NT平台拨号连接密码恢复原理

2015/03/01 10:45
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NT平台拨号连接密码恢复原理


创建时间:2004-11-08 更新时间:2004-11-12
文章属性:原创
文章提交:eyas (eyas_at_xfocus.org)

NT平台拨号连接密码恢复原理

Author : eyas
Email  : eyas at xfocus.org
Date   : 2004-11-08


    前段时间ADSL密码忘记了,但幸好还保存在拨号连接里面,于是到网上找了些星号密码
显示工具,可惜不起作用。后来找到一种名为dialupass的工具,这家伙不负重望把密码给
我还原出来了。(用的dialupass v2.42,我的系统是windows xp)

    看起来dialupass非普通的星号密码显示工具,那它的原理是什么呢?上GOOGLE查了
一翻,没找到相关资料(可能是我用的关键字有问题)。 一生气便操起家伙(windbg)
准备把它大卸八块。郁闷的是,用windbg加载后,密码就还原不出来了,显示是星号。换替
补ollydbg上场,情况依旧。莫非这小工具有Anti-Debug功能?当时只是一丝怀疑,因为实
在不相信这样的小工具作者会花心思来保护。

    后来在用s-ice跟踪的过程中,发现有这么一个调用:

    GetProcAddress(xx, "IsDebugPresent")。
    
    晕倒,原来真的有Anti-Debug功能,好在比较简单。统计了一下,总共有5处进行了
Anti-Debug检查。
    
    情况查明了,便换回windbg来调试,在windbg里面下这么一个断点便可绕过Anti-Debug
检测:

    bp KERNEL32!IsDebuggerPresent "g poi(esp);r eax=0;g"

    花了些时间跟踪了一下,把dialupass恢复密码的流程都搞清楚了。这小程序猫腻还
挺多的,总结如下:

    1. 关键函数不直接调用,而是用LoadLibraryA和GetProcAddress来获取函数地址
后再CALL。
    2. 函数名是经过编码的,反汇编后看字符串是看不到的。
    3. 关键地方一概用花指令来迷惑你和反汇编软件。
    
    其实原理很简单,就是用rasapi32.dll里面的一些函数来获取拨号连接的一些信息,
再用 ADVAPI32!LsaRetrievePrivateData 函数来获取密码。

    根据dialupasss的原理,写了个类似的工具,源代码参见后面的x_dialupass.c。

    后来用"LsaRetrievePrivateData"和"RasDialParams"做关键字,重新在GOOGLE搜索了
一遍,找到一些类似的代码。

    参考资源[1]和[2]的是俄罗斯人公布的演示代码,没有对LsaRetrievePrivateData返回
的数据进行拆分用户名和密码。参考资源[3]是日本人公布的完整的应用程序的代码,可惜
在对LsaRetrievePrivateData返回的数据进行拆分处理时存在BUG,导致有些情况下用户名
和密码取的不正确。

    
    后来发现lsadump2 DUMP出来的数据里面包含了"LsaRetrievePrivateData"返回的数
据。lsadump2的原理大致如下:

    1)插入一线程到lsass.exe进程
    2)打开LSA Policy database
    3)从注册表"HKLM\SECURITY\Policy\Secrets"中枚举子键
    4)LsarOpenSecret
    5)LsarQuerySecret

    进一步跟踪后发现,其实ADVAPI32!LsaRetrievePrivateData是通过NdrClientCall2
发送RPC调用到lsass.exe进程,lsass.exe里面再调用LsarOpenSecret、LsarQuerySecret
来完成获取拨号连接信息过程的。(注:LsarOpenSecret里面有权限判断,非ADMIN组用
户是没有权限来调用ADVAPI32!LsaRetrievePrivateData的)

   跟踪了一下LsarQuerySecret,发现它返回的数据其实是从注册表中读取。保存拨号
连接信息的注册表键值为:

    HKLM\SECURITY\Policy\Secrets\RasDialParams!SID#0\CurrVal

    SID对应的是用户的string SID。(“HKLM\SECURITY”这个键只有SYSTEM有权限读
写,连admin都没有权限)

    LsarQuerySecret从注册表中读取出来数据后,接着调用LsapCrDecryptValue函数来
解密,对于同一台机器来说,解密时用的KEY始终都是固定的,这个KEY在lsasrv.dll里面
变量名为"_LsapDbSecretCipherKey"。在windows 2003里面,变量名不一样,对应的有两
个,分别为"LsapDbSecretCipherKeyWrite"和"LsapDbSecretCipherKeyRead",但这两个
变量里面的数据是一样的。

    LsapCrDecryptValue用的似乎是标准DES算法,解密时主要流程如下:

    lsasrv!LsapCrDecryptValue
        |_ advapi32!SystemFunction005
            |_ advapi32!DecryptDataLength
                |_ advapi32!SystemFunction002
                    |_ advapi32!DES_ECB_LM
                        |_ advapi32!des

    解密后,在"<<"标示处还有一个判断:

    .text:785462F0                 call    _LsapCrDecryptValue@12
    .text:785462F5                 test    eax, eax
    .text:785462F7                 mov     [ebp+var_8], eax
    .text:785462FA                 jl      loc_785838E1
    .text:78546300 
    .text:78546300 loc_78546300:                          
    .text:78546300                 cmp     byte ptr [esi+45h], 0   <<<<<<<<<<<<
    .text:78546304                 jz      short loc_7854632E
    ......
    .text:7854632E loc_7854632E:
    .text:7854632E                 lea     eax, [ebp+var_10]
    .text:78546331                 push    eax
    .text:78546332                 push    [ebp+arg_8]
    .text:78546335                 push    [ebp+var_C]
    .text:78546338                 call    _LsapCrEncryptValue@12


    假如[esi+45h]为0的话(esi是LsarOpenSecret函数返回的HANDLE),它会把解密后的
数据再进行一次加密,不管是2000还是2003,这时用的KEY始终都是固定为
“SystemLibraryDTC”。

    lsadump2里面调用LsarOpenSecret得到的HANDLE,偏移0x45处值为1,所以
LsarQuerySecret函数返回的就是解密后的数据了。

    而在调用ADVAPI32!LsaRetrievePrivateData时,LsarOpenSecret返回的HANDLE偏移
0x45处值为0x0,所以LsarQuerySecret返回的是解密后又加密的数据,所以在
ADVAPI32!LsaRetrievePrivateData里面还有一个对应的解密过程。相应的,
LsapCrEncryptValue加密的主要流程如下:

    lsasrv!LsapCrEncryptValue
        |_ advapi32!SystemFunction004
            |_ advapi32!EncryptDataLength
                |_ advapi32!SystemFunction001
                    |_ advapi32!DES_ECB_LM
                        |_ advapi32!des


    开始我以为在同一版本的windows里面,_LsapDbSecretCipherKey是固定的,后来
发现我错了。那么这个_LsapDbSecretCipherKey是如何产生的?流程如下:

    (1)调用ntdll!NtConnectPort打开 L"\Security\WxApiPort"

    (2)调用ntdll!NtRequestWaitReplyPort得到一些数据

        ebp-40处为NtRequestWaitReplyPort返回的LPCMESSAGE

        kd> dd ebp-40
        0006fcb8  00400028 00000002 000000dc 000000d8
        0006fcc8  00000024 00000000 00000000 00000000
        0006fcd8  00000001 00000010 00000010 fd317e3e
        0006fce8  7e24e86d d12503d3 5f7d01a8 7665f528
        kd> db ebp-14
        0006fce4  3e 7e 31 fd 6d e8 24 7e-d3 03 25 d1 a8 01 7d 5f

    (3)将上述"ebp-14"处的0x10字节数据COPY到lsasrv.dll里面的"_LsapDbSysKey"变量。
"_LsapDbSysKey"在不同的机器上面(即使版本相同)都是不一样的。它是怎么产生的?有
幸拜读了flashsky的大作后(参考资源[4]),才明白这就是传说中的"SYSKEY"。用flashsky
的代码验证一下:

        c:\>getsyskey
        3e 7e 31 fd 6d e8 24 7e d3 03 25 d1 a8 01 7d 5f

    跟踪系统启动过程,可知道"\Security\WxApiPort"是由winlogon.exe进程创建的,然
后lsass进程通过这个LPC PORT从winlogon进程获取SYSKEY,随后winlogon进程会关闭这
个LPC PORT。所以在系统启动完成之后,用"Process Explorer"等工具是看不到这个
LPC PORT存在的,而且在winlogon和LSASS进程空间都搜索不到上述SYSKEY。

    (4)从注册表"HKLM\SECURITY\Policy\PolSecretEncryptionKey"中读取出来一段数据,
调用函数_LsapDbDecryptKeyWithSyskey,把它用"_LsapDbSysKey"来解密,
"_LsapDbSecretCipherKey"就在解密完后的数据里面。("LsapDbDecryptKeyWithSyskey"函
数做的其实就是MD5和RC4运算)
        

    了解原理后,我们就可以直接从注册表里面来获取拨号连接中的密码等数据了。但
有几个问题需要解决:

    (1)原料。
    Q:"HKLM\SECURITY"键只有SYSTEM有权限读写?
    A:我们可以把代码插入到SYSTEM进程里面去运行,或者把这个键修改为ADMIN有
权限读,或者提升本进程权限。

    (2)催化剂:)
    Q: 如何获取"_LsapDbSysKey"?解密用的函数_LsapDbDecryptKeyWithSyskey为非导出函
数,怎么办?
    A1: 用flashsky的代码来获取SYSKEY,利用公开的MD5和RC4库函数来解密。
    A2: 直接从lsass.exe进程里面搜索"_LsapDbSecretCipherKey",它的结构如下,

    typedef struct _LSA_BLOB {
            DWORD cbData;
            DWORD cbMaxData;
            BYTE* pbData;
    } LSA_BLOB;

    pbData指向存储KEY的地址,KEY长度固定为0x10字节,即cbData和cbMaxData都是固定
为0x10。所以从lsass进程的空间里面搜索"\x10\x00\x00\x00\x10\x00\x00\x00"即可找到
正确的KEY。结果可能会有多个,可以把所有搜索到的KEY都试一下,总有一个正确的。

    (3)工具
    Q: 解密函数LsapCrDecryptValue为非导出函数,怎么办?
    A: 或许可以根据特征码来搜索,但总觉得不太可靠。幸好,LsapCrDecryptValue
调用的advapi32!SystemFunction005是导出函数:)。或者直接利用公开的DES库函数,
自己来运算。


    x_dialupass2.cpp中的代码演示了直接从注册表中读取数据并解密之的过程,没有
太多实际意义,just for fun!


-=-=-=-=-=-=-=-=-=-=  x_dialupass.c  -=-=-=-=-=-=-=-=-=-=
/*
演示还原NT平台上拨号连接的密码
可运行于windows 2000/xp/2003
原理基于分析dialupass v2.42

eyas at xfocus.org
http://www.xfocus.net
2004-10-01


FileName: x_dialupass.c
*/
#define WINVER 0x500
#define _WIN32_WINNT 0x0500
#include <windows.h>
#include <stdio.h>

#include <ras.h>
#include <raserror.h>
#include <Ntsecapi.h>
#include <Userenv.h>
#include <Sddl.h>

#pragma comment(lib,"Rasapi32.lib")
#pragma comment(lib,"advapi32.lib")
#pragma comment(lib,"UserEnv.lib")

unsigned char            private_data[0x500];
int                        data_len;

unsigned char * get_real_pass(unsigned char *user, DWORD dwDialParamsUID)
{
    int    i, j;
    unsigned char *p, szDialParamsUID[52], *pass=NULL;

    _snprintf(szDialParamsUID, sizeof(szDialParamsUID), 
        "%d", dwDialParamsUID);

    p = private_data;

    for(i=0;i<data_len;i++)
    {
        if(strcmp(&p[i], szDialParamsUID) == 0 )
        {
            for(j=i;j<data_len;j++)
            {
                if(strcmp(&p[j], user) == 0 )
                {
                    pass = p + j + strlen(user) + 1;
                    break;
                }
            }
            break;
        }
    }

    return pass;
}

void main()
{
    LPRASENTRYNAME lpRasEntryName;
    LPRASDIALPARAMS lpRasDialParams;
    DWORD            cb, nRet, i, cEntries;
    BOOL            b;
    char            szPhoneBook1[512], szPhoneBook2[512], 
                    szUserName[128], szDomainName[128];
    DWORD            dwSize, dwDialParamsUID, dwTmp;
    PSID            pSid = NULL;
    SID_NAME_USE    peUse;

    LSA_OBJECT_ATTRIBUTES    lsa_object_attr;
    LSA_HANDLE                lsa_handle;
    PLSA_UNICODE_STRING        plsa_private_data;
    LSA_UNICODE_STRING        lsa_keyname;
    NTSTATUS                status;
    int                        ret;
    unsigned char            *pass;
    WCHAR                    *sid;

    printf("dialup password recover tool for win 2k/xp/2003\n"
            "code by eyas at xfocus.org\n"
            "http://www.xfocus.net\n"
            "2004-10-01\n\n");

    //get current user's string sid
    dwSize = sizeof(szUserName);
    GetUserName(szUserName, &dwSize);
    dwSize = 0;
    dwTmp = sizeof(szDomainName);
    LookupAccountName(NULL, szUserName, pSid, &dwSize, szDomainName, 
                    &dwTmp, &peUse);
    if(!dwSize)
    {
        printf("[-] LookupAccountName failed.\n");
        return;
    }
    pSid = (PSID)malloc(dwSize);
    LookupAccountName(NULL, szUserName, pSid, &dwSize, szDomainName,
                     &dwTmp, &peUse);
    ConvertSidToStringSidW(pSid, &sid);

    memset(&lsa_object_attr, 0, sizeof(lsa_object_attr));
    lsa_object_attr.Length = sizeof(LSA_OBJECT_ATTRIBUTES);
    LsaOpenPolicy(0, &lsa_object_attr, 0x800, &lsa_handle);

    plsa_private_data = (PLSA_UNICODE_STRING)malloc(sizeof(LSA_UNICODE_STRING));
    plsa_private_data->Length = 0x500;
    plsa_private_data->MaximumLength = 0x500;
    plsa_private_data->Buffer = (PWSTR)malloc(0x500);

    lsa_keyname.MaximumLength = 0x200;
    lsa_keyname.Buffer = (PWSTR)malloc(0x200);
    wcscpy(lsa_keyname.Buffer,L"RasDialParams!");
    wcscat(lsa_keyname.Buffer, sid);
    wcscat(lsa_keyname.Buffer, L"#0");
    lsa_keyname.Length = wcslen(lsa_keyname.Buffer) * 2;

    //get current user's dialup info
    status = LsaRetrievePrivateData(lsa_handle, 
        &lsa_keyname,
        &plsa_private_data);
    LsaClose(lsa_handle);
    if(status != 0)
    {
        printf("[-] LsaRetrievePrivateData failed: %d\n",
                     LsaNtStatusToWinError(status));
        return;
    }
    ret = WideCharToMultiByte(0, 0, plsa_private_data->Buffer,
                             plsa_private_data->Length, 
        private_data, sizeof(private_data), 0, 0);
    if(ret == 0)
    {
        printf("[-] WideCharToMultiByte failed:%d\n", GetLastError());
        return;
    }
    data_len = ret;

    //get phone book name
    GetEnvironmentVariable("ALLUSERSPROFILE", szPhoneBook1,
                             sizeof(szPhoneBook1)-200);
    GetEnvironmentVariable("USERPROFILE", szPhoneBook2,
                             sizeof(szPhoneBook2)-200);
    strcat(szPhoneBook1, 
        "\\Application Data\\Microsoft\\Network"
        "\\Connections\\pbk\\rasphone.pbk");
    strcat(szPhoneBook2, 
        "\\Application Data\\Microsoft\\Network"
        "\\Connections\\pbk\\rasphone.pbk");

    lpRasEntryName = (LPRASENTRYNAME)GlobalAlloc(GPTR, sizeof(RASENTRYNAME));
    lpRasEntryName->dwSize = sizeof(RASENTRYNAME);
    cb = sizeof(RASENTRYNAME);
    if ((nRet = RasEnumEntries(NULL, NULL, lpRasEntryName, &cb, &cEntries)) 
        == ERROR_BUFFER_TOO_SMALL)
    {
        lpRasEntryName = (LPRASENTRYNAME)GlobalAlloc(GPTR, cb);
        lpRasEntryName->dwSize = sizeof(RASENTRYNAME);
    }

    // Calling RasEnumEntries to enumerate the phone-book entries    
    nRet = RasEnumEntries(NULL, NULL, lpRasEntryName, &cb, &cEntries);

    if (nRet != ERROR_SUCCESS)
    {
        printf("[-] RasEnumEntries failed: Error %d\n", nRet);
        return;
    }

    for(i=0;i < cEntries;i++)
    {
        lpRasDialParams = malloc(sizeof(RASDIALPARAMS));
        strcpy(lpRasDialParams->szEntryName, lpRasEntryName->szEntryName);
        lpRasDialParams->dwSize = sizeof(RASDIALPARAMS);

        RasGetEntryDialParams(0, lpRasDialParams, &b);

        dwDialParamsUID = GetPrivateProfileInt(lpRasEntryName->szEntryName, 
            "DialParamsUID", 0, szPhoneBook1);
        if(dwDialParamsUID == 0)
        {
            dwDialParamsUID = GetPrivateProfileInt(lpRasEntryName->szEntryName, 
                                "DialParamsUID", 0, szPhoneBook2);
            if(dwDialParamsUID == 0)
            {
                printf("[-] Can't get DialParamsUID from PhoneBook.\n");
                return;
            }
        }

        pass = get_real_pass(lpRasDialParams->szUserName, dwDialParamsUID);

        printf(
            "-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=\n"
            "EntryName : %s\n"
            "UserName  : %s\n"
            "PassWord  : %s\n\n",
            lpRasEntryName->szEntryName,
            lpRasDialParams->szUserName, 
            pass);

        free(lpRasDialParams);
        lpRasEntryName++;
    }
}



-=-=-=-=-=-=-=-=-=-= code end -=-=-=-=-=-=-=-=-=-=

-=-=-=-=-=-=-=-=-=-= x_dialupass2.cpp -=-=-=-=-=-=-=-=-=-=
/*
演示还原NT平台拨号连接密码

原理:直接从注册表中读取加密后的数据,解密之。

可运行于windows 2000/xp/2003平台,必须有权限读取注册表 "HKLM\SECURITY"。

eyas at xfocus.org
http://www.xfocus.net
2004-10-01
*/
#include <Windows.h>
#include <stdio.h>
#include <Psapi.h>
#pragma comment(lib, "Advapi32.lib")
#pragma comment(lib, "psapi.lib")

//抄袭tombkeeper的代码:)
#define FCHK(a)     if (!(a)) {printf(#a " failed %d\n", GetLastError()); return 
0;}

typedef struct _LSA_BLOB {
    DWORD cbData;
    DWORD cbMaxData;
    BYTE* pbData;
} LSA_BLOB;


typedef int (WINAPI *PSystemFunction005)(
    LSA_BLOB* pDataIn,
    LSA_BLOB* pDataKey,
    LSA_BLOB* pDataOut
);

PSystemFunction005    SystemFunction005;
DWORD                dwFlag=0;


//来自lsadump2中的dumplsa.c
int myisprint (int ch)
{
    return ((ch >= ' ') && (ch <= '~'));
}
//来自lsadump2中的dumplsa.c
void
dump_bytes (unsigned char *p, size_t sz)
{
    char szDumpBuff[256];

    if(sz==0)
        return;

    while (sz > 16) {
        _snprintf (szDumpBuff, sizeof (szDumpBuff),
                   " %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X 
%02X %02X %02X %02X  %c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c\n",
                   p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7],
                   p[8], p[9], p[10], p[11], p[12], p[13], p[14], p[15],
                   myisprint(p[0]) ? p[0] : '.',
                   myisprint(p[1]) ? p[1] : '.',
                   myisprint(p[2]) ? p[2] : '.',
                   myisprint(p[3]) ? p[3] : '.',
                   myisprint(p[4]) ? p[4] : '.',
                   myisprint(p[5]) ? p[5] : '.',
                   myisprint(p[6]) ? p[6] : '.',
                   myisprint(p[7]) ? p[7] : '.',
                   myisprint(p[8]) ? p[8] : '.',
                   myisprint(p[9]) ? p[9] : '.',
                   myisprint(p[10]) ? p[10] : '.',
                   myisprint(p[11]) ? p[11] : '.',
                   myisprint(p[12]) ? p[12] : '.',
                   myisprint(p[13]) ? p[13] : '.',
                   myisprint(p[14]) ? p[14] : '.',
                   myisprint(p[15]) ? p[15] : '.');
        printf ("%s", szDumpBuff);
        p+=16;
        sz -= 16;
    }

    if (sz) {
        char buf[17];
        int i = 0;
        int j = 16 - sz;
        memset (buf, 0, sizeof (buf));
        szDumpBuff[0] = 0;
        while (sz--) {
            _snprintf (szDumpBuff+strlen (szDumpBuff),
                       sizeof (szDumpBuff) - strlen (szDumpBuff),
                       " %02X", *p);
            if (myisprint (*p))
                buf[i++] = *p;
            else
                buf[i++] = '.';
            p++;
        }
        _snprintf (szDumpBuff+strlen (szDumpBuff),
                   sizeof (szDumpBuff)-strlen (szDumpBuff),
                   "%*s%s\n", j*3 + 2, "", buf);
        printf ("%s", szDumpBuff);
    }
}

DWORD search_LsapDbSecretCipherKey(BYTE **ppKey, DWORD pid)
{
    HANDLE    hLsass, hLsasrv;
    DWORD    dwRead, i, dwAddr;
    BYTE    *pImage = NULL;
    MODULEINFO    mod;
    BOOL    bRet = FALSE;
    DWORD    dwCount = 0, dwMaxCount=100;

    FCHK ( (hLsasrv = LoadLibrary("lsasrv.dll")) );

    FCHK ( GetModuleInformation(GetCurrentProcess(), (HMODULE)hLsasrv, 
        &mod, sizeof(mod)) );

    FCHK ( hLsass = OpenProcess(PROCESS_VM_READ, FALSE, pid) );

    pImage = (BYTE*)malloc(mod.SizeOfImage);

    ReadProcessMemory(hLsass, (BYTE*)hLsasrv, 
                            pImage, mod.SizeOfImage-0x10, &dwRead);

    *ppKey = (BYTE*)malloc(dwMaxCount*0x10);
    
    __try
    {
        for(i=0;i<mod.SizeOfImage;i++)
        {
            if( memcmp(&pImage[i], "\x10\x00\x00\x00\x10\x00\x00\x00", 8) == 0)
            {
                dwAddr = *(DWORD *)(&pImage[i+8]);
                if( ReadProcessMemory(hLsass, (LPCVOID)dwAddr, 
                            &(*ppKey[dwCount*0x10]), 0x10, &dwRead) )
                {
                        dwCount++;
                }
            }
        }//end of for
    }
    __except(EXCEPTION_EXECUTE_HANDLER)
    {
        return dwCount;
    }

    return dwCount;
}

int main(int argc, char **argv)
{
    int ret,i,j;
    HMODULE hAdvApi32;
    HKEY hKeySecrets;
    HKEY hKey;
    DWORD dwType;
    char Data[0x500] = {0};
    BYTE    *pKey;
    DWORD dwSize;
    LSA_BLOB LSADataIn;
    LSA_BLOB LSADataOut;
    LSA_BLOB LSADataKey;
    char szSecret[500];
    char szSubKey[0x500];
    DWORD dwErr, dwCount=0;

    if(argc!=2)
    {
        printf("Usage: %s <pid of lsass.exe>\n", argv[0]);
        return 0;
    }


    FCHK ((hAdvApi32 = LoadLibrary("advapi32.dll")));
    FCHK ((SystemFunction005 = (PSystemFunction005)
           GetProcAddress (hAdvApi32, "SystemFunction005")) != NULL);
    
    FCHK ((RegOpenKeyEx (HKEY_LOCAL_MACHINE,
                      "SECURITY\\Policy\\Secrets",
                      0, KEY_READ, &hKeySecrets) == ERROR_SUCCESS))

    FCHK ( ( dwCount = search_LsapDbSecretCipherKey(&pKey, atoi(argv[1])) ) != 0 
);
    printf("Search \"LsapDbSecretCipherKey\" return: %d\n", dwCount);

    for(j=0;j<dwCount;j++)
    {
        printf("LsapDbSecretCipherKey [%d]\n", j);
        dump_bytes(&pKey[j*0x10], 0x10);

        LSADataKey.cbData = LSADataKey.cbMaxData = 0x10;
        LSADataKey.pbData = &pKey[j*0x10];

        //search our target
        for (i=0; TRUE; i++)
        {
            dwErr = RegEnumKeyA (hKeySecrets, i, szSecret, sizeof (szSecret));
            if (dwErr != ERROR_SUCCESS)
                //
                // No More Secrets
                //
                break;

            printf("\n%s\n", szSecret);
            //open it
            _snprintf(szSubKey, sizeof(szSubKey), 
                "SECURITY\\Policy\\Secrets\\%s\\CurrVal", szSecret);
            if (ret = RegOpenKeyEx(HKEY_LOCAL_MACHINE,
                                    szSubKey,
                                    0,
                                    KEY_READ,
                                    &hKey
                                    ) != ERROR_SUCCESS )
                continue;

            dwSize = sizeof(Data);
            FCHK ((ret = RegQueryValueEx(hKey,
                                "",
                                NULL,
                                &dwType,
                                (LPBYTE)Data,
                                &dwSize) == ERROR_SUCCESS ))

            LSADataIn.pbData = (BYTE *)Data + 0xC;  //密文从第0xC位开始
            LSADataIn.cbData = dwSize-0xC;
            LSADataIn.cbMaxData = LSADataIn.cbData;

            //dump_bytes(LSADataIn.pbData, LSADataIn.cbData);

            LSADataOut.cbData = 0;
            LSADataOut.cbMaxData = 0;
            LSADataOut.pbData = NULL;

            SystemFunction005(&LSADataIn, &LSADataKey, &LSADataOut);
            if (LSADataOut.cbData == 0)
            {
                printf("null\n");
                continue;
            }

            FCHK ((LSADataOut.pbData = (BYTE*)malloc(LSADataOut.cbData) ) != 
NULL);
            LSADataOut.cbMaxData = LSADataOut.cbData;
            SystemFunction005(&LSADataIn, &LSADataKey, &LSADataOut);

            dump_bytes(LSADataOut.pbData, LSADataOut.cbData);
            free(LSADataOut.pbData);
        }//end of for
        printf("Press any key to use next \"LsapDbSecretCipherKey\", or Ctrl+C 
to exit.\n");
        getchar();
    }

    if(pKey)
        free(pKey);
    return 0;
}

-=-=-=-=-=-=-=-=-=-= code end -=-=-=-=-=-=-=-=-=-=  

参考资源:

[1] http://www.lwteam.ru/modules/news/article.php?storyid=167
    2003-06-24 by Cmeptb

[2] http://www.wasm.ru/forum/index.php?action=vthread&forum=12&topic=4873
    2004-01-10 by ??

[3] http://homepage2.nifty.com/spw/software/rtrick/
    2004-01-05 by ???

[4] SAM的散列存储加密解密算法以及SYSKEY的计算
    http://www.xfocus.net/articles/200306/550.html
    2003-06-04 by flashsky at xfocus.org


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