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windows-xp/Source/XPSP1/NT/net/rras/rtmv2/rtm1to2.h

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/*++
Copyright (c) 1997 - 98, Microsoft Corporation
Module Name:
rtm1to2.h
Abstract:
Contains definitions/macros that wrap RTMv2
in the RTMv1 API.
Author:
Chaitanya Kodeboyina (chaitk) 13-Oct-1998
Revision History:
--*/
#ifndef __ROUTING_RTM1TO2_H__
#define __ROUTING_RTM1TO2_H__
#include <winsock2.h>
#include <rtm.h>
#include <rmrtm.h>
// Protocol Id for the default wrapper registration
#define V1_WRAPPER_REGN_ID 0xA1B2C3D4
// Protocol instance for a v1 entity registration
#define V1_PROTOCOL_INSTANCE 0xABCD1234
//
// Misc defines for wrapper picked from rtmv2p.h
//
#define MAXTICKS MAXULONG
// Basic route info, present in routes of all types
// Disable warnings for unnamed structs
#pragma warning(disable : 4201)
typedef struct
{
ROUTE_HEADER;
}
RTM_XX_ROUTE, *PRTM_XX_ROUTE;
#pragma warning(default : 4201)
//
// Extending certain V1 flags in the wrapper
//
#define RTM_ONLY_OWND_ROUTES 0x00000010
//
// Mapping of v1 address families to standard ids
//
const USHORT ADDRESS_FAMILY[2] =
{
AF_IPX, // RTM_PROTOCOL_FAMILY_IPX = 0
AF_INET // RTM_PROTOCOL_FAMILY_IP = 1
};
//
// Address sizes of supported address families
//
#define IPX_ADDR_SIZE 6
#define IP_ADDR_SIZE 4
const USHORT ADDRESS_SIZE[2] =
{
IPX_ADDR_SIZE, // RTM_PROTOCOL_FAMILY_IPX = 0
IP_ADDR_SIZE // RTM_PROTOCOL_FAMILY_IP = 1
};
//
// Forward declarations for structs
//
typedef struct _V1_REGN_INFO *PV1_REGN_INFO;
//
// Global info for RTMv1 - v2 wrapper
//
typedef struct _V1_GLOBAL_INFO
{
CRITICAL_SECTION PfRegnsLock[RTM_NUM_OF_PROTOCOL_FAMILIES];
// Lock guards the registrations list
LIST_ENTRY PfRegistrations[RTM_NUM_OF_PROTOCOL_FAMILIES];
// List of regns on Protocol family
PV1_REGN_INFO PfRegInfo[RTM_NUM_OF_PROTOCOL_FAMILIES];
// Default regn for this Protocol family
PROUTE_VALIDATE_FUNC
PfValidateRouteFunc[RTM_NUM_OF_PROTOCOL_FAMILIES];
// Func to validate route, fill priority
}
V1_GLOBAL_INFO, *PV1_GLOBAL_INFO;
//
// RTMv2 to v1 Registration Wrapper
//
typedef struct _V1_REGN_INFO
{
OBJECT_HEADER ObjectHeader; // Signature, Type and Reference Count
LIST_ENTRY RegistrationsLE; // Linkage on list of registrations
DWORD ProtocolFamily; // This maps to RTMv2's address family
DWORD RoutingProtocol; // Routing protocol (RIP, OSPF...)
DWORD Flags; // RTMv1 Registration flags
RTM_ENTITY_HANDLE Rtmv2RegHandle; // Handle to actual RTMv2 registration
RTM_REGN_PROFILE Rtmv2Profile; // RTMv2 registration profile
UINT Rtmv2NumViews; // Number of views in the V2 instance
CRITICAL_SECTION NotificationLock; // RTMv1 Notification Lock
PROUTE_CHANGE_CALLBACK
NotificationFunc; // RTMv1 Notification Callback
HANDLE NotificationEvent;// RTMv1 Notification Event
RTM_NOTIFY_HANDLE Rtmv2NotifyHandle;// RTMv2 Notification Handle
}
V1_REGN_INFO, *PV1_REGN_INFO;
//
// RTMv1 Route Info structure
//
typedef union {
RTM_IPX_ROUTE IpxRoute; // IPX route info structure
RTM_IP_ROUTE IpRoute; // IP route info structure
RTM_XX_ROUTE XxRoute; // The Common route header
UCHAR Route[1]; // Generic route info structure
}
V1_ROUTE_INFO, *PV1_ROUTE_INFO;
//
// RTMv2 to v1 Enumeration Wrapper
//
typedef struct _V1_ENUM_INFO
{
OBJECT_HEADER ObjectHeader; // Signature, Type and Reference Count
DWORD ProtocolFamily; // This maps to RTMv2's address family
DWORD EnumFlags; // RTMv1 Enumeration flags
V1_ROUTE_INFO CriteriaRoute; // V1 Criteria route for this enum
CRITICAL_SECTION EnumLock; // To serialize enumeration calls
RTM_ENUM_HANDLE Rtmv2RouteEnum; // Handle to the RTMv2 route enum
}
V1_ENUM_INFO, *PV1_ENUM_INFO;
//
// Miscellaneos Func Pointer Defs
//
typedef BOOL (*PFUNC) (PVOID p, PVOID q, PVOID r);
//
// Macros to validate RTMv1 to v2 wrapper handles
//
#define V1_REGN_FROM_HANDLE(V1RegnHandle) \
(PV1_REGN_INFO) GetObjectFromHandle(V1RegnHandle, V1_REGN_TYPE)
#define VALIDATE_V1_REGN_HANDLE(V1RegnHandle, pV1Regn) \
*pV1Regn = V1_REGN_FROM_HANDLE(V1RegnHandle); \
if ((!*pV1Regn)) \
{ \
return ERROR_INVALID_HANDLE; \
} \
#define V1_ENUM_FROM_HANDLE(V1EnumHandle) \
(PV1_ENUM_INFO) GetObjectFromHandle(V1EnumHandle, V1_ENUM_TYPE)
#define VALIDATE_V1_ENUM_HANDLE(V1EnumHandle, pV1Enum) \
*pV1Enum = V1_ENUM_FROM_HANDLE(V1EnumHandle); \
if ((!*pV1Enum)) \
{ \
return ERROR_INVALID_HANDLE; \
} \
//
// Macros to acquire locks in the structures above
//
#define ACQUIRE_V1_REGNS_LOCK(ProtocolFamily) \
ACQUIRE_LOCK(&V1Globals.PfRegnsLock[ProtocolFamily])
#define RELEASE_V1_REGNS_LOCK(ProtocolFamily) \
RELEASE_LOCK(&V1Globals.PfRegnsLock[ProtocolFamily])
#define ACQUIRE_V1_ENUM_LOCK(V1Enum) \
ACQUIRE_LOCK(&V1Enum->EnumLock)
#define RELEASE_V1_ENUM_LOCK(V1Enum) \
RELEASE_LOCK(&V1Enum->EnumLock)
#define ACQUIRE_V1_NOTIFY_LOCK(V1Regn) \
ACQUIRE_LOCK(&V1Regn->NotificationLock)
#define RELEASE_V1_NOTIFY_LOCK(V1Regn) \
RELEASE_LOCK(&V1Regn->NotificationLock)
//
// Macros to convert RTMv1 to RTMv2 structs and vice versa
//
#define MakeNetAddress(Network, ProtocolFamily, TempUlong, NetAddr) \
MakeNetAddressForIP(Network, TempUlong, NetAddr)
#define MakeNetAddressForIP(Network, TempUlong, NetAddr) \
(NetAddr)->AddressFamily = AF_INET; \
(NetAddr)->NumBits = 0; \
\
TempUlong = \
RtlUlongByteSwap(((PIP_NETWORK)(Network))->N_NetMask); \
\
while (TempUlong) \
{ \
ASSERT(TempUlong & 0x80000000); \
TempUlong <<= 1; \
(NetAddr)->NumBits++; \
} \
\
(* (ULONG *) ((NetAddr)->AddrBits)) = \
((PIP_NETWORK) (Network))->N_NetNumber; \
#define MakeHostAddress(HostAddr, ProtocolFamily, NetAddr) \
MakeHostAddressForIP(HostAddr, NetAddr)
#define MakeHostAddressForIP(HostAddr, NetAddr) \
(NetAddr)->AddressFamily = AF_INET; \
(NetAddr)->NumBits = IP_ADDR_SIZE * BITS_IN_BYTE; \
(* (ULONG *) ((NetAddr)->AddrBits)) = (* (ULONG *) HostAddr); \
//
// Misc V1 Macros
//
// Macro that gets the network address in the route
#define V1GetRouteNetwork(Route, ProtocolFamily, Network) \
if (ProtocolFamily == RTM_PROTOCOL_FAMILY_IP) \
{ \
(*Network) = (PVOID) &((PRTM_IP_ROUTE) Route)->RR_Network; \
} \
else \
{ \
(*Network) = (PVOID) &((PRTM_IPX_ROUTE) Route)->RR_Network; \
} \
// Macro that gets the addr of flags in the route
#define V1GetRouteFlags(Route, ProtocolFamily, Flags) \
if (ProtocolFamily == RTM_PROTOCOL_FAMILY_IP) \
{ \
Flags = \
&((PRTM_IP_ROUTE)Route)->RR_FamilySpecificData.FSD_Flags; \
} \
else \
{ \
Flags = \
&((PRTM_IPX_ROUTE)Route)->RR_FamilySpecificData.FSD_Flags; \
} \
// Macro that copies one v1 route to another
#define V1CopyRoute(RouteDst, RouteSrc, ProtocolFamily) \
if (ProtocolFamily == RTM_PROTOCOL_FAMILY_IP) \
{ \
CopyMemory(RouteDst, RouteSrc, sizeof(RTM_IP_ROUTE)); \
} \
else \
{ \
CopyMemory(RouteDst, RouteSrc, sizeof(RTM_IPX_ROUTE)); \
} \
//
// Misc V2 Macros
//
// Macro to allocate a set of handles on the stack
#define ALLOC_HANDLES(NumHandles) \
(HANDLE *) _alloca(sizeof(HANDLE) * NumHandles) \
// Macro to allocate a RTM_DEST_INFO on the stack
#define ALLOC_DEST_INFO(NumViews, NumInfos) \
(PRTM_DEST_INFO) _alloca(RTM_SIZE_OF_DEST_INFO(NumViews) * NumInfos)
// Macro to allocate a RTM_ROUTE_INFO on the stack
#define ALLOC_ROUTE_INFO(NumNextHops, NumInfos) \
(PRTM_ROUTE_INFO) _alloca((sizeof(RTM_ROUTE_INFO) + \
(NumNextHops - 1) * \
sizeof(RTM_NEXTHOP_HANDLE)) * NumInfos) \
// Misc Macros
#define SWAP_POINTERS(p1, p2) { PVOID p = p1; p1 = p2; p2 = p; }
//
// Callback that converts RTMv2 events to RTMv1
//
DWORD
WINAPI
V2EventCallback (
IN RTM_ENTITY_HANDLE Rtmv2RegHandle,
IN RTM_EVENT_TYPE EventType,
IN PVOID Context1,
IN PVOID Context2
);
//
// Other helper functions
//
HANDLE
RtmpRegisterClient (
IN DWORD ProtocolFamily,
IN DWORD RoutingProtocol,
IN PROUTE_CHANGE_CALLBACK ChangeFunc OPTIONAL,
IN HANDLE ChangeEvent OPTIONAL,
IN DWORD Flags
);
DWORD
BlockOperationOnRoutes (
IN PV1_REGN_INFO V1Regn,
IN DWORD EnumerationFlags,
IN PVOID CriteriaRoute,
IN PFUNC RouteOperation
);
BOOL
MatchCriteriaAndCopyRoute (
IN PV1_REGN_INFO V1Regn,
IN PRTM_ROUTE_HANDLE V2RouteHandle,
IN PV1_ENUM_INFO V1Enum OPTIONAL,
OUT PVOID V1Route OPTIONAL
);
#define MatchCriteria(R, H, E) MatchCriteriaAndCopyRoute(R, H, E, NULL)
BOOL
MatchCriteriaAndDeleteRoute (
IN PV1_REGN_INFO V1Regn,
IN PRTM_ROUTE_HANDLE V2RouteHandle,
IN PV1_ENUM_INFO V1Enum
);
BOOL
MatchCriteriaAndChangeOwner (
IN PV1_REGN_INFO V1Regn,
IN PRTM_ROUTE_HANDLE V2RouteHandle,
IN PV1_ENUM_INFO V1Enum
);
BOOL
MatchCriteriaAndEnableRoute (
IN PV1_REGN_INFO V1Regn,
IN PRTM_ROUTE_HANDLE V2RouteHandle,
IN PV1_ENUM_INFO V1Enum
);
BOOL
CopyNonLoopbackIPRoute (
IN PV1_REGN_INFO V1Regn,
IN PRTM_DEST_INFO V2DestInfo,
OUT PVOID V1Route
);
VOID
MakeV2RouteFromV1Route (
IN PV1_REGN_INFO V1Regn,
IN PVOID V1Route,
IN PRTM_NEXTHOP_HANDLE V2NextHop,
OUT PRTM_NET_ADDRESS V2DestAddr OPTIONAL,
OUT PRTM_ROUTE_INFO V2RouteInfo OPTIONAL
);
VOID
MakeV2NextHopFromV1Route (
IN PV1_REGN_INFO V1Regn,
IN PVOID V1Route,
OUT PRTM_NEXTHOP_INFO V2NextHop
);
VOID
MakeV1RouteFromV2Dest (
IN PV1_REGN_INFO V1Regn,
IN PRTM_DEST_INFO DestInfo,
OUT PVOID V1Route
);
DWORD
MakeV1RouteFromV2Route (
IN PV1_REGN_INFO V1Regn,
IN PRTM_ROUTE_INFO V2Route,
OUT PVOID V1Route
);
#endif // __ROUTING_RTM1TO2_H__