胸怀大志的孙策希望能够有一天光宗耀祖。
父亲孙坚给了他一块玉玺并告诉他,只要他能打下2880座城镇,并在每个城镇祭拜玉玺,就能如愿。
孙策照着父亲的话去做了,最终赢得了胜利,并将这块玉玺视为传家宝。
袁术看见孙策成功了,也想模仿。他日夜监视着孙策的动向,希望能够得到这件传家宝。
他能成功吗?
题目简介
本题共有916人围观,最终只有4支团队攻破成功。可见这道题的难度也十分大,出题者巧妙布局,引人步步深入,在破题的过程中方能见识到步步皆是棋局,走错一步满盘皆输。
攻破此题的战队排名一览:
那么究竟出题者运用了什么巧妙战术,让我们一起来看一下吧。
看雪评委crownless点评
这题是一道Windows CrackMe,程序存在大量SMC,且嵌套2880层,很符合题目“传家之宝”的解释,考验了破解者写脚本破解的能力。但实际上,有另外的方法能直接提取核心aes代码。
出题团队简介
本题出题战队 Archaia:
下面是相关简介:
科锐学员队,即将毕业。
所有数据都是明的,没有需要攻击者破解的数
所有数据的相互关系也是明的,没有隐晦的数学关系
所有解题所需的信息都在明处,没有隐藏任何线索
所有攻击者看到的线索都是真的,没有设置误导线索
所有指令都是会自动执行到的,没有需要寻找的代码
所有流程都很直白,没有异常,没有中断,没有回调
所有代码都是完整的,没有调用任何第三方API(接口部分除外)
计算下一层代码入口地址,准备迁移代码并call执行
.text:0040171D E8 00 00 00 00 call $+5
.text:00401722 59 pop ecx
.text:00401723 81 E9 48 10 40 00 sub ecx, 401048h
.text:00401729 81 C1 43 11 40 00 add ecx, 401143h
.text:0040172F E8 00 00 00 00 call $+5
.text:00401734 5F pop edi
.text:00401735 81 EF 5A 10 40 00 sub edi, 40105Ah
.text:0040173B 81 C7 10 10 40 00 add edi, 401010h
计算下一层解码开始地址
.text:00401845 E8 00 00 00 00 call $+5
.text:0040184A 5E pop esi
.text:0040184B 81 EE 70 11 40 00 sub esi, 401170h
.text:00401851 81 C6 01 12 40 00 add esi, 401201h
.text:00401857 B9 27 CD 15 00 mov ecx, 15CD27h
.text:0040185C FC cld
.text:0040185D EB 1B jmp short loc_40187A
计算数据全局变量开始地址
.text:0040185F 9D popf
.text:00401860 5F pop edi
.text:00401861 5E pop esi
.text:00401862 5A pop edx
.text:00401863 59 pop ecx
.text:00401864 5B pop ebx
.text:00401865 58 pop eax
.text:00401866 E8 00 00 00 00 call $+5
.text:0040186B 5E pop esi
.text:0040186C 81 EE 91 11 40 00 sub esi, 401191h
.text:00401872 81 C6 39 DF 55 00 add esi, 55DF39h
.text:00401878 EB 05 jmp short loc_40187F
真实功能指令
.text:0040187F 8A 86 A7 01 00 00 mov al, [esi+1A7h]
.text:00401885 32 86 B7 01 00 00 xor al, [esi+1B7h]
.text:0040188B 88 45 FF mov [ebp-1], al
from __future__ import print_function
from idaapi import *
from idc import *
stop = False
def scan(patt,start=0,end=0):
pattern = patt
if start:
addr = start
else:
addr = MinEA()
if end:
addr1 = end
else:
addr1 = MaxEA()
for i in range(addr,addr1):
addr = FindBinary(addr, SEARCH_DOWN|SEARCH_NEXT, pattern)
if addr != BADADDR:
return addr
return 0
def get_saddr(addr):
while True:
addr = scan('E8 00 00 00 00 5e 81',start = addr,end=0x55e602)
if addr == 0:
return 0
if Byte(addr+12) == 0x81 and Byte(addr+18) == 0xb9:
return addr
elif Byte(addr+12) == 0x81 and Byte(addr+18) == 0xeb and Byte(addr+18+2+Byte(addr+18+1)) == 0xb9:
return addr
addr += 5
def patch_one_round(address,waddr):
SetRegValue(address,'eip')
addr = waddr+3
addr = scan('85 c9',start=addr,end=0x55e602)
if addr == 0:
return False
addr += 2
while Byte(addr) == 0xeb:
off = Byte(addr+1)
off = off if off < 0x80 else off - 0x100
addr += 2+off
if Byte(addr) == 0x75:
addr += 2
elif Word(addr) == 0x850f:
addr += 6
else:
return False
if addr - waddr > 0x100:
return False
AddBpt(addr)
EnableBpt(addr, True)
continue_process()
GetDebuggerEvent(WFNE_SUSP, -1)
DelBpt(addr)
return True
def patch_one_byte(address,waddr):
SetRegValue(address,'eip')
addr = waddr+3
AddBpt(addr)
EnableBpt(addr, True)
continue_process()
GetDebuggerEvent(WFNE_SUSP, -1)
DelBpt(addr)
return True
def quick_ALT_K(saddr = 0x40163E):
count = 0
while True:
print('start_addr:{:08X}'.format(saddr))
waddr = scan('88 46',start=saddr,end=0x55e602)
if waddr == 0 or waddr > 0x55e602 or Byte(waddr+2) not in [0x1,0xff]:
print('waddr err or finished!')
break
print('waddr:{:08X}'.format(waddr))
if waddr - saddr < 10 or waddr - saddr > 0x100:
print('addr failed!')
break
addr_tmp = waddr+3
while Byte(addr_tmp) in [0xe9,0xeb]:
if Byte(addr_tmp) == 0xe9:
addr_tmp = (addr_tmp+5+Dword(addr_tmp+1))&0xffffffff
else:
off = Byte(addr_tmp+1)
off = off if off < 0x80 else off - 0x100
addr_tmp += 2+off
if Byte(addr_tmp) != 0x49:
patch_one_byte(saddr,waddr)
print('patch one byte')
else:
if not patch_one_round(saddr,waddr):
break
count += 1
if count % 500 == 0:
print(count)
save_database('crackme_fix_idb')
cur_ip = GetRegValue('eip')
print('curr_ip:{:08X}'.format(cur_ip))
for i in range(cur_ip,cur_ip+0x300):
MakeUnkn(i,0)
saddr = get_saddr(cur_ip-1)
if saddr == 0:
print('saddr err or finished!')
break
for i in range(0x4016A9,0x55e602):
MakeUnkn(i,0)
LoadDebugger('windbg',1)
AddBpt(0x40123F)
StartDebugger('','','')
GetDebuggerEvent(WFNE_SUSP, -1)
DelBpt(0x40123F)
quick_ALT_K()
print('end.')
.text:00401663 000 E8 00 00 00 00 call $+5
.text:00401668 004 5E pop esi
.text:00401669 000 81 EE 68 16 40 00 sub esi, 401668h
.text:0040166F 000 81 C6 13 E6 55 00 add esi, offset table_256_55E613
.text:00401675 000 55 push ebp
.text:00401676 004 8B EC mov ebp, esp
.text:00401678 004 83 EC 2C sub esp, 2Ch
.text:0055E0E6 030 83 C4 2C add esp, 2Ch
.text:0055E0E9 004 8B E5 mov esp, ebp
.text:0055E0EB 004 5D pop ebp
.text:0055E0EC 000 E9 54 04 00 00 jmp j_check_55E545
v0 = t_190[4] ^ table_256_55E613[t_1a0[4] ^ result[4] ^ 9];
v1 = t_190[5] ^ table_256_55E613[t_1a0[1] ^ result[1] ^ 9];
v2 = t_190[6] ^ table_256_55E613[result[14] ^ t_1a0[14] ^ 9];
v3 = t_190[7] ^ table_256_55E613[result[11] ^ t_1a0[11] ^ 9];
v4 = t_190[8] ^ table_256_55E613[result[8] ^ t_1a0[8] ^ 9];
v5 = t_190[9] ^ table_256_55E613[(t_1a0[5] ^ result[5]) ^ 9];
v6 = t_190[10] ^ table_256_55E613[t_1a0[2] ^ result[2] ^ 9];
v7 = t_190[11] ^ table_256_55E613[result[15] ^ t_1a0[15] ^ 9];
v8 = t_190[12] ^ table_256_55E613[result[12] ^ t_1a0[12] ^ 9];
v9 = t_190[13] ^ table_256_55E613[(result[9] ^ t_1a0[9]) ^ 9];
v10 = t_190[14] ^ table_256_55E613[t_1a0[6] ^ result[6] ^ 9];
v11 = t_190[15] ^ table_256_55E613[t_1a0[3] ^ result[3] ^ 9];
v12 = t_190[0] ^ table_256_55E613[t_1a0[0] ^ result[0] ^ 9];
v13 = t_190[1] ^ table_256_55E613[result[13] ^ t_1a0[13] ^ 9];
v14 = t_190[2] ^ table_256_55E613[(result[10] ^ t_1a0[10]) ^ 9];
v15 = t_190[3] ^ table_256_55E613[(result[7] ^ t_1a0[7]) ^ 9];
v16 = 27 * (v12 >> 7);
v17 = 27 * (v12 >> 7) ^ 2 * v12;
v18 = 2 * v17 ^ 27 * (v17 >> 7);
v19 = 27 * (v13 >> 7);
v20 = 27 * (v13 >> 7) ^ 2 * v13;
v21 = 27 * (v14 >> 7);
v22 = 27 * (v14 >> 7) ^ 2 * v14;
v23 = 27 * (v15 >> 7);
v24 = 27 * (v15 >> 7) ^ 2 * v15;
result[2] = aSnail3896q3405[2] ^ table_256_55E613[((t1_55E723[10] ^ v662) - 1)];
result[6] = aSnail3896q3405[6] ^ table_256_55E613[(v679 - 1)];
v689 = table_256_55E613[((t1_55E723[2] ^ v634) - 1)];
v690 = table_256_55E613[((t1_55E723[6] ^ v648) - 1)];
result[3] = aSnail3896q3405[3] ^ table_256_55E613[((t1_55E723[7] ^ v650) - 1)];
v691 = aSnail3896q3405[7] ^ table_256_55E613[((t1_55E723[11] ^ v664) - 1)];
result[4] = aSnail3896q3405[4] ^ v682;
v692 = table_256_55E613[(v680 - 1)];
result[5] = aSnail3896q3405[5] ^ v686;
result[8] = aSnail3896q3405[8] ^ v683;
v693 = table_256_55E613[((t1_55E723[3] ^ v636) - 1)];
result[0] = aSnail3896q3405[0] ^ v681;
result[1] = aSnail3896q3405[1] ^ v685;
result[7] = v691;
result[9] = aSnail3896q3405[9] ^ v687;
result[12] = aSnail3896q3405[12] ^ v684;
result[13] = aSnail3896q3405[13] ^ v688;
result[10] = aSnail3896q3405[10] ^ v689;
result[11] = aSnail3896q3405[11] ^ v692;
result[15] = aSnail3896q3405[15] ^ v693;
result[14] = aSnail3896q3405[14] ^ v690;
v17 = 27 * (v12 >> 7) ^ 2 * v12;
v18 = 2 * v17 ^ 27 * (v17 >> 7);
//v14,v15,v16,v17为一行状态变量
v18 = 27 * (v14 >> 7);
v19 = 27 * (v14 >> 7) ^ 2 * v14;
v20 = 2 * v19 ^ 27 * (v19 >> 7);
v21 = 27 * (v15 >> 7);
v22 = 27 * (v15 >> 7) ^ 2 * v15;
v23 = 27 * (v16 >> 7);
v24 = 27 * (v16 >> 7) ^ 2 * v16;
v25 = 27 * (v17 >> 7);
v26 = 27 * (v17 >> 7) ^ 2 * v17;
v27 = v16 ^
v15 ^
v18 ^ 2 * v14 ^
v21 ^ 2 * v15 ^
v17 ^
27 * (v19 >> 7) ^ 2 * v19 ^
27 * (v20 >> 7) ^ 2 * v20 ^
27 * ((2 * v22 ^ 27 * (v22 >> 7)) >> 7) ^ 2 * 2 * v22 ^ 27 * (v22 >> 7) ^
27 * (v24 >> 7) ^ 2 * v24 ^
27 * ((2 * v24 ^ 27 * (v24 >> 7)) >> 7) ^ 2 * 2 * v24 ^ 27 * (v24 >> 7) ^
27 * ((2 * v26 ^ 27 * (v26 >> 7)) >> 7) ^ 2 * 2 * v26 ^ 27 * (v26 >> 7)
1110 14 E
1011 11 B
1101 13 D
1001 9 9
Sbox = (
0x90,0x75,0xB4,0x69,0x59,0x47,0x97,0xC6,0x1A,0xC2,0x3A,0xA9,0x0E,0x05,0xBB,0x21,
0xB9,0xBA,0x9B,0x92,0xCE,0xF2,0x6B,0xEB,0x7A,0x8F,0xE9,0x14,0xE1,0x61,0x06,0x5F,
0x87,0xE6,0x80,0xDE,0x45,0xA6,0x22,0x37,0x9A,0x50,0x39,0x49,0x8D,0x02,0xD6,0x04,
0x15,0x13,0x2F,0x53,0x8C,0xD1,0xD7,0x34,0x60,0xB0,0x93,0x66,0xF0,0xE4,0xD5,0x63,
0x1E,0x2C,0x83,0x30,0x4C,0x99,0xBD,0x8B,0xDD,0x9F,0x31,0x44,0x74,0xF9,0x23,0xAA,
0xC3,0x96,0xF6,0xCF,0x9D,0x88,0x41,0xF5,0x4E,0xAE,0xFF,0xE5,0x9E,0x1B,0x48,0xED,
0x7E,0xDF,0x84,0x2D,0x3D,0x32,0x3C,0x0F,0x36,0xE3,0xD8,0x17,0xA5,0x33,0x3B,0x94,
0xE8,0xD3,0x16,0xD4,0x7D,0x20,0x6D,0x5B,0x0D,0xE7,0x42,0x7C,0xF4,0xBE,0x1C,0xBF,
0x56,0x65,0xC7,0x4F,0xC0,0x6F,0xB3,0x7F,0x81,0x2A,0xD0,0x43,0x73,0x62,0xD9,0x64,
0x07,0xC4,0xEC,0xA1,0xF7,0xA7,0x76,0xFC,0x2E,0xC8,0x54,0xAF,0x26,0xF8,0x57,0x86,
0xB5,0x4D,0x67,0x25,0xF1,0x72,0x1F,0x70,0x01,0xA3,0x95,0x5D,0x98,0xAC,0x27,0xC1,
0xB6,0xEE,0xCC,0x38,0x71,0xB2,0x6A,0x2B,0x8E,0xCD,0x10,0x55,0x0C,0xAD,0xCB,0x78,
0x82,0x08,0x0A,0x46,0xF3,0x3F,0x77,0xC5,0x51,0x52,0x29,0x24,0x3E,0x5A,0xA0,0x35,
0x5C,0x4B,0xE0,0xE2,0x58,0x11,0x00,0xFE,0xA4,0x8A,0x0B,0xCA,0xDB,0x79,0x68,0x4A,
0x9C,0x5E,0x91,0x03,0x7B,0x19,0x6C,0xA8,0xC9,0x09,0xB7,0xA2,0xFA,0xEA,0x89,0xEF,
0x18,0xDC,0x28,0xBC,0xD2,0xFD,0xDA,0x1D,0xB1,0x6E,0xFB,0x85,0x12,0xB8,0xAB,0x40,
)
InvSbox = (
0xD6,0xA8,0x2D,0xE3,0x2F,0x0D,0x1E,0x90,0xC1,0xE9,0xC2,0xDA,0xBC,0x78,0x0C,0x67,
0xBA,0xD5,0xFC,0x31,0x1B,0x30,0x72,0x6B,0xF0,0xE5,0x08,0x5D,0x7E,0xF7,0x40,0xA6,
0x75,0x0F,0x26,0x4E,0xCB,0xA3,0x9C,0xAE,0xF2,0xCA,0x89,0xB7,0x41,0x63,0x98,0x32,
0x43,0x4A,0x65,0x6D,0x37,0xCF,0x68,0x27,0xB3,0x2A,0x0A,0x6E,0x66,0x64,0xCC,0xC5,
0xFF,0x56,0x7A,0x8B,0x4B,0x24,0xC3,0x05,0x5E,0x2B,0xDF,0xD1,0x44,0xA1,0x58,0x83,
0x29,0xC8,0xC9,0x33,0x9A,0xBB,0x80,0x9E,0xD4,0x04,0xCD,0x77,0xD0,0xAB,0xE1,0x1F,
0x38,0x1D,0x8D,0x3F,0x8F,0x81,0x3B,0xA2,0xDE,0x03,0xB6,0x16,0xE6,0x76,0xF9,0x85,
0xA7,0xB4,0xA5,0x8C,0x4C,0x01,0x96,0xC6,0xBF,0xDD,0x18,0xE4,0x7B,0x74,0x60,0x87,
0x22,0x88,0xC0,0x42,0x62,0xFB,0x9F,0x20,0x55,0xEE,0xD9,0x47,0x34,0x2C,0xB8,0x19,
0x00,0xE2,0x13,0x3A,0x6F,0xAA,0x51,0x06,0xAC,0x45,0x28,0x12,0xE0,0x54,0x5C,0x49,
0xCE,0x93,0xEB,0xA9,0xD8,0x6C,0x25,0x95,0xE7,0x0B,0x4F,0xFE,0xAD,0xBD,0x59,0x9B,
0x39,0xF8,0xB5,0x86,0x02,0xA0,0xB0,0xEA,0xFD,0x10,0x11,0x0E,0xF3,0x46,0x7D,0x7F,
0x84,0xAF,0x09,0x50,0x91,0xC7,0x07,0x82,0x99,0xE8,0xDB,0xBE,0xB2,0xB9,0x14,0x53,
0x8A,0x35,0xF4,0x71,0x73,0x3E,0x2E,0x36,0x6A,0x8E,0xF6,0xDC,0xF1,0x48,0x23,0x61,
0xD2,0x1C,0xD3,0x69,0x3D,0x5B,0x21,0x79,0x70,0x1A,0xED,0x17,0x92,0x5F,0xB1,0xEF,
0x3C,0xA4,0x15,0xC4,0x7C,0x57,0x52,0x94,0x9D,0x4D,0xEC,0xFA,0x97,0xF5,0xD7,0x5A,
)
xtime = lambda a: (((a << 1) ^ 0x1B) & 0xFF) if (a & 0x80) else (a << 1)
Rcon = (
0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40,
0x80, 0x1B, 0x36, 0x6C, 0xD8, 0xAB, 0x4D, 0x9A,
0x2F, 0x5E, 0xBC, 0x63, 0xC6, 0x97, 0x35, 0x6A,
0xD4, 0xB3, 0x7D, 0xFA, 0xEF, 0xC5, 0x91, 0x39,
)
def text2matrix(text):
matrix = []
for i in range(16):
byte = (text >> (8 * (15 - i))) & 0xFF
if i % 4 == 0:
matrix.append([byte])
else:
matrix[i / 4].append(byte)
return matrix
def matrix2text(matrix):
text = 0
for i in range(4):
for j in range(4):
text |= (matrix[i][j] << (120 - 8 * (4 * i + j)))
return text
class AES:
def __init__(self, master_key):
# self.change_key(master_key)
self.round_keys = [
[0x73,0x6E,0x61,0x69],[0x6C,0x33,0x38,0x39],[0x36,0x71,0x33,0x34],[0x30,0x35,0x25,0x00],
[0xE4,0x51,0x1D,0x6D],[0x88,0x62,0x25,0x54],[0xBE,0x13,0x16,0x60],[0x8E,0x26,0x33,0x60],
[0x11,0x92,0xCD,0x74],[0x99,0xF0,0xE8,0x20],[0x27,0xE3,0xFE,0x40],[0xA9,0xC5,0xCD,0x20],
[0xB3,0x2F,0x7A,0xA7],[0x2A,0xDF,0x92,0x87],[0x0D,0x3C,0x6C,0xC7],[0xA4,0xF9,0xA1,0xE7],
[0x22,0x1D,0xEE,0xEE],[0x08,0xC2,0x7C,0x69],[0x05,0xFE,0x10,0xAE],[0xA1,0x07,0xB1,0x49],
[0xF7,0xD5,0xD5,0xDC],[0xFF,0x17,0xA9,0xB5],[0xFA,0xE9,0xB9,0x1B],[0x5B,0xEE,0x08,0x52],
[0xFF,0xE5,0xD5,0xE5],[0x00,0xF2,0x7C,0x50],[0xFA,0x1B,0xC5,0x4B],[0xA1,0xF5,0xCD,0x19],
[0x59,0x58,0x01,0xD7],[0x59,0xAA,0x7D,0x87],[0xA3,0xB1,0xB8,0xCC],[0x02,0x44,0x75,0xD5],
[0xC2,0xC5,0x02,0xA0],[0x9B,0x6F,0x7F,0x27],[0x38,0xDE,0xC7,0xEB],[0x3A,0x9A,0xB2,0x3E],
[0x61,0xF2,0xB0,0x20],[0xFA,0x9D,0xCF,0x07],[0xC2,0x43,0x08,0xEC],[0xF8,0xD9,0xBA,0xD2],
[0x62,0x06,0x05,0x61],[0x98,0x9B,0xCA,0x66],[0x5A,0xD8,0xC2,0x8A],[0xA2,0x01,0x78,0x58]
]
def encrypt(self, plaintext):
self.plain_state = text2matrix(plaintext)
self.__add_round_key(self.plain_state, self.round_keys[:4])
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:(y+1)&0xff,x),self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[4:8])
self.__mix_columns(self.plain_state)
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:(y+2)&0xff,x),self.plain_state)
self.__mix_columns(self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[8:12])
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:y^9,x),self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[12:16])
self.__mix_columns(self.plain_state)
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:y^7,x),self.plain_state)
self.__mix_columns(self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[16:20])
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:(y-1)&0xff,x),self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[20:24])
self.__mix_columns(self.plain_state)
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:y^3,x),self.plain_state)
self.__mix_columns(self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[24:28])
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:y^8,x),self.plain_state)
self.__mix_columns(self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[28:32])
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:y^6,x),self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[32:36])
self.__mix_columns(self.plain_state)
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__mix_columns(self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[36:40])
self.__sub_bytes(self.plain_state)
self.__trans_row_col(self.plain_state)
self.__shift_rows(self.plain_state)
self.__trans_row_col(self.plain_state)
self.plain_state = map(lambda x:map(lambda y:y^9,x),self.plain_state)
self.__add_round_key(self.plain_state, self.round_keys[40:])
return matrix2text(self.plain_state)
def decrypt(self, ciphertext):
self.cipher_state = text2matrix(ciphertext)
self.__add_round_key(self.cipher_state, self.round_keys[40:])
self.cipher_state = map(lambda x:map(lambda y:y^9,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[36:40])
self.__inv_mix_columns(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__inv_mix_columns(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[32:36])
self.cipher_state = map(lambda x:map(lambda y:y^6,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[28:32])
self.__inv_mix_columns(self.cipher_state)
self.cipher_state = map(lambda x:map(lambda y:y^8,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[24:28])
self.__inv_mix_columns(self.cipher_state)
self.cipher_state = map(lambda x:map(lambda y:y^3,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__inv_mix_columns(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[20:24])
self.cipher_state = map(lambda x:map(lambda y:(y+1)&0xff,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[16:20])
self.__inv_mix_columns(self.cipher_state)
self.cipher_state = map(lambda x:map(lambda y:y^7,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__inv_mix_columns(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[12:16])
self.cipher_state = map(lambda x:map(lambda y:y^9,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[8:12])
self.__inv_mix_columns(self.cipher_state)
self.cipher_state = map(lambda x:map(lambda y:(y-2)&0xff,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__inv_mix_columns(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[4:8])
self.cipher_state = map(lambda x:map(lambda y:(y-1)&0xff,x),self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_shift_rows(self.cipher_state)
self.__trans_row_col(self.cipher_state)
self.__inv_sub_bytes(self.cipher_state)
self.__add_round_key(self.cipher_state, self.round_keys[:4])
return matrix2text(self.cipher_state)
def __add_round_key(self, s, k):
for i in range(4):
for j in range(4):
s[i][j] ^= k[i][j]
def __round_encrypt(self, state_matrix, key_matrix):
self.__sub_bytes(state_matrix)
self.__shift_rows(state_matrix)
self.__mix_columns(state_matrix)
self.__add_round_key(state_matrix, key_matrix)
def __round_decrypt(self, state_matrix, key_matrix):
self.__add_round_key(state_matrix, key_matrix)
self.__inv_mix_columns(state_matrix)
self.__inv_shift_rows(state_matrix)
self.__inv_sub_bytes(state_matrix)
def __sub_bytes(self, s):
for i in range(4):
for j in range(4):
s[i][j] = Sbox[s[i][j]]
def __trans_row_col(self,s):
t1 = s[0][0], s[1][0], s[2][0], s[3][0]
t2 = s[0][1], s[1][1], s[2][1], s[3][1]
t3 = s[0][2], s[1][2], s[2][2], s[3][2]
t4 = s[0][3], s[1][3], s[2][3], s[3][3]
s[0][0], s[0][1], s[0][2], s[0][3] = t1[0], t1[1], t1[2], t1[3]
s[1][0], s[1][1], s[1][2], s[1][3] = t2[0], t2[1], t2[2], t2[3]
s[2][0], s[2][1], s[2][2], s[2][3] = t3[0], t3[1], t3[2], t3[3]
s[3][0], s[3][1], s[3][2], s[3][3] = t4[0], t4[1], t4[2], t4[3]
def __inv_sub_bytes(self, s):
for i in range(4):
for j in range(4):
s[i][j] = InvSbox[s[i][j]]
def __shift_rows(self, s):
s[1][0], s[1][1], s[1][2], s[1][3] = s[1][1], s[1][2],s[1][3],s[1][0]
s[2][0], s[2][1], s[2][2], s[2][3] = s[2][2],s[2][3],s[2][0], s[2][1]
s[3][0], s[3][1], s[3][2], s[3][3] = s[3][3], s[3][0],s[3][1],s[3][2]
def __inv_shift_rows(self, s):
s[1][0], s[1][1], s[1][2], s[1][3] = s[1][3], s[1][0], s[1][1], s[1][2]
s[2][0], s[2][1], s[2][2], s[2][3] = s[2][2], s[2][3], s[2][0], s[2][1]
s[3][0], s[3][1], s[3][2], s[3][3] = s[3][1], s[3][2], s[3][3], s[3][0]
def __mix_single_column(self, a):
# please see Sec 4.1.2 in The Design of Rijndael
t = a[0] ^ a[1] ^ a[2] ^ a[3]
u = a[0]
a[0] ^= t ^ xtime(a[0] ^ a[1])
a[1] ^= t ^ xtime(a[1] ^ a[2])
a[2] ^= t ^ xtime(a[2] ^ a[3])
a[3] ^= t ^ xtime(a[3] ^ u)
def __mix_columns(self, s):
for i in range(4):
self.__mix_single_column(s[i])
def __inv_mix_columns(self, s):
# see Sec 4.1.3 in The Design of Rijndael
for i in range(4):
u = xtime(xtime(s[i][0] ^ s[i][2]))
v = xtime(xtime(s[i][1] ^ s[i][3]))
s[i][0] ^= u
s[i][1] ^= v
s[i][2] ^= u
s[i][3] ^= v
self.__mix_columns(s)
if __name__ == '__main__':
cipher = AES(0)
m = cipher.decrypt(int('C0B10D687FAB692FFED16BDFFBF2BA2E',16))
print hex(m)[2:].replace('L','')#.decode('hex')
m = 'KCTF'+'\x00'*12
# m = 'B54333CE90874B76'
c = cipher.encrypt(int(m.encode('hex'),16))
print hex(c)[2:].replace('L','').upper()
往期赛题
* 看雪.纽盾 KCTF 2019 Q3 | 第一题点评及解题思路
* 看雪.纽盾 KCTF 2019 Q3 | 第二题点评及解题思路
* 看雪.纽盾 KCTF 2019 Q3 | 第三题点评及解题思路
* 看雪.纽盾 KCTF 2019 Q3 | 第四题点评及解题思路
* 看雪.纽盾 KCTF 2019 Q3 | 第五题点评及解题思路
* 看雪.纽盾 KCTF 2019 Q3 | 第六题点评及解题思路
* 看雪.纽盾 KCTF 2019 Q3 | 第七题点评及解题思路
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