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

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# This file can only be imported successfully when run from Ghidra using Ghidrathon.
# Disable spurious warnings in vscode / pylance
# pyright: reportMissingModuleSource=false
import logging
from typing import Optional
from ghidra.program.model.listing import Function, Parameter
from ghidra.program.flatapi import FlatProgramAPI
from ghidra.program.model.listing import ParameterImpl
from ghidra.program.model.symbol import SourceType
from lego_util.pdb_extraction import (
PdbFunction,
CppRegisterSymbol,
CppStackSymbol,
)
from lego_util.ghidra_helper import (
add_pointer_type,
get_ghidra_namespace,
sanitize_name,
)
from lego_util.exceptions import StackOffsetMismatchError
from lego_util.type_importer import PdbTypeImporter
logger = logging.getLogger(__name__)
# pylint: disable=too-many-instance-attributes
class PdbFunctionImporter:
"""A representation of a function from the PDB with each type replaced by a Ghidra type instance."""
def __init__(
self,
api: FlatProgramAPI,
func: PdbFunction,
type_importer: "PdbTypeImporter",
):
self.api = api
self.match_info = func.match_info
self.signature = func.signature
self.is_stub = func.is_stub
self.type_importer = type_importer
if self.signature.class_type is not None:
# Import the base class so the namespace exists
self.type_importer.import_pdb_type_into_ghidra(self.signature.class_type)
assert self.match_info.name is not None
colon_split = sanitize_name(self.match_info.name).split("::")
self.name = colon_split.pop()
namespace_hierachy = colon_split
self.namespace = get_ghidra_namespace(api, namespace_hierachy)
self.return_type = type_importer.import_pdb_type_into_ghidra(
self.signature.return_type
)
self.arguments = [
ParameterImpl(
f"param{index}",
type_importer.import_pdb_type_into_ghidra(type_name),
api.getCurrentProgram(),
)
for (index, type_name) in enumerate(self.signature.arglist)
]
@property
def call_type(self):
return self.signature.call_type
@property
def stack_symbols(self):
return self.signature.stack_symbols
def get_full_name(self) -> str:
return f"{self.namespace.getName()}::{self.name}"
def matches_ghidra_function(self, ghidra_function: Function) -> bool:
"""Checks whether this function declaration already matches the description in Ghidra"""
name_match = self.name == ghidra_function.getName(False)
namespace_match = self.namespace == ghidra_function.getParentNamespace()
ghidra_return_type = ghidra_function.getReturnType()
return_type_match = self.return_type == ghidra_return_type
# Handle edge case: Return type X that is larger than the return register.
# In that case, the function returns `X*` and has another argument `X* __return_storage_ptr`.
if (
(not return_type_match)
and (self.return_type.getLength() > 4)
and (add_pointer_type(self.api, self.return_type) == ghidra_return_type)
and any(
param
for param in ghidra_function.getParameters()
if param.getName() == "__return_storage_ptr__"
)
):
logger.debug(
"%s has a return type larger than 4 bytes", self.get_full_name()
)
return_type_match = True
# match arguments: decide if thiscall or not
thiscall_matches = (
self.signature.call_type == ghidra_function.getCallingConventionName()
)
if self.is_stub:
# We do not import the argument list for stubs, so it should be excluded in matches
args_match = True
elif thiscall_matches:
if self.signature.call_type == "__thiscall":
args_match = self._matches_thiscall_parameters(ghidra_function)
else:
args_match = self._matches_non_thiscall_parameters(ghidra_function)
else:
args_match = False
logger.debug(
"Matches: namespace=%s name=%s return_type=%s thiscall=%s args=%s",
namespace_match,
name_match,
return_type_match,
thiscall_matches,
"ignored" if self.is_stub else args_match,
)
return (
name_match
and namespace_match
and return_type_match
and thiscall_matches
and args_match
)
def _matches_non_thiscall_parameters(self, ghidra_function: Function) -> bool:
return self._parameter_lists_match(ghidra_function.getParameters())
def _matches_thiscall_parameters(self, ghidra_function: Function) -> bool:
ghidra_params = list(ghidra_function.getParameters())
# remove the `this` argument which we don't generate ourselves
ghidra_params.pop(0)
return self._parameter_lists_match(ghidra_params)
def _parameter_lists_match(self, ghidra_params: "list[Parameter]") -> bool:
# Remove return storage pointer from comparison if present.
# This is relevant to returning values larger than 4 bytes, and is not mentioned in the PDB
ghidra_params = [
param
for param in ghidra_params
if param.getName() != "__return_storage_ptr__"
]
if len(self.arguments) != len(ghidra_params):
logger.info("Mismatching argument count")
return False
for this_arg, ghidra_arg in zip(self.arguments, ghidra_params):
# compare argument types
if this_arg.getDataType() != ghidra_arg.getDataType():
logger.debug(
"Mismatching arg type: expected %s, found %s",
this_arg.getDataType(),
ghidra_arg.getDataType(),
)
return False
# compare argument names
stack_match = self.get_matching_stack_symbol(ghidra_arg.getStackOffset())
if stack_match is None:
logger.debug("Not found on stack: %s", ghidra_arg)
return False
if stack_match.name.startswith("__formal"):
# "__formal" is the placeholder for arguments without a name
continue
if stack_match.name == "__$ReturnUdt":
# These appear in templates and cannot be set automatically, as they are a NOTYPE
continue
if stack_match.name != ghidra_arg.getName():
logger.debug(
"Argument name mismatch: expected %s, found %s",
stack_match.name,
ghidra_arg.getName(),
)
return False
return True
def overwrite_ghidra_function(self, ghidra_function: Function):
"""Replace the function declaration in Ghidra by the one derived from C++."""
ghidra_function.setName(self.name, SourceType.USER_DEFINED)
ghidra_function.setParentNamespace(self.namespace)
ghidra_function.setReturnType(self.return_type, SourceType.USER_DEFINED)
ghidra_function.setCallingConvention(self.call_type)
if self.is_stub:
logger.debug(
"%s is a stub, skipping parameter import", self.get_full_name()
)
return
ghidra_function.replaceParameters(
Function.FunctionUpdateType.DYNAMIC_STORAGE_ALL_PARAMS,
True, # force
SourceType.USER_DEFINED,
self.arguments,
)
self._import_parameter_names(ghidra_function)
def _import_parameter_names(self, ghidra_function: Function):
# When we call `ghidra_function.replaceParameters`, Ghidra will generate the layout.
# Now we read the parameters again and match them against the stack layout in the PDB,
# both to verify the layout and to set the parameter names.
ghidra_parameters: list[Parameter] = ghidra_function.getParameters()
# Try to add Ghidra function names
for index, param in enumerate(ghidra_parameters):
if param.isStackVariable():
self._rename_stack_parameter(index, param)
else:
if param.getName() == "this":
# 'this' parameters are auto-generated and cannot be changed
continue
# Appears to never happen - could in theory be relevant to __fastcall__ functions,
# which we haven't seen yet
logger.warning(
"Unhandled register variable in %s", self.get_full_name()
)
continue
def _rename_stack_parameter(self, index: int, param: Parameter):
match = self.get_matching_stack_symbol(param.getStackOffset())
if match is None:
raise StackOffsetMismatchError(
f"Could not find a matching symbol at offset {param.getStackOffset()} in {self.get_full_name()}"
)
if match.data_type == "T_NOTYPE(0000)":
logger.warning("Skipping stack parameter of type NOTYPE")
return
if param.getDataType() != self.type_importer.import_pdb_type_into_ghidra(
match.data_type
):
logger.error(
"Type mismatch for parameter: %s in Ghidra, %s in PDB", param, match
)
return
name = match.name
if name == "__formal":
# these can cause name collisions if multiple ones are present
name = f"__formal_{index}"
param.setName(name, SourceType.USER_DEFINED)
def get_matching_stack_symbol(self, stack_offset: int) -> Optional[CppStackSymbol]:
return next(
(
symbol
for symbol in self.stack_symbols
if isinstance(symbol, CppStackSymbol)
and symbol.stack_offset == stack_offset
),
None,
)
def get_matching_register_symbol(
self, register: str
) -> Optional[CppRegisterSymbol]:
return next(
(
symbol
for symbol in self.stack_symbols
if isinstance(symbol, CppRegisterSymbol) and symbol.register == register
),
None,
)