/*++ Copyright (c) 1989 - 1999 Microsoft Corporation Module Name: cifs.h Abstract: This module defines structures and constants for the Common Internet File System commands, request and response protocol. --*/ #ifndef _CIFS_ #define _CIFS_ // // The server has 16 bits available to it in each 32-bit status code. // See \nt\sdk\inc\ntstatus.h for a description of the use of the // high 16 bits of the status. // // The layout of the bits is: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +---+-+-------------------------+-------+-----------------------+ // |Sev|C| Facility--Server | Class | Code | // +---+-+-------------------------+-------+-----------------------+ // // Class values: // 0 - a server-specific error code, not put directly on the wire. // 1 - SMB error class DOS. This includes those OS/2 errors // that share code values and meanings with the SMB protocol. // 2 - SMB error class SERVER. // 3 - SMB error class HARDWARE. // 4 - other SMB error classes // 5-E - undefined // F - an OS/2-specific error. If the client is OS/2, then the // SMB error class is set to DOS and the code is set to // the actual OS/2 error code contained in the Code field. // // The meaning of the Code field depends on the Class value. If the // class is 00, then the code value is arbitrary. For other classes, // the code is the actual code of the error in the SMB or OS/2 // protocols. // #define SRV_STATUS_FACILITY_CODE 0x00980000L #define SRV_SRV_STATUS (0xC0000000L | SRV_STATUS_FACILITY_CODE) #define SRV_DOS_STATUS (0xC0001000L | SRV_STATUS_FACILITY_CODE) #define SRV_SERVER_STATUS (0xC0002000L | SRV_STATUS_FACILITY_CODE) #define SRV_HARDWARE_STATUS (0xC0003000L | SRV_STATUS_FACILITY_CODE) #define SRV_WIN32_STATUS (0xC000E000L | SRV_STATUS_FACILITY_CODE) #define SRV_OS2_STATUS (0xC000F000L | SRV_STATUS_FACILITY_CODE) //++ // // BOOLEAN // SmbIsSrvStatus ( // IN NTSTATUS Status // ) // // Routine Description: // // Macro to determine whether a status code is one defined by the // server (has the server facility code). // // Arguments: // // Status - the status code to check. // // Return Value: // // BOOLEAN - TRUE if the facility code is the servers, FALSE // otherwise. // //-- #define SrvIsSrvStatus(Status) \ ( ((Status) & 0x1FFF0000) == SRV_STATUS_FACILITY_CODE ? TRUE : FALSE ) //++ // // UCHAR // SmbErrorClass ( // IN NTSTATUS Status // ) // // Routine Description: // // This macro extracts the error class field from a server status // code. // // Arguments: // // Status - the status code from which to get the error class. // // Return Value: // // UCHAR - the server error class of the status code. // //-- #define SrvErrorClass(Status) ((UCHAR)( ((Status) & 0x0000F000) >> 12 )) //++ // // UCHAR // SmbErrorCode ( // IN NTSTATUS Status // ) // // Routine Description: // // This macro extracts the error code field from a server status // code. // // Arguments: // // Status - the status code from which to get the error code. // // Return Value: // // UCHAR - the server error code of the status code. // //-- #define SrvErrorCode(Status) ((USHORT)( (Status) & 0xFFF) ) // // Status codes unique to the server. These error codes are used // internally only. // #define STATUS_ENDPOINT_CLOSED (SRV_SRV_STATUS | 0x01) #define STATUS_DISCONNECTED (SRV_SRV_STATUS | 0x02) #define STATUS_SERVER_ALREADY_STARTED (SRV_SRV_STATUS | 0x04) #define STATUS_SERVER_NOT_STARTED (SRV_SRV_STATUS | 0x05) #define STATUS_OPLOCK_BREAK_UNDERWAY (SRV_SRV_STATUS | 0x06) #define STATUS_NONEXISTENT_NET_NAME (SRV_SRV_STATUS | 0x08) // // Error codes that exist in both the SMB protocol and OS/2 but not NT. // Note that all SMB DOS-class error codes are defined in OS/2. // #define STATUS_OS2_INVALID_FUNCTION (SRV_DOS_STATUS | ERROR_INVALID_FUNCTION) #define STATUS_OS2_TOO_MANY_OPEN_FILES \ (SRV_DOS_STATUS | ERROR_TOO_MANY_OPEN_FILES) #define STATUS_OS2_INVALID_ACCESS (SRV_DOS_STATUS | ERROR_INVALID_ACCESS) // // SMB SERVER-class error codes that lack an NT or OS/2 equivalent. // #define STATUS_INVALID_SMB (SRV_SERVER_STATUS | SMB_ERR_ERROR) #define STATUS_SMB_BAD_NET_NAME (SRV_SERVER_STATUS | SMB_ERR_BAD_NET_NAME) #define STATUS_SMB_BAD_TID (SRV_SERVER_STATUS | SMB_ERR_BAD_TID) #define STATUS_SMB_BAD_UID (SRV_SERVER_STATUS | SMB_ERR_BAD_UID) #define STATUS_SMB_TOO_MANY_UIDS (SRV_SERVER_STATUS | SMB_ERR_TOO_MANY_UIDS) #define STATUS_SMB_USE_MPX (SRV_SERVER_STATUS | SMB_ERR_USE_MPX) #define STATUS_SMB_USE_STANDARD (SRV_SERVER_STATUS | SMB_ERR_USE_STANDARD) #define STATUS_SMB_CONTINUE_MPX (SRV_SERVER_STATUS | SMB_ERR_CONTINUE_MPX) #define STATUS_SMB_BAD_COMMAND (SRV_SERVER_STATUS | SMB_ERR_BAD_COMMAND) #define STATUS_SMB_NO_SUPPORT (SRV_SERVER_STATUS | SMB_ERR_NO_SUPPORT_INTERNAL) // *** because SMB_ERR_NO_SUPPORT uses 16 bits, but we have only 12 bits // available for error codes, it must be special-cased in the code. // // SMB HARDWARE-class error codes that lack an NT or OS/2 equivalent. // #define STATUS_SMB_DATA (SRV_HARDWARE_STATUS | SMB_ERR_DATA) // // OS/2 error codes that lack an NT or SMB equivalent. // #include #define STATUS_OS2_INVALID_LEVEL \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_INVALID_LEVEL) #define STATUS_OS2_EA_LIST_INCONSISTENT \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_EA_LIST_INCONSISTENT) #define STATUS_OS2_NEGATIVE_SEEK \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_NEGATIVE_SEEK) #define STATUS_OS2_NO_MORE_SIDS \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_NO_MORE_SEARCH_HANDLES) #define STATUS_OS2_EAS_DIDNT_FIT \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_EAS_DIDNT_FIT) #define STATUS_OS2_EA_ACCESS_DENIED \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_EA_ACCESS_DENIED) #define STATUS_OS2_CANCEL_VIOLATION \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_CANCEL_VIOLATION) #define STATUS_OS2_ATOMIC_LOCKS_NOT_SUPPORTED \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_ATOMIC_LOCKS_NOT_SUPPORTED) #define STATUS_OS2_CANNOT_COPY \ (NTSTATUS)(SRV_OS2_STATUS | ERROR_CANNOT_COPY) // // SMBDBG determines whether the get/put macros are instead defined as // function calls. (This is used to more reliablyfind char/short/long // mismatches). // #ifndef SMBDBG #define SMBDBG 0 #endif // // SMBDBG1 determines whether the names of short and long fields in SMB // structures have an extra character appended. This is used to ensure // that these fields are only accessed via the get/put macros. SMBDBG1 // must be disabled when SMBDBG is enabled. // #ifndef SMBDBG1 #define SMBDBG1 0 #endif #if SMBDBG && SMBDBG1 #undef SMBDBG1 #define SMBDBG1 0 #endif // // If __unaligned support is available, or if we're compiling for a // machine that handles unaligned accesses in hardware, then define // SMB_USE_UNALIGNED as 1 (TRUE). Otherwise, define it as 0 (FALSE). // If SMB_USE_UNALIGNED is FALSE, then the macros below use byte // accesses to build up word and longword accesses to unaligned fields. // // Currently, the machines we build for all have SMB_USE_UNALIGNED as // TRUE. x86 supports unaligned accesses in hardware, while the MIPS // compiler supports the __unaligned keyword. // // Note that if SMB_USE_UNALIGNED is predefined, we use that definition. // Also, if SMB_NO_UNALIGNED is defined as TRUE, it forces // SMB_USE_ALIGNED off. This allows us to force, for testing purposes, // use of byte accesses in the macros. // #ifndef SMB_NO_UNALIGNED #define SMB_NO_UNALIGNED 0 #endif #ifndef SMB_USE_UNALIGNED #if SMB_NO_UNALIGNED #define SMB_USE_UNALIGNED 0 #else #define SMB_USE_UNALIGNED 1 #endif #endif // // ntdef.h defines UNALIGNED as "__unaligned" or "", depending on // whether we're building for MIPS or x86, respectively. Because we // want to be able to disable use of __unaligned, we define // SMB_UNALIGNED as "UNALIGNED" or "", depending on whether // SMB_USE_UNALIGNED is TRUE or FALSE, respectively. // #if SMB_USE_UNALIGNED #define SMB_UNALIGNED UNALIGNED #else #define SMB_UNALIGNED #endif // // For ease of use, we define types for unaligned pointers to shorts // and longs in SMBs. Note that "PUSHORT UNALIGNED" doesn't work. // typedef unsigned short SMB_UNALIGNED *PSMB_USHORT; typedef unsigned long SMB_UNALIGNED *PSMB_ULONG; // // Macros for renaming short and long SMB fields. // #if SMBDBG1 #define _USHORT( field ) USHORT field ## S #define _ULONG( field ) ULONG field ## L #else #define _USHORT( field ) USHORT field #define _ULONG( field ) ULONG field #endif // // Force misalignment of the following structures // #ifndef NO_PACKING #include #endif // ndef NO_PACKING // // The SMB_DIALECT type corresponds to the different SMB dialects // that the server can speak. Associated with it is the DialectStrings[] // array that holds information about the ASCIIZ strings that are passed // in the Negotiate SMB.s // // These are listed in order from highest preference to lowest preference. // The assigned numbers correspond to the array SrvClientTypes[] in the // server module srvdata.c. // typedef enum _SMB_DIALECT { SmbDialectNtLanMan, // NT LAN Man SmbDialectLanMan21, // OS/2 Lanman 2.1 SmbDialectDosLanMan21, // DOS Lanman 2.1 SmbDialectLanMan20, // OS/2 1.2 LanMan 2.0 SmbDialectDosLanMan20, // DOS LanMan 2.0 SmbDialectLanMan10, // 1st version of full LanMan extensions SmbDialectMsNet30, // Larger subset of LanMan extensions SmbDialectMsNet103, // Limited subset of LanMan extensions SmbDialectPcLan10, // Alternate original protocol SmbDialectPcNet10, // Original protocol SmbDialectIllegal, } SMB_DIALECT, *PSMB_DIALECT; #define FIRST_DIALECT SmbDialectNtLanMan #define FIRST_DIALECT_EMULATED SmbDialectNtLanMan #define LAST_DIALECT SmbDialectIllegal #define IS_DOS_DIALECT(dialect) \ ( (BOOLEAN)( (dialect) == SmbDialectDosLanMan21 || \ (dialect) == SmbDialectDosLanMan20 || \ (dialect) > SmbDialectLanMan10 ) ) #define IS_OS2_DIALECT(dialect) ( (BOOLEAN)!IS_DOS_DIALECT(dialect) ) #define IS_NT_DIALECT(dialect) (dialect) == SmbDialectNtLanMan #define DIALECT_HONORS_UID(dialect) \ ( (BOOLEAN)(dialect <= SmbDialectDosLanMan20 ) ) // // Date and time structures that conform to MS-DOS standard used in // some SMBs. // // !!! These structures are not portable--they depend on a little-endian // machine (TwoSeconds in lowest bits, etc.) // typedef union _SMB_DATE { USHORT Ushort; struct { USHORT Day : 5; USHORT Month : 4; USHORT Year : 7; } Struct; } SMB_DATE; typedef SMB_DATE SMB_UNALIGNED *PSMB_DATE; typedef union _SMB_TIME { USHORT Ushort; struct { USHORT TwoSeconds : 5; USHORT Minutes : 6; USHORT Hours : 5; } Struct; } SMB_TIME; typedef SMB_TIME SMB_UNALIGNED *PSMB_TIME; // // The SMB_FIND_BUFFER and SMB_FIND_BUFFER2 structures are used in the // Transaction2 Find protocols to return files matching the requested // specifications. They are identical except for the EaSize field // in SMB_FIND_BUFFER2. // typedef struct _SMB_FIND_BUFFER { SMB_DATE CreationDate; SMB_TIME CreationTime; SMB_DATE LastAccessDate; SMB_TIME LastAccessTime; SMB_DATE LastWriteDate; SMB_TIME LastWriteTime; _ULONG( DataSize ); _ULONG( AllocationSize ); _USHORT( Attributes ); UCHAR FileNameLength; CHAR FileName[1]; } SMB_FIND_BUFFER; typedef SMB_FIND_BUFFER SMB_UNALIGNED *PSMB_FIND_BUFFER; typedef struct _SMB_FIND_BUFFER2 { SMB_DATE CreationDate; SMB_TIME CreationTime; SMB_DATE LastAccessDate; SMB_TIME LastAccessTime; SMB_DATE LastWriteDate; SMB_TIME LastWriteTime; _ULONG( DataSize ); _ULONG( AllocationSize ); _USHORT( Attributes ); _ULONG( EaSize ); // this field intentionally misaligned! UCHAR FileNameLength; CHAR FileName[1]; } SMB_FIND_BUFFER2; typedef SMB_FIND_BUFFER2 SMB_UNALIGNED *PSMB_FIND_BUFFER2; // // The following structures are used in OS/2 1.2 for extended attributes // (EAs). OS/2 2.0 uses the same structures as NT. See the OS/2 // Programmer's Reference, Volume 4, Chapter 4 for more information. // // The FEA structure holds a single EA's name and value and is the // equivalent ofthe NT structure FILE_FULL_EA_INFORMATION. // typedef struct _FEA { UCHAR fEA; UCHAR cbName; _USHORT( cbValue ); } FEA; typedef FEA SMB_UNALIGNED *PFEA; // // The only legal bit in fEA is FEA_NEEDEA. // #define FEA_NEEDEA 0x80 // // The FEALIST structure holds the names and values of multiple EAs // NT has no direct equivalent but rather strings together // FILE_FULL_EA_INFORMATION structures. // typedef struct _FEALIST { _ULONG( cbList ); FEA list[1]; } FEALIST; typedef FEALIST SMB_UNALIGNED *PFEALIST; // // The GEA structure holds the name of a single EA. It is used to // request the value of that EA in OS/2 API functions. The NT // equivalent is FILE_GET_EA_INFORMATION. // typedef struct _GEA { UCHAR cbName; CHAR szName[1]; } GEA; typedef GEA SMB_UNALIGNED *PGEA; // // The GEALIST structure holds the names of multiple EAs. NT has no // direct equivalent but rather strings together FILE_GET_EA_INFORMATION // structures. // typedef struct _GEALIST { _ULONG( cbList ); GEA list[1]; } GEALIST; typedef GEALIST SMB_UNALIGNED *PGEALIST; // // The EAOP structure holds EA information needed by API calls. It has // no NT equivalent. // typedef struct _EAOP { PGEALIST fpGEAList; PFEALIST fpFEAList; ULONG oError; } EAOP; typedef EAOP SMB_UNALIGNED *PEAOP; // // FSALLOCATE contains information about a disk returned by // SrvSmbQueryFsInfo. // typedef struct _FSALLOCATE { _ULONG( idFileSystem ); _ULONG( cSectorUnit ); _ULONG( cUnit ); _ULONG( cUnitAvail ); _USHORT( cbSector ); } FSALLOCATE, *PFSALLOCATE; // *** NOT SMB_UNALIGNED! // // VOLUMELABEL contains information about a volume label returned by // SrvSmbQueryFsInformation. // typedef struct _VOLUMELABEL { UCHAR cch; CHAR szVolLabel[12]; } VOLUMELABEL, *PVOLUMELABEL; // *** NOT SMB_UNALIGNED! // // FSINFO holds information about a volume returned by // SrvSmbQueryFsInformation. // typedef struct _FSINFO { _ULONG( ulVsn ); VOLUMELABEL vol; } FSINFO, *PFSINFO; // *** NOT SMB_UNALIGNED! // // File types (returned by OpenAndX and Transact2_Open) // FileTypeIPC is a private definition for the NT redirector and // is not in the smb protocol. // typedef enum _FILE_TYPE { FileTypeDisk = 0, FileTypeByteModePipe = 1, FileTypeMessageModePipe = 2, FileTypePrinter = 3, FileTypeCommDevice = 4, FileTypeIPC = 0xFFFE, FileTypeUnknown = 0xFFFF } FILE_TYPE; // // Turn structure packing back off // #ifndef NO_PACKING #include #endif // ndef NO_PACKING // // PVOID // ALIGN_SMB_WSTR( // IN PVOID Pointer // ) // // Routine description: // // This macro aligns the input pointer to the next 2-byte boundary. // Used to align Unicode strings in SMBs. // // Arguments: // // Pointer - A pointer // // Return Value: // // PVOID - Pointer aligned to next 2-byte boundary. // #define ALIGN_SMB_WSTR( Pointer ) \ (PVOID)( ((ULONG_PTR)(Pointer) + 1) & ~1 ) // // Macro to find the size of an SMB parameter block. This macro takes // as input the type of a parameter block and a byte count. It finds // the offset of the Buffer field, which appears at the end of all // parameter blocks, and adds the byte count to find the total size. // The type of the returned offset is USHORT. // // Note that this macro does NOT pad to a word or longword boundary. // #define SIZEOF_SMB_PARAMS(type,byteCount) \ (USHORT)( (ULONG_PTR)&((type *)0)->Buffer[0] + (byteCount) ) // // Macro to find the next location after an SMB parameter block. This // macro takes as input the address of the current parameter block, its // type, and a byte count. It finds the address of the Buffer field, // which appears at the end of all parameter blocks, and adds the byte // count to find the next available location. The type of the returned // pointer is PVOID. // // The byte count is passed in even though it is available through // base->ByteCount. The reason for this is that this number will be a // compile-time constant in most cases, so the resulting code will be // simpler and faster. // // !!! This macro does not round to a longword boundary when packing // is turned off. Pre-LM 2.0 DOS redirectors cannot handle having // too much data sent to them; the exact amount must be sent. // We may want to make this macro such that the first location // AFTER the returned value (WordCount field of the SMB) is aligned, // since most of the fields are misaligned USHORTs. This would // result in a minor performance win on the 386 and other CISC // machines. // #ifndef NO_PACKING #define NEXT_LOCATION(base,type,byteCount) \ (PVOID)( (ULONG_PTR)( (PUCHAR)( &((type *)(base))->Buffer[0] ) ) + \ (byteCount) ) #else #define NEXT_LOCATION(base,type,byteCount) \ (PVOID)(( (ULONG_PTR)( (PUCHAR)( &((type *)(base))->Buffer[0] ) ) + \ (byteCount) + 3) & ~3) #endif // // Macro to find the offset of a followon command to an and X command. // This offset is the number of bytes from the start of the SMB header // to where the followon command's parameters should start. // #define GET_ANDX_OFFSET(header,params,type,byteCount) \ (USHORT)( (PCHAR)(params) - (PCHAR)(header) + \ SIZEOF_SMB_PARAMS( type,(byteCount) ) ) // // The following are macros to assist in converting OS/2 1.2 EAs to // NT style and vice-versa. // //++ // // ULONG // SmbGetNtSizeOfFea ( // IN PFEA Fea // ) // // Routine Description: // // This macro gets the size that would be required to hold the FEA // in NT format. The length is padded to account for the fact that // each FILE_FULL_EA_INFORMATION structure must start on a // longword boundary. // // Arguments: // // Fea - a pointer to the OS/2 1.2 FEA structure to evaluate. // // Return Value: // // ULONG - number of bytes the FEA would require in NT format. // //-- // // The +1 is for the zero terminator on the name, the +3 is for padding. // #define SmbGetNtSizeOfFea( Fea ) \ (ULONG)(( FIELD_OFFSET(FILE_FULL_EA_INFORMATION, EaName[0]) + \ (Fea)->cbName + 1 + SmbGetUshort( &(Fea)->cbValue ) + \ 3 ) & ~3 ) //++ // // ULONG // SmbGetNtSizeOfGea ( // IN PFEA Gea // ) // // Routine Description: // // This macro gets the size that would be required to hold the GEA // in NT format. The length is padded to account for the fact that // each FILE_FULL_EA_INFORMATION structure must start on a // longword boundary. // // Arguments: // // Gea - a pointer to the OS/2 1.2 GEA structure to evaluate. // // Return Value: // // ULONG - number of bytes the GEA would require in NT format. // //-- // // The +1 is for the zero terminator on the name, the +3 is for padding. // #define SmbGetNtSizeOfGea( Gea ) \ (ULONG)(( FIELD_OFFSET(FILE_FULL_EA_INFORMATION, EaName[0]) + \ (Gea)->cbName + 1 + 3 ) & ~3 ) //++ // // ULONG // SmbGetOs2SizeOfNtFullEa ( // IN PFILE_FULL_EA_INFORMATION NtFullEa; // ) // // Routine Description: // // This macro gets the size a FILE_FULL_EA_INFORMATION structure would // require to be represented in a OS/2 1.2 style FEA. // // Arguments: // // NtFullEa - a pointer to the NT FILE_FULL_EA_INFORMATION structure // to evaluate. // // Return Value: // // ULONG - number of bytes requires for the FEA. // //-- #define SmbGetOs2SizeOfNtFullEa( NtFullEa ) \ (ULONG)( sizeof(FEA) + (NtFullEa)->EaNameLength + 1 + \ (NtFullEa)->EaValueLength ) //++ // // ULONG // SmbGetOs2SizeOfNtGetEa ( // IN PFILE_GET_EA_INFORMATION NtGetEa; // ) // // Routine Description: // // This macro gets the size a FILE_GET_EA_INFORMATION structure would // require to be represented in a OS/2 1.2 style GEA. // // Arguments: // // NtGetEa - a pointer to the NT FILE_GET_EA_INFORMATION structure // to evaluate. // // Return Value: // // ULONG - number of bytes requires for the GEA. // //-- // // The zero terminator on the name is accounted for by the szName[0] // field in the GEA definition. // #define SmbGetOs2SizeOfNtGetEa( NtGetEa ) \ (ULONG)( sizeof(GEA) + (NtGetEa)->EaNameLength ) /* Inclusion of SMB request/response structures in this file is conditionalized in the following way: If INCLUDE_SMB_ALL is defined, all of the structures are defined. Otherwise, the following names, if defined, cause inclusion of the corresponding SMB categories: INCLUDE_SMB_ADMIN Administrative requests: PROCESS_EXIT NEGOTIATE SESSION_SETUP_ANDX LOGOFF_ANDX INCLUDE_SMB_TREE Tree connect requests: TREE_CONNECT TREE_DISCONNECT TREE_CONNECT_ANDX INCLUDE_SMB_DIRECTORY Directory-related requests: CREATE_DIRECTORY DELETE_DIRECTORY CHECK_DIRECTORY INCLUDE_SMB_OPEN_CLOSE File open and close requests: OPEN CREATE CLOSE CREATE_TEMPORARY CREATE_NEW OPEN_ANDX CLOSE_AND_TREE_DISC INCLUDE_SMB_READ_WRITE Read and write requests: READ WRITE SEEK LOCK_AND_READ WRITE_AND_UNLOCK WRITE_AND_CLOSE READ_ANDX WRITE_ANDX INCLUDE_SMB_FILE_CONTROL File control requests: FLUSH DELETE RENAME COPY MOVE INCLUDE_SMB_QUERY_SET File query/set requests: QUERY_INFORMATION SET_INFORMATION QUERY_INFORMATION2 SET_INFORMATION2 QUERY_PATH_INFORMATION SET_PATH_INFORMATION QUERY_FILE_INFORMATION SET_FILE_INFORMATION INCLUDE_SMB_LOCK Lock requests (not LOCK_AND_READ) LOCK_BYTE_RANGE UNLOCK_BYTE_RANGE LOCKING_ANDX INCLUDE_SMB_RAW Raw read/write requests: READ_RAW WRITE_RAW INCLUDE_SMB_MPX Multiplexed requests: READ_MPX WRITE_MPX INCLUDE_SMB_SEARCH Search requests: FIND_CLOSE2 FIND_NOTIFY_CLOSE SEARCH FIND FIND_UNIQUE FIND_CLOSE INCLUDE_SMB_TRANSACTION Transaction and IOCTL requests: TRANSACTION IOCTL TRANSACTION2 NTTRANSACTION INCLUDE_SMB_PRINT Printer requests: OPEN_PRINT_FILE WRITE_PRINT_FILE CLOSE_PRINT_FILE GET_PRINT_QUEUE INCLUDE_SMB_MESSAGE Message requests: SEND_MESSAGE SEND_BROADCAST_MESSAGE FORWARD_USER_NAME CANCEL_FORWARD GET_MACHINE_NAME SEND_START_MB_MESSAGE SEND_END_MB_MESSAGE SEND_TEXT_MB_MESSAGE INCLUDE_SMB_MISC Miscellaneous requests: QUERY_INFORMATION_SRV ECHO QUERY_INFORMATION_DISK */ #ifdef INCLUDE_SMB_ALL #define INCLUDE_SMB_ADMIN #define INCLUDE_SMB_TREE #define INCLUDE_SMB_DIRECTORY #define INCLUDE_SMB_OPEN_CLOSE #define INCLUDE_SMB_FILE_CONTROL #define INCLUDE_SMB_READ_WRITE #define INCLUDE_SMB_LOCK #define INCLUDE_SMB_RAW #define INCLUDE_SMB_MPX #define INCLUDE_SMB_QUERY_SET #define INCLUDE_SMB_SEARCH #define INCLUDE_SMB_TRANSACTION #define INCLUDE_SMB_PRINT #define INCLUDE_SMB_MESSAGE #define INCLUDE_SMB_MISC #endif // def INCLUDE_SMB_ALL // // Force misalignment of the following structures // #ifndef NO_PACKING #include #endif // ndef NO_PACKING // // SMB servers listen on two NETBIOS addresses to facilitate connections. The // first one is a name formulated from the computer name by padding it with // a number of blanks ( upto NETBIOS_NAME_LEN ). This name is registered and // resolved using the NETBIOS name registration/resolution mechanism. They also // register under a second name *SMBSERVER which is not a valuid netbios name // but provides a name which can be used in NETBT session setup. This eliminates // the need for querying the remote adapter status to obtain the name. // #define SMBSERVER_LOCAL_ENDPOINT_NAME "*SMBSERVER " // // SMB Command code definitions: // // *** Start of SMB commands #define SMB_COM_CREATE_DIRECTORY (UCHAR)0x00 #define SMB_COM_DELETE_DIRECTORY (UCHAR)0x01 #define SMB_COM_OPEN (UCHAR)0x02 #define SMB_COM_CREATE (UCHAR)0x03 #define SMB_COM_CLOSE (UCHAR)0x04 #define SMB_COM_FLUSH (UCHAR)0x05 #define SMB_COM_DELETE (UCHAR)0x06 #define SMB_COM_RENAME (UCHAR)0x07 #define SMB_COM_QUERY_INFORMATION (UCHAR)0x08 #define SMB_COM_SET_INFORMATION (UCHAR)0x09 #define SMB_COM_READ (UCHAR)0x0A #define SMB_COM_WRITE (UCHAR)0x0B #define SMB_COM_LOCK_BYTE_RANGE (UCHAR)0x0C #define SMB_COM_UNLOCK_BYTE_RANGE (UCHAR)0x0D #define SMB_COM_CREATE_TEMPORARY (UCHAR)0x0E #define SMB_COM_CREATE_NEW (UCHAR)0x0F #define SMB_COM_CHECK_DIRECTORY (UCHAR)0x10 #define SMB_COM_PROCESS_EXIT (UCHAR)0x11 #define SMB_COM_SEEK (UCHAR)0x12 #define SMB_COM_LOCK_AND_READ (UCHAR)0x13 #define SMB_COM_WRITE_AND_UNLOCK (UCHAR)0x14 #define SMB_COM_READ_RAW (UCHAR)0x1A #define SMB_COM_READ_MPX (UCHAR)0x1B #define SMB_COM_READ_MPX_SECONDARY (UCHAR)0x1C // server to redir only #define SMB_COM_WRITE_RAW (UCHAR)0x1D #define SMB_COM_WRITE_MPX (UCHAR)0x1E #define SMB_COM_WRITE_MPX_SECONDARY (UCHAR)0x1F #define SMB_COM_WRITE_COMPLETE (UCHAR)0x20 // server to redir only #define SMB_COM_QUERY_INFORMATION_SRV (UCHAR)0x21 #define SMB_COM_SET_INFORMATION2 (UCHAR)0x22 #define SMB_COM_QUERY_INFORMATION2 (UCHAR)0x23 #define SMB_COM_LOCKING_ANDX (UCHAR)0x24 #define SMB_COM_TRANSACTION (UCHAR)0x25 #define SMB_COM_TRANSACTION_SECONDARY (UCHAR)0x26 #define SMB_COM_IOCTL (UCHAR)0x27 #define SMB_COM_IOCTL_SECONDARY (UCHAR)0x28 #define SMB_COM_COPY (UCHAR)0x29 #define SMB_COM_MOVE (UCHAR)0x2A #define SMB_COM_ECHO (UCHAR)0x2B #define SMB_COM_WRITE_AND_CLOSE (UCHAR)0x2C #define SMB_COM_OPEN_ANDX (UCHAR)0x2D #define SMB_COM_READ_ANDX (UCHAR)0x2E #define SMB_COM_WRITE_ANDX (UCHAR)0x2F #define SMB_COM_CLOSE_AND_TREE_DISC (UCHAR)0x31 #define SMB_COM_TRANSACTION2 (UCHAR)0x32 #define SMB_COM_TRANSACTION2_SECONDARY (UCHAR)0x33 #define SMB_COM_FIND_CLOSE2 (UCHAR)0x34 #define SMB_COM_FIND_NOTIFY_CLOSE (UCHAR)0x35 #define SMB_COM_TREE_CONNECT (UCHAR)0x70 #define SMB_COM_TREE_DISCONNECT (UCHAR)0x71 #define SMB_COM_NEGOTIATE (UCHAR)0x72 #define SMB_COM_SESSION_SETUP_ANDX (UCHAR)0x73 #define SMB_COM_LOGOFF_ANDX (UCHAR)0x74 #define SMB_COM_TREE_CONNECT_ANDX (UCHAR)0x75 #define SMB_COM_QUERY_INFORMATION_DISK (UCHAR)0x80 #define SMB_COM_SEARCH (UCHAR)0x81 #define SMB_COM_FIND (UCHAR)0x82 #define SMB_COM_FIND_UNIQUE (UCHAR)0x83 #define SMB_COM_FIND_CLOSE (UCHAR)0x84 #define SMB_COM_NT_TRANSACT (UCHAR)0xA0 #define SMB_COM_NT_TRANSACT_SECONDARY (UCHAR)0xA1 #define SMB_COM_NT_CREATE_ANDX (UCHAR)0xA2 #define SMB_COM_NT_CANCEL (UCHAR)0xA4 #define SMB_COM_NT_RENAME (UCHAR)0xA5 #define SMB_COM_OPEN_PRINT_FILE (UCHAR)0xC0 #define SMB_COM_WRITE_PRINT_FILE (UCHAR)0xC1 #define SMB_COM_CLOSE_PRINT_FILE (UCHAR)0xC2 #define SMB_COM_GET_PRINT_QUEUE (UCHAR)0xC3 #define SMB_COM_SEND_MESSAGE (UCHAR)0xD0 #define SMB_COM_SEND_BROADCAST_MESSAGE (UCHAR)0xD1 #define SMB_COM_FORWARD_USER_NAME (UCHAR)0xD2 #define SMB_COM_CANCEL_FORWARD (UCHAR)0xD3 #define SMB_COM_GET_MACHINE_NAME (UCHAR)0xD4 #define SMB_COM_SEND_START_MB_MESSAGE (UCHAR)0xD5 #define SMB_COM_SEND_END_MB_MESSAGE (UCHAR)0xD6 #define SMB_COM_SEND_TEXT_MB_MESSAGE (UCHAR)0xD7 // *** End of SMB commands #define SMB_COM_NO_ANDX_COMMAND (UCHAR)0xFF // // Header for SMBs, see #4 page 10 // // *** Note that we do NOT define PSMB_HEADER as SMB_UNALIGNED! This is // done on the assumption that the SMB header, at least, will always // be properly aligned. If you need to access an unaligned header, // declare the pointer as SMB_UNALIGNED *SMB_HEADER. // #define SMB_SECURITY_SIGNATURE_LENGTH 8 typedef struct _SMB_HEADER { UCHAR Protocol[4]; // Contains 0xFF,'SMB' UCHAR Command; // Command code UCHAR ErrorClass; // Error class UCHAR Reserved; // Reserved for future use _USHORT( Error ); // Error code UCHAR Flags; // Flags _USHORT( Flags2 ); // More flags union { _USHORT( Reserved2 )[6]; // Reserved for future use struct { _USHORT( PidHigh ); // High part of PID (NT Create And X) union { struct { _ULONG( Key ); // Encryption key (IPX) _USHORT( Sid ); // Session ID (IPX) _USHORT( SequenceNumber ); // Sequence number (IPX) _USHORT( Gid ); // Group ID (unused?) }; UCHAR SecuritySignature[SMB_SECURITY_SIGNATURE_LENGTH]; // Client must send the correct Signature // for this SMB to be accepted. }; }; }; _USHORT( Tid ); // Authenticated user/group _USHORT( Pid ); // Caller's process id _USHORT( Uid ); // Unauthenticated user id _USHORT( Mid ); // multiplex id #ifdef NO_PACKING // *** _USHORT( Kludge ); // *** make sure parameter structs #endif // *** are longword aligned } SMB_HEADER; typedef SMB_HEADER *PSMB_HEADER; typedef struct _NT_SMB_HEADER { UCHAR Protocol[4]; // Contains 0xFF,'SMB' UCHAR Command; // Command code union { struct { UCHAR ErrorClass; // Error class UCHAR Reserved; // Reserved for future use _USHORT( Error ); // Error code } DosError; ULONG NtStatus; // NT-style 32-bit error code } Status; UCHAR Flags; // Flags _USHORT( Flags2 ); // More flags union { _USHORT( Reserved2 )[6]; // Reserved for future use struct { _USHORT( PidHigh ); // High part of PID (NT Create And X) union { struct { _ULONG( Key ); // Encryption key (IPX) _USHORT( Sid ); // Session ID (IPX) _USHORT( SequenceNumber ); // Sequence number (IPX) _USHORT( Gid ); // Group ID (unused?) }; UCHAR SecuritySignature[SMB_SECURITY_SIGNATURE_LENGTH]; // Client must send the correct Signature // for this SMB to be accepted. }; }; }; _USHORT( Tid ); // Authenticated user/group _USHORT( Pid ); // Caller's process id _USHORT( Uid ); // Unauthenticated user id _USHORT( Mid ); // multiplex id #ifdef NO_PACKING // *** _USHORT( Kludge ); // *** make sure parameter structs #endif // *** are longword aligned } NT_SMB_HEADER; typedef NT_SMB_HEADER *PNT_SMB_HEADER; // // The SMB header, protocol field, as a long. // #define SMB_HEADER_PROTOCOL (0xFF + ('S' << 8) + ('M' << 16) + ('B' << 24)) // // Minimum parameter structure that can be returned. Used in returning // error SMBs. // // *** Note that this structure does NOT have a Buffer field! // typedef struct _SMB_PARAMS { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of bytes that follow; min = 0 } SMB_PARAMS; typedef SMB_PARAMS SMB_UNALIGNED *PSMB_PARAMS; // // Generic header for AndX commands. // typedef struct _GENERIC_ANDX { UCHAR WordCount; // Count of parameter words UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved _USHORT( AndXOffset ); // Offset (from SMB header start) } GENERIC_ANDX; typedef GENERIC_ANDX SMB_UNALIGNED *PGENERIC_ANDX; #ifdef INCLUDE_SMB_MESSAGE // // Cancel Forward SMB, see #1 page 35 // Function is SrvSmbCancelForward() // SMB_COM_CANCEL_FORWARD 0xD3 // typedef struct _REQ_CANCEL_FORWARD { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR ForwardedName[]; // Forwarded name } REQ_CANCEL_FORWARD; typedef REQ_CANCEL_FORWARD SMB_UNALIGNED *PREQ_CANCEL_FORWARD; typedef struct _RESP_CANCEL_FORWARD { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_CANCEL_FORWARD; typedef RESP_CANCEL_FORWARD SMB_UNALIGNED *PRESP_CANCEL_FORWARD; #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_DIRECTORY // // Check Directory SMB, see #1 page 23 // Function is SrvSmbCheckDirectory() // SMB_COM_CHECK_DIRECTORY 0x10 // typedef struct _REQ_CHECK_DIRECTORY { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR DirectoryPath[]; // Directory path } REQ_CHECK_DIRECTORY; typedef REQ_CHECK_DIRECTORY SMB_UNALIGNED *PREQ_CHECK_DIRECTORY; typedef struct _RESP_CHECK_DIRECTORY { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_CHECK_DIRECTORY; typedef RESP_CHECK_DIRECTORY SMB_UNALIGNED *PRESP_CHECK_DIRECTORY; #endif // def INCLUDE_SMB_DIRECTORY #ifdef INCLUDE_SMB_OPEN_CLOSE // // Close SMB, see #1 page 10 // Function is SrvSmbClose() // SMB_COM_CLOSE 0x04 // typedef struct _REQ_CLOSE { UCHAR WordCount; // Count of parameter words = 3 _USHORT( Fid ); // File handle _ULONG( LastWriteTimeInSeconds ); // Time of last write, low and high _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_CLOSE; typedef REQ_CLOSE SMB_UNALIGNED *PREQ_CLOSE; typedef struct _RESP_CLOSE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_CLOSE; typedef RESP_CLOSE SMB_UNALIGNED *PRESP_CLOSE; #endif // def INCLUDE_SMB_OPEN_CLOSE #ifdef INCLUDE_SMB_OPEN_CLOSE // // Close and Tree Disconnect SMB, see #? page ?? // Function is SrvSmbCloseAndTreeDisc // SMB_COM_CLOSE_AND_TREE_DISC 0x31 // typedef struct _REQ_CLOSE_AND_TREE_DISC { UCHAR WordCount; // Count of parameter words _USHORT( Fid ); // File handle _ULONG( LastWriteTimeInSeconds ); _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_CLOSE_AND_TREE_DISC; typedef REQ_CLOSE_AND_TREE_DISC SMB_UNALIGNED *PREQ_CLOSE_AND_TREE_DISC; typedef struct _RESP_CLOSE_AND_TREE_DISC { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_CLOSE_AND_TREE_DISC; typedef RESP_CLOSE_AND_TREE_DISC SMB_UNALIGNED *PRESP_CLOSE_AND_TREE_DISC; #endif // def INCLUDE_SMB_OPEN_CLOSE #ifdef INCLUDE_SMB_PRINT // // Close Print Spool File SMB, see #1 page 29 // Function is SrvSmbClosePrintSpoolFile() // SMB_COM_CLOSE_PRINT_FILE 0xC2 // typedef struct _REQ_CLOSE_PRINT_FILE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Fid ); // File handle _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_CLOSE_PRINT_FILE; typedef REQ_CLOSE_PRINT_FILE SMB_UNALIGNED *PREQ_CLOSE_PRINT_FILE; typedef struct _RESP_CLOSE_PRINT_FILE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_CLOSE_PRINT_FILE; typedef RESP_CLOSE_PRINT_FILE SMB_UNALIGNED *PRESP_CLOSE_PRINT_FILE; #endif // def INCLUDE_SMB_PRINT #ifdef INCLUDE_SMB_FILE_CONTROL // // Copy SMB, see #2 page 23 // Function is SrvSmbCopy() // SMB_COM_COPY 0x29 // typedef struct _REQ_COPY { UCHAR WordCount; // Count of parameter words = 3 _USHORT( Tid2 ); // Second (target) path TID _USHORT( OpenFunction ); // What to do if target file exists _USHORT( Flags ); // Flags to control copy operation: // bit 0 - target must be a file // bit 1 - target must ba a dir. // bit 2 - copy target mode: // 0 = binary, 1 = ASCII // bit 3 - copy source mode: // 0 = binary, 1 = ASCII // bit 4 - verify all writes // bit 5 - tree copy _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR SourceFileName[]; // pathname of source file //UCHAR TargetFileName[]; // pathname of target file } REQ_COPY; typedef REQ_COPY SMB_UNALIGNED *PREQ_COPY; typedef struct _RESP_COPY { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Count ); // Number of files copied _USHORT( ByteCount ); // Count of data bytes; min = 0 UCHAR Buffer[1]; // ASCIIZ pathname of file with error } RESP_COPY; typedef RESP_COPY SMB_UNALIGNED *PRESP_COPY; #endif // def INCLUDE_SMB_FILE_CONTROL #ifdef INCLUDE_SMB_OPEN_CLOSE // // Create SMB, see #1 page 9 // Create New SMB, see #1 page 23 // Function is SrvSmbCreate() // SMB_COM_CREATE 0x03 // SMB_COM_CREATE_NEW 0x0F // typedef struct _REQ_CREATE { UCHAR WordCount; // Count of parameter words = 3 _USHORT( FileAttributes ); // New file attributes _ULONG( CreationTimeInSeconds ); // Creation time _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR FileName[]; // File name } REQ_CREATE; typedef REQ_CREATE SMB_UNALIGNED *PREQ_CREATE; typedef struct _RESP_CREATE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Fid ); // File handle _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_CREATE; typedef RESP_CREATE SMB_UNALIGNED *PRESP_CREATE; #endif // def INCLUDE_SMB_OPEN_CLOSE #ifdef INCLUDE_SMB_DIRECTORY // // Create Directory SMB, see #1 page 14 // Function is SrvSmbCreateDirectory // SMB_COM_CREATE_DIRECTORY 0x00 // typedef struct _REQ_CREATE_DIRECTORY { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR DirectoryName[]; // Directory name } REQ_CREATE_DIRECTORY; typedef REQ_CREATE_DIRECTORY SMB_UNALIGNED *PREQ_CREATE_DIRECTORY; typedef struct _RESP_CREATE_DIRECTORY { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_CREATE_DIRECTORY; typedef RESP_CREATE_DIRECTORY SMB_UNALIGNED *PRESP_CREATE_DIRECTORY; #endif // def INCLUDE_SMB_DIRECTORY #ifdef INCLUDE_SMB_OPEN_CLOSE // // Create Temporary SMB, see #1 page 21 // Function is SrvSmbCreateTemporary() // SMB_COM_CREATE_TEMPORARY 0x0E // typedef struct _REQ_CREATE_TEMPORARY { UCHAR WordCount; // Count of parameter words = 3 _USHORT( FileAttributes ); _ULONG( CreationTimeInSeconds ); _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR DirectoryName[]; // Directory name } REQ_CREATE_TEMPORARY; typedef REQ_CREATE_TEMPORARY SMB_UNALIGNED *PREQ_CREATE_TEMPORARY; typedef struct _RESP_CREATE_TEMPORARY { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Fid ); // File handle _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR FileName[]; // File name } RESP_CREATE_TEMPORARY; typedef RESP_CREATE_TEMPORARY SMB_UNALIGNED *PRESP_CREATE_TEMPORARY; #endif // def INCLUDE_SMB_OPEN_CLOSE #ifdef INCLUDE_SMB_FILE_CONTROL // // Delete SMB, see #1 page 16 // Function is SrvSmbDelete() // SMB_COM_DELETE 0x06 // typedef struct _REQ_DELETE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( SearchAttributes ); _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR FileName[]; // File name } REQ_DELETE; typedef REQ_DELETE SMB_UNALIGNED *PREQ_DELETE; typedef struct _RESP_DELETE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_DELETE; typedef RESP_DELETE SMB_UNALIGNED *PRESP_DELETE; #endif // def INCLUDE_SMB_FILE_CONTROL #ifdef INCLUDE_SMB_DIRECTORY // // Delete Directory SMB, see #1 page 15 // Function is SrvSmbDeleteDirectory() // SMB_COM_DELETE_DIRECTORY 0x01 // typedef struct _REQ_DELETE_DIRECTORY { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR DirectoryName[]; // Directory name } REQ_DELETE_DIRECTORY; typedef REQ_DELETE_DIRECTORY SMB_UNALIGNED *PREQ_DELETE_DIRECTORY; typedef struct _RESP_DELETE_DIRECTORY { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_DELETE_DIRECTORY; typedef RESP_DELETE_DIRECTORY SMB_UNALIGNED *PRESP_DELETE_DIRECTORY; #endif // def INCLUDE_SMB_DIRECTORY #ifdef INCLUDE_SMB_MISC // // Echo SMB, see #2 page 25 // Function is SrvSmbEcho() // SMB_COM_ECHO 0x2B // typedef struct _REQ_ECHO { UCHAR WordCount; // Count of parameter words = 1 _USHORT( EchoCount ); // Number of times to echo data back _USHORT( ByteCount ); // Count of data bytes; min = 4 UCHAR Buffer[1]; // Data to echo } REQ_ECHO; typedef REQ_ECHO SMB_UNALIGNED *PREQ_ECHO; typedef struct _RESP_ECHO { UCHAR WordCount; // Count of parameter words = 1 _USHORT( SequenceNumber ); // Sequence number of this echo _USHORT( ByteCount ); // Count of data bytes; min = 4 UCHAR Buffer[1]; // Echoed data } RESP_ECHO; typedef RESP_ECHO SMB_UNALIGNED *PRESP_ECHO; #endif // def INCLUDE_SMB_MISC #ifdef INCLUDE_SMB_SEARCH // // Find Close2 SMB, see #3 page 54 // Function is SrvFindClose2() // SMB_COM_FIND_CLOSE2 0x34 // typedef struct _REQ_FIND_CLOSE2 { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Sid ); // Find handle _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_FIND_CLOSE2; typedef REQ_FIND_CLOSE2 SMB_UNALIGNED *PREQ_FIND_CLOSE2; typedef struct _RESP_FIND_CLOSE2 { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_FIND_CLOSE2; typedef RESP_FIND_CLOSE2 SMB_UNALIGNED *PRESP_FIND_CLOSE2; #endif // def INCLUDE_SMB_SEARCH #ifdef INCLUDE_SMB_SEARCH // // Find Notify Close SMB, see #3 page 53 // Function is SrvSmbFindNotifyClose() // SMB_COM_FIND_NOTIFY_CLOSE 0x35 // typedef struct _REQ_FIND_NOTIFY_CLOSE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Handle ); // Find notify handle _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_FIND_NOTIFY_CLOSE; typedef REQ_FIND_NOTIFY_CLOSE SMB_UNALIGNED *PREQ_FIND_NOTIFY_CLOSE; typedef struct _RESP_FIND_NOTIFY_CLOSE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_FIND_NOTIFY_CLOSE; typedef RESP_FIND_NOTIFY_CLOSE SMB_UNALIGNED *PRESP_FIND_NOTIFY_CLOSE; #endif // def INCLUDE_SMB_SEARCH #ifdef INCLUDE_SMB_FILE_CONTROL // // Flush SMB, see #1 page 11 // Function is SrvSmbFlush() // SMB_COM_FLUSH 0x05 // typedef struct _REQ_FLUSH { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Fid ); // File handle _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_FLUSH; typedef REQ_FLUSH SMB_UNALIGNED *PREQ_FLUSH; typedef struct _RESP_FLUSH { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_FLUSH; typedef RESP_FLUSH SMB_UNALIGNED *PRESP_FLUSH; #endif // def INCLUDE_SMB_FILE_CONTROL #ifdef INCLUDE_SMB_MESSAGE // // Forward User Name SMB, see #1 page 34 // Function is SrvSmbForwardUserName() // SMB_COM_FORWARD_USER_NAME 0xD2 // typedef struct _REQ_FORWARD_USER_NAME { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR ForwardedName[]; // Forwarded name } REQ_FORWARD_USER_NAME; typedef REQ_FORWARD_USER_NAME SMB_UNALIGNED *PREQ_FORWARD_USER_NAME; typedef struct _RESP_FORWARD_USER_NAME { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_FORWARD_USER_NAME; typedef RESP_FORWARD_USER_NAME SMB_UNALIGNED *PRESP_FORWARD_USER_NAME; #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_MESSAGE // // Get Machine Name SMB, see #1 page 35 // Function is SrvSmbGetMachineName() // SMB_COM_GET_MACHINE_NAME 0xD4 // typedef struct _REQ_GET_MACHINE_NAME { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_GET_MACHINE_NAME; typedef REQ_GET_MACHINE_NAME SMB_UNALIGNED *PREQ_GET_MACHINE_NAME; typedef struct _RESP_GET_MACHINE_NAME { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR MachineName[]; // Machine name } RESP_GET_MACHINE_NAME; typedef RESP_GET_MACHINE_NAME SMB_UNALIGNED *PRESP_GET_MACHINE_NAME; #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_PRINT // // Get Print Queue SMB, see #1 page 29 // Function is SrvSmbGetPrintQueue() // SMB_COM_GET_PRINT_QUEUE 0xC3 // typedef struct _REQ_GET_PRINT_QUEUE { UCHAR WordCount; // Count of parameter words = 2 _USHORT( MaxCount ); // Max number of entries to return _USHORT( StartIndex ); // First queue entry to return _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_GET_PRINT_QUEUE; typedef REQ_GET_PRINT_QUEUE SMB_UNALIGNED *PREQ_GET_PRINT_QUEUE; typedef struct _RESP_GET_PRINT_QUEUE { UCHAR WordCount; // Count of parameter words = 2 _USHORT( Count ); // Number of entries returned _USHORT( RestartIndex ); // Index of entry after last returned _USHORT( ByteCount ); // Count of data bytes; min = 3 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x01 -- Data block //USHORT DataLength; // Length of data //UCHAR Data[]; // Queue elements } RESP_GET_PRINT_QUEUE; typedef RESP_GET_PRINT_QUEUE SMB_UNALIGNED *PRESP_GET_PRINT_QUEUE; #endif // def INCLUDE_SMB_PRINT #ifdef INCLUDE_SMB_TRANSACTION // // Ioctl SMB, see #2 page 39 // Function is SrvSmbIoctl() // SMB_COM_IOCTL 0x27 // SMB_COM_IOCTL_SECONDARY 0x28 // typedef struct _REQ_IOCTL { UCHAR WordCount; // Count of parameter words = 14 _USHORT( Fid ); // File handle _USHORT( Category ); // Device category _USHORT( Function ); // Device function _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( MaxParameterCount ); // Max parameter bytes to return _USHORT( MaxDataCount ); // Max data bytes to return _ULONG( Timeout ); _USHORT( Reserved ); _USHORT( ParameterCount ); // Parameter bytes sent this buffer _USHORT( ParameterOffset ); // Offset (from header start) to params _USHORT( DataCount ); // Data bytes sent this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad1[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } REQ_IOCTL; typedef REQ_IOCTL SMB_UNALIGNED *PREQ_IOCTL; typedef struct _RESP_IOCTL_INTERIM { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_IOCTL_INTERIM; typedef RESP_IOCTL_INTERIM SMB_UNALIGNED *PRESP_IOCTL_INTERIM; typedef struct _REQ_IOCTL_SECONDARY { UCHAR WordCount; // Count of parameter words = 8 _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( ParameterCount ); // Parameter bytes sent this buffer _USHORT( ParameterOffset ); // Offset (from header start) to params _USHORT( ParameterDisplacement ); // Displacement of these param bytes _USHORT( DataCount ); // Data bytes sent this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( DataDisplacement ); // Displacement of these data bytes _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad1[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } REQ_IOCTL_SECONDARY; typedef REQ_IOCTL_SECONDARY SMB_UNALIGNED *PREQ_IOCTL_SECONDARY; typedef struct _RESP_IOCTL { UCHAR WordCount; // Count of parameter words = 8 _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( ParameterCount ); // Parameter bytes sent this buffer _USHORT( ParameterOffset ); // Offset (from header start) to params _USHORT( ParameterDisplacement ); // Displacement of these param bytes _USHORT( DataCount ); // Data bytes sent this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( DataDisplacement ); // Displacement of these data bytes _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad1[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } RESP_IOCTL; typedef RESP_IOCTL SMB_UNALIGNED *PRESP_IOCTL; #endif // def INCLUDE_SMB_TRANSACTION #ifdef INCLUDE_SMB_LOCK // // Lock Byte Range SMB, see #1 page 20 // Function is SrvSmbLockByteRange() // SMB_COM_LOCK_BYTE_RANGE 0x0C // typedef struct _REQ_LOCK_BYTE_RANGE { UCHAR WordCount; // Count of parameter words = 5 _USHORT( Fid ); // File handle _ULONG( Count ); // Count of bytes to lock _ULONG( Offset ); // Offset from start of file _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_LOCK_BYTE_RANGE; typedef REQ_LOCK_BYTE_RANGE SMB_UNALIGNED *PREQ_LOCK_BYTE_RANGE; typedef struct _RESP_LOCK_BYTE_RANGE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_LOCK_BYTE_RANGE; typedef RESP_LOCK_BYTE_RANGE SMB_UNALIGNED *PRESP_LOCK_BYTE_RANGE; #endif // def INCLUDE_SMB_LOCK #ifdef INCLUDE_SMB_LOCK // // Locking and X SMB, see #2 page 46 // Function is SrvLockingAndX() // SMB_COM_LOCKING_ANDX 0x24 // typedef struct _REQ_LOCKING_ANDX { UCHAR WordCount; // Count of parameter words = 8 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Fid ); // File handle // // When NT protocol is not negotiated the OplockLevel field is // omitted, and LockType field is a full word. Since the upper // bits of LockType are never used, this definition works for // all protocols. // UCHAR( LockType ); // Locking mode: // bit 0: 0 = lock out all access // 1 = read OK while locked // bit 1: 1 = 1 user total file unlock UCHAR( OplockLevel ); // The new oplock level _ULONG( Timeout ); _USHORT( NumberOfUnlocks ); // Num. unlock range structs following _USHORT( NumberOfLocks ); // Num. lock range structs following _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //LOCKING_ANDX_RANGE Unlocks[]; // Unlock ranges //LOCKING_ANDX_RANGE Locks[]; // Lock ranges } REQ_LOCKING_ANDX; typedef REQ_LOCKING_ANDX SMB_UNALIGNED *PREQ_LOCKING_ANDX; #define LOCKING_ANDX_SHARED_LOCK 0x01 #define LOCKING_ANDX_OPLOCK_RELEASE 0x02 #define LOCKING_ANDX_CHANGE_LOCKTYPE 0x04 #define LOCKING_ANDX_CANCEL_LOCK 0x08 #define LOCKING_ANDX_LARGE_FILES 0x10 #define OPLOCK_BROKEN_TO_NONE 0 #define OPLOCK_BROKEN_TO_II 1 typedef struct _LOCKING_ANDX_RANGE { _USHORT( Pid ); // PID of process "owning" lock _ULONG( Offset ); // Ofset to bytes to [un]lock _ULONG( Length ); // Number of bytes to [un]lock } LOCKING_ANDX_RANGE; typedef LOCKING_ANDX_RANGE SMB_UNALIGNED *PLOCKING_ANDX_RANGE; typedef struct _NT_LOCKING_ANDX_RANGE { _USHORT( Pid ); // PID of process "owning" lock _USHORT( Pad ); // Pad to DWORD align (mbz) _ULONG( OffsetHigh ); // Ofset to bytes to [un]lock (high) _ULONG( OffsetLow ); // Ofset to bytes to [un]lock (low) _ULONG( LengthHigh ); // Number of bytes to [un]lock (high) _ULONG( LengthLow ); // Number of bytes to [un]lock (low) } NTLOCKING_ANDX_RANGE; typedef NTLOCKING_ANDX_RANGE SMB_UNALIGNED *PNTLOCKING_ANDX_RANGE; // typedef struct _RESP_LOCKING_ANDX { UCHAR WordCount; // Count of parameter words = 2 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_LOCKING_ANDX; typedef RESP_LOCKING_ANDX SMB_UNALIGNED *PRESP_LOCKING_ANDX; #define LOCK_BROKEN_SIZE 51 // # of bytes in lock broken notify #endif // def INCLUDE_SMB_LOCK #ifdef INCLUDE_SMB_ADMIN // // Logoff and X SMB, see #3, page 55 // SMB_COM_LOGOFF_ANDX 0x74 // typedef struct _REQ_LOGOFF_ANDX { UCHAR WordCount; // Count of parameter words = 2 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_LOGOFF_ANDX; typedef REQ_LOGOFF_ANDX SMB_UNALIGNED *PREQ_LOGOFF_ANDX; typedef struct _RESP_LOGOFF_ANDX { UCHAR WordCount; // Count of parameter words = 2 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_LOGOFF_ANDX; typedef RESP_LOGOFF_ANDX SMB_UNALIGNED *PRESP_LOGOFF_ANDX; #endif // def INCLUDE_SMB_ADMIN #ifdef INCLUDE_SMB_FILE_CONTROL // // Move SMB, see #2 page 49 // Funcion is SrvSmbMove() // SMB_COM_MOVE 0x2A // typedef struct _REQ_MOVE { UCHAR WordCount; // Count of parameter words = 3 _USHORT( Tid2 ); // Second (target) file id _USHORT( OpenFunction ); // what to do if target file exists _USHORT( Flags ); // Flags to control move operations: // 0 - target must be a file // 1 - target must be a directory // 2 - reserved (must be 0) // 3 - reserved (must be 0) // 4 - verify all writes _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR OldFileName[]; // Old file name //UCHAR NewFileName[]; // New file name } REQ_MOVE; typedef REQ_MOVE SMB_UNALIGNED *PREQ_MOVE; typedef struct _RESP_MOVE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Count ); // Number of files moved _USHORT( ByteCount ); // Count of data bytes; min = 0 UCHAR Buffer[1]; // Pathname of file where error occurred } RESP_MOVE; typedef RESP_MOVE SMB_UNALIGNED *PRESP_MOVE; #endif // def INCLUDE_SMB_FILE_CONTROL #ifdef INCLUDE_SMB_ADMIN // // Negotiate SMB's for Net 1 and Net 3, see #1 page 25 and #2 page 20 // Function is SrvSmbNegotiate() // SMB_COM_NEGOTIATE 0x72 // typedef struct _REQ_NEGOTIATE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //struct { // UCHAR BufferFormat; // 0x02 -- Dialect // UCHAR DialectName[]; // ASCIIZ //} Dialects[]; } REQ_NEGOTIATE; typedef REQ_NEGOTIATE *PREQ_NEGOTIATE; // *** NOT SMB_UNALIGNED! typedef struct _RESP_NEGOTIATE { UCHAR WordCount; // Count of parameter words = 13 _USHORT( DialectIndex ); // Index of selected dialect _USHORT( SecurityMode ); // Security mode: // bit 0: 0 = share, 1 = user // bit 1: 1 = encrypt passwords // bit 2: 1 = SMB security signatures enabled // bit 3: 1 = SMB security signatures required _USHORT( MaxBufferSize ); // Max transmit buffer size _USHORT( MaxMpxCount ); // Max pending multiplexed requests _USHORT( MaxNumberVcs ); // Max VCs between client and server _USHORT( RawMode ); // Raw modes supported: // bit 0: 1 = Read Raw supported // bit 1: 1 = Write Raw supported _ULONG( SessionKey ); SMB_TIME ServerTime; // Current time at server SMB_DATE ServerDate; // Current date at server _USHORT( ServerTimeZone ); // Current time zone at server _USHORT( EncryptionKeyLength ); // MBZ if this is not LM2.1 _USHORT( Reserved ); // MBZ _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Password encryption key //UCHAR EncryptionKey[]; // The challenge encryption key //UCHAR PrimaryDomain[]; // The server's primary domain (2.1 only) } RESP_NEGOTIATE; typedef RESP_NEGOTIATE *PRESP_NEGOTIATE; // *** NOT SMB_UNALIGNED! // Macros for SecurityMode field, above #define NEGOTIATE_USER_SECURITY 0x01 #define NEGOTIATE_ENCRYPT_PASSWORDS 0x02 #define NEGOTIATE_SECURITY_SIGNATURES_ENABLED 0x04 #define NEGOTIATE_SECURITY_SIGNATURES_REQUIRED 0x08 // Macros for RawMode field, above #define NEGOTIATE_READ_RAW_SUPPORTED 1 #define NEGOTIATE_WRITE_RAW_SUPPORTED 2 typedef struct _RESP_OLD_NEGOTIATE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( DialectIndex ); // Index of selected dialect _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_OLD_NEGOTIATE; typedef RESP_OLD_NEGOTIATE *PRESP_OLD_NEGOTIATE; // *** NOT SMB_UNALIGNED! typedef struct _RESP_NT_NEGOTIATE { UCHAR WordCount; // Count of parameter words = 17 _USHORT( DialectIndex ); // Index of selected dialect UCHAR( SecurityMode ); // Security mode: // bit 0: 0 = share, 1 = user // bit 1: 1 = encrypt passwords // bit 2: 1 = SMB sequence numbers enabled // bit 3: 1 = SMB sequence numbers required _USHORT( MaxMpxCount ); // Max pending multiplexed requests _USHORT( MaxNumberVcs ); // Max VCs between client and server _ULONG( MaxBufferSize ); // Max transmit buffer size _ULONG( MaxRawSize ); // Maximum raw buffer size _ULONG( SessionKey ); _ULONG( Capabilities ); // Server capabilities _ULONG( SystemTimeLow ); // System (UTC) time of the server (low). _ULONG( SystemTimeHigh ); // System (UTC) time of the server (high). _USHORT( ServerTimeZone ); // Time zone of server (min from UTC) UCHAR( EncryptionKeyLength ); // Length of encryption key. _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Password encryption key //UCHAR EncryptionKey[]; // The challenge encryption key //UCHAR OemDomainName[]; // The name of the domain (in OEM chars) } RESP_NT_NEGOTIATE; typedef RESP_NT_NEGOTIATE *PRESP_NT_NEGOTIATE; // *** NOT SMB_UNALIGNED! #endif // def INCLUDE_SMB_ADMIN // // Server / workstation capabilities // N.B. Most messages use a ULONG for this, so there are many more // bits available. // #define CAP_RAW_MODE 0x0001 #define CAP_MPX_MODE 0x0002 #define CAP_UNICODE 0x0004 #define CAP_LARGE_FILES 0x0008 #define CAP_NT_SMBS 0x0010 #define CAP_RPC_REMOTE_APIS 0x0020 #define CAP_NT_STATUS 0x0040 #define CAP_LEVEL_II_OPLOCKS 0x0080 #define CAP_LOCK_AND_READ 0x0100 #define CAP_NT_FIND 0x0200 #define CAP_DFS 0x1000 // This server is DFS aware #define CAP_INFOLEVEL_PASSTHRU 0x2000 // NT information level requests can pass through #define CAP_LARGE_READX 0x4000 // Server supports oversized READ&X on files #define CAP_LARGE_WRITEX 0x8000 #ifdef INCLUDE_SMB_OPEN_CLOSE // // Open SMB, see #1, page 7 // Function is SrvSmbOpen() // SMB_COM_OPEN 0x02 // typedef struct _REQ_OPEN { UCHAR WordCount; // Count of parameter words = 2 _USHORT( DesiredAccess ); // Mode - read/write/share _USHORT( SearchAttributes ); _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR FileName[]; // File name } REQ_OPEN; typedef REQ_OPEN SMB_UNALIGNED *PREQ_OPEN; typedef struct _RESP_OPEN { UCHAR WordCount; // Count of parameter words = 7 _USHORT( Fid ); // File handle _USHORT( FileAttributes ); _ULONG( LastWriteTimeInSeconds ); _ULONG( DataSize ); // File size _USHORT( GrantedAccess ); // Access allowed _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_OPEN; typedef RESP_OPEN SMB_UNALIGNED *PRESP_OPEN; #endif // def INCLUDE_SMB_OPEN_CLOSE #ifdef INCLUDE_SMB_OPEN_CLOSE // // Open and X SMB, see #2 page 51 // Function is SrvOpenAndX() // SMB_COM_OPEN_ANDX 0x2D // typedef struct _REQ_OPEN_ANDX { UCHAR WordCount; // Count of parameter words = 15 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Flags ); // Additional information: bit set- // 0 - return additional info // 1 - set single user total file lock // 2 - server notifies consumer of // actions which may change file // 4 - return extended response _USHORT( DesiredAccess ); // File open mode _USHORT( SearchAttributes ); _USHORT( FileAttributes ); _ULONG( CreationTimeInSeconds ); _USHORT( OpenFunction ); _ULONG( AllocationSize ); // Bytes to reserve on create or truncate _ULONG( Timeout ); // Max milliseconds to wait for resource _ULONG( Reserved ); // Reserved (must be 0) _USHORT( ByteCount ); // Count of data bytes; min = 1 UCHAR Buffer[1]; // File name } REQ_OPEN_ANDX; typedef REQ_OPEN_ANDX SMB_UNALIGNED *PREQ_OPEN_ANDX; typedef struct _RESP_OPEN_ANDX { UCHAR WordCount; // Count of parameter words = 15 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Fid ); // File handle _USHORT( FileAttributes ); _ULONG( LastWriteTimeInSeconds ); _ULONG( DataSize ); // Current file size _USHORT( GrantedAccess ); // Access permissions actually allowed _USHORT( FileType ); _USHORT( DeviceState ); // state of IPC device (e.g. pipe) _USHORT( Action ); // Action taken _ULONG( ServerFid ); // Server unique file id _USHORT( Reserved ); // Reserved (must be 0) _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_OPEN_ANDX; typedef RESP_OPEN_ANDX SMB_UNALIGNED *PRESP_OPEN_ANDX; typedef struct _REQ_NT_CREATE_ANDX { UCHAR WordCount; // Count of parameter words = 24 UCHAR AndXCommand; // Secondary command; 0xFF = None UCHAR AndXReserved; // MBZ _USHORT( AndXOffset ); // Offset to next command wordcount UCHAR Reserved; // MBZ _USHORT( NameLength ); // Length of Name[] in bytes _ULONG( Flags ); // Create flags _ULONG( RootDirectoryFid ); // If non-zero, open is relative to this directory ACCESS_MASK DesiredAccess; // NT access desired LARGE_INTEGER AllocationSize; // Initial allocation size _ULONG( FileAttributes ); // File attributes for creation _ULONG( ShareAccess ); // Type of share access _ULONG( CreateDisposition ); // Action to take if file exists or not _ULONG( CreateOptions ); // Options to use if creating a file _ULONG( ImpersonationLevel ); // Security QOS information UCHAR SecurityFlags; // Security QOS information _USHORT( ByteCount ); // Length of byte parameters UCHAR Buffer[1]; //UCHAR Name[]; // File to open or create } REQ_NT_CREATE_ANDX; typedef REQ_NT_CREATE_ANDX SMB_UNALIGNED *PREQ_NT_CREATE_ANDX; // Flag bit for Security flags #define SMB_SECURITY_DYNAMIC_TRACKING 0x01 #define SMB_SECURITY_EFFECTIVE_ONLY 0x02 typedef struct _RESP_NT_CREATE_ANDX { UCHAR WordCount; // Count of parameter words = 26 UCHAR AndXCommand; // Secondary command; 0xFF = None UCHAR AndXReserved; // MBZ _USHORT( AndXOffset ); // Offset to next command wordcount UCHAR OplockLevel; // The oplock level granted _USHORT( Fid ); // The file ID _ULONG( CreateAction ); // The action taken TIME CreationTime; // The time the file was created TIME LastAccessTime; // The time the file was accessed TIME LastWriteTime; // The time the file was last written TIME ChangeTime; // The time the file was last changed _ULONG( FileAttributes ); // The file attributes LARGE_INTEGER AllocationSize; // The number of byes allocated LARGE_INTEGER EndOfFile; // The end of file offset _USHORT( FileType ); union { _USHORT( DeviceState ); // state of IPC device (e.g. pipe) _USHORT( FileStatusFlags ); // if a file or directory. See below. }; BOOLEAN Directory; // TRUE if this is a directory _USHORT( ByteCount ); // = 0 UCHAR Buffer[1]; } RESP_NT_CREATE_ANDX; typedef RESP_NT_CREATE_ANDX SMB_UNALIGNED *PRESP_NT_CREATE_ANDX; // // Values for FileStatusFlags, if the opened resource is a file or directory // #define SMB_FSF_NO_EAS 0x0001 // file/dir has no extended attributes #define SMB_FSF_NO_SUBSTREAMS 0x0002 // file/dir has no substreams #define SMB_FSF_NO_REPARSETAG 0x0004 // file/dir is not a reparse point #define SMB_OPLOCK_LEVEL_NONE 0 #define SMB_OPLOCK_LEVEL_EXCLUSIVE 1 #define SMB_OPLOCK_LEVEL_BATCH 2 #define SMB_OPLOCK_LEVEL_II 3 #endif // def INCLUDE_SMB_OPEN_CLOSE #ifdef INCLUDE_SMB_PRINT // // Open Print File SMB, see #1 page 27 // Function is SrvSmbOpenPrintFile() // SMB_COM_OPEN_PRINT_FILE 0xC0 // typedef struct _REQ_OPEN_PRINT_FILE { UCHAR WordCount; // Count of parameter words = 2 _USHORT( SetupLength ); // Length of printer setup data _USHORT( Mode ); // 0 = Text mode (DOS expands TABs) // 1 = Graphics mode _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR IdentifierString[]; // Identifier string } REQ_OPEN_PRINT_FILE; typedef REQ_OPEN_PRINT_FILE SMB_UNALIGNED *PREQ_OPEN_PRINT_FILE; typedef struct _RESP_OPEN_PRINT_FILE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Fid ); // File handle _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_OPEN_PRINT_FILE; typedef RESP_OPEN_PRINT_FILE SMB_UNALIGNED *PRESP_OPEN_PRINT_FILE; #endif // def INCLUDE_SMB_PRINT #ifdef INCLUDE_SMB_ADMIN // // Process Exit SMB, see #1 page 22 // Function is SrvSmbProcessExit() // SMB_COM_PROCESS_EXIT 0x11 // typedef struct _REQ_PROCESS_EXIT { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_PROCESS_EXIT; typedef REQ_PROCESS_EXIT SMB_UNALIGNED *PREQ_PROCESS_EXIT; typedef struct _RESP_PROCESS_EXIT { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_PROCESS_EXIT; typedef RESP_PROCESS_EXIT SMB_UNALIGNED *PRESP_PROCESS_EXIT; #endif // def INCLUDE_SMB_ADMIN #ifdef INCLUDE_SMB_QUERY_SET // // Query Information SMB, see #1 page 18 // Function is SrvSmbQueryInformation() // SMB_COM_QUERY_INFORMATION 0x08 // typedef struct _REQ_QUERY_INFORMATION { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR FileName[]; // File name } REQ_QUERY_INFORMATION; typedef REQ_QUERY_INFORMATION SMB_UNALIGNED *PREQ_QUERY_INFORMATION; typedef struct _RESP_QUERY_INFORMATION { UCHAR WordCount; // Count of parameter words = 10 _USHORT( FileAttributes ); _ULONG( LastWriteTimeInSeconds ); _ULONG( FileSize ); // File size _USHORT( Reserved )[5]; // Reserved (must be 0) _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_QUERY_INFORMATION; typedef RESP_QUERY_INFORMATION SMB_UNALIGNED *PRESP_QUERY_INFORMATION; #endif // def INCLUDE_SMB_QUERY_SET #ifdef INCLUDE_SMB_QUERY_SET // // Query Information2 SMB, see #2 page 37 // Function is SrvSmbQueryInformation2() // SMB_COM_QUERY_INFORMATION2 0x23 // typedef struct _REQ_QUERY_INFORMATION2 { UCHAR WordCount; // Count of parameter words = 2 _USHORT( Fid ); // File handle _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_QUERY_INFORMATION2; typedef REQ_QUERY_INFORMATION2 SMB_UNALIGNED *PREQ_QUERY_INFORMATION2; typedef struct _RESP_QUERY_INFORMATION2 { UCHAR WordCount; // Count of parameter words = 11 SMB_DATE CreationDate; SMB_TIME CreationTime; SMB_DATE LastAccessDate; SMB_TIME LastAccessTime; SMB_DATE LastWriteDate; SMB_TIME LastWriteTime; _ULONG( FileDataSize ); // File end of data _ULONG( FileAllocationSize ); // File allocation size _USHORT( FileAttributes ); _USHORT( ByteCount ); // Count of data bytes; min = 0 UCHAR Buffer[1]; // Reserved buffer } RESP_QUERY_INFORMATION2; typedef RESP_QUERY_INFORMATION2 SMB_UNALIGNED *PRESP_QUERY_INFORMATION2; #endif // def INCLUDE_SMB_QUERY_SET #ifdef INCLUDE_SMB_MISC // // Query Information Disk SMB, see #1 page 24 // Function is SrvSmbQueryInformationDisk() // SMB_COM_QUERY_INFORMATION_DISK 0x80 // typedef struct _REQ_QUERY_INFORMATION_DISK { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_QUERY_INFORMATION_DISK; typedef REQ_QUERY_INFORMATION_DISK SMB_UNALIGNED *PREQ_QUERY_INFORMATION_DISK; typedef struct _RESP_QUERY_INFORMATION_DISK { UCHAR WordCount; // Count of parameter words = 5 _USHORT( TotalUnits ); // Total allocation units per server _USHORT( BlocksPerUnit ); // Blocks per allocation unit _USHORT( BlockSize ); // Block size (in bytes) _USHORT( FreeUnits ); // Number of free units _USHORT( Reserved ); // Reserved (media identification code) _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_QUERY_INFORMATION_DISK; typedef RESP_QUERY_INFORMATION_DISK SMB_UNALIGNED *PRESP_QUERY_INFORMATION_DISK; #endif // def INCLUDE_SMB_MISC #ifdef INCLUDE_SMB_MISC // // Query Server Information SMB, see #? page ?? // Function is SrvSmbQueryInformationServer // SMB_COM_QUERY_INFORMATION_SRV 0x21 // typedef struct _REQ_QUERY_INFORMATION_SRV { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Mode ); _USHORT( ByteCount ); // Count of data bytes; min = UCHAR Buffer[1]; // } REQ_QUERY_INFORMATION_SRV; typedef REQ_QUERY_INFORMATION_SRV SMB_UNALIGNED *PREQ_QUERY_INFORMATION_SRV; typedef struct _RESP_QUERY_INFORMATION_SRV { UCHAR WordCount; // Count of parameter words = 20 _ULONG( smb_fsid ); _ULONG( BlocksPerUnit ); _ULONG( smb_aunits ); _ULONG( smb_fau ); _USHORT( BlockSize ); SMB_DATE smb_vldate; SMB_TIME smb_vltime; UCHAR smb_vllen; UCHAR Reserved; // Reserved (must be 0) _USHORT( SecurityMode ); _USHORT( BlockMode ); _ULONG( Services ); _USHORT( MaxTransmitSize ); _USHORT( MaxMpxCount ); _USHORT( MaxNumberVcs ); SMB_TIME ServerTime; SMB_DATE ServerDate; _USHORT( ServerTimeZone ); _ULONG( Reserved2 ); _USHORT( ByteCount ); // Count of data bytes; min = UCHAR Buffer[1]; // } RESP_QUERY_INFORMATION_SRV; typedef RESP_QUERY_INFORMATION_SRV SMB_UNALIGNED *PRESP_QUERY_INFORMATION_SRV; #endif // def INCLUDE_SMB_MISC #ifdef INCLUDE_SMB_READ_WRITE // // Read SMB, see #1 page 12 // Lock and Read SMB, see #2 page 44 // SMB_COM_READ 0x0A, Function is SrvSmbRead // SMB_COM_LOCK_AND_READ 0x13, Function is SrvSmbLockAndRead // typedef struct _REQ_READ { UCHAR WordCount; // Count of parameter words = 5 _USHORT( Fid ); // File handle _USHORT( Count ); // Count of bytes being requested _ULONG( Offset ); // Offset in file of first byte to read _USHORT( Remaining ); // Estimate of bytes to read if nonzero _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_READ; typedef REQ_READ SMB_UNALIGNED *PREQ_READ; // // *** Warning: the following structure is defined the way it is to // ensure longword alignment of the data buffer. (This only matters // when packing is disabled; when packing is turned on, the right // thing happens no matter what.) // typedef struct _RESP_READ { UCHAR WordCount; // Count of parameter words = 5 _USHORT( Count ); // Count of bytes actually returned _USHORT( Reserved )[4]; // Reserved (must be 0) _USHORT( ByteCount ); // Count of data bytes //UCHAR Buffer[1]; // Buffer containing: UCHAR BufferFormat; // 0x01 -- Data block _USHORT( DataLength ); // Length of data ULONG Buffer[1]; // Data } RESP_READ; typedef RESP_READ SMB_UNALIGNED *PRESP_READ; #endif // def INCLUDE_SMB_READ_WRITE #ifdef INCLUDE_SMB_READ_WRITE // // Read and X SMB, see #2 page 56 // Function is SrvSmbReadAndX() // SMB_COM_READ_ANDX 0x2E // typedef struct _REQ_READ_ANDX { UCHAR WordCount; // Count of parameter words = 10 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Fid ); // File handle _ULONG( Offset ); // Offset in file to begin read _USHORT( MaxCount ); // Max number of bytes to return _USHORT( MinCount ); // Min number of bytes to return _ULONG( Timeout ); _USHORT( Remaining ); // Bytes remaining to satisfy request _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_READ_ANDX; typedef REQ_READ_ANDX SMB_UNALIGNED *PREQ_READ_ANDX; typedef struct _REQ_NT_READ_ANDX { UCHAR WordCount; // Count of parameter words = 12 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Fid ); // File handle _ULONG( Offset ); // Offset in file to begin read _USHORT( MaxCount ); // Max number of bytes to return _USHORT( MinCount ); // Min number of bytes to return union { _ULONG( Timeout ); _USHORT( MaxCountHigh ); // upper 16 bits of MaxCount if NT request }; _USHORT( Remaining ); // Bytes remaining to satisfy request _ULONG( OffsetHigh ); // Used for NT Protocol only // Upper 32 bits of offset _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_NT_READ_ANDX; typedef REQ_NT_READ_ANDX SMB_UNALIGNED *PREQ_NT_READ_ANDX; typedef struct _RESP_READ_ANDX { UCHAR WordCount; // Count of parameter words = 12 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Remaining ); // Bytes remaining to be read _USHORT( DataCompactionMode ); _USHORT( Reserved ); // Reserved (must be 0) _USHORT( DataLength ); // Number of data bytes (min = 0) _USHORT( DataOffset ); // Offset (from header start) to data union { _USHORT( Reserved2 ); // Reserved (must be 0) _USHORT( DataLengthHigh ); // upper 16 bits of DataLength if NT request }; _ULONG( Reserved3 )[2]; // Reserved (must be 0) _USHORT( ByteCount ); // Count of data bytes. Inaccurate if we // are doing large Read&X's! UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (size = DataLength) } RESP_READ_ANDX; typedef RESP_READ_ANDX SMB_UNALIGNED *PRESP_READ_ANDX; #endif // def INCLUDE_SMB_READ_WRITE #ifdef INCLUDE_SMB_MPX // // Read Block Multiplexed SMB, see #2 page 58 // Function is SrvSmbReadMpx() // SMB_COM_READ_MPX 0x1B // SMB_COM_READ_MPX_SECONDARY 0x1C // typedef struct _REQ_READ_MPX { UCHAR WordCount; // Count of parameter words = 8 _USHORT( Fid ); // File handle _ULONG( Offset ); // Offset in file to begin read _USHORT( MaxCount ); // Max bytes to return (max 65535) _USHORT( MinCount ); // Min bytes to return (normally 0) _ULONG( Timeout ); _USHORT( Reserved ); _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_READ_MPX; typedef REQ_READ_MPX SMB_UNALIGNED *PREQ_READ_MPX; typedef struct _RESP_READ_MPX { UCHAR WordCount; // Count of parameter words = 8 _ULONG( Offset ); // Offset in file where data read _USHORT( Count ); // Total bytes being returned _USHORT( Remaining ); // Bytes remaining to be read (pipe/dev) _USHORT( DataCompactionMode ); _USHORT( Reserved ); _USHORT( DataLength ); // Number of data bytes this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (size = DataLength) } RESP_READ_MPX; typedef RESP_READ_MPX SMB_UNALIGNED *PRESP_READ_MPX; #endif // def INCLUDE_SMB_MPX #ifdef INCLUDE_SMB_RAW // // Read Block Raw SMB, see #2 page 61 // Function is SrvSmbReadRaw() // SMB_COM_READ_RAW 0x1A // typedef struct _REQ_READ_RAW { UCHAR WordCount; // Count of parameter words = 8 _USHORT( Fid ); // File handle _ULONG( Offset ); // Offset in file to begin read _USHORT( MaxCount ); // Max bytes to return (max 65535) _USHORT( MinCount ); // Min bytes to return (normally 0) _ULONG( Timeout ); _USHORT( Reserved ); _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_READ_RAW; typedef REQ_READ_RAW SMB_UNALIGNED *PREQ_READ_RAW; typedef struct _REQ_NT_READ_RAW { UCHAR WordCount; // Count of parameter words = 10 _USHORT( Fid ); // File handle _ULONG( Offset ); // Offset in file to begin read _USHORT( MaxCount ); // Max bytes to return (max 65535) _USHORT( MinCount ); // Min bytes to return (normally 0) _ULONG( Timeout ); _USHORT( Reserved ); _ULONG( OffsetHigh ); // Used for NT Protocol only // Upper 32 bits of offset _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_NT_READ_RAW; typedef REQ_NT_READ_RAW SMB_UNALIGNED *PREQ_NT_READ_RAW; // No response params for raw read--the response is the raw data. #endif // def INCLUDE_SMB_RAW #ifdef INCLUDE_SMB_FILE_CONTROL // // Rename SMB, see #1 page 17 // Function is SrvSmbRename() // SMB_COM_RENAME 0x07 // typedef struct _REQ_RENAME { UCHAR WordCount; // Count of parameter words = 1 _USHORT( SearchAttributes ); _USHORT( ByteCount ); // Count of data bytes; min = 4 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat1; // 0x04 -- ASCII //UCHAR OldFileName[]; // Old file name //UCHAR BufferFormat2; // 0x04 -- ASCII //UCHAR NewFileName[]; // New file name } REQ_RENAME; typedef REQ_RENAME SMB_UNALIGNED *PREQ_RENAME; // // Extended NT rename SMB // Function is SrvSmbRename() // SMB_COM_NT_RENAME 0xA5 // typedef struct _REQ_NTRENAME { UCHAR WordCount; // Count of parameter words = 4 _USHORT( SearchAttributes ); _USHORT( InformationLevel ); _ULONG( ClusterCount ); _USHORT( ByteCount ); // Count of data bytes; min = 4 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat1; // 0x04 -- ASCII //UCHAR OldFileName[]; // Old file name //UCHAR BufferFormat2; // 0x04 -- ASCII //UCHAR NewFileName[]; // New file name } REQ_NTRENAME; typedef REQ_NTRENAME SMB_UNALIGNED *PREQ_NTRENAME; typedef struct _RESP_RENAME { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_RENAME; typedef RESP_RENAME SMB_UNALIGNED *PRESP_RENAME; #endif // def INCLUDE_SMB_FILE_CONTROL #ifdef INCLUDE_SMB_SEARCH // // Search SMBs. One structure is common for both the core Search and the // LAN Manager 1.0 Find First/Next/Close. // // Function is SrvSmbSearch() // // Search, see #1 page 26 // SMB_COM_SEARCH 0x81 // FindFirst and FindNext, see #2 page 27 // SMB_COM_FIND 0x82 // FindUnique, see #2 page 33 // SMB_COM_FIND_UNIQUE 0x83 // FindClose, see #2 page 31 // SMB_COM_FIND_CLOSE 0x84 // typedef struct _REQ_SEARCH { UCHAR WordCount; // Count of parameter words = 2 _USHORT( MaxCount ); // Number of dir. entries to return _USHORT( SearchAttributes ); _USHORT( ByteCount ); // Count of data bytes; min = 5 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat1; // 0x04 -- ASCII //UCHAR FileName[]; // File name, may be null //UCHAR BufferFormat2; // 0x05 -- Variable block //USHORT ResumeKeyLength; // Length of resume key, may be 0 //UCHAR SearchStatus[]; // Resume key } REQ_SEARCH; typedef REQ_SEARCH SMB_UNALIGNED *PREQ_SEARCH; typedef struct _RESP_SEARCH { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Count ); // Number of entries returned _USHORT( ByteCount ); // Count of data bytes; min = 3 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x05 -- Variable block //USHORT DataLength; // Length of data //UCHAR Data[]; // Data } RESP_SEARCH; typedef RESP_SEARCH SMB_UNALIGNED *PRESP_SEARCH; // // These two structures are use to return information in the Search SMBs. // SMB_DIRECTORY_INFORMATION is used to return information about a file // that was found. In addition to the usual information about the file, // each of these structures contains an SMB_RESUME_KEY, which is used to // continue or rewind a search. // // These structures must be packed, so turn on packing if it isn't // already on. // #ifdef NO_PACKING #include #endif // def NO_PACKING typedef struct _SMB_RESUME_KEY { UCHAR Reserved; // bit 7 - comsumer use // bits 5,6 - system use (must preserve) // bits 0-4 - server use (must preserve) UCHAR FileName[11]; UCHAR Sid; // Uniquely identifies Find through Close _ULONG( FileIndex ); // Reserved for server use UCHAR Consumer[4]; // Reserved for comsumer use } SMB_RESUME_KEY; typedef SMB_RESUME_KEY SMB_UNALIGNED *PSMB_RESUME_KEY; typedef struct _SMB_DIRECTORY_INFORMATION { SMB_RESUME_KEY ResumeKey; UCHAR FileAttributes; SMB_TIME LastWriteTime; SMB_DATE LastWriteDate; _ULONG( FileSize ); UCHAR FileName[13]; // ASCII, space-filled null terminated } SMB_DIRECTORY_INFORMATION; typedef SMB_DIRECTORY_INFORMATION SMB_UNALIGNED *PSMB_DIRECTORY_INFORMATION; #ifdef NO_PACKING #include #endif // def NO_PACKING #endif // def INCLUDE_SMB_SEARCH #ifdef INCLUDE_SMB_READ_WRITE // // Seek SMB, see #1 page 14 // Function is SrvSmbSeek // SMB_COM_SEEK 0x12 // typedef struct _REQ_SEEK { UCHAR WordCount; // Count of parameter words = 4 _USHORT( Fid ); // File handle _USHORT( Mode ); // Seek mode: // 0 = from start of file // 1 = from current position // 2 = from end of file _ULONG( Offset ); // Relative offset _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_SEEK; typedef REQ_SEEK SMB_UNALIGNED *PREQ_SEEK; typedef struct _RESP_SEEK { UCHAR WordCount; // Count of parameter words = 2 _ULONG( Offset ); // Offset from start of file _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_SEEK; typedef RESP_SEEK SMB_UNALIGNED *PRESP_SEEK; #endif // def INCLUDE_SMB_READ_WRITE #ifdef INCLUDE_SMB_MESSAGE // // Send Broadcast Message SMB, see #1 page 32 // Function is SrvSmbSendBroadcastMessage() // SMB_COM_SEND_BROADCAST_MESSAGE 0xD1 // typedef struct _REQ_SEND_BROADCAST_MESSAGE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 8 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat1; // 0x04 -- ASCII //UCHAR OriginatorName[]; // Originator name (max = 15) //UCHAR BufferFormat2; // 0x04 -- ASCII //UCHAR DestinationName[]; // "*" //UCHAR BufferFormat3; // 0x01 -- Data block //USHORT DataLength; // Length of message; max = 128 //UCHAR Data[]; // Message } REQ_SEND_BROADCAST_MESSAGE; typedef REQ_SEND_BROADCAST_MESSAGE SMB_UNALIGNED *PREQ_SEND_BROADCAST_MESSAGE; // No response for Send Broadcast Message #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_MESSAGE // // Send End of Multi-block Message SMB, see #1 page 33 // Function is SrvSmbSendEndMbMessage() // SMB_COM_SEND_END_MB_MESSAGE 0xD6 // typedef struct _REQ_SEND_END_MB_MESSAGE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( MessageGroupId ); _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_SEND_END_MB_MESSAGE; typedef REQ_SEND_END_MB_MESSAGE SMB_UNALIGNED *PREQ_SEND_END_MB_MESSAGE; typedef struct _RESP_SEND_END_MB_MESSAGE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_SEND_END_MB_MESSAGE; typedef RESP_SEND_END_MB_MESSAGE SMB_UNALIGNED *PRESP_SEND_END_MB_MESSAGE; #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_MESSAGE // // Send Single Block Message SMB, see #1 page 31 // Function is SrvSmbSendMessage() // SMB_COM_SEND_MESSAGE 0xD0 // typedef struct _REQ_SEND_MESSAGE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 7 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat1; // 0x04 -- ASCII //UCHAR OriginatorName[]; // Originator name (max = 15) //UCHAR BufferFormat2; // 0x04 -- ASCII //UCHAR DestinationName[]; // Destination name (max = 15) //UCHAR BufferFormat3; // 0x01 -- Data block //USHORT DataLength; // Length of message; max = 128 //UCHAR Data[]; // Message } REQ_SEND_MESSAGE; typedef REQ_SEND_MESSAGE SMB_UNALIGNED *PREQ_SEND_MESSAGE; typedef struct _RESP_SEND_MESSAGE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_SEND_MESSAGE; typedef RESP_SEND_MESSAGE SMB_UNALIGNED *PRESP_SEND_MESSAGE; #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_MESSAGE // // Send Start of Multi-block Message SMB, see #1 page 32 // Function is SrvSmbSendStartMbMessage() // SMB_COM_SEND_START_MB_MESSAGE 0xD5 // typedef struct _REQ_SEND_START_MB_MESSAGE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 0 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat1; // 0x04 -- ASCII //UCHAR OriginatorName[]; // Originator name (max = 15) //UCHAR BufferFormat2; // 0x04 -- ASCII //UCHAR DestinationName[]; // Destination name (max = 15) } REQ_SEND_START_MB_MESSAGE; typedef REQ_SEND_START_MB_MESSAGE SMB_UNALIGNED *PREQ_SEND_START_MB_MESSAGE; typedef struct _RESP_SEND_START_MB_MESSAGE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( MessageGroupId ); _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_SEND_START_MB_MESSAGE; typedef RESP_SEND_START_MB_MESSAGE SMB_UNALIGNED *PSEND_START_MB_MESSAGE; #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_MESSAGE // // Send Text of Multi-block Message SMB, see #1 page 33 // Function is SrvSmbSendTextMbMessage() // SMB_COM_SEND_TEXT_MB_MESSAGE 0xD7 // typedef struct _REQ_SEND_TEXT_MB_MESSAGE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( MessageGroupId ); _USHORT( ByteCount ); // Count of data bytes; min = 3 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x01 -- Data block //USHORT DataLength; // Length of message; max = 128 //UCHAR Data[]; // Message } REQ_SEND_TEXT_MB_MESSAGE; typedef REQ_SEND_TEXT_MB_MESSAGE SMB_UNALIGNED *PREQ_SEND_TEXT_MB_MESSAGE; typedef struct _RESP_SEND_TEXT_MB_MESSAGE { UCHAR WordCount; // Count of aprameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_SEND_TEXT_MB_MESSAGE; typedef RESP_SEND_TEXT_MB_MESSAGE SMB_UNALIGNED *PRESP_SEND_TEXT_MB_MESSAGE; #endif // def INCLUDE_SMB_MESSAGE #ifdef INCLUDE_SMB_ADMIN // // Session Setup and X SMB, see #2 page 63 and #3 page 10 // Function is SrvSmbSessionSetupAndX() // SMB_COM_SESSION_SETUP_ANDX 0x73 // typedef struct _REQ_SESSION_SETUP_ANDX { UCHAR WordCount; // Count of parameter words = 10 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( MaxBufferSize ); // Consumer's maximum buffer size _USHORT( MaxMpxCount ); // Actual maximum multiplexed pending requests _USHORT( VcNumber ); // 0 = first (only), nonzero=additional VC number _ULONG( SessionKey ); // Session key (valid iff VcNumber != 0) _USHORT( PasswordLength ); // Account password size _ULONG( Reserved ); _USHORT( ByteCount ); // Count of data bytes; min = 0 UCHAR Buffer[1]; // Buffer containing: //UCHAR AccountPassword[]; // Account Password //UCHAR AccountName[]; // Account Name //UCHAR PrimaryDomain[]; // Client's primary domain //UCHAR NativeOS[]; // Client's native operating system //UCHAR NativeLanMan[]; // Client's native LAN Manager type } REQ_SESSION_SETUP_ANDX; typedef REQ_SESSION_SETUP_ANDX SMB_UNALIGNED *PREQ_SESSION_SETUP_ANDX; typedef struct _REQ_NT_SESSION_SETUP_ANDX { UCHAR WordCount; // Count of parameter words = 13 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( MaxBufferSize ); // Consumer's maximum buffer size _USHORT( MaxMpxCount ); // Actual maximum multiplexed pending requests _USHORT( VcNumber ); // 0 = first (only), nonzero=additional VC number _ULONG( SessionKey ); // Session key (valid iff VcNumber != 0) _USHORT( CaseInsensitivePasswordLength ); // Account password size, ANSI _USHORT( CaseSensitivePasswordLength ); // Account password size, Unicode _ULONG( Reserved); _ULONG( Capabilities ); // Client capabilities _USHORT( ByteCount ); // Count of data bytes; min = 0 UCHAR Buffer[1]; // Buffer containing: //UCHAR CaseInsensitivePassword[]; // Account Password, ANSI //UCHAR CaseSensitivePassword[]; // Account Password, Unicode //UCHAR AccountName[]; // Account Name //UCHAR PrimaryDomain[]; // Client's primary domain //UCHAR NativeOS[]; // Client's native operating system //UCHAR NativeLanMan[]; // Client's native LAN Manager type } REQ_NT_SESSION_SETUP_ANDX; typedef REQ_NT_SESSION_SETUP_ANDX SMB_UNALIGNED *PREQ_NT_SESSION_SETUP_ANDX; // // Action flags in the response // #define SMB_SETUP_GUEST 0x0001 // Session setup as a guest #define SMB_SETUP_USE_LANMAN_KEY 0x0002 // Use the Lan Manager setup key. typedef struct _RESP_SESSION_SETUP_ANDX { UCHAR WordCount; // Count of parameter words = 3 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Action ); // Request mode: // bit0 = logged in as GUEST _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR NativeOS[]; // Server's native operating system //UCHAR NativeLanMan[]; // Server's native LAN Manager type //UCHAR PrimaryDomain[]; // Server's primary domain } RESP_SESSION_SETUP_ANDX; typedef RESP_SESSION_SETUP_ANDX SMB_UNALIGNED *PRESP_SESSION_SETUP_ANDX; #endif // def INCLUDE_SMB_ADMIN #ifdef INCLUDE_SMB_QUERY_SET // // Set Information SMB, see #1 page 19 // Function is SrvSmbSetInformation() // SMB_COM_SET_INFORMATION 0x09 // typedef struct _REQ_SET_INFORMATION { UCHAR WordCount; // Count of parameter words = 8 _USHORT( FileAttributes ); _ULONG( LastWriteTimeInSeconds ); _USHORT( Reserved )[5]; // Reserved (must be 0) _USHORT( ByteCount ); // Count of data bytes; min = 2 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x04 -- ASCII //UCHAR FileName[]; // File name } REQ_SET_INFORMATION; typedef REQ_SET_INFORMATION SMB_UNALIGNED *PREQ_SET_INFORMATION; typedef struct _RESP_SET_INFORMATION { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_SET_INFORMATION; typedef RESP_SET_INFORMATION SMB_UNALIGNED *PRESP_SET_INFORMATION; #endif // def INCLUDE_SMB_QUERY_SET #ifdef INCLUDE_SMB_QUERY_SET // // Set Information2 SMB, see #2 page 66 // Function is SrvSmbSetInformation2 // SMB_COM_SET_INFORMATION2 0x22 // typedef struct _REQ_SET_INFORMATION2 { UCHAR WordCount; // Count of parameter words = 7 _USHORT( Fid ); // File handle SMB_DATE CreationDate; SMB_TIME CreationTime; SMB_DATE LastAccessDate; SMB_TIME LastAccessTime; SMB_DATE LastWriteDate; SMB_TIME LastWriteTime; _USHORT( ByteCount ); // Count of data bytes; min = 0 UCHAR Buffer[1]; // Reserved buffer } REQ_SET_INFORMATION2; typedef REQ_SET_INFORMATION2 SMB_UNALIGNED *PREQ_SET_INFORMATION2; typedef struct _RESP_SET_INFORMATION2 { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_SET_INFORMATION2; typedef RESP_SET_INFORMATION2 SMB_UNALIGNED *PRESP_SET_INFORMATION2; #endif // def INCLUDE_SMB_QUERY_SET #ifdef INCLUDE_SMB_TRANSACTION // // Transaction and Transaction2 SMBs, see #2 page 68 and #3 page 13 // Function is SrvSmbTransaction() // SMB_COM_TRANSACTION 0x25 // SMB_COM_TRANSACTION_SECONDARY 0x26 // SMB_COM_TRANSACTION2 0x32 // SMB_COM_TRANSACTION2_SECONDARY 0x33 // // Structures for specific transaction types are defined in smbtrans.h. // // *** The Transaction2 secondary request format includes a USHORT Fid // field that we ignore. We can do this because the Fid field // occurs at the end of the word parameters part of the request, and // because the rest of the request (parameter and data bytes) is // pointed by offset fields occurring prior to the Fid field. (The // Fid field was added to speed up dispatching in the OS/2 server, // in which different worker processes handle each Fid. The NT // server has only one process.) // typedef struct _REQ_TRANSACTION { UCHAR WordCount; // Count of parameter words; value = (14 + SetupCount) _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( MaxParameterCount ); // Max parameter bytes to return _USHORT( MaxDataCount ); // Max data bytes to return UCHAR MaxSetupCount; // Max setup words to return UCHAR Reserved; _USHORT( Flags ); // Additional information: // bit 0 - also disconnect TID in Tid // bit 1 - one-way transacion (no resp) _ULONG( Timeout ); _USHORT( Reserved2 ); _USHORT( ParameterCount ); // Parameter bytes sent this buffer _USHORT( ParameterOffset ); // Offset (from header start) to params _USHORT( DataCount ); // Data bytes sent this buffer _USHORT( DataOffset ); // Offset (from header start) to data UCHAR SetupCount; // Count of setup words UCHAR Reserved3; // Reserved (pad above to word) UCHAR Buffer[1]; // Buffer containing: //USHORT Setup[]; // Setup words (# = SetupWordCount) //USHORT ByteCount; // Count of data bytes //UCHAR Name[]; // Name of transaction (NULL if Transact2) //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad1[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } REQ_TRANSACTION; typedef REQ_TRANSACTION SMB_UNALIGNED *PREQ_TRANSACTION; #define SMB_TRANSACTION_DISCONNECT 1 #define SMB_TRANSACTION_NO_RESPONSE 2 #define SMB_TRANSACTION_RECONNECTING 4 #define SMB_TRANSACTION_DFSFILE 8 typedef struct _RESP_TRANSACTION_INTERIM { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_TRANSACTION_INTERIM; typedef RESP_TRANSACTION_INTERIM SMB_UNALIGNED *PRESP_TRANSACTION_INTERIM; typedef struct _REQ_TRANSACTION_SECONDARY { UCHAR WordCount; // Count of parameter words = 8 _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( ParameterCount ); // Parameter bytes sent this buffer _USHORT( ParameterOffset ); // Offset (from header start) to params _USHORT( ParameterDisplacement ); // Displacement of these param bytes _USHORT( DataCount ); // Data bytes sent this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( DataDisplacement ); // Displacement of these data bytes _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad1[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } REQ_TRANSACTION_SECONDARY; typedef REQ_TRANSACTION_SECONDARY SMB_UNALIGNED *PREQ_TRANSACTION_SECONDARY; typedef struct _RESP_TRANSACTION { UCHAR WordCount; // Count of data bytes; value = 10 + SetupCount _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( Reserved ); _USHORT( ParameterCount ); // Parameter bytes sent this buffer _USHORT( ParameterOffset ); // Offset (from header start) to params _USHORT( ParameterDisplacement ); // Displacement of these param bytes _USHORT( DataCount ); // Data bytes sent this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( DataDisplacement ); // Displacement of these data bytes UCHAR SetupCount; // Count of setup words UCHAR Reserved2; // Reserved (pad above to word) UCHAR Buffer[1]; // Buffer containing: //USHORT Setup[]; // Setup words (# = SetupWordCount) //USHORT ByteCount; // Count of data bytes //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad1[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } RESP_TRANSACTION; typedef RESP_TRANSACTION SMB_UNALIGNED *PRESP_TRANSACTION; typedef struct _REQ_NT_TRANSACTION { UCHAR WordCount; // Count of parameter words; value = (19 + SetupCount) UCHAR MaxSetupCount; // Max setup words to return _USHORT( Flags ); // Currently unused _ULONG( TotalParameterCount ); // Total parameter bytes being sent _ULONG( TotalDataCount ); // Total data bytes being sent _ULONG( MaxParameterCount ); // Max parameter bytes to return _ULONG( MaxDataCount ); // Max data bytes to return _ULONG( ParameterCount ); // Parameter bytes sent this buffer _ULONG( ParameterOffset ); // Offset (from header start) to params _ULONG( DataCount ); // Data bytes sent this buffer _ULONG( DataOffset ); // Offset (from header start) to data UCHAR SetupCount; // Count of setup words _USHORT( Function ); // The transaction function code UCHAR Buffer[1]; //USHORT Setup[]; // Setup words (# = SetupWordCount) //USHORT ByteCount; // Count of data bytes //UCHAR Pad1[]; // Pad to LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad2[]; // Pad to LONG //UCHAR Data[]; // Data bytes (# = DataCount) } REQ_NT_TRANSACTION; typedef REQ_NT_TRANSACTION SMB_UNALIGNED *PREQ_NT_TRANSACTION; #define SMB_TRANSACTION_DISCONNECT 1 #define SMB_TRANSACTION_NO_RESPONSE 2 typedef struct _RESP_NT_TRANSACTION_INTERIM { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; } RESP_NT_TRANSACTION_INTERIM; typedef RESP_NT_TRANSACTION_INTERIM SMB_UNALIGNED *PRESP_NT_TRANSACTION_INTERIM; typedef struct _REQ_NT_TRANSACTION_SECONDARY { UCHAR WordCount; // Count of parameter words = 18 UCHAR Reserved1; // MBZ _USHORT( Reserved2 ); // MBZ _ULONG( TotalParameterCount ); // Total parameter bytes being sent _ULONG( TotalDataCount ); // Total data bytes being sent _ULONG( ParameterCount ); // Parameter bytes sent this buffer _ULONG( ParameterOffset ); // Offset (from header start) to params _ULONG( ParameterDisplacement ); // Displacement of these param bytes _ULONG( DataCount ); // Data bytes sent this buffer _ULONG( DataOffset ); // Offset (from header start) to data _ULONG( DataDisplacement ); // Displacement of these data bytes UCHAR Reserved3; _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; //UCHAR Pad1[]; // Pad to LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad2[]; // Pad to LONG //UCHAR Data[]; // Data bytes (# = DataCount) } REQ_NT_TRANSACTION_SECONDARY; typedef REQ_NT_TRANSACTION_SECONDARY SMB_UNALIGNED *PREQ_NT_TRANSACTION_SECONDARY; typedef struct _RESP_NT_TRANSACTION { UCHAR WordCount; // Count of data bytes; value = 18 + SetupCount UCHAR Reserved1; _USHORT( Reserved2 ); _ULONG( TotalParameterCount ); // Total parameter bytes being sent _ULONG( TotalDataCount ); // Total data bytes being sent _ULONG( ParameterCount ); // Parameter bytes sent this buffer _ULONG( ParameterOffset ); // Offset (from header start) to params _ULONG( ParameterDisplacement ); // Displacement of these param bytes _ULONG( DataCount ); // Data bytes sent this buffer _ULONG( DataOffset ); // Offset (from header start) to data _ULONG( DataDisplacement ); // Displacement of these data bytes UCHAR SetupCount; // Count of setup words UCHAR Buffer[1]; //USHORT Setup[]; // Setup words (# = SetupWordCount) //USHORT ByteCount; // Count of data bytes //UCHAR Pad1[]; // Pad to LONG //UCHAR Parameters[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad2[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } RESP_NT_TRANSACTION; typedef RESP_NT_TRANSACTION SMB_UNALIGNED *PRESP_NT_TRANSACTION; #endif // def INCLUDE_SMB_TRANSACTION #ifdef INCLUDE_SMB_TREE // // Tree Connect SMB, see #1, page 6 // Function is SrvSmbTreeConnect() // SMB_COM_TREE_CONNECT 0x70 // typedef struct _REQ_TREE_CONNECT { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes; min = 4 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat1; // 0x04 -- ASCII //UCHAR Path[]; // Server name and share name //UCHAR BufferFormat2; // 0x04 -- ASCII //UCHAR Password[]; // Password //UCHAR BufferFormat3; // 0x04 -- ASCII //UCHAR Service[]; // Service name } REQ_TREE_CONNECT; typedef REQ_TREE_CONNECT SMB_UNALIGNED *PREQ_TREE_CONNECT; typedef struct _RESP_TREE_CONNECT { UCHAR WordCount; // Count of parameter words = 2 _USHORT( MaxBufferSize ); // Max size message the server handles _USHORT( Tid ); // Tree ID _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_TREE_CONNECT; typedef RESP_TREE_CONNECT SMB_UNALIGNED *PRESP_TREE_CONNECT; #endif // def INCLUDE_SMB_TREE #ifdef INCLUDE_SMB_TREE // // Tree Connect and X SMB, see #2, page 88 // Function is SrvSmbTreeConnectAndX() // SMB_COM_TREE_CONNECT_ANDX 0x75 // // TREE_CONNECT_ANDX flags #define TREE_CONNECT_ANDX_DISCONNECT_TID (0x1) // #define TREE_CONNECT_ANDX_W95 (0x2) -- W95 sets this flag. Don't know why. typedef struct _REQ_TREE_CONNECT_ANDX { UCHAR WordCount; // Count of parameter words = 4 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Flags ); // Additional information // bit 0 set = disconnect Tid // bit 7 set = extended response _USHORT( PasswordLength ); // Length of Password[] _USHORT( ByteCount ); // Count of data bytes; min = 3 UCHAR Buffer[1]; // Buffer containing: //UCHAR Password[]; // Password //UCHAR Path[]; // Server name and share name //UCHAR Service[]; // Service name } REQ_TREE_CONNECT_ANDX; typedef REQ_TREE_CONNECT_ANDX SMB_UNALIGNED *PREQ_TREE_CONNECT_ANDX; typedef struct _RESP_TREE_CONNECT_ANDX { UCHAR WordCount; // Count of parameter words = 2 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( ByteCount ); // Count of data bytes; min = 3 UCHAR Buffer[1]; // Service type connected to } RESP_TREE_CONNECT_ANDX; typedef RESP_TREE_CONNECT_ANDX SMB_UNALIGNED *PRESP_TREE_CONNECT_ANDX; // // The response for clients that are LAN Manager 2.1 or better. // typedef struct _RESP_21_TREE_CONNECT_ANDX { UCHAR WordCount; // Count of parameter words = 3 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( OptionalSupport ); // Optional support bits _USHORT( ByteCount ); // Count of data bytes; min = 3 UCHAR Buffer[1]; // Buffer containing: //UCHAR Service[]; // Service type connected to //UCHAR NativeFileSystem[]; // Native file system for this tree } RESP_21_TREE_CONNECT_ANDX; typedef RESP_21_TREE_CONNECT_ANDX SMB_UNALIGNED *PRESP_21_TREE_CONNECT_ANDX; // // Optional Support bit definitions // #define SMB_SUPPORT_SEARCH_BITS 0x0001 #define SMB_SHARE_IS_IN_DFS 0x0002 #endif // def INCLUDE_SMB_TREE #ifdef INCLUDE_SMB_TREE // // Tree Disconnect SMB, see #1 page 7 // Function is SrvSmbTreeDisconnect() // SMB_COM_TREE_DISCONNECT 0x71 // typedef struct _REQ_TREE_DISCONNECT { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_TREE_DISCONNECT; typedef REQ_TREE_DISCONNECT SMB_UNALIGNED *PREQ_TREE_DISCONNECT; typedef struct _RESP_TREE_DISCONNECT { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_TREE_DISCONNECT; typedef RESP_TREE_DISCONNECT SMB_UNALIGNED *PRESP_TREE_DISCONNECT; #endif // def INCLUDE_SMB_TREE #ifdef INCLUDE_SMB_LOCK // // Unlock Byte Range SMB, see #1 page 20 // Function is SrvSmbUnlockByteRange() // SMB_COM_UNLOCK_BYTE_RANGE 0x0D // typedef struct _REQ_UNLOCK_BYTE_RANGE { UCHAR WordCount; // Count of parameter words = 5 _USHORT( Fid ); // File handle _ULONG( Count ); // Count of bytes to unlock _ULONG( Offset ); // Offset from start of file _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } REQ_UNLOCK_BYTE_RANGE; typedef REQ_UNLOCK_BYTE_RANGE SMB_UNALIGNED *PREQ_UNLOCK_BYTE_RANGE; typedef struct _RESP_UNLOCK_BYTE_RANGE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_UNLOCK_BYTE_RANGE; typedef RESP_UNLOCK_BYTE_RANGE SMB_UNALIGNED *PRESP_UNLOCK_BYTE_RANGE; #endif // def INCLUDE_SMB_LOCK #ifdef INCLUDE_SMB_READ_WRITE // // Write SMB, see #1 page 12 // Write and Unlock SMB, see #2 page 92 // Function is SrvSmbWrite() // SMB_COM_WRITE 0x0B // SMB_COM_WRITE_AND_UNLOCK 0x14 // // // *** Warning: the following structure is defined the way it is to // ensure longword alignment of the data buffer. (This only matters // when packing is disabled; when packing is turned on, the right // thing happens no matter what.) // typedef struct _REQ_WRITE { UCHAR WordCount; // Count of parameter words = 5 _USHORT( Fid ); // File handle _USHORT( Count ); // Number of bytes to be written _ULONG( Offset ); // Offset in file to begin write _USHORT( Remaining ); // Bytes remaining to satisfy request _USHORT( ByteCount ); // Count of data bytes //UCHAR Buffer[1]; // Buffer containing: UCHAR BufferFormat; // 0x01 -- Data block _USHORT( DataLength ); // Length of data ULONG Buffer[1]; // Data } REQ_WRITE; typedef REQ_WRITE SMB_UNALIGNED *PREQ_WRITE; typedef struct _RESP_WRITE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Count ); // Count of bytes actually written _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE; typedef RESP_WRITE SMB_UNALIGNED *PRESP_WRITE; #endif // def INCLUDE_SMB_READ_WRITE #ifdef INCLUDE_SMB_READ_WRITE // // Write and Close SMB, see #2 page 90 // Function is SrvSmbWriteAndClose() // SMB_COM_WRITE_AND_CLOSE 0x2C // // // The Write and Close parameters can be 6 words long or 12 words long, // depending on whether it's supposed to look like a Write SMB or a // Write and X SMB. So we define two different structures here. // // *** Warning: the following structures are defined the way they are to // ensure longword alignment of the data buffer. (This only matters // when packing is disabled; when packing is turned on, the right // thing happens no matter what.) // typedef struct _REQ_WRITE_AND_CLOSE { UCHAR WordCount; // Count of parameter words = 6 _USHORT( Fid ); // File handle _USHORT( Count ); // Number of bytes to write _ULONG( Offset ); // Offset in file of first byte to write _ULONG( LastWriteTimeInSeconds ); // Time of last write _USHORT( ByteCount ); // 1 (for pad) + value of Count UCHAR Pad; // To force to doubleword boundary ULONG Buffer[1]; // Data } REQ_WRITE_AND_CLOSE; typedef REQ_WRITE_AND_CLOSE SMB_UNALIGNED *PREQ_WRITE_AND_CLOSE; typedef struct _REQ_WRITE_AND_CLOSE_LONG { UCHAR WordCount; // Count of parameter words = 12 _USHORT( Fid ); // File handle _USHORT( Count ); // Number of bytes to write _ULONG( Offset ); // Offset in file of first byte to write _ULONG( LastWriteTimeInSeconds ); // Time of last write _ULONG( Reserved )[3]; // Reserved, must be 0 _USHORT( ByteCount ); // 1 (for pad) + value of Count UCHAR Pad; // To force to doubleword boundary ULONG Buffer[1]; // Data } REQ_WRITE_AND_CLOSE_LONG; typedef REQ_WRITE_AND_CLOSE_LONG SMB_UNALIGNED *PREQ_WRITE_AND_CLOSE_LONG; typedef struct _RESP_WRITE_AND_CLOSE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Count ); // Count of bytes actually written _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE_AND_CLOSE; typedef RESP_WRITE_AND_CLOSE SMB_UNALIGNED *PRESP_WRITE_AND_CLOSE; #endif // def INCLUDE_SMB_READ_WRITE #ifdef INCLUDE_SMB_READ_WRITE // // Write and X SMB, see #2 page 94 // Function is SrvSmbWriteAndX() // SMB_COM_WRITE_ANDX 0x2F // typedef struct _REQ_WRITE_ANDX { UCHAR WordCount; // Count of parameter words = 12 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Fid ); // File handle _ULONG( Offset ); // Offset in file to begin write _ULONG( Timeout ); _USHORT( WriteMode ); // Write mode: // 0 - write through // 1 - return Remaining // 2 - use WriteRawNamedPipe (n. pipes) // 3 - "this is the start of the msg" _USHORT( Remaining ); // Bytes remaining to satisfy request _USHORT( Reserved ); _USHORT( DataLength ); // Number of data bytes in buffer (>=0) _USHORT( DataOffset ); // Offset to data bytes _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (# = DataLength) } REQ_WRITE_ANDX; typedef REQ_WRITE_ANDX SMB_UNALIGNED *PREQ_WRITE_ANDX; typedef struct _REQ_NT_WRITE_ANDX { UCHAR WordCount; // Count of parameter words = 14 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Fid ); // File handle _ULONG( Offset ); // Offset in file to begin write _ULONG( Timeout ); _USHORT( WriteMode ); // Write mode: // 0 - write through // 1 - return Remaining // 2 - use WriteRawNamedPipe (n. pipes) // 3 - "this is the start of the msg" _USHORT( Remaining ); // Bytes remaining to satisfy request _USHORT( DataLengthHigh ); _USHORT( DataLength ); // Number of data bytes in buffer (>=0) _USHORT( DataOffset ); // Offset to data bytes _ULONG( OffsetHigh ); // Used for NT Protocol only // Upper 32 bits of offset _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (# = DataLength) } REQ_NT_WRITE_ANDX; typedef REQ_NT_WRITE_ANDX SMB_UNALIGNED *PREQ_NT_WRITE_ANDX; typedef struct _RESP_WRITE_ANDX { UCHAR WordCount; // Count of parameter words = 6 UCHAR AndXCommand; // Secondary (X) command; 0xFF = none UCHAR AndXReserved; // Reserved (must be 0) _USHORT( AndXOffset ); // Offset to next command WordCount _USHORT( Count ); // Number of bytes written _USHORT( Remaining ); // Bytes remaining to be read (pipe/dev) union { _ULONG( Reserved ); _USHORT( CountHigh ); // if large write&x }; _USHORT( ByteCount ); // Count of data bytes. Inaccurate if // large writes UCHAR Buffer[1]; // empty } RESP_WRITE_ANDX; typedef RESP_WRITE_ANDX SMB_UNALIGNED *PRESP_WRITE_ANDX; #endif // def INCLUDE_SMB_READ_WRITE #ifdef INCLUDE_SMB_MPX // // Write Block Multiplexed SMB, see #2 page 97 // Function is SrvSmbWriteMpx() // SMB_COM_WRITE_MPX 0x1E // SMB_COM_WRITE_MPX_SECONDARY 0x1F // SMB_COM_WRITE_MPX_COMPLETE 0x20 // typedef struct _REQ_WRITE_MPX { UCHAR WordCount; // Count of parameter words = 12 _USHORT( Fid ); // File handle _USHORT( Count ); // Total bytes, including this buffer _USHORT( Reserved ); _ULONG( Offset ); // Offset in file to begin write _ULONG( Timeout ); _USHORT( WriteMode ); // Write mode: // bit 0 - complete write to disk and // send final result response // bit 1 - return Remaining (pipe/dev) // bit 7 - IPX datagram mode union { struct { _USHORT( DataCompactionMode ); _USHORT( Reserved2 ); } ; _ULONG( Mask ); // IPX datagram mode mask } ; _USHORT( DataLength ); // Number of data bytes this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (# = DataLength) } REQ_WRITE_MPX; typedef REQ_WRITE_MPX SMB_UNALIGNED *PREQ_WRITE_MPX; typedef struct _RESP_WRITE_MPX_INTERIM { // First response UCHAR WordCount; // Count of parameter words = 1 _USHORT( Remaining ); // Bytes ramaining to be read (pipe/dev) _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE_MPX_INTERIM; typedef RESP_WRITE_MPX_INTERIM SMB_UNALIGNED *PRESP_WRITE_MPX_INTERIM; typedef struct _RESP_WRITE_MPX_DATAGRAM { // Response to sequenced request UCHAR WordCount; // Count of parameter words = 2 _ULONG( Mask ); // OR of all masks received _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE_MPX_DATAGRAM; typedef RESP_WRITE_MPX_DATAGRAM SMB_UNALIGNED *PRESP_WRITE_MPX_DATAGRAM; // Secondary request format, 0 to N of these. typedef struct _REQ_WRITE_MPX_SECONDARY { UCHAR WordCount; // Count of parameter words = 8 _USHORT( Fid ); // File handle _USHORT( Count ); // Total bytes to be sent _ULONG( Offset ); // Offset in file to begin write _ULONG( Reserved ); _USHORT( DataLength ); // Number of data bytes this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (# = DataLength) } REQ_WRITE_MPX_SECONDARY; typedef REQ_WRITE_MPX_SECONDARY SMB_UNALIGNED *PREQ_WRITE_MPX_SECONDARY; #endif // def INCLUDE_SMB_MPX #ifndef INCLUDE_SMB_WRITE_COMPLETE #ifdef INCLUDE_SMB_MPX #define INCLUDE_SMB_WRITE_COMPLETE #else #ifdef INCLUDE_SMB_RAW #define INCLUDE_SMB_WRITE_COMPLETE #endif #endif #endif #ifdef INCLUDE_SMB_WRITE_COMPLETE // // The following structure is used as the final response to both Write // Block Multiplexed and Write Block Raw. // typedef struct _RESP_WRITE_COMPLETE { // Final response; command is // SMB_COM_WRITE_COMPLETE UCHAR WordCount; // Count of parameter words = 1 _USHORT( Count ); // Total number of bytes written _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE_COMPLETE; typedef RESP_WRITE_COMPLETE SMB_UNALIGNED *PRESP_WRITE_COMPLETE; #endif // def INCLUDE_SMB_WRITE_COMPLETE #ifdef INCLUDE_SMB_READ_WRITE // // Write Print File SMB, see #1 page 29 // Function is SrvSmbWritePrintFile() // SMB_COM_WRITE_PRINT_FILE 0xC1 // typedef struct _REQ_WRITE_PRINT_FILE { UCHAR WordCount; // Count of parameter words = 1 _USHORT( Fid ); // File handle _USHORT( ByteCount ); // Count of data bytes; min = 4 UCHAR Buffer[1]; // Buffer containing: //UCHAR BufferFormat; // 0x01 -- Data block //USHORT DataLength; // Length of data //UCHAR Data[]; // Data } REQ_WRITE_PRINT_FILE; typedef REQ_WRITE_PRINT_FILE SMB_UNALIGNED *PREQ_WRITE_PRINT_FILE; typedef struct _RESP_WRITE_PRINT_FILE { UCHAR WordCount; // Count of parameter words = 0 _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE_PRINT_FILE; typedef RESP_WRITE_PRINT_FILE SMB_UNALIGNED *PRESP_WRITE_PRINT_FILE; #endif // def INCLUDE_SMB_READ_WRITE #ifdef INCLUDE_SMB_RAW // // Write Block Raw SMB, see #2 page 100 // Function is SrvSmbWriteRaw() // SMB_COM_WRITE_RAW 0x1D // typedef struct _REQ_WRITE_RAW { UCHAR WordCount; // Count of parameter words = 12 _USHORT( Fid ); // File handle _USHORT( Count ); // Total bytes, including this buffer _USHORT( Reserved ); _ULONG( Offset ); // Offset in file to begin write _ULONG( Timeout ); _USHORT( WriteMode ); // Write mode: // bit 0 - complete write to disk and // send final result response // bit 1 - return Remaining (pipe/dev) // (see WriteAndX for #defines) _ULONG( Reserved2 ); _USHORT( DataLength ); // Number of data bytes this buffer _USHORT( DataOffset ); // Offset (from header start) to data _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (# = DataLength) } REQ_WRITE_RAW; typedef REQ_WRITE_RAW SMB_UNALIGNED *PREQ_WRITE_RAW; typedef struct _REQ_NT_WRITE_RAW { UCHAR WordCount; // Count of parameter words = 14 _USHORT( Fid ); // File handle _USHORT( Count ); // Total bytes, including this buffer _USHORT( Reserved ); _ULONG( Offset ); // Offset in file to begin write _ULONG( Timeout ); _USHORT( WriteMode ); // Write mode: // bit 0 - complete write to disk and // send final result response // bit 1 - return Remaining (pipe/dev) // (see WriteAndX for #defines) _ULONG( Reserved2 ); _USHORT( DataLength ); // Number of data bytes this buffer _USHORT( DataOffset ); // Offset (from header start) to data _ULONG( OffsetHigh ); // Used for NT Protocol only // Upper 32 bits of offset _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR Pad[]; // Pad to SHORT or LONG //UCHAR Data[]; // Data (# = DataLength) } REQ_NT_WRITE_RAW; typedef REQ_NT_WRITE_RAW SMB_UNALIGNED *PREQ_NT_WRITE_RAW; typedef struct _RESP_WRITE_RAW_INTERIM { // First response UCHAR WordCount; // Count of parameter words = 1 _USHORT( Remaining ); // Bytes remaining to be read (pipe/dev) _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE_RAW_INTERIM; typedef RESP_WRITE_RAW_INTERIM SMB_UNALIGNED *PRESP_WRITE_RAW_INTERIM; typedef struct _RESP_WRITE_RAW_SECONDARY { // Second (final) response UCHAR WordCount; // Count of parameter words = 1 _USHORT( Count ); // Total number of bytes written _USHORT( ByteCount ); // Count of data bytes = 0 UCHAR Buffer[1]; // empty } RESP_WRITE_RAW_SECONDARY; typedef RESP_WRITE_RAW_SECONDARY SMB_UNALIGNED *PRESP_WRITE_RAW_SECONDARY; typedef struct _REQ_103_WRITE_RAW { UCHAR WordCount; // Count of parameter words _USHORT( Fid ); // File handle _USHORT( Count ); _USHORT( Reserved ); _ULONG( Offset ); _ULONG( Timeout ); _USHORT( WriteMode ); _ULONG( Reserved2 ); _USHORT( ByteCount ); // Count of data bytes; min = UCHAR Buffer[1]; // } REQ_103_WRITE_RAW; typedef REQ_103_WRITE_RAW SMB_UNALIGNED *PREQ_103_WRITE_RAW; typedef struct _RESP_103_WRITE_RAW { UCHAR WordCount; // Count of parameter words _USHORT( ByteCount ); // Count of data bytes; min = UCHAR Buffer[1]; // } RESP_103_WRITE_RAW; typedef RESP_103_WRITE_RAW SMB_UNALIGNED *PRESP_103_WRITE_RAW; #endif // def INCLUDE_SMB_RAW typedef struct _REQ_NT_CANCEL { UCHAR WordCount; // = 0 _USHORT( ByteCount ); // = 0 UCHAR Buffer[1]; } REQ_NT_CANCEL; typedef REQ_NT_CANCEL SMB_UNALIGNED *PREQ_NT_CANCEL; typedef struct _RESP_NT_CANCEL { UCHAR WordCount; // = 0 _USHORT( ByteCount ); // = 0 UCHAR Buffer[1]; } RESP_NT_CANCEL; typedef RESP_NT_CANCEL SMB_UNALIGNED *PRESP_NT_CANCEL; // // File open modes // #define SMB_ACCESS_READ_ONLY 0 #define SMB_ACCESS_WRITE_ONLY 1 #define SMB_ACCESS_READ_WRITE 2 #define SMB_ACCESS_EXECUTE 3 // // Open flags // #define SMB_OPEN_QUERY_INFORMATION 0x01 #define SMB_OPEN_OPLOCK 0x02 #define SMB_OPEN_OPBATCH 0x04 #define SMB_OPEN_QUERY_EA_LENGTH 0x08 #define SMB_OPEN_EXTENDED_RESPONSE 0x10 // // NT open manifests // #define NT_CREATE_REQUEST_OPLOCK 0x02 #define NT_CREATE_REQUEST_OPBATCH 0x04 #define NT_CREATE_OPEN_TARGET_DIR 0x08 #define Added 0 #define Removed 1 #define Modified 2 #define RenamedOldName 3 #define RenamedNewName 4 // // Lockrange for use with OS/2 DosFileLocks call // // *** Where is this used? //typedef struct lockrange { // ULONG offset; // ULONG range; // }; //#define LOCK 0x1 //#define UNLOCK 0x2 // // Data buffer format codes, from the core protocol. // #define SMB_FORMAT_DATA 1 #define SMB_FORMAT_DIALECT 2 #define SMB_FORMAT_PATHNAME 3 #define SMB_FORMAT_ASCII 4 #define SMB_FORMAT_VARIABLE 5 // // WriteMode flags // #define SMB_WMODE_WRITE_THROUGH 0x0001 // complete write before responding #define SMB_WMODE_SET_REMAINING 0x0002 // returning amt remaining in pipe #define SMB_WMODE_WRITE_RAW_NAMED_PIPE 0x0004 // write named pipe in raw mode #define SMB_WMODE_START_OF_MESSAGE 0x0008 // start of pipe message #define SMB_WMODE_DATAGRAM 0x0080 // start of pipe message // // Various SMB flags: // // // If the server supports LockAndRead and WriteAndUnlock, it sets this // bit the Negotiate response. // #define SMB_FLAGS_LOCK_AND_READ_OK 0x01 // // When on, the consumer guarantees that there is a receive buffer posted // such that a "Send.No.Ack" can be used by the server to respond to // the consumer's request. // #define SMB_FLAGS_SEND_NO_ACK 0x2 // // This is part of the Flags field of every SMB header. If this bit // is set, then all pathnames in the SMB should be treated as case- // insensitive. // #define SMB_FLAGS_CASE_INSENSITIVE 0x8 // // When on in session setup, this bit indicates that all paths sent to // the server are already in OS/2 canonicalized format. // #define SMB_FLAGS_CANONICALIZED_PATHS 0x10 // // When on in a open file request SMBs (open, create, openX, etc.) this // bit indicates a request for an oplock on the file. When on in the // response, this bit indicates that the oplock was granted. // #define SMB_FLAGS_OPLOCK 0x20 // // When on, this bit indicates that the server should notify the client // on any request that could cause the file to be changed. If not set, // the server only notifies the client on other open requests on the // file. // #define SMB_FLAGS_OPLOCK_NOTIFY_ANY 0x40 // // This bit indicates that the SMB is being sent from server to redir. // #define SMB_FLAGS_SERVER_TO_REDIR 0x80 // // Valid bits for Flags on an incoming SMB // #define INCOMING_SMB_FLAGS \ (SMB_FLAGS_LOCK_AND_READ_OK | \ SMB_FLAGS_SEND_NO_ACK | \ SMB_FLAGS_CASE_INSENSITIVE | \ SMB_FLAGS_CANONICALIZED_PATHS | \ SMB_FLAGS_OPLOCK_NOTIFY_ANY | \ SMB_FLAGS_OPLOCK) // // Names for bits in Flags2 field of SMB header that indicate what the // client app is aware of. // #define SMB_FLAGS2_KNOWS_LONG_NAMES 0x0001 #define SMB_FLAGS2_KNOWS_EAS 0x0002 #define SMB_FLAGS2_SMB_SECURITY_SIGNATURE 0x0004 #define SMB_FLAGS2_IS_LONG_NAME 0x0040 #define SMB_FLAGS2_DFS 0x1000 #define SMB_FLAGS2_PAGING_IO 0x2000 #define SMB_FLAGS2_NT_STATUS 0x4000 #define SMB_FLAGS2_UNICODE 0x8000 // // Valid bits for Flags2 on an incoming SMB // #define INCOMING_SMB_FLAGS2 \ (SMB_FLAGS2_KNOWS_LONG_NAMES | \ SMB_FLAGS2_KNOWS_EAS | \ SMB_FLAGS2_DFS | \ SMB_FLAGS2_PAGING_IO | \ SMB_FLAGS2_IS_LONG_NAME | \ SMB_FLAGS2_NT_STATUS | \ SMB_FLAGS2_UNICODE ) // // The SMB open function determines what action should be taken depending // on the existence or lack thereof of files used in the operation. It // has the following mapping: // // 1111 1 // 5432 1098 7654 3210 // rrrr rrrr rrrC rrOO // // where: // // O - Open (action to be taken if the target file exists) // 0 - Fail // 1 - Open or Append file // 2 - Truncate file // // C - Create (action to be taken if the target file does not exist) // 0 - Fail // 1 - Create file // #define SMB_OFUN_OPEN_MASK 0x3 #define SMB_OFUN_CREATE_MASK 0x10 #define SMB_OFUN_OPEN_FAIL 0 #define SMB_OFUN_OPEN_APPEND 1 #define SMB_OFUN_OPEN_OPEN 1 #define SMB_OFUN_OPEN_TRUNCATE 2 #define SMB_OFUN_CREATE_FAIL 0x00 #define SMB_OFUN_CREATE_CREATE 0x10 //++ // // BOOLEAN // SmbOfunCreate( // IN USHORT SmbOpenFunction // ) // //-- #define SmbOfunCreate(SmbOpenFunction) \ (BOOLEAN)((SmbOpenFunction & SMB_OFUN_CREATE_MASK) == SMB_OFUN_CREATE_CREATE) //++ // // BOOLEAN // SmbOfunAppend( // IN USHORT SmbOpenFunction // ) // //-- #define SmbOfunAppend(SmbOpenFunction) \ (BOOLEAN)((SmbOpenFunction & SMB_OFUN_OPEN_MASK) == SMB_OFUN_OPEN_APPEND) //++ // // BOOLEAN // SmbOfunTruncate( // IN USHORT SmbOpenFunction // ) // //-- #define SmbOfunTruncate(SmbOpenFunction) \ (BOOLEAN)((SmbOpenFunction & SMB_OFUN_OPEN_MASK) == SMB_OFUN_OPEN_TRUNCATE) // // The desired access mode passed in Open and Open and X has the following // mapping: // // 1111 11 // 5432 1098 7654 3210 // rWrC rLLL rSSS rAAA // // where: // // W - Write through mode. No read ahead or write behind allowed on // this file or device. When protocol is returned, data is expected // to be on the disk or device. // // S - Sharing mode: // 0 - Compatibility mode (as in core open) // 1 - Deny read/write/execute (exclusive) // 2 - Deny write // 3 - Deny read/execute // 4 - Deny none // // A - Access mode // 0 - Open for reading // 1 - Open for writing // 2 - Open for reading and writing // 3 - Open for execute // // rSSSrAAA = 11111111 (hex FF) indicates FCB open (as in core protocol) // // C - Cache mode // 0 - Normal file // 1 - Do not cache this file // // L - Locality of reference // 0 - Locality of reference is unknown // 1 - Mainly sequential access // 2 - Mainly random access // 3 - Random access with some locality // 4 to 7 - Currently undefined // #define SMB_DA_SHARE_MASK 0x70 #define SMB_DA_ACCESS_MASK 0x07 #define SMB_DA_FCB_MASK (UCHAR)0xFF #define SMB_DA_ACCESS_READ 0x00 #define SMB_DA_ACCESS_WRITE 0x01 #define SMB_DA_ACCESS_READ_WRITE 0x02 #define SMB_DA_ACCESS_EXECUTE 0x03 #define SMB_DA_SHARE_COMPATIBILITY 0x00 #define SMB_DA_SHARE_EXCLUSIVE 0x10 #define SMB_DA_SHARE_DENY_WRITE 0x20 #define SMB_DA_SHARE_DENY_READ 0x30 #define SMB_DA_SHARE_DENY_NONE 0x40 #define SMB_DA_FCB (UCHAR)0xFF #define SMB_CACHE_NORMAL 0x0000 #define SMB_DO_NOT_CACHE 0x1000 #define SMB_LR_UNKNOWN 0x0000 #define SMB_LR_SEQUENTIAL 0x0100 #define SMB_LR_RANDOM 0x0200 #define SMB_LR_RANDOM_WITH_LOCALITY 0x0300 #define SMB_LR_MASK 0x0F00 #define SMB_DA_WRITE_THROUGH 0x4000 // // The Action field of OpenAndX has the following format: // // 1111 11 // 5432 1098 7654 3210 // Lrrr rrrr rrrr rrOO // // where: // // L - Opportunistic lock. 1 if lock granted, else 0. // // O - Open action: // 1 - The file existed and was opened // 2 - The file did not exist but was created // 3 - The file existed and was truncated // #define SMB_OACT_OPENED 0x01 #define SMB_OACT_CREATED 0x02 #define SMB_OACT_TRUNCATED 0x03 #define SMB_OACT_OPLOCK 0x8000 // // These flags are passed in the Flags field of the copy and extended rename // SMBs. // // // If set, the target must be a file or directory. // #define SMB_TARGET_IS_FILE 0x1 #define SMB_TARGET_IS_DIRECTORY 0x2 // // The copy mode--if set, ASCII copying should be done, otherwise binary. // #define SMB_COPY_TARGET_ASCII 0x4 #define SMB_COPY_SOURCE_ASCII 0x8 #define SMB_COPY_TREE 0x20 // // If set, verify all writes. // #define SMB_VERIFY_WRITES // // Define file attribute bits as used in the SMB protocol. The specific // bit positions are, for the most part, identical to those used in NT. // However, NT does not define Volume and Directory bits. It also has // an explicit Normal bit; this bit is implied in SMB attributes by // Hidden, System, and Directory being off. // #define SMB_FILE_ATTRIBUTE_READONLY 0x01 #define SMB_FILE_ATTRIBUTE_HIDDEN 0x02 #define SMB_FILE_ATTRIBUTE_SYSTEM 0x04 #define SMB_FILE_ATTRIBUTE_VOLUME 0x08 #define SMB_FILE_ATTRIBUTE_DIRECTORY 0x10 #define SMB_FILE_ATTRIBUTE_ARCHIVE 0x20 // // Share type strings are passed in SMBs to indicate what type of shared // resource is being or has been connected to. // #define SHARE_TYPE_NAME_DISK "A:" #define SHARE_TYPE_NAME_PIPE "IPC" #define SHARE_TYPE_NAME_COMM "COMM" #define SHARE_TYPE_NAME_PRINT "LPT1:" #define SHARE_TYPE_NAME_WILD "?????" // // SMB Error codes: // // // Success Class: // #define SMB_ERR_SUCCESS (UCHAR)0x00 // // DOS Error Class: // #define SMB_ERR_CLASS_DOS (UCHAR)0x01 #define SMB_ERR_BAD_FUNCTION 1 // Invalid function #define SMB_ERR_BAD_FILE 2 // File not found #define SMB_ERR_BAD_PATH 3 // Invalid directory #define SMB_ERR_NO_FIDS 4 // Too many open files #define SMB_ERR_ACCESS_DENIED 5 // Access not allowed for req. func. #define SMB_ERR_BAD_FID 6 // Invalid file handle #define SMB_ERR_BAD_MCB 7 // Memory control blocks destroyed #define SMB_ERR_INSUFFICIENT_MEMORY 8 // For the desired function #define SMB_ERR_BAD_MEMORY 9 // Invalid memory block address #define SMB_ERR_BAD_ENVIRONMENT 10 // Invalid environment #define SMB_ERR_BAD_FORMAT 11 // Invalid format #define SMB_ERR_BAD_ACCESS 12 // Invalid open mode #define SMB_ERR_BAD_DATA 13 // Invalid data (only from IOCTL) #define SMB_ERR_RESERVED 14 #define SMB_ERR_BAD_DRIVE 15 // Invalid drive specified #define SMB_ERR_CURRENT_DIRECTORY 16 // Attempted to remove currect directory #define SMB_ERR_DIFFERENT_DEVICE 17 // Not the same device #define SMB_ERR_NO_FILES 18 // File search can't find more files #define SMB_ERR_BAD_SHARE 32 // An open conflicts with FIDs on file #define SMB_ERR_LOCK 33 // Conflict with existing lock #define SMB_ERR_FILE_EXISTS 80 // Tried to overwrite existing file #define SMB_ERR_BAD_PIPE 230 // Invalie pipe #define SMB_ERR_PIPE_BUSY 231 // All instances of the pipe are busy #define SMB_ERR_PIPE_CLOSING 232 // Pipe close in progress #define SMB_ERR_PIPE_NOT_CONNECTED 233 // No process on other end of pipe #define SMB_ERR_MORE_DATA 234 // There is more data to return // // SERVER Error Class: // #define SMB_ERR_CLASS_SERVER (UCHAR)0x02 #define SMB_ERR_ERROR 1 // Non-specific error code #define SMB_ERR_BAD_PASSWORD 2 // Bad name/password pair #define SMB_ERR_BAD_TYPE 3 // Reserved #define SMB_ERR_ACCESS 4 // Requester lacks necessary access #define SMB_ERR_BAD_TID 5 // Invalid TID #define SMB_ERR_BAD_NET_NAME 6 // Invalid network name in tree connect #define SMB_ERR_BAD_DEVICE 7 // Invalid device request #define SMB_ERR_QUEUE_FULL 49 // Print queue full--returned print file #define SMB_ERR_QUEUE_TOO_BIG 50 // Print queue full--no space #define SMB_ERR_QUEUE_EOF 51 // EOF on print queue dump #define SMB_ERR_BAD_PRINT_FID 52 // Invalid print file FID #define SMB_ERR_BAD_SMB_COMMAND 64 // SMB command not recognized #define SMB_ERR_SERVER_ERROR 65 // Internal server error #define SMB_ERR_FILE_SPECS 67 // FID and pathname were incompatible #define SMB_ERR_RESERVED2 68 #define SMB_ERR_BAD_PERMITS 69 // Access permissions invalid #define SMB_ERR_RESERVED3 70 #define SMB_ERR_BAD_ATTRIBUTE_MODE 71 // Invalid attribute mode specified #define SMB_ERR_SERVER_PAUSED 81 // Server is paused #define SMB_ERR_MESSAGE_OFF 82 // Server not receiving messages #define SMB_ERR_NO_ROOM 83 // No room for buffer message #define SMB_ERR_TOO_MANY_NAMES 87 // Too many remote user names #define SMB_ERR_TIMEOUT 88 // Operation was timed out #define SMB_ERR_NO_RESOURCE 89 // No resources available for request #define SMB_ERR_TOO_MANY_UIDS 90 // Too many UIDs active in session #define SMB_ERR_BAD_UID 91 // UID not known as a valid UID #define SMB_ERR_INVALID_NAME 123 // Invalid name returned from FAT. #define SMB_ERR_INVALID_NAME_RANGE 206 // Non 8.3 name passed to FAT (or non 255 name to HPFS) #define SMB_ERR_USE_MPX 250 // Can't support Raw; use MPX #define SMB_ERR_USE_STANDARD 251 // Can't support Raw, use standard r/w #define SMB_ERR_CONTINUE_MPX 252 // Reserved #define SMB_ERR_RESERVED4 253 #define SMB_ERR_RESERVED5 254 #define SMB_ERR_NO_SUPPORT_INTERNAL 255 // Internal code for NO_SUPPORT-- // allows codes to be stored in a byte #define SMB_ERR_NO_SUPPORT (USHORT)0xFFFF // Function not supported // // HARDWARE Error Class: // #define SMB_ERR_CLASS_HARDWARE (UCHAR)0x03 #define SMB_ERR_NO_WRITE 19 // Write attempted to write-prot. disk #define SMB_ERR_BAD_UNIT 20 // Unknown unit #define SMB_ERR_DRIVE_NOT_READY 21 // Disk drive not ready #define SMB_ERR_BAD_COMMAND 22 // Unknown command #define SMB_ERR_DATA 23 // Data error (CRC) #define SMB_ERR_BAD_REQUEST 24 // Bad request structure length #define SMB_ERR_SEEK 25 // Seek error #define SMB_ERR_BAD_MEDIA 26 // Unknown media type #define SMB_ERR_BAD_SECTOR 27 // Sector not found #define SMB_ERR_NO_PAPER 28 // Printer out of paper #define SMB_ERR_WRITE_FAULT 29 // Write fault #define SMB_ERR_READ_FAULT 30 // Read fault #define SMB_ERR_GENERAL 31 // General failure #define SMB_ERR_LOCK_CONFLICT 33 // Lock conflicts with existing lock #define SMB_ERR_WRONG_DISK 34 // Wrong disk was found in a drive #define SMB_ERR_FCB_UNAVAILABLE 35 // No FCBs available to process request #define SMB_ERR_SHARE_BUFFER_EXCEEDED 36 #define SMB_ERR_DISK_FULL 39 // !!! Undocumented, but in LM2.0 // // Other Error Classes: // #define SMB_ERR_CLASS_XOS (UCHAR)0x04 // Reserved for XENIX #define SMB_ERR_CLASS_RMX1 (UCHAR)0xE1 // Reserved for iRMX #define SMB_ERR_CLASS_RMX2 (UCHAR)0xE2 // Reserved for iRMX #define SMB_ERR_CLASS_RMX3 (UCHAR)0xE3 // Reserved for iRMX #define SMB_ERR_CLASS_COMMAND (UCHAR)0xFF // Command was not in the SMB format // // Turn structure packing back off // #ifndef NO_PACKING #include #endif // ndef NO_PACKING // Old (LanMan 1.2) and new (NT) field names: // (Undocumented fields have corresponding structure in parenthesis) // smb_access Access // smb_action Action // smb_adate AccessDate // smb_allocsize AllocationSize // smb_aname AccountName // smb_apasslen PasswordSize // smb_apasswd AccountPassword // smb_atime AccessTime // smb_attr Attribute // smb_attribute Attribute // smb_aunits (RESP_QUERY_INFORMATION_SERVER) // smb_bcc BufferSize // smb_blkmode BlockMode // smb_blksize BlockSize // smb_blksperunit BlocksPerUnit // smb_bpu BlocksPerUnit // smb_bs BlockSize // smb_bufsize MaxBufferSize // smb_buf[1] Buffer[1] // smb_bytes[*] Bytes[*] // smb_cat Category // smb_cct FilesCopied // smb_cdate CreateDate // smb_cert CertificateOffset // smb_com Command // smb_com2 AndXCommand // smb_count Count // smb_count_left Remaining // smb_cryptkey[*] CryptKey // smb_ctime CreateTime // smb_datablock DataBlock // smb_datalen DataSize // smb_datasize DataSize // smb_data[*] Data[*] // smb_dcmode DataCompactMode // smb_dev DeviceName // smb_doff DataOffset // smb_drcnt DataCount // smb_drdisp DataDisplacement // smb_droff DataOffset // smb_dscnt DataCount // smb_dsdisp DataDisplacement // smb_dsize DataSize // smb_dsoff DataOffset // smb_encrypt EncryptKey // smb_encryptlen EncryptKeySize // smb_encryptoff EncryptKeyOffset // smb_eos EndOfSearch // smb_err Error // smb_errmsg[1] ErrorMessage[1] // smb_fau (RESP_QUERY_INFORMATION_SERVER) // smb_fid Fid // smb_fileid ServerFid // smb_flag Flag // smb_flag2 Flag2 // smb_flags Flag // smb_flg Flag // smb_freeunits FreeUnits // smb_fsid (RESP_QUERY_INFORMATION_SERVER) // smb_fsize FileSize // smb_fun Function // smb_gid Gid // smb_handle Handle // smb_ident1 Identifier // smb_idf[4] Protocol[4] // smb_index Index // smb_info Info // smb_left Remaining // smb_len SetupLength // smb_locknum NumberOfLocks // smb_lockrng[*] LockRange // smb_locktype LockType // smb_lpid OwnerPid // smb_maxbytes MaxBytes // smb_maxcnt MaxCount // smb_maxcount MaxCount // smb_maxmux (RESP_NEGOTIATE) // smb_maxvcs MaxNumberVcs // smb_maxxmitsz MaxTransmitSize // smb_maxxmt MaxTransmitSize // smb_mdate ModificationDate // smb_mdrcnt MaxDataCount // smb_mid Mid // smb_mincnt MinCount // smb_mode Mode // smb_mprcnt MaxParameterCount // smb_mpxmax MaxMpxCount // smb_msrcnt MaxSetupCount // smb_mtime ModificationTime // smb_name[*] Name[*] // smb_off2 AndXOffset // smb_offset Offset // smb_ofun OpenFunction // smb_pad Pad // smb_pad1[] Pad1 // smb_pad[] Pad[] // smb_param[*] Parameter[*] // smb_path ServerName // smb_pathname PathName // smb_pid Pid // smb_prcnt ParameterCount // smb_prdisp ParameterDisplacement // smb_proff ParameterCount // smb_pscnt ParameterCount // smb_psdisp ParameterDisplacement // smb_psoff ParameterOffset // smb_range LockLength or UnlockLength // smb_rcls ErrorClass // smb_reh ReservedH // smb_reh2 ReservedH2 // smb_remaining Remaining // smb_remcnt Remaining // smb_res1 Reserved // smb_res2 Reserved2 // smb_res3 Reserved3 // smb_res4 Reserved4 // smb_res5 Reserved5 // smb_reserved Reserved // smb_restart Restart // smb_resumekey ResumeKey // smb_res[5] Reserved[] // smb_reverb ReverbCount // smb_rsvd Reserved // smb_rsvd1 Reserved // smb_rsvd2 Reserved2 // smb_rsvd3 Reserved3 // smb_rsvd4 Reserved4 // smb_sattr SearchAttribute // smb_secmode SecurityMode // smb_seq SequenceNumber // smb_services Services // smb_sesskey SessionKey // smb_setup[*] Setup[*] // smb_size Size // smb_spasslen ServerPasswordSize // smb_spasswd ServerPassword // smb_srv_date ServerDate // smb_srv_time ServerTime // smb_srv_tzone ServerTimeZone // smb_start StartIndex // smb_state DeviceState // smb_suwcnt SetupWordCount // smb_su_class SetupClass // smb_su_com SetupCommand // smb_su_handle SetupFid // smb_su_opcode SetupOpcode // smb_su_priority SetupPriority // smb_tcount Count // smb_tdis TreeDisconnect // smb_tdrcnt TotalDataCount // smb_tdscnt TotalDataCount // smb_tid Tid // smb_tid2 Tid2 // smb_time Time // smb_timeout Timeout // smb_totalunits TotalUnits // smb_tprcnt TotalParameterCount // smb_tpscnt TotalParameterCount // smb_type FileType // smb_uid Uid // smb_unlkrng[*] UnlockRange // smb_unlocknum NumberOfUnlocks // smb_vblen DataLength // smb_vcnum VcNumber // smb_vldate (RESP_QUERY_INFORMATION_SERVER) // smb_vllen (RESP_QUERY_INFORMATION_SERVER) // smb_vltime (RESP_QUERY_INFORMATION_SERVER) // smb_vwv[1] Param // smb_wct WordCount // smb_wmode WriteMode // smb_xchain EncryptChainOffset // // Force misalignment of the following structures // #ifndef NO_PACKING #include #endif // ndef NO_PACKING // // Named pipe function codes // #define TRANS_SET_NMPIPE_STATE 0x01 #define TRANS_RAW_READ_NMPIPE 0x11 #define TRANS_QUERY_NMPIPE_STATE 0x21 #define TRANS_QUERY_NMPIPE_INFO 0x22 #define TRANS_PEEK_NMPIPE 0x23 #define TRANS_TRANSACT_NMPIPE 0x26 #define TRANS_RAW_WRITE_NMPIPE 0x31 #define TRANS_READ_NMPIPE 0x36 #define TRANS_WRITE_NMPIPE 0x37 #define TRANS_WAIT_NMPIPE 0x53 #define TRANS_CALL_NMPIPE 0x54 // // Mailslot function code // #define TRANS_MAILSLOT_WRITE 0x01 // // Transaction2 function codes // #define TRANS2_OPEN2 0x00 #define TRANS2_FIND_FIRST2 0x01 #define TRANS2_FIND_NEXT2 0x02 #define TRANS2_QUERY_FS_INFORMATION 0x03 #define TRANS2_SET_FS_INFORMATION 0x04 #define TRANS2_QUERY_PATH_INFORMATION 0x05 #define TRANS2_SET_PATH_INFORMATION 0x06 #define TRANS2_QUERY_FILE_INFORMATION 0x07 #define TRANS2_SET_FILE_INFORMATION 0x08 #define TRANS2_FSCTL 0x09 #define TRANS2_IOCTL2 0x0A #define TRANS2_FIND_NOTIFY_FIRST 0x0B #define TRANS2_FIND_NOTIFY_NEXT 0x0C #define TRANS2_CREATE_DIRECTORY 0x0D #define TRANS2_SESSION_SETUP 0x0E #define TRANS2_QUERY_FS_INFORMATION_FID 0x0F #define TRANS2_GET_DFS_REFERRAL 0x10 #define TRANS2_REPORT_DFS_INCONSISTENCY 0x11 #define TRANS2_MAX_FUNCTION 0x11 // // Nt Transaction function codes // #define NT_TRANSACT_MIN_FUNCTION 1 #define NT_TRANSACT_CREATE 1 #define NT_TRANSACT_IOCTL 2 #define NT_TRANSACT_SET_SECURITY_DESC 3 #define NT_TRANSACT_NOTIFY_CHANGE 4 #define NT_TRANSACT_RENAME 5 #define NT_TRANSACT_QUERY_SECURITY_DESC 6 #define NT_TRANSACT_QUERY_QUOTA 7 #define NT_TRANSACT_SET_QUOTA 8 #define NT_TRANSACT_MAX_FUNCTION 8 // // File information levels // #define SMB_INFO_STANDARD 1 #define SMB_INFO_QUERY_EA_SIZE 2 #define SMB_INFO_SET_EAS 2 #define SMB_INFO_QUERY_EAS_FROM_LIST 3 #define SMB_INFO_QUERY_ALL_EAS 4 // undocumented but supported #define SMB_INFO_QUERY_FULL_NAME 5 // never sent by redir #define SMB_INFO_IS_NAME_VALID 6 #define SMB_INFO_PASSTHROUGH 1000 // any info above here is a simple pass-through // // NT extension to file info levels // #define SMB_QUERY_FILE_BASIC_INFO 0x101 #define SMB_QUERY_FILE_STANDARD_INFO 0x102 #define SMB_QUERY_FILE_EA_INFO 0x103 #define SMB_QUERY_FILE_NAME_INFO 0x104 #define SMB_QUERY_FILE_ALLOCATION_INFO 0x105 #define SMB_QUERY_FILE_END_OF_FILEINFO 0x106 #define SMB_QUERY_FILE_ALL_INFO 0x107 #define SMB_QUERY_FILE_ALT_NAME_INFO 0x108 #define SMB_QUERY_FILE_STREAM_INFO 0x109 #define SMB_QUERY_FILE_COMPRESSION_INFO 0x10B #define SMB_SET_FILE_BASIC_INFO 0x101 #define SMB_SET_FILE_DISPOSITION_INFO 0x102 #define SMB_SET_FILE_ALLOCATION_INFO 0x103 #define SMB_SET_FILE_END_OF_FILE_INFO 0x104 #define SMB_QUERY_FS_LABEL_INFO 0x101 #define SMB_QUERY_FS_VOLUME_INFO 0x102 #define SMB_QUERY_FS_SIZE_INFO 0x103 #define SMB_QUERY_FS_DEVICE_INFO 0x104 #define SMB_QUERY_FS_ATTRIBUTE_INFO 0x105 #define SMB_QUERY_FS_QUOTA_INFO 0x106 // unused? #define SMB_QUERY_FS_CONTROL_INFO 0x107 // // Volume information levels. // #define SMB_INFO_ALLOCATION 1 #define SMB_INFO_VOLUME 2 // // Rename2 information levels. // #define SMB_NT_RENAME_MOVE_CLUSTER_INFO 0x102 #define SMB_NT_RENAME_SET_LINK_INFO 0x103 #define SMB_NT_RENAME_RENAME_FILE 0x104 // Server internal #define SMB_NT_RENAME_MOVE_FILE 0x105 // Server internal // // Protocol for NtQueryQuotaInformationFile // typedef struct { _USHORT( Fid ); // FID of target UCHAR ReturnSingleEntry; // Indicates that only a single entry should be returned // rather than filling the buffer with as // many entries as possible. UCHAR RestartScan; // Indicates whether the scan of the quota information // is to be restarted from the beginning. _ULONG ( SidListLength ); // Supplies the length of the SID list if present _ULONG ( StartSidLength ); // Supplies an optional SID that indicates that the returned // information is to start with an entry other // than the first. This parameter is ignored if a // SidList is given _ULONG( StartSidOffset); // Supplies the offset of Start Sid in the buffer } REQ_NT_QUERY_FS_QUOTA_INFO, *PREQ_NT_QUERY_FS_QUOTA_INFO; // // Desciptor response // // Data Bytes: The Quota Information // typedef struct { _ULONG ( Length ); } RESP_NT_QUERY_FS_QUOTA_INFO, *PRESP_NT_QUERY_FS_QUOTA_INFO; // // Protocol for NtSetQuotaInformationFile // typedef struct { _USHORT( Fid ); // FID of target } REQ_NT_SET_FS_QUOTA_INFO, *PREQ_NT_SET_FS_QUOTA_INFO; // // Response: // // Setup words: None. // Parameter Bytes: None. // Data Bytes: None. // // // Dfs Transactions // // // Request for Referral. // typedef struct { USHORT MaxReferralLevel; // Latest version of referral understood UCHAR RequestFileName[1]; // Dfs name for which referral is sought } REQ_GET_DFS_REFERRAL; typedef REQ_GET_DFS_REFERRAL SMB_UNALIGNED *PREQ_GET_DFS_REFERRAL; // // The format of an individual referral contains version and length information // allowing the client to skip referrals it does not understand. // // !! All referral elements must have VersionNumber and Size as the first 2 elements !! // typedef struct { USHORT VersionNumber; // == 1 USHORT Size; // Size of this whole element USHORT ServerType; // Type of server: 0 == Don't know, 1 == SMB, 2 == Netware struct { USHORT StripPath : 1; // Strip off PathConsumed characters from front of // DfsPathName prior to submitting name to UncShareName }; WCHAR ShareName[1]; // The server+share name go right here. NULL terminated. } DFS_REFERRAL_V1; typedef DFS_REFERRAL_V1 SMB_UNALIGNED *PDFS_REFERRAL_V1; typedef struct { USHORT VersionNumber; // == 2 USHORT Size; // Size of this whole element USHORT ServerType; // Type of server: 0 == Don't know, 1 == SMB, 2 == Netware struct { USHORT StripPath : 1; // Strip off PathConsumed characters from front of // DfsPathName prior to submitting name to UncShareName }; ULONG Proximity; // Hint of transport cost ULONG TimeToLive; // In number of seconds USHORT DfsPathOffset; // Offset from beginning of this element to Path to access USHORT DfsAlternatePathOffset; // Offset from beginning of this element to 8.3 path USHORT NetworkAddressOffset; // Offset from beginning of this element to Network path } DFS_REFERRAL_V2; typedef DFS_REFERRAL_V2 SMB_UNALIGNED *PDFS_REFERRAL_V2; typedef struct { USHORT VersionNumber; // == 3 USHORT Size; // Size of this whole element USHORT ServerType; // Type of server: 0 == Don't know, 1 == SMB, 2 == Netware struct { USHORT StripPath : 1; // Strip off PathConsumed characters from front of // DfsPathName prior to submitting name to UncShareName USHORT NameListReferral : 1; // This referral contains an expanded name list }; ULONG TimeToLive; // In number of seconds union { struct { USHORT DfsPathOffset; // Offset from beginning of this element to Path to access USHORT DfsAlternatePathOffset; // Offset from beginning of this element to 8.3 path USHORT NetworkAddressOffset; // Offset from beginning of this element to Network path GUID ServiceSiteGuid; // The guid for the site }; struct { USHORT SpecialNameOffset; // Offset from this element to the special name string USHORT NumberOfExpandedNames; // Number of expanded names USHORT ExpandedNameOffset; // Offset from this element to the expanded name list }; }; } DFS_REFERRAL_V3; typedef DFS_REFERRAL_V3 SMB_UNALIGNED *PDFS_REFERRAL_V3; typedef struct { USHORT PathConsumed; // Number of WCHARs consumed in DfsPathName USHORT NumberOfReferrals; // Number of referrals contained here struct { ULONG ReferralServers : 1; // Elements in Referrals[] are referral servers ULONG StorageServers : 1; // Elements in Referrals[] are storage servers }; union { // The vector of referrals DFS_REFERRAL_V1 v1; DFS_REFERRAL_V2 v2; DFS_REFERRAL_V3 v3; } Referrals[1]; // [ NumberOfReferrals ] // // WCHAR StringBuffer[]; // Used by DFS_REFERRAL_V2 // } RESP_GET_DFS_REFERRAL; typedef RESP_GET_DFS_REFERRAL SMB_UNALIGNED *PRESP_GET_DFS_REFERRAL; // // During Dfs operations, a client may discover a knowledge inconsistency in the Dfs. // The parameter portion of the TRANS2_REPORT_DFS_INCONSISTENCY SMB is // encoded in this way // typedef struct { UCHAR RequestFileName[1]; // Dfs name for which inconsistency is being reported union { DFS_REFERRAL_V1 v1; // The single referral thought to be in error } Referral; } REQ_REPORT_DFS_INCONSISTENCY; typedef REQ_REPORT_DFS_INCONSISTENCY SMB_UNALIGNED *PREQ_REPORT_DFS_INCONSISTENCY; typedef struct _REQ_QUERY_FS_INFORMATION_FID { _USHORT( InformationLevel ); _USHORT( Fid ); } REQ_QUERY_FS_INFORMATION_FID; typedef REQ_QUERY_FS_INFORMATION_FID SMB_UNALIGNED *PREQ_QUERY_FS_INFORMATION_FID; // // The client also needs to send to this server the referral which it believes to be // in error. The data part of this transaction contains the errant referral(s), encoded // as above in the DFS_REFERRAL_* structures. // // // Find First, information levels // #define SMB_FIND_FILE_DIRECTORY_INFO 0x101 #define SMB_FIND_FILE_FULL_DIRECTORY_INFO 0x102 #define SMB_FIND_FILE_NAMES_INFO 0x103 #define SMB_FIND_FILE_BOTH_DIRECTORY_INFO 0x104 #ifdef INCLUDE_SMB_DIRECTORY // // CreateDirectory2 function code os Transaction2 SMB, see #3 page 51 // Function is SrvSmbCreateDirectory2() // TRANS2_CREATE_DIRECTORY 0x0D // typedef struct _REQ_CREATE_DIRECTORY2 { _ULONG( Reserved ); // Reserved--must be zero UCHAR Buffer[1]; // Directory name to create } REQ_CREATE_DIRECTORY2; typedef REQ_CREATE_DIRECTORY2 SMB_UNALIGNED *PREQ_CREATE_DIRECTORY2; // Data bytes for CreateDirectory2 request are the extended attributes for the // created file. typedef struct _RESP_CREATE_DIRECTORY2 { _USHORT( EaErrorOffset ); // Offset into FEAList of first error // which occurred while setting EAs } RESP_CREATE_DIRECTORY2; typedef RESP_CREATE_DIRECTORY2 SMB_UNALIGNED *PRESP_CREATE_DIRECTORY2; #endif // def INCLUDE_SMB_DIRECTORY #ifdef INCLUDE_SMB_SEARCH // // FindFirst2 function code of Transaction2 SMB, see #3 page 22 // Function is SrvSmbFindFirst2() // TRANS2_FIND_FIRST2 0x01 // typedef struct _REQ_FIND_FIRST2 { _USHORT( SearchAttributes ); _USHORT( SearchCount ); // Maximum number of entries to return _USHORT( Flags ); // Additional information: bit set- // 0 - close search after this request // 1 - close search if end reached // 2 - return resume keys _USHORT( InformationLevel ); _ULONG(SearchStorageType); UCHAR Buffer[1]; // File name } REQ_FIND_FIRST2; typedef REQ_FIND_FIRST2 SMB_UNALIGNED *PREQ_FIND_FIRST2; // Data bytes for Find First2 request are a list of extended attributes // to retrieve (a GEAList), if InformationLevel is QUERY_EAS_FROM_LIST. typedef struct _RESP_FIND_FIRST2 { _USHORT( Sid ); // Search handle _USHORT( SearchCount ); // Number of entries returned _USHORT( EndOfSearch ); // Was last entry returned? _USHORT( EaErrorOffset ); // Offset into EA list if EA error _USHORT( LastNameOffset ); // Offset into data to file name of // last entry, if server needs it // to resume search; else 0 } RESP_FIND_FIRST2; typedef RESP_FIND_FIRST2 SMB_UNALIGNED *PRESP_FIND_FIRST2; // Data bytes for Find First2 response are level-dependent information // about the matching files. If bit 2 in the request parameters was // set, each entry is preceded by a four-byte resume key. // // FindNext2 function code of Transaction2 SMB, see #3 page 26 // Function is SrvSmbFindNext2() // TRANS2_FIND_NEXT2 0x02 // typedef struct _REQ_FIND_NEXT2 { _USHORT( Sid ); // Search handle _USHORT( SearchCount ); // Maximum number of entries to return _USHORT( InformationLevel ); _ULONG( ResumeKey ); // Value returned by previous find _USHORT( Flags ); // Additional information: bit set- // 0 - close search after this request // 1 - close search if end reached // 2 - return resume keys // 3 - resume/continue, NOT rewind UCHAR Buffer[1]; // Resume file name } REQ_FIND_NEXT2; typedef REQ_FIND_NEXT2 SMB_UNALIGNED *PREQ_FIND_NEXT2; // Data bytes for Find Next2 request are a list of extended attributes // to retrieve, if InformationLevel is QUERY_EAS_FROM_LIST. typedef struct _RESP_FIND_NEXT2 { _USHORT( SearchCount ); // Number of entries returned _USHORT( EndOfSearch ); // Was last entry returned? _USHORT( EaErrorOffset ); // Offset into EA list if EA error _USHORT( LastNameOffset ); // Offset into data to file name of // last entry, if server needs it // to resume search; else 0 } RESP_FIND_NEXT2; typedef RESP_FIND_NEXT2 SMB_UNALIGNED *PRESP_FIND_NEXT2; // Data bytes for Find Next2 response are level-dependent information // about the matching files. If bit 2 in the request parameters was // set, each entry is preceded by a four-byte resume key. // // Flags for REQ_FIND_FIRST2.Flags // #define SMB_FIND_CLOSE_AFTER_REQUEST 0x01 #define SMB_FIND_CLOSE_AT_EOS 0x02 #define SMB_FIND_RETURN_RESUME_KEYS 0x04 #define SMB_FIND_CONTINUE_FROM_LAST 0x08 #define SMB_FIND_WITH_BACKUP_INTENT 0x10 #endif // def INCLUDE_SMB_SEARCH #ifdef INCLUDE_SMB_OPEN_CLOSE // // Open2 function code of Transaction2 SMB, see #3 page 19 // Function is SrvSmbOpen2() // TRANS2_OPEN2 0x00 // // *** Note that the REQ_OPEN2 and RESP_OPEN2 structures closely // resemble the REQ_OPEN_ANDX and RESP_OPEN_ANDX structures. // typedef struct _REQ_OPEN2 { _USHORT( Flags ); // Additional information: bit set- // 0 - return additional info // 1 - set single user total file lock // 2 - server notifies consumer of // actions which may change file // 3 - return total length of EAs _USHORT( DesiredAccess ); // File open mode _USHORT( SearchAttributes ); // *** ignored _USHORT( FileAttributes ); _ULONG( CreationTimeInSeconds ); _USHORT( OpenFunction ); _ULONG( AllocationSize ); // Bytes to reserve on create or truncate _USHORT( Reserved )[5]; // Pad through OpenAndX's Timeout, // Reserved, and ByteCount UCHAR Buffer[1]; // File name } REQ_OPEN2; typedef REQ_OPEN2 SMB_UNALIGNED *PREQ_OPEN2; // Data bytes for Open2 request are the extended attributes for the // created file. typedef struct _RESP_OPEN2 { _USHORT( Fid ); // File handle _USHORT( FileAttributes ); _ULONG( CreationTimeInSeconds ); _ULONG( DataSize ); // Current file size _USHORT( GrantedAccess ); // Access permissions actually allowed _USHORT( FileType ); _USHORT( DeviceState ); // state of IPC device (e.g. pipe) _USHORT( Action ); // Action taken _ULONG( ServerFid ); // Server unique file id _USHORT( EaErrorOffset ); // Offset into EA list if EA error _ULONG( EaLength ); // Total EA length for opened file } RESP_OPEN2; typedef RESP_OPEN2 SMB_UNALIGNED *PRESP_OPEN2; // The Open2 response has no data bytes. #endif // def INCLUDE_SMB_OPEN_CLOSE #ifdef INCLUDE_SMB_MISC // // QueryFsInformation function code of Transaction2 SMB, see #3 page 30 // Function is SrvSmbQueryFsInformation() // TRANS2_QUERY_FS_INFORMATION 0x03 // typedef struct _REQ_QUERY_FS_INFORMATION { _USHORT( InformationLevel ); } REQ_QUERY_FS_INFORMATION; typedef REQ_QUERY_FS_INFORMATION SMB_UNALIGNED *PREQ_QUERY_FS_INFORMATION; // No data bytes for Query FS Information request. //typedef struct _RESP_QUERY_FS_INFORMATION { //} RESP_QUERY_FS_INFORMATION; //typedef RESP_QUERY_FS_INFORMATION SMB_UNALIGNED *PRESP_QUERY_FS_INFORMATION; // Data bytes for Query FS Information response are level-dependent // information about the specified volume. // // SetFSInformation function code of Transaction2 SMB, see #3 page 31 // Function is SrvSmbSetFSInformation() // TRANS2_SET_PATH_INFORMATION 0x04 // typedef struct _REQ_SET_FS_INFORMATION { _USHORT( Fid ); _USHORT( InformationLevel ); } REQ_SET_FS_INFORMATION; typedef REQ_SET_FS_INFORMATION SMB_UNALIGNED *PREQ_SET_FS_INFORMATION; // Data bytes for Set FS Information request are level-dependant // information about the specified volume. //typedef struct _RESP_SET_FS_INFORMATION { //} RESP_SET_FS_INFORMATION; //typedef RESP_SET_FS_INFORMATION SMB_UNALIGNED *PRESP_SET_FS_INFORMATION; // The Set FS Information response has no data bytes. #endif // def INCLUDE_SMB_MISC #ifdef INCLUDE_SMB_QUERY_SET // // QueryPathInformation function code of Transaction2 SMB, see #3 page 33 // Function is SrvSmbQueryPathInformation() // TRANS2_QUERY_PATH_INFORMATION 0x05 // typedef struct _REQ_QUERY_PATH_INFORMATION { _USHORT( InformationLevel ); _ULONG( Reserved ); // Must be zero UCHAR Buffer[1]; // File name } REQ_QUERY_PATH_INFORMATION; typedef REQ_QUERY_PATH_INFORMATION SMB_UNALIGNED *PREQ_QUERY_PATH_INFORMATION; // Data bytes for Query Path Information request are a list of extended // attributes to retrieve, if InformationLevel is QUERY_EAS_FROM_LIST. typedef struct _RESP_QUERY_PATH_INFORMATION { _USHORT( EaErrorOffset ); // Offset into EA list if EA error } RESP_QUERY_PATH_INFORMATION; typedef RESP_QUERY_PATH_INFORMATION SMB_UNALIGNED *PRESP_QUERY_PATH_INFORMATION; // Data bytes for Query Path Information response are level-dependent // information about the specified path/file. // // SetPathInformation function code of Transaction2 SMB, see #3 page 35 // Function is SrvSmbSetPathInformation() // TRANS2_SET_PATH_INFORMATION 0x06 // typedef struct _REQ_SET_PATH_INFORMATION { _USHORT( InformationLevel ); _ULONG( Reserved ); // Must be zero UCHAR Buffer[1]; // File name } REQ_SET_PATH_INFORMATION; typedef REQ_SET_PATH_INFORMATION SMB_UNALIGNED *PREQ_SET_PATH_INFORMATION; // Data bytes for Set Path Information request are either file information // and attributes or a list of extended attributes for the file. typedef struct _RESP_SET_PATH_INFORMATION { _USHORT( EaErrorOffset ); // Offset into EA list if EA error } RESP_SET_PATH_INFORMATION; typedef RESP_SET_PATH_INFORMATION SMB_UNALIGNED *PRESP_SET_PATH_INFORMATION; // The Set Path Information response has no data bytes. // // QueryFileInformation function code of Transaction2 SMB, see #3 page 37 // Function is SrvSmbQueryFileInformation() // TRANS2_QUERY_FILE_INFORMATION 0x07 // typedef struct _REQ_QUERY_FILE_INFORMATION { _USHORT( Fid ); // File handle _USHORT( InformationLevel ); } REQ_QUERY_FILE_INFORMATION; typedef REQ_QUERY_FILE_INFORMATION SMB_UNALIGNED *PREQ_QUERY_FILE_INFORMATION; // Data bytes for Query File Information request are a list of extended // attributes to retrieve, if InformationLevel is QUERY_EAS_FROM_LIST. typedef struct _RESP_QUERY_FILE_INFORMATION { _USHORT( EaErrorOffset ); // Offset into EA list if EA error } RESP_QUERY_FILE_INFORMATION; typedef RESP_QUERY_FILE_INFORMATION SMB_UNALIGNED *PRESP_QUERY_FILE_INFORMATION; // Data bytes for Query File Information response are level-dependent // information about the specified path/file. // // SetFileInformation function code of Transaction2 SMB, see #3 page 39 // Function is SrvSmbSetFileInformation() // TRANS2_SET_FILE_INFORMATION 0x08 // typedef struct _REQ_SET_FILE_INFORMATION { _USHORT( Fid ); // File handle _USHORT( InformationLevel ); _USHORT( Flags ); // File I/O control flags: bit set- // 4 - write through // 5 - no cache } REQ_SET_FILE_INFORMATION; typedef REQ_SET_FILE_INFORMATION SMB_UNALIGNED *PREQ_SET_FILE_INFORMATION; // Data bytes for Set File Information request are either file information // and attributes or a list of extended attributes for the file. typedef struct _RESP_SET_FILE_INFORMATION { _USHORT( EaErrorOffset ); // Offset into EA list if EA error } RESP_SET_FILE_INFORMATION; typedef RESP_SET_FILE_INFORMATION SMB_UNALIGNED *PRESP_SET_FILE_INFORMATION; // The Set File Information response has no data bytes. #endif // def INCLUDE_SMB_QUERY_SET // // Opcodes for Mailslot transactions. Not all filled in at present. // WARNING ... the info here on mailslots (opcode and smb struct) // is duplicated in net/h/mslotsmb.h // #define MS_WRITE_OPCODE 1 typedef struct _SMB_TRANSACT_MAILSLOT { UCHAR WordCount; // Count of data bytes; value = 17 _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( MaxParameterCount ); // Max parameter bytes to return _USHORT( MaxDataCount ); // Max data bytes to return UCHAR MaxSetupCount; // Max setup words to return UCHAR Reserved; _USHORT( Flags ); // Additional information: // bit 0 - unused // bit 1 - one-way transacion (no resp) _ULONG( Timeout ); _USHORT( Reserved1 ); _USHORT( ParameterCount ); // Parameter bytes sent this buffer _USHORT( ParameterOffset ); // Offset (from header start) to params _USHORT( DataCount ); // Data bytes sent this buffer _USHORT( DataOffset ); // Offset (from header start) to data UCHAR SetupWordCount; // = 3 UCHAR Reserved2; // Reserved (pad above to word) _USHORT( Opcode ); // 1 -- Write Mailslot _USHORT( Priority ); // Priority of transaction _USHORT( Class ); // Class: 1 = reliable, 2 = unreliable _USHORT( ByteCount ); // Count of data bytes UCHAR Buffer[1]; // Buffer containing: //UCHAR MailslotName[]; // "\MAILSLOT\0" //UCHAR Pad[] // Pad to SHORT or LONG //UCHAR Data[]; // Data to write to mailslot } SMB_TRANSACT_MAILSLOT; typedef SMB_TRANSACT_MAILSLOT SMB_UNALIGNED *PSMB_TRANSACT_MAILSLOT; typedef struct _SMB_TRANSACT_NAMED_PIPE { UCHAR WordCount; // Count of data bytes; value = 16 _USHORT( TotalParameterCount ); // Total parameter bytes being sent _USHORT( TotalDataCount ); // Total data bytes being sent _USHORT( MaxParameterCount ); // Max parameter bytes to return _USHORT( MaxDataCount ); // Max data bytes to return UCHAR MaxSetupCount; // Max setup words to return UCHAR Reserved; _USHORT( Flags ); // Additional information: // bit 0 - also disconnect TID in Tid // bit 1 - one-way transacion (no resp) _ULONG( Timeout ); _USHORT( Reserved1 ); _USHORT( ParameterCount ); // Buffer containing: //UCHAR PipeName[]; // "\PIPE\0" //UCHAR Pad[] // Pad to SHORT or LONG //UCHAR Param[]; // Parameter bytes (# = ParameterCount) //UCHAR Pad1[] // Pad to SHORT or LONG //UCHAR Data[]; // Data bytes (# = DataCount) } SMB_TRANSACT_NAMED_PIPE; typedef SMB_TRANSACT_NAMED_PIPE SMB_UNALIGNED *PSMB_TRANSACT_NAMED_PIPE; // // Transaction - QueryInformationNamedPipe, Level 1, output data format // typedef struct _NAMED_PIPE_INFORMATION_1 { _USHORT( OutputBufferSize ); _USHORT( InputBufferSize ); UCHAR MaximumInstances; UCHAR CurrentInstances; UCHAR PipeNameLength; UCHAR PipeName[1]; } NAMED_PIPE_INFORMATION_1; typedef NAMED_PIPE_INFORMATION_1 SMB_UNALIGNED *PNAMED_PIPE_INFORMATION_1; // // Transaction - PeekNamedPipe, output format // typedef struct _RESP_PEEK_NMPIPE { _USHORT( ReadDataAvailable ); _USHORT( MessageLength ); _USHORT( NamedPipeState ); //UCHAR Pad[]; //UCHAR Data[]; } RESP_PEEK_NMPIPE; typedef RESP_PEEK_NMPIPE SMB_UNALIGNED *PRESP_PEEK_NMPIPE; // // Define SMB pipe handle state bits used by Query/SetNamedPipeHandleState // // These number are the bit location of the fields in the handle state. // #define PIPE_COMPLETION_MODE_BITS 15 #define PIPE_PIPE_END_BITS 14 #define PIPE_PIPE_TYPE_BITS 10 #define PIPE_READ_MODE_BITS 8 #define PIPE_MAXIMUM_INSTANCES_BITS 0 /* DosPeekNmPipe() pipe states */ #define PIPE_STATE_DISCONNECTED 0x0001 #define PIPE_STATE_LISTENING 0x0002 #define PIPE_STATE_CONNECTED 0x0003 #define PIPE_STATE_CLOSING 0x0004 /* DosCreateNPipe and DosQueryNPHState state */ #define SMB_PIPE_READMODE_BYTE 0x0000 #define SMB_PIPE_READMODE_MESSAGE 0x0100 #define SMB_PIPE_TYPE_BYTE 0x0000 #define SMB_PIPE_TYPE_MESSAGE 0x0400 #define SMB_PIPE_END_CLIENT 0x0000 #define SMB_PIPE_END_SERVER 0x4000 #define SMB_PIPE_WAIT 0x0000 #define SMB_PIPE_NOWAIT 0x8000 #define SMB_PIPE_UNLIMITED_INSTANCES 0x00FF // // Pipe name string for conversion between SMB and NT formats. // #define SMB_PIPE_PREFIX "\\PIPE" #define UNICODE_SMB_PIPE_PREFIX L"\\PIPE" #define CANONICAL_PIPE_PREFIX "PIPE\\" #define NT_PIPE_PREFIX L"\\Device\\NamedPipe" #define SMB_PIPE_PREFIX_LENGTH (sizeof(SMB_PIPE_PREFIX) - 1) #define UNICODE_SMB_PIPE_PREFIX_LENGTH \ (sizeof(UNICODE_SMB_PIPE_PREFIX) - sizeof(WCHAR)) #define CANONICAL_PIPE_PREFIX_LENGTH (sizeof(CANONICAL_PIPE_PREFIX) - 1) #define NT_PIPE_PREFIX_LENGTH (sizeof(NT_PIPE_PREFIX) - sizeof(WCHAR)) // // Mailslot name strings. // #define SMB_MAILSLOT_PREFIX "\\MAILSLOT" #define UNICODE_SMB_MAILSLOT_PREFIX L"\\MAILSLOT" #define SMB_MAILSLOT_PREFIX_LENGTH (sizeof(SMB_MAILSLOT_PREFIX) - 1) #define UNICODE_SMB_MAILSLOT_PREFIX_LENGTH \ (sizeof(UNICODE_SMB_MAILSLOT_PREFIX) - sizeof(WCHAR)) // // NT Transaction subfunctions // #ifdef INCLUDE_SMB_OPEN_CLOSE typedef struct _REQ_CREATE_WITH_SD_OR_EA { _ULONG( Flags ); // Creation flags _ULONG( RootDirectoryFid ); // Optional directory for relative open ACCESS_MASK DesiredAccess; // Desired access (NT format) LARGE_INTEGER AllocationSize; // The initial allocation size in bytes _ULONG( FileAttributes ); // The file attributes _ULONG( ShareAccess ); // The share access _ULONG( CreateDisposition ); // Action to take if file exists or not _ULONG( CreateOptions ); // Options for creating a new file _ULONG( SecurityDescriptorLength );// Length of SD in bytes _ULONG( EaLength ); // Length of EA in bytes _ULONG( NameLength ); // Length of name in characters _ULONG( ImpersonationLevel ); // Security QOS information UCHAR SecurityFlags; // Security QOS information UCHAR Buffer[1]; //UCHAR Name[]; // The name of the file (not NUL terminated) } REQ_CREATE_WITH_SD_OR_EA; typedef REQ_CREATE_WITH_SD_OR_EA SMB_UNALIGNED *PREQ_CREATE_WITH_SD_OR_EA; // // Data format: // UCHAR SecurityDesciptor[]; // UCHAR Pad1[]; // Pad to LONG // UCHAR EaList[]; // typedef struct _RESP_CREATE_WITH_SD_OR_EA { UCHAR OplockLevel; // The oplock level granted UCHAR Reserved; _USHORT( Fid ); // The file ID _ULONG( CreateAction ); // The action taken _ULONG( EaErrorOffset ); // Offset of the EA error TIME CreationTime; // The time the file was created TIME LastAccessTime; // The time the file was accessed TIME LastWriteTime; // The time the file was last written TIME ChangeTime; // The time the file was last changed _ULONG( FileAttributes ); // The file attributes LARGE_INTEGER AllocationSize; // The number of byes allocated LARGE_INTEGER EndOfFile; // The end of file offset _USHORT( FileType ); _USHORT( DeviceState ); // state of IPC device (e.g. pipe) BOOLEAN Directory; // TRUE if this is a directory } RESP_CREATE_WITH_SD_OR_EA; typedef RESP_CREATE_WITH_SD_OR_EA SMB_UNALIGNED *PRESP_CREATE_WITH_SD_OR_EA; // No data bytes for the response #endif // INCLUDE_SMB_OPEN_CLOSE // // Setup words for NT I/O control request // typedef struct _REQ_NT_IO_CONTROL { _ULONG( FunctionCode ); _USHORT( Fid ); BOOLEAN IsFsctl; UCHAR IsFlags; } REQ_NT_IO_CONTROL; typedef REQ_NT_IO_CONTROL SMB_UNALIGNED *PREQ_NT_IO_CONTROL; // // Request parameter bytes - The first buffer // Request data bytes - The second buffer // // // NT I/O Control response: // // Setup Words: None. // Parameter Bytes: First buffer. // Data Bytes: Second buffer. // // // NT Notify directory change // // Request Setup Words typedef struct _REQ_NOTIFY_CHANGE { _ULONG( CompletionFilter ); // Specifies operation to monitor _USHORT( Fid ); // Fid of directory to monitor BOOLEAN WatchTree; // TRUE = watch all subdirectories too UCHAR Reserved; // MBZ } REQ_NOTIFY_CHANGE; typedef REQ_NOTIFY_CHANGE SMB_UNALIGNED *PREQ_NOTIFY_CHANGE; // // Request parameter bytes: None // Request data bytes: None // // // NT Notify directory change response // // Setup words: None. // Parameter bytes: The change data buffer. // Data bytes: None. // // // NT Set Security Descriptor request // // Setup words: REQ_SET_SECURITY_DESCIPTOR. // Parameter Bytes: None. // Data Bytes: The Security Descriptor data. // typedef struct _REQ_SET_SECURITY_DESCRIPTOR { _USHORT( Fid ); // FID of target _USHORT( Reserved ); // MBZ _ULONG( SecurityInformation ); // Fields of SD that to set } REQ_SET_SECURITY_DESCRIPTOR; typedef REQ_SET_SECURITY_DESCRIPTOR SMB_UNALIGNED *PREQ_SET_SECURITY_DESCRIPTOR; // // NT Set Security Desciptor response // // Setup words: None. // Parameter Bytes: None. // Data Bytes: None. // // // NT Query Security Descriptor request // // Setup words: None. // Parameter Bytes: REQ_QUERY_SECURITY_DESCRIPTOR. // Data Bytes: None. // typedef struct _REQ_QUERY_SECURITY_DESCRIPTOR { _USHORT( Fid ); // FID of target _USHORT( Reserved ); // MBZ _ULONG( SecurityInformation ); // Fields of SD that to query } REQ_QUERY_SECURITY_DESCRIPTOR; typedef REQ_QUERY_SECURITY_DESCRIPTOR SMB_UNALIGNED *PREQ_QUERY_SECURITY_DESCRIPTOR; // // NT Query Security Desciptor response // // Parameter bytes: RESP_QUERY_SECURITY_DESCRIPTOR // Data Bytes: The Security Descriptor data. // typedef struct _RESP_QUERY_SECURITY_DESCRIPTOR { _ULONG( LengthNeeded ); // Size of data buffer required for SD } RESP_QUERY_SECURITY_DESCRIPTOR; typedef RESP_QUERY_SECURITY_DESCRIPTOR SMB_UNALIGNED *PRESP_QUERY_SECURITY_DESCRIPTOR; // // NT Rename file // // Setup words: None // Parameters bytes: REQ_NT_RENAME // Data bytes: None // typedef struct _REQ_NT_RENAME { _USHORT( Fid ); // FID of file to rename _USHORT( RenameFlags ); // defined below UCHAR NewName[]; // New file name. } REQ_NT_RENAME; typedef REQ_NT_RENAME SMB_UNALIGNED *PREQ_NT_RENAME; // // Rename flags defined // #define SMB_RENAME_REPLACE_IF_EXISTS 1 // // Turn structure packing back off // #ifndef NO_PACKING #include #endif // ndef NO_PACKING // // The following macros store and retrieve USHORTS and ULONGS from // potentially unaligned addresses, avoiding alignment faults. They // would best be written as inline assembly code. // // The macros are designed to be used for accessing SMB fields. Such // fields are always stored in little-endian byte order, so these macros // do byte swapping when compiled for a big-endian machine. // // !!! Not yet. // #if !SMBDBG #define BYTE_0_MASK 0xFF #define BYTE_0(Value) (UCHAR)( (Value) & BYTE_0_MASK) #define BYTE_1(Value) (UCHAR)( ((Value) >> 8) & BYTE_0_MASK) #define BYTE_2(Value) (UCHAR)( ((Value) >> 16) & BYTE_0_MASK) #define BYTE_3(Value) (UCHAR)( ((Value) >> 24) & BYTE_0_MASK) #endif //++ // // USHORT // SmbGetUshort ( // IN PSMB_USHORT SrcAddress // ) // // Routine Description: // // This macro retrieves a USHORT value from the possibly misaligned // source address, avoiding alignment faults. // // Arguments: // // SrcAddress - where to retrieve USHORT value from // // Return Value: // // USHORT - the value retrieved. The target must be aligned. // //-- #if !SMBDBG #if !SMBDBG1 #if SMB_USE_UNALIGNED #define SmbGetUshort(SrcAddress) *(PSMB_USHORT)(SrcAddress) #else #define SmbGetUshort(SrcAddress) (USHORT)( \ ( ( (PUCHAR)(SrcAddress) )[0] ) | \ ( ( (PUCHAR)(SrcAddress) )[1] << 8 ) \ ) #endif #else #define SmbGetUshort(SrcAddress) (USHORT)( \ ( ( (PUCHAR)(SrcAddress ## S) )[0] ) | \ ( ( (PUCHAR)(SrcAddress ## S) )[1] << 8 ) \ ) #endif #else USHORT SmbGetUshort ( IN PSMB_USHORT SrcAddress ); #endif //++ // // USHORT // SmbGetAlignedUshort ( // IN PUSHORT SrcAddress // ) // // Routine Description: // // This macro retrieves a USHORT value from the source address, // correcting for the endian characteristics of the server if // necessary. // // Arguments: // // SrcAddress - where to retrieve USHORT value from; must be aligned. // // Return Value: // // USHORT - the value retrieved. The target must be aligned. // //-- #if !SMBDBG #if !SMBDBG1 #define SmbGetAlignedUshort(SrcAddress) *(SrcAddress) #else #define SmbGetAlignedUshort(SrcAddress) *(SrcAddress ## S) #endif #else USHORT SmbGetAlignedUshort ( IN PUSHORT SrcAddress ); #endif //++ // // VOID // SmbPutUshort ( // OUT PSMB_USHORT DestAddress, // IN USHORT Value // ) // // Routine Description: // // This macro stores a USHORT value at the possibly misaligned // destination address, avoiding alignment faults. // // Arguments: // // DestAddress - where to store USHORT value. Address may be // misaligned. // // Value - USHORT to store. Value must be a constant or an aligned // field. // // Return Value: // // None. // //-- #if !SMBDBG #if !SMBDBG1 #if SMB_USE_UNALIGNED #define SmbPutUshort(SrcAddress, Value) \ *(PSMB_USHORT)(SrcAddress) = (Value) #else #define SmbPutUshort(DestAddress,Value) { \ ( (PUCHAR)(DestAddress) )[0] = BYTE_0(Value); \ ( (PUCHAR)(DestAddress) )[1] = BYTE_1(Value); \ } #endif #else #define SmbPutUshort(DestAddress,Value) { \ ( (PUCHAR)(DestAddress ## S) )[0] = BYTE_0(Value); \ ( (PUCHAR)(DestAddress ## S) )[1] = BYTE_1(Value); \ } #endif #else VOID SmbPutUshort ( OUT PSMB_USHORT DestAddress, IN USHORT Value ); #endif //++ // // VOID // SmbPutAlignedUshort ( // OUT PUSHORT DestAddres, // IN USHORT Value // ) // // Routine Description: // // This macro stores a USHORT value from the source address, // correcting for the endian characteristics of the server if // necessary. // // Arguments: // // DestAddress - where to store USHORT value. Address may not be // misaligned. // // Value - USHORT to store. Value must be a constant or an aligned // field. // // Return Value: // // None. // //-- #if !SMBDBG #if !SMBDBG1 #define SmbPutAlignedUshort(DestAddress,Value) *(DestAddress) = (Value) #else #define SmbPutAlignedUshort(DestAddress,Value) *(DestAddress ## S) = (Value) #endif #else VOID SmbPutAlignedUshort ( OUT PUSHORT DestAddress, IN USHORT Value ); #endif //++ // // VOID // SmbMoveUshort ( // OUT PSMB_USHORT DestAddress // IN PSMB_USHORT SrcAddress // ) // // Routine Description: // // This macro moves a USHORT value from the possibly misaligned // source address to the possibly misaligned destination address, // avoiding alignment faults. // // Arguments: // // DestAddress - where to store USHORT value // // SrcAddress - where to retrieve USHORT value from // // Return Value: // // None. // //-- #if !SMBDBG #if !SMBDBG1 #if SMB_USE_UNALIGNED #define SmbMoveUshort(DestAddress, SrcAddress) \ *(PSMB_USHORT)(DestAddress) = *(PSMB_USHORT)(SrcAddress) #else #define SmbMoveUshort(DestAddress,SrcAddress) { \ ( (PUCHAR)(DestAddress) )[0] = ( (PUCHAR)(SrcAddress) )[0]; \ ( (PUCHAR)(DestAddress) )[1] = ( (PUCHAR)(SrcAddress) )[1]; \ } #endif #else #define SmbMoveUshort(DestAddress,SrcAddress) { \ ( (PUCHAR)(DestAddress ## S) )[0] = ( (PUCHAR)(SrcAddress ## S) )[0]; \ ( (PUCHAR)(DestAddress ## S) )[1] = ( (PUCHAR)(SrcAddress ## S) )[1]; \ } #endif #else VOID SmbMoveUshort ( OUT PSMB_USHORT DestAddress, IN PSMB_USHORT SrcAddress ); #endif //++ // // ULONG // SmbGetUlong ( // IN PSMB_ULONG SrcAddress // ) // // Routine Description: // // This macro retrieves a ULONG value from the possibly misaligned // source address, avoiding alignment faults. // // Arguments: // // SrcAddress - where to retrieve ULONG value from // // Return Value: // // ULONG - the value retrieved. The target must be aligned. // //-- #if !SMBDBG #if !SMBDBG1 #if SMB_USE_UNALIGNED #define SmbGetUlong(SrcAddress) *(PSMB_ULONG)(SrcAddress) #else #define SmbGetUlong(SrcAddress) (ULONG)( \ ( ( (PUCHAR)(SrcAddress) )[0] ) | \ ( ( (PUCHAR)(SrcAddress) )[1] << 8 ) | \ ( ( (PUCHAR)(SrcAddress) )[2] << 16 ) | \ ( ( (PUCHAR)(SrcAddress) )[3] << 24 ) \ ) #endif #else #define SmbGetUlong(SrcAddress) (ULONG)( \ ( ( (PUCHAR)(SrcAddress ## L) )[0] ) | \ ( ( (PUCHAR)(SrcAddress ## L) )[1] << 8 ) | \ ( ( (PUCHAR)(SrcAddress ## L) )[2] << 16 ) | \ ( ( (PUCHAR)(SrcAddress ## L) )[3] << 24 ) \ ) #endif #else ULONG SmbGetUlong ( IN PSMB_ULONG SrcAddress ); #endif //++ // // USHORT // SmbGetAlignedUlong ( // IN PULONG SrcAddress // ) // // Routine Description: // // This macro retrieves a ULONG value from the source address, // correcting for the endian characteristics of the server if // necessary. // // Arguments: // // SrcAddress - where to retrieve ULONG value from; must be aligned. // // Return Value: // // ULONG - the value retrieved. The target must be aligned. // //-- #if !SMBDBG #if !SMBDBG1 #define SmbGetAlignedUlong(SrcAddress) *(SrcAddress) #else #define SmbGetAlignedUlong(SrcAddress) *(SrcAddress ## L) #endif #else ULONG SmbGetAlignedUlong ( IN PULONG SrcAddress ); #endif //++ // // VOID // SmbPutUlong ( // OUT PSMB_ULONG DestAddress, // IN ULONG Value // ) // // Routine Description: // // This macro stores a ULONG value at the possibly misaligned // destination address, avoiding alignment faults. // // Arguments: // // DestAddress - where to store ULONG value // // Value - ULONG to store. Value must be a constant or an aligned // field. // // Return Value: // // None. // //-- #if !SMBDBG #if !SMBDBG1 #if SMB_USE_UNALIGNED #define SmbPutUlong(SrcAddress, Value) *(PSMB_ULONG)(SrcAddress) = Value #else #define SmbPutUlong(DestAddress,Value) { \ ( (PUCHAR)(DestAddress) )[0] = BYTE_0(Value); \ ( (PUCHAR)(DestAddress) )[1] = BYTE_1(Value); \ ( (PUCHAR)(DestAddress) )[2] = BYTE_2(Value); \ ( (PUCHAR)(DestAddress) )[3] = BYTE_3(Value); \ } #endif #else #define SmbPutUlong(DestAddress,Value) { \ ( (PUCHAR)(DestAddress ## L) )[0] = BYTE_0(Value); \ ( (PUCHAR)(DestAddress ## L) )[1] = BYTE_1(Value); \ ( (PUCHAR)(DestAddress ## L) )[2] = BYTE_2(Value); \ ( (PUCHAR)(DestAddress ## L) )[3] = BYTE_3(Value); \ } #endif #else VOID SmbPutUlong ( OUT PSMB_ULONG DestAddress, IN ULONG Value ); #endif //++ // // VOID // SmbPutAlignedUlong ( // OUT PULONG DestAddres, // IN ULONG Value // ) // // Routine Description: // // This macro stores a ULONG value from the source address, // correcting for the endian characteristics of the server if // necessary. // // Arguments: // // DestAddress - where to store ULONG value. Address may not be // misaligned. // // Value - ULONG to store. Value must be a constant or an aligned // field. // // Return Value: // // None. // //-- #if !SMBDBG #if !SMBDBG1 #define SmbPutAlignedUlong(DestAddress,Value) *(DestAddress) = (Value) #else #define SmbPutAlignedUlong(DestAddress,Value) *(DestAddress ## L) = (Value) #endif #else VOID SmbPutAlignedUlong ( OUT PULONG DestAddress, IN ULONG Value ); #endif //++ // // VOID // SmbMoveUlong ( // OUT PSMB_ULONG DestAddress, // IN PSMB_ULONG SrcAddress // ) // // Routine Description: // // This macro moves a ULONG value from the possibly misaligned // source address to the possible misaligned destination address, // avoiding alignment faults. // // Arguments: // // DestAddress - where to store ULONG value // // SrcAddress - where to retrieve ULONG value from // // Return Value: // // None. // //-- #if !SMBDBG #if !SMBDBG1 #if SMB_USE_UNALIGNED #define SmbMoveUlong(DestAddress,SrcAddress) \ *(PSMB_ULONG)(DestAddress) = *(PSMB_ULONG)(SrcAddress) #else #define SmbMoveUlong(DestAddress,SrcAddress) { \ ( (PUCHAR)(DestAddress) )[0] = ( (PUCHAR)(SrcAddress) )[0]; \ ( (PUCHAR)(DestAddress) )[1] = ( (PUCHAR)(SrcAddress) )[1]; \ ( (PUCHAR)(DestAddress) )[2] = ( (PUCHAR)(SrcAddress) )[2]; \ ( (PUCHAR)(DestAddress) )[3] = ( (PUCHAR)(SrcAddress) )[3]; \ } #endif #else #define SmbMoveUlong(DestAddress,SrcAddress) { \ ( (PUCHAR)(DestAddress ## L) )[0] = ( (PUCHAR)(SrcAddress ## L) )[0]; \ ( (PUCHAR)(DestAddress ## L) )[1] = ( (PUCHAR)(SrcAddress ## L) )[1]; \ ( (PUCHAR)(DestAddress ## L) )[2] = ( (PUCHAR)(SrcAddress ## L) )[2]; \ ( (PUCHAR)(DestAddress ## L) )[3] = ( (PUCHAR)(SrcAddress ## L) )[3]; \ } #endif #else VOID SmbMoveUlong ( OUT PSMB_ULONG DestAddress, IN PSMB_ULONG SrcAddress ); #endif //++ // // VOID // SmbPutDate ( // OUT PSMB_DATE DestAddress, // IN SMB_DATE Value // ) // // Routine Description: // // This macro stores an SMB_DATE value at the possibly misaligned // destination address, avoiding alignment faults. This macro // is different from SmbPutUshort in order to be able to handle // funny bitfield / big-endian interactions. // // Arguments: // // DestAddress - where to store SMB_DATE value // // Value - SMB_DATE to store. Value must be a constant or an // aligned field. // // Return Value: // // None. // //-- #if !SMBDBG #if SMB_USE_UNALIGNED #define SmbPutDate(DestAddress,Value) (DestAddress)->Ushort = (Value).Ushort #else #define SmbPutDate(DestAddress,Value) { \ ( (PUCHAR)&(DestAddress)->Ushort )[0] = BYTE_0((Value).Ushort); \ ( (PUCHAR)&(DestAddress)->Ushort )[1] = BYTE_1((Value).Ushort); \ } #endif #else VOID SmbPutDate ( OUT PSMB_DATE DestAddress, IN SMB_DATE Value ); #endif //++ // // VOID // SmbMoveDate ( // OUT PSMB_DATE DestAddress, // IN PSMB_DATE SrcAddress // ) // // Routine Description: // // This macro copies an SMB_DATE value from the possibly misaligned // source address, avoiding alignment faults. This macro is // different from SmbGetUshort in order to be able to handle funny // bitfield / big-endian interactions. // // Note that there is no SmbGetDate because of the way SMB_DATE is // defined. It is a union containing a USHORT and a bitfield // struct. The caller of an SmbGetDate macro would have to // explicitly use one part of the union. // // Arguments: // // DestAddress - where to store SMB_DATE value. MUST BE ALIGNED! // // SrcAddress - where to retrieve SMB_DATE value from // // Return Value: // // None. // //-- #if !SMBDBG #if SMB_USE_UNALIGNED #define SmbMoveDate(DestAddress,SrcAddress) \ (DestAddress)->Ushort = (SrcAddress)->Ushort #else #define SmbMoveDate(DestAddress,SrcAddress) \ (DestAddress)->Ushort = \ ( ( (PUCHAR)&(SrcAddress)->Ushort )[0] ) | \ ( ( (PUCHAR)&(SrcAddress)->Ushort )[1] << 8 ) #endif #else VOID SmbMoveDate ( OUT PSMB_DATE DestAddress, IN PSMB_DATE SrcAddress ); #endif //++ // // VOID // SmbZeroDate ( // IN PSMB_DATE Date // ) // // Routine Description: // // This macro zeroes a possibly misaligned SMB_DATE field. // // Arguments: // // Date - Pointer to SMB_DATE field to zero. // // Return Value: // // None. // //-- #if !SMBDBG #if SMB_USE_UNALIGNED #define SmbZeroDate(Date) (Date)->Ushort = 0 #else #define SmbZeroDate(Date) { \ ( (PUCHAR)&(Date)->Ushort )[0] = 0; \ ( (PUCHAR)&(Date)->Ushort )[1] = 0; \ } #endif #else VOID SmbZeroDate ( IN PSMB_DATE Date ); #endif //++ // // BOOLEAN // SmbIsDateZero ( // IN PSMB_DATE Date // ) // // Routine Description: // // This macro returns TRUE if the supplied SMB_DATE value is zero. // // Arguments: // // Date - Pointer to SMB_DATE value to check. MUST BE ALIGNED! // // Return Value: // // BOOLEAN - TRUE if Date is zero, else FALSE. // //-- #if !SMBDBG #define SmbIsDateZero(Date) ( (Date)->Ushort == 0 ) #else BOOLEAN SmbIsDateZero ( IN PSMB_DATE Date ); #endif //++ // // VOID // SmbPutTime ( // OUT PSMB_TIME DestAddress, // IN SMB_TIME Value // ) // // Routine Description: // // This macro stores an SMB_TIME value at the possibly misaligned // destination address, avoiding alignment faults. This macro // is different from SmbPutUshort in order to be able to handle // funny bitfield / big-endian interactions. // // Arguments: // // DestAddress - where to store SMB_TIME value // // Value - SMB_TIME to store. Value must be a constant or an // aligned field. // // Return Value: // // None. // //-- #if !SMBDBG #if SMB_USE_UNALIGNED #define SmbPutTime(DestAddress,Value) (DestAddress)->Ushort = (Value).Ushort #else #define SmbPutTime(DestAddress,Value) { \ ( (PUCHAR)&(DestAddress)->Ushort )[0] = BYTE_0((Value).Ushort); \ ( (PUCHAR)&(DestAddress)->Ushort )[1] = BYTE_1((Value).Ushort); \ } #endif #else VOID SmbPutTime ( OUT PSMB_TIME DestAddress, IN SMB_TIME Value ); #endif //++ // // VOID // SmbMoveTime ( // OUT PSMB_TIME DestAddress, // IN PSMB_TIME SrcAddress // ) // // Routine Description: // // This macro copies an SMB_TIME value from the possibly // misaligned source address, avoiding alignment faults. This macro // is different from SmbGetUshort in order to be able to handle // funny bitfield / big-endian interactions. // // Note that there is no SmbGetTime because of the way SMB_TIME is // defined. It is a union containing a USHORT and a bitfield // struct. The caller of an SmbGetTime macro would have to // explicitly use one part of the union. // // Arguments: // // DestAddress - where to store SMB_TIME value. MUST BE ALIGNED! // // SrcAddress - where to retrieve SMB_TIME value from // // Return Value: // // None. // //-- #if !SMBDBG #if SMB_USE_UNALIGNED #define SmbMoveTime(DestAddress,SrcAddress) \ (DestAddress)->Ushort = (SrcAddress)->Ushort #else #define SmbMoveTime(DestAddress,SrcAddress) \ (DestAddress)->Ushort = \ ( ( (PUCHAR)&(SrcAddress)->Ushort )[0] ) | \ ( ( (PUCHAR)&(SrcAddress)->Ushort )[1] << 8 ) #endif #else VOID SmbMoveTime ( OUT PSMB_TIME DestAddress, IN PSMB_TIME SrcAddress ); #endif //++ // // VOID // SmbZeroTime ( // IN PSMB_TIME Time // ) // // Routine Description: // // This macro zeroes a possibly misaligned SMB_TIME field. // // Arguments: // // Time - Pointer to SMB_TIME field to zero. // // Return Value: // // None. // //-- #if !SMBDBG #if SMB_USE_UNALIGNED #define SmbZeroTime(Time) (Time)->Ushort = 0 #else #define SmbZeroTime(Time) { \ ( (PUCHAR)&(Time)->Ushort )[0] = 0; \ ( (PUCHAR)&(Time)->Ushort )[1] = 0; \ } #endif #else VOID SmbZeroTime ( IN PSMB_TIME Time ); #endif //++ // // BOOLEAN // SmbIsTimeZero ( // IN PSMB_TIME Time // ) // // Routine Description: // // This macro returns TRUE if the supplied SMB_TIME value is zero. // // Arguments: // // Time - Pointer to SMB_TIME value to check. Must be aligned and // in native format! // // Return Value: // // BOOLEAN - TRUE if Time is zero, else FALSE. // //-- #if !SMBDBG #define SmbIsTimeZero(Time) ( (Time)->Ushort == 0 ) #else BOOLEAN SmbIsTimeZero ( IN PSMB_TIME Time ); #endif // // // Define protocol names // // // // PCNET1 is the original SMB protocol (CORE). // #define PCNET1 "PC NETWORK PROGRAM 1.0" // // Some versions of the original MSNET defined this as an alternate // to the core protocol name // #define PCLAN1 "PCLAN1.0" // // This is used for the MS-NET 1.03 product. It defines Lock&Read, // Write&Unlock, and a special version of raw read and raw write. // #define MSNET103 "MICROSOFT NETWORKS 1.03" // // This is the DOS Lanman 1.0 specific protocol. It is equivilant // to the LANMAN 1.0 protocol, except the server is required to // map errors from the OS/2 error to an appropriate DOS error. // #define MSNET30 "MICROSOFT NETWORKS 3.0" // // This is the first version of the full LANMAN 1.0 protocol, defined in // the SMB FILE SHARING PROTOCOL EXTENSIONS VERSION 2.0 document. // #define LANMAN10 "LANMAN1.0" // // This is the first version of the full LANMAN 2.0 protocol, defined in // the SMB FILE SHARING PROTOCOL EXTENSIONS VERSION 3.0 document. Note // that the name is an interim protocol definition. This is for // interoperability with IBM LAN SERVER 1.2 // #define LANMAN12 "LM1.2X002" // // This is the dos equivilant of the LANMAN12 protocol. It is identical // to the LANMAN12 protocol, but the server will perform error mapping // to appropriate DOS errors. // #define DOSLANMAN12 "DOS LM1.2X002" /* DOS equivalant of above. Final * string will be "DOS LANMAN2.0" */ // // Strings for LANMAN 2.1. // #define LANMAN21 "LANMAN2.1" #define DOSLANMAN21 "DOS LANMAN2.1" // // !!! Do not set to final protcol string until the spec // is cast in stone. // // The SMB protocol designed for NT. This has special SMBs // which duplicate the NT semantics. // #define NTLANMAN "NT LM 0.12" // // The XENIXCORE dialect is a bit special. It is identical to core, // except user passwords are not to be uppercased before being shipped // to the server // #define XENIXCORE "XENIX CORE" // // Windows for Workgroups V1.0 // #define WFW10 "Windows for Workgroups 3.1a" #define PCNET1_SZ 22 #define PCLAN1_SZ 8 #define MSNET103_SZ 23 #define MSNET30_SZ 22 #define LANMAN10_SZ 9 #define LANMAN12_SZ 9 #define DOSLANMAN12_SZ 13 /* * Defines and data for Negotiate Protocol */ #define PC1 0 #define PC2 1 #define LM1 2 #define MS30 3 #define MS103 4 #define LM12 5 #define DOSLM12 6 /* Protocol indexes definition. */ #define PCLAN 1 /* PC Lan 1.0 & MS Lan 1.03 */ #define MSNT30 2 /* MS Net 3.0 redirector */ #define DOSLM20 3 /* Dos LAN Manager 2.0 */ #define LANMAN 4 /* Lanman redirector */ #define LANMAN20 5 /* Lan Manager 2.0 */ // // Protocol specific path constraints. // #define MAXIMUM_PATHLEN_LANMAN12 260 #define MAXIMUM_PATHLEN_CORE 128 #define MAXIMUM_COMPONENT_LANMAN12 254 #define MAXIMUM_COMPONENT_CORE 8+1+3 // 8.3 filenames. #endif // _CIFS_