windows-nt/Source/XPSP1/NT/net/sfm/afp/server/sda.c
2020-09-26 16:20:57 +08:00

965 lines
23 KiB
C

/*
Copyright (c) 1992 Microsoft Corporation
Module Name:
sda.c
Abstract:
This module contains the session data area manipulation routines.
Author:
Jameel Hyder (microsoft!jameelh)
Revision History:
25 Apr 1992 Initial Version
Notes: Tab stop: 4
--*/
#define _SDA_LOCALS
#define FILENUM FILE_SDA
#include <afp.h>
#include <scavengr.h>
#include <access.h>
#include <client.h>
#ifdef ALLOC_PRAGMA
#pragma alloc_text( INIT, AfpSdaInit)
#pragma alloc_text( PAGE, afpCloseSessionAndFreeSda)
#pragma alloc_text( PAGE, AfpSdaCheckSession)
#endif
/*** AfpSdaInit
*
* Initialize Sda Data structures. Called at init time.
*/
NTSTATUS
AfpSdaInit(
VOID
)
{
ASSERT(sizeof(SDA) <= 512);
INITIALIZE_SPIN_LOCK(&AfpSdaLock);
return STATUS_SUCCESS;
}
/*** AfpSdaReferenceSessionById
*
* Reference a session by its id. The SDA cannot be referenced if it is
* marked closed. The SDA should be referenced before using it.
*
* LOCKS: AfpSdaLock (SPIN), sda_Lock (SPIN)
* LOCK_ORDER: sda_Lock after AfpSdaLock
*/
PSDA FASTCALL
AfpSdaReferenceSessionById(
IN DWORD SessId
)
{
PSDA pSda=NULL;
PSDA pRetSda=NULL;
KIRQL OldIrql;
ACQUIRE_SPIN_LOCK(&AfpSdaLock, &OldIrql);
for (pSda = AfpSessionList;
(pSda != NULL) && (pSda->sda_SessionId >= SessId);
pSda = pSda->sda_Next)
{
if (pSda->sda_SessionId == SessId)
{
ACQUIRE_SPIN_LOCK_AT_DPC(&pSda->sda_Lock);
if ((pSda->sda_Flags & SDA_CLOSING) == 0)
{
ASSERT((pSda->sda_RefCount > 0) &&
(pSda->sda_SessionId != 0));
pSda->sda_RefCount ++;
pRetSda = pSda;
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("AfpSdaReferenceSessionById: New Count %d\n", pSda->sda_RefCount));
}
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
break;
}
}
RELEASE_SPIN_LOCK(&AfpSdaLock, OldIrql);
return pRetSda;
}
/*** AfpSdaReferenceSessionByPointer
*
* Reference a session by pointer. The SDA cannot be referenced if it is
* marked closed. The SDA should be referenced before using it.
*
*/
PSDA FASTCALL
AfpSdaReferenceSessionByPointer(
IN PSDA pSda
)
{
PSDA pRetSda=NULL;
KIRQL OldIrql;
ASSERT(VALID_SDA(pSda));
ACQUIRE_SPIN_LOCK(&pSda->sda_Lock, &OldIrql);
if ((pSda->sda_Flags & SDA_CLOSING) == 0)
{
pSda->sda_RefCount ++;
pRetSda = pSda;
}
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
return pRetSda;
}
/*** afpSdaCloseSessionAndFreeSda
*
* Run by the scavenger in the worker context. This is initiated as part of
* session cleanup.
*/
LOCAL AFPSTATUS FASTCALL
afpCloseSessionAndFreeSda(
IN PSDA pSda
)
{
POPENFORKSESS pOpenForkSess;
PASP_XPORT_ENTRIES XportTable;
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("afpCloseSessionAndFreeSda: Cleaning up session %lx\n",
pSda->sda_SessionId));
PAGED_CODE( );
#ifdef OPTIMIZE_GUEST_LOGONS
if (pSda->sda_ClientType != SDA_CLIENT_GUEST)
{
#endif
#ifndef INHERIT_DIRECTORY_PERMS
// First free up paged memory used by the sda
if (pSda->sda_pSecDesc != NULL)
{
if (pSda->sda_pSecDesc->Dacl != NULL)
AfpFreeMemory(pSda->sda_pSecDesc->Dacl);
AfpFreeMemory(pSda->sda_pSecDesc);
}
#endif
if ((pSda->sda_UserSid != NULL) && (pSda->sda_UserSid != &AfpSidWorld))
AfpFreeMemory(pSda->sda_UserSid);
if ((pSda->sda_GroupSid != NULL) && (pSda->sda_GroupSid != &AfpSidWorld))
AfpFreeMemory(pSda->sda_GroupSid);
if (pSda->sda_pGroups != NULL)
AfpFreeMemory(pSda->sda_pGroups);
#ifdef OPTIMIZE_GUEST_LOGONS
}
#endif
// Free any chains of fork entries that we created
pOpenForkSess = pSda->sda_OpenForkSess.ofs_Link;
while (pOpenForkSess != NULL)
{
POPENFORKSESS pFree;
pFree = pOpenForkSess;
pOpenForkSess = pOpenForkSess->ofs_Link;
AfpFreeMemory(pFree);
}
// Next log-out the user
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("afpCloseSessionAndFreeSda: Closing User Token\n"));
#ifdef OPTIMIZE_GUEST_LOGON
if ((pSda->sda_UserToken != NULL) && (pSda->sda_ClientType != SDA_CLIENT_GUEST))
#else
if (pSda->sda_UserToken != NULL)
#endif
NtClose(pSda->sda_UserToken);
// Make sure there are no resource leaks
ASSERT (pSda->sda_cOpenVolumes == 0);
ASSERT (pSda->sda_pConnDesc == 0);
ASSERT (pSda->sda_cOpenForks == 0);
XportTable = pSda->sda_XportTable;
(*(XportTable->asp_FreeConn))(pSda->sda_SessHandle);
if (pSda->sda_ReplyBuf)
{
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_ERR,
("afpCloseSessionAndFreeSda: %d bytes would have leaked!\n",pSda->sda_ReplySize));
// TRUE => lie that the lock is held: we don't need lock no more
AfpFreeReplyBuf(pSda, TRUE);
}
// Free the sda memory, finally
AfpFreeMemory(pSda);
// If the server is stopping and the count of sessions has gone to zero
// clear the termination confirmation event to unblock the admin thread
if (((AfpServerState == AFP_STATE_STOP_PENDING) ||
(AfpServerState == AFP_STATE_SHUTTINGDOWN)) &&
(AfpNumSessions == 0))
{
DBGPRINT(DBG_COMP_ADMINAPI, DBG_LEVEL_WARN,
("afpSdaCloseSessionAndFreeSda: Unblocking server stop\n"));
KeSetEvent(&AfpStopConfirmEvent, IO_NETWORK_INCREMENT, False);
}
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO, ("afpCloseSessionAndFreeSda: Done\n"));
return AFP_ERR_NONE;
}
/*** AfpSdaDereferenceSession
*
* Dereference this SDA. This is called in response to either a AfpLogout
* request, a forced shutdown of this session by either SessionClose() api,
* the server shutdown or the session shutdown from the client end.
* The Sda should not be dereferenced until the entire request is processed
* i.e. the reply has ALSO COMPLETED.
*
* NOTE: We unlink the session from the list but do not update the count till
* the entire cleanup is complete.
*
* LOCKS: AfpSdaLock (SPIN), sda_Lock (SPIN), AfpStatisticsLock (SPIN)
*/
VOID FASTCALL
AfpSdaDereferenceSession(
IN PSDA pSda
)
{
PSDA * ppSda;
KIRQL OldIrql;
LONG RefCount;
BOOLEAN fTcpSession=TRUE;
ASSERT(VALID_SDA(pSda));
ASSERT((pSda->sda_RefCount > 0) &&
(pSda->sda_SessionId != 0));
ACQUIRE_SPIN_LOCK(&pSda->sda_Lock, &OldIrql);
RefCount = -- (pSda->sda_RefCount);
if (RefCount == 0)
{
pSda->sda_Flags |= SDA_CLOSING;
fTcpSession = (pSda->sda_Flags & SDA_SESSION_OVER_TCP)? TRUE : FALSE;
}
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("AfpSdaDereferenceSession: Session %ld, New Count %ld\n",
pSda->sda_SessionId, RefCount));
// If there are more references, then we are done.
if (RefCount > 0)
return;
ASSERT(RefCount == 0); // catch refcount going below 0!
ASSERT (!(pSda->sda_Flags & SDA_REQUEST_IN_PROCESS));
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("AfpSdaDereferenceSession: Closing down session %ld\n",
pSda->sda_SessionId));
// Cancel the scavenger event for checking this user's kickoff time
AfpScavengerKillEvent(AfpSdaCheckSession,
(PVOID)((ULONG_PTR)(pSda->sda_SessionId)));
// First unlink the Sda from the sessions list
ACQUIRE_SPIN_LOCK(&AfpSdaLock, &OldIrql);
for (ppSda = &AfpSessionList;
*ppSda != NULL;
ppSda = &(*ppSda)->sda_Next)
if (pSda == *ppSda)
break;
ASSERT(*ppSda == pSda);
*ppSda = pSda->sda_Next;
// Update the count of active sessions
ASSERT (AfpNumSessions > 0);
--AfpNumSessions;
RELEASE_SPIN_LOCK(&AfpSdaLock, OldIrql);
// Free all buffers associated with the Sda
// Now free the SDA memory
if (pSda->sda_WSName.Buffer != NULL)
AfpFreeMemory(pSda->sda_WSName.Buffer);
if ((pSda->sda_ClientType != SDA_CLIENT_GUEST) &&
(pSda->sda_UserName.Buffer != NULL))
AfpFreeMemory(pSda->sda_UserName.Buffer);
if (pSda->sda_Challenge != NULL)
AfpFreeMemory(pSda->sda_Challenge);
if (pSda->sda_DomainName.Buffer != NULL)
AfpFreeMemory(pSda->sda_DomainName.Buffer);
if (pSda->sda_Message != NULL)
AfpFreeMemory(pSda->sda_Message);
// Finally update statistics
INTERLOCKED_ADD_ULONG((PLONG)&AfpServerStatistics.stat_CurrentSessions,
(ULONG)-1,
&AfpStatisticsLock);
// it was a TCP session? update that counter as well
if (fTcpSession)
{
INTERLOCKED_ADD_ULONG((PLONG)&AfpServerStatistics.stat_TcpSessions,
(ULONG)-1,
&AfpStatisticsLock);
}
// The balance of the clean-up has to happen at LOW_LEVEL in the context
// of the worker thread. So queue it up
if ((OldIrql == DISPATCH_LEVEL) ||
(PsGetCurrentProcess() != AfpProcessObject))
{
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("AfpSdaDereferenceSession: Queuing Close&Free to Scavenger\n"));
AfpScavengerScheduleEvent(afpCloseSessionAndFreeSda,
(PVOID)pSda,
0,
True);
}
else
{
afpCloseSessionAndFreeSda(pSda);
}
}
/*** AfpSdaCreateNewSession
*
* A new session has been initiated. Allocate and initialize a Sda and return a
* pointer to it. The new sda is linked into the list of active sessions.
*
* LOCKS: AfpSdaLock (SPIN), AfpServerGlobalLock (SPIN)
* LOCK_ORDER: AfpServerGlobalLock after AfpSdaLock
*/
PSDA FASTCALL
AfpSdaCreateNewSession(
IN PVOID SessionHandle,
IN BOOLEAN fOverTcp
)
{
KIRQL OldIrql;
PSDA *ppSda, pSda = NULL;
if ((DWORD)AfpNumSessions < AfpServerMaxSessions)
{
if ((pSda = (PSDA)AfpAllocNonPagedMemory(SDA_SIZE)) == NULL)
return NULL;
// Initialize SDA fields
RtlZeroMemory(pSda, sizeof(SDA));
#if DBG
pSda->Signature = SDA_SIGNATURE;
#endif
INITIALIZE_SPIN_LOCK(&pSda->sda_Lock);
// Reference this Session
pSda->sda_RefCount = 1;
pSda->sda_Flags = SDA_USER_NOT_LOGGEDIN;
if (fOverTcp)
{
pSda->sda_Flags |= SDA_SESSION_OVER_TCP;
pSda->sda_XportTable = &AfpDsiEntries;
pSda->sda_MaxWriteSize = DSI_SERVER_REQUEST_QUANTUM;
}
else
{
pSda->sda_XportTable = &AfpAspEntries;
pSda->sda_MaxWriteSize = ASP_QUANTUM;
}
pSda->sda_SessHandle = SessionHandle;
InitializeListHead(&pSda->sda_DeferredQueue);
AfpInitializeWorkItem(&pSda->sda_WorkItem,
AfpStartApiProcessing,
pSda);
AfpGetCurrentTimeInMacFormat(&pSda->sda_TimeLoggedOn);
pSda->sda_tTillKickOff = MAXLONG;
// Initialize space for request/response
pSda->sda_SizeNameXSpace = (USHORT)(SDA_SIZE - sizeof(SDA));
pSda->sda_NameXSpace = (PBYTE)pSda + sizeof(SDA);
ACQUIRE_SPIN_LOCK(&AfpSdaLock, &OldIrql);
// Assign a new session id to this session
pSda->sda_SessionId = afpNextSessionId ++;
ASSERT(pSda->sda_SessionId != 0);
// Link the Sda into the active session list
for (ppSda = &AfpSessionList;
*ppSda != NULL;
ppSda = &((*ppSda)->sda_Next))
{
if ((*ppSda)->sda_SessionId < pSda->sda_SessionId)
break;
}
pSda->sda_Next = *ppSda;
*ppSda = pSda;
// Update the count of active sessions
AfpNumSessions++;
RELEASE_SPIN_LOCK(&AfpSdaLock, OldIrql);
// Finally update statistics
ACQUIRE_SPIN_LOCK(&AfpStatisticsLock, &OldIrql);
AfpServerStatistics.stat_CurrentSessions ++;
AfpServerStatistics.stat_TotalSessions ++;
if (AfpServerStatistics.stat_CurrentSessions >
AfpServerStatistics.stat_MaxSessions)
AfpServerStatistics.stat_MaxSessions =
AfpServerStatistics.stat_CurrentSessions;
if (fOverTcp)
{
AfpServerStatistics.stat_TcpSessions++;
if (AfpServerStatistics.stat_TcpSessions >
AfpServerStatistics.stat_MaxTcpSessions)
{
AfpServerStatistics.stat_MaxTcpSessions =
AfpServerStatistics.stat_TcpSessions;
}
}
RELEASE_SPIN_LOCK(&AfpStatisticsLock, OldIrql);
}
return pSda;
}
/*** AfpSdaCloseSession
*
* Setup to close the session
*/
AFPSTATUS FASTCALL
AfpSdaCloseSession(
IN PSDA pSda
)
{
LONG ConnRef;
DWORD ForkRef, MaxOForkRefNum;
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("AfpSdaCloseSession: Entered for session %lx\n",
pSda->sda_SessionId));
// We should be coming in from the scavenger worker in its context i.e. at LOW_LEVEL.
ASSERT (KeGetCurrentIrql() < DISPATCH_LEVEL);
// Close down the open forks from this session
MaxOForkRefNum = pSda->sda_MaxOForkRefNum;
for (ForkRef = 1; ForkRef <= MaxOForkRefNum; ForkRef++)
{
POPENFORKENTRY pOpenForkEntry;
KIRQL OldIrql;
KeRaiseIrql(DISPATCH_LEVEL, &OldIrql);
pOpenForkEntry = AfpForkReferenceByRefNum(pSda, ForkRef);
KeLowerIrql(OldIrql);
if (pOpenForkEntry != NULL)
{
DBGPRINT(DBG_COMP_VOLUME, DBG_LEVEL_INFO,
("AfpSdaCloseSession: Forcing close of fork %lx, id %lx\n",
ForkRef, pOpenForkEntry->ofe_ForkId));
AfpForkClose(pOpenForkEntry);
AfpForkDereference(pOpenForkEntry);
}
}
// Now close down all open volumes.
// Note that AfpConnectionClose will unlink the ConnDesc from the Sda
for (ConnRef = 1; ConnRef <= afpLargestVolIdInUse; ConnRef++)
{
PCONNDESC pConnDesc;
if ((pConnDesc = AfpConnectionReference(pSda, ConnRef)) != NULL)
{
AfpConnectionClose(pConnDesc);
AfpConnectionDereference(pConnDesc);
}
}
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO, ("AfpCloseSession: Done\n"));
ASSERT (pSda->sda_Flags & SDA_SESSION_CLOSED);
AfpSdaDereferenceSession(pSda);
return AFP_ERR_NONE;
}
/*** AfpAdmWSessionClose
*
* Close a session forcibly. This is an admin operation and must be queued
* up since this can potentially cause filesystem operations that are valid
* only in the system process context.
*
* LOCKS: AfpSdaLock (SPIN), sda_Lock (SPIN)
* LOCK_ORDER: sda_Lock after AfpSdaLock
*/
NTSTATUS
AfpAdmWSessionClose(
IN OUT PVOID InBuf OPTIONAL,
IN LONG OutBufLen OPTIONAL,
OUT PVOID OutBuf OPTIONAL
)
{
AFPSTATUS Status = AFPERR_InvalidId;
DWORD SessId;
PSDA pSda;
KIRQL OldIrql;
PAFP_SESSION_INFO pSessInfo = (PAFP_SESSION_INFO)InBuf;
USHORT AttnWord;
BOOLEAN Shoot = False;
AttnWord = ATTN_USER_DISCONNECT;
if ((AfpServerState == AFP_STATE_SHUTTINGDOWN) ||
(AfpServerState == AFP_STATE_STOP_PENDING))
AttnWord = ATTN_SERVER_SHUTDOWN;
if ((SessId = pSessInfo->afpsess_id) != 0)
{
if ((pSda = AfpSdaReferenceSessionById(SessId)) != NULL)
{
Status = AFP_ERR_NONE;
ACQUIRE_SPIN_LOCK(&pSda->sda_Lock, &OldIrql);
if ((pSda->sda_Flags & (SDA_CLOSING | SDA_SESSION_CLOSED | SDA_CLIENT_CLOSE)) == 0)
{
Shoot = True;
pSda->sda_Flags |= SDA_CLOSING | SDA_SESSION_CLOSED;
}
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
if (Shoot)
{
// Tell the client (s)he's being shot
AfpSpSendAttention(pSda, AttnWord, True);
AfpSpCloseSession(pSda);
}
AfpSdaDereferenceSession(pSda);
}
else
{
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_ERR,
("AfpAdmWSessionClose: no pSda found for SessId %d\n",pSessInfo->afpsess_id));
}
}
else
{
PSDA pSdaNext;
// Here we want to block incoming sessions while we kill the existing ones
AfpSpDisableListens();
Status = AFP_ERR_NONE;
ACQUIRE_SPIN_LOCK(&AfpSdaLock, &OldIrql);
for (pSda = AfpSessionList; pSda != NULL; pSda = pSdaNext)
{
ACQUIRE_SPIN_LOCK_AT_DPC(&pSda->sda_Lock);
Shoot = False;
pSdaNext = pSda->sda_Next;
if ((pSda->sda_Flags & (SDA_CLOSING | SDA_SESSION_CLOSED | SDA_CLIENT_CLOSE)) == 0)
{
pSda->sda_Flags |= SDA_CLOSING | SDA_SESSION_CLOSED;
pSda->sda_RefCount ++;
Shoot = True;
}
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
if (Shoot)
{
RELEASE_SPIN_LOCK(&AfpSdaLock, OldIrql);
// Tell the client (s)he's being shot
AfpSpSendAttention(pSda, AttnWord, True);
AfpSpCloseSession(pSda);
AfpSdaDereferenceSession(pSda);
ACQUIRE_SPIN_LOCK(&AfpSdaLock, &OldIrql);
pSdaNext = AfpSessionList;
}
}
RELEASE_SPIN_LOCK(&AfpSdaLock, OldIrql);
// Enable new incoming sessions - but only if we are not paused
if ((AfpServerState & (AFP_STATE_PAUSED | AFP_STATE_PAUSE_PENDING)) == 0)
{
AfpSpEnableListens();
}
}
return Status;
}
/*** AfpSdaCheckSession
*
* Check if a session needs to be forcibly closed. If we are called by the
* scavenger for the first time and our scavenger interval is not
* SESSION_CHECK_TIME, we need to reschedule ourselves to run at this
* interval.
*
* Since the sda_tTillKickOff is only used here, it needs
* no protection.
*/
AFPSTATUS FASTCALL
AfpSdaCheckSession(
IN PVOID pContext
)
{
PSDA pSda;
DWORD SessionId = (DWORD)((ULONG_PTR)pContext);
AFPSTATUS Status = AFP_ERR_REQUEUE;
BOOLEAN RequeueOurself = False;
PAGED_CODE( );
if ((pSda = AfpSdaReferenceSessionById(SessionId)) != NULL)
{
if (pSda->sda_tTillKickOff > SESSION_WARN_TIME)
{
// This is the first time this routine has run, and it was
// originally scheduled to run at a time greater than
// SESSION_WARN_TIME. Therefore, we need to reschedule this
// scavenger event ourselves with a new SESSION_CHECK_TIME
// interval. This is the only time we need to do this.
pSda->sda_tTillKickOff = SESSION_WARN_TIME;
Status = AFP_ERR_NONE;
RequeueOurself = True;
}
else if (pSda->sda_tTillKickOff > 0)
pSda->sda_tTillKickOff -= SESSION_CHECK_TIME;
ASSERT(pSda->sda_tTillKickOff <= SESSION_WARN_TIME);
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_WARN,
("AfpSdaCheckSession: Below warn level %ld\n",
pSda->sda_tTillKickOff));
// If we are at 0, kick this user out. Else just
// send him a friendly warning.
if (pSda->sda_tTillKickOff == 0)
{
AFP_SESSION_INFO SessionInfo;
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_WARN,
("AfpSdaCheckSession: Booting session %ld\n", SessionId));
SessionInfo.afpsess_id = SessionId;
AfpAdmWSessionClose(&SessionInfo, 0, NULL);
Status = AFP_ERR_NONE; // Do not reschedule
}
else
{
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_WARN,
("AfpSdaCheckSession: Warning session %ld\n", SessionId));
AfpSpSendAttention(pSda,
(USHORT)(ATTN_USER_DISCONNECT |
((pSda->sda_tTillKickOff/60) & ATTN_TIME_MASK)),
True);
}
if (RequeueOurself)
{
AfpScavengerScheduleEvent(
AfpSdaCheckSession,
(PVOID)((ULONG_PTR)pSda->sda_SessionId),
SESSION_CHECK_TIME,
True);
}
AfpSdaDereferenceSession(pSda);
}
return Status;
}
/*** AfpKillSessionsOverProtocol
*
* Kill all the sessions over a specific protocol (TCP/IP or Appletalk)
*/
VOID FASTCALL
AfpKillSessionsOverProtocol(
IN BOOLEAN fAppletalkSessions
)
{
PSDA pSda;
PSDA pSdaNext;
KIRQL OldIrql;
USHORT AttnWord;
AttnWord = ATTN_USER_DISCONNECT;
ACQUIRE_SPIN_LOCK(&AfpSdaLock, &OldIrql);
for (pSda = AfpSessionList; pSda != NULL; pSda = pSdaNext)
{
ACQUIRE_SPIN_LOCK_AT_DPC(&pSda->sda_Lock);
pSdaNext = pSda->sda_Next;
//
// if this session is already being closing, skip it
//
if (pSda->sda_Flags & (SDA_CLOSING | SDA_SESSION_CLOSED | SDA_CLIENT_CLOSE))
{
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
continue;
}
//
// if we are asked to kill all Appletalk sessions and this session
// over Appletalk, skip it
//
if (fAppletalkSessions)
{
if (pSda->sda_Flags & SDA_SESSION_OVER_TCP)
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpKillSessionsOverProtocol: skipping TCP session %lx\n",pSda));
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
continue;
}
}
//
// we are asked to kill all TCP/IP sessions, and this session is
// over Appletalk: skip it
//
else
{
if (!(pSda->sda_Flags & SDA_SESSION_OVER_TCP))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpKillSessionsOverProtocol: skipping Appletalk session %lx\n",pSda));
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
continue;
}
}
pSda->sda_Flags |= SDA_CLOSING | SDA_SESSION_CLOSED;
// put a DISCONNECT refcount
pSda->sda_RefCount ++;
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
RELEASE_SPIN_LOCK(&AfpSdaLock, OldIrql);
// give client the bad news
AfpSpSendAttention(pSda, AttnWord, True);
AfpSpCloseSession(pSda);
// and remove that DISCONNECT refcount
AfpSdaDereferenceSession(pSda);
ACQUIRE_SPIN_LOCK(&AfpSdaLock, &OldIrql);
// start from the head of the list
pSdaNext = AfpSessionList;
}
RELEASE_SPIN_LOCK(&AfpSdaLock, OldIrql);
}
/*** AfpFreeReplyBuf
*
* Free up the reply buffer
*
*/
VOID
AfpFreeReplyBuf(
IN PSDA pSda,
IN BOOLEAN fLockHeld
)
{
KIRQL OldIrql;
BOOLEAN fRelease=FALSE;
PBYTE pReplyBuffer;
if (!fLockHeld)
{
ACQUIRE_SPIN_LOCK(&pSda->sda_Lock, &OldIrql);
fRelease = TRUE;
}
ASSERT(pSda->sda_ReplyBuf != NULL);
pReplyBuffer = pSda->sda_ReplyBuf - DSI_BACKFILL_OFFSET(pSda);
if (pReplyBuffer == pSda->sda_NameXSpace)
{
ASSERT(pSda->sda_Flags & SDA_NAMEXSPACE_IN_USE);
pSda->sda_Flags &= ~SDA_NAMEXSPACE_IN_USE;
}
else
{
AfpFreeMemory(pReplyBuffer);
}
pSda->sda_ReplyBuf = NULL;
pSda->sda_ReplySize = 0;
if (fRelease)
{
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
}
}
/*** afpUpdateDiskQuotaInfo
*
* Get Available disk quota for this user
*
*/
VOID FASTCALL
afpUpdateDiskQuotaInfo(
IN PCONNDESC pConnDesc
)
{
FILE_FS_SIZE_INFORMATION fssizeinfo;
IO_STATUS_BLOCK IoStsBlk;
NTSTATUS rc;
LONG BytesPerAllocationUnit;
LARGE_INTEGER FreeBytes, VolumeSize;
KIRQL OldIrql;
ASSERT(VALID_CONNDESC(pConnDesc));
ASSERT(VALID_VOLDESC(pConnDesc->cds_pVolDesc));
ASSERT(VALID_VOLDESC(pConnDesc->cds_pVolDesc) &&
VALID_FSH(&pConnDesc->cds_pVolDesc->vds_hRootDir) &&
(KeGetCurrentIrql() < DISPATCH_LEVEL));
AfpImpersonateClient(pConnDesc->cds_pSda);
rc = NtQueryVolumeInformationFile(
pConnDesc->cds_pVolDesc->vds_hRootDir.fsh_FileHandle,
&IoStsBlk,
(PVOID)&fssizeinfo,
sizeof(fssizeinfo),
FileFsSizeInformation);
AfpRevertBack();
if (!NT_SUCCESS(rc))
{
DBGPRINT(DBG_COMP_FILEIO, DBG_LEVEL_ERR,
("afpUpdateDiskQuotaInfo: NtQueryVolInfoFile failed 0x%lx\n",rc));
// take away the refcount we put before calling this routine
AfpConnectionDereference(pConnDesc);
return;
}
//
// note Macintosh can only handle 2Gb volume size. So kludge appropriately.
// System 7.5 and beyond has upped this to 4GB. Optionally handle this if
// the volume has that bit turned on.
//
BytesPerAllocationUnit =
(LONG)(fssizeinfo.BytesPerSector * fssizeinfo.SectorsPerAllocationUnit);
FreeBytes = RtlExtendedIntegerMultiply(fssizeinfo.AvailableAllocationUnits,
BytesPerAllocationUnit);
VolumeSize = RtlExtendedIntegerMultiply(fssizeinfo.TotalAllocationUnits,
BytesPerAllocationUnit);
ACQUIRE_SPIN_LOCK(&pConnDesc->cds_ConnLock, &OldIrql);
pConnDesc->cds_QuotaLimit = VolumeSize;
pConnDesc->cds_QuotaAvl = FreeBytes;
RELEASE_SPIN_LOCK(&pConnDesc->cds_ConnLock, OldIrql);
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("afpUpdateDiskQuotaInfo: Conn %lx Limit=%ld, Available=%ld\n",
pConnDesc,pConnDesc->cds_QuotaLimit.LowPart,pConnDesc->cds_QuotaAvl.LowPart));
// take away the refcount we put before calling this routine
AfpConnectionDereference(pConnDesc);
return;
}