0x00. 先看驱动
驱动不大,才20多个函数。
从入口开始分析。
1. 创建设备
.text:000107D5 68 58 13 01 00 push offset aDeviceVmxdrv ; "\\device\\vmxdrv"
.text:000107DA 8D 45 F4 lea eax, [ebp+DestinationString]
.text:000107DD 33 FF xor edi, edi
.text:000107DF 50 push eax ; DestinationString
.text:000107E0 89 7D FC mov [ebp+DeviceObject], edi
.text:000107E3 FF D6 call esi ; RtlInitUnicodeString
用来与应用层通信
2. IRP_MJ_FUNCTION
主要有三个,read/write/ioctl。
.text:00010870 C7 46 44 A8 05 01 00 mov dword ptr [esi+44h], offset f_DrvRead_105A8
.text:00010877 C7 46 48 1C 06 01 00 mov dword ptr [esi+48h], offset f_DrvWrite_1061C
.text:0001087E C7 46 70 1A 07 01 00 mov dword ptr [esi+70h], offset f_DrvControl_1071A
先看f_DrvWrite_1061C,通过irp获取到上层传入的数据,然后通过104b6获取某个输出存入全局变量g_READCC(根据read的分析,可以知道长度为4的4字节数组)。
.text:00010669 57 push edi ; size_t
.text:0001066A FF 75 0C push [ebp+Irp] ; void *
.text:0001066D 53 push ebx ; void *
.text:0001066E E8 11 0C 00 00 call memcpy
.text:00010673 83 C4 18 add esp, 18h
.text:00010676 83 3D D8 14 01 00 00 cmp dword ptr is_clean_port, 0
.text:0001067D 74 15 jz short loc_10694
.text:0001067F 68 C8 14 01 00 push offset g_READCC ; int
.text:00010684 53 push ebx ; void *
.text:00010685 E8 2C FE FF FF call f_GetMd5_104B6
.text:0001068A C7 05 DC 14 01 00 01 00 00 00 mov is_write, 1
进入104b6内部,key是个16字节数组,初始化0。然后将上面传下的数据拷贝到key中,长度需要小于16。然后将key进行一下变换。 key[0] ++(反调试标志为1,后面再说),其他key[i] += i
.text:000104F5 56 push esi ; size_t //长度
.text:000104F6 51 push ecx ; void * //上层输入
.text:000104F7 8D 45 EC lea eax, [ebp+key]
.text:000104FA 50 push eax ; void *
.text:000104FB E8 84 0D 00 00 call memcpy...
text:00010505 39 05 D8 14 01 00 cmp dword ptr is_clean_port, eax //判断标志是否为0,不为0,key[0] ++
.text:0001050B 74 03 jz short loc_10510
.text:0001050D FE 45 EC inc [ebp+key]
.text:00010510.text:00010510 loc_10510: ; CODE XREF: f_GetMd5_104B6+55�j
.text:00010510 3B F0 cmp esi, eax
.text:00010512 7E 09 jle short loc_1051D
.text:00010514.text:00010514 loc_10514: ; CODE XREF: f_GetMd5_104B6+65�j
.text:00010514 00 44 05 EC add [ebp+eax+key], al //key[i] += i
.text:00010518 40 inc eax
.text:00010519 3B C6 cmp eax, esi
.text:0001051B 7C F7 jl short loc_10514
接着通过下面三个函数对key进行计算,输出结果
f_Md5_Init_108B2((MD5OBJ *)&v5);
f_Md5_j_11124((MD5OBJ *)&v5, key, strlen(key));f_Md5_hexdigest((int)&v5, md5);
进入108b2一看就猜测是md5计算,f_Md5_hexdigest将计算结果(32字节字符)保存到md 5字段中输出,设置计算标志。也就是大致确认write是计算md5,然后保存到g_READCC
MD5OBJ *__stdcall f_Md5_Init_108B2(MD5OBJ *a1)
{ MD5OBJ *result; // eax@1
result = a1;
a1->len8 = 0;
a1->unk_4 = 0;
a1->s1 = 0x67452301;
a1->s2 = 0xEFCDAB89;
a1->s3 = 0x98BADCFE;
a1->s4 = 0x10325476; return result;
}接着看f_DrvRead_105A8,看刚才的计算标志是否为0,为0就初始化g_READCC一段值(不知道作者意图,迷惑cracker?),如果计算标志是1,就直接返回计算的结果,然后该值返回到用户空间。也就是如果通过write计算了md5,这里就是获取md5计算结果。
//.text:000105AD
if ( !is_write )
{
i = 3; do
{
g_READCC[i] = 3 * i - 'd';
++i;
} while ( i < 16 );
g_READCC[0] = 0xCBu;
g_READCC[1] = 0xAAu;
g_READCC[2] = 0xDEu;
g_READCC[3] = 0xB0u;
} //返回数据
*(_DWORD *)&MasterIrp->Type = *(_DWORD *)g_READCC;
v4 = (int)&MasterIrp->MdlAddress;
*(_DWORD *)v4 = *(_DWORD *)&g_READCC[4];
v4 += 4;
*(_DWORD *)v4 = *(_DWORD *)&g_READCC[8];
*(_DWORD *)(v4 + 4) = *(_DWORD *)&g_READCC[12];最后看f_DrvControl_1071A,支持多个命令号,但只有222004h有用。设置反调试标志为1,然后进入10486看看
.text:00010734 2D 04 20 22 00 sub eax, 222004h
.text:00010739 8B 4E 0C mov ecx, [esi+0Ch]
.text:0001073C 74 2C jz short loc_1076A
...
.text:0001076A loc_1076A: ; CODE XREF: f_DrvControl_1071A+22�j
.text:0001076A C7 05 D8 14 01 00 01 00 00 00 mov dword ptr is_clean_port, 1
.text:00010774 FF 15 80 13 01 00 call ds:IoGetCurrentProcess
.text:0001077A A3 E0 14 01 00 mov eproc, eax
.text:0001077F E8 02 FD FF FF call f_ClearDebugPort_10486
枚举进程找到当前进程的eprocess(其实没必要枚举把),置eprocess->DebugPort = NULL,让应用层调试器失效,达到反跳试效果。
result = IoGetCurrentProcess();
v1 = result; while ( result != (PEPROCESS)eproc )
{
result = (PEPROCESS)(*((_DWORD *)result + 0x22) - 0x88);// eproc->ActiveProcessLinks.Flink
if ( result == v1 )
return result;
}
*((_DWORD *)result + 0x2F) = 0; // eproc->DebugPort = 0这里猜想一下,如果破解者通过应用层patch,不发送222004h命令来解除反跳试的话,那么这里的反跳试标志就是0,然后在write中计算md5时,对key[0]就不会做++操作,那么上层就会获取到一个错误的值,从而影响破解。
3. k掉驱动反调试
首先想到的是将驱动文件patch,也就是DebugPort置零的指令nop掉
.text:000104A9 83 A0 BC 00 00 00 00 and dword ptr [eax+0BCh], 0
通过reshacker将驱动资源导出来,然后hex编辑工具修改104A9的内容(文件内存对齐一样)为7个NOP,然后再将patch驱动文件导入到exe中。
会提示驱动加载失败,可能有校验,不再细跟。
没办法,为了让od能够调试,我写了个简单驱动,在本驱动加载时,将104A进行patch,通过反跳试。
0x01. 再看CrackMe
既然知道有驱动了,先找找释放和加载驱动的代码,通过 FindResourceA和CreateService即可定位(不再详述),注意到的是,驱动加载成功会设置一个标志,用于后面验证的判断
v5 = f_CreaetSrv_401AA0(ServiceName, &Buffer);// vmxdrv
v1->is_drv_run = v5;
然后再找和驱动通信的代码,通过DeviceIoControl找到调用222004命令好的代码。通过创建一个线程,循环调用该接口来清零DebugPort
while ( 1 )
{
v0 = CreateFileA(FileName, 0xC0000000, 0, 0, 3u, 0x80u, 0);
if ( v0 == (HANDLE)-1 )
break;
DeviceIoControl(v0, 0x222004u, 0, 0, &OutBuffer, 0x100u, &BytesReturned, 0);
CloseHandle(v0);
Sleep(0xBB8u);
}按理说这里可以patch掉来去掉反跳试,但就会出现我前面分析提到的问题。
通过WriteFile找到调用read/write的位置,也就是计算md5和获取md5的位置。
.text:00401D50 ; HANDLE __thiscall f_CalcKeyMd5_401D50(void *this, char *key, size_t len)...
.text:00401E4E push ebx ; lpOverlapped
.text:00401E4F push eax ; lpNumberOfBytesWritten
.text:00401E50 lea ecx, [esp+344h+Buffer] //用户输入的key相关数据
.text:00401E54 push esi ; nNumberOfBytesToWrite
.text:00401E55 push ecx ; lpBuffer
.text:00401E56 push edi ; hFile
.text:00401E57 call ds:WriteFile //计算md5
.text:00401E5D test eax, eax
.text:00401E5F jz short loc_401ED4
.text:00401E61 lea edx, [esp+33Ch+NumberOfBytesRead]
.text:00401E65 push ebx ; lpOverlapped
.text:00401E66 push edx ; lpNumberOfBytesRead
.text:00401E67 lea eax, [esp+344h+keymd5]
.text:00401E6E push 10h ; nNumberOfBytesToRead
.text:00401E70 push eax ; lpBuffer
.text:00401E71 push edi ; hFile
.text:00401E72 call ds:ReadFile //读取md5
f_CalcKeyMd5_401D50回溯一层就是输入key回车的响应函数。 这里先通过UpdateData(1)获取输入数据,然后拷贝到局部变量
f_UpdateData_41A4F7(1);
f_CString_copy_417D43((CString *)&key, (LPCSTR *)&v1->key);//用户输入的
然后输入进行小写和反转变换
f_CString_lwr_4182FA((CString *)&key); //小写
f_Cstring_rev_41830C((CString *)&key); // 反转
判断输入长度是否为6,不是退出,清除输入,并通过IsDebuggerPresent检查是否在调试(OD直接过),是调试也退出,清理出输入。
if ( *(_DWORD *)(key - 8) != 6 || IsDebuggerPresent() )
{
CString::operator=((CString *)&v1->unk_6c, byte_431398);
CString::operator=((CString *)&v1->key, byte_431398);
f_UpdateData_41A4F7(0);
}满足长度要求,再看驱动是否加载,再调用f_CalcKeyMd5_401D50计算md5. 也就是调用驱动获取md5,记为KeyMd51.
//.text:004017DE if ( v1->is_drv_run )
{
keymd5str = *(_DWORD *)(key - 8);
v3 = sub_418263(&key, 0);
f_CalcKeyMd5_401D50(v1, (char *)v3, keymd5str);
}接着下面两个函数,先调用f_GetStrMd5_401920(应用层的Md5,通过调试可以很快确认,内部也有md5特征)计算KeyMd51的Md5,记为KeyMd52,然后调用sub_415A78截取KeyMd52从第3为开始的10字符,记为KeyMd53。
f_GetStrMd5_401920((char)v4, (CString *)keymd5str);// 00943950 37 63 37 36 36 65 32 61 31 63 61 30 35 37 63 37 7c766e2a1ca057c7
// 00943960 62 30 65 39 31 66 39 33 35 65 64 61 61 64 37 33 b0e91f935edaad73
//
//
//
sub_415A78((LPCSTR *)&keymd5str_obj, (int)&v9, 2, 0xAu);// 截取2开始长度0xA的值
// 00943900 37 36 36 65 32 61 31 63 61 30 00 38 39 30 33 38 766e2a1ca0.89038
// 00943910 33 39 32 36 39 32 65 38 32 64 36 33 62 31 37 64 392692e82d63b17d
//
最后KeyMd53与888aeda4ab比较,成功提示Success^^!
if ( _mbsicmp(keymd5str_obj, a888aeda4ab) ) // 888aeda4ab
{
CString::operator=((CString *)&v1->unk_6c, byte_431398);
CString::operator=((CString *)&v1->key, byte_431398);
f_UpdateData_41A4F7(0);
}
else
{
f_ShowSuccess_402030(v1);//成功提示
}总结算法:
KEY1 = rev(lwr(key)),key长度6,将输入转小写,逆序反调试成功时KEY1[0]+=1, 其他KEY1[i]+=i;KEY2 = DrvMd5(KEY1),驱动MD5计算KEY3 = Md5(KEY2), 应用层Md5计算KEY4 = KEY3[2:12],取第3位开始的10个字符KEY4 == '888aeda4ab'
0x11. 求解
由于MD5hash无法逆运算,只能爆破了,刚开始忘了题目key只能是数字和字母,结果我跑了全字符,跑了1天多....没出来,卡hi是怀疑自己
后来改成了数字字母,终于得到答案 su1987
爆破代码如下:
char Seed[/*68*/36] = {
'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
};
#define SEED_SIZE 36
typedef struct _THREAD_PARAM
{
int i1;
int i2;
int i3;
int i2_1;
int i2_2;
}TPP, *PTPP;
int g_ThreadCnt = 0;
int g_start = 0;
long g_count = 0;
void write_file(char* sz)
{
HANDLE hFile = CreateFileA("1.log", GENERIC_WRITE|GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL);
if(hFile)
{
SetFilePointer(hFile, 0, 0, FILE_END);
DWORD dw = 0;
WriteFile(hFile, sz, strlen(sz), &dw, NULL);
CloseHandle(hFile);
hFile = NULL;
}
}
bool crack1(PTPP p){
int i1 = p->i1;
int i2 = p->i2;
char sss[20] = {0};
for(int i3=0; i3<SEED_SIZE; i3++)
{
for(int i4=0; i4<SEED_SIZE; i4++)
{
for(int i5=0; i5<SEED_SIZE; i5++)
{
for(int i6=0; i6<SEED_SIZE; i6++)
{
char sza[7] = {Seed[i1], Seed[i2], Seed[i3], Seed[i4], Seed[i5], Seed[i5]};
g_count ++;
char sz[7] = {0};
//反转
sz[0] = Seed[i6]+1;
sz[1] = Seed[i5]+1;
sz[2] = Seed[i4]+2;
sz[3] = Seed[i3]+3;
sz[4] = Seed[i2]+4;
sz[5] = Seed[i1]+5;
FileMD5 fm;
char* p = (char*)fm.md5(sz, 6);
p = (char*)fm.md5(p, 32);
strncpy(sss, p+2, 10);
if(!stricmp(sss, "888aeda4ab"))
{
char info[1024] = {0};
sprintf(info, "%c%c%c%c%c%c, => %s,%s\n",
Seed[i1], Seed[i2], Seed[i3], Seed[i4], Seed[i5], Seed[i6],
sz,
sss
);
write_file(info);
int spell = GetTickCount() - g_start;
printf("spell time : %d s", spell/1000);
system("pause");
return true;
}
}
} //system("cls");
printf("count: %ld\n", g_count);
}
} return false;
}
void crack3(PTPP p){
int i1 = p->i1;
int i2_1 = p->i2_1;
int i2_2 = p->i2_2;
delete[] p;
TPP p1 = {0};
p1.i1 = i1;
for(int i=i2_1; i<i2_2; i++)
{
p1.i2 = i;
if(crack1(&p1))
{
return;
}
}
}
void crack2(int i1, int i2_1, int i2_2)
{
PTPP p = new TPP;//{0};
if(p == NULL)
{
printf("!!!!!!!!!!!!没neicun!!"); return;
}
memset(p, 0, sizeof(TPP));
p->i1 = i1;
p->i2_1 = i2_1;
p->i2_2 = i2_2;
HANDLE h = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)crack3, (PVOID)p, 0, NULL);
if(h == NULL)
{
printf("CreateTHREAD error [%d]\n", g_ThreadCnt);
}
else
{
g_Handles[g_ThreadCnt++] = h;
}
}
void crack()
{
for(int i1=0; i1<SEED_SIZE; i1++)
{ int i2 = 0;#define STEP_SIZE 2
for(i2 = 0; i2<SEED_SIZE-STEP_SIZE; i2+=STEP_SIZE)
{
crack2(i1, i2, i2+STEP_SIZE);
}
crack2(i1, i2, SEED_SIZE);
}
}
int _tmain(int argc, _TCHAR* argv[])
{
int start = GetTickCount();
g_start = GetTickCount();
crack();
WaitForMultipleObjects(g_ThreadCnt, g_Handles, TRUE, INFINITE); int spell = GetTickCount() - start;
printf("spell time : %d s, thread-count: %d\n", spell, g_ThreadCnt);
getchar(); return 0;
}最后结果
su1986, => 79;4yx,888aeda4ab
由于算法开始有转小写,所以其时答案中所有字母都可以是大小写选择,答案不唯一。