n4sm · September 18, 2024 16:15 · H4niz · Jan 8, 2021 · n4sm · Jan 8, 2021
diff --git a/auto_unpacker.py b/auto_unpacker.py
 #!/usr/bin/python3

 # /*
 # *  ----------------------------------------------------------------------------
 # *  "THE BEER-WARE LICENSE" (Revision 42):
 # *  n4sm wrote this file. As long as you retain this notice you
 # *  can do whatever you want with this stuff. If we meet some day, and you think
 # *  this stuff is worth it, you can buy me a beer in return Poul-Henning Kamp
 # *  ----------------------------------------------------------------------------
 # * /

 from unicorn import (
    UC_PROT_ALL,
    UC_PROT_EXEC,
    UC_PROT_NONE,
    UC_PROT_READ,
    UC_PROT_WRITE
 )

 import sys
 import os 
 import random

 from operator import itemgetter

 from capstone import *
 from capstone.x86 import *
 from keystone import *

 sys.path.append("../")
 # To edit

 from qiling import *

 from qiling.const import *
 from qiling.os.linux.thread import *
 from qiling.const import *
 from qiling.os.posix.filestruct import *
 from qiling.os.filestruct import *
 from qiling.os.posix.const_mapping import *
 from qiling.exception import *

 mem_regions_exec = [] # list of list

 mem_regions = []

 trace = [None]

 c_m = []
 cache = []

 idx = 0x0

 pinst = 0

 md = Cs(CS_ARCH_X86, CS_MODE_64)

 def is_available(ql, addr, size):
    '''
    The main function of is_available is to determine 
    whether the memory starting with addr and having a size of length can be used for allocation.
    If it can be allocated, returns True.
    If it cannot be allocated, it returns False.
    '''
    try:
        ql.mem.map(addr, size)
    except:
        return False    

    ql.mem.unmap(addr, size)

    return True



 def local_hook(ql, addr, size, prot) -> int:
    
    tmp_lst = [addr, size, prot]

    s = True

    if prot & UC_PROT_EXEC:

        print("[+] mapping with PROT_EXEC prot 0x%x - 0x%x" % (addr, addr + size))

        for i in range(len(mem_regions_exec)):
            if tmp_lst[0] == mem_regions_exec[i][0]:
                mem_regions_exec[i] = tmp_lst
                s = False
                break

        if s:
            mem_regions_exec.append(tmp_lst)

    for i in range(len(mem_regions)):
        if tmp_lst[0] == mem_regions[i][0]:
            mem_regions[i] = tmp_lst
            return 0x0

    mem_regions.append(tmp_lst)

    return 0x0

 def mmap_c(ql, mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset):

    mmap2_length_align = ((mmap2_length + 0x1000 - 1) // 0x1000) * 0x1000
    mmap2_addr_align = ((mmap2_addr + 0x1000 - 1) // 0x1000) * 0x1000

    ret = False

    # this is ugly patch, we might need to get value from elf parse,
    # is32bit or is64bit value not by arch

    MAP_ANONYMOUS=32

    if (ql.archtype== QL_ARCH.ARM64) or (ql.archtype== QL_ARCH.X8664):
        mmap2_fd = ql.unpack64(ql.pack64(mmap2_fd))

    elif (ql.archtype== QL_ARCH.MIPS):
        mmap2_fd = ql.unpack32s(ql.mem.read(mmap2_fd, 4))
        mmap2_pgoffset = ql.unpack32(ql.mem.read(mmap2_pgoffset, 4)) * 4096
        MAP_ANONYMOUS=2048
    else:
        mmap2_fd = ql.unpack32s(ql.pack32(mmap2_fd))
        mmap2_pgoffset = mmap2_pgoffset * 4096

    if mmap2_addr != 0 and ql.mem.is_mapped(mmap2_addr, mmap2_length):
        ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, 0x%x, 0x%x, %x, %d)" % (
        mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset))
        ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, %s, %s, %x, %d)" % (
        mmap2_addr, mmap2_length, mmap_prot_mapping(mmap2_prot), mmap_flag_mapping(mmap2_flags), mmap2_fd, mmap2_pgoffset))
        ql.dprint(D_INFO, "[+] log mmap2 - return addr : " + hex(0x0))

        ql.uc.mem_protect(mmap2_addr_align, mmap2_length_align, mmap2_prot)

        local_hook(ql, mmap2_addr, mmap2_length_align, mmap2_prot)

        ql.mem.add_mapinfo(mmap2_addr, mmap2_addr + mmap2_length_align, mem_p = mmap2_prot, mem_info = "[mapped]")
        return 0x0

    if mmap2_addr == 0:

        while ret == False:
            random_base = random.randint(0x0, 0x00007fffffffffff)

            random_base_align = ((random_base + 0x1000 - 1) // 0x1000) * 0x1000

            ret = is_available(ql, random_base_align, mmap2_length_align)

    else:
        random_base_align = mmap2_addr_align

    ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, 0x%x, 0x%x, %x, %d)" % (
    mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset))
    ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, %s, %s, %x, %d)" % (
    mmap2_addr, mmap2_length, mmap_prot_mapping(mmap2_prot), mmap_flag_mapping(mmap2_flags), mmap2_fd, mmap2_pgoffset))
    ql.dprint(D_INFO, "[+] log mmap2 - return addr : " + hex(random_base_align))
    ql.dprint(D_INFO, "[+] log mmap2 - addr range  : " + hex(random_base_align) + ' - ' + hex(
        random_base_align + mmap2_length_align))

    try:
        ql.mem.map(random_base_align, mmap2_length_align)
    except:
        ql.mem.show_mapinfo()
        raise

    ql.uc.mem_protect(random_base_align, mmap2_length_align, UC_PROT_ALL)
    # To avoid an invalid memory write

    ql.mem.write(random_base_align, b'\x00' * mmap2_length_align)

    if ((mmap2_flags & MAP_ANONYMOUS) == 0) and mmap2_fd < 256 and ql.os.file_des[mmap2_fd] != 0:
        ql.os.file_des[mmap2_fd].lseek(mmap2_pgoffset)
        data = ql.os.file_des[mmap2_fd].read(mmap2_length)
        mem_info = str(ql.os.file_des[mmap2_fd].name)

        ql.dprint(D_INFO, "[+] log mem write : " + hex(len(data)))
        ql.dprint(D_INFO, "[+] log mem mmap2  : " + mem_info)
        ql.mem.add_mapinfo(random_base_align, random_base_align + (len(data)), mem_p = UC_PROT_ALL, mem_info = mem_info)
        ql.mem.write(random_base_align, data)


    ql.nprint("mmap2(0x%x, 0x%x, 0x%x, 0x%x, %d, %d) = 0x%x" % (mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset, random_base_align))

    regreturn = random_base_align
    ql.dprint(D_INFO, "[+] mmap2_block is at 0x%x with a length of 0x%x" % (regreturn, mmap2_length_align))

    ql.uc.mem_protect(random_base_align, mmap2_length_align, mmap2_prot)

    ql.mem.add_mapinfo(random_base_align, random_base_align + mmap2_length_align, mem_p = mmap2_prot, mem_info="[mapped]")
    ql.mem.show_mapinfo()

    local_hook(ql, random_base_align, mmap2_length_align, mmap2_prot)

    ql.os.definesyscall_return(regreturn)

 def ql_syscall_mprotect(ql, mprotect_start, mprotect_len, mprotect_prot, *args, **kw):
    regreturn = 0
    ql.nprint("mprotect(0x%x, 0x%x, 0x%x) = %d" % (mprotect_start, mprotect_len, mprotect_prot, regreturn))
    ql.dprint(D_INFO, "[+] mprotect(0x%x, 0x%x, %s) = %d" % (
    mprotect_start, mprotect_len, mmap_prot_mapping(mprotect_prot), regreturn))

    base_align = ((mprotect_start + 0x1000 - 1) // 0x1000) * 0x1000
    length_align = ((mprotect_len + 0x1000 - 1) // 0x1000) * 0x1000

    ql.uc.mem_protect(base_align, length_align, mprotect_prot)
    ql.mem.add_mapinfo(base_align, base_align+length_align, mem_p=mprotect_prot, mem_info="[mprotect]")

    local_hook(ql, base_align, length_align, mprotect_prot)

    ql.os.definesyscall_return(regreturn)

 def setup_self_proc(exe_name : str, exe_path : str, rootfs : str) -> None:
    with open(rootfs + "/proc/self/exe", "wb") as file_created:
        file_created.seek(0x0)

        with open(exe_path, "rb") as exe_file:
            data_exe = exe_file.read()

            file_created.write(data_exe)

 # def check_jmp(ql, addr, size):
 #     ins = ql.mem.read(addr, size)

 #     reg_val = 0x0

 #     md = Cs(CS_ARCH_X86, CS_MODE_64)
 #     md.detail = True

 #     for i in md.disasm(ins, addr):
 #         for g in i.groups:
 #             if g & CS_GRP_JUMP != 0 or g & CS_GRP_CALL != 0:
 #                 for op in i.operands:
 #                     if op.type == X86_OP_REG:
 #                         t = op.type

 #                         reg_val = ql.uc.reg_read(op.value.reg)

 #         for area in mem_regions_exec:
 #             if reg_val >= area[0] and reg_val <= area[0] + area[1]:
 #                 print("[*] Indirect jmp in a mmaped area : %s %s; %s=0x%x" % (i.mnemonic, i.op_str, i.reg_name(t), reg_val))

 def is_in_range(addr) -> bool:
    """
    Checks if an address is in the range of executable memeory area mapped by the process
    """
    addr = ((addr >> 12) << 12)

    for area in mem_regions_exec:
            if addr >= area[0] and addr <= area[0] + area[1]:
                return True
    return False

 def dump(ql, addr):
    matchs = ql.mem.search(b"\x7fELF")

    average = {}

    for ar in matchs:
        if addr > ar:
            average[ar] = addr - ar

    m_sorted = sorted(average, key=lambda x: average.keys())

    addr_dmp = m_sorted[0]

    shoff = int.from_bytes(ql.mem.read(addr_dmp + 40, 0x8), "little")
    print("[+] Section header offset : 0x%x" % shoff)

    len_section_headers = int.from_bytes(ql.mem.read(addr_dmp + 58, 0x2), "little") * int.from_bytes(ql.mem.read(addr_dmp + 60, 0x2), "little")
    print("[+] length of the section headers : 0x%x" % len_section_headers)

    len_dmp = shoff + len_section_headers
    print("[+] Final binary dumped : 0x%x - 0x%x" % (addr_dmp, addr_dmp + len_dmp))

    dmp = ql.mem.read(addr_dmp, len_dmp)

    with open("bin.u", "wb+") as file_unpacked:
        file_unpacked.write(dmp)

 def _callback_(ql, addr, size):
    global md, idx, pinst

    # (addr >> 12) << 12) is the base address of the page to which belongs addr
    if ((addr >> 12) << 12) in c_m or addr in cache:
        # If the address is already in the cache miss or in the cache it returns
        return 0

    elif not is_in_range(((addr >> 12) << 12)):
        # If it is not yet in the cache miss and that addr is not in a mapped area in PF_X
        print("{} append to the cache".format(hex(((addr >> 12) << 12))))
        c_m.append(((addr >> 12) << 12))
        return 0

    if len(cache) < 1024:
        # cache for obfuscated instrcutions (to avoid loop repetitions)
        cache.append(addr)
    else:
        cache[idx % 1024] = addr
        idx += 1

    pinst += 1
    # Number of unpacked instructions executed 

    if pinst == 0x1:
        dump(ql, addr)

    ins = ql.mem.read(addr, size)
    # We read the raw bytes for the instruction

    for i in md.disasm(ins, addr):
        # We disassemble it
        insnt = "{} : {} {}".format(hex(i.address), i.mnemonic, i.op_str)

        print(insnt)

        if insnt not in trace:
            # append meta datas for the instruction in the trace
            trace.append(insnt)

    return 0

 if __name__ == "__main__":

    _ql_ = Qiling(["rootfs/x8664_linux/bin/leetness"], "rootfs/x8664_linux/", output="debug")
    # parameters to edit

    setup_self_proc("leetness", "/media/nasm/7044d811-e1cd-4997-97d5-c08072ce9497/Downloads/qiling/examples/rootfs/x8664_linux/bin/leetness", "rootfs/x8664_linux")
    # same

    _ql_.set_syscall(0x9, mmap_c)
    _ql_.set_syscall(0xa, ql_syscall_mprotect)

    _ql_.hook_code(_callback_)

    _ql_.run()
	#!/usr/bin/python3

	# /*
	# * ----------------------------------------------------------------------------
	# * "THE BEER-WARE LICENSE" (Revision 42):
	# * n4sm wrote this file. As long as you retain this notice you
	# * can do whatever you want with this stuff. If we meet some day, and you think
	# * this stuff is worth it, you can buy me a beer in return Poul-Henning Kamp
	# * ----------------------------------------------------------------------------
	# * /

	from unicorn import (
	UC_PROT_ALL,
	UC_PROT_EXEC,
	UC_PROT_NONE,
	UC_PROT_READ,
	UC_PROT_WRITE
	)

	import sys
	import os
	import random

	from operator import itemgetter

	from capstone import *
	from capstone.x86 import *
	from keystone import *

	sys.path.append("../")
	# To edit

	from qiling import *

	from qiling.const import *
	from qiling.os.linux.thread import *
	from qiling.const import *
	from qiling.os.posix.filestruct import *
	from qiling.os.filestruct import *
	from qiling.os.posix.const_mapping import *
	from qiling.exception import *

	mem_regions_exec = [] # list of list

	mem_regions = []

	trace = [None]

	c_m = []
	cache = []

	idx = 0x0

	pinst = 0

	md = Cs(CS_ARCH_X86, CS_MODE_64)

	def is_available(ql, addr, size):
	'''
	The main function of is_available is to determine
	whether the memory starting with addr and having a size of length can be used for allocation.
	If it can be allocated, returns True.
	If it cannot be allocated, it returns False.
	'''
	try:
	ql.mem.map(addr, size)
	except:
	return False

	ql.mem.unmap(addr, size)

	return True



	def local_hook(ql, addr, size, prot) -> int:

	tmp_lst = [addr, size, prot]

	s = True

	if prot & UC_PROT_EXEC:

	print("[+] mapping with PROT_EXEC prot 0x%x - 0x%x" % (addr, addr + size))

	for i in range(len(mem_regions_exec)):
	if tmp_lst[0] == mem_regions_exec[i][0]:
	mem_regions_exec[i] = tmp_lst
	s = False
	break

	if s:
	mem_regions_exec.append(tmp_lst)

	for i in range(len(mem_regions)):
	if tmp_lst[0] == mem_regions[i][0]:
	mem_regions[i] = tmp_lst
	return 0x0

	mem_regions.append(tmp_lst)

	return 0x0

	def mmap_c(ql, mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset):

	mmap2_length_align = ((mmap2_length + 0x1000 - 1) // 0x1000) * 0x1000
	mmap2_addr_align = ((mmap2_addr + 0x1000 - 1) // 0x1000) * 0x1000

	ret = False

	# this is ugly patch, we might need to get value from elf parse,
	# is32bit or is64bit value not by arch

	MAP_ANONYMOUS=32

	if (ql.archtype== QL_ARCH.ARM64) or (ql.archtype== QL_ARCH.X8664):
	mmap2_fd = ql.unpack64(ql.pack64(mmap2_fd))

	elif (ql.archtype== QL_ARCH.MIPS):
	mmap2_fd = ql.unpack32s(ql.mem.read(mmap2_fd, 4))
	mmap2_pgoffset = ql.unpack32(ql.mem.read(mmap2_pgoffset, 4)) * 4096
	MAP_ANONYMOUS=2048
	else:
	mmap2_fd = ql.unpack32s(ql.pack32(mmap2_fd))
	mmap2_pgoffset = mmap2_pgoffset * 4096

	if mmap2_addr != 0 and ql.mem.is_mapped(mmap2_addr, mmap2_length):
	ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, 0x%x, 0x%x, %x, %d)" % (
	mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset))
	ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, %s, %s, %x, %d)" % (
	mmap2_addr, mmap2_length, mmap_prot_mapping(mmap2_prot), mmap_flag_mapping(mmap2_flags), mmap2_fd, mmap2_pgoffset))
	ql.dprint(D_INFO, "[+] log mmap2 - return addr : " + hex(0x0))

	ql.uc.mem_protect(mmap2_addr_align, mmap2_length_align, mmap2_prot)

	local_hook(ql, mmap2_addr, mmap2_length_align, mmap2_prot)

	ql.mem.add_mapinfo(mmap2_addr, mmap2_addr + mmap2_length_align, mem_p = mmap2_prot, mem_info = "[mapped]")
	return 0x0

	if mmap2_addr == 0:

	while ret == False:
	random_base = random.randint(0x0, 0x00007fffffffffff)

	random_base_align = ((random_base + 0x1000 - 1) // 0x1000) * 0x1000

	ret = is_available(ql, random_base_align, mmap2_length_align)

	else:
	random_base_align = mmap2_addr_align

	ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, 0x%x, 0x%x, %x, %d)" % (
	mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset))
	ql.dprint(D_INFO, "[+] log mmap2 - mmap2(0x%x, 0x%x, %s, %s, %x, %d)" % (
	mmap2_addr, mmap2_length, mmap_prot_mapping(mmap2_prot), mmap_flag_mapping(mmap2_flags), mmap2_fd, mmap2_pgoffset))
	ql.dprint(D_INFO, "[+] log mmap2 - return addr : " + hex(random_base_align))
	ql.dprint(D_INFO, "[+] log mmap2 - addr range : " + hex(random_base_align) + ' - ' + hex(
	random_base_align + mmap2_length_align))

	try:
	ql.mem.map(random_base_align, mmap2_length_align)
	except:
	ql.mem.show_mapinfo()
	raise

	ql.uc.mem_protect(random_base_align, mmap2_length_align, UC_PROT_ALL)
	# To avoid an invalid memory write

	ql.mem.write(random_base_align, b'\x00' * mmap2_length_align)

	if ((mmap2_flags & MAP_ANONYMOUS) == 0) and mmap2_fd < 256 and ql.os.file_des[mmap2_fd] != 0:
	ql.os.file_des[mmap2_fd].lseek(mmap2_pgoffset)
	data = ql.os.file_des[mmap2_fd].read(mmap2_length)
	mem_info = str(ql.os.file_des[mmap2_fd].name)

	ql.dprint(D_INFO, "[+] log mem write : " + hex(len(data)))
	ql.dprint(D_INFO, "[+] log mem mmap2 : " + mem_info)
	ql.mem.add_mapinfo(random_base_align, random_base_align + (len(data)), mem_p = UC_PROT_ALL, mem_info = mem_info)
	ql.mem.write(random_base_align, data)


	ql.nprint("mmap2(0x%x, 0x%x, 0x%x, 0x%x, %d, %d) = 0x%x" % (mmap2_addr, mmap2_length, mmap2_prot, mmap2_flags, mmap2_fd, mmap2_pgoffset, random_base_align))

	regreturn = random_base_align
	ql.dprint(D_INFO, "[+] mmap2_block is at 0x%x with a length of 0x%x" % (regreturn, mmap2_length_align))

	ql.uc.mem_protect(random_base_align, mmap2_length_align, mmap2_prot)

	ql.mem.add_mapinfo(random_base_align, random_base_align + mmap2_length_align, mem_p = mmap2_prot, mem_info="[mapped]")
	ql.mem.show_mapinfo()

	local_hook(ql, random_base_align, mmap2_length_align, mmap2_prot)

	ql.os.definesyscall_return(regreturn)

	def ql_syscall_mprotect(ql, mprotect_start, mprotect_len, mprotect_prot, args, *kw):
	regreturn = 0
	ql.nprint("mprotect(0x%x, 0x%x, 0x%x) = %d" % (mprotect_start, mprotect_len, mprotect_prot, regreturn))
	ql.dprint(D_INFO, "[+] mprotect(0x%x, 0x%x, %s) = %d" % (
	mprotect_start, mprotect_len, mmap_prot_mapping(mprotect_prot), regreturn))

	base_align = ((mprotect_start + 0x1000 - 1) // 0x1000) * 0x1000
	length_align = ((mprotect_len + 0x1000 - 1) // 0x1000) * 0x1000

	ql.uc.mem_protect(base_align, length_align, mprotect_prot)
	ql.mem.add_mapinfo(base_align, base_align+length_align, mem_p=mprotect_prot, mem_info="[mprotect]")

	local_hook(ql, base_align, length_align, mprotect_prot)

	ql.os.definesyscall_return(regreturn)

	def setup_self_proc(exe_name : str, exe_path : str, rootfs : str) -> None:
	with open(rootfs + "/proc/self/exe", "wb") as file_created:
	file_created.seek(0x0)

	with open(exe_path, "rb") as exe_file:
	data_exe = exe_file.read()

	file_created.write(data_exe)

	# def check_jmp(ql, addr, size):
	# ins = ql.mem.read(addr, size)

	# reg_val = 0x0

	# md = Cs(CS_ARCH_X86, CS_MODE_64)
	# md.detail = True

	# for i in md.disasm(ins, addr):
	# for g in i.groups:
	# if g & CS_GRP_JUMP != 0 or g & CS_GRP_CALL != 0:
	# for op in i.operands:
	# if op.type == X86_OP_REG:
	# t = op.type

	# reg_val = ql.uc.reg_read(op.value.reg)

	# for area in mem_regions_exec:
	# if reg_val >= area[0] and reg_val <= area[0] + area[1]:
	# print("[*] Indirect jmp in a mmaped area : %s %s; %s=0x%x" % (i.mnemonic, i.op_str, i.reg_name(t), reg_val))

	def is_in_range(addr) -> bool:
	"""
	Checks if an address is in the range of executable memeory area mapped by the process
	"""
	addr = ((addr >> 12) << 12)

	for area in mem_regions_exec:
	if addr >= area[0] and addr <= area[0] + area[1]:
	return True
	return False

	def dump(ql, addr):
	matchs = ql.mem.search(b"\x7fELF")

	average = {}

	for ar in matchs:
	if addr > ar:
	average[ar] = addr - ar

	m_sorted = sorted(average, key=lambda x: average.keys())

	addr_dmp = m_sorted[0]

	shoff = int.from_bytes(ql.mem.read(addr_dmp + 40, 0x8), "little")
	print("[+] Section header offset : 0x%x" % shoff)

	len_section_headers = int.from_bytes(ql.mem.read(addr_dmp + 58, 0x2), "little") * int.from_bytes(ql.mem.read(addr_dmp + 60, 0x2), "little")
	print("[+] length of the section headers : 0x%x" % len_section_headers)

	len_dmp = shoff + len_section_headers
	print("[+] Final binary dumped : 0x%x - 0x%x" % (addr_dmp, addr_dmp + len_dmp))

	dmp = ql.mem.read(addr_dmp, len_dmp)

	with open("bin.u", "wb+") as file_unpacked:
	file_unpacked.write(dmp)

	def _callback_(ql, addr, size):
	global md, idx, pinst

	# (addr >> 12) << 12) is the base address of the page to which belongs addr
	if ((addr >> 12) << 12) in c_m or addr in cache:
	# If the address is already in the cache miss or in the cache it returns
	return 0

	elif not is_in_range(((addr >> 12) << 12)):
	# If it is not yet in the cache miss and that addr is not in a mapped area in PF_X
	print("{} append to the cache".format(hex(((addr >> 12) << 12))))
	c_m.append(((addr >> 12) << 12))
	return 0

	if len(cache) < 1024:
	# cache for obfuscated instrcutions (to avoid loop repetitions)
	cache.append(addr)
	else:
	cache[idx % 1024] = addr
	idx += 1

	pinst += 1
	# Number of unpacked instructions executed

	if pinst == 0x1:
	dump(ql, addr)

	ins = ql.mem.read(addr, size)
	# We read the raw bytes for the instruction

	for i in md.disasm(ins, addr):
	# We disassemble it
	insnt = "{} : {} {}".format(hex(i.address), i.mnemonic, i.op_str)

	print(insnt)

	if insnt not in trace:
	# append meta datas for the instruction in the trace
	trace.append(insnt)

	return 0

	if __name__ == "__main__":

	_ql_ = Qiling(["rootfs/x8664_linux/bin/leetness"], "rootfs/x8664_linux/", output="debug")
	# parameters to edit

	setup_self_proc("leetness", "/media/nasm/7044d811-e1cd-4997-97d5-c08072ce9497/Downloads/qiling/examples/rootfs/x8664_linux/bin/leetness", "rootfs/x8664_linux")
	# same

	_ql_.set_syscall(0x9, mmap_c)
	_ql_.set_syscall(0xa, ql_syscall_mprotect)

	_ql_.hook_code(_callback_)

	_ql_.run()