Ejemplo n.º 1
0
    def _find_leafs(self):
        # Loop through every function
        for func_ea in idautils.Functions():
            # Count the number of xrefs to this function
            func = idaapi.get_func(func_ea)
            if func:
                leaf_function = True
                ea = ida_shims.start_ea(func)
                end_ea = ida_shims.end_ea(func)

                # Loop through all instructions in this function looking
                # for call instructions; if found, then this is not a leaf.
                while ea <= end_ea:
                    insn = ida_shims.decode_insn(ea)
                    if idaapi.is_call_insn(ea):
                        leaf_function = False
                        break

                    ea = ida_shims.next_head(ea)

                if leaf_function:
                    self.functions.append(
                        Function(start=ida_shims.start_ea(func),
                                 end=ida_shims.end_ea(func),
                                 leaf=True,
                                 loop=self.has_loop(func),
                                 argc=self.argp.argc(func)))

        # Sort leafs by xref count, largest first
        self.functions.sort(key=lambda f: f.xrefs, reverse=True)
Ejemplo n.º 2
0
    def colorize_node(self, ea, color):
        func = idaapi.get_func(ea)
        if func:
            for block in idaapi.FlowChart(func):
                block_start_ea = ida_shims.start_ea(block)
                block_end_ea = ida_shims.end_ea(block)

                if block_start_ea <= ea and block_end_ea > ea:
                    ea = block_start_ea
                    while ea < block_end_ea:
                        idaapi.set_item_color(ea, color)
                        ea = ida_shims.next_head(ea)
                    break
Ejemplo n.º 3
0
Archivo: rizzo.py Proyecto: ufwt/ida
    def block(self, block):
        '''
        Returns a tuple:
        ([formal, block, signatures], [fuzzy, block, signatures],
        set([unique, immediate, values]), [called, function, names])
        '''
        formal = []
        fuzzy = []
        functions = []
        immediates = []

        ea = ida_shims.start_ea(block)
        while ea < ida_shims.end_ea(block):
            insn = ida_shims.decode_insn(ea)

            # Get a list of all data/code refs from the current instruction
            drefs = [x for x in idautils.DataRefsFrom(ea)]
            crefs = [x for x in idautils.CodeRefsFrom(ea, False)]

            # Add all instruction mnemonics to the formal block hash
            formal.append(ida_shims.print_insn_mnem(ea))

            # If this is a call instruction, be sure to note the name of the
            # function being called. This is used to apply call-based
            # signatures to functions.
            #
            # For fuzzy signatures, we can't use the actual name or EA of the
            # function, but rather just want to note that a function call was
            # made.
            #
            # Formal signatures already have the call instruction mnemonic,
            # which is more specific than just saying that a call was made.
            if idaapi.is_call_insn(ea):
                for cref in crefs:
                    func_name = ida_shims.get_name(cref)
                    if func_name:
                        functions.append(func_name)
                        fuzzy.append("funcref")
            # If there are data references from the instruction, check to see
            # if any of them are strings. These are looked up in the
            # pre-generated strings dictionary.
            #
            # String values are easily identifiable, and are used as part of
            # both the fuzzy and the formal signatures.
            #
            # It is more difficult to determine if non-string values are
            # constants or not; for both fuzzy and formal signatures, just use
            # "data" to indicate that some data was referenced.
            elif drefs:
                for dref in drefs:
                    if self.strings.has_key(dref):
                        formal.append(self.strings[dref].value)
                        fuzzy.append(self.strings[dref].value)
                    else:
                        formal.append("dataref")
                        fuzzy.append("dataref")
            # If there are no data or code references from the instruction, use
            # every operand as part of the formal signature.
            #
            # Fuzzy signatures are only concerned with interesting immediate
            # values, that is, values that are greater than 65,535, are not
            # memory addresses, and are not displayed as negative values.
            elif not drefs and not crefs:
                ops = ida_shims.get_operands(insn)
                for n in range(0, len(ops)):
                    opnd_text = ida_shims.print_operand(ea, n)
                    formal.append(opnd_text)
                    if ops[n].type == idaapi.o_imm and \
                            not opnd_text.startswith('-'):
                        if ops[n].value >= 0xFFFF:
                            if ida_shims.get_full_flags(ops[n].value) == 0:
                                fuzzy.append(str(ops[n].value))
                                immediates.append(ops[n].value)

            ea = ida_shims.next_head(ea)

        return (self.sighash(''.join(formal)), self.sighash(''.join(fuzzy)),
                immediates, functions)
Ejemplo n.º 4
0
    def _profile_function(self):
        current_ea = ida_shims.get_screen_ea()
        current_function = ida_shims.get_func_name(current_ea)
        current_function_ea = ida_shims.get_name_ea_simple(current_function)

        if current_function:
            self.function = current_function

        ea = ida_shims.get_func_attr(current_function_ea, idc.FUNCATTR_START)
        end_ea = ida_shims.get_func_attr(current_function_ea, idc.FUNCATTR_END)

        self.highlighted = ida_shims.get_highlighted_identifier()

        while ea < end_ea and ea != idc.BADADDR and self.highlighted:
            i = 0
            match = False
            optype = self.READ

            insn = ida_shims.decode_insn(ea)

            mnem = ida_shims.print_insn_mnem(ea)

            if self.highlighted in mnem:
                match = True
            elif idaapi.is_call_insn(ea):
                for xref in idautils.XrefsFrom(ea):
                    if xref.type != 21:
                        name = ida_shims.get_name(xref.to)
                        if name and self.highlighted in name:
                            match = True
                            break
            else:
                while True:
                    opnd = ida_shims.print_operand(ea, i)
                    if opnd:
                        if self.highlighted in opnd:
                            canon_feature = ida_shims.get_canon_feature(insn)
                            match = True
                            if canon_feature & self.OPND_WRITE_FLAGS[i]:
                                optype = self.WRITE
                        i += 1
                    else:
                        break

            if not match:
                comment = idc.GetCommentEx(ea, 0)
                if comment and self.highlighted in comment:
                    match = True
                else:
                    comment = idc.GetCommentEx(ea, 1)
                    if comment and self.highlighted in comment:
                        match = True
                    else:
                        comment = None

            if match:
                if ea > current_ea:
                    direction = self.DOWN
                elif ea < current_ea:
                    direction = self.UP
                else:
                    direction = self.THIS

                self.xrefs[ea] = {
                    'offset': ida_shims.get_func_off_str(ea),
                    'mnem': mnem,
                    'type': optype,
                    'direction': direction,
                    'text': idc.GetDisasm(ea),
                }

            ea = ida_shims.next_head(ea)