Leaked source code of windows server 2003
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/*++
Copyright (c) 1991-1992 Microsoft Corporation
Module Name:
servencb.c
Abstract:
Routines to service completed NCB's. This file contains the following
functions:
MsgCallNetBios
MsgDeleteName
MsgGetMachineName
MsgHangupService
MsgListenService
Msgmblockbeg
Msgmblockend
Msgmblocktxt
MsgNetBiosError
MsgRecBcastService
MsgReceiveService
MsgRestart
Msgsblockmes
MsgSendAck
MsgSendService
MsgServeNCBs
MsgSesFullService
MsgStartListen
MsgStartRecBcast
MsgVerifySmb
Author:
Dan Lafferty (danl) 15-Jul-1991
Environment:
User Mode -Win32
Revision History:
19-Aug-1997 wlees
Add PNP support for lana's
27-Jul-1994 danl
MsgServeNCBs: This function now returns FALSE when the service
is to shut down.
29-May-1992 danl
MsgListenService: reset the NRC_NORES error count when a good
return code accompanies the Listen completion.
18-Feb-1992 ritaw
Convert to Win32 service control APIs.
15-Jul-1991 danl
Ported from LM2.0
--*/
//
// SMB translation
//
//
// OLD NEW
// SMB SMB_HEADER or PSMB_HEADER
// -------- -------------------------
// smb_idf Protocol
// smb_com Command
// smb_rcls ErrorClass
// smb_reh Reserved
// smb_err Error
// smb_flg Flags
// smb_flag2 Flags2
// smb_res Reserved2
// smb_gid Tid
// smb_tid Pid
// smb_pid Uid
// smb_uid Mid
// smb_mid Kludge
//
// Includes
//
#include "msrv.h"
#include <tstring.h> // Unicode string macros
#include <string.h> // memcpy
#include <netdebug.h> // NetpAssert
#include <lmerrlog.h> // NELOG_ messages
#include <netlib.h> // UNUSED macro
#include <smbtypes.h> // needed for smb.h
#include <smb.h> // Server Message Block definitions
#include <smbgtpt.h> // SMB field manipulation macros
//#include <msgrutil.h> // NetpNetBiosReset
#include <nb30.h> // NRC_GOODRET, ASYNC
#include "msgdbg.h" // MSG_LOG
#include "heap.h"
#include "msgdata.h"
#include "apiutil.h" // MsgMapNetError
#define MAX_RETRIES 10
//
// Local Functions
//
STATIC NET_API_STATUS
MsgCallNetBios(
DWORD net,
PNCB ncb,
DWORD ncbi
);
STATIC VOID
MsgDeleteName(
DWORD net,
DWORD ncbi
);
STATIC VOID
MsgGetMachineName(
DWORD net,
DWORD ncbi
);
STATIC VOID
MsgHangupService(
DWORD net,
DWORD ncbi,
CHAR retval
);
STATIC VOID
MsgListenService(
DWORD net,
DWORD ncbi,
CHAR retval
);
STATIC VOID
Msgmblockbeg(
DWORD net,
DWORD ncbi
);
STATIC VOID
Msgmblockend(
DWORD net,
DWORD ncbi
);
STATIC VOID
Msgmblocktxt(
DWORD net,
DWORD ncbi
);
STATIC DWORD
MsgNetBiosError(
DWORD net,
PNCB ncb,
char retval,
DWORD ncbi
);
STATIC VOID
MsgReceiveService(
DWORD net,
DWORD ncbi,
char retval
);
STATIC VOID
MsgRestart(
DWORD net,
DWORD ncbi
);
STATIC VOID
Msgsblockmes(
DWORD net,
DWORD ncbi
);
STATIC VOID
MsgSendAck(
DWORD net,
DWORD ncbi,
UCHAR smbrclass,
USHORT smbrcode
);
STATIC VOID
MsgSendService(
DWORD net,
DWORD ncbi,
CHAR retval
);
STATIC VOID
MsgSesFullService(
DWORD net,
DWORD ncbi,
char retval
);
STATIC int
MsgVerifySmb(
DWORD net,
DWORD ncbi,
UCHAR func,
int parms,
char *buffers
);
#if DBG
VOID
MsgDumpNcb(
IN PNCB pNcb
);
#endif //DBG
/*
* MsgCallNetBios - issue a net bios call
*
* This function issues a net bios call and calls the
* error handler if that call results in an error.
*
* MsgCallNetBios (net, ncb, ncbi)
*
* ENTRY
* net - network index
* ncb - pointer to a Network Control Block
* ncbi - index of ncb in ncb array
*
* RETURN
* state of the Messenger: Either RUNNING or STOPPING.
*
* SIDE EFFECTS
*
* Calls NetBios() to actually issue the net bios call.
* Calls MsgNetBiosError() if there is an error.
*/
STATIC NET_API_STATUS
MsgCallNetBios(
DWORD net, // Which network?
PNCB ncb, // Pointer to Network Control Block
DWORD ncbi
)
{
int retval;
PNCB_DATA pNcbData;
retval = Msgsendncb(ncb, net);
pNcbData = GETNCBDATA(net,ncbi);
if (retval == NRC_GOODRET) {
//
// Clear err on success
//
pNcbData->Status.last_immediate = 0;
pNcbData->Status.this_immediate = 0;
}
else {
//
// NEW (11-4-91):
// --------------
// It is ok to get a Session Closed error if the state is STOP.
//
if ( (pNcbData->State == MESSTOP) &&
(retval == NRC_SCLOSED) ) {
MSG_LOG(TRACE,"CallNetBios: At end of msg, Session is closed for NET %d\n",
net);
pNcbData->Status.last_immediate = 0;
pNcbData->Status.this_immediate = 0;
}
else {
//
// Else mark error
//
pNcbData->Status.this_immediate = retval;
//
// Call the error handler if err
//
MSG_LOG(TRACE,"CallNetBios: net bios call failed 0x%x\n",retval);
MsgNetBiosError(net,ncb,(char)retval,ncbi);
return(MsgMapNetError((UCHAR)retval));
}
//
// Make sure the event for this thread is in the signaled state
// so that we can wake up and properly handle the error.
//
if (SetEvent(ncb->ncb_event) != TRUE) {
MSG_LOG(ERROR,"CallNetBios: SetEvent Failed\n",0);
}
}
return(NERR_Success);
}
/*
* MsgDeleteName - Delete a name from the Message Server's name table
*
* This function is called when a LISTEN, a RECEIVE BROADCAST DATAGRAM,
* or a RECEIVE ANY completes with the error code specifying that the
* name in question has been deleted. This function marks the appropriate
* entry in the flag table in the shared data area and sets the NCB_CPLT
* field of the appropriate NCB to 0xFF (so that FindCompletedNCB() will
* never find it).
*
* MsgDeleteName (net, ncbi)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
*
* RETURN
* nothing
*
* SIDE EFFECTS
*
* Modifies an NCB and the shared data area.
*/
STATIC VOID
MsgDeleteName(
DWORD net, // Which network?
DWORD ncbi // Network Control Block index
)
{
NCB ncb;
PNCB pNcb;
NET_API_STATUS status;
MSG_LOG(TRACE,"In MsgDeleteName %d\n",net);
if( SD_NAMEFLAGS(net,ncbi) & NFMACHNAME) {
//
// Name is the machine name. It may have been removed from the
// card by a board reset, so try to re-add it.
//
// NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW
//
// First reset the adapter
//
MSG_LOG1(TRACE,"Calling NetBiosReset for lana #%d\n",GETNETLANANUM(net));
status = MsgsvcGlobalData->NetBiosReset(GETNETLANANUM(net));
if (status != NERR_Success) {
MSG_LOG(ERROR,"MsgDeleteName: NetBiosReset failed %d\n",
status);
MSG_LOG(ERROR,"MsgDeleteName: AdapterNum %d\n",net);
//
// I'm not sure what to do if this fails.
//
}
//
//
// NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW-NEW
memcpy((char far *) ncb.ncb_name, SD_NAMES(net,ncbi),NCBNAMSZ);
ncb.ncb_command = NCBADDNAME; // Add name (wait)
ncb.ncb_lana_num = GETNETLANANUM(net); // Use the LANMAN adapter
Msgsendncb( &ncb, net);
MsgStartListen(net,ncbi);
}
else {
MsgDatabaseLock(MSG_GET_EXCLUSIVE,"MsgDeleteName"); // Wait for write access
SD_NAMEFLAGS(net,ncbi) = NFDEL; // Name is deleted
MsgDatabaseLock(MSG_RELEASE,"MsgDeleteName"); // Free lock on share table
pNcb = GETNCB(net,ncbi);
pNcb->ncb_cmd_cplt = 0xff; // Simulate command in progress
}
}
/*
* MsgGetMachineName - process a Get Machine Name Server Message Block
*
* This function sends to the caller the local machine name in
* response to a Get Machine Name Server Message Block.
*
* MsgGetMachineName (net, ncbi)
*
* ENTRY
* net - Network index
* ncbi - Network Control Block index
*
* Globals used as input:
*
* machineName - Unicode version of the machine name.
*
* machineNameLen - The number of unicode characters in the machine
* name.
*
* RETURN
* nothing
*
* MsgGetMachineName() is called by MsgReceiveService (RecAnyService()).
* After verifying that the request is valid, this function builds
* an SMB containing the local machine name and sends it back to the
* caller.
*
* SIDE EFFECTS
*
* Calls MsgVerifySmb() and MsgCallNetBios(). Sets MsgSendService() to be the
* next service routine to be executed for the ncbi'th NCB.
*/
STATIC VOID
MsgGetMachineName(
DWORD net, // Which network?
DWORD ncbi // Index to NCB
)
{
PNCB ncb; // Pointer to NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
LPBYTE buffer; // Pointer to SMB buffer
LPBYTE cp; // Save pointer
PSHORT bufLen; // Pointer to buffer length field in SMB;
NTSTATUS ntStatus;
OEM_STRING ansiString;
UNICODE_STRING unicodeString;
MSG_LOG(TRACE,"In MsgGetMachineName %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to NCB
if(pNcbData->State != MESSTART) {
//
// If wrong time for this block
//
// Hang up and start a new listen,
// log an error if mpncbistate[net][ncbi] == MESCONT;
// otherwise, do not log the error.
//
if(pNcbData->State == MESCONT) {
//
// Log error if message in progress
//
Msglogmbe(MESERR,net,ncbi);
}
//
// HANGUP and LISTEN again
//
MsgRestart(net,ncbi);
return;
}
pNcbData->State = MESSTOP; // End of message state
//
// Check if SMB is malformed
//
if(MsgVerifySmb(net,ncbi,SMB_COM_GET_MACHINE_NAME,0,"") != 0) {
return;
}
buffer = ncb->ncb_buffer; // Get pointer to buffer
cp = &buffer[sizeof(SMB_HEADER)]; // Skip to end of header
*cp++ = '\0'; // Return no parameters
//
// Length of name plus two
//
bufLen = (PSHORT)&cp[0];
*bufLen = MachineNameLen + (SHORT)2;
cp += sizeof(MachineNameLen); // Skip over buffer length field
*cp++ = '\004'; // Null-terminated string next
#ifdef UNICODE
//
// Translate the machineName from Unicode to Ansi and place it into
// the buffer at the temp pointer location.
//
unicodeString.Length = (USHORT)(STRLEN(machineName)*sizeof(WCHAR));
unicodeString.MaximumLength = (USHORT)((STRLEN(machineName)+1) * sizeof(WCHAR));
unicodeString.Buffer = machineName;
ansiString.Length = MachineNameLen;
ansiString.MaximumLength = *bufLen;
ansiString.Buffer = cp;
ntStatus = RtlUnicodeStringToOemString(
&ansiString,
&unicodeString,
FALSE); // Don't Allocate the ansiString Buffer
if (!NT_SUCCESS(ntStatus)) {
MSG_LOG(ERROR,
"MsgGetMachineName:RtlUnicodeStringToOemString Failed rc=%X\n",
ntStatus);
return; // They return for other errors, so I will here too.
}
*(cp + ansiString.Length) = '\0';
#else
UNUSED(unicodeString);
UNUSED(ansiString);
UNUSED(ntStatus);
strcpy( cp, (LPSTR)machineName); // Copy machine name
#endif
cp += MachineNameLen + 1; // Skip over machine name
//
// Set length of buffer
//
ncb->ncb_length = (USHORT)(cp - buffer);
ncb->ncb_command = NCBSEND | ASYNCH; // Send (no wait)
pNcbData->IFunc = (LPNCBIFCN)MsgSendService; // Set function pointer
MsgCallNetBios(net,ncb,ncbi); // Issue the net bios call
}
/*
* MsgHangupService - Service completed HANGUP net bios calls
*
* This function is invoked by NCBService() to process completed
* HANGUP net bios calls. In response to a completed HANGUP,
* this function issues a new LISTEN net bios call.
*
* MsgHangupService (net, ncbi, retval)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
* retval - value returned from net bios call
*
* RETURN
* nothing
*
* SIDE EFFECTS
*
* Calls MsgStartListen() to issue a new LISTEN net bios call. Calls
* MsgNetBiosError() on errors it does not know how to deal with.
*/
STATIC VOID
MsgHangupService(
DWORD net, // Which network
DWORD ncbi, // Index of completed NCB
CHAR retval // HANGUP return value
)
{
PNCB pNcb;
MSG_LOG(TRACE,"In MsgHangupService %d\n",net);
switch(retval) { // Switch on return value
case NRC_GOODRET: // Success
case NRC_CMDTMO: // Command timed out
case NRC_SCLOSED: // Session closed
case NRC_SABORT: // Session ended abnormally
//
// BBSP - check if the name for this NCB ends in 0x3. If so,
// add the 0x5 version and don't reissue the listen on the 0x03.
// No need to worry about doing it on all nets, since on a machine
// with more than one the 0x05 name will never leave home, and
// the 0x03 version will never get a message.
//
MSG_LOG(TRACE," MsgHangupService: Issue a new LISTEN\n",0);
MsgStartListen(net,ncbi); // Issue a new LISTEN net bios call
break;
default:
//
// Invoke error handler
//
MSG_LOG(TRACE," MsgHangupService: Unknown return value %x\n",retval);
pNcb = GETNCB(net,ncbi);
MsgNetBiosError(net,pNcb,retval,ncbi);
//
// BBSP - check if the name for this NCB ends in 0x3. If so,
// add the 0x5 version and don't reissue the listen on the 0x03.
// See note above.
//
MSG_LOG(TRACE," MsgHangupService: Issue a new LISTEN\n",0);
MsgStartListen(net,ncbi); // Issue a new LISTEN net bios call
break;
}
}
/*
* MsgListenService - service completed LISTEN net bios calls
*
* This function is called when a LISTEN net bios call completes
* either due to an error or due to the establishment of a
* session. In the latter case, it initiates message reception.
*
* MsgListenService (net, ncbi, retval)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
* retval - value returned from NCB call
*
* RETURN
* nothing
*
* If a session is established, this function issues a RECEIVE ANY
* net bios call to initiate reception of a message. If the function
* is invoked because the net bios call has failed due to the deletion
* of a name from the local network adapter's name table, then this
* function calls the routine responsible for deleting names from the
* Message Server's data area. This is the mechanism by which the
* NETNAME command notofies the Message Server of a deletion.
*
* SIDE EFFECTS
*
* Calls MsgCallNetBios() to issue a RECEIVE ANY net bios call. Calls
* MsgDeleteName() if it is informed of the deletion of a name. Calls
* MsgNetBiosError() on errors it does not know how to deal with. Sets
* mpncbifun[ncbi] according to the net bios call it issues.
*/
STATIC VOID
MsgListenService(
DWORD net, // Which network?
DWORD ncbi, // Index of completed NCB
CHAR retval // LISTEN return value
)
{
PNCB ncb; // Pointer to completed NCB
PNCB_DATA pNcbData; // Corresponding NCB data
static DWORD SaveCount = 0;
MSG_LOG(TRACE,"In MsgListenService %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to completed NCB
switch(retval) {
case NRC_GOODRET:
//
// Success
//
//
// Reset the No Resources error count if a good return code comes
// in for this name.
//
SaveCount = 0;
pNcbData->State = MESSTART; // Message start state
pNcbData->IFunc = (LPNCBIFCN)MsgReceiveService;
//
// Set function pointer
//
ncb->ncb_command = NCBRECV | ASYNCH;
//
// Receive any (no wait)
//
ncb->ncb_length = BUFLEN; // Reset length of buffer
MsgCallNetBios(net,ncb,ncbi); // Issue the net bios call
break;
case NRC_LOCTFUL:
//
// Session Table Full
// Log error in system error log file
//
MSG_LOG(TRACE,"[%d]MsgListenService: Session Table is full\n",net);
pNcbData->IFunc = (LPNCBIFCN)MsgSesFullService; // Set function pointer
ncb->ncb_command = NCBDELNAME | ASYNCH; // Delete name (no wait)
MsgCallNetBios(net,ncb,ncbi); // Issue the net bios call
break;
case NRC_NOWILD: // Name not found
// Name not found
// Name deleted between end of one session and start of next
case NRC_NAMERR:
//
// Name was deleted
//
MSG_LOG(TRACE,"[%d]MsgListenService: Name was deleted for some reason\n",net);
MsgDeleteName(net,ncbi); // Handle the deletion
break;
case NRC_NORES:
//
// We need to cover the case where we are adding a new name and
// starting a new listen. In this case, the thread that is adding
// the names will hangup and delete the name.
//
// So here we will sleep for a moment and then check to see if the
// name is still there. If not we just return without setting
// up to handle the NCB anymore. If the name is still there, then
// we travel down the default path and try again.
//
MSG_LOG(TRACE,"[%d]No Net Resources. SLEEP FOR A WHILE\n",net);
Sleep(1000);
MSG_LOG(TRACE,"[%d]No Net Resources. WAKEUP\n",net);
if (pNcbData->NameFlags == NFDEL)
{
MSG_LOG(TRACE,"[%d]MsgListenService: No Net Resources & Name Deleted\n",net);
ncb->ncb_cmd_cplt = 0xff;
}
else
{
//
// If a session goes away and we can't gain the resources for
// it again, then we will attempt to re-connect MAX_RETRIES
// times. If we still cannot connect, then the name will be
// deleted.
//
// Don't deal with retries per net/ncbi -- if we've had
// "out of resources" failures MAX_RETRIES times, odds are
// the situation's not getting better even if we sleep/retry
// for each individual net/ncbi combo.
//
if (SaveCount >= MAX_RETRIES)
{
//
// Delete the Name
//
MSG_LOG(ERROR,
"Out of Resources, Deleting %s\n",
SD_NAMES(net,ncbi));
MsgDeleteName(net,ncbi);
//
// Mark this as 0xff now to avoid another callback call the
// next time this net/ncbi combo is hit in the loop (since that
// call will simply set this value.
//
ncb->ncb_cmd_cplt = 0xff;
//
// Don't roll SaveCount back to zero until we have an NCB
// completed with NRC_GOODRET in the future. This lets us
// avoid rewaiting MAX_RETRIES times for every net/ncbi
// combo as long as we keep getting NRC_NORES.
//
}
else
{
SaveCount++;
MSG_LOG(TRACE,
"MsgListenService: new SaveCount = %d\n",
SaveCount);
}
}
break;
case NRC_BRIDGE:
//
// Lana number no longer valid (network interface went away)
//
MSG_LOG(TRACE,"[%d] lana has become invalid\n", net);
MsgNetBiosError(net, ncb, retval, ncbi);
//
// Indicate lana is now invalid
//
GETNETLANANUM(net) = 0xff;
//
// Mark current operation as deleted
//
ncb->ncb_cmd_cplt = 0xff;
ncb->ncb_retcode = 0;
break;
default:
//
// Other failure
//
MSG_LOG(TRACE,"MsgListenService: Unrecognized retval %x\n",retval);
MsgNetBiosError(net,ncb,retval,ncbi);
// The listen error has been logged. Now as much as possible to
// get another listen staterd. This involves performing
// a HangUp for this name (which should fail but might help
// to clear out the err) and then re-issuing the listen. If the
// same error occurs SHUTDOWN_THRESHOLD consecutive times then
// MsgNetBiosError will shut down the message server.
//
MsgRestart(net,ncbi); // Attempt to restart the Listen
break;
}
}
/*
* Msgmblockbeg - process the header of a multi-block message
*
* This function acknowledges receipt of the header of a multi-block
* message and initiates logging of that message.
*
* Msgmblockbeg (net, ncbi)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
*
* RETURN
* nothing
*
* This function is called from ReceivePost() (RecAnyPost()).
* It first check to see if it is appropriate for the ncbi'th
* name to have received a begin-multi-block-message SMB at the
* current time. It verifies the correctness of the SMB in the
* ncbi'th buffer. It initiates logging of the multi-block message,
* and it sends an acknowledgement to the sender of the message.
*
* SIDE EFFECTS
*
* Calls MsgRestart() to terminate the session if the SMB has arrived
* at a bad time. Calls MsgVerifySmb() to check the SMB for correctness.
* Calls logmbb() to begin logging. Calls MsgSendAck() to send an
* acknowledgement to the sender of the message.
*/
STATIC VOID
Msgmblockbeg(
DWORD net, // Which network?
DWORD ncbi // Index to NCB
)
{
PNCB ncb; // Pointer to NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
LPBYTE buffer; // Pointer to SMB buffer
LPSTR cp; // Save pointer
LPSTR from; // From-name
LPSTR to; // To-name
MSG_LOG(TRACE,"In Msgmblockbeg %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to NCB
if(pNcbData->State != MESSTART) { // If wrong time for this block
//
// Hang up and start a new listen,
// log an error if mpncbistate[net][ncbi] == MESCONT;
// otherwise, do not log the error.
//
if(pNcbData->State == MESCONT) {
//
// Log error if message in progress
//
Msglogmbe(MESERR,net,ncbi);
}
//
// HANGUP and LISTEN again
//
MsgRestart(net,ncbi);
return;
}
pNcbData->State = MESCONT; // Processing multi-block message
if(MsgVerifySmb(net,ncbi,SMB_COM_SEND_START_MB_MESSAGE,0,"ss") != 0) {
//
// Check for malformed SMB
//
return;
}
buffer = ncb->ncb_buffer; // Get pointer to buffer
from = &buffer[sizeof(SMB_HEADER) + 4]; // Save pointer to from-name
to = &from[strlen(from) + 2]; // Save pointer to to-name
if(Msglogmbb(from,to,net,ncbi)) { // If attempt to log header fails
pNcbData->State = MESERR; // Enter error state
//
// Send negative acknowledgement
//
MsgSendAck(net,ncbi,'\002',SMB_ERR_NO_ROOM);
return;
}
//
// Indicate message received
//
SmbPutUshort(&(((PSMB_HEADER)buffer)->Error), (USHORT)SMB_ERR_SUCCESS);
// ((PSMB_HEADER)buffer)->Error = (USHORT)SMB_ERR_SUCCESS;
cp = &buffer[sizeof(SMB_HEADER)]; // Point just past header
*cp++ = '\001'; // One parameter
((short UNALIGNED far *) cp)[0] = ++mgid; // Message group ID
pNcbData->mgid = mgid; // Save message group i.d.
((short UNALIGNED far *) cp)[1] = 0; // No buffer
ncb->ncb_length = sizeof(SMB_HEADER) + 5; // Set length of buffer
ncb->ncb_command = NCBSEND | ASYNCH; // Send(no wait)
//
// Set function pointer & issue the net bios call
//
pNcbData->IFunc = (LPNCBIFCN)MsgSendService;
MsgCallNetBios(net,ncb,ncbi);
}
/*
* Msgmblockend - process end of a multi-block message
*
* This function acknowledges receipt of the end of a
* multi-block message and terminates logging of the message.
*
* Msgmblockend (net, ncbi)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
*
* RETURN
* nothing
*
* This function is called from ReceivePost() (RecAnyPost()).
* It first check to see if it is appropriate for the ncbi'th
* name to have received an end-multi-block-message SMB at the
* current time. It verifies the correctness of the SMB in the
* ncbi'th buffer. It terminates logging, and it sends an
* acknowledgement to the sender of the message.
*
* SIDE EFFECTS
*
* Calls MsgRestart() to terminate the session if the SMB has arrived
* at a bad time. Calls MsgVerifySmb() to check the SMB for correctness.
* Calls logmbe() to terminate logging. Calls MsgSendAck() to send an
* acknowledgement to the sender of the message.
*/
STATIC VOID
Msgmblockend(
DWORD net, // Which network?
DWORD ncbi // Index to NCB
)
{
PNCB ncb; // Pointer to NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
LPBYTE buffer; // Pointer to SMB buffer
int error; // Error flag
char smbrclass; // SMB return class
unsigned short smbrcode; // SMB return code
MSG_LOG(TRACE,"In Msgmblockend %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to NCB
if(pNcbData->State != MESCONT) { // If wrong time for this block
//
// Hang up and start a new listen,
// no error to log since no message in progress.
// HANGUP and LISTEN again
//
MsgRestart(net,ncbi);
return;
}
pNcbData->State = MESSTOP; // End of message state
if(MsgVerifySmb(net,ncbi,SMB_COM_SEND_END_MB_MESSAGE,1,"") != 0) {
//
// If SMB is malformed, log error and return
//
Msglogmbe(MESERR,net,ncbi);
return;
}
buffer = ncb->ncb_buffer; // Get pointer to buffer
if(*((short UNALIGNED far *) &buffer[sizeof(SMB_HEADER) + 1]) != pNcbData->mgid) {
//
// If i.d. does not match
//
error = 1; // Error found
smbrclass = '\002'; // Error return
smbrcode = SMB_ERR_ERROR; // Non-specific error
}
else {
//
// Else if message group i.d. okay
//
error = 0; // No error found
smbrclass = '\0'; // Good return
smbrcode = (USHORT)SMB_ERR_SUCCESS; // Message received
}
MsgSendAck(net,ncbi,smbrclass,smbrcode); // Send acknowledgement
if(!error) Msglogmbe(MESSTOP,net,ncbi); // Log end of message
}
/*
* Msgmblocktxt - process text of a multi-block message
*
* This function acknowledges receipt of a block of text of a
* multi-block message and logs that block.
*
* Msgmblocktxt (net, ncbi)
*
* ENTRY
* net - Network index
* ncbi - Network Control Block index
*
* RETURN
* nothing
*
* This function is called from ReceivePost() (RecAnyPost()).
* It first check to see if it is appropriate for the ncbi'th
* name to have received a multi-block-message-text SMB at the
* current time. It verifies the correctness of the SMB in the
* ncbi'th buffer. It logs the text block, and it sends an
* acknowledgement to the sender of the message.
*
* SIDE EFFECTS
*
* Calls MsgRestart() to terminate the session if the SMB has arrived
* at a bad time. Calls MsgVerifySmb() to check the SMB for correctness.
* Calls logmbt() to log the text block. Calls MsgSendAck() to send an
* acknowledgement to the sender of the message.
*/
STATIC VOID
Msgmblocktxt(
DWORD net, // Which network?
DWORD ncbi // Index to NCB
)
{
PNCB ncb; // Pointer to NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
LPBYTE buffer; // Pointer to SMB buffer
LPSTR cp; // Save pointer
char smbrclass; // SMB return class
unsigned short smbrcode; // SMB return code
MSG_LOG(TRACE,"In Msgmblocktxt %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to NCB
if(pNcbData->State != MESCONT) { // If wrong time for this block
//
// HANGUP and start a new LISTEN.
// no error to log since no message in progress.
//
MsgRestart(net,ncbi);
return;
}
if(MsgVerifySmb(net,ncbi,SMB_COM_SEND_TEXT_MB_MESSAGE,1,"b") != 0) {
//
// If SMB is malformed
//
Msglogmbe(MESERR,net,ncbi); // Log error
return;
}
buffer = ncb->ncb_buffer; // Get pointer to buffer
cp = &buffer[sizeof(SMB_HEADER) + 1]; // Skip to message group i.d.
if(*((short UNALIGNED far *) cp) != pNcbData->mgid) {
//
// If i.d. does not match
//
smbrclass = '\002'; // Error return
smbrcode = SMB_ERR_ERROR; // Non-specific error
}
else if(Msglogmbt(&buffer[sizeof(SMB_HEADER) + 6], net, ncbi)) {
//
// Else if text cannot be logged
//
pNcbData->State = MESERR; // Enter error state
smbrclass = '\002'; // Error return
smbrcode = SMB_ERR_NO_ROOM; // No room in buffer
}
else {
//
// Else if message logged okay
//
smbrclass = '\0'; // Good return
smbrcode = (USHORT)SMB_ERR_SUCCESS; // Message received
}
MsgSendAck(net,ncbi,smbrclass,smbrcode); // Send acknowledgement
}
/*
* MsgNetBiosError - process an error returned by a net bios call
*
* This function performs generic error handling for
* failed net bios calls. If the error is a fatal one because the error
* counted exceeded the SHUTDOWN_THRESHOLD, this routine begins a forced
* shutdown of the messenger. This shutdown will not complete until all
* threads have woken up and returned to the main loop where the
* messenger status is examined.
*
* MsgNetBiosError (net, ncb, retval, ncbi)
*
* ENTRY
* net - Network index
* ncb - Network Control Block pointer
* retval - value returned from the net bios call
* ncbi - ncb array index of ncb which resulted in this error
*
* RETURN
* state of the Messenger: Either RUNNING or STOPPING.
*
* Chcks in ncbStatus array that this is not a repeated error
* that has already been entered in the error log, and logs
* the error.
*
* SIDE EFFECTS
*
* Calls MsgErrorLogWrite() to log errors in the Network System Error Log.
* If this is a new error, the error status in the ncbStatus array for this
* ncb is updated so that the same error will not be reported if it is
* repeated.
*/
STATIC DWORD
MsgNetBiosError(
DWORD net, // Which network?
PNCB ncb, // Pointer to NCB
char retval, // Error code
DWORD ncbi // Index of array causing the error
)
{
PNCB_DATA pNcbData;
//
// First check the immediate status for this ncb. If it is in error
// then this must be the error, else it is a final error code.
//
pNcbData = GETNCBDATA(net,ncbi);
if (pNcbData->Status.this_immediate != 0)
{
if(pNcbData->Status.this_immediate == pNcbData->Status.last_immediate)
{
if (++(pNcbData->Status.rep_count) >= SHUTDOWN_THRESHOLD) {
//
// The same error has occured SHUTDOWN_THRESHOLD times in
// a row. Shutdown the messenger.
//
MSG_LOG(ERROR,"MsgNetBiosError1:repeated MsgNetBiosError(ncb error) - shutting down\n",0);
return(MsgBeginForcedShutdown(
PENDING,
NERR_InternalError));
}
return(RUNNING); // Same as last error so don't report it
}
else
{
//
// This error was not the same as the last error. So just
// update the last error place holder.
//
pNcbData->Status.last_immediate =
pNcbData->Status.this_immediate;
}
}
else
{
//
// Must have been a final ret code (ncb completion code) that was
// in error.
//
if(pNcbData->Status.this_final == pNcbData->Status.last_final)
{
if (++(pNcbData->Status.rep_count) >= SHUTDOWN_THRESHOLD)
{
MSG_LOG(ERROR,"MsgNetBiosError2:repeated MsgNetBiosError (final ret code) - shutting down\n",0);
return(MsgBeginForcedShutdown(
PENDING,
NERR_InternalError));
}
return(RUNNING); // Same as last error so don't report it
}
else
{
pNcbData->Status.last_final = pNcbData->Status.this_final;
}
}
//
// Here if a new error has occured
//
MSG_LOG(ERROR,"MsgNetBiosError3:An unexpected NCB was received 0x%x\n",retval);
UNUSED(retval);
#if DBG
MsgDumpNcb(ncb);
#endif
return (RUNNING);
}
/*
* MsgReceiveService - service a completed RECEIVE net bios call
*
* This function is called to service a completed RECEIVE net
* bios call. For successful completions, it examines the data
* received to determine which of the SMB-processing functions
* should be called.
*
* MsgReceiveService (net, ncbi, retval)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
* retval - value returned by the net bios
*
* RETURN
* nothing
*
* This function dispatches SMB's received to the proper processing
* function. It also handles a number of error conditions (noted
* in the code below).
*
* SIDE EFFECTS
*
* See handling of error conditions.
*/
STATIC VOID
MsgReceiveService(
DWORD net, // Which network?
DWORD ncbi, // Index to completed NCB
char retval // SEND return value
)
{
PNCB ncb; // Pointer to completed NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
PSMB_HEADER smb; // Pointer to SMB header
MSG_LOG(TRACE,"In MsgReceiveService %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to NCB
switch(retval) {
case NRC_GOODRET: // Success
if(ncb->ncb_length >= sizeof(SMB_HEADER)) {
//
// If we could have an SMB
//
smb = (PSMB_HEADER)ncb->ncb_buffer;
// Get pointer to buffer
switch(smb->Command) { // Switch on SMB function code
case SMB_COM_SEND_MESSAGE: // Single block message
Msgsblockmes(net,ncbi);
return;
case SMB_COM_SEND_START_MB_MESSAGE: // Beginning of multi-block message
Msgmblockbeg(net,ncbi);
return;
case SMB_COM_SEND_END_MB_MESSAGE: // End of multi-block message
Msgmblockend(net,ncbi);
return;
case SMB_COM_SEND_TEXT_MB_MESSAGE: // Text of multi-block message
Msgmblocktxt(net,ncbi);
return;
case SMB_COM_GET_MACHINE_NAME: // Get Machine Name
MsgGetMachineName(net,ncbi);
return;
case SMB_COM_FORWARD_USER_NAME: // Add forward-name
//
// Not supported in NT.
// for now fall through as if unrecognized SMB.
//
case SMB_COM_CANCEL_FORWARD: // Delete forward-name
//
// Not supported in NT.
// for now fall through as if unrecognized SMB.
//
default: // Unrecognized SMB
break;
}
}
if(pNcbData->State == MESCONT) {
//
// If middle of multi-block message, Log an error
//
Msglogmbe(MESERR,net,ncbi);
}
MSG_LOG(ERROR,"MsgReceiveService:An illegal SMB was received\n",0);
//
// HANGUP and LISTEN again
//
MsgRestart(net,ncbi);
break;
case NRC_CMDTMO: // Command timed out
if(pNcbData->State == MESCONT) {
//
// If middle of multi-block message
//
Msglogmbe(MESERR,net,ncbi); // Log an error
}
//
// HANGUP and start new LISTEN
//
MsgRestart(net,ncbi);
break;
case NRC_SCLOSED: // Session closed
case NRC_SABORT: // Session ended abnormally
if(pNcbData->State == MESCONT) {
//
// If middle of multi-block message, Log an error
//
Msglogmbe(MESERR,net,ncbi);
}
//
// Start a new LISTEN
//
MsgStartListen(net,ncbi);
break;
default: // Other errors
MSG_LOG(TRACE,"MsgReceiveService: Unrecognized retval %x\n",retval);
MsgNetBiosError(net,ncb,retval,ncbi);
if(pNcbData->State == MESCONT) {
//
// If middle of multi-block message, Log an error
//
Msglogmbe(MESERR,net,ncbi);
}
MsgRestart(net,ncbi); // HANGUP and LISTEN again
break;
}
}
/*
* MsgRestart - issue a HANGUP net bios call
*
* This function is invoked to issue a HANGUP net bios call using
* a particular Network Control Block.
*
* MsgRestart (net, ncbi)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
*
* RETURN
* nothing
*
* This function assumes that the NCB_LSN, NCB_POST, and NCB_LANA
* fields of the Network Control Block are already properly set.
* It sets the NCB_CMD field.
*
* This function is named "MsgRestart" since the very next routine
* to process the NCB used to issue the HANGUP should be
* MsgHangupService() which always invokes MsgStartListen() (assuming
* the HANGUP completes properly). Thus, the net effect of
* calling MsgRestart() is to terminate the current session and
* issue a LISTEN to start a new one.
*
* SIDE EFFECTS
*
* Calls MsgCallNetBios() to issue the net bios call. Sets mpncbifun[ncbi]
* to the address of MsgHangupService().
*/
STATIC VOID
MsgRestart(
DWORD net, // Which network?
DWORD ncbi // Index to NCB
)
{
PNCB ncb; // Pointer to Network Control Block
PNCB_DATA pNcbData; // Pointer to NCB Data
MSG_LOG(TRACE,"In MsgRestart %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb;
pNcbData->IFunc = (LPNCBIFCN)MsgHangupService; // Set function pointer
ncb->ncb_command = NCBHANGUP | ASYNCH; // Hang up (no wait)
MsgCallNetBios(net,ncb,ncbi); // Issue the net bios call
}
/*
* Msgsblockmes - process a single block message
*
* This function logs and acknowledges a single block message.
*
* Msgsblockmes (net, ncbi)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
*
* RETURN
* nothing
*
* This function is called from ReceivePost() (RecAnyPost()).
* It first check to see if it is appropriate for the ncbi'th
* name to have received a single block message SMB at the current
* time. It verifies the correctness of the SMB in the ncbi'th
* buffer. It attempts to log the single block message, and it
* sends an acknowledgement to the sender of the message.
*
* SIDE EFFECTS
*
* Calls MsgRestart() to terminate the session if the SMB has arrived
* at a bad time. Calls MsgVerifySmb() to check the SMB for correctness.
* Calls logsbm() to log the message. Calls MsgSendAck() to send an
* acknowledgement to the sender of the message.
*/
STATIC VOID
Msgsblockmes(
DWORD net, // Which network ?
DWORD ncbi // Index to NCB
)
{
PNCB ncb; // Pointer to NCB
PNCB_DATA pNcbData; // Pointer to NCB
LPBYTE buffer; // Pointer to SMB buffer
LPSTR cp; // Save pointer
LPSTR from; // From-name
LPSTR to; // To-name
// to browse the SessionId List :
PMSG_SESSION_ID_ITEM pItem; // item in the list
PLIST_ENTRY pHead; // head of the list
PLIST_ENTRY pList; // list pointer
DWORD bError = 0; // error flag
MSG_LOG(TRACE,"In Msgsblockmes %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to NCB
if(pNcbData->State != MESSTART) {
//
// If wrong time for this block
// Hang up and start a new listen,
// log an error if mpncbistate[net][ncbi] == MESCONT;
// otherwise, do not log the error.
//
// Log error if message in progress
//
if(pNcbData->State == MESCONT) {
Msglogmbe(MESERR,net,ncbi);
}
//
// HANGUP and LISTEN again
//
MsgRestart(net,ncbi);
return;
}
pNcbData->State = MESSTOP; // End of message state
//
// Check for malformed SMB
//
if(MsgVerifySmb(net,ncbi,(unsigned char)SMB_COM_SEND_MESSAGE,0,"ssb") != 0) {
return;
}
buffer = ncb->ncb_buffer; // Get pointer to buffer
from = &buffer[sizeof(SMB_HEADER) + 4]; // Save pointer to from-name
to = &from[strlen(from) + 2]; // Save pointer to to-name
cp = &to[strlen(to) + 2]; // Skip over the name
if (g_IsTerminalServer)
{
MsgDatabaseLock(MSG_GET_EXCLUSIVE,"Msgsblockmes");
pHead = &(SD_SIDLIST(net,ncbi));
pList = pHead;
while (pList->Flink != pHead) // loop all over the list
{
pList = pList->Flink;
pItem = CONTAINING_RECORD(pList, MSG_SESSION_ID_ITEM, List);
bError = Msglogsbm(from,to,cp, pItem->SessionId);
if (bError)
{
break;
}
}
MsgDatabaseLock(MSG_RELEASE,"Msgsblockmes");
}
else //regular NT
{
bError = Msglogsbm(from,to,cp,0);
}
if (bError)
{
//
// If message cannot be logged, enter error state
// and send error acknowledgement.
//
pNcbData->State = MESERR;
MsgSendAck(net,ncbi,'\002',SMB_ERR_NO_ROOM);
}
else
{
//
// Otherwise acknowledge success
//
MsgSendAck(net, ncbi, SMB_ERR_SUCCESS, (USHORT)SMB_ERR_SUCCESS);
}
}
/*
* MsgSendAck - send an SMB to acknowledge a network transaction
*
* This function is used to send a Server Message Block to some
* machine with whom a session has been established acknowledging
* (positively or negatively) the occurrence of some event pertaining
* to the session.
*
* MsgSendAck (net, ncbi, smbrclass, smbrcode)
*
* ENTRY
* net - Network index
* ncbi - Network Control Block index
* smbrclass - SMB return class
* smbrcode - SMB return code
*
* RETURN
* nothing
*
* Using the NCB index to locate the buffer containing the last SMB
* received in the session, this function sets the return class and
* the return code in that SMB according to its arguments and sends
* the SMB to the other party in the session. This function will
* not return any parameters or buffers in that SMB.
*
* SIDE EFFECTS
*
* This function calls MsgCallNetBios() to send the SMB, and it sets
* the function vector so that control will pass to Send Service()
* when the NCB completes (assuming, of course, that it doesn't
* fail immediately).
*/
STATIC VOID
MsgSendAck(
DWORD net, // Which network?
DWORD ncbi, // Network Control Block Index
UCHAR smbrclass, // SMB return class
USHORT smbrcode // SMB return code
)
{
PNCB ncb; // Pointer to NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
LPBYTE buffer; // Pointer to buffer
MSG_LOG(TRACE,"In MsgSendAck %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to NCB
buffer = ncb->ncb_buffer; // Get pointer to buffer
//
// No parameters, buffers
//
buffer[sizeof(SMB_HEADER)+2]=
buffer[sizeof(SMB_HEADER)+1]=
buffer[sizeof(SMB_HEADER)]= '\0';
//
// Set return information
//
((PSMB_HEADER)buffer)->ErrorClass = smbrclass; // Set return class
SmbPutUshort( &(((PSMB_HEADER)buffer)->Error),smbrcode);// Set return code
// ((PSMB_HEADER)buffer)->Error = smbrcode; // Set return code
ncb->ncb_length = sizeof(SMB_HEADER) + 3; // Set length of buffer
ncb->ncb_command = NCBSEND | ASYNCH; // Send (no wait)
pNcbData->IFunc = (LPNCBIFCN)MsgSendService; // Set function pointer
MsgCallNetBios(net,ncb,ncbi); // Issue the net bios call
}
/*
* MsgSendService - service a completed SEND net bios call
*
* This function is called to service a completed SEND net bios
* call. The usual course of action is to issue a RECEIVE (ANY)
* net bios call.
*
* MsgSendService (net, ncbi, retval)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
* retval - value returned by net bios
*
* RETURN
* nothing
*
* If a SEND net bios call has completed successfully, this function
* will issue a RECEIVE (ANY) net bios call in all cases. The com-
* pleted SEND represents one of the following cases:
*
* - Acknowledgement of a Single Block Message
* The message originator will HANG UP, completing the RECEIVE (ANY) call.
* - Acknowledgement of the start of a Multi-block Message
* The message originator will SEND a text block, completing the RECEIVE
* (ANY) call.
* - Acknowledgement of text of a Multi-block Message
* The message originator will SEND more text or the end of the message,
* completing the RECEIVE (ANY) call.
* - Acknowledgement of the end of a Multi-block Message
* The message originator will HANG UP, completing the RECEIVE (ANY) call.
* - Response to a Get Machine Name request
* The message originator will HANG UP, completing the RECEIVE (ANY) call.
* - Acknowledgement of a Forward Name request
* The message originator will HANG UP, completing the RECEIVE (ANY) call.
* - Acknowledgement of a Cancel Forward request
* The message originator will HANG UP, completing the RECEIVE (ANY) call.
* - An error response
* The message originator will HANG UP, completing the RECEIVE (ANY) call.
*
* In all cases, it is clear to the RECEIVE (ANY) service function what its
* course of action is.
*
* SIDE EFFECTS
*
* If a SEND has completed normally, this function issues a RECEIVE (ANY)
* net bios call. In some abnormal cases, this function calls MsgStartListen()
* to initiate a new session. In all other abnormal cases, it calls
* MsgNetBiosError().
*/
STATIC VOID
MsgSendService(
DWORD net, // Which network?
DWORD ncbi, // Index of completed NCB
char retval // SEND return value
)
{
PNCB ncb; // Pointer to completed NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
PSMB_HEADER smb; // Pointer to SMB header
MSG_LOG(TRACE,"In MsgSendService %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb; // Get pointer to completed NCB
switch(retval) {
case NRC_GOODRET: // Success
pNcbData->IFunc = (LPNCBIFCN)MsgReceiveService;
//
// Set function pointer
//
ncb->ncb_command = NCBRECV | ASYNCH; // Receive (no wait)
ncb->ncb_length = BUFLEN; // Set length of buffer
MsgCallNetBios(net,ncb,ncbi); // Issue the net bios call
break;
case NRC_CMDTMO: // Timeout
case NRC_SCLOSED: // Session closed
case NRC_SABORT: // Session ended abnormally
smb = (PSMB_HEADER)ncb->ncb_buffer; // Get pointer to SMB
if(smb->Command == SMB_COM_SEND_START_MB_MESSAGE || smb->Command == SMB_COM_SEND_TEXT_MB_MESSAGE) {
//
// Message ended abnormally
//
Msglogmbe(MESERR,net,ncbi);
}
//
// Issue a new LISTEN
//
MsgStartListen(net,ncbi);
break;
default: // Other failure
MSG_LOG(TRACE,"MsgSendService: Unrecognized retval %x\n",retval);
MsgNetBiosError(net,ncb,retval,ncbi);
//
// HANGUP and LISTEN again
//
MsgRestart(net,ncbi);
break;
}
}
/*
* MsgServeNCBs - service completed Network Control Blocks
*
* This function scans the array of NCB's looking for NCB's in
* need of service.
*
* MsgServeNCBs (net)
*
* ENTRY
* net - network to service NCBs on
*
* RETURN
* TRUE - If this function actually services a completed NCB.
* FALSE - If this function didn't find any completed NCB's, or if
* the service is supposed to stop.
*
* This function scans the array of NCB's until a completed NCB cannot be
* found. Each time a completed NCB is found, the service function specified
* in the service function vector (mpncbifun[]) is called to service that
* NCB.
*
* SIDE EFFECTS
*
* Maintains a private static index of the last NCB examined.
* Starts each search at first NCB after the last one serviced.
*/
BOOL
MsgServeNCBs(
DWORD net // Which network am I serving?
)
{
PNCB pNcb;
PNCB_DATA pNcbData;
int counter; // A counter
BOOL found = FALSE; // Indicates if a completed NCB was found.
// Bugfix: each net has its own index, addressing
// its part NCB array. All index values are initiliazed to zero
// when the messenger starts. This solves the muti thread
// problem.
static int ncbIndexArray[MSNGR_MAX_NETS] = {0};
// NCB index array
DWORD ncbi; // NCB index for this net
//
// get NCB index for this net
//
ncbi = ncbIndexArray[net];
//
// Loop until none completed found
//
do {
//
// Loop to search NCB array
//
for(counter = NCBMAX(net); counter != 0; --counter, ++ncbi) {
if(ncbi >= NCBMAX(net)) {
ncbi = 0;// Wrap around
}
pNcbData = GETNCBDATA(net,ncbi);
pNcb = &pNcbData->Ncb;
if(pNcb->ncb_cmd_cplt != (unsigned char) 0xff) {
found=TRUE;
//
// If completed NCB found
//
if(pNcb->ncb_cmd_cplt == 0) {
//
// Clear err on success and error count
//
pNcbData->Status.last_final = 0;
pNcbData->Status.rep_count = 0;
}
else {
//
// Else mark error
//
pNcbData->Status.this_final = pNcb->ncb_cmd_cplt;
//
// If NetBios is failing with every call, we never
// return from this routine be cause there is always
// another NCB to service. Therefore, in error
// conditions it is necessary to check to see if a
// shutdown is in progress. If so, we want to return
// so that the adapter loop can handle the shutdown
// properly.
//
if (GetMsgrState() == STOPPING) {
ncbIndexArray[net] = ncbi;
return(FALSE);
}
}
//
// Call the service function
//
(*pNcbData->IFunc)(net,ncbi,pNcb->ncb_cmd_cplt);
++ncbi; // Start next search after this NCB
break; // Exit loop
}
}
}
while(counter != 0); // Loop until counter zero
// update NCB index
ncbIndexArray[net] = ncbi;
return(found);
}
/*
* MsgSesFullService - complete deletion of a name after a system error
*
* MsgSesFullService() completes the process of deleting a name from
* the message system when the message server is unable to establish
* a session for that name.
*
* MsgSesFullService (net, ncbi, retval)
*
* ENTRY
* net - Network index
* ncbi - Network Control Block index
* retval - value returned by net bios
*
* RETURN
* nothing
*
* MsgSesFullService() is called to finish the job of cleaning up when
* a LISTEN fails because the local network adapter's session table
* is full. Specifically, this function is called when the DELETE
* NAME net bios call completes.
*
* SIDE EFFECTS
*
* Calls MsgDeleteName() to release the deleted name's entry in the
* shared data area. Calls MsgNetBiosError() if the DELETE NAME net
* bios call produced unexpected results.
*/
STATIC VOID
MsgSesFullService(
DWORD net, // Which network ?
DWORD ncbi, // Index of completed NCB
char retval // SEND return value
)
{
PNCB pNcb;
MSG_LOG(TRACE,"In MsgSesFullService %d\n",net);
switch(retval) {
case NRC_GOODRET: // Success
case NRC_ACTSES: // Name deregistered
//
// Log deletion in system error log file
//
MsgDeleteName(net,ncbi); // Delete name from database
break;
default: // Failure
MSG_LOG(TRACE,"MsgSesFullService: Unrecognized retval %x\n",retval);
pNcb = GETNCB(net,ncbi);
MsgNetBiosError(net, pNcb, retval, ncbi);
break;
}
}
/*
* MsgStartListen - issue a LISTEN net bios call
*
* This function is invoked to issue a LISTEN net bios call using
* a particular Network Control Block. This function does not
* examine or change any of the shareable data corresponding to
* the NCB in question.
*
* MsgStartListen (net, ncbi)
*
* ENTRY
* net - network index
* ncbi - Network Control Block index
*
* RETURN
* DWORD status from the netbios call.
*
* This function assumes that the NCB_NAME, NCB_POST, and NCB_LANA
* fields of the Network Control Block are already set to the
* proper values. It sets the NCB_CNAME, NCB_RTO, NCB_STO, and
* NCB_CMD fields.
*
* SIDE EFFECTS
*
* Calls MsgCallNetBios() to issue the net bios call. Calls FmtNcbName()
* to set the NCB_CNAME field of the NCB. Sets mpncbifun[ncbi] to
* the address of MsgListenService().
*/
NET_API_STATUS
MsgStartListen(
DWORD net, // Which network?
DWORD ncbi // Network Control Block index
)
{
PNCB ncb; // Pointer to NCB
PNCB_DATA pNcbData; // Pointer to NCB Data
NET_API_STATUS status;
TCHAR name[2] = TEXT("*");
MSG_LOG(TRACE,"In MsgStartListen %d\n",net);
pNcbData = GETNCBDATA(net,ncbi);
ncb = &pNcbData->Ncb;
pNcbData->IFunc = (LPNCBIFCN)MsgListenService; // Set function pointer
//
// Set call name to a"anyone"
//
status = MsgFmtNcbName(ncb->ncb_callname,name,' ');
if (status != NERR_Success) {
//
// This is a bug if this can't be done.
//
MSG_LOG(ERROR,"MsgStartListen: NASTY BUG! Cannot format \"*\" name! %X\n",
status);
NetpAssert(0);
}
ncb->ncb_rto = 60; // Receives time out in 30 sec
ncb->ncb_sto = 40; // Sends time out in 20 sec
ncb->ncb_command = NCBLISTEN | ASYNCH; // Listen (no wait)
return(MsgCallNetBios(net,ncb,ncbi)); // Issue the net bios call
}
/*
* MsgVerifySmb - Verify the correctness of a Server Message Block
*
* This function verifies that a Server Message Block is properly
* formed. If it detects a malformed SMB, it terminates the session
* and returns a non-zero value.
*
* MsgVerifySmb (net, ncbi, func, parms, buffers)
*
* ENTRY
* net - network index
* ncbi - index to a Network Control Block
* func - SMB function code
* parms - number of parameters in SMB
* buffers - dope vector describing buffers in the SMB
*
* RETURN
* int - error code (zero means no error)
*
* SIDE EFFECTS
*
* Calls smbcheck() to check the SMB. Calls MsgRestart() if
* smbcheck() reports an error.
*/
STATIC int
MsgVerifySmb(
DWORD net, // Which network?
DWORD ncbi, // Index to Network Control Block
UCHAR func, // SMB function code
int parms, // Count of parameters in SMB
LPSTR buffers // Dope vector of SMB buffers
)
{
PNCB ncb; // Pointer to Network Control Block
int i; // Return code
ncb = GETNCB(net,ncbi); // Get pointer to NCB
i = Msgsmbcheck(
(ncb->ncb_buffer),
ncb->ncb_length,
func,
(char)parms,
buffers);
if (i != 0 )
{
MSG_LOG(ERROR,"MsgVerifySmb:An illegal SMB was received\n",0);
//
// HANGUP
//
MsgRestart(net,ncbi);
}
return(i); // Return error code
}
#if DBG
VOID
MsgDumpNcb(
IN PNCB pNcb
)
/*++
Routine Description:
Displays the NCB on a debug terminal.
Arguments:
Return Value:
--*/
{
DbgPrint("NCBADDR: 0x%x\n"
"Command: 0x%x\n"
"RetCode: 0x%x\n"
"LanaNum: 0x%x\n"
"CmdCplt: 0x%x\n"
"Name : %s\n"
"callNam: %s\n",
pNcb, pNcb->ncb_command, pNcb->ncb_retcode, pNcb->ncb_lana_num,
pNcb->ncb_cmd_cplt, pNcb->ncb_name, pNcb->ncb_callname);
}
#endif // DBG