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

1115 lines
27 KiB
C

/*
Copyright (c) 1992 Microsoft Corporation
Module Name:
atalkio.c
Abstract:
This module contains the interfaces to the appletalk stack and the
completion routines for the IO requests to the stack via the TDI.
All the routines in this module can be called at DPC level.
Author:
Jameel Hyder (microsoft!jameelh)
Revision History:
18 Jun 1992 Initial Version
Notes: Tab stop: 4
--*/
#define FILENUM FILE_ATALKIO
#include <afp.h>
#include <scavengr.h>
#include <forkio.h>
#ifdef ALLOC_PRAGMA
#pragma alloc_text( PAGE, AfpSpOpenAddress)
#pragma alloc_text( PAGE, AfpSpCloseAddress)
#pragma alloc_text( PAGE, AfpSpRegisterName)
#endif
/*** AfpTdiPnpHandler
*
* Call the routine (AfpSpOpenAddress) to bind to Asp. This used to be done earlier
* in the DriverEntry code. With plug-n-play, we do it after TDI calls
* us to notify us of an available binding
*/
VOID
AfpTdiPnpHandler(
IN TDI_PNP_OPCODE PnPOpcode,
IN PUNICODE_STRING pBindDeviceName,
IN PWSTR BindingList
)
{
NTSTATUS Status;
UNICODE_STRING OurDeviceName;
WORKER ReCfgRoutine;
WORK_ITEM ReCfgWorkItem;
KEVENT ReCfgEvent;
//
// now see what pnp event has occured and do the needful
//
RtlInitUnicodeString(&OurDeviceName, ATALKASPS_DEVICENAME);
if ((AfpServerState == AFP_STATE_STOP_PENDING) ||
(AfpServerState == AFP_STATE_STOPPED))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdiPnpHandler: server stopped or stopping (%d), ignoring PnP event %d\n",
AfpServerState,PnPOpcode));
return;
}
switch (PnPOpcode)
{
case TDI_PNP_OP_ADD:
if (AfpServerBoundToAsp)
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdi..: We are already bound!! ignoring!\n"));
return;
}
// it had better be our device!
if (!RtlEqualUnicodeString(pBindDeviceName, &OurDeviceName, TRUE))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdiPnpHandler: not our tranport: on %ws ignored\n",
pBindDeviceName->Buffer));
ASSERT(0);
return;
}
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_INFO,
("AfpTdi..: Found our binding: %ws\n",pBindDeviceName->Buffer));
ReCfgRoutine = (WORKER)AfpPnPReconfigEnable;
break;
case TDI_PNP_OP_DEL:
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdiPnpHandler: got TDI_PNP_OP_DEL, default adapter going away!\n"));
if (!AfpServerBoundToAsp)
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdiPnpHandler: We are not bound!! ignoring!\n"));
return;
}
// it had better be our device!
if (!RtlEqualUnicodeString(pBindDeviceName, &OurDeviceName, TRUE))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdiPnpHandler: not our tranport: on %ws ignored\n",
pBindDeviceName->Buffer));
ASSERT(0);
return;
}
ReCfgRoutine = (WORKER)AfpPnPReconfigDisable;
break;
default:
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_WARN,
("AfpTdiPnpHandler: ignoring PnPOpcode %d on %ws\n",
PnPOpcode,(pBindDeviceName)?pBindDeviceName->Buffer:L"Null Ptr"));
return;
}
KeInitializeEvent(&ReCfgEvent,NotificationEvent, False);
// file handle operation needs system context: use worker thread
AfpInitializeWorkItem(&ReCfgWorkItem,
ReCfgRoutine,
&ReCfgEvent);
AfpQueueWorkItem(&ReCfgWorkItem);
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_INFO,
("AfpTdiPnpHandler: put request on Queue, waiting for ReConfigure to complete\n"));
KeWaitForSingleObject(&ReCfgEvent,
UserRequest,
KernelMode,
False,
NULL);
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_INFO,
("AfpTdiPnpHandler: Reconfigure completed, returning....\n"));
}
/*** AfpPnPReconfigDisable
*
* When the stack gets a PnPReconfigure event, we get notified too. We first
* get the TDI_PNP_OP_DEL msg. What we need to do here is close all the
* sessions and close the handle.
*/
VOID FASTCALL
AfpPnPReconfigDisable(
IN PVOID Context
)
{
PKEVENT pReCfgEvent;
pReCfgEvent = (PKEVENT)Context;
// Deregister our name from the network
// Since the stack is going away, explicitly set the flag to FALSE
// There may be timing issues here, where stack may go away
// before SpRegisterName is issued.
// Flagging explicitly avoids re-registration problems during PnPEnable
AfpSpRegisterName(&AfpServerName, False);
afpSpNameRegistered = FALSE;
// Disable listens on ASP
AfpSpDisableListensOnAsp();
// now go and kill all the appletalk sessions
AfpKillSessionsOverProtocol(TRUE);
AfpSpCloseAddress();
// wake up the blocked pnp thread
KeSetEvent(pReCfgEvent, IO_NETWORK_INCREMENT, False);
}
/*** AfpPnPReconfigEnable
*
* When the stack gets a PnPReconfigure event, we get notified too. We
* get the TDI_PNP_OP_ADD msg. What we need to do here is open our handle to
* the stack, register names etc.
*/
VOID FASTCALL
AfpPnPReconfigEnable(
IN PVOID Context
)
{
NTSTATUS Status=STATUS_SUCCESS;
PKEVENT pReCfgEvent;
ULONG OldServerState;
pReCfgEvent = (PKEVENT)Context;
if (afpSpAddressHandle == NULL)
{
Status = AfpSpOpenAddress();
if (!NT_SUCCESS(Status))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdi..: AfpSpOpenAddress failed with status=%lx\n",Status));
goto AfpPnPReconfigEnable_Exit;
}
}
else
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpPnPReconfigEnable: afp handle is already open!\n"));
ASSERT(0);
goto AfpPnPReconfigEnable_Exit;
}
if ((AfpServerState == AFP_STATE_START_PENDING) ||
(AfpServerState == AFP_STATE_RUNNING))
{
// Det the server status block
Status = AfpSetServerStatus();
if (!NT_SUCCESS(Status))
{
AFPLOG_ERROR(AFPSRVMSG_SET_STATUS, Status, NULL, 0, NULL);
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdi..: AfpSetServerStatus failed with %lx\n",Status));
goto AfpPnPReconfigEnable_Exit;
}
// Register our name on this address
Status = AfpSpRegisterName(&AfpServerName, True);
if (!NT_SUCCESS(Status))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdi...: AfpSpRegisterName failed with %lx\n",Status));
goto AfpPnPReconfigEnable_Exit;
}
// Enable listens now that we are ready for it.
AfpSpEnableListens();
}
AfpPnPReconfigEnable_Exit:
if (!NT_SUCCESS(Status))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdi...: Closing Asp because of failure %lx\n",Status));
AfpSpCloseAddress();
}
else
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AFP/Appletalk bound and ready\n"));
}
// wake up the blocked pnp thread
KeSetEvent(pReCfgEvent, IO_NETWORK_INCREMENT, False);
}
/*** AfpTdiRegister
*
* Register our handler with tdi
*/
NTSTATUS
AfpTdiRegister(
IN VOID
)
{
NTSTATUS Status;
UNICODE_STRING ClientName;
TDI_CLIENT_INTERFACE_INFO ClientInterfaceInfo;
RtlInitUnicodeString(&ClientName,L"MacSrv");
ClientInterfaceInfo.MajorTdiVersion = 2;
ClientInterfaceInfo.MinorTdiVersion = 0;
ClientInterfaceInfo.Unused = 0;
ClientInterfaceInfo.ClientName = &ClientName;
ClientInterfaceInfo.BindingHandler = AfpTdiPnpHandler;
ClientInterfaceInfo.AddAddressHandlerV2 = DsiIpAddressCameIn;
ClientInterfaceInfo.DelAddressHandlerV2 = DsiIpAddressWentAway;
ClientInterfaceInfo.PnPPowerHandler = NULL;
Status = TdiRegisterPnPHandlers (
&ClientInterfaceInfo,
sizeof(ClientInterfaceInfo),
&AfpTdiNotificationHandle );
if (!NT_SUCCESS(Status))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpTdiRegister: TdiRegisterPnPHandlers failed (%lx)\n",Status));
}
return(Status);
}
/*** AfpSpOpenAddress
*
* Create an address for the stack. This is called only once at initialization.
* Create a handle to the address and map it to the associated file object.
*
* At this time, we do not know our server name. This is known only when the
* service calls us.
*/
AFPSTATUS
AfpSpOpenAddress(
VOID
)
{
NTSTATUS Status;
NTSTATUS Status2;
BYTE EaBuffer[sizeof(FILE_FULL_EA_INFORMATION) +
TDI_TRANSPORT_ADDRESS_LENGTH + 1 +
sizeof(TA_APPLETALK_ADDRESS)];
PFILE_FULL_EA_INFORMATION pEaBuf = (PFILE_FULL_EA_INFORMATION)EaBuffer;
TA_APPLETALK_ADDRESS Ta;
OBJECT_ATTRIBUTES ObjAttr;
UNICODE_STRING DeviceName;
IO_STATUS_BLOCK IoStsBlk;
PASP_BIND_ACTION pBind = NULL;
KEVENT Event;
PIRP pIrp = NULL;
PMDL pMdl = NULL;
PAGED_CODE( );
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_INFO,
("AfpSpOpenAddress: Creating an address object\n"));
RtlInitUnicodeString(&DeviceName, ATALKASPS_DEVICENAME);
InitializeObjectAttributes(&ObjAttr, &DeviceName, 0, NULL, NULL);
// Initialize the EA Buffer
pEaBuf->NextEntryOffset = 0;
pEaBuf->Flags = 0;
pEaBuf->EaValueLength = sizeof(TA_APPLETALK_ADDRESS);
pEaBuf->EaNameLength = TDI_TRANSPORT_ADDRESS_LENGTH;
RtlCopyMemory(pEaBuf->EaName, TdiTransportAddress,
TDI_TRANSPORT_ADDRESS_LENGTH + 1);
Ta.TAAddressCount = 1;
Ta.Address[0].AddressType = TDI_ADDRESS_TYPE_APPLETALK;
Ta.Address[0].AddressLength = sizeof(TDI_ADDRESS_APPLETALK);
Ta.Address[0].Address[0].Socket = 0;
// Ta.Address[0].Address[0].Network = 0;
// Ta.Address[0].Address[0].Node = 0;
RtlCopyMemory(&pEaBuf->EaName[TDI_TRANSPORT_ADDRESS_LENGTH + 1], &Ta, sizeof(Ta));
do
{
// Create the address object.
Status = NtCreateFile(
&afpSpAddressHandle,
0, // Don't Care
&ObjAttr,
&IoStsBlk,
NULL, // Don't Care
0, // Don't Care
0, // Don't Care
0, // Don't Care
FILE_GENERIC_READ + FILE_GENERIC_WRITE,
&EaBuffer,
sizeof(EaBuffer));
if (!NT_SUCCESS(Status))
{
AFPLOG_DDERROR(AFPSRVMSG_CREATE_ATKADDR, Status, NULL, 0, NULL);
break;
}
// Get the file object corres. to the address object.
Status = ObReferenceObjectByHandle(
afpSpAddressHandle,
0,
NULL,
KernelMode,
(PVOID *)&afpSpAddressObject,
NULL);
ASSERT (NT_SUCCESS(Status));
if (!NT_SUCCESS(Status))
{
if (afpSpAddressHandle != NULL)
{
ASSERT(VALID_FSH((PFILESYSHANDLE)&afpSpAddressHandle)) ;
Status2 = NtClose(afpSpAddressHandle);
afpSpAddressHandle = NULL;
ASSERT(NT_SUCCESS(Status2));
}
AFPLOG_DDERROR(AFPSRVMSG_CREATE_ATKADDR, Status, NULL, 0, NULL);
break;
}
// Now get the device object to the appletalk stack
afpSpAppleTalkDeviceObject = IoGetRelatedDeviceObject(afpSpAddressObject);
ASSERT (afpSpAppleTalkDeviceObject != NULL);
// Now 'bind' to the ASP layer of the stack. Basically exchange the entry points
// Allocate an Irp and an Mdl to describe the bind request
KeInitializeEvent(&Event, NotificationEvent, False);
if (((pBind = (PASP_BIND_ACTION)AfpAllocNonPagedMemory(
sizeof(ASP_BIND_ACTION))) == NULL) ||
((pIrp = AfpAllocIrp(1)) == NULL) ||
((pMdl = AfpAllocMdl(pBind, sizeof(ASP_BIND_ACTION), pIrp)) == NULL))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
break;
}
afpInitializeActionHdr(pBind, ACTION_ASP_BIND);
// Initialize the client part of the bind request
pBind->Params.ClientEntries.clt_SessionNotify = AfpSdaCreateNewSession;
pBind->Params.ClientEntries.clt_RequestNotify = afpSpHandleRequest;
pBind->Params.ClientEntries.clt_GetWriteBuffer = AfpGetWriteBuffer;
pBind->Params.ClientEntries.clt_ReplyCompletion = afpSpReplyComplete;
pBind->Params.ClientEntries.clt_AttnCompletion = afpSpAttentionComplete;
pBind->Params.ClientEntries.clt_CloseCompletion = afpSpCloseComplete;
pBind->Params.pXportEntries = &AfpAspEntries;
TdiBuildAction( pIrp,
AfpDeviceObject,
afpSpAddressObject,
(PIO_COMPLETION_ROUTINE)afpSpGenericComplete,
&Event,
pMdl);
IoCallDriver(afpSpAppleTalkDeviceObject, pIrp);
// Assert this. We cannot block at DISPATCH_LEVEL
ASSERT (KeGetCurrentIrql() < DISPATCH_LEVEL);
AfpIoWait(&Event, NULL);
} while (False);
// Free the allocated resources
if (pIrp != NULL)
AfpFreeIrp(pIrp);
if (pMdl != NULL)
AfpFreeMdl(pMdl);
if (pBind != NULL)
AfpFreeMemory(pBind);
if (NT_SUCCESS(Status))
{
AfpServerBoundToAsp = TRUE;
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpSpOpenAddress: net addr (net.node.socket) on def adapter = %x.%x.%x\n",
AfpAspEntries.asp_AtalkAddr.Network,AfpAspEntries.asp_AtalkAddr.Node,AfpAspEntries.asp_AtalkAddr.Socket));
}
return Status;
}
/*** AfpSpCloseAddress
*
* Close the socket address. This is called only once at driver unload.
*/
VOID
AfpSpCloseAddress(
VOID
)
{
NTSTATUS Status;
PAGED_CODE( );
if (afpSpAddressHandle != NULL)
{
ObDereferenceObject(afpSpAddressObject);
Status = NtClose(afpSpAddressHandle);
afpSpAddressHandle = NULL;
ASSERT(NT_SUCCESS(Status));
}
AfpServerBoundToAsp = FALSE;
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("AfpSpCloseAddress: closed Afp handle (%lx)\n",Status));
}
/*** AfpSpRegisterName
*
* Call Nbp[De]Register to (de)register our name on the address that we
* already opened. This is called at server start/pause/continue. The server
* name is already validated and known to not contain any invalid characters.
* This call is synchronous to the caller, i.e. we wait for operation to
* complete and return an appropriate error.
*/
AFPSTATUS
AfpSpRegisterName(
IN PANSI_STRING ServerName,
IN BOOLEAN Register
)
{
KEVENT Event;
PNBP_REGDEREG_ACTION pNbp = NULL;
PIRP pIrp = NULL;
PMDL pMdl = NULL;
AFPSTATUS Status = AFP_ERR_NONE;
USHORT ActionCode;
PAGED_CODE( );
ASSERT(afpSpAddressHandle != NULL && afpSpAddressObject != NULL);
if (Register ^ afpSpNameRegistered)
{
ASSERT(ServerName->Buffer != NULL);
do
{
if (((pNbp = (PNBP_REGDEREG_ACTION)
AfpAllocNonPagedMemory(sizeof(NBP_REGDEREG_ACTION))) == NULL) ||
((pIrp = AfpAllocIrp(1)) == NULL) ||
((pMdl = AfpAllocMdl(pNbp, sizeof(NBP_REGDEREG_ACTION), pIrp)) == NULL))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
break;
}
// Initialize the Action header and NBP Name. Note that the ServerName
// is also NULL terminated apart from being a counted string.
ActionCode = Register ?
COMMON_ACTION_NBPREGISTER : COMMON_ACTION_NBPREMOVE;
afpInitializeActionHdr(pNbp, ActionCode);
pNbp->Params.RegisterTuple.NbpName.ObjectNameLen =
(BYTE)(ServerName->Length);
RtlCopyMemory(
pNbp->Params.RegisterTuple.NbpName.ObjectName,
ServerName->Buffer,
ServerName->Length);
pNbp->Params.RegisterTuple.NbpName.TypeNameLen =
sizeof(AFP_SERVER_TYPE)-1;
RtlCopyMemory(
pNbp->Params.RegisterTuple.NbpName.TypeName,
AFP_SERVER_TYPE,
sizeof(AFP_SERVER_TYPE));
pNbp->Params.RegisterTuple.NbpName.ZoneNameLen =
sizeof(AFP_SERVER_ZONE)-1;
RtlCopyMemory(
pNbp->Params.RegisterTuple.NbpName.ZoneName,
AFP_SERVER_ZONE,
sizeof(AFP_SERVER_ZONE));
KeInitializeEvent(&Event, NotificationEvent, False);
// Build the Irp
TdiBuildAction( pIrp,
AfpDeviceObject,
afpSpAddressObject,
(PIO_COMPLETION_ROUTINE)afpSpGenericComplete,
&Event,
pMdl);
IoCallDriver(afpSpAppleTalkDeviceObject, pIrp);
// Assert this. We cannot block at DISPATCH_LEVEL
ASSERT (KeGetCurrentIrql() < DISPATCH_LEVEL);
// Wait for completion.
AfpIoWait(&Event, NULL);
Status = pIrp->IoStatus.Status;
} while (False);
if (NT_SUCCESS(Status))
{
afpSpNameRegistered = Register;
}
else
{
AFPLOG_ERROR(AFPSRVMSG_REGISTER_NAME, Status, NULL, 0, NULL);
}
if (pNbp != NULL)
AfpFreeMemory(pNbp);
if (pIrp != NULL)
AfpFreeIrp(pIrp);
if (pMdl != NULL)
AfpFreeMdl(pMdl);
}
return Status;
}
/*** AfpSpReplyClient
*
* This is a wrapper over AspReply.
* The SDA is set up to accept another request when the reply completes.
* The sda_ReplyBuf is also freed up then.
*/
VOID FASTCALL
AfpSpReplyClient(
IN PREQUEST pRequest,
IN LONG ReplyCode,
IN PASP_XPORT_ENTRIES XportTable
)
{
LONG Response;
// Update count of outstanding replies
INTERLOCKED_INCREMENT_LONG((PLONG)&afpSpNumOutstandingReplies);
// Convert reply code to on-the-wire format
PUTDWORD2DWORD(&Response, ReplyCode);
(*(XportTable->asp_Reply))(pRequest,(PUCHAR)&Response);
}
/*** AfpSpSendAttention
*
* Send a server attention to the client
*/
VOID FASTCALL
AfpSpSendAttention(
IN PSDA pSda,
IN USHORT AttnCode,
IN BOOLEAN Synchronous
)
{
KEVENT Event;
NTSTATUS Status;
if (Synchronous)
{
ASSERT (KeGetCurrentIrql() < DISPATCH_LEVEL);
KeInitializeEvent(&Event, NotificationEvent, False);
}
Status = (*(pSda->sda_XportTable->asp_SendAttention))((pSda)->sda_SessHandle,
AttnCode,
Synchronous ? &Event : NULL);
if (NT_SUCCESS(Status) && Synchronous)
{
ASSERT(KeGetCurrentIrql() < DISPATCH_LEVEL);
AfpIoWait(&Event, NULL);
}
}
/*** AfpAllocReplyBuf
*
* Allocate a reply buffer from non-paged memory. Initialize sda_ReplyBuf
* with the pointer. If the reply buffer is small enough, use it out of the
* sda itself.
*/
AFPSTATUS FASTCALL
AfpAllocReplyBuf(
IN PSDA pSda
)
{
KIRQL OldIrql;
PBYTE pStartOfBuffer;
DWORD Offset;
USHORT ReplySize;
ASSERT ((SHORT)(pSda->sda_ReplySize) >= 0);
ACQUIRE_SPIN_LOCK(&pSda->sda_Lock, &OldIrql);
ReplySize = pSda->sda_ReplySize;
Offset = 0;
//
// for a TCP connection, alloc space for the DSI header
//
if (pSda->sda_Flags & SDA_SESSION_OVER_TCP)
{
ReplySize += DSI_HEADER_SIZE;
Offset = DSI_HEADER_SIZE;
}
if (((pSda->sda_Flags & SDA_NAMEXSPACE_IN_USE) == 0) &&
(ReplySize <= pSda->sda_SizeNameXSpace))
{
pStartOfBuffer = pSda->sda_NameXSpace;
pSda->sda_Flags |= SDA_NAMEXSPACE_IN_USE;
}
else
{
pStartOfBuffer = AfpAllocNonPagedMemory(ReplySize);
}
if (pStartOfBuffer != NULL)
{
pSda->sda_ReplyBuf = (pStartOfBuffer + Offset);
}
else
{
pSda->sda_ReplySize = 0;
pSda->sda_ReplyBuf = NULL;
}
#if DBG
if (pStartOfBuffer != NULL)
{
*(DWORD *)pStartOfBuffer = 0x081294;
}
#endif
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
return ((pSda->sda_ReplyBuf == NULL) ? AFP_ERR_MISC : AFP_ERR_NONE);
}
/*** AfpSpCloseSession
*
* Shutdown an existing session
*/
NTSTATUS FASTCALL
AfpSpCloseSession(
IN PSDA pSda
)
{
PASP_XPORT_ENTRIES XportTable;
XportTable = pSda->sda_XportTable;
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_INFO,
("AfpSpCloseSession: Closing session %lx\n", pSda->sda_SessHandle));
(*(XportTable->asp_CloseConn))(pSda->sda_SessHandle);
return STATUS_PENDING;
}
/*** afpSpHandleRequest
*
* Handle an incoming request.
*
* LOCKS: afpSpDeferralQLock (SPIN)
*/
NTSTATUS FASTCALL
afpSpHandleRequest(
IN NTSTATUS Status,
IN PSDA pSda,
IN PREQUEST pRequest
)
{
NTSTATUS RetStatus=STATUS_SUCCESS;
PBYTE pWriteBuf;
PDELAYEDALLOC pDelAlloc;
ASSERT(VALID_SDA(pSda));
// Get the status code and determine what happened.
if (NT_SUCCESS(Status))
{
ASSERT(VALID_SDA(pSda));
ASSERT(pSda->sda_RefCount != 0);
ASSERT(pSda->sda_SessionId != 0);
ACQUIRE_SPIN_LOCK_AT_DPC(&pSda->sda_Lock);
if (pSda->sda_Flags & (SDA_CLOSING | SDA_SESSION_CLOSED | SDA_CLIENT_CLOSE))
{
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_ERR,
("afpSpHandleRequest: got request on a closing connection!\n"));
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
// If this was a write request and we have allocated a write Mdl, free that
if (pRequest->rq_WriteMdl != NULL)
{
//
// did we get this Mdl from cache mgr? if so, treat it separately
//
if ((pDelAlloc = pRequest->rq_CacheMgrContext) != NULL)
{
pDelAlloc->Flags |= AFP_CACHEMDL_DEADSESSION;
ASSERT(pRequest->rq_WriteMdl == pDelAlloc->pMdl);
ASSERT(!(pDelAlloc->Flags & AFP_CACHEMDL_ALLOC_ERROR));
pRequest->rq_CacheMgrContext = NULL;
AfpReturnWriteMdlToCM(pDelAlloc);
}
else
{
pWriteBuf = MmGetSystemAddressForMdlSafe(
pRequest->rq_WriteMdl,
NormalPagePriority);
if (pWriteBuf != NULL)
{
AfpIOFreeBuffer(pWriteBuf);
}
AfpFreeMdl(pRequest->rq_WriteMdl);
}
pRequest->rq_WriteMdl = NULL;
}
return(STATUS_LOCAL_DISCONNECT);
}
pSda->sda_RefCount ++;
//
// should we queue this request up?
//
if ((pSda->sda_Flags & SDA_REQUEST_IN_PROCESS) ||
(!IsListEmpty(&pSda->sda_DeferredQueue)))
{
afpQueueDeferredRequest(pSda, pRequest);
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
}
//
// nope, let's do it now!
//
else
{
pSda->sda_Request = pRequest;
pSda->sda_Flags |= SDA_REQUEST_IN_PROCESS;
ASSERT ((pSda->sda_ReplyBuf == NULL) &&
(pSda->sda_ReplySize == 0));
RELEASE_SPIN_LOCK_FROM_DPC(&pSda->sda_Lock);
// Call AfpUnmarshallReq now. It will do the needful.
AfpUnmarshallReq(pSda);
}
}
else
{
KIRQL OldIrql;
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_WARN,
("afpSpHandleRequest: Error %lx\n", Status));
// if we nuked this session from the session maintenance timer the
// status will be STATUS_LOCAL_DISCONNECT else STATUS_REMOTE_DISCONNECT
// in the former case, log an error.
if (Status == STATUS_LOCAL_DISCONNECT)
{
// The appletalk address of the client is encoded in the length
if (pSda->sda_ClientType == SDA_CLIENT_GUEST)
{
if (pSda->sda_Flags & SDA_SESSION_OVER_TCP) {
AFPLOG_DDERROR(AFPSRVMSG_DISCONNECT_GUEST_TCPIP,
Status,
&pRequest->rq_RequestSize,
sizeof(LONG),
NULL);
} else {
AFPLOG_DDERROR(AFPSRVMSG_DISCONNECT_GUEST,
Status,
&pRequest->rq_RequestSize,
sizeof(LONG),
NULL);
}
}
else
{
if (pSda->sda_Flags & SDA_SESSION_OVER_TCP) {
AFPLOG_DDERROR(AFPSRVMSG_DISCONNECT_TCPIP,
Status,
&pRequest->rq_RequestSize,
sizeof(LONG),
&pSda->sda_UserName);
} else {
AFPLOG_DDERROR(AFPSRVMSG_DISCONNECT,
Status,
&pRequest->rq_RequestSize,
sizeof(LONG),
&pSda->sda_UserName);
}
}
}
// Close down this session, but only if it isn't already closing
// Its important to do this ahead of posting any new sessions since
// we must take into account the ACTUAL number of sessions there are
ACQUIRE_SPIN_LOCK(&pSda->sda_Lock, &OldIrql);
pSda->sda_Flags |= SDA_CLIENT_CLOSE;
if ((pSda->sda_Flags & SDA_SESSION_CLOSED) == 0)
{
DBGPRINT(DBG_COMP_SDA, DBG_LEVEL_INFO,
("afpSpHandleRequest: Closing session handle\n"));
pSda->sda_Flags |= SDA_SESSION_CLOSED;
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
AfpSpCloseSession(pSda);
}
else
{
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
}
// If this was a write request and we have allocated a write Mdl, free that
if (pRequest->rq_WriteMdl != NULL)
{
//
// did we get this Mdl from cache mgr? if so, treat it separately
//
if ((pDelAlloc = pRequest->rq_CacheMgrContext) != NULL)
{
pDelAlloc->Flags |= AFP_CACHEMDL_DEADSESSION;
ASSERT(pRequest->rq_WriteMdl == pDelAlloc->pMdl);
ASSERT(!(pDelAlloc->Flags & AFP_CACHEMDL_ALLOC_ERROR));
pRequest->rq_CacheMgrContext = NULL;
AfpReturnWriteMdlToCM(pDelAlloc);
}
else
{
pWriteBuf = MmGetSystemAddressForMdlSafe(
pRequest->rq_WriteMdl,
NormalPagePriority);
if (pWriteBuf != NULL)
{
AfpIOFreeBuffer(pWriteBuf);
}
AfpFreeMdl(pRequest->rq_WriteMdl);
}
pRequest->rq_WriteMdl = NULL;
}
}
return(RetStatus);
}
/*** afpSpGenericComplete
*
* Generic completion for an asynchronous request to the appletalk stack.
* Just clear the event and we are done.
*/
LOCAL NTSTATUS
afpSpGenericComplete(
IN PDEVICE_OBJECT pDeviceObject,
IN PIRP pIrp,
IN PKEVENT pCmplEvent
)
{
KeSetEvent(pCmplEvent, IO_NETWORK_INCREMENT, False);
// Return STATUS_MORE_PROCESSING_REQUIRED so that IoCompleteRequest
// will stop working on the IRP.
return STATUS_MORE_PROCESSING_REQUIRED;
}
/*** afpSpReplyComplete
*
* This is the completion routine for AfpSpReplyClient(). The reply buffer is freed
* up and the Sda dereferenced.
*/
VOID FASTCALL
afpSpReplyComplete(
IN NTSTATUS Status,
IN PSDA pSda,
IN PREQUEST pRequest
)
{
KIRQL OldIrql;
DWORD Flags = SDA_REPLY_IN_PROCESS;
PMDL pMdl;
PDELAYEDALLOC pDelAlloc;
ASSERT(VALID_SDA(pSda));
// Update the afpSpNumOutstandingReplies
ASSERT (afpSpNumOutstandingReplies != 0);
DBGPRINT(DBG_COMP_STACKIF, DBG_LEVEL_INFO,
("afpSpReplyComplete: %ld\n", Status));
INTERLOCKED_DECREMENT_LONG((PLONG)&afpSpNumOutstandingReplies);
pMdl = pRequest->rq_ReplyMdl;
if ((pDelAlloc = pRequest->rq_CacheMgrContext) != NULL)
{
pRequest->rq_CacheMgrContext = NULL;
ASSERT((pMdl != NULL) && (pMdl == pDelAlloc->pMdl));
AfpReturnReadMdlToCM(pDelAlloc);
}
else
{
if (pMdl != NULL)
{
PBYTE pReplyBuf;
pReplyBuf = MmGetSystemAddressForMdlSafe(
pMdl,
NormalPagePriority);
ASSERT (pReplyBuf != NULL);
if ((pReplyBuf != pSda->sda_NameXSpace) &&
(pReplyBuf != NULL))
{
AfpFreeMemory(pReplyBuf);
}
else
{
Flags |= SDA_NAMEXSPACE_IN_USE;
}
AfpFreeMdl(pMdl);
}
}
ACQUIRE_SPIN_LOCK(&pSda->sda_Lock, &OldIrql);
pSda->sda_Flags &= ~Flags;
RELEASE_SPIN_LOCK(&pSda->sda_Lock, OldIrql);
AfpSdaDereferenceSession(pSda);
}
/*** afpSpAttentionComplete
*
* Completion routine for AfpSpSendAttention. Just signal the event and unblock caller.
*/
VOID FASTCALL
afpSpAttentionComplete(
IN PVOID pEvent
)
{
if (pEvent != NULL)
KeSetEvent((PKEVENT)pEvent, IO_NETWORK_INCREMENT, False);
}
/*** afpSpCloseComplete
*
* Completion routine for AfpSpCloseSession. Remove the creation reference
* from the sda.
*/
VOID FASTCALL
afpSpCloseComplete(
IN NTSTATUS Status,
IN PSDA pSda
)
{
AfpInterlockedSetDword(&pSda->sda_Flags,
SDA_SESSION_CLOSE_COMP,
&pSda->sda_Lock);
AfpScavengerScheduleEvent(AfpSdaCloseSession,
pSda,
0,
True);
}