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path: root/drivers/net/fec.c
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/*
 * Fast Ethernet Controller (FEC) driver for Motorola MPC8xx.
 * Copyright (c) 1997 Dan Malek (dmalek@jlc.net)
 *
 * Right now, I am very wasteful with the buffers.  I allocate memory
 * pages and then divide them into 2K frame buffers.  This way I know I
 * have buffers large enough to hold one frame within one buffer descriptor.
 * Once I get this working, I will use 64 or 128 byte CPM buffers, which
 * will be much more memory efficient and will easily handle lots of
 * small packets.
 *
 * Much better multiple PHY support by Magnus Damm.
 * Copyright (c) 2000 Ericsson Radio Systems AB.
 *
 * Support for FEC controller of ColdFire processors.
 * Copyright (c) 2001-2005 Greg Ungerer (gerg@snapgear.com)
 *
 * Bug fixes and cleanup by Philippe De Muyter (phdm@macqel.be)
 * Copyright (c) 2004-2006 Macq Electronique SA.
 */

#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/string.h>
#include <linux/ptrace.h>
#include <linux/errno.h>
#include <linux/ioport.h>
#include <linux/slab.h>
#include <linux/interrupt.h>
#include <linux/pci.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>
#include <linux/spinlock.h>
#include <linux/workqueue.h>
#include <linux/bitops.h>
#include <linux/io.h>
#include <linux/irq.h>
#include <linux/clk.h>
#include <linux/platform_device.h>

#include <asm/cacheflush.h>

#ifndef CONFIG_ARCH_MXC
#include <asm/coldfire.h>
#include <asm/mcfsim.h>
#endif

#include "fec.h"

#ifdef CONFIG_ARCH_MXC
#include <mach/hardware.h>
#define FEC_ALIGNMENT	0xf
#else
#define FEC_ALIGNMENT	0x3
#endif

/*
 * Define the fixed address of the FEC hardware.
 */
#if defined(CONFIG_M5272)
#define HAVE_mii_link_interrupt

static unsigned char	fec_mac_default[] = {
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
};

/*
 * Some hardware gets it MAC address out of local flash memory.
 * if this is non-zero then assume it is the address to get MAC from.
 */
#if defined(CONFIG_NETtel)
#define	FEC_FLASHMAC	0xf0006006
#elif defined(CONFIG_GILBARCONAP) || defined(CONFIG_SCALES)
#define	FEC_FLASHMAC	0xf0006000
#elif defined(CONFIG_CANCam)
#define	FEC_FLASHMAC	0xf0020000
#elif defined (CONFIG_M5272C3)
#define	FEC_FLASHMAC	(0xffe04000 + 4)
#elif defined(CONFIG_MOD5272)
#define FEC_FLASHMAC 	0xffc0406b
#else
#define	FEC_FLASHMAC	0
#endif
#endif /* CONFIG_M5272 */

/* Forward declarations of some structures to support different PHYs
*/

typedef struct {
	uint mii_data;
	void (*funct)(uint mii_reg, struct net_device *dev);
} phy_cmd_t;

typedef struct {
	uint id;
	char *name;

	const phy_cmd_t *config;
	const phy_cmd_t *startup;
	const phy_cmd_t *ack_int;
	const phy_cmd_t *shutdown;
} phy_info_t;

/* The number of Tx and Rx buffers.  These are allocated from the page
 * pool.  The code may assume these are power of two, so it it best
 * to keep them that size.
 * We don't need to allocate pages for the transmitter.  We just use
 * the skbuffer directly.
 */
#define FEC_ENET_RX_PAGES	8
#define FEC_ENET_RX_FRSIZE	2048
#define FEC_ENET_RX_FRPPG	(PAGE_SIZE / FEC_ENET_RX_FRSIZE)
#define RX_RING_SIZE		(FEC_ENET_RX_FRPPG * FEC_ENET_RX_PAGES)
#define FEC_ENET_TX_FRSIZE	2048
#define FEC_ENET_TX_FRPPG	(PAGE_SIZE / FEC_ENET_TX_FRSIZE)
#define TX_RING_SIZE		16	/* Must be power of two */
#define TX_RING_MOD_MASK	15	/*   for this to work */

#if (((RX_RING_SIZE + TX_RING_SIZE) * 8) > PAGE_SIZE)
#error "FEC: descriptor ring size constants too large"
#endif

/* Interrupt events/masks.
*/
#define FEC_ENET_HBERR	((uint)0x80000000)	/* Heartbeat error */
#define FEC_ENET_BABR	((uint)0x40000000)	/* Babbling receiver */
#define FEC_ENET_BABT	((uint)0x20000000)	/* Babbling transmitter */
#define FEC_ENET_GRA	((uint)0x10000000)	/* Graceful stop complete */
#define FEC_ENET_TXF	((uint)0x08000000)	/* Full frame transmitted */
#define FEC_ENET_TXB	((uint)0x04000000)	/* A buffer was transmitted */
#define FEC_ENET_RXF	((uint)0x02000000)	/* Full frame received */
#define FEC_ENET_RXB	((uint)0x01000000)	/* A buffer was received */
#define FEC_ENET_MII	((uint)0x00800000)	/* MII interrupt */
#define FEC_ENET_EBERR	((uint)0x00400000)	/* SDMA bus error */

/* The FEC stores dest/src/type, data, and checksum for receive packets.
 */
#define PKT_MAXBUF_SIZE		1518
#define PKT_MINBUF_SIZE		64
#define PKT_MAXBLR_SIZE		1520


/*
 * The 5270/5271/5280/5282/532x RX control register also contains maximum frame
 * size bits. Other FEC hardware does not, so we need to take that into
 * account when setting it.
 */
#if defined(CONFIG_M523x) || defined(CONFIG_M527x) || defined(CONFIG_M528x) || \
    defined(CONFIG_M520x) || defined(CONFIG_M532x) || defined(CONFIG_ARCH_MXC)
#define	OPT_FRAME_SIZE	(PKT_MAXBUF_SIZE << 16)
#else
#define	OPT_FRAME_SIZE	0
#endif

/* The FEC buffer descriptors track the ring buffers.  The rx_bd_base and
 * tx_bd_base always point to the base of the buffer descriptors.  The
 * cur_rx and cur_tx point to the currently available buffer.
 * The dirty_tx tracks the current buffer that is being sent by the
 * controller.  The cur_tx and dirty_tx are equal under both completely
 * empty and completely full conditions.  The empty/ready indicator in
 * the buffer descriptor determines the actual condition.
 */
struct fec_enet_private {
	/* Hardware registers of the FEC device */
	void __iomem *hwp;

	struct net_device *netdev;

	struct clk *clk;

	/* The saved address of a sent-in-place packet/buffer, for skfree(). */
	unsigned char *tx_bounce[TX_RING_SIZE];
	struct	sk_buff* tx_skbuff[TX_RING_SIZE];
	ushort	skb_cur;
	ushort	skb_dirty;

	/* CPM dual port RAM relative addresses.
	*/
	dma_addr_t	bd_dma;
	/* Address of Rx and Tx buffers. */
	struct bufdesc	*rx_bd_base;
	struct bufdesc	*tx_bd_base;
	/* The next free ring entry */
	struct bufdesc	*cur_rx, *cur_tx; 
	/* The ring entries to be free()ed. */
	struct bufdesc	*dirty_tx;

	uint	tx_full;
	/* hold while accessing the HW like ringbuffer for tx/rx but not MAC */
	spinlock_t hw_lock;
	/* hold while accessing the mii_list_t() elements */
	spinlock_t mii_lock;

	uint	phy_id;
	uint	phy_id_done;
	uint	phy_status;
	uint	phy_speed;
	phy_info_t const	*phy;
	struct work_struct phy_task;

	uint	sequence_done;
	uint	mii_phy_task_queued;

	uint	phy_addr;

	int	index;
	int	opened;
	int	link;
	int	old_link;
	int	full_duplex;
};

static int fec_enet_open(struct net_device *dev);
static int fec_enet_start_xmit(struct sk_buff *skb, struct net_device *dev);
static void fec_enet_mii(struct net_device *dev);
static irqreturn_t fec_enet_interrupt(int irq, void * dev_id);
static void fec_enet_tx(struct net_device *dev);
static void fec_enet_rx(struct net_device *dev);
static int fec_enet_close(struct net_device *dev);
static void set_multicast_list(struct net_device *dev);
static void fec_restart(struct net_device *dev, int duplex);
static void fec_stop(struct net_device *dev);
static void fec_set_mac_address(struct net_device *dev);


/* MII processing.  We keep this as simple as possible.  Requests are
 * placed on the list (if there is room).  When the request is finished
 * by the MII, an optional function may be called.
 */
typedef struct mii_list {
	uint	mii_regval;
	void	(*mii_func)(uint val, struct net_device *dev);
	struct	mii_list *mii_next;
} mii_list_t;

#define		NMII	20
static mii_list_t	mii_cmds[NMII];
static mii_list_t	*mii_free;
static mii_list_t	*mii_head;
static mii_list_t	*mii_tail;

static int	mii_queue(struct net_device *dev, int request,
				void (*func)(uint, struct net_device *));

/* Make MII read/write commands for the FEC.
*/
#define mk_mii_read(REG)	(0x60020000 | ((REG & 0x1f) << 18))
#define mk_mii_write(REG, VAL)	(0x50020000 | ((REG & 0x1f) << 18) | \
						(VAL & 0xffff))
#define mk_mii_end	0

/* Transmitter timeout.
*/
#define TX_TIMEOUT (2*HZ)

/* Register definitions for the PHY.
*/

#define MII_REG_CR          0  /* Control Register                         */
#define MII_REG_SR          1  /* Status Register                          */
#define MII_REG_PHYIR1      2  /* PHY Identification Register 1            */
#define MII_REG_PHYIR2      3  /* PHY Identification Register 2            */
#define MII_REG_ANAR        4  /* A-N Advertisement Register               */
#define MII_REG_ANLPAR      5  /* A-N Link Partner Ability Register        */
#define MII_REG_ANER        6  /* A-N Expansion Register                   */
#define MII_REG_ANNPTR      7  /* A-N Next Page Transmit Register          */
#define MII_REG_ANLPRNPR    8  /* A-N Link Partner Received Next Page Reg. */

/* values for phy_status */

#define PHY_CONF_ANE	0x0001  /* 1 auto-negotiation enabled */
#define PHY_CONF_LOOP	0x0002  /* 1 loopback mode enabled */
#define PHY_CONF_SPMASK	0x00f0  /* mask for speed */
#define PHY_CONF_10HDX	0x0010  /* 10 Mbit half duplex supported */
#define PHY_CONF_10FDX	0x0020  /* 10 Mbit full duplex supported */
#define PHY_CONF_100HDX	0x0040  /* 100 Mbit half duplex supported */
#define PHY_CONF_100FDX	0x0080  /* 100 Mbit full duplex supported */

#define PHY_STAT_LINK	0x0100  /* 1 up - 0 down */
#define PHY_STAT_FAULT	0x0200  /* 1 remote fault */
#define PHY_STAT_ANC	0x0400  /* 1 auto-negotiation complete	*/
#define PHY_STAT_SPMASK	0xf000  /* mask for speed */
#define PHY_STAT_10HDX	0x1000  /* 10 Mbit half duplex selected	*/
#define PHY_STAT_10FDX	0x2000  /* 10 Mbit full duplex selected	*/
#define PHY_STAT_100HDX	0x4000  /* 100 Mbit half duplex selected */
#define PHY_STAT_100FDX	0x8000  /* 100 Mbit full duplex selected */


static int
fec_enet_start_xmit(struct sk_buff *skb, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	struct bufdesc *bdp;
	unsigned short	status;
	unsigned long flags;

	if (!fep->link) {
		/* Link is down or autonegotiation is in progress. */
		return 1;
	}

	spin_lock_irqsave(&fep->hw_lock, flags);
	/* Fill in a Tx ring entry */
	bdp = fep->cur_tx;

	status = bdp->cbd_sc;
#ifndef final_version
	if (status & BD_ENET_TX_READY) {
		/* Ooops.  All transmit buffers are full.  Bail out.
		 * This should not happen, since dev->tbusy should be set.
		 */
		printk("%s: tx queue full!.\n", dev->name);
		spin_unlock_irqrestore(&fep->hw_lock, flags);
		return 1;
	}
#endif

	/* Clear all of the status flags.
	 */
	status &= ~BD_ENET_TX_STATS;

	/* Set buffer length and buffer pointer.
	*/
	bdp->cbd_bufaddr = __pa(skb->data);
	bdp->cbd_datlen = skb->len;

	/*
	 *	On some FEC implementations data must be aligned on
	 *	4-byte boundaries. Use bounce buffers to copy data
	 *	and get it aligned. Ugh.
	 */
	if (bdp->cbd_bufaddr & FEC_ALIGNMENT) {
		unsigned int index;
		index = bdp - fep->tx_bd_base;
		memcpy(fep->tx_bounce[index], (void *)skb->data, skb->len);
		bdp->cbd_bufaddr = __pa(fep->tx_bounce[index]);
	}

	/* Save skb pointer.
	*/
	fep->tx_skbuff[fep->skb_cur] = skb;

	dev->stats.tx_bytes += skb->len;
	fep->skb_cur = (fep->skb_cur+1) & TX_RING_MOD_MASK;

	/* Push the data cache so the CPM does not get stale memory
	 * data.
	 */
	dma_sync_single(NULL, bdp->cbd_bufaddr,
			bdp->cbd_datlen, DMA_TO_DEVICE);

	/* Send it on its way.  Tell FEC it's ready, interrupt when done,
	 * it's the last BD of the frame, and to put the CRC on the end.
	 */

	status |= (BD_ENET_TX_READY | BD_ENET_TX_INTR
			| BD_ENET_TX_LAST | BD_ENET_TX_TC);
	bdp->cbd_sc = status;

	dev->trans_start = jiffies;

	/* Trigger transmission start */
	writel(0, fep->hwp + FEC_X_DES_ACTIVE);

	/* If this was the last BD in the ring, start at the beginning again.
	*/
	if (status & BD_ENET_TX_WRAP) {
		bdp = fep->tx_bd_base;
	} else {
		bdp++;
	}

	if (bdp == fep->dirty_tx) {
		fep->tx_full = 1;
		netif_stop_queue(dev);
	}

	fep->cur_tx = bdp;

	spin_unlock_irqrestore(&fep->hw_lock, flags);

	return 0;
}

static void
fec_timeout(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);

	printk("%s: transmit timed out.\n", dev->name);
	dev->stats.tx_errors++;
#ifndef final_version
	{
	int	i;
	struct bufdesc *bdp;

	printk("Ring data dump: cur_tx %lx%s, dirty_tx %lx cur_rx: %lx\n",
	       (unsigned long)fep->cur_tx, fep->tx_full ? " (full)" : "",
	       (unsigned long)fep->dirty_tx,
	       (unsigned long)fep->cur_rx);

	bdp = fep->tx_bd_base;
	printk(" tx: %u buffers\n",  TX_RING_SIZE);
	for (i = 0 ; i < TX_RING_SIZE; i++) {
		printk("  %08x: %04x %04x %08x\n",
		       (uint) bdp,
		       bdp->cbd_sc,
		       bdp->cbd_datlen,
		       (int) bdp->cbd_bufaddr);
		bdp++;
	}

	bdp = fep->rx_bd_base;
	printk(" rx: %lu buffers\n",  (unsigned long) RX_RING_SIZE);
	for (i = 0 ; i < RX_RING_SIZE; i++) {
		printk("  %08x: %04x %04x %08x\n",
		       (uint) bdp,
		       bdp->cbd_sc,
		       bdp->cbd_datlen,
		       (int) bdp->cbd_bufaddr);
		bdp++;
	}
	}
#endif
	fec_restart(dev, fep->full_duplex);
	netif_wake_queue(dev);
}

/* The interrupt handler.
 * This is called from the MPC core interrupt.
 */
static irqreturn_t
fec_enet_interrupt(int irq, void * dev_id)
{
	struct	net_device *dev = dev_id;
	struct fec_enet_private *fep = netdev_priv(dev);
	uint	int_events;
	irqreturn_t ret = IRQ_NONE;

	/* Get the interrupt events that caused us to be here. */
	do {
		int_events = readl(fep->hwp + FEC_IEVENT);
		writel(int_events, fep->hwp + FEC_IEVENT);

		/* Handle receive event in its own function. */
		if (int_events & FEC_ENET_RXF) {
			ret = IRQ_HANDLED;
			fec_enet_rx(dev);
		}

		/* Transmit OK, or non-fatal error. Update the buffer
		 * descriptors. FEC handles all errors, we just discover
		 * them as part of the transmit process.
		 */
		if (int_events & FEC_ENET_TXF) {
			ret = IRQ_HANDLED;
			fec_enet_tx(dev);
		}

		if (int_events & FEC_ENET_MII) {
			ret = IRQ_HANDLED;
			fec_enet_mii(dev);
		}

	} while (int_events);

	return ret;
}


static void
fec_enet_tx(struct net_device *dev)
{
	struct	fec_enet_private *fep;
	struct bufdesc *bdp;
	unsigned short status;
	struct	sk_buff	*skb;

	fep = netdev_priv(dev);
	spin_lock_irq(&fep->hw_lock);
	bdp = fep->dirty_tx;

	while (((status = bdp->cbd_sc) & BD_ENET_TX_READY) == 0) {
		if (bdp == fep->cur_tx && fep->tx_full == 0) break;

		skb = fep->tx_skbuff[fep->skb_dirty];
		/* Check for errors. */
		if (status & (BD_ENET_TX_HB | BD_ENET_TX_LC |
				   BD_ENET_TX_RL | BD_ENET_TX_UN |
				   BD_ENET_TX_CSL)) {
			dev->stats.tx_errors++;
			if (status & BD_ENET_TX_HB)  /* No heartbeat */
				dev->stats.tx_heartbeat_errors++;
			if (status & BD_ENET_TX_LC)  /* Late collision */
				dev->stats.tx_window_errors++;
			if (status & BD_ENET_TX_RL)  /* Retrans limit */
				dev->stats.tx_aborted_errors++;
			if (status & BD_ENET_TX_UN)  /* Underrun */
				dev->stats.tx_fifo_errors++;
			if (status & BD_ENET_TX_CSL) /* Carrier lost */
				dev->stats.tx_carrier_errors++;
		} else {
			dev->stats.tx_packets++;
		}

#ifndef final_version
		if (status & BD_ENET_TX_READY)
			printk("HEY! Enet xmit interrupt and TX_READY.\n");
#endif
		/* Deferred means some collisions occurred during transmit,
		 * but we eventually sent the packet OK.
		 */
		if (status & BD_ENET_TX_DEF)
			dev->stats.collisions++;

		/* Free the sk buffer associated with this last transmit.
		 */
		dev_kfree_skb_any(skb);
		fep->tx_skbuff[fep->skb_dirty] = NULL;
		fep->skb_dirty = (fep->skb_dirty + 1) & TX_RING_MOD_MASK;

		/* Update pointer to next buffer descriptor to be transmitted.
		 */
		if (status & BD_ENET_TX_WRAP)
			bdp = fep->tx_bd_base;
		else
			bdp++;

		/* Since we have freed up a buffer, the ring is no longer
		 * full.
		 */
		if (fep->tx_full) {
			fep->tx_full = 0;
			if (netif_queue_stopped(dev))
				netif_wake_queue(dev);
		}
	}
	fep->dirty_tx = bdp;
	spin_unlock_irq(&fep->hw_lock);
}


/* During a receive, the cur_rx points to the current incoming buffer.
 * When we update through the ring, if the next incoming buffer has
 * not been given to the system, we just set the empty indicator,
 * effectively tossing the packet.
 */
static void
fec_enet_rx(struct net_device *dev)
{
	struct	fec_enet_private *fep = netdev_priv(dev);
	struct bufdesc *bdp;
	unsigned short status;
	struct	sk_buff	*skb;
	ushort	pkt_len;
	__u8 *data;

#ifdef CONFIG_M532x
	flush_cache_all();
#endif

	spin_lock_irq(&fep->hw_lock);

	/* First, grab all of the stats for the incoming packet.
	 * These get messed up if we get called due to a busy condition.
	 */
	bdp = fep->cur_rx;

while (!((status = bdp->cbd_sc) & BD_ENET_RX_EMPTY)) {

#ifndef final_version
	/* Since we have allocated space to hold a complete frame,
	 * the last indicator should be set.
	 */
	if ((status & BD_ENET_RX_LAST) == 0)
		printk("FEC ENET: rcv is not +last\n");
#endif

	if (!fep->opened)
		goto rx_processing_done;

	/* Check for errors. */
	if (status & (BD_ENET_RX_LG | BD_ENET_RX_SH | BD_ENET_RX_NO |
			   BD_ENET_RX_CR | BD_ENET_RX_OV)) {
		dev->stats.rx_errors++;
		if (status & (BD_ENET_RX_LG | BD_ENET_RX_SH)) {
		/* Frame too long or too short. */
			dev->stats.rx_length_errors++;
		}
		if (status & BD_ENET_RX_NO)	/* Frame alignment */
			dev->stats.rx_frame_errors++;
		if (status & BD_ENET_RX_CR)	/* CRC Error */
			dev->stats.rx_crc_errors++;
		if (status & BD_ENET_RX_OV)	/* FIFO overrun */
			dev->stats.rx_fifo_errors++;
	}

	/* Report late collisions as a frame error.
	 * On this error, the BD is closed, but we don't know what we
	 * have in the buffer.  So, just drop this frame on the floor.
	 */
	if (status & BD_ENET_RX_CL) {
		dev->stats.rx_errors++;
		dev->stats.rx_frame_errors++;
		goto rx_processing_done;
	}

	/* Process the incoming frame.
	 */
	dev->stats.rx_packets++;
	pkt_len = bdp->cbd_datlen;
	dev->stats.rx_bytes += pkt_len;
	data = (__u8*)__va(bdp->cbd_bufaddr);

	dma_sync_single(NULL, (unsigned long)__pa(data),
			pkt_len - 4, DMA_FROM_DEVICE);

	/* This does 16 byte alignment, exactly what we need.
	 * The packet length includes FCS, but we don't want to
	 * include that when passing upstream as it messes up
	 * bridging applications.
	 */
	skb = dev_alloc_skb(pkt_len-4);

	if (skb == NULL) {
		printk("%s: Memory squeeze, dropping packet.\n", dev->name);
		dev->stats.rx_dropped++;
	} else {
		skb_put(skb,pkt_len-4);	/* Make room */
		skb_copy_to_linear_data(skb, data, pkt_len-4);
		skb->protocol=eth_type_trans(skb,dev);
		netif_rx(skb);
	}
  rx_processing_done:

	/* Clear the status flags for this buffer.
	*/
	status &= ~BD_ENET_RX_STATS;

	/* Mark the buffer empty.
	*/
	status |= BD_ENET_RX_EMPTY;
	bdp->cbd_sc = status;

	/* Update BD pointer to next entry.
	*/
	if (status & BD_ENET_RX_WRAP)
		bdp = fep->rx_bd_base;
	else
		bdp++;

#if 1
	/* Doing this here will keep the FEC running while we process
	 * incoming frames.  On a heavily loaded network, we should be
	 * able to keep up at the expense of system resources.
	 */
	writel(0, fep->hwp + FEC_R_DES_ACTIVE);
#endif
   } /* while (!((status = bdp->cbd_sc) & BD_ENET_RX_EMPTY)) */
	fep->cur_rx = bdp;

#if 0
	/* Doing this here will allow us to process all frames in the
	 * ring before the FEC is allowed to put more there.  On a heavily
	 * loaded network, some frames may be lost.  Unfortunately, this
	 * increases the interrupt overhead since we can potentially work
	 * our way back to the interrupt return only to come right back
	 * here.
	 */
	fecp->fec_r_des_active = 0;
#endif

	spin_unlock_irq(&fep->hw_lock);
}


/* called from interrupt context */
static void
fec_enet_mii(struct net_device *dev)
{
	struct	fec_enet_private *fep;
	mii_list_t	*mip;

	fep = netdev_priv(dev);
	spin_lock_irq(&fep->mii_lock);

	if ((mip = mii_head) == NULL) {
		printk("MII and no head!\n");
		goto unlock;
	}

	if (mip->mii_func != NULL)
		(*(mip->mii_func))(readl(fep->hwp + FEC_MII_DATA), dev);

	mii_head = mip->mii_next;
	mip->mii_next = mii_free;
	mii_free = mip;

	if ((mip = mii_head) != NULL)
		writel(mip->mii_regval, fep->hwp + FEC_MII_DATA);

unlock:
	spin_unlock_irq(&fep->mii_lock);
}

static int
mii_queue(struct net_device *dev, int regval, void (*func)(uint, struct net_device *))
{
	struct fec_enet_private *fep;
	unsigned long	flags;
	mii_list_t	*mip;
	int		retval;

	/* Add PHY address to register command.
	*/
	fep = netdev_priv(dev);
	spin_lock_irqsave(&fep->mii_lock, flags);

	regval |= fep->phy_addr << 23;
	retval = 0;

	if ((mip = mii_free) != NULL) {
		mii_free = mip->mii_next;
		mip->mii_regval = regval;
		mip->mii_func = func;
		mip->mii_next = NULL;
		if (mii_head) {
			mii_tail->mii_next = mip;
			mii_tail = mip;
		} else {
			mii_head = mii_tail = mip;
			writel(regval, fep->hwp + FEC_MII_DATA);
		}
	} else {
		retval = 1;
	}

	spin_unlock_irqrestore(&fep->mii_lock, flags);
	return retval;
}

static void mii_do_cmd(struct net_device *dev, const phy_cmd_t *c)
{
	if(!c)
		return;

	for (; c->mii_data != mk_mii_end; c++)
		mii_queue(dev, c->mii_data, c->funct);
}

static void mii_parse_sr(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);
	uint status;

	status = *s & ~(PHY_STAT_LINK | PHY_STAT_FAULT | PHY_STAT_ANC);

	if (mii_reg & 0x0004)
		status |= PHY_STAT_LINK;
	if (mii_reg & 0x0010)
		status |= PHY_STAT_FAULT;
	if (mii_reg & 0x0020)
		status |= PHY_STAT_ANC;
	*s = status;
}

static void mii_parse_cr(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);
	uint status;

	status = *s & ~(PHY_CONF_ANE | PHY_CONF_LOOP);

	if (mii_reg & 0x1000)
		status |= PHY_CONF_ANE;
	if (mii_reg & 0x4000)
		status |= PHY_CONF_LOOP;
	*s = status;
}

static void mii_parse_anar(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);
	uint status;

	status = *s & ~(PHY_CONF_SPMASK);

	if (mii_reg & 0x0020)
		status |= PHY_CONF_10HDX;
	if (mii_reg & 0x0040)
		status |= PHY_CONF_10FDX;
	if (mii_reg & 0x0080)
		status |= PHY_CONF_100HDX;
	if (mii_reg & 0x00100)
		status |= PHY_CONF_100FDX;
	*s = status;
}

/* ------------------------------------------------------------------------- */
/* The Level one LXT970 is used by many boards				     */

#define MII_LXT970_MIRROR    16  /* Mirror register           */
#define MII_LXT970_IER       17  /* Interrupt Enable Register */
#define MII_LXT970_ISR       18  /* Interrupt Status Register */
#define MII_LXT970_CONFIG    19  /* Configuration Register    */
#define MII_LXT970_CSR       20  /* Chip Status Register      */

static void mii_parse_lxt970_csr(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);
	uint status;

	status = *s & ~(PHY_STAT_SPMASK);
	if (mii_reg & 0x0800) {
		if (mii_reg & 0x1000)
			status |= PHY_STAT_100FDX;
		else
			status |= PHY_STAT_100HDX;
	} else {
		if (mii_reg & 0x1000)
			status |= PHY_STAT_10FDX;
		else
			status |= PHY_STAT_10HDX;
	}
	*s = status;
}

static phy_cmd_t const phy_cmd_lxt970_config[] = {
		{ mk_mii_read(MII_REG_CR), mii_parse_cr },
		{ mk_mii_read(MII_REG_ANAR), mii_parse_anar },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_lxt970_startup[] = { /* enable interrupts */
		{ mk_mii_write(MII_LXT970_IER, 0x0002), NULL },
		{ mk_mii_write(MII_REG_CR, 0x1200), NULL }, /* autonegotiate */
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_lxt970_ack_int[] = {
		/* read SR and ISR to acknowledge */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_read(MII_LXT970_ISR), NULL },

		/* find out the current status */
		{ mk_mii_read(MII_LXT970_CSR), mii_parse_lxt970_csr },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_lxt970_shutdown[] = { /* disable interrupts */
		{ mk_mii_write(MII_LXT970_IER, 0x0000), NULL },
		{ mk_mii_end, }
	};
static phy_info_t const phy_info_lxt970 = {
	.id = 0x07810000,
	.name = "LXT970",
	.config = phy_cmd_lxt970_config,
	.startup = phy_cmd_lxt970_startup,
	.ack_int = phy_cmd_lxt970_ack_int,
	.shutdown = phy_cmd_lxt970_shutdown
};

/* ------------------------------------------------------------------------- */
/* The Level one LXT971 is used on some of my custom boards                  */

/* register definitions for the 971 */

#define MII_LXT971_PCR       16  /* Port Control Register     */
#define MII_LXT971_SR2       17  /* Status Register 2         */
#define MII_LXT971_IER       18  /* Interrupt Enable Register */
#define MII_LXT971_ISR       19  /* Interrupt Status Register */
#define MII_LXT971_LCR       20  /* LED Control Register      */
#define MII_LXT971_TCR       30  /* Transmit Control Register */

/*
 * I had some nice ideas of running the MDIO faster...
 * The 971 should support 8MHz and I tried it, but things acted really
 * weird, so 2.5 MHz ought to be enough for anyone...
 */

static void mii_parse_lxt971_sr2(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);
	uint status;

	status = *s & ~(PHY_STAT_SPMASK | PHY_STAT_LINK | PHY_STAT_ANC);

	if (mii_reg & 0x0400) {
		fep->link = 1;
		status |= PHY_STAT_LINK;
	} else {
		fep->link = 0;
	}
	if (mii_reg & 0x0080)
		status |= PHY_STAT_ANC;
	if (mii_reg & 0x4000) {
		if (mii_reg & 0x0200)
			status |= PHY_STAT_100FDX;
		else
			status |= PHY_STAT_100HDX;
	} else {
		if (mii_reg & 0x0200)
			status |= PHY_STAT_10FDX;
		else
			status |= PHY_STAT_10HDX;
	}
	if (mii_reg & 0x0008)
		status |= PHY_STAT_FAULT;

	*s = status;
}

static phy_cmd_t const phy_cmd_lxt971_config[] = {
		/* limit to 10MBit because my prototype board
		 * doesn't work with 100. */
		{ mk_mii_read(MII_REG_CR), mii_parse_cr },
		{ mk_mii_read(MII_REG_ANAR), mii_parse_anar },
		{ mk_mii_read(MII_LXT971_SR2), mii_parse_lxt971_sr2 },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_lxt971_startup[] = {  /* enable interrupts */
		{ mk_mii_write(MII_LXT971_IER, 0x00f2), NULL },
		{ mk_mii_write(MII_REG_CR, 0x1200), NULL }, /* autonegotiate */
		{ mk_mii_write(MII_LXT971_LCR, 0xd422), NULL }, /* LED config */
		/* Somehow does the 971 tell me that the link is down
		 * the first read after power-up.
		 * read here to get a valid value in ack_int */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_lxt971_ack_int[] = {
		/* acknowledge the int before reading status ! */
		{ mk_mii_read(MII_LXT971_ISR), NULL },
		/* find out the current status */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_read(MII_LXT971_SR2), mii_parse_lxt971_sr2 },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_lxt971_shutdown[] = { /* disable interrupts */
		{ mk_mii_write(MII_LXT971_IER, 0x0000), NULL },
		{ mk_mii_end, }
	};
static phy_info_t const phy_info_lxt971 = {
	.id = 0x0001378e,
	.name = "LXT971",
	.config = phy_cmd_lxt971_config,
	.startup = phy_cmd_lxt971_startup,
	.ack_int = phy_cmd_lxt971_ack_int,
	.shutdown = phy_cmd_lxt971_shutdown
};

/* ------------------------------------------------------------------------- */
/* The Quality Semiconductor QS6612 is used on the RPX CLLF                  */

/* register definitions */

#define MII_QS6612_MCR       17  /* Mode Control Register      */
#define MII_QS6612_FTR       27  /* Factory Test Register      */
#define MII_QS6612_MCO       28  /* Misc. Control Register     */
#define MII_QS6612_ISR       29  /* Interrupt Source Register  */
#define MII_QS6612_IMR       30  /* Interrupt Mask Register    */
#define MII_QS6612_PCR       31  /* 100BaseTx PHY Control Reg. */

static void mii_parse_qs6612_pcr(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);
	uint status;

	status = *s & ~(PHY_STAT_SPMASK);

	switch((mii_reg >> 2) & 7) {
	case 1: status |= PHY_STAT_10HDX; break;
	case 2: status |= PHY_STAT_100HDX; break;
	case 5: status |= PHY_STAT_10FDX; break;
	case 6: status |= PHY_STAT_100FDX; break;
}

	*s = status;
}

static phy_cmd_t const phy_cmd_qs6612_config[] = {
		/* The PHY powers up isolated on the RPX,
		 * so send a command to allow operation.
		 */
		{ mk_mii_write(MII_QS6612_PCR, 0x0dc0), NULL },

		/* parse cr and anar to get some info */
		{ mk_mii_read(MII_REG_CR), mii_parse_cr },
		{ mk_mii_read(MII_REG_ANAR), mii_parse_anar },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_qs6612_startup[] = {  /* enable interrupts */
		{ mk_mii_write(MII_QS6612_IMR, 0x003a), NULL },
		{ mk_mii_write(MII_REG_CR, 0x1200), NULL }, /* autonegotiate */
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_qs6612_ack_int[] = {
		/* we need to read ISR, SR and ANER to acknowledge */
		{ mk_mii_read(MII_QS6612_ISR), NULL },
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_read(MII_REG_ANER), NULL },

		/* read pcr to get info */
		{ mk_mii_read(MII_QS6612_PCR), mii_parse_qs6612_pcr },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_qs6612_shutdown[] = { /* disable interrupts */
		{ mk_mii_write(MII_QS6612_IMR, 0x0000), NULL },
		{ mk_mii_end, }
	};
static phy_info_t const phy_info_qs6612 = {
	.id = 0x00181440,
	.name = "QS6612",
	.config = phy_cmd_qs6612_config,
	.startup = phy_cmd_qs6612_startup,
	.ack_int = phy_cmd_qs6612_ack_int,
	.shutdown = phy_cmd_qs6612_shutdown
};

/* ------------------------------------------------------------------------- */
/* AMD AM79C874 phy                                                          */

/* register definitions for the 874 */

#define MII_AM79C874_MFR       16  /* Miscellaneous Feature Register */
#define MII_AM79C874_ICSR      17  /* Interrupt/Status Register      */
#define MII_AM79C874_DR        18  /* Diagnostic Register            */
#define MII_AM79C874_PMLR      19  /* Power and Loopback Register    */
#define MII_AM79C874_MCR       21  /* ModeControl Register           */
#define MII_AM79C874_DC        23  /* Disconnect Counter             */
#define MII_AM79C874_REC       24  /* Recieve Error Counter          */

static void mii_parse_am79c874_dr(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);
	uint status;

	status = *s & ~(PHY_STAT_SPMASK | PHY_STAT_ANC);

	if (mii_reg & 0x0080)
		status |= PHY_STAT_ANC;
	if (mii_reg & 0x0400)
		status |= ((mii_reg & 0x0800) ? PHY_STAT_100FDX : PHY_STAT_100HDX);
	else
		status |= ((mii_reg & 0x0800) ? PHY_STAT_10FDX : PHY_STAT_10HDX);

	*s = status;
}

static phy_cmd_t const phy_cmd_am79c874_config[] = {
		{ mk_mii_read(MII_REG_CR), mii_parse_cr },
		{ mk_mii_read(MII_REG_ANAR), mii_parse_anar },
		{ mk_mii_read(MII_AM79C874_DR), mii_parse_am79c874_dr },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_am79c874_startup[] = {  /* enable interrupts */
		{ mk_mii_write(MII_AM79C874_ICSR, 0xff00), NULL },
		{ mk_mii_write(MII_REG_CR, 0x1200), NULL }, /* autonegotiate */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_am79c874_ack_int[] = {
		/* find out the current status */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_read(MII_AM79C874_DR), mii_parse_am79c874_dr },
		/* we only need to read ISR to acknowledge */
		{ mk_mii_read(MII_AM79C874_ICSR), NULL },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_am79c874_shutdown[] = { /* disable interrupts */
		{ mk_mii_write(MII_AM79C874_ICSR, 0x0000), NULL },
		{ mk_mii_end, }
	};
static phy_info_t const phy_info_am79c874 = {
	.id = 0x00022561,
	.name = "AM79C874",
	.config = phy_cmd_am79c874_config,
	.startup = phy_cmd_am79c874_startup,
	.ack_int = phy_cmd_am79c874_ack_int,
	.shutdown = phy_cmd_am79c874_shutdown
};


/* ------------------------------------------------------------------------- */
/* Kendin KS8721BL phy                                                       */

/* register definitions for the 8721 */

#define MII_KS8721BL_RXERCR	21
#define MII_KS8721BL_ICSR	27
#define	MII_KS8721BL_PHYCR	31

static phy_cmd_t const phy_cmd_ks8721bl_config[] = {
		{ mk_mii_read(MII_REG_CR), mii_parse_cr },
		{ mk_mii_read(MII_REG_ANAR), mii_parse_anar },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_ks8721bl_startup[] = {  /* enable interrupts */
		{ mk_mii_write(MII_KS8721BL_ICSR, 0xff00), NULL },
		{ mk_mii_write(MII_REG_CR, 0x1200), NULL }, /* autonegotiate */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_ks8721bl_ack_int[] = {
		/* find out the current status */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		/* we only need to read ISR to acknowledge */
		{ mk_mii_read(MII_KS8721BL_ICSR), NULL },
		{ mk_mii_end, }
	};
static phy_cmd_t const phy_cmd_ks8721bl_shutdown[] = { /* disable interrupts */
		{ mk_mii_write(MII_KS8721BL_ICSR, 0x0000), NULL },
		{ mk_mii_end, }
	};
static phy_info_t const phy_info_ks8721bl = {
	.id = 0x00022161,
	.name = "KS8721BL",
	.config = phy_cmd_ks8721bl_config,
	.startup = phy_cmd_ks8721bl_startup,
	.ack_int = phy_cmd_ks8721bl_ack_int,
	.shutdown = phy_cmd_ks8721bl_shutdown
};

/* ------------------------------------------------------------------------- */
/* register definitions for the DP83848 */

#define MII_DP8384X_PHYSTST    16  /* PHY Status Register */

static void mii_parse_dp8384x_sr2(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);

	*s &= ~(PHY_STAT_SPMASK | PHY_STAT_LINK | PHY_STAT_ANC);

	/* Link up */
	if (mii_reg & 0x0001) {
		fep->link = 1;
		*s |= PHY_STAT_LINK;
	} else
		fep->link = 0;
	/* Status of link */
	if (mii_reg & 0x0010)   /* Autonegotioation complete */
		*s |= PHY_STAT_ANC;
	if (mii_reg & 0x0002) {   /* 10MBps? */
		if (mii_reg & 0x0004)   /* Full Duplex? */
			*s |= PHY_STAT_10FDX;
		else
			*s |= PHY_STAT_10HDX;
	} else {                  /* 100 Mbps? */
		if (mii_reg & 0x0004)   /* Full Duplex? */
			*s |= PHY_STAT_100FDX;
		else
			*s |= PHY_STAT_100HDX;
	}
	if (mii_reg & 0x0008)
		*s |= PHY_STAT_FAULT;
}

static phy_info_t phy_info_dp83848= {
	0x020005c9,
	"DP83848",

	(const phy_cmd_t []) {  /* config */
		{ mk_mii_read(MII_REG_CR), mii_parse_cr },
		{ mk_mii_read(MII_REG_ANAR), mii_parse_anar },
		{ mk_mii_read(MII_DP8384X_PHYSTST), mii_parse_dp8384x_sr2 },
		{ mk_mii_end, }
	},
	(const phy_cmd_t []) {  /* startup - enable interrupts */
		{ mk_mii_write(MII_REG_CR, 0x1200), NULL }, /* autonegotiate */
		{ mk_mii_read(MII_REG_SR), mii_parse_sr },
		{ mk_mii_end, }
	},
	(const phy_cmd_t []) { /* ack_int - never happens, no interrupt */
		{ mk_mii_end, }
	},
	(const phy_cmd_t []) {  /* shutdown */
		{ mk_mii_end, }
	},
};

/* ------------------------------------------------------------------------- */

static phy_info_t const * const phy_info[] = {
	&phy_info_lxt970,
	&phy_info_lxt971,
	&phy_info_qs6612,
	&phy_info_am79c874,
	&phy_info_ks8721bl,
	&phy_info_dp83848,
	NULL
};

/* ------------------------------------------------------------------------- */
#ifdef HAVE_mii_link_interrupt
static irqreturn_t
mii_link_interrupt(int irq, void * dev_id);

/*
 *	This is specific to the MII interrupt setup of the M5272EVB.
 */
static void __inline__ fec_request_mii_intr(struct net_device *dev)
{
	if (request_irq(66, mii_link_interrupt, IRQF_DISABLED, "fec(MII)", dev) != 0)
		printk("FEC: Could not allocate fec(MII) IRQ(66)!\n");
}

static void __inline__ fec_disable_phy_intr(void)
{
	volatile unsigned long *icrp;
	icrp = (volatile unsigned long *) (MCF_MBAR + MCFSIM_ICR1);
	*icrp = 0x08000000;
}

static void __inline__ fec_phy_ack_intr(void)
{
	volatile unsigned long *icrp;
	/* Acknowledge the interrupt */
	icrp = (volatile unsigned long *) (MCF_MBAR + MCFSIM_ICR1);
	*icrp = 0x0d000000;
}

#ifdef CONFIG_M5272
static void __inline__ fec_get_mac(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	unsigned char *iap, tmpaddr[ETH_ALEN];

	if (FEC_FLASHMAC) {
		/*
		 * Get MAC address from FLASH.
		 * If it is all 1's or 0's, use the default.
		 */
		iap = (unsigned char *)FEC_FLASHMAC;
		if ((iap[0] == 0) && (iap[1] == 0) && (iap[2] == 0) &&
		    (iap[3] == 0) && (iap[4] == 0) && (iap[5] == 0))
			iap = fec_mac_default;
		if ((iap[0] == 0xff) && (iap[1] == 0xff) && (iap[2] == 0xff) &&
		    (iap[3] == 0xff) && (iap[4] == 0xff) && (iap[5] == 0xff))
			iap = fec_mac_default;
	} else {
		*((unsigned long *) &tmpaddr[0]) = readl(fep->hwp + FEC_ADDR_LOW);
		*((unsigned short *) &tmpaddr[4]) = (readl(fep->hwp + FEC_ADDR_HIGH) >> 16);
		iap = &tmpaddr[0];
	}

	memcpy(dev->dev_addr, iap, ETH_ALEN);

	/* Adjust MAC if using default MAC address */
	if (iap == fec_mac_default)
		 dev->dev_addr[ETH_ALEN-1] = fec_mac_default[ETH_ALEN-1] + fep->index;
}
#endif

/* ------------------------------------------------------------------------- */

static void mii_display_status(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	volatile uint *s = &(fep->phy_status);

	if (!fep->link && !fep->old_link) {
		/* Link is still down - don't print anything */
		return;
	}

	printk("%s: status: ", dev->name);

	if (!fep->link) {
		printk("link down");
	} else {
		printk("link up");

		switch(*s & PHY_STAT_SPMASK) {
		case PHY_STAT_100FDX: printk(", 100MBit Full Duplex"); break;
		case PHY_STAT_100HDX: printk(", 100MBit Half Duplex"); break;
		case PHY_STAT_10FDX: printk(", 10MBit Full Duplex"); break;
		case PHY_STAT_10HDX: printk(", 10MBit Half Duplex"); break;
		default:
			printk(", Unknown speed/duplex");
		}

		if (*s & PHY_STAT_ANC)
			printk(", auto-negotiation complete");
	}

	if (*s & PHY_STAT_FAULT)
		printk(", remote fault");

	printk(".\n");
}

static void mii_display_config(struct work_struct *work)
{
	struct fec_enet_private *fep = container_of(work, struct fec_enet_private, phy_task);
	struct net_device *dev = fep->netdev;
	uint status = fep->phy_status;

	/*
	** When we get here, phy_task is already removed from
	** the workqueue.  It is thus safe to allow to reuse it.
	*/
	fep->mii_phy_task_queued = 0;
	printk("%s: config: auto-negotiation ", dev->name);

	if (status & PHY_CONF_ANE)
		printk("on");
	else
		printk("off");

	if (status & PHY_CONF_100FDX)
		printk(", 100FDX");
	if (status & PHY_CONF_100HDX)
		printk(", 100HDX");
	if (status & PHY_CONF_10FDX)
		printk(", 10FDX");
	if (status & PHY_CONF_10HDX)
		printk(", 10HDX");
	if (!(status & PHY_CONF_SPMASK))
		printk(", No speed/duplex selected?");

	if (status & PHY_CONF_LOOP)
		printk(", loopback enabled");

	printk(".\n");

	fep->sequence_done = 1;
}

static void mii_relink(struct work_struct *work)
{
	struct fec_enet_private *fep = container_of(work, struct fec_enet_private, phy_task);
	struct net_device *dev = fep->netdev;
	int duplex;

	/*
	** When we get here, phy_task is already removed from
	** the workqueue.  It is thus safe to allow to reuse it.
	*/
	fep->mii_phy_task_queued = 0;
	fep->link = (fep->phy_status & PHY_STAT_LINK) ? 1 : 0;
	mii_display_status(dev);
	fep->old_link = fep->link;

	if (fep->link) {
		duplex = 0;
		if (fep->phy_status
		    & (PHY_STAT_100FDX | PHY_STAT_10FDX))
			duplex = 1;
		fec_restart(dev, duplex);
	} else
		fec_stop(dev);

#if 0
	enable_irq(fep->mii_irq);
#endif

}

/* mii_queue_relink is called in interrupt context from mii_link_interrupt */
static void mii_queue_relink(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);

	/*
	** We cannot queue phy_task twice in the workqueue.  It
	** would cause an endless loop in the workqueue.
	** Fortunately, if the last mii_relink entry has not yet been
	** executed now, it will do the job for the current interrupt,
	** which is just what we want.
	*/
	if (fep->mii_phy_task_queued)
		return;

	fep->mii_phy_task_queued = 1;
	INIT_WORK(&fep->phy_task, mii_relink);
	schedule_work(&fep->phy_task);
}

/* mii_queue_config is called in interrupt context from fec_enet_mii */
static void mii_queue_config(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);

	if (fep->mii_phy_task_queued)
		return;

	fep->mii_phy_task_queued = 1;
	INIT_WORK(&fep->phy_task, mii_display_config);
	schedule_work(&fep->phy_task);
}

phy_cmd_t const phy_cmd_relink[] = {
	{ mk_mii_read(MII_REG_CR), mii_queue_relink },
	{ mk_mii_end, }
	};
phy_cmd_t const phy_cmd_config[] = {
	{ mk_mii_read(MII_REG_CR), mii_queue_config },
	{ mk_mii_end, }
	};

/* Read remainder of PHY ID.
*/
static void
mii_discover_phy3(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep;
	int i;

	fep = netdev_priv(dev);
	fep->phy_id |= (mii_reg & 0xffff);
	printk("fec: PHY @ 0x%x, ID 0x%08x", fep->phy_addr, fep->phy_id);

	for(i = 0; phy_info[i]; i++) {
		if(phy_info[i]->id == (fep->phy_id >> 4))
			break;
	}

	if (phy_info[i])
		printk(" -- %s\n", phy_info[i]->name);
	else
		printk(" -- unknown PHY!\n");

	fep->phy = phy_info[i];
	fep->phy_id_done = 1;
}

/* Scan all of the MII PHY addresses looking for someone to respond
 * with a valid ID.  This usually happens quickly.
 */
static void
mii_discover_phy(uint mii_reg, struct net_device *dev)
{
	struct fec_enet_private *fep;
	uint phytype;

	fep = netdev_priv(dev);

	if (fep->phy_addr < 32) {
		if ((phytype = (mii_reg & 0xffff)) != 0xffff && phytype != 0) {

			/* Got first part of ID, now get remainder.
			*/
			fep->phy_id = phytype << 16;
			mii_queue(dev, mk_mii_read(MII_REG_PHYIR2),
							mii_discover_phy3);
		} else {
			fep->phy_addr++;
			mii_queue(dev, mk_mii_read(MII_REG_PHYIR1),
							mii_discover_phy);
		}
	} else {
		printk("FEC: No PHY device found.\n");
		/* Disable external MII interface */
		writel(0, fep->hwp + FEC_MII_SPEED);
		fep->phy_speed = 0;
#ifdef HAVE_mii_link_interrupt
		fec_disable_phy_intr();
#endif
	}
}

/* This interrupt occurs when the PHY detects a link change.
*/
#ifdef HAVE_mii_link_interrupt
static irqreturn_t
mii_link_interrupt(int irq, void * dev_id)
{
	struct	net_device *dev = dev_id;
	struct fec_enet_private *fep = netdev_priv(dev);

	fec_phy_ack_intr();

#if 0
	disable_irq(fep->mii_irq);  /* disable now, enable later */
#endif

	mii_do_cmd(dev, fep->phy->ack_int);
	mii_do_cmd(dev, phy_cmd_relink);  /* restart and display status */

	return IRQ_HANDLED;
}
#endif

static int
fec_enet_open(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);

	/* I should reset the ring buffers here, but I don't yet know
	 * a simple way to do that.
	 */
	fec_set_mac_address(dev);

	fep->sequence_done = 0;
	fep->link = 0;

	if (fep->phy) {
		mii_do_cmd(dev, fep->phy->ack_int);
		mii_do_cmd(dev, fep->phy->config);
		mii_do_cmd(dev, phy_cmd_config);  /* display configuration */

		/* Poll until the PHY tells us its configuration
		 * (not link state).
		 * Request is initiated by mii_do_cmd above, but answer
		 * comes by interrupt.
		 * This should take about 25 usec per register at 2.5 MHz,
		 * and we read approximately 5 registers.
		 */
		while(!fep->sequence_done)
			schedule();

		mii_do_cmd(dev, fep->phy->startup);

		/* Set the initial link state to true. A lot of hardware
		 * based on this device does not implement a PHY interrupt,
		 * so we are never notified of link change.
		 */
		fep->link = 1;
	} else {
		fep->link = 1; /* lets just try it and see */
		/* no phy,  go full duplex,  it's most likely a hub chip */
		fec_restart(dev, 1);
	}

	netif_start_queue(dev);
	fep->opened = 1;
	return 0;		/* Success */
}

static int
fec_enet_close(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);

	/* Don't know what to do yet.
	*/
	fep->opened = 0;
	netif_stop_queue(dev);
	fec_stop(dev);

	return 0;
}

/* Set or clear the multicast filter for this adaptor.
 * Skeleton taken from sunlance driver.
 * The CPM Ethernet implementation allows Multicast as well as individual
 * MAC address filtering.  Some of the drivers check to make sure it is
 * a group multicast address, and discard those that are not.  I guess I
 * will do the same for now, but just remove the test if you want
 * individual filtering as well (do the upper net layers want or support
 * this kind of feature?).
 */

#define HASH_BITS	6		/* #bits in hash */
#define CRC32_POLY	0xEDB88320

static void set_multicast_list(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	struct dev_mc_list *dmi;
	unsigned int i, j, bit, data, crc, tmp;
	unsigned char hash;

	if (dev->flags&IFF_PROMISC) {
		tmp = readl(fep->hwp + FEC_R_CNTRL);
		tmp |= 0x8;
		writel(tmp, fep->hwp + FEC_R_CNTRL);
	} else {
		tmp = readl(fep->hwp + FEC_R_CNTRL);
		tmp &= ~0x8;
		writel(tmp, fep->hwp + FEC_R_CNTRL);

		if (dev->flags & IFF_ALLMULTI) {
			/* Catch all multicast addresses, so set the
			 * filter to all 1's.
			 */
			writel(0xffffffff, fep->hwp + FEC_GRP_HASH_TABLE_HIGH);
			writel(0xffffffff, fep->hwp + FEC_GRP_HASH_TABLE_LOW);
		} else {
			/* Clear filter and add the addresses in hash register.
			*/
			writel(0, fep->hwp + FEC_GRP_HASH_TABLE_HIGH);
			writel(0, fep->hwp + FEC_GRP_HASH_TABLE_LOW);

			dmi = dev->mc_list;

			for (j = 0; j < dev->mc_count; j++, dmi = dmi->next)
			{
				/* Only support group multicast for now.
				*/
				if (!(dmi->dmi_addr[0] & 1))
					continue;

				/* calculate crc32 value of mac address
				*/
				crc = 0xffffffff;

				for (i = 0; i < dmi->dmi_addrlen; i++)
				{
					data = dmi->dmi_addr[i];
					for (bit = 0; bit < 8; bit++, data >>= 1)
					{
						crc = (crc >> 1) ^
						(((crc ^ data) & 1) ? CRC32_POLY : 0);
					}
				}

				/* only upper 6 bits (HASH_BITS) are used
				   which point to specific bit in he hash registers
				*/
				hash = (crc >> (32 - HASH_BITS)) & 0x3f;

				if (hash > 31) {
					tmp = readl(fep->hwp + FEC_GRP_HASH_TABLE_HIGH);
					tmp |= 1 << (hash - 32);
					writel(tmp, fep->hwp + FEC_GRP_HASH_TABLE_HIGH);
				} else {
					tmp = readl(fep->hwp + FEC_GRP_HASH_TABLE_LOW);
					tmp |= 1 << hash;
					writel(tmp, fep->hwp + FEC_GRP_HASH_TABLE_LOW);
				}
			}
		}
	}
}

/* Set a MAC change in hardware.
 */
static void
fec_set_mac_address(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);

	/* Set station address. */
	writel(dev->dev_addr[3] | (dev->dev_addr[2] << 8) |
		(dev->dev_addr[1] << 16) | (dev->dev_addr[0] << 24),
		fep->hwp + FEC_ADDR_LOW);
	writel((dev->dev_addr[5] << 16) | (dev->dev_addr[4] << 24),
		fep + FEC_ADDR_HIGH);
}

 /*
  * XXX:  We need to clean up on failure exits here.
  *
  * index is only used in legacy code
  */
int __init fec_enet_init(struct net_device *dev, int index)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	unsigned long	mem_addr;
	struct bufdesc *bdp, *cbd_base;
	int 		i, j;

	/* Allocate memory for buffer descriptors.
	*/
	mem_addr = (unsigned long)dma_alloc_coherent(NULL, PAGE_SIZE,
			&fep->bd_dma, GFP_KERNEL);
	if (mem_addr == 0) {
		printk("FEC: allocate descriptor memory failed?\n");
		return -ENOMEM;
	}

	spin_lock_init(&fep->hw_lock);
	spin_lock_init(&fep->mii_lock);

	fep->index = index;
	fep->hwp = (void __iomem *)dev->base_addr;
	fep->netdev = dev;

	/* Whack a reset.  We should wait for this.
	*/
	writel(1, fep->hwp + FEC_ECNTRL);
	udelay(10);

	/* Set the Ethernet address */
#ifdef CONFIG_M5272
	fec_get_mac(dev);
#else
	{
		unsigned long l;
		l = readl(fep->hwp + FEC_ADDR_LOW);
		dev->dev_addr[0] = (unsigned char)((l & 0xFF000000) >> 24);
		dev->dev_addr[1] = (unsigned char)((l & 0x00FF0000) >> 16);
		dev->dev_addr[2] = (unsigned char)((l & 0x0000FF00) >> 8);
		dev->dev_addr[3] = (unsigned char)((l & 0x000000FF) >> 0);
		l = readl(fep->hwp + FEC_ADDR_HIGH);
		dev->dev_addr[4] = (unsigned char)((l & 0xFF000000) >> 24);
		dev->dev_addr[5] = (unsigned char)((l & 0x00FF0000) >> 16);
	}
#endif

	cbd_base = (struct bufdesc *)mem_addr;

	/* Set receive and transmit descriptor base.
	*/
	fep->rx_bd_base = cbd_base;
	fep->tx_bd_base = cbd_base + RX_RING_SIZE;

	fep->dirty_tx = fep->cur_tx = fep->tx_bd_base;
	fep->cur_rx = fep->rx_bd_base;

	fep->skb_cur = fep->skb_dirty = 0;

	/* Initialize the receive buffer descriptors.
	*/
	bdp = fep->rx_bd_base;
	for (i=0; i<FEC_ENET_RX_PAGES; i++) {

		/* Allocate a page.
		*/
		mem_addr = __get_free_page(GFP_KERNEL);
		/* XXX: missing check for allocation failure */

		/* Initialize the BD for every fragment in the page.
		*/
		for (j=0; j<FEC_ENET_RX_FRPPG; j++) {
			bdp->cbd_sc = BD_ENET_RX_EMPTY;
			bdp->cbd_bufaddr = __pa(mem_addr);
			mem_addr += FEC_ENET_RX_FRSIZE;
			bdp++;
		}
	}

	/* Set the last buffer to wrap.
	*/
	bdp--;
	bdp->cbd_sc |= BD_SC_WRAP;

	/* ...and the same for transmmit.
	*/
	bdp = fep->tx_bd_base;
	for (i=0, j=FEC_ENET_TX_FRPPG; i<TX_RING_SIZE; i++) {
		if (j >= FEC_ENET_TX_FRPPG) {
			mem_addr = __get_free_page(GFP_KERNEL);
			j = 1;
		} else {
			mem_addr += FEC_ENET_TX_FRSIZE;
			j++;
		}
		fep->tx_bounce[i] = (unsigned char *) mem_addr;

		/* Initialize the BD for every fragment in the page.
		*/
		bdp->cbd_sc = 0;
		bdp->cbd_bufaddr = 0;
		bdp++;
	}

	/* Set the last buffer to wrap.
	*/
	bdp--;
	bdp->cbd_sc |= BD_SC_WRAP;

	/* Set receive and transmit descriptor base.
	*/
	writel(fep->bd_dma, fep->hwp + FEC_R_DES_START);
	writel((unsigned long)fep->bd_dma + sizeof(struct bufdesc) * RX_RING_SIZE,
			fep->hwp + FEC_X_DES_START);

#ifdef HAVE_mii_link_interrupt
	fec_request_mii_intr(dev);
#endif

	writel(0, fep->hwp + FEC_GRP_HASH_TABLE_HIGH);
	writel(0, fep->hwp + FEC_GRP_HASH_TABLE_LOW);
	writel(PKT_MAXBLR_SIZE, fep->hwp + FEC_R_BUFF_SIZE);
	writel(2, fep->hwp + FEC_ECNTRL);
	writel(0, fep->hwp + FEC_R_DES_ACTIVE);
#ifndef CONFIG_M5272
	writel(0, fep->hwp + FEC_HASH_TABLE_HIGH);
	writel(0, fep->hwp + FEC_HASH_TABLE_LOW);
#endif

	/* The FEC Ethernet specific entries in the device structure. */
	dev->open = fec_enet_open;
	dev->hard_start_xmit = fec_enet_start_xmit;
	dev->tx_timeout = fec_timeout;
	dev->watchdog_timeo = TX_TIMEOUT;
	dev->stop = fec_enet_close;
	dev->set_multicast_list = set_multicast_list;

	for (i=0; i<NMII-1; i++)
		mii_cmds[i].mii_next = &mii_cmds[i+1];
	mii_free = mii_cmds;

	/* setup MII interface */
	writel(OPT_FRAME_SIZE | 0x04, fep->hwp + FEC_R_CNTRL);
	writel(0, fep->hwp + FEC_X_CNTRL);

	/*
	 * Set MII speed to 2.5 MHz
	 */
	fep->phy_speed = ((((clk_get_rate(fep->clk) / 2 + 4999999)
					/ 2500000) / 2) & 0x3F) << 1;
	writel(fep->phy_speed, fep->hwp + FEC_MII_SPEED);
	fec_restart(dev, 0);

	/* Clear and enable interrupts */
	writel(0xffc00000, fep->hwp + FEC_IEVENT);
	writel(FEC_ENET_TXF | FEC_ENET_RXF | FEC_ENET_MII,
			fep->hwp + FEC_IMASK);

	/* Queue up command to detect the PHY and initialize the
	 * remainder of the interface.
	 */
	fep->phy_id_done = 0;
	fep->phy_addr = 0;
	mii_queue(dev, mk_mii_read(MII_REG_PHYIR1), mii_discover_phy);

	return 0;
}

/* This function is called to start or restart the FEC during a link
 * change.  This only happens when switching between half and full
 * duplex.
 */
static void
fec_restart(struct net_device *dev, int duplex)
{
	struct fec_enet_private *fep = netdev_priv(dev);
	struct bufdesc *bdp;
	int i;

	/* Whack a reset.  We should wait for this. */
	writel(1, fep->hwp + FEC_ECNTRL);
	udelay(10);

	/* Clear any outstanding interrupt. */
	writel(0xffc00000, fep->hwp + FEC_IEVENT);

	/* Set station address.	*/
	fec_set_mac_address(dev);

	/* Reset all multicast.	*/
	writel(0, fep->hwp + FEC_GRP_HASH_TABLE_HIGH);
	writel(0, fep->hwp + FEC_GRP_HASH_TABLE_LOW);

	/* Set maximum receive buffer size. */
	writel(PKT_MAXBLR_SIZE, fep->hwp + FEC_R_BUFF_SIZE);

	/* Set receive and transmit descriptor base. */
	writel(fep->bd_dma, fep->hwp + FEC_R_DES_START);
	writel((unsigned long)fep->bd_dma + sizeof(struct bufdesc) * RX_RING_SIZE,
			fep->hwp + FEC_X_DES_START);

	fep->dirty_tx = fep->cur_tx = fep->tx_bd_base;
	fep->cur_rx = fep->rx_bd_base;

	/* Reset SKB transmit buffers. */
	fep->skb_cur = fep->skb_dirty = 0;
	for (i=0; i<=TX_RING_MOD_MASK; i++) {
		if (fep->tx_skbuff[i] != NULL) {
			dev_kfree_skb_any(fep->tx_skbuff[i]);
			fep->tx_skbuff[i] = NULL;
		}
	}

	/* Initialize the receive buffer descriptors. */
	bdp = fep->rx_bd_base;
	for (i=0; i<RX_RING_SIZE; i++) {

		/* Initialize the BD for every fragment in the page. */
		bdp->cbd_sc = BD_ENET_RX_EMPTY;
		bdp++;
	}

	/* Set the last buffer to wrap. */
	bdp--;
	bdp->cbd_sc |= BD_SC_WRAP;

	/* ...and the same for transmmit. */
	bdp = fep->tx_bd_base;
	for (i=0; i<TX_RING_SIZE; i++) {

		/* Initialize the BD for every fragment in the page. */
		bdp->cbd_sc = 0;
		bdp->cbd_bufaddr = 0;
		bdp++;
	}

	/* Set the last buffer to wrap. */
	bdp--;
	bdp->cbd_sc |= BD_SC_WRAP;

	/* Enable MII mode. */
	if (duplex) {
		/* MII enable / FD enable */
		writel(OPT_FRAME_SIZE | 0x04, fep->hwp + FEC_R_CNTRL);
		writel(0x04, fep->hwp + FEC_X_CNTRL);
	} else {
		/* MII enable / No Rcv on Xmit */
		writel(OPT_FRAME_SIZE | 0x06, fep->hwp + FEC_R_CNTRL);
		writel(0x0, fep->hwp + FEC_X_CNTRL);
	}
	fep->full_duplex = duplex;

	/* Set MII speed. */
	writel(fep->phy_speed, fep->hwp + FEC_MII_SPEED);

	/* And last, enable the transmit and receive processing. */
	writel(2, fep->hwp + FEC_ECNTRL);
	writel(0, fep->hwp + FEC_R_DES_ACTIVE);

	/* Enable interrupts we wish to service. */
	writel(FEC_ENET_TXF | FEC_ENET_RXF | FEC_ENET_MII,
			fep->hwp + FEC_IMASK);
}

static void
fec_stop(struct net_device *dev)
{
	struct fec_enet_private *fep = netdev_priv(dev);

	/*
	** We cannot expect a graceful transmit stop without link !!!
	*/
	if (fep->link) {
		writel(1, fep->hwp + FEC_X_CNTRL); /* Graceful transmit stop */
		udelay(10);
		if (!(readl(fep->hwp + FEC_IEVENT) & FEC_ENET_GRA))
			printk("fec_stop : Graceful transmit stop did not complete !\n");
	}

	/* Whack a reset.  We should wait for this. */
	writel(1, fep->hwp + FEC_ECNTRL);
	udelay(10);

	/* Clear outstanding MII command interrupts. */
	writel(FEC_ENET_MII, fep->hwp + FEC_IEVENT);

	writel(FEC_ENET_MII, fep->hwp + FEC_IMASK);
	writel(fep->phy_speed, fep->hwp + FEC_MII_SPEED);
}

static int __devinit
fec_probe(struct platform_device *pdev)
{
	struct fec_enet_private *fep;
	struct net_device *ndev;
	int i, irq, ret = 0;
	struct resource *r;

	r = platform_get_resource(pdev, IORESOURCE_MEM, 0);
	if (!r)
		return -ENXIO;

	r = request_mem_region(r->start, resource_size(r), pdev->name);
	if (!r)
		return -EBUSY;

	/* Init network device */
	ndev = alloc_etherdev(sizeof(struct fec_enet_private));
	if (!ndev)
		return -ENOMEM;

	SET_NETDEV_DEV(ndev, &pdev->dev);

	/* setup board info structure */
	fep = netdev_priv(ndev);
	memset(fep, 0, sizeof(*fep));

	ndev->base_addr = (unsigned long)ioremap(r->start, resource_size(r));

	if (!ndev->base_addr) {
		ret = -ENOMEM;
		goto failed_ioremap;
	}

	platform_set_drvdata(pdev, ndev);

	/* This device has up to three irqs on some platforms */
	for (i = 0; i < 3; i++) {
		irq = platform_get_irq(pdev, i);
		if (i && irq < 0)
			break;
		ret = request_irq(irq, fec_enet_interrupt, IRQF_DISABLED, pdev->name, ndev);
		if (ret) {
			while (i >= 0) {
				irq = platform_get_irq(pdev, i);
				free_irq(irq, ndev);
				i--;
			}
			goto failed_irq;
		}
	}

	fep->clk = clk_get(&pdev->dev, "fec_clk");
	if (IS_ERR(fep->clk)) {
		ret = PTR_ERR(fep->clk);
		goto failed_clk;
	}
	clk_enable(fep->clk);

	ret = fec_enet_init(ndev, 0);
	if (ret)
		goto failed_init;

	ret = register_netdev(ndev);
	if (ret)
		goto failed_register;

	return 0;

failed_register:
failed_init:
	clk_disable(fep->clk);
	clk_put(fep->clk);
failed_clk:
	for (i = 0; i < 3; i++) {
		irq = platform_get_irq(pdev, i);
		if (irq > 0)
			free_irq(irq, ndev);
	}
failed_irq:
	iounmap((void __iomem *)ndev->base_addr);
failed_ioremap:
	free_netdev(ndev);

	return ret;
}

static int __devexit
fec_drv_remove(struct platform_device *pdev)
{
	struct net_device *ndev = platform_get_drvdata(pdev);
	struct fec_enet_private *fep = netdev_priv(ndev);

	platform_set_drvdata(pdev, NULL);

	fec_stop(ndev);
	clk_disable(fep->clk);
	clk_put(fep->clk);
	iounmap((void __iomem *)ndev->base_addr);
	unregister_netdev(ndev);
	free_netdev(ndev);
	return 0;
}

static int
fec_suspend(struct platform_device *dev, pm_message_t state)
{
	struct net_device *ndev = platform_get_drvdata(dev);
	struct fec_enet_private *fep;

	if (ndev) {
		fep = netdev_priv(ndev);
		if (netif_running(ndev)) {
			netif_device_detach(ndev);
			fec_stop(ndev);
		}
	}
	return 0;
}

static int
fec_resume(struct platform_device *dev)
{
	struct net_device *ndev = platform_get_drvdata(dev);

	if (ndev) {
		if (netif_running(ndev)) {
			fec_enet_init(ndev, 0);
			netif_device_attach(ndev);
		}
	}
	return 0;
}

static struct platform_driver fec_driver = {
	.driver	= {
		.name    = "fec",
		.owner	 = THIS_MODULE,
	},
	.probe   = fec_probe,
	.remove  = __devexit_p(fec_drv_remove),
	.suspend = fec_suspend,
	.resume  = fec_resume,
};

static int __init
fec_enet_module_init(void)
{
	printk(KERN_INFO "FEC Ethernet Driver\n");

	return platform_driver_register(&fec_driver);
}

static void __exit
fec_enet_cleanup(void)
{
	platform_driver_unregister(&fec_driver);
}

module_exit(fec_enet_cleanup);
module_init(fec_enet_module_init);

MODULE_LICENSE("GPL");