/*++ Copyright (c) 1992 Microsoft Corporation Module Name: asyncsft.h Abstract: Author: Environment: This driver is expected to work in DOS, OS2 and NT at the equivalent of kernal mode. Architecturally, there is an assumption in this driver that we are on a little endian machine. Notes: optional-notes Revision History: --*/ #ifndef _ASYNCSFT_ #define _ASYNCSFT_ // // Memory tags // #define ASYNC_IOCTX_TAG '1ysA' #define ASYNC_INFO_TAG '2ysA' #define ASYNC_ADAPTER_TAG '3ysA' #define ASYNC_FRAME_TAG '4ysA' #define ASYNC_WORKITEM_TAG '5ysA' #define INLINE __inline // // UINT min(UINT a, UINT b) // #ifndef min #define min(a, b) ((a) <= (b) ? (a) : (b)) #endif // // UINT max(UINT a, UINT b) // #ifndef max #define max(a, b) ((a) >= (b) ? (a) : (b)) #endif #define MAKEWORD(l, h) ((USHORT) ((l) | ((h) << 8))) #define MAKELONG(l, h) ((ULONG) ((l) | ((h) << 16))) #define MAKE_SIGNATURE(a, b, c, d) MAKELONG(MAKEWORD(a, b), MAKEWORD(c, d)) #define ASYNC_NDIS_MAJOR_VERSION 4 #define ASYNC_NDIS_MINOR_VERSION 0 // change these, just added these to compile. #define ETHERNET_HEADER_SIZE 14 // what window size to request on the line-up indication #define ASYNC_WINDOW_SIZE 2 // // PPP uses CIPX, and VJ TCP/IP header compression // the frame gets expanded inplace when decompressed. // #define PPP_PADDING 128 #define MAC_NAME_SIZE 256 // // ZZZ These macros are peculiar to NT. // #define ASYNC_MOVE_MEMORY(Destination,Source,Length) NdisMoveMemory(Destination,Source,Length) #define ASYNC_ZERO_MEMORY(Destination,Length) NdisZeroMemory(Destination,Length) /* Added this macro to eliminate problems caused by Tommy's redefinition and ** hard-coding of MaxFrameSize for PPP. */ #define MaxFrameSizeWithPppExpansion(x) (((x)*2)+PPP_PADDING+100) typedef struct _OID_WORK_ITEM { WORK_QUEUE_ITEM WorkQueueItem; PVOID Context; } OID_WORK_ITEM, *POID_WORK_ITEM; // // Used to contain a queued operation. // typedef struct _ASYNC_PEND_DATA { PNDIS_REQUEST Next; struct _ASYNC_OPEN * Open; NDIS_REQUEST_TYPE RequestType; } ASYNC_PEND_DATA, * PASYNC_PEND_DATA; // o CRC errors are when the 16bit V.41 CRC check fails // o TimeoutErrors occur when inter-character delays within // a frame are exceeded // o AlignmentErrors occur when the SYN byte or ETX bytes which // mark the beginning and end of frames are not found. // o The other errors are standard UART errors returned by the serial driver typedef struct SERIAL_STATS SERIAL_STATS, *PSERIAL_STATS; struct SERIAL_STATS { ULONG CRCErrors; // Serial-like info only ULONG TimeoutErrors; // Serial-like info only ULONG AlignmentErrors; // Serial-like info only ULONG SerialOverrunErrors; // Serial-like info only ULONG FramingErrors; // Serial-like info only ULONG BufferOverrunErrors; // Serial-like info only }; // The bytes transmitted, bytes received, frames received, frame transmitted // are monitored for frame and bytes going to the output device or // coming from the output device. If software compression used, it // is on top of this layer. typedef struct GENERIC_STATS GENERIC_STATS, *PGENERIC_STATS; struct GENERIC_STATS { ULONG BytesTransmitted; // Generic info ULONG BytesReceived; // Generic info ULONG FramesTransmitted; // Generic info ULONG FramesReceived; // Generic info }; // // This macro will return a pointer to the reserved area of // a PNDIS_REQUEST. // #define PASYNC_PEND_DATA_FROM_PNDIS_REQUEST(Request) \ ((PASYNC_PEND_DATA)((PVOID)((Request)->MacReserved))) // // This macros returns the enclosing NdisRequest. // #define PNDIS_REQUEST_FROM_PASYNC_PEND_DATA(PendOp)\ ((PNDIS_REQUEST)((PVOID)(PendOp))) typedef struct ASYNC_CCB ASYNC_CCB, *PASYNC_CCB; // Every port will be atomically at some state. Typically states go into // intermediate states when they go from from closed to open and vice-versa. typedef enum _ASYNC_PORT_STATE { PORT_BOGUS, // PORT_BOGUS gets assigned the NULL value PORT_OPEN, // Port opened PORT_CLOSED, // Port closed PORT_CLOSING, // Port closing (cleaning up, deallocating) PORT_OPENING, // Port opening (checking arguments, allocating) PORT_FRAMING, // Port opened and sending/reading frames } ASYNC_PORT_STATE; // // The ASYNC_INFO structure is a per port field. The ASYNC_CONNECTION // field is embedded in it because it also a per port field. // struct ASYNC_INFO { LIST_ENTRY Linkage; ULONG RefCount; ULONG Flags; #define OID_WORK_SCHEDULED 0x00000001 PASYNC_ADAPTER Adapter; // Back pointer to ADAPTER struct. PDEVICE_OBJECT DeviceObject; // Pointer to device object. ASYNC_PORT_STATE PortState; // OPEN, CLOSED, CLOSING, OPENING HANDLE Handle; // Port handle PFILE_OBJECT FileObject; // handle is dereferenced for IRPs KEVENT ClosingEvent; // we use this event to synch closing KEVENT DetectEvent; // sync the detect worker UINT QualOfConnect; // Defined by NDIS ULONG LinkSpeed; // in 100bps NDIS_HANDLE hNdisEndPoint; NDIS_HANDLE NdisLinkContext; LIST_ENTRY DDCDQueue; ULONG WaitMaskToUse ; // Wait mask used for reads. union { NDIS_WAN_GET_LINK_INFO GetLinkInfo; //... For OID requests. NDIS_WAN_SET_LINK_INFO SetLinkInfo; }; // use for reading frames PASYNC_FRAME AsyncFrame; // allocated for READs (one frame only) WORK_QUEUE_ITEM WorkItem; // use to queue up first read thread UINT BytesWanted; UINT BytesRead; //... Statistics tracking SERIAL_STATS SerialStats; // Keep track of serial stats ULONG In; ULONG Out; UINT ReadStackCounter; NDIS_SPIN_LOCK Lock; }; // // This structure, and it corresponding per port structures are // allocated when we get AddAdapter. // struct ASYNC_ADAPTER { // // WAN information. for OID_WAN_GET_INFO request. // NDIS_WAN_INFO WanInfo; // // Keeps a reference count on the current number of uses of // this adapter block. Uses is defined to be the number of // routines currently within the "external" interface. // LONG RefCount; // // List of active ports // LIST_ENTRY ActivePorts; // // Spinlock to protect fields in this structure.. // NDIS_SPIN_LOCK Lock; // // Handle given by NDIS at MPInit // NDIS_HANDLE MiniportHandle; // // Flag that when enabled lets routines know that a reset // is in progress. // BOOLEAN ResetInProgress; /* LIST_ENTRY FramePoolHead; LIST_ENTRY AllocPoolHead; */ // It will handle most file operations and transport // operations known today. You pay about 44 bytes // per stacksize. The registry parameter 'IrpStackSize' // will change this default if it exists. UCHAR IrpStackSize; // Here we default to the ethernet max frame size // The regsitry parameter 'MaxFrameSize' will change // this default if it exists. /* Note: This is meaningful only for non-PPP framing. For PPP framing the ** value is currently the hard-coded DEFAULT_PPP_MAX_FRAME_SIZE. ** See also DEFAULT_EXPANDED_PPP_MAX_FRAME_SIZE; */ ULONG MaxFrameSize; // // Number of ports this adapter owns. // USHORT NumPorts; // How many frames to allocate per port. // The registry parameter 'FramesPerPort' can change this value USHORT FramesPerPort; // Minimum inter character timeout ULONG TimeoutBase; // Tacked on to TimeoutBase based on the baud rate ULONG TimeoutBaud; // Timeout to use to resync if a frame is dropped ULONG TimeoutReSync; // // Serial driver should only complete sends when the // data hits the wire // ULONG WriteBufferingEnabled; NPAGED_LOOKASIDE_LIST AsyncFrameList; }; // // Define Maximum number of bytes a protocol can read during a // receive data indication. // #define ASYNC_MAX_LOOKAHEAD DEFAULT_MAX_FRAME_SIZE typedef struct _ASYNC_IO_CTX { BOOLEAN Sync; KEVENT Event; // use this event to signal completion IO_STATUS_BLOCK IoStatus; // use this to store Irp status PVOID Context; union { SERIAL_STATUS SerialStatus; SERIAL_QUEUE_SIZE SerialQueueSize; SERIAL_TIMEOUTS SerialTimeouts; SERIAL_CHARS SerialChars; SERIAL_COMMPROP CommProperties; UCHAR EscapeChar; UCHAR SerialPurge; ULONG WaitMask; ULONG WriteBufferingEnabled; }; } ASYNC_IO_CTX, *PASYNC_IO_CTX; // // This macro will act a "epilogue" to every routine in the // *interface*. It will check whether any requests need // to defer their processing. It will also decrement the reference // count on the adapter. // // NOTE: This really does nothing now since there is no DPC for the AsyncMac. // --tommyd // // Note that we don't need to include checking for blocked receives // since blocked receives imply that there will eventually be an // interrupt. // // NOTE: This macro assumes that it is called with the lock acquired. // // ZZZ This routine is NT specific. // #define ASYNC_DO_DEFERRED(Adapter) \ { \ PASYNC_ADAPTER _A = (Adapter); \ _A->References--; \ NdisReleaseSpinLock(&_A->Lock); \ } // // We define the external interfaces to the async driver. // These routines are only external to permit separate // compilation. Given a truely fast compiler they could // all reside in a single file and be static. // NTSTATUS AsyncSendPacket( IN PASYNC_INFO AsyncInfo, IN PNDIS_WAN_PACKET WanPacket); VOID AsyncIndicateFragment( IN PASYNC_INFO pInfo, IN ULONG Error); NTSTATUS AsyncStartReads( PASYNC_INFO pInfo); NTSTATUS AsyncSetupIrp( IN PASYNC_FRAME Frame, IN PIRP irp); VOID SetSerialStuff( PIRP irp, PASYNC_INFO pInfo, ULONG linkSpeed); VOID CancelSerialRequests( PASYNC_INFO pInfo); VOID SetSerialTimeouts( PASYNC_INFO pInfo, ULONG linkSpeed); VOID SerialSetEscapeChar( PASYNC_INFO pInfo, UCHAR EscapeChar); VOID SerialSetWaitMask( PASYNC_INFO pInfo, ULONG WaitMask); VOID SerialSetEventChar( PASYNC_INFO pInfo, UCHAR EventChar); VOID InitSerialIrp( PIRP irp, PASYNC_INFO pInfo, ULONG IoControlCode, ULONG InputBufferLength); NTSTATUS AsyncAllocateFrames( IN PASYNC_ADAPTER Adapter, IN UINT NumOfFrames); VOID AsyncSendLineUp( PASYNC_INFO pInfo); // // mp.c // VOID MpHalt( IN NDIS_HANDLE MiniportAdapterContext ); NDIS_STATUS MpInit( OUT PNDIS_STATUS OpenErrorStatus, OUT PUINT SelectedMediumIndex, IN PNDIS_MEDIUM MediumArray, IN UINT MediumArraySize, IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_HANDLE WrapperConfigurationContext ); NDIS_STATUS MpQueryInfo( IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_OID Oid, IN PVOID InformationBuffer, IN ULONG InformationBufferLength, OUT PULONG BytesWritten, OUT PULONG BytesNeeded ); NDIS_STATUS MpReconfigure( OUT PNDIS_STATUS OpenErrorStatus, IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_HANDLE WrapperConfigurationContext ); NDIS_STATUS MpReset( OUT PBOOLEAN AddressingReset, IN NDIS_HANDLE MiniportAdapterContext ); NDIS_STATUS MpSend( IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_HANDLE NdisLinkHandle, IN PNDIS_WAN_PACKET Packet ); NDIS_STATUS MpSetInfo( IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_OID Oid, IN PVOID InformationBuffer, IN ULONG InformationBufferLength, OUT PULONG BytesRead, OUT PULONG BytesNeeded ); // // crc.c // USHORT CalcCRC( PUCHAR Frame, UINT FrameSize); // // pppcrc.c // USHORT CalcCRCPPP( PUCHAR cp, UINT len); // // init.c // VOID AsyncSetupExternalNaming( PDRIVER_OBJECT DriverObject ); VOID AsyncCleanupExternalNaming(VOID); // // io.c // PASYNC_IO_CTX AsyncAllocateIoCtx( BOOLEAN AllocateSync, PVOID Context ); VOID AsyncFreeIoCtx( PASYNC_IO_CTX AsyncIoCtx ); // // chkcomm.c // VOID AsyncCheckCommStatus( IN PASYNC_INFO pInfo); // // send.c // NDIS_STATUS AsyncTryToSendPacket( IN NDIS_HANDLE MacBindingHandle, IN PASYNC_INFO AsyncInfo, IN PASYNC_ADAPTER Adapter); // // pppread.c // NTSTATUS AsyncPPPWaitMask( IN PASYNC_INFO Info); NTSTATUS AsyncPPPRead( IN PASYNC_INFO Info); // // irps.c // VOID AsyncCancelQueued( PDEVICE_OBJECT DeviceObject, PIRP Irp); VOID AsyncCancelAllQueued( PLIST_ENTRY QueueToCancel); VOID AsyncQueueIrp( PLIST_ENTRY Queue, PIRP Irp); BOOLEAN TryToCompleteDDCDIrp( PASYNC_INFO pInfo); // // pppframe.c // VOID AssemblePPPFrame( PNDIS_WAN_PACKET Packet); // // slipframe.c // VOID AssembleSLIPFrame( PNDIS_WAN_PACKET Packet); VOID AssembleRASFrame( PNDIS_WAN_PACKET Packet); // // serial.c // NTSTATUS SerialIoSyncCompletionRoutine( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PVOID Context); NTSTATUS SerialIoAsyncCompletionRoutine( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PVOID Context); // // asyncmac.c // NTSTATUS AsyncDriverDispatch( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp); NTSTATUS AsyncDriverCreate( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ); NTSTATUS AsyncDriverCleanup( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ); #endif // _ASYNCSFT_