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windows-server-2003/net/nwlink/nb/cache.c

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/*++
Copyright (c) 1989-1993 Microsoft Corporation
Module Name:
cache.c
Abstract:
This module contains the name cache routines for the Netbios
module of the ISN transport.
Author:
Adam Barr (adamba) 20-December-1993
Environment:
Kernel mode
Revision History:
--*/
#include "precomp.h"
#pragma hdrstop
#ifdef ALLOC_PRAGMA
#pragma alloc_text(PAGE,CreateNetbiosCacheTable)
#endif
#ifdef RASAUTODIAL
#include <acd.h>
#include <acdapi.h>
extern BOOLEAN fAcdLoadedG;
extern ACD_DRIVER AcdDriverG;
BOOLEAN
NbiAttemptAutoDial(
IN PDEVICE pDevice,
IN PCONNECTION pConnection,
IN ULONG ulFlags,
IN ACD_CONNECT_CALLBACK pProc,
IN PREQUEST pRequest
);
VOID
NbiRetryTdiConnect(
IN BOOLEAN fSuccess,
IN PVOID *pArgs
);
#endif // RASAUTODIAL
//
// We should change to monitor add name packets better,
// so if we get an add for a different place we attempt to determine
// if it is real or bogus and update if possible.
//
NTSTATUS
CacheFindName(
IN PDEVICE Device,
IN FIND_NAME_TYPE Type,
IN PUCHAR RemoteName OPTIONAL,
OUT PNETBIOS_CACHE * CacheName
)
/*++
Routine Description:
This routine looks up a particular remote name in the
Netbios name cache. If it cannot find it, a find name
request is queued up.
THIS REQUEST IS CALLED WITH THE DEVICE LOCK HELD AND
RETURNS WITH IT HELD.
Arguments:
Device - The netbios device.
Type - Defines the type. The effect this has is:
FindNameConnect - On connects we will ignore an existing
cache entry if it got no response before.
FindNameNetbiosFindName - For these we ignore an existing
cache entry if it is for a group name -- this is
because the find name wants the address of every
machine, not just the network list.
FindNameOther - Normal handling is done.
RemoteName - The name to be discovered -- will be NULL if it
is the broadcast address.
CacheName - Returns the cache entry that was discovered.
Return Value:
None.
--*/
{
PLIST_ENTRY p;
PSLIST_ENTRY s;
PNETBIOS_CACHE FoundCacheName;
PNB_SEND_RESERVED Reserved;
PUCHAR RealRemoteName; // RemoteName or NetbiosBroadcastName
//
// First scan the netbios name cache to see if we know
// about this remote.
//
if (RemoteName) {
RealRemoteName = RemoteName;
} else {
RealRemoteName = NetbiosBroadcastName;
}
if ( FindInNetbiosCacheTable ( Device->NameCache,
RealRemoteName,
&FoundCacheName ) == STATUS_SUCCESS ) {
//
// If this is a netbios find name, we only can use unique
// names in the cache; for the group ones we need to requery
// because the cache only lists networks, not individual machines.
// For connect requests, if we find an empty cache entry we
// remove it and requery.
//
if ( FoundCacheName->Unique || (Type != FindNameNetbiosFindName) ) {
if (FoundCacheName->NetworksUsed > 0) {
*CacheName = FoundCacheName;
NB_DEBUG2 (CACHE, ("Found cache name <%.16s>\n", RemoteName ? RemoteName : "<broadcast>"));
return STATUS_SUCCESS;
} else {
if (Type != FindNameConnect) {
if (FoundCacheName->FailedOnDownWan) {
NB_DEBUG2 (CACHE, ("Found cache name, but down wan <%.16s>\n", RemoteName ? RemoteName : "<broadcast>"));
return STATUS_DEVICE_DOES_NOT_EXIST;
} else {
NB_DEBUG2 (CACHE, ("Found cache name, but no nets <%.16s>\n", RemoteName ? RemoteName : "<broadcast>"));
return STATUS_BAD_NETWORK_PATH;
}
} else {
//
// This is a connect and the current cache entry
// has zero names; delete it.
//
RemoveFromNetbiosCacheTable ( Device->NameCache, FoundCacheName );
CTEAssert (FoundCacheName->ReferenceCount == 1);
if (--FoundCacheName->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Free unneeded empty cache entry %lx\n", FoundCacheName));
NbiFreeMemory(
FoundCacheName,
sizeof(NETBIOS_CACHE) + ((FoundCacheName->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Free due to replacement");
}
}
}
}
}
//
// There was no suitable cache entry for this network, first see
// if there is one pending.
//
for (p = Device->WaitingFindNames.Flink;
p != &Device->WaitingFindNames;
p = p->Flink) {
Reserved = CONTAINING_RECORD (p, NB_SEND_RESERVED, WaitLinkage);
//
// For this purpose we ignore a packet if a route
// has been found and it was for a unique name. This
// is because the cache information has already been
// inserted for this name. Otherwise if the name has
// since been deleted from the cache, the request
// that is looking for this name will starve because
// FindNameTimeout will just destroy the packet.
//
if (NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseUnique) {
continue;
}
if (RtlEqualMemory(
Reserved->u.SR_FN.NetbiosName,
RealRemoteName, 16)) {
NB_DEBUG2 (CACHE, ("Cache name already pending <%.16s>\n", RemoteName ? RemoteName : "<broadcast>"));
//
// There is already one pending. If it is for a group
// name and this is a netbios find name, we make sure
// the retry count is such that at least one more
// query will be sent, so the netbios find name
// buffer can be filled with the responses from this.
//
if ((Type == FindNameNetbiosFindName) &&
(NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseGroup) &&
(Reserved->u.SR_FN.RetryCount == Device->BroadcastCount)) {
--Reserved->u.SR_FN.RetryCount;
}
return STATUS_PENDING;
}
}
s = NbiPopSendPacket(Device, TRUE);
if (s == NULL) {
NB_DEBUG (CACHE, ("Couldn't get packet to find <%.16s>\n", RemoteName ? RemoteName : "<broadcast>"));
return STATUS_INSUFFICIENT_RESOURCES;
}
Reserved = CONTAINING_RECORD (s, NB_SEND_RESERVED, PoolLinkage);
//
// We have the packet, fill it in for this request.
//
CTEAssert (Reserved->SendInProgress == FALSE);
Reserved->SendInProgress = FALSE;
Reserved->Type = SEND_TYPE_FIND_NAME;
RtlCopyMemory (Reserved->u.SR_FN.NetbiosName, RealRemoteName, 16);
Reserved->u.SR_FN.StatusAndSentOnUpLine = FNStatusNoResponse; // SentOnUpLine is FALSE
Reserved->u.SR_FN.RetryCount = 0;
Reserved->u.SR_FN.NewCache = NULL;
Reserved->u.SR_FN.SendTime = Device->FindNameTime;
#if !defined(_PNP_POWER)
Reserved->u.SR_FN.CurrentNicId = 1;
(VOID)(*Device->Bind.QueryHandler)( // Check return code ?
IPX_QUERY_MAX_TYPE_20_NIC_ID,
(USHORT)0,
&Reserved->u.SR_FN.MaximumNicId,
sizeof(USHORT),
NULL);
if (Reserved->u.SR_FN.MaximumNicId == 0) {
Reserved->u.SR_FN.MaximumNicId = 1; // code assumes at least one
}
#endif !_PNP_POWER
NB_DEBUG2 (CACHE, ("Queued FIND_NAME %lx for <%.16s>\n",
Reserved, RemoteName ? RemoteName : "<broadcast>"));
InsertHeadList(
&Device->WaitingFindNames,
&Reserved->WaitLinkage);
++Device->FindNamePacketCount;
if (!Device->FindNameTimerActive) {
Device->FindNameTimerActive = TRUE;
NbiReferenceDevice (Device, DREF_FN_TIMER);
CTEStartTimer(
&Device->FindNameTimer,
1, // 1 ms, i.e. expire immediately
FindNameTimeout,
(PVOID)Device);
}
NbiReferenceDevice (Device, DREF_FIND_NAME);
return STATUS_PENDING;
} /* CacheFindName */
VOID
FindNameTimeout(
CTEEvent * Event,
PVOID Context
)
/*++
Routine Description:
This routine is called when the find name timer expires.
It is called every FIND_NAME_GRANULARITY milliseconds unless there
is nothing to do.
Arguments:
Event - The event used to queue the timer.
Context - The context, which is the device pointer.
Return Value:
None.
--*/
{
PDEVICE Device = (PDEVICE)Context;
PLIST_ENTRY p, q;
PNB_SEND_RESERVED Reserved;
PNDIS_PACKET Packet;
NB_CONNECTIONLESS UNALIGNED * Header;
PNETBIOS_CACHE FoundCacheName;
NDIS_STATUS NdisStatus;
#if !defined(_PNP_POWER)
static IPX_LOCAL_TARGET BroadcastTarget = { 0, { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } };
#endif !_PNP_POWER
NB_DEFINE_LOCK_HANDLE (LockHandle)
NB_SYNC_GET_LOCK (&Device->Lock, &LockHandle);
++Device->FindNameTime;
if (Device->FindNamePacketCount == 0) {
NB_DEBUG2 (CACHE, ("FindNameTimeout exiting\n"));
Device->FindNameTimerActive = FALSE;
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
NbiDereferenceDevice (Device, DREF_FN_TIMER);
return;
}
//
// Check what is on the queue; this is set up as a
// loop but in fact it rarely does (under no
// circumstances can we send more than one packet
// each time this function executes).
//
while (TRUE) {
p = Device->WaitingFindNames.Flink;
if (p == &Device->WaitingFindNames) {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
break;
}
Reserved = CONTAINING_RECORD (p, NB_SEND_RESERVED, WaitLinkage);
if (Reserved->SendInProgress) {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
break;
}
if (NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseUnique) {
//
// This was a find name for a unique name which got a
// response but was not freed at the time (because
// SendInProgress was still TRUE) so we free it now.
//
(VOID)RemoveHeadList (&Device->WaitingFindNames);
ExInterlockedPushEntrySList(
&Device->SendPacketList,
&Reserved->PoolLinkage,
&NbiGlobalPoolInterlock);
--Device->FindNamePacketCount;
//
// It is OK to do this with the lock held because
// it won't be the last one (we have the RIP_TIMER ref).
//
NbiDereferenceDevice (Device, DREF_FIND_NAME);
continue;
}
if (((SHORT) (Device->FindNameTime - Reserved->u.SR_FN.SendTime)) < 0) {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
break;
}
(VOID)RemoveHeadList (&Device->WaitingFindNames);
//
// Increment the counter and see if we have sent
// all the frames we need to (we will age out
// here if we got no response for a unique query,
// or if we are doing a global name or broadcast
// search). We also kill the query right now if
// we have not found anything but down wan lines
// to send it on.
//
if ((++Reserved->u.SR_FN.RetryCount > Device->BroadcastCount) ||
((Reserved->u.SR_FN.RetryCount > 1) && (!NB_GET_SR_FN_SENT_ON_UP_LINE(Reserved)))) {
#if DBG
if (Reserved->u.SR_FN.RetryCount > Device->BroadcastCount) {
NB_DEBUG2 (CACHE, ("FindNameTimeout aging out %lx\n", Reserved));
} else {
NB_DEBUG2 (CACHE, ("FindNameTimeout no active nets %lx\n", Reserved));
}
#endif
//
// This packet is stale, clean it up and continue.
//
if (NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseGroup) {
CTEAssert (Reserved->u.SR_FN.NewCache != NULL);
//
// If this was a group name and we have a new
// cache entry that we have been building for it,
// then insert that in the queue and use it
// to succeed any pending connects. Because
// netbios find name requests can cause cache
// requests for group names to be queued even
// if we already have on in the database, we
// first scan for old ones and remove them.
//
if ( FindInNetbiosCacheTable( Device->NameCache,
Reserved->u.SR_FN.NetbiosName,
&FoundCacheName ) == STATUS_SUCCESS ) {
NB_DEBUG2 (CACHE, ("Found old group cache name <%.16s>\n", FoundCacheName->NetbiosName));
RemoveFromNetbiosCacheTable ( Device->NameCache, FoundCacheName );
if (--FoundCacheName->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Free replaced cache entry %lx\n", FoundCacheName));
NbiFreeMemory(
FoundCacheName,
sizeof(NETBIOS_CACHE) + ((FoundCacheName->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Free due to replacement");
}
}
Reserved->u.SR_FN.NewCache->TimeStamp = Device->CacheTimeStamp;
InsertInNetbiosCacheTable(
Device->NameCache,
Reserved->u.SR_FN.NewCache);
//
// Reference it for the moment since CacheHandlePending
// uses it after releasing the lock. CacheHandlePending
// will dereference it.
//
++Reserved->u.SR_FN.NewCache->ReferenceCount;
//
// This call releases the locks
//
CacheHandlePending(
Device,
Reserved->u.SR_FN.NetbiosName,
NetbiosNameFound,
Reserved->u.SR_FN.NewCache
NB_LOCK_HANDLE_ARG(LockHandle));
} else {
CTEAssert (Reserved->u.SR_FN.NewCache == NULL);
//
// Allocate an empty cache entry to record the
// fact that we could not find this name, unless
// there is already an entry for this name.
//
if ( FindInNetbiosCacheTable( Device->NameCache,
Reserved->u.SR_FN.NetbiosName,
&FoundCacheName ) == STATUS_SUCCESS ) {
NB_DEBUG2 (CACHE, ("Don't replace old group cache name with empty <%16.16s>\n", FoundCacheName->NetbiosName));
} else {
PNETBIOS_CACHE EmptyCache;
//
// Nothing found.
//
EmptyCache = NbiAllocateMemory (sizeof(NETBIOS_CACHE), MEMORY_CACHE, "Cache Entry");
if (EmptyCache != NULL) {
RtlZeroMemory (EmptyCache, sizeof(NETBIOS_CACHE));
NB_DEBUG2 (CACHE, ("Allocate new empty cache %lx for <%.16s>\n",
EmptyCache, Reserved->u.SR_FN.NetbiosName));
RtlCopyMemory (EmptyCache->NetbiosName, Reserved->u.SR_FN.NetbiosName, 16);
EmptyCache->Unique = TRUE; // so we'll delete it if we see an add name
EmptyCache->ReferenceCount = 1;
EmptyCache->NetworksAllocated = 1;
EmptyCache->TimeStamp = Device->CacheTimeStamp;
EmptyCache->NetworksUsed = 0;
EmptyCache->FailedOnDownWan = (BOOLEAN)
!NB_GET_SR_FN_SENT_ON_UP_LINE(Reserved);
InsertInNetbiosCacheTable (
Device->NameCache,
EmptyCache);
}
}
//
// Fail all datagrams, etc. that were waiting for
// this route. This call releases the lock.
//
CacheHandlePending(
Device,
Reserved->u.SR_FN.NetbiosName,
NB_GET_SR_FN_SENT_ON_UP_LINE(Reserved) ?
NetbiosNameNotFoundNormal :
NetbiosNameNotFoundWanDown,
NULL
NB_LOCK_HANDLE_ARG(LockHandle));
}
ExInterlockedPushEntrySList(
&Device->SendPacketList,
&Reserved->PoolLinkage,
&NbiGlobalPoolInterlock);
NB_SYNC_GET_LOCK (&Device->Lock, &LockHandle);
--Device->FindNamePacketCount;
NbiDereferenceDevice (Device, DREF_FIND_NAME);
continue;
}
//
// Send the packet out again. We first set the time so
// it won't be sent again until the appropriate timeout.
//
Reserved->u.SR_FN.SendTime = (USHORT)(Device->FindNameTime + Device->FindNameTimeout);
InsertTailList (&Device->WaitingFindNames, &Reserved->WaitLinkage);
CTEAssert (Reserved->Identifier == IDENTIFIER_NB);
CTEAssert (!Reserved->SendInProgress);
Reserved->SendInProgress = TRUE;
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
//
// If this is the first retry, we need to initialize the packet
//
if ( Reserved->u.SR_FN.RetryCount == 1 ) {
//
// Fill in the IPX header -- the default header has the broadcast
// address on net 0 as the destination IPX address, which is
// what we want.
//
Header = (NB_CONNECTIONLESS UNALIGNED *)(&Reserved->Header[Device->Bind.IncludedHeaderOffset]);
RtlCopyMemory((PVOID)&Header->IpxHeader, &Device->ConnectionlessHeader, sizeof(IPX_HEADER));
Header->IpxHeader.PacketLength[0] = (sizeof(IPX_HEADER)+sizeof(NB_NAME_FRAME)) / 256;
Header->IpxHeader.PacketLength[1] = (sizeof(IPX_HEADER)+sizeof(NB_NAME_FRAME)) % 256;
Header->IpxHeader.PacketType = (UCHAR)(Device->Internet ? 0x014 : 0x04);
//
// Now fill in the Netbios header.
//
RtlZeroMemory (Header->NameFrame.RoutingInfo, 32);
Header->NameFrame.ConnectionControlFlag = 0x00;
// Header->NameFrame.DataStreamType = NB_CMD_FIND_NAME;
Header->NameFrame.DataStreamType2 = NB_CMD_FIND_NAME;
Header->NameFrame.NameTypeFlag = 0x00;
RtlCopyMemory(
Header->NameFrame.Name,
Reserved->u.SR_FN.NetbiosName,
16);
}
//
// Now submit the packet to IPX.
//
Packet = CONTAINING_RECORD (Reserved, NDIS_PACKET, ProtocolReserved[0]);
NB_DEBUG2 (CACHE, ("FindNameTimeout sending %lx\n", Reserved));
NdisAdjustBufferLength(NB_GET_NBHDR_BUFF(Packet), sizeof(IPX_HEADER) +
sizeof(NB_NAME_FRAME));
if ((NdisStatus =
(*Device->Bind.SendHandler)(
&BroadcastTarget,
Packet,
sizeof(IPX_HEADER) + sizeof(NB_NAME_FRAME),
sizeof(IPX_HEADER) + sizeof(NB_NAME_FRAME))) != STATUS_PENDING) {
NbiSendComplete(
Packet,
NdisStatus);
}
break;
}
//
// Since we did something this time, we restart the timer.
//
CTEStartTimer(
&Device->FindNameTimer,
FIND_NAME_GRANULARITY,
FindNameTimeout,
(PVOID)Device);
} /* FindNameTimeout */
VOID
CacheHandlePending(
IN PDEVICE Device,
IN PUCHAR RemoteName,
IN NETBIOS_NAME_RESULT Result,
IN PNETBIOS_CACHE CacheName OPTIONAL
IN NB_LOCK_HANDLE_PARAM(LockHandle)
)
/*++
Routine Description:
This routine cleans up pending datagrams and connects
that were waiting for a route to be discovered to a
given Netbios NAME. THIS ROUTINE IS CALLED WITH
DEVICE->LOCK ACQUIRED AND RETURNS WITH IT RELEASED.
Arguments:
Device - The device.
RemoteName - The netbios name that was being searched for.
Result - Indicates if the name was found, or not found due
to no response or wan lines being down.
CacheName - If Result is NetbiosNameFound, the cache entry for this name.
This entry has been referenced and this routine will deref it.
LockHandle - The handle used to acquire the lock.
Return Value:
None.
--*/
{
LIST_ENTRY DatagramList;
LIST_ENTRY ConnectList;
LIST_ENTRY AdapterStatusList;
LIST_ENTRY NetbiosFindNameList;
PNB_SEND_RESERVED Reserved;
PNDIS_PACKET Packet;
PLIST_ENTRY p;
PREQUEST ConnectRequest, DatagramRequest, AdapterStatusRequest, NetbiosFindNameRequest;
PCONNECTION Connection;
PADDRESS_FILE AddressFile;
TDI_ADDRESS_NETBIOS * RemoteAddress;
CTELockHandle CancelLH;
NB_DEFINE_LOCK_HANDLE (LockHandle1)
InitializeListHead (&DatagramList);
InitializeListHead (&ConnectList);
InitializeListHead (&AdapterStatusList);
InitializeListHead (&NetbiosFindNameList);
//
// Put all connect requests on ConnectList. They will
// be continued or failed later.
//
p = Device->WaitingConnects.Flink;
while (p != &Device->WaitingConnects) {
ConnectRequest = LIST_ENTRY_TO_REQUEST(p);
Connection = (PCONNECTION)REQUEST_OPEN_CONTEXT(ConnectRequest);
p = p->Flink;
if (RtlEqualMemory (Connection->RemoteName, RemoteName, 16)) {
RemoveEntryList (REQUEST_LINKAGE(ConnectRequest));
InsertTailList (&ConnectList, REQUEST_LINKAGE(ConnectRequest));
Connection->SubState = CONNECTION_SUBSTATE_C_W_ACK;
}
}
//
// Put all the datagrams on Datagram list. They will be
// sent or failed later.
//
p = Device->WaitingDatagrams.Flink;
while (p != &Device->WaitingDatagrams) {
Reserved = CONTAINING_RECORD (p, NB_SEND_RESERVED, WaitLinkage);
p = p->Flink;
//
// Check differently based on whether we were looking for
// the broadcast address or not.
//
if (Reserved->u.SR_DG.RemoteName == (PVOID)-1) {
if (!RtlEqualMemory (RemoteName, NetbiosBroadcastName, 16)) {
continue;
}
} else {
if (!RtlEqualMemory (RemoteName, Reserved->u.SR_DG.RemoteName->NetbiosName, 16)) {
continue;
}
}
RemoveEntryList (&Reserved->WaitLinkage);
InsertTailList (&DatagramList, &Reserved->WaitLinkage);
//
// Reference this here with the lock held.
//
if (Result == NetbiosNameFound) {
++CacheName->ReferenceCount;
}
}
//
// Put all the adapter status requests on AdapterStatus
// list. They will be sent or failed later.
//
p = Device->WaitingAdapterStatus.Flink;
while (p != &Device->WaitingAdapterStatus) {
AdapterStatusRequest = LIST_ENTRY_TO_REQUEST(p);
p = p->Flink;
RemoteAddress = (TDI_ADDRESS_NETBIOS *)REQUEST_INFORMATION(AdapterStatusRequest);
if (!RtlEqualMemory(
RemoteName,
RemoteAddress->NetbiosName,
16)) {
continue;
}
RemoveEntryList (REQUEST_LINKAGE(AdapterStatusRequest));
InsertTailList (&AdapterStatusList, REQUEST_LINKAGE(AdapterStatusRequest));
//
// Reference this here with the lock held.
//
if (Result == NetbiosNameFound) {
++CacheName->ReferenceCount;
}
}
//
// Put all the netbios find name requests on NetbiosFindName
// list. They will be completed later.
//
p = Device->WaitingNetbiosFindName.Flink;
while (p != &Device->WaitingNetbiosFindName) {
NetbiosFindNameRequest = LIST_ENTRY_TO_REQUEST(p);
p = p->Flink;
RemoteAddress = (TDI_ADDRESS_NETBIOS *)REQUEST_INFORMATION(NetbiosFindNameRequest);
if (!RtlEqualMemory(
RemoteName,
RemoteAddress->NetbiosName,
16)) {
continue;
}
RemoveEntryList (REQUEST_LINKAGE(NetbiosFindNameRequest));
InsertTailList (&NetbiosFindNameList, REQUEST_LINKAGE(NetbiosFindNameRequest));
}
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
//
// Now that the lock is free, process all the packets on
// the various lists.
//
for (p = ConnectList.Flink; p != &ConnectList; ) {
ConnectRequest = LIST_ENTRY_TO_REQUEST(p);
p = p->Flink;
Connection = (PCONNECTION)REQUEST_OPEN_CONTEXT(ConnectRequest);
NB_GET_CANCEL_LOCK( &CancelLH );
NB_SYNC_GET_LOCK (&Connection->Lock, &LockHandle1);
if ((Connection->State == CONNECTION_STATE_CONNECTING) &&
(Connection->SubState != CONNECTION_SUBSTATE_C_DISCONN)) {
if (Result == NetbiosNameFound) {
NB_DEBUG2 (CONNECTION, ("Found queued connect %lx on %lx\n", ConnectRequest, Connection));
//
// Continue with the connection sequence.
//
Connection->SubState = CONNECTION_SUBSTATE_C_W_ROUTE;
}
if ((Result == NetbiosNameFound) && (!ConnectRequest->Cancel)) {
IoSetCancelRoutine (ConnectRequest, NbiCancelConnectWaitResponse);
NB_SYNC_SWAP_IRQL( CancelLH, LockHandle1 );
NB_FREE_CANCEL_LOCK ( CancelLH );
Connection->LocalTarget = CacheName->Networks[0].LocalTarget;
RtlCopyMemory(&Connection->RemoteHeader.DestinationNetwork, &CacheName->FirstResponse, 12);
NbiReferenceConnectionSync (Connection, CREF_FIND_ROUTE);
NB_SYNC_FREE_LOCK (&Connection->Lock, LockHandle1);
*(UNALIGNED ULONG *)Connection->FindRouteRequest.Network = CacheName->FirstResponse.NetworkAddress;
RtlCopyMemory(Connection->FindRouteRequest.Node,CacheName->FirstResponse.NodeAddress,6);
Connection->FindRouteRequest.Identifier = IDENTIFIER_NB;
Connection->FindRouteRequest.Type = IPX_FIND_ROUTE_RIP_IF_NEEDED;
//
// When this completes, we will send the session init.
// We don't call it if the client is for network 0,
// instead just fake as if no route could be found
// and we will use the local target we got here.
//
if (CacheName->FirstResponse.NetworkAddress != 0) {
(*Device->Bind.FindRouteHandler) (&Connection->FindRouteRequest);
} else {
NbiFindRouteComplete( &Connection->FindRouteRequest, FALSE);
}
} else {
BOOLEAN bAutodialAttempt = FALSE;
if (ConnectRequest->Cancel) {
NB_DEBUG2 (CONNECTION, ("Cancelling connect %lx on %lx\n", ConnectRequest, Connection));
}
else
{
NB_DEBUG2 (CONNECTION, ("Timing out connect %lx on %lx\n", ConnectRequest, Connection));
}
ASSERT (Connection->ConnectRequest == ConnectRequest);
#ifdef RASAUTODIAL
if (fAcdLoadedG) {
CTELockHandle adirql;
BOOLEAN fEnabled;
//
// See if the automatic connection driver knows
// about this address before we search the
// network. If it does, we return STATUS_PENDING,
// and we will come back here via NbfRetryTdiConnect().
//
CTEGetLock(&AcdDriverG.SpinLock, &adirql);
fEnabled = AcdDriverG.fEnabled;
CTEFreeLock(&AcdDriverG.SpinLock, adirql);
if (fEnabled && NbiAttemptAutoDial(
Device,
Connection,
0,
NbiRetryTdiConnect,
ConnectRequest))
{
NB_SYNC_FREE_LOCK(&Connection->Lock, LockHandle1);
NB_FREE_CANCEL_LOCK(CancelLH);
bAutodialAttempt = TRUE;
}
}
#endif // RASAUTODIAL
if (!bAutodialAttempt) {
Connection->ConnectRequest = NULL;
Connection->SubState = CONNECTION_SUBSTATE_C_DISCONN;
NB_SYNC_FREE_LOCK (&Connection->Lock, LockHandle1);
IoSetCancelRoutine( ConnectRequest, (PDRIVER_CANCEL)NULL );
NB_FREE_CANCEL_LOCK( CancelLH );
REQUEST_STATUS(ConnectRequest) = STATUS_BAD_NETWORK_PATH;
NbiCompleteRequest(ConnectRequest);
NbiFreeRequest (Device, ConnectRequest);
}
NbiDereferenceConnection (Connection, CREF_CONNECT);
}
} else {
CTEAssert (0); // What happens to the IRP? Who completes it?
NB_SYNC_FREE_LOCK (&Connection->Lock, LockHandle1);
NB_FREE_CANCEL_LOCK( CancelLH );
}
NbiDereferenceConnection (Connection, CREF_WAIT_CACHE);
}
for (p = DatagramList.Flink; p != &DatagramList; ) {
Reserved = CONTAINING_RECORD (p, NB_SEND_RESERVED, WaitLinkage);
p = p->Flink;
if (Result == NetbiosNameFound) {
NB_DEBUG2 (DATAGRAM, ("Found queued datagram %lx on %lx\n", Reserved->u.SR_DG.DatagramRequest, Reserved->u.SR_DG.AddressFile));
Reserved->u.SR_DG.Cache = CacheName;
Reserved->u.SR_DG.CurrentNetwork = 0;
//
// CacheName was referenced above.
//
Packet = CONTAINING_RECORD (Reserved, NDIS_PACKET, ProtocolReserved[0]);
if ( REQUEST_NDIS_BUFFER( Reserved->u.SR_DG.DatagramRequest )) {
NdisChainBufferAtBack (Packet, REQUEST_NDIS_BUFFER(Reserved->u.SR_DG.DatagramRequest));
}
NbiTransmitDatagram (Reserved);
} else {
//
// Should we send it once as a broadcast
// on net 0, just in case??
//
AddressFile = Reserved->u.SR_DG.AddressFile;
DatagramRequest = Reserved->u.SR_DG.DatagramRequest;
NB_DEBUG2 (DATAGRAM, ("Timing out datagram %lx on %lx\n", DatagramRequest, AddressFile));
//
// If the failure was due to a down wan line indicate
// that, otherwise return success (so the browser won't
// confuse this with a down wan line).
//
if (Result == NetbiosNameNotFoundWanDown) {
REQUEST_STATUS(DatagramRequest) = STATUS_DEVICE_DOES_NOT_EXIST;
} else {
REQUEST_STATUS(DatagramRequest) = STATUS_BAD_NETWORK_PATH;
}
REQUEST_INFORMATION(DatagramRequest) = 0;
NbiCompleteRequest(DatagramRequest);
NbiFreeRequest (Device, DatagramRequest);
NbiDereferenceAddressFile (AddressFile, AFREF_SEND_DGRAM);
ExInterlockedPushEntrySList(
&Device->SendPacketList,
&Reserved->PoolLinkage,
&NbiGlobalPoolInterlock);
}
}
for (p = AdapterStatusList.Flink; p != &AdapterStatusList; ) {
AdapterStatusRequest = LIST_ENTRY_TO_REQUEST(p);
p = p->Flink;
if (Result == NetbiosNameFound) {
NB_DEBUG2 (QUERY, ("Found queued AdapterStatus %lx\n", AdapterStatusRequest));
//
// Continue with the AdapterStatus sequence. We put
// it in ActiveAdapterStatus, it will either get
// completed when a response is received or timed
// out by the long timeout.
//
REQUEST_STATUSPTR(AdapterStatusRequest) = (PVOID)CacheName;
//
// CacheName was referenced above.
//
REQUEST_INFORMATION (AdapterStatusRequest) = 0;
NB_INSERT_TAIL_LIST(
&Device->ActiveAdapterStatus,
REQUEST_LINKAGE (AdapterStatusRequest),
&Device->Lock);
NbiSendStatusQuery (AdapterStatusRequest);
} else {
NB_DEBUG2 (QUERY, ("Timing out AdapterStatus %lx\n", AdapterStatusRequest));
REQUEST_STATUS(AdapterStatusRequest) = STATUS_IO_TIMEOUT;
NbiCompleteRequest(AdapterStatusRequest);
NbiFreeRequest (Device, AdapterStatusRequest);
NbiDereferenceDevice (Device, DREF_STATUS_QUERY);
}
}
for (p = NetbiosFindNameList.Flink; p != &NetbiosFindNameList; ) {
NetbiosFindNameRequest = LIST_ENTRY_TO_REQUEST(p);
p = p->Flink;
//
// In fact there is not much difference between success or
// failure, since in the successful case the information
// will already have been written to the buffer. Just
// complete the request with the appropriate status,
// which will already be stored in the request.
//
if (Result == NetbiosNameFound) {
if (CacheName->Unique) {
NB_DEBUG2 (QUERY, ("Found queued unique NetbiosFindName %lx\n", NetbiosFindNameRequest));
} else {
NB_DEBUG2 (QUERY, ("Found queued group NetbiosFindName %lx\n", NetbiosFindNameRequest));
}
} else {
CTEAssert (REQUEST_STATUS(NetbiosFindNameRequest) == STATUS_IO_TIMEOUT);
NB_DEBUG2 (QUERY, ("Timed out NetbiosFindName %lx\n", NetbiosFindNameRequest));
}
//
// This sets REQUEST_INFORMATION(Request) to the correct value.
//
NbiSetNetbiosFindNameInformation (NetbiosFindNameRequest);
NbiCompleteRequest(NetbiosFindNameRequest);
NbiFreeRequest (Device, NetbiosFindNameRequest);
NbiDereferenceDevice (Device, DREF_NB_FIND_NAME);
}
//
// We referenced this temporarily so we could use it in here,
// deref and check if we need to delete it.
//
if (Result == NetbiosNameFound) {
NB_SYNC_GET_LOCK (&Device->Lock, &LockHandle1);
if (--CacheName->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Free newly allocated cache entry %lx\n", CacheName));
NbiFreeMemory(
CacheName,
sizeof(NETBIOS_CACHE) + ((CacheName->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Free in CacheHandlePending");
}
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle1);
}
} /* CacheHandlePending */
VOID
NbiProcessNameRecognized(
IN PIPX_LOCAL_TARGET RemoteAddress,
IN ULONG MacOptions,
IN PUCHAR PacketBuffer,
IN UINT PacketSize
)
/*++
Routine Description:
This routine handles NB_CMD_NAME_RECOGNIZED frames.
Arguments:
RemoteAddress - The local target this packet was received from.
MacOptions - The MAC options for the underlying NDIS binding.
LookaheadBuffer - The packet data, starting at the IPX
header.
PacketSize - The total length of the packet, starting at the
IPX header.
Return Value:
None.
--*/
{
PLIST_ENTRY p;
PDEVICE Device = NbiDevice;
PNETBIOS_CACHE NameCache;
PREQUEST NetbiosFindNameRequest;
PNB_SEND_RESERVED Reserved;
TDI_ADDRESS_NETBIOS * RemoteNetbiosAddress;
NB_CONNECTIONLESS UNALIGNED * Connectionless =
(NB_CONNECTIONLESS UNALIGNED *)PacketBuffer;
NB_DEFINE_LOCK_HANDLE(LockHandle)
#if 0
//
// We should handle responses from network 0
// differently -- if they are for a group name, we should
// keep them around but only until we get a non-zero
// response from the same card.
//
if (*(UNALIGNED ULONG *)(Connectionless->IpxHeader.SourceNetwork) == 0) {
return;
}
#endif
//
// We need to scan our queue of pending find name packets
// to see if someone is waiting for this name.
//
NB_SYNC_GET_LOCK (&Device->Lock, &LockHandle);
for (p = Device->WaitingFindNames.Flink;
p != &Device->WaitingFindNames;
p = p->Flink) {
Reserved = CONTAINING_RECORD (p, NB_SEND_RESERVED, WaitLinkage);
//
// Find names which have already found unique names are
// "dead", waiting for FindNameTimeout to remove them,
// and should be ignored when scanning the list.
//
if (NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseUnique) {
continue;
}
if (RtlEqualMemory (Reserved->u.SR_FN.NetbiosName, Connectionless->NameFrame.Name, 16)) {
break;
}
}
if (p == &Device->WaitingFindNames)
{
if ((FindInNetbiosCacheTable (Device->NameCache,
Connectionless->NameFrame.Name,
&NameCache ) == STATUS_SUCCESS) &&
(NameCache->NetworksUsed == 0))
{
//
// Update our information about this network if needed.
//
NameCache->Unique = (BOOLEAN)((Connectionless->NameFrame.NameTypeFlag & NB_NAME_GROUP) == 0);
if (RtlEqualMemory (Connectionless->NameFrame.Name, NetbiosBroadcastName, 16))
{
NameCache->Unique = FALSE;
}
RtlCopyMemory (&NameCache->FirstResponse, Connectionless->IpxHeader.SourceNetwork, 12);
NameCache->NetworksUsed = 1;
NameCache->Networks[0].Network = *(UNALIGNED ULONG*)(Connectionless->IpxHeader.SourceNetwork);
//
// If this packet was not routed to us and is for a group name,
// rather than use whatever local target it happened to come
// from we set it up so that it is broadcast on that net.
//
if ((RtlEqualMemory (RemoteAddress->MacAddress, Connectionless->IpxHeader.SourceNode, 6)) &&
(!NameCache->Unique))
{
NameCache->Networks[0].LocalTarget.NicHandle = RemoteAddress->NicHandle;
RtlCopyMemory (NameCache->Networks[0].LocalTarget.MacAddress, BroadcastAddress, 6);
RtlCopyMemory (NameCache->FirstResponse.NodeAddress, BroadcastAddress, 6);
}
else
{
NameCache->Networks[0].LocalTarget = *RemoteAddress;
}
}
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
return;
}
//
// Scan for any netbios find name requests on the queue, and
// inform them about this remote. We need to do this on every
// response because group names need every computer recorded,
// but the normal cache only includes one entry per network.
//
for (p = Device->WaitingNetbiosFindName.Flink;
p != &Device->WaitingNetbiosFindName;
p = p->Flink) {
NetbiosFindNameRequest = LIST_ENTRY_TO_REQUEST(p);
RemoteNetbiosAddress = (TDI_ADDRESS_NETBIOS *)REQUEST_INFORMATION(NetbiosFindNameRequest);
if (!RtlEqualMemory(
Connectionless->NameFrame.Name,
RemoteNetbiosAddress->NetbiosName,
16)) {
continue;
}
//
// This will update the request status if needed.
//
NbiUpdateNetbiosFindName(
NetbiosFindNameRequest,
#if defined(_PNP_POWER)
&RemoteAddress->NicHandle,
#else
RemoteAddress->NicId,
#endif _PNP_POWER
(TDI_ADDRESS_IPX UNALIGNED *)Connectionless->IpxHeader.SourceNetwork,
(BOOLEAN)((Connectionless->NameFrame.NameTypeFlag & NB_NAME_GROUP) == 0));
}
//
// See what is up with this pending find name packet.
//
if (Reserved->u.SR_FN.NewCache == NULL) {
//
// This is the first response we have received, so we
// allocate the initial entry with room for a single
// entry.
//
NameCache = NbiAllocateMemory (sizeof(NETBIOS_CACHE), MEMORY_CACHE, "Cache Entry");
if (NameCache == NULL) {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
return;
}
NB_DEBUG2 (CACHE, ("Alloc new cache %lx for <%.16s>, net %lx\n",
NameCache, Reserved->u.SR_FN.NetbiosName,
*(UNALIGNED ULONG *)(Connectionless->IpxHeader.SourceNetwork)));
RtlCopyMemory (NameCache->NetbiosName, Connectionless->NameFrame.Name, 16);
NameCache->Unique = (BOOLEAN)((Connectionless->NameFrame.NameTypeFlag & NB_NAME_GROUP) == 0);
NameCache->ReferenceCount = 1;
RtlCopyMemory (&NameCache->FirstResponse, Connectionless->IpxHeader.SourceNetwork, 12);
NameCache->NetworksAllocated = 1;
NameCache->NetworksUsed = 1;
NameCache->Networks[0].Network = *(UNALIGNED ULONG *)(Connectionless->IpxHeader.SourceNetwork);
if (RtlEqualMemory (Connectionless->NameFrame.Name, NetbiosBroadcastName, 16)) {
NB_SET_SR_FN_STATUS (Reserved, FNStatusResponseGroup);
NameCache->Unique = FALSE;
} else {
NB_SET_SR_FN_STATUS(
Reserved,
NameCache->Unique ? FNStatusResponseUnique : FNStatusResponseGroup);
}
Reserved->u.SR_FN.NewCache = NameCache;
//
// If this packet was not routed to us and is for a group name,
// rather than use whatever local target it happened to come
// from we set it up so that it is broadcast on that net.
//
if ((RtlEqualMemory (RemoteAddress->MacAddress, Connectionless->IpxHeader.SourceNode, 6)) &&
(NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseGroup)) {
#if defined(_PNP_POWER)
NameCache->Networks[0].LocalTarget.NicHandle = RemoteAddress->NicHandle;
#else
NameCache->Networks[0].LocalTarget.NicId = RemoteAddress->NicId;
#endif _PNP_POWER
RtlCopyMemory (NameCache->Networks[0].LocalTarget.MacAddress, BroadcastAddress, 6);
RtlCopyMemory (NameCache->FirstResponse.NodeAddress, BroadcastAddress, 6);
} else {
NameCache->Networks[0].LocalTarget = *RemoteAddress;
}
if (NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseUnique) {
//
// Complete pending requests now, since it is a unique
// name we have all the information we will get.
//
NameCache->TimeStamp = Device->CacheTimeStamp;
InsertInNetbiosCacheTable(
Device->NameCache,
NameCache);
//
// Reference it since CacheHandlePending uses it
// with the lock released. CacheHandlePending
// will dereference it.
//
++NameCache->ReferenceCount;
//
// This call releases the lock.
//
CacheHandlePending(
Device,
Reserved->u.SR_FN.NetbiosName,
NetbiosNameFound,
NameCache
NB_LOCK_HANDLE_ARG(LockHandle));
} else {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
}
} else {
//
// We already have a response to this frame.
//
if (NB_GET_SR_FN_STATUS(Reserved) == FNStatusResponseUnique) {
//
// Should we check that the response is also
// unique? Not much to do since I don't know of an
// equivalent to the netbeui NAME_IN_CONFLICT.
//
} else {
//
// This is a group name.
//
if (Connectionless->NameFrame.NameTypeFlag & NB_NAME_GROUP) {
//
// Update our information about this network if needed.
// This may free the existing cache and allocate a new one.
//
Reserved->u.SR_FN.NewCache =
CacheUpdateNameCache(
Reserved->u.SR_FN.NewCache,
RemoteAddress,
(TDI_ADDRESS_IPX UNALIGNED *)
Connectionless->IpxHeader.SourceNetwork,
FALSE);
} else {
//
// Hmmm... This respondent thinks it is a unique name
// but we think it is group, should we do something?
//
}
}
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
}
} /* NbiProcessNameRecognized */
PNETBIOS_CACHE
CacheUpdateNameCache(
IN PNETBIOS_CACHE NameCache,
IN PIPX_LOCAL_TARGET RemoteAddress,
IN TDI_ADDRESS_IPX UNALIGNED * SourceAddress,
IN BOOLEAN ModifyQueue
)
/*++
Routine Description:
This routine is called to update a netbios cache entry
with a new network, if it is does not already contain
information about the network. It is called when a frame
is received advertising the appropriate cache entry, which
is either a group name or the broadcast name.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH IT HELD.
Arguments:
NameCache - The name cache entry to update.
RemoteAddress - The remote address on which a frame was received.
IpxAddress - The source IPX address of the frame.
ModifyQueue - TRUE if we should update the queue which this
cache entry is in, if we reallocate it.
Return Value:
The netbios cache entry, either the original or a reallocated one.
--*/
{
PDEVICE Device = NbiDevice;
USHORT NewNetworks;
PNETBIOS_CACHE NewNameCache;
PLIST_ENTRY OldPrevious;
UINT i;
//
// See if we already know about this network.
//
for (i = 0; i < NameCache->NetworksUsed; i++) {
if (NameCache->Networks[i].Network == SourceAddress->NetworkAddress) {
return NameCache;
}
}
//
// We need to add information about this network
// to the name cache entry. If we have to allocate
// a new one we do that.
//
NB_DEBUG2 (CACHE, ("Got new net %lx for <%.16s>\n",
SourceAddress->NetworkAddress,
NameCache->NetbiosName));
if (NameCache->NetworksUsed == NameCache->NetworksAllocated) {
//
// We double the number of entries allocated until
// we hit 16, then add 8 at a time.
//
if (NameCache->NetworksAllocated < 16) {
NewNetworks = NameCache->NetworksAllocated * 2;
} else {
NewNetworks = NameCache->NetworksAllocated + 8;
}
NewNameCache = NbiAllocateMemory(
sizeof(NETBIOS_CACHE) + ((NewNetworks-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Enlarge cache entry");
if (NewNameCache == NULL) {
return NameCache;
}
NB_DEBUG2 (CACHE, ("Expand cache %lx to %lx for <%.16s>\n",
NameCache, NewNameCache, NameCache->NetbiosName));
//
// Copy the new current data to the new one.
//
RtlCopyMemory(
NewNameCache,
NameCache,
sizeof(NETBIOS_CACHE) + ((NameCache->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)));
NewNameCache->NetworksAllocated = NewNetworks;
NewNameCache->ReferenceCount = 1;
if (ModifyQueue) {
//
// Insert at the same place as the old one. The time
// stamp is the same as the old one.
//
ReinsertInNetbiosCacheTable( Device->NameCache, NameCache, NewNameCache );
}
if (--NameCache->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Free replaced cache entry %lx\n", NameCache));
NbiFreeMemory(
NameCache,
sizeof(NETBIOS_CACHE) + ((NameCache->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Enlarge existing");
}
NameCache = NewNameCache;
}
NameCache->Networks[NameCache->NetworksUsed].Network =
SourceAddress->NetworkAddress;
//
// If this packet was not routed to us, then store the local
// target for a correct broadcast.
//
if (RtlEqualMemory (RemoteAddress->MacAddress, SourceAddress->NodeAddress, 6)) {
#if defined(_PNP_POWER)
NameCache->Networks[NameCache->NetworksUsed].LocalTarget.NicHandle = RemoteAddress->NicHandle;
#else
NameCache->Networks[NameCache->NetworksUsed].LocalTarget.NicId = RemoteAddress->NicId;
#endif _PNP_POWER
RtlCopyMemory (NameCache->Networks[NameCache->NetworksUsed].LocalTarget.MacAddress, BroadcastAddress, 6);
} else {
NameCache->Networks[NameCache->NetworksUsed].LocalTarget = *RemoteAddress;
}
++NameCache->NetworksUsed;
return NameCache;
} /* CacheUpdateNameCache */
VOID
CacheUpdateFromAddName(
IN PIPX_LOCAL_TARGET RemoteAddress,
IN NB_CONNECTIONLESS UNALIGNED * Connectionless,
IN BOOLEAN LocalFrame
)
/*++
Routine Description:
This routine is called when an add name frame is received.
If it is for a group name it checks if our cache entry for
that group name needs to be updated to include a new network;
for all frames it checks if our broadcast cache entry needs
to be updated to include a new network.
Arguments:
RemoteAddress - The address the frame was received from.
Connectionless - The header of the received add name.
LocalFrame - TRUE if the frame was sent locally.
Return Value:
None.
--*/
{
PUCHAR NetbiosName;
PNETBIOS_CACHE NameCache;
PLIST_ENTRY p;
PDEVICE Device = NbiDevice;
NB_DEFINE_LOCK_HANDLE (LockHandle)
NetbiosName = (PUCHAR)Connectionless->NameFrame.Name;
//
// First look up the broadcast name.
//
NB_SYNC_GET_LOCK (&Device->Lock, &LockHandle);
if (!LocalFrame) {
if ( FindInNetbiosCacheTable( Device->NameCache,
NetbiosBroadcastName,
&NameCache ) == STATUS_SUCCESS ) {
//
// This will reallocate a cache entry and update the
// queue if necessary.
//
(VOID)CacheUpdateNameCache(
NameCache,
RemoteAddress,
(TDI_ADDRESS_IPX UNALIGNED *)(Connectionless->IpxHeader.SourceNetwork),
TRUE);
}
}
//
// Now see if our database needs to be updated based on this.
//
if ( FindInNetbiosCacheTable( Device->NameCache,
Connectionless->NameFrame.Name,
&NameCache ) == STATUS_SUCCESS ) {
if (!NameCache->Unique) {
if (!LocalFrame) {
//
// This will reallocate a cache entry and update the
// queue if necessary.
//
(VOID)CacheUpdateNameCache(
NameCache,
RemoteAddress,
(TDI_ADDRESS_IPX UNALIGNED *)(Connectionless->IpxHeader.SourceNetwork),
TRUE);
}
} else {
//
// To be safe, delete any unique names we get add
// names for (we will requery next time we need it).
//
RemoveFromNetbiosCacheTable ( Device->NameCache, NameCache );
if (--NameCache->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Free add named cache entry %lx\n", NameCache));
NbiFreeMemory(
NameCache,
sizeof(NETBIOS_CACHE) + ((NameCache->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Enlarge existing");
}
}
}
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
} /* CacheUpdateFromAddName */
VOID
NbiProcessDeleteName(
IN PIPX_LOCAL_TARGET RemoteAddress,
IN ULONG MacOptions,
IN PUCHAR PacketBuffer,
IN UINT PacketSize
)
/*++
Routine Description:
This routine handles NB_CMD_DELETE_NAME frames.
Arguments:
RemoteAddress - The local target this packet was received from.
MacOptions - The MAC options for the underlying NDIS binding.
LookaheadBuffer - The packet data, starting at the IPX
header.
PacketSize - The total length of the packet, starting at the
IPX header.
Return Value:
None.
--*/
{
NB_CONNECTIONLESS UNALIGNED * Connectionless =
(NB_CONNECTIONLESS UNALIGNED *)PacketBuffer;
PUCHAR NetbiosName;
PNETBIOS_CACHE CacheName;
PDEVICE Device = NbiDevice;
NB_DEFINE_LOCK_HANDLE (LockHandle)
if (PacketSize != sizeof(IPX_HEADER) + sizeof(NB_NAME_FRAME)) {
return;
}
//
// We want to update our netbios cache to reflect the
// fact that this name is no longer valid.
//
NetbiosName = (PUCHAR)Connectionless->NameFrame.Name;
NB_SYNC_GET_LOCK (&Device->Lock, &LockHandle);
if ( FindInNetbiosCacheTable( Device->NameCache,
NetbiosName,
&CacheName ) == STATUS_SUCCESS ) {
//
// We don't track group names since we don't know if
// this is the last person that owns it. We also drop
// the frame if does not come from the person we think
// owns this name.
//
if ((!CacheName->Unique) ||
(CacheName->NetworksUsed == 0) ||
(!RtlEqualMemory (&CacheName->FirstResponse, Connectionless->IpxHeader.SourceNetwork, 12))) {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
return;
}
NB_DEBUG2 (CACHE, ("Found cache name to delete <%.16s>\n", NetbiosName));
}else {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
return;
}
//
// We have a cache entry, take it out of the list. If no
// one else is using it, delete it; if not, they will delete
// it when they are done.
//
RemoveFromNetbiosCacheTable ( Device->NameCache, CacheName);
if (--CacheName->ReferenceCount == 0) {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
NB_DEBUG2 (CACHE, ("Free delete name cache entry %lx\n", CacheName));
NbiFreeMemory(
CacheName,
sizeof(NETBIOS_CACHE) + ((CacheName->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Name deleted");
} else {
NB_SYNC_FREE_LOCK (&Device->Lock, LockHandle);
}
} /* NbiProcessDeleteName */
VOID
InsertInNetbiosCacheTable(
IN PNETBIOS_CACHE_TABLE CacheTable,
IN PNETBIOS_CACHE CacheEntry
)
/*++
Routine Description:
This routine inserts a new cache entry in the hash table
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Arguments:
CacheTable - The pointer of the Hash Table.
CacheEntry - Entry to be inserted.
Return Value:
None
--*/
{
USHORT HashIndex;
//
// Keep a threshold of how many entries do we keep in the table.
// If it crosses the threshold, just remove the oldest entry
//
if ( CacheTable->CurrentEntries >= CacheTable->MaxHashIndex * NB_MAX_AVG_CACHE_ENTRIES_PER_BUCKET ) {
PNETBIOS_CACHE OldestCacheEntry = NULL;
PNETBIOS_CACHE NextEntry;
PLIST_ENTRY p;
for ( HashIndex = 0; HashIndex < CacheTable->MaxHashIndex; HashIndex++) {
if ( (p = CacheTable->Bucket[ HashIndex ].Blink ) != &CacheTable->Bucket[ HashIndex ] ) {
NextEntry = CONTAINING_RECORD (p, NETBIOS_CACHE, Linkage);
if ( OldestCacheEntry ) {
if ( NextEntry->TimeStamp < OldestCacheEntry->TimeStamp ) {
OldestCacheEntry = NextEntry;
}
} else {
OldestCacheEntry = NextEntry;
}
}
}
CTEAssert( OldestCacheEntry );
NB_DEBUG2 (CACHE, ("Threshold exceeded, removing oldest cache entry %lx\n", OldestCacheEntry));
RemoveEntryList (&OldestCacheEntry->Linkage);
CacheTable->CurrentEntries--;
if (--OldestCacheEntry->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Freed cache entry %lx\n", OldestCacheEntry));
NbiFreeMemory(
OldestCacheEntry,
sizeof(NETBIOS_CACHE) + ((OldestCacheEntry->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Aged out");
}
}
HashIndex = ( ( CacheEntry->NetbiosName[0] & 0x0f ) << 4 ) + ( CacheEntry->NetbiosName[1] & 0x0f );
HashIndex = HashIndex % CacheTable->MaxHashIndex;
InsertHeadList( &CacheTable->Bucket[HashIndex], &CacheEntry->Linkage );
CacheTable->CurrentEntries++;
} /* InsertInNetbiosCacheTable */
__inline
VOID
ReinsertInNetbiosCacheTable(
IN PNETBIOS_CACHE_TABLE CacheTable,
IN PNETBIOS_CACHE OldEntry,
IN PNETBIOS_CACHE NewEntry
)
/*++
Routine Description:
This routine inserts a new cache entry at the same place where
the old entry was.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Arguments:
CacheTable - The pointer of the Hash Table.
CacheEntry - Entry to be inserted.
Return Value:
None
--*/
{
PLIST_ENTRY OldPrevious;
OldPrevious = OldEntry->Linkage.Blink;
RemoveEntryList (&OldEntry->Linkage);
InsertHeadList (OldPrevious, &NewEntry->Linkage);
} /* ReinsertInNetbiosCacheTable */
__inline
VOID
RemoveFromNetbiosCacheTable(
IN PNETBIOS_CACHE_TABLE CacheTable,
IN PNETBIOS_CACHE CacheEntry
)
/*++
Routine Description:
This routine removes an entry from the cache table.
Arguments:
CacheTable - The pointer of the Hash Table.
CacheEntry - Entry to be removed.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Return Value:
None.
--*/
{
RemoveEntryList( &CacheEntry->Linkage );
CacheTable->CurrentEntries--;
} /* RemoveFromNetbiosCacheTable */
VOID
FlushOldFromNetbiosCacheTable(
IN PNETBIOS_CACHE_TABLE CacheTable,
IN USHORT AgeLimit
)
/*++
Routine Description:
This routine removes all the old entries from the hash table.
Arguments:
CacheTable - The pointer of the Hash Table.
AgeLimit - All the entries older than AgeLimit will be removed.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Return Value:
None.
--*/
{
USHORT HashIndex;
PLIST_ENTRY p;
PNETBIOS_CACHE CacheName;
//
// run the hash table looking for old entries. Since new entries
// are stored at the head and all entries are time stamped when
// they are inserted, we scan backwards and stop once we find
// an entry which does not need to be aged.
// we repeat this for each bucket.
for ( HashIndex = 0; HashIndex < CacheTable->MaxHashIndex; HashIndex++) {
for (p = CacheTable->Bucket[ HashIndex ].Blink;
p != &CacheTable->Bucket[ HashIndex ];
) {
CacheName = CONTAINING_RECORD (p, NETBIOS_CACHE, Linkage);
p = p->Blink;
//
// see if any entries have been around for more than agelimit
//
if ((USHORT)(NbiDevice->CacheTimeStamp - CacheName->TimeStamp) >= AgeLimit ) {
RemoveEntryList (&CacheName->Linkage);
CacheTable->CurrentEntries--;
if (--CacheName->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Aging out name cache entry %lx\n", CacheName));
NbiFreeMemory(
CacheName,
sizeof(NETBIOS_CACHE) + ((CacheName->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Aged out");
}
} else {
break;
}
} // for loop
} // for loop
} /* FlushOldFromNetbiosCacheTable */
VOID
FlushFailedNetbiosCacheEntries(
IN PNETBIOS_CACHE_TABLE CacheTable
)
/*++
Routine Description:
This routine removes all the failed entries from the hash table.
Arguments:
CacheTable - The pointer of the Hash Table.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Return Value:
None.
--*/
{
USHORT HashIndex;
PLIST_ENTRY p;
PNETBIOS_CACHE CacheName;
if (NULL == CacheTable) {
return;
}
//
// run the hash table looking for old entries. Since new entries
// are stored at the head and all entries are time stamped when
// they are inserted, we scan backwards and stop once we find
// an entry which does not need to be aged.
// we repeat this for each bucket.
for ( HashIndex = 0; HashIndex < CacheTable->MaxHashIndex; HashIndex++) {
for (p = CacheTable->Bucket[ HashIndex ].Blink;
p != &CacheTable->Bucket[ HashIndex ];
) {
CacheName = CONTAINING_RECORD (p, NETBIOS_CACHE, Linkage);
p = p->Blink;
//
// flush all the failed cache entries.
// We do this when a new adapter appears, and there's a possiblity that
// the failed entries might succeed now on the new adapter.
//
if (CacheName->NetworksUsed == 0) {
RemoveEntryList (&CacheName->Linkage);
CacheTable->CurrentEntries--;
CTEAssert( CacheName->ReferenceCount == 1 );
CTEAssert( CacheName->NetworksAllocated == 1 );
NB_DEBUG2 (CACHE, ("Flushing out failed name cache entry %lx\n", CacheName));
NbiFreeMemory(
CacheName,
sizeof(NETBIOS_CACHE),
MEMORY_CACHE,
"Aged out");
}
} // for loop
} // for loop
} /* FlushFailedNetbiosCacheEntries */
VOID
RemoveInvalidRoutesFromNetbiosCacheTable(
IN PNETBIOS_CACHE_TABLE CacheTable,
IN NIC_HANDLE UNALIGNED *InvalidNicHandle
)
/*++
Routine Description:
This routine removes all invalid route entries from the hash table.
Routes become invalid when the binding is deleted in Ipx due to PnP
event.
Arguments:
CacheTable - The pointer of the Hash Table.
InvalidRouteNicId - NicId of the invalid routes.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Return Value:
None.
--*/
{
PLIST_ENTRY p;
PNETBIOS_CACHE CacheName;
USHORT i,j,NetworksRemoved;
USHORT HashIndex;
PDEVICE Device = NbiDevice;
//
// Flush all the cache entries that are using this NicId in the local
// target.
//
for ( HashIndex = 0; HashIndex < Device->NameCache->MaxHashIndex; HashIndex++) {
for (p = Device->NameCache->Bucket[ HashIndex ].Flink;
p != &Device->NameCache->Bucket[ HashIndex ];
) {
CacheName = CONTAINING_RECORD (p, NETBIOS_CACHE, Linkage);
p = p->Flink;
//
// Remove each of those routes which is using this NicId.
// if no routes left, then flush the cache entry also.
// ( unique names have only one route anyways )
//
for ( i = 0, NetworksRemoved = 0; i < CacheName->NetworksUsed; i++ ) {
if ( CacheName->Networks[i].LocalTarget.NicHandle.NicId == InvalidNicHandle->NicId ) {
CTEAssert( RtlEqualMemory( &CacheName->Networks[i].LocalTarget.NicHandle, InvalidNicHandle, sizeof(NIC_HANDLE)));
for ( j = i+1; j < CacheName->NetworksUsed; j++ ) {
CacheName->Networks[j-1] = CacheName->Networks[j];
}
NetworksRemoved++;
} else if ( CacheName->Networks[i].LocalTarget.NicHandle.NicId > InvalidNicHandle->NicId ) {
CacheName->Networks[i].LocalTarget.NicHandle.NicId--;
}
}
CTEAssert( NetworksRemoved <= CacheName->NetworksUsed );
if ( ! ( CacheName->NetworksUsed -= NetworksRemoved ) ) {
RemoveEntryList (&CacheName->Linkage);
CacheTable->CurrentEntries--;
NB_DEBUG2 (CACHE, ("Removed cache entry %lx bcoz route(NicId %d) deleted\n", CacheName, InvalidNicHandle->NicId ));
if (--CacheName->ReferenceCount == 0) {
NB_DEBUG2 (CACHE, ("Freed name cache entry %lx\n", CacheName));
NbiFreeMemory(
CacheName,
sizeof(NETBIOS_CACHE) + ((CacheName->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Aged out");
}
}
} // for loop
} // for loop
} /* RemoveInvalidRoutesFromNetbiosCacheTable */
NTSTATUS
FindInNetbiosCacheTable(
IN PNETBIOS_CACHE_TABLE CacheTable,
IN PUCHAR NameToBeFound,
OUT PNETBIOS_CACHE *CacheEntry
)
/*++
Routine Description:
This routine finds a netbios name in the Hash Table and returns
the corresponding cache entry.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Arguments:
CacheTable - The pointer of the Hash Table.
CacheEntry - Pointer to the netbios cache entry if found.
Return Value:
STATUS_SUCCESS - if successful.
STATUS_UNSUCCESSFUL - otherwise.
--*/
{
USHORT HashIndex;
PLIST_ENTRY p;
PNETBIOS_CACHE FoundCacheName;
HashIndex = ( ( NameToBeFound[0] & 0x0f ) << 4 ) + ( NameToBeFound[1] & 0x0f );
HashIndex = HashIndex % CacheTable->MaxHashIndex;
for (p = ( CacheTable->Bucket[ HashIndex ] ).Flink;
p != &CacheTable->Bucket[ HashIndex ];
p = p->Flink) {
FoundCacheName = CONTAINING_RECORD (p, NETBIOS_CACHE, Linkage);
//
// See if this entry is for the same name we are looking for.
if ( RtlEqualMemory (FoundCacheName->NetbiosName, NameToBeFound, 16) ) {
*CacheEntry = FoundCacheName;
return STATUS_SUCCESS;
}
}
return STATUS_UNSUCCESSFUL;
} /* FindInNetbiosCacheTable */
NTSTATUS
CreateNetbiosCacheTable(
IN OUT PNETBIOS_CACHE_TABLE *NewTable,
IN USHORT MaxHashIndex
)
/*++
Routine Description:
This routine creates a new hash table for netbios cache
and initializes it.
THIS ROUTINE IS CALLED WITH THE DEVICE LOCK HELD AND RETURNS
WITH THE LOCK HELD.
Arguments:
NewTable - The pointer of the table to be created.
MaxHashIndex - Number of buckets in the hash table.
Return Value:
STATUS_SUCCESS - if successful.
STATUS_INSUFFICIENT_RESOURCES - If cannot allocate memory.
--*/
{
USHORT i;
*NewTable = NbiAllocateMemory (sizeof(NETBIOS_CACHE_TABLE) + sizeof(LIST_ENTRY) * ( MaxHashIndex - 1) ,
MEMORY_CACHE, "Cache Table");
if ( *NewTable ) {
for ( i = 0; i < MaxHashIndex; i++ ) {
InitializeListHead(& (*NewTable)->Bucket[i] );
}
(*NewTable)->MaxHashIndex = MaxHashIndex;
(*NewTable)->CurrentEntries = 0;
return STATUS_SUCCESS;
}
else {
NB_DEBUG( CACHE, ("Cannot create Netbios Cache Table\n") );
return STATUS_INSUFFICIENT_RESOURCES;
}
} /* CreateNetbiosCacheTable */
VOID
DestroyNetbiosCacheTable(
IN PNETBIOS_CACHE_TABLE CacheTable
)
/*++
Routine Description:
This routine removes all entries from the hash table.
and free up the hash table.
Arguments:
CacheTable - The pointer of the Hash Table.
Return Value:
None.
--*/
{
USHORT HashIndex;
PLIST_ENTRY p;
PNETBIOS_CACHE CacheName;
for ( HashIndex = 0; HashIndex < CacheTable->MaxHashIndex; HashIndex++) {
while (!IsListEmpty ( &( CacheTable->Bucket[ HashIndex ] ) ) ) {
p = RemoveHeadList ( &( CacheTable->Bucket[ HashIndex ] ));
CacheTable->CurrentEntries--;
CacheName = CONTAINING_RECORD (p, NETBIOS_CACHE, Linkage);
NB_DEBUG2 (CACHE, ("Free cache entry %lx\n", CacheName));
NbiFreeMemory(
CacheName,
sizeof(NETBIOS_CACHE) + ((CacheName->NetworksAllocated-1) * sizeof(NETBIOS_NETWORK)),
MEMORY_CACHE,
"Free entries");
}
} // for loop
CTEAssert( CacheTable->CurrentEntries == 0 );
NbiFreeMemory (CacheTable, sizeof(NETBIOS_CACHE_TABLE) + sizeof(LIST_ENTRY) * ( CacheTable->MaxHashIndex - 1) ,
MEMORY_CACHE, "Free Cache Table");
} /* DestroyNetbiosCacheTable */