smc91x.c 59.4 KB
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/*
 * smc91x.c
 * This is a driver for SMSC's 91C9x/91C1xx single-chip Ethernet devices.
 *
 * Copyright (C) 1996 by Erik Stahlman
 * Copyright (C) 2001 Standard Microsystems Corporation
 *	Developed by Simple Network Magic Corporation
 * Copyright (C) 2003 Monta Vista Software, Inc.
 *	Unified SMC91x driver by Nicolas Pitre
 *
 * 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.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 * Arguments:
 * 	io	= for the base address
 *	irq	= for the IRQ
 *	nowait	= 0 for normal wait states, 1 eliminates additional wait states
 *
 * original author:
 * 	Erik Stahlman <erik@vt.edu>
 *
 * hardware multicast code:
 *    Peter Cammaert <pc@denkart.be>
 *
 * contributors:
 * 	Daris A Nevil <dnevil@snmc.com>
 *      Nicolas Pitre <nico@cam.org>
 *	Russell King <rmk@arm.linux.org.uk>
 *
 * History:
 *   08/20/00  Arnaldo Melo       fix kfree(skb) in smc_hardware_send_packet
 *   12/15/00  Christian Jullien  fix "Warning: kfree_skb on hard IRQ"
 *   03/16/01  Daris A Nevil      modified smc9194.c for use with LAN91C111
 *   08/22/01  Scott Anderson     merge changes from smc9194 to smc91111
 *   08/21/01  Pramod B Bhardwaj  added support for RevB of LAN91C111
 *   12/20/01  Jeff Sutherland    initial port to Xscale PXA with DMA support
 *   04/07/03  Nicolas Pitre      unified SMC91x driver, killed irq races,
 *                                more bus abstraction, big cleanup, etc.
 *   29/09/03  Russell King       - add driver model support
 *                                - ethtool support
 *                                - convert to use generic MII interface
 *                                - add link up/down notification
 *                                - don't try to handle full negotiation in
 *                                  smc_phy_configure
 *                                - clean up (and fix stack overrun) in PHY
 *                                  MII read/write functions
 *   22/09/04  Nicolas Pitre      big update (see commit log for details)
 */
static const char version[] =
	"smc91x.c: v1.1, sep 22 2004 by Nicolas Pitre <nico@cam.org>\n";

/* Debugging level */
#ifndef SMC_DEBUG
#define SMC_DEBUG		0
#endif


#include <linux/init.h>
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/slab.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/errno.h>
#include <linux/ioport.h>
#include <linux/crc32.h>
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#include <linux/platform_device.h>
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#include <linux/spinlock.h>
#include <linux/ethtool.h>
#include <linux/mii.h>
#include <linux/workqueue.h>

#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>

#include <asm/io.h>

#include "smc91x.h"

#ifdef CONFIG_ISA
/*
 * the LAN91C111 can be at any of the following port addresses.  To change,
 * for a slightly different card, you can add it to the array.  Keep in
 * mind that the array must end in zero.
 */
static unsigned int smc_portlist[] __initdata = {
	0x200, 0x220, 0x240, 0x260, 0x280, 0x2A0, 0x2C0, 0x2E0,
	0x300, 0x320, 0x340, 0x360, 0x380, 0x3A0, 0x3C0, 0x3E0, 0
};

#ifndef SMC_IOADDR
# define SMC_IOADDR		-1
#endif
static unsigned long io = SMC_IOADDR;
module_param(io, ulong, 0400);
MODULE_PARM_DESC(io, "I/O base address");

#ifndef SMC_IRQ
# define SMC_IRQ		-1
#endif
static int irq = SMC_IRQ;
module_param(irq, int, 0400);
MODULE_PARM_DESC(irq, "IRQ number");

#endif  /* CONFIG_ISA */

#ifndef SMC_NOWAIT
# define SMC_NOWAIT		0
#endif
static int nowait = SMC_NOWAIT;
module_param(nowait, int, 0400);
MODULE_PARM_DESC(nowait, "set to 1 for no wait state");

/*
 * Transmit timeout, default 5 seconds.
 */
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static int watchdog = 1000;
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module_param(watchdog, int, 0400);
MODULE_PARM_DESC(watchdog, "transmit timeout in milliseconds");

MODULE_LICENSE("GPL");
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MODULE_ALIAS("platform:smc91x");
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/*
 * The internal workings of the driver.  If you are changing anything
 * here with the SMC stuff, you should have the datasheet and know
 * what you are doing.
 */
#define CARDNAME "smc91x"

/*
 * Use power-down feature of the chip
 */
#define POWER_DOWN		1

/*
 * Wait time for memory to be free.  This probably shouldn't be
 * tuned that much, as waiting for this means nothing else happens
 * in the system
 */
#define MEMORY_WAIT_TIME	16

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/*
 * The maximum number of processing loops allowed for each call to the
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 * IRQ handler.
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 */
#define MAX_IRQ_LOOPS		8

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/*
 * This selects whether TX packets are sent one by one to the SMC91x internal
 * memory and throttled until transmission completes.  This may prevent
 * RX overruns a litle by keeping much of the memory free for RX packets
 * but to the expense of reduced TX throughput and increased IRQ overhead.
 * Note this is not a cure for a too slow data bus or too high IRQ latency.
 */
#define THROTTLE_TX_PKTS	0

/*
 * The MII clock high/low times.  2x this number gives the MII clock period
 * in microseconds. (was 50, but this gives 6.4ms for each MII transaction!)
 */
#define MII_DELAY		1

#if SMC_DEBUG > 0
#define DBG(n, args...)					\
	do {						\
		if (SMC_DEBUG >= (n))			\
			printk(args);	\
	} while (0)

#define PRINTK(args...)   printk(args)
#else
#define DBG(n, args...)   do { } while(0)
#define PRINTK(args...)   printk(KERN_DEBUG args)
#endif

#if SMC_DEBUG > 3
static void PRINT_PKT(u_char *buf, int length)
{
	int i;
	int remainder;
	int lines;

	lines = length / 16;
	remainder = length % 16;

	for (i = 0; i < lines ; i ++) {
		int cur;
		for (cur = 0; cur < 8; cur++) {
			u_char a, b;
			a = *buf++;
			b = *buf++;
			printk("%02x%02x ", a, b);
		}
		printk("\n");
	}
	for (i = 0; i < remainder/2 ; i++) {
		u_char a, b;
		a = *buf++;
		b = *buf++;
		printk("%02x%02x ", a, b);
	}
	printk("\n");
}
#else
#define PRINT_PKT(x...)  do { } while(0)
#endif


/* this enables an interrupt in the interrupt mask register */
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#define SMC_ENABLE_INT(lp, x) do {					\
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	unsigned char mask;						\
	spin_lock_irq(&lp->lock);					\
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	mask = SMC_GET_INT_MASK(lp);					\
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	mask |= (x);							\
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	SMC_SET_INT_MASK(lp, mask);					\
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	spin_unlock_irq(&lp->lock);					\
} while (0)

/* this disables an interrupt from the interrupt mask register */
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#define SMC_DISABLE_INT(lp, x) do {					\
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	unsigned char mask;						\
	spin_lock_irq(&lp->lock);					\
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	mask = SMC_GET_INT_MASK(lp);					\
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	mask &= ~(x);							\
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	SMC_SET_INT_MASK(lp, mask);					\
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	spin_unlock_irq(&lp->lock);					\
} while (0)

/*
 * Wait while MMU is busy.  This is usually in the order of a few nanosecs
 * if at all, but let's avoid deadlocking the system if the hardware
 * decides to go south.
 */
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#define SMC_WAIT_MMU_BUSY(lp) do {					\
	if (unlikely(SMC_GET_MMU_CMD(lp) & MC_BUSY)) {		\
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		unsigned long timeout = jiffies + 2;			\
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		while (SMC_GET_MMU_CMD(lp) & MC_BUSY) {		\
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			if (time_after(jiffies, timeout)) {		\
				printk("%s: timeout %s line %d\n",	\
					dev->name, __FILE__, __LINE__);	\
				break;					\
			}						\
			cpu_relax();					\
		}							\
	}								\
} while (0)


/*
 * this does a soft reset on the device
 */
static void smc_reset(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int ctl, cfg;
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	struct sk_buff *pending_skb;
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	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

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	/* Disable all interrupts, block TX tasklet */
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	spin_lock_irq(&lp->lock);
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	SMC_SELECT_BANK(lp, 2);
	SMC_SET_INT_MASK(lp, 0);
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	pending_skb = lp->pending_tx_skb;
	lp->pending_tx_skb = NULL;
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	spin_unlock_irq(&lp->lock);
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	/* free any pending tx skb */
	if (pending_skb) {
		dev_kfree_skb(pending_skb);
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		dev->stats.tx_errors++;
		dev->stats.tx_aborted_errors++;
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	}

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	/*
	 * This resets the registers mostly to defaults, but doesn't
	 * affect EEPROM.  That seems unnecessary
	 */
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_RCR(lp, RCR_SOFTRST);
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	/*
	 * Setup the Configuration Register
	 * This is necessary because the CONFIG_REG is not affected
	 * by a soft reset
	 */
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	SMC_SELECT_BANK(lp, 1);
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	cfg = CONFIG_DEFAULT;

	/*
	 * Setup for fast accesses if requested.  If the card/system
	 * can't handle it then there will be no recovery except for
	 * a hard reset or power cycle
	 */
	if (nowait)
		cfg |= CONFIG_NO_WAIT;

	/*
	 * Release from possible power-down state
	 * Configuration register is not affected by Soft Reset
	 */
	cfg |= CONFIG_EPH_POWER_EN;

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	SMC_SET_CONFIG(lp, cfg);
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	/* this should pause enough for the chip to be happy */
	/*
	 * elaborate?  What does the chip _need_? --jgarzik
	 *
	 * This seems to be undocumented, but something the original
	 * driver(s) have always done.  Suspect undocumented timing
	 * info/determined empirically. --rmk
	 */
	udelay(1);

	/* Disable transmit and receive functionality */
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_RCR(lp, RCR_CLEAR);
	SMC_SET_TCR(lp, TCR_CLEAR);
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	SMC_SELECT_BANK(lp, 1);
	ctl = SMC_GET_CTL(lp) | CTL_LE_ENABLE;
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	/*
	 * Set the control register to automatically release successfully
	 * transmitted packets, to make the best use out of our limited
	 * memory
	 */
	if(!THROTTLE_TX_PKTS)
		ctl |= CTL_AUTO_RELEASE;
	else
		ctl &= ~CTL_AUTO_RELEASE;
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	SMC_SET_CTL(lp, ctl);
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	/* Reset the MMU */
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	SMC_SELECT_BANK(lp, 2);
	SMC_SET_MMU_CMD(lp, MC_RESET);
	SMC_WAIT_MMU_BUSY(lp);
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}

/*
 * Enable Interrupts, Receive, and Transmit
 */
static void smc_enable(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	int mask;

	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

	/* see the header file for options in TCR/RCR DEFAULT */
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_TCR(lp, lp->tcr_cur_mode);
	SMC_SET_RCR(lp, lp->rcr_cur_mode);
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	SMC_SELECT_BANK(lp, 1);
	SMC_SET_MAC_ADDR(lp, dev->dev_addr);
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	/* now, enable interrupts */
	mask = IM_EPH_INT|IM_RX_OVRN_INT|IM_RCV_INT;
	if (lp->version >= (CHIP_91100 << 4))
		mask |= IM_MDINT;
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	SMC_SELECT_BANK(lp, 2);
	SMC_SET_INT_MASK(lp, mask);
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	/*
	 * From this point the register bank must _NOT_ be switched away
	 * to something else than bank 2 without proper locking against
	 * races with any tasklet or interrupt handlers until smc_shutdown()
	 * or smc_reset() is called.
	 */
}

/*
 * this puts the device in an inactive state
 */
static void smc_shutdown(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
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	struct sk_buff *pending_skb;
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	DBG(2, "%s: %s\n", CARDNAME, __FUNCTION__);

	/* no more interrupts for me */
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	spin_lock_irq(&lp->lock);
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	SMC_SELECT_BANK(lp, 2);
	SMC_SET_INT_MASK(lp, 0);
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	pending_skb = lp->pending_tx_skb;
	lp->pending_tx_skb = NULL;
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	spin_unlock_irq(&lp->lock);
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	if (pending_skb)
		dev_kfree_skb(pending_skb);
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	/* and tell the card to stay away from that nasty outside world */
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_RCR(lp, RCR_CLEAR);
	SMC_SET_TCR(lp, TCR_CLEAR);
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#ifdef POWER_DOWN
	/* finally, shut the chip down */
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	SMC_SELECT_BANK(lp, 1);
	SMC_SET_CONFIG(lp, SMC_GET_CONFIG(lp) & ~CONFIG_EPH_POWER_EN);
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#endif
}

/*
 * This is the procedure to handle the receipt of a packet.
 */
static inline void  smc_rcv(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int packet_number, status, packet_len;

	DBG(3, "%s: %s\n", dev->name, __FUNCTION__);

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	packet_number = SMC_GET_RXFIFO(lp);
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	if (unlikely(packet_number & RXFIFO_REMPTY)) {
		PRINTK("%s: smc_rcv with nothing on FIFO.\n", dev->name);
		return;
	}

	/* read from start of packet */
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	SMC_SET_PTR(lp, PTR_READ | PTR_RCV | PTR_AUTOINC);
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	/* First two words are status and packet length */
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	SMC_GET_PKT_HDR(lp, status, packet_len);
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	packet_len &= 0x07ff;  /* mask off top bits */
	DBG(2, "%s: RX PNR 0x%x STATUS 0x%04x LENGTH 0x%04x (%d)\n",
		dev->name, packet_number, status,
		packet_len, packet_len);

	back:
	if (unlikely(packet_len < 6 || status & RS_ERRORS)) {
		if (status & RS_TOOLONG && packet_len <= (1514 + 4 + 6)) {
			/* accept VLAN packets */
			status &= ~RS_TOOLONG;
			goto back;
		}
		if (packet_len < 6) {
			/* bloody hardware */
			printk(KERN_ERR "%s: fubar (rxlen %u status %x\n",
					dev->name, packet_len, status);
			status |= RS_TOOSHORT;
		}
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		SMC_WAIT_MMU_BUSY(lp);
		SMC_SET_MMU_CMD(lp, MC_RELEASE);
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		dev->stats.rx_errors++;
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		if (status & RS_ALGNERR)
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			dev->stats.rx_frame_errors++;
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		if (status & (RS_TOOSHORT | RS_TOOLONG))
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			dev->stats.rx_length_errors++;
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		if (status & RS_BADCRC)
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			dev->stats.rx_crc_errors++;
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	} else {
		struct sk_buff *skb;
		unsigned char *data;
		unsigned int data_len;

		/* set multicast stats */
		if (status & RS_MULTICAST)
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			dev->stats.multicast++;
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		/*
		 * Actual payload is packet_len - 6 (or 5 if odd byte).
		 * We want skb_reserve(2) and the final ctrl word
		 * (2 bytes, possibly containing the payload odd byte).
		 * Furthermore, we add 2 bytes to allow rounding up to
		 * multiple of 4 bytes on 32 bit buses.
		 * Hence packet_len - 6 + 2 + 2 + 2.
		 */
		skb = dev_alloc_skb(packet_len);
		if (unlikely(skb == NULL)) {
			printk(KERN_NOTICE "%s: Low memory, packet dropped.\n",
				dev->name);
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			SMC_WAIT_MMU_BUSY(lp);
			SMC_SET_MMU_CMD(lp, MC_RELEASE);
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			dev->stats.rx_dropped++;
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			return;
		}

		/* Align IP header to 32 bits */
		skb_reserve(skb, 2);

		/* BUG: the LAN91C111 rev A never sets this bit. Force it. */
		if (lp->version == 0x90)
			status |= RS_ODDFRAME;

		/*
		 * If odd length: packet_len - 5,
		 * otherwise packet_len - 6.
		 * With the trailing ctrl byte it's packet_len - 4.
		 */
		data_len = packet_len - ((status & RS_ODDFRAME) ? 5 : 6);
		data = skb_put(skb, data_len);
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		SMC_PULL_DATA(lp, data, packet_len - 4);
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		SMC_WAIT_MMU_BUSY(lp);
		SMC_SET_MMU_CMD(lp, MC_RELEASE);
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		PRINT_PKT(data, packet_len - 4);

		dev->last_rx = jiffies;
		skb->protocol = eth_type_trans(skb, dev);
		netif_rx(skb);
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		dev->stats.rx_packets++;
		dev->stats.rx_bytes += data_len;
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	}
}

#ifdef CONFIG_SMP
/*
 * On SMP we have the following problem:
 *
 * 	A = smc_hardware_send_pkt()
 * 	B = smc_hard_start_xmit()
 * 	C = smc_interrupt()
 *
 * A and B can never be executed simultaneously.  However, at least on UP,
 * it is possible (and even desirable) for C to interrupt execution of
 * A or B in order to have better RX reliability and avoid overruns.
 * C, just like A and B, must have exclusive access to the chip and
 * each of them must lock against any other concurrent access.
 * Unfortunately this is not possible to have C suspend execution of A or
 * B taking place on another CPU. On UP this is no an issue since A and B
 * are run from softirq context and C from hard IRQ context, and there is
 * no other CPU where concurrent access can happen.
 * If ever there is a way to force at least B and C to always be executed
 * on the same CPU then we could use read/write locks to protect against
 * any other concurrent access and C would always interrupt B. But life
 * isn't that easy in a SMP world...
 */
#define smc_special_trylock(lock)					\
({									\
	int __ret;							\
	local_irq_disable();						\
	__ret = spin_trylock(lock);					\
	if (!__ret)							\
		local_irq_enable();					\
	__ret;								\
})
#define smc_special_lock(lock)		spin_lock_irq(lock)
#define smc_special_unlock(lock)	spin_unlock_irq(lock)
#else
#define smc_special_trylock(lock)	(1)
#define smc_special_lock(lock)		do { } while (0)
#define smc_special_unlock(lock)	do { } while (0)
#endif

/*
 * This is called to actually send a packet to the chip.
 */
static void smc_hardware_send_pkt(unsigned long data)
{
	struct net_device *dev = (struct net_device *)data;
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	struct sk_buff *skb;
	unsigned int packet_no, len;
	unsigned char *buf;

	DBG(3, "%s: %s\n", dev->name, __FUNCTION__);

	if (!smc_special_trylock(&lp->lock)) {
		netif_stop_queue(dev);
		tasklet_schedule(&lp->tx_task);
		return;
	}

	skb = lp->pending_tx_skb;
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	if (unlikely(!skb)) {
		smc_special_unlock(&lp->lock);
		return;
	}
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	lp->pending_tx_skb = NULL;
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	packet_no = SMC_GET_AR(lp);
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	if (unlikely(packet_no & AR_FAILED)) {
		printk("%s: Memory allocation failed.\n", dev->name);
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		dev->stats.tx_errors++;
		dev->stats.tx_fifo_errors++;
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		smc_special_unlock(&lp->lock);
		goto done;
	}

	/* point to the beginning of the packet */
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	SMC_SET_PN(lp, packet_no);
	SMC_SET_PTR(lp, PTR_AUTOINC);
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	buf = skb->data;
	len = skb->len;
	DBG(2, "%s: TX PNR 0x%x LENGTH 0x%04x (%d) BUF 0x%p\n",
		dev->name, packet_no, len, len, buf);
	PRINT_PKT(buf, len);

	/*
	 * Send the packet length (+6 for status words, length, and ctl.
	 * The card will pad to 64 bytes with zeroes if packet is too small.
	 */
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	SMC_PUT_PKT_HDR(lp, 0, len + 6);
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	/* send the actual data */
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	SMC_PUSH_DATA(lp, buf, len & ~1);
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	/* Send final ctl word with the last byte if there is one */
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	SMC_outw(((len & 1) ? (0x2000 | buf[len-1]) : 0), ioaddr, DATA_REG(lp));
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	/*
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	 * If THROTTLE_TX_PKTS is set, we stop the queue here. This will
	 * have the effect of having at most one packet queued for TX
	 * in the chip's memory at all time.
	 *
	 * If THROTTLE_TX_PKTS is not set then the queue is stopped only
	 * when memory allocation (MC_ALLOC) does not succeed right away.
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	 */
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	if (THROTTLE_TX_PKTS)
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		netif_stop_queue(dev);

	/* queue the packet for TX */
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	SMC_SET_MMU_CMD(lp, MC_ENQUEUE);
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	smc_special_unlock(&lp->lock);

	dev->trans_start = jiffies;
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	dev->stats.tx_packets++;
	dev->stats.tx_bytes += len;
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	SMC_ENABLE_INT(lp, IM_TX_INT | IM_TX_EMPTY_INT);
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done:	if (!THROTTLE_TX_PKTS)
		netif_wake_queue(dev);

	dev_kfree_skb(skb);
}

/*
 * Since I am not sure if I will have enough room in the chip's ram
 * to store the packet, I call this routine which either sends it
 * now, or set the card to generates an interrupt when ready
 * for the packet.
 */
static int smc_hard_start_xmit(struct sk_buff *skb, struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int numPages, poll_count, status;

	DBG(3, "%s: %s\n", dev->name, __FUNCTION__);

	BUG_ON(lp->pending_tx_skb != NULL);

	/*
	 * The MMU wants the number of pages to be the number of 256 bytes
	 * 'pages', minus 1 (since a packet can't ever have 0 pages :))
	 *
	 * The 91C111 ignores the size bits, but earlier models don't.
	 *
	 * Pkt size for allocating is data length +6 (for additional status
	 * words, length and ctl)
	 *
	 * If odd size then last byte is included in ctl word.
	 */
	numPages = ((skb->len & ~1) + (6 - 1)) >> 8;
	if (unlikely(numPages > 7)) {
		printk("%s: Far too big packet error.\n", dev->name);
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		dev->stats.tx_errors++;
		dev->stats.tx_dropped++;
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		dev_kfree_skb(skb);
		return 0;
	}

	smc_special_lock(&lp->lock);

	/* now, try to allocate the memory */
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	SMC_SET_MMU_CMD(lp, MC_ALLOC | numPages);
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	/*
	 * Poll the chip for a short amount of time in case the
	 * allocation succeeds quickly.
	 */
	poll_count = MEMORY_WAIT_TIME;
	do {
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		status = SMC_GET_INT(lp);
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		if (status & IM_ALLOC_INT) {
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			SMC_ACK_INT(lp, IM_ALLOC_INT);
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  			break;
		}
   	} while (--poll_count);

	smc_special_unlock(&lp->lock);

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	lp->pending_tx_skb = skb;
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   	if (!poll_count) {
		/* oh well, wait until the chip finds memory later */
		netif_stop_queue(dev);
		DBG(2, "%s: TX memory allocation deferred.\n", dev->name);
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		SMC_ENABLE_INT(lp, IM_ALLOC_INT);
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   	} else {
		/*
		 * Allocation succeeded: push packet to the chip's own memory
		 * immediately.
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		 */
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		smc_hardware_send_pkt((unsigned long)dev);
	}

	return 0;
}

/*
 * This handles a TX interrupt, which is only called when:
 * - a TX error occurred, or
 * - CTL_AUTO_RELEASE is not set and TX of a packet completed.
 */
static void smc_tx(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int saved_packet, packet_no, tx_status, pkt_len;

	DBG(3, "%s: %s\n", dev->name, __FUNCTION__);

	/* If the TX FIFO is empty then nothing to do */
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	packet_no = SMC_GET_TXFIFO(lp);
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	if (unlikely(packet_no & TXFIFO_TEMPTY)) {
		PRINTK("%s: smc_tx with nothing on FIFO.\n", dev->name);
		return;
	}

	/* select packet to read from */
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	saved_packet = SMC_GET_PN(lp);
	SMC_SET_PN(lp, packet_no);
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	/* read the first word (status word) from this packet */
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	SMC_SET_PTR(lp, PTR_AUTOINC | PTR_READ);
	SMC_GET_PKT_HDR(lp, tx_status, pkt_len);
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	DBG(2, "%s: TX STATUS 0x%04x PNR 0x%02x\n",
		dev->name, tx_status, packet_no);

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	if (!(tx_status & ES_TX_SUC))
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		dev->stats.tx_errors++;
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	if (tx_status & ES_LOSTCARR)
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		dev->stats.tx_carrier_errors++;
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	if (tx_status & (ES_LATCOL | ES_16COL)) {
		PRINTK("%s: %s occurred on last xmit\n", dev->name,
		       (tx_status & ES_LATCOL) ?
			"late collision" : "too many collisions");
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		dev->stats.tx_window_errors++;
		if (!(dev->stats.tx_window_errors & 63) && net_ratelimit()) {
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			printk(KERN_INFO "%s: unexpectedly large number of "
			       "bad collisions. Please check duplex "
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			       "setting.\n", dev->name);
		}
	}

	/* kill the packet */
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	SMC_WAIT_MMU_BUSY(lp);
	SMC_SET_MMU_CMD(lp, MC_FREEPKT);
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	/* Don't restore Packet Number Reg until busy bit is cleared */
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	SMC_WAIT_MMU_BUSY(lp);
	SMC_SET_PN(lp, saved_packet);
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	/* re-enable transmit */
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_TCR(lp, lp->tcr_cur_mode);
	SMC_SELECT_BANK(lp, 2);
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}


/*---PHY CONTROL AND CONFIGURATION-----------------------------------------*/

static void smc_mii_out(struct net_device *dev, unsigned int val, int bits)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int mii_reg, mask;

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	mii_reg = SMC_GET_MII(lp) & ~(MII_MCLK | MII_MDOE | MII_MDO);
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	mii_reg |= MII_MDOE;

	for (mask = 1 << (bits - 1); mask; mask >>= 1) {
		if (val & mask)
			mii_reg |= MII_MDO;
		else
			mii_reg &= ~MII_MDO;

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		SMC_SET_MII(lp, mii_reg);
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		udelay(MII_DELAY);
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		SMC_SET_MII(lp, mii_reg | MII_MCLK);
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		udelay(MII_DELAY);
	}
}

static unsigned int smc_mii_in(struct net_device *dev, int bits)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int mii_reg, mask, val;

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	mii_reg = SMC_GET_MII(lp) & ~(MII_MCLK | MII_MDOE | MII_MDO);
	SMC_SET_MII(lp, mii_reg);
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	for (mask = 1 << (bits - 1), val = 0; mask; mask >>= 1) {
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		if (SMC_GET_MII(lp) & MII_MDI)
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			val |= mask;

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		SMC_SET_MII(lp, mii_reg);
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		udelay(MII_DELAY);
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		SMC_SET_MII(lp, mii_reg | MII_MCLK);
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		udelay(MII_DELAY);
	}

	return val;
}

/*
 * Reads a register from the MII Management serial interface
 */
static int smc_phy_read(struct net_device *dev, int phyaddr, int phyreg)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int phydata;

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	SMC_SELECT_BANK(lp, 3);
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	/* Idle - 32 ones */
	smc_mii_out(dev, 0xffffffff, 32);

	/* Start code (01) + read (10) + phyaddr + phyreg */
	smc_mii_out(dev, 6 << 10 | phyaddr << 5 | phyreg, 14);

	/* Turnaround (2bits) + phydata */
	phydata = smc_mii_in(dev, 18);

	/* Return to idle state */
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	SMC_SET_MII(lp, SMC_GET_MII(lp) & ~(MII_MCLK|MII_MDOE|MII_MDO));
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	DBG(3, "%s: phyaddr=0x%x, phyreg=0x%x, phydata=0x%x\n",
		__FUNCTION__, phyaddr, phyreg, phydata);

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	SMC_SELECT_BANK(lp, 2);
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	return phydata;
}

/*
 * Writes a register to the MII Management serial interface
 */
static void smc_phy_write(struct net_device *dev, int phyaddr, int phyreg,
			  int phydata)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;

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	SMC_SELECT_BANK(lp, 3);
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	/* Idle - 32 ones */
	smc_mii_out(dev, 0xffffffff, 32);

	/* Start code (01) + write (01) + phyaddr + phyreg + turnaround + phydata */
	smc_mii_out(dev, 5 << 28 | phyaddr << 23 | phyreg << 18 | 2 << 16 | phydata, 32);

	/* Return to idle state */
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	SMC_SET_MII(lp, SMC_GET_MII(lp) & ~(MII_MCLK|MII_MDOE|MII_MDO));
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	DBG(3, "%s: phyaddr=0x%x, phyreg=0x%x, phydata=0x%x\n",
		__FUNCTION__, phyaddr, phyreg, phydata);

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	SMC_SELECT_BANK(lp, 2);
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}

/*
 * Finds and reports the PHY address
 */
static void smc_phy_detect(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	int phyaddr;

	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

	lp->phy_type = 0;

	/*
	 * Scan all 32 PHY addresses if necessary, starting at
	 * PHY#1 to PHY#31, and then PHY#0 last.
	 */
	for (phyaddr = 1; phyaddr < 33; ++phyaddr) {
		unsigned int id1, id2;

		/* Read the PHY identifiers */
		id1 = smc_phy_read(dev, phyaddr & 31, MII_PHYSID1);
		id2 = smc_phy_read(dev, phyaddr & 31, MII_PHYSID2);

		DBG(3, "%s: phy_id1=0x%x, phy_id2=0x%x\n",
			dev->name, id1, id2);

		/* Make sure it is a valid identifier */
		if (id1 != 0x0000 && id1 != 0xffff && id1 != 0x8000 &&
		    id2 != 0x0000 && id2 != 0xffff && id2 != 0x8000) {
			/* Save the PHY's address */
			lp->mii.phy_id = phyaddr & 31;
			lp->phy_type = id1 << 16 | id2;
			break;
		}
	}
}

/*
 * Sets the PHY to a configuration as determined by the user
 */
static int smc_phy_fixed(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	int phyaddr = lp->mii.phy_id;
	int bmcr, cfg1;

	DBG(3, "%s: %s\n", dev->name, __FUNCTION__);

	/* Enter Link Disable state */
	cfg1 = smc_phy_read(dev, phyaddr, PHY_CFG1_REG);
	cfg1 |= PHY_CFG1_LNKDIS;
	smc_phy_write(dev, phyaddr, PHY_CFG1_REG, cfg1);

	/*
	 * Set our fixed capabilities
	 * Disable auto-negotiation
	 */
	bmcr = 0;

	if (lp->ctl_rfduplx)
		bmcr |= BMCR_FULLDPLX;

	if (lp->ctl_rspeed == 100)
		bmcr |= BMCR_SPEED100;

	/* Write our capabilities to the phy control register */
	smc_phy_write(dev, phyaddr, MII_BMCR, bmcr);

	/* Re-Configure the Receive/Phy Control register */
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_RPC(lp, lp->rpc_cur_mode);
	SMC_SELECT_BANK(lp, 2);
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	return 1;
}

/*
 * smc_phy_reset - reset the phy
 * @dev: net device
 * @phy: phy address
 *
 * Issue a software reset for the specified PHY and
 * wait up to 100ms for the reset to complete.  We should
 * not access the PHY for 50ms after issuing the reset.
 *
 * The time to wait appears to be dependent on the PHY.
 *
 * Must be called with lp->lock locked.
 */
static int smc_phy_reset(struct net_device *dev, int phy)
{
	struct smc_local *lp = netdev_priv(dev);
	unsigned int bmcr;
	int timeout;

	smc_phy_write(dev, phy, MII_BMCR, BMCR_RESET);

	for (timeout = 2; timeout; timeout--) {
		spin_unlock_irq(&lp->lock);
		msleep(50);
		spin_lock_irq(&lp->lock);

		bmcr = smc_phy_read(dev, phy, MII_BMCR);
		if (!(bmcr & BMCR_RESET))
			break;
	}

	return bmcr & BMCR_RESET;
}

/*
 * smc_phy_powerdown - powerdown phy
 * @dev: net device
 *
 * Power down the specified PHY
 */
static void smc_phy_powerdown(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	unsigned int bmcr;
	int phy = lp->mii.phy_id;

	if (lp->phy_type == 0)
		return;

	/* We need to ensure that no calls to smc_phy_configure are
	   pending.
	*/
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	cancel_work_sync(&lp->phy_configure);
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	bmcr = smc_phy_read(dev, phy, MII_BMCR);
	smc_phy_write(dev, phy, MII_BMCR, bmcr | BMCR_PDOWN);
}

/*
 * smc_phy_check_media - check the media status and adjust TCR
 * @dev: net device
 * @init: set true for initialisation
 *
 * Select duplex mode depending on negotiation state.  This
 * also updates our carrier state.
 */
static void smc_phy_check_media(struct net_device *dev, int init)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;

	if (mii_check_media(&lp->mii, netif_msg_link(lp), init)) {
		/* duplex state has changed */
		if (lp->mii.full_duplex) {
			lp->tcr_cur_mode |= TCR_SWFDUP;
		} else {
			lp->tcr_cur_mode &= ~TCR_SWFDUP;
		}

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		SMC_SELECT_BANK(lp, 0);
		SMC_SET_TCR(lp, lp->tcr_cur_mode);
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	}
}

/*
 * Configures the specified PHY through the MII management interface
 * using Autonegotiation.
 * Calls smc_phy_fixed() if the user has requested a certain config.
 * If RPC ANEG bit is set, the media selection is dependent purely on
 * the selection by the MII (either in the MII BMCR reg or the result
 * of autonegotiation.)  If the RPC ANEG bit is cleared, the selection
 * is controlled by the RPC SPEED and RPC DPLX bits.
 */
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static void smc_phy_configure(struct work_struct *work)
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{
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	struct smc_local *lp =
		container_of(work, struct smc_local, phy_configure);
	struct net_device *dev = lp->dev;
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	void __iomem *ioaddr = lp->base;
	int phyaddr = lp->mii.phy_id;
	int my_phy_caps; /* My PHY capabilities */
	int my_ad_caps; /* My Advertised capabilities */
	int status;

	DBG(3, "%s:smc_program_phy()\n", dev->name);

	spin_lock_irq(&lp->lock);

	/*
	 * We should not be called if phy_type is zero.
	 */
	if (lp->phy_type == 0)
		goto smc_phy_configure_exit;

	if (smc_phy_reset(dev, phyaddr)) {
		printk("%s: PHY reset timed out\n", dev->name);
		goto smc_phy_configure_exit;
	}

	/*
	 * Enable PHY Interrupts (for register 18)
	 * Interrupts listed here are disabled
	 */
	smc_phy_write(dev, phyaddr, PHY_MASK_REG,
		PHY_INT_LOSSSYNC | PHY_INT_CWRD | PHY_INT_SSD |
		PHY_INT_ESD | PHY_INT_RPOL | PHY_INT_JAB |
		PHY_INT_SPDDET | PHY_INT_DPLXDET);

	/* Configure the Receive/Phy Control register */
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_RPC(lp, lp->rpc_cur_mode);
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	/* If the user requested no auto neg, then go set his request */
	if (lp->mii.force_media) {
		smc_phy_fixed(dev);
		goto smc_phy_configure_exit;
	}

	/* Copy our capabilities from MII_BMSR to MII_ADVERTISE */
	my_phy_caps = smc_phy_read(dev, phyaddr, MII_BMSR);

	if (!(my_phy_caps & BMSR_ANEGCAPABLE)) {
		printk(KERN_INFO "Auto negotiation NOT supported\n");
		smc_phy_fixed(dev);
		goto smc_phy_configure_exit;
	}

	my_ad_caps = ADVERTISE_CSMA; /* I am CSMA capable */

	if (my_phy_caps & BMSR_100BASE4)
		my_ad_caps |= ADVERTISE_100BASE4;
	if (my_phy_caps & BMSR_100FULL)
		my_ad_caps |= ADVERTISE_100FULL;
	if (my_phy_caps & BMSR_100HALF)
		my_ad_caps |= ADVERTISE_100HALF;
	if (my_phy_caps & BMSR_10FULL)
		my_ad_caps |= ADVERTISE_10FULL;
	if (my_phy_caps & BMSR_10HALF)
		my_ad_caps |= ADVERTISE_10HALF;

	/* Disable capabilities not selected by our user */
	if (lp->ctl_rspeed != 100)
		my_ad_caps &= ~(ADVERTISE_100BASE4|ADVERTISE_100FULL|ADVERTISE_100HALF);

	if (!lp->ctl_rfduplx)
		my_ad_caps &= ~(ADVERTISE_100FULL|ADVERTISE_10FULL);

	/* Update our Auto-Neg Advertisement Register */
	smc_phy_write(dev, phyaddr, MII_ADVERTISE, my_ad_caps);
	lp->mii.advertising = my_ad_caps;

	/*
	 * Read the register back.  Without this, it appears that when
	 * auto-negotiation is restarted, sometimes it isn't ready and
	 * the link does not come up.
	 */
	status = smc_phy_read(dev, phyaddr, MII_ADVERTISE);

	DBG(2, "%s: phy caps=%x\n", dev->name, my_phy_caps);
	DBG(2, "%s: phy advertised caps=%x\n", dev->name, my_ad_caps);

	/* Restart auto-negotiation process in order to advertise my caps */
	smc_phy_write(dev, phyaddr, MII_BMCR, BMCR_ANENABLE | BMCR_ANRESTART);

	smc_phy_check_media(dev, 1);

smc_phy_configure_exit:
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	SMC_SELECT_BANK(lp, 2);
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	spin_unlock_irq(&lp->lock);
}

/*
 * smc_phy_interrupt
 *
 * Purpose:  Handle interrupts relating to PHY register 18. This is
 *  called from the "hard" interrupt handler under our private spinlock.
 */
static void smc_phy_interrupt(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	int phyaddr = lp->mii.phy_id;
	int phy18;

	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

	if (lp->phy_type == 0)
		return;

	for(;;) {
		smc_phy_check_media(dev, 0);

		/* Read PHY Register 18, Status Output */
		phy18 = smc_phy_read(dev, phyaddr, PHY_INT_REG);
		if ((phy18 & PHY_INT_INT) == 0)
			break;
	}
}

/*--- END PHY CONTROL AND CONFIGURATION-------------------------------------*/

static void smc_10bt_check_media(struct net_device *dev, int init)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int old_carrier, new_carrier;

	old_carrier = netif_carrier_ok(dev) ? 1 : 0;

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	SMC_SELECT_BANK(lp, 0);
	new_carrier = (SMC_GET_EPH_STATUS(lp) & ES_LINK_OK) ? 1 : 0;
	SMC_SELECT_BANK(lp, 2);
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	if (init || (old_carrier != new_carrier)) {
		if (!new_carrier) {
			netif_carrier_off(dev);
		} else {
			netif_carrier_on(dev);
		}
		if (netif_msg_link(lp))
			printk(KERN_INFO "%s: link %s\n", dev->name,
			       new_carrier ? "up" : "down");
	}
}

static void smc_eph_interrupt(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned int ctl;

	smc_10bt_check_media(dev, 0);

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	SMC_SELECT_BANK(lp, 1);
	ctl = SMC_GET_CTL(lp);
	SMC_SET_CTL(lp, ctl & ~CTL_LE_ENABLE);
	SMC_SET_CTL(lp, ctl);
	SMC_SELECT_BANK(lp, 2);
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}

/*
 * This is the main routine of the driver, to handle the device when
 * it needs some attention.
 */
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static irqreturn_t smc_interrupt(int irq, void *dev_id)
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{
	struct net_device *dev = dev_id;
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	int status, mask, timeout, card_stats;
	int saved_pointer;

	DBG(3, "%s: %s\n", dev->name, __FUNCTION__);

	spin_lock(&lp->lock);

	/* A preamble may be used when there is a potential race
	 * between the interruptible transmit functions and this
	 * ISR. */
	SMC_INTERRUPT_PREAMBLE;

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	saved_pointer = SMC_GET_PTR(lp);
	mask = SMC_GET_INT_MASK(lp);
	SMC_SET_INT_MASK(lp, 0);
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	/* set a timeout value, so I don't stay here forever */
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	timeout = MAX_IRQ_LOOPS;
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	do {
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		status = SMC_GET_INT(lp);
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		DBG(2, "%s: INT 0x%02x MASK 0x%02x MEM 0x%04x FIFO 0x%04x\n",
			dev->name, status, mask,
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			({ int meminfo; SMC_SELECT_BANK(lp, 0);
			   meminfo = SMC_GET_MIR(lp);
			   SMC_SELECT_BANK(lp, 2); meminfo; }),
			SMC_GET_FIFO(lp));
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		status &= mask;
		if (!status)
			break;

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		if (status & IM_TX_INT) {
			/* do this before RX as it will free memory quickly */
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			DBG(3, "%s: TX int\n", dev->name);
			smc_tx(dev);
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			SMC_ACK_INT(lp, IM_TX_INT);
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			if (THROTTLE_TX_PKTS)
				netif_wake_queue(dev);
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		} else if (status & IM_RCV_INT) {
			DBG(3, "%s: RX irq\n", dev->name);
			smc_rcv(dev);
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		} else if (status & IM_ALLOC_INT) {
			DBG(3, "%s: Allocation irq\n", dev->name);
			tasklet_hi_schedule(&lp->tx_task);
			mask &= ~IM_ALLOC_INT;
		} else if (status & IM_TX_EMPTY_INT) {
			DBG(3, "%s: TX empty\n", dev->name);
			mask &= ~IM_TX_EMPTY_INT;

			/* update stats */
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			SMC_SELECT_BANK(lp, 0);
			card_stats = SMC_GET_COUNTER(lp);
			SMC_SELECT_BANK(lp, 2);
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			/* single collisions */
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			dev->stats.collisions += card_stats & 0xF;
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			card_stats >>= 4;

			/* multiple collisions */
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			dev->stats.collisions += card_stats & 0xF;
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		} else if (status & IM_RX_OVRN_INT) {
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			DBG(1, "%s: RX overrun (EPH_ST 0x%04x)\n", dev->name,
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			       ({ int eph_st; SMC_SELECT_BANK(lp, 0);
				  eph_st = SMC_GET_EPH_STATUS(lp);
				  SMC_SELECT_BANK(lp, 2); eph_st; }));
			SMC_ACK_INT(lp, IM_RX_OVRN_INT);
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			dev->stats.rx_errors++;
			dev->stats.rx_fifo_errors++;
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		} else if (status & IM_EPH_INT) {
			smc_eph_interrupt(dev);
		} else if (status & IM_MDINT) {
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			SMC_ACK_INT(lp, IM_MDINT);
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			smc_phy_interrupt(dev);
		} else if (status & IM_ERCV_INT) {
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			SMC_ACK_INT(lp, IM_ERCV_INT);
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			PRINTK("%s: UNSUPPORTED: ERCV INTERRUPT \n", dev->name);
		}
	} while (--timeout);

	/* restore register states */
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	SMC_SET_PTR(lp, saved_pointer);
	SMC_SET_INT_MASK(lp, mask);
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	spin_unlock(&lp->lock);

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#ifndef CONFIG_NET_POLL_CONTROLLER
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	if (timeout == MAX_IRQ_LOOPS)
		PRINTK("%s: spurious interrupt (mask = 0x%02x)\n",
		       dev->name, mask);
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#endif
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	DBG(3, "%s: Interrupt done (%d loops)\n",
	       dev->name, MAX_IRQ_LOOPS - timeout);
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	/*
	 * We return IRQ_HANDLED unconditionally here even if there was
	 * nothing to do.  There is a possibility that a packet might
	 * get enqueued into the chip right after TX_EMPTY_INT is raised
	 * but just before the CPU acknowledges the IRQ.
	 * Better take an unneeded IRQ in some occasions than complexifying
	 * the code for all cases.
	 */
	return IRQ_HANDLED;
}

#ifdef CONFIG_NET_POLL_CONTROLLER
/*
 * Polling receive - used by netconsole and other diagnostic tools
 * to allow network i/o with interrupts disabled.
 */
static void smc_poll_controller(struct net_device *dev)
{
	disable_irq(dev->irq);
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	smc_interrupt(dev->irq, dev);
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	enable_irq(dev->irq);
}
#endif

/* Our watchdog timed out. Called by the networking layer */
static void smc_timeout(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
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	int status, mask, eph_st, meminfo, fifo;
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	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

	spin_lock_irq(&lp->lock);
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	status = SMC_GET_INT(lp);
	mask = SMC_GET_INT_MASK(lp);
	fifo = SMC_GET_FIFO(lp);
	SMC_SELECT_BANK(lp, 0);
	eph_st = SMC_GET_EPH_STATUS(lp);
	meminfo = SMC_GET_MIR(lp);
	SMC_SELECT_BANK(lp, 2);
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	spin_unlock_irq(&lp->lock);
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	PRINTK( "%s: TX timeout (INT 0x%02x INTMASK 0x%02x "
		"MEM 0x%04x FIFO 0x%04x EPH_ST 0x%04x)\n",
		dev->name, status, mask, meminfo, fifo, eph_st );
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	smc_reset(dev);
	smc_enable(dev);

	/*
	 * Reconfiguring the PHY doesn't seem like a bad idea here, but
	 * smc_phy_configure() calls msleep() which calls schedule_timeout()
	 * which calls schedule().  Hence we use a work queue.
	 */
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	if (lp->phy_type != 0)
		schedule_work(&lp->phy_configure);
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	/* We can accept TX packets again */
	dev->trans_start = jiffies;
	netif_wake_queue(dev);
}

/*
 * This routine will, depending on the values passed to it,
 * either make it accept multicast packets, go into
 * promiscuous mode (for TCPDUMP and cousins) or accept
 * a select set of multicast packets
 */
static void smc_set_multicast_list(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);
	void __iomem *ioaddr = lp->base;
	unsigned char multicast_table[8];
	int update_multicast = 0;

	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

	if (dev->flags & IFF_PROMISC) {
		DBG(2, "%s: RCR_PRMS\n", dev->name);
		lp->rcr_cur_mode |= RCR_PRMS;
	}

/* BUG?  I never disable promiscuous mode if multicasting was turned on.
   Now, I turn off promiscuous mode, but I don't do anything to multicasting
   when promiscuous mode is turned on.
*/

	/*
	 * Here, I am setting this to accept all multicast packets.
	 * I don't need to zero the multicast table, because the flag is
	 * checked before the table is
	 */
	else if (dev->flags & IFF_ALLMULTI || dev->mc_count > 16) {
		DBG(2, "%s: RCR_ALMUL\n", dev->name);
		lp->rcr_cur_mode |= RCR_ALMUL;
	}

	/*
	 * This sets the internal hardware table to filter out unwanted
	 * multicast packets before they take up memory.
	 *
	 * The SMC chip uses a hash table where the high 6 bits of the CRC of
	 * address are the offset into the table.  If that bit is 1, then the
	 * multicast packet is accepted.  Otherwise, it's dropped silently.
	 *
	 * To use the 6 bits as an offset into the table, the high 3 bits are
	 * the number of the 8 bit register, while the low 3 bits are the bit
	 * within that register.
	 */
	else if (dev->mc_count)  {
		int i;
		struct dev_mc_list *cur_addr;

		/* table for flipping the order of 3 bits */
		static const unsigned char invert3[] = {0, 4, 2, 6, 1, 5, 3, 7};

		/* start with a table of all zeros: reject all */
		memset(multicast_table, 0, sizeof(multicast_table));

		cur_addr = dev->mc_list;
		for (i = 0; i < dev->mc_count; i++, cur_addr = cur_addr->next) {
			int position;

			/* do we have a pointer here? */
			if (!cur_addr)
				break;
			/* make sure this is a multicast address -
		   	   shouldn't this be a given if we have it here ? */
			if (!(*cur_addr->dmi_addr & 1))
				continue;

			/* only use the low order bits */
			position = crc32_le(~0, cur_addr->dmi_addr, 6) & 0x3f;

			/* do some messy swapping to put the bit in the right spot */
			multicast_table[invert3[position&7]] |=
				(1<<invert3[(position>>3)&7]);
		}

		/* be sure I get rid of flags I might have set */
		lp->rcr_cur_mode &= ~(RCR_PRMS | RCR_ALMUL);

		/* now, the table can be loaded into the chipset */
		update_multicast = 1;
	} else  {
		DBG(2, "%s: ~(RCR_PRMS|RCR_ALMUL)\n", dev->name);
		lp->rcr_cur_mode &= ~(RCR_PRMS | RCR_ALMUL);

		/*
		 * since I'm disabling all multicast entirely, I need to
		 * clear the multicast list
		 */
		memset(multicast_table, 0, sizeof(multicast_table));
		update_multicast = 1;
	}

	spin_lock_irq(&lp->lock);
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	SMC_SELECT_BANK(lp, 0);
	SMC_SET_RCR(lp, lp->rcr_cur_mode);
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	if (update_multicast) {
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		SMC_SELECT_BANK(lp, 3);
		SMC_SET_MCAST(lp, multicast_table);
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	}
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	SMC_SELECT_BANK(lp, 2);
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	spin_unlock_irq(&lp->lock);
}


/*
 * Open and Initialize the board
 *
 * Set up everything, reset the card, etc..
 */
static int
smc_open(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);

	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

	/*
	 * Check that the address is valid.  If its not, refuse
	 * to bring the device up.  The user must specify an
	 * address using ifconfig eth0 hw ether xx:xx:xx:xx:xx:xx
	 */
	if (!is_valid_ether_addr(dev->dev_addr)) {
		PRINTK("%s: no valid ethernet hw addr\n", __FUNCTION__);
		return -EINVAL;
	}

	/* Setup the default Register Modes */
	lp->tcr_cur_mode = TCR_DEFAULT;
	lp->rcr_cur_mode = RCR_DEFAULT;
	lp->rpc_cur_mode = RPC_DEFAULT;

	/*
	 * If we are not using a MII interface, we need to
	 * monitor our own carrier signal to detect faults.
	 */
	if (lp->phy_type == 0)
		lp->tcr_cur_mode |= TCR_MON_CSN;

	/* reset the hardware */
	smc_reset(dev);
	smc_enable(dev);

	/* Configure the PHY, initialize the link state */
	if (lp->phy_type != 0)
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		smc_phy_configure(&lp->phy_configure);
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	else {
		spin_lock_irq(&lp->lock);
		smc_10bt_check_media(dev, 1);
		spin_unlock_irq(&lp->lock);
	}

	netif_start_queue(dev);
	return 0;
}

/*
 * smc_close
 *
 * this makes the board clean up everything that it can
 * and not talk to the outside world.   Caused by
 * an 'ifconfig ethX down'
 */
static int smc_close(struct net_device *dev)
{
	struct smc_local *lp = netdev_priv(dev);

	DBG(2, "%s: %s\n", dev->name, __FUNCTION__);

	netif_stop_queue(dev);
	netif_carrier_off(dev);

	/* clear everything */
	smc_shutdown(dev);
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	tasklet_kill(&lp->tx_task);
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	smc_phy_powerdown(dev);
	return 0;
}

/*
 * Ethtool support
 */
static int
smc_ethtool_getsettings(struct net_device *dev, struct ethtool_cmd *cmd)
{
	struct smc_local *lp = netdev_priv(dev);
	int ret;

	cmd->maxtxpkt = 1;
	cmd->maxrxpkt = 1;

	if (lp->phy_type != 0) {
		spin_lock_irq(&lp->lock);
		ret = mii_ethtool_gset(&lp->mii, cmd);
		spin_unlock_irq(&lp->lock);
	} else {
		cmd->supported = SUPPORTED_10baseT_Half |
				 SUPPORTED_10baseT_Full |
				 SUPPORTED_TP | SUPPORTED_AUI;

		if (lp->ctl_rspeed == 10)
			cmd->speed = SPEED_10;
		else if (lp->ctl_rspeed == 100)
			cmd->speed = SPEED_100;

		cmd->autoneg = AUTONEG_DISABLE;
		cmd->transceiver = XCVR_INTERNAL;
		cmd->port = 0;
		cmd->duplex = lp->tcr_cur_mode & TCR_SWFDUP ? DUPLEX_FULL : DUPLEX_HALF;

		ret = 0;
	}