isle-portable/tools/ghidra_scripts/lego_util/pdb_extraction.py

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from dataclasses import dataclass
import re
from typing import Any, Optional
import logging
from isledecomp.cvdump.symbols import SymbolsEntry
from isledecomp.compare import Compare as IsleCompare
from isledecomp.compare.db import MatchInfo
logger = logging.getLogger(__file__)
@dataclass
class CppStackOrRegisterSymbol:
name: str
data_type: str
@dataclass
class CppStackSymbol(CppStackOrRegisterSymbol):
stack_offset: int
"""Should have a value iff `symbol_type=='S_BPREL32'."""
@dataclass
class CppRegisterSymbol(CppStackOrRegisterSymbol):
register: str
"""Should have a value iff `symbol_type=='S_REGISTER'.` Should always be set/converted to lowercase."""
@dataclass
class FunctionSignature:
original_function_symbol: SymbolsEntry
call_type: str
arglist: list[str]
return_type: str
class_type: Optional[str]
stack_symbols: list[CppStackOrRegisterSymbol]
@dataclass
class PdbFunction:
match_info: MatchInfo
signature: FunctionSignature
is_stub: bool
class PdbFunctionExtractor:
"""
Extracts all information on a given function from the parsed PDB
and prepares the data for the import in Ghidra.
"""
def __init__(self, compare: IsleCompare):
self.compare = compare
scalar_type_regex = re.compile(r"t_(?P<typename>\w+)(?:\((?P<type_id>\d+)\))?")
_call_type_map = {
"ThisCall": "__thiscall",
"C Near": "__thiscall",
"STD Near": "__stdcall",
}
def _get_cvdump_type(self, type_name: Optional[str]) -> Optional[dict[str, Any]]:
return (
None
if type_name is None
else self.compare.cv.types.keys.get(type_name.lower())
)
def get_func_signature(self, fn: SymbolsEntry) -> Optional[FunctionSignature]:
function_type_str = fn.func_type
if function_type_str == "T_NOTYPE(0000)":
logger.debug(
"Skipping a NOTYPE (synthetic or template + synthetic): %s", fn.name
)
return None
# get corresponding function type
function_type = self.compare.cv.types.keys.get(function_type_str.lower())
if function_type is None:
logger.error(
"Could not find function type %s for function %s", fn.func_type, fn.name
)
return None
class_type = function_type.get("class_type")
arg_list_type = self._get_cvdump_type(function_type.get("arg_list_type"))
assert arg_list_type is not None
arg_list_pdb_types = arg_list_type.get("args", [])
assert arg_list_type["argcount"] == len(arg_list_pdb_types)
stack_symbols: list[CppStackOrRegisterSymbol] = []
# for some unexplained reason, the reported stack is offset by 4 when this flag is set
stack_offset_delta = -4 if fn.frame_pointer_present else 0
for symbol in fn.stack_symbols:
if symbol.symbol_type == "S_REGISTER":
stack_symbols.append(
CppRegisterSymbol(
symbol.name,
symbol.data_type,
symbol.location,
)
)
elif symbol.symbol_type == "S_BPREL32":
stack_offset = int(symbol.location[1:-1], 16)
stack_symbols.append(
CppStackSymbol(
symbol.name,
symbol.data_type,
stack_offset + stack_offset_delta,
)
)
call_type = self._call_type_map[function_type["call_type"]]
return FunctionSignature(
original_function_symbol=fn,
call_type=call_type,
arglist=arg_list_pdb_types,
return_type=function_type["return_type"],
class_type=class_type,
stack_symbols=stack_symbols,
)
def get_function_list(self) -> list[PdbFunction]:
handled = (
self.handle_matched_function(match)
for match in self.compare.get_functions()
)
return [signature for signature in handled if signature is not None]
def handle_matched_function(self, match_info: MatchInfo) -> Optional[PdbFunction]:
assert match_info.orig_addr is not None
match_options = self.compare.get_match_options(match_info.orig_addr)
assert match_options is not None
if match_options.get("skip", False):
return None
function_data = next(
(
y
for y in self.compare.cvdump_analysis.nodes
if y.addr == match_info.recomp_addr
),
None,
)
if not function_data:
logger.error(
"Did not find function in nodes, skipping: %s", match_info.name
)
return None
function_symbol = function_data.symbol_entry
if function_symbol is None:
logger.debug(
"Could not find function symbol (likely a PUBLICS entry): %s",
match_info.name,
)
return None
function_signature = self.get_func_signature(function_symbol)
if function_signature is None:
return None
is_stub = match_options.get("stub", False)
return PdbFunction(match_info, function_signature, is_stub)