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uboot-1.1.4-kirkwood/drivers/sk98lin/h/skdrv2nd.h

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/******************************************************************************
*
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* Name: skdrv2nd.h
* Project: GEnesis, PCI Gigabit Ethernet Adapter
* Version: $Revision: 1.1.1.1 $
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* Date: $Date: 2008/12/15 11:39:21 $
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* Purpose: Second header file for driver and all other modules
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*
******************************************************************************/
/******************************************************************************
*
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* (C)Copyright 1998-2002 SysKonnect GmbH.
* (C)Copyright 2002-2005 Marvell.
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*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* The information in this file is provided "AS IS" without warranty.
*
******************************************************************************/
/******************************************************************************
*
* Description:
*
* This is the second include file of the driver, which includes all other
* neccessary files and defines all structures and constants used by the
* driver and the common modules.
*
* Include File Hierarchy:
*
* see skge.c
*
******************************************************************************/
#ifndef __INC_SKDRV2ND_H
#define __INC_SKDRV2ND_H
#include "h/skqueue.h"
#include "h/skgehwt.h"
#include "h/sktimer.h"
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#include "h/sktwsi.h"
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#include "h/skgepnmi.h"
#include "h/skvpd.h"
#include "h/skgehw.h"
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#include "h/sky2le.h"
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#include "h/skgeinit.h"
#include "h/skaddr.h"
#include "h/skgesirq.h"
#include "h/skcsum.h"
#include "h/skrlmt.h"
#include "h/skgedrv.h"
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/* Defines for the poll cotroller */
#define SK_NETDUMP_POLL
#ifdef SK_NETDUMP_POLL
#ifdef HAVE_POLL_CONTROLLER
#define SK_POLL_CONTROLLER
#define CONFIG_SK98LIN_NAPI
#elif CONFIG_NET_POLL_CONTROLLER
#define SK_POLL_CONTROLLER
#define CONFIG_SK98LIN_NAPI
#endif
#endif
/******************************************************************************
*
* Generic driver defines
*
******************************************************************************/
#define USE_TIST_FOR_RESET /* Use timestamp for reset */
#define Y2_RECOVERY /* use specific recovery yukon2 functions */
#if 0 // u-boot
#define Y2_LE_CHECK /* activate check for LE order */
#define Y2_SYNC_CHECK /* activate check for receiver in sync */
#endif
#define SK_YUKON2 /* Enable Yukon2 dual net support */
#define USE_SK_TX_CHECKSUM /* use the tx hw checksum driver functionality */
#define USE_SK_RX_CHECKSUM /* use the rx hw checksum driver functionality */
#define USE_SK_TSO_FEATURE /* use TCP segmentation offload if possible */
#define SK_COPY_THRESHOLD 50 /* threshold for copying small RX frames;
* 0 avoids copying, 9001 copies all */
#define SK_MAX_CARD_PARAM 16 /* number of adapters that can be configured via
* command line params */
//#define USE_TX_COMPLETE /* use of a transmit complete interrupt */
#define Y2_RX_CHECK /* RX Check timestamp */
/*
* use those defines for a compile-in version of the driver instead
* of command line parameters
*/
// #define LINK_SPEED_A {"Auto",}
// #define LINK_SPEED_B {"Auto",}
// #define AUTO_NEG_A {"Sense",}
// #define AUTO_NEG_B {"Sense"}
// #define DUP_CAP_A {"Both",}
// #define DUP_CAP_B {"Both",}
// #define FLOW_CTRL_A {"SymOrRem",}
// #define FLOW_CTRL_B {"SymOrRem",}
// #define ROLE_A {"Auto",}
// #define ROLE_B {"Auto",}
// #define PREF_PORT {"A",}
// #define CON_TYPE {"Auto",}
// #define RLMT_MODE {"CheckLinkState",}
#ifdef Y2_RECOVERY
#define CHECK_TRANSMIT_TIMEOUT
#define Y2_RESYNC_WATERMARK 1000000L
#endif
/******************************************************************************
*
* Generic ISR defines
*
******************************************************************************/
#define SkIsrRetVar void
#define SkIsrRetNone NULL
#define SkIsrRetHandled NULL
#define DEV_KFREE_SKB(skb) dev_kfree_skb(skb)
#define DEV_KFREE_SKB_IRQ(skb) dev_kfree_skb_irq(skb)
#define DEV_KFREE_SKB_ANY(skb) dev_kfree_skb_any(skb)
/******************************************************************************
*
* Global function prototypes
*
******************************************************************************/
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extern SK_MBUF *SkDrvAllocRlmtMbuf(SK_AC*, SK_IOC, unsigned);
extern void SkDrvFreeRlmtMbuf(SK_AC*, SK_IOC, SK_MBUF*);
extern SK_U64 SkOsGetTime(SK_AC*);
extern int SkPciReadCfgDWord(SK_AC*, int, SK_U32*);
extern int SkPciReadCfgWord(SK_AC*, int, SK_U16*);
extern int SkPciReadCfgByte(SK_AC*, int, SK_U8*);
extern int SkPciWriteCfgDWord(SK_AC*, int, SK_U32);
extern int SkPciWriteCfgWord(SK_AC*, int, SK_U16);
extern int SkPciWriteCfgByte(SK_AC*, int, SK_U8);
extern int SkDrvEvent(SK_AC*, SK_IOC IoC, SK_U32, SK_EVPARA);
extern int SkDrvEnterDiagMode(SK_AC *pAc);
extern int SkDrvLeaveDiagMode(SK_AC *pAc);
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/******************************************************************************
*
* Linux specific RLMT buffer structure (SK_MBUF typedef in skdrv1st)!
*
******************************************************************************/
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struct s_DrvRlmtMbuf {
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SK_MBUF *pNext; /* Pointer to next RLMT Mbuf. */
SK_U8 *pData; /* Data buffer (virtually contig.). */
unsigned Size; /* Data buffer size. */
unsigned Length; /* Length of packet (<= Size). */
SK_U32 PortIdx; /* Receiving/transmitting port. */
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#ifdef SK_RLMT_MBUF_PRIVATE
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SK_RLMT_MBUF Rlmt; /* Private part for RLMT. */
#endif
struct sk_buff *pOs; /* Pointer to message block */
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};
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/******************************************************************************
*
* Linux specific TIME defines
*
******************************************************************************/
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#if SK_TICKS_PER_SEC == 100
#define SK_PNMI_HUNDREDS_SEC(t) (t)
#else
#define SK_PNMI_HUNDREDS_SEC(t) ((((unsigned long)t)*100)/(SK_TICKS_PER_SEC))
#endif
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#define SkOsGetTimeCurrent(pAC, pUsec) {\
static struct timeval prev_t; \
struct timeval t;\
do_gettimeofday(&t);\
if (prev_t.tv_sec == t.tv_sec) { \
if (prev_t.tv_usec > t.tv_usec) { \
t.tv_usec = prev_t.tv_usec; \
} else { \
prev_t.tv_usec = t.tv_usec; \
} \
} else { \
prev_t = t; \
} \
*pUsec = ((t.tv_sec*100L)+(t.tv_usec/10000));\
}
/******************************************************************************
*
* Linux specific IOCTL defines and typedefs
*
******************************************************************************/
#define SK_IOCTL_BASE (SIOCDEVPRIVATE)
#define SK_IOCTL_GETMIB (SK_IOCTL_BASE + 0)
#define SK_IOCTL_SETMIB (SK_IOCTL_BASE + 1)
#define SK_IOCTL_PRESETMIB (SK_IOCTL_BASE + 2)
#define SK_IOCTL_GEN (SK_IOCTL_BASE + 3)
#define SK_IOCTL_DIAG (SK_IOCTL_BASE + 4)
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typedef struct s_IOCTL SK_GE_IOCTL;
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struct s_IOCTL {
char* pData;
unsigned int Len;
};
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/******************************************************************************
*
* Generic sizes and length definitions
*
******************************************************************************/
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#if 0 /* uboot */
#define TX_RING_SIZE (24*1024) /* GEnesis/Yukon */
#define RX_RING_SIZE (24*1024) /* GEnesis/Yukon */
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#else
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#define TX_RING_SIZE (10 * 40)
#define RX_RING_SIZE (10 * 40)
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#endif
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#define RX_MAX_NBR_BUFFERS 128 /* Yukon-EC/-II */
#define TX_MAX_NBR_BUFFERS 128 /* Yukon-EC/-II */
#define MAXIMUM_LOW_ADDRESS 0xFFFFFFFF /* Max. low address */
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#define ETH_BUF_SIZE 1560 /* multiples of 8 bytes */
#define ETH_MAX_MTU 1514
#define ETH_MIN_MTU 60
#define ETH_MULTICAST_BIT 0x01
#define SK_JUMBO_MTU 9000
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#define TX_PRIO_LOW 0 /* asynchronous queue */
#define TX_PRIO_HIGH 1 /* synchronous queue */
#define DESCR_ALIGN 64 /* alignment of Rx/Tx descriptors */
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/******************************************************************************
*
* PNMI related definitions
*
******************************************************************************/
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#define SK_DRIVER_RESET(pAC, IoC) 0
#define SK_DRIVER_SENDEVENT(pAC, IoC) 0
#define SK_DRIVER_SELFTEST(pAC, IoC) 0
/* For get mtu you must add an own function */
#define SK_DRIVER_GET_MTU(pAc,IoC,i) 0
#define SK_DRIVER_SET_MTU(pAc,IoC,i,v) 0
#define SK_DRIVER_PRESET_MTU(pAc,IoC,i,v) 0
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/******************************************************************************
*
* Various offsets and sizes
*
******************************************************************************/
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#define SK_DRV_MODERATION_TIMER 1 /* id */
#define SK_DRV_MODERATION_TIMER_LENGTH 1 /* 1 second */
#define C_LEN_ETHERMAC_HEADER_DEST_ADDR 6
#define C_LEN_ETHERMAC_HEADER_SRC_ADDR 6
#define C_LEN_ETHERMAC_HEADER_LENTYPE 2
#define C_LEN_ETHERMAC_HEADER ( (C_LEN_ETHERMAC_HEADER_DEST_ADDR) + \
(C_LEN_ETHERMAC_HEADER_SRC_ADDR) + \
(C_LEN_ETHERMAC_HEADER_LENTYPE) )
#define C_LEN_ETHERMTU_MINSIZE 46
#define C_LEN_ETHERMTU_MAXSIZE_STD 1500
#define C_LEN_ETHERMTU_MAXSIZE_JUMBO 9000
#define C_LEN_ETHERNET_MINSIZE ( (C_LEN_ETHERMAC_HEADER) + \
(C_LEN_ETHERMTU_MINSIZE) )
#define C_OFFSET_IPHEADER C_LEN_ETHERMAC_HEADER
#define C_OFFSET_IPHEADER_IPPROTO 9
#define C_OFFSET_TCPHEADER_TCPCS 16
#define C_OFFSET_UDPHEADER_UDPCS 6
#define C_OFFSET_IPPROTO ( (C_LEN_ETHERMAC_HEADER) + \
(C_OFFSET_IPHEADER_IPPROTO) )
#define C_PROTO_ID_UDP 17 /* refer to RFC 790 or Stevens' */
#define C_PROTO_ID_TCP 6 /* TCP/IP illustrated for details */
/******************************************************************************
*
* Tx and Rx descriptor definitions
*
******************************************************************************/
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typedef struct s_RxD RXD; /* the receive descriptor */
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struct s_RxD {
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volatile SK_U32 RBControl; /* Receive Buffer Control */
SK_U32 VNextRxd; /* Next receive descriptor,low dword */
SK_U32 VDataLow; /* Receive buffer Addr, low dword */
SK_U32 VDataHigh; /* Receive buffer Addr, high dword */
SK_U32 FrameStat; /* Receive Frame Status word */
SK_U32 TimeStamp; /* Time stamp from XMAC */
SK_U32 TcpSums; /* TCP Sum 2 / TCP Sum 1 */
SK_U32 TcpSumStarts; /* TCP Sum Start 2 / TCP Sum Start 1 */
RXD *pNextRxd; /* Pointer to next Rxd */
struct sk_buff *pMBuf; /* Pointer to Linux' socket buffer */
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};
typedef struct s_TxD TXD; /* the transmit descriptor */
struct s_TxD {
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volatile SK_U32 TBControl; /* Transmit Buffer Control */
SK_U32 VNextTxd; /* Next transmit descriptor,low dword */
SK_U32 VDataLow; /* Transmit Buffer Addr, low dword */
SK_U32 VDataHigh; /* Transmit Buffer Addr, high dword */
SK_U32 FrameStat; /* Transmit Frame Status Word */
SK_U32 TcpSumOfs; /* Reserved / TCP Sum Offset */
SK_U16 TcpSumSt; /* TCP Sum Start */
SK_U16 TcpSumWr; /* TCP Sum Write */
SK_U32 TcpReserved; /* not used */
TXD *pNextTxd; /* Pointer to next Txd */
struct sk_buff *pMBuf; /* Pointer to Linux' socket buffer */
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};
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/******************************************************************************
*
* Generic Yukon-II defines
*
******************************************************************************/
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#define LE_SIZE sizeof(SK_HWLE)
#if 1 /* uboot */
#define MAX_SKB_FRAGS 10
#endif
#define MAX_NUM_FRAGS (MAX_SKB_FRAGS + 1)
#define MIN_LEN_OF_LE_TAB 128
#define MAX_LEN_OF_LE_TAB 4096
#define MAX_UNUSED_RX_LE_WORKING 8
#if 1 /* Marvell - uboot:this increases the RX packets to 128-120 = 8*/
#ifdef MAX_FRAG_OVERHEAD
#undef MAX_FRAG_OVERHEAD
#define MAX_FRAG_OVERHEAD 120
#endif
#endif
// as we have a maximum of 16 physical fragments,
// maximum 1 ADDR64 per physical fragment
// maximum 4 LEs for VLAN, Csum, LargeSend, Packet
#define MIN_LE_FREE_REQUIRED ((16*2) + 4)
#define IS_GMAC(pAc) (!pAc->GIni.GIGenesis)
#ifdef USE_SYNC_TX_QUEUE
#define TXS_MAX_LE 256
#else /* !USE_SYNC_TX_QUEUE */
#define TXS_MAX_LE 0
#endif
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#define ETHER_MAC_HDR_LEN (6+6+2) // MAC SRC ADDR, MAC DST ADDR, TYPE
#define IP_HDR_LEN 20
#define TCP_CSUM_OFFS 0x10
#define UDP_CSUM_OFFS 0x06
#define TXA_MAX_LE 256
#if 0 /* Marvell - uboot : set the RX LE to 128 */
#define RX_MAX_LE 256
#else
#define RX_MAX_LE 128
#endif
#define ST_MAX_LE (SK_MAX_MACS)*((3*RX_MAX_LE)+(TXA_MAX_LE)+(TXS_MAX_LE))
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#if (defined (Y2_RECOVERY) || defined (Y2_LE_CHECK))
/* event for recovery from tx hang or rx out of sync */
#define SK_DRV_RECOVER 17
#endif
/******************************************************************************
*
* Structures specific for Yukon-II
*
******************************************************************************/
typedef struct s_frag SK_FRAG;
struct s_frag {
SK_FRAG *pNext;
char *pVirt;
SK_U64 pPhys;
unsigned int FragLen;
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};
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typedef struct s_packet SK_PACKET;
struct s_packet {
/* Common infos: */
SK_PACKET *pNext; /* pointer for packet queues */
unsigned int PacketLen; /* length of packet */
unsigned int NumFrags; /* nbr of fragments (for Rx always 1) */
SK_FRAG *pFrag; /* fragment list */
SK_FRAG FragArray[MAX_NUM_FRAGS]; /* TX fragment array */
unsigned int NextLE; /* next LE to use for the next packet */
/* Private infos: */
struct sk_buff *pMBuf; /* Pointer to Linux' socket buffer */
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};
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typedef struct s_queue SK_PKT_QUEUE;
struct s_queue {
SK_PACKET *pHead;
SK_PACKET *pTail;
#if 0 /* uboot */
spinlock_t QueueLock; /* serialize packet accesses */
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#endif
};
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/*******************************************************************************
*
* Macros specific for Yukon-II queues
*
******************************************************************************/
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#define IS_Q_EMPTY(pQueue) ((pQueue)->pHead != NULL) ? SK_FALSE : SK_TRUE
#define IS_Q_LOCKED(pQueue) spin_is_locked(&((pQueue)->QueueLock))
#define PLAIN_POP_FIRST_PKT_FROM_QUEUE(pQueue, pPacket) { \
if ((pQueue)->pHead != NULL) { \
(pPacket) = (pQueue)->pHead; \
(pQueue)->pHead = (pPacket)->pNext; \
if ((pQueue)->pHead == NULL) { \
(pQueue)->pTail = NULL; \
} \
(pPacket)->pNext = NULL; \
} else { \
(pPacket) = NULL; \
} \
}
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#define PLAIN_PUSH_PKT_AS_FIRST_IN_QUEUE(pQueue, pPacket) { \
if ((pQueue)->pHead != NULL) { \
(pPacket)->pNext = (pQueue)->pHead; \
} else { \
(pPacket)->pNext = NULL; \
(pQueue)->pTail = (pPacket); \
} \
(pQueue)->pHead = (pPacket); \
}
#define PLAIN_PUSH_PKT_AS_LAST_IN_QUEUE(pQueue, pPacket) { \
(pPacket)->pNext = NULL; \
if ((pQueue)->pTail != NULL) { \
(pQueue)->pTail->pNext = (pPacket); \
} else { \
(pQueue)->pHead = (pPacket); \
} \
(pQueue)->pTail = (pPacket); \
}
#define PLAIN_PUSH_MULTIPLE_PKT_AS_LAST_IN_QUEUE(pQueue,pPktGrpStart,pPktGrpEnd) { \
if ((pPktGrpStart) != NULL) { \
if ((pQueue)->pTail != NULL) { \
(pQueue)->pTail->pNext = (pPktGrpStart); \
} else { \
(pQueue)->pHead = (pPktGrpStart); \
} \
(pQueue)->pTail = (pPktGrpEnd); \
} \
}
/* Required: 'Flags' */
#define POP_FIRST_PKT_FROM_QUEUE(pQueue, pPacket) { \
spin_lock_irqsave(&((pQueue)->QueueLock), Flags); \
if ((pQueue)->pHead != NULL) { \
(pPacket) = (pQueue)->pHead; \
(pQueue)->pHead = (pPacket)->pNext; \
if ((pQueue)->pHead == NULL) { \
(pQueue)->pTail = NULL; \
} \
(pPacket)->pNext = NULL; \
} else { \
(pPacket) = NULL; \
} \
spin_unlock_irqrestore(&((pQueue)->QueueLock), Flags); \
}
/* Required: 'Flags' */
#define PUSH_PKT_AS_FIRST_IN_QUEUE(pQueue, pPacket) { \
spin_lock_irqsave(&(pQueue)->QueueLock, Flags); \
if ((pQueue)->pHead != NULL) { \
(pPacket)->pNext = (pQueue)->pHead; \
} else { \
(pPacket)->pNext = NULL; \
(pQueue)->pTail = (pPacket); \
} \
(pQueue)->pHead = (pPacket); \
spin_unlock_irqrestore(&(pQueue)->QueueLock, Flags); \
}
/* Required: 'Flags' */
#define PUSH_PKT_AS_LAST_IN_QUEUE(pQueue, pPacket) { \
(pPacket)->pNext = NULL; \
spin_lock_irqsave(&(pQueue)->QueueLock, Flags); \
if ((pQueue)->pTail != NULL) { \
(pQueue)->pTail->pNext = (pPacket); \
} else { \
(pQueue)->pHead = (pPacket); \
} \
(pQueue)->pTail = (pPacket); \
spin_unlock_irqrestore(&(pQueue)->QueueLock, Flags); \
}
/* Required: 'Flags' */
#define PUSH_MULTIPLE_PKT_AS_LAST_IN_QUEUE(pQueue,pPktGrpStart,pPktGrpEnd) { \
if ((pPktGrpStart) != NULL) { \
spin_lock_irqsave(&(pQueue)->QueueLock, Flags); \
if ((pQueue)->pTail != NULL) { \
(pQueue)->pTail->pNext = (pPktGrpStart); \
} else { \
(pQueue)->pHead = (pPktGrpStart); \
} \
(pQueue)->pTail = (pPktGrpEnd); \
spin_unlock_irqrestore(&(pQueue)->QueueLock, Flags); \
} \
}
/*
*Check if the low address (32 bit) is near the 4G limit or over it.
* Set the high address to a wrong value.
* Doing so we force to write the ADDR64 LE.
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*/
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#define CHECK_LOW_ADDRESS( _HighAddress, _LowAddress , _Length) { \
if ((~0-_LowAddress) <_Length) { \
_HighAddress= MAXIMUM_LOW_ADDRESS; \
SK_DBG_MSG(pAC, SK_DBGMOD_DRV, SK_DBGCAT_DRV_TX_PROGRESS, \
("High Address must be set for HW. LowAddr = %d Length = %d\n", \
_LowAddress, _Length)); \
} \
}
/*******************************************************************************
*
* Macros specific for Yukon-II queues (tist)
*
******************************************************************************/
#ifdef USE_TIST_FOR_RESET
/* port is fully operational */
#define SK_PSTATE_NOT_WAITING_FOR_TIST 0
/* port in reset until any tist LE */
#define SK_PSTATE_WAITING_FOR_ANY_TIST BIT_0
/* port in reset until timer reaches pAC->MinTistLo */
#define SK_PSTATE_WAITING_FOR_SPECIFIC_TIST BIT_1
#define SK_PSTATE_PORT_SHIFT 4
#define SK_PSTATE_PORT_MASK ((1 << SK_PSTATE_PORT_SHIFT) - 1)
/* use this + Port to build OP_MOD_TXINDEX_NO_PORT_A|B */
#define OP_MOD_TXINDEX 0x71
/* opcode for a TX_INDEX LE in which Port A has to be ignored */
#define OP_MOD_TXINDEX_NO_PORT_A 0x71
/* opcode for a TX_INDEX LE in which Port B has to be ignored */
#define OP_MOD_TXINDEX_NO_PORT_B 0x72
/* opcode for LE to be ignored because port is still in reset */
#define OP_MOD_LE 0x7F
/* set tist wait mode Bit for port */
#define SK_SET_WAIT_BIT_FOR_PORT(pAC, Bit, Port) \
{ \
(pAC)->AdapterResetState |= ((Bit) << (SK_PSTATE_PORT_SHIFT * Port)); \
}
/* reset tist waiting for specified port */
#define SK_CLR_STATE_FOR_PORT(pAC, Port) \
{ \
(pAC)->AdapterResetState &= \
~(SK_PSTATE_PORT_MASK << (SK_PSTATE_PORT_SHIFT * Port)); \
}
/* return SK_TRUE when port is in reset waiting for tist */
#define SK_PORT_WAITING_FOR_TIST(pAC, Port) \
((((pAC)->AdapterResetState >> (SK_PSTATE_PORT_SHIFT * Port)) & \
SK_PSTATE_PORT_MASK) != SK_PSTATE_NOT_WAITING_FOR_TIST)
/* return SK_TRUE when port is in reset waiting for any tist */
#define SK_PORT_WAITING_FOR_ANY_TIST(pAC, Port) \
((((pAC)->AdapterResetState >> (SK_PSTATE_PORT_SHIFT * Port)) & \
SK_PSTATE_WAITING_FOR_ANY_TIST) == SK_PSTATE_WAITING_FOR_ANY_TIST)
/* return SK_TRUE when port is in reset waiting for a specific tist */
#define SK_PORT_WAITING_FOR_SPECIFIC_TIST(pAC, Port) \
((((pAC)->AdapterResetState >> (SK_PSTATE_PORT_SHIFT * Port)) & \
SK_PSTATE_WAITING_FOR_SPECIFIC_TIST) == \
SK_PSTATE_WAITING_FOR_SPECIFIC_TIST)
/* return whether adapter is expecting a tist LE */
#define SK_ADAPTER_WAITING_FOR_TIST(pAC) ((pAC)->AdapterResetState != 0)
/* enable timestamp timer and force creation of tist LEs */
#define Y2_ENABLE_TIST(IoC) \
SK_OUT8(IoC, GMAC_TI_ST_CTRL, (SK_U8) GMT_ST_START)
/* disable timestamp timer and stop creation of tist LEs */
#define Y2_DISABLE_TIST(IoC) \
SK_OUT8(IoC, GMAC_TI_ST_CTRL, (SK_U8) GMT_ST_STOP)
/* get current value of timestamp timer */
#define Y2_GET_TIST_LOW_VAL(IoC, pVal) \
SK_IN32(IoC, GMAC_TI_ST_VAL, pVal)
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#endif
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/*******************************************************************************
*
* Used interrupt bits in the interrupts source register
*
******************************************************************************/
#define DRIVER_IRQS ((IS_IRQ_SW) | \
(IS_R1_F) | (IS_R2_F) | \
(IS_XS1_F) | (IS_XA1_F) | \
(IS_XS2_F) | (IS_XA2_F))
#define TX_COMPL_IRQS ((IS_XS1_B) | (IS_XS1_F) | \
(IS_XA1_B) | (IS_XA1_F) | \
(IS_XS2_B) | (IS_XS2_F) | \
(IS_XA2_B) | (IS_XA2_F))
#define NAPI_DRV_IRQS ((IS_R1_F) | (IS_R2_F) | \
(IS_XS1_F) | (IS_XA1_F)| \
(IS_XS2_F) | (IS_XA2_F))
#define Y2_DRIVER_IRQS ((Y2_IS_STAT_BMU) | (Y2_IS_IRQ_SW) | (Y2_IS_POLL_CHK))
#define SPECIAL_IRQS ((IS_HW_ERR) |(IS_I2C_READY) | \
(IS_EXT_REG) |(IS_TIMINT) | \
(IS_PA_TO_RX1) |(IS_PA_TO_RX2) | \
(IS_PA_TO_TX1) |(IS_PA_TO_TX2) | \
(IS_MAC1) |(IS_LNK_SYNC_M1)| \
(IS_MAC2) |(IS_LNK_SYNC_M2)| \
(IS_R1_C) |(IS_R2_C) | \
(IS_XS1_C) |(IS_XA1_C) | \
(IS_XS2_C) |(IS_XA2_C))
#define Y2_SPECIAL_IRQS ((Y2_IS_HW_ERR) |(Y2_IS_ASF) | \
(Y2_IS_TWSI_RDY) |(Y2_IS_TIMINT) | \
(Y2_IS_IRQ_PHY2) |(Y2_IS_IRQ_MAC2) | \
(Y2_IS_CHK_RX2) |(Y2_IS_CHK_TXS2) | \
(Y2_IS_CHK_TXA2) |(Y2_IS_IRQ_PHY1) | \
(Y2_IS_IRQ_MAC1) |(Y2_IS_CHK_RX1) | \
(Y2_IS_CHK_TXS1) |(Y2_IS_CHK_TXA1))
#define IRQ_MASK ((IS_IRQ_SW) | \
(IS_R1_F) |(IS_R2_F) | \
(IS_XS1_F) |(IS_XA1_F) | \
(IS_XS2_F) |(IS_XA2_F) | \
(IS_HW_ERR) |(IS_I2C_READY)| \
(IS_EXT_REG) |(IS_TIMINT) | \
(IS_PA_TO_RX1) |(IS_PA_TO_RX2)| \
(IS_PA_TO_TX1) |(IS_PA_TO_TX2)| \
(IS_MAC1) |(IS_MAC2) | \
(IS_R1_C) |(IS_R2_C) | \
(IS_XS1_C) |(IS_XA1_C) | \
(IS_XS2_C) |(IS_XA2_C))
#define Y2_IRQ_MASK ((Y2_DRIVER_IRQS) | (Y2_SPECIAL_IRQS))
#define IRQ_HWE_MASK (IS_ERR_MSK) /* enable all HW irqs */
#define Y2_IRQ_HWE_MASK (Y2_HWE_ALL_MSK) /* enable all HW irqs */
typedef struct s_DevNet DEV_NET;
struct s_DevNet {
struct proc_dir_entry *proc;
int PortNr;
int NetNr;
int Mtu;
int Up;
char InitialDevName[20];
SK_BOOL NetConsoleMode;
#ifdef Y2_RECOVERY
#if 0 // u-boot
struct timer_list KernelTimer; /* Kernel timer struct */
#endif
int TransmitTimeoutTimer; /* Transmit timer */
SK_BOOL TimerExpired; /* Transmit timer */
SK_BOOL InRecover; /* Recover flag */
#ifdef Y2_RX_CHECK
SK_U32 PreviousMACFifoRP; /* Backup of the FRP */
SK_U32 PreviousMACFifoRLev; /* Backup of the FRL */
SK_U32 PreviousRXFifoRP; /* Backup of the RX FRP */
SK_U8 PreviousRXFifoRLev; /* Backup of the RX FRL */
SK_U32 LastJiffies; /* Backup of the jiffies*/
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#endif
#endif
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SK_AC *pAC;
};
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/*******************************************************************************
*
* Rx/Tx Port structures
*
******************************************************************************/
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typedef struct s_TxPort TX_PORT;
struct s_TxPort { /* the transmit descriptor rings */
caddr_t pTxDescrRing; /* descriptor area memory */
SK_U64 VTxDescrRing; /* descr. area bus virt. addr. */
TXD *pTxdRingHead; /* Head of Tx rings */
TXD *pTxdRingTail; /* Tail of Tx rings */
TXD *pTxdRingPrev; /* descriptor sent previously */
int TxdRingPrevFree;/* previously # of free entrys */
int TxdRingFree; /* # of free entrys */
#if 0 /* uboot */
spinlock_t TxDesRingLock; /* serialize descriptor accesses */
#endif
caddr_t HwAddr; /* bmu registers address */
int PortIndex; /* index number of port (0 or 1) */
SK_PACKET *TransmitPacketTable;
SK_LE_TABLE TxALET; /* tx (async) list element table */
SK_LE_TABLE TxSLET; /* tx (sync) list element table */
SK_PKT_QUEUE TxQ_free;
SK_PKT_QUEUE TxAQ_waiting;
SK_PKT_QUEUE TxSQ_waiting;
SK_PKT_QUEUE TxAQ_working;
SK_PKT_QUEUE TxSQ_working;
unsigned LastDone;
};
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typedef struct s_RxPort RX_PORT;
struct s_RxPort { /* the receive descriptor rings */
caddr_t pRxDescrRing; /* descriptor area memory */
SK_U64 VRxDescrRing; /* descr. area bus virt. addr. */
RXD *pRxdRingHead; /* Head of Rx rings */
RXD *pRxdRingTail; /* Tail of Rx rings */
RXD *pRxdRingPrev; /* descr given to BMU previously */
int RxdRingFree; /* # of free entrys */
#if 0 /* uboot */
spinlock_t RxDesRingLock; /* serialize descriptor accesses */
#endif
int RxFillLimit; /* limit for buffers in ring */
caddr_t HwAddr; /* bmu registers address */
int PortIndex; /* index number of port (0 or 1) */
SK_BOOL UseRxCsum; /* use Rx checksumming (yes/no) */
SK_PACKET *ReceivePacketTable;
SK_LE_TABLE RxLET; /* rx list element table */
SK_PKT_QUEUE RxQ_working;
SK_PKT_QUEUE RxQ_waiting;
int RxBufSize;
};
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/*******************************************************************************
*
* Interrupt masks used in combination with interrupt moderation
*
******************************************************************************/
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#define IRQ_EOF_AS_TX ((IS_XA1_F) | (IS_XA2_F))
#define IRQ_EOF_SY_TX ((IS_XS1_F) | (IS_XS2_F))
#define IRQ_MASK_TX_ONLY ((IRQ_EOF_AS_TX)| (IRQ_EOF_SY_TX))
#define IRQ_MASK_RX_ONLY ((IS_R1_F) | (IS_R2_F))
#define IRQ_MASK_SP_ONLY (SPECIAL_IRQS)
#define IRQ_MASK_TX_RX ((IRQ_MASK_TX_ONLY)| (IRQ_MASK_RX_ONLY))
#define IRQ_MASK_SP_RX ((SPECIAL_IRQS) | (IRQ_MASK_RX_ONLY))
#define IRQ_MASK_SP_TX ((SPECIAL_IRQS) | (IRQ_MASK_TX_ONLY))
#define IRQ_MASK_RX_TX_SP ((SPECIAL_IRQS) | (IRQ_MASK_TX_RX))
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#define IRQ_MASK_Y2_TX_ONLY (Y2_IS_STAT_BMU)
#define IRQ_MASK_Y2_RX_ONLY (Y2_IS_STAT_BMU)
#define IRQ_MASK_Y2_SP_ONLY (SPECIAL_IRQS)
#define IRQ_MASK_Y2_TX_RX ((IRQ_MASK_TX_ONLY)| (IRQ_MASK_RX_ONLY))
#define IRQ_MASK_Y2_SP_RX ((SPECIAL_IRQS) | (IRQ_MASK_RX_ONLY))
#define IRQ_MASK_Y2_SP_TX ((SPECIAL_IRQS) | (IRQ_MASK_TX_ONLY))
#define IRQ_MASK_Y2_RX_TX_SP ((SPECIAL_IRQS) | (IRQ_MASK_TX_RX))
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/*******************************************************************************
*
* Defines and typedefs regarding interrupt moderation
*
******************************************************************************/
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#define C_INT_MOD_NONE 1
#define C_INT_MOD_STATIC 2
#define C_INT_MOD_DYNAMIC 4
#define C_CLK_FREQ_GENESIS 53215000 /* or: 53.125 MHz */
#define C_CLK_FREQ_YUKON 78215000 /* or: 78.125 MHz */
#define C_CLK_FREQ_YUKON_EC 125000000 /* or: 125.000 MHz */
#define C_Y2_INTS_PER_SEC_DEFAULT 5000
#define C_INTS_PER_SEC_DEFAULT 2000
#define C_INT_MOD_IPS_LOWER_RANGE 30 /* in IRQs/second */
#define C_INT_MOD_IPS_UPPER_RANGE 40000 /* in IRQs/second */
typedef struct s_DynIrqModInfo {
SK_U64 PrevPort0RxIntrCts;
SK_U64 PrevPort1RxIntrCts;
SK_U64 PrevPort0TxIntrCts;
SK_U64 PrevPort1TxIntrCts;
SK_U64 PrevPort0StatusLeIntrCts;
SK_U64 PrevPort1StatusLeIntrCts;
int MaxModIntsPerSec; /* Moderation Threshold */
int MaxModIntsPerSecUpperLimit; /* Upper limit for DIM */
int MaxModIntsPerSecLowerLimit; /* Lower limit for DIM */
long MaskIrqModeration; /* IRQ Mask (eg. 'TxRx') */
int IntModTypeSelect; /* Type (eg. 'dynamic') */
int DynIrqModSampleInterval; /* expressed in seconds! */
SK_TIMER ModTimer; /* Timer for dynamic mod. */
} DIM_INFO;
/*******************************************************************************
*
* Defines and typedefs regarding wake-on-lan
*
******************************************************************************/
typedef struct s_WakeOnLanInfo {
SK_U32 SupportedWolOptions; /* e.g. WAKE_PHY... */
SK_U32 ConfiguredWolOptions; /* e.g. WAKE_PHY... */
} WOL_INFO;
#define SK_ALLOC_IRQ 0x00000001
#define DIAG_ACTIVE 1
#define DIAG_NOTACTIVE 0
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/****************************************************************************
*
* Per board structure / Adapter Context structure:
* Contains all 'per device' necessary handles, flags, locks etc.:
*
******************************************************************************/
struct s_AC {
SK_GEINIT GIni; /* GE init struct */
SK_PNMI Pnmi; /* PNMI data struct */
SK_VPD vpd; /* vpd data struct */
SK_QUEUE Event; /* Event queue */
SK_HWT Hwt; /* Hardware Timer ctrl struct */
SK_TIMCTRL Tim; /* Software Timer ctrl struct */
SK_I2C I2c; /* I2C relevant data structure*/
SK_ADDR Addr; /* for Address module */
SK_CSUM Csum; /* for checksum module */
SK_RLMT Rlmt; /* for rlmt module */
#if 0 /* uboot */
spinlock_t SlowPathLock; /* Normal IRQ lock */
spinlock_t InitLock; /* Init lock */
spinlock_t TxQueueLock; /* TX Queue lock */
#endif
SK_PNMI_STRUCT_DATA PnmiStruct; /* struct for all Pnmi-Data */
int RlmtMode; /* link check mode to set */
int RlmtNets; /* Number of nets */
SK_IOC IoBase; /* register set of adapter */
int BoardLevel; /* level of hw init (0-2) */
char DeviceStr[80]; /* adapter string from vpd */
SK_U32 AllocFlag; /* alloc flag of resources */
#if 0 /* uboot */
struct pci_dev *PciDev; /* for access to pci cfg space*/
SK_U32 PciDevId; /* pci device id */
#else
int PciDev;
#endif
struct SK_NET_DEVICE *dev[2]; /* pointer to device struct */
char Name[30]; /* driver name */
struct SK_NET_DEVICE *Next; /* link all devs for cleanup */
int RxBufSize; /* length of receive buffers */
#if 0 /* uboot */
struct net_device_stats stats; /* linux 'netstat -i' stats */
#endif
int Index; /* internal board idx number */
int RxQueueSize; /* memory used for RX queue */
int TxSQueueSize; /* memory used for TXS queue */
int TxAQueueSize; /* memory used for TXA queue */
int PromiscCount; /* promiscuous mode counter */
int AllMultiCount; /* allmulticast mode counter */
int MulticCount; /* number of MC addresses used*/
int HWRevision; /* Hardware revision */
int ActivePort; /* the active XMAC port */
int MaxPorts; /* number of activated ports */
int TxDescrPerRing;/* # of descriptors TX ring */
int RxDescrPerRing;/* # of descriptors RX ring */
caddr_t pDescrMem; /* Ptr to the descriptor area */
dma_addr_t pDescrMemDMA; /* PCI DMA address of area */
SK_U32 PciState[16]; /* PCI state */
TX_PORT TxPort[SK_MAX_MACS][2];
RX_PORT RxPort[SK_MAX_MACS];
SK_LE_TABLE StatusLETable;
unsigned SizeOfAlignedLETables;
#if 0 /* uboot */
spinlock_t SetPutIndexLock;
#endif
int MaxUnusedRxLeWorking;
unsigned int CsOfs1; /* for checksum calculation */
unsigned int CsOfs2; /* for checksum calculation */
SK_U32 CsOfs; /* for checksum calculation */
SK_BOOL CheckQueue; /* check event queue soon */
DIM_INFO DynIrqModInfo; /* all data related to IntMod */
WOL_INFO WolInfo; /* all info regarding WOL */
int ChipsetType; /* 0=GENESIS; 1=Yukon */
SK_BOOL LowLatency; /* LowLatency optimization on?*/
SK_U32 DiagModeActive;/* is diag active? */
SK_BOOL DiagFlowCtrl; /* for control purposes */
SK_PNMI_STRUCT_DATA PnmiBackup; /* backup structure for PNMI */
SK_BOOL WasIfUp[SK_MAX_MACS];
#ifdef USE_TIST_FOR_RESET
int AdapterResetState;
SK_U32 MinTistLo;
SK_U32 MinTistHi;
#endif
#ifdef Y2_RECOVERY
int LastPort; /* port for curr. handled rx */
int LastOpc; /* last rx LEs opcode */
#endif
#ifdef Y2_SYNC_CHECK
unsigned long FramesWithoutSyncCheck; /* since last check */
#endif
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};
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#endif
/*******************************************************************************
*
* End of file
*
******************************************************************************/