Source code of Windows XP (NT5)
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908 lines
32 KiB

/*++
Copyright (c) 1992-1996 Microsoft Corporation
Module Name:
test.c
Abstract:
Test the LM MIB and its supporting functions.
Environment:
User Mode - Win32
Revision History:
10-May-1996 DonRyan
Removed banner from Technology Dynamics, Inc.
--*/
//--------------------------- WINDOWS DEPENDENCIES --------------------------
//--------------------------- STANDARD DEPENDENCIES -- #include<xxxxx.h> ----
#include <stdio.h>
#include <memory.h>
#include <string.h>
#include <stdlib.h>
#include <time.h>
//--------------------------- MODULE DEPENDENCIES -- #include"xxxxx.h" ------
#include <snmp.h>
#include <snmputil.h>
#include "mib.h"
#include "mibfuncs.h"
#include "hash.h"
//--------------------------- SELF-DEPENDENCY -- ONE #include"module.h" -----
//--------------------------- PUBLIC VARIABLES --(same as in module.h file)--
//--------------------------- PRIVATE CONSTANTS -----------------------------
//--------------------------- PRIVATE STRUCTS -------------------------------
//--------------------------- PRIVATE VARIABLES -----------------------------
//--------------------------- PRIVATE PROTOTYPES ----------------------------
SNMPAPI SnmpExtensionQuery(
IN AsnInteger ReqType, // 1157 Request type
IN OUT RFC1157VarBindList *VarBinds, // Var Binds to resolve
OUT AsnInteger *ErrorStatus, // Error status returned
OUT AsnInteger *ErrorIndex // Var Bind containing error
);
//--------------------------- PRIVATE PROCEDURES ----------------------------
//--------------------------- PUBLIC PROCEDURES -----------------------------
BYTE pBuffer[2000];
UINT nLength;
SnmpMgmtCom Msg;
MIB_ENTRY *MibPtr;
void *pResult;
void main( )
{
//
// Init hashing system
//
MIB_HashInit();
//
// Title
//
printf( "Tests for MIB root: " );
SnmpUtilPrintOid( &MIB_OidPrefix ); printf( "\n--------------------------\n\n" );
//
// Display significant Mib variables
//
printf( "Common start: " );
SnmpUtilPrintOid( &Mib[MIB_COM_START].Oid );
putchar( '\n' );
printf( "Server start: " );
SnmpUtilPrintOid( &Mib[MIB_SV_START].Oid );
putchar( '\n' );
printf( "Workstation start: " );
SnmpUtilPrintOid( &Mib[MIB_WKSTA_START].Oid );
putchar( '\n' );
printf( "Domain start: " );
SnmpUtilPrintOid( &Mib[MIB_DOM_START].Oid );
putchar( '\n' );
printf( "Last MIB variable: " );
SnmpUtilPrintOid( &Mib[MIB_num_variables-1].Oid );
putchar( '\n' );
putchar( '\n' );
//
// Specific tests for integrity
//
printf( "FIRST leaf get\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 1, 1, 0 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
SnmpUtilPrintOid( &varBinds.list[0].name ); printf ( " = " );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "LAST leaf get\n" );
{
#if 1
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 4, 5, 0 };
#else
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 4, 7, 0 };
#endif
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
SnmpUtilPrintOid( &varBinds.list[0].name ); printf ( " = " );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET on an AGGREGATE\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
SnmpUtilPrintOid( &varBinds.list[0].name ); printf ( " = " );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET on a TABLE root\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 3, 8, 1 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
SnmpUtilPrintOid( &varBinds.list[0].name ); printf ( " = " );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET on a NON existent variable\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 100, 8 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
SnmpUtilPrintOid( &varBinds.list[0].name ); printf ( " = " );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET-NEXT on hole with MIB-TABLE following\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 20, 0 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
printf( "GET-NEXT of: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " " );
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\n is " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( "\n = " );
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET-NEXT on hole with MIB-AGGREGATE following\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 26, 0 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
printf( "GET-NEXT of: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " " );
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\n is " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( "\n = " );
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET-NEXT on hole with LEAF following\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 4, 1 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
printf( "GET-NEXT of: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " " );
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\n is " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( "\n = " );
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET-NEXT on variable BEFORE Beginning of LM MIB\n" );
{
UINT itemn[] = { 1 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
printf( "GET-NEXT of: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " " );
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\n is " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( "\n = " );
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET-NEXT on variable past end of MIB\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 2 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
printf( "GET-NEXT of: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " " );
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\n is " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( "\n = " );
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET on Server Description\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 1, 0 };
BYTE *Value = "This server sux";
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_RFC1213_DISPSTRING;
varBinds.list[0].value.asnValue.string.stream = Value;
varBinds.list[0].value.asnValue.string.length = strlen( Value );
varBinds.list[0].value.asnValue.string.dynamic = FALSE;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nSET Errorstatus: %lu\n\n", errorStatus );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
printf( "New Value: " );
SnmpUtilPrintAsnAny( &varBinds.list[0].value ); putchar( '\n' );
}
printf( "\nGET Errorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "Try and SET Server Description with WRONG type\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 1, 0 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_INTEGER;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nSET Errorstatus: %lu\n\n", errorStatus );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
printf( "New Value: " );
SnmpUtilPrintAsnAny( &varBinds.list[0].value ); putchar( '\n' );
}
printf( "\nGET Errorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "Try and SET a LEAF that is READ-ONLY\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 1, 1, 0 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_INTEGER;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nSET Errorstatus: %lu\n\n", errorStatus );
SnmpExtensionQuery( ASN_RFC1157_GETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
if ( errorStatus == SNMP_ERRORSTATUS_NOERROR )
{
printf( "New Value: " );
SnmpUtilPrintAsnAny( &varBinds.list[0].value ); putchar( '\n' );
}
printf( "\nGET Errorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET on the odom table to add entry\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 4, 4, 1, 1, 4, 'T', 'O', 'D', 'D' };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_RFC1213_DISPSTRING;
varBinds.list[0].value.asnValue.string.length = 4;
varBinds.list[0].value.asnValue.string.stream = "TODD";
varBinds.list[0].value.asnValue.string.dynamic = FALSE;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET on root of session table\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 20 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_INTEGER;
varBinds.list[0].value.asnValue.number = 2;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET on root entry of session table\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 20, 1 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_INTEGER;
varBinds.list[0].value.asnValue.number = 2;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET on an invalid field in session table\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 20 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
// Get entry in the session table to delete
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
// Adjust to set a bad field
varBinds.list[0].name.ids[11] = 7;
varBinds.list[0].value.asnType = ASN_INTEGER;
varBinds.list[0].value.asnValue.number = 2;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET with invalid type on field in session table\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 20 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
// Get entry in the session table to delete
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
// Adjust to set the svSesState to DELETED
varBinds.list[0].name.ids[11] = 8;
varBinds.list[0].value.asnType = ASN_NULL;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET on non-existent entry in session table\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 20, 1, 8, 1, 1 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_INTEGER;
varBinds.list[0].value.asnValue.number = 2;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "SET on the session table to delete entry\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1, 2, 20 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus = 0;
AsnInteger errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
varBinds.list[0].name.idLength = sizeof itemn / sizeof(UINT);
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
varBinds.list[0].value.asnType = ASN_NULL;
// Get entry in the session table to delete
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
// Adjust to set the svSesState to DELETED
varBinds.list[0].name.ids[11] = 8;
varBinds.list[0].value.asnType = ASN_INTEGER;
varBinds.list[0].value.asnValue.number = 2;
printf( "SET: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " to " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
SnmpExtensionQuery( ASN_RFC1157_SETREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\nErrorstatus: %lu\n\n", errorStatus );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
}
printf( "GET-NEXT starting from ROOT of LM MIB\n" );
{
UINT itemn[] = { 1, 3, 6, 1, 4, 1, 77, 1 };
RFC1157VarBindList varBinds;
AsnInteger errorStatus;
AsnInteger errorIndex;
BOOL Continue = TRUE;
time_t Time;
while ( Continue )
{
errorStatus = 0;
errorIndex = 0;
varBinds.list = (RFC1157VarBind *)SnmpUtilMemAlloc( sizeof(RFC1157VarBind) );
varBinds.len = 1;
SnmpUtilOidCpy( &varBinds.list[0].name, &MIB_OidPrefix );
#if 0
varBinds.list[0].name.idLength = MIB_PREFIX_LEN;
varBinds.list[0].name.ids = (UINT *)SnmpUtilMemAlloc( sizeof(UINT)*
varBinds.list[0].name.idLength );
memcpy( varBinds.list[0].name.ids, &itemn,
sizeof(UINT)*varBinds.list[0].name.idLength );
#endif
varBinds.list[0].value.asnType = ASN_NULL;
do
{
Time = time( NULL );
printf( "Time: %s", ctime(&Time) );
printf( "GET-NEXT of: " ); SnmpUtilPrintOid( &varBinds.list[0].name );
printf( " " );
SnmpExtensionQuery( ASN_RFC1157_GETNEXTREQUEST,
&varBinds,
&errorStatus,
&errorIndex
);
printf( "\n is " ); SnmpUtilPrintOid( &varBinds.list[0].name );
if ( errorStatus )
{
printf( "\nErrorstatus: %lu\n\n", errorStatus );
}
else
{
printf( "\n = " ); SnmpUtilPrintAsnAny( &varBinds.list[0].value );
}
putchar( '\n' );
}
while ( varBinds.list[0].name.ids[MIB_PREFIX_LEN-1] != 1 );
// Free the memory
SnmpUtilVarBindListFree( &varBinds );
// Prompt for next pass
printf( "Press ENTER to continue, CTRL-C to quit\n" );
getchar();
} // while continue
}
} // test
//-------------------------------- END --------------------------------------