原创 linux-2.6.28内核CS8900在s3c2440上的移植

2009-10-8 09:46 4778 1 1 分类: MCU/ 嵌入式

经过验证,以下步骤在linux-2.6.28.10上移植成功。


1,修改drivers/net/arm/Makefile文件添加:
 
 obj-$(CONFIG_ARM_CS8900) += cs8900.o


2,修改drivers/net/arm/Kconfig文件添加:
 
 config ARM_CS8900
  tristate "CS8900 support"
  depends on NET_ETHERNET && ARM && ARCH_SMDK2410
  help
   support for cs8900 chipset based Ethernet cards , if you  have a network card of this type


3,编译配置内核
# make menuconfig
 进入配置菜单添加驱动到内核


4,修改arch/arm/mach-s3c2440/mach-smdk2440.c文件
# vi arch/arm/mach-s3c2410/mach-smdk2410.c
 在static struct map_desc smdk2410_iodesc[] __initdata 最后添加:
,{       
  .virtual = vSMDK2410_ETH_IO,
  .pfn  = __phys_to_pfn(S3C2410_CS3 + (1<<24)),
  .length  = SZ_1M,
  .type  = MT_DEVICE,
 }


5,修改arch/arm/mach-s3c2410/include/mach/map.h文件增加:


/* CS8900 */
#define pSMDK2410_ETH_IO     __phys_to_pfn(0x19000000)
#define vSMDK2410_ETH_IO     0xE0000000
#define SMDK2410_ETH_IRQ      IRQ_EINT9


6.把以下两个文件cs8900.c cs8900.h添加进drivers/net/arm/内,然后编译内核。


附件:


//8900.c


/*
 * linux/drivers/net/cs8900.c
 *
 * Author: Abraham van der Merwe <abraham at 2d3d.co.za>
 *
 * A Cirrus Logic CS8900A driver for Linux
 * based on the cs89x0 driver written by Russell Nelson,
 * Donald Becker, and others.
 *
 * This source code is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * version 2 as published by the Free Software Foundation.
 *
 * History:
 *    22-May-2002  Initial version (Abraham vd Merwe)
 *    30-May-2002  Added char device support for eeprom (Frank Becker)
 *    24-Jan-2004  Fixups for 2.6 (Frank Becker)
 *   15-July-2004 Modified for SMDK2410 (Roc Wu pwu at jadechip.com)
 */
 
#define VERSION_STRING "Cirrus Logic CS8900A driver for Linux (Modified for SMDK2410)"


/*
 * At the moment the driver does not support memory mode operation.
 * It is trivial to implement this, but not worth the effort.
 */


/*
 * TODO:
 *
 *   1. Sort out ethernet checksum
 *   2. If !ready in send_start(), queue buffer and send it in interrupt handler
 *      when we receive a BufEvent with Rdy4Tx, send it again. dangerous!
 *   3. how do we prevent interrupt handler destroying integrity of get_stats()?
 *   4. Change reset code to check status.
 *   5. Implement set_mac_address and remove fake mac address
 *   7. Link status detection stuff
 *   8. Write utility to write EEPROM, do self testing, etc.
 *   9. Implement DMA routines (I need a board w/ DMA support for that)
 *  10. Power management
 *  11. Add support for multiple ethernet chips
 */



#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/types.h>
#include <linux/version.h>
#include <linux/errno.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <linux/ioport.h>
#include <linux/pm.h>
#include <linux/irq.h>
#include <mach/hardware.h>
#include <asm/io.h>
#include <asm/uaccess.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>
#include <linux/fs.h>
#include <asm/mach-types.h>


#ifdef CONFIG_ARCH_SMDK2410
#include "mach/regs-irq.h"
#include "mach/regs-mem.h"
#include "mach/regs-gpio.h"
#include "plat/common-smdk.h"
#endif


#include "cs8900.h"


//#define FULL_DUPLEX
//#define DEBUG


typedef struct {
 struct net_device_stats stats;
 u16 txlen;
 int char_devnum;


        spinlock_t lock;
} cs8900_t;


int cs8900_probe (struct net_device *dev);
static struct net_device *cs8900_dev ;



/*
 * There seems to be no way to determine the exact size of the eeprom,
 * so we use the largest size.
 * FIXME: Verify it's safe to read/write past the end of a 64/128
 *        byte eeprom.
 *
 * Possible eeprom sizes:
 * Cx46 -  64 bytes
 * Cx56 - 128 bytes
 * Cx66 - 256 bytes
 */
#define MAX_EEPROM_SIZE  256


/*
 * I/O routines
 */


static inline u16 cs8900_read (struct net_device *dev,u16 reg)
{
 outw (reg,dev->base_addr + PP_Address);
 return (inw (dev->base_addr + PP_Data));
}


static inline void cs8900_write (struct net_device *dev,u16 reg,u16 value)
{
 outw (reg,dev->base_addr + PP_Address);
 outw (value,dev->base_addr + PP_Data);
}


static inline void cs8900_set (struct net_device *dev,u16 reg,u16 value)
{
 cs8900_write (dev,reg,cs8900_read (dev,reg) | value);
}


static inline void cs8900_clear (struct net_device *dev,u16 reg,u16 value)
{
 cs8900_write (dev,reg,cs8900_read (dev,reg) & ~value);
}


static inline void cs8900_frame_read (struct net_device *dev,struct sk_buff *skb,u16 length)
{
 insw (dev->base_addr,skb_put (skb,length),(length + 1) / 2);
}


static inline void cs8900_frame_write (struct net_device *dev,struct sk_buff *skb)
{
 outsw (dev->base_addr,skb->data,(skb->len + 1) / 2);
}


/*
 * Debugging functions
 */


#ifdef DEBUG
static inline int printable (int c)
{
 return ((c >= 32 && c <= 126) ||
   (c >= 174 && c <= 223) ||
   (c >= 242 && c <= 243) ||
   (c >= 252 && c <= 253));
}


static void dump16 (struct net_device *dev,const u8 *s,size_t len)
{
 int i;
 char str[128];


 if (!len) return;


 *str = '\0';


 for (i = 0; i < len; i++) {
  if (i && !(i % 4)) strcat (str," ");
  sprintf (str,"%s%.2x ",str,s);
 }


 for ( ; i < 16; i++) {
  if (i && !(i % 4)) strcat (str," ");
  strcat (str,"   ");
 }


 strcat (str," ");
 for (i = 0; i < len; i++) sprintf (str,"%s%c",str,printable (s) ? s : '.');


 printk (KERN_DEBUG "%s:     %s\n",dev->name,str);
}


static void hexdump (struct net_device *dev,const void *ptr,size_t size)
{
 const u8 *s = (u8 *) ptr;
 int i;
 for (i = 0; i < size / 16; i++, s += 16) dump16 (dev,s,16);
 dump16 (dev,s,size % 16);
}


static void dump_packet (struct net_device *dev,struct sk_buff *skb,const char *type)
{
 printk (KERN_INFO "%s: %s %d byte frame %.2x:%.2x:%.2x:%.2x:%.2x:%.2x to %.2x:%.2x:%.2x:%.2x:%.2x:%.2x type %.4x\n",
   dev->name,
   type,
   skb->len,
   skb->data[0],skb->data[1],skb->data[2],skb->data[3],skb->data[4],skb->data[5],
   skb->data[6],skb->data[7],skb->data[8],skb->data[9],skb->data[10],skb->data[11],
   (skb->data[12] << 8) | skb->data[13]);
 if (skb->len < 0x100) hexdump (dev,skb->data,skb->len);
}



#endif /* #ifdef DEBUG */


/*
 * Driver functions
 */


static void cs8900_receive (struct net_device *dev)
{
 cs8900_t *priv = (cs8900_t *) dev->priv;
 struct sk_buff *skb;
 u16 status,length;


 status = cs8900_read (dev,PP_RxStatus);
 length = cs8900_read (dev,PP_RxLength);


 if (!(status & RxOK)) {
  priv->stats.rx_errors++;
  if ((status & (Runt | Extradata))) priv->stats.rx_length_errors++;
  if ((status & CRCerror)) priv->stats.rx_crc_errors++;
  return;
 }


 if ((skb = dev_alloc_skb (length + 4)) == NULL) {
  priv->stats.rx_dropped++;
  return;
 }


 skb->dev = dev;
 skb_reserve (skb,2);


 cs8900_frame_read (dev,skb,length);


#ifdef FULL_DUPLEX
 dump_packet (dev,skb,"recv");
#endif /* #ifdef FULL_DUPLEX */


 skb->protocol = eth_type_trans (skb,dev);


 netif_rx (skb);
 dev->last_rx = jiffies;


 priv->stats.rx_packets++;
 priv->stats.rx_bytes += length;
}


static int cs8900_send_start (struct sk_buff *skb,struct net_device *dev)
{
 cs8900_t *priv = (cs8900_t *) dev->priv;
 u16 status;


 spin_lock_irq(&priv->lock);
 netif_stop_queue (dev);


 cs8900_write (dev,PP_TxCMD,TxStart (After5));
 cs8900_write (dev,PP_TxLength,skb->len);


 status = cs8900_read (dev,PP_BusST);


 if ((status & TxBidErr)) {
  spin_unlock_irq(&priv->lock);
  printk (KERN_WARNING "%s: Invalid frame size %d!\n",dev->name,skb->len);
  priv->stats.tx_errors++;
  priv->stats.tx_aborted_errors++;
  priv->txlen = 0;
  return (1);
 }


 if (!(status & Rdy4TxNOW)) {
  spin_unlock_irq(&priv->lock);
  printk (KERN_WARNING "%s: Transmit buffer not free!\n",dev->name);
  priv->stats.tx_errors++;
  priv->txlen = 0;
  /* FIXME: store skb and send it in interrupt handler */
  return (1);
 }


 cs8900_frame_write (dev,skb);
 spin_unlock_irq(&priv->lock);


#ifdef DEBUG
 dump_packet (dev,skb,"send");
#endif /* #ifdef DEBUG */


 dev->trans_start = jiffies;


 dev_kfree_skb (skb);


 priv->txlen = skb->len;


 return (0);
}


static irqreturn_t cs8900_interrupt (int irq,void *id)
{
 struct net_device *dev = (struct net_device *) id;
 cs8900_t *priv;
 volatile u16 status;
  irqreturn_t handled = 0;



 if (dev->priv == NULL) {
  printk (KERN_WARNING "%s: irq %d for unknown device.\n",dev->name,irq);
  return 0;
 }


 priv = (cs8900_t *) dev->priv;
 
 while ((status = cs8900_read (dev, PP_ISQ))) {
  handled = 1;
  switch (RegNum (status)) {
  case RxEvent:
   cs8900_receive (dev);
   break;


  case TxEvent:
   priv->stats.collisions += ColCount (cs8900_read (dev,PP_TxCOL));
   if (!(RegContent (status) & TxOK)) {
    priv->stats.tx_errors++;
    if ((RegContent (status) & Out_of_window)) priv->stats.tx_window_errors++;
    if ((RegContent (status) & Jabber)) priv->stats.tx_aborted_errors++;
    break;
   } else if (priv->txlen) {
    priv->stats.tx_packets++;
    priv->stats.tx_bytes += priv->txlen;
   }
   priv->txlen = 0;
   netif_wake_queue (dev);
   break;


  case BufEvent:
   if ((RegContent (status) & RxMiss)) {
    u16 missed = MissCount (cs8900_read (dev,PP_RxMISS));
    priv->stats.rx_errors += missed;
    priv->stats.rx_missed_errors += missed;
   }
   if ((RegContent (status) & TxUnderrun)) {
    priv->stats.tx_errors++;
    priv->stats.tx_fifo_errors++;


    priv->txlen = 0;
    netif_wake_queue (dev);
   }
   /* FIXME: if Rdy4Tx, transmit last sent packet (if any) */
   break;


  case TxCOL:
   priv->stats.collisions += ColCount (cs8900_read (dev,PP_TxCOL));
   break;


  case RxMISS:
   status = MissCount (cs8900_read (dev,PP_RxMISS));
   priv->stats.rx_errors += status;
   priv->stats.rx_missed_errors += status;
   break;
  }
 }
 return IRQ_RETVAL(handled);
}


static void cs8900_transmit_timeout (struct net_device *dev)
{
 cs8900_t *priv = (cs8900_t *) dev->priv;
 priv->stats.tx_errors++;
 priv->stats.tx_heartbeat_errors++;
 priv->txlen = 0;
 netif_wake_queue (dev);
}


static int cs8900_start (struct net_device *dev)
{
 int result;
    printk("cs8900_start  \n");
 set_irq_type(dev->irq, (1<<1)||(1<<0));
    printk("enable the ethernet controlle\n");
 /* enable the ethernet controller */
 cs8900_set (dev,PP_RxCFG,RxOKiE | BufferCRC | CRCerroriE | RuntiE | ExtradataiE);
 cs8900_set (dev,PP_RxCTL,RxOKA | IndividualA | BroadcastA);
 cs8900_set (dev,PP_TxCFG,TxOKiE | Out_of_windowiE | JabberiE);
 cs8900_set (dev,PP_BufCFG,Rdy4TxiE | RxMissiE | TxUnderruniE | TxColOvfiE | MissOvfloiE);
 cs8900_set (dev,PP_LineCTL,SerRxON | SerTxON);
 cs8900_set (dev,PP_BusCTL,EnableRQ);


#ifdef FULL_DUPLEX
 cs8900_set (dev,PP_TestCTL,FDX);
#endif /* #ifdef FULL_DUPLEX */
 udelay(200);
 /* install interrupt handler */  printk("request_irq \n");
 if ((result = request_irq (dev->irq, &cs8900_interrupt, 0, dev->name, dev)) < 0) {
  printk (KERN_ERR "%s: could not register interrupt %d\n",dev->name, dev->irq);
  return (result);
 }
 
 /* start the queue */
 netif_start_queue (dev);


 return (0);
}


static int cs8900_stop (struct net_device *dev)
{
 /* disable ethernet controller */
 cs8900_write (dev,PP_BusCTL,0);
 cs8900_write (dev,PP_TestCTL,0);
 cs8900_write (dev,PP_SelfCTL,0);
 cs8900_write (dev,PP_LineCTL,0);
 cs8900_write (dev,PP_BufCFG,0);
 cs8900_write (dev,PP_TxCFG,0);
 cs8900_write (dev,PP_RxCTL,0);
 cs8900_write (dev,PP_RxCFG,0);


 /* uninstall interrupt handler */
 free_irq (dev->irq,dev);


 /* stop the queue */
 netif_stop_queue (dev);


 return (0);
}


static struct net_device_stats *cs8900_get_stats (struct net_device *dev)
{
 cs8900_t *priv = (cs8900_t *) dev->priv;
 return (&priv->stats);
}


static void cs8900_set_receive_mode (struct net_device *dev)
{
 if ((dev->flags & IFF_PROMISC))
  cs8900_set (dev,PP_RxCTL,PromiscuousA);
 else
  cs8900_clear (dev,PP_RxCTL,PromiscuousA);


 if ((dev->flags & IFF_ALLMULTI) && dev->mc_list)
  cs8900_set (dev,PP_RxCTL,MulticastA);
 else
  cs8900_clear (dev,PP_RxCTL,MulticastA);
}


/*
 * Driver initialization routines
 */


int __init cs8900_probe (struct net_device *dev)
{
 static cs8900_t priv;
 int i,result;
 u16 value;


 //unsigned long extint1;
 //extint1 = __raw_readl(S3C2410_EXTINT1);
 //extint1 &= ~(7<<4);
 //extint1 |= (4<<4);
 //__raw_writel(extint1, S3C2410_EXTINT1);


 printk (VERSION_STRING"\n");


 memset (&priv,0,sizeof (cs8900_t));


__raw_writel((__raw_readl(S3C2410_GPGCON)&~(0x3<<2))|(0x2<<2),S3C2410_GPGCON);
__raw_writel((__raw_readl(S3C2410_EXTINT1)&~(0x7<<4))|(0x4<<4),S3C2410_EXTINT1);
__raw_writel(0x2211d110,S3C2410_BWSCON);
__raw_writel(0x1f7c,S3C2410_BANKCON3);


#if defined(CONFIG_ARCH_SMDK2410)
 dev->dev_addr[0] = 0x00;
 dev->dev_addr[1] = 0x00;
 dev->dev_addr[2] = 0x3e;
 dev->dev_addr[3] = 0x26;
 dev->dev_addr[4] = 0x0a;
 dev->dev_addr[5] = 0x00;


#endif


 dev->if_port   = IF_PORT_10BASET;
 dev->priv      = (void *) &priv;


 spin_lock_init(&priv.lock);


 //SET_MODULE_OWNER (dev);


#if defined(CONFIG_ARCH_SMDK2410)
 dev->base_addr = (0xE0000000 + 0x300);
 dev->irq = IRQ_EINT9;
#endif /* #if defined(CONFIG_ARCH_SMDK2410) */


 if ((result = check_mem_region (dev->base_addr, 255))) {
  printk (KERN_ERR "%s: can't get I/O port address 0x%lx\n",dev->name,dev->base_addr);
  return (result);
 }
 request_mem_region (dev->base_addr, 16, dev->name);
 
     /* verify EISA registration number for Cirrus Logic */
 if ((value = cs8900_read (dev,PP_ProductID)) != EISA_REG_CODE) {
  printk (KERN_ERR "%s: incorrect signature 0x%.4x\n",dev->name,value);
  return (-ENXIO);
 }


 /* verify chip version */
 value = cs8900_read (dev,PP_ProductID + 2);
 if (VERSION (value) != CS8900A) {
  printk (KERN_ERR "%s: unknown chip version 0x%.8x\n",dev->name,VERSION (value));
  return (-ENXIO);
 }
 /* setup interrupt number */
 cs8900_write (dev,PP_IntNum,0);



 printk (KERN_INFO "%s: CS8900A rev %c at %#lx irq=%d",
  dev->name,'B' + REVISION (value) - REV_B, dev->base_addr, dev->irq);


 for (i = 0; i < ETH_ALEN; i += 2)
  cs8900_write (dev,PP_IA + i,dev->dev_addr | (dev->dev_addr[i + 1] << 8));


 printk (", addr:");
 for (i = 0; i < ETH_ALEN; i += 2)
 {
  u16 mac = cs8900_read (dev,PP_IA + i);
  printk ("%c%02X:%2X", (i==0)?' ':':', mac & 0xff, (mac >> 8));
 }
 printk ("\n");


 return (0);
}


static int __init cs8900_init (void)
{
 struct net_device *ndev;


        ndev = alloc_etherdev(sizeof (cs8900_t));
        if (!ndev) {
                printk("%s: could not allocate device.\n", "cs8900");
                return -ENOMEM;
        }


 cs8900_dev = ndev;
 cs8900_dev->init = cs8900_probe;
 ether_setup (ndev);


 ndev->open               = cs8900_start;
 ndev->stop               = cs8900_stop;
 ndev->hard_start_xmit    = cs8900_send_start;
 ndev->get_stats          = cs8900_get_stats;
 ndev->set_multicast_list = cs8900_set_receive_mode;
 ndev->tx_timeout         = cs8900_transmit_timeout;
 ndev->watchdog_timeo     = HZ;


 return (register_netdev (cs8900_dev));
}


static void __exit cs8900_cleanup (void)
{
 cs8900_t *priv = (cs8900_t *) cs8900_dev->priv;
 if( priv->char_devnum)
 {
  unregister_chrdev(priv->char_devnum,"cs8900_eeprom");
 }
 release_mem_region (cs8900_dev->base_addr,16);
 unregister_netdev (cs8900_dev);
}


MODULE_AUTHOR ("Abraham van der Merwe <abraham at 2d3d.co.za>");
MODULE_DESCRIPTION (VERSION_STRING);
MODULE_LICENSE ("GPL");


module_init (cs8900_init);
module_exit (cs8900_cleanup);


//8900.h


#ifndef CS8900_H
#define CS8900_H


/*
 * linux/drivers/net/cs8900.h
 *
 * Author: Abraham van der Merwe <abraham at 2d3d.co.za>
 *
 * A Cirrus Logic CS8900A driver for Linux
 * based on the cs89x0 driver written by Russell Nelson,
 * Donald Becker, and others.
 *
 * This source code is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * version 2 as published by the Free Software Foundation.
 */


/*
 * Ports
 */


#define PP_Address  0x0a /* PacketPage Pointer Port (Section 4.10.10) */
#define PP_Data   0x0c /* PacketPage Data Port (Section 4.10.10) */


/*
 * Registers
 */


#define PP_ProductID  0x0000 /* Section 4.3.1   Product Identification Code */
#define PP_MemBase   0x002c /* Section 4.9.2   Memory Base Address Register */
#define PP_IntNum   0x0022 /* Section 3.2.3   Interrupt Number */
#define PP_EEPROMCommand 0x0040 /* Section 4.3.11  EEPROM Command */
#define PP_EEPROMData  0x0042 /* Section 4.3.12  EEPROM Data */
#define PP_RxCFG   0x0102 /* Section 4.4.6   Receiver Configuration */
#define PP_RxCTL   0x0104 /* Section 4.4.8   Receiver Control */
#define PP_TxCFG   0x0106 /* Section 4.4.9   Transmit Configuration */
#define PP_BufCFG   0x010a /* Section 4.4.12  Buffer Configuration */
#define PP_LineCTL   0x0112 /* Section 4.4.16  Line Control */
#define PP_SelfCTL   0x0114 /* Section 4.4.18  Self Control */
#define PP_BusCTL   0x0116 /* Section 4.4.20  Bus Control */
#define PP_TestCTL   0x0118 /* Section 4.4.22  Test Control */
#define PP_ISQ    0x0120 /* Section 4.4.5   Interrupt Status Queue */
#define PP_TxEvent   0x0128 /* Section 4.4.10  Transmitter Event */
#define PP_BufEvent   0x012c /* Section 4.4.13  Buffer Event */
#define PP_RxMISS   0x0130 /* Section 4.4.14  Receiver Miss Counter */
#define PP_TxCOL   0x0132 /* Section 4.4.15  Transmit Collision Counter */
#define PP_SelfST   0x0136 /* Section 4.4.19  Self Status */
#define PP_BusST   0x0138 /* Section 4.4.21  Bus Status */
#define PP_TxCMD   0x0144 /* Section 4.4.11  Transmit Command */
#define PP_TxLength   0x0146 /* Section 4.5.2   Transmit Length */
#define PP_IA    0x0158 /* Section 4.6.2   Individual Address (IEEE Address) */
#define PP_RxStatus   0x0400 /* Section 4.7.1   Receive Status */
#define PP_RxLength   0x0402 /* Section 4.7.1   Receive Length (in bytes) */
#define PP_RxFrame   0x0404 /* Section 4.7.2   Receive Frame Location */
#define PP_TxFrame   0x0a00 /* Section 4.7.2   Transmit Frame Location */


/*
 * Values
 */


/* PP_IntNum */
#define INTRQ0   0x0000
#define INTRQ1   0x0001
#define INTRQ2   0x0002
#define INTRQ3   0x0003


/* PP_ProductID */
#define EISA_REG_CODE 0x630e
#define REVISION(x)  (((x) & 0x1f00) >> 8)
#define VERSION(x)  ((x) & ~0x1f00)


#define CS8900A   0x0000
#define REV_B   7
#define REV_C   8
#define REV_D   9


/* PP_RxCFG */
#define Skip_1   0x0040
#define StreamE   0x0080
#define RxOKiE   0x0100
#define RxDMAonly  0x0200
#define AutoRxDMAE  0x0400
#define BufferCRC  0x0800
#define CRCerroriE  0x1000
#define RuntiE   0x2000
#define ExtradataiE  0x4000


/* PP_RxCTL */
#define IAHashA   0x0040
#define PromiscuousA 0x0080
#define RxOKA   0x0100
#define MulticastA  0x0200
#define IndividualA  0x0400
#define BroadcastA  0x0800
#define CRCerrorA  0x1000
#define RuntA   0x2000
#define ExtradataA  0x4000


/* PP_TxCFG */
#define Loss_of_CRSiE 0x0040
#define SQErroriE  0x0080
#define TxOKiE   0x0100
#define Out_of_windowiE 0x0200
#define JabberiE  0x0400
#define AnycolliE  0x0800
#define T16colliE  0x8000


/* PP_BufCFG */
#define SWint_X   0x0040
#define RxDMAiE   0x0080
#define Rdy4TxiE  0x0100
#define TxUnderruniE 0x0200
#define RxMissiE  0x0400
#define Rx128iE   0x0800
#define TxColOvfiE  0x1000
#define MissOvfloiE  0x2000
#define RxDestiE  0x8000


/* PP_LineCTL */
#define SerRxON   0x0040
#define SerTxON   0x0080
#define AUIonly   0x0100
#define AutoAUI_10BT 0x0200
#define ModBackoffE  0x0800
#define PolarityDis  0x1000
#define L2_partDefDis 0x2000
#define LoRxSquelch  0x4000


/* PP_SelfCTL */
#define RESET   0x0040
#define SWSuspend  0x0100
#define HWSleepE  0x0200
#define HWStandbyE  0x0400
#define HC0E   0x1000
#define HC1E   0x2000
#define HCB0   0x4000
#define HCB1   0x8000


/* PP_BusCTL */
#define ResetRxDMA  0x0040
#define DMAextend  0x0100
#define UseSA   0x0200
#define MemoryE   0x0400
#define DMABurst  0x0800
#define IOCHRDYE  0x1000
#define RxDMAsize  0x2000
#define EnableRQ  0x8000


/* PP_TestCTL */
#define DisableLT  0x0080
#define ENDECloop  0x0200
#define AUIloop   0x0400
#define DisableBackoff 0x0800
#define FDX    0x4000


/* PP_ISQ */
#define RegNum(x) ((x) & 0x3f)
#define RegContent(x) ((x) & ~0x3d)


#define RxEvent   0x0004
#define TxEvent   0x0008
#define BufEvent  0x000c
#define RxMISS   0x0010
#define TxCOL   0x0012


/* PP_RxStatus */
#define IAHash   0x0040
#define Dribblebits  0x0080
#define RxOK   0x0100
#define Hashed   0x0200
#define IndividualAdr 0x0400
#define Broadcast  0x0800
#define CRCerror  0x1000
#define Runt   0x2000
#define Extradata  0x4000


#define HashTableIndex(x) ((x) >> 0xa)


/* PP_TxCMD */
#define After5   0
#define After381  1
#define After1021  2
#define AfterAll  3
#define TxStart(x) ((x) << 6)


#define Force   0x0100
#define Onecoll   0x0200
#define InhibitCRC  0x1000
#define TxPadDis  0x2000


/* PP_BusST */
#define TxBidErr  0x0080
#define Rdy4TxNOW  0x0100


/* PP_TxEvent */
#define Loss_of_CRS  0x0040
#define SQEerror  0x0080
#define TxOK   0x0100
#define Out_of_window 0x0200
#define Jabber   0x0400
#define T16coll   0x8000


#define TX_collisions(x) (((x) >> 0xb) & ~0x8000)


/* PP_BufEvent */
#define SWint   0x0040
#define RxDMAFrame  0x0080
#define Rdy4Tx   0x0100
#define TxUnderrun  0x0200
#define RxMiss   0x0400
#define Rx128   0x0800
#define RxDest   0x8000


/* PP_RxMISS */
#define MissCount(x) ((x) >> 6)


/* PP_TxCOL */
#define ColCount(x) ((x) >> 6)


/* PP_SelfST */
#define T3VActive  0x0040
#define INITD   0x0080
#define SIBUSY   0x0100
#define EEPROMpresent 0x0200
#define EEPROMOK  0x0400
#define ELpresent  0x0800
#define EEsize   0x1000


/* PP_EEPROMCommand */
#define EEWriteEnable   0x00F0
#define EEWriteDisable  0x0000
#define EEWriteRegister 0x0100
#define EEReadRegister 0x0200
#define EEEraseRegister 0x0300
#define ELSEL   0x0400


#endif /* #ifndef CS8900_H */



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