/********************************************************************/ /** Microsoft LAN Manager **/ /** Copyright(c) Microsoft Corp., 1990-1992 **/ /********************************************************************/ /* :ts=4 */ //** cxport.h - Common transport environment include file. // // This file defines the structures and external declarations needed // to use the common transport environment. // #ifndef _CXPORT_H_INCLUDED_ #define _CXPORT_H_INCLUDED_ // // Typedefs used in this file // #ifndef CTE_TYPEDEFS_DEFINED #define CTE_TYPEDEFS_DEFINED 1 typedef unsigned long ulong; typedef unsigned short ushort; typedef unsigned char uchar; typedef unsigned int uint; #endif // CTE_TYPEDEFS_DEFINED #ifdef NT ////////////////////////////////////////////////////////////////////////////// // // Following are the NT environment definitions // ////////////////////////////////////////////////////////////////////////////// // // Structure manipulation macros // #ifndef offsetof #define offsetof(type, field) FIELD_OFFSET(type, field) #endif #define STRUCT_OF(type, address, field) CONTAINING_RECORD(address, type, field) // //* CTE Initialization. // //++ // // int // CTEInitialize( // void // ); // // Routine Description: // // Initializes the Common Transport Environment. All users of the CTE // must call this routine during initialization before calling any // other CTE routines. // // Arguments: // // None. // // Return Value: // // Returns zero on failure, non-zero if it succeeds. // //-- extern int CTEInitialize( void ); // //* Lock related definitions. // typedef KSPIN_LOCK CTELock; typedef KIRQL CTELockHandle; #define DEFINE_LOCK_STRUCTURE(x) CTELock x; #define LOCK_STRUCTURE_SIZE sizeof(CTELock) #define EXTERNAL_LOCK(x) extern CTELock x; //++ // // VOID // CTEInitLock( // CTELOCK *SpinLock // ); // // Routine Description: // // Initializes a spin lock. // // Arguments: // // SpinLock - Supplies a pointer to the lock structure. // // Return Value: // // None. // //-- #define CTEInitLock(l) KeInitializeSpinLock(l) #if MILLEN VOID TcpipMillenGetLock(CTELock *pLock); VOID TcpipMillenFreeLock(CTELock *pLock); #define CTEGetLock(l, h) TcpipMillenGetLock(l); *(h) = 0 #define CTEGetLockAtDPC(l, h) TcpipMillenGetLock(l) #define CTEFreeLock(l, h) TcpipMillenFreeLock(l) #define CTEFreeLockFromDPC(l, h) TcpipMillenFreeLock(l) #else // MILLEN //++ // // VOID // CTEGetLock( // CTELock *SpinLock, // CTELockHandle *OldIrqlLevel // ); // // Routine Description: // // Acquires a spin lock // // Arguments: // // SpinLock - A pointer to the lock structure. // OldIrqlLevel - A pointer to a variable to receive the old IRQL level . // // Return Value: // // None. // //-- #define CTEGetLock(l, h) ExAcquireSpinLock((l),(h)) //++ // // VOID // CTEGetLockAtDPC( // CTELock *SpinLock, // CTELockHandle *OldIrqlLevel // ); // // Routine Description: // // Acquires a spin lock when the processor is already running at // DISPATCH_LEVEL. // // Arguments: // // SpinLock - A pointer to the lock structure. // OldIrqlLevel - A pointer to a variable to receive the old IRQL level . // This parameter is not used in the NT version. // // Return Value: // // None. // //-- #define CTEGetLockAtDPC(l, h) ExAcquireSpinLockAtDpcLevel((l)) //++ // // VOID // CTEFreeLock( // CTELock *SpinLock, // CTELockHandle OldIrqlLevel // ); // // Routine Description: // // Releases a spin lock // // Arguments: // // SpinLock - A pointer to the lock variable. // OldIrqlLevel - The IRQL level to restore. // // Return Value: // // None. // //-- #define CTEFreeLock(l, h) ExReleaseSpinLock((l),(h)) //++ // // VOID // CTEFreeLockFromDPC( // CTELock *SpinLock, // CTELockHandle OldIrqlLevel // ); // // Routine Description: // // Releases a spin lock // // Arguments: // // SpinLock - A pointer to the lock variable. // OldIrqlLevel - The IRQL level to restore. This parameter is ignored // in the NT version. // // Return Value: // // None. // //-- #define CTEFreeLockFromDPC(l, h) ExReleaseSpinLockFromDpcLevel((l)) #endif // !MILLEN // // Interlocked counter management routines. // //++ // // ulong // CTEInterlockedAddUlong( // ulong *AddendPtr, // ulong Increment, // CTELock *LockPtr // ); // // Routine Description: // // Adds an increment to an unsigned long quantity using a spinlock // for synchronization. // // Arguments: // // AddendPtr - A pointer to the quantity to be updated. // LockPtr - A pointer to the spinlock used to synchronize the operation. // // Return Value: // // The initial value of the Added variable. // // Notes: // // It is not permissible to mix calls to CTEInterlockedAddULong with // calls to the CTEInterlockedIncrement/DecrementLong routines on the // same value. // //-- #define CTEInterlockedAddUlong(AddendPtr, Increment, LockPtr) \ ExInterlockedAddUlong(AddendPtr, Increment, LockPtr) //++ // // ulong // CTEInterlockedExchangeAdd( // ulong *AddendPtr, // ulong Increment, // ); // // Routine Description: // // Adds an increment to an unsigned long quantity without using a spinlock. // // Arguments: // // AddendPtr - A pointer to the quantity to be updated. // Increment - The amount to be added to *AddendPtr // // Return Value: // // The initial value of the Added variable. // // Notes: // //-- #define CTEInterlockedExchangeAdd(AddendPtr, Increment) \ InterlockedExchangeAdd(AddendPtr, Increment) //++ // // long // CTEInterlockedDecrementLong( // ulong *AddendPtr // ); // // Routine Description: // // Decrements a long quantity atomically // // Arguments: // // AddendPtr - A pointer to the quantity to be decremented // // Return Value: // // < 0 if Addend is < 0 after decrement. // == 0 if Addend is = 0 after decrement. // > 0 if Addend is > 0 after decrement. // // Notes: // // It is not permissible to mix calls to CTEInterlockedAddULong with // calls to the CTEInterlockedIncrement/DecrementLong routines on the // same value. // //-- #define CTEInterlockedDecrementLong(AddendPtr) \ InterlockedDecrement(AddendPtr) //++ // // long // CTEInterlockedIncrementLong( // ulong *AddendPtr // ); // // Routine Description: // // Increments a long quantity atomically // // Arguments: // // AddendPtr - A pointer to the quantity to be incremented. // // Return Value: // // < 0 if Addend is < 0 after decrement. // == 0 if Addend is = 0 after decrement. // > 0 if Addend is > 0 after decrement. // // Notes: // // It is not permissible to mix calls to CTEInterlockedAddULong with // calls to the CTEInterlockedIncrement/DecrementLong routines on the // same value. // //-- #define CTEInterlockedIncrementLong(AddendPtr) \ InterlockedIncrement(AddendPtr) // // Large Integer manipulation routines. // typedef ULARGE_INTEGER CTEULargeInt; //++ // // ulong // CTEEnlargedUnsignedDivide( // CTEULargeInt Dividend, // ulong Divisor, // ulong *Remainder // ); // // Routine Description: // // Divides an unsigned large integer quantity by an unsigned long quantity // to yield an unsigned long quotient and an unsigned long remainder. // // Arguments: // // Dividend - The dividend value. // Divisor - The divisor value. // Remainder - A pointer to a variable to receive the remainder. // // Return Value: // // The unsigned long quotient of the division. // //-- #define CTEEnlargedUnsignedDivide(Dividend, Divisor, Remainder) \ RtlEnlargedUnsignedDivide (Dividend, Divisor, Remainder) // //* String definitions and manipulation routines // // //++ // // BOOLEAN // CTEInitString( // PNDIS_STRING DestinationString, // char *SourceString // ); // // Routine Description: // // Converts a C style ASCII string to an NDIS_STRING. Resources needed for // the NDIS_STRING are allocated and must be freed by a call to // CTEFreeString. // // Arguments: // // DestinationString - A pointer to an NDIS_STRING variable with no // associated data buffer. // // SourceString - The C style ASCII string source. // // // Return Value: // // TRUE if the initialization succeeded. FALSE otherwise. // //-- BOOLEAN CTEInitString( PUNICODE_STRING DestinationString, char *SourceString ); //++ // // BOOLEAN // CTEAllocateString( // PNDIS_STRING String, // unsigned short Length // ); // // Routine Description: // // Allocates a data buffer for Length characters in an uninitialized // NDIS_STRING. The allocated space must be freed by a call to // CTEFreeString. // // // Arguments: // // String - A pointer to an NDIS_STRING variable with no // associated data buffer. // // MaximumLength - The maximum length of the string. The unit of this // value is system dependent. // // Return Value: // // TRUE if the initialization succeeded. FALSE otherwise. // //-- BOOLEAN CTEAllocateString( PUNICODE_STRING String, unsigned short Length ); //++ // // VOID // CTEFreeString( // PNDIS_STRING String, // ); // // Routine Description: // // Frees the string buffer associated with an NDIS_STRING. The buffer must // have been allocated by a previous call to CTEInitString. // // Arguments: // // String - A pointer to an NDIS_STRING variable. // // // Return Value: // // None. // //-- #define CTEFreeString(String) ExFreePool((String)->Buffer) //++ // // unsigned short // CTELengthString( // PNDIS_STRING String // ); // // Routine Description: // // Calculates the length of an NDIS_STRING. // // Arguments: // // The string to test. // // Return Value: // // The length of the string parameter. The unit of this value is // system dependent. // //-- #define CTELengthString(String) ((String)->Length) //++ // // BOOLEAN // CTEEqualString( // CTEString *String1, // CTEString *String2 // ); // // Routine Description: // // Compares two NDIS_STRINGs for case-sensitive equality // // Arguments: // // String1 - A pointer to the first string to compare. // String2 - A pointer to the second string to compare. // // Return Value: // // TRUE if the strings are equivalent. FALSE otherwise. // //-- #define CTEEqualString(S1, S2) RtlEqualUnicodeString(S1, S2, FALSE) //++ // // VOID // CTECopyString( // CTEString *DestinationString, // CTEString *SourceString // ); // // Routine Description: // // Copies one NDIS_STRING to another. Behavior is undefined if the // destination is not long enough to hold the source. // // Arguments: // // DestinationString - A pointer to the destination string. // SourceString - A pointer to the source string. // // Return Value: // // None. // //-- #define CTECopyString(D, S) RtlCopyUnicodeString(D, S) // //* Delayed event definitions // // Delayed events are events scheduled that can be scheduled to // occur 'later', without a timeout. They happen as soon as the system // is ready for them. The caller specifies a parameter that will be // passed to the event proc when the event is called. // // In the NT environmnet, delayed events are implemented using Executive // worker threads. // // NOTE: The event handler routine may not block. // typedef void (*CTEEventRtn)(struct CTEEvent *, void *); struct CTEEvent { uint ce_scheduled; CTELock ce_lock; CTEEventRtn ce_handler; // Procedure to be called. void *ce_arg; // Argument to pass to handler. WORK_QUEUE_ITEM ce_workitem; // Kernel ExWorkerThread queue item. }; /* CTEEvent */ typedef struct CTEEvent CTEEvent; //++ // // void // CTEInitEvent( // IN CTEEvent *Event, // IN CTEEventRtn *Handler // ); // // Routine Description: // // Initializes a delayed event structure. // // Arguments: // // Event - Pointer to a CTE Event variable // Handler - Pointer to the function to be called when the event is // scheduled. // // Return Value: // // None. // //-- extern void CTEInitEvent( IN CTEEvent *Event, IN CTEEventRtn Handler ); //++ // // int // CTEScheduleEvent( // IN CTEEvent *Event, // IN void *Argument // ); // // Routine Description: // // Schedules a routine to be executed later in a different context. In the // NT environment, the event is implemented as a kernel DPC using CriticalWorkerQueue. // // Arguments: // // Event - Pointer to a CTE Event variable // Argument - An argument to pass to the event handler when it is called // // Return Value: // // 0 if the event could not be scheduled. Nonzero otherwise. // //-- int CTEScheduleEvent( IN CTEEvent *Event, IN void *Argument OPTIONAL ); // int // CTEScheduleDelayedEvent( // IN CTEEvent *Event, // IN void *Argument // ); // // Routine Description: // // Schedules a routine to be executed later in a different context. In the // NT environment, the event is implemented as a kernel DPC, using DealyedWorkerQueue. // // Arguments: // // Event - Pointer to a CTE Event variable // Argument - An argument to pass to the event handler when it is called // // Return Value: // // 0 if the event could not be scheduled. Nonzero otherwise. // //-- int CTEScheduleDelayedEvent( IN CTEEvent *Event, IN void *Argument OPTIONAL ); #if MILLEN #define CTEScheduleDelayedEvent CTEScheduleEvent #endif // MILLEN //++ // // int // CTECancelEvent( // IN CTEEvent *Event // ); // // Routine Description: // // Cancels a previously scheduled delayed event routine. // // Arguments: // // Event - Pointer to a CTE Event variable // // Return Value: // // 0 if the event couldn't be cancelled. Nonzero otherwise. // // Notes: // // In the NT environment, a delayed event cannot be cancelled. // //-- #define CTECancelEvent(Event) 0 // //* Timer related declarations // struct CTETimer { uint t_running; CTELock t_lock; CTEEventRtn t_handler; void *t_arg; #if !MILLEN KDPC t_dpc; // DPC for this timer. KTIMER t_timer; // Kernel timer structure. #else NDIS_TIMER t_timer; #endif }; /* CTETimer */ typedef struct CTETimer CTETimer; //++ // // void // CTEInitTimer( // IN CTETimer *Timer // ); // // Routine Description: // // Initializes a CTE Timer structure. This routine must be used // once on every timer before it is set. It may not be invoked on // a running timer. // // Arguments: // // Timer - Pointer to the CTE Timer to be initialized. // // Return Value: // // 0 if the timer could not be initialized. Nonzero otherwise. // //-- extern void CTEInitTimer( IN CTETimer *Timer ); //++ // // extern void * // CTEStartTimer( // IN CTETimer *Timer // ); // // Routine Description: // // This routine starts a CTE timer running. // // Arguments: // // Timer - Pointer to the CTE Timer to start. // DueTime - The time in milliseconds from the present at which the // timer will be due. // Handler - The function to call when the timer expires. // Context - A value to pass to the Handler routine. // // Return Value: // // NULL if the timer could not be started. Non-NULL otherwise. // // Notes: // // In the NT environment, the first argument to the Handler function is // a pointer to the timer structure, not to a CTEEvent structure. // //-- extern void * CTEStartTimer( IN CTETimer *Timer, IN unsigned long DueTime, IN CTEEventRtn Handler, IN void *Context OPTIONAL ); //++ // // int // CTEStopTimer( // IN CTETimer *Timer // ); // // Routine Description: // // Cancels a running CTE timer. // // Arguments: // // Timer - Pointer to the CTE Timer to be cancelled. // // Return Value: // // 0 if the timer could not be cancelled. Nonzero otherwise. // // Notes: // // Calling this function on a timer that is not active has no effect. // If this routine fails, the timer may be in the process of expiring // or may have already expired. In either case, the caller must // sychronize with the Handler function as appropriate. // //-- #if !MILLEN #define CTEStopTimer(Timer) ((int) KeCancelTimer(&((Timer)->t_timer))) #else extern int CTEStopTimer( IN CTETimer *Timer ); #endif //++ // // unsigned long // CTESystemUpTime( // void // ); // // Routine Description: // // Returns the time in milliseconds that the system has been running. // // Arguments: // // None. // // Return Value: // // The time in milliseconds. // //-- extern unsigned long CTESystemUpTime( void ); // //* Memory allocation functions. // // There are only two main functions, CTEAllocMem and CTEFreeMem. Locks // should not be held while calling these functions, and it is possible // that they may yield when called, particularly in the VxD environment. // // In the VxD environment there is a third auxillary function CTERefillMem, // used to refill the VxD heap manager. // //++ // // void * // CTEAllocMem( // ulong Size // ); // // Routine Description: // // Allocates a block of memory from nonpaged pool. // // Arguments: // // Size - The size in bytes to allocate. // // Return Value: // // A pointer to the allocated block, or NULL. // //-- #define CTEAllocMem(Size) ExAllocatePoolWithTag(NonPagedPool, (Size), ' ETC') //++ // // void // CTEFreeMem( // void *MemoryPtr // ); // // Routine Description: // // Frees a block of memory allocated with CTEAllocMem. // // Arguments: // // MemoryPtr - A pointer to the memory to be freed. // // Return Value: // // None. // //-- #define CTEFreeMem(MemoryPtr) ExFreePool((MemoryPtr)); // Routine to Refill memory. Not used in NT environment. #define CTERefillMem() // //* Memory manipulation routines. // //++ // // void // CTEMemCopy( // void *Source, // void *Destination, // unsigned long Length // ); // // RoutineDescription: // // Copies data from one buffer to another. // // Arguments: // // Source - Source buffer. // Destination - Destination buffer, // Length - Number of bytes to copy. // // Return Value: // // None. // //-- #define CTEMemCopy(Dst, Src, Len) RtlCopyMemory((Dst), (Src), (Len)) //++ // // void // CTEMemSet( // void *Destination, // unsigned char *Fill // unsigned long Length // ); // // RoutineDescription: // // Sets the bytes of the destination buffer to a specific value. // // Arguments: // // Destination - Buffer to fill. // Fill - Value with which to fill buffer. // Length - Number of bytes of buffer to fill. // // Return Value: // // None. // //-- #define CTEMemSet(Dst, Fill, Len) RtlFillMemory((Dst), (Len), (Fill)) //++ // // unsigned long // CTEMemCmp( // void *Source1, // void *Source2, // unsigned long Length // ); // // RoutineDescription: // // Compares Length bytes of Source1 to Source2 for equality. // // Arguments: // // Source1 - First source buffer. // Source2 - Second source buffer, // Length - Number of bytes of Source1 to compare against Source2. // // Return Value: // // Zero if the data in the two buffers are equal for Length bytes. // NonZero otherwise. // //-- #define CTEMemCmp(Src1, Src2, Len) \ ((RtlCompareMemory((Src1), (Src2), (Len)) == (Len)) ? 0 : 1) // //* Blocking routines. These routines allow a limited blocking capability. // Using them requires care, and they probably shouldn't be used outside // of initialization time. // struct CTEBlockStruc { uint cbs_status; KEVENT cbs_event; }; /* CTEBlockStruc */ typedef struct CTEBlockStruc CTEBlockStruc; //++ // // VOID // CTEInitBlockStruc( // IN CTEBlockStruc *BlockEvent // ); // // Routine Description: // // Initializes a CTE blocking structure // // Arguments: // // BlockEvent - Pointer to the variable to intialize. // // Return Value: // // None. // //-- #define CTEInitBlockStruc(Event) \ { \ (Event)->cbs_status = NDIS_STATUS_SUCCESS; \ KeInitializeEvent( \ &((Event)->cbs_event), \ SynchronizationEvent, \ FALSE \ ); \ } //++ // // VOID // CTEInitBlockStrucEx( // IN CTEBlockStruc *BlockEvent // ); // // Routine Description: // // Initializes a CTE blocking structure // // Arguments: // // BlockEvent - Pointer to the variable to intialize. // // Return Value: // // None. // //-- #define CTEInitBlockStrucEx(Event) \ { \ (Event)->cbs_status = NDIS_STATUS_SUCCESS; \ KeInitializeEvent( \ &((Event)->cbs_event), \ NotificationEvent, \ FALSE \ ); \ } //++ // // uint // CTEBlock( // IN CTEBlockStruc *BlockEvent // ); // // Routine Description: // // Blocks the current thread of execution on the occurrence of an event. // // Arguments: // // BlockEvent - Pointer to the event on which to block. // // Return Value: // // The status value provided by the signaller of the event. // //-- extern uint CTEBlock( IN CTEBlockStruc *BlockEvent ); //++ // // VOID // CTESignal( // IN CTEBlockStruc *BlockEvent, // IN uint Status // ); // // Routine Description: // // Releases one thread of execution blocking on an event. Any other // threads blocked on the event remain blocked. // // Arguments: // // BlockEvent - Pointer to the event to signal. // Status - Status to return to the blocking thread. // // Return Value: // // None. // //-- extern void CTESignal( IN CTEBlockStruc *BlockEvent, IN uint Status ); //++ // // VOID // CTEClearSignal( // IN CTEBlockStruc *BlockEvent // ); // // Routine Description: // // Returns the event structure to the unsignaled state. // // Arguments: // // BlockEvent - Pointer to the event to be cleared. // // Return Value: // // None. // //-- #define CTEClearSignal(Event) KeResetEvent(&((Event)->cbs_event)) // // Event Logging routines. // // NOTE: These definitions are tentative and subject to change!!!!!! // #define CTE_MAX_EVENT_LOG_DATA_SIZE \ ( ( ERROR_LOG_MAXIMUM_SIZE - sizeof(IO_ERROR_LOG_PACKET) + \ sizeof(ULONG) \ ) & 0xFFFFFFFC \ ) // // // Routine Description: // // This function allocates an I/O error log record, fills it in and // writes it to the I/O error log. // // // Arguments: // // LoggerId - Pointer to the driver object logging this event. // // EventCode - Identifies the error message. // // UniqueEventValue - Identifies this instance of a given error message. // // NumStrings - Number of unicode strings in strings list. // // DataSize - Number of bytes of data. // // Strings - Array of pointers to unicode strings (PWCHAR'). // // Data - Binary dump data for this message, each piece being // aligned on word boundaries. // // Return Value: // // TDI_SUCCESS - The error was successfully logged. // TDI_BUFFER_TOO_SMALL - The error data was too large to be logged. // TDI_NO_RESOURCES - Unable to allocate memory. // // Notes: // // This code is paged and may not be called at raised IRQL. // LONG CTELogEvent( IN PVOID LoggerId, IN ULONG EventCode, IN ULONG UniqueEventValue, IN USHORT NumStrings, IN PVOID StringsList, OPTIONAL IN ULONG DataSize, IN PVOID Data OPTIONAL ); // // Debugging routines. // #if DBG #ifndef DEBUG #define DEBUG 1 #endif #endif //DBG #ifdef DEBUG #define DEBUGCHK DbgBreakPoint() #define DEBUGSTRING(v, s) uchar v[] = s #define CTECheckMem(s) #define CTEPrint(String) DbgPrint(String) #define CTEPrintNum(Num) DbgPrint("%d", Num) #define CTEPrintCRLF() DbgPrint("\n"); #define CTEStructAssert(s, t) if ((s)->t##_sig != t##_signature) {\ CTEPrint("Structure assertion failure for type " #t " in file " __FILE__ " line ");\ CTEPrintNum(__LINE__);\ CTEPrintCRLF();\ DEBUGCHK;\ } #define CTEAssert(c) if (!(c)) {\ CTEPrint("Assertion failure in file " __FILE__ " line ");\ CTEPrintNum(__LINE__);\ CTEPrintCRLF();\ DEBUGCHK;\ } #else // DEBUG #define DEBUGCHK #define DEBUGSTRING(v,s) #define CTECheckMem(s) #define CTEStructAssert(s,t ) #define CTEAssert(c) #define CTEPrint(s) #define CTEPrintNum(Num) #define CTEPrintCRLF() #endif // DEBUG //* Request completion routine definition. typedef void (*CTEReqCmpltRtn)(void *, unsigned int , unsigned int); //* Defintion of CTEUnload #define CTEUnload(Name) //* Definition of a load/unload notification procedure handler. typedef void (*CTENotifyRtn)(uchar *); //* Defintion of set load and unload notification handlers. #define CTESetLoadNotifyProc(Handler) #define CTESetUnloadNotifyProc(Handler) #else // NT ///////////////////////////////////////////////////////////////////////////// // // Definitions for additional environments go here // ///////////////////////////////////////////////////////////////////////////// #error Environment specific definitions missing #endif // NT /*INC*/ #endif // _CXPORT_H_INCLUDED_