Source code of Windows XP (NT5)
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298 lines
7.1 KiB

/*++
Copyright (c) 1996 Microsoft Corporation
Module Name:
Abstract:
Author:
Revision History:
--*/
#include "allinc.h"
static UINT rguiIfEntryIndexList[] = { 1, 3, 6, 1, 2, 1, 2, 2, 1, 1, 0};
static AsnObjectIdentifier aoiIfLinkIndexOid = {sizeof(rguiIfEntryIndexList) / sizeof (UINT),
rguiIfEntryIndexList};
BOOL
MibTrap(
AsnInteger *paiGenericTrap,
AsnInteger *paiSpecificTrap,
RFC1157VarBindList *pr1157vblVariableBindings
)
/*++
Routine Description
Locks
Arguments
Return Value
NO_ERROR
--*/
{
AsnInteger NumberOfLinks;
AsnInteger LinkNumber;
AsnInteger errorStatus;
RFC1157VarBind my_item;
DWORD i, j, dwResult, dwIndex;
BOOL bFound;
TraceEnter("MibTrap");
if(g_Cache.pRpcIfTable is NULL)
{
TRACE0("IF Cache not setup");
UpdateCache(MIB_II_IF);
TraceLeave("MibTrap");
return FALSE;
}
EnterWriter(MIB_II_TRAP);
if(g_dwValidStatusEntries is 0)
{
TRACE0("Status table is empty");
//
// This is the case where we are being polled for the first time ever, or
// we have cycled once through all the interfaces and the poll timer has
// fired again
//
//
// We check the amount of memory needed and copy out the contents of
// the current IF cache
//
EnterReader(MIB_II_IF);
if((g_dwTotalStatusEntries < g_Cache.pRpcIfTable->dwNumEntries) or
(g_dwTotalStatusEntries > g_Cache.pRpcIfTable->dwNumEntries + MAX_DIFF))
{
if(g_pisStatusTable isnot NULL)
{
HeapFree(g_hPrivateHeap,
0,
g_pisStatusTable);
}
g_pisStatusTable =
HeapAlloc(g_hPrivateHeap,
0,
sizeof(MIB_IFSTATUS) * (g_Cache.pRpcIfTable->dwNumEntries + SPILLOVER));
if(g_pisStatusTable is NULL)
{
TRACE2("Error %d allocating %d bytes for status table",
GetLastError(),
sizeof(MIB_IFSTATUS) * (g_Cache.pRpcIfTable->dwNumEntries + SPILLOVER));
ReleaseLock(MIB_II_IF);
ReleaseLock(MIB_II_TRAP);
TraceLeave("MibTrap");
return FALSE;
}
g_dwTotalStatusEntries = g_Cache.pRpcIfTable->dwNumEntries + SPILLOVER;
}
//
// Copy out the oper status
//
for(i = 0; i < g_Cache.pRpcIfTable->dwNumEntries; i++)
{
g_pisStatusTable[i].dwIfIndex =
g_Cache.pRpcIfTable->table[i].dwIndex;
if(g_bFirstTime)
{
g_pisStatusTable[i].dwOperationalStatus =
IF_OPER_STATUS_NON_OPERATIONAL;
}
else
{
g_pisStatusTable[i].dwOperationalStatus =
g_Cache.pRpcIfTable->table[i].dwOperStatus;
}
}
if(g_bFirstTime)
{
g_bFirstTime = FALSE;
}
g_dwValidStatusEntries = g_Cache.pRpcIfTable->dwNumEntries;
ReleaseLock(MIB_II_IF);
}
dwResult = UpdateCache(MIB_II_IF);
if(dwResult isnot NO_ERROR)
{
TRACE1("Error %d updating IF cache",
dwResult);
ReleaseLock(MIB_II_TRAP);
return FALSE;
}
EnterReader(MIB_II_IF);
bFound = FALSE;
for(i = 0;
(i < g_Cache.pRpcIfTable->dwNumEntries) and !bFound;
i++)
{
//
// Loop till we reach the end of the table or we find the first
// I/F whose status is different
//
for(j = 0; j < g_dwValidStatusEntries; j++)
{
if(g_pisStatusTable[j].dwIfIndex > g_Cache.pRpcIfTable->table[i].dwIndex)
{
//
// We have passed the index in the array. It cant be after this
// point since the tables are ordered
//
dwIndex = i;
bFound = TRUE;
//
// Since we have a new I/F we need to reread the StatusTable
// If we dont then we will always hit this interface and get
// stuck in a loop
//
g_dwValidStatusEntries = 0;
TRACE1("IF index %d not found in status table",
g_Cache.pRpcIfTable->table[i].dwIndex);
break;
}
if(g_pisStatusTable[j].dwIfIndex is g_Cache.pRpcIfTable->table[i].dwIndex)
{
if(g_pisStatusTable[j].dwOperationalStatus isnot g_Cache.pRpcIfTable->table[i].dwOperStatus)
{
//
// Its changed
//
TRACE2("Status changed for IF %d. New status is %d",
g_Cache.pRpcIfTable->table[i].dwIndex,
g_Cache.pRpcIfTable->table[i].dwOperStatus);
g_pisStatusTable[j].dwOperationalStatus =
g_Cache.pRpcIfTable->table[i].dwOperStatus;
dwIndex = i;
bFound = TRUE;
}
//
// Try the next i/f or break out of outer loop depending
// on bFound
//
break;
}
}
}
if(!bFound)
{
//
// No i/f found whose status had changed. Set valid entries to 0 so that
// next time around we reread the cache
//
g_dwValidStatusEntries = 0;
ReleaseLock(MIB_II_IF);
ReleaseLock(MIB_II_TRAP);
TraceLeave("MibTrap");
return FALSE;
}
if(g_Cache.pRpcIfTable->table[dwIndex].dwOperStatus is IF_ADMIN_STATUS_UP)
{
*paiGenericTrap = SNMP_GENERICTRAP_LINKUP;
}
else
{
*paiGenericTrap = SNMP_GENERICTRAP_LINKDOWN;
}
pr1157vblVariableBindings->list = (RFC1157VarBind *)SnmpUtilMemAlloc((sizeof(RFC1157VarBind)));
if (pr1157vblVariableBindings->list is NULL)
{
ReleaseLock(MIB_II_IF);
ReleaseLock(MIB_II_TRAP);
TraceLeave("MibTrap");
return FALSE;
}
pr1157vblVariableBindings->len = 1;
SnmpUtilOidCpy(&((pr1157vblVariableBindings->list)->name),
&aoiIfLinkIndexOid);
(pr1157vblVariableBindings->list)->name.ids[10] =
g_Cache.pRpcIfTable->table[dwIndex].dwIndex;
(pr1157vblVariableBindings->list)->value.asnType = ASN_INTEGER;
(pr1157vblVariableBindings->list)->value.asnValue.number = g_Cache.pRpcIfTable->table[dwIndex].dwIndex;
*paiSpecificTrap = 0;
ReleaseLock(MIB_II_IF);
ReleaseLock(MIB_II_TRAP);
TraceLeave("MibTrap");
return TRUE;
}