windows-nt/Source/XPSP1/NT/base/fs/srv/smbadmin.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
smbadmin.c
Abstract:
This module contains routines for processing the administrative SMBs:
negotiate, session setup, tree connect, and logoff.
Author:
David Treadwell (davidtr) 30-Oct-1989
Revision History:
--*/
#include "precomp.h"
#include "smbadmin.tmh"
#pragma hdrstop
#define ENCRYPT_TEXT_LENGTH 20
VOID
GetEncryptionKey (
OUT CHAR EncryptionKey[MSV1_0_CHALLENGE_LENGTH]
);
VOID SRVFASTCALL
BlockingSessionSetupAndX (
IN OUT PWORK_CONTEXT WorkContext
);
NTSTATUS
GetNtSecurityParameters(
IN PWORK_CONTEXT WorkContext,
OUT PCHAR *CasesensitivePassword,
OUT PULONG CasesensitivePasswordLength,
OUT PCHAR *CaseInsensitivePassword,
OUT PULONG CaseInsensitivePasswordLength,
OUT PUNICODE_STRING UserName,
OUT PUNICODE_STRING DomainName,
OUT PCHAR *RestOfDataBuffer,
OUT PULONG RestOfDataLength );
VOID
BuildSessionSetupAndXResponse(
IN PWORK_CONTEXT WorkContext,
IN UCHAR NextCommand,
IN USHORT Action,
IN BOOLEAN IsUnicode);
NTSTATUS
GetExtendedSecurityParameters(
IN PWORK_CONTEXT WorkContext,
OUT PUCHAR *SecurityBuffer,
OUT PULONG SecurityBufferLength,
OUT PCHAR *RestOfDataBuffer,
OUT PULONG RestOfDataLength );
VOID
BuildExtendedSessionSetupAndXResponse(
IN PWORK_CONTEXT WorkContext,
IN ULONG SecurityBlobLength,
IN NTSTATUS Status,
IN UCHAR NextCommand,
IN BOOLEAN IsUnicode);
VOID
InsertNativeOSAndType(
IN BOOLEAN IsUnicode,
OUT PCHAR Buffer,
OUT PUSHORT ByteCount);
//
// EncryptionKeyCount is a monotonically increasing count of the number
// of times GetEncryptionKey has been called. This number is added to
// the system time to ensure that we do not use the same seed twice in
// generating a random challenge.
//
STATIC
ULONG EncryptionKeyCount = 0;
ULONG SrvKsecValidErrors = 0;
#ifdef ALLOC_PRAGMA
#pragma alloc_text( PAGE, SrvSmbNegotiate )
#pragma alloc_text( PAGE, SrvSmbProcessExit )
#pragma alloc_text( PAGE, SrvSmbSessionSetupAndX )
#pragma alloc_text( PAGE, BlockingSessionSetupAndX )
#pragma alloc_text( PAGE, SrvSmbLogoffAndX )
#pragma alloc_text( PAGE, GetEncryptionKey )
#pragma alloc_text( PAGE, GetNtSecurityParameters )
#pragma alloc_text( PAGE, BuildSessionSetupAndXResponse )
#pragma alloc_text( PAGE, GetExtendedSecurityParameters )
#pragma alloc_text( PAGE, BuildExtendedSessionSetupAndXResponse )
#pragma alloc_text( PAGE, InsertNativeOSAndType )
#endif
SMB_PROCESSOR_RETURN_TYPE
SrvSmbNegotiate (
SMB_PROCESSOR_PARAMETERS
)
/*++
Routine Description:
Processes a negotiate SMB.
Arguments:
SMB_PROCESSOR_PARAMETERS - See smbprocs.h for a description
of the parameters to SMB processor routines.
Return Value:
SMB_PROCESSOR_RETURN_TYPE - See smbprocs.h
--*/
{
PREQ_NEGOTIATE request;
PRESP_NT_NEGOTIATE ntResponse;
PRESP_NEGOTIATE response;
PRESP_OLD_NEGOTIATE respOldNegotiate;
PCONNECTION connection;
PENDPOINT endpoint;
PPAGED_CONNECTION pagedConnection;
USHORT byteCount;
USHORT flags2;
PSMB_HEADER smbHeader;
PSZ s, es;
SMB_DIALECT bestDialect, serverDialect, firstDialect;
USHORT consumerDialectChosen, consumerDialect;
LARGE_INTEGER serverTime;
SMB_DATE date;
SMB_TIME time;
ULONG capabilities;
NTSTATUS status = STATUS_SUCCESS;
SMB_STATUS SmbStatus = SmbStatusInProgress;
PAGED_CODE( );
if (WorkContext->PreviousSMB == EVENT_TYPE_SMB_LAST_EVENT)
WorkContext->PreviousSMB = EVENT_TYPE_SMB_NEGOTIATE;
SrvWmiStartContext(WorkContext);
IF_SMB_DEBUG(ADMIN1) {
SrvPrint2( "Negotiate request header at 0x%p, response header at 0x%p\n",
WorkContext->RequestHeader, WorkContext->ResponseHeader );
SrvPrint2( "Negotiate request parameters at 0x%p, response parameters at 0x%p\n",
WorkContext->RequestParameters,
WorkContext->ResponseParameters );
}
//
// Set up input and output buffers for parameters.
//
request = (PREQ_NEGOTIATE)WorkContext->RequestParameters;
response = (PRESP_NEGOTIATE)WorkContext->ResponseParameters;
ntResponse = (PRESP_NT_NEGOTIATE)WorkContext->ResponseParameters;
smbHeader = WorkContext->RequestHeader;
//
// Make sure that this is the first negotiate command sent.
// SrvStartListen() sets the dialect to illegal, so if it has changed
// then a negotiate SMB has already been sent.
//
connection = WorkContext->Connection;
pagedConnection = connection->PagedConnection;
endpoint = connection->Endpoint;
if ( connection->SmbDialect != SmbDialectIllegal ) {
IF_DEBUG(SMB_ERRORS) {
SrvPrint0( "SrvSmbNegotiate: Command already sent.\n" );
}
SrvSetSmbError( WorkContext, STATUS_INVALID_SMB );
status = STATUS_INVALID_SMB;
SmbStatus = SmbStatusSendResponse;
goto Cleanup;
}
//
// We don't know anything about the version number of this client yet.
//
pagedConnection->ClientBuildNumber = 0;
#if SRVNTVERCHK
pagedConnection->ClientTooOld = FALSE;
#endif
//
// Find out which (if any) of the sent dialect strings matches the
// dialect strings known by this server. The ByteCount is verified
// to be legitimate in SrvProcessSmb, so it is not possible to walk
// off the end of the SMB here.
//
bestDialect = SmbDialectIllegal;
consumerDialectChosen = (USHORT)0xFFFF;
es = END_OF_REQUEST_SMB( WorkContext );
if( endpoint->IsPrimaryName ) {
firstDialect = FIRST_DIALECT;
} else {
firstDialect = FIRST_DIALECT_EMULATED;
}
for ( s = (PSZ)request->Buffer, consumerDialect = 0;
s <= es && s < SmbGetUshort( &request->ByteCount ) + (PSZ)request->Buffer;
consumerDialect++ ) {
if ( *s++ != SMB_FORMAT_DIALECT ) {
IF_DEBUG(SMB_ERRORS) {
SrvPrint0( "SrvSmbNegotiate: Invalid dialect format code.\n" );
}
SrvLogInvalidSmb( WorkContext );
SrvSetSmbError( WorkContext, STATUS_INVALID_SMB );
status = STATUS_INVALID_SMB;
SmbStatus = SmbStatusSendResponse;
goto Cleanup;
}
for ( serverDialect = firstDialect;
serverDialect < bestDialect;
serverDialect++ ) {
if ( !strcmp( s, StrDialects[serverDialect] ) ) {
IF_SMB_DEBUG(ADMIN2) {
SrvPrint2( "Matched: %s and %s\n",
StrDialects[serverDialect], s );
}
bestDialect = serverDialect;
consumerDialectChosen = consumerDialect;
}
}
//
// Go to the next dialect string
//
for( ; *s && s < es; s++ )
;
//
// We are now at the end of the buffer, or are pointing to the NULL.
// Advance the pointer. If we are at the end of the buffer, the test in
// the loop will terminate.
//
s++;
}
connection->SmbDialect = bestDialect;
if( bestDialect <= SmbDialectNtLanMan ) {
connection->IpxDropDuplicateCount = MIN_IPXDROPDUP;
} else {
connection->IpxDropDuplicateCount = MAX_IPXDROPDUP;
}
IF_SMB_DEBUG(ADMIN1) {
SrvPrint2( "Choosing dialect #%ld, string = %s\n",
consumerDialectChosen, StrDialects[bestDialect] );
}
//
// Determine the current system time on the server. We use this
// to determine the time zone of the server and to tell the client
// the current time of day on the server.
//
KeQuerySystemTime( &serverTime );
//
// If the consumer only knows the core protocol, return short (old)
// form of the negotiate response. Also, if no dialect is acceptable,
// return 0xFFFF as the selected dialect.
//
if ( bestDialect == SmbDialectPcNet10 ||
consumerDialectChosen == (USHORT)0xFFFF ) {
respOldNegotiate = (PRESP_OLD_NEGOTIATE)response;
respOldNegotiate->WordCount = 1;
SmbPutUshort( &respOldNegotiate->DialectIndex, consumerDialectChosen );
SmbPutUshort( &respOldNegotiate->ByteCount, 0 );
WorkContext->ResponseParameters = NEXT_LOCATION(
respOldNegotiate,
RESP_OLD_NEGOTIATE,
0
);
}
else if ( bestDialect > SmbDialectNtLanMan ) {
USHORT securityMode;
//
// Send the OS/2 LAN Man SMB response.
//
WorkContext->ResponseHeader->Flags =
(UCHAR)(WorkContext->RequestHeader->Flags | SMB_FLAGS_LOCK_AND_READ_OK);
response->WordCount = 13;
SmbPutUshort( &response->DialectIndex, consumerDialectChosen );
//
// Indicate that we're user-level security and that we
// want encrypted passwords.
//
securityMode = NEGOTIATE_USER_SECURITY | NEGOTIATE_ENCRYPT_PASSWORDS;
SmbPutUshort(
&response->SecurityMode,
securityMode
);
//
// Get an encryption key for this connection.
//
GetEncryptionKey( pagedConnection->EncryptionKey );
SmbPutUshort( &response->EncryptionKeyLength, MSV1_0_CHALLENGE_LENGTH );
SmbPutUshort( &response->Reserved, 0 );
byteCount = MSV1_0_CHALLENGE_LENGTH;
RtlCopyMemory(
response->Buffer,
pagedConnection->EncryptionKey,
MSV1_0_CHALLENGE_LENGTH
);
if ( endpoint->IsConnectionless ) {
ULONG adapterNumber;
ULONG maxBufferSize;
//
// Our server max buffer size is the smaller of the
// server receive buffer size and the ipx transport
// indicated max packet size.
//
adapterNumber =
WorkContext->ClientAddress->DatagramOptions.LocalTarget.NicId;
maxBufferSize = GetIpxMaxBufferSize(
endpoint,
adapterNumber,
SrvReceiveBufferLength
);
SmbPutUshort(
&response->MaxBufferSize,
(USHORT)maxBufferSize
);
} else {
SmbPutUshort(
&response->MaxBufferSize,
(USHORT)SrvReceiveBufferLength
);
}
SmbPutUshort( &response->MaxMpxCount, MIN(125, SrvMaxMpxCount) ); // Only send max of 125 to Win9x machines since they'll not connect if higher
SmbPutUshort( &response->MaxNumberVcs, (USHORT)SrvMaxNumberVcs );
SmbPutUlong( &response->SessionKey, 0 );
//
// If this is an MS-NET 1.03 client or before, then tell him that we
// don't support raw writes. MS-NET 1.03 does different things with
// raw writes that are more trouble than they're worth, and since
// raw is simply a performance issue, we don't support it.
//
if ( bestDialect >= SmbDialectMsNet103 ) {
SmbPutUshort(
&response->RawMode,
(USHORT)(SrvEnableRawMode ?
NEGOTIATE_READ_RAW_SUPPORTED :
0)
);
} else {
SmbPutUshort(
&response->RawMode,
(USHORT)(SrvEnableRawMode ?
NEGOTIATE_READ_RAW_SUPPORTED |
NEGOTIATE_WRITE_RAW_SUPPORTED :
0)
);
}
SmbPutUlong( &response->SessionKey, 0 );
SrvTimeToDosTime( &serverTime, &date, &time );
SmbPutDate( &response->ServerDate, date );
SmbPutTime( &response->ServerTime, time );
//
// Get time zone bias. We compute this during session
// setup rather than once during server startup because
// we might switch from daylight time to standard time
// or vice versa during normal server operation.
//
SmbPutUshort( &response->ServerTimeZone,
SrvGetOs2TimeZone(&serverTime) );
if ( bestDialect == SmbDialectLanMan21 ||
bestDialect == SmbDialectDosLanMan21 ) {
//
// Append the domain to the SMB.
//
RtlCopyMemory(
response->Buffer + byteCount,
endpoint->OemDomainName.Buffer,
endpoint->OemDomainName.Length + sizeof(CHAR)
);
byteCount += endpoint->OemDomainName.Length + sizeof(CHAR);
}
SmbPutUshort( &response->ByteCount, byteCount );
WorkContext->ResponseParameters = NEXT_LOCATION(
response,
RESP_NEGOTIATE,
byteCount
);
} else {
//
// NT or better protocol has been negotiated.
//
flags2 = SmbGetAlignedUshort( &smbHeader->Flags2 );
//
// We are going to attempt to validate this user with one of the listed
// security packages at the end of the smb. Currently the smb will
// simply contain the output of EnumerateSecurityPackages.
//
if ( flags2 & SMB_FLAGS2_EXTENDED_SECURITY ) {
if (!WorkContext->UsingExtraSmbBuffer) {
status = SrvAllocateExtraSmbBuffer(WorkContext);
if (!NT_SUCCESS(status)) {
SrvSetSmbError(WorkContext, status);
SmbStatus = SmbStatusSendResponse;
goto Cleanup;
}
RtlCopyMemory(
WorkContext->ResponseHeader,
WorkContext->RequestHeader,
sizeof( SMB_HEADER )
);
}
ntResponse = (PRESP_NT_NEGOTIATE)WorkContext->ResponseParameters;
capabilities = CAP_EXTENDED_SECURITY;
} else {
capabilities = 0;
}
#ifdef INCLUDE_SMB_PERSISTENT
if ( bestDialect == SmbDialectNtLanMan2 ) {
capabilities |= CAP_PERSISTENT_HANDLES;
SrvPrint1( "SrvSmbNegotiate: persistent handles for conn 0x%x.\n",
WorkContext->Connection );
}
#endif
ntResponse->WordCount = 17;
SmbPutUshort( &ntResponse->DialectIndex, consumerDialectChosen );
// !!! This says that we don't want encrypted passwords.
// If this is negotiating NtLanMan, but not UNICODE, we know its not a Win9x client
// so it can handle MaxMpx larger than 125
if( flags2 & SMB_FLAGS2_UNICODE )
{
SmbPutUshort( &ntResponse->MaxMpxCount, SrvMaxMpxCount );
}
else
{
// Again, for the Win9x problems we need to minimize the Mpx count.
SmbPutUshort( &ntResponse->MaxMpxCount, MIN(125,SrvMaxMpxCount) );
}
SmbPutUshort( &ntResponse->MaxNumberVcs, (USHORT)SrvMaxNumberVcs );
SmbPutUlong( &ntResponse->MaxRawSize, 64 * 1024 ); // !!!
SmbPutUlong( &ntResponse->SessionKey, 0 );
capabilities |= CAP_RAW_MODE |
CAP_UNICODE |
CAP_LARGE_FILES |
CAP_NT_SMBS |
CAP_NT_FIND |
CAP_RPC_REMOTE_APIS |
CAP_NT_STATUS |
CAP_LEVEL_II_OPLOCKS |
CAP_INFOLEVEL_PASSTHRU |
CAP_LOCK_AND_READ;
//
// If we're supporting Dfs operations, let the client know about it.
//
if( SrvDfsFastIoDeviceControl ) {
capabilities |= CAP_DFS;
}
if ( endpoint->IsConnectionless ) {
ULONG adapterNumber;
ULONG maxBufferSize;
capabilities |= CAP_MPX_MODE;
capabilities &= ~CAP_RAW_MODE;
//
// Our server max buffer size is the smaller of the
// server receive buffer size and the ipx transport
// indicated max packet size.
//
adapterNumber =
WorkContext->ClientAddress->DatagramOptions.LocalTarget.NicId;
maxBufferSize = GetIpxMaxBufferSize(
endpoint,
adapterNumber,
SrvReceiveBufferLength
);
SmbPutUlong(
&ntResponse->MaxBufferSize,
maxBufferSize
);
} else {
SmbPutUlong(
&ntResponse->MaxBufferSize,
SrvReceiveBufferLength
);
capabilities |= CAP_LARGE_READX;
//
// Unfortunately, NetBT is the only protocol that reliably supports
// transfers exceeding the negotiated buffer size. So disable the
// other protocols for now (hopefully)
//
if( connection->ClientIPAddress ) {
capabilities |= CAP_LARGE_WRITEX;
if( SrvSupportsCompression ) {
capabilities |= CAP_COMPRESSED_DATA;
}
}
}
SmbPutUlong( &ntResponse->Capabilities, capabilities );
//
// Stick the servers system time and timezone in the negotiate
// response.
//
SmbPutUlong( &ntResponse->SystemTimeLow, serverTime.LowPart );
SmbPutUlong( &ntResponse->SystemTimeHigh, serverTime.HighPart );
SmbPutUshort( &ntResponse->ServerTimeZone,
SrvGetOs2TimeZone(&serverTime) );
//
// Indicate that we're user-level security and that we
// want encrypted passwords.
//
ntResponse->SecurityMode =
NEGOTIATE_USER_SECURITY | NEGOTIATE_ENCRYPT_PASSWORDS;
//
// There is a bug in some W9x clients that preclude the use of security
// signatures. We have produced a fix for vredir.vxd for this, but we
// can not tell whether or not we are working with one of these fixed
// clients. The only way i can think of to tell the difference between
// a W9x client and a properly functioning NT client is to look to see
// if the client understands NT status codes.
//
if( SrvSmbSecuritySignaturesEnabled &&
( SrvEnableW9xSecuritySignatures == TRUE ||
(flags2 & SMB_FLAGS2_NT_STATUS) ) ) {
ntResponse->SecurityMode |= NEGOTIATE_SECURITY_SIGNATURES_ENABLED;
if( SrvSmbSecuritySignaturesRequired ) {
ntResponse->SecurityMode |= NEGOTIATE_SECURITY_SIGNATURES_REQUIRED;
}
}
//
// Get an encryption key for this connection.
//
if ((capabilities & CAP_EXTENDED_SECURITY) == 0) {
GetEncryptionKey( pagedConnection->EncryptionKey );
RtlCopyMemory(
ntResponse->Buffer,
pagedConnection->EncryptionKey,
MSV1_0_CHALLENGE_LENGTH
);
ASSERT ( MSV1_0_CHALLENGE_LENGTH <= 0xff ) ;
ntResponse->EncryptionKeyLength = MSV1_0_CHALLENGE_LENGTH;
byteCount = MSV1_0_CHALLENGE_LENGTH;
{
USHORT domainLength;
PWCH buffer = (PWCHAR)( ntResponse->Buffer+byteCount );
PWCH ptr;
domainLength = endpoint->DomainName.Length +
sizeof(UNICODE_NULL);
ptr = endpoint->DomainName.Buffer;
RtlCopyMemory(
buffer,
ptr,
domainLength
);
byteCount += domainLength;
//
// Append the server name to the response.
//
if( SrvComputerName.Buffer ) {
buffer = (PWCHAR)((LPSTR)buffer + domainLength);
RtlCopyMemory( buffer,
SrvComputerName.Buffer,
SrvComputerName.Length
);
SmbPutUshort( &buffer[ SrvComputerName.Length / 2 ], UNICODE_NULL );
byteCount += SrvComputerName.Length + sizeof( UNICODE_NULL );
}
}
SmbPutUshort( &ntResponse->ByteCount, byteCount );
WorkContext->ResponseParameters = NEXT_LOCATION(
ntResponse,
RESP_NT_NEGOTIATE,
byteCount
);
} // if !(capabilities & CAP_EXTENDED_SECURITY)
else {
CtxtHandle negotiateHandle;
USHORT bufferLength;
PCHAR buffer;
//
// Reserved if extended security negotiated (MBZ!)
//
ntResponse->EncryptionKeyLength = 0;
//
// SrvGetExtensibleSecurityNegotiateBuffer will fill in the
// securityblob field and return the length of that information.
//
RtlCopyMemory(&ntResponse->Buffer, &ServerGuid, sizeof(ServerGuid) );
byteCount = sizeof(ServerGuid);
buffer = ntResponse->Buffer + byteCount;
status = SrvGetExtensibleSecurityNegotiateBuffer(
&negotiateHandle,
buffer,
&bufferLength
);
if (!NT_SUCCESS(status)) {
SrvSetSmbError(WorkContext, STATUS_ACCESS_DENIED);
status = STATUS_ACCESS_DENIED;
SmbStatus = SmbStatusSendResponse;
goto Cleanup;
}
//
// Grab the session locks here...
//
ACQUIRE_LOCK( &connection->Lock );
connection->NegotiateHandle = negotiateHandle;
RELEASE_LOCK( &connection->Lock );
byteCount += bufferLength;
SmbPutUshort( &ntResponse->ByteCount, byteCount );
WorkContext->ResponseParameters = NEXT_LOCATION(
ntResponse,
RESP_NT_NEGOTIATE,
byteCount
);
}
} // else (NT protocol has been negotiated).
SmbStatus = SmbStatusSendResponse;
IF_DEBUG(TRACE2) SrvPrint0( "SrvSmbNegotiate complete.\n" );
Cleanup:
SrvWmiEndContext(WorkContext);
return SmbStatus;
} // SrvSmbNegotiate
SMB_PROCESSOR_RETURN_TYPE
SrvSmbProcessExit (
SMB_PROCESSOR_PARAMETERS
)
/*++
Routine Description:
Processes a Process Exit SMB.
Arguments:
SMB_PROCESSOR_PARAMETERS - See smbprocs.h for a description
of the parameters to SMB processor routines.
Return Value:
SMB_PROCESSOR_RETURN_TYPE - See smbprocs.h
--*/
{
PREQ_PROCESS_EXIT request;
PRESP_PROCESS_EXIT response;
PSESSION session;
USHORT pid;
NTSTATUS status = STATUS_SUCCESS;
PAGED_CODE( );
if (WorkContext->PreviousSMB == EVENT_TYPE_SMB_LAST_EVENT)
WorkContext->PreviousSMB = EVENT_TYPE_SMB_PROCESS_EXIT;
SrvWmiStartContext(WorkContext);
IF_SMB_DEBUG(ADMIN1) {
SrvPrint2( "Process exit request header at 0x%p, response header at 0x%p\n",
WorkContext->RequestHeader,
WorkContext->ResponseHeader );
SrvPrint2( "Process exit request parameters at 0x%p, response parameters at 0x%p\n",
WorkContext->RequestParameters,
WorkContext->ResponseParameters );
}
//
// Set up parameters.
//
request = (PREQ_PROCESS_EXIT)(WorkContext->RequestParameters);
response = (PRESP_PROCESS_EXIT)(WorkContext->ResponseParameters);
//
// If a session block has not already been assigned to the current
// work context, verify the UID. If verified, the address of the
// session block corresponding to this user is stored in the
// WorkContext block and the session block is referenced.
//
session = SrvVerifyUid(
WorkContext,
SmbGetAlignedUshort( &WorkContext->RequestHeader->Uid )
);
if ( session == NULL ) {
IF_DEBUG(SMB_ERRORS) {
SrvPrint1( "SrvSmbProcessExit: Invalid UID: 0x%lx\n",
SmbGetAlignedUshort( &WorkContext->RequestHeader->Uid ) );
}
SrvSetSmbError( WorkContext, STATUS_SMB_BAD_UID );
status = STATUS_SMB_BAD_UID;
goto Cleanup;
}
//
// Close all files with the same PID as in the header for this request.
//
pid = SmbGetAlignedUshort( &WorkContext->RequestHeader->Pid );
IF_SMB_DEBUG(ADMIN1) SrvPrint1( "Closing files with PID = %lx\n", pid );
SrvCloseRfcbsOnSessionOrPid( session, &pid );
//
// Close all searches with the same PID as in the header for this request.
//
IF_SMB_DEBUG(ADMIN1) SrvPrint1( "Closing searches with PID = %lx\n", pid );
SrvCloseSearches(
session->Connection,
(PSEARCH_FILTER_ROUTINE)SrvSearchOnPid,
(PVOID) pid,
NULL
);
//
// Close any cached directories for this client
//
SrvCloseCachedDirectoryEntries( session->Connection );
//
// Build the response SMB.
//
response->WordCount = 0;
SmbPutUshort( &response->ByteCount, 0 );
WorkContext->ResponseParameters = NEXT_LOCATION(
response,
RESP_PROCESS_EXIT,
0
);
Cleanup:
SrvWmiEndContext(WorkContext);
return SmbStatusSendResponse;
} // SrvSmbProcessExit
SMB_PROCESSOR_RETURN_TYPE
SrvSmbSessionSetupAndX(
SMB_PROCESSOR_PARAMETERS
)
/*++
Routine Description:
Processes a session setup and X SMB.
Arguments:
SMB_PROCESSOR_PARAMETERS - See smbprocs.h for a description
of the parameters to SMB processor routines.
Return Value:
SMB_PROCESSOR_RETURN_TYPE - See smbprocs.h
--*/
{
PAGED_CODE();
if (WorkContext->PreviousSMB == EVENT_TYPE_SMB_LAST_EVENT)
WorkContext->PreviousSMB = EVENT_TYPE_SMB_SESSION_SETUP_AND_X;
SrvWmiStartContext(WorkContext);
//
// This SMB must be processed in a blocking thread.
//
WorkContext->FspRestartRoutine = BlockingSessionSetupAndX;
SrvQueueWorkToBlockingThread( WorkContext );
SrvWmiEndContext(WorkContext);
return SmbStatusInProgress;
} // SrvSmbSessionSetupAndX
VOID SRVFASTCALL
BlockingSessionSetupAndX(
IN OUT PWORK_CONTEXT WorkContext
)
/*++
Routine Description:
Processes a session setup and X SMB.
Arguments:
SMB_PROCESSOR_PARAMETERS - See smbprocs.h for a description
of the parameters to SMB processor routines.
Return Value:
SMB_PROCESSOR_RETURN_TYPE - See smbprocs.h
--*/
{
PREQ_SESSION_SETUP_ANDX request;
PREQ_NT_SESSION_SETUP_ANDX ntRequest;
PREQ_NT_EXTENDED_SESSION_SETUP_ANDX ntExtendedRequest;
PRESP_SESSION_SETUP_ANDX response;
NTSTATUS SecStatus ;
NTSTATUS status = STATUS_SUCCESS;
SMB_STATUS SmbStatus = SmbStatusInProgress;
PSESSION session;
PCONNECTION connection;
PENDPOINT endpoint;
PPAGED_CONNECTION pagedConnection;
PTABLE_ENTRY entry;
LUID logonId;
SHORT uidIndex;
USHORT reqAndXOffset;
UCHAR nextCommand;
PCHAR smbInformation;
ULONG smbInformationLength;
ULONG returnBufferLength = 0;
#ifdef INCLUDE_SMB_PERSISTENT
ULONG persistentSessionId = 0;
#endif
UNICODE_STRING nameString;
UNICODE_STRING domainString;
USHORT action = 0;
USHORT byteCount;
BOOLEAN locksHeld;
BOOLEAN isUnicode, isExtendedSecurity;
BOOLEAN smbSecuritySignatureRequired = FALSE;
BOOLEAN previousSecuritySignatureState;
PAGED_CODE();
if (WorkContext->PreviousSMB == EVENT_TYPE_SMB_LAST_EVENT)
WorkContext->PreviousSMB = EVENT_TYPE_SMB_SESSION_SETUP_AND_X;
SrvWmiStartContext(WorkContext);
//
// If the connection has closed (timed out), abort.
//
connection = WorkContext->Connection;
if ( GET_BLOCK_STATE(connection) != BlockStateActive ) {
IF_DEBUG(ERRORS) {
SrvPrint0( "SrvSmbSessionSetupAndX: Connection closing\n" );
}
SrvEndSmbProcessing( WorkContext, SmbStatusNoResponse );
SmbStatus = SmbStatusNoResponse;
goto Cleanup;
}
IF_SMB_DEBUG(ADMIN1) {
SrvPrint2( "Session setup request header at 0x%p, response header at 0x%p\n",
WorkContext->RequestHeader, WorkContext->ResponseHeader );
SrvPrint2( "Session setup request parameters at 0x%p, response parameters at 0x%p\n",
WorkContext->RequestParameters,
WorkContext->ResponseParameters );
}
//
// Initialize local variables for error cleanup.
//
nameString.Buffer = NULL;
domainString.Buffer = NULL;
session = NULL;
locksHeld = FALSE;
isExtendedSecurity = FALSE;
//
// Set up parameters.
//
request = (PREQ_SESSION_SETUP_ANDX)(WorkContext->RequestParameters);
ntRequest = (PREQ_NT_SESSION_SETUP_ANDX)(WorkContext->RequestParameters);
ntExtendedRequest = (PREQ_NT_EXTENDED_SESSION_SETUP_ANDX)(WorkContext->RequestParameters);
response = (PRESP_SESSION_SETUP_ANDX)(WorkContext->ResponseParameters);
connection = WorkContext->Connection;
pagedConnection = connection->PagedConnection;
previousSecuritySignatureState = connection->SmbSecuritySignatureActive;
//
// First verify that the SMB format is correct.
//
if ( (connection->SmbDialect <= SmbDialectNtLanMan &&
(!((request->WordCount == 13) ||
((request->WordCount == 12) &&
((ntExtendedRequest->Capabilities & CAP_EXTENDED_SECURITY) != 0))))) ||
(connection->SmbDialect > SmbDialectNtLanMan &&
request->WordCount != 10 ) ||
(connection->SmbDialect == SmbDialectIllegal ) ) {
//
// The SMB word count is invalid.
//
IF_DEBUG(SMB_ERRORS) {
if ( connection->SmbDialect == SmbDialectIllegal ) {
SrvPrint1("BlockingSessionSetupAndX: Client %z is using an "
"illegal dialect.\n", (PCSTRING)&connection->OemClientMachineNameString );
}
}
status = STATUS_INVALID_SMB;
goto error_exit1;
}
//
// Convert the client name to unicode
//
if ( pagedConnection->ClientMachineNameString.Length == 0 ) {
UNICODE_STRING clientMachineName;
clientMachineName.Buffer = pagedConnection->ClientMachineName;
clientMachineName.MaximumLength =
(USHORT)(COMPUTER_NAME_LENGTH+1)*sizeof(WCHAR);
(VOID)RtlOemStringToUnicodeString(
&clientMachineName,
&connection->OemClientMachineNameString,
FALSE
);
//
// Add the double backslashes to the length
//
pagedConnection->ClientMachineNameString.Length =
(USHORT)(clientMachineName.Length + 2*sizeof(WCHAR));
}
//
// If this is LanMan 2.1 or better, the session setup response may
// be longer than the request. Allocate an extra SMB buffer. The
// buffer is freed after we have finished sending the SMB response.
//
// !!! Try to be smarter before grabbing the extra buffer.
//
if ( connection->SmbDialect <= SmbDialectDosLanMan21 &&
!WorkContext->UsingExtraSmbBuffer) {
status = SrvAllocateExtraSmbBuffer( WorkContext );
if ( !NT_SUCCESS(status) ) {
goto error_exit;
}
response = (PRESP_SESSION_SETUP_ANDX)(WorkContext->ResponseParameters);
RtlCopyMemory(
WorkContext->ResponseHeader,
WorkContext->RequestHeader,
sizeof( SMB_HEADER )
);
}
//
// Get the client capabilities
//
if ( connection->SmbDialect <= SmbDialectNtLanMan ) {
if (ntRequest->WordCount == 13) {
connection->ClientCapabilities =
SmbGetUlong( &ntRequest->Capabilities ) &
( CAP_UNICODE |
CAP_LARGE_FILES |
CAP_NT_SMBS |
CAP_NT_FIND |
CAP_NT_STATUS |
CAP_DYNAMIC_REAUTH |
CAP_EXTENDED_SECURITY |
#ifdef INCLUDE_SMB_PERSISTENT
CAP_PERSISTENT_HANDLES |
#endif
CAP_LEVEL_II_OPLOCKS );
} else {
connection->ClientCapabilities =
SmbGetUlong( &ntExtendedRequest->Capabilities ) &
( CAP_UNICODE |
CAP_LARGE_FILES |
CAP_NT_SMBS |
CAP_NT_FIND |
CAP_NT_STATUS |
CAP_DYNAMIC_REAUTH |
CAP_EXTENDED_SECURITY |
#ifdef INCLUDE_SMB_PERSISTENT
CAP_PERSISTENT_HANDLES |
#endif
CAP_LEVEL_II_OPLOCKS );
}
if ( connection->ClientCapabilities & CAP_NT_SMBS ) {
connection->ClientCapabilities |= CAP_NT_FIND;
}
#ifdef INCLUDE_SMB_PERSISTENT
if ( connection->SmbDialect <= SmbDialectNtLanMan2 ) {
//
// do we need to restore a previous lost connection?
//
if (connection->ClientCapabilities & CAP_PERSISTENT_HANDLES) {
while ( persistentSessionId == 0 ) {
persistentSessionId = InterlockedIncrement( &SrvGlobalPersistentSessionId );
}
}
} else {
connection->ClientCapabilities &= ~CAP_PERSISTENT_HANDLES;
}
#endif
}
//
// See if the client is requesting the use of SMB security signatures
//
if( SrvSmbSecuritySignaturesEnabled == TRUE &&
connection->Endpoint->IsConnectionless == FALSE &&
connection->SmbSecuritySignatureActive == FALSE &&
( SrvSmbSecuritySignaturesRequired == TRUE ||
(WorkContext->RequestHeader->Flags2 & SMB_FLAGS2_SMB_SECURITY_SIGNATURE)) ) {
smbSecuritySignatureRequired = TRUE;
} else {
smbSecuritySignatureRequired = FALSE;
}
//
// Figure out what kind of security to use, use it to validate the
// session setup request, and construct the session if request checks out.
//
isExtendedSecurity = CLIENT_CAPABLE_OF( EXTENDED_SECURITY, connection );
if( isExtendedSecurity ) {
USHORT flags2;
flags2 = SmbGetAlignedUshort( &WorkContext->RequestHeader->Flags2 );
isExtendedSecurity = ((flags2 & SMB_FLAGS2_EXTENDED_SECURITY) != 0);
}
isUnicode = SMB_IS_UNICODE( WorkContext );
if ((connection->SmbDialect <= SmbDialectNtLanMan) && isExtendedSecurity) {
//
// We are validating a client using extended security. This meansthat
// there may be multiple round-trips necessary for the SessionSetup&X
// SMB. Each request and response carries a "security blob", which is
// fed into the security system. The security system may generate
// a new blob which is transmitted to the other end. This exchange
// may require an arbitrary number of round trips.
//
PUCHAR securityBuffer;
ULONG securityBufferLength;
PRESP_NT_EXTENDED_SESSION_SETUP_ANDX ntExtendedResponse =
(PRESP_NT_EXTENDED_SESSION_SETUP_ANDX)( WorkContext->ResponseParameters );
//
// No AndX is permitted with extended security logons
//
if( request->AndXCommand != SMB_COM_NO_ANDX_COMMAND ) {
IF_DEBUG(SMB_ERRORS) {
KdPrint(( "No follow-on command allowed for extended SS&X\n" ));
}
status = STATUS_INVALID_SMB;
} else {
//
// Clean up old dead connections from this client
//
if( SmbGetUshort( &ntRequest->VcNumber ) == 0 ) {
SrvCloseConnectionsFromClient( connection, FALSE );
}
status = GetExtendedSecurityParameters(
WorkContext,
&securityBuffer,
&securityBufferLength,
&smbInformation,
&smbInformationLength );
}
if (NT_SUCCESS(status)) {
USHORT Uid = SmbGetAlignedUshort(&WorkContext->RequestHeader->Uid);
//
// Let's see if we have a session with this UID already around.
//
if( Uid ) {
session = SrvVerifyUid ( WorkContext, Uid );
if( session != NULL ) {
//
// This is an attempt to either refresh the UID, or we are
// in the middle of an extended security negotiation.
//
ACQUIRE_LOCK( &connection->Lock );
if( session->LogonSequenceInProgress == FALSE ) {
//
// We are just beginning to start the refresh
// of the UID.
//
session->LogonSequenceInProgress = TRUE;
session->IsAdmin = FALSE;
session->IsSessionExpired = TRUE;
status = SrvFreeSecurityContexts( session );
//
// Reduce the session count, as it will be incremented if authentication succeeds
//
ExInterlockedAddUlong(
&SrvStatistics.CurrentNumberOfSessions,
-1,
&GLOBAL_SPIN_LOCK(Statistics)
);
}
RELEASE_LOCK( &connection->Lock );
} else {
//
// We don't know anything about the UID which
// the client gave to us.
//
status = STATUS_SMB_BAD_UID;
}
} else {
//
// This is the first SS&X for this user id
//
SrvAllocateSession( &session, NULL, NULL );
if( session == NULL ) {
status = STATUS_INSUFF_SERVER_RESOURCES;
}
}
if( session != NULL ) {
//
// Validate the security buffer sent from the client. Note that
// this may change the UserHandle value, so we need to own
// the connection lock.
//
ACQUIRE_LOCK( &connection->Lock );
//
// Try to authenticate this user. If we get NT_SUCCESS(), then
// the user is fully authenticated. If we get
// STATUS_NOT_MORE_PROCESSING_REQUIRED, then things are going well,
// but we need to do some more exchanges with the client before
// authentication is complete. Anything else is an error
//
returnBufferLength = WorkContext->ResponseBuffer->BufferLength -
PTR_DIFF(ntExtendedResponse->Buffer,
WorkContext->ResponseBuffer->Buffer);
status = SrvValidateSecurityBuffer(
WorkContext->Connection,
&session->UserHandle,
session,
securityBuffer,
securityBufferLength,
smbSecuritySignatureRequired,
ntExtendedResponse->Buffer,
&returnBufferLength,
&session->LogOffTime,
session->NtUserSessionKey,
&session->LogonId,
&session->GuestLogon
);
SecStatus = KSecValidateBuffer(
ntExtendedResponse->Buffer,
returnBufferLength );
if ( !NT_SUCCESS( SecStatus ) ) {
#if DBG
KdPrint(( "SRV: invalid buffer from KsecDD: %p,%lx\n",
ntExtendedResponse->Buffer, returnBufferLength ));
#endif
SrvKsecValidErrors++;
}
RELEASE_LOCK( &connection->Lock );
if( NT_SUCCESS(status) ) {
//
// This client is now fully authenticated!
//
session->IsAdmin = SrvIsAdmin( session->UserHandle );
session->IsNullSession = SrvIsNullSession( session->UserHandle );
session->KickOffTime.QuadPart = 0x7FFFFFFFFFFFFFFF;
session->EncryptedLogon = TRUE;
session->LogonSequenceInProgress = FALSE;
session->IsSessionExpired = FALSE;
if( session->IsNullSession ) {
session->LogOffTime.QuadPart = 0x7FFFFFFFFFFFFFFF;
}
#ifdef INCLUDE_SMB_PERSISTENT
session->PersistentId = persistentSessionId;
session->PersistentFileOffset = 0;
session->PersistentState = PersistentStateFreed;
#endif
#if SRVNTVERCHK
//
// If we are restricting the domains of our clients, grab the
// domain string of this client and compare against the list.
// If the client is in the list, set the flag that disallows
// access to disk shares.
//
if( SrvInvalidDomainNames != NULL ) {
if( domainString.Buffer == NULL ) {
SrvGetUserAndDomainName( session, NULL, &domainString );
}
ACQUIRE_LOCK_SHARED( &SrvConfigurationLock );
if( SrvInvalidDomainNames != NULL && domainString.Buffer != NULL ) {
int i;
for( i = 0; SrvInvalidDomainNames[i]; i++ ) {
if( _wcsicmp( SrvInvalidDomainNames[i],
domainString.Buffer
) == 0 ) {
session->ClientBadDomain = TRUE;
break;
}
}
}
RELEASE_LOCK( &SrvConfigurationLock );
}
#endif
} else {
if( status == STATUS_MORE_PROCESSING_REQUIRED ) {
session->LogonSequenceInProgress = TRUE;
}
}
}
}
} else {
PCHAR caseInsensitivePassword;
CLONG caseInsensitivePasswordLength;
PCHAR caseSensitivePassword;
CLONG caseSensitivePasswordLength;
status = GetNtSecurityParameters(
WorkContext,
&caseSensitivePassword,
&caseSensitivePasswordLength,
&caseInsensitivePassword,
&caseInsensitivePasswordLength,
&nameString,
&domainString,
&smbInformation,
&smbInformationLength );
if (NT_SUCCESS(status)) {
SrvAllocateSession( &session, &nameString, &domainString );
if( session != NULL ) {
status = SrvValidateUser(
&session->UserHandle,
session,
WorkContext->Connection,
&nameString,
caseInsensitivePassword,
caseInsensitivePasswordLength,
caseSensitivePassword,
caseSensitivePasswordLength,
smbSecuritySignatureRequired,
&action
);
} else {
status = STATUS_INSUFF_SERVER_RESOURCES;
}
}
}
//
// Done with the name strings - they were captured into the session
// structure if needed.
//
if (!isUnicode || isExtendedSecurity) {
if (nameString.Buffer != NULL) {
RtlFreeUnicodeString( &nameString );
nameString.Buffer = NULL;
}
if (domainString.Buffer != NULL) {
RtlFreeUnicodeString( &domainString );
domainString.Buffer = NULL;
}
}
//
// If a bad name/password combination was sent, return an error.
//
if ( !NT_SUCCESS(status) && status != STATUS_MORE_PROCESSING_REQUIRED ) {
IF_DEBUG(ERRORS) {
SrvPrint0( "BlockingSessionSetupAndX: Bad user/password combination.\n" );
}
SrvStatistics.LogonErrors++;
goto error_exit;
}
if( previousSecuritySignatureState == FALSE &&
connection->SmbSecuritySignatureActive == TRUE ) {
//
// We have 'turned on' SMB security signatures. Make sure that the
// signature for the Session Setup & X is correct
//
//
// The client's index was 0
//
WorkContext->SmbSecuritySignatureIndex = 0;
//
// Our response index is 1
//
WorkContext->ResponseSmbSecuritySignatureIndex = 1;
//
// And the next request should be index 2
//
connection->SmbSecuritySignatureIndex = 2;
}
//
// If we have a new session, fill in the remaining required information. We
// may be operating on an already existing session if we are in the middle
// of a multi-round-trip extended security blob exchange, or if we are
// renewing a session.
//
if ( WorkContext->Session == NULL ) {
if( connection->SmbDialect <= SmbDialectDosLanMan21 ) {
ACQUIRE_LOCK( &connection->Lock );
if ( connection->ClientOSType.Buffer == NULL ) {
ULONG length;
PWCH infoBuffer;
//
// If the SMB buffer is ANSI, adjust the size of the buffer we
// are allocating to Unicode size.
//
if ( isUnicode ) {
smbInformation = ALIGN_SMB_WSTR(smbInformation);
}
length = isUnicode ? smbInformationLength : smbInformationLength * sizeof( WCHAR );
infoBuffer = ALLOCATE_NONPAGED_POOL(
length,
BlockTypeDataBuffer );
if ( infoBuffer == NULL ) {
RELEASE_LOCK( &connection->Lock );
status = STATUS_INSUFF_SERVER_RESOURCES;
goto error_exit;
}
connection->ClientOSType.Buffer = (PWCH)infoBuffer;
connection->ClientOSType.MaximumLength = (USHORT)length;
//
// Copy the client OS type to the new buffer.
//
length = SrvGetString(
&connection->ClientOSType,
smbInformation,
END_OF_REQUEST_SMB( WorkContext ),
isUnicode
);
if ( length == (USHORT)-1) {
connection->ClientOSType.Buffer = NULL;
RELEASE_LOCK( &connection->Lock );
DEALLOCATE_NONPAGED_POOL( infoBuffer );
status = STATUS_INVALID_SMB;
goto error_exit;
}
smbInformation += length + sizeof( WCHAR );
connection->ClientLanManType.Buffer = (PWCH)(
(PCHAR)connection->ClientOSType.Buffer +
connection->ClientOSType.Length +
sizeof( WCHAR ) );
connection->ClientLanManType.MaximumLength =
connection->ClientOSType.MaximumLength -
connection->ClientOSType.Length -
sizeof( WCHAR );
//
// Copy the client LAN Manager type to the new buffer.
//
length = SrvGetString(
&connection->ClientLanManType,
smbInformation,
END_OF_REQUEST_SMB( WorkContext ),
isUnicode
);
if ( length == (USHORT)-1) {
connection->ClientOSType.Buffer = NULL;
RELEASE_LOCK( &connection->Lock );
DEALLOCATE_NONPAGED_POOL( infoBuffer );
status = STATUS_INVALID_SMB;
goto error_exit;
}
//
// If we have an NT5 or later client, grab the build number from the
// OS version string.
//
if( isExtendedSecurity &&
connection->ClientOSType.Length &&
connection->PagedConnection->ClientBuildNumber == 0 ) {
PWCHAR pdigit = connection->ClientOSType.Buffer;
PWCHAR epdigit = pdigit + connection->ClientOSType.Length/sizeof(WCHAR);
ULONG clientBuildNumber = 0;
//
// Scan the ClientOSType string to find the last number, and
// convert to a ULONG. It should be the build number
//
while( 1 ) {
//
// Scan the string until we find a number.
//
for( ; pdigit < epdigit; pdigit++ ) {
if( *pdigit >= L'0' && *pdigit <= L'9' ) {
break;
}
}
//
// If we've hit the end of the string, we are done
//
if( pdigit == epdigit ) {
break;
}
clientBuildNumber = 0;
//
// Convert the number to a ULONG, assuming it is the build number
//
while( pdigit < epdigit && *pdigit >= L'0' && *pdigit <= '9' ) {
clientBuildNumber *= 10;
clientBuildNumber += (*pdigit++ - L'0');
}
}
connection->PagedConnection->ClientBuildNumber = clientBuildNumber;
#if SRVNTVERCHK
if( SrvMinNT5Client > 0 ) {
BOOLEAN allowThisClient = FALSE;
DWORD i;
//
// See if we should allow this client, because it is a well-known
// IP address. This is to allow the build lab to more slowly upgrade
// than the rest of us.
//
if( connection->ClientIPAddress != 0 &&
connection->Endpoint->IsConnectionless == FALSE ) {
for( i = 0; SrvAllowIPAddress[i]; i++ ) {
if( SrvAllowIPAddress[i] == connection->ClientIPAddress ) {
allowThisClient = TRUE;
break;
}
}
}
if( allowThisClient == FALSE &&
connection->PagedConnection->ClientBuildNumber < SrvMinNT5Client ) {
connection->PagedConnection->ClientTooOld = TRUE;
}
}
#endif
}
}
RELEASE_LOCK( &connection->Lock );
}
//
// If using uppercase pathnames, indicate in the session block. DOS
// always uses uppercase paths.
//
if ( (WorkContext->RequestHeader->Flags &
SMB_FLAGS_CANONICALIZED_PATHS) != 0 ||
IS_DOS_DIALECT( connection->SmbDialect ) ) {
session->UsingUppercasePaths = TRUE;
} else {
session->UsingUppercasePaths = FALSE;
}
//
// Enter data from request SMB into the session block. If MaxMpx is 1
// disable oplocks on this connection.
//
endpoint = connection->Endpoint;
if ( endpoint->IsConnectionless ) {
ULONG adapterNumber;
//
// Our session max buffer size is the smaller of the
// client buffer size and the ipx transport
// indicated max packet size.
//
adapterNumber =
WorkContext->ClientAddress->DatagramOptions.LocalTarget.NicId;
session->MaxBufferSize =
(USHORT)GetIpxMaxBufferSize(
endpoint,
adapterNumber,
(ULONG)SmbGetUshort(&request->MaxBufferSize)
);
} else {
session->MaxBufferSize = SmbGetUshort( &request->MaxBufferSize );
}
//
// Make sure the MaxBufferSize is correctly sized
//
session->MaxBufferSize &= ~03;
if( session->MaxBufferSize < SrvMinClientBufferSize ) {
//
// Client asked for a buffer size that is too small!
//
IF_DEBUG(ERRORS) {
KdPrint(( "BlockingSessionSetupAndX: Bad Client Buffer Size: %u\n",
session->MaxBufferSize ));
}
status = STATUS_INVALID_SMB;
goto error_exit;
}
session->MaxMpxCount = SmbGetUshort( &request->MaxMpxCount );
if ( session->MaxMpxCount < 2 ) {
connection->OplocksAlwaysDisabled = TRUE;
}
}
//
// If we have completely authenticated the client, and the client thinks
// that it is the first user on this connection, get rid of other
// connections (may be due to rebooting of client). Also get rid of other
// sessions on this connection with the same user name--this handles a
// DOS "weirdness" where it sends multiple session setups if a tree connect
// fails.
//
// *** If VcNumber is non-zero, we do nothing special. This is the
// case even though the SrvMaxVcNumber configurable variable
// should always be equal to one. If a second VC is established
// between machines, a new session must also be established.
// This duplicates the LM 2.0 server's behavior.
//
if( isExtendedSecurity == FALSE &&
NT_SUCCESS( status ) &&
SmbGetUshort( &request->VcNumber ) == 0 ) {
UNICODE_STRING userName;
SrvCloseConnectionsFromClient( connection, FALSE );
//
// If a client is smart enough to use extended security, then it
// is presumably smart enough to know what it wants to do with
// its sessions. So don't just blow off sessions from this client.
//
SrvGetUserAndDomainName( session, &userName, NULL );
if( userName.Buffer ) {
SrvCloseSessionsOnConnection( connection, &userName );
SrvReleaseUserAndDomainName( session, &userName, NULL );
}
}
if( WorkContext->Session == NULL ) {
//
// Making a new session visible is a multiple-step operation. It
// must be inserted in the global ordered tree connect list and the
// containing connection's session table, and the connection must be
// referenced. We need to make these operations appear atomic, so
// that the session cannot be accessed elsewhere before we're done
// setting it up. In order to do this, we hold all necessary locks
// the entire time we're doing the operations. The first operation
// is protected by the global ordered list lock
// (SrvOrderedListLock), while the other operations are protected by
// the per-connection lock. We take out the ordered list lock
// first, then the connection lock. This ordering is required by
// lock levels (see lock.h).
//
ASSERT( SrvSessionList.Lock == &SrvOrderedListLock );
ACQUIRE_LOCK( SrvSessionList.Lock );
ACQUIRE_LOCK( &connection->Lock );
locksHeld = TRUE;
//
// Ready to try to find a UID for the session. Check to see if the
// connection is being closed, and if so, terminate this operation.
//
if ( GET_BLOCK_STATE(connection) != BlockStateActive ) {
IF_DEBUG(ERRORS) {
SrvPrint0( "BlockingSessionSetupAndX: Connection closing\n" );
}
status = STATUS_INVALID_PARAMETER;
goto error_exit;
}
//
// If this client speaks a dialect above LM 1.0, find a UID that can
// be used for this session. Otherwise, just use location 0 of the
// table because those clients will not send a UID in SMBs and they
// can have only one session.
//
if ( connection->SmbDialect < SmbDialectLanMan10 ) {
NTSTATUS TableStatus;
if ( pagedConnection->SessionTable.FirstFreeEntry == -1
&&
SrvGrowTable(
&pagedConnection->SessionTable,
SrvInitialSessionTableSize,
SrvMaxSessionTableSize,
&TableStatus ) == FALSE
) {
//
// No free entries in the user table. Reject the request.
//
IF_DEBUG(ERRORS) {
SrvPrint0( "BlockingSessionSetupAndX: No more UIDs available.\n" );
}
if( TableStatus == STATUS_INSUFF_SERVER_RESOURCES )
{
// The table size is being exceeded, log an error
SrvLogTableFullError( SRV_TABLE_SESSION );
status = STATUS_SMB_TOO_MANY_UIDS;
}
else
{
// Memory allocation error, report it
status = TableStatus;
}
goto error_exit;
}
uidIndex = pagedConnection->SessionTable.FirstFreeEntry;
} else { // if ( dialect < SmbDialectLanMan10 )
//
// If this client already has a session at this server, abort.
// The session should have been closed by the call to
// SrvCloseSessionsOnConnection above. (We could try to work
// around the existence of the session by closing it, but that
// would involve releasing the locks, closing the session, and
// retrying. This case shouldn't happen.)
//
if ( pagedConnection->SessionTable.Table[0].Owner != NULL ) {
IF_DEBUG(ERRORS) {
SrvPrint0( "BlockingSessionSetupAndX: Core client already has session.\n" );
}
status = STATUS_SMB_TOO_MANY_UIDS;
goto error_exit;
}
//
// Use location 0 of the session table.
//
IF_SMB_DEBUG(ADMIN2) {
SrvPrint0( "Client LM 1.0 or before--using location 0 of session table.\n" );
}
uidIndex = 0;
}
//
// Remove the UID slot from the free list and set its owner and
// sequence number. Create a UID for the session. Increment count
// of sessions.
//
entry = &pagedConnection->SessionTable.Table[uidIndex];
pagedConnection->SessionTable.FirstFreeEntry = entry->NextFreeEntry;
DEBUG entry->NextFreeEntry = -2;
if ( pagedConnection->SessionTable.LastFreeEntry == uidIndex ) {
pagedConnection->SessionTable.LastFreeEntry = -1;
}
INCREMENT_UID_SEQUENCE( entry->SequenceNumber );
if ( uidIndex == 0 && entry->SequenceNumber == 0 ) {
INCREMENT_UID_SEQUENCE( entry->SequenceNumber );
}
session->Uid = MAKE_UID( uidIndex, entry->SequenceNumber );
entry->Owner = session;
pagedConnection->CurrentNumberOfSessions++;
IF_SMB_DEBUG(ADMIN1) {
SrvPrint2( "Found UID. Index = 0x%lx, sequence = 0x%lx\n",
UID_INDEX( session->Uid ),
UID_SEQUENCE( session->Uid ) );
}
//
// Insert the session on the global session list.
//
SrvInsertEntryOrderedList( &SrvSessionList, session );
//
// Reference the connection block to account for the new session.
//
SrvReferenceConnection( connection );
session->Connection = connection;
RELEASE_LOCK( &connection->Lock );
RELEASE_LOCK( SrvSessionList.Lock );
//
// Session successfully created. Insert the session in the global
// list of active sessions. Remember its address in the work
// context block.
//
// *** Note that the reference count on the session block is
// initially set to 2, to allow for the active status on the
// block and the pointer that we're maintaining. In other
// words, this is a referenced pointer, and the pointer must be
// dereferenced when processing of this SMB is complete.
//
WorkContext->Session = session;
}
//
// Build response SMB, making sure to save request fields first in
// case the response overwrites the request. Save the
// newly-assigned UID in both the request SMB and the response SMB
// so that subsequent command processors and the client,
// respectively, can see it.
//
nextCommand = request->AndXCommand;
reqAndXOffset = SmbGetUshort( &request->AndXOffset );
SmbPutAlignedUshort( &WorkContext->RequestHeader->Uid, session->Uid );
SmbPutAlignedUshort( &WorkContext->ResponseHeader->Uid, session->Uid );
if (isExtendedSecurity) {
BuildExtendedSessionSetupAndXResponse(
WorkContext,
returnBufferLength,
status,
nextCommand,
isUnicode);
} else {
BuildSessionSetupAndXResponse(
WorkContext,
nextCommand,
action,
isUnicode);
}
WorkContext->ResponseParameters = (PCHAR)WorkContext->ResponseHeader +
SmbGetUshort( &response->AndXOffset );
//
// Test for legal followon command.
//
switch ( nextCommand ) {
case SMB_COM_NO_ANDX_COMMAND:
break;
case SMB_COM_TREE_CONNECT_ANDX:
case SMB_COM_OPEN:
case SMB_COM_OPEN_ANDX:
case SMB_COM_CREATE:
case SMB_COM_CREATE_NEW:
case SMB_COM_CREATE_DIRECTORY:
case SMB_COM_DELETE:
case SMB_COM_DELETE_DIRECTORY:
case SMB_COM_FIND:
case SMB_COM_FIND_UNIQUE:
case SMB_COM_COPY:
case SMB_COM_RENAME:
case SMB_COM_NT_RENAME:
case SMB_COM_CHECK_DIRECTORY:
case SMB_COM_QUERY_INFORMATION:
case SMB_COM_SET_INFORMATION:
case SMB_COM_QUERY_INFORMATION_SRV:
case SMB_COM_OPEN_PRINT_FILE:
case SMB_COM_GET_PRINT_QUEUE:
case SMB_COM_TRANSACTION:
//
// Make sure the AndX command is still within the received SMB
//
if( (PCHAR)WorkContext->RequestHeader + reqAndXOffset <=
END_OF_REQUEST_SMB( WorkContext ) ) {
break;
}
/* Falls Through */
default: // Illegal followon command
IF_DEBUG(SMB_ERRORS) {
SrvPrint1( "BlockingSessionSetupAndX: Illegal followon command: "
"0x%lx\n", nextCommand );
}
status = STATUS_INVALID_SMB;
goto error_exit1;
}
//
// If there is an AndX command, set up to process it. Otherwise,
// indicate completion to the caller.
//
if ( nextCommand != SMB_COM_NO_ANDX_COMMAND ) {
WorkContext->NextCommand = nextCommand;
WorkContext->RequestParameters = (PCHAR)WorkContext->RequestHeader +
reqAndXOffset;
SrvProcessSmb( WorkContext );
SmbStatus = SmbStatusNoResponse;
goto Cleanup;
}
IF_DEBUG(TRACE2) SrvPrint0( "BlockingSessionSetupAndX complete.\n" );
goto normal_exit;
error_exit:
if ( locksHeld ) {
RELEASE_LOCK( &connection->Lock );
RELEASE_LOCK( SrvSessionList.Lock );
}
if ( session != NULL ) {
if( WorkContext->Session ) {
//
// A re-validation of the session failed, or the extended exchange
// of security blobs failed. Get rid of this user.
//
SrvCloseSession( session );
SrvStatistics.SessionsLoggedOff++;
//
// Dereference the session, since it's no longer valid
//
SrvDereferenceSession( session );
WorkContext->Session = NULL;
} else {
SrvFreeSession( session );
}
}
if ( !isUnicode ) {
if ( domainString.Buffer != NULL ) {
RtlFreeUnicodeString( &domainString );
}
if ( nameString.Buffer != NULL ) {
RtlFreeUnicodeString( &nameString );
}
}
error_exit1:
SrvSetSmbError( WorkContext, status );
normal_exit:
SrvEndSmbProcessing( WorkContext, SmbStatusSendResponse );
SmbStatus = SmbStatusSendResponse;
Cleanup:
SrvWmiEndContext(WorkContext);
return;
} // BlockingSessionSetupAndX
NTSTATUS
GetExtendedSecurityParameters(
IN PWORK_CONTEXT WorkContext,
OUT PUCHAR *SecurityBuffer,
OUT PULONG SecurityBufferLength,
OUT PCHAR *RestOfDataBuffer,
OUT PULONG RestOfDataLength)
/*++
Routine Description:
Extracts the extensible security parameters from an extended session
setup and X SMB.
Arguments:
WorkContext - Context of the SMB
SecurityBuffer - On return, points to the security buffer inside the
extended session setup and X SMB
SecurityBufferLength - On return, size in bytes of SecurityBuffer.
RestOfDataBuffer - On return, points just past the security buffer
ResetOfDataLength - On return, size in bytes of *RestOfDataBuffer
Return Value:
STATUS_SUCCESS - This routine merely returns pointers within an SMB
--*/
{
NTSTATUS status;
PCONNECTION connection;
PREQ_NT_EXTENDED_SESSION_SETUP_ANDX ntExtendedRequest;
ULONG maxlength;
connection = WorkContext->Connection;
ASSERT( connection->SmbDialect <= SmbDialectNtLanMan );
ntExtendedRequest = (PREQ_NT_EXTENDED_SESSION_SETUP_ANDX)
(WorkContext->RequestParameters);
maxlength = (ULONG)(WorkContext->RequestBuffer->DataLength + sizeof( USHORT ) -
((ULONG_PTR)ntExtendedRequest->Buffer -
(ULONG_PTR)WorkContext->RequestBuffer->Buffer));
//
// Get the extended security buffer
//
*SecurityBuffer = (PUCHAR) ntExtendedRequest->Buffer;
*SecurityBufferLength = ntExtendedRequest->SecurityBlobLength;
*RestOfDataBuffer = ntExtendedRequest->Buffer +
ntExtendedRequest->SecurityBlobLength;
*RestOfDataLength = (USHORT)( (PUCHAR)ntExtendedRequest->Buffer +
sizeof(USHORT) +
SmbGetUshort( &ntExtendedRequest->ByteCount) -
(*RestOfDataBuffer)
);
if( *SecurityBufferLength > maxlength ||
*RestOfDataLength > maxlength - *SecurityBufferLength ) {
IF_DEBUG(SMB_ERRORS) {
KdPrint(( "GetExtendedSecurityParameters: Invalid security buffer\n" ));
}
return STATUS_INVALID_SMB;
}
return( STATUS_SUCCESS );
}
NTSTATUS
GetNtSecurityParameters(
IN PWORK_CONTEXT WorkContext,
OUT PCHAR *CaseSensitivePassword,
OUT PULONG CaseSensitivePasswordLength,
OUT PCHAR *CaseInsensitivePassword,
OUT PULONG CaseInsensitivePasswordLength,
OUT PUNICODE_STRING UserName,
OUT PUNICODE_STRING DomainName,
OUT PCHAR *RestOfDataBuffer,
OUT PULONG RestOfDataLength)
{
NTSTATUS status = STATUS_SUCCESS;
PCONNECTION connection;
PREQ_NT_SESSION_SETUP_ANDX ntRequest;
PREQ_SESSION_SETUP_ANDX request;
PSZ userName;
USHORT nameLength;
BOOLEAN isUnicode;
connection = WorkContext->Connection;
ntRequest = (PREQ_NT_SESSION_SETUP_ANDX)(WorkContext->RequestParameters);
request = (PREQ_SESSION_SETUP_ANDX)(WorkContext->RequestParameters);
//
// Get the account name, and additional information from the SMB buffer.
//
if ( connection->SmbDialect <= SmbDialectNtLanMan) {
//
// The NT-NT SMB protocol passes both case sensitive (Unicode,
// mixed case) and case insensitive (ANSI, uppercased) passwords.
// Get pointers to them to pass to SrvValidateUser.
//
*CaseInsensitivePasswordLength =
(CLONG)SmbGetUshort(&ntRequest->CaseInsensitivePasswordLength);
*CaseInsensitivePassword = (PCHAR)(ntRequest->Buffer);
*CaseSensitivePasswordLength =
(CLONG)SmbGetUshort( &ntRequest->CaseSensitivePasswordLength );
*CaseSensitivePassword =
*CaseInsensitivePassword + *CaseInsensitivePasswordLength;
userName = (PSZ)(*CaseSensitivePassword +
*CaseSensitivePasswordLength);
} else {
//
// Downlevel clients do not pass the case sensitive password;
// just get the case insensitive password and use NULL as the
// case sensitive password. LSA will do the right thing with
// it.
//
*CaseInsensitivePasswordLength =
(CLONG)SmbGetUshort( &request->PasswordLength );
*CaseInsensitivePassword = (PCHAR)request->Buffer;
*CaseSensitivePasswordLength = 0;
*CaseSensitivePassword = NULL;
userName = (PSZ)(request->Buffer + *CaseInsensitivePasswordLength);
}
if( (*CaseInsensitivePassword) != NULL &&
(*CaseInsensitivePassword) + (*CaseInsensitivePasswordLength) >
END_OF_REQUEST_SMB( WorkContext ) ) {
status = STATUS_INVALID_SMB;
goto error_exit;
}
if( (*CaseSensitivePassword) != NULL &&
(*CaseSensitivePassword) + (*CaseSensitivePasswordLength) >
END_OF_REQUEST_SMB( WorkContext ) ) {
status = STATUS_INVALID_SMB;
goto error_exit;
}
isUnicode = SMB_IS_UNICODE( WorkContext );
if ( isUnicode ) {
userName = ALIGN_SMB_WSTR( userName );
}
nameLength = SrvGetStringLength(
userName,
END_OF_REQUEST_SMB( WorkContext ),
isUnicode,
FALSE // don't include null terminator
);
if ( nameLength == (USHORT)-1 ) {
status = STATUS_INVALID_SMB;
goto error_exit;
}
status = SrvMakeUnicodeString(
isUnicode,
UserName,
userName,
&nameLength );
if ( !NT_SUCCESS( status ) ) {
goto error_exit;
}
//
// If client information strings exists, extract the information
// from the SMB buffer.
//
if ( connection->SmbDialect <= SmbDialectDosLanMan21) {
PCHAR smbInformation;
USHORT length;
PWCH infoBuffer;
smbInformation = userName + nameLength +
( isUnicode ? sizeof( WCHAR ) : 1 );
//
// Now copy the strings to the allocated buffer.
//
if ( isUnicode ) {
smbInformation = ALIGN_SMB_WSTR( smbInformation );
}
length = SrvGetStringLength(
smbInformation,
END_OF_REQUEST_SMB( WorkContext ),
isUnicode,
FALSE // don't include null terminator
);
if ( length == (USHORT)-1) {
status = STATUS_INVALID_SMB;
goto error_exit;
}
//
// DOS clients send an empty domain name if they don't know
// their domain name (e.g., during logon). OS/2 clients send
// a name of "?". This confuses the LSA. Convert such a name
// to an empty name.
//
if ( isUnicode ) {
if ( (length == sizeof(WCHAR)) &&
(*(PWCH)smbInformation == '?') ) {
length = 0;
}
} else {
if ( (length == 1) && (*smbInformation == '?') ) {
length = 0;
}
}
status = SrvMakeUnicodeString(
isUnicode,
DomainName,
smbInformation,
&length
);
if ( !NT_SUCCESS( status ) ) {
goto error_exit;
}
smbInformation += length + ( isUnicode ? sizeof(WCHAR) : 1 );
*RestOfDataBuffer = smbInformation;
if (connection->SmbDialect <= SmbDialectNtLanMan) {
*RestOfDataLength = (USHORT) ( (PUCHAR)&ntRequest->ByteCount +
sizeof(USHORT) +
SmbGetUshort(&ntRequest->ByteCount) -
smbInformation
);
} else {
PREQ_SESSION_SETUP_ANDX request;
request = (PREQ_SESSION_SETUP_ANDX)(WorkContext->RequestParameters);
*RestOfDataLength = (USHORT) ( (PUCHAR)&request->ByteCount +
sizeof(USHORT) +
SmbGetUshort(&request->ByteCount) -
smbInformation
);
}
} else {
DomainName->Length = 0;
*RestOfDataBuffer = NULL;
*RestOfDataLength = 0;
}
error_exit:
return( status );
}
VOID
BuildExtendedSessionSetupAndXResponse(
IN PWORK_CONTEXT WorkContext,
IN ULONG ReturnBufferLength,
IN NTSTATUS Status,
IN UCHAR NextCommand,
IN BOOLEAN IsUnicode)
{
PRESP_NT_EXTENDED_SESSION_SETUP_ANDX ntExtendedResponse;
PCHAR buffer;
USHORT byteCount;
ntExtendedResponse = (PRESP_NT_EXTENDED_SESSION_SETUP_ANDX)
(WorkContext->ResponseParameters);
ntExtendedResponse->WordCount = 4;
ntExtendedResponse->AndXCommand = NextCommand;
ntExtendedResponse->AndXReserved = 0;
if( WorkContext->Session && WorkContext->Session->GuestLogon ) {
SmbPutUshort( &ntExtendedResponse->Action, SMB_SETUP_GUEST );
} else {
SmbPutUshort( &ntExtendedResponse->Action, 0 );
}
SmbPutUshort( &ntExtendedResponse->SecurityBlobLength,(USHORT)ReturnBufferLength );
buffer = ntExtendedResponse->Buffer + ReturnBufferLength;
if (IsUnicode)
buffer = ALIGN_SMB_WSTR( buffer );
InsertNativeOSAndType( IsUnicode, buffer, &byteCount );
byteCount += (USHORT)ReturnBufferLength;
SmbPutUshort( &ntExtendedResponse->ByteCount, byteCount );
SmbPutUshort( &ntExtendedResponse->AndXOffset, GET_ANDX_OFFSET(
WorkContext->ResponseHeader,
WorkContext->ResponseParameters,
RESP_NT_EXTENDED_SESSION_SETUP_ANDX,
byteCount
) );
//
// Make sure we return the error status here, as the client uses it to
// determine if extra round trips are necessary
//
SrvSetSmbError2 ( WorkContext, Status, TRUE );
}
VOID
BuildSessionSetupAndXResponse(
IN PWORK_CONTEXT WorkContext,
IN UCHAR NextCommand,
IN USHORT Action,
IN BOOLEAN IsUnicode)
{
PRESP_SESSION_SETUP_ANDX response;
PCONNECTION connection;
PENDPOINT endpoint;
PCHAR buffer;
USHORT byteCount;
response = (PRESP_SESSION_SETUP_ANDX) (WorkContext->ResponseParameters);
connection = WorkContext->Connection;
endpoint = connection->Endpoint;
response->WordCount = 3;
response->AndXCommand = NextCommand;
response->AndXReserved = 0;
if (connection->SmbDialect <= SmbDialectDosLanMan21) {
buffer = response->Buffer;
if (IsUnicode)
buffer = ALIGN_SMB_WSTR( buffer );
InsertNativeOSAndType( IsUnicode, buffer, &byteCount );
buffer = buffer + byteCount;
if (connection->SmbDialect <= SmbDialectNtLanMan) {
USHORT stringLength;
if ( IsUnicode ) {
buffer = ALIGN_SMB_WSTR( buffer );
stringLength = endpoint->DomainName.Length + sizeof(UNICODE_NULL);
RtlCopyMemory(
buffer,
endpoint->DomainName.Buffer,
stringLength
);
byteCount += (USHORT)stringLength;
} else {
stringLength = endpoint->OemDomainName.Length + sizeof(CHAR);
RtlCopyMemory(
(PVOID) buffer,
endpoint->OemDomainName.Buffer,
stringLength
);
byteCount += (USHORT)stringLength;
}
}
} else {
byteCount = 0;
}
SmbPutUshort( &response->ByteCount, byteCount );
//
// Normally, turning on bit 0 of Action indicates that the user was
// logged on as GUEST. However, NT does not have automatic guest
// logon--a user ID and password are required for every single logon
// (though the password may have null length). Therefore, the
// server need not concern itself with what kind of account the
// client gets.
//
// Bit 1 tells the client that the user was logged on
// using the lm session key instead of the user session key.
//
SmbPutUshort( &response->Action, Action );
SmbPutUshort( &response->AndXOffset, GET_ANDX_OFFSET(
WorkContext->ResponseHeader,
WorkContext->ResponseParameters,
RESP_SESSION_SETUP_ANDX,
byteCount
) );
}
VOID
InsertNativeOSAndType(
IN BOOLEAN IsUnicode,
OUT PCHAR Buffer,
OUT PUSHORT ByteCount)
{
USHORT stringLength;
if ( IsUnicode ) {
stringLength = (USHORT)(SrvNativeOS.Length + sizeof(UNICODE_NULL));
RtlCopyMemory(
Buffer,
SrvNativeOS.Buffer,
stringLength
);
*ByteCount = stringLength;
stringLength = SrvNativeLanMan.Length + sizeof(UNICODE_NULL);
RtlCopyMemory(
(PCHAR)Buffer + *ByteCount,
SrvNativeLanMan.Buffer,
stringLength
);
*ByteCount += (USHORT)stringLength;
} else {
stringLength = SrvOemNativeOS.Length + sizeof(CHAR);
RtlCopyMemory(
Buffer,
SrvOemNativeOS.Buffer,
stringLength
);
*ByteCount = stringLength;
stringLength = SrvOemNativeLanMan.Length + sizeof(CHAR);
RtlCopyMemory(
(PCHAR)Buffer + *ByteCount,
SrvOemNativeLanMan.Buffer,
stringLength
);
*ByteCount += (USHORT)stringLength;
}
}
SMB_PROCESSOR_RETURN_TYPE
SrvSmbLogoffAndX (
SMB_PROCESSOR_PARAMETERS
)
/*++
Routine Description:
Processes a Logoff and X SMB.
Arguments:
SMB_PROCESSOR_PARAMETERS - See smbprocs.h for a description
of the parameters to SMB processor routines.
Return Value:
SMB_PROCESSOR_RETURN_TYPE - See smbprocs.h
--*/
{
PREQ_LOGOFF_ANDX request;
PRESP_LOGOFF_ANDX response;
PSESSION session;
USHORT reqAndXOffset;
UCHAR nextCommand;
NTSTATUS status = STATUS_SUCCESS;
SMB_STATUS SmbStatus = SmbStatusInProgress;
PAGED_CODE( );
if (WorkContext->PreviousSMB == EVENT_TYPE_SMB_LAST_EVENT)
WorkContext->PreviousSMB = EVENT_TYPE_SMB_LOGOFF_AND_X;
SrvWmiStartContext(WorkContext);
IF_SMB_DEBUG(ADMIN1) {
SrvPrint2( "Logoff request header at 0x%p, response header at 0x%p\n",
WorkContext->RequestHeader, WorkContext->ResponseHeader );
SrvPrint2( "Logoff request parameters at 0x%p, response parameters at 0x%p\n",
WorkContext->RequestParameters,
WorkContext->ResponseParameters );
}
//
// Set up parameters.
//
request = (PREQ_LOGOFF_ANDX)(WorkContext->RequestParameters);
response = (PRESP_LOGOFF_ANDX)(WorkContext->ResponseParameters);
//
// If a session block has not already been assigned to the current
// work context, verify the UID. If verified, the address of the
// session block corresponding to this user is stored in the
// WorkContext block and the session block is referenced.
//
session = SrvVerifyUid(
WorkContext,
SmbGetAlignedUshort( &WorkContext->RequestHeader->Uid )
);
if ( session == NULL ) {
IF_DEBUG(SMB_ERRORS) {
SrvPrint1( "SrvSmbLogoffAndX: Invalid UID: 0x%lx\n",
SmbGetAlignedUshort( &WorkContext->RequestHeader->Uid ) );
}
SrvSetSmbError( WorkContext, STATUS_SMB_BAD_UID );
status = STATUS_SMB_BAD_UID;
SmbStatus = SmbStatusSendResponse;
goto Cleanup;
}
//
// If we need to visit the license server, get over to a blocking
// thread to ensure that we don't consume the nonblocking threads
//
if( WorkContext->UsingBlockingThread == 0 &&
session->IsLSNotified == TRUE ) {
//
// Insert the work item at the tail of the blocking work queue
//
SrvInsertWorkQueueTail(
&SrvBlockingWorkQueue,
(PQUEUEABLE_BLOCK_HEADER)WorkContext
);
SmbStatus = SmbStatusInProgress;
goto Cleanup;
}
//
// Do the actual logoff.
//
SrvCloseSession( session );
SrvStatistics.SessionsLoggedOff++;
//
// Dereference the session, since it's no longer valid, but we may
// end up processing a chained command. Clear the session pointer
// in the work context block to indicate that we've done this.
//
SrvDereferenceSession( session );
WorkContext->Session = NULL;
//
// Build the response SMB, making sure to save request fields first
// in case the response overwrites the request.
//
reqAndXOffset = SmbGetUshort( &request->AndXOffset );
nextCommand = request->AndXCommand;
response->WordCount = 2;
response->AndXCommand = request->AndXCommand;
response->AndXReserved = 0;
SmbPutUshort( &response->AndXOffset, GET_ANDX_OFFSET(
WorkContext->ResponseHeader,
WorkContext->ResponseParameters,
RESP_LOGOFF_ANDX,
0
) );
SmbPutUshort( &response->ByteCount, 0 );
WorkContext->ResponseParameters = (PCHAR)WorkContext->ResponseHeader +
SmbGetUshort( &response->AndXOffset );
//
// Test for legal followon command.
//
switch ( nextCommand ) {
case SMB_COM_NO_ANDX_COMMAND:
break;
case SMB_COM_SESSION_SETUP_ANDX:
//
// Make sure the AndX command is still within the received SMB
//
if( (PCHAR)WorkContext->RequestHeader + reqAndXOffset <=
END_OF_REQUEST_SMB( WorkContext ) ) {
break;
}
/* Falls Through */
default:
IF_DEBUG(SMB_ERRORS) {
SrvPrint1( "SrvSmbLogoffAndX: Illegal followon command: 0x%lx\n",
nextCommand );
}
SrvSetSmbError( WorkContext, STATUS_INVALID_SMB );
status = STATUS_INVALID_SMB;
SmbStatus = SmbStatusSendResponse;
goto Cleanup;
}
//
// If there is an AndX command, set up to process it. Otherwise,
// indicate completion to the caller.
//
if ( nextCommand != SMB_COM_NO_ANDX_COMMAND ) {
WorkContext->NextCommand = nextCommand;
WorkContext->RequestParameters = (PCHAR)WorkContext->RequestHeader +
reqAndXOffset;
SmbStatus = SmbStatusMoreCommands;
goto Cleanup;
}
SmbStatus = SmbStatusSendResponse;
IF_DEBUG(TRACE2) SrvPrint0( "SrvSmbLogoffAndX complete.\n" );
Cleanup:
SrvWmiEndContext(WorkContext);
return SmbStatus;
} // SrvSmbLogoffAndX
STATIC
VOID
GetEncryptionKey (
OUT CHAR EncryptionKey[MSV1_0_CHALLENGE_LENGTH]
)
/*++
Routine Description:
Creates an encryption key to use as a challenge for a logon.
*** Although the MSV1_0 authentication package has a function that
returns an encryption key, we do not use that function in order
to avoid a trip through LPC and into LSA.
Arguments:
EncryptionKey - a pointer to a buffer which receives the encryption
key.
Return Value:
NTSTATUS - result of operation.
--*/
{
union {
LARGE_INTEGER time;
UCHAR bytes[8];
} u;
ULONG seed;
ULONG challenge[2];
ULONG result3;
//
// Create a pseudo-random 8-byte number by munging the system time
// for use as a random number seed.
//
// Start by getting the system time.
//
ASSERT( MSV1_0_CHALLENGE_LENGTH == 2 * sizeof(ULONG) );
KeQuerySystemTime( &u.time );
//
// To ensure that we don't use the same system time twice, add in the
// count of the number of times this routine has been called. Then
// increment the counter.
//
// *** Since we don't use the low byte of the system time (it doesn't
// take on enough different values, because of the timer
// resolution), we increment the counter by 0x100.
//
// *** We don't interlock the counter because we don't really care
// if it's not 100% accurate.
//
u.time.LowPart += EncryptionKeyCount;
EncryptionKeyCount += 0x100;
//
// Now use parts of the system time as a seed for the random
// number generator.
//
// *** Because the middle two bytes of the low part of the system
// time change most rapidly, we use those in forming the seed.
//
seed = ((u.bytes[1] + 1) << 0) |
((u.bytes[2] + 0) << 8) |
((u.bytes[2] - 1) << 16) |
((u.bytes[1] + 0) << 24);
//
// Now get two random numbers. RtlRandom does not return negative
// numbers, so we pseudo-randomly negate them.
//
challenge[0] = RtlRandom( &seed );
challenge[1] = RtlRandom( &seed );
result3 = RtlRandom( &seed );
if ( (result3 & 0x1) != 0 ) {
challenge[0] |= 0x80000000;
}
if ( (result3 & 0x2) != 0 ) {
challenge[1] |= 0x80000000;
}
//
// Return the challenge.
//
RtlCopyMemory( EncryptionKey, challenge, MSV1_0_CHALLENGE_LENGTH );
} // GetEncryptionKey