예제 #1
0
 def get_mnemonic(self, addr):
     """Return the mnemonic for the current instruction.
     
     """
     
     if idaapi.ua_mnem(addr) in self.no_op_instr:
         return idc.GetDisasm(addr)
     else:
         return idaapi.ua_mnem(addr)
예제 #2
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파일: metapc.py 프로젝트: houcy/cissrfuzzer
    def get_mnemonic(self, addr):
        """Return the mnemonic for the current instruction.
        
        """

        if idaapi.ua_mnem(addr) in self.no_op_instr:
            return idc.GetDisasm(addr)
        else:
            return idaapi.ua_mnem(addr)
예제 #3
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def decode_instr(eip):
    MakeCode(eip)
    mnem = idaapi.ua_mnem(eip)
    sz = idaapi.decode_insn(eip)
    x = dict(nextip=[], inst=mnem, ops=[])
    if not idaapi.cmd.itype in (idaapi.NN_jmp, idaapi.NN_retn):
        x['nextip'].append(eip + sz)
    for n, op in enumerate(idaapi.cmd.Operands):
        if op.type == 0: break
        ty = op.type
        text = idaapi.tag_remove(idaapi.ua_outop2(eip, n))
        if op.dtyp == 0:
            bits = 8
        elif op.dtyp == 1:
            bits = 16
        elif op.dtyp == 2:
            bits = 32

        if ty == idc.o_reg:
            x['ops'].append(IR.Var(text, bits))
        elif ty == idc.o_mem:
            x['ops'].append(IR.Mem(IR.Const(op.addr), bits))
        elif ty in (idc.o_phrase, idc.o_displ):
            x['ops'].append(IR.Mem(parse_mem(op), bits))
        elif ty == idc.o_imm:
            x['ops'].append(IR.Const(op.value, bits))
        elif ty == idc.o_near:
            x['ops'].append(IR.Const(op.addr))
            x['nextip'].append(op.addr)
        else:
            raise UnknownError
    return x
예제 #4
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파일: insn.py 프로젝트: jkoppel/Revitalize
 def to_masm(self):
     if self.verbatim:
         return "\t%s" % (idaapi.tag_remove(
             idaapi.generate_disasm_line(self.ea)))
     else:
         return "\t%s  %s" % (idaapi.ua_mnem(self.ea), ", ".join(
             map(lambda e: e.to_masm(), self.ops)))
예제 #5
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def decode_instr(eip):
    MakeCode(eip)
    mnem = idaapi.ua_mnem(eip)
    sz = idaapi.decode_insn(eip)
    x = dict(nextip=[],inst=mnem, ops=[])
    if not idaapi.cmd.itype in (idaapi.NN_jmp, idaapi.NN_retn):
        x['nextip'].append(eip+sz)
    for n, op in enumerate(idaapi.cmd.Operands):
        if op.type == 0: break
        ty = op.type
        text = idaapi.tag_remove(idaapi.ua_outop2(eip, n))
        if op.dtyp == 0:
            bits = 8
        elif op.dtyp == 1:    
            bits = 16
        elif op.dtyp == 2:    
            bits = 32

        if ty == idc.o_reg:
            x['ops'].append(IR.Var(text, bits))
        elif ty == idc.o_mem:
            x['ops'].append(IR.Mem(IR.Const(op.addr),bits))
        elif ty in (idc.o_phrase, idc.o_displ):
            x['ops'].append(IR.Mem(parse_mem(op),bits))
        elif ty == idc.o_imm:
            x['ops'].append(IR.Const(op.value,bits))
        elif ty == idc.o_near:
            x['ops'].append(IR.Const(op.addr))
            x['nextip'].append(op.addr)
        else:
            raise UnknownError
    return x
예제 #6
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 def get_mnemonic(self, addr):
     """Return the mnemonic for the current instruction.
     
     Achitecture specific modules can define a new method
     to process mnemonics in different ways.
     """
     
     return idaapi.ua_mnem(addr)
예제 #7
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파일: arch.py 프로젝트: houcy/cissrfuzzer
    def get_mnemonic(self, addr):
        """Return the mnemonic for the current instruction.
        
        Achitecture specific modules can define a new method
        to process mnemonics in different ways.
        """

        return idaapi.ua_mnem(addr)
예제 #8
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 def codeRefs(func):
     resultData,resultCode = [],[]
     for ea in iterate(func):
         if len(database.down(ea)) == 0:
             insn = idaapi.ua_mnem(ea)
             if insn and insn.startswith('call'):
                 resultCode.append((ea, 0))
             continue
         resultData.extend( (ea,x) for x in database.dxdown(ea) )
         resultCode.extend( (ea,x) for x in database.cxdown(ea) if func.startEA == x or not contains(func,x) )
     return resultData,resultCode
예제 #9
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def blocks(start, end):
    '''Returns each block between the specified range of instructions'''
    block = start
    for ea in iterate(start, end):
        nextea = next(ea)

        if idaapi.ua_mnem(ea).startswith('call'):      # FIXME: heh. ;)
            continue

        if idaapi.ua_mnem(ea).startswith('ret'):       #   whee
            yield block,nextea
            block = ea

        elif cxdown(ea):
            yield block,nextea
            block = nextea

        elif cxup(ea) and block != ea:
            yield block,ea
            block = ea
        continue
    return
예제 #10
0
def blocks(start, end):
    '''Returns each block between the specified range of instructions'''
    block = start
    for ea in iterate(start, end):
        nextea = next(ea)

        if idaapi.ua_mnem(ea).startswith('call'):  # FIXME: heh. ;)
            continue

        if idaapi.ua_mnem(ea).startswith('ret'):  #   whee
            yield block, nextea
            block = ea

        elif cxdown(ea):
            yield block, nextea
            block = nextea

        elif cxup(ea) and block != ea:
            yield block, ea
            block = ea
        continue
    return
예제 #11
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 def codeRefs(ea):
     fn = top(ea)
     resultData,resultCode = [],[]
     for l,r in chunks(fn):
         for ea in database.iterate(l,r):
             if len(database.down(ea)) == 0:
                 insn = idaapi.ua_mnem(ea)
                 if insn and insn.startswith('call'):
                     resultCode.append((ea, 0))
                 continue
             resultData.extend( (ea,x) for x in database.dxdown(ea) )
             resultCode.extend( (ea,x) for x in database.cxdown(ea) if not contains(fn,x) )
         continue
     return resultData,resultCode
예제 #12
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 def codeRefs(ea):
     fn = top(ea)
     resultData,resultCode = [],[]
     for l,r in chunks(fn):
         for ea in database.iterate(l,r):
             if len(database.down(ea)) == 0:
                 insn = idaapi.ua_mnem(ea)
                 if insn and insn.startswith('call'):
                     resultCode.append((ea, 0))
                 continue
             resultData.extend( (ea,x) for x in database.dxdown(ea) )
             resultCode.extend( (ea,x) for x in database.cxdown(ea) if not contains(fn,x) )
         continue
     return resultData,resultCode
예제 #13
0
def find_putchar(base_ea):
    str_ea = ida_name.get_name_ea(idaapi.BADADDR, "aPanic")

    if str_ea != idaapi.BADADDR:
        apanic_ea = list(idautils.XrefsTo(str_ea))[0].frm

        if apanic_ea == idaapi.BADADDR:
            return idaapi.BADADDR

        opnd0 = idc.print_operand(apanic_ea + 8, 0)
        ins_str = idaapi.ua_mnem(apanic_ea + 8)

        if ins_str == "BL":
            func_ea = ida_name.get_name_ea(idaapi.BADADDR, opnd0)
            ea = func_ea

            while ea != idaapi.BADADDR:
                ins_str = idaapi.ua_mnem(ea)

                if ins_str == "ADD":
                    opnd2 = idc.print_operand(ea, 2)

                    if opnd2 == "#1":
                        ins_ea = ea - 4
                        opnd0 = idc.print_operand(ins_ea, 0)
                        ins_str = idaapi.ua_mnem(ins_ea)

                        if ins_str == "BL":
                            pc_ea = ida_name.get_name_ea(idaapi.BADADDR, opnd0)
                            print("\t[+] _putchar = 0x%x" % (pc_ea))
                            ida_name.set_name(pc_ea, "_putchar")
                            return pc_ea

                ea = ea + 4

    return idaapi.BADADDR
예제 #14
0
파일: hider.py 프로젝트: hustlelabs/joseph
 def custom_mnem(self, *args):
     """
     custom_out(self) -> bool
     Return 0 - No customization
     Return 2 - Did customization
     """
     if self.am_in_hook or not self.active:
         return _idaapi.IDP_Hooks_custom_mnem(self, *args)
     for checker, color in INSN_RULES:
         if checker(idaapi.cmd.ea):
             self.am_in_hook = True
             mnem = idaapi.ua_mnem(idaapi.cmd.ea)
             self.am_in_hook = False
             mnem = mnem + " " * (7 - len(mnem))
             return color_inject(mnem, idaapi.SCOLOR_INSN, color)
     return _idaapi.IDP_Hooks_custom_mnem(self, *args)
예제 #15
0
파일: joseph.py 프로젝트: blaquee/joseph
 def custom_mnem(self, *args):
     """
     custom_out(self) -> bool
     Return 0 - No customization
     Return 2 - Did customization
     """
     if self.am_in_hook or not self.active:
       return hook_place.IDP_Hooks_custom_mnem(self, *args)
     for checker, color in INSN_RULES:
         if checker(idaapi.cmd.ea):
             self.am_in_hook = True
             mnem = idaapi.ua_mnem(idaapi.cmd.ea)
             self.am_in_hook = False
             mnem = mnem + " " * (7 - len(mnem))
             return color_inject(mnem, idaapi.SCOLOR_INSN, color)
     return hook_place.IDP_Hooks_custom_mnem(self, *args)
예제 #16
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 def operands_parser(self, address, operands):
     """Parse operands.
     
     Can be defined in architecture specific modules to
     process the whole list of operands before or after
     parsing, if necessary. In Intel, for instance, is
     used to post process operands where the target is
     also used as source but included only once, that
     happens for instance with the IMUL instruction.
     """
     
     op_list = []
     
     if idaapi.ua_mnem(address) in self.no_op_instr:
         return op_list
     
     for op, idx in operands:
         # The following will make sure it's an operand that IDA displays.
         # IDA sometimes encodes implicit operand's information into the
         # structures representing instructions but chooses not to display
         # those operands. We try to reproduce IDAs output
         #
         if idc.GetOpnd(address, idx) != '':
             current_operand = self.single_operand_parser(address, op, idx)
         
             if not current_operand:
                 continue
         
             if isinstance(current_operand[0], (list, tuple)):
                 op_list.extend( current_operand )
             else:
                 op_list.append( current_operand )
         
     operands = op_list
     
     return op_list
예제 #17
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파일: metapc.py 프로젝트: houcy/cissrfuzzer
    def operands_parser(self, address, operands):
        """Parse operands.
        
        Can be defined in architecture specific modules to
        process the whole list of operands before or after
        parsing, if necessary. In Intel, for instance, is
        used to post process operands where the target is
        also used as source but included only once, that
        happens for instance with the IMUL instruction.
        """

        op_list = []

        if idaapi.ua_mnem(address) in self.no_op_instr:
            return op_list

        for op, idx in operands:
            # The following will make sure it's an operand that IDA displays.
            # IDA sometimes encodes implicit operand's information into the
            # structures representing instructions but chooses not to display
            # those operands. We try to reproduce IDAs output
            #
            if idc.GetOpnd(address, idx) != '':
                current_operand = self.single_operand_parser(address, op, idx)

                if not current_operand:
                    continue

                if isinstance(current_operand[0], (list, tuple)):
                    op_list.extend(current_operand)
                else:
                    op_list.append(current_operand)

        operands = op_list

        return op_list
예제 #18
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    def AnalyzeRange(self, startEA, endEA):
        CurrentAddress = startEA
        CurrentBlockAddress = CurrentAddress
        NewBlockStart = True
        last_op_code = ''
        while CurrentAddress < endEA:
            if idaapi.isCode(idaapi.get_flags_novalue(CurrentAddress)):
                idaapi.decode_insn(CurrentAddress)
                op_code = idaapi.ua_mnem(CurrentAddress)

                operands = []
                disasm_line = op_code + ' '
                for i in range(0, 6, 1):
                    operand = idaapi.ua_outop2(CurrentAddress, i)
                    if not operand:
                        break
                    operand = idaapi.tag_remove(operand)
                    operands.append(operand)
                    if i != 0:
                        disasm_line += ','
                    disasm_line += operand
                #disasm_line = idaapi.tag_remove( idaapi.generate_disasm_line( CurrentAddress ) )

                xref = idaapi.xrefblk_t()

                ret = xref.first_to(CurrentAddress, idaapi.XREF_FAR)
                while ret:
                    ret = xref.next_to()
                    NewBlockStart = True

                if NewBlockStart and last_op_code[
                        0:3] != 'ret' and last_op_code != 'new block':
                    self.AddToMap(CurrentBlockAddress, CurrentAddress, None,
                                  'link')

                if NewBlockStart:
                    CurrentBlockAddress = CurrentAddress
                    self.BlockData[CurrentBlockAddress] = []
                    if self.DebugLevel > 2:
                        print '=' * 80

                if self.DebugLevel > 2:
                    print hex(CurrentAddress), disasm_line
                self.BlockData[CurrentBlockAddress].append(
                    (CurrentAddress, disasm_line))

                NewBlockStart = False
                CallIsResolved = False
                ret = xref.first_from(CurrentAddress, idaapi.XREF_FAR)
                while ret:
                    if xref.iscode:
                        if op_code == 'jmp' and xref.to == CurrentAddress + idaapi.cvar.cmd.size:
                            NewBlockStart = True
                        elif op_code == 'call':
                            CallIsResolved = True
                            self.AddToMap(CurrentBlockAddress, xref.to,
                                          operands[0], 'call')
                        else:
                            if len(operands) > 0:
                                self.AddToMap(CurrentBlockAddress, xref.to,
                                              operands[0], 'from')
                            NewBlockStart = True
                    ret = xref.next_from()

                if (op_code == 'call' or op_code == '') and not CallIsResolved:
                    self.AddToMap(CurrentBlockAddress, operands[0],
                                  operands[0], 'call')

                if NewBlockStart and op_code != 'jmp':
                    self.AddToMap(CurrentBlockAddress,
                                  CurrentAddress + idaapi.cvar.cmd.size, '',
                                  'link')

                if op_code[0:3] == 'ret':
                    NewBlockStart = True

                last_op_code = op_code
                CurrentAddress += idaapi.cvar.cmd.size
            else:
                CurrentAddress += 1
예제 #19
0
def is_line_code(line_address):
    """
    Check if a given line contains code.
    """
    # Use a hack of trying to get the mnemonic:
    return idaapi.ua_mnem(line_address) is not None
예제 #20
0
def mnem(ea):
    '''Returns the mnemonic of an instruction'''
    return idaapi.ua_mnem(ea) or ''
예제 #21
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	def AnalyzeRange( self, startEA, endEA ):
		CurrentAddress = startEA
		CurrentBlockAddress = CurrentAddress
		NewBlockStart = True
		last_op_code = ''
		while CurrentAddress < endEA:
			if idaapi.isCode( idaapi.get_flags_novalue( CurrentAddress ) ):
				idaapi.decode_insn( CurrentAddress )
				op_code = idaapi.ua_mnem( CurrentAddress )

				operands=[]
				disasm_line = op_code + ' ' 
				for i in range(0, 6, 1):
					operand = idaapi.ua_outop2( CurrentAddress, i )
					if not operand:
						break;
					operand = idaapi.tag_remove( operand )
					operands.append( operand )
					if i != 0:
						disasm_line += ','
					disasm_line += operand
				#disasm_line = idaapi.tag_remove( idaapi.generate_disasm_line( CurrentAddress ) )

				xref = idaapi.xrefblk_t()

				ret = xref.first_to( CurrentAddress, idaapi.XREF_FAR )
				while ret:
					ret = xref.next_to()
					NewBlockStart = True

				if NewBlockStart and last_op_code[0:3] != 'ret' and last_op_code != 'new block':
					self.AddToMap( CurrentBlockAddress, CurrentAddress, None, 'link')

				if NewBlockStart:
					CurrentBlockAddress = CurrentAddress
					self.BlockData[CurrentBlockAddress]=[]
					if self.DebugLevel > 2:
						print '='*80

				if self.DebugLevel > 2:
					print hex(CurrentAddress), disasm_line
				self.BlockData[CurrentBlockAddress].append( ( CurrentAddress, disasm_line ) )

				NewBlockStart = False
				CallIsResolved = False
				ret = xref.first_from( CurrentAddress, idaapi.XREF_FAR )
				while ret:
					if xref.iscode:
						if op_code == 'jmp' and xref.to == CurrentAddress + idaapi.cvar.cmd.size:
							NewBlockStart = True
						elif op_code == 'call':
							CallIsResolved = True
							self.AddToMap( CurrentBlockAddress,xref.to, operands[0], 'call')
						else:
							if len(operands) > 0 :
								self.AddToMap( CurrentBlockAddress,xref.to, operands[0], 'from')
							NewBlockStart = True
					ret = xref.next_from()

				if ( op_code == 'call' or op_code =='' ) and not CallIsResolved:
					self.AddToMap( CurrentBlockAddress, operands[0], operands[0], 'call')

				if NewBlockStart and op_code != 'jmp':
					self.AddToMap( CurrentBlockAddress, CurrentAddress + idaapi.cvar.cmd.size, '', 'link')

				if op_code[0:3] == 'ret':
					NewBlockStart = True

				last_op_code = op_code
				CurrentAddress += idaapi.cvar.cmd.size
			else:
				CurrentAddress += 1
예제 #22
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def load_file(fd, neflags, format):
    global prologues
    size = 0
    base_addr = 0
    ea = 0
    nfunc = 0
    idaapi.set_processor_type("arm", idaapi.SETPROC_LOADER)
    idaapi.get_inf_structure().lflags |= idaapi.LFLG_64BIT
    if (neflags & idaapi.NEF_RELOAD) != 0:
        return 1
    fd.seek(0, idaapi.SEEK_END)
    size = fd.tell()
    segm = idaapi.segment_t()
    segm.bitness = 2  # 64-bit
    segm.start_ea = 0
    segm.end_ea = size
    idaapi.add_segm_ex(segm, "iBoot", "CODE", idaapi.ADDSEG_OR_DIE)
    fd.seek(0)
    fd.file2base(0, 0, size, False)
    idaapi.add_entry(0, 0, "start", 1)
    idaapi.add_func(ea, idaapi.BADADDR)
    print("[+] Marked as code")
    # heuristic
    while (True):
        mnemonic = idaapi.ua_mnem(ea)
        if mnemonic == None:
            mnemonic = ''
        if "LDR" in mnemonic:
            base_str = idc.print_operand(ea, 1)
            base_addr = int(base_str.split("=")[1], 16)
            break
        ea += 4
    print("[+] Rebasing to address 0x%x" % (base_addr))
    idaapi.rebase_program(base_addr, idc.MSF_NOFIX)
    ida_auto.auto_wait()

    segment_start = base_addr
    segment_end = idc.get_segm_attr(segment_start, idc.SEGATTR_END)
    ea = segment_start

    print("[+] Searching and defining functions")

    for prologue in prologues:
        while ea != idc.BADADDR:
            ea = ida_search.find_binary(ea, idc.ida_search.SEARCH_DOWN,
                                        prologue, 16, ida_search.SEARCH_DOWN)
            if ea != idc.BADADDR:
                ea = ea - 2
                if (ea % 4) == 0 and ida_bytes.get_flags(ea) < 0x200:
                    print("[+] Defining a function at 0x%x" % (ea))
                    idaapi.add_func(ea, idaapi.BADADDR)
                    nfunc = nfunc + 1
                ea = ea + 4

    ida_auto.plan_and_wait(segment_start, segment_end)
    print("[+] Identified %d new functions" % (nfunc))
    print("[+] Looking for interesting functions")
    find_interesting(segment_start)
    return 1


# EOF
예제 #23
0
 def to_masm(self):
     if self.verbatim:
         return "\t%s" % (idaapi.tag_remove(idaapi.generate_disasm_line(self.ea)))
     else:
         return "\t%s  %s" % (idaapi.ua_mnem(self.ea), ", ".join(map(lambda e: e.to_masm(), self.ops)))