Source code of Windows XP (NT5)
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/*++
Copyright (c) 1996 Microsoft Corporation
Module Name:
Abstract:
Author:
Revision History:
--*/
#ifndef __OID_H__
#define __OID_H__
//
// mib-2 OBJECT IDENTIFIER ::= {iso(1) org(3) dod(6) internet(1) mgmt(2) 1}
//
static UINT ids_mib2[] = {1,3,6,1,2,1};
//
// The groups we handle
//
// system OBJECT IDENTIFIER ::= { mib-2 1 }
//
// interfaces OBJECT IDENTIFIER ::= { mib-2 2 }
//
// ip OBJECT IDENTIFIER ::= { mib-2 4 }
//
// icmp OBJECT IDENTIFIER ::= { mib-2 5 }
//
// tcp OBJECT IDENTIFIER ::= { mib-2 6 }
//
// udp OBJECT IDENTIFIER ::= { mib-2 7 }
//
// ipForward OBJECT IDENTIFIER ::= { ip 24 }
//
// ipv6 OBJECT IDENTIFIER ::= { mib-2 55 }
//
//
// The groups we dont handle
//
// at OBJECT IDENTIFIER ::= { mib-2 3 }
// egp OBJECT IDENTIFIER ::= { mib-2 8 }
// cmot OBJECT IDENTIFIER ::= { mib-2 9 }
// transmission OBJECT IDENTIFIER ::= { mib-2 10 }
// snmp OBJECT IDENTIFIER ::= { mib-2 11 }
//
//
// Since each of the groups below is registered separately with
// both the master agent and the subagent framework we need them
// to be fully qualified. Each of the objects in the groups is
// then relative to the oids below.
//
static UINT ids_sysGroup[] = {1,3,6,1,2,1,1};
static UINT ids_ifGroup[] = {1,3,6,1,2,1,2};
static UINT ids_ipGroup[] = {1,3,6,1,2,1,4};
static UINT ids_icmpGroup[] = {1,3,6,1,2,1,5};
static UINT ids_tcpGroup[] = {1,3,6,1,2,1,6};
static UINT ids_udpGroup[] = {1,3,6,1,2,1,7};
static UINT ids_ipv6Group[] = {1,3,6,1,2,1,55};
//
// Now the members of each of these groups themselves
//
//
// Systems group
//
static UINT ids_sysDescr[] = {1, 0};
static UINT ids_sysObjectID[] = {2, 0};
static UINT ids_sysUpTime[] = {3, 0};
static UINT ids_sysContact[] = {4, 0};
static UINT ids_sysName[] = {5, 0};
static UINT ids_sysLocation[] = {6, 0};
static UINT ids_sysServices[] = {7, 0};
//
// Interfaces group
//
static UINT ids_ifNumber[] = {1, 0};
static UINT ids_ifTable[] = {2};
//
// The IF Table is composed of IF Entries which are indexed by the IfIndex
//
static UINT ids_ifEntry[] = {2, 1};
//
// The entry is a sequence of:
//
static UINT ids_ifIndex[] = {2, 1, 1};
static UINT ids_ifDescr[] = {2, 1, 2};
static UINT ids_ifType[] = {2, 1, 3};
static UINT ids_ifMtu[] = {2, 1, 4};
static UINT ids_ifSpeed[] = {2, 1, 5};
static UINT ids_ifPhysAddress[] = {2, 1, 6};
static UINT ids_ifAdminStatus[] = {2, 1, 7};
static UINT ids_ifOperStatus[] = {2, 1, 8};
static UINT ids_ifLastChange[] = {2, 1, 9};
static UINT ids_ifInOctets[] = {2, 1, 10};
static UINT ids_ifInUcastPkts[] = {2, 1, 11};
static UINT ids_ifInNUcastPkts[] = {2, 1, 12};
static UINT ids_ifInDiscards[] = {2, 1, 13};
static UINT ids_ifInErrors[] = {2, 1, 14};
static UINT ids_ifInUnknownProtos[] = {2, 1, 15};
static UINT ids_ifOutOctets[] = {2, 1, 16};
static UINT ids_ifOutUcastPkts[] = {2, 1, 17};
static UINT ids_ifOutNUcastPkts[] = {2, 1, 18};
static UINT ids_ifOutDiscards[] = {2, 1, 19};
static UINT ids_ifOutErrors[] = {2, 1, 20};
static UINT ids_ifOutQLen[] = {2, 1, 21};
static UINT ids_ifSpecific[] = {2, 1, 22};
//
// The IP Group
//
static UINT ids_ipForwarding[] = {1, 0};
static UINT ids_ipDefaultTTL[] = {2, 0};
static UINT ids_ipInReceives[] = {3, 0};
static UINT ids_ipInHdrErrors[] = {4, 0};
static UINT ids_ipInAddrErrors[] = {5, 0};
static UINT ids_ipForwDatagrams[] = {6, 0};
static UINT ids_ipInUnknownProtos[] = {7, 0};
static UINT ids_ipInDiscards[] = {8, 0};
static UINT ids_ipInDelivers[] = {9, 0};
static UINT ids_ipOutRequests[] = {10, 0};
static UINT ids_ipOutDiscards[] = {11, 0};
static UINT ids_ipOutNoRoutes[] = {12, 0};
static UINT ids_ipReasmTimeout[] = {13, 0};
static UINT ids_ipReasmReqds[] = {14, 0};
static UINT ids_ipReasmOKs[] = {15, 0};
static UINT ids_ipReasmFails[] = {16, 0};
static UINT ids_ipFragOKs[] = {17, 0};
static UINT ids_ipFragFails[] = {18, 0};
static UINT ids_ipFragCreates[] = {19, 0};
static UINT ids_ipRoutingDiscards[] = {23, 0};
//
// There are a three tables that fit in between IpFragCreates and
// IpRoutingDiscards, but there are put after the scalars for clarity
//
static UINT ids_ipAddrTable[] = {20};
static UINT ids_ipRouteTable[] = {21};
static UINT ids_ipNetToMediaTable[] = {22};
//
// The IP Address Table is composed of IP Address Entries which are
// indexed by IpAdEntAddr
//
static UINT ids_ipAddrEntry[] = {20, 1};
//
// The entry is a sequence of:
//
static UINT ids_ipAdEntAddr[] = {20, 1, 1};
static UINT ids_ipAdEntIfIndex[] = {20, 1, 2};
static UINT ids_ipAdEntNetMask[] = {20, 1, 3};
static UINT ids_ipAdEntBcastAddr[] = {20, 1, 4};
static UINT ids_ipAdEntReasmMaxSize[] = {20, 1, 5};
//
// The IP Route Table is composed of IP Route Entries which are
// indexed by IpRouteDest
//
static UINT ids_ipRouteEntry[] = {21, 1};
//
// The entry is a sequence of:
//
static UINT ids_ipRouteDest[] = {21, 1, 1};
static UINT ids_ipRouteIfIndex[] = {21, 1, 2};
static UINT ids_ipRouteMetric1[] = {21, 1, 3};
static UINT ids_ipRouteMetric2[] = {21, 1, 4};
static UINT ids_ipRouteMetric3[] = {21, 1, 5};
static UINT ids_ipRouteMetric4[] = {21, 1, 6};
static UINT ids_ipRouteNextHop[] = {21, 1, 7};
static UINT ids_ipRouteType[] = {21, 1, 8};
static UINT ids_ipRouteProto[] = {21, 1, 9};
static UINT ids_ipRouteAge[] = {21, 1, 10};
static UINT ids_ipRouteMask[] = {21, 1, 11};
static UINT ids_ipRouteMetric5[] = {21, 1, 12};
static UINT ids_ipRouteInfo[] = {21, 1, 13};
//
// The IP Net To Media Table is composed of IP Net To Media Entries which are
// indexed by IpNetToMediaIfIndex and IpNetToMediaNetAddress
//
static UINT ids_ipNetToMediaEntry[] = {22, 1};
//
// The entry is a sequence of:
//
static UINT ids_ipNetToMediaIfIndex[] = {22, 1, 1};
static UINT ids_ipNetToMediaPhysAddress[] = {22, 1, 2};
static UINT ids_ipNetToMediaNetAddress[] = {22, 1, 3};
static UINT ids_ipNetToMediaType[] = {22, 1, 4};
//
// Then there is the IP Forward group which is one scalar and one table. It
// comes at the end of the IP group and is really a sub group of the IP Group
//
static UINT ids_ipForwardGroup[] = {24};
static UINT ids_ipForwardNumber[] = {24, 1, 0};
static UINT ids_ipForwardTable[] = {24, 2};
//
// The IP Forward Table is composed of IP Forward Entries which are
// indexed by IpForwardDest, IpForwardProto, IpForwardPolicy and
// IpForwardNextHop
//
static UINT ids_ipForwardEntry[] = {24, 2, 1};
//
// The entry is a sequence of:
//
static UINT ids_ipForwardDest[] = {24, 2, 1, 1};
static UINT ids_ipForwardMask[] = {24, 2, 1, 2};
static UINT ids_ipForwardPolicy[] = {24, 2, 1, 3};
static UINT ids_ipForwardNextHop[] = {24, 2, 1, 4};
static UINT ids_ipForwardIfIndex[] = {24, 2, 1, 5};
static UINT ids_ipForwardType[] = {24, 2, 1, 6};
static UINT ids_ipForwardProto[] = {24, 2, 1, 7};
static UINT ids_ipForwardAge[] = {24, 2, 1, 8};
static UINT ids_ipForwardInfo[] = {24, 2, 1, 9};
static UINT ids_ipForwardNextHopAS[] = {24, 2, 1, 10};
static UINT ids_ipForwardMetric1[] = {24, 2, 1, 11};
static UINT ids_ipForwardMetric2[] = {24, 2, 1, 12};
static UINT ids_ipForwardMetric3[] = {24, 2, 1, 13};
static UINT ids_ipForwardMetric4[] = {24, 2, 1, 14};
static UINT ids_ipForwardMetric5[] = {24, 2, 1, 15};
//
// The ICMP group. It is just a bunch of scalars. All are READ-ONLY
//
static UINT ids_icmpInMsgs[] = {1, 0};
static UINT ids_icmpInErrors[] = {2, 0};
static UINT ids_icmpInDestUnreachs[] = {3, 0};
static UINT ids_icmpInTimeExcds[] = {4, 0};
static UINT ids_icmpInParmProbs[] = {5, 0};
static UINT ids_icmpInSrcQuenchs[] = {6, 0};
static UINT ids_icmpInRedirects[] = {7, 0};
static UINT ids_icmpInEchos[] = {8, 0};
static UINT ids_icmpInEchoReps[] = {9, 0};
static UINT ids_icmpInTimestamps[] = {10, 0};
static UINT ids_icmpInTimestampReps[] = {11, 0};
static UINT ids_icmpInAddrMasks[] = {12, 0};
static UINT ids_icmpInAddrMaskReps[] = {13, 0};
static UINT ids_icmpOutMsgs[] = {14, 0};
static UINT ids_icmpOutErrors[] = {15, 0};
static UINT ids_icmpOutDestUnreachs[] = {16, 0};
static UINT ids_icmpOutTimeExcds[] = {17, 0};
static UINT ids_icmpOutParmProbs[] = {18, 0};
static UINT ids_icmpOutSrcQuenchs[] = {19, 0};
static UINT ids_icmpOutRedirects[] = {20, 0};
static UINT ids_icmpOutEchos[] = {21, 0};
static UINT ids_icmpOutEchoReps[] = {22, 0};
static UINT ids_icmpOutTimestamps[] = {23, 0};
static UINT ids_icmpOutTimestampReps[] = {24, 0};
static UINT ids_icmpOutAddrMasks[] = {25, 0};
static UINT ids_icmpOutAddrMaskReps[] = {26, 0};
//
// The TCP group. It consists of some scalars (the TCP statistics) and the
// TCP Connection table
//
static UINT ids_tcpRtoAlgorithm[] = {1, 0};
static UINT ids_tcpRtoMin[] = {2, 0};
static UINT ids_tcpRtoMax[] = {3, 0};
static UINT ids_tcpMaxConn[] = {4, 0};
static UINT ids_tcpActiveOpens[] = {5, 0};
static UINT ids_tcpPassiveOpens[] = {6, 0};
static UINT ids_tcpAttemptFails[] = {7, 0};
static UINT ids_tcpEstabResets[] = {8, 0};
static UINT ids_tcpCurrEstab[] = {9, 0};
static UINT ids_tcpInSegs[] = {10, 0};
static UINT ids_tcpOutSegs[] = {11, 0};
static UINT ids_tcpRetransSegs[] = {12, 0};
static UINT ids_tcpInErrs[] = {14, 0};
static UINT ids_tcpOutRsts[] = {15, 0};
//
// The connection table fits between TcpRetransSegs and TcpInErrs
//
static UINT ids_tcpConnTable[] = {13};
static UINT ids_tcpNewConnTable[] = {19};
//
// The TCP Connection Table is composed of TCP Connection Entries which are
// indexed by TcpConnLocalAddress, TcpConnLocalPort, TcpConnRemAddress,
// TcpConnRemPort
//
static UINT ids_tcpConnEntry[] = {13, 1};
static UINT ids_tcpNewConnEntry[] = {19, 1};
//
// The entry is a sequence of:
//
static UINT ids_tcpConnState[] = {13, 1, 1};
static UINT ids_tcpConnLocalAddress[] = {13, 1, 2};
static UINT ids_tcpConnLocalPort[] = {13, 1, 3};
static UINT ids_tcpConnRemAddress[] = {13, 1, 4};
static UINT ids_tcpConnRemPort[] = {13, 1, 5};
static UINT ids_tcpNewConnLocalAddressType[] = {19, 1, 1};
static UINT ids_tcpNewConnLocalAddress[] = {19, 1, 2};
static UINT ids_tcpNewConnLocalPort[] = {19, 1, 3};
static UINT ids_tcpNewConnRemAddressType[] = {19, 1, 4};
static UINT ids_tcpNewConnRemAddress[] = {19, 1, 5};
static UINT ids_tcpNewConnRemPort[] = {19, 1, 6};
static UINT ids_tcpNewConnState[] = {19, 1, 7};
//
// The UDP group. Like the TCP, scalar statistics and a Listener table
//
static UINT ids_udpInDatagrams[] = {1, 0};
static UINT ids_udpNoPorts[] = {2, 0};
static UINT ids_udpInErrors[] = {3, 0};
static UINT ids_udpOutDatagrams[] = {4, 0};
static UINT ids_udpTable[] = {5, 0};
static UINT ids_udpListenerTable[] = {7, 0};
//
// The UDP Listener Table is composed of Udp Entries which are indexed by
// UdpLocalAddress and UdpLocalPort
//
static UINT ids_udpEntry[] = {5, 1};
static UINT ids_udpListenerEntry[] = {7, 1};
//
// The entry is a sequence of:
//
static UINT ids_udpLocalAddress[] = {5, 1, 1};
static UINT ids_udpLocalPort[] = {5, 1, 2};
static UINT ids_udpListenerLocalAddressType[] = {7, 1, 1};
static UINT ids_udpListenerLocalAddress[] = {7, 1, 2};
static UINT ids_udpListenerLocalPort[] = {7, 1, 3};
SnmpMibEntry mib_sysGroup[] =
{
MIB_OCTETSTRING_L(sysDescr,0,255),
MIB_OBJECTIDENTIFIER(sysObjectID),
MIB_TIMETICKS(sysUpTime),
MIB_OCTETSTRING_RW_L(sysContact,0,255),
MIB_OCTETSTRING_RW_L(sysName,0,255),
MIB_OCTETSTRING_RW_L(sysLocation,0,255),
MIB_INTEGER_L(sysServices,0,127),
MIB_END()
};
SnmpMibEntry mib_ifGroup[] =
{
MIB_INTEGER(ifNumber),
MIB_TABLE_ROOT(ifTable),
MIB_TABLE_ENTRY(ifEntry),
MIB_INTEGER(ifIndex),
MIB_DISPSTRING_L(ifDescr,0,255),
MIB_INTEGER(ifType),
MIB_INTEGER(ifMtu),
MIB_GAUGE(ifSpeed),
MIB_PHYSADDRESS(ifPhysAddress),
MIB_INTEGER_RW(ifAdminStatus),
MIB_INTEGER(ifOperStatus),
MIB_TIMETICKS(ifLastChange),
MIB_COUNTER(ifInOctets),
MIB_COUNTER(ifInUcastPkts),
MIB_COUNTER(ifInNUcastPkts),
MIB_COUNTER(ifInDiscards),
MIB_COUNTER(ifInErrors),
MIB_COUNTER(ifInUnknownProtos),
MIB_COUNTER(ifOutOctets),
MIB_COUNTER(ifOutUcastPkts),
MIB_COUNTER(ifOutNUcastPkts),
MIB_COUNTER(ifOutDiscards),
MIB_COUNTER(ifOutErrors),
MIB_GAUGE(ifOutQLen),
MIB_OBJECTIDENTIFIER(ifSpecific),
MIB_END()
};
SnmpMibEntry mib_ipGroup[] =
{
MIB_INTEGER(ipForwarding),
MIB_INTEGER_RW(ipDefaultTTL),
MIB_COUNTER(ipInReceives),
MIB_COUNTER(ipInHdrErrors),
MIB_COUNTER(ipInAddrErrors),
MIB_COUNTER(ipForwDatagrams),
MIB_COUNTER(ipInUnknownProtos),
MIB_COUNTER(ipInDiscards),
MIB_COUNTER(ipInDelivers),
MIB_COUNTER(ipOutRequests),
MIB_COUNTER(ipOutDiscards),
MIB_COUNTER(ipOutNoRoutes),
MIB_INTEGER(ipReasmTimeout),
MIB_COUNTER(ipReasmReqds),
MIB_COUNTER(ipReasmOKs),
MIB_COUNTER(ipReasmFails),
MIB_COUNTER(ipFragOKs),
MIB_COUNTER(ipFragFails),
MIB_COUNTER(ipFragCreates),
MIB_TABLE_ROOT(ipAddrTable),
MIB_TABLE_ENTRY(ipAddrEntry),
MIB_IPADDRESS(ipAdEntAddr),
MIB_INTEGER(ipAdEntIfIndex),
MIB_IPADDRESS(ipAdEntNetMask),
MIB_INTEGER(ipAdEntBcastAddr),
MIB_INTEGER_L(ipAdEntReasmMaxSize,0,65535),
MIB_TABLE_ROOT(ipRouteTable),
MIB_TABLE_ENTRY(ipRouteEntry),
MIB_IPADDRESS_RW(ipRouteDest),
MIB_INTEGER_RW(ipRouteIfIndex),
MIB_INTEGER_RW(ipRouteMetric1),
MIB_INTEGER_RW(ipRouteMetric2),
MIB_INTEGER_RW(ipRouteMetric3),
MIB_INTEGER_RW(ipRouteMetric4),
MIB_IPADDRESS_RW(ipRouteNextHop),
MIB_INTEGER_RW(ipRouteType),
MIB_INTEGER(ipRouteProto),
MIB_INTEGER_RW(ipRouteAge),
MIB_IPADDRESS_RW(ipRouteMask),
MIB_INTEGER_RW(ipRouteMetric5),
MIB_OBJECTIDENTIFIER(ipRouteInfo),
MIB_TABLE_ROOT(ipNetToMediaTable),
MIB_TABLE_ENTRY(ipNetToMediaEntry),
MIB_INTEGER_RW(ipNetToMediaIfIndex),
MIB_PHYSADDRESS_RW(ipNetToMediaPhysAddress),
MIB_IPADDRESS_RW(ipNetToMediaNetAddress),
MIB_INTEGER_RW(ipNetToMediaType),
MIB_COUNTER(ipRoutingDiscards),
MIB_GROUP(ipForwardGroup),
MIB_GAUGE(ipForwardNumber),
MIB_TABLE_ROOT(ipForwardTable),
MIB_TABLE_ENTRY(ipForwardEntry),
MIB_IPADDRESS_RW(ipForwardDest),
MIB_IPADDRESS_RW(ipForwardMask),
MIB_INTEGER_RW(ipForwardPolicy),
MIB_IPADDRESS_RW(ipForwardNextHop),
MIB_INTEGER_RW(ipForwardIfIndex),
MIB_INTEGER_RW(ipForwardType),
MIB_INTEGER_RW(ipForwardProto),
MIB_INTEGER_RW(ipForwardAge),
MIB_OBJECTIDENTIFIER(ipForwardInfo),
MIB_INTEGER_RW(ipForwardNextHopAS),
MIB_INTEGER_RW(ipForwardMetric1),
MIB_INTEGER_RW(ipForwardMetric2),
MIB_INTEGER_RW(ipForwardMetric3),
MIB_INTEGER_RW(ipForwardMetric4),
MIB_INTEGER_RW(ipForwardMetric5),
MIB_END()
};
SnmpMibEntry mib_icmpGroup[] =
{
MIB_COUNTER(icmpInMsgs),
MIB_COUNTER(icmpInErrors),
MIB_COUNTER(icmpInDestUnreachs),
MIB_COUNTER(icmpInTimeExcds),
MIB_COUNTER(icmpInParmProbs),
MIB_COUNTER(icmpInSrcQuenchs),
MIB_COUNTER(icmpInRedirects),
MIB_COUNTER(icmpInEchos),
MIB_COUNTER(icmpInEchoReps),
MIB_COUNTER(icmpInTimestamps),
MIB_COUNTER(icmpInTimestampReps),
MIB_COUNTER(icmpInAddrMasks),
MIB_COUNTER(icmpInAddrMaskReps),
MIB_COUNTER(icmpOutMsgs),
MIB_COUNTER(icmpOutErrors),
MIB_COUNTER(icmpOutDestUnreachs),
MIB_COUNTER(icmpOutTimeExcds),
MIB_COUNTER(icmpOutParmProbs),
MIB_COUNTER(icmpOutSrcQuenchs),
MIB_COUNTER(icmpOutRedirects),
MIB_COUNTER(icmpOutEchos),
MIB_COUNTER(icmpOutEchoReps),
MIB_COUNTER(icmpOutTimestamps),
MIB_COUNTER(icmpOutTimestampReps),
MIB_COUNTER(icmpOutAddrMasks),
MIB_COUNTER(icmpOutAddrMaskReps),
MIB_END()
};
SnmpMibEntry mib_tcpGroup[] =
{
MIB_INTEGER(tcpRtoAlgorithm),
MIB_INTEGER(tcpRtoMin),
MIB_INTEGER(tcpRtoMax),
MIB_INTEGER(tcpMaxConn),
MIB_COUNTER(tcpActiveOpens),
MIB_COUNTER(tcpPassiveOpens),
MIB_COUNTER(tcpAttemptFails),
MIB_COUNTER(tcpEstabResets),
MIB_GAUGE(tcpCurrEstab),
MIB_COUNTER(tcpInSegs),
MIB_COUNTER(tcpOutSegs),
MIB_COUNTER(tcpRetransSegs),
MIB_TABLE_ROOT(tcpConnTable),
MIB_TABLE_ENTRY(tcpConnEntry),
MIB_INTEGER_RW(tcpConnState),
MIB_IPADDRESS(tcpConnLocalAddress),
MIB_INTEGER_L(tcpConnLocalPort,0,65535),
MIB_IPADDRESS(tcpConnRemAddress),
MIB_INTEGER_L(tcpConnRemPort,0,65535),
MIB_COUNTER(tcpInErrs),
MIB_COUNTER(tcpOutRsts),
// skips some oids here
MIB_TABLE_ROOT(tcpNewConnTable),
MIB_TABLE_ENTRY(tcpNewConnEntry),
MIB_INTEGER_NA(tcpNewConnLocalAddressType),
MIB_OCTETSTRING_NA(tcpNewConnLocalAddress),
MIB_INTEGER_NA_L(tcpNewConnLocalPort,0,65535),
MIB_INTEGER_NA(tcpNewConnRemAddressType),
MIB_OCTETSTRING_NA(tcpNewConnRemAddress),
MIB_INTEGER_NA_L(tcpNewConnRemPort,0,65535),
MIB_INTEGER_RW(tcpNewConnState),
MIB_END()
};
SnmpMibEntry mib_udpGroup[] =
{
MIB_COUNTER(udpInDatagrams),
MIB_COUNTER(udpNoPorts),
MIB_COUNTER(udpInErrors),
MIB_COUNTER(udpOutDatagrams),
MIB_TABLE_ROOT(udpTable),
MIB_TABLE_ENTRY(udpEntry),
MIB_IPADDRESS(udpLocalAddress),
MIB_INTEGER_L(udpLocalPort,0,65535),
// skips some oids here
MIB_TABLE_ROOT(udpListenerTable),
MIB_TABLE_ENTRY(udpListenerEntry),
MIB_INTEGER_NA(udpListenerLocalAddressType),
MIB_OCTETSTRING_NA(udpListenerLocalAddress),
MIB_INTEGER_L(udpListenerLocalPort,0,65535),
MIB_END()
};
//
// The list of the out-of-order table indices
//
SnmpMibEntry * pi_ipNetToMediaEntry[] = {
MIB_ENTRY_PTR(ipGroup, ipNetToMediaIfIndex),
MIB_ENTRY_PTR(ipGroup, ipNetToMediaNetAddress)
};
SnmpMibEntry * pi_ipForwardEntry[] = {
MIB_ENTRY_PTR(ipGroup, ipForwardDest),
MIB_ENTRY_PTR(ipGroup, ipForwardProto),
MIB_ENTRY_PTR(ipGroup, ipForwardPolicy),
MIB_ENTRY_PTR(ipGroup, ipForwardNextHop)
};
SnmpMibEntry * pi_tcpConnEntry[] = {
MIB_ENTRY_PTR(tcpGroup, tcpConnLocalAddress),
MIB_ENTRY_PTR(tcpGroup, tcpConnLocalPort),
MIB_ENTRY_PTR(tcpGroup, tcpConnRemAddress),
MIB_ENTRY_PTR(tcpGroup, tcpConnRemPort)
};
//
// The list of the tables supported by the sub agent
//
SnmpMibTable tbl_ifGroup[] =
{
MIB_TABLE(ifGroup, ifEntry, NULL)
};
SnmpMibTable tbl_ipGroup[] =
{
MIB_TABLE(ipGroup, ipAddrEntry, NULL),
MIB_TABLE(ipGroup, ipRouteEntry, NULL),
MIB_TABLE(ipGroup, ipNetToMediaEntry, pi_ipNetToMediaEntry),
MIB_TABLE(ipGroup, ipForwardEntry, pi_ipForwardEntry)
};
SnmpMibTable tbl_tcpGroup[] =
{
MIB_TABLE(tcpGroup, tcpConnEntry, pi_tcpConnEntry),
MIB_TABLE(tcpGroup, tcpNewConnEntry, NULL)
};
SnmpMibTable tbl_udpGroup[] =
{
MIB_TABLE(udpGroup, udpEntry, NULL),
MIB_TABLE(udpGroup, udpListenerEntry, NULL)
};
//
// This puts the mib_* and tbl_* entries together to create a complete view
//
SnmpMibView v_mib2[] = {{MIB_VERSION,
MIB_VIEW_NORMAL,
MIB_OID(ids_sysGroup),
MIB_ENTRIES(mib_sysGroup),
{NULL,0}},
{MIB_VERSION,
MIB_VIEW_NORMAL,
MIB_OID(ids_ifGroup),
MIB_ENTRIES(mib_ifGroup),
MIB_TABLES(tbl_ifGroup)},
{MIB_VERSION,
MIB_VIEW_NORMAL,
MIB_OID(ids_ipGroup),
MIB_ENTRIES(mib_ipGroup),
MIB_TABLES(tbl_ipGroup)},
{MIB_VERSION,
MIB_VIEW_NORMAL,
MIB_OID(ids_icmpGroup),
MIB_ENTRIES(mib_icmpGroup),
{NULL,0}},
{MIB_VERSION,
MIB_VIEW_NORMAL,
MIB_OID(ids_tcpGroup),
MIB_ENTRIES(mib_tcpGroup),
MIB_TABLES(tbl_tcpGroup)},
{MIB_VERSION,
MIB_VIEW_NORMAL,
MIB_OID(ids_udpGroup),
MIB_ENTRIES(mib_udpGroup),
MIB_TABLES(tbl_udpGroup)}};
#endif