Source code of Windows XP (NT5)
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/*++
Copyright (c) Microsoft Corporation. All rights reserved.
Module Name:
iprtrmib.h
Abstract:
This file contains:
o Definitions of the MIB_XX structures passed to and from the IP Router Manager
to query and set MIB variables handled by the IP Router Manager
o The #defines for the MIB variables IDs handled by the IP Router Manager
and made accessible by the MprAdminMIBXXX APIs
o The Routing PID of the IP Router Manager (as mentioned in ipinfoid.h)
--*/
#ifndef __ROUTING_IPRTRMIB_H__
#define __ROUTING_IPRTRMIB_H__
#if _MSC_VER > 1000
#pragma once
#endif
#if _MSC_VER >= 1200
#pragma warning(push)
#endif
#pragma warning(disable:4201)
//////////////////////////////////////////////////////////////////////////////
// //
// Included to get the value of MAX_INTERFACE_NAME_LEN //
// //
//////////////////////////////////////////////////////////////////////////////
#include <mprapi.h>
//////////////////////////////////////////////////////////////////////////////
// //
// Included to get the necessary constants //
// //
//////////////////////////////////////////////////////////////////////////////
#include <ipifcons.h>
//////////////////////////////////////////////////////////////////////////////
// //
// This is the Id for IP Router Manager. The Router Manager handles //
// MIB-II, Forwarding MIB and some enterprise specific information. //
// Calls made with any other ID are passed on to the corresponding protocol //
// For example, an MprAdminMIBXXX call with a protocol ID of PID_IP and //
// a routing Id of 0xD will be sent to the IP Router Manager and then //
// forwarded to OSPF //
// This lives in the same number space as the protocol Ids of RIP, OSPF //
// etc, so any change made to it should be done keeping this in mind //
// //
//////////////////////////////////////////////////////////////////////////////
#define IPRTRMGR_PID 10000
#ifndef ANY_SIZE
#define ANY_SIZE 1
#endif
//////////////////////////////////////////////////////////////////////////////
// //
// The following #defines are the Ids of the MIB variables made accessible //
// to the user via MprAdminMIBXXX Apis. It will be noticed that these are //
// not the same as RFC 1213, since the MprAdminMIBXXX APIs work on rows and //
// groups instead of scalar variables //
// //
//////////////////////////////////////////////////////////////////////////////
#define IF_NUMBER 0
#define IF_TABLE (IF_NUMBER + 1)
#define IF_ROW (IF_TABLE + 1)
#define IP_STATS (IF_ROW + 1)
#define IP_ADDRTABLE (IP_STATS + 1)
#define IP_ADDRROW (IP_ADDRTABLE + 1)
#define IP_FORWARDNUMBER (IP_ADDRROW + 1)
#define IP_FORWARDTABLE (IP_FORWARDNUMBER + 1)
#define IP_FORWARDROW (IP_FORWARDTABLE + 1)
#define IP_NETTABLE (IP_FORWARDROW + 1)
#define IP_NETROW (IP_NETTABLE + 1)
#define ICMP_STATS (IP_NETROW + 1)
#define TCP_STATS (ICMP_STATS + 1)
#define TCP_TABLE (TCP_STATS + 1)
#define TCP_ROW (TCP_TABLE + 1)
#define UDP_STATS (TCP_ROW + 1)
#define UDP_TABLE (UDP_STATS + 1)
#define UDP_ROW (UDP_TABLE + 1)
#define MCAST_MFE (UDP_ROW + 1)
#define MCAST_MFE_STATS (MCAST_MFE + 1)
#define BEST_IF (MCAST_MFE_STATS + 1)
#define BEST_ROUTE (BEST_IF + 1)
#define PROXY_ARP (BEST_ROUTE + 1)
#define MCAST_IF_ENTRY (PROXY_ARP + 1)
#define MCAST_GLOBAL (MCAST_IF_ENTRY + 1)
#define IF_STATUS (MCAST_GLOBAL + 1)
#define MCAST_BOUNDARY (IF_STATUS + 1)
#define MCAST_SCOPE (MCAST_BOUNDARY + 1)
#define DEST_MATCHING (MCAST_SCOPE + 1)
#define DEST_LONGER (DEST_MATCHING + 1)
#define DEST_SHORTER (DEST_LONGER + 1)
#define ROUTE_MATCHING (DEST_SHORTER + 1)
#define ROUTE_LONGER (ROUTE_MATCHING + 1)
#define ROUTE_SHORTER (ROUTE_LONGER + 1)
#define ROUTE_STATE (ROUTE_SHORTER + 1)
#define MCAST_MFE_STATS_EX (ROUTE_STATE + 1)
#define IP6_STATS (MCAST_MFE_STATS_EX + 1)
#define UDP6_STATS (IP6_STATS + 1)
#define TCP6_STATS (UDP6_STATS + 1)
#define NUMBER_OF_EXPORTED_VARIABLES (TCP6_STATS + 1)
//////////////////////////////////////////////////////////////////////////////
// //
// MIB_OPAQUE_QUERY is the structure filled in by the user to identify a //
// MIB variable //
// //
// dwVarId ID of MIB Variable (One of the Ids #defined above) //
// dwVarIndex Variable sized array containing the indices needed to //
// identify a variable. NOTE: Unlike SNMP we dont require that //
// a scalar variable be indexed by 0 //
// //
//////////////////////////////////////////////////////////////////////////////
typedef struct _MIB_OPAQUE_QUERY
{
DWORD dwVarId;
DWORD rgdwVarIndex[ANY_SIZE];
}MIB_OPAQUE_QUERY, *PMIB_OPAQUE_QUERY;
//////////////////////////////////////////////////////////////////////////////
// //
// The following are the structures which are filled in and returned to the //
// user when a query is made, OR are filled in BY THE USER when a set is //
// done //
// //
//////////////////////////////////////////////////////////////////////////////
typedef struct _MIB_IFNUMBER
{
DWORD dwValue;
} MIB_IFNUMBER, *PMIB_IFNUMBER;
#define MAXLEN_IFDESCR 256
#define MAXLEN_PHYSADDR 8
typedef struct _MIB_IFROW
{
WCHAR wszName[MAX_INTERFACE_NAME_LEN];
DWORD dwIndex;
DWORD dwType;
DWORD dwMtu;
DWORD dwSpeed;
DWORD dwPhysAddrLen;
BYTE bPhysAddr[MAXLEN_PHYSADDR];
DWORD dwAdminStatus;
DWORD dwOperStatus;
DWORD dwLastChange;
DWORD dwInOctets;
DWORD dwInUcastPkts;
DWORD dwInNUcastPkts;
DWORD dwInDiscards;
DWORD dwInErrors;
DWORD dwInUnknownProtos;
DWORD dwOutOctets;
DWORD dwOutUcastPkts;
DWORD dwOutNUcastPkts;
DWORD dwOutDiscards;
DWORD dwOutErrors;
DWORD dwOutQLen;
DWORD dwDescrLen;
BYTE bDescr[MAXLEN_IFDESCR];
} MIB_IFROW,*PMIB_IFROW;
typedef struct _MIB_IFTABLE
{
DWORD dwNumEntries;
MIB_IFROW table[ANY_SIZE];
} MIB_IFTABLE, *PMIB_IFTABLE;
#define SIZEOF_IFTABLE(X) (FIELD_OFFSET(MIB_IFTABLE,table[0]) + ((X) * sizeof(MIB_IFROW)) + ALIGN_SIZE)
typedef struct _MIBICMPSTATS
{
DWORD dwMsgs;
DWORD dwErrors;
DWORD dwDestUnreachs;
DWORD dwTimeExcds;
DWORD dwParmProbs;
DWORD dwSrcQuenchs;
DWORD dwRedirects;
DWORD dwEchos;
DWORD dwEchoReps;
DWORD dwTimestamps;
DWORD dwTimestampReps;
DWORD dwAddrMasks;
DWORD dwAddrMaskReps;
} MIBICMPSTATS, *PMIBICMPSTATS;
typedef struct _MIBICMPINFO
{
MIBICMPSTATS icmpInStats;
MIBICMPSTATS icmpOutStats;
} MIBICMPINFO;
typedef struct _MIB_ICMP
{
MIBICMPINFO stats;
} MIB_ICMP,*PMIB_ICMP;
//
// ICMPv6 Type Values from RFC 2292.
//
typedef enum {
ICMP6_DST_UNREACH = 1,
ICMP6_PACKET_TOO_BIG = 2,
ICMP6_TIME_EXCEEDED = 3,
ICMP6_PARAM_PROB = 4,
ICMP6_ECHO_REQUEST = 128,
ICMP6_ECHO_REPLY = 129,
ICMP6_MEMBERSHIP_QUERY = 130,
ICMP6_MEMBERSHIP_REPORT = 131,
ICMP6_MEMBERSHIP_REDUCTION = 132,
ND_ROUTER_SOLICIT = 133,
ND_ROUTER_ADVERT = 134,
ND_NEIGHBOR_SOLICIT = 135,
ND_NEIGHBOR_ADVERT = 136,
ND_REDIRECT = 137,
} ICMP6_TYPE, *PICMP6_TYPE;
//
// There are no RFC-specified defines for ICMPv4 message types, so we try to
// use the ICMP6 values from RFC 2292 modified to be prefixed with ICMP4.
//
typedef enum {
ICMP4_ECHO_REPLY = 0, // Echo Reply
ICMP4_DST_UNREACH = 3, // Destination Unreachable
ICMP4_SOURCE_QUENCH = 4, // Source Quench
ICMP4_REDIRECT = 5, // Redirect
ICMP4_ECHO_REQUEST = 8, // Echo Request
ICMP4_ROUTER_ADVERT = 9, // Router Advertisement
ICMP4_ROUTER_SOLICIT = 10, // Router Solicitation
ICMP4_TIME_EXCEEDED = 11, // Time Exceeded
ICMP4_PARAM_PROB = 12, // Parameter Problem
ICMP4_TIMESTAMP_REQUEST = 13, // Timestamp Request
ICMP4_TIMESTAMP_REPLY = 14, // Timestamp Reply
ICMP4_MASK_REQUEST = 17, // Address Mask Request
ICMP4_MASK_REPLY = 18, // Address Mask Reply
} ICMP4_TYPE, *PICMP4_TYPE;
typedef struct _MIBICMPSTATS_EX
{
DWORD dwMsgs;
DWORD dwErrors;
DWORD rgdwTypeCount[256];
} MIBICMPSTATS_EX, *PMIBICMPSTATS_EX;
typedef struct _MIB_ICMP_EX
{
MIBICMPSTATS_EX icmpInStats;
MIBICMPSTATS_EX icmpOutStats;
} MIB_ICMP_EX,*PMIB_ICMP_EX;
typedef struct _MIB_UDPSTATS
{
DWORD dwInDatagrams;
DWORD dwNoPorts;
DWORD dwInErrors;
DWORD dwOutDatagrams;
DWORD dwNumAddrs;
} MIB_UDPSTATS,*PMIB_UDPSTATS;
typedef struct _MIB_UDPROW
{
DWORD dwLocalAddr;
DWORD dwLocalPort;
} MIB_UDPROW, *PMIB_UDPROW;
typedef struct _MIB_UDPTABLE
{
DWORD dwNumEntries;
MIB_UDPROW table[ANY_SIZE];
} MIB_UDPTABLE, *PMIB_UDPTABLE;
#define SIZEOF_UDPTABLE(X) (FIELD_OFFSET(MIB_UDPTABLE, table[0]) + ((X) * sizeof(MIB_UDPROW)) + ALIGN_SIZE)
typedef struct _MIB_TCPSTATS
{
DWORD dwRtoAlgorithm;
DWORD dwRtoMin;
DWORD dwRtoMax;
DWORD dwMaxConn;
DWORD dwActiveOpens;
DWORD dwPassiveOpens;
DWORD dwAttemptFails;
DWORD dwEstabResets;
DWORD dwCurrEstab;
DWORD dwInSegs;
DWORD dwOutSegs;
DWORD dwRetransSegs;
DWORD dwInErrs;
DWORD dwOutRsts;
DWORD dwNumConns;
} MIB_TCPSTATS, *PMIB_TCPSTATS;
#define MIB_TCP_RTO_OTHER 1
#define MIB_TCP_RTO_CONSTANT 2
#define MIB_TCP_RTO_RSRE 3
#define MIB_TCP_RTO_VANJ 4
#define MIB_TCP_MAXCONN_DYNAMIC (DWORD)-1
typedef struct _MIB_TCPROW
{
DWORD dwState;
DWORD dwLocalAddr;
DWORD dwLocalPort;
DWORD dwRemoteAddr;
DWORD dwRemotePort;
} MIB_TCPROW, *PMIB_TCPROW;
#define MIB_TCP_STATE_CLOSED 1
#define MIB_TCP_STATE_LISTEN 2
#define MIB_TCP_STATE_SYN_SENT 3
#define MIB_TCP_STATE_SYN_RCVD 4
#define MIB_TCP_STATE_ESTAB 5
#define MIB_TCP_STATE_FIN_WAIT1 6
#define MIB_TCP_STATE_FIN_WAIT2 7
#define MIB_TCP_STATE_CLOSE_WAIT 8
#define MIB_TCP_STATE_CLOSING 9
#define MIB_TCP_STATE_LAST_ACK 10
#define MIB_TCP_STATE_TIME_WAIT 11
#define MIB_TCP_STATE_DELETE_TCB 12
typedef struct _MIB_TCPTABLE
{
DWORD dwNumEntries;
MIB_TCPROW table[ANY_SIZE];
} MIB_TCPTABLE, *PMIB_TCPTABLE;
#define SIZEOF_TCPTABLE(X) (FIELD_OFFSET(MIB_TCPTABLE,table[0]) + ((X) * sizeof(MIB_TCPROW)) + ALIGN_SIZE)
#define MIB_USE_CURRENT_TTL ((DWORD)-1)
#define MIB_USE_CURRENT_FORWARDING ((DWORD)-1)
typedef struct _MIB_IPSTATS
{
DWORD dwForwarding;
DWORD dwDefaultTTL;
DWORD dwInReceives;
DWORD dwInHdrErrors;
DWORD dwInAddrErrors;
DWORD dwForwDatagrams;
DWORD dwInUnknownProtos;
DWORD dwInDiscards;
DWORD dwInDelivers;
DWORD dwOutRequests;
DWORD dwRoutingDiscards;
DWORD dwOutDiscards;
DWORD dwOutNoRoutes;
DWORD dwReasmTimeout;
DWORD dwReasmReqds;
DWORD dwReasmOks;
DWORD dwReasmFails;
DWORD dwFragOks;
DWORD dwFragFails;
DWORD dwFragCreates;
DWORD dwNumIf;
DWORD dwNumAddr;
DWORD dwNumRoutes;
} MIB_IPSTATS, *PMIB_IPSTATS;
#define MIB_IP_FORWARDING 1
#define MIB_IP_NOT_FORWARDING 2
// Note: These addr types have dependency on ipdef.h
#define MIB_IPADDR_PRIMARY 0x0001 // Primary ipaddr
#define MIB_IPADDR_DYNAMIC 0x0004 // Dynamic ipaddr
#define MIB_IPADDR_DISCONNECTED 0x0008 // Address is on disconnected interface
#define MIB_IPADDR_DELETED 0x0040 // Address being deleted
#define MIB_IPADDR_TRANSIENT 0x0080 // Transient address
typedef struct _MIB_IPADDRROW
{
DWORD dwAddr;
DWORD dwIndex;
DWORD dwMask;
DWORD dwBCastAddr;
DWORD dwReasmSize;
unsigned short unused1;
unsigned short wType;
} MIB_IPADDRROW, *PMIB_IPADDRROW;
typedef struct _MIB_IPADDRTABLE
{
DWORD dwNumEntries;
MIB_IPADDRROW table[ANY_SIZE];
} MIB_IPADDRTABLE, *PMIB_IPADDRTABLE;
#define SIZEOF_IPADDRTABLE(X) (FIELD_OFFSET(MIB_IPADDRTABLE,table[0]) + ((X) * sizeof(MIB_IPADDRROW)) + ALIGN_SIZE)
typedef struct _MIB_IPFORWARDNUMBER
{
DWORD dwValue;
}MIB_IPFORWARDNUMBER,*PMIB_IPFORWARDNUMBER;
typedef struct _MIB_IPFORWARDROW
{
DWORD dwForwardDest;
DWORD dwForwardMask;
DWORD dwForwardPolicy;
DWORD dwForwardNextHop;
DWORD dwForwardIfIndex;
DWORD dwForwardType;
DWORD dwForwardProto;
DWORD dwForwardAge;
DWORD dwForwardNextHopAS;
DWORD dwForwardMetric1;
DWORD dwForwardMetric2;
DWORD dwForwardMetric3;
DWORD dwForwardMetric4;
DWORD dwForwardMetric5;
}MIB_IPFORWARDROW, *PMIB_IPFORWARDROW;
#define MIB_IPROUTE_TYPE_OTHER 1
#define MIB_IPROUTE_TYPE_INVALID 2
#define MIB_IPROUTE_TYPE_DIRECT 3
#define MIB_IPROUTE_TYPE_INDIRECT 4
#define MIB_IPROUTE_METRIC_UNUSED (DWORD)-1
//
// THESE MUST MATCH the ids in routprot.h
//
#define MIB_IPPROTO_OTHER 1
#define MIB_IPPROTO_LOCAL 2
#define MIB_IPPROTO_NETMGMT 3
#define MIB_IPPROTO_ICMP 4
#define MIB_IPPROTO_EGP 5
#define MIB_IPPROTO_GGP 6
#define MIB_IPPROTO_HELLO 7
#define MIB_IPPROTO_RIP 8
#define MIB_IPPROTO_IS_IS 9
#define MIB_IPPROTO_ES_IS 10
#define MIB_IPPROTO_CISCO 11
#define MIB_IPPROTO_BBN 12
#define MIB_IPPROTO_OSPF 13
#define MIB_IPPROTO_BGP 14
#define MIB_IPPROTO_NT_AUTOSTATIC 10002
#define MIB_IPPROTO_NT_STATIC 10006
#define MIB_IPPROTO_NT_STATIC_NON_DOD 10007
typedef struct _MIB_IPFORWARDTABLE
{
DWORD dwNumEntries;
MIB_IPFORWARDROW table[ANY_SIZE];
}MIB_IPFORWARDTABLE, *PMIB_IPFORWARDTABLE;
#define SIZEOF_IPFORWARDTABLE(X) (FIELD_OFFSET(MIB_IPFORWARDTABLE,table[0]) + ((X) * sizeof(MIB_IPFORWARDROW)) + ALIGN_SIZE)
typedef struct _MIB_IPNETROW
{
DWORD dwIndex;
DWORD dwPhysAddrLen;
BYTE bPhysAddr[MAXLEN_PHYSADDR];
DWORD dwAddr;
DWORD dwType;
} MIB_IPNETROW, *PMIB_IPNETROW;
#define MIB_IPNET_TYPE_OTHER 1
#define MIB_IPNET_TYPE_INVALID 2
#define MIB_IPNET_TYPE_DYNAMIC 3
#define MIB_IPNET_TYPE_STATIC 4
typedef struct _MIB_IPNETTABLE
{
DWORD dwNumEntries;
MIB_IPNETROW table[ANY_SIZE];
} MIB_IPNETTABLE, *PMIB_IPNETTABLE;
#define SIZEOF_IPNETTABLE(X) (FIELD_OFFSET(MIB_IPNETTABLE, table[0]) + ((X) * sizeof(MIB_IPNETROW)) + ALIGN_SIZE)
typedef struct _MIB_IPMCAST_OIF
{
DWORD dwOutIfIndex;
DWORD dwNextHopAddr;
DWORD dwReserved;
DWORD dwReserved1;
}MIB_IPMCAST_OIF, *PMIB_IPMCAST_OIF;
typedef struct _MIB_IPMCAST_MFE
{
DWORD dwGroup;
DWORD dwSource;
DWORD dwSrcMask;
DWORD dwUpStrmNgbr;
DWORD dwInIfIndex;
DWORD dwInIfProtocol;
DWORD dwRouteProtocol;
DWORD dwRouteNetwork;
DWORD dwRouteMask;
ULONG ulUpTime;
ULONG ulExpiryTime;
ULONG ulTimeOut;
ULONG ulNumOutIf;
DWORD fFlags;
DWORD dwReserved;
MIB_IPMCAST_OIF rgmioOutInfo[ANY_SIZE];
}MIB_IPMCAST_MFE, *PMIB_IPMCAST_MFE;
typedef struct _MIB_MFE_TABLE
{
DWORD dwNumEntries;
MIB_IPMCAST_MFE table[ANY_SIZE];
}MIB_MFE_TABLE, *PMIB_MFE_TABLE;
#define SIZEOF_BASIC_MIB_MFE \
(ULONG)(FIELD_OFFSET(MIB_IPMCAST_MFE, rgmioOutInfo[0]))
#define SIZEOF_MIB_MFE(X) \
(SIZEOF_BASIC_MIB_MFE + ((X) * sizeof(MIB_IPMCAST_OIF)))
typedef struct _MIB_IPMCAST_OIF_STATS
{
DWORD dwOutIfIndex;
DWORD dwNextHopAddr;
DWORD dwDialContext;
ULONG ulTtlTooLow;
ULONG ulFragNeeded;
ULONG ulOutPackets;
ULONG ulOutDiscards;
}MIB_IPMCAST_OIF_STATS, *PMIB_IPMCAST_OIF_STATS;
typedef struct _MIB_IPMCAST_MFE_STATS
{
DWORD dwGroup;
DWORD dwSource;
DWORD dwSrcMask;
DWORD dwUpStrmNgbr;
DWORD dwInIfIndex;
DWORD dwInIfProtocol;
DWORD dwRouteProtocol;
DWORD dwRouteNetwork;
DWORD dwRouteMask;
ULONG ulUpTime;
ULONG ulExpiryTime;
ULONG ulNumOutIf;
ULONG ulInPkts;
ULONG ulInOctets;
ULONG ulPktsDifferentIf;
ULONG ulQueueOverflow;
MIB_IPMCAST_OIF_STATS rgmiosOutStats[ANY_SIZE];
}MIB_IPMCAST_MFE_STATS, *PMIB_IPMCAST_MFE_STATS;
typedef struct _MIB_MFE_STATS_TABLE
{
DWORD dwNumEntries;
MIB_IPMCAST_MFE_STATS table[ANY_SIZE];
}MIB_MFE_STATS_TABLE, *PMIB_MFE_STATS_TABLE;
#define SIZEOF_BASIC_MIB_MFE_STATS \
(ULONG)(FIELD_OFFSET(MIB_IPMCAST_MFE_STATS, rgmiosOutStats[0]))
#define SIZEOF_MIB_MFE_STATS(X) \
(SIZEOF_BASIC_MIB_MFE_STATS + ((X) * sizeof(MIB_IPMCAST_OIF_STATS)))
typedef struct _MIB_IPMCAST_MFE_STATS_EX
{
DWORD dwGroup;
DWORD dwSource;
DWORD dwSrcMask;
DWORD dwUpStrmNgbr;
DWORD dwInIfIndex;
DWORD dwInIfProtocol;
DWORD dwRouteProtocol;
DWORD dwRouteNetwork;
DWORD dwRouteMask;
ULONG ulUpTime;
ULONG ulExpiryTime;
ULONG ulNumOutIf;
ULONG ulInPkts;
ULONG ulInOctets;
ULONG ulPktsDifferentIf;
ULONG ulQueueOverflow;
ULONG ulUninitMfe;
ULONG ulNegativeMfe;
ULONG ulInDiscards;
ULONG ulInHdrErrors;
ULONG ulTotalOutPackets;
MIB_IPMCAST_OIF_STATS rgmiosOutStats[ANY_SIZE];
}MIB_IPMCAST_MFE_STATS_EX, *PMIB_IPMCAST_MFE_STATS_EX;
typedef struct _MIB_MFE_STATS_TABLE_EX
{
DWORD dwNumEntries;
MIB_IPMCAST_MFE_STATS_EX table[ANY_SIZE];
}MIB_MFE_STATS_TABLE_EX, *PMIB_MFE_STATS_TABLE_EX;
#define SIZEOF_BASIC_MIB_MFE_STATS_EX \
(ULONG)(FIELD_OFFSET(MIB_IPMCAST_MFE_STATS_EX, rgmiosOutStats[0]))
#define SIZEOF_MIB_MFE_STATS_EX(X) \
(SIZEOF_BASIC_MIB_MFE_STATS_EX + ((X) * sizeof(MIB_IPMCAST_OIF_STATS)))
typedef struct _MIB_IPMCAST_GLOBAL {
DWORD dwEnable;
}MIB_IPMCAST_GLOBAL, *PMIB_IPMCAST_GLOBAL;
typedef struct _MIB_IPMCAST_IF_ENTRY
{
DWORD dwIfIndex;
DWORD dwTtl;
DWORD dwProtocol;
DWORD dwRateLimit;
ULONG ulInMcastOctets;
ULONG ulOutMcastOctets;
}MIB_IPMCAST_IF_ENTRY, *PMIB_IPMCAST_IF_ENTRY;
typedef struct _MIB_IPMCAST_IF_TABLE
{
DWORD dwNumEntries;
MIB_IPMCAST_IF_ENTRY table[ANY_SIZE];
}MIB_IPMCAST_IF_TABLE, *PMIB_IPMCAST_IF_TABLE;
#define SIZEOF_MCAST_IF_TABLE(X) (FIELD_OFFSET(MIB_IPMCAST_IF_TABLE,table[0]) + ((X) * sizeof(MIB_IPMCAST_IF_ENTRY)) + ALIGN_SIZE)
typedef struct _MIB_IPMCAST_BOUNDARY
{
DWORD dwIfIndex;
DWORD dwGroupAddress;
DWORD dwGroupMask;
DWORD dwStatus;
}MIB_IPMCAST_BOUNDARY, *PMIB_IPMCAST_BOUNDARY;
typedef struct _MIB_IPMCAST_BOUNDARY_TABLE
{
DWORD dwNumEntries;
MIB_IPMCAST_BOUNDARY table[ANY_SIZE];
}MIB_IPMCAST_BOUNDARY_TABLE, *PMIB_IPMCAST_BOUNDARY_TABLE;
#define SIZEOF_BOUNDARY_TABLE(X) (FIELD_OFFSET(MIB_IPMCAST_BOUNDARY_TABLE,table[0]) + ((X) * sizeof(MIB_IPMCAST_BOUNDARY)) + ALIGN_SIZE)
typedef struct {
DWORD dwGroupAddress;
DWORD dwGroupMask;
} MIB_BOUNDARYROW, *PMIB_BOUNDARYROW;
// Structure matching what goes in the registry in a block of type
// IP_MCAST_LIMIT_INFO. This contains the fields of
// MIB_IPMCAST_IF_ENTRY which are configurable.
typedef struct {
DWORD dwTtl;
DWORD dwRateLimit;
} MIB_MCAST_LIMIT_ROW, *PMIB_MCAST_LIMIT_ROW;
#define MAX_SCOPE_NAME_LEN 255
//
// Scope names are unicode. SNMP and MZAP use UTF-8 encoding.
//
#define SN_UNICODE
typedef WCHAR SN_CHAR;
typedef SN_CHAR SCOPE_NAME_BUFFER[MAX_SCOPE_NAME_LEN+1], *SCOPE_NAME;
typedef struct _MIB_IPMCAST_SCOPE
{
DWORD dwGroupAddress;
DWORD dwGroupMask;
SCOPE_NAME_BUFFER snNameBuffer;
DWORD dwStatus;
}MIB_IPMCAST_SCOPE, *PMIB_IPMCAST_SCOPE;
typedef struct _MIB_IPDESTROW
{
#ifdef __cplusplus
MIB_IPFORWARDROW ForwardRow;
#else
MIB_IPFORWARDROW;
#endif
DWORD dwForwardPreference;
DWORD dwForwardViewSet;
}MIB_IPDESTROW, *PMIB_IPDESTROW;
typedef struct _MIB_IPDESTTABLE
{
DWORD dwNumEntries;
MIB_IPDESTROW table[ANY_SIZE];
}MIB_IPDESTTABLE, *PMIB_IPDESTTABLE;
typedef struct _MIB_BEST_IF
{
DWORD dwDestAddr;
DWORD dwIfIndex;
}MIB_BEST_IF, *PMIB_BEST_IF;
typedef struct _MIB_PROXYARP
{
DWORD dwAddress;
DWORD dwMask;
DWORD dwIfIndex;
}MIB_PROXYARP, *PMIB_PROXYARP;
typedef struct _MIB_IFSTATUS
{
DWORD dwIfIndex;
DWORD dwAdminStatus;
DWORD dwOperationalStatus;
BOOL bMHbeatActive;
BOOL bMHbeatAlive;
}MIB_IFSTATUS, *PMIB_IFSTATUS;
typedef struct _MIB_ROUTESTATE
{
BOOL bRoutesSetToStack;
}MIB_ROUTESTATE, *PMIB_ROUTESTATE;
//////////////////////////////////////////////////////////////////////////////
// //
// All the info passed to (SET/CREATE) and from (GET/GETNEXT/GETFIRST) //
// IP Router Manager is encapsulated in the following "discriminated" //
// union. To pass, say MIB_IFROW, use the following code //
// //
// PMIB_OPAQUE_INFO pInfo; //
// PMIB_IFROW pIfRow; //
// DWORD rgdwBuff[(MAX_MIB_OFFSET + sizeof(MIB_IFROW))/sizeof(DWORD) + 1]; //
// //
// pInfo = (PMIB_OPAQUE_INFO)rgdwBuffer; //
// pIfRow = (MIB_IFROW *)(pInfo->rgbyData); //
// //
// This can also be accomplished by using the following macro //
// //
// DEFINE_MIB_BUFFER(pInfo,MIB_IFROW, pIfRow); //
// //
//////////////////////////////////////////////////////////////////////////////
typedef struct _MIB_OPAQUE_INFO
{
DWORD dwId;
union
{
ULONGLONG ullAlign;
BYTE rgbyData[1];
};
}MIB_OPAQUE_INFO, *PMIB_OPAQUE_INFO;
#define MAX_MIB_OFFSET 8
#define MIB_INFO_SIZE(S) \
(MAX_MIB_OFFSET + sizeof(S))
#define MIB_INFO_SIZE_IN_DWORDS(S) \
((MIB_INFO_SIZE(S))/sizeof(DWORD) + 1)
#define DEFINE_MIB_BUFFER(X,Y,Z) \
DWORD __rgdwBuff[MIB_INFO_SIZE_IN_DWORDS(Y)]; \
PMIB_OPAQUE_INFO X = (PMIB_OPAQUE_INFO)__rgdwBuff; \
Y * Z = (Y *)(X->rgbyData)
#define CAST_MIB_INFO(X,Y,Z) Z = (Y)(X->rgbyData)
#if _MSC_VER >= 1200
#pragma warning(pop)
#else
#pragma warning(default:4201)
#endif
#endif //__ROUTING_IPRTRMIB_H__