/*++ Copyright (c) 1992-1996 Microsoft Corporation Module Name: user_lm.c Abstract: This file contains the routines which actually call Lan Manager and retrieve the contents of the user table, including cacheing. Environment: User Mode - Win32 Revision History: 10-May-1996 DonRyan Removed banner from Technology Dynamics, Inc. --*/ //--------------------------- WINDOWS DEPENDENCIES -------------------------- //--------------------------- STANDARD DEPENDENCIES -- #include ---- #ifdef WIN32 #include #include #endif #include #include #include #include //--------------------------- MODULE DEPENDENCIES -- #include"xxxxx.h" ------ #include "mib.h" #include "mibfuncs.h" #include "user_tbl.h" #include "lmcache.h" //--------------------------- SELF-DEPENDENCY -- ONE #include"module.h" ----- //--------------------------- PUBLIC VARIABLES --(same as in module.h file)-- //--------------------------- PRIVATE CONSTANTS ----------------------------- #define SafeBufferFree(x) if(NULL != x) NetApiBufferFree( x ) #define SafeFree(x) if(NULL != x) SnmpUtilMemFree( x ) //--------------------------- PRIVATE STRUCTS ------------------------------- //--------------------------- PRIVATE VARIABLES ----------------------------- //--------------------------- PRIVATE PROTOTYPES ---------------------------- //--------------------------- PRIVATE PROCEDURES ---------------------------- int __cdecl user_entry_cmp( IN const USER_ENTRY *A, IN const USER_ENTRY *B ) ; void build_user_entry_oids( ); //--------------------------- PUBLIC PROCEDURES ----------------------------- // // MIB_user_lmget // Retrieve print queue table information from Lan Manager. // If not cached, sort it and then // cache it. // // Notes: // // Return Codes: // SNMPAPI_NOERROR // SNMPAPI_ERROR // // Error Codes: // None. // SNMPAPI MIB_users_lmget( ) { DWORD entriesread; DWORD totalentries; LPBYTE bufptr; unsigned lmCode; unsigned i; USER_INFO_0 *DataTable; USER_ENTRY *MIB_UserTableElement ; int First_of_this_block; LPSTR ansi_string; time_t curr_time ; SNMPAPI nResult = SNMPAPI_NOERROR; DWORD resumehandle=0; time(&curr_time); // get the time // // // If cached, return piece of info. // // if((NULL != cache_table[C_USER_TABLE].bufptr) && (curr_time < (cache_table[C_USER_TABLE].acquisition_time + cache_expire[C_USER_TABLE] ) ) ) { // it has NOT expired! goto Exit ; // the global table is valid } // // // Do network call to gather information and put it in a nice array // // // // remember to free the existing data // MIB_UserTableElement = MIB_UserTable.Table ; // iterate over the whole table for(i=0; iOid)); SafeFree(MIB_UserTableElement->svUserName.stream); MIB_UserTableElement ++ ; // increment table entry } SafeFree(MIB_UserTable.Table) ; // free the base Table MIB_UserTable.Table = NULL ; // just for safety MIB_UserTable.Len = 0 ; // just for safety #if 0 // done above // init the length MIB_UserTable.Len = 0; #endif First_of_this_block = 0; do { // as long as there is more data to process lmCode = NetUserEnum( NULL, // local server 0, // level 0, no admin priv. FILTER_NORMAL_ACCOUNT, &bufptr, // data structure to return MAX_PREFERRED_LENGTH, &entriesread, &totalentries, &resumehandle // resume handle ); DataTable = (USER_INFO_0 *) bufptr ; if((NERR_Success == lmCode) || (ERROR_MORE_DATA == lmCode)) { // valid so process it, otherwise error if(0 == MIB_UserTable.Len) { // 1st time, alloc the whole table // alloc the table space MIB_UserTable.Table = SnmpUtilMemAlloc(totalentries * sizeof(USER_ENTRY) ); // prefix bugs 445183 and 445184 if (MIB_UserTable.Table == NULL) { // free all of the lan man data SafeBufferFree( bufptr ) ; // Signal error nResult = SNMPAPI_ERROR; goto Exit; } } MIB_UserTableElement = MIB_UserTable.Table + First_of_this_block ; for(i=0; iusri0_name, TRUE ); // auto alloc the space for ansi // client name MIB_UserTableElement->svUserName.stream = ansi_string; MIB_UserTableElement->svUserName.length = strlen( ansi_string ) ; MIB_UserTableElement->svUserName.dynamic = TRUE; ansi_string = NULL; MIB_UserTableElement ++ ; // and table entry DataTable ++ ; // advance pointer to next sess entry in buffer } // for each entry in the data table // free all of the lan man data SafeBufferFree( bufptr ) ; // indicate where to start adding on next pass, if any First_of_this_block = i ; } // if data is valid to process else { // Signal error nResult = SNMPAPI_ERROR; goto Exit; } } while (ERROR_MORE_DATA == lmCode) ; // iterate over the table populating the Oid field build_user_entry_oids(); // Sort the table information using MSC QuickSort routine qsort( &MIB_UserTable.Table[0], MIB_UserTable.Len, sizeof(USER_ENTRY), user_entry_cmp ); // // // Cache table // // if(0 != MIB_UserTable.Len) { cache_table[C_USER_TABLE].acquisition_time = curr_time ; cache_table[C_USER_TABLE].bufptr = bufptr ; } // // // Return piece of information requested // // Exit: return nResult; } // MIB_user_get // // MIB_user_cmp // Routine for sorting the session table. // // Notes: // // Return Codes: // SNMPAPI_NOERROR // SNMPAPI_ERROR // // Error Codes: // None. // int __cdecl user_entry_cmp( IN const USER_ENTRY *A, IN const USER_ENTRY *B ) { // Compare the OID's return SnmpUtilOidCmp( (AsnObjectIdentifier *)&A->Oid, (AsnObjectIdentifier *)&B->Oid ); } // MIB_user_cmp // // None. // void build_user_entry_oids( ) { AsnOctetString OSA ; USER_ENTRY *UserEntry ; unsigned i; // start pointer at 1st guy in the table UserEntry = MIB_UserTable.Table ; // now iterate over the table, creating an oid for each entry for( i=0; isvUserName.stream ; OSA.length = UserEntry->svUserName.length ; OSA.dynamic = FALSE; // Make the entry's OID from string index MakeOidFromStr( &OSA, &UserEntry->Oid ); UserEntry++; // point to the next guy in the table } // for } // build_user_entry_oids //-------------------------------- END --------------------------------------