分类: C/C++
2008-08-01 16:55:48
一、NetBIOS信息
在我们和远程Windows2000/XP主机建立了空会话之后,我们就有权枚举系统里的各项NetBIOS信息了。当然在某些选项中需要较高的权利,不过我们只执行那些匿名用户可以获得的绝大多数系统信息。
时间:探测远程主机的当前日期和时间信息。它会返回一个数据结构,包括年,月,日,星期,时,分,秒等等。不过得到的是GMT标准时间,当然对于我们来说就应该换算为GMT 8:00了。由此可以判断出主机所在的时区信息。
操作系统指纹:探测远程主机的操作系统指纹信息。一共有三种级别的探测(100,101,102),我们使用的是101级,它会返回一个数据结构,可以获取远程主机的平台标识,服务器名称,操作系统的主次版本(Windows2000为5.0,WindowsXP为5.1,而最新操作系统Longhorn的版本为6.0),服务器类型(每台主机可能同时包含多种类型信息)和注释。
共享列表:探测远程主机的共享列表。我们可以获得一个数据结构指针,枚举远程主机的所有共享信息(隐藏的共享列表在内)。其中包括共享名称,类型与备注。类型可分为:磁盘驱动器,打印队列,通讯设备,进程间通讯与特殊设备。
用户列表: 探测远程主机的用户列表,返回一个数据结构指针,枚举所有用户信息。可获取用户名,全名,用户标识符,说明与标识信息。标识信息可以探测用户的访问权限。
本地组列表: 探测远程主机的本地组列表信息。枚举所有本地组信息,包含本地组名称和注释信息。
组列表: 探测远程主机的组列表信息。枚举所有的组信息,包括组名称,注释,组标识符与属性。在此基础上,我们可以枚举组内的所有用户信息。
组用户列表: 探测特定组内的用户信息。我们可以获得组内所有用户的名称。当我门获得了所有的用户列表,下一步就应该很清楚了,那就是挂一个字典进行破解了。
传输协议列表: 探测远程主机的传输协议信息,枚举所有的传输列表。可以获得每个传输协议的名称,地址,网络地址和当前与本传输协议连接的用户数目。
会话列表: 探测远程主机的当前会话列表。枚举每个会话的相关信息,包括客户端主机的名称,当前用户的名称,活动时间和空闲时间。这可以帮助我们了解远程主机用户的喜好等等。
2. 撤消空会话
WNetCancelConnection2(ipc,0,TRUE);
//ipc为TCHAR的指针,我们可以这样获得:
//swprintf(ipc,_T("\\\\%s\\ipc$"),argv[1]),argv[1]为主机名或地址;
3. 探测主机时间
nStatus=NetRemoteTOD(server,(PBYTE*)&pBuf);
//参数server为主机的名称或地址;
//pBuf为TIME_OF_DAY_INFO数据结构的指针;
//nStatus为NET_API_STATUS成员;
4. 探测操作系统指纹
NetServerGetInfo(server,dwLevel,(PBYTE *)&pBuf);
//dwLevel为等级数,我们选择的是101级;
//pBuf是SERVER_INFO_101数据结构的指针;
5. 探测共享列表
NetShareEnum(server,dwLevel,(PBYTE *)&pBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume);
//dwLevel的等级数为1级;
//pBuf是SHARE_INFO_1数据结构的指针;
//MAX_PREFERRED_LENGTH指定返回数据的长度;
//er指明返回的实际可以枚举的成员数目;
//tr返回所有的成员数目;
//resume用于继续进行共享搜索;
6. 探测用户列表
NetQueryDisplayInformation(server,dwLevel,i,100,0xFFFFFFFF,&dwRec,(PVOID
*)&pBuf);
//dwLevel的等级数为1级;
//i为枚举的索引;
//dwRec返回获取的信息数目;
//pBuf为NET_DISPLAY_USER数据结构的指针;
7. 探测本地组列表
NetLocalGroupEnum(server,dwLevel,(PBYTE *)&pBuf,-1,&er,&tr,&resume);
//dwLevel的等级是1;
//pBuf返回LOCALGROUP_INFO_1数据结构的指针;
8. 探测组列表
NetQueryDisplayInformation(server,dwLevel,i,100,0xFFFFFFFF,&dwRec,(PVOID*)&pGBuf);
//dwLevel的等级为3;
//pGBuf返回NET_DISPLAY_GROUP的数据结构指针;
9. 探测组内的用户
NetGroupGetUsers(server,pGBuffer->grpi3_name,0,(PBYTE *)&pUBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume);
//pGBuffer->grpi3_name为组的名称;
//pUBuf返回GROUP_USERS_INFO_0数据结构的指针;
10.探测传输协议列表
NetServerTransportEnum(server,dwLevel,(PBYTE *)&pBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume);
//dwLevel的等级为0级;
//pBuf返回SERVER_TRANSPORT_INFO_0数据结构的指针;
11.探测会话列表
NetSessionEnum(server,pszClient,pszUser,dwLevel,(PBYTE *)&pBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume);
//pszClient指定客户的地址;
//pszUser指定用户名;
//dwLevel的等级是10级;
//pBuf返回SESSION_INFO_10数据结构的指针;
12.释放内存
NetApiBufferFree(pBuf);
//释放由系统分配的内存空间。
三、 如何防止NetBIOS信息的泄露
我们可以安装防火墙来禁止空会话的建立,或者我们可以在网络连接属性里禁用TCP/IP上的NetBIOS,当然也可以在IP安全策略里禁用445/tcp端口来实现。只要空会话不能成功建立,那就很难获得上面提到的各项信息了。
四、 源代码
#define UNICODE #define _UNICODE #include(全文完) 下载本文示例代码#include #include #include "include\lmaccess.h" #include "include\lmserver.h" #include "include\lmshare.h" #include #pragma comment (lib,"mpr") #pragma comment (lib,"netapi32") void start(); void usage(); int datetime(PTSTR server); int fingerprint(PTSTR server); int netbios(PTSTR server); int users(PTSTR server); int localgroup(PTSTR server); int globalgroup(PTSTR server); int transport(PTSTR server); int session(PTSTR server); int wmain(int argc,TCHAR *argv[]) { NETRESOURCE nr; DWORD ret; TCHAR username[100]=_T(""); TCHAR password[100]=_T(""); TCHAR ipc[100]=_T(""); system("cls.exe"); start(); if(argc!=2) { usage(); return -1; } swprintf(ipc,_T("\\\\%s\\ipc$"),argv[1]); nr.lpLocalName=NULL; nr.lpProvider=NULL; nr.dwType=RESOURCETYPE_ANY; nr.lpRemoteName=ipc; ret=WNetAddConnection2(&nr,username,password,0); if(ret!=ERROR_SUCCESS) { _tprintf(_T("\nIPC$ Connect Failed.\n")); return -1; } datetime(argv[1]); fingerprint(argv[1]); netbios(argv[1]); users(argv[1]); localgroup(argv[1]); globalgroup(argv[1]); transport(argv[1]); session(argv[1]); ret=WNetCancelConnection2(ipc,0,TRUE); if(ret!=ERROR_SUCCESS) { _tprintf(_T("IPC$ Disconnect Failed.\n")); return -1; } return 0; } void start() { _tprintf(_T("=====[ T-SMB Scan, by TOo2y ]=====\n")); _tprintf(_T("=====[ E-mail: TOo2y@safechina.net ]=====\n")); _tprintf(_T("=====[ HomePage: ]=====\n")); _tprintf(_T("=====[ Date: 12-12-2002 ]=====\n")); } void usage() { _tprintf(_T("\nUsage:\t T-SMB Remoteip")); _tprintf(_T("\nRequest: Remote host must be opening port 445/tcp of Microsoft-DS.\n")); } int datetime(PTSTR server) { PTIME_OF_DAY_INFO pBuf=NULL; NET_API_STATUS nStatus; DWORD lerror; _tprintf(_T("\n*** Date and Time ***\n")); nStatus=NetRemoteTOD(server,(PBYTE*)&pBuf); if(nStatus==NERR_Success) { if(pBuf!=NULL) { _tprintf(_T("\nCurrent date:\t%.2d-%.2d-%d"),pBuf->tod_month,pBuf->tod_day,pBuf->tod_year); _tprintf(_T("\nCurrent time:\t%.2d:%.2d:%.2d.%.2d (GMT)"),pBuf->tod_hours,pBuf->tod_mins,pBuf->tod_secs,pBuf->tod_hunds); pBuf->tod_hours=(pBuf->tod_hours 8)$; _tprintf(_T("\nCurrent time:\t%.2d:%.2d:%.2d.%.2d (GMT 08:00)\n"),pBuf->tod_hours,pBuf->tod_mins,pBuf->tod_secs,pBuf->tod_hunds); } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nDateTime:\tOverlapped I/O operation is in progress. \n")); } else { _tprintf(_T("\nDatetime Error:\t%d\n"),lerror); } } if(pBuf!=NULL) { NetApiBufferFree(pBuf); } return 0; } int fingerprint(PTSTR server) { DWORD dwlength; DWORD dwLevel; NET_API_STATUS nStatus; PSERVER_INFO_101 pBuf; DWORD lerror; dwLevel=101; pBuf=NULL; dwlength=_tcslen(server); _tprintf(_T("\n**** Fingerprint ****\n")); nStatus=NetServerGetInfo(server,dwLevel,(PBYTE *)&pBuf); if(nStatus==NERR_Success) { _tprintf(_T("\nComputername:\t%s"),pBuf->sv101_name); _tprintf(_T("\nComment:\t%s"),pBuf->sv101_comment); _tprintf(_T("\nPlatform:\t%d"),pBuf->sv101_platform_id); _tprintf(_T("\nVersion:\t%d.%d"),pBuf->sv101_version_major,pBuf->sv101_version_minor); _tprintf(_T("\nType:")); if(pBuf->sv101_type & SV_TYPE_NOVELL) { _tprintf(_T("\t\tNovell server.\n")); } if(pBuf->sv101_type & SV_TYPE_XENIX_SERVER) { _tprintf(_T("\t\tXenix server.\n")); } if(pBuf->sv101_type & SV_TYPE_DOMAIN_ENUM) { _tprintf(_T("\t\tPrimary domain .\n")); } if(pBuf->sv101_type & SV_TYPE_TERMINALSERVER) { _tprintf(_T("\t\tTerminal Server.\n")); } if(pBuf->sv101_type & SV_TYPE_WINDOWS) { _tprintf(_T("\t\tWindows 95 or later.\n")); } if(pBuf->sv101_type & SV_TYPE_SERVER) { _tprintf(_T("\t\tA LAN Manager server.\n")); } if(pBuf->sv101_type & SV_TYPE_WORKSTATION) { _tprintf(_T("\t\tA LAN Manager workstation.\n")); } if(pBuf->sv101_type & SV_TYPE_PRINTQ_SERVER) { _tprintf(_T("\t\tServer sharing print queue.\n")); } if(pBuf->sv101_type & SV_TYPE_DOMAIN_CTRL) { _tprintf(_T("\t\tPrimary domain controller.\n")); } if(pBuf->sv101_type & SV_TYPE_DOMAIN_BAKCTRL) { _tprintf(_T("\t\tBackup domain controller.\n")); } if(pBuf->sv101_type & SV_TYPE_AFP) { _tprintf(_T("\t\tApple File Protocol server.\n")); } if(pBuf->sv101_type & SV_TYPE_DOMAIN_MEMBER) { _tprintf(_T("\t\tLAN Manager 2.x domain member.\n")); } if(pBuf->sv101_type & SV_TYPE_LOCAL_LIST_ONLY) { _tprintf(_T("\t\tServers maintained by the browser.\n")); } if(pBuf->sv101_type & SV_TYPE_DIALIN_SERVER) { _tprintf(_T("\t\tServer running dial-in service.\n")); } if(pBuf->sv101_type & SV_TYPE_TIME_SOURCE) { _tprintf(_T("\t\tServer running the Timesource service.\n")); } if(pBuf->sv101_type & SV_TYPE_SERVER_MFPN) { _tprintf(_T("\t\tMicrosoft File and Print for NetWare.\n")); } if(pBuf->sv101_type & SV_TYPE_NT) { _tprintf(_T("\t\tWindows NT/2000/XP workstation or server.\n")); } if(pBuf->sv101_type & SV_TYPE_WFW) { _tprintf(_T("\t\tServer running Windows for Workgroups.\n")); } if(pBuf->sv101_type & SV_TYPE_POTENTIAL_BROWSER) { _tprintf(_T("\t\tServer that can run the browser service.\n")); } if(pBuf->sv101_type & SV_TYPE_BACKUP_BROWSER) { _tprintf(_T("\t\tServer running a browser service as backup.\n")); } if(pBuf->sv101_type & SV_TYPE_MASTER_BROWSER) { _tprintf(_T("\t\tServer running the master browser service.\n")); } if(pBuf->sv101_type & SV_TYPE_DOMAIN_MASTER) { _tprintf(_T("\t\tServer running the domain master browser.\n")); } if(pBuf->sv101_type & SV_TYPE_CLUSTER_NT) { _tprintf(_T("\t\tServer clusters available in the domain.\n")); } if(pBuf->sv101_type & SV_TYPE_SQLSERVER) { _tprintf(_T("\t\tAny server running with Microsoft SQL Server.\n")); } if(pBuf->sv101_type & SV_TYPE_SERVER_NT) { _tprintf(_T("\t\tWindows NT/2000 server that is not a domain controller.\n")); } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nFingerprint:\tOverlapped I/O operation is in progress.\n")); } else { _tprintf(_T("\nFingerprint Error:\t%d\n"),lerror); } } if(pBuf!=NULL) { NetApiBufferFree(pBuf); } return 0; } int netbios(PTSTR server) { DWORD er,tr,resume; DWORD i,dwLength,dwLevel; PSHARE_INFO_1 pBuf,pBuffer; NET_API_STATUS nStatus; DWORD lerror; er=0; tr=0; resume=1; dwLevel=1; dwLength=_tcslen(server); _tprintf(_T("\n****** Netbios ******\n")); do { nStatus=NetShareEnum(server,dwLevel,(PBYTE *)&pBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume); if((nStatus==ERROR_SUCCESS) || (nStatus==ERROR_MORE_DATA)) { pBuffer=pBuf; for(i=1;i<=er;i ) { _tprintf(_T("\nName:\t\t%s"),pBuffer->shi1_netname); _tprintf(_T("\nRemark:\t\t%s"),pBuffer->shi1_remark); _tprintf(_T("\nType:\t\t")); if(pBuffer->shi1_type==STYPE_DISKTREE) { _tprintf(_T("Disk drive.\n")); } else if(pBuffer->shi1_type==STYPE_PRINTQ) { _tprintf(_T("Print queue.\n")); } else if(pBuffer->shi1_type==STYPE_DEVICE) { _tprintf(_T("Communication device.\n")); } else if(pBuffer->shi1_type==STYPE_IPC) { _tprintf(_T("Interprocess communication (IPC).\n")); } else if(pBuffer->shi1_type==STYPE_SPECIAL) { _tprintf(_T("Special share reserved for interprocess communication (IPC$) or remote administration of the server (ADMIN$).\n")); } else { _tprintf(_T("\n")); } pBuffer ; } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nNetbios:\tOverlapped I/O operation is in progress.\n")); } else { _tprintf(_T("\nNetbios Error:\t%d\n"),lerror); } } if(pBuf!=NULL) { NetApiBufferFree(pBuf); } } while(nStatus==ERROR_MORE_DATA); return 0; } int users(PTSTR server) { PNET_DISPLAY_USER pBuf,pBuffer; DWORD nStatus; DWORD dwRec; DWORD i=0; DWORD lerror; DWORD dwLevel; dwLevel=1; _tprintf(_T("\n******* Users *******\n")); do { nStatus=NetQueryDisplayInformation(server,dwLevel,i,100,0xFFFFFFFF,&dwRec,(PVOID *)&pBuf); if((nStatus==ERROR_SUCCESS) || (nStatus==ERROR_MORE_DATA)) { pBuffer=pBuf; for(;dwRec>0;dwRec--) { _tprintf(_T("\nName:\t\t%s"),pBuffer->usri1_name); _tprintf(_T("\nFull Name:\t%s"),pBuffer->usri1_full_name); _tprintf(_T("\nUser ID:\t%u"),pBuffer->usri1_user_id); _tprintf(_T("\nComment: \t%s"),pBuffer->usri1_comment); _tprintf(_T("\nFlag:")); if(pBuffer->usri1_flags & UF_ACCOUNTDISABLE) { _tprintf(_T("\t\tThe user''s account is disabled.\n")); } if(pBuffer->usri1_flags & UF_TRUSTED_FOR_DELEGATION) { _tprintf(_T("\t\tThe account is enabled for delegation. \n")); } if(pBuffer->usri1_flags & UF_LOCKOUT) { _tprintf(_T("\t\tThe account is currently locked out (blocked).\n")); } if(pBuffer->usri1_flags & UF_SMARTCARD_REQUIRED) { _tprintf(_T("\t\tRequires the user to log on to the user account with a smart card. \n")); } if(pBuffer->usri1_flags & UF_DONT_REQUIRE_PREAUTH) { _tprintf(_T("\t\tThis account does not require Kerberos preauthentication for logon.\n")); } if(pBuffer->usri1_flags & UF_ENCRYPTED_TEXT_PASSWORD_ALLOWED) { _tprintf(_T("\t\tThe user''s password is stored under reversible encryption in the Active Directory. \n")); } if(pBuffer->usri1_flags & UF_NOT_DELEGATED) { _tprintf(_T("\t\tMarks the account as \"sensitive\"; other users cannot act as delegates of this user account.\n")); } if(pBuffer->usri1_flags & UF_USE_DES_KEY_ONLY) { _tprintf(_T("\t\tRestrict this principal to use only Data Encryption Standard (DES) encryption types for keys.\n")); } if(pBuffer->usri1_flags & UF_HOMEDIR_REQUIRED) { _tprintf(_T("\t\tThe home directory is required. Windows NT/Windows 2000/Windows XP ignores this value.\n")); } if(pBuffer->usri1_flags & UF_SCRIPT) { _tprintf(_T("\t\tThe logon script executed. This value must be set for LAN Manager 2.0 and Windows NT/2000/XP.\n")); } i=pBuffer->usri1_next_index; pBuffer ; } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nUsers:\t\tOverlapped I/O operation is in progress.\n")); } else { _tprintf(_T("\nUsers Error:\t%d\n"),lerror); } } if(pBuf!=NULL) { NetApiBufferFree(pBuf); } }while(nStatus==ERROR_MORE_DATA); return 0; } int localgroup(PTSTR server) { NET_API_STATUS nStatus; PLOCALGROUP_INFO_1 pBuf,pBuffer; DWORD i,dwLevel; DWORD er,tr,resume; DWORD lerror; resume=0; dwLevel=1; _tprintf(_T("\n**** Local Group ****\n")); do { nStatus=NetLocalGroupEnum(server,dwLevel,(PBYTE *)&pBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume); if((nStatus==NERR_Success) || (nStatus==ERROR_MORE_DATA)) { pBuffer=pBuf; for(i=1;i<=er;i ) { _tprintf(_T("\nName:\t\t%s"),pBuffer->lgrpi1_name); _tprintf(_T("\nComment:\t%s"),pBuffer->lgrpi1_comment); _tprintf(_T("\n")); pBuffer ; } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nLocal Group:\tOverlapped I/O operation is in progress.\n")); } else { _tprintf(_T("\nLocal Group Error:\t%d\n"),lerror); } } if(pBuf!=NULL) { NetApiBufferFree(pBuf); } }while(nStatus==ERROR_MORE_DATA); return 0; } int globalgroup(PTSTR server) { PNET_DISPLAY_GROUP pGBuf,pGBuffer; PGROUP_USERS_INFO_0 pUBuf,pUBuffer; DWORD nGStatus,nUStatus; DWORD i; DWORD dwLevel,dwRec; DWORD k; DWORD er,tr,resume; DWORD lerror; i=0; dwLevel=3; er=0; tr=0; resume=0; _tprintf(_T("\n**** Global group ****\n")); do { nGStatus=NetQueryDisplayInformation(server,dwLevel,i,100,0xFFFFFFFF,&dwRec,(PVOID*)&pGBuf); if((nGStatus==ERROR_SUCCESS) || (nGStatus==ERROR_MORE_DATA)) { pGBuffer=pGBuf; for(;dwRec>0;dwRec--) { _tprintf(_T("\nName:\t\t%s"),pGBuffer->grpi3_name); _tprintf(_T("\nComment:\t%s"),pGBuffer->grpi3_comment); _tprintf(_T("\nGroup ID:\t%u"),pGBuffer->grpi3_group_id); _tprintf(_T("\nAttributs:\t%u"),pGBuffer->grpi3_attributes); _tprintf(_T("\nMembers:\t")); nUStatus=NetGroupGetUsers(server,pGBuffer->grpi3_name,0,(PBYTE *)&pUBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume); if(nUStatus==NERR_Success) { pUBuffer=pUBuf; for(k=1;k<=er;k ) { _tprintf(_T("%s "),pUBuffer->grui0_name); pUBuffer ; } if(pUBuf!=NULL) { NetApiBufferFree(pUBuf); } } _tprintf(_T("\n")); i=pGBuffer->grpi3_next_index; pGBuffer ; } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nGlobal Group:\tOverlapped I/O operation is in progress.\n")); } else { _tprintf(_T("\nGlobal Group Error:\t%d\n"),lerror); } } if(pGBuf!=NULL) { NetApiBufferFree(pGBuf); } }while(nGStatus==ERROR_MORE_DATA); return 0; } int transport(PTSTR server) { NET_API_STATUS nStatus; PSERVER_TRANSPORT_INFO_0 pBuf,pBuffer; DWORD dwLevel; DWORD i; DWORD er,tr,resume; DWORD dwTotalCount; DWORD dwLength; DWORD lerror; er=0; tr=0; resume=0; dwLevel=0; dwTotalCount=0; _tprintf(_T("\n***** Transport *****\n")); dwLength=_tcslen(server); do { nStatus=NetServerTransportEnum(server,dwLevel,(PBYTE *)&pBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume); if((nStatus==NERR_Success) || (nStatus==ERROR_MORE_DATA)) { pBuffer=pBuf; for(i=0;i svti0_transportname); _tprintf(_T("\nNetworkAddr:\t%s"),pBuffer->svti0_networkaddress); _tprintf(_T("\nActiveClient:\t%d User(s)\n"),pBuffer->svti0_numberofvcs); pBuffer ; dwTotalCount ; } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nTransport:\tOverlapped I/O operation is in progress.\n")); } else { _tprintf(_T("\nTransport Error:\t%d\n"),lerror); } } if(pBuf!=NULL) { NetApiBufferFree(pBuf); } }while(nStatus==ERROR_MORE_DATA); _tprintf(_T("\nTotal of %d entrie(s) enumerated.\n"),dwTotalCount); return 0; } int session(PTSTR server) { PSESSION_INFO_10 pBuf,pBuffer; NET_API_STATUS nStatus; DWORD i,dwLevel; DWORD er,tr,resume; DWORD dwTotalCount; DWORD dwLength; PTSTR pszClient; PTSTR pszUser; DWORD lerror; _tprintf(_T("\n****** Session ******\n")); dwLevel=10; dwTotalCount=0; pszClient=NULL; pszUser=NULL; er=0; tr=0; resume=0; dwLength=_tcslen(server); do { nStatus=NetSessionEnum(server,pszClient,pszUser,dwLevel,(PBYTE *)&pBuf,MAX_PREFERRED_LENGTH,&er,&tr,&resume); if((nStatus==NERR_Success) || (nStatus==ERROR_MORE_DATA)) { pBuffer=pBuf; for(i=0;i sesi10_cname); _tprintf(_T("\nUser:\t\t%s"),pBuffer->sesi10_username); _tprintf(_T("\nSeconds Active:\t%d"),pBuffer->sesi10_time); _tprintf(_T("\nSeconds Idle:\t%d\n"),pBuffer->sesi10_idle_time); pBuffer ; dwTotalCount ; } } else { lerror=GetLastError(); if(lerror==997) { _tprintf(_T("\nSession:\tOverlapped I/O operation is in progress.\n")); } else { _tprintf(_T("\nSession Error:\t%d\n"),lerror); } } if(pBuf!=NULL) { NetApiBufferFree(pBuf); } }while(nStatus==ERROR_MORE_DATA); _tprintf(_T("\nTotal of %d entrie(s) enumerated.\n"),dwTotalCount); return 0; }