213 lines
7.2 KiB
Python
213 lines
7.2 KiB
Python
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#!/usr/bin/env python3
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#
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# Cross Platform and Multi Architecture Advanced Binary Emulation Framework
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from typing import Any, Callable, Iterable, Iterator, MutableMapping, Optional, Mapping, Tuple, Sequence
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from qiling import Qiling
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from qiling.cc import QlCC
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from qiling.os.const import PARAM_INT8, PARAM_INT16, PARAM_INT32, PARAM_INT64, PARAM_INTN
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Reader = Callable[[int], int]
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Writer = Callable[[int, int], None]
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Accessor = Tuple[Reader, Writer, int]
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CallHook = Callable[[Qiling, int, Mapping], int]
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OnEnterHook = Callable[[Qiling, int, Mapping], Tuple[int, Mapping]]
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OnExitHook = Callable[[Qiling, int, Mapping, int], int]
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TypedArg = Tuple[Any, str, Any]
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class QlFunctionCall:
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def __init__(self, ql: Qiling, cc: QlCC, accessors: Mapping[int, Accessor] = {}) -> None:
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"""Initialize function call handler.
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Args:
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ql: qiling instance
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cc: calling convention instance to handle the call
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accessors: a mapping of parameter types to methods that read and write their values (optional)
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"""
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self.ql = ql
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self.cc = cc
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def __make_accessor(nbits: int) -> Accessor:
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reader = lambda si: cc.getRawParam(si, nbits)
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writer = lambda si, val: cc.setRawParam(si, val, nbits)
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nslots = cc.getNumSlots(nbits)
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return (reader, writer, nslots)
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# default parameter accessors: readers, writers and slots count
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self.accessors: MutableMapping[int, Accessor] = {
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PARAM_INT8 : __make_accessor(8),
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PARAM_INT16: __make_accessor(16),
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PARAM_INT32: __make_accessor(32),
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PARAM_INT64: __make_accessor(64),
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PARAM_INTN : __make_accessor(0)
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}
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# let the user override default accessors or add custom ones
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self.accessors.update(accessors)
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def readEllipsis(self, ptypes: Sequence[Any]) -> Iterator[int]:
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"""
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"""
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default = self.accessors[PARAM_INTN]
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# count skipped slots
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si = sum(self.accessors.get(typ, default)[2] for typ in ptypes)
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while True:
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read, _, nslots = default
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yield read(si)
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si += nslots
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def readParams(self, ptypes: Sequence[Any]) -> Sequence[int]:
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"""Walk the function parameters list and get their values.
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Args:
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ptypes: a sequence of parameters types to read
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Returns: parameters raw values
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"""
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default = self.accessors[PARAM_INTN]
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si = 0
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values = []
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for typ in ptypes:
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read, _, nslots = self.accessors.get(typ, default)
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val = read(si)
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si += nslots
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values.append(val)
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return values
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def writeParams(self, params: Sequence[Tuple[Any, int]]) -> None:
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"""Walk the function parameters list and set their values.
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Args:
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params: a sequence of 2-tuples containing parameters types and values
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"""
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default = self.accessors[PARAM_INTN]
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si = 0
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for typ, val in params:
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_, write, nslots = self.accessors.get(typ, default)
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write(si, val)
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si += nslots
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def __count_slots(self, ptypes: Iterable[Any]) -> int:
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default = self.accessors[PARAM_INTN]
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return sum(self.accessors.get(typ, default)[2] for typ in ptypes)
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@staticmethod
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def __get_typed_args(proto: Mapping[str, Any], args: Mapping[str, Any]) -> Iterable[TypedArg]:
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types = list(proto.values())
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names = list(args.keys())
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values = list(args.values())
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# variadic functions are invoked with unknown set of arguments which
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# do not explicitly appear in prototype (there is an ellipsis instead).
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#
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# when a hooked variadic function is called, it updates the arguments
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# mapping with the additional arguments it was given. that makes the
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# arguments mapping longer than the prototype mapping; in other words:
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# at this point we may have more values and names than types.
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#
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# here we expand the types list to meet names length, in such a case.
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if len(names) > len(types):
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types.extend([None] * (len(names) - len(types)))
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return tuple(zip(types, names, values))
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def call(self, func: CallHook, proto: Mapping[str, Any], params: Mapping[str, Any], hook_onenter: Optional[OnEnterHook], hook_onexit: Optional[OnExitHook], passthru: bool) -> Tuple[Iterable[TypedArg], int, int]:
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"""Execute a hooked function.
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Args:
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func: function hook
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proto: function's parameters types list
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params: a mapping of parameter names to their values
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hook_onenter: a hook to call before entering function hook
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hook_onexit: a hook to call after returning from function hook
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passthru: whether to skip stack frame unwinding
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Returns: resolved params mapping, return value, return address
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"""
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ql = self.ql
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pc = ql.arch.regs.arch_pc
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# if set, fire up the on-enter hook and let it override original args set
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if hook_onenter:
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overrides = hook_onenter(ql, pc, params)
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if overrides is not None:
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pc, params = overrides
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# call function
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retval = func(ql, pc, params)
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# if set, fire up the on-exit hook and let it override the return value
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if hook_onexit:
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override = hook_onexit(ql, pc, params, retval)
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if override is not None:
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retval = override
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# set return value
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if retval is not None:
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self.cc.setReturnValue(retval)
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targs = QlFunctionCall.__get_typed_args(proto, params)
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# TODO: resolve return value
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# unwind stack frame; note that function prototype sometimes does not
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# reflect the actual number of arguments passed to the function, like
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# in variadic functions (e.g. printf-like functions). in such case the
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# function frame would not be unwinded entirely and cause the program
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# to fail or produce funny results.
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#
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# nevertheless this type of functions never unwind their own frame,
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# exactly for the reason they are not aware of the actual number of
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# arguments they got. since the caller is responsible for unwinding
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# we should be good.
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nslots = self.__count_slots(proto.values())
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retaddr = -1 if passthru else self.cc.unwind(nslots)
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return targs, retval, retaddr
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def call_native(self, addr: int, args: Sequence[Tuple[Any, int]], ret: Optional[int]) -> None:
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"""Call a native function after properly staging its arguments and return address.
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Args:
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addr: function entry point
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args: a sequence of 2-tuples containing parameters types and values to pass to the function; may be empty
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ret: return address; may be None
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"""
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# reserve slots for arguments
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nslots = self.__count_slots(atype for atype, _ in args)
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self.cc.reserve(nslots)
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if ret is not None:
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self.cc.setReturnAddress(ret)
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# set arguments values
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self.writeParams(args)
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# call
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self.ql.arch.regs.arch_pc = addr
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