Current Path : /usr/src/sys/contrib/dev/nve/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/sys/contrib/dev/nve/os.h |
/***************************************************************************\ |* *| |* Copyright 2001-2004 NVIDIA Corporation. All Rights Reserved. *| |* *| |* THE INFORMATION CONTAINED HEREIN IS PROPRIETARY AND CONFIDENTIAL *| |* TO NVIDIA, CORPORATION. USE, REPRODUCTION OR DISCLOSURE TO ANY *| |* THIRD PARTY IS SUBJECT TO WRITTEN PRE-APPROVAL BY NVIDIA, CORP. *| |* *| |* THE INFORMATION CONTAINED HEREIN IS PROVIDED "AS IS" WITHOUT *| |* EXPRESS OR IMPLIED WARRANTY OF ANY KIND, INCLUDING ALL IMPLIED *| |* WARRANTIES OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A *| |* PARTICULAR PURPOSE. *| |* *| \***************************************************************************/ /* FILE: os.h DATE: 2/7/00 This file contains the os interface. Note that the os interface is itself an OS-independent API. The OS specific module is implemented by ndis.c for Win9X/NT and linuxnet.c for linux. */ #ifndef _OS_H_ #define _OS_H_ #include "phy.h" #define HDO_VERSION_STRING "HDR O: $Revision: #21 $"; // This is the maximum packet size that we will be sending // #define MAX_PACKET_SIZE 2048 //#define RX_BUFFER_SIZE 2048 #define MIN_PACKET_MTU_SIZE 576 #define MAX_PACKET_MTU_SIZE 9202 #define MAX_PACKET_SIZE_2048 2048 #define MAX_PACKET_SIZE_1514 1514 #define MAX_PACKET_SIZE_1518 1518 #define MAX_PACKET_SIZE_JUMBO (9 * 1024) typedef struct _MEMORY_BLOCK { PNV_VOID pLogical; PNV_VOID pPhysical; NV_UINT32 uiLength; } MEMORY_BLOCK, *PMEMORY_BLOCK; #define ALLOC_MEMORY_NONCACHED 0x0001 #define ALLOC_MEMORY_ALIGNED 0x0002 typedef struct _MEMORY_BLOCKEX { PNV_VOID pLogical; PNV_VOID pPhysical; NV_UINT32 uiLength; /* Parameter to OS layer to indicate what type of memory is needed */ NV_UINT16 AllocFlags; NV_UINT16 AlignmentSize; //always power of 2 /* Following three fields used for aligned memory allocation */ PNV_VOID pLogicalOrig; NV_UINT32 pPhysicalOrigLow; NV_UINT32 pPhysicalOrigHigh; NV_UINT32 uiLengthOrig; } MEMORY_BLOCKEX, *PMEMORY_BLOCKEX; // The typedefs for the OS functions typedef NV_API_CALL NV_SINT32 (* PFN_MEMORY_ALLOC) (PNV_VOID pOSCX, PMEMORY_BLOCK pMem); typedef NV_API_CALL NV_SINT32 (* PFN_MEMORY_FREE) (PNV_VOID pOSCX, PMEMORY_BLOCK pMem); typedef NV_API_CALL NV_SINT32 (* PFN_MEMORY_ALLOCEX) (PNV_VOID pOSCX, PMEMORY_BLOCKEX pMem); typedef NV_API_CALL NV_SINT32 (* PFN_MEMORY_FREEEX) (PNV_VOID pOSCX, PMEMORY_BLOCKEX pMem); typedef NV_API_CALL NV_SINT32 (* PFN_CLEAR_MEMORY) (PNV_VOID pOSCX, PNV_VOID pMem, NV_SINT32 iLength); typedef NV_API_CALL NV_SINT32 (* PFN_STALL_EXECUTION) (PNV_VOID pOSCX, NV_UINT32 ulTimeInMicroseconds); typedef NV_API_CALL NV_SINT32 (* PFN_ALLOC_RECEIVE_BUFFER) (PNV_VOID pOSCX, PMEMORY_BLOCK pMem, PNV_VOID *ppvID); typedef NV_API_CALL NV_SINT32 (* PFN_FREE_RECEIVE_BUFFER) (PNV_VOID pOSCX, PMEMORY_BLOCK pMem, PNV_VOID pvID); typedef NV_API_CALL NV_SINT32 (* PFN_PACKET_WAS_SENT) (PNV_VOID pOSCX, PNV_VOID pvID, NV_UINT32 ulSuccess); typedef NV_API_CALL NV_SINT32 (* PFN_PACKET_WAS_RECEIVED) (PNV_VOID pOSCX, PNV_VOID pvADReadData, NV_UINT32 ulSuccess, NV_UINT8 *pNewBuffer, NV_UINT8 uc8021pPriority); typedef NV_API_CALL NV_SINT32 (* PFN_LINK_STATE_HAS_CHANGED) (PNV_VOID pOSCX, NV_SINT32 nEnabled); typedef NV_API_CALL NV_SINT32 (* PFN_ALLOC_TIMER) (PNV_VOID pvContext, PNV_VOID *ppvTimer); typedef NV_API_CALL NV_SINT32 (* PFN_FREE_TIMER) (PNV_VOID pvContext, PNV_VOID pvTimer); typedef NV_API_CALL NV_SINT32 (* PFN_INITIALIZE_TIMER) (PNV_VOID pvContext, PNV_VOID pvTimer, PTIMER_FUNC pvFunc, PNV_VOID pvFuncParameter); typedef NV_API_CALL NV_SINT32 (* PFN_SET_TIMER) (PNV_VOID pvContext, PNV_VOID pvTimer, NV_UINT32 dwMillisecondsDelay); typedef NV_API_CALL NV_SINT32 (* PFN_CANCEL_TIMER) (PNV_VOID pvContext, PNV_VOID pvTimer); typedef NV_API_CALL NV_SINT32 (* PFN_PREPROCESS_PACKET) (PNV_VOID pvContext, PNV_VOID pvADReadData, PNV_VOID *ppvID, NV_UINT8 *pNewBuffer, NV_UINT8 uc8021pPriority); typedef NV_API_CALL PNV_VOID (* PFN_PREPROCESS_PACKET_NOPQ) (PNV_VOID pvContext, PNV_VOID pvADReadData); typedef NV_API_CALL NV_SINT32 (* PFN_INDICATE_PACKETS) (PNV_VOID pvContext, PNV_VOID *ppvID, NV_UINT32 ulNumPacket); typedef NV_API_CALL NV_SINT32 (* PFN_LOCK_ALLOC) (PNV_VOID pOSCX, NV_SINT32 iLockType, PNV_VOID *ppvLock); typedef NV_API_CALL NV_SINT32 (* PFN_LOCK_ACQUIRE) (PNV_VOID pOSCX, NV_SINT32 iLockType, PNV_VOID pvLock); typedef NV_API_CALL NV_SINT32 (* PFN_LOCK_RELEASE) (PNV_VOID pOSCX, NV_SINT32 iLockType, PNV_VOID pvLock); typedef NV_API_CALL PNV_VOID (* PFN_RETURN_BUFFER_VIRTUAL) (PNV_VOID pvContext, PNV_VOID pvADReadData); // Here are the OS functions that those objects below the OS interface // can call up to. typedef struct _OS_API { // OS Context -- this is a parameter to every OS API call PNV_VOID pOSCX; // Basic OS functions PFN_MEMORY_ALLOC pfnAllocMemory; PFN_MEMORY_FREE pfnFreeMemory; PFN_MEMORY_ALLOCEX pfnAllocMemoryEx; PFN_MEMORY_FREEEX pfnFreeMemoryEx; PFN_CLEAR_MEMORY pfnClearMemory; PFN_STALL_EXECUTION pfnStallExecution; PFN_ALLOC_RECEIVE_BUFFER pfnAllocReceiveBuffer; PFN_FREE_RECEIVE_BUFFER pfnFreeReceiveBuffer; PFN_PACKET_WAS_SENT pfnPacketWasSent; PFN_PACKET_WAS_RECEIVED pfnPacketWasReceived; PFN_LINK_STATE_HAS_CHANGED pfnLinkStateHasChanged; PFN_ALLOC_TIMER pfnAllocTimer; PFN_FREE_TIMER pfnFreeTimer; PFN_INITIALIZE_TIMER pfnInitializeTimer; PFN_SET_TIMER pfnSetTimer; PFN_CANCEL_TIMER pfnCancelTimer; PFN_PREPROCESS_PACKET pfnPreprocessPacket; PFN_PREPROCESS_PACKET_NOPQ pfnPreprocessPacketNopq; PFN_INDICATE_PACKETS pfnIndicatePackets; PFN_LOCK_ALLOC pfnLockAlloc; PFN_LOCK_ACQUIRE pfnLockAcquire; PFN_LOCK_RELEASE pfnLockRelease; PFN_RETURN_BUFFER_VIRTUAL pfnReturnBufferVirtual; } OS_API, *POS_API; #endif // _OS_H_