mirror of
https://github.com/isledecomp/isle-portable.git
synced 2024-11-26 17:36:12 -05:00
Detect calls using absolute indirect addressing (#784)
* Detect calls using absolute indirect addressing * Ignore imports we can't match
This commit is contained in:
parent
70912d16c6
commit
512eb786ab
3 changed files with 138 additions and 36 deletions
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@ -7,10 +7,10 @@
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placeholder string."""
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placeholder string."""
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import re
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import re
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import struct
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from functools import cache
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from functools import cache
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from typing import Callable, List, Optional, Tuple
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from typing import Callable, List, Optional, Tuple
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from collections import namedtuple
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from collections import namedtuple
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from isledecomp.bin import InvalidVirtualAddressError
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from .const import JUMP_MNEMONICS, SINGLE_OPERAND_INSTS
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from .const import JUMP_MNEMONICS, SINGLE_OPERAND_INSTS
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from .instgen import InstructGen, SectionType
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from .instgen import InstructGen, SectionType
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@ -35,16 +35,33 @@ def from_hex(string: str) -> Optional[int]:
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return None
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return None
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def bytes_to_float(b: bytes) -> Optional[float]:
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if len(b) == 4:
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return struct.unpack("<f", b)[0]
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if len(b) == 8:
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return struct.unpack("<d", b)[0]
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return None
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def bytes_to_dword(b: bytes) -> Optional[int]:
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if len(b) == 4:
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return struct.unpack("<L", b)[0]
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return None
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class ParseAsm:
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class ParseAsm:
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def __init__(
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def __init__(
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self,
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self,
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relocate_lookup: Optional[Callable[[int], bool]] = None,
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relocate_lookup: Optional[Callable[[int], bool]] = None,
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name_lookup: Optional[Callable[[int], str]] = None,
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name_lookup: Optional[Callable[[int], str]] = None,
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float_lookup: Optional[Callable[[int, int], Optional[str]]] = None,
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bin_lookup: Optional[Callable[[int, int], Optional[bytes]]] = None,
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) -> None:
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) -> None:
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self.relocate_lookup = relocate_lookup
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self.relocate_lookup = relocate_lookup
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self.name_lookup = name_lookup
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self.name_lookup = name_lookup
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self.float_lookup = float_lookup
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self.bin_lookup = bin_lookup
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self.replacements = {}
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self.replacements = {}
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self.number_placeholders = True
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self.number_placeholders = True
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@ -58,14 +75,14 @@ def is_relocated(self, addr: int) -> bool:
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return False
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return False
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def float_replace(self, addr: int, data_size: int) -> Optional[str]:
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def float_replace(self, addr: int, data_size: int) -> Optional[str]:
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if callable(self.float_lookup):
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if callable(self.bin_lookup):
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try:
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float_bytes = self.bin_lookup(addr, data_size)
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float_str = self.float_lookup(addr, data_size)
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if float_bytes is None:
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except InvalidVirtualAddressError:
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# probably caused by reading an invalid instruction
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return None
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return None
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if float_str is not None:
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return f"{float_str} (FLOAT)"
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float_value = bytes_to_float(float_bytes)
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if float_value is not None:
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return f"{float_value} (FLOAT)"
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return None
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return None
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@ -122,6 +139,30 @@ def hex_replace_annotated(self, match: re.Match) -> str:
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return match.group(0)
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return match.group(0)
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def hex_replace_indirect(self, match: re.Match) -> str:
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"""Edge case for hex_replace_always. The context of the instruction
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tells us that the pointer value is an absolute indirect.
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So we go to that location in the binary to get the address.
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If we cannot identify the indirect address, fall back to a lookup
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on the original pointer value so we might display something useful."""
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value = int(match.group(1), 16)
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indirect_value = None
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if callable(self.bin_lookup):
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indirect_value = self.bin_lookup(value, 4)
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if indirect_value is not None:
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indirect_addr = bytes_to_dword(indirect_value)
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if (
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indirect_addr is not None
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and self.lookup(indirect_addr, use_cache=False) is not None
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):
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return match.group(0).replace(
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match.group(1), "->" + self.replace(indirect_addr)
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)
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return match.group(0).replace(match.group(1), self.replace(value))
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def hex_replace_float(self, match: re.Match) -> str:
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def hex_replace_float(self, match: re.Match) -> str:
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"""Special case for replacements on float instructions.
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"""Special case for replacements on float instructions.
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If the pointer is a float constant, read it from the binary."""
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If the pointer is a float constant, read it from the binary."""
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@ -178,7 +219,10 @@ def sanitize(self, inst: DisasmLiteInst) -> Tuple[str, str]:
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jump_displacement = op_str_address - (inst.address + inst.size)
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jump_displacement = op_str_address - (inst.address + inst.size)
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return (inst.mnemonic, hex(jump_displacement))
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return (inst.mnemonic, hex(jump_displacement))
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if inst.mnemonic.startswith("f"):
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if inst.mnemonic == "call":
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# Special handling for absolute indirect CALL.
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op_str = ptr_replace_regex.sub(self.hex_replace_indirect, inst.op_str)
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elif inst.mnemonic.startswith("f"):
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# If floating point instruction
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# If floating point instruction
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op_str = ptr_replace_regex.sub(self.hex_replace_float, inst.op_str)
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op_str = ptr_replace_regex.sub(self.hex_replace_float, inst.op_str)
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else:
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else:
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@ -4,7 +4,7 @@
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import struct
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import struct
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from dataclasses import dataclass
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from dataclasses import dataclass
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from typing import Callable, Iterable, List, Optional
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from typing import Callable, Iterable, List, Optional
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from isledecomp.bin import Bin as IsleBin
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from isledecomp.bin import Bin as IsleBin, InvalidVirtualAddressError
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from isledecomp.cvdump.demangler import demangle_string_const
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from isledecomp.cvdump.demangler import demangle_string_const
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from isledecomp.cvdump import Cvdump, CvdumpAnalysis
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from isledecomp.cvdump import Cvdump, CvdumpAnalysis
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from isledecomp.parser import DecompCodebase
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from isledecomp.parser import DecompCodebase
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@ -50,20 +50,13 @@ def lookup(addr: int) -> bool:
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return lookup
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return lookup
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def create_float_lookup(bin_file: IsleBin) -> Callable[[int, int], Optional[str]]:
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def create_bin_lookup(bin_file: IsleBin) -> Callable[[int, int], Optional[str]]:
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"""Function generator for floating point lookup"""
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"""Function generator for reading from the bin file"""
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def lookup(addr: int, size: int) -> Optional[str]:
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def lookup(addr: int, size: int) -> Optional[bytes]:
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data = bin_file.read(addr, size)
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# If this is a float constant, it should be initialized data.
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if data is None:
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return None
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struct_str = "<f" if size == 4 else "<d"
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try:
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try:
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(float_value,) = struct.unpack(struct_str, data)
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return bin_file.read(addr, size)
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return str(float_value)
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except InvalidVirtualAddressError:
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except struct.error:
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return None
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return None
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return lookup
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return lookup
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# the connection between the thunk functions.
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# the connection between the thunk functions.
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# We already have the symbol name we need from the PDB.
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# We already have the symbol name we need from the PDB.
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for orig, recomp in orig_to_recomp.items():
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for orig, recomp in orig_to_recomp.items():
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if orig is None or recomp is None:
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continue
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# Match the __imp__ symbol
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self._db.set_pair(orig, recomp, SymbolType.POINTER)
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self._db.set_pair(orig, recomp, SymbolType.POINTER)
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# Read the relative address from .idata
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try:
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(recomp_rva,) = struct.unpack("<L", self.recomp_bin.read(recomp, 4))
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(orig_rva,) = struct.unpack("<L", self.orig_bin.read(orig, 4))
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except ValueError:
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# Bail out if there's a problem with struct.unpack
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continue
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# Strictly speaking, this is a hack to support asm sanitize.
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# When calling an import, we will recognize that the address for the
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# CALL instruction is a pointer to the actual address, but this is
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# not only not the address of a function, it is not an address at all.
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# To make the asm display work correctly (i.e. to match what you see
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# in ghidra) create a function match on the RVA. This is not a valid
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# virtual address because it is before the imagebase, but it will
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# do what we need it to do in the sanitize function.
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(dll_name, func_name) = orig_byaddr[orig]
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fullname = dll_name + ":" + func_name
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self._db.set_recomp_symbol(
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recomp_rva, SymbolType.FUNCTION, fullname, None, 4
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)
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self._db.set_pair(orig_rva, recomp_rva, SymbolType.FUNCTION)
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self._db.skip_compare(orig_rva)
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def _match_thunks(self):
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def _match_thunks(self):
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"""Thunks are (by nature) matched by indirection. If a thunk from orig
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"""Thunks are (by nature) matched by indirection. If a thunk from orig
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points at a function we have already matched, we can find the matching
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points at a function we have already matched, we can find the matching
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orig_should_replace = create_reloc_lookup(self.orig_bin)
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orig_should_replace = create_reloc_lookup(self.orig_bin)
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recomp_should_replace = create_reloc_lookup(self.recomp_bin)
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recomp_should_replace = create_reloc_lookup(self.recomp_bin)
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orig_float = create_float_lookup(self.orig_bin)
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orig_bin_lookup = create_bin_lookup(self.orig_bin)
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recomp_float = create_float_lookup(self.recomp_bin)
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recomp_bin_lookup = create_bin_lookup(self.recomp_bin)
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orig_parse = ParseAsm(
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orig_parse = ParseAsm(
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relocate_lookup=orig_should_replace,
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relocate_lookup=orig_should_replace,
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name_lookup=orig_lookup,
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name_lookup=orig_lookup,
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float_lookup=orig_float,
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bin_lookup=orig_bin_lookup,
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)
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)
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recomp_parse = ParseAsm(
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recomp_parse = ParseAsm(
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relocate_lookup=recomp_should_replace,
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relocate_lookup=recomp_should_replace,
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name_lookup=recomp_lookup,
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name_lookup=recomp_lookup,
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float_lookup=recomp_float,
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bin_lookup=recomp_bin_lookup,
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)
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)
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orig_combined = orig_parse.parse_asm(orig_raw, match.orig_addr)
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orig_combined = orig_parse.parse_asm(orig_raw, match.orig_addr)
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The float constants don't appear to be deduplicated (like strings are)
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The float constants don't appear to be deduplicated (like strings are)
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because there is another 0.5 at 0x100d40b0."""
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because there is another 0.5 at 0x100d40b0."""
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def substitute_float(addr: int, _: int) -> str:
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def bin_lookup(addr: int, _: int) -> Optional[bytes]:
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return "zero-point-five" if addr == 0x1234 else None
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return b"\xdb\x0f\x49\x40" if addr == 0x1234 else None
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p = ParseAsm(float_lookup=substitute_float)
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p = ParseAsm(bin_lookup=bin_lookup)
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inst = DisasmLiteInst(0x1000, 6, "fld", "dword ptr [0x1234]")
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inst = DisasmLiteInst(0x1000, 6, "fld", "dword ptr [0x1234]")
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(_, op_str) = p.sanitize(inst)
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(_, op_str) = p.sanitize(inst)
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assert op_str == "dword ptr [zero-point-five (FLOAT)]"
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# Single-precision float. struct.unpack("<f", struct.pack("<f", math.pi))
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assert op_str == "dword ptr [3.1415927410125732 (FLOAT)]"
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def test_float_variable():
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def test_float_variable():
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def name_lookup(addr: int) -> Optional[str]:
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def name_lookup(addr: int) -> Optional[str]:
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return "g_myFloatVariable" if addr == 0x1234 else None
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return "g_myFloatVariable" if addr == 0x1234 else None
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def substitute_float(_: int, __: int) -> str:
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p = ParseAsm(name_lookup=name_lookup)
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return ""
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p = ParseAsm(name_lookup=name_lookup, float_lookup=substitute_float)
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inst = DisasmLiteInst(0x1000, 6, "fld", "dword ptr [0x1234]")
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inst = DisasmLiteInst(0x1000, 6, "fld", "dword ptr [0x1234]")
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(_, op_str) = p.sanitize(inst)
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(_, op_str) = p.sanitize(inst)
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assert op_str == "dword ptr [g_myFloatVariable]"
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assert op_str == "dword ptr [g_myFloatVariable]"
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# Should replace here
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# Should replace here
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(_, op_str) = p.sanitize(mock_inst("cmp", "eax, 0x5555"))
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(_, op_str) = p.sanitize(mock_inst("cmp", "eax, 0x5555"))
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assert op_str == "eax, hello"
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assert op_str == "eax, hello"
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def test_absolute_indirect():
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"""The instruction `call dword ptr [0x1234]` means we call the function
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whose address is at 0x1234. (i.e. absolute indirect addressing mode)
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It is probably more useful to show the name of the function itself if
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we have it, but there are some circumstances where we want to replace
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with the pointer's name (i.e. an import function)."""
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def name_lookup(addr: int) -> Optional[str]:
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return {
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0x1234: "Hello",
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0x4321: "xyz",
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0x5555: "Test",
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}.get(addr)
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def bin_lookup(addr: int, _: int) -> Optional[bytes]:
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return (
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{
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0x1234: b"\x55\x55\x00\x00",
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0x4321: b"\x99\x99\x00\x00",
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}
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).get(addr)
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p = ParseAsm(name_lookup=name_lookup, bin_lookup=bin_lookup)
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# If we know the indirect address (0x5555)
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# Arrow to indicate this is an indirect replacement
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(_, op_str) = p.sanitize(mock_inst("call", "dword ptr [0x1234]"))
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assert op_str == "dword ptr [->Test]"
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# If we do not know the indirect address (0x9999)
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(_, op_str) = p.sanitize(mock_inst("call", "dword ptr [0x4321]"))
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assert op_str == "dword ptr [xyz]"
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# If we can't read the indirect address
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(_, op_str) = p.sanitize(mock_inst("call", "dword ptr [0x5555]"))
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assert op_str == "dword ptr [Test]"
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