/*++ Copyright (c) 1989 Microsoft Corporation Module Name: smbsrch.c Abstract: This module contains routines for processing the find 2 SMBs: Find 2 (First/Next/Rewind) Find 2 Close Author: David Treadwell (davidtr) 13-Feb-1990 Revision History: --*/ #include "precomp.h" #pragma hdrstop #define BugCheckFileId SRV_FILE_SMBFIND VOID SRVFASTCALL BlockingFindFirst2 ( IN PWORK_CONTEXT WorkContext ); SMB_TRANS_STATUS DoFindFirst2 ( IN PWORK_CONTEXT WorkContext ); VOID SRVFASTCALL BlockingFindNext2 ( IN PWORK_CONTEXT WorkContext ); SMB_TRANS_STATUS DoFindNext2 ( IN PWORK_CONTEXT WorkContext ); NTSTATUS SrvFind2Loop ( IN PWORK_CONTEXT WorkContext, IN BOOLEAN IsFirstCall, IN PULONG ResumeFileIndex OPTIONAL, IN USHORT Flags, IN USHORT InformationLevel, IN PTRANSACTION Transaction, IN PSRV_DIRECTORY_INFORMATION DirectoryInformation, IN CLONG BufferSize, IN USHORT SearchAttributes, IN PUNICODE_STRING FileName OPTIONAL, IN USHORT MaxCount, IN PRESP_FIND_NEXT2 Response, OUT PSEARCH Search ); VOID ConvertFileInfo ( IN PFILE_DIRECTORY_INFORMATION File, IN PWCH FileName, IN BOOLEAN Directory, IN BOOLEAN ClientIsUnicode, OUT PSMB_FIND_BUFFER FindBuffer ); #ifdef ALLOC_PRAGMA #pragma alloc_text( PAGE, SrvSmbFindFirst2 ) #pragma alloc_text( PAGE, BlockingFindFirst2 ) #pragma alloc_text( PAGE, DoFindFirst2 ) #pragma alloc_text( PAGE, SrvSmbFindNext2 ) #pragma alloc_text( PAGE, BlockingFindNext2 ) #pragma alloc_text( PAGE, DoFindNext2 ) #pragma alloc_text( PAGE, SrvFind2Loop ) #pragma alloc_text( PAGE, ConvertFileInfo ) #pragma alloc_text( PAGE, SrvSmbFindClose2 ) #endif SMB_TRANS_STATUS SrvSmbFindFirst2 ( IN OUT PWORK_CONTEXT WorkContext ) /*++ Routine Description: Processes the Find First2 request. This request arrives in a Transaction2 SMB. Arguments: WorkContext - Supplies the address of a Work Context Block describing the current request. See smbtypes.h for a more complete description of the valid fields. Return Value: SMB_TRANS_STATUS - Indicates whether an error occurred. See smbtypes.h for a more complete description. --*/ { PREQ_FIND_FIRST2 request; PTRANSACTION transaction; USHORT informationLevel; PAGED_CODE( ); // // If the infomation level is QUERY_EAS_FROM_LIST, and we // are not in a blocking thread, requeue the request to a blocking // thread. // // We can't process the SMB in a non blocking thread because this // info level requires opening the file, which may be oplocked, // so the open operation may block. // transaction = WorkContext->Parameters.Transaction; request = (PREQ_FIND_FIRST2)transaction->InParameters; informationLevel = SmbGetUshort( &request->InformationLevel ); if ( informationLevel == SMB_INFO_QUERY_EAS_FROM_LIST ) { WorkContext->FspRestartRoutine = BlockingFindFirst2; SrvQueueWorkToBlockingThread( WorkContext ); return SmbTransStatusInProgress; } return DoFindFirst2( WorkContext ); } // SrvSmbFindFirst2 VOID SRVFASTCALL BlockingFindFirst2 ( IN OUT PWORK_CONTEXT WorkContext ) /*++ Routine Description: Processes the Find First2 request. This request arrives in a Transaction2 SMB. Arguments: WorkContext - Supplies the address of a Work Context Block describing the current request. See smbtypes.h for a more complete description of the valid fields. Return Value: None. --*/ { SMB_TRANS_STATUS smbStatus; smbStatus = DoFindFirst2( WorkContext ); if ( smbStatus != SmbTransStatusInProgress ) { SrvCompleteExecuteTransaction( WorkContext, smbStatus ); } return; } // BlockingFindFirst2 SMB_TRANS_STATUS DoFindFirst2 ( IN OUT PWORK_CONTEXT WorkContext ) /*++ Routine Description: Processes the Find First2 request. This request arrives in a Transaction2 SMB. Arguments: WorkContext - Supplies the address of a Work Context Block describing the current request. See smbtypes.h for a more complete description of the valid fields. Return Value: SMB_TRANS_STATUS - Indicates whether an error occurred. See smbtypes.h for a more complete description. --*/ { PREQ_FIND_FIRST2 request; PRESP_FIND_FIRST2 response; PTRANSACTION transaction; PCONNECTION connection; NTSTATUS status; UNICODE_STRING fileName; PTABLE_ENTRY entry = NULL; PTABLE_HEADER searchTable; SHORT sidIndex = 0; CSHORT sequence; USHORT maxCount; USHORT flags; USHORT informationLevel; BOOLEAN isUnicode; PSRV_DIRECTORY_INFORMATION directoryInformation; CLONG nonPagedBufferSize; PSEARCH search = NULL; PAGED_CODE( ); transaction = WorkContext->Parameters.Transaction; IF_SMB_DEBUG(SEARCH1) { SrvPrint1( "Find First2 entered; transaction 0x%lx\n", transaction ); } request = (PREQ_FIND_FIRST2)transaction->InParameters; response = (PRESP_FIND_FIRST2)transaction->OutParameters; // // Verify that enough parameter bytes were sent and that we're allowed // to return enough parameter bytes. // if ( (transaction->ParameterCount < sizeof(REQ_FIND_FIRST2)) || (transaction->MaxParameterCount < sizeof(RESP_FIND_FIRST2)) ) { // // Not enough parameter bytes were sent. // IF_SMB_DEBUG(SEARCH2) { SrvPrint2( "DoFindFirst2: bad parameter byte counts: " "%ld %ld\n", transaction->ParameterCount, transaction->MaxParameterCount ); } SrvSetSmbError( WorkContext, STATUS_INVALID_SMB ); return SmbTransStatusErrorWithoutData; } // // Make sure this really is a disk type share // if( transaction->TreeConnect->Share->ShareType != ShareTypeDisk ) { SrvSetSmbError( WorkContext, STATUS_ACCESS_DENIED ); return SmbTransStatusErrorWithoutData; } // // Make sure the client is allowed to do this, if we have an Admin share // status = SrvIsAllowedOnAdminShare( WorkContext, transaction->TreeConnect->Share ); if( !NT_SUCCESS( status ) ) { SrvSetSmbError( WorkContext, status ); return SmbTransStatusErrorWithoutData; } // // Initialize the string containing the search name specification. // isUnicode = SMB_IS_UNICODE( WorkContext ); status = SrvCanonicalizePathName( WorkContext, transaction->TreeConnect->Share, NULL, request->Buffer, END_OF_TRANSACTION_PARAMETERS( transaction ), FALSE, isUnicode, &fileName ); if( !NT_SUCCESS( status ) ) { SrvSetSmbError( WorkContext, status ); return SmbTransStatusErrorWithoutData; } // // Get parameters from the request SMB. // maxCount = SmbGetUshort( &request->SearchCount ); flags = SmbGetUshort( &request->Flags ); // // Make sure that the informationLevel is supported. // informationLevel = SmbGetUshort( &request->InformationLevel ); switch ( informationLevel ) { case SMB_INFO_STANDARD: case SMB_INFO_QUERY_EA_SIZE: case SMB_INFO_QUERY_EAS_FROM_LIST: case SMB_FIND_FILE_DIRECTORY_INFO: case SMB_FIND_FILE_FULL_DIRECTORY_INFO: case SMB_FIND_FILE_OLE_DIRECTORY_INFO: case SMB_FIND_FILE_BOTH_DIRECTORY_INFO: case SMB_FIND_FILE_NAMES_INFO: break; default: IF_DEBUG(SMB_ERRORS) { SrvPrint1( "DoFindFirst2: Bad info level: %ld\n", informationLevel ); } if ( !isUnicode ) { RtlFreeUnicodeString( &fileName ); } SrvSetSmbError( WorkContext, STATUS_OS2_INVALID_LEVEL ); return SmbTransStatusErrorWithoutData; } // // Allocate a search block on the assumption that a search table // entry will be available when needed. // SrvAllocateSearch( &search, &fileName, FALSE ); if ( search == NULL ) { IF_DEBUG(ERRORS) { SrvPrint0( "DoFindFirst2: unable to allocate search block.\n" ); } if ( !isUnicode ) { RtlFreeUnicodeString( &fileName ); } SrvSetSmbError( WorkContext, STATUS_INSUFF_SERVER_RESOURCES ); return SmbTransStatusErrorWithoutData; } search->SearchStorageType = SmbGetUlong(&request->SearchStorageType); // // Allocate an SID for the search. The SID is used to locate the // search block on FindNexts. If there are no free entries in the // table, attempt to grow the table. If we are unable to grow the table, // attempt to timeout a search block using the shorter timeout period. // If this fails, reject the request. // connection = WorkContext->Connection; searchTable = &connection->PagedConnection->SearchTable; ACQUIRE_LOCK( &connection->Lock ); // // Before inserting this search block, make sure the session and tree // connect is still active. If this gets inserted after the session // is closed, the search might not be cleaned up properly. // if (GET_BLOCK_STATE(WorkContext->Session) != BlockStateActive) { IF_DEBUG(ERRORS) { SrvPrint0( "DoFindFirst2: Session Closing.\n" ); } RELEASE_LOCK( &connection->Lock ); FREE_HEAP( search ); if ( !isUnicode ) { RtlFreeUnicodeString( &fileName ); } SrvSetSmbError( WorkContext, STATUS_SMB_BAD_UID ); return SmbTransStatusErrorWithoutData; } else if (GET_BLOCK_STATE(WorkContext->TreeConnect) != BlockStateActive) { IF_DEBUG(ERRORS) { SrvPrint0( "DoFindFirst2: Tree Connect Closing.\n" ); } RELEASE_LOCK( &connection->Lock ); FREE_HEAP( search ); if ( !isUnicode ) { RtlFreeUnicodeString( &fileName ); } SrvSetSmbError( WorkContext, STATUS_SMB_BAD_TID ); return SmbTransStatusErrorWithoutData; } // // Set up referenced session and tree connect pointers and increment // the count of open files on the session. This prevents an idle // session with an open search from being autodisconnected. // search->Session = WorkContext->Session; SrvReferenceSession( WorkContext->Session ); search->TreeConnect = WorkContext->TreeConnect; SrvReferenceTreeConnect( WorkContext->TreeConnect ); WorkContext->Session->CurrentSearchOpenCount++; if ( searchTable->FirstFreeEntry == -1 && SrvGrowTable( searchTable, SrvInitialSearchTableSize, SrvMaxSearchTableSize ) == FALSE && SrvTimeoutSearches( NULL, connection, TRUE ) == 0 ) { IF_DEBUG(ERRORS) { SrvPrint0( "DoFindFirst2: Connection SearchTable full.\n" ); } // // Decrement the counts of open searches. // WorkContext->Session->CurrentSearchOpenCount--; RELEASE_LOCK( &connection->Lock ); SrvDereferenceTreeConnect( search->TreeConnect ); SrvDereferenceSession( search->Session ); FREE_HEAP( search ); if ( !isUnicode ) { RtlFreeUnicodeString( &fileName ); } SrvLogTableFullError( SRV_TABLE_SEARCH); SrvSetSmbError( WorkContext, STATUS_OS2_NO_MORE_SIDS ); return SmbTransStatusErrorWithoutData; } sidIndex = searchTable->FirstFreeEntry; // // A free SID was found. Remove it from the free list and set // its owner and sequence number. // entry = &searchTable->Table[sidIndex]; searchTable->FirstFreeEntry = entry->NextFreeEntry; DEBUG entry->NextFreeEntry = -2; if ( searchTable->LastFreeEntry == sidIndex ) { searchTable->LastFreeEntry = -1; } INCREMENT_SID_SEQUENCE( entry->SequenceNumber ); // // SID = sequence | sidIndex == 0 is illegal. If this is // the current value, increment the sequence. // if ( entry->SequenceNumber == 0 && sidIndex == 0 ) { INCREMENT_SID_SEQUENCE( entry->SequenceNumber ); } sequence = entry->SequenceNumber; entry->Owner = search; RELEASE_LOCK( &connection->Lock ); // // Fill in other fields of the search block. // search->SearchAttributes = SmbGetUshort( &request->SearchAttributes ); search->TableIndex = sidIndex; // // Store the Flags2 field of the smb in the search block. This is // used as a workaround for an OS/2 client side bug where the // findfirst and findnext flags2 bits are inconsistent. // search->Flags2 = SmbGetAlignedUshort( &WorkContext->RequestHeader->Flags2 ); if ( search->Flags2 & SMB_FLAGS2_KNOWS_LONG_NAMES ) { search->Flags2 |= SMB_FLAGS2_KNOWS_EAS; } // // A buffer of nonpaged pool is required by SrvQueryDirectoryFile. // We need to use the SMB buffer for found file names and information, // so allocate a buffer from nonpaged pool. // // If we don't need to return many files, we don't need to allocate // a large buffer. The buffer size is the configurable size or // enough to hold two more then the number of files we need to // return. We get space to hold two extra files in case some // files do not meet the search criteria (eg directories). // if ( maxCount > MAX_FILES_FOR_MED_FIND2 ) { nonPagedBufferSize = MAX_SEARCH_BUFFER_SIZE; } else if ( maxCount > MAX_FILES_FOR_MIN_FIND2 ) { nonPagedBufferSize = MED_SEARCH_BUFFER_SIZE; } else { nonPagedBufferSize = MIN_SEARCH_BUFFER_SIZE; } directoryInformation = ALLOCATE_NONPAGED_POOL( nonPagedBufferSize, BlockTypeDataBuffer ); if ( directoryInformation == NULL ) { INTERNAL_ERROR( ERROR_LEVEL_EXPECTED, "DoFindFirst2: could not allocate nonpaged pool.", NULL, NULL ); SrvCloseSearch( search ); SrvDereferenceSearch( search ); if ( !isUnicode ) { RtlFreeUnicodeString( &fileName ); } SrvSetSmbError( WorkContext, STATUS_INSUFF_SERVER_RESOURCES ); return SmbTransStatusErrorWithoutData; } directoryInformation->DirectoryHandle = 0; IF_SMB_DEBUG(SEARCH2) { SrvPrint2( "Allocated buffer space of %ld bytes at 0x%lx\n", nonPagedBufferSize, directoryInformation ); } // // Call SrvFind2Loop to fill the data section of the transaction with // file entries. It writes into the response parameters section // of the SMB information relating to the results of the search. // The information is the same as the response parameters for // a FindNext2, so that structure is used. The FindFirst2 parameters // are identical to the FindNext2 parameters except for the Sid // at the beginning of the FindFirst2 response. // status = SrvFind2Loop( WorkContext, TRUE, NULL, flags, informationLevel, transaction, directoryInformation, nonPagedBufferSize, search->SearchAttributes, &fileName, maxCount, (PRESP_FIND_NEXT2)( &response->SearchCount ), search ); if ( !isUnicode ) { RtlFreeUnicodeString( &fileName ); } // // Map the error, if necessary // if ( !IS_NT_DIALECT( WorkContext->Connection->SmbDialect ) ) { if ( status == STATUS_NO_SUCH_FILE ) { status = STATUS_NO_MORE_FILES; } } if ( !NT_SUCCESS(status) && SmbGetUshort( &response->SearchCount ) == 0 ) { // // If an error was encountered on a find first, we close the search // block. // search->DirectoryHandle = NULL; SrvCloseSearch( search ); SrvDereferenceSearch( search ); SrvCloseQueryDirectory( directoryInformation ); DEALLOCATE_NONPAGED_POOL( directoryInformation ); SrvSetSmbError2( WorkContext, status, TRUE ); transaction->SetupCount = 0; transaction->ParameterCount = sizeof(RESP_FIND_FIRST2); SmbPutUshort( &response->Sid, 0 ); return SmbTransStatusErrorWithData; } // // If the client told us to close the search after this request, or // close at end-of-search, or this no files were found, close the // search block and call SrvCloseQueryDirectory. Otherwise, store // information in the search block. // if ( ( flags & SMB_FIND_CLOSE_AFTER_REQUEST ) != 0 || ( status == STATUS_NO_MORE_FILES && ( flags & SMB_FIND_CLOSE_AT_EOS ) != 0 ) ) { IF_SMB_DEBUG(SEARCH2) { SrvPrint1( "Closing search at %lx\n", search ); } search->DirectoryHandle = NULL; SrvCloseSearch( search ); SrvCloseQueryDirectory( directoryInformation ); } else { search->DirectoryHandle = directoryInformation->DirectoryHandle; search->Wildcards = directoryInformation->Wildcards; } // // Free the buffer used for the search and dereference our pointer to // the search block. // DEALLOCATE_NONPAGED_POOL( directoryInformation ); search->InUse = FALSE; SrvDereferenceSearch( search ); // // Build the output parameter and data structures. // transaction->SetupCount = 0; transaction->ParameterCount = sizeof(RESP_FIND_FIRST2); SmbPutUshort( &response->Sid, MAKE_SID( sidIndex, entry->SequenceNumber ) ); return SmbTransStatusSuccess; } // DoFindFirst2 SMB_TRANS_STATUS SrvSmbFindNext2 ( IN OUT PWORK_CONTEXT WorkContext ) /*++ Routine Description: Processes the Find Next2 request. This request arrives in a Transaction2 SMB. Arguments: WorkContext - Supplies the address of a Work Context Block describing the current request. See smbtypes.h for a more complete description of the valid fields. Return Value: SMB_TRANS_STATUS - Indicates whether an error occurred. See smbtypes.h for a more complete description. --*/ { PREQ_FIND_NEXT2 request; PTRANSACTION transaction; USHORT informationLevel; PAGED_CODE( ); // // If the infomation level is QUERY_EAS_FROM_LIST, and we // are not in a blocking thread, requeue the request to a blocking // thread. // // We can't process the SMB in a non blocking thread because this // info level requires opening the file, which may be oplocked, // so the open operation may block. // transaction = WorkContext->Parameters.Transaction; request = (PREQ_FIND_NEXT2)transaction->InParameters; informationLevel = SmbGetUshort( &request->InformationLevel ); if ( informationLevel == SMB_INFO_QUERY_EAS_FROM_LIST ) { WorkContext->FspRestartRoutine = BlockingFindNext2; SrvQueueWorkToBlockingThread( WorkContext ); return SmbTransStatusInProgress; } return DoFindNext2( WorkContext ); } // SrvSmbFindNext2 VOID SRVFASTCALL BlockingFindNext2 ( IN OUT PWORK_CONTEXT WorkContext ) /*++ Routine Description: Processes the Find Next2 request. This request arrives in a Transaction2 SMB. Arguments: WorkContext - Supplies the address of a Work Context Block describing the current request. See smbtypes.h for a more complete description of the valid fields. Return Value: None. --*/ { SMB_TRANS_STATUS smbStatus; smbStatus = DoFindNext2( WorkContext ); if ( smbStatus != SmbTransStatusInProgress ) { SrvCompleteExecuteTransaction( WorkContext, smbStatus ); } return; } // BlockingFindNext2 SMB_TRANS_STATUS DoFindNext2 ( IN OUT PWORK_CONTEXT WorkContext ) /*++ Routine Description: Processes the Find First2 request. This request arrives in a Transaction2 SMB. Arguments: WorkContext - Supplies the address of a Work Context Block describing the current request. See smbtypes.h for a more complete description of the valid fields. Return Value: SMB_TRANS_STATUS - Indicates whether an error occurred. See smbtypes.h for a more complete description. --*/ { PREQ_FIND_NEXT2 request; PRESP_FIND_NEXT2 response; PTRANSACTION transaction; NTSTATUS status; USHORT i; PCHAR ansiChar; PWCH unicodeChar; ULONG maxIndex; BOOLEAN illegalPath; BOOLEAN freeFileName; UNICODE_STRING fileName; PTABLE_ENTRY entry = NULL; USHORT maxCount; USHORT informationLevel; PSRV_DIRECTORY_INFORMATION directoryInformation; CLONG nonPagedBufferSize; ULONG resumeFileIndex; USHORT flags; USHORT sid; PSEARCH search = NULL; PAGED_CODE( ); transaction = WorkContext->Parameters.Transaction; IF_SMB_DEBUG(SEARCH1) { SrvPrint1( "Find Next2 entered; transaction %lx\n", transaction ); } request = (PREQ_FIND_NEXT2)transaction->InParameters; response = (PRESP_FIND_NEXT2)transaction->OutParameters; // // Verify that enough parameter bytes were sent and that we're allowed // to return enough parameter bytes. // if ( (transaction->ParameterCount < sizeof(REQ_FIND_NEXT2)) || (transaction->MaxParameterCount < sizeof(RESP_FIND_NEXT2)) ) { // // Not enough parameter bytes were sent. // IF_DEBUG(SMB_ERRORS) { SrvPrint2( "DoFindNext2: bad parameter byte counts: %ld %ld\n", transaction->ParameterCount, transaction->MaxParameterCount ); } SrvSetSmbError( WorkContext, STATUS_INVALID_SMB ); return SmbTransStatusErrorWithoutData; } // // Get parameters from the request SMB. // maxCount = SmbGetUshort( &request->SearchCount ); resumeFileIndex = SmbGetUlong( &request->ResumeKey ); flags = SmbGetUshort( &request->Flags ); // // Make sure that the informationLevel is supported. // informationLevel = SmbGetUshort( &request->InformationLevel ); switch ( informationLevel ) { case SMB_INFO_STANDARD: case SMB_INFO_QUERY_EA_SIZE: case SMB_INFO_QUERY_EAS_FROM_LIST: case SMB_FIND_FILE_DIRECTORY_INFO: case SMB_FIND_FILE_FULL_DIRECTORY_INFO: case SMB_FIND_FILE_OLE_DIRECTORY_INFO: case SMB_FIND_FILE_BOTH_DIRECTORY_INFO: case SMB_FIND_FILE_NAMES_INFO: break; default: IF_DEBUG(SMB_ERRORS) { SrvPrint1( "DoFindNext2: Bad info level: %ld\n", informationLevel ); } SrvSetSmbError( WorkContext, STATUS_OS2_INVALID_LEVEL ); return SmbTransStatusErrorWithoutData; } // // A buffer of nonpaged pool is required by SrvQueryDirectoryFile. // We need to use the SMB buffer for found file names and information, // so allocate a buffer from nonpaged pool. // // If we don't need to return many files, we don't need to allocate // a large buffer. The buffer size is the configurable size or // enough to hold two more then the number of files we need to // return. We get space to hold two extra files in case some // files do not meet the search criteria (eg directories). // if ( maxCount > MAX_FILES_FOR_MED_FIND2 ) { nonPagedBufferSize = MAX_SEARCH_BUFFER_SIZE; } else if ( maxCount > MAX_FILES_FOR_MIN_FIND2 ) { nonPagedBufferSize = MED_SEARCH_BUFFER_SIZE; } else { nonPagedBufferSize = MIN_SEARCH_BUFFER_SIZE; } directoryInformation = ALLOCATE_NONPAGED_POOL( nonPagedBufferSize, BlockTypeDataBuffer ); if ( directoryInformation == NULL ) { INTERNAL_ERROR( ERROR_LEVEL_EXPECTED, "DoFindFirst2: unable to allocate nonpaged pool.", NULL, NULL ); SrvSetSmbError( WorkContext, STATUS_INSUFF_SERVER_RESOURCES ); return SmbTransStatusErrorWithoutData; } IF_SMB_DEBUG(SEARCH2) { SrvPrint2( "Allocated buffer space of %ld bytes at 0x%lx\n", nonPagedBufferSize, directoryInformation ); } // // Get the search block corresponding to this SID. SrvVerifySid // references the search block and fills in fields of // directoryInformation so it is ready to be used by // SrvQueryDirectoryFile. // sid = SmbGetUshort( &request->Sid ); search = SrvVerifySid( WorkContext, SID_INDEX2( sid ), SID_SEQUENCE2( sid ), directoryInformation, nonPagedBufferSize ); if ( search == NULL ) { IF_DEBUG(SMB_ERRORS) { SrvPrint1( "DoFindNext2: Invalid SID: %lx.\n", sid ); } SrvSetSmbError( WorkContext, STATUS_INVALID_HANDLE ); DEALLOCATE_NONPAGED_POOL( directoryInformation ); return SmbTransStatusErrorWithoutData; } // // Initialize the string containing the resume name specification. // If the client requested that we resume from the last file returned, // use the file name and index stored in the search block. // if ( ( flags & SMB_FIND_CONTINUE_FROM_LAST ) == 0 ) { // // Test and use the information passed by the client. A file // name may not be longer than MAXIMUM_FILENAME_LENGTH characters, // and it should not contain any directory information. // illegalPath = FALSE; freeFileName = FALSE; if ( SMB_IS_UNICODE( WorkContext ) ) { fileName.Buffer = ALIGN_SMB_WSTR( (PWCH)request->Buffer ); maxIndex = (END_OF_REQUEST_SMB( WorkContext ) - (PUCHAR)fileName.Buffer) / sizeof(WCHAR); for ( i = 0, unicodeChar = fileName.Buffer; (i < MAXIMUM_FILENAME_LENGTH) && (i < maxIndex); i++, unicodeChar++ ) { if ( *unicodeChar == '\0' ) { break; } if ( IS_UNICODE_PATH_SEPARATOR( *unicodeChar ) ) { IF_DEBUG(SMB_ERRORS) { SrvPrint1( "DoFindNext2: illegal path name: %ws\n", fileName.Buffer ); } illegalPath = TRUE; break; } } fileName.Length = (USHORT) (i * sizeof(WCHAR)); fileName.MaximumLength = fileName.Length; } else { ansiChar = (PCHAR)request->Buffer; maxIndex = END_OF_REQUEST_SMB( WorkContext ) - ansiChar; for ( i = 0; (i < MAXIMUM_FILENAME_LENGTH) && (i < maxIndex); i++, ansiChar++ ) { if ( *ansiChar == '\0' ) { break; } if ( IS_ANSI_PATH_SEPARATOR( *ansiChar ) ) { IF_DEBUG(SMB_ERRORS) { SrvPrint1( "DoFindNext2: illegal path name: %s\n", request->Buffer ); } illegalPath = TRUE; break; } } if ( !illegalPath ) { status = SrvMakeUnicodeString( FALSE, &fileName, request->Buffer, &i ); if ( !NT_SUCCESS(status) ) { IF_DEBUG(SMB_ERRORS) { SrvPrint0( "DoFindNext2: unable to allocate " "Unicode string\n" ); } search->InUse = FALSE; SrvDereferenceSearch( search ); DEALLOCATE_NONPAGED_POOL( directoryInformation ); SrvSetSmbError2( WorkContext, STATUS_OBJECT_PATH_SYNTAX_BAD, TRUE ); return SmbTransStatusErrorWithoutData; } freeFileName = TRUE; } } if ( illegalPath ) { search->InUse = FALSE; SrvDereferenceSearch( search ); DEALLOCATE_NONPAGED_POOL( directoryInformation ); SrvSetSmbError( WorkContext, STATUS_OBJECT_PATH_SYNTAX_BAD ); return SmbTransStatusErrorWithoutData; } } else { // // Use the information in the search block. // fileName = search->LastFileNameReturned; freeFileName = FALSE; resumeFileIndex = search->LastFileIndexReturned; } // // Call SrvFind2Loop to fill the SMB buffer and set output parameters. // // !!! The NULL that might get passed for the resume file index is // a real hack. I doubt it is necessary, but it could prevent // a server crash if we somehow failed to store the resume file // name. status = SrvFind2Loop( WorkContext, FALSE, fileName.Buffer != NULL ? &resumeFileIndex : NULL, flags, informationLevel, transaction, directoryInformation, nonPagedBufferSize, search->SearchAttributes, &fileName, maxCount, response, search ); if ( freeFileName ) { RtlFreeUnicodeString( &fileName ); } if ( !NT_SUCCESS(status) && status != STATUS_NO_MORE_FILES ) { search->InUse = FALSE; SrvDereferenceSearch( search ); DEALLOCATE_NONPAGED_POOL( directoryInformation ); transaction->SetupCount = 0; transaction->ParameterCount = sizeof(RESP_FIND_NEXT2); SrvSetSmbError2( WorkContext, status, TRUE ); return SmbTransStatusErrorWithData; } // // If the client told us to close the search after this request, // or close at end-of-search, close the search block and call // SrvCloseQueryDirectory. // if ( ( flags & SMB_FIND_CLOSE_AFTER_REQUEST ) != 0 || ( status == STATUS_NO_MORE_FILES && ( flags & SMB_FIND_CLOSE_AT_EOS ) != 0 ) ) { search->DirectoryHandle = NULL; SrvCloseSearch( search ); SrvCloseQueryDirectory( directoryInformation ); } // // Dereference our pointer to the search block and free the buffer. // DEALLOCATE_NONPAGED_POOL( directoryInformation ); search->InUse = FALSE; SrvDereferenceSearch( search ); // // Build the output parameter and data structures. // transaction->SetupCount = 0; transaction->ParameterCount = sizeof(RESP_FIND_NEXT2); return SmbTransStatusSuccess; } // DoFindNext2 NTSTATUS SrvFind2Loop ( IN PWORK_CONTEXT WorkContext, IN BOOLEAN IsFirstCall, IN PULONG ResumeFileIndex OPTIONAL, IN USHORT Flags, IN USHORT InformationLevel, IN PTRANSACTION Transaction, IN PSRV_DIRECTORY_INFORMATION DirectoryInformation, IN CLONG BufferSize, IN USHORT SearchAttributes, IN PUNICODE_STRING FileName OPTIONAL, IN USHORT MaxCount, IN PRESP_FIND_NEXT2 Response, OUT PSEARCH Search ) /*++ Routine Description: This routine does the looping necessary to get files and put them into an SMB buffer for the Find First2 and Find Next2 transaction protocols. Arguments: WorkContext - IsFirstCall - TRUE if this is a Find First and this is the first call to SrvQueryDirectoryFile. ResumeFileIndex - if non-NULL, a pointer to the file index to resume from. Flags - the Flags field of the request SMB. InformationLevel - the InformationLevel field of the request SMB. The validity of this value should be verified by the calling routine. Transaction - a pointer to the transaction block to use. DirectoryInformation - a pointer to the SRV_DIRECTORY_INFORMATION structure to use. BufferSize - size of the DirectoryInformation buffer. SearchAttributes - the SMB-style attributes to pass to SrvQueryDirectoryFile. FileName - if non-NULL the file name to resume the search from. MaxCount - the maximum number of files to get. Response - a pointer to the response field of the SMB. If this is a Find First2, it is a pointer to the SearchCount field of the response SMB--Find First2 and Find Next2 response formats are identical from this point on. Search - a pointer to the search block to use. Return Value: NTSTATUS indicating results. --*/ { NTSTATUS status; PCHAR bufferLocation; BOOLEAN resumeKeysRequested; BOOLEAN allowExtraLongNames; BOOLEAN isUnicode; USHORT count = 0; PCHAR lastEntry; CLONG totalBytesWritten; OEM_STRING oemString; UNICODE_STRING unicodeString; UNICODE_STRING lastFileName; ULONG lastFileIndex = (ULONG)0xFFFFFFFF; HANDLE fileHandle; PFILE_GET_EA_INFORMATION ntGetEa; ULONG ntGetEaLength; USHORT eaErrorOffset = 0; BOOLEAN filterLongNames; BOOLEAN errorOnFileOpen; BOOLEAN findWithBackupIntent; IO_STATUS_BLOCK ioStatusBlock; OBJECT_ATTRIBUTES objectAttributes; PAGED_CODE( ); // // If the client is requesting an NT info level for search information, // do not return resume keys outside the actual file entry. Resume // keys (aka FileIndex) are part of every NT info structure. // // Also, for NT info levels we can return file names longer than 255 // bytes, because the NT info levels have name length fields that // are four bytes wide, whereas the downlevel info levels only have // one-byte name length fields. // if ( InformationLevel == SMB_FIND_FILE_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_FULL_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_OLE_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_BOTH_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_NAMES_INFO ) { resumeKeysRequested = FALSE; allowExtraLongNames = TRUE; } else { resumeKeysRequested = (BOOLEAN)((Flags & SMB_FIND_RETURN_RESUME_KEYS) != 0 ? TRUE : FALSE); allowExtraLongNames = FALSE; } // // Is this for backup intent? // if ( (Flags & SMB_FIND_WITH_BACKUP_INTENT) != 0 ) { findWithBackupIntent = TRUE; } else { findWithBackupIntent = FALSE; } // // Is this request in Unicode? // isUnicode = SMB_IS_UNICODE( WorkContext ); // // Initialize count of files found. // SmbPutUshort( &Response->SearchCount, 0 ); // // If this a request to return EAs, convert the OS/2 1.2 EA list // to NT format. This routine allocates space for the NT list // which must be deallocated before we exit. // if ( InformationLevel == SMB_INFO_QUERY_EAS_FROM_LIST ) { status = SrvOs2GeaListToNt( (PGEALIST)Transaction->InData, &ntGetEa, &ntGetEaLength, &eaErrorOffset ); if ( !NT_SUCCESS(status) ) { IF_DEBUG(ERRORS) { SrvPrint1( "SrvFind2Loop: SrvOs2GeaListToNt failed, " "status = %X\n", status ); } SmbPutUshort( &Response->SearchCount, 0 ); SmbPutUshort( &Response->EndOfSearch, 0 ); SmbPutUshort( &Response->EaErrorOffset, eaErrorOffset ); SmbPutUshort( &Response->LastNameOffset, 0 ); Transaction->DataCount = 0; return status; } } // // Determine whether long filenames (non-8.3) should be filtered out // or returned to the client. // // There is a bug in the LanMan21 that makes the redir forget that // he knows about long names. if ( ( ( Search->Flags2 & SMB_FLAGS2_KNOWS_LONG_NAMES ) != 0 ) && !IS_DOS_DIALECT( WorkContext->Connection->SmbDialect ) ) { filterLongNames = FALSE; } else { filterLongNames = TRUE; } // // If the client says he doesn't know about long names and this is // a request for any info level other than SMB_INFO_STANDARD, we // need to fail the request. // if ( filterLongNames && InformationLevel != SMB_INFO_STANDARD ) { IF_DEBUG(ERRORS) { SrvPrint0( "SrvFind2Loop: client doesn't know long names.\n" ); } SmbPutUshort( &Response->SearchCount, 0 ); SmbPutUshort( &Response->EndOfSearch, 0 ); SmbPutUshort( &Response->EaErrorOffset, 0 ); SmbPutUshort( &Response->LastNameOffset, 0 ); Transaction->DataCount = 0; return STATUS_INVALID_PARAMETER; } // // Loop calling SrvQueryDirectoryFile to get files. We do this until // one of the following conditions is met: // // 1) There are no more files to return. // 2) We have obtained as many files as were requested. // 3) We have put in as much data as MaxDataCount allows. // bufferLocation = Transaction->OutData; lastEntry = bufferLocation; totalBytesWritten = 0; do { // // The ff fields have the same offsets in the three directory // information structures: // NextEntryOffset // FileIndex // CreationTime // LastAccessTime // LastWriteTime // ChangeTime // EndOfFile // AllocationSize // FileAttributes // FileNameLength // PFILE_DIRECTORY_INFORMATION fileBasic; PFILE_FULL_DIR_INFORMATION fileFull; PFILE_OLE_DIR_INFORMATION fileOle; PFILE_BOTH_DIR_INFORMATION fileBoth; ULONG ntInformationLevel; // // Make sure these asserts hold. // #if SRVDBG2 ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, NextEntryOffset ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, NextEntryOffset ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileIndex ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, FileIndex ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, CreationTime ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, CreationTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, LastAccessTime ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, LastAccessTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, LastWriteTime ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, LastWriteTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, ChangeTime ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, ChangeTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, EndOfFile ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, EndOfFile ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, AllocationSize ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, AllocationSize ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileAttributes ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, FileAttributes ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileNameLength ) == FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, FileNameLength ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, NextEntryOffset ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, NextEntryOffset ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileIndex ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, FileIndex ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, CreationTime ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, CreationTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, LastAccessTime ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, LastAccessTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, LastWriteTime ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, LastWriteTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, ChangeTime ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, ChangeTime ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, EndOfFile ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, EndOfFile ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, AllocationSize ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, AllocationSize ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileAttributes ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, FileAttributes ) ); ASSERT( FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileNameLength ) == FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, FileNameLength ) ); #endif // // Set the info level to be used for the NT call. If // SMB_FIND_FILE_NAMES_INFO is the info level, use // FileDirectoryInformation as it returns all the correct // information and works with SrvQueryDirectoryFile. // if ( InformationLevel == SMB_INFO_QUERY_EA_SIZE || InformationLevel == SMB_FIND_FILE_FULL_DIRECTORY_INFO ) { ntInformationLevel = FileFullDirectoryInformation; } else if ( InformationLevel == SMB_FIND_FILE_BOTH_DIRECTORY_INFO || InformationLevel == SMB_INFO_STANDARD ) { ntInformationLevel = FileBothDirectoryInformation; } else if (InformationLevel == SMB_FIND_FILE_OLE_DIRECTORY_INFO) { ntInformationLevel = FileOleDirectoryInformation; } else { // // SMB_INFO_QUERY_EAS_FROM_LIST // SMB_FIND_NAMES_INFO // SMB_FIND_FILE_DIRECTORY_INFO // ntInformationLevel = FileDirectoryInformation; } // // Call SrvQueryDirectoryFile to get a file. // status = SrvQueryDirectoryFile( WorkContext, IsFirstCall, filterLongNames, findWithBackupIntent, ntInformationLevel, Search->SearchStorageType, FileName, ResumeFileIndex, SearchAttributes, DirectoryInformation, BufferSize // !!! optimizations? ); // // If the client requested EA information, open the file. // // If the found file is '.' (current directory) or '..' (parent // directory) do not open the file. This is because we do not want // to perform any operations on these files at this point (don't // return EA size, etc.). // fileBasic = DirectoryInformation->CurrentEntry; fileBoth = (PFILE_BOTH_DIR_INFORMATION)DirectoryInformation->CurrentEntry; fileFull = (PFILE_FULL_DIR_INFORMATION)DirectoryInformation->CurrentEntry; fileOle = (PFILE_OLE_DIR_INFORMATION)DirectoryInformation->CurrentEntry; errorOnFileOpen = FALSE; if ( NT_SUCCESS( status ) && InformationLevel == SMB_INFO_QUERY_EAS_FROM_LIST && !( ( fileBasic->FileNameLength == sizeof(WCHAR) && fileBasic->FileName[0] == '.' ) || ( fileBasic->FileNameLength == 2*sizeof(WCHAR) && fileBasic->FileName[0] == '.' && fileBasic->FileName[1] == '.' ) ) ) { UNICODE_STRING fileName; // // Set up local variables for the filename to open. // fileName.Length = (SHORT)fileBasic->FileNameLength; fileName.MaximumLength = fileName.Length; fileName.Buffer = (PWCH)fileBasic->FileName; // // Set up the object attributes structure for SrvIoCreateFile. // SrvInitializeObjectAttributes_U( &objectAttributes, &fileName, (WorkContext->RequestHeader->Flags & SMB_FLAGS_CASE_INSENSITIVE || WorkContext->Session->UsingUppercasePaths) ? OBJ_CASE_INSENSITIVE : 0L, DirectoryInformation->DirectoryHandle, NULL ); IF_DEBUG(SEARCH) { SrvPrint1( "SrvQueryDirectoryFile: Opening file %wZ\n", &fileName ); } // // Attempt to open the file, using the client's security // profile to check access. (We call SrvIoCreateFile, rather than // NtOpenFile, in order to get user-mode access checking.) // INCREMENT_DEBUG_STAT( SrvDbgStatistics.TotalOpenAttempts ); INCREMENT_DEBUG_STAT( SrvDbgStatistics.TotalOpensForPathOperations ); status = SrvIoCreateFile( WorkContext, &fileHandle, FILE_READ_EA, &objectAttributes, &ioStatusBlock, NULL, // AllocationSize 0, // FileAttributes FILE_SHARE_READ | FILE_SHARE_WRITE, FILE_OPEN, // Disposition 0, // FILE_COMPLETE_IF_OPLOCKED, // CreateOptions NULL, // EaBuffer 0, // EaLength CreateFileTypeNone, // File type NULL, // ExtraCreateParameters IO_FORCE_ACCESS_CHECK, // Options NULL ); if ( NT_SUCCESS(status) ) { SRVDBG_CLAIM_HANDLE( fileHandle, "FIL", 29, Search ); } // // If the user didn't have this permission, update the statistics // database. // if ( status == STATUS_ACCESS_DENIED ) { SrvStatistics.AccessPermissionErrors++; } // // If the file is oplocked, wait for the oplock to break // synchronously. // #if 1 ASSERT( status != STATUS_OPLOCK_BREAK_IN_PROGRESS ); #else if ( status == STATUS_OPLOCK_BREAK_IN_PROGRESS ) { status = SrvWaitForOplockBreak( WorkContext, fileHandle ); if ( !NT_SUCCESS(status) ) { SRVDBG_RELEASE_HANDLE( fileHandle, "FIL", 45, Search ); SrvNtClose( fileHandle, TRUE ); } } #endif if ( !NT_SUCCESS(status) ) { errorOnFileOpen = TRUE; fileHandle = NULL; IF_DEBUG(ERRORS) { SrvPrint2( "Find2Loop: SrvIoCreateFile for file %wZ " "failed: %X\n", &fileName, status ); } } else { SrvStatistics.TotalFilesOpened++; } } else { fileHandle = NULL; } // // If SrvQueryDirectoryFile returns an error, break out of the // loop. If the error occurred in opening the file for one of // the higher info levels, then we want to return the files we // have obtained so far. // // If the error occurred on the file open *and* we haven't // returned any files yet, then we want to return this file // along with the code ERROR_EA_ACCESS_DENIED. // if ( !NT_SUCCESS(status) ) { if ( count == 0 && errorOnFileOpen ) { IF_DEBUG(ERRORS) { SrvPrint1( "EA access denied on first file of search.\n", status ); } fileHandle = NULL; status = STATUS_OS2_EA_ACCESS_DENIED; break; } else if ( status == STATUS_NO_MORE_FILES && count == 0 ) { SmbPutUshort( &Response->SearchCount, 0 ); SmbPutUshort( &Response->EndOfSearch, 0 ); SmbPutUshort( &Response->EaErrorOffset, 0 ); SmbPutUshort( &Response->LastNameOffset, 0 ); Transaction->DataCount = 0; return status; } else { break; } } // // Since it is no longer the first call to SrvQueryDirectoryFile, // reset the isFirstCall local variable. If necessary, we already // rewound the search, so set the ResumeFileIndex to NULL. // IsFirstCall = FALSE; ResumeFileIndex = NULL; IF_SMB_DEBUG(SEARCH2) { UNICODE_STRING nameString; switch (ntInformationLevel) { case FileFullDirectoryInformation: nameString.Buffer = fileFull->FileName; nameString.Length = (USHORT)fileFull->FileNameLength; break; case FileOleDirectoryInformation: nameString.Buffer = fileOle->FileName; nameString.Length = (USHORT)fileOle->FileNameLength; break; case FileBothDirectoryInformation: nameString.Buffer = fileBoth->FileName; nameString.Length = (USHORT)fileBoth->FileNameLength; break; default: nameString.Buffer = fileBasic->FileName; nameString.Length = (USHORT)fileBasic->FileNameLength; break; } SrvPrint4( "SrvQueryDirectoryFile(%ld)-- %wZ, length=%ld, " "status=%X\n", count, &nameString, nameString.Length, status ); } // // Downlevel info levels have no provision for file names longer // than 8 bits, while the NT info levels return 32 bits. If the // file name is too long, skip it. // if ( !allowExtraLongNames ) { if ( isUnicode ) { if ( fileBasic->FileNameLength > 255 ) { continue; } } else { if ( fileBasic->FileNameLength > 255*sizeof(WCHAR) ) { continue; } } } // // If the client has requested that resume keys (really file // indices for the purposes of this protocol), put in the // four bytes just before the actual file information. // // Make sure that we don't write beyond the buffer when we do // this. The fact that the buffer is full will be caught later. // if ( resumeKeysRequested && ( (CLONG)( (bufferLocation+4) - Transaction->OutData ) < Transaction->MaxDataCount ) ) { SmbPutUlong( (PSMB_ULONG)bufferLocation, fileBasic->FileIndex ); bufferLocation += 4; } // // Convert the information from NT style to the SMB protocol format, // which is identical to the OS/2 1.2 semantics. Use an if // statement rather than a switch so that a break will cause // termination of the do loop. // if ( InformationLevel == SMB_INFO_STANDARD ) { PSMB_FIND_BUFFER findBuffer = (PSMB_FIND_BUFFER)bufferLocation; ULONG fileNameLength; UNICODE_STRING fileName; // // Find the file name. If a short name is present, and the // redirector ask for short names only, use it. Otherwise // use the full file name. // if ( filterLongNames && fileBoth->ShortNameLength != 0 ) { fileName.Buffer = fileBoth->ShortName; fileName.Length = fileBoth->ShortNameLength; fileName.MaximumLength = fileBoth->ShortNameLength; } else { fileName.Buffer = fileBoth->FileName; fileName.Length = (USHORT)fileBoth->FileNameLength; fileName.MaximumLength = (USHORT)fileBoth->FileNameLength; } // // Find the new buffer location. This is not used until the // next pass through the loop, but we do it here in order to // check if there is enough space for the current file entry in // the buffer. The +1 is for the zero terminator on the file // name. // if ( isUnicode ) { bufferLocation = ALIGN_SMB_WSTR( findBuffer->FileName ); bufferLocation += fileName.Length + sizeof(WCHAR); } else { unicodeString.Buffer = fileName.Buffer; unicodeString.Length = fileName.Length; unicodeString.MaximumLength = unicodeString.Length; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); bufferLocation = (PCHAR)(findBuffer->FileName + fileNameLength); } // // Make sure that there is enough space in the buffer before // writing the filename. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Put information about the file into the SMB buffer. // ConvertFileInfo( fileBasic, fileName.Buffer, (BOOLEAN)((fileBoth->FileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0), isUnicode, findBuffer ); // // Put the file name in the buffer, in Unicode or ANSI // depending what was negotiated. // if ( isUnicode ) { PWCH buffer = ALIGN_SMB_WSTR( findBuffer->FileName ); // // We need to upper case the name if the client does // not understand long names. This is done for compatibility // reasons (FAT upper cases names). // if ( filterLongNames ) { (VOID)RtlUpcaseUnicodeString( &fileName, &fileName, FALSE ); } RtlCopyMemory( buffer, fileName.Buffer, fileName.Length ); ASSERT(fileName.Length <= 255); findBuffer->FileNameLength = (UCHAR)fileName.Length; } else { oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PCHAR)findBuffer->FileName; // // We need to upper case the name if the client does // not understand long names. This is done for compatibility // reasons (FAT upper cases names). // if ( filterLongNames ) { status = RtlUpcaseUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); } else { status = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); } ASSERT( NT_SUCCESS(status) ); ASSERT(oemString.Length <= 255); findBuffer->FileNameLength = (UCHAR)oemString.Length; } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileName.Buffer; lastFileName.Length = (USHORT)fileName.Length; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileBoth->FileIndex; } else if ( InformationLevel == SMB_INFO_QUERY_EA_SIZE ) { PSMB_FIND_BUFFER2 findBuffer = (PSMB_FIND_BUFFER2)bufferLocation; ULONG fileNameLength; // // Find the new buffer location. This is not used until the // next pass through the loop, but we do it here in order to // check if there is enough space for the current file entry in // the buffer. The +1 is for the zero terminator on the file // name. // if ( isUnicode ) { bufferLocation = (PCHAR)(findBuffer->FileName + fileFull->FileNameLength + 1); } else { unicodeString.Buffer = fileFull->FileName; unicodeString.Length = (USHORT)fileFull->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); bufferLocation = (PCHAR)(findBuffer->FileName + fileNameLength); } // // Make sure that there is enough space in the buffer before // writing the filename. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Put information about the file into the SMB buffer. // ConvertFileInfo( fileBasic, fileFull->FileName, (BOOLEAN)((fileFull->FileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0), isUnicode, (PSMB_FIND_BUFFER)findBuffer ); if ( isUnicode ) { RtlCopyMemory( findBuffer->FileName, fileFull->FileName, fileFull->FileNameLength ); ASSERT(fileFull->FileNameLength <= 255); findBuffer->FileNameLength = (UCHAR)fileFull->FileNameLength; } else { oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PCHAR)(findBuffer->FileName); status = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(status) ); ASSERT(oemString.Length <= 255); findBuffer->FileNameLength = (UCHAR)oemString.Length; } if ( fileFull->EaSize == 0) { SmbPutUlong( &findBuffer->EaSize, 4 ); } else { SmbPutUlong( &findBuffer->EaSize, fileFull->EaSize ); } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileFull->FileName; lastFileName.Length = (USHORT)fileFull->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileFull->FileIndex; } else if ( InformationLevel == SMB_INFO_QUERY_EAS_FROM_LIST ) { PSMB_FIND_BUFFER2 findBuffer = (PSMB_FIND_BUFFER2)bufferLocation; PFEALIST feaList; PCHAR fileNameInfo; ULONG fileNameLength; // // Find the new buffer location. This is not used until the // next pass through the loop, but we do it here in order to // check if there is enough space for the current file entry // in the buffer. The +1 is for the zero terminator on the // file name. A check is made later on to see if the EAs // actually fit, and the bufferLocation variable is reset to // account for the actual size of the EA. // if ( isUnicode ) { bufferLocation = (PCHAR)(findBuffer->FileName + fileBasic->FileNameLength + 1); } else { unicodeString.Buffer = fileBasic->FileName; unicodeString.Length = (USHORT)fileBasic->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); bufferLocation = (PCHAR)(findBuffer->FileName + fileNameLength + 1); } // // Make sure that there is enough space in the buffer before // writing the filename. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; SRVDBG_RELEASE_HANDLE( fileHandle, "FIL", 46, Search ); SrvNtClose( fileHandle, TRUE ); fileHandle = NULL; bufferLocation = (PCHAR)findBuffer; break; } // // Put information about the file into the SMB buffer. // ConvertFileInfo( fileBasic, fileBasic->FileName, (BOOLEAN)((fileBasic->FileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0), isUnicode, (PSMB_FIND_BUFFER)findBuffer ); // // Get the EAs corresponding to the GEA list passed by the // client. // feaList = (PFEALIST)&findBuffer->EaSize; if ( ( fileHandle != NULL ) || ( ( fileBasic->FileNameLength == sizeof(WCHAR) && fileBasic->FileName[0] == '.' ) || ( fileBasic->FileNameLength == 2*sizeof(WCHAR) && fileBasic->FileName[0] == '.' && fileBasic->FileName[1] == '.' ) ) ) { if ( fileHandle != NULL ) { // // Get the file's EAs. The buffer space available is // the space remaining in the buffer less enough space // to write the file name, name length, and zero // terminator. // status = SrvQueryOs2FeaList( fileHandle, NULL, ntGetEa, ntGetEaLength, feaList, (Transaction->MaxDataCount - ( (PCHAR)feaList - Transaction->OutData ) - fileBasic->FileNameLength - 2), &eaErrorOffset ); SRVDBG_RELEASE_HANDLE( fileHandle, "FIL", 47, Search ); SrvNtClose( fileHandle, TRUE ); } else { // // if file is either . or .. // status = SrvConstructNullOs2FeaList( ntGetEa, feaList, (Transaction->MaxDataCount - ( (PCHAR)feaList - Transaction->OutData ) - fileBasic->FileNameLength - 2) ); } if ( !NT_SUCCESS(status) && status != STATUS_BUFFER_OVERFLOW ) { IF_DEBUG(ERRORS) { SrvPrint1( "SrvQueryOs2FeaList failed, status = %X\n", status ); } // // If this is the first file, return it anyway with // an error code. // if ( status == STATUS_INVALID_EA_NAME ) { SmbPutUshort( &Response->SearchCount, 0 ); SmbPutUshort( &Response->EndOfSearch, 0 ); SmbPutUshort( &Response->EaErrorOffset, eaErrorOffset ); SmbPutUshort( &Response->LastNameOffset, 0 ); Transaction->DataCount = 0; return status; } if ( count == 0 ) { status = STATUS_OS2_EA_ACCESS_DENIED; SmbPutUlong( &findBuffer->EaSize, 0 ); } else { break; } } // // We already checked to see if the information other // than EAs would fit in the buffer. If the EAs didn't // fit as well, and this is the first file, then return // information on this file but no EAs. Return // STATUS_OS2_EAS_DIDNT_FIT. The EA size of the file // should be in the EaSize field of the output buffer, // put there by SrvQueryOs2FeaList. // // Also do this if we couldn't get at the file's EAs. // if ( count == 0 && ( status == STATUS_BUFFER_OVERFLOW || status == STATUS_OS2_EA_ACCESS_DENIED ) ) { IF_DEBUG(ERRORS) { SrvPrint0( "First file's EAs would not fit.\n" ); } count = 1; // // Write the file name information (length and name). // if ( isUnicode ) { RtlCopyMemory( (PVOID) (&findBuffer->FileNameLength + 1), fileBasic->FileName, fileBasic->FileNameLength ); findBuffer->FileNameLength = (UCHAR)fileBasic->FileNameLength; bufferLocation = (PCHAR) (findBuffer->FileName + fileBasic->FileNameLength + 1); } else { NTSTATUS rtlStatus; oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PUCHAR)(&findBuffer->FileNameLength + 1); rtlStatus = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(rtlStatus) ); findBuffer->FileNameLength = (UCHAR)oemString.Length; bufferLocation = (PCHAR) (findBuffer->FileName + oemString.Length + 1); } lastEntry = (PCHAR)findBuffer; lastFileName.Buffer = fileBasic->FileName; lastFileName.Length = (USHORT)fileBasic->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileBasic->FileIndex; if ( status == STATUS_BUFFER_OVERFLOW ) { status = STATUS_OS2_EAS_DIDNT_FIT; } break; } } else { SmbPutUlong( &feaList->cbList, sizeof(feaList->cbList) ); } // // Make sure that there is enough buffer space to write the // file name and name size. The +2 is to account for the // file name size field and the zero terminator. // fileNameInfo = (PCHAR)feaList->list + SmbGetUlong( &feaList->cbList ) - sizeof(feaList->cbList); if ( isUnicode ) { bufferLocation = fileNameInfo + fileBasic->FileNameLength + 2; } else { bufferLocation = fileNameInfo + fileNameLength + 1; } if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Write the file name information (length and name). // if ( isUnicode ) { RtlCopyMemory( fileNameInfo + 1, fileBasic->FileName, fileBasic->FileNameLength ); } else { NTSTATUS rtlStatus; oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = fileNameInfo + 1; rtlStatus = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(rtlStatus) ); } *fileNameInfo++ = (UCHAR)oemString.Length; IF_SMB_DEBUG(SEARCH2) { SrvPrint1( "EA size is %ld\n", SmbGetUlong( &feaList->cbList ) ); } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileBasic->FileName; lastFileName.Length = (USHORT)fileBasic->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileBasic->FileIndex; } else if ( InformationLevel == SMB_FIND_FILE_DIRECTORY_INFO ) { FILE_DIRECTORY_INFORMATION UNALIGNED *findBuffer = (PVOID)bufferLocation; ULONG fileNameLength; // // If the client is not speaking Unicode, we need to convert // the file name to ANSI. // if ( isUnicode ) { fileNameLength = fileBasic->FileNameLength; } else { unicodeString.Length = (USHORT)fileBasic->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; unicodeString.Buffer = fileBasic->FileName; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); } // // Find the new buffer location. It won't be used until the // next pass through the loop, but we need to make sure that // this entry will fit. // bufferLocation = bufferLocation + FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileName ) + fileNameLength; bufferLocation = (PCHAR)(((ULONG)bufferLocation + 7) & ~7); // // Check whether this entry will fit in the output buffer. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Copy over the information about the entry. // RtlCopyMemory( findBuffer, fileBasic, FIELD_OFFSET( FILE_DIRECTORY_INFORMATION, FileName ) ); findBuffer->NextEntryOffset = (ULONG)bufferLocation - (ULONG)findBuffer; findBuffer->FileNameLength = fileNameLength; if ( isUnicode ) { RtlCopyMemory( findBuffer->FileName, fileBasic->FileName, fileBasic->FileNameLength ); } else { oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PSZ)findBuffer->FileName; status = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(status) ); } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileBasic->FileName; lastFileName.Length = (USHORT)fileBasic->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileBasic->FileIndex; } else if ( InformationLevel == SMB_FIND_FILE_FULL_DIRECTORY_INFO ) { FILE_FULL_DIR_INFORMATION UNALIGNED *findBuffer = (PVOID)bufferLocation; ULONG fileNameLength; // // If the client is not speaking Unicode, we need to convert // the file name to ANSI. // if ( isUnicode ) { fileNameLength = fileFull->FileNameLength; } else { unicodeString.Length = (USHORT)fileFull->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; unicodeString.Buffer = fileFull->FileName; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); } // // Find the new buffer location. It won't be used until the // next pass through the loop, but we need to make sure that // this entry will fit. // bufferLocation = bufferLocation + FIELD_OFFSET(FILE_FULL_DIR_INFORMATION, FileName)+ fileNameLength; bufferLocation = (PCHAR)(((ULONG)bufferLocation + 7) & ~7); // // Check whether this entry will fit in the output buffer. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Copy over the information about the entry. // RtlCopyMemory( findBuffer, fileFull, FIELD_OFFSET( FILE_FULL_DIR_INFORMATION, FileName ) ); findBuffer->NextEntryOffset = (ULONG)bufferLocation - (ULONG)findBuffer; findBuffer->FileNameLength = fileNameLength; if ( isUnicode ) { RtlCopyMemory( findBuffer->FileName, fileFull->FileName, fileFull->FileNameLength ); } else { oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PSZ)findBuffer->FileName; status = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(status) ); } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileFull->FileName; lastFileName.Length = (USHORT)fileFull->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileFull->FileIndex; } else if ( InformationLevel == SMB_FIND_FILE_OLE_DIRECTORY_INFO ) { FILE_OLE_DIR_INFORMATION UNALIGNED *findBuffer = (PVOID)bufferLocation; ULONG fileNameLength; // // If the client is not speaking Unicode, we need to convert // the file name to ANSI. // if ( isUnicode ) { fileNameLength = fileOle->FileNameLength; } else { unicodeString.Length = (USHORT)fileOle->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; unicodeString.Buffer = fileOle->FileName; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); } // // Find the new buffer location. It won't be used until the // next pass through the loop, but we need to make sure that // this entry will fit. // bufferLocation = bufferLocation + FIELD_OFFSET(FILE_OLE_DIR_INFORMATION,FileName) + fileNameLength; bufferLocation = (PCHAR)(((ULONG)bufferLocation + 7) & ~7); // // Check whether this entry will fit in the output buffer. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Copy over the information about the entry. // RtlCopyMemory( findBuffer, fileOle, FIELD_OFFSET( FILE_OLE_DIR_INFORMATION, FileName ) ); findBuffer->NextEntryOffset = (ULONG)bufferLocation - (ULONG)findBuffer; findBuffer->FileNameLength = fileNameLength; if ( isUnicode ) { RtlCopyMemory( findBuffer->FileName, fileOle->FileName, fileOle->FileNameLength ); } else { oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PSZ)findBuffer->FileName; status = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(status) ); } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileOle->FileName; lastFileName.Length = (USHORT)fileOle->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileOle->FileIndex; } else if ( InformationLevel == SMB_FIND_FILE_BOTH_DIRECTORY_INFO ) { FILE_BOTH_DIR_INFORMATION UNALIGNED *findBuffer = (PVOID)bufferLocation; ULONG fileNameLength; // // If the client is not speaking Unicode, we need to convert // the file name to ANSI. // if ( isUnicode ) { fileNameLength = fileBoth->FileNameLength; } else { unicodeString.Length = (USHORT)fileBoth->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; unicodeString.Buffer = fileBoth->FileName; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); } // // Find the new buffer location. It won't be used until the // next pass through the loop, but we need to make sure that // this entry will fit. // bufferLocation = bufferLocation + FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION,FileName)+ fileNameLength; bufferLocation = (PCHAR)(((ULONG)bufferLocation + 7) & ~7); // // Check whether this entry will fit in the output buffer. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Copy over the information about the entry. // RtlCopyMemory( findBuffer, fileBoth, FIELD_OFFSET( FILE_BOTH_DIR_INFORMATION, FileName ) ); findBuffer->NextEntryOffset = (ULONG)bufferLocation - (ULONG)findBuffer; findBuffer->FileNameLength = fileNameLength; if ( isUnicode ) { RtlCopyMemory( findBuffer->FileName, fileBoth->FileName, fileBoth->FileNameLength ); } else { oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PSZ)findBuffer->FileName; status = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(status) ); } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileBoth->FileName; lastFileName.Length = (USHORT)fileBoth->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileBoth->FileIndex; } else if ( InformationLevel == SMB_FIND_FILE_NAMES_INFO ) { PFILE_NAMES_INFORMATION findBuffer = (PVOID)bufferLocation; ULONG fileNameLength; // // If the client is not speaking Unicode, we need to convert // the file name to ANSI. // if ( isUnicode ) { fileNameLength = fileBasic->FileNameLength; } else { unicodeString.Length = (USHORT)fileBasic->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; unicodeString.Buffer = fileBasic->FileName; fileNameLength = RtlUnicodeStringToOemSize( &unicodeString ); } // // Find the new buffer location. It won't be used until the // next pass through the loop, but we need to make sure that // this entry will fit. // bufferLocation = bufferLocation + FIELD_OFFSET(FILE_NAMES_INFORMATION,FileName) + fileNameLength; bufferLocation = (PCHAR)(((ULONG)bufferLocation + 7) & ~7); // // Check whether this entry will fit in the output buffer. // if ( (CLONG)(bufferLocation - Transaction->OutData) > Transaction->MaxDataCount ) { status = STATUS_BUFFER_OVERFLOW; bufferLocation = (PCHAR)findBuffer; break; } // // Copy over the information about the entry. // findBuffer->FileIndex = fileBasic->FileIndex; findBuffer->NextEntryOffset = (ULONG)bufferLocation - (ULONG)findBuffer; findBuffer->FileNameLength = fileNameLength; if ( isUnicode ) { RtlCopyMemory( findBuffer->FileName, fileBasic->FileName, fileBasic->FileNameLength ); } else { oemString.MaximumLength = (USHORT)fileNameLength; oemString.Buffer = (PSZ)findBuffer->FileName; status = RtlUnicodeStringToOemString( &oemString, &unicodeString, FALSE ); ASSERT( NT_SUCCESS(status) ); } // // The lastEntry variable holds a pointer to the last file entry // that we wrote--an offset to this entry must be returned // in the response SMB. // lastEntry = (PCHAR)findBuffer; // // The file name and index of the last file returned must be // stored in the search block. Save the name pointer, length, // and file index here. // lastFileName.Buffer = fileBasic->FileName; lastFileName.Length = (USHORT)fileBasic->FileNameLength; lastFileName.MaximumLength = lastFileName.Length; lastFileIndex = fileBasic->FileIndex; } count++; if ( status == STATUS_OS2_EA_ACCESS_DENIED ) { break; } } while ( count < MaxCount ); IF_SMB_DEBUG(SEARCH2) { SrvPrint0( "Stopped putting entries in buffer. Reason:\n" ); if ( !NT_SUCCESS(status) && status != STATUS_BUFFER_OVERFLOW ) { SrvPrint1( " status = %X\n", status ); } else if ( count >= MaxCount ) { SrvPrint2( " count = %ld, maxCount = %ld\n", count, MaxCount ); } else { SrvPrint3( " buffer location = 0x%lx, trans->OD = 0x%lx, " "trans->MaxOD = 0x%lx\n", bufferLocation, Transaction->OutData, Transaction->MaxDataCount ); } } // // Deallocate the pool used for the NT get EA list if this was the // right information level. // if ( InformationLevel == SMB_INFO_QUERY_EAS_FROM_LIST ) { DEALLOCATE_NONPAGED_POOL( ntGetEa ); } // // If we have not found any files and an error occurred, or the first // file file we found had EAs to large to fit in the buffer, then return // the error to the client. If an error occurred and we have found // files, return what we have found. // if ( count == 0 && !NT_SUCCESS(status) ) { IF_DEBUG(ERRORS) { SrvPrint1( "Find2 processing error; status = %X\n", status ); } SrvSetSmbError( WorkContext, status ); return status; } else if ( count == 1 && ( status == STATUS_OS2_EAS_DIDNT_FIT || status == STATUS_OS2_EA_ACCESS_DENIED ) ) { PVOID temp; temp = WorkContext->ResponseParameters; SrvSetSmbError( WorkContext, status ); WorkContext->ResponseParameters = temp; status = STATUS_SUCCESS; } else if ( !NT_SUCCESS(status) && status != STATUS_NO_MORE_FILES ) { status = STATUS_SUCCESS; } // // If this is a level for the SMB 4.0 protocol (NT), set the // NextEntryOffset field of the last entry to zero. // if ( InformationLevel == SMB_FIND_FILE_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_FULL_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_OLE_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_BOTH_DIRECTORY_INFO || InformationLevel == SMB_FIND_FILE_NAMES_INFO ) { ((PFILE_DIRECTORY_INFORMATION)lastEntry)->NextEntryOffset = 0; } // // At the end of the loop, bufferLocation points to the first location // AFTER the last entry we wrote, so it may be used to find the total // number of data bytes that we intend to return. // totalBytesWritten = bufferLocation - Transaction->OutData; // // Free the buffer that holds the last file name if it was in use, // then allocate a new one and store the name and index of the last // file returned in the search block so that it can resume the search // if the client requests. // if ( Search->LastFileNameReturned.Buffer != NULL ) { FREE_HEAP( Search->LastFileNameReturned.Buffer ); } Search->LastFileNameReturned.Buffer = ALLOCATE_HEAP( lastFileName.Length, BlockTypeDataBuffer ); if ( Search->LastFileNameReturned.Buffer == NULL ) { INTERNAL_ERROR( ERROR_LEVEL_EXPECTED, "SrvFind2Loop: unable to allocate %d bytes from heap.", lastFileName.Length, NULL ); return STATUS_INSUFF_SERVER_RESOURCES; } Search->LastFileNameReturned.Length = lastFileName.Length; Search->LastFileNameReturned.MaximumLength = lastFileName.Length; RtlCopyMemory( Search->LastFileNameReturned.Buffer, lastFileName.Buffer, lastFileName.Length ); Search->LastFileIndexReturned = lastFileIndex; // // Put data in the response SMB. // SmbPutUshort( &Response->SearchCount, count ); SmbPutUshort( &Response->EndOfSearch, (USHORT)(status == STATUS_NO_MORE_FILES) ); SmbPutUshort( &Response->EaErrorOffset, eaErrorOffset ); SmbPutUshort( &Response->LastNameOffset, (USHORT)(lastEntry - Transaction->OutData) ); Transaction->DataCount = totalBytesWritten; return status; } // SrvFind2Loop VOID ConvertFileInfo ( IN PFILE_DIRECTORY_INFORMATION File, IN PWCH FileName, IN BOOLEAN Directory, IN BOOLEAN ClientIsUnicode, OUT PSMB_FIND_BUFFER FindBuffer ) /*++ Routine Description: This routine does the looping necessary to get files and put them into an SMB buffer for the Find First2 and Find Next2 transaction protocols. Arguments: File - a pointer to the structure containing the information about the file. FileName - name of the file. Directory - a boolean indicating whether it is a file or directory. The existence of this field allows File to point to a FILE_FULL_DIR_INFORMATION structure if necessary. FileBuffer - where to write the results in OS/2 format. Return Value: None --*/ { SMB_DATE smbDate; SMB_TIME smbTime; USHORT smbFileAttributes; UNICODE_STRING unicodeString; PAGED_CODE( ); // // Convert the various times from NT format to SMB format. // SrvTimeToDosTime( &File->CreationTime, &smbDate, &smbTime ); SmbPutDate( &FindBuffer->CreationDate, smbDate ); SmbPutTime( &FindBuffer->CreationTime, smbTime ); SrvTimeToDosTime( &File->LastAccessTime, &smbDate, &smbTime ); SmbPutDate( &FindBuffer->LastAccessDate, smbDate ); SmbPutTime( &FindBuffer->LastAccessTime, smbTime ); SrvTimeToDosTime( &File->LastWriteTime, &smbDate, &smbTime ); SmbPutDate( &FindBuffer->LastWriteDate, smbDate ); SmbPutTime( &FindBuffer->LastWriteTime, smbTime ); // // SMB protocol only allows 32-bit file sizes. Only return the low // 32 bits, and too bad if the file is larger. // SmbPutUlong( &FindBuffer->DataSize, File->EndOfFile.LowPart ); SmbPutUlong( &FindBuffer->AllocationSize, File->AllocationSize.LowPart ); SRV_NT_ATTRIBUTES_TO_SMB( File->FileAttributes, Directory, &smbFileAttributes ); SmbPutUshort( &FindBuffer->Attributes, smbFileAttributes ); if ( ClientIsUnicode ) { FindBuffer->FileNameLength = (UCHAR)(File->FileNameLength); } else { unicodeString.Buffer = FileName; unicodeString.Length = (USHORT)File->FileNameLength; unicodeString.MaximumLength = unicodeString.Length; FindBuffer->FileNameLength = (UCHAR)RtlUnicodeStringToOemSize( &unicodeString ); } return; } // ConvertFileInfo SMB_PROCESSOR_RETURN_TYPE SrvSmbFindClose2 ( SMB_PROCESSOR_PARAMETERS ) /*++ Routine Description: This routine processes the Find Close2 SMB. This SMB is used to close a search started by a Find First2 transaction. Arguments: SMB_PROCESSOR_PARAMETERS - See smbtypes.h for a description of the parameters to SMB processor routines. Return Value: SMB_PROCESSOR_RETURN_TYPE - See smbtypes.h --*/ { PSEARCH search; PSESSION session; SRV_DIRECTORY_INFORMATION directoryInformation; USHORT sid; PREQ_FIND_CLOSE2 request; PRESP_FIND_CLOSE2 response; PAGED_CODE( ); IF_SMB_DEBUG(SEARCH1) { SrvPrint2( "Find Close2 request header at 0x%lx, " "response header at 0x%lx\n", WorkContext->RequestHeader, WorkContext->ResponseHeader ); SrvPrint2( "Find Close2 request params at 0x%lx, response params%lx\n", WorkContext->RequestParameters, WorkContext->ResponseParameters ); } request = (PREQ_FIND_CLOSE2)WorkContext->RequestParameters; response = (PRESP_FIND_CLOSE2)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( "SrvSmbSearch: Invalid UID: 0x%lx\n", SmbGetAlignedUshort( &WorkContext->RequestHeader->Uid ) ); } SrvSetSmbError( WorkContext, STATUS_SMB_BAD_UID ); return SmbStatusSendResponse; } // // Get the search block corresponding to this SID. SrvVerifySid // references the search block. // sid = SmbGetUshort( &request->Sid ); search = SrvVerifySid( WorkContext, SID_INDEX2( sid ), SID_SEQUENCE2( sid ), &directoryInformation, sizeof(SRV_DIRECTORY_INFORMATION) ); if ( search == NULL ) { IF_DEBUG(SMB_ERRORS) SrvPrint0( "SrvSmbFindClose2: Invalid SID.\n" ); SrvSetSmbError( WorkContext, STATUS_INVALID_HANDLE ); return SmbStatusSendResponse; } // // Close the query directory and the search, then dereference our // pointer to the search block. // search->DirectoryHandle = NULL; SrvCloseSearch( search ); SrvCloseQueryDirectory( &directoryInformation ); SrvDereferenceSearch( search ); // // Build the response SMB. // response->WordCount = 0; SmbPutUshort( &response->ByteCount, 0 ); WorkContext->ResponseParameters = NEXT_LOCATION( response, RESP_FIND_CLOSE2, 0 ); return SmbStatusSendResponse; } // SrvSmbFindClose2