windows-nt/Source/XPSP1/NT/net/snmp/subagent/lmmib2/srvc_lm.c

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/*++
Copyright (c) 1992-1996 Microsoft Corporation
Module Name:
srvc_lm.c
Abstract:
This file contains MIB_srvc_lmget, which actually call lan manager
for the srvce table, copies it into structures, and sorts it to
return ready to use by the higher level functions.
Environment:
User Mode - Win32
Revision History:
10-May-1996 DonRyan
Removed banner from Technology Dynamics, Inc.
--*/
//--------------------------- WINDOWS DEPENDENCIES --------------------------
//--------------------------- STANDARD DEPENDENCIES -- #include<xxxxx.h> ----
#ifdef WIN32
#include <windows.h>
#include <lm.h>
#endif
#include <tchar.h>
#include <string.h>
#include <search.h>
#include <stdlib.h>
#include <time.h>
//--------------------------- MODULE DEPENDENCIES -- #include"xxxxx.h" ------
#include "mib.h"
#include "mibfuncs.h"
#include "srvc_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 ----------------------------
int __cdecl srvc_entry_cmp(
IN const SRVC_ENTRY *A,
IN const SRVC_ENTRY *B
) ;
void build_srvc_entry_oids( );
//--------------------------- PRIVATE PROCEDURES ----------------------------
//--------------------------- PUBLIC PROCEDURES -----------------------------
//
// MIB_srvc_lmget
// Retrieve srvcion 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_srvcs_lmget(
)
{
DWORD entriesread;
DWORD totalentries;
LPBYTE bufptr;
unsigned lmCode;
unsigned i;
SERVICE_INFO_2 *DataTable;
SRVC_ENTRY *MIB_SrvcTableElement ;
int First_of_this_block;
time_t curr_time ;
SNMPAPI nResult = SNMPAPI_NOERROR;
DWORD resumehandle=0;
#ifdef UNICODE
LPSTR stream;
#endif
time(&curr_time); // get the time
//
//
// If cached, return piece of info.
//
//
if((NULL != cache_table[C_SRVC_TABLE].bufptr) &&
(curr_time <
(cache_table[C_SRVC_TABLE].acquisition_time
+ cache_expire[C_SRVC_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_SrvcTableElement = MIB_SrvcTable.Table ;
// iterate over the whole table
for(i=0; i<MIB_SrvcTable.Len ;i++)
{
// free any alloc'ed elements of the structure
SnmpUtilOidFree(&(MIB_SrvcTableElement->Oid));
SafeFree(MIB_SrvcTableElement->svSvcName.stream);
MIB_SrvcTableElement ++ ; // increment table entry
}
SafeFree(MIB_SrvcTable.Table) ; // free the base Table
MIB_SrvcTable.Table = NULL ; // just for safety
MIB_SrvcTable.Len = 0 ; // just for safety
First_of_this_block = 0;
do { // as long as there is more data to process
lmCode =
NetServiceEnum( NULL, // local server
2, // level 2
&bufptr, // data structure to return
MAX_PREFERRED_LENGTH,
&entriesread,
&totalentries,
&resumehandle // resume handle
);
DataTable = (SERVICE_INFO_2 *) bufptr ;
if((NERR_Success == lmCode) || (ERROR_MORE_DATA == lmCode))
{ // valid so process it, otherwise error
if(0 == MIB_SrvcTable.Len) { // 1st time, alloc the whole table
// alloc the table space
MIB_SrvcTable.Table = SnmpUtilMemAlloc(totalentries *
sizeof(SRVC_ENTRY) );
// prefix bugs 445185 and 445186
if (MIB_SrvcTable.Table == NULL) {
// free all of the lan man data
SafeBufferFree( bufptr ) ;
// Signal error
nResult = SNMPAPI_ERROR;
goto Exit;
}
}
MIB_SrvcTableElement = MIB_SrvcTable.Table + First_of_this_block ;
for(i=0; i<entriesread; i++) { // once for each entry in the buffer
// increment the entry number
MIB_SrvcTable.Len ++;
// Stuff the data into each item in the table
MIB_SrvcTableElement->svSvcName.dynamic = TRUE;
#ifdef UNICODE
if (SnmpUtilUnicodeToUTF8(
&MIB_SrvcTableElement->svSvcName.stream,
DataTable->svci2_display_name,
TRUE))
{
MIB_SrvcTableElement->svSvcName.length = 0;
MIB_SrvcTableElement->svSvcName.stream = NULL;
}
else
{
MIB_SrvcTableElement->svSvcName.length =
strlen(MIB_SrvcTableElement->svSvcName.stream);
}
#else
// service name
MIB_SrvcTableElement->svSvcName.stream = SnmpUtilMemAlloc (
strlen( DataTable->svci2_display_name ) + 1) ;
memcpy( MIB_SrvcTableElement->svSvcName.stream,
DataTable->svci2_display_name,
strlen( DataTable->svci2_display_name ) + 1) ;
MIB_SrvcTableElement->svSvcName.length =
strlen( MIB_SrvcTableElement->svSvcName.stream )) ;
#endif
MIB_SrvcTableElement->svSvcInstalledState =
(DataTable->svci2_status & 0x03) + 1;
MIB_SrvcTableElement->svSvcOperatingState =
((DataTable->svci2_status>>2) & 0x03) + 1;
MIB_SrvcTableElement->svSvcCanBeUninstalled =
((DataTable->svci2_status>>4) & 0x01) + 1;
MIB_SrvcTableElement->svSvcCanBePaused =
((DataTable->svci2_status>>5) & 0x01) + 1;
DataTable ++ ; // advance pointer to next srvc entry in buffer
MIB_SrvcTableElement ++ ; // and table entry
} // 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_srvc_entry_oids();
// Sort the table information using MSC QuickSort routine
qsort( &MIB_SrvcTable.Table[0], MIB_SrvcTable.Len,
sizeof(SRVC_ENTRY), srvc_entry_cmp );
//
//
// Cache table
//
//
if(0 != MIB_SrvcTable.Len) {
cache_table[C_SRVC_TABLE].acquisition_time = curr_time ;
cache_table[C_SRVC_TABLE].bufptr = bufptr ;
}
//
//
// Return piece of information requested
//
//
Exit:
return nResult;
} // MIB_srvc_get
//
// MIB_srvc_cmp
// Routine for sorting the srvcion table.
//
// Notes:
//
// Return Codes:
// SNMPAPI_NOERROR
// SNMPAPI_ERROR
//
// Error Codes:
// None.
//
int __cdecl srvc_entry_cmp(
IN const SRVC_ENTRY *A,
IN const SRVC_ENTRY *B
)
{
// Compare the OID's
return SnmpUtilOidCmp( (AsnObjectIdentifier *)&A->Oid,
(AsnObjectIdentifier *)&B->Oid );
} // MIB_srvc_cmp
//
// None.
//
void build_srvc_entry_oids(
)
{
AsnOctetString OSA ;
SRVC_ENTRY *SrvcEntry ;
unsigned i;
// start pointer at 1st guy in the table
SrvcEntry = MIB_SrvcTable.Table ;
// now iterate over the table, creating an oid for each entry
for( i=0; i<MIB_SrvcTable.Len ; i++) {
// for each entry in the srvc table
OSA.stream = SrvcEntry->svSvcName.stream;
OSA.length = SrvcEntry->svSvcName.length;
OSA.dynamic = FALSE;
// Make the entry's OID from string index
MakeOidFromStr( &OSA, &SrvcEntry->Oid );
SrvcEntry++; // point to the next guy in the table
} // for
} // build_srvc_entry_oids
//-------------------------------- END --------------------------------------