运行就是输入flag

不知道怎么跳过去的

这个应该就是smc加密的函数了

运行完这个函数才能继续往下

int __cdecl main(int argc, const char **argv, const char **envp)
{__int64 v3; // rbx__int64 v4; // r12__int64 v5; // r13unsigned __int64 v6; // raxchar v7; // spchar v8; // cl__int64 v9; // rcx__int64 v11; // rax__int64 v12; // rcxunsigned __int128 v13; // raxchar v14; // r9char v15; // r10char v16; // r8const char *v17; // rsichar *v18; // rdibool v19; // cfunsigned __int8 v20; // dlint v21; // eaxconst char *v22; // rcx__int64 v23; // rcxunsigned __int64 v24; // rcx__int128 v26[2]; // [rsp+0h] [rbp-1C8h] BYREF_QWORD v27[2]; // [rsp+20h] [rbp-1A8h]__int128 v28; // [rsp+30h] [rbp-198h]char v29; // [rsp+40h] [rbp-188h] BYREFchar v30; // [rsp+41h] [rbp-187h]char v31[254]; // [rsp+42h] [rbp-186h] BYREF__int128 v32[4]; // [rsp+140h] [rbp-88h]__m128i v33; // [rsp+180h] [rbp-48h] BYREF__int64 v34; // [rsp+1B0h] [rbp-18h]sub_7FF6D1BE1EB0(0i64, 0i64, envp);memset(&v33, 0, 48);sub_7FF6D1BE1D40("Input Your Flag : ");sub_7FF6D1BE1DC0("%46s", v33.m128i_i8);lpAddress = &loc_7FF6D1BE1085;qword_7FF6D1C0AD88 = (__int64)&loc_7FF6D1BE1D00;smcdecode();v6 = 256i64;do{*(__int128 *)((char *)&v28 + v6) = 0i64;*(_OWORD *)&v27[v6 / 8] = 0i64;v26[v6 / 0x10 + 1] = 0i64;v26[v6 / 0x10] = 0i64;v6 -= 64i64;}while ( v6 );v32[0] = xmmword_7FF6D1BFE340;v32[1] = xmmword_7FF6D1BFE350;v32[2] = xmmword_7FF6D1BFE360;v32[3] = xmmword_7FF6D1BFE370;v8 = v7 + 0x80;v9 = v8 & 0xF;if ( !_BitScanForward((unsigned int *)&v11, (unsigned int)_mm_movemask_epi8(_mm_cmpeq_epi8((__m128i)0i64, v33)) >> v9) )v11 = sub_7FF6D1BE2340(v9, &v33.m128i_i8[v9]);v12 = v11;v13 = 0xAAAAAAAAAAAAAAABui64 * (unsigned __int128)(unsigned __int64)v11;if ( *((_QWORD *)&v13 + 1) >> 1 ){if ( *((_QWORD *)&v13 + 1) >> 5 ){*(_QWORD *)&v28 = v3;v27[1] = v4;v27[0] = v5;v29 = *((_BYTE *)v32 + (v33.m128i_i8[0] >> 2)) ^ 0xA6;v30 = *((_BYTE *)v32 + ((v33.m128i_i8[1] >> 4) | (16 * (v33.m128i_i8[0] & 3)))) ^ 0xA3;v31[0] = *((_BYTE *)v32 + ((v33.m128i_i8[2] >> 6) | (4 * (v33.m128i_i8[1] & 0xF)))) ^ 0xA9;v31[1] = *((_BYTE *)v32 + (v33.m128i_i8[2] & 0x3F)) ^ 0xAC;v31[2] = *((_BYTE *)v32 + (v33.m128i_i8[3] >> 2)) ^ 0xA6;v31[3] = *((_BYTE *)v32 + ((v33.m128i_i8[4] >> 4) | (16 * (v33.m128i_i8[3] & 3)))) ^ 0xA3;v31[4] = *((_BYTE *)v32 + ((v33.m128i_i8[5] >> 6) | (4 * (v33.m128i_i8[4] & 0xF)))) ^ 0xA9;v31[5] = *((_BYTE *)v32 + (v33.m128i_i8[5] & 0x3F)) ^ 0xAC;v31[6] = *((_BYTE *)v32 + (v33.m128i_i8[6] >> 2)) ^ 0xA6;v31[7] = *((_BYTE *)v32 + ((v33.m128i_i8[7] >> 4) | (16 * (v33.m128i_i8[6] & 3)))) ^ 0xA3;v31[8] = *((_BYTE *)v32 + ((v33.m128i_i8[8] >> 6) | (4 * (v33.m128i_i8[7] & 0xF)))) ^ 0xA9;v31[9] = *((_BYTE *)v32 + (v33.m128i_i8[8] & 0x3F)) ^ 0xAC;v31[10] = *((_BYTE *)v32 + (v33.m128i_i8[9] >> 2)) ^ 0xA6;v31[11] = *((_BYTE *)v32 + ((v33.m128i_i8[10] >> 4) | (16 * (v33.m128i_i8[9] & 3)))) ^ 0xA3;v31[12] = *((_BYTE *)v32 + ((v33.m128i_i8[11] >> 6) | (4 * (v33.m128i_i8[10] & 0xF)))) ^ 0xA9;v31[13] = *((_BYTE *)v32 + (v33.m128i_i8[11] & 0x3F)) ^ 0xAC;v31[14] = *((_BYTE *)v32 + (v33.m128i_i8[12] >> 2)) ^ 0xA6;v31[15] = *((_BYTE *)v32 + ((v33.m128i_i8[13] >> 4) | (16 * (v33.m128i_i8[12] & 3)))) ^ 0xA3;JUMPOUT(0x7FF6D1BE143Di64);}JUMPOUT(0x7FF6D1BE1B22i64);}if ( v12 == 1 ){strcpy(v31, "14");v14 = *((_BYTE *)v32 + (unsigned __int8)(16 * (v33.m128i_i8[0] & 3))) ^ 0xA3;v29 = *((_BYTE *)v32 + (v33.m128i_i8[0] >> 2)) ^ 0xA6;v30 = v14;}else if ( v12 == 2 ){v15 = *((_BYTE *)v32 + 4 * (v33.m128i_i8[1] & 0xFu)) ^ 0xA9;v16 = *((_BYTE *)v32 + ((v33.m128i_i8[1] >> 4) | (16 * (v33.m128i_i8[0] & 3)))) ^ 0xA3;v29 = *((_BYTE *)v32 + (v33.m128i_i8[0] >> 2)) ^ 0xA6;v30 = v16;v31[0] = v15;strcpy(&v31[1], "4");}else{v29 = 0;}v17 = "H>oQn6aqLr{DH6odhdm0dMe`MBo?lRglHtGPOdobDlknejmGI|ghDb<4";v18 = &v29;while ( 1 ){v19 = (unsigned __int8)*v18 < (unsigned int)*v17;if ( *v18 != *v17 )break;if ( !*v18 )goto LABEL_20;v20 = v18[1];v19 = v20 < (unsigned int)v17[1];if ( v20 != v17[1] )break;v18 += 2;v17 += 2;if ( !v20 ){
LABEL_20:v21 = 0;goto LABEL_22;}}v21 = v19 ? -1 : 1;
LABEL_22:v22 = "No.\r\n";if ( !v21 )v22 = "Yes.\r\n";sub_7FF6D1BE1D40(v22);sub_7FF6D1BE6B38("pause");v23 = v34;v34 = 0i64;v24 = (unsigned __int64)v26 ^ v23;if ( v24 == _security_cookie )return 0;elsereturn sub_7FF6D1BE1D40(v24);
}

还是有两处问题，继续调试

走完了，那俩处还是有问题

所以应该是需要手动修复

SMC相关知识：

VirtualProtect()
在 Windows 程序中使用了VirtualProtect()函数来改变虚拟内存区域的属性。
#include <Memoryapi.h>
BOOL VirtualProtect(
LPVOID lpAddress,
SIZE_T dwSize,
DWORD flNewProtect,
PDWORD lpflOldProtect
);
VirtualProtect()函数有4个参数，
lpAddress是要改变属性的内存起始地址，
dwSize是要改变属性的内存区域大小，
flAllocationType是内存新的属性类型，
lpflOldProtect内存原始属性类型保存地址。而flAllocationType部分值如下表。在 SMC 中常用的是 0x40。

mprotect()
在 Linux 程序中使用mprotect()函数来改变虚拟内存区域的属性。
#include <sys/mman.h>
int mprotect(void *addr, size_t len, int prot);
mprotect()系统调用修改起始位置为addr，长度为length字节的虚拟内存区域中分页上的保护。
addr取值必须为分页大小的整数倍，
length会被向上舍入到系统分页大小的下一个整数倍。
prot参数是一个位掩码。
 

刚刚动调是没有问题的，只是那俩处要 force 成代码

不能让IDA自己根据RIP生成代码，不然整个main函数结构就被拆分了，然后从选取从main函数头到第一个retn的代码段，因为IDA这时已经识别不了main函数块的结束部分了，然后选中Force强迫分析，并且不重新定义已存在的代码段，因为其它不用自修改的代码段都是正确的，所以不用全  undefined 再重定义

应该也可以静态修复

 *v0 = __ROR1__(*v0, 3) ^ 0x5A;

python循环左右移动

def ROR(i,index):	#循环右移tmp = bin(i)[2:].rjust(8,"0") #去掉0b，用rjust()在左侧补0，确保其8位for _ in range(index):tmp = tmp[-1] + tmp[:-1] #每次将字符串 tmp 的最后一位移到最前面，其余部分依次后移return int(tmp, 2) #经过右移操作的二进制字符串转换为整数def ROL(i,index):	#循环左移tmp = bin(i)[2:].rjust(8, "0")for _ in range(index):tmp = tmp[1:] + tmp[0] #每次将字符串 tmp 的第一位移到最后，其余部分依次前移return int(tmp, 2)

写个内嵌脚本

def ROR(i,index):tmp = bin(i)[2:].rjust(8,"0")for _ in range(index):tmp = tmp[-1] + tmp[:-1]return int(tmp, 2)addr1=0x140001085
addr2=0x140001d00
for i in range(addr2-addr1):patch_byte(addr1+i,ROR(get_wide_byte(addr1+i),3)^90)
print('successful')

 然后也是从开头到 retn force分析，都得到：

int __cdecl main(int argc, const char **argv, const char **envp)
{sub_7FF6D1BE1EB0(0i64, 0i64, envp);v96 = 0i64;v97 = 0i64;v98 = 0i64;sub_7FF6D1BE1D40("Input Your Flag : ");sub_7FF6D1BE1DC0((int)"%46s", &v96);lpAddress = &loc_7FF6D1BE1085;qword_7FF6D1C0AD88 = (__int64)&loc_7FF6D1BE1D00;smcdecode();v3 = 16i64;do{v93[v3 + 3] = 0i64;v93[v3 + 2] = 0i64;v93[v3 + 1] = 0i64;v93[v3] = 0i64;v3 -= 4i64;}while ( v3 * 16 );v95[0] = xmmword_7FF6D1BFE340;v95[1] = xmmword_7FF6D1BFE350;v95[2] = xmmword_7FF6D1BFE360;v95[3] = xmmword_7FF6D1BFE370;v5 = v4 + 0x80;v6 = v5 & 0xF;if ( !_BitScanForward((unsigned int *)&v8, (unsigned int)_mm_movemask_epi8(_mm_cmpeq_epi8((__m128i)0i64, v96)) >> v6) )v8 = sub_7FF6D1BE2340(v6, &v96.m128i_i8[v6]);v9 = v8;v10 = 0xAAAAAAAAAAAAAAABui64 * (unsigned __int128)(unsigned __int64)v8;v11 = *((_QWORD *)&v10 + 1) >> 1;if ( *((_QWORD *)&v10 + 1) >> 1 ){LODWORD(v12) = 0;LODWORD(v10) = 1;v14 = 0;v15 = 0;v16 = *((_QWORD *)&v10 + 1) >> 5;if ( *((_QWORD *)&v10 + 1) >> 5 ){do{v17 = v14;v18 = v15;v19 = v96.m128i_i8[v14 + 1];v20 = 16 * (v96.m128i_i8[v14] & 3);v21 = v96.m128i_i8[v14 + 2];v94[v15] = *((_BYTE *)v95 + (v96.m128i_i8[v14] >> 2)) ^ 0xA6;v94[v15 + 1] = *((_BYTE *)v95 + ((v19 >> 4) | v20)) ^ 0xA3;v94[v15 + 2] = *((_BYTE *)v95 + ((v21 >> 6) | (4 * (v19 & 0xF)))) ^ 0xA9;v22 = v96.m128i_i8[v14 + 3] & 3;v23 = v96.m128i_i8[v14 + 3] >> 2;v94[v15 + 3] = *((_BYTE *)v95 + (v21 & 0x3F)) ^ 0xAC;v24 = v96.m128i_i8[v14 + 4];v94[v15 + 4] = *((_BYTE *)v95 + v23) ^ 0xA6;LODWORD(v23) = v24;v25 = v96.m128i_i8[v14 + 5] & 0x3F;v26 = (v96.m128i_i8[v14 + 5] >> 6) | (4 * (v24 & 0xF));v94[v15 + 5] = *((_BYTE *)v95 + (((int)v23 >> 4) | (16 * v22))) ^ 0xA3;LODWORD(v23) = v96.m128i_i8[v14 + 6];v94[v15 + 6] = *((_BYTE *)v95 + v26) ^ 0xA9;v94[v15 + 7] = *((_BYTE *)v95 + v25) ^ 0xAC;LODWORD(v26) = v96.m128i_i8[v14 + 7];v94[v15 + 8] = *((_BYTE *)v95 + ((int)v23 >> 2)) ^ 0xA6;v27 = v26;v28 = v96.m128i_i8[v14 + 8] & 0x3F;v29 = (int)((v96.m128i_i8[v14 + 8] >> 6) | (4 * (v26 & 0xF)));v94[v15 + 9] = *((_BYTE *)v95 + (int)((v27 >> 4) | (16 * (v23 & 3)))) ^ 0xA3;v94[v15 + 10] = *((_BYTE *)v95 + v29) ^ 0xA9;v30 = v96.m128i_i8[v14 + 9] & 3;v31 = v96.m128i_i8[v14 + 9] >> 2;v94[v15 + 11] = *((_BYTE *)v95 + v28) ^ 0xAC;LODWORD(v29) = v96.m128i_i8[v14 + 10];v94[v15 + 12] = *((_BYTE *)v95 + v31) ^ 0xA6;LODWORD(v31) = v29;v32 = v96.m128i_i8[v14 + 11] & 0x3F;v33 = (int)((v96.m128i_i8[v14 + 11] >> 6) | (4 * (v29 & 0xF)));v94[v15 + 13] = *((_BYTE *)v95 + (((int)v31 >> 4) | (16 * v30))) ^ 0xA3;LODWORD(v31) = v96.m128i_i8[v14 + 12];v94[v15 + 14] = *((_BYTE *)v95 + v33) ^ 0xA9;v94[v15 + 15] = *((_BYTE *)v95 + v32) ^ 0xAC;LODWORD(v33) = v96.m128i_i8[v14 + 13];v94[v15 + 16] = *((_BYTE *)v95 + ((int)v31 >> 2)) ^ 0xA6;v34 = v33;v35 = v96.m128i_i8[v14 + 14] & 0x3F;v36 = (int)((v96.m128i_i8[v14 + 14] >> 6) | (4 * (v33 & 0xF)));v94[v15 + 17] = *((_BYTE *)v95 + (int)((v34 >> 4) | (16 * (v31 & 3)))) ^ 0xA3;v94[v15 + 18] = *((_BYTE *)v95 + v36) ^ 0xA9;v37 = v96.m128i_i8[v14 + 15] & 3;v38 = v96.m128i_i8[v14 + 15] >> 2;v94[v15 + 19] = *((_BYTE *)v95 + v35) ^ 0xAC;LODWORD(v36) = *((char *)&v97 + v14);v94[v15 + 20] = *((_BYTE *)v95 + v38) ^ 0xA6;LODWORD(v38) = v36;v39 = *((_BYTE *)&v97 + v14 + 1) & 0x3F;v40 = (int)((*((char *)&v97 + v14 + 1) >> 6) | (4 * (v36 & 0xF)));v94[v15 + 21] = *((_BYTE *)v95 + (((int)v38 >> 4) | (16 * v37))) ^ 0xA3;LODWORD(v38) = *((char *)&v97 + v14 + 2);v94[v15 + 22] = *((_BYTE *)v95 + v40) ^ 0xA9;v94[v15 + 23] = *((_BYTE *)v95 + v39) ^ 0xAC;LODWORD(v40) = *((char *)&v97 + v14 + 3);v94[v15 + 24] = *((_BYTE *)v95 + ((int)v38 >> 2)) ^ 0xA6;v41 = v40;v42 = *((_BYTE *)&v97 + v14 + 4) & 0x3F;v43 = (int)((*((char *)&v97 + v14 + 4) >> 6) | (4 * (v40 & 0xF)));v94[v15 + 25] = *((_BYTE *)v95 + (int)((v41 >> 4) | (16 * (v38 & 3)))) ^ 0xA3;v94[v15 + 26] = *((_BYTE *)v95 + v43) ^ 0xA9;v44 = *((_BYTE *)&v97 + v14 + 5) & 3;v45 = *((char *)&v97 + v14 + 5) >> 2;v94[v15 + 27] = *((_BYTE *)v95 + v42) ^ 0xAC;LODWORD(v43) = *((char *)&v97 + v14 + 6);v94[v15 + 28] = *((_BYTE *)v95 + v45) ^ 0xA6;LODWORD(v45) = v43;v46 = *((_BYTE *)&v97 + v14 + 7) & 0x3F;v47 = (int)((*((char *)&v97 + v14 + 7) >> 6) | (4 * (v43 & 0xF)));v94[v15 + 29] = *((_BYTE *)v95 + (((int)v45 >> 4) | (16 * v44))) ^ 0xA3;LODWORD(v45) = *((char *)&v97 + v14 + 8);v94[v15 + 30] = *((_BYTE *)v95 + v47) ^ 0xA9;v94[v15 + 31] = *((_BYTE *)v95 + v46) ^ 0xAC;LODWORD(v47) = *((char *)&v97 + v14 + 9);v94[v15 + 32] = *((_BYTE *)v95 + ((int)v45 >> 2)) ^ 0xA6;v48 = v47;v49 = *((_BYTE *)&v97 + v14 + 10) & 0x3F;v50 = (int)((*((char *)&v97 + v14 + 10) >> 6) | (4 * (v47 & 0xF)));v94[v15 + 33] = *((_BYTE *)v95 + (int)((v48 >> 4) | (16 * (v45 & 3)))) ^ 0xA3;v94[v15 + 34] = *((_BYTE *)v95 + v50) ^ 0xA9;v51 = *((_BYTE *)&v97 + v14 + 11) & 3;v52 = *((char *)&v97 + v14 + 11) >> 2;v94[v15 + 35] = *((_BYTE *)v95 + v49) ^ 0xAC;LODWORD(v50) = *((char *)&v97 + v14 + 12);v94[v15 + 36] = *((_BYTE *)v95 + v52) ^ 0xA6;LODWORD(v52) = v50;v53 = *((_BYTE *)&v97 + v14 + 13) & 0x3F;v54 = (int)((*((char *)&v97 + v14 + 13) >> 6) | (4 * (v50 & 0xF)));v94[v15 + 37] = *((_BYTE *)v95 + (((int)v52 >> 4) | (16 * v51))) ^ 0xA3;LODWORD(v52) = *((char *)&v97 + v14 + 14);v94[v15 + 38] = *((_BYTE *)v95 + v54) ^ 0xA9;v94[v15 + 39] = *((_BYTE *)v95 + v53) ^ 0xAC;LODWORD(v54) = *((char *)&v97 + v14 + 15);v94[v15 + 40] = *((_BYTE *)v95 + ((int)v52 >> 2)) ^ 0xA6;v55 = v54;v56 = *((_BYTE *)&v98 + v14) & 0x3F;v57 = (int)((*((char *)&v98 + v14) >> 6) | (4 * (v54 & 0xF)));v94[v15 + 41] = *((_BYTE *)v95 + (int)((v55 >> 4) | (16 * (v52 & 3)))) ^ 0xA3;v94[v15 + 42] = *((_BYTE *)v95 + v57) ^ 0xA9;v58 = *((_BYTE *)&v98 + v14 + 1) & 3;v59 = *((char *)&v98 + v14 + 1) >> 2;v94[v15 + 43] = *((_BYTE *)v95 + v56) ^ 0xAC;LODWORD(v57) = *((char *)&v98 + v14 + 2);v94[v15 + 44] = *((_BYTE *)v95 + v59) ^ 0xA6;LODWORD(v59) = v57;v60 = *((_BYTE *)&v98 + v14 + 3) & 0x3F;v61 = (int)((*((char *)&v98 + v14 + 3) >> 6) | (4 * (v57 & 0xF)));v94[v15 + 45] = *((_BYTE *)v95 + (((int)v59 >> 4) | (16 * v58))) ^ 0xA3;LODWORD(v59) = *((char *)&v98 + v14 + 4);v94[v15 + 46] = *((_BYTE *)v95 + v61) ^ 0xA9;v94[v15 + 47] = *((_BYTE *)v95 + v60) ^ 0xAC;LODWORD(v61) = *((char *)&v98 + v14 + 5);v94[v15 + 48] = *((_BYTE *)v95 + ((int)v59 >> 2)) ^ 0xA6;v62 = v61;v63 = *((_BYTE *)&v98 + v14 + 6) & 0x3F;v64 = (int)((*((char *)&v98 + v14 + 6) >> 6) | (4 * (v61 & 0xF)));v94[v15 + 49] = *((_BYTE *)v95 + (int)((v62 >> 4) | (16 * (v59 & 3)))) ^ 0xA3;v94[v15 + 50] = *((_BYTE *)v95 + v64) ^ 0xA9;v65 = *((_BYTE *)&v98 + v14 + 7) & 3;v66 = *((char *)&v98 + v14 + 7) >> 2;v94[v15 + 51] = *((_BYTE *)v95 + v63) ^ 0xAC;LODWORD(v64) = *((char *)&v98 + v14 + 8);v94[v15 + 52] = *((_BYTE *)v95 + v66) ^ 0xA6;LODWORD(v63) = *((char *)&v98 + v14 + 9);v94[v15 + 53] = *((_BYTE *)v95 + (((int)v64 >> 4) | (16 * v65))) ^ 0xA3;v67 = v63;v12 = (unsigned int)(v12 + 1);v14 += 48;v15 += 64;LOBYTE(v66) = *((_BYTE *)v95 + (v63 & 0x3F));LODWORD(v63) = *((char *)&v98 + v17 + 10);v94[v18 + 55] = v66 ^ 0xAC;LODWORD(v66) = *((char *)&v98 + v17 + 11);v94[v18 + 54] = *((_BYTE *)v95 + (int)((v67 >> 6) | (4 * (v64 & 0xF)))) ^ 0xA9;v94[v18 + 56] = *((_BYTE *)v95 + ((int)v63 >> 2)) ^ 0xA6;LODWORD(v64) = (int)v66 >> 4;v68 = *((_BYTE *)&v98 + v17 + 12) & 0x3F;v69 = (int)((*((char *)&v98 + v17 + 12) >> 6) | (4 * (v66 & 0xF)));v94[v18 + 57] = *((_BYTE *)v95 + (int)(v64 | (16 * (v63 & 3)))) ^ 0xA3;LOBYTE(v63) = *((_BYTE *)v95 + v69);v70 = *((char *)&v98 + v17 + 13) >> 2;LODWORD(v64) = *((_BYTE *)&v98 + v17 + 13) & 3;v94[v18 + 58] = v63 ^ 0xA9;v94[v18 + 59] = *((_BYTE *)v95 + v68) ^ 0xAC;LOBYTE(v68) = *((_BYTE *)v95 + v70);LODWORD(v70) = *((char *)&v98 + v17 + 14);LODWORD(v63) = v70 & 0xF;LODWORD(v64) = ((int)v70 >> 4) | (16 * v64);LODWORD(v70) = *((char *)&v98 + v17 + 15);v94[v18 + 60] = v68 ^ 0xA6;LOBYTE(v68) = *((_BYTE *)v95 + (int)v64) ^ 0xA3;LOBYTE(v64) = *((_BYTE *)v95 + (((int)v70 >> 6) | (4 * (int)v63))) ^ 0xA9;LOBYTE(v63) = *((_BYTE *)v95 + (v70 & 0x3F)) ^ 0xAC;v94[v18 + 61] = v68;v94[v18 + 62] = v64;v94[v18 + 63] = v63;}while ( v12 < v16 );v13 = 16 * v12 + 1;}v71 = (unsigned int)(v13 - 1);for ( i = 3 * (int)v71; v71 < v11; v94[v73 + 3] = v74 ){v73 = 4 * (int)v71;v71 = (unsigned int)(v71 + 1);v74 = v96.m128i_i8[i + 1];v75 = 16 * (v96.m128i_i8[i] & 3);v94[v73] = *((_BYTE *)v95 + (v96.m128i_i8[i] >> 2)) ^ 0xA6;v76 = v96.m128i_i8[i + 2];i += 3i64;v94[v73 + 1] = *((_BYTE *)v95 + ((v74 >> 4) | v75)) ^ 0xA3;LOBYTE(v75) = *((_BYTE *)v95 + ((v76 >> 6) | (4 * (v74 & 0xF)))) ^ 0xA9;LOBYTE(v74) = *((_BYTE *)v95 + (v76 & 0x3F)) ^ 0xAC;v94[v73 + 2] = v75;}}v77 = v9 - 3 * v11;if ( v77 == 1 ){v78 = v96.m128i_i8[3 * v11];v94[4 * v11 + 2] = 49;v94[4 * v11 + 3] = 52;v79 = *((_BYTE *)v95 + (unsigned __int8)(16 * (v78 & 3))) ^ 0xA3;v94[4 * v11] = *((_BYTE *)v95 + (v78 >> 2)) ^ 0xA6;v94[4 * v11 + 1] = v79;v94[4 * v11 + 4] = 0;}else if ( v77 == 2 ){v80 = v96.m128i_i8[3 * v11 + 1];v81 = v96.m128i_i8[3 * v11];v82 = *((_BYTE *)v95 + 4 * (v80 & 0xFu)) ^ 0xA9;v83 = *((_BYTE *)v95 + ((v80 >> 4) | (16 * (v81 & 3)))) ^ 0xA3;v94[4 * v11] = *((_BYTE *)v95 + (v81 >> 2)) ^ 0xA6;v94[4 * v11 + 1] = v83;v94[4 * v11 + 2] = v82;v94[4 * v11 + 3] = 52;v94[4 * v11 + 4] = 0;}else{v94[4 * v11] = 0;}v84 = "H>oQn6aqLr{DH6odhdm0dMe`MBo?lRglHtGPOdobDlknejmGI|ghDb<4";v85 = v94;while ( 1 ){v86 = (unsigned __int8)*v85 < (unsigned int)*v84;if ( *v85 != *v84 )break;if ( !*v85 )goto LABEL_21;v87 = v85[1];v86 = v87 < (unsigned int)v84[1];if ( v87 != v84[1] )break;v85 += 2;v84 += 2;if ( !v87 ){
LABEL_21:v88 = 0;goto LABEL_23;}}v88 = v86 ? -1 : 1;
LABEL_23:v89 = "No.\r\n";if ( !v88 )v89 = "Yes.\r\n";sub_7FF6D1BE1D40(v89);sub_7FF6D1BE6B38("pause");v90 = v99;v99 = 0i64;v91 = (unsigned __int64)v93 ^ v90;if ( v91 == _security_cookie )return 0;elsereturn sub_7FF6D1BE1D40(v91);
}

太长了，嗯要学会挑重点看

然后倒着往上看：

确实看着好像base加密

但确实看上去就知道肯定是魔改的了

还要注意密文每四位对应了一个数异或，不是直接解密

key1="H>oQn6aqLr{DH6odhdm0dMe`MBo?lRglHtGPOdobDlknejmGI|ghDb<"#4
list1=[]
list2=[0xA6,0XA3,0XA9,0XAC]
flag=""
for i in range(len(key1)):list1.append(ord(key1[i])^list2[i%4])
print(list1)
#[238, 157, 198, 253, 200, 149, 200, 221, 234, 209, 210, 232, 238, 149, 198, 200, 206, 199, 196, 156, 194, 238, 204, 204, 235, 225, 198, 147, 202, 241, 206, 192, 238, 215, 238, 252, 233, 199, 198, 206, 226, 207, 194, 194, 195, 201, 196, 235, 239, 223, 206, 196, 226, 193, 149]

base解一下，不对，发现有些数大了

嗯，再去看看是不是密码表变了

然后就可以进行base解密了

要注意：'='操作替换成'4'，注意这里的'4'是后面加的，不在字符异或范围，所以要抽出来异或后再加进去

key1="H>oQn6aqLr{DH6odhdm0dMe`MBo?lRglHtGPOdobDlknejmGI|ghDb<"#4
list1=[]
list2=[0xA6,0XA3,0XA9,0XAC]
flag=""
for i in range(len(key1)):list1.append(ord(key1[i])^list2[i%4])
print(list1)
for a in list1:flag+=chr(a)
flag+='4'list2=[0xE4, 0xC4, 0xE7, 0xC7, 0xE6, 0xC6, 0xE1, 0xC1, 0xE0, 0xC0,0xE3, 0xC3, 0xE2, 0xC2, 0xED, 0xCD, 0xEC, 0xCC, 0xEF, 0xCF,0xEE, 0xCE, 0xE9, 0xC9, 0xE8, 0xC8, 0xEB, 0xCB, 0xEA, 0xCA,0xF5, 0xD5, 0xF4, 0xD4, 0xF7, 0xD7, 0xF6, 0xD6, 0xF1, 0xD1,0xF0, 0xD0, 0xF3, 0xD3, 0xF2, 0xD2, 0xFD, 0xDD, 0xFC, 0xDC,0xFF, 0xDF, 0x95, 0x9C, 0x9D, 0x92, 0x93, 0x90, 0x91, 0x96,0x97, 0x94, 0x8A, 0x8E]
letters=""
for i in list2:letters+=chr(i)
def decryption(inputString):# 对前面不是“=”的字节取索引，然后转换为2进制asciiList = ['{:0>6}'.format(str(bin(letters.index(i))).replace('0b', ''))for i in inputString if i != '4']outputString = ''#补齐“=”的个数equalNumber = inputString.count('4')while asciiList:tempList = asciiList[:4]#转换成2进制字符串tempString = ''.join(tempList)# 对没有8位2进制的字符串补够8位2进制if len(tempString) % 8 != 0:tempString = tempString[0:-1*equalNumber*2]# 4个6字节的二进制  转换  为三个8字节的二进制tempStringList = [tempString[x:x+8] for x in [0, 8, 16]]# 二进制转为10进制tempStringList = [int(x, 2) for x in tempStringList if x]#连接成字符串outputString += ''.join([chr(x) for x in tempStringList])asciiList = asciiList[4:]#print(output_str)return outputString
print(decryption(flag))
#SangFor{XSAYT0u5DQhaxveIR50X1U13M-pZK5A0}

一样，还可以正向爆破

嗯，我自己对着写了一遍，大致了解这个思路，但我写的还是有点问题

最后补’4‘的操作还须多想一下

table=[0xE4, 0xC4, 0xE7, 0xC7, 0xE6, 0xC6, 0xE1, 0xC1, 0xE0, 0xC0, 0xE3, 0xC3, 0xE2, 0xC2, 0xED, 0xCD, 0xEC, 0xCC, 0xEF, 0xCF, 0xEE, 0xCE, 0xE9, 0xC9, 0xE8, 0xC8, 0xEB, 0xCB, 0xEA, 0xCA, 0xF5, 0xD5, 0xF4, 0xD4, 0xF7, 0xD7, 0xF6, 0xD6, 0xF1, 0xD1, 0xF0, 0xD0, 0xF3, 0xD3, 0xF2, 0xD2, 0xFD, 0xDD, 0xFC, 0xDC, 0xFF, 0xDF, 0x95, 0x9C, 0x9D, 0x92, 0x93, 0x90, 0x91, 0x96, 0x97, 0x94, 0x8A, 0x8E]
key1="H>oQn6aqLr{DH6odhdm0dMe`MBo?lRglHtGPOdobDlknejmGI|ghDb<4"
str_len=int(len(key1)/4-1)	#最后一组4是补上去的，所以要特殊对待，这里str_len是13,/会得出小数，所以用int转换成整型。
flag=""
print(str_len)
for sub in range(str_len):		#最外层循环是截取要比较的4位字符，放在最外面就才可以以4个为一组来比较。for a in range(32,127):for b in range(32,127):		#完全的base64加密3*8变4*6的拆分for c in range(32,127):q=table[a >> 2] ^ 0xA6w=table[((a & 0x3) << 4) | (b >> 4) ] ^ 0xA3e=table[((b & 0xf) << 2) | (c >> 6) ] ^ 0xA9r=table[ c & 0x3f ] ^ 0xACtempstr=chr(q)+chr(w)+chr(e)+chr(r)		if tempstr==key1[sub*4:(sub+1)*4]:flag+=chr(a)flag+=chr(b)flag+=chr(c)for i in range(32,127):		#对待最后一组有补数的，因为只有一个补数，所以是2个明文的2*8对应3*6，剩下一个补位。for j in range(32,127):k=table[i >> 2] ^ 0xA6l=table[((i & 0x3) << 4) | (j >> 4)] ^ 0xA3m=table[(j & 0xf) <<2 ] ^ 0xA9			#从第三个开始的就不用写了，因为是0,不影响tempstr=chr(k)+chr(l)+chr(m)+'4'if tempstr=='Db<4':flag+=chr(i)flag+=chr(j)		
print(flag)	

说是还可以下标对应

import base64
key1="H>oQn6aqLr{DH6odhdm0dMe`MBo?lRglHtGPOdobDlknejmGI|ghDb<"#4
list1=[]
list2=[0xA6,0XA3,0XA9,0XAC]
flag=""
for i in range(len(key1)):list1.append(ord(key1[i])^list2[i%4])
print(list1)list2=[0xE4, 0xC4, 0xE7, 0xC7, 0xE6, 0xC6, 0xE1, 0xC1, 0xE0, 0xC0,0xE3, 0xC3, 0xE2, 0xC2, 0xED, 0xCD, 0xEC, 0xCC, 0xEF, 0xCF,0xEE, 0xCE, 0xE9, 0xC9, 0xE8, 0xC8, 0xEB, 0xCB, 0xEA, 0xCA,0xF5, 0xD5, 0xF4, 0xD4, 0xF7, 0xD7, 0xF6, 0xD6, 0xF1, 0xD1,0xF0, 0xD0, 0xF3, 0xD3, 0xF2, 0xD2, 0xFD, 0xDD, 0xFC, 0xDC,0xFF, 0xDF, 0x95, 0x9C, 0x9D, 0x92, 0x93, 0x90, 0x91, 0x96,0x97, 0x94, 0x8A, 0x8E]table="ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
secret=""
for i in list1:k=list2.index(i)secret+=table[k]
secret+='='
flag=base64.b64decode(secret)
print(secret)
print(flag)
# U2FuZ0ZvcntYU0FZVDB1NURRaGF4dmVJUjUwWDFVMTNNLXBaSzVBMH0=
# b'SangFor{XSAYT0u5DQhaxveIR50X1U13M-pZK5A0}'

import base64
key1="H>oQn6aqLr{DH6odhdm0dMe`MBo?lRglHtGPOdobDlknejmGI|ghDb<"#4
list1=[]
list2=[0xA6,0XA3,0XA9,0XAC]
origin=""
for i in range(len(key1)):list1.append(ord(key1[i])^list2[i%4])
#print(list1)
for a in list1:origin+=chr(a)
origin+='='
s='äÄçÇæÆáÁàÀãÃâÂíÍìÌïÏîÎéÉèÈëËêÊõÕôÔ÷×öÖñÑðÐóÓòÒýÝüÜÿß'#换表字符
str='ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'
biao=str.maketrans(s,str)
print(base64.b64decode(origin.translate(biao)))

感谢2021年9月广州羊城杯，REVERSE的RE-BabySmc_羊城杯babysmc-CSDN博客

大佬写的很好！