value
try:
xml = XmlDecoder(data, self.encoding)
tree = xml.get_tree()
self.encoding = xml.encoding
return tree
except XmlEncodingException:
if skip_on_exceptions:
return None
else:
raise
def encode(self, tree: Node, encoding: Optional[str] = None) -> bytes:
"""
Given a tree of Node objects, encode the data with the current encoding.
Parameters:
tree - Node tree representing the data to encode
encoding - The text encoding to use. If None, will try to use the encoding from
the last successful decode
Returns:
String blob representing encoded data as XML.
"""
# Ensure we got the right encoding
if encoding is None:
encoding = self.encoding
if encoding is None:
raise XmlEncodingException("Unknown encoding")
encoding = self.__fix_encoding(encoding)
if encoding not in XmlEncoding.ACCEPTED_ENCODINGS:
# XML pages only support a few encodings.
raise XmlEncodingException(f"Invalid text encoding {encoding}")
xml = XmlEncoder(tree, encoding)
return xml.get_data()