windows-nt/Source/XPSP1/NT/net/rras/ip/rtrmgr/defs.h

541 lines
20 KiB
C
Raw Normal View History

2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 1995 Microsoft Corporation
Module Name:
routing\ip\rtrmgr\defs.c
Abstract:
IP Router Manager defines
Revision History:
Gurdeep Singh Pall 6/16/95 Created
--*/
#ifndef __DEFS_H__
#define __DEFS_H__
#include "logtrdef.h"
//
// Neat macros to avoid errors
//
#define is ==
#define isnot !=
#define and &&
#define or ||
#define INVALID_INDEX_OR_INSTANCE 0xffffffff
#define INVALID_ADAPTER_ID INVALID_INDEX_OR_INSTANCE
#define INVALID_IF_INSTANCE INVALID_INDEX_OR_INSTANCE
#define INVALID_AT_INSTANCE INVALID_INDEX_OR_INSTANCE
#define INVALID_IF_INDEX INVALID_INDEX_OR_INSTANCE
#define INVALID_IP_ADDRESS 0x00000000
#define HOST_ROUTE_MASK 0xFFFFFFFF
#define IP_LOOPBACK_ADDRESS 0x0100007F
#define ALL_ONES_BROADCAST 0xFFFFFFFF
#define ALL_ONES_MASK 0xFFFFFFFF
#define LOCAL_NET_MULTICAST 0x000000E0
#define LOCAL_NET_MULTICAST_MASK 0x000000F0
#define CLASSA_ADDR(a) (( (*((uchar *)&(a))) & 0x80) == 0)
#define CLASSB_ADDR(a) (( (*((uchar *)&(a))) & 0xc0) == 0x80)
#define CLASSC_ADDR(a) (( (*((uchar *)&(a))) & 0xe0) == 0xc0)
#define CLASSE_ADDR(a) ((( (*((uchar *)&(a))) & 0xf0) == 0xf0) && \
((a) != 0xffffffff))
#define CLASSA_MASK 0x000000ff
#define CLASSB_MASK 0x0000ffff
#define CLASSC_MASK 0x00ffffff
#define CLASSD_MASK 0x000000e0
#define CLASSE_MASK 0xffffffff
#define INET_CMP(a,b,c) \
(((c) = (((a) & 0x000000ff) - ((b) & 0x000000ff))) ? (c) : \
(((c) = (((a) & 0x0000ff00) - ((b) & 0x0000ff00))) ? (c) : \
(((c) = (((a) & 0x00ff0000) - ((b) & 0x00ff0000))) ? (c) : \
(((c) = ((((a)>>8) & 0x00ff0000) - (((b)>>8) & 0x00ff0000)))))))
#define GetClassMask(a)\
(CLASSA_ADDR((a)) ? CLASSA_MASK : \
(CLASSB_ADDR((a)) ? CLASSB_MASK : \
(CLASSC_ADDR((a)) ? CLASSC_MASK : CLASSE_MASK)))
#define IsValidIpAddress(a) \
((((ULONG)((a) & 0x000000FF)) < ((ULONG)0x000000E0)) && \
(((a) & 0x000000FF) != 0))
//
// Number of pending IRPs
//
#define NUM_MCAST_IRPS 3
#define NUM_ROUTE_CHANGE_IRPS 3
#define EVENT_DEMANDDIAL 0
#define EVENT_IPINIP (EVENT_DEMANDDIAL + 1)
#define EVENT_STOP_ROUTER (EVENT_IPINIP + 1)
#define EVENT_SET_FORWARDING (EVENT_STOP_ROUTER + 1)
#define EVENT_FORWARDING_CHANGE (EVENT_SET_FORWARDING + 1)
#define EVENT_STACK_CHANGE (EVENT_FORWARDING_CHANGE + 1)
#define EVENT_ROUTINGPROTOCOL (EVENT_STACK_CHANGE + 1)
#define EVENT_RTRDISCTIMER (EVENT_ROUTINGPROTOCOL + 1)
#define EVENT_RTRDISCSOCKET (EVENT_RTRDISCTIMER + 1)
#define EVENT_MCMISCSOCKET (EVENT_RTRDISCSOCKET + 1)
#define EVENT_MHBEAT (EVENT_MCMISCSOCKET + 1)
#define EVENT_MZAPTIMER (EVENT_MHBEAT + 1)
#define EVENT_MZAPSOCKET (EVENT_MZAPTIMER + 1)
#define EVENT_RASADVTIMER (EVENT_MZAPSOCKET + 1)
#define EVENT_MCAST_0 (EVENT_RASADVTIMER + 1)
#define EVENT_MCAST_1 (EVENT_MCAST_0 + 1)
#define EVENT_MCAST_2 (EVENT_MCAST_1 + 1)
#define EVENT_ROUTE_CHANGE_0 (EVENT_MCAST_2 + 1)
#define EVENT_ROUTE_CHANGE_1 (EVENT_ROUTE_CHANGE_0 + 1)
#define EVENT_ROUTE_CHANGE_2 (EVENT_ROUTE_CHANGE_1 + 1)
//
// Last one + 1
//
#define NUMBER_OF_EVENTS (EVENT_ROUTE_CHANGE_2 + 1)
//
// The polling time to see if all interfaces have been deleted
//
#define INTERFACE_DELETE_POLL_TIME 2500
//
// Number of times we try to read the server adapter address
//
#define MAX_SERVER_INIT_TRIES 1
//
// Number of millisecs we sleep between tries
//
#define SERVER_INIT_SLEEP_TIME 3000
#define REGISTER register
#define IP_ROUTE_HASH_TABLE_SIZE 257
#define IP_ROUTE_TABLE_MEMORY 64 * 50000 // 64 approx size of route, 50000 routes
#define MGM_IF_TABLE_SIZE 29
#define MGM_GROUP_TABLE_SIZE 257
#define MGM_SOURCE_TABLE_SIZE 257
#define ICB_HASH_TABLE_SIZE 57
#define BINDING_HASH_TABLE_SIZE 57
#define BIND_HASH(X) ((X) % BINDING_HASH_TABLE_SIZE)
//#define ADAPTER_HASH_TABLE_SIZE 57
//#define ADAPTER_HASH(X) ((X) % ADAPTER_HASH_TABLE_SIZE)
//
// A coherency number put into the ICBs. It is incremented with each added
// interface. The internal interface is 1, and the loopback interface is 2
// hence this must be > 2
//
#define LOOPBACK_INTERFACE_INDEX 1
//#define SERVER_INTERFACE_INDEX 2
#define INITIAL_SEQUENCE_NUMBER 1
//
// For links we dont know about, we set the MTU to 1500
//
#define DEFAULT_MTU 1500
#define LOOPBACK_STRID 9990
#define INTERNAL_STRID 9991
#define WAN_STRID 9992
#define IPIP_STRID 9993
//
// Macros called each time an api is called and exited. This is to
// facilitate RouterStop() functionality.
//
#define EnterRouterApi() { \
EnterCriticalSection(&RouterStateLock) ; \
if (RouterState.IRS_State == RTR_STATE_RUNNING) { \
RouterState.IRS_RefCount++ ; \
LeaveCriticalSection(&RouterStateLock) ; \
} else { \
LeaveCriticalSection(&RouterStateLock) ; \
Trace1(ANY, "error %d on RM API", ERROR_ROUTER_STOPPED); \
return ERROR_ROUTER_STOPPED ; \
} \
}
#define ExitRouterApi() { \
EnterCriticalSection(&RouterStateLock) ; \
RouterState.IRS_RefCount-- ; \
LeaveCriticalSection(&RouterStateLock) ; \
}
//++
//
// BOOL
// IsIfP2P(
// IN DWORD dwRouterIfType
// )
//
//--
#define IsIfP2P(t) \
(((t) == ROUTER_IF_TYPE_FULL_ROUTER) || \
((t) == ROUTER_IF_TYPE_HOME_ROUTER) || \
((t) == ROUTER_IF_TYPE_TUNNEL1) || \
((t) == ROUTER_IF_TYPE_DIALOUT))
//
// Additional flags for the IP route structure
// These are not in RTM.H because we dont want to expose them
// to the public's prying eyes.
//
// NOTE IP_VALID_ROUTE is #defined as 0x00000001
//
#define IP_VALID_ROUTE 0x00000001
#define IP_STACK_ROUTE 0x00000002
#define IP_P2P_ROUTE 0x00000004
#define IP_SETTABLE_ROUTE (IP_VALID_ROUTE | IP_STACK_ROUTE)
#define ClearRouteFlags(pRoute) \
((pRoute)->Flags1 = 0x00000000)
#define IsRouteValid(pRoute) \
((pRoute)->Flags1 & IP_VALID_ROUTE)
#define SetRouteValid(pRoute) \
((pRoute)->Flags1 |= IP_VALID_ROUTE)
#define ClearRouteValid(pRoute) \
((pRoute)->Flags1 &= ~IP_VALID_ROUTE)
#define IsRouteStack(pRoute) \
((pRoute)->Flags1 & IP_STACK_ROUTE)
#define SetRouteStack(pRoute) \
((pRoute)->Flags1 |= IP_STACK_ROUTE)
#define ClearRouteStack(pRoute) \
((pRoute)->Flags1 &= ~IP_STACK_ROUTE)
#define IsRouteP2P(pRoute) \
((pRoute)->Flags1 & IP_P2P_ROUTE)
#define SetRouteP2P(pRoute) \
((pRoute)->Flags1 |= IP_P2P_ROUTE)
#define ClearRouteP2P(pRoute) \
((pRoute)->Flags1 &= ~IP_P2P_ROUTE)
/*
//
// VOID
// ConvertRTMToForward(PMIB_IPFORWARDROW forwardRow, RTM_IP_ROUTE *route)
//
#define ConvertRTMToForward(f,route){ \
(f)->dwForwardDest = (route)->RR_Network.N_NetNumber; \
(f)->dwForwardIfIndex = (route)->RR_InterfaceID; \
(f)->dwForwardMetric1 = (route)->RR_FamilySpecificData.FSD_Metric1; \
(f)->dwForwardMetric2 = (route)->RR_FamilySpecificData.FSD_Metric2; \
(f)->dwForwardMetric3 = (route)->RR_FamilySpecificData.FSD_Metric3; \
(f)->dwForwardMetric4 = (route)->RR_FamilySpecificData.FSD_Metric4; \
(f)->dwForwardMetric5 = (route)->RR_FamilySpecificData.FSD_Metric5; \
(f)->dwForwardNextHop = (route)->RR_NextHopAddress.N_NetNumber; \
(f)->dwForwardType = (route)->RR_FamilySpecificData.FSD_Type; \
(f)->dwForwardProto = (route)->RR_RoutingProtocol; \
(f)->dwForwardAge = RtmGetRouteAge((route)); \
(f)->dwForwardMask = (route)->RR_Network.N_NetMask; \
(f)->dwForwardNextHopAS = (route)->RR_FamilySpecificData.FSD_NextHopAS; \
(f)->dwForwardPolicy = (route)->RR_FamilySpecificData.FSD_Policy;}
//
// VOID
// ConvertForwardToRTM(PMIB_IPFORWARDROW forwardRow,
// RTM_IP_ROUTE *route,
// DWORD dwNextHopMask)
//
#define ConvertForwardToRTM(f,route,mask){ \
(route)->RR_Network.N_NetNumber = (f)->dwForwardDest; \
(route)->RR_InterfaceID = (f)->dwForwardIfIndex; \
(route)->RR_FamilySpecificData.FSD_Metric = \
(route)->RR_FamilySpecificData.FSD_Metric1 = (f)->dwForwardMetric1; \
(route)->RR_FamilySpecificData.FSD_Metric2 = (f)->dwForwardMetric2; \
(route)->RR_FamilySpecificData.FSD_Metric3 = (f)->dwForwardMetric3; \
(route)->RR_FamilySpecificData.FSD_Metric4 = (f)->dwForwardMetric4; \
(route)->RR_FamilySpecificData.FSD_Metric5 = (f)->dwForwardMetric5; \
(route)->RR_FamilySpecificData.FSD_Priority = 0; \
(route)->RR_NextHopAddress.N_NetNumber = (f)->dwForwardNextHop; \
(route)->RR_NextHopAddress.N_NetMask = (mask); \
(route)->RR_Network.N_NetMask = (f)->dwForwardMask; \
(route)->RR_FamilySpecificData.FSD_Policy = (f)->dwForwardPolicy; \
(route)->RR_FamilySpecificData.FSD_NextHopAS = (f)->dwForwardNextHopAS;\
(route)->RR_FamilySpecificData.FSD_Type = (f)->dwForwardType; \
(route)->RR_RoutingProtocol = (f)->dwForwardProto; \
ClearRouteFlags((route)); \
SetRouteValid((route)); \
SetRouteStack((route)); }
//
// VOID
// ConvertStackToRTM(RTM_IP_ROUTE *route,
// IPRouteEntry *ipreRow
// DWORD dwNextHopMask)
//
#define ConvertStackToRTM(route,ipreRow,mask){ \
(route)->RR_Network.N_NetNumber = (ipreRow)->ire_dest; \
(route)->RR_InterfaceID = (ipreRow)->ire_index; \
(route)->RR_FamilySpecificData.FSD_Metric = \
(route)->RR_FamilySpecificData.FSD_Metric1 = (ipreRow)->ire_metric1; \
(route)->RR_FamilySpecificData.FSD_Metric2 = (ipreRow)->ire_metric2; \
(route)->RR_FamilySpecificData.FSD_Metric3 = (ipreRow)->ire_metric3; \
(route)->RR_FamilySpecificData.FSD_Metric4 = (ipreRow)->ire_metric4; \
(route)->RR_FamilySpecificData.FSD_Metric5 = (ipreRow)->ire_metric5; \
(route)->RR_FamilySpecificData.FSD_Priority = 0; \
(route)->RR_NextHopAddress.N_NetNumber = (ipreRow)->ire_nexthop; \
(route)->RR_NextHopAddress.N_NetMask = (mask); \
(route)->RR_Network.N_NetMask = (ipreRow)->ire_mask; \
(route)->RR_FamilySpecificData.FSD_Policy = 0; \
(route)->RR_FamilySpecificData.FSD_NextHopAS = 0; \
(route)->RR_FamilySpecificData.FSD_Type = (ipreRow)->ire_type; \
(route)->RR_RoutingProtocol = (ipreRow)->ire_proto; \
ClearRouteFlags((route)); \
SetRouteValid((route)); \
SetRouteStack((route)); }
//
// VOID
// ConvertStackToForward(PMIB_IPFORWARDROW forwardRow,
// IPRouteEntry *ipreRow)
//
#define ConvertStackToForward(forwardRow,ipreRow) { \
(forwardRow)->dwForwardDest = (ipreRow)->ire_dest; \
(forwardRow)->dwForwardIfIndex = (ipreRow)->ire_index; \
(forwardRow)->dwForwardMetric1 = (ipreRow)->ire_metric1; \
(forwardRow)->dwForwardMetric2 = (ipreRow)->ire_metric2; \
(forwardRow)->dwForwardMetric3 = (ipreRow)->ire_metric3; \
(forwardRow)->dwForwardMetric4 = (ipreRow)->ire_metric4; \
(forwardRow)->dwForwardMetric5 = (ipreRow)->ire_metric5; \
(forwardRow)->dwForwardNextHop = (ipreRow)->ire_nexthop; \
(forwardRow)->dwForwardType = (ipreRow)->ire_type; \
(forwardRow)->dwForwardProto = (ipreRow)->ire_proto; \
(forwardRow)->dwForwardAge = (ipreRow)->ire_age; \
(forwardRow)->dwForwardMask = (ipreRow)->ire_mask; \
(forwardRow)->dwForwardNextHopAS = 0; \
(forwardRow)->dwForwardPolicy = 0; }
*/
#define IPADDRCACHE 0
#define IPFORWARDCACHE IPADDRCACHE + 1
#define IPNETCACHE IPFORWARDCACHE + 1
#define TCPCACHE IPNETCACHE + 1
#define UDPCACHE TCPCACHE + 1
//
// Last Cache + 1
//
#define NUM_CACHE UDPCACHE + 1
//
// We tag the ICB_LIST and the PROTOCOL_CB_LIST locks at the end of the
// locks used by the MIB handler.
//
#define ICB_LIST NUM_CACHE
#define PROTOCOL_CB_LIST ICB_LIST + 1
#define BINDING_LIST PROTOCOL_CB_LIST + 1
#define BOUNDARY_TABLE BINDING_LIST + 1
#define MZAP_TIMER BOUNDARY_TABLE + 1
#define ZBR_LIST MZAP_TIMER + 1
#define ZLE_LIST ZBR_LIST + 1
#define ZAM_CACHE ZLE_LIST + 1
#define STACK_ROUTE_LIST ZAM_CACHE + 1
//
// Number of locks
//
#define NUM_LOCKS STACK_ROUTE_LIST + 1
#define IPADDRCACHE_TIMEOUT 1000
#define IPFORWARDCACHE_TIMEOUT 1000
#define IPNETCACHE_TIMEOUT 1000
#define TCPCACHE_TIMEOUT 1000
#define UDPCACHE_TIMEOUT 1000
#define ARPENTCACHE_TIMEOUT 300 * IPNETCACHE_TIMEOUT
#define SPILLOVER 5
#define MAX_DIFF 5
//
// All ACCESS_XXX > ACCESS_GET_NEXT are SETS
// All ACCESS_XXX which have bit0 set require an EXACT MATCH
//
#define ACCESS_GET 1
#define ACCESS_GET_FIRST 2
#define ACCESS_GET_NEXT 4
#define ACCESS_SET 5
#define ACCESS_CREATE_ENTRY 7
#define ACCESS_DELETE_ENTRY 9
#define EXACT_MATCH(X) ((X) & 0x00000001)
#ifdef DEADLOCK_DEBUG
extern PBYTE g_pszLockNames[];
#define EXIT_LOCK(id) { \
Trace1(LOCK,"Exit lock %s",g_pszLockNames[id]); \
RtlReleaseResource(&(g_LockTable[(id)])); \
Trace1(LOCK,"Exited lock %s",g_pszLockNames[id]); \
}
#define READER_TO_WRITER(id) { \
Trace1(LOCK,"Reader To Writer %s",g_pszLockNames[id]); \
RtlConvertSharedToExclusive(&(g_LockTable[(id)])); \
Trace1(LOCK,"Promoted for %s",g_pszLockNames[id]); \
}
#define ENTER_READER(id) { \
Trace1(LOCK,"Entering Reader %s",g_pszLockNames[id]); \
RtlAcquireResourceShared(&(g_LockTable[(id)]),TRUE); \
Trace1(LOCK,"Entered %s",g_pszLockNames[id]); \
}
#define ENTER_WRITER(id) { \
Trace1(LOCK,"Entering Writer %s",g_pszLockNames[id]); \
RtlAcquireResourceExclusive(&(g_LockTable[(id)]),TRUE); \
Trace1(LOCK,"Entered %s",g_pszLockNames[id]); \
}
#define WRITER_TO_READER(id) { \
Trace1(LOCK,"Writer To Reader %s",g_pszLockNames[id]); \
RtlConvertExclusiveToShared(&(g_LockTable[(id)])); \
Trace1(LOCK,"Demoted for %s",g_pszLockNames[id]); \
}
#else // DEADLOCK_DEBUG
#define EXIT_LOCK(id) RtlReleaseResource(&(g_LockTable[(id)]))
#define READER_TO_WRITER(id) RtlConvertSharedToExclusive(&(g_LockTable[(id)]))
#define ENTER_READER(id) RtlAcquireResourceShared(&(g_LockTable[(id)]),TRUE)
#define ENTER_WRITER(id) RtlAcquireResourceExclusive(&(g_LockTable[(id)]),TRUE)
#define WRITER_TO_READER(id) RtlConvertExclusiveToShared(&(g_LockTable[(id)]))
#endif // DEADLOCK_DEBUG
#if DBG
#define IpRtAssert(exp){ \
if(!(exp)) \
{ \
TracePrintf(TraceHandle, \
"Assertion failed in %s : %d \n",__FILE__,__LINE__);\
RouterAssert(#exp,__FILE__,__LINE__,NULL); \
} \
}
#else
#define IpRtAssert(exp)
#endif
//
// Registry defines
//
#define REGISTRY_ENABLE_DHCP "EnableDHCP"
#define REGISTRY_IPADDRESS "IPAddress"
#define REGISTRY_SUBNETMASK "SubnetMask"
#define REGISTRY_DHCPSUBNETMASK "DhcpSubnetMask"
#define REGISTRY_DHCPIPADDRESS "DhcpIPAddress"
#define REGISTRY_AUTOCONFIGSUBNETMASK "IPAutoconfigurationMask"
#define REGISTRY_AUTOCONFIGIPADDRESS "IPAutoconfigurationAddress"
#define REG_KEY_TCPIP_INTERFACES \
"System\\CurrentControlSet\\Services\\TCPIP\\Parameters\\Interfaces"
#define net_long(x) (((((ulong)(x))&0xffL)<<24) | \
((((ulong)(x))&0xff00L)<<8) | \
((((ulong)(x))&0xff0000L)>>8) | \
((((ulong)(x))&0xff000000L)>>24))
#define SIZEOF_ROUTEINFO(X) ((X) * sizeof (MIB_IPFORWARDROW))
#define MAX_ROUTES_IN_BUFFER(X) ((X) / sizeof (MIB_IPFORWARDROW))
#define PRINT_IPADDR(x) \
((x)&0x000000ff),(((x)&0x0000ff00)>>8),(((x)&0x00ff0000)>>16),(((x)&0xff000000)>>24)
//
// VOID
// PrintRoute(IPMultihopRouteEntry pRoute)
//
#define PrintRoute(ID,p) \
{ \
ULONG _i; \
Trace4(ID,"%d.%d.%d.%d/%d.%d.%d.%d Proto: %d Metric %d", \
PRINT_IPADDR((p)->imre_routeinfo.ire_dest), \
PRINT_IPADDR((p)->imre_routeinfo.ire_mask), \
(p)->imre_routeinfo.ire_proto, (p)->imre_routeinfo.ire_metric1); \
Trace4(ID,"Via %d.%d.%d.%d/0x%x Type %d Context 0x%x", \
PRINT_IPADDR((p)->imre_routeinfo.ire_nexthop), \
(p)->imre_routeinfo.ire_index, \
(p)->imre_routeinfo.ire_type, \
(p)->imre_routeinfo.ire_context); \
for(_i = 1; _i < (p)->imre_numnexthops; i++) { \
Trace4(ID,"Via %d.%d.%d.%d/0x%x Type %d Context 0x%x\n", \
PRINT_IPADDR((p)->imre_morenexthops[_i].ine_nexthop), \
(p)->imre_morenexthops[_i].ine_ifindex, \
(p)->imre_morenexthops[_i].ine_iretype, \
(p)->imre_morenexthops[_i].ine_context);} \
}
//
// System Unit is in 100s of NanoSecs = 1 * 10^7
//
#define SYS_UNITS_IN_1_SEC 10000000
#define SecsToSysUnits(X) RtlEnlargedIntegerMultiply((X),SYS_UNITS_IN_1_SEC)
#endif // __DEFS_H__