drivers/staging/bcm/Adapter.h - kernel/mindspeed - Git at Google

 /***********************************
 *	Adapter.h
 ************************************/
 #ifndef	__ADAPTER_H__
 #define	__ADAPTER_H__

 #define MAX_FRAGMENTEDIP_CLASSIFICATION_ENTRIES 256
 #include "Debug.h"

 struct _LEADER
 {
 	USHORT 	Vcid;
 	USHORT 	PLength;
 	UCHAR  	Status;
 	UCHAR	Unused[3];
 }__attribute__((packed));
 typedef struct _LEADER LEADER,*PLEADER;

 struct _PACKETTOSEND
 {
 	LEADER	Leader;
 	UCHAR	ucPayload;
 }__attribute__((packed));
 typedef struct _PACKETTOSEND PACKETTOSEND, *PPACKETTOSEND;


 struct _CONTROL_PACKET
 {
 	PVOID	ControlBuff;
 	UINT	ControlBuffLen;
 	struct _CONTROL_PACKET* next;
 }__attribute__((packed));
 typedef struct _CONTROL_PACKET CONTROL_PACKET,*PCONTROL_PACKET;


 struct link_request
 {
 	LEADER	Leader;
 	UCHAR	szData[4];
 }__attribute__((packed));
 typedef struct link_request LINK_REQUEST, *PLINK_REQUEST;


 //classification extension is added
 typedef struct _ADD_CONNECTION
 {
     ULONG 		SrcIpAddressCount;
     ULONG 		SrcIpAddress[MAX_CONNECTIONS];
     ULONG 		SrcIpMask[MAX_CONNECTIONS];

     ULONG 		DestIpAddressCount;
     ULONG 		DestIpAddress[MAX_CONNECTIONS];
     ULONG 		DestIpMask[MAX_CONNECTIONS];

     USHORT 		SrcPortBegin;
     USHORT 		SrcPortEnd;

     USHORT 		DestPortBegin;
     USHORT 		DestPortEnd;

     UCHAR 		SrcTOS;
     UCHAR 		SrcProtocol;
 } ADD_CONNECTION,*PADD_CONNECTION;


 typedef struct _CLASSIFICATION_RULE
 {
 	UCHAR		ucIPSrcAddrLen;
 	UCHAR       ucIPSrcAddr[32];
 	UCHAR		ucIPDestAddrLen;
 	UCHAR       ucIPDestAddr[32];
 	UCHAR		ucSrcPortRangeLen;
 	UCHAR		ucSrcPortRange[4];
 	UCHAR		ucDestPortRangeLen;
 	UCHAR		ucDestPortRange[4];
 	USHORT		usVcid;
 } CLASSIFICATION_RULE,*PCLASSIFICATION_RULE;

 typedef struct _CLASSIFICATION_ONLY
 {
     USHORT 		usVcid;
     ULONG  		DestIpAddress;
     ULONG  		DestIpMask;
     USHORT 		usPortLo;
     USHORT 		usPortHi;
     BOOLEAN		bIpVersion;
     UCHAR		ucDestinationAddress[16];
 } CLASSIFICATION_ONLY, *PCLASSIFICATION_ONLY;


 #define MAX_IP_RANGE_LENGTH 4
 #define MAX_PORT_RANGE 4
 #define MAX_PROTOCOL_LENGTH   32
 #define IPV6_ADDRESS_SIZEINBYTES 0x10

 typedef union _U_IP_ADDRESS
 {
     struct
 	{
 		ULONG				ulIpv4Addr[MAX_IP_RANGE_LENGTH];//Source Ip Address Range
 		ULONG               ulIpv4Mask[MAX_IP_RANGE_LENGTH];//Source Ip Mask Address Range
 	};
 	struct
 	{
 		ULONG				ulIpv6Addr[MAX_IP_RANGE_LENGTH * 4];//Source Ip Address Range
 		ULONG               ulIpv6Mask[MAX_IP_RANGE_LENGTH * 4];//Source Ip Mask Address Range

 	};
 	struct
 	{
 		UCHAR				ucIpv4Address[MAX_IP_RANGE_LENGTH * IP_LENGTH_OF_ADDRESS];
 		UCHAR				ucIpv4Mask[MAX_IP_RANGE_LENGTH * IP_LENGTH_OF_ADDRESS];
 	};
 	struct
 	{
 		UCHAR				ucIpv6Address[MAX_IP_RANGE_LENGTH * IPV6_ADDRESS_SIZEINBYTES];
 		UCHAR				ucIpv6Mask[MAX_IP_RANGE_LENGTH * IPV6_ADDRESS_SIZEINBYTES];
 	};
 }U_IP_ADDRESS;
 struct _packet_info;

 typedef struct _S_HDR_SUPRESSION_CONTEXTINFO
 {

 	UCHAR      ucaHdrSupressionInBuf[MAX_PHS_LENGTHS]; //Intermediate buffer to accumulate pkt Header for PHS
 	UCHAR      ucaHdrSupressionOutBuf[MAX_PHS_LENGTHS + PHSI_LEN]; //Intermediate buffer containing pkt Header after PHS

 }S_HDR_SUPRESSION_CONTEXTINFO;


 typedef struct _S_CLASSIFIER_RULE
 {
 	ULONG			ulSFID;
 	UCHAR           ucReserved[2];
 	B_UINT16        uiClassifierRuleIndex;
 	BOOLEAN			bUsed;
 	USHORT			usVCID_Value;
 	B_UINT8         u8ClassifierRulePriority; //This field detemines the Classifier Priority
 	U_IP_ADDRESS	stSrcIpAddress;
 	UCHAR           ucIPSourceAddressLength;//Ip Source Address Length

 	U_IP_ADDRESS    stDestIpAddress;
     UCHAR           ucIPDestinationAddressLength;//Ip Destination Address Length
     UCHAR           ucIPTypeOfServiceLength;//Type of service Length
     UCHAR           ucTosLow;//Tos Low
     UCHAR           ucTosHigh;//Tos High
 	UCHAR           ucTosMask;//Tos Mask

     UCHAR           ucProtocolLength;//protocol Length
     UCHAR           ucProtocol[MAX_PROTOCOL_LENGTH];//protocol Length
     USHORT			usSrcPortRangeLo[MAX_PORT_RANGE];
 	USHORT			usSrcPortRangeHi[MAX_PORT_RANGE];
     UCHAR           ucSrcPortRangeLength;

     USHORT			usDestPortRangeLo[MAX_PORT_RANGE];
 	USHORT			usDestPortRangeHi[MAX_PORT_RANGE];
     UCHAR           ucDestPortRangeLength;

 	BOOLEAN			bProtocolValid;
 	BOOLEAN			bTOSValid;
 	BOOLEAN			bDestIpValid;
 	BOOLEAN			bSrcIpValid;

 	//For IPv6 Addressing
 	UCHAR			ucDirection;
 	BOOLEAN         bIpv6Protocol;
 	UINT32          u32PHSRuleID;
 	S_PHS_RULE 	    sPhsRule;
 	UCHAR			u8AssociatedPHSI;

 	//Classification fields for ETH CS
 	UCHAR		ucEthCSSrcMACLen;
 	UCHAR		au8EThCSSrcMAC[MAC_ADDRESS_SIZE];
 	UCHAR		au8EThCSSrcMACMask[MAC_ADDRESS_SIZE];
 	UCHAR		ucEthCSDestMACLen;
 	UCHAR		au8EThCSDestMAC[MAC_ADDRESS_SIZE];
 	UCHAR		au8EThCSDestMACMask[MAC_ADDRESS_SIZE];
 	UCHAR		ucEtherTypeLen;
 	UCHAR		au8EthCSEtherType[NUM_ETHERTYPE_BYTES];
 	UCHAR		usUserPriority[2];
 	USHORT		usVLANID;
 	USHORT		usValidityBitMap;
 }S_CLASSIFIER_RULE;
 //typedef struct _S_CLASSIFIER_RULE S_CLASSIFIER_RULE;

 typedef struct _S_FRAGMENTED_PACKET_INFO
 {
 	BOOLEAN				bUsed;
 	ULONG		        ulSrcIpAddress;
 	USHORT 				usIpIdentification;
 	S_CLASSIFIER_RULE 	*pstMatchedClassifierEntry;
 	BOOLEAN				bOutOfOrderFragment;
 }S_FRAGMENTED_PACKET_INFO,*PS_FRAGMENTED_PACKET_INFO;

 struct _packet_info
 {
 	//classification extension Rule
    	ULONG			ulSFID;
    	USHORT			usVCID_Value;
 	UINT			uiThreshold;
 	// This field determines the priority of the SF Queues
 	B_UINT8     	u8TrafficPriority;

 	BOOLEAN			bValid;
    	BOOLEAN     	bActive;
 	BOOLEAN			bActivateRequestSent;

 	B_UINT8			u8QueueType;//BE or rtPS

 	UINT			uiMaxBucketSize;//maximum size of the bucket for the queue
 	UINT			uiCurrentQueueDepthOnTarget;
 	UINT			uiCurrentBytesOnHost;
 	UINT			uiCurrentPacketsOnHost;
 	UINT			uiDroppedCountBytes;
 	UINT			uiDroppedCountPackets;
 	UINT			uiSentBytes;
 	UINT			uiSentPackets;
 	UINT			uiCurrentDrainRate;
 	UINT			uiThisPeriodSentBytes;
 	LARGE_INTEGER	liDrainCalculated;
 	UINT			uiCurrentTokenCount;
 	LARGE_INTEGER 	liLastUpdateTokenAt;
 	UINT			uiMaxAllowedRate;
 	UINT			NumOfPacketsSent;
 	UCHAR			ucDirection;
 	USHORT			usCID;
 	S_MIBS_EXTSERVICEFLOW_PARAMETERS	stMibsExtServiceFlowTable;
 	UINT			uiCurrentRxRate;
 	UINT			uiThisPeriodRxBytes;
 	UINT			uiTotalRxBytes;
 	UINT			uiTotalTxBytes;
 	UINT			uiPendedLast;
 	UCHAR			ucIpVersion;

 	union
 	{
 		struct
 		{
 			struct sk_buff*	   FirstTxQueue;
 			struct sk_buff*	   LastTxQueue;
 		};
 		struct
 		{
 			struct sk_buff*	   ControlHead;
 			struct sk_buff*	   ControlTail;
 		};
 	};
 	BOOLEAN		bProtocolValid;
 	BOOLEAN		bTOSValid;
 	BOOLEAN		bDestIpValid;
 	BOOLEAN		bSrcIpValid;

 	BOOLEAN		bActiveSet;
 	BOOLEAN		bAdmittedSet;
 	BOOLEAN		bAuthorizedSet;
 	BOOLEAN		bClassifierPriority;
 	UCHAR		ucServiceClassName[MAX_CLASS_NAME_LENGTH];
 	BOOLEAN     bHeaderSuppressionEnabled;
 	spinlock_t	SFQueueLock;
 	void 		*pstSFIndication;
 	struct timeval	stLastUpdateTokenAt;
 	atomic_t 	uiPerSFTxResourceCount;
 	UINT		uiMaxLatency;
 	UCHAR 	bIPCSSupport;
 	UCHAR 	bEthCSSupport;
 };
 typedef struct _packet_info PacketInfo;


 typedef struct _PER_TARANG_DATA
 {
     struct _PER_TARANG_DATA * next;
     struct _MINI_ADAPTER * Adapter;
     struct sk_buff*     RxAppControlHead;
     struct sk_buff*     RxAppControlTail;
     volatile INT        AppCtrlQueueLen;
     BOOLEAN             MacTracingEnabled;
 	BOOLEAN				bApplicationToExit;
 	S_MIBS_DROPPED_APP_CNTRL_MESSAGES stDroppedAppCntrlMsgs;
 	ULONG 				RxCntrlMsgBitMask;
 } PER_TARANG_DATA, *PPER_TARANG_DATA;


 #ifdef REL_4_1
 typedef struct _TARGET_PARAMS
 {
       B_UINT32 m_u32CfgVersion;

       // Scanning Related Params
       B_UINT32 m_u32CenterFrequency;
       B_UINT32 m_u32BandAScan;
       B_UINT32 m_u32BandBScan;
       B_UINT32 m_u32BandCScan;

       // QoS Params
       B_UINT32 m_u32minGrantsize;	// size of minimum grant is 0 or 6
       B_UINT32 m_u32PHSEnable;

       // HO Params
       B_UINT32 m_u32HoEnable;
       B_UINT32 m_u32HoReserved1;
       B_UINT32 m_u32HoReserved2;

 	// Power Control Params
       B_UINT32 m_u32MimoEnable;
       B_UINT32 m_u32SecurityEnable;
 	/*
      * bit 1: 1 Idlemode enable;
      * bit 2: 1 Sleepmode Enable
      */
       B_UINT32 m_u32PowerSavingModesEnable;
 	  /* PowerSaving Mode Options:
 	     bit 0 = 1: CPE mode - to keep pcmcia if alive;
 	     bit 1 = 1: CINR reporing in Idlemode Msg
 	     bit 2 = 1: Default PSC Enable in sleepmode*/
       B_UINT32 m_u32PowerSavingModeOptions;

       B_UINT32 m_u32ArqEnable;

       // From Version #3, the HARQ section renamed as general
       B_UINT32 m_u32HarqEnable;
        // EEPROM Param Location
        B_UINT32  m_u32EEPROMFlag;
        /* BINARY TYPE - 4th MSByte:
         * Interface Type -  3rd MSByte:
         * Vendor Type - 2nd MSByte
         */
        // Unused - LSByte
       B_UINT32   m_u32Customize;
       B_UINT32   m_u32ConfigBW;  /* In Hz */
       B_UINT32   m_u32ShutDownTimer;


       B_UINT32  m_u32RadioParameter;
       B_UINT32  m_u32PhyParameter1;
       B_UINT32  m_u32PhyParameter2;
       B_UINT32  m_u32PhyParameter3;

 	/* in eval mode only;
      * lower 16bits = basic cid for testing;
      * then bit 16 is test cqich,
      * bit 17  test init rang;
      * bit 18 test periodic rang
      * bit 19 is test harq ack/nack
      */
     B_UINT32	  m_u32TestOptions;

 	B_UINT32 m_u32MaxMACDataperDLFrame;
 	B_UINT32 m_u32MaxMACDataperULFrame;

 	B_UINT32 m_u32Corr2MacFlags;

     //adding driver params.
     B_UINT32 HostDrvrConfig1;
     B_UINT32 HostDrvrConfig2;
     B_UINT32 HostDrvrConfig3;
     B_UINT32 HostDrvrConfig4;
     B_UINT32 HostDrvrConfig5;
     B_UINT32 HostDrvrConfig6;
     B_UINT32 m_u32SegmentedPUSCenable;

 	//	BAMC enable - but 4.x does not support this feature
 	//	This is added just to sync 4.x and 5.x CFGs
 	B_UINT32 m_u32BandAMCEnable;
 } STARGETPARAMS, *PSTARGETPARAMS;
 #endif

 typedef struct _STTARGETDSXBUFFER
 {
     ULONG ulTargetDsxBuffer;
     B_UINT16 tid;
     BOOLEAN valid;
 }STTARGETDSXBUFFER, *PSTTARGETDSXBUFFER;

 typedef INT (*FP_FLASH_WRITE)(struct _MINI_ADAPTER*,UINT,PVOID);

 typedef INT (*FP_FLASH_WRITE_STATUS)(struct _MINI_ADAPTER*,UINT,PVOID);

 /**
 Driver adapter data structure
 */
 struct _MINI_ADAPTER
 {
 	struct _MINI_ADAPTER *next;
 	struct net_device	*dev;
 	u32			msg_enable;

 	CHAR                *caDsxReqResp;
 	atomic_t		ApplicationRunning;
 	volatile INT		CtrlQueueLen;
 	atomic_t            	AppCtrlQueueLen;
 	BOOLEAN             	AppCtrlQueueOverFlow;
 	atomic_t		CurrentApplicationCount;
 	atomic_t 		RegisteredApplicationCount;
 	BOOLEAN		  	LinkUpStatus;
 	BOOLEAN		    	TimerActive;
 	u32			StatisticsPointer;
 	struct sk_buff		*RxControlHead;
 	struct sk_buff		*RxControlTail;

 	struct semaphore	RxAppControlQueuelock;
 	struct semaphore	fw_download_sema;

 	PPER_TARANG_DATA    pTarangs;
 	spinlock_t			control_queue_lock;
 	wait_queue_head_t	process_read_wait_queue;

 	// the pointer to the first packet we have queued in send
 	// deserialized miniport support variables
 	atomic_t		    TotalPacketCount;
 	atomic_t		    TxPktAvail;

 	// this to keep track of the Tx and Rx MailBox Registers.
 	atomic_t		    CurrNumFreeTxDesc;
 	// to keep track the no of byte received
 	USHORT				PrevNumRecvDescs;
 	USHORT				CurrNumRecvDescs;
 	UINT				u32TotalDSD;
 	PacketInfo		    PackInfo[NO_OF_QUEUES];
 	S_CLASSIFIER_RULE	astClassifierTable[MAX_CLASSIFIERS];
 	BOOLEAN			    TransferMode;

 	/*************** qos ******************/
 	BOOLEAN			    bETHCSEnabled;

 	ULONG			    BEBucketSize;
 	ULONG			    rtPSBucketSize;
 	UCHAR			    LinkStatus;
 	BOOLEAN			    AutoLinkUp;
 	BOOLEAN			    AutoSyncup;

 	int				major;
 	int				minor;
 	wait_queue_head_t 	tx_packet_wait_queue;
 	wait_queue_head_t 	process_rx_cntrlpkt;
 	atomic_t			process_waiting;
 	BOOLEAN 			fw_download_done;

 	char 				*txctlpacket[MAX_CNTRL_PKTS];
 	atomic_t			cntrlpktCnt ;
 	atomic_t			index_app_read_cntrlpkt;
 	atomic_t			index_wr_txcntrlpkt;
 	atomic_t			index_rd_txcntrlpkt;
 	UINT				index_datpkt;
 	struct semaphore 	rdmwrmsync;

 	STTARGETDSXBUFFER	astTargetDsxBuffer[MAX_TARGET_DSX_BUFFERS];
 	ULONG			ulFreeTargetBufferCnt;
 	ULONG              	ulCurrentTargetBuffer;
 	ULONG              	ulTotalTargetBuffersAvailable;

 	unsigned long 		chip_id;

 	wait_queue_head_t 	lowpower_mode_wait_queue;

 	BOOLEAN			bFlashBoot;
 	BOOLEAN			bBinDownloaded;
 	BOOLEAN			bCfgDownloaded;
 	BOOLEAN			bSyncUpRequestSent;
 	USHORT			usBestEffortQueueIndex;

 	wait_queue_head_t 	ioctl_fw_dnld_wait_queue;
 	BOOLEAN				waiting_to_fw_download_done;
 	pid_t				fw_download_process_pid;
 	PSTARGETPARAMS		pstargetparams;
 	BOOLEAN				device_removed;
 	BOOLEAN				DeviceAccess;
 	BOOLEAN				bIsAutoCorrectEnabled;
 	BOOLEAN				bDDRInitDone;
 	INT				DDRSetting;
 	ULONG				ulPowerSaveMode;
 	spinlock_t			txtransmitlock;
 	B_UINT8				txtransmit_running;
 	/* Thread for control packet handling */
 	struct task_struct 	*control_packet_handler;
 	/* thread for transmitting packets. */
 	struct task_struct 	*transmit_packet_thread;

 	/* LED Related Structures */
 	LED_INFO_STRUCT		LEDInfo;

 	/* Driver State for LED Blinking */
 	LedEventInfo_t		DriverState;
 	/* Interface Specific */
 	PVOID				pvInterfaceAdapter;
 	int (*bcm_file_download)( PVOID,
                         struct file *,
                         unsigned int);
 	int (*bcm_file_readback_from_chip)( PVOID,
                         struct file *,
                         unsigned int);
 	INT (*interface_rdm)(PVOID,
 			UINT ,
 			PVOID ,
 			INT);
 	INT (*interface_wrm)(PVOID,
 			UINT ,
 			PVOID ,
 			INT);
 	int (*interface_transmit)(PVOID, PVOID , UINT);
 	BOOLEAN			IdleMode;
 	BOOLEAN			bDregRequestSentInIdleMode;
 	BOOLEAN			bTriedToWakeUpFromlowPowerMode;
 	BOOLEAN			bShutStatus;
 	BOOLEAN			bWakeUpDevice;
 	unsigned int	usIdleModePattern;
 	//BOOLEAN			bTriedToWakeUpFromShutdown;
 	BOOLEAN			bLinkDownRequested;

 	int 			downloadDDR;
 	PHS_DEVICE_EXTENSION stBCMPhsContext;
 	S_HDR_SUPRESSION_CONTEXTINFO	stPhsTxContextInfo;
 	uint8_t			ucaPHSPktRestoreBuf[2048];
 	uint8_t			bPHSEnabled;
 	BOOLEAN			AutoFirmDld;
 	BOOLEAN         bMipsConfig;
 	BOOLEAN         bDPLLConfig;
 	UINT32			aTxPktSizeHist[MIBS_MAX_HIST_ENTRIES];
 	UINT32			aRxPktSizeHist[MIBS_MAX_HIST_ENTRIES];
 	S_FRAGMENTED_PACKET_INFO astFragmentedPktClassifierTable[MAX_FRAGMENTEDIP_CLASSIFICATION_ENTRIES];
 	atomic_t		uiMBupdate;
 	UINT32			PmuMode;
 	NVM_TYPE		eNVMType;
 	UINT			uiSectorSize;
 	UINT			uiSectorSizeInCFG;
 	BOOLEAN			bSectorSizeOverride;
 	BOOLEAN			bStatusWrite;
 	UINT			uiNVMDSDSize;
 	UINT			uiVendorExtnFlag;
 	 //it will always represent chosen DSD at any point of time.
 	 // Generally it is Active DSD but in case of NVM RD/WR it might be different.
 	UINT			ulFlashCalStart;
 	ULONG                   ulFlashControlSectionStart;
 	ULONG                   ulFlashWriteSize;
 	ULONG                   ulFlashID;
 	FP_FLASH_WRITE          fpFlashWrite;
 	FP_FLASH_WRITE_STATUS   fpFlashWriteWithStatusCheck;


 	struct semaphore	NVMRdmWrmLock;

 	struct device *pstCreatedClassDevice;

 //	BOOLEAN				InterfaceUpStatus;
 	PFLASH2X_CS_INFO psFlash2xCSInfo;
 	PFLASH_CS_INFO psFlashCSInfo ;
 	PFLASH2X_VENDORSPECIFIC_INFO psFlash2xVendorInfo;
 	UINT uiFlashBaseAdd; //Flash start address
 	UINT uiActiveISOOffset; //Active ISO offset chosen before f/w download
 	FLASH2X_SECTION_VAL eActiveISO; //Active ISO section val
 	FLASH2X_SECTION_VAL eActiveDSD;	//Active DSD val chosen before f/w download
 	UINT uiActiveDSDOffsetAtFwDld;  //For accessing Active DSD chosen before f/w download
 	UINT uiFlashLayoutMajorVersion ;
 	UINT uiFlashLayoutMinorVersion;
 	BOOLEAN bAllDSDWriteAllow ;
 	BOOLEAN bSigCorrupted ;
 	//this should be set who so ever want to change the Headers. after Wrtie it should be reset immediately.
 	BOOLEAN bHeaderChangeAllowed ;
 	INT SelectedChip ;
 	BOOLEAN bEndPointHalted;
 	//while bFlashRawRead will be true, Driver  ignore map lay out and consider flash as of without any map.
 	BOOLEAN bFlashRawRead;
 	BOOLEAN			bPreparingForLowPowerMode ;
 	BOOLEAN bDoSuspend ;
 	UINT syscfgBefFwDld ;
 	BOOLEAN StopAllXaction ;
 	UINT32	liTimeSinceLastNetEntry; //Used to Support extended CAPI requirements from
 	struct semaphore	LowPowerModeSync;
 	ULONG	liDrainCalculated;
 	UINT gpioBitMap;

     S_BCM_DEBUG_STATE stDebugState;

 };
 typedef struct _MINI_ADAPTER MINI_ADAPTER, *PMINI_ADAPTER;

 #define GET_BCM_ADAPTER(net_dev)	netdev_priv(net_dev)

 struct _ETH_HEADER_STRUC {
     UCHAR       au8DestinationAddress[6];
     UCHAR       au8SourceAddress[6];
     USHORT      u16Etype;
 }__attribute__((packed));
 typedef struct _ETH_HEADER_STRUC ETH_HEADER_STRUC, *PETH_HEADER_STRUC;


 typedef struct FirmwareInfo
 {
 	void __user *	pvMappedFirmwareAddress;
 	ULONG		u32FirmwareLength;
 	ULONG		u32StartingAddress;
 }__attribute__((packed)) FIRMWARE_INFO, *PFIRMWARE_INFO;

 // holds the value of net_device structure..
 extern struct net_device *gblpnetdev;
 typedef struct _cntl_pkt{
 	PMINI_ADAPTER 	Adapter;
 	PLEADER 		PLeader;
 }cntl_pkt;
 typedef LINK_REQUEST CONTROL_MESSAGE;

 typedef struct _DDR_SETTING
 {
 	UINT ulRegAddress;
 	UINT ulRegValue;
 }DDR_SETTING, *PDDR_SETTING;
 typedef DDR_SETTING DDR_SET_NODE, *PDDR_SET_NODE;
 INT
 InitAdapter(PMINI_ADAPTER psAdapter);

 // =====================================================================
 // Beceem vendor request codes for EP0
 // =====================================================================

 #define BCM_REQUEST_READ  0x2
 #define BCM_REQUEST_WRITE 0x1
 #define EP2_MPS_REG  0x0F0110A0
 #define EP2_MPS 	 0x40

 #define EP2_CFG_REG  0x0F0110A8
 #define EP2_CFG_INT  0x27
 #define EP2_CFG_BULK 0x25

 #define EP4_MPS_REG  0x0F0110F0
 #define EP4_MPS      0x8C

 #define EP4_CFG_REG  0x0F0110F8

 #define ISO_MPS_REG  0x0F0110C8
 #define ISO_MPS      0x00000000


 #define EP1 0
 #define EP2 1
 #define EP3 2
 #define EP4 3
 #define EP5 4
 #define EP6 5


 typedef enum eInterface_setting
 {
 	DEFAULT_SETTING_0  = 0,
 	ALTERNATE_SETTING_1 = 1,
 }INTERFACE_SETTING;

 #endif	//__ADAPTER_H__
	/***********************************
	* Adapter.h
	************************************/
	#ifndef __ADAPTER_H__
	#define __ADAPTER_H__

	#define MAX_FRAGMENTEDIP_CLASSIFICATION_ENTRIES 256
	#include "Debug.h"

	struct _LEADER
	{
	USHORT Vcid;
	USHORT PLength;
	UCHAR Status;
	UCHAR Unused[3];
	}__attribute__((packed));
	typedef struct _LEADER LEADER,*PLEADER;

	struct _PACKETTOSEND
	{
	LEADER Leader;
	UCHAR ucPayload;
	}__attribute__((packed));
	typedef struct _PACKETTOSEND PACKETTOSEND, *PPACKETTOSEND;


	struct _CONTROL_PACKET
	{
	PVOID ControlBuff;
	UINT ControlBuffLen;
	struct _CONTROL_PACKET* next;
	}__attribute__((packed));
	typedef struct _CONTROL_PACKET CONTROL_PACKET,*PCONTROL_PACKET;


	struct link_request
	{
	LEADER Leader;
	UCHAR szData[4];
	}__attribute__((packed));
	typedef struct link_request LINK_REQUEST, *PLINK_REQUEST;


	//classification extension is added
	typedef struct _ADD_CONNECTION
	{
	ULONG SrcIpAddressCount;
	ULONG SrcIpAddress[MAX_CONNECTIONS];
	ULONG SrcIpMask[MAX_CONNECTIONS];

	ULONG DestIpAddressCount;
	ULONG DestIpAddress[MAX_CONNECTIONS];
	ULONG DestIpMask[MAX_CONNECTIONS];

	USHORT SrcPortBegin;
	USHORT SrcPortEnd;

	USHORT DestPortBegin;
	USHORT DestPortEnd;

	UCHAR SrcTOS;
	UCHAR SrcProtocol;
	} ADD_CONNECTION,*PADD_CONNECTION;


	typedef struct _CLASSIFICATION_RULE
	{
	UCHAR ucIPSrcAddrLen;
	UCHAR ucIPSrcAddr[32];
	UCHAR ucIPDestAddrLen;
	UCHAR ucIPDestAddr[32];
	UCHAR ucSrcPortRangeLen;
	UCHAR ucSrcPortRange[4];
	UCHAR ucDestPortRangeLen;
	UCHAR ucDestPortRange[4];
	USHORT usVcid;
	} CLASSIFICATION_RULE,*PCLASSIFICATION_RULE;

	typedef struct _CLASSIFICATION_ONLY
	{
	USHORT usVcid;
	ULONG DestIpAddress;
	ULONG DestIpMask;
	USHORT usPortLo;
	USHORT usPortHi;
	BOOLEAN bIpVersion;
	UCHAR ucDestinationAddress[16];
	} CLASSIFICATION_ONLY, *PCLASSIFICATION_ONLY;


	#define MAX_IP_RANGE_LENGTH 4
	#define MAX_PORT_RANGE 4
	#define MAX_PROTOCOL_LENGTH 32
	#define IPV6_ADDRESS_SIZEINBYTES 0x10

	typedef union _U_IP_ADDRESS
	{
	struct
	{
	ULONG ulIpv4Addr[MAX_IP_RANGE_LENGTH];//Source Ip Address Range
	ULONG ulIpv4Mask[MAX_IP_RANGE_LENGTH];//Source Ip Mask Address Range
	};
	struct
	{
	ULONG ulIpv6Addr[MAX_IP_RANGE_LENGTH * 4];//Source Ip Address Range
	ULONG ulIpv6Mask[MAX_IP_RANGE_LENGTH * 4];//Source Ip Mask Address Range

	};
	struct
	{
	UCHAR ucIpv4Address[MAX_IP_RANGE_LENGTH * IP_LENGTH_OF_ADDRESS];
	UCHAR ucIpv4Mask[MAX_IP_RANGE_LENGTH * IP_LENGTH_OF_ADDRESS];
	};
	struct
	{
	UCHAR ucIpv6Address[MAX_IP_RANGE_LENGTH * IPV6_ADDRESS_SIZEINBYTES];
	UCHAR ucIpv6Mask[MAX_IP_RANGE_LENGTH * IPV6_ADDRESS_SIZEINBYTES];
	};
	}U_IP_ADDRESS;
	struct _packet_info;

	typedef struct _S_HDR_SUPRESSION_CONTEXTINFO
	{

	UCHAR ucaHdrSupressionInBuf[MAX_PHS_LENGTHS]; //Intermediate buffer to accumulate pkt Header for PHS
	UCHAR ucaHdrSupressionOutBuf[MAX_PHS_LENGTHS + PHSI_LEN]; //Intermediate buffer containing pkt Header after PHS

	}S_HDR_SUPRESSION_CONTEXTINFO;


	typedef struct _S_CLASSIFIER_RULE
	{
	ULONG ulSFID;
	UCHAR ucReserved[2];
	B_UINT16 uiClassifierRuleIndex;
	BOOLEAN bUsed;
	USHORT usVCID_Value;
	B_UINT8 u8ClassifierRulePriority; //This field detemines the Classifier Priority
	U_IP_ADDRESS stSrcIpAddress;
	UCHAR ucIPSourceAddressLength;//Ip Source Address Length

	U_IP_ADDRESS stDestIpAddress;
	UCHAR ucIPDestinationAddressLength;//Ip Destination Address Length
	UCHAR ucIPTypeOfServiceLength;//Type of service Length
	UCHAR ucTosLow;//Tos Low
	UCHAR ucTosHigh;//Tos High
	UCHAR ucTosMask;//Tos Mask

	UCHAR ucProtocolLength;//protocol Length
	UCHAR ucProtocol[MAX_PROTOCOL_LENGTH];//protocol Length
	USHORT usSrcPortRangeLo[MAX_PORT_RANGE];
	USHORT usSrcPortRangeHi[MAX_PORT_RANGE];
	UCHAR ucSrcPortRangeLength;

	USHORT usDestPortRangeLo[MAX_PORT_RANGE];
	USHORT usDestPortRangeHi[MAX_PORT_RANGE];
	UCHAR ucDestPortRangeLength;

	BOOLEAN bProtocolValid;
	BOOLEAN bTOSValid;
	BOOLEAN bDestIpValid;
	BOOLEAN bSrcIpValid;

	//For IPv6 Addressing
	UCHAR ucDirection;
	BOOLEAN bIpv6Protocol;
	UINT32 u32PHSRuleID;
	S_PHS_RULE sPhsRule;
	UCHAR u8AssociatedPHSI;

	//Classification fields for ETH CS
	UCHAR ucEthCSSrcMACLen;
	UCHAR au8EThCSSrcMAC[MAC_ADDRESS_SIZE];
	UCHAR au8EThCSSrcMACMask[MAC_ADDRESS_SIZE];
	UCHAR ucEthCSDestMACLen;
	UCHAR au8EThCSDestMAC[MAC_ADDRESS_SIZE];
	UCHAR au8EThCSDestMACMask[MAC_ADDRESS_SIZE];
	UCHAR ucEtherTypeLen;
	UCHAR au8EthCSEtherType[NUM_ETHERTYPE_BYTES];
	UCHAR usUserPriority[2];
	USHORT usVLANID;
	USHORT usValidityBitMap;
	}S_CLASSIFIER_RULE;
	//typedef struct _S_CLASSIFIER_RULE S_CLASSIFIER_RULE;

	typedef struct _S_FRAGMENTED_PACKET_INFO
	{
	BOOLEAN bUsed;
	ULONG ulSrcIpAddress;
	USHORT usIpIdentification;
	S_CLASSIFIER_RULE *pstMatchedClassifierEntry;
	BOOLEAN bOutOfOrderFragment;
	}S_FRAGMENTED_PACKET_INFO,*PS_FRAGMENTED_PACKET_INFO;

	struct _packet_info
	{
	//classification extension Rule
	ULONG ulSFID;
	USHORT usVCID_Value;
	UINT uiThreshold;
	// This field determines the priority of the SF Queues
	B_UINT8 u8TrafficPriority;

	BOOLEAN bValid;
	BOOLEAN bActive;
	BOOLEAN bActivateRequestSent;

	B_UINT8 u8QueueType;//BE or rtPS

	UINT uiMaxBucketSize;//maximum size of the bucket for the queue
	UINT uiCurrentQueueDepthOnTarget;
	UINT uiCurrentBytesOnHost;
	UINT uiCurrentPacketsOnHost;
	UINT uiDroppedCountBytes;
	UINT uiDroppedCountPackets;
	UINT uiSentBytes;
	UINT uiSentPackets;
	UINT uiCurrentDrainRate;
	UINT uiThisPeriodSentBytes;
	LARGE_INTEGER liDrainCalculated;
	UINT uiCurrentTokenCount;
	LARGE_INTEGER liLastUpdateTokenAt;
	UINT uiMaxAllowedRate;
	UINT NumOfPacketsSent;
	UCHAR ucDirection;
	USHORT usCID;
	S_MIBS_EXTSERVICEFLOW_PARAMETERS stMibsExtServiceFlowTable;
	UINT uiCurrentRxRate;
	UINT uiThisPeriodRxBytes;
	UINT uiTotalRxBytes;
	UINT uiTotalTxBytes;
	UINT uiPendedLast;
	UCHAR ucIpVersion;

	union
	{
	struct
	{
	struct sk_buff* FirstTxQueue;
	struct sk_buff* LastTxQueue;
	};
	struct
	{
	struct sk_buff* ControlHead;
	struct sk_buff* ControlTail;
	};
	};
	BOOLEAN bProtocolValid;
	BOOLEAN bTOSValid;
	BOOLEAN bDestIpValid;
	BOOLEAN bSrcIpValid;

	BOOLEAN bActiveSet;
	BOOLEAN bAdmittedSet;
	BOOLEAN bAuthorizedSet;
	BOOLEAN bClassifierPriority;
	UCHAR ucServiceClassName[MAX_CLASS_NAME_LENGTH];
	BOOLEAN bHeaderSuppressionEnabled;
	spinlock_t SFQueueLock;
	void *pstSFIndication;
	struct timeval stLastUpdateTokenAt;
	atomic_t uiPerSFTxResourceCount;
	UINT uiMaxLatency;
	UCHAR bIPCSSupport;
	UCHAR bEthCSSupport;
	};
	typedef struct _packet_info PacketInfo;


	typedef struct _PER_TARANG_DATA
	{
	struct _PER_TARANG_DATA * next;
	struct _MINI_ADAPTER * Adapter;
	struct sk_buff* RxAppControlHead;
	struct sk_buff* RxAppControlTail;
	volatile INT AppCtrlQueueLen;
	BOOLEAN MacTracingEnabled;
	BOOLEAN bApplicationToExit;
	S_MIBS_DROPPED_APP_CNTRL_MESSAGES stDroppedAppCntrlMsgs;
	ULONG RxCntrlMsgBitMask;
	} PER_TARANG_DATA, *PPER_TARANG_DATA;


	#ifdef REL_4_1
	typedef struct _TARGET_PARAMS
	{
	B_UINT32 m_u32CfgVersion;

	// Scanning Related Params
	B_UINT32 m_u32CenterFrequency;
	B_UINT32 m_u32BandAScan;
	B_UINT32 m_u32BandBScan;
	B_UINT32 m_u32BandCScan;

	// QoS Params
	B_UINT32 m_u32minGrantsize; // size of minimum grant is 0 or 6
	B_UINT32 m_u32PHSEnable;

	// HO Params
	B_UINT32 m_u32HoEnable;
	B_UINT32 m_u32HoReserved1;
	B_UINT32 m_u32HoReserved2;

	// Power Control Params
	B_UINT32 m_u32MimoEnable;
	B_UINT32 m_u32SecurityEnable;
	/*
	* bit 1: 1 Idlemode enable;
	* bit 2: 1 Sleepmode Enable
	*/
	B_UINT32 m_u32PowerSavingModesEnable;
	/* PowerSaving Mode Options:
	bit 0 = 1: CPE mode - to keep pcmcia if alive;
	bit 1 = 1: CINR reporing in Idlemode Msg
	bit 2 = 1: Default PSC Enable in sleepmode*/
	B_UINT32 m_u32PowerSavingModeOptions;

	B_UINT32 m_u32ArqEnable;

	// From Version #3, the HARQ section renamed as general
	B_UINT32 m_u32HarqEnable;
	// EEPROM Param Location
	B_UINT32 m_u32EEPROMFlag;
	/* BINARY TYPE - 4th MSByte:
	* Interface Type - 3rd MSByte:
	* Vendor Type - 2nd MSByte
	*/
	// Unused - LSByte
	B_UINT32 m_u32Customize;
	B_UINT32 m_u32ConfigBW; /* In Hz */
	B_UINT32 m_u32ShutDownTimer;


	B_UINT32 m_u32RadioParameter;
	B_UINT32 m_u32PhyParameter1;
	B_UINT32 m_u32PhyParameter2;
	B_UINT32 m_u32PhyParameter3;

	/* in eval mode only;
	* lower 16bits = basic cid for testing;
	* then bit 16 is test cqich,
	* bit 17 test init rang;
	* bit 18 test periodic rang
	* bit 19 is test harq ack/nack
	*/
	B_UINT32 m_u32TestOptions;

	B_UINT32 m_u32MaxMACDataperDLFrame;
	B_UINT32 m_u32MaxMACDataperULFrame;

	B_UINT32 m_u32Corr2MacFlags;

	//adding driver params.
	B_UINT32 HostDrvrConfig1;
	B_UINT32 HostDrvrConfig2;
	B_UINT32 HostDrvrConfig3;
	B_UINT32 HostDrvrConfig4;
	B_UINT32 HostDrvrConfig5;
	B_UINT32 HostDrvrConfig6;
	B_UINT32 m_u32SegmentedPUSCenable;

	// BAMC enable - but 4.x does not support this feature
	// This is added just to sync 4.x and 5.x CFGs
	B_UINT32 m_u32BandAMCEnable;
	} STARGETPARAMS, *PSTARGETPARAMS;
	#endif

	typedef struct _STTARGETDSXBUFFER
	{
	ULONG ulTargetDsxBuffer;
	B_UINT16 tid;
	BOOLEAN valid;
	}STTARGETDSXBUFFER, *PSTTARGETDSXBUFFER;

	typedef INT (FP_FLASH_WRITE)(struct _MINI_ADAPTER,UINT,PVOID);

	typedef INT (FP_FLASH_WRITE_STATUS)(struct _MINI_ADAPTER,UINT,PVOID);

	/**
	Driver adapter data structure
	*/
	struct _MINI_ADAPTER
	{
	struct _MINI_ADAPTER *next;
	struct net_device *dev;
	u32 msg_enable;

	CHAR *caDsxReqResp;
	atomic_t ApplicationRunning;
	volatile INT CtrlQueueLen;
	atomic_t AppCtrlQueueLen;
	BOOLEAN AppCtrlQueueOverFlow;
	atomic_t CurrentApplicationCount;
	atomic_t RegisteredApplicationCount;
	BOOLEAN LinkUpStatus;
	BOOLEAN TimerActive;
	u32 StatisticsPointer;
	struct sk_buff *RxControlHead;
	struct sk_buff *RxControlTail;

	struct semaphore RxAppControlQueuelock;
	struct semaphore fw_download_sema;

	PPER_TARANG_DATA pTarangs;
	spinlock_t control_queue_lock;
	wait_queue_head_t process_read_wait_queue;

	// the pointer to the first packet we have queued in send
	// deserialized miniport support variables
	atomic_t TotalPacketCount;
	atomic_t TxPktAvail;

	// this to keep track of the Tx and Rx MailBox Registers.
	atomic_t CurrNumFreeTxDesc;
	// to keep track the no of byte received
	USHORT PrevNumRecvDescs;
	USHORT CurrNumRecvDescs;
	UINT u32TotalDSD;
	PacketInfo PackInfo[NO_OF_QUEUES];
	S_CLASSIFIER_RULE astClassifierTable[MAX_CLASSIFIERS];
	BOOLEAN TransferMode;

	/************* qos ****************/
	BOOLEAN bETHCSEnabled;

	ULONG BEBucketSize;
	ULONG rtPSBucketSize;
	UCHAR LinkStatus;
	BOOLEAN AutoLinkUp;
	BOOLEAN AutoSyncup;

	int major;
	int minor;
	wait_queue_head_t tx_packet_wait_queue;
	wait_queue_head_t process_rx_cntrlpkt;
	atomic_t process_waiting;
	BOOLEAN fw_download_done;

	char *txctlpacket[MAX_CNTRL_PKTS];
	atomic_t cntrlpktCnt ;
	atomic_t index_app_read_cntrlpkt;
	atomic_t index_wr_txcntrlpkt;
	atomic_t index_rd_txcntrlpkt;
	UINT index_datpkt;
	struct semaphore rdmwrmsync;

	STTARGETDSXBUFFER astTargetDsxBuffer[MAX_TARGET_DSX_BUFFERS];
	ULONG ulFreeTargetBufferCnt;
	ULONG ulCurrentTargetBuffer;
	ULONG ulTotalTargetBuffersAvailable;

	unsigned long chip_id;

	wait_queue_head_t lowpower_mode_wait_queue;

	BOOLEAN bFlashBoot;
	BOOLEAN bBinDownloaded;
	BOOLEAN bCfgDownloaded;
	BOOLEAN bSyncUpRequestSent;
	USHORT usBestEffortQueueIndex;

	wait_queue_head_t ioctl_fw_dnld_wait_queue;
	BOOLEAN waiting_to_fw_download_done;
	pid_t fw_download_process_pid;
	PSTARGETPARAMS pstargetparams;
	BOOLEAN device_removed;
	BOOLEAN DeviceAccess;
	BOOLEAN bIsAutoCorrectEnabled;
	BOOLEAN bDDRInitDone;
	INT DDRSetting;
	ULONG ulPowerSaveMode;
	spinlock_t txtransmitlock;
	B_UINT8 txtransmit_running;
	/* Thread for control packet handling */
	struct task_struct *control_packet_handler;
	/* thread for transmitting packets. */
	struct task_struct *transmit_packet_thread;

	/* LED Related Structures */
	LED_INFO_STRUCT LEDInfo;

	/* Driver State for LED Blinking */
	LedEventInfo_t DriverState;
	/* Interface Specific */
	PVOID pvInterfaceAdapter;
	int (*bcm_file_download)( PVOID,
	struct file *,
	unsigned int);
	int (*bcm_file_readback_from_chip)( PVOID,
	struct file *,
	unsigned int);
	INT (*interface_rdm)(PVOID,
	UINT ,
	PVOID ,
	INT);
	INT (*interface_wrm)(PVOID,
	UINT ,
	PVOID ,
	INT);
	int (*interface_transmit)(PVOID, PVOID , UINT);
	BOOLEAN IdleMode;
	BOOLEAN bDregRequestSentInIdleMode;
	BOOLEAN bTriedToWakeUpFromlowPowerMode;
	BOOLEAN bShutStatus;
	BOOLEAN bWakeUpDevice;
	unsigned int usIdleModePattern;
	//BOOLEAN bTriedToWakeUpFromShutdown;
	BOOLEAN bLinkDownRequested;

	int downloadDDR;
	PHS_DEVICE_EXTENSION stBCMPhsContext;
	S_HDR_SUPRESSION_CONTEXTINFO stPhsTxContextInfo;
	uint8_t ucaPHSPktRestoreBuf[2048];
	uint8_t bPHSEnabled;
	BOOLEAN AutoFirmDld;
	BOOLEAN bMipsConfig;
	BOOLEAN bDPLLConfig;
	UINT32 aTxPktSizeHist[MIBS_MAX_HIST_ENTRIES];
	UINT32 aRxPktSizeHist[MIBS_MAX_HIST_ENTRIES];
	S_FRAGMENTED_PACKET_INFO astFragmentedPktClassifierTable[MAX_FRAGMENTEDIP_CLASSIFICATION_ENTRIES];
	atomic_t uiMBupdate;
	UINT32 PmuMode;
	NVM_TYPE eNVMType;
	UINT uiSectorSize;
	UINT uiSectorSizeInCFG;
	BOOLEAN bSectorSizeOverride;
	BOOLEAN bStatusWrite;
	UINT uiNVMDSDSize;
	UINT uiVendorExtnFlag;
	//it will always represent chosen DSD at any point of time.
	// Generally it is Active DSD but in case of NVM RD/WR it might be different.
	UINT ulFlashCalStart;
	ULONG ulFlashControlSectionStart;
	ULONG ulFlashWriteSize;
	ULONG ulFlashID;
	FP_FLASH_WRITE fpFlashWrite;
	FP_FLASH_WRITE_STATUS fpFlashWriteWithStatusCheck;


	struct semaphore NVMRdmWrmLock;

	struct device *pstCreatedClassDevice;

	// BOOLEAN InterfaceUpStatus;
	PFLASH2X_CS_INFO psFlash2xCSInfo;
	PFLASH_CS_INFO psFlashCSInfo ;
	PFLASH2X_VENDORSPECIFIC_INFO psFlash2xVendorInfo;
	UINT uiFlashBaseAdd; //Flash start address
	UINT uiActiveISOOffset; //Active ISO offset chosen before f/w download
	FLASH2X_SECTION_VAL eActiveISO; //Active ISO section val
	FLASH2X_SECTION_VAL eActiveDSD; //Active DSD val chosen before f/w download
	UINT uiActiveDSDOffsetAtFwDld; //For accessing Active DSD chosen before f/w download
	UINT uiFlashLayoutMajorVersion ;
	UINT uiFlashLayoutMinorVersion;
	BOOLEAN bAllDSDWriteAllow ;
	BOOLEAN bSigCorrupted ;
	//this should be set who so ever want to change the Headers. after Wrtie it should be reset immediately.
	BOOLEAN bHeaderChangeAllowed ;
	INT SelectedChip ;
	BOOLEAN bEndPointHalted;
	//while bFlashRawRead will be true, Driver ignore map lay out and consider flash as of without any map.
	BOOLEAN bFlashRawRead;
	BOOLEAN bPreparingForLowPowerMode ;
	BOOLEAN bDoSuspend ;
	UINT syscfgBefFwDld ;
	BOOLEAN StopAllXaction ;
	UINT32 liTimeSinceLastNetEntry; //Used to Support extended CAPI requirements from
	struct semaphore LowPowerModeSync;
	ULONG liDrainCalculated;
	UINT gpioBitMap;

	S_BCM_DEBUG_STATE stDebugState;

	};
	typedef struct _MINI_ADAPTER MINI_ADAPTER, *PMINI_ADAPTER;

	#define GET_BCM_ADAPTER(net_dev) netdev_priv(net_dev)

	struct _ETH_HEADER_STRUC {
	UCHAR au8DestinationAddress[6];
	UCHAR au8SourceAddress[6];
	USHORT u16Etype;
	}__attribute__((packed));
	typedef struct _ETH_HEADER_STRUC ETH_HEADER_STRUC, *PETH_HEADER_STRUC;


	typedef struct FirmwareInfo
	{
	void __user * pvMappedFirmwareAddress;
	ULONG u32FirmwareLength;
	ULONG u32StartingAddress;
	}__attribute__((packed)) FIRMWARE_INFO, *PFIRMWARE_INFO;

	// holds the value of net_device structure..
	extern struct net_device *gblpnetdev;
	typedef struct _cntl_pkt{
	PMINI_ADAPTER Adapter;
	PLEADER PLeader;
	}cntl_pkt;
	typedef LINK_REQUEST CONTROL_MESSAGE;

	typedef struct _DDR_SETTING
	{
	UINT ulRegAddress;
	UINT ulRegValue;
	}DDR_SETTING, *PDDR_SETTING;
	typedef DDR_SETTING DDR_SET_NODE, *PDDR_SET_NODE;
	INT
	InitAdapter(PMINI_ADAPTER psAdapter);

	// =====================================================================
	// Beceem vendor request codes for EP0
	// =====================================================================

	#define BCM_REQUEST_READ 0x2
	#define BCM_REQUEST_WRITE 0x1
	#define EP2_MPS_REG 0x0F0110A0
	#define EP2_MPS 0x40

	#define EP2_CFG_REG 0x0F0110A8
	#define EP2_CFG_INT 0x27
	#define EP2_CFG_BULK 0x25

	#define EP4_MPS_REG 0x0F0110F0
	#define EP4_MPS 0x8C

	#define EP4_CFG_REG 0x0F0110F8

	#define ISO_MPS_REG 0x0F0110C8
	#define ISO_MPS 0x00000000


	#define EP1 0
	#define EP2 1
	#define EP3 2
	#define EP4 3
	#define EP5 4
	#define EP6 5


	typedef enum eInterface_setting
	{
	DEFAULT_SETTING_0 = 0,
	ALTERNATE_SETTING_1 = 1,
	}INTERFACE_SETTING;

	#endif //__ADAPTER_H__