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path: root/drivers/net/skge.c
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/*
 * New driver for Marvell Yukon chipset and SysKonnect Gigabit
 * Ethernet adapters. Based on earlier sk98lin, e100 and
 * FreeBSD if_sk drivers.
 *
 * This driver intentionally does not support all the features
 * of the original driver such as link fail-over and link management because
 * those should be done at higher levels.
 *
 * Copyright (C) 2004, 2005 Stephen Hemminger <shemminger@osdl.org>
 *
 * 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., 675 Mass Ave, Cambridge, MA 02139, USA.
 */

#include <linux/in.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/moduleparam.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/ethtool.h>
#include <linux/pci.h>
#include <linux/if_vlan.h>
#include <linux/ip.h>
#include <linux/delay.h>
#include <linux/crc32.h>
#include <linux/dma-mapping.h>
#include <linux/mii.h>
#include <asm/irq.h>

#include "skge.h"

#define DRV_NAME		"skge"
#define DRV_VERSION		"1.8"
#define PFX			DRV_NAME " "

#define DEFAULT_TX_RING_SIZE	128
#define DEFAULT_RX_RING_SIZE	512
#define MAX_TX_RING_SIZE	1024
#define TX_LOW_WATER		(MAX_SKB_FRAGS + 1)
#define MAX_RX_RING_SIZE	4096
#define RX_COPY_THRESHOLD	128
#define RX_BUF_SIZE		1536
#define PHY_RETRIES	        1000
#define ETH_JUMBO_MTU		9000
#define TX_WATCHDOG		(5 * HZ)
#define NAPI_WEIGHT		64
#define BLINK_MS		250
#define LINK_HZ			(HZ/2)

MODULE_DESCRIPTION("SysKonnect Gigabit Ethernet driver");
MODULE_AUTHOR("Stephen Hemminger <shemminger@osdl.org>");
MODULE_LICENSE("GPL");
MODULE_VERSION(DRV_VERSION);

static const u32 default_msg
	= NETIF_MSG_DRV| NETIF_MSG_PROBE| NETIF_MSG_LINK
	  | NETIF_MSG_IFUP| NETIF_MSG_IFDOWN;

static int debug = -1;	/* defaults above */
module_param(debug, int, 0);
MODULE_PARM_DESC(debug, "Debug level (0=none,...,16=all)");

static const struct pci_device_id skge_id_table[] = {
	{ PCI_DEVICE(PCI_VENDOR_ID_3COM, PCI_DEVICE_ID_3COM_3C940) },
	{ PCI_DEVICE(PCI_VENDOR_ID_3COM, PCI_DEVICE_ID_3COM_3C940B) },
	{ PCI_DEVICE(PCI_VENDOR_ID_SYSKONNECT, PCI_DEVICE_ID_SYSKONNECT_GE) },
	{ PCI_DEVICE(PCI_VENDOR_ID_SYSKONNECT, PCI_DEVICE_ID_SYSKONNECT_YU) },
	{ PCI_DEVICE(PCI_VENDOR_ID_DLINK, PCI_DEVICE_ID_DLINK_DGE510T), },
	{ PCI_DEVICE(PCI_VENDOR_ID_DLINK, 0x4b01) },	/* DGE-530T */
	{ PCI_DEVICE(PCI_VENDOR_ID_MARVELL, 0x4320) },
	{ PCI_DEVICE(PCI_VENDOR_ID_MARVELL, 0x5005) }, /* Belkin */
	{ PCI_DEVICE(PCI_VENDOR_ID_CNET, PCI_DEVICE_ID_CNET_GIGACARD) },
	{ PCI_DEVICE(PCI_VENDOR_ID_LINKSYS, PCI_DEVICE_ID_LINKSYS_EG1064) },
	{ PCI_VENDOR_ID_LINKSYS, 0x1032, PCI_ANY_ID, 0x0015, },
	{ 0 }
};
MODULE_DEVICE_TABLE(pci, skge_id_table);

static int skge_up(struct net_device *dev);
static int skge_down(struct net_device *dev);
static void skge_phy_reset(struct skge_port *skge);
static void skge_tx_clean(struct net_device *dev);
static int xm_phy_write(struct skge_hw *hw, int port, u16 reg, u16 val);
static int gm_phy_write(struct skge_hw *hw, int port, u16 reg, u16 val);
static void genesis_get_stats(struct skge_port *skge, u64 *data);
static void yukon_get_stats(struct skge_port *skge, u64 *data);
static void yukon_init(struct skge_hw *hw, int port);
static void genesis_mac_init(struct skge_hw *hw, int port);
static void genesis_link_up(struct skge_port *skge);

/* Avoid conditionals by using array */
static const int txqaddr[] = { Q_XA1, Q_XA2 };
static const int rxqaddr[] = { Q_R1, Q_R2 };
static const u32 rxirqmask[] = { IS_R1_F, IS_R2_F };
static const u32 txirqmask[] = { IS_XA1_F, IS_XA2_F };
static const u32 irqmask[] = { IS_R1_F|IS_XA1_F, IS_R2_F|IS_XA2_F };

static int skge_get_regs_len(struct net_device *dev)
{
	return 0x4000;
}

/*
 * Returns copy of whole control register region
 * Note: skip RAM address register because accessing it will
 * 	 cause bus hangs!
 */
static void skge_get_regs(struct net_device *dev, struct ethtool_regs *regs,
			  void *p)
{
	const struct skge_port *skge = netdev_priv(dev);
	const void __iomem *io = skge->hw->regs;

	regs->version = 1;
	memset(p, 0, regs->len);
	memcpy_fromio(p, io, B3_RAM_ADDR);

	memcpy_fromio(p + B3_RI_WTO_R1, io + B3_RI_WTO_R1,
		      regs->len - B3_RI_WTO_R1);
}

/* Wake on Lan only supported on Yukon chips with rev 1 or above */
static int wol_supported(const struct skge_hw *hw)
{
	return !((hw->chip_id == CHIP_ID_GENESIS ||
		  (hw->chip_id == CHIP_ID_YUKON && hw->chip_rev == 0)));
}

static void skge_get_wol(struct net_device *dev, struct ethtool_wolinfo *wol)
{
	struct skge_port *skge = netdev_priv(dev);

	wol->supported = wol_supported(skge->hw) ? WAKE_MAGIC : 0;
	wol->wolopts = skge->wol ? WAKE_MAGIC : 0;
}

static int skge_set_wol(struct net_device *dev, struct ethtool_wolinfo *wol)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;

	if (wol->wolopts != WAKE_MAGIC && wol->wolopts != 0)
		return -EOPNOTSUPP;

	if (wol->wolopts == WAKE_MAGIC && !wol_supported(hw))
		return -EOPNOTSUPP;

	skge->wol = wol->wolopts == WAKE_MAGIC;

	if (skge->wol) {
		memcpy_toio(hw->regs + WOL_MAC_ADDR, dev->dev_addr, ETH_ALEN);

		skge_write16(hw, WOL_CTRL_STAT,
			     WOL_CTL_ENA_PME_ON_MAGIC_PKT |
			     WOL_CTL_ENA_MAGIC_PKT_UNIT);
	} else
		skge_write16(hw, WOL_CTRL_STAT, WOL_CTL_DEFAULT);

	return 0;
}

/* Determine supported/advertised modes based on hardware.
 * Note: ethtool ADVERTISED_xxx == SUPPORTED_xxx
 */
static u32 skge_supported_modes(const struct skge_hw *hw)
{
	u32 supported;

	if (hw->copper) {
		supported = SUPPORTED_10baseT_Half
			| SUPPORTED_10baseT_Full
			| SUPPORTED_100baseT_Half
			| SUPPORTED_100baseT_Full
			| SUPPORTED_1000baseT_Half
			| SUPPORTED_1000baseT_Full
			| SUPPORTED_Autoneg| SUPPORTED_TP;

		if (hw->chip_id == CHIP_ID_GENESIS)
			supported &= ~(SUPPORTED_10baseT_Half
					     | SUPPORTED_10baseT_Full
					     | SUPPORTED_100baseT_Half
					     | SUPPORTED_100baseT_Full);

		else if (hw->chip_id == CHIP_ID_YUKON)
			supported &= ~SUPPORTED_1000baseT_Half;
	} else
		supported = SUPPORTED_1000baseT_Full | SUPPORTED_FIBRE
			| SUPPORTED_Autoneg;

	return supported;
}

static int skge_get_settings(struct net_device *dev,
			     struct ethtool_cmd *ecmd)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;

	ecmd->transceiver = XCVR_INTERNAL;
	ecmd->supported = skge_supported_modes(hw);

	if (hw->copper) {
		ecmd->port = PORT_TP;
		ecmd->phy_address = hw->phy_addr;
	} else
		ecmd->port = PORT_FIBRE;

	ecmd->advertising = skge->advertising;
	ecmd->autoneg = skge->autoneg;
	ecmd->speed = skge->speed;
	ecmd->duplex = skge->duplex;
	return 0;
}

static int skge_set_settings(struct net_device *dev, struct ethtool_cmd *ecmd)
{
	struct skge_port *skge = netdev_priv(dev);
	const struct skge_hw *hw = skge->hw;
	u32 supported = skge_supported_modes(hw);

	if (ecmd->autoneg == AUTONEG_ENABLE) {
		ecmd->advertising = supported;
		skge->duplex = -1;
		skge->speed = -1;
	} else {
		u32 setting;

		switch (ecmd->speed) {
		case SPEED_1000:
			if (ecmd->duplex == DUPLEX_FULL)
				setting = SUPPORTED_1000baseT_Full;
			else if (ecmd->duplex == DUPLEX_HALF)
				setting = SUPPORTED_1000baseT_Half;
			else
				return -EINVAL;
			break;
		case SPEED_100:
			if (ecmd->duplex == DUPLEX_FULL)
				setting = SUPPORTED_100baseT_Full;
			else if (ecmd->duplex == DUPLEX_HALF)
				setting = SUPPORTED_100baseT_Half;
			else
				return -EINVAL;
			break;

		case SPEED_10:
			if (ecmd->duplex == DUPLEX_FULL)
				setting = SUPPORTED_10baseT_Full;
			else if (ecmd->duplex == DUPLEX_HALF)
				setting = SUPPORTED_10baseT_Half;
			else
				return -EINVAL;
			break;
		default:
			return -EINVAL;
		}

		if ((setting & supported) == 0)
			return -EINVAL;

		skge->speed = ecmd->speed;
		skge->duplex = ecmd->duplex;
	}

	skge->autoneg = ecmd->autoneg;
	skge->advertising = ecmd->advertising;

	if (netif_running(dev))
		skge_phy_reset(skge);

	return (0);
}

static void skge_get_drvinfo(struct net_device *dev,
			     struct ethtool_drvinfo *info)
{
	struct skge_port *skge = netdev_priv(dev);

	strcpy(info->driver, DRV_NAME);
	strcpy(info->version, DRV_VERSION);
	strcpy(info->fw_version, "N/A");
	strcpy(info->bus_info, pci_name(skge->hw->pdev));
}

static const struct skge_stat {
	char 	   name[ETH_GSTRING_LEN];
	u16	   xmac_offset;
	u16	   gma_offset;
} skge_stats[] = {
	{ "tx_bytes",		XM_TXO_OK_HI,  GM_TXO_OK_HI },
	{ "rx_bytes",		XM_RXO_OK_HI,  GM_RXO_OK_HI },

	{ "tx_broadcast",	XM_TXF_BC_OK,  GM_TXF_BC_OK },
	{ "rx_broadcast",	XM_RXF_BC_OK,  GM_RXF_BC_OK },
	{ "tx_multicast",	XM_TXF_MC_OK,  GM_TXF_MC_OK },
	{ "rx_multicast",	XM_RXF_MC_OK,  GM_RXF_MC_OK },
	{ "tx_unicast",		XM_TXF_UC_OK,  GM_TXF_UC_OK },
	{ "rx_unicast",		XM_RXF_UC_OK,  GM_RXF_UC_OK },
	{ "tx_mac_pause",	XM_TXF_MPAUSE, GM_TXF_MPAUSE },
	{ "rx_mac_pause",	XM_RXF_MPAUSE, GM_RXF_MPAUSE },

	{ "collisions",		XM_TXF_SNG_COL, GM_TXF_SNG_COL },
	{ "multi_collisions",	XM_TXF_MUL_COL, GM_TXF_MUL_COL },
	{ "aborted",		XM_TXF_ABO_COL, GM_TXF_ABO_COL },
	{ "late_collision",	XM_TXF_LAT_COL, GM_TXF_LAT_COL },
	{ "fifo_underrun",	XM_TXE_FIFO_UR, GM_TXE_FIFO_UR },
	{ "fifo_overflow",	XM_RXE_FIFO_OV, GM_RXE_FIFO_OV },

	{ "rx_toolong",		XM_RXF_LNG_ERR, GM_RXF_LNG_ERR },
	{ "rx_jabber",		XM_RXF_JAB_PKT, GM_RXF_JAB_PKT },
	{ "rx_runt",		XM_RXE_RUNT, 	GM_RXE_FRAG },
	{ "rx_too_long",	XM_RXF_LNG_ERR, GM_RXF_LNG_ERR },
	{ "rx_fcs_error",	XM_RXF_FCS_ERR, GM_RXF_FCS_ERR },
};

static int skge_get_stats_count(struct net_device *dev)
{
	return ARRAY_SIZE(skge_stats);
}

static void skge_get_ethtool_stats(struct net_device *dev,
				   struct ethtool_stats *stats, u64 *data)
{
	struct skge_port *skge = netdev_priv(dev);

	if (skge->hw->chip_id == CHIP_ID_GENESIS)
		genesis_get_stats(skge, data);
	else
		yukon_get_stats(skge, data);
}

/* Use hardware MIB variables for critical path statistics and
 * transmit feedback not reported at interrupt.
 * Other errors are accounted for in interrupt handler.
 */
static struct net_device_stats *skge_get_stats(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	u64 data[ARRAY_SIZE(skge_stats)];

	if (skge->hw->chip_id == CHIP_ID_GENESIS)
		genesis_get_stats(skge, data);
	else
		yukon_get_stats(skge, data);

	skge->net_stats.tx_bytes = data[0];
	skge->net_stats.rx_bytes = data[1];
	skge->net_stats.tx_packets = data[2] + data[4] + data[6];
	skge->net_stats.rx_packets = data[3] + data[5] + data[7];
	skge->net_stats.multicast = data[3] + data[5];
	skge->net_stats.collisions = data[10];
	skge->net_stats.tx_aborted_errors = data[12];

	return &skge->net_stats;
}

static void skge_get_strings(struct net_device *dev, u32 stringset, u8 *data)
{
	int i;

	switch (stringset) {
	case ETH_SS_STATS:
		for (i = 0; i < ARRAY_SIZE(skge_stats); i++)
			memcpy(data + i * ETH_GSTRING_LEN,
			       skge_stats[i].name, ETH_GSTRING_LEN);
		break;
	}
}

static void skge_get_ring_param(struct net_device *dev,
				struct ethtool_ringparam *p)
{
	struct skge_port *skge = netdev_priv(dev);

	p->rx_max_pending = MAX_RX_RING_SIZE;
	p->tx_max_pending = MAX_TX_RING_SIZE;
	p->rx_mini_max_pending = 0;
	p->rx_jumbo_max_pending = 0;

	p->rx_pending = skge->rx_ring.count;
	p->tx_pending = skge->tx_ring.count;
	p->rx_mini_pending = 0;
	p->rx_jumbo_pending = 0;
}

static int skge_set_ring_param(struct net_device *dev,
			       struct ethtool_ringparam *p)
{
	struct skge_port *skge = netdev_priv(dev);
	int err;

	if (p->rx_pending == 0 || p->rx_pending > MAX_RX_RING_SIZE ||
	    p->tx_pending < TX_LOW_WATER || p->tx_pending > MAX_TX_RING_SIZE)
		return -EINVAL;

	skge->rx_ring.count = p->rx_pending;
	skge->tx_ring.count = p->tx_pending;

	if (netif_running(dev)) {
		skge_down(dev);
		err = skge_up(dev);
		if (err)
			dev_close(dev);
	}

	return 0;
}

static u32 skge_get_msglevel(struct net_device *netdev)
{
	struct skge_port *skge = netdev_priv(netdev);
	return skge->msg_enable;
}

static void skge_set_msglevel(struct net_device *netdev, u32 value)
{
	struct skge_port *skge = netdev_priv(netdev);
	skge->msg_enable = value;
}

static int skge_nway_reset(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);

	if (skge->autoneg != AUTONEG_ENABLE || !netif_running(dev))
		return -EINVAL;

	skge_phy_reset(skge);
	return 0;
}

static int skge_set_sg(struct net_device *dev, u32 data)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;

	if (hw->chip_id == CHIP_ID_GENESIS && data)
		return -EOPNOTSUPP;
	return ethtool_op_set_sg(dev, data);
}

static int skge_set_tx_csum(struct net_device *dev, u32 data)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;

	if (hw->chip_id == CHIP_ID_GENESIS && data)
		return -EOPNOTSUPP;

	return ethtool_op_set_tx_csum(dev, data);
}

static u32 skge_get_rx_csum(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);

	return skge->rx_csum;
}

/* Only Yukon supports checksum offload. */
static int skge_set_rx_csum(struct net_device *dev, u32 data)
{
	struct skge_port *skge = netdev_priv(dev);

	if (skge->hw->chip_id == CHIP_ID_GENESIS && data)
		return -EOPNOTSUPP;

	skge->rx_csum = data;
	return 0;
}

static void skge_get_pauseparam(struct net_device *dev,
				struct ethtool_pauseparam *ecmd)
{
	struct skge_port *skge = netdev_priv(dev);

	ecmd->tx_pause = (skge->flow_control == FLOW_MODE_LOC_SEND)
		|| (skge->flow_control == FLOW_MODE_SYMMETRIC);
	ecmd->rx_pause = (skge->flow_control == FLOW_MODE_REM_SEND)
		|| (skge->flow_control == FLOW_MODE_SYMMETRIC);

	ecmd->autoneg = skge->autoneg;
}

static int skge_set_pauseparam(struct net_device *dev,
			       struct ethtool_pauseparam *ecmd)
{
	struct skge_port *skge = netdev_priv(dev);

	skge->autoneg = ecmd->autoneg;
	if (ecmd->rx_pause && ecmd->tx_pause)
		skge->flow_control = FLOW_MODE_SYMMETRIC;
	else if (ecmd->rx_pause && !ecmd->tx_pause)
		skge->flow_control = FLOW_MODE_REM_SEND;
	else if (!ecmd->rx_pause && ecmd->tx_pause)
		skge->flow_control = FLOW_MODE_LOC_SEND;
	else
		skge->flow_control = FLOW_MODE_NONE;

	if (netif_running(dev))
		skge_phy_reset(skge);
	return 0;
}

/* Chip internal frequency for clock calculations */
static inline u32 hwkhz(const struct skge_hw *hw)
{
	return (hw->chip_id == CHIP_ID_GENESIS) ? 53125 : 78125;
}

/* Chip HZ to microseconds */
static inline u32 skge_clk2usec(const struct skge_hw *hw, u32 ticks)
{
	return (ticks * 1000) / hwkhz(hw);
}

/* Microseconds to chip HZ */
static inline u32 skge_usecs2clk(const struct skge_hw *hw, u32 usec)
{
	return hwkhz(hw) * usec / 1000;
}

static int skge_get_coalesce(struct net_device *dev,
			     struct ethtool_coalesce *ecmd)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int port = skge->port;

	ecmd->rx_coalesce_usecs = 0;
	ecmd->tx_coalesce_usecs = 0;

	if (skge_read32(hw, B2_IRQM_CTRL) & TIM_START) {
		u32 delay = skge_clk2usec(hw, skge_read32(hw, B2_IRQM_INI));
		u32 msk = skge_read32(hw, B2_IRQM_MSK);

		if (msk & rxirqmask[port])
			ecmd->rx_coalesce_usecs = delay;
		if (msk & txirqmask[port])
			ecmd->tx_coalesce_usecs = delay;
	}

	return 0;
}

/* Note: interrupt timer is per board, but can turn on/off per port */
static int skge_set_coalesce(struct net_device *dev,
			     struct ethtool_coalesce *ecmd)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u32 msk = skge_read32(hw, B2_IRQM_MSK);
	u32 delay = 25;

	if (ecmd->rx_coalesce_usecs == 0)
		msk &= ~rxirqmask[port];
	else if (ecmd->rx_coalesce_usecs < 25 ||
		 ecmd->rx_coalesce_usecs > 33333)
		return -EINVAL;
	else {
		msk |= rxirqmask[port];
		delay = ecmd->rx_coalesce_usecs;
	}

	if (ecmd->tx_coalesce_usecs == 0)
		msk &= ~txirqmask[port];
	else if (ecmd->tx_coalesce_usecs < 25 ||
		 ecmd->tx_coalesce_usecs > 33333)
		return -EINVAL;
	else {
		msk |= txirqmask[port];
		delay = min(delay, ecmd->rx_coalesce_usecs);
	}

	skge_write32(hw, B2_IRQM_MSK, msk);
	if (msk == 0)
		skge_write32(hw, B2_IRQM_CTRL, TIM_STOP);
	else {
		skge_write32(hw, B2_IRQM_INI, skge_usecs2clk(hw, delay));
		skge_write32(hw, B2_IRQM_CTRL, TIM_START);
	}
	return 0;
}

enum led_mode { LED_MODE_OFF, LED_MODE_ON, LED_MODE_TST };
static void skge_led(struct skge_port *skge, enum led_mode mode)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;

	mutex_lock(&hw->phy_mutex);
	if (hw->chip_id == CHIP_ID_GENESIS) {
		switch (mode) {
		case LED_MODE_OFF:
			if (hw->phy_type == SK_PHY_BCOM)
				xm_phy_write(hw, port, PHY_BCOM_P_EXT_CTRL, PHY_B_PEC_LED_OFF);
			else {
				skge_write32(hw, SK_REG(port, TX_LED_VAL), 0);
				skge_write8(hw, SK_REG(port, TX_LED_CTRL), LED_T_OFF);
			}
			skge_write8(hw, SK_REG(port, LNK_LED_REG), LINKLED_OFF);
			skge_write32(hw, SK_REG(port, RX_LED_VAL), 0);
			skge_write8(hw, SK_REG(port, RX_LED_CTRL), LED_T_OFF);
			break;

		case LED_MODE_ON:
			skge_write8(hw, SK_REG(port, LNK_LED_REG), LINKLED_ON);
			skge_write8(hw, SK_REG(port, LNK_LED_REG), LINKLED_LINKSYNC_ON);

			skge_write8(hw, SK_REG(port, RX_LED_CTRL), LED_START);
			skge_write8(hw, SK_REG(port, TX_LED_CTRL), LED_START);

			break;

		case LED_MODE_TST:
			skge_write8(hw, SK_REG(port, RX_LED_TST), LED_T_ON);
			skge_write32(hw, SK_REG(port, RX_LED_VAL), 100);
			skge_write8(hw, SK_REG(port, RX_LED_CTRL), LED_START);

			if (hw->phy_type == SK_PHY_BCOM)
				xm_phy_write(hw, port, PHY_BCOM_P_EXT_CTRL, PHY_B_PEC_LED_ON);
			else {
				skge_write8(hw, SK_REG(port, TX_LED_TST), LED_T_ON);
				skge_write32(hw, SK_REG(port, TX_LED_VAL), 100);
				skge_write8(hw, SK_REG(port, TX_LED_CTRL), LED_START);
			}

		}
	} else {
		switch (mode) {
		case LED_MODE_OFF:
			gm_phy_write(hw, port, PHY_MARV_LED_CTRL, 0);
			gm_phy_write(hw, port, PHY_MARV_LED_OVER,
				     PHY_M_LED_MO_DUP(MO_LED_OFF)  |
				     PHY_M_LED_MO_10(MO_LED_OFF)   |
				     PHY_M_LED_MO_100(MO_LED_OFF)  |
				     PHY_M_LED_MO_1000(MO_LED_OFF) |
				     PHY_M_LED_MO_RX(MO_LED_OFF));
			break;
		case LED_MODE_ON:
			gm_phy_write(hw, port, PHY_MARV_LED_CTRL,
				     PHY_M_LED_PULS_DUR(PULS_170MS) |
				     PHY_M_LED_BLINK_RT(BLINK_84MS) |
				     PHY_M_LEDC_TX_CTRL |
				     PHY_M_LEDC_DP_CTRL);

			gm_phy_write(hw, port, PHY_MARV_LED_OVER,
				     PHY_M_LED_MO_RX(MO_LED_OFF) |
				     (skge->speed == SPEED_100 ?
				      PHY_M_LED_MO_100(MO_LED_ON) : 0));
			break;
		case LED_MODE_TST:
			gm_phy_write(hw, port, PHY_MARV_LED_CTRL, 0);
			gm_phy_write(hw, port, PHY_MARV_LED_OVER,
				     PHY_M_LED_MO_DUP(MO_LED_ON)  |
				     PHY_M_LED_MO_10(MO_LED_ON)   |
				     PHY_M_LED_MO_100(MO_LED_ON)  |
				     PHY_M_LED_MO_1000(MO_LED_ON) |
				     PHY_M_LED_MO_RX(MO_LED_ON));
		}
	}
	mutex_unlock(&hw->phy_mutex);
}

/* blink LED's for finding board */
static int skge_phys_id(struct net_device *dev, u32 data)
{
	struct skge_port *skge = netdev_priv(dev);
	unsigned long ms;
	enum led_mode mode = LED_MODE_TST;

	if (!data || data > (u32)(MAX_SCHEDULE_TIMEOUT / HZ))
		ms = jiffies_to_msecs(MAX_SCHEDULE_TIMEOUT / HZ) * 1000;
	else
		ms = data * 1000;

	while (ms > 0) {
		skge_led(skge, mode);
		mode ^= LED_MODE_TST;

		if (msleep_interruptible(BLINK_MS))
			break;
		ms -= BLINK_MS;
	}

	/* back to regular LED state */
	skge_led(skge, netif_running(dev) ? LED_MODE_ON : LED_MODE_OFF);

	return 0;
}

static const struct ethtool_ops skge_ethtool_ops = {
	.get_settings	= skge_get_settings,
	.set_settings	= skge_set_settings,
	.get_drvinfo	= skge_get_drvinfo,
	.get_regs_len	= skge_get_regs_len,
	.get_regs	= skge_get_regs,
	.get_wol	= skge_get_wol,
	.set_wol	= skge_set_wol,
	.get_msglevel	= skge_get_msglevel,
	.set_msglevel	= skge_set_msglevel,
	.nway_reset	= skge_nway_reset,
	.get_link	= ethtool_op_get_link,
	.get_ringparam	= skge_get_ring_param,
	.set_ringparam	= skge_set_ring_param,
	.get_pauseparam = skge_get_pauseparam,
	.set_pauseparam = skge_set_pauseparam,
	.get_coalesce	= skge_get_coalesce,
	.set_coalesce	= skge_set_coalesce,
	.get_sg		= ethtool_op_get_sg,
	.set_sg		= skge_set_sg,
	.get_tx_csum	= ethtool_op_get_tx_csum,
	.set_tx_csum	= skge_set_tx_csum,
	.get_rx_csum	= skge_get_rx_csum,
	.set_rx_csum	= skge_set_rx_csum,
	.get_strings	= skge_get_strings,
	.phys_id	= skge_phys_id,
	.get_stats_count = skge_get_stats_count,
	.get_ethtool_stats = skge_get_ethtool_stats,
	.get_perm_addr	= ethtool_op_get_perm_addr,
};

/*
 * Allocate ring elements and chain them together
 * One-to-one association of board descriptors with ring elements
 */
static int skge_ring_alloc(struct skge_ring *ring, void *vaddr, u32 base)
{
	struct skge_tx_desc *d;
	struct skge_element *e;
	int i;

	ring->start = kcalloc(sizeof(*e), ring->count, GFP_KERNEL);
	if (!ring->start)
		return -ENOMEM;

	for (i = 0, e = ring->start, d = vaddr; i < ring->count; i++, e++, d++) {
		e->desc = d;
		if (i == ring->count - 1) {
			e->next = ring->start;
			d->next_offset = base;
		} else {
			e->next = e + 1;
			d->next_offset = base + (i+1) * sizeof(*d);
		}
	}
	ring->to_use = ring->to_clean = ring->start;

	return 0;
}

/* Allocate and setup a new buffer for receiving */
static void skge_rx_setup(struct skge_port *skge, struct skge_element *e,
			  struct sk_buff *skb, unsigned int bufsize)
{
	struct skge_rx_desc *rd = e->desc;
	u64 map;

	map = pci_map_single(skge->hw->pdev, skb->data, bufsize,
			     PCI_DMA_FROMDEVICE);

	rd->dma_lo = map;
	rd->dma_hi = map >> 32;
	e->skb = skb;
	rd->csum1_start = ETH_HLEN;
	rd->csum2_start = ETH_HLEN;
	rd->csum1 = 0;
	rd->csum2 = 0;

	wmb();

	rd->control = BMU_OWN | BMU_STF | BMU_IRQ_EOF | BMU_TCP_CHECK | bufsize;
	pci_unmap_addr_set(e, mapaddr, map);
	pci_unmap_len_set(e, maplen, bufsize);
}

/* Resume receiving using existing skb,
 * Note: DMA address is not changed by chip.
 * 	 MTU not changed while receiver active.
 */
static inline void skge_rx_reuse(struct skge_element *e, unsigned int size)
{
	struct skge_rx_desc *rd = e->desc;

	rd->csum2 = 0;
	rd->csum2_start = ETH_HLEN;

	wmb();

	rd->control = BMU_OWN | BMU_STF | BMU_IRQ_EOF | BMU_TCP_CHECK | size;
}


/* Free all  buffers in receive ring, assumes receiver stopped */
static void skge_rx_clean(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	struct skge_ring *ring = &skge->rx_ring;
	struct skge_element *e;

	e = ring->start;
	do {
		struct skge_rx_desc *rd = e->desc;
		rd->control = 0;
		if (e->skb) {
			pci_unmap_single(hw->pdev,
					 pci_unmap_addr(e, mapaddr),
					 pci_unmap_len(e, maplen),
					 PCI_DMA_FROMDEVICE);
			dev_kfree_skb(e->skb);
			e->skb = NULL;
		}
	} while ((e = e->next) != ring->start);
}


/* Allocate buffers for receive ring
 * For receive:  to_clean is next received frame.
 */
static int skge_rx_fill(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_ring *ring = &skge->rx_ring;
	struct skge_element *e;

	e = ring->start;
	do {
		struct sk_buff *skb;

		skb = __netdev_alloc_skb(dev, skge->rx_buf_size + NET_IP_ALIGN,
					 GFP_KERNEL);
		if (!skb)
			return -ENOMEM;

		skb_reserve(skb, NET_IP_ALIGN);
		skge_rx_setup(skge, e, skb, skge->rx_buf_size);
	} while ( (e = e->next) != ring->start);

	ring->to_clean = ring->start;
	return 0;
}

static void skge_link_up(struct skge_port *skge)
{
	skge_write8(skge->hw, SK_REG(skge->port, LNK_LED_REG),
		    LED_BLK_OFF|LED_SYNC_OFF|LED_ON);

	netif_carrier_on(skge->netdev);
	netif_wake_queue(skge->netdev);

	if (netif_msg_link(skge))
		printk(KERN_INFO PFX
		       "%s: Link is up at %d Mbps, %s duplex, flow control %s\n",
		       skge->netdev->name, skge->speed,
		       skge->duplex == DUPLEX_FULL ? "full" : "half",
		       (skge->flow_control == FLOW_MODE_NONE) ? "none" :
		       (skge->flow_control == FLOW_MODE_LOC_SEND) ? "tx only" :
		       (skge->flow_control == FLOW_MODE_REM_SEND) ? "rx only" :
		       (skge->flow_control == FLOW_MODE_SYMMETRIC) ? "tx and rx" :
		       "unknown");
}

static void skge_link_down(struct skge_port *skge)
{
	skge_write8(skge->hw, SK_REG(skge->port, LNK_LED_REG), LED_OFF);
	netif_carrier_off(skge->netdev);
	netif_stop_queue(skge->netdev);

	if (netif_msg_link(skge))
		printk(KERN_INFO PFX "%s: Link is down.\n", skge->netdev->name);
}

static int __xm_phy_read(struct skge_hw *hw, int port, u16 reg, u16 *val)
{
	int i;

	xm_write16(hw, port, XM_PHY_ADDR, reg | hw->phy_addr);
	*val = xm_read16(hw, port, XM_PHY_DATA);

	if (hw->phy_type == SK_PHY_XMAC)
		goto ready;

	for (i = 0; i < PHY_RETRIES; i++) {
		if (xm_read16(hw, port, XM_MMU_CMD) & XM_MMU_PHY_RDY)
			goto ready;
		udelay(1);
	}

	return -ETIMEDOUT;
 ready:
	*val = xm_read16(hw, port, XM_PHY_DATA);

	return 0;
}

static u16 xm_phy_read(struct skge_hw *hw, int port, u16 reg)
{
	u16 v = 0;
	if (__xm_phy_read(hw, port, reg, &v))
		printk(KERN_WARNING PFX "%s: phy read timed out\n",
		       hw->dev[port]->name);
	return v;
}

static int xm_phy_write(struct skge_hw *hw, int port, u16 reg, u16 val)
{
	int i;

	xm_write16(hw, port, XM_PHY_ADDR, reg | hw->phy_addr);
	for (i = 0; i < PHY_RETRIES; i++) {
		if (!(xm_read16(hw, port, XM_MMU_CMD) & XM_MMU_PHY_BUSY))
			goto ready;
		udelay(1);
	}
	return -EIO;

 ready:
	xm_write16(hw, port, XM_PHY_DATA, val);
	for (i = 0; i < PHY_RETRIES; i++) {
		if (!(xm_read16(hw, port, XM_MMU_CMD) & XM_MMU_PHY_BUSY))
			return 0;
		udelay(1);
	}
	return -ETIMEDOUT;
}

static void genesis_init(struct skge_hw *hw)
{
	/* set blink source counter */
	skge_write32(hw, B2_BSC_INI, (SK_BLK_DUR * SK_FACT_53) / 100);
	skge_write8(hw, B2_BSC_CTRL, BSC_START);

	/* configure mac arbiter */
	skge_write16(hw, B3_MA_TO_CTRL, MA_RST_CLR);

	/* configure mac arbiter timeout values */
	skge_write8(hw, B3_MA_TOINI_RX1, SK_MAC_TO_53);
	skge_write8(hw, B3_MA_TOINI_RX2, SK_MAC_TO_53);
	skge_write8(hw, B3_MA_TOINI_TX1, SK_MAC_TO_53);
	skge_write8(hw, B3_MA_TOINI_TX2, SK_MAC_TO_53);

	skge_write8(hw, B3_MA_RCINI_RX1, 0);
	skge_write8(hw, B3_MA_RCINI_RX2, 0);
	skge_write8(hw, B3_MA_RCINI_TX1, 0);
	skge_write8(hw, B3_MA_RCINI_TX2, 0);

	/* configure packet arbiter timeout */
	skge_write16(hw, B3_PA_CTRL, PA_RST_CLR);
	skge_write16(hw, B3_PA_TOINI_RX1, SK_PKT_TO_MAX);
	skge_write16(hw, B3_PA_TOINI_TX1, SK_PKT_TO_MAX);
	skge_write16(hw, B3_PA_TOINI_RX2, SK_PKT_TO_MAX);
	skge_write16(hw, B3_PA_TOINI_TX2, SK_PKT_TO_MAX);
}

static void genesis_reset(struct skge_hw *hw, int port)
{
	const u8 zero[8]  = { 0 };

	skge_write8(hw, SK_REG(port, GMAC_IRQ_MSK), 0);

	/* reset the statistics module */
	xm_write32(hw, port, XM_GP_PORT, XM_GP_RES_STAT);
	xm_write16(hw, port, XM_IMSK, 0xffff);	/* disable XMAC IRQs */
	xm_write32(hw, port, XM_MODE, 0);		/* clear Mode Reg */
	xm_write16(hw, port, XM_TX_CMD, 0);	/* reset TX CMD Reg */
	xm_write16(hw, port, XM_RX_CMD, 0);	/* reset RX CMD Reg */

	/* disable Broadcom PHY IRQ */
	if (hw->phy_type == SK_PHY_BCOM)
		xm_write16(hw, port, PHY_BCOM_INT_MASK, 0xffff);

	xm_outhash(hw, port, XM_HSM, zero);
}


/* Convert mode to MII values  */
static const u16 phy_pause_map[] = {
	[FLOW_MODE_NONE] =	0,
	[FLOW_MODE_LOC_SEND] =	PHY_AN_PAUSE_ASYM,
	[FLOW_MODE_SYMMETRIC] = PHY_AN_PAUSE_CAP,
	[FLOW_MODE_REM_SEND]  = PHY_AN_PAUSE_CAP | PHY_AN_PAUSE_ASYM,
};


/* Check status of Broadcom phy link */
static void bcom_check_link(struct skge_hw *hw, int port)
{
	struct net_device *dev = hw->dev[port];
	struct skge_port *skge = netdev_priv(dev);
	u16 status;

	/* read twice because of latch */
	(void) xm_phy_read(hw, port, PHY_BCOM_STAT);
	status = xm_phy_read(hw, port, PHY_BCOM_STAT);

	if ((status & PHY_ST_LSYNC) == 0) {
		u16 cmd = xm_read16(hw, port, XM_MMU_CMD);
		cmd &= ~(XM_MMU_ENA_RX | XM_MMU_ENA_TX);
		xm_write16(hw, port, XM_MMU_CMD, cmd);
		/* dummy read to ensure writing */
		(void) xm_read16(hw, port, XM_MMU_CMD);

		if (netif_carrier_ok(dev))
			skge_link_down(skge);
		return;
	}

	if (skge->autoneg == AUTONEG_ENABLE) {
		u16 lpa, aux;

		if (!(status & PHY_ST_AN_OVER))
			return;

		lpa = xm_phy_read(hw, port, PHY_XMAC_AUNE_LP);
		if (lpa & PHY_B_AN_RF) {
			printk(KERN_NOTICE PFX "%s: remote fault\n",
			       dev->name);
			return;
		}

		aux = xm_phy_read(hw, port, PHY_BCOM_AUX_STAT);

		/* Check Duplex mismatch */
		switch (aux & PHY_B_AS_AN_RES_MSK) {
		case PHY_B_RES_1000FD:
			skge->duplex = DUPLEX_FULL;
			break;
		case PHY_B_RES_1000HD:
			skge->duplex = DUPLEX_HALF;
			break;
		default:
			printk(KERN_NOTICE PFX "%s: duplex mismatch\n",
			       dev->name);
			return;
		}


		/* We are using IEEE 802.3z/D5.0 Table 37-4 */
		switch (aux & PHY_B_AS_PAUSE_MSK) {
		case PHY_B_AS_PAUSE_MSK:
			skge->flow_control = FLOW_MODE_SYMMETRIC;
			break;
		case PHY_B_AS_PRR:
			skge->flow_control = FLOW_MODE_REM_SEND;
			break;
		case PHY_B_AS_PRT:
			skge->flow_control = FLOW_MODE_LOC_SEND;
			break;
		default:
			skge->flow_control = FLOW_MODE_NONE;
		}
		skge->speed = SPEED_1000;
	}

	if (!netif_carrier_ok(dev))
		genesis_link_up(skge);
}

/* Broadcom 5400 only supports giagabit! SysKonnect did not put an additional
 * Phy on for 100 or 10Mbit operation
 */
static void bcom_phy_init(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	int i;
	u16 id1, r, ext, ctl;

	/* magic workaround patterns for Broadcom */
	static const struct {
		u16 reg;
		u16 val;
	} A1hack[] = {
		{ 0x18, 0x0c20 }, { 0x17, 0x0012 }, { 0x15, 0x1104 },
		{ 0x17, 0x0013 }, { 0x15, 0x0404 }, { 0x17, 0x8006 },
		{ 0x15, 0x0132 }, { 0x17, 0x8006 }, { 0x15, 0x0232 },
		{ 0x17, 0x800D }, { 0x15, 0x000F }, { 0x18, 0x0420 },
	}, C0hack[] = {
		{ 0x18, 0x0c20 }, { 0x17, 0x0012 }, { 0x15, 0x1204 },
		{ 0x17, 0x0013 }, { 0x15, 0x0A04 }, { 0x18, 0x0420 },
	};

	/* read Id from external PHY (all have the same address) */
	id1 = xm_phy_read(hw, port, PHY_XMAC_ID1);

	/* Optimize MDIO transfer by suppressing preamble. */
	r = xm_read16(hw, port, XM_MMU_CMD);
	r |=  XM_MMU_NO_PRE;
	xm_write16(hw, port, XM_MMU_CMD,r);

	switch (id1) {
	case PHY_BCOM_ID1_C0:
		/*
		 * Workaround BCOM Errata for the C0 type.
		 * Write magic patterns to reserved registers.
		 */
		for (i = 0; i < ARRAY_SIZE(C0hack); i++)
			xm_phy_write(hw, port,
				     C0hack[i].reg, C0hack[i].val);

		break;
	case PHY_BCOM_ID1_A1:
		/*
		 * Workaround BCOM Errata for the A1 type.
		 * Write magic patterns to reserved registers.
		 */
		for (i = 0; i < ARRAY_SIZE(A1hack); i++)
			xm_phy_write(hw, port,
				     A1hack[i].reg, A1hack[i].val);
		break;
	}

	/*
	 * Workaround BCOM Errata (#10523) for all BCom PHYs.
	 * Disable Power Management after reset.
	 */
	r = xm_phy_read(hw, port, PHY_BCOM_AUX_CTRL);
	r |= PHY_B_AC_DIS_PM;
	xm_phy_write(hw, port, PHY_BCOM_AUX_CTRL, r);

	/* Dummy read */
	xm_read16(hw, port, XM_ISRC);

	ext = PHY_B_PEC_EN_LTR; /* enable tx led */
	ctl = PHY_CT_SP1000;	/* always 1000mbit */

	if (skge->autoneg == AUTONEG_ENABLE) {
		/*
		 * Workaround BCOM Errata #1 for the C5 type.
		 * 1000Base-T Link Acquisition Failure in Slave Mode
		 * Set Repeater/DTE bit 10 of the 1000Base-T Control Register
		 */
		u16 adv = PHY_B_1000C_RD;
		if (skge->advertising & ADVERTISED_1000baseT_Half)
			adv |= PHY_B_1000C_AHD;
		if (skge->advertising & ADVERTISED_1000baseT_Full)
			adv |= PHY_B_1000C_AFD;
		xm_phy_write(hw, port, PHY_BCOM_1000T_CTRL, adv);

		ctl |= PHY_CT_ANE | PHY_CT_RE_CFG;
	} else {
		if (skge->duplex == DUPLEX_FULL)
			ctl |= PHY_CT_DUP_MD;
		/* Force to slave */
		xm_phy_write(hw, port, PHY_BCOM_1000T_CTRL, PHY_B_1000C_MSE);
	}

	/* Set autonegotiation pause parameters */
	xm_phy_write(hw, port, PHY_BCOM_AUNE_ADV,
		     phy_pause_map[skge->flow_control] | PHY_AN_CSMA);

	/* Handle Jumbo frames */
	if (hw->dev[port]->mtu > ETH_DATA_LEN) {
		xm_phy_write(hw, port, PHY_BCOM_AUX_CTRL,
			     PHY_B_AC_TX_TST | PHY_B_AC_LONG_PACK);

		ext |= PHY_B_PEC_HIGH_LA;

	}

	xm_phy_write(hw, port, PHY_BCOM_P_EXT_CTRL, ext);
	xm_phy_write(hw, port, PHY_BCOM_CTRL, ctl);

	/* Use link status change interrupt */
	xm_phy_write(hw, port, PHY_BCOM_INT_MASK, PHY_B_DEF_MSK);
}

static void xm_phy_init(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u16 ctrl = 0;

	if (skge->autoneg == AUTONEG_ENABLE) {
		if (skge->advertising & ADVERTISED_1000baseT_Half)
			ctrl |= PHY_X_AN_HD;
		if (skge->advertising & ADVERTISED_1000baseT_Full)
			ctrl |= PHY_X_AN_FD;

		switch(skge->flow_control) {
		case FLOW_MODE_NONE:
			ctrl |= PHY_X_P_NO_PAUSE;
			break;
		case FLOW_MODE_LOC_SEND:
			ctrl |= PHY_X_P_ASYM_MD;
			break;
		case FLOW_MODE_SYMMETRIC:
			ctrl |= PHY_X_P_BOTH_MD;
			break;
		}

		xm_phy_write(hw, port, PHY_XMAC_AUNE_ADV, ctrl);

		/* Restart Auto-negotiation */
		ctrl = PHY_CT_ANE | PHY_CT_RE_CFG;
	} else {
		/* Set DuplexMode in Config register */
		if (skge->duplex == DUPLEX_FULL)
			ctrl |= PHY_CT_DUP_MD;
		/*
		 * Do NOT enable Auto-negotiation here. This would hold
		 * the link down because no IDLEs are transmitted
		 */
	}

	xm_phy_write(hw, port, PHY_XMAC_CTRL, ctrl);

	/* Poll PHY for status changes */
	schedule_delayed_work(&skge->link_thread, LINK_HZ);
}

static void xm_check_link(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u16 status;

	/* read twice because of latch */
	(void) xm_phy_read(hw, port, PHY_XMAC_STAT);
	status = xm_phy_read(hw, port, PHY_XMAC_STAT);

	if ((status & PHY_ST_LSYNC) == 0) {
		u16 cmd = xm_read16(hw, port, XM_MMU_CMD);
		cmd &= ~(XM_MMU_ENA_RX | XM_MMU_ENA_TX);
		xm_write16(hw, port, XM_MMU_CMD, cmd);
		/* dummy read to ensure writing */
		(void) xm_read16(hw, port, XM_MMU_CMD);

		if (netif_carrier_ok(dev))
			skge_link_down(skge);
		return;
	}

	if (skge->autoneg == AUTONEG_ENABLE) {
		u16 lpa, res;

		if (!(status & PHY_ST_AN_OVER))
			return;

		lpa = xm_phy_read(hw, port, PHY_XMAC_AUNE_LP);
		if (lpa & PHY_B_AN_RF) {
			printk(KERN_NOTICE PFX "%s: remote fault\n",
			       dev->name);
			return;
		}

		res = xm_phy_read(hw, port, PHY_XMAC_RES_ABI);

		/* Check Duplex mismatch */
		switch (res & (PHY_X_RS_HD | PHY_X_RS_FD)) {
		case PHY_X_RS_FD:
			skge->duplex = DUPLEX_FULL;
			break;
		case PHY_X_RS_HD:
			skge->duplex = DUPLEX_HALF;
			break;
		default:
			printk(KERN_NOTICE PFX "%s: duplex mismatch\n",
			       dev->name);
			return;
		}

		/* We are using IEEE 802.3z/D5.0 Table 37-4 */
		if (lpa & PHY_X_P_SYM_MD)
			skge->flow_control = FLOW_MODE_SYMMETRIC;
		else if ((lpa & PHY_X_RS_PAUSE) == PHY_X_P_ASYM_MD)
			skge->flow_control = FLOW_MODE_REM_SEND;
		else if ((lpa & PHY_X_RS_PAUSE) == PHY_X_P_BOTH_MD)
			skge->flow_control = FLOW_MODE_LOC_SEND;
		else
			skge->flow_control = FLOW_MODE_NONE;


		skge->speed = SPEED_1000;
	}

	if (!netif_carrier_ok(dev))
		genesis_link_up(skge);
}

/* Poll to check for link coming up.
 * Since internal PHY is wired to a level triggered pin, can't
 * get an interrupt when carrier is detected.
 */
static void xm_link_timer(void *arg)
{
	struct net_device *dev = arg;
	struct skge_port *skge = netdev_priv(arg);
 	struct skge_hw *hw = skge->hw;
	int port = skge->port;

	if (!netif_running(dev))
		return;

	if (netif_carrier_ok(dev)) {
		xm_read16(hw, port, XM_ISRC);
		if (!(xm_read16(hw, port, XM_ISRC) & XM_IS_INP_ASS))
			goto nochange;
	} else {
		if (xm_read32(hw, port, XM_GP_PORT) & XM_GP_INP_ASS)
			goto nochange;
		xm_read16(hw, port, XM_ISRC);
		if (xm_read16(hw, port, XM_ISRC) & XM_IS_INP_ASS)
			goto nochange;
	}

	mutex_lock(&hw->phy_mutex);
	xm_check_link(dev);
	mutex_unlock(&hw->phy_mutex);

nochange:
	schedule_delayed_work(&skge->link_thread, LINK_HZ);
}

static void genesis_mac_init(struct skge_hw *hw, int port)
{
	struct net_device *dev = hw->dev[port];
	struct skge_port *skge = netdev_priv(dev);
	int jumbo = hw->dev[port]->mtu > ETH_DATA_LEN;
	int i;
	u32 r;
	const u8 zero[6]  = { 0 };

	for (i = 0; i < 10; i++) {
		skge_write16(hw, SK_REG(port, TX_MFF_CTRL1),
			     MFF_SET_MAC_RST);
		if (skge_read16(hw, SK_REG(port, TX_MFF_CTRL1)) & MFF_SET_MAC_RST)
			goto reset_ok;
		udelay(1);
	}

	printk(KERN_WARNING PFX "%s: genesis reset failed\n", dev->name);

 reset_ok:
	/* Unreset the XMAC. */
	skge_write16(hw, SK_REG(port, TX_MFF_CTRL1), MFF_CLR_MAC_RST);

	/*
	 * Perform additional initialization for external PHYs,
	 * namely for the 1000baseTX cards that use the XMAC's
	 * GMII mode.
	 */
	if (hw->phy_type != SK_PHY_XMAC) {
		/* Take external Phy out of reset */
		r = skge_read32(hw, B2_GP_IO);
		if (port == 0)
			r |= GP_DIR_0|GP_IO_0;
		else
			r |= GP_DIR_2|GP_IO_2;

		skge_write32(hw, B2_GP_IO, r);

		/* Enable GMII interface */
		xm_write16(hw, port, XM_HW_CFG, XM_HW_GMII_MD);
	}


	switch(hw->phy_type) {
	case SK_PHY_XMAC:
		xm_phy_init(skge);
		break;
	case SK_PHY_BCOM:
		bcom_phy_init(skge);
		bcom_check_link(hw, port);
	}

	/* Set Station Address */
	xm_outaddr(hw, port, XM_SA, dev->dev_addr);

	/* We don't use match addresses so clear */
	for (i = 1; i < 16; i++)
		xm_outaddr(hw, port, XM_EXM(i), zero);

	/* Clear MIB counters */
	xm_write16(hw, port, XM_STAT_CMD,
			XM_SC_CLR_RXC | XM_SC_CLR_TXC);
	/* Clear two times according to Errata #3 */
	xm_write16(hw, port, XM_STAT_CMD,
			XM_SC_CLR_RXC | XM_SC_CLR_TXC);

	/* configure Rx High Water Mark (XM_RX_HI_WM) */
	xm_write16(hw, port, XM_RX_HI_WM, 1450);

	/* We don't need the FCS appended to the packet. */
	r = XM_RX_LENERR_OK | XM_RX_STRIP_FCS;
	if (jumbo)
		r |= XM_RX_BIG_PK_OK;

	if (skge->duplex == DUPLEX_HALF) {
		/*
		 * If in manual half duplex mode the other side might be in
		 * full duplex mode, so ignore if a carrier extension is not seen
		 * on frames received
		 */
		r |= XM_RX_DIS_CEXT;
	}
	xm_write16(hw, port, XM_RX_CMD, r);


	/* We want short frames padded to 60 bytes. */
	xm_write16(hw, port, XM_TX_CMD, XM_TX_AUTO_PAD);

	/*
	 * Bump up the transmit threshold. This helps hold off transmit
	 * underruns when we're blasting traffic from both ports at once.
	 */
	xm_write16(hw, port, XM_TX_THR, 512);

	/*
	 * Enable the reception of all error frames. This is is
	 * a necessary evil due to the design of the XMAC. The
	 * XMAC's receive FIFO is only 8K in size, however jumbo
	 * frames can be up to 9000 bytes in length. When bad
	 * frame filtering is enabled, the XMAC's RX FIFO operates
	 * in 'store and forward' mode. For this to work, the
	 * entire frame has to fit into the FIFO, but that means
	 * that jumbo frames larger than 8192 bytes will be
	 * truncated. Disabling all bad frame filtering causes
	 * the RX FIFO to operate in streaming mode, in which
	 * case the XMAC will start transferring frames out of the
	 * RX FIFO as soon as the FIFO threshold is reached.
	 */
	xm_write32(hw, port, XM_MODE, XM_DEF_MODE);


	/*
	 * Initialize the Receive Counter Event Mask (XM_RX_EV_MSK)
	 *	- Enable all bits excepting 'Octets Rx OK Low CntOv'
	 *	  and 'Octets Rx OK Hi Cnt Ov'.
	 */
	xm_write32(hw, port, XM_RX_EV_MSK, XMR_DEF_MSK);

	/*
	 * Initialize the Transmit Counter Event Mask (XM_TX_EV_MSK)
	 *	- Enable all bits excepting 'Octets Tx OK Low CntOv'
	 *	  and 'Octets Tx OK Hi Cnt Ov'.
	 */
	xm_write32(hw, port, XM_TX_EV_MSK, XMT_DEF_MSK);

	/* Configure MAC arbiter */
	skge_write16(hw, B3_MA_TO_CTRL, MA_RST_CLR);

	/* configure timeout values */
	skge_write8(hw, B3_MA_TOINI_RX1, 72);
	skge_write8(hw, B3_MA_TOINI_RX2, 72);
	skge_write8(hw, B3_MA_TOINI_TX1, 72);
	skge_write8(hw, B3_MA_TOINI_TX2, 72);

	skge_write8(hw, B3_MA_RCINI_RX1, 0);
	skge_write8(hw, B3_MA_RCINI_RX2, 0);
	skge_write8(hw, B3_MA_RCINI_TX1, 0);
	skge_write8(hw, B3_MA_RCINI_TX2, 0);

	/* Configure Rx MAC FIFO */
	skge_write8(hw, SK_REG(port, RX_MFF_CTRL2), MFF_RST_CLR);
	skge_write16(hw, SK_REG(port, RX_MFF_CTRL1), MFF_ENA_TIM_PAT);
	skge_write8(hw, SK_REG(port, RX_MFF_CTRL2), MFF_ENA_OP_MD);

	/* Configure Tx MAC FIFO */
	skge_write8(hw, SK_REG(port, TX_MFF_CTRL2), MFF_RST_CLR);
	skge_write16(hw, SK_REG(port, TX_MFF_CTRL1), MFF_TX_CTRL_DEF);
	skge_write8(hw, SK_REG(port, TX_MFF_CTRL2), MFF_ENA_OP_MD);

	if (jumbo) {
		/* Enable frame flushing if jumbo frames used */
		skge_write16(hw, SK_REG(port,RX_MFF_CTRL1), MFF_ENA_FLUSH);
	} else {
		/* enable timeout timers if normal frames */
		skge_write16(hw, B3_PA_CTRL,
			     (port == 0) ? PA_ENA_TO_TX1 : PA_ENA_TO_TX2);
	}
}

static void genesis_stop(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u32 reg;

	genesis_reset(hw, port);

	/* Clear Tx packet arbiter timeout IRQ */
	skge_write16(hw, B3_PA_CTRL,
		     port == 0 ? PA_CLR_TO_TX1 : PA_CLR_TO_TX2);

	/*
	 * If the transfer sticks at the MAC the STOP command will not
	 * terminate if we don't flush the XMAC's transmit FIFO !
	 */
	xm_write32(hw, port, XM_MODE,
			xm_read32(hw, port, XM_MODE)|XM_MD_FTF);


	/* Reset the MAC */
	skge_write16(hw, SK_REG(port, TX_MFF_CTRL1), MFF_SET_MAC_RST);

	/* For external PHYs there must be special handling */
	if (hw->phy_type != SK_PHY_XMAC) {
		reg = skge_read32(hw, B2_GP_IO);
		if (port == 0) {
			reg |= GP_DIR_0;
			reg &= ~GP_IO_0;
		} else {
			reg |= GP_DIR_2;
			reg &= ~GP_IO_2;
		}
		skge_write32(hw, B2_GP_IO, reg);
		skge_read32(hw, B2_GP_IO);
	}

	xm_write16(hw, port, XM_MMU_CMD,
			xm_read16(hw, port, XM_MMU_CMD)
			& ~(XM_MMU_ENA_RX | XM_MMU_ENA_TX));

	xm_read16(hw, port, XM_MMU_CMD);
}


static void genesis_get_stats(struct skge_port *skge, u64 *data)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	int i;
	unsigned long timeout = jiffies + HZ;

	xm_write16(hw, port,
			XM_STAT_CMD, XM_SC_SNP_TXC | XM_SC_SNP_RXC);

	/* wait for update to complete */
	while (xm_read16(hw, port, XM_STAT_CMD)
	       & (XM_SC_SNP_TXC | XM_SC_SNP_RXC)) {
		if (time_after(jiffies, timeout))
			break;
		udelay(10);
	}

	/* special case for 64 bit octet counter */
	data[0] = (u64) xm_read32(hw, port, XM_TXO_OK_HI) << 32
		| xm_read32(hw, port, XM_TXO_OK_LO);
	data[1] = (u64) xm_read32(hw, port, XM_RXO_OK_HI) << 32
		| xm_read32(hw, port, XM_RXO_OK_LO);

	for (i = 2; i < ARRAY_SIZE(skge_stats); i++)
		data[i] = xm_read32(hw, port, skge_stats[i].xmac_offset);
}

static void genesis_mac_intr(struct skge_hw *hw, int port)
{
	struct skge_port *skge = netdev_priv(hw->dev[port]);
	u16 status = xm_read16(hw, port, XM_ISRC);

	if (netif_msg_intr(skge))
		printk(KERN_DEBUG PFX "%s: mac interrupt status 0x%x\n",
		       skge->netdev->name, status);

	if (status & XM_IS_TXF_UR) {
		xm_write32(hw, port, XM_MODE, XM_MD_FTF);
		++skge->net_stats.tx_fifo_errors;
	}
	if (status & XM_IS_RXF_OV) {
		xm_write32(hw, port, XM_MODE, XM_MD_FRF);
		++skge->net_stats.rx_fifo_errors;
	}
}

static void genesis_link_up(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u16 cmd;
	u32 mode;

	cmd = xm_read16(hw, port, XM_MMU_CMD);

	/*
	 * enabling pause frame reception is required for 1000BT
	 * because the XMAC is not reset if the link is going down
	 */
	if (skge->flow_control == FLOW_MODE_NONE ||
	    skge->flow_control == FLOW_MODE_LOC_SEND)
		/* Disable Pause Frame Reception */
		cmd |= XM_MMU_IGN_PF;
	else
		/* Enable Pause Frame Reception */
		cmd &= ~XM_MMU_IGN_PF;

	xm_write16(hw, port, XM_MMU_CMD, cmd);

	mode = xm_read32(hw, port, XM_MODE);
	if (skge->flow_control == FLOW_MODE_SYMMETRIC ||
	    skge->flow_control == FLOW_MODE_LOC_SEND) {
		/*
		 * Configure Pause Frame Generation
		 * Use internal and external Pause Frame Generation.
		 * Sending pause frames is edge triggered.
		 * Send a Pause frame with the maximum pause time if
		 * internal oder external FIFO full condition occurs.
		 * Send a zero pause time frame to re-start transmission.
		 */
		/* XM_PAUSE_DA = '010000C28001' (default) */
		/* XM_MAC_PTIME = 0xffff (maximum) */
		/* remember this value is defined in big endian (!) */
		xm_write16(hw, port, XM_MAC_PTIME, 0xffff);

		mode |= XM_PAUSE_MODE;
		skge_write16(hw, SK_REG(port, RX_MFF_CTRL1), MFF_ENA_PAUSE);
	} else {
		/*
		 * disable pause frame generation is required for 1000BT
		 * because the XMAC is not reset if the link is going down
		 */
		/* Disable Pause Mode in Mode Register */
		mode &= ~XM_PAUSE_MODE;

		skge_write16(hw, SK_REG(port, RX_MFF_CTRL1), MFF_DIS_PAUSE);
	}

	xm_write32(hw, port, XM_MODE, mode);
	xm_write16(hw, port, XM_IMSK, XM_DEF_MSK);
	xm_read16(hw, port, XM_ISRC);

	/* get MMU Command Reg. */
	cmd = xm_read16(hw, port, XM_MMU_CMD);
	if (hw->phy_type != SK_PHY_XMAC && skge->duplex == DUPLEX_FULL)
		cmd |= XM_MMU_GMII_FD;

	/*
	 * Workaround BCOM Errata (#10523) for all BCom Phys
	 * Enable Power Management after link up
	 */
	if (hw->phy_type == SK_PHY_BCOM) {
		xm_phy_write(hw, port, PHY_BCOM_AUX_CTRL,
			     xm_phy_read(hw, port, PHY_BCOM_AUX_CTRL)
			     & ~PHY_B_AC_DIS_PM);
		xm_phy_write(hw, port, PHY_BCOM_INT_MASK, PHY_B_DEF_MSK);
	}

	/* enable Rx/Tx */
	xm_write16(hw, port, XM_MMU_CMD,
			cmd | XM_MMU_ENA_RX | XM_MMU_ENA_TX);
	skge_link_up(skge);
}


static inline void bcom_phy_intr(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u16 isrc;

	isrc = xm_phy_read(hw, port, PHY_BCOM_INT_STAT);
	if (netif_msg_intr(skge))
		printk(KERN_DEBUG PFX "%s: phy interrupt status 0x%x\n",
		       skge->netdev->name, isrc);

	if (isrc & PHY_B_IS_PSE)
		printk(KERN_ERR PFX "%s: uncorrectable pair swap error\n",
		       hw->dev[port]->name);

	/* Workaround BCom Errata:
	 *	enable and disable loopback mode if "NO HCD" occurs.
	 */
	if (isrc & PHY_B_IS_NO_HDCL) {
		u16 ctrl = xm_phy_read(hw, port, PHY_BCOM_CTRL);
		xm_phy_write(hw, port, PHY_BCOM_CTRL,
				  ctrl | PHY_CT_LOOP);
		xm_phy_write(hw, port, PHY_BCOM_CTRL,
				  ctrl & ~PHY_CT_LOOP);
	}

	if (isrc & (PHY_B_IS_AN_PR | PHY_B_IS_LST_CHANGE))
		bcom_check_link(hw, port);

}

static int gm_phy_write(struct skge_hw *hw, int port, u16 reg, u16 val)
{
	int i;

	gma_write16(hw, port, GM_SMI_DATA, val);
	gma_write16(hw, port, GM_SMI_CTRL,
			 GM_SMI_CT_PHY_AD(hw->phy_addr) | GM_SMI_CT_REG_AD(reg));
	for (i = 0; i < PHY_RETRIES; i++) {
		udelay(1);

		if (!(gma_read16(hw, port, GM_SMI_CTRL) & GM_SMI_CT_BUSY))
			return 0;
	}

	printk(KERN_WARNING PFX "%s: phy write timeout\n",
	       hw->dev[port]->name);
	return -EIO;
}

static int __gm_phy_read(struct skge_hw *hw, int port, u16 reg, u16 *val)
{
	int i;

	gma_write16(hw, port, GM_SMI_CTRL,
			 GM_SMI_CT_PHY_AD(hw->phy_addr)
			 | GM_SMI_CT_REG_AD(reg) | GM_SMI_CT_OP_RD);

	for (i = 0; i < PHY_RETRIES; i++) {
		udelay(1);
		if (gma_read16(hw, port, GM_SMI_CTRL) & GM_SMI_CT_RD_VAL)
			goto ready;
	}

	return -ETIMEDOUT;
 ready:
	*val = gma_read16(hw, port, GM_SMI_DATA);
	return 0;
}

static u16 gm_phy_read(struct skge_hw *hw, int port, u16 reg)
{
	u16 v = 0;
	if (__gm_phy_read(hw, port, reg, &v))
		printk(KERN_WARNING PFX "%s: phy read timeout\n",
	       hw->dev[port]->name);
	return v;
}

/* Marvell Phy Initialization */
static void yukon_init(struct skge_hw *hw, int port)
{
	struct skge_port *skge = netdev_priv(hw->dev[port]);
	u16 ctrl, ct1000, adv;

	if (skge->autoneg == AUTONEG_ENABLE) {
		u16 ectrl = gm_phy_read(hw, port, PHY_MARV_EXT_CTRL);

		ectrl &= ~(PHY_M_EC_M_DSC_MSK | PHY_M_EC_S_DSC_MSK |
			  PHY_M_EC_MAC_S_MSK);
		ectrl |= PHY_M_EC_MAC_S(MAC_TX_CLK_25_MHZ);

		ectrl |= PHY_M_EC_M_DSC(0) | PHY_M_EC_S_DSC(1);

		gm_phy_write(hw, port, PHY_MARV_EXT_CTRL, ectrl);
	}

	ctrl = gm_phy_read(hw, port, PHY_MARV_CTRL);
	if (skge->autoneg == AUTONEG_DISABLE)
		ctrl &= ~PHY_CT_ANE;

	ctrl |= PHY_CT_RESET;
	gm_phy_write(hw, port, PHY_MARV_CTRL, ctrl);

	ctrl = 0;
	ct1000 = 0;
	adv = PHY_AN_CSMA;

	if (skge->autoneg == AUTONEG_ENABLE) {
		if (hw->copper) {
			if (skge->advertising & ADVERTISED_1000baseT_Full)
				ct1000 |= PHY_M_1000C_AFD;
			if (skge->advertising & ADVERTISED_1000baseT_Half)
				ct1000 |= PHY_M_1000C_AHD;
			if (skge->advertising & ADVERTISED_100baseT_Full)
				adv |= PHY_M_AN_100_FD;
			if (skge->advertising & ADVERTISED_100baseT_Half)
				adv |= PHY_M_AN_100_HD;
			if (skge->advertising & ADVERTISED_10baseT_Full)
				adv |= PHY_M_AN_10_FD;
			if (skge->advertising & ADVERTISED_10baseT_Half)
				adv |= PHY_M_AN_10_HD;
		} else	/* special defines for FIBER (88E1011S only) */
			adv |= PHY_M_AN_1000X_AHD | PHY_M_AN_1000X_AFD;

		/* Set Flow-control capabilities */
		adv |= phy_pause_map[skge->flow_control];

		/* Restart Auto-negotiation */
		ctrl |= PHY_CT_ANE | PHY_CT_RE_CFG;
	} else {
		/* forced speed/duplex settings */
		ct1000 = PHY_M_1000C_MSE;

		if (skge->duplex == DUPLEX_FULL)
			ctrl |= PHY_CT_DUP_MD;

		switch (skge->speed) {
		case SPEED_1000:
			ctrl |= PHY_CT_SP1000;
			break;
		case SPEED_100:
			ctrl |= PHY_CT_SP100;
			break;
		}

		ctrl |= PHY_CT_RESET;
	}

	gm_phy_write(hw, port, PHY_MARV_1000T_CTRL, ct1000);

	gm_phy_write(hw, port, PHY_MARV_AUNE_ADV, adv);
	gm_phy_write(hw, port, PHY_MARV_CTRL, ctrl);

	/* Enable phy interrupt on autonegotiation complete (or link up) */
	if (skge->autoneg == AUTONEG_ENABLE)
		gm_phy_write(hw, port, PHY_MARV_INT_MASK, PHY_M_IS_AN_MSK);
	else
		gm_phy_write(hw, port, PHY_MARV_INT_MASK, PHY_M_IS_DEF_MSK);
}

static void yukon_reset(struct skge_hw *hw, int port)
{
	gm_phy_write(hw, port, PHY_MARV_INT_MASK, 0);/* disable PHY IRQs */
	gma_write16(hw, port, GM_MC_ADDR_H1, 0);	/* clear MC hash */
	gma_write16(hw, port, GM_MC_ADDR_H2, 0);
	gma_write16(hw, port, GM_MC_ADDR_H3, 0);
	gma_write16(hw, port, GM_MC_ADDR_H4, 0);

	gma_write16(hw, port, GM_RX_CTRL,
			 gma_read16(hw, port, GM_RX_CTRL)
			 | GM_RXCR_UCF_ENA | GM_RXCR_MCF_ENA);
}

/* Apparently, early versions of Yukon-Lite had wrong chip_id? */
static int is_yukon_lite_a0(struct skge_hw *hw)
{
	u32 reg;
	int ret;

	if (hw->chip_id != CHIP_ID_YUKON)
		return 0;

	reg = skge_read32(hw, B2_FAR);
	skge_write8(hw, B2_FAR + 3, 0xff);
	ret = (skge_read8(hw, B2_FAR + 3) != 0);
	skge_write32(hw, B2_FAR, reg);
	return ret;
}

static void yukon_mac_init(struct skge_hw *hw, int port)
{
	struct skge_port *skge = netdev_priv(hw->dev[port]);
	int i;
	u32 reg;
	const u8 *addr = hw->dev[port]->dev_addr;

	/* WA code for COMA mode -- set PHY reset */
	if (hw->chip_id == CHIP_ID_YUKON_LITE &&
	    hw->chip_rev >= CHIP_REV_YU_LITE_A3) {
		reg = skge_read32(hw, B2_GP_IO);
		reg |= GP_DIR_9 | GP_IO_9;
		skge_write32(hw, B2_GP_IO, reg);
	}

	/* hard reset */
	skge_write32(hw, SK_REG(port, GPHY_CTRL), GPC_RST_SET);
	skge_write32(hw, SK_REG(port, GMAC_CTRL), GMC_RST_SET);

	/* WA code for COMA mode -- clear PHY reset */
	if (hw->chip_id == CHIP_ID_YUKON_LITE &&
	    hw->chip_rev >= CHIP_REV_YU_LITE_A3) {
		reg = skge_read32(hw, B2_GP_IO);
		reg |= GP_DIR_9;
		reg &= ~GP_IO_9;
		skge_write32(hw, B2_GP_IO, reg);
	}

	/* Set hardware config mode */
	reg = GPC_INT_POL_HI | GPC_DIS_FC | GPC_DIS_SLEEP |
		GPC_ENA_XC | GPC_ANEG_ADV_ALL_M | GPC_ENA_PAUSE;
	reg |= hw->copper ? GPC_HWCFG_GMII_COP : GPC_HWCFG_GMII_FIB;

	/* Clear GMC reset */
	skge_write32(hw, SK_REG(port, GPHY_CTRL), reg | GPC_RST_SET);
	skge_write32(hw, SK_REG(port, GPHY_CTRL), reg | GPC_RST_CLR);
	skge_write32(hw, SK_REG(port, GMAC_CTRL), GMC_PAUSE_ON | GMC_RST_CLR);

	if (skge->autoneg == AUTONEG_DISABLE) {
		reg = GM_GPCR_AU_ALL_DIS;
		gma_write16(hw, port, GM_GP_CTRL,
				 gma_read16(hw, port, GM_GP_CTRL) | reg);

		switch (skge->speed) {
		case SPEED_1000:
			reg &= ~GM_GPCR_SPEED_100;
			reg |= GM_GPCR_SPEED_1000;
			break;
		case SPEED_100:
			reg &= ~GM_GPCR_SPEED_1000;
			reg |= GM_GPCR_SPEED_100;
			break;
		case SPEED_10:
			reg &= ~(GM_GPCR_SPEED_1000 | GM_GPCR_SPEED_100);
			break;
		}

		if (skge->duplex == DUPLEX_FULL)
			reg |= GM_GPCR_DUP_FULL;
	} else
		reg = GM_GPCR_SPEED_1000 | GM_GPCR_SPEED_100 | GM_GPCR_DUP_FULL;

	switch (skge->flow_control) {
	case FLOW_MODE_NONE:
		skge_write32(hw, SK_REG(port, GMAC_CTRL), GMC_PAUSE_OFF);
		reg |= GM_GPCR_FC_TX_DIS | GM_GPCR_FC_RX_DIS | GM_GPCR_AU_FCT_DIS;
		break;
	case FLOW_MODE_LOC_SEND:
		/* disable Rx flow-control */
		reg |= GM_GPCR_FC_RX_DIS | GM_GPCR_AU_FCT_DIS;
	}

	gma_write16(hw, port, GM_GP_CTRL, reg);
	skge_read16(hw, SK_REG(port, GMAC_IRQ_SRC));

	yukon_init(hw, port);

	/* MIB clear */
	reg = gma_read16(hw, port, GM_PHY_ADDR);
	gma_write16(hw, port, GM_PHY_ADDR, reg | GM_PAR_MIB_CLR);

	for (i = 0; i < GM_MIB_CNT_SIZE; i++)
		gma_read16(hw, port, GM_MIB_CNT_BASE + 8*i);
	gma_write16(hw, port, GM_PHY_ADDR, reg);

	/* transmit control */
	gma_write16(hw, port, GM_TX_CTRL, TX_COL_THR(TX_COL_DEF));

	/* receive control reg: unicast + multicast + no FCS  */
	gma_write16(hw, port, GM_RX_CTRL,
			 GM_RXCR_UCF_ENA | GM_RXCR_CRC_DIS | GM_RXCR_MCF_ENA);

	/* transmit flow control */
	gma_write16(hw, port, GM_TX_FLOW_CTRL, 0xffff);

	/* transmit parameter */
	gma_write16(hw, port, GM_TX_PARAM,
			 TX_JAM_LEN_VAL(TX_JAM_LEN_DEF) |
			 TX_JAM_IPG_VAL(TX_JAM_IPG_DEF) |
			 TX_IPG_JAM_DATA(TX_IPG_JAM_DEF));

	/* serial mode register */
	reg = GM_SMOD_VLAN_ENA | IPG_DATA_VAL(IPG_DATA_DEF);
	if (hw->dev[port]->mtu > 1500)
		reg |= GM_SMOD_JUMBO_ENA;

	gma_write16(hw, port, GM_SERIAL_MODE, reg);

	/* physical address: used for pause frames */
	gma_set_addr(hw, port, GM_SRC_ADDR_1L, addr);
	/* virtual address for data */
	gma_set_addr(hw, port, GM_SRC_ADDR_2L, addr);

	/* enable interrupt mask for counter overflows */
	gma_write16(hw, port, GM_TX_IRQ_MSK, 0);
	gma_write16(hw, port, GM_RX_IRQ_MSK, 0);
	gma_write16(hw, port, GM_TR_IRQ_MSK, 0);

	/* Initialize Mac Fifo */

	/* Configure Rx MAC FIFO */
	skge_write16(hw, SK_REG(port, RX_GMF_FL_MSK), RX_FF_FL_DEF_MSK);
	reg = GMF_OPER_ON | GMF_RX_F_FL_ON;

	/* disable Rx GMAC FIFO Flush for YUKON-Lite Rev. A0 only */
	if (is_yukon_lite_a0(hw))
		reg &= ~GMF_RX_F_FL_ON;

	skge_write8(hw, SK_REG(port, RX_GMF_CTRL_T), GMF_RST_CLR);
	skge_write16(hw, SK_REG(port, RX_GMF_CTRL_T), reg);
	/*
	 * because Pause Packet Truncation in GMAC is not working
	 * we have to increase the Flush Threshold to 64 bytes
	 * in order to flush pause packets in Rx FIFO on Yukon-1
	 */
	skge_write16(hw, SK_REG(port, RX_GMF_FL_THR), RX_GMF_FL_THR_DEF+1);

	/* Configure Tx MAC FIFO */
	skge_write8(hw, SK_REG(port, TX_GMF_CTRL_T), GMF_RST_CLR);
	skge_write16(hw, SK_REG(port, TX_GMF_CTRL_T), GMF_OPER_ON);
}

/* Go into power down mode */
static void yukon_suspend(struct skge_hw *hw, int port)
{
	u16 ctrl;

	ctrl = gm_phy_read(hw, port, PHY_MARV_PHY_CTRL);
	ctrl |= PHY_M_PC_POL_R_DIS;
	gm_phy_write(hw, port, PHY_MARV_PHY_CTRL, ctrl);

	ctrl = gm_phy_read(hw, port, PHY_MARV_CTRL);
	ctrl |= PHY_CT_RESET;
	gm_phy_write(hw, port, PHY_MARV_CTRL, ctrl);

	/* switch IEEE compatible power down mode on */
	ctrl = gm_phy_read(hw, port, PHY_MARV_CTRL);
	ctrl |= PHY_CT_PDOWN;
	gm_phy_write(hw, port, PHY_MARV_CTRL, ctrl);
}

static void yukon_stop(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;

	skge_write8(hw, SK_REG(port, GMAC_IRQ_MSK), 0);
	yukon_reset(hw, port);

	gma_write16(hw, port, GM_GP_CTRL,
			 gma_read16(hw, port, GM_GP_CTRL)
			 & ~(GM_GPCR_TX_ENA|GM_GPCR_RX_ENA));
	gma_read16(hw, port, GM_GP_CTRL);

	yukon_suspend(hw, port);

	/* set GPHY Control reset */
	skge_write8(hw, SK_REG(port, GPHY_CTRL), GPC_RST_SET);
	skge_write8(hw, SK_REG(port, GMAC_CTRL), GMC_RST_SET);
}

static void yukon_get_stats(struct skge_port *skge, u64 *data)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	int i;

	data[0] = (u64) gma_read32(hw, port, GM_TXO_OK_HI) << 32
		| gma_read32(hw, port, GM_TXO_OK_LO);
	data[1] = (u64) gma_read32(hw, port, GM_RXO_OK_HI) << 32
		| gma_read32(hw, port, GM_RXO_OK_LO);

	for (i = 2; i < ARRAY_SIZE(skge_stats); i++)
		data[i] = gma_read32(hw, port,
					  skge_stats[i].gma_offset);
}

static void yukon_mac_intr(struct skge_hw *hw, int port)
{
	struct net_device *dev = hw->dev[port];
	struct skge_port *skge = netdev_priv(dev);
	u8 status = skge_read8(hw, SK_REG(port, GMAC_IRQ_SRC));

	if (netif_msg_intr(skge))
		printk(KERN_DEBUG PFX "%s: mac interrupt status 0x%x\n",
		       dev->name, status);

	if (status & GM_IS_RX_FF_OR) {
		++skge->net_stats.rx_fifo_errors;
		skge_write8(hw, SK_REG(port, RX_GMF_CTRL_T), GMF_CLI_RX_FO);
	}

	if (status & GM_IS_TX_FF_UR) {
		++skge->net_stats.tx_fifo_errors;
		skge_write8(hw, SK_REG(port, TX_GMF_CTRL_T), GMF_CLI_TX_FU);
	}

}

static u16 yukon_speed(const struct skge_hw *hw, u16 aux)
{
	switch (aux & PHY_M_PS_SPEED_MSK) {
	case PHY_M_PS_SPEED_1000:
		return SPEED_1000;
	case PHY_M_PS_SPEED_100:
		return SPEED_100;
	default:
		return SPEED_10;
	}
}

static void yukon_link_up(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u16 reg;

	/* Enable Transmit FIFO Underrun */
	skge_write8(hw, SK_REG(port, GMAC_IRQ_MSK), GMAC_DEF_MSK);

	reg = gma_read16(hw, port, GM_GP_CTRL);
	if (skge->duplex == DUPLEX_FULL || skge->autoneg == AUTONEG_ENABLE)
		reg |= GM_GPCR_DUP_FULL;

	/* enable Rx/Tx */
	reg |= GM_GPCR_RX_ENA | GM_GPCR_TX_ENA;
	gma_write16(hw, port, GM_GP_CTRL, reg);

	gm_phy_write(hw, port, PHY_MARV_INT_MASK, PHY_M_IS_DEF_MSK);
	skge_link_up(skge);
}

static void yukon_link_down(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u16 ctrl;

	gm_phy_write(hw, port, PHY_MARV_INT_MASK, 0);

	ctrl = gma_read16(hw, port, GM_GP_CTRL);
	ctrl &= ~(GM_GPCR_RX_ENA | GM_GPCR_TX_ENA);
	gma_write16(hw, port, GM_GP_CTRL, ctrl);

	if (skge->flow_control == FLOW_MODE_REM_SEND) {
		/* restore Asymmetric Pause bit */
		gm_phy_write(hw, port, PHY_MARV_AUNE_ADV,
				  gm_phy_read(hw, port,
						   PHY_MARV_AUNE_ADV)
				  | PHY_M_AN_ASP);

	}

	yukon_reset(hw, port);
	skge_link_down(skge);

	yukon_init(hw, port);
}

static void yukon_phy_intr(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	const char *reason = NULL;
	u16 istatus, phystat;

	istatus = gm_phy_read(hw, port, PHY_MARV_INT_STAT);
	phystat = gm_phy_read(hw, port, PHY_MARV_PHY_STAT);

	if (netif_msg_intr(skge))
		printk(KERN_DEBUG PFX "%s: phy interrupt status 0x%x 0x%x\n",
		       skge->netdev->name, istatus, phystat);

	if (istatus & PHY_M_IS_AN_COMPL) {
		if (gm_phy_read(hw, port, PHY_MARV_AUNE_LP)
		    & PHY_M_AN_RF) {
			reason = "remote fault";
			goto failed;
		}

		if (gm_phy_read(hw, port, PHY_MARV_1000T_STAT) & PHY_B_1000S_MSF) {
			reason = "master/slave fault";
			goto failed;
		}

		if (!(phystat & PHY_M_PS_SPDUP_RES)) {
			reason = "speed/duplex";
			goto failed;
		}

		skge->duplex = (phystat & PHY_M_PS_FULL_DUP)
			? DUPLEX_FULL : DUPLEX_HALF;
		skge->speed = yukon_speed(hw, phystat);

		/* We are using IEEE 802.3z/D5.0 Table 37-4 */
		switch (phystat & PHY_M_PS_PAUSE_MSK) {
		case PHY_M_PS_PAUSE_MSK:
			skge->flow_control = FLOW_MODE_SYMMETRIC;
			break;
		case PHY_M_PS_RX_P_EN:
			skge->flow_control = FLOW_MODE_REM_SEND;
			break;
		case PHY_M_PS_TX_P_EN:
			skge->flow_control = FLOW_MODE_LOC_SEND;
			break;
		default:
			skge->flow_control = FLOW_MODE_NONE;
		}

		if (skge->flow_control == FLOW_MODE_NONE ||
		    (skge->speed < SPEED_1000 && skge->duplex == DUPLEX_HALF))
			skge_write8(hw, SK_REG(port, GMAC_CTRL), GMC_PAUSE_OFF);
		else
			skge_write8(hw, SK_REG(port, GMAC_CTRL), GMC_PAUSE_ON);
		yukon_link_up(skge);
		return;
	}

	if (istatus & PHY_M_IS_LSP_CHANGE)
		skge->speed = yukon_speed(hw, phystat);

	if (istatus & PHY_M_IS_DUP_CHANGE)
		skge->duplex = (phystat & PHY_M_PS_FULL_DUP) ? DUPLEX_FULL : DUPLEX_HALF;
	if (istatus & PHY_M_IS_LST_CHANGE) {
		if (phystat & PHY_M_PS_LINK_UP)
			yukon_link_up(skge);
		else
			yukon_link_down(skge);
	}
	return;
 failed:
	printk(KERN_ERR PFX "%s: autonegotiation failed (%s)\n",
	       skge->netdev->name, reason);

	/* XXX restart autonegotiation? */
}

static void skge_phy_reset(struct skge_port *skge)
{
	struct skge_hw *hw = skge->hw;
	int port = skge->port;

	netif_stop_queue(skge->netdev);
	netif_carrier_off(skge->netdev);

	mutex_lock(&hw->phy_mutex);
	if (hw->chip_id == CHIP_ID_GENESIS) {
		genesis_reset(hw, port);
		genesis_mac_init(hw, port);
	} else {
		yukon_reset(hw, port);
		yukon_init(hw, port);
	}
	mutex_unlock(&hw->phy_mutex);
}

/* Basic MII support */
static int skge_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd)
{
	struct mii_ioctl_data *data = if_mii(ifr);
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int err = -EOPNOTSUPP;

	if (!netif_running(dev))
		return -ENODEV;	/* Phy still in reset */

	switch(cmd) {
	case SIOCGMIIPHY:
		data->phy_id = hw->phy_addr;

		/* fallthru */
	case SIOCGMIIREG: {
		u16 val = 0;
		mutex_lock(&hw->phy_mutex);
		if (hw->chip_id == CHIP_ID_GENESIS)
			err = __xm_phy_read(hw, skge->port, data->reg_num & 0x1f, &val);
		else
			err = __gm_phy_read(hw, skge->port, data->reg_num & 0x1f, &val);
		mutex_unlock(&hw->phy_mutex);
		data->val_out = val;
		break;
	}

	case SIOCSMIIREG:
		if (!capable(CAP_NET_ADMIN))
			return -EPERM;

		mutex_lock(&hw->phy_mutex);
		if (hw->chip_id == CHIP_ID_GENESIS)
			err = xm_phy_write(hw, skge->port, data->reg_num & 0x1f,
				   data->val_in);
		else
			err = gm_phy_write(hw, skge->port, data->reg_num & 0x1f,
				   data->val_in);
		mutex_unlock(&hw->phy_mutex);
		break;
	}
	return err;
}

static void skge_ramset(struct skge_hw *hw, u16 q, u32 start, size_t len)
{
	u32 end;

	start /= 8;
	len /= 8;
	end = start + len - 1;

	skge_write8(hw, RB_ADDR(q, RB_CTRL), RB_RST_CLR);
	skge_write32(hw, RB_ADDR(q, RB_START), start);
	skge_write32(hw, RB_ADDR(q, RB_WP), start);
	skge_write32(hw, RB_ADDR(q, RB_RP), start);
	skge_write32(hw, RB_ADDR(q, RB_END), end);

	if (q == Q_R1 || q == Q_R2) {
		/* Set thresholds on receive queue's */
		skge_write32(hw, RB_ADDR(q, RB_RX_UTPP),
			     start + (2*len)/3);
		skge_write32(hw, RB_ADDR(q, RB_RX_LTPP),
			     start + (len/3));
	} else {
		/* Enable store & forward on Tx queue's because
		 * Tx FIFO is only 4K on Genesis and 1K on Yukon
		 */
		skge_write8(hw, RB_ADDR(q, RB_CTRL), RB_ENA_STFWD);
	}

	skge_write8(hw, RB_ADDR(q, RB_CTRL), RB_ENA_OP_MD);
}

/* Setup Bus Memory Interface */
static void skge_qset(struct skge_port *skge, u16 q,
		      const struct skge_element *e)
{
	struct skge_hw *hw = skge->hw;
	u32 watermark = 0x600;
	u64 base = skge->dma + (e->desc - skge->mem);

	/* optimization to reduce window on 32bit/33mhz */
	if ((skge_read16(hw, B0_CTST) & (CS_BUS_CLOCK | CS_BUS_SLOT_SZ)) == 0)
		watermark /= 2;

	skge_write32(hw, Q_ADDR(q, Q_CSR), CSR_CLR_RESET);
	skge_write32(hw, Q_ADDR(q, Q_F), watermark);
	skge_write32(hw, Q_ADDR(q, Q_DA_H), (u32)(base >> 32));
	skge_write32(hw, Q_ADDR(q, Q_DA_L), (u32)base);
}

static int skge_up(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	u32 chunk, ram_addr;
	size_t rx_size, tx_size;
	int err;

	if (netif_msg_ifup(skge))
		printk(KERN_INFO PFX "%s: enabling interface\n", dev->name);

	if (dev->mtu > RX_BUF_SIZE)
		skge->rx_buf_size = dev->mtu + ETH_HLEN;
	else
		skge->rx_buf_size = RX_BUF_SIZE;


	rx_size = skge->rx_ring.count * sizeof(struct skge_rx_desc);
	tx_size = skge->tx_ring.count * sizeof(struct skge_tx_desc);
	skge->mem_size = tx_size + rx_size;
	skge->mem = pci_alloc_consistent(hw->pdev, skge->mem_size, &skge->dma);
	if (!skge->mem)
		return -ENOMEM;

	BUG_ON(skge->dma & 7);

	if ((u64)skge->dma >> 32 != ((u64) skge->dma + skge->mem_size) >> 32) {
		printk(KERN_ERR PFX "pci_alloc_consistent region crosses 4G boundary\n");
		err = -EINVAL;
		goto free_pci_mem;
	}

	memset(skge->mem, 0, skge->mem_size);

	err = skge_ring_alloc(&skge->rx_ring, skge->mem, skge->dma);
	if (err)
		goto free_pci_mem;

	err = skge_rx_fill(dev);
	if (err)
		goto free_rx_ring;

	err = skge_ring_alloc(&skge->tx_ring, skge->mem + rx_size,
			      skge->dma + rx_size);
	if (err)
		goto free_rx_ring;

	/* Initialize MAC */
	mutex_lock(&hw->phy_mutex);
	if (hw->chip_id == CHIP_ID_GENESIS)
		genesis_mac_init(hw, port);
	else
		yukon_mac_init(hw, port);
	mutex_unlock(&hw->phy_mutex);

	/* Configure RAMbuffers */
	chunk = hw->ram_size / ((hw->ports + 1)*2);
	ram_addr = hw->ram_offset + 2 * chunk * port;

	skge_ramset(hw, rxqaddr[port], ram_addr, chunk);
	skge_qset(skge, rxqaddr[port], skge->rx_ring.to_clean);

	BUG_ON(skge->tx_ring.to_use != skge->tx_ring.to_clean);
	skge_ramset(hw, txqaddr[port], ram_addr+chunk, chunk);
	skge_qset(skge, txqaddr[port], skge->tx_ring.to_use);

	/* Start receiver BMU */
	wmb();
	skge_write8(hw, Q_ADDR(rxqaddr[port], Q_CSR), CSR_START | CSR_IRQ_CL_F);
	skge_led(skge, LED_MODE_ON);

	netif_poll_enable(dev);
	return 0;

 free_rx_ring:
	skge_rx_clean(skge);
	kfree(skge->rx_ring.start);
 free_pci_mem:
	pci_free_consistent(hw->pdev, skge->mem_size, skge->mem, skge->dma);
	skge->mem = NULL;

	return err;
}

static int skge_down(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int port = skge->port;

	if (skge->mem == NULL)
		return 0;

	if (netif_msg_ifdown(skge))
		printk(KERN_INFO PFX "%s: disabling interface\n", dev->name);

	netif_stop_queue(dev);
	if (hw->chip_id == CHIP_ID_GENESIS && hw->phy_type == SK_PHY_XMAC)
		cancel_rearming_delayed_work(&skge->link_thread);

	skge_write8(skge->hw, SK_REG(skge->port, LNK_LED_REG), LED_OFF);
	if (hw->chip_id == CHIP_ID_GENESIS)
		genesis_stop(skge);
	else
		yukon_stop(skge);

	/* Stop transmitter */
	skge_write8(hw, Q_ADDR(txqaddr[port], Q_CSR), CSR_STOP);
	skge_write32(hw, RB_ADDR(txqaddr[port], RB_CTRL),
		     RB_RST_SET|RB_DIS_OP_MD);


	/* Disable Force Sync bit and Enable Alloc bit */
	skge_write8(hw, SK_REG(port, TXA_CTRL),
		    TXA_DIS_FSYNC | TXA_DIS_ALLOC | TXA_STOP_RC);

	/* Stop Interval Timer and Limit Counter of Tx Arbiter */
	skge_write32(hw, SK_REG(port, TXA_ITI_INI), 0L);
	skge_write32(hw, SK_REG(port, TXA_LIM_INI), 0L);

	/* Reset PCI FIFO */
	skge_write32(hw, Q_ADDR(txqaddr[port], Q_CSR), CSR_SET_RESET);
	skge_write32(hw, RB_ADDR(txqaddr[port], RB_CTRL), RB_RST_SET);

	/* Reset the RAM Buffer async Tx queue */
	skge_write8(hw, RB_ADDR(port == 0 ? Q_XA1 : Q_XA2, RB_CTRL), RB_RST_SET);
	/* stop receiver */
	skge_write8(hw, Q_ADDR(rxqaddr[port], Q_CSR), CSR_STOP);
	skge_write32(hw, RB_ADDR(port ? Q_R2 : Q_R1, RB_CTRL),
		     RB_RST_SET|RB_DIS_OP_MD);
	skge_write32(hw, Q_ADDR(rxqaddr[port], Q_CSR), CSR_SET_RESET);

	if (hw->chip_id == CHIP_ID_GENESIS) {
		skge_write8(hw, SK_REG(port, TX_MFF_CTRL2), MFF_RST_SET);
		skge_write8(hw, SK_REG(port, RX_MFF_CTRL2), MFF_RST_SET);
	} else {
		skge_write8(hw, SK_REG(port, RX_GMF_CTRL_T), GMF_RST_SET);
		skge_write8(hw, SK_REG(port, TX_GMF_CTRL_T), GMF_RST_SET);
	}

	skge_led(skge, LED_MODE_OFF);

	netif_poll_disable(dev);
	skge_tx_clean(dev);
	skge_rx_clean(skge);

	kfree(skge->rx_ring.start);
	kfree(skge->tx_ring.start);
	pci_free_consistent(hw->pdev, skge->mem_size, skge->mem, skge->dma);
	skge->mem = NULL;
	return 0;
}

static inline int skge_avail(const struct skge_ring *ring)
{
	return ((ring->to_clean > ring->to_use) ? 0 : ring->count)
		+ (ring->to_clean - ring->to_use) - 1;
}

static int skge_xmit_frame(struct sk_buff *skb, struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	struct skge_element *e;
	struct skge_tx_desc *td;
	int i;
	u32 control, len;
	u64 map;

	if (skb_padto(skb, ETH_ZLEN))
		return NETDEV_TX_OK;

	if (unlikely(skge_avail(&skge->tx_ring) < skb_shinfo(skb)->nr_frags + 1))
		return NETDEV_TX_BUSY;

	e = skge->tx_ring.to_use;
	td = e->desc;
	BUG_ON(td->control & BMU_OWN);
	e->skb = skb;
	len = skb_headlen(skb);
	map = pci_map_single(hw->pdev, skb->data, len, PCI_DMA_TODEVICE);
	pci_unmap_addr_set(e, mapaddr, map);
	pci_unmap_len_set(e, maplen, len);

	td->dma_lo = map;
	td->dma_hi = map >> 32;

	if (skb->ip_summed == CHECKSUM_PARTIAL) {
		int offset = skb->h.raw - skb->data;

		/* This seems backwards, but it is what the sk98lin
		 * does.  Looks like hardware is wrong?
		 */
		if (skb->h.ipiph->protocol == IPPROTO_UDP
	            && hw->chip_rev == 0 && hw->chip_id == CHIP_ID_YUKON)
			control = BMU_TCP_CHECK;
		else
			control = BMU_UDP_CHECK;

		td->csum_offs = 0;
		td->csum_start = offset;
		td->csum_write = offset + skb->csum;
	} else
		control = BMU_CHECK;

	if (!skb_shinfo(skb)->nr_frags) /* single buffer i.e. no fragments */
		control |= BMU_EOF| BMU_IRQ_EOF;
	else {
		struct skge_tx_desc *tf = td;

		control |= BMU_STFWD;
		for (i = 0; i < skb_shinfo(skb)->nr_frags; i++) {
			skb_frag_t *frag = &skb_shinfo(skb)->frags[i];

			map = pci_map_page(hw->pdev, frag->page, frag->page_offset,
					   frag->size, PCI_DMA_TODEVICE);

			e = e->next;
			e->skb = skb;
			tf = e->desc;
			BUG_ON(tf->control & BMU_OWN);

			tf->dma_lo = map;
			tf->dma_hi = (u64) map >> 32;
			pci_unmap_addr_set(e, mapaddr, map);
			pci_unmap_len_set(e, maplen, frag->size);

			tf->control = BMU_OWN | BMU_SW | control | frag->size;
		}
		tf->control |= BMU_EOF | BMU_IRQ_EOF;
	}
	/* Make sure all the descriptors written */
	wmb();
	td->control = BMU_OWN | BMU_SW | BMU_STF | control | len;
	wmb();

	skge_write8(hw, Q_ADDR(txqaddr[skge->port], Q_CSR), CSR_START);

	if (unlikely(netif_msg_tx_queued(skge)))
		printk(KERN_DEBUG "%s: tx queued, slot %td, len %d\n",
		       dev->name, e - skge->tx_ring.start, skb->len);

	skge->tx_ring.to_use = e->next;
	if (skge_avail(&skge->tx_ring) <= TX_LOW_WATER) {
		pr_debug("%s: transmit queue full\n", dev->name);
		netif_stop_queue(dev);
	}

	dev->trans_start = jiffies;

	return NETDEV_TX_OK;
}


/* Free resources associated with this reing element */
static void skge_tx_free(struct skge_port *skge, struct skge_element *e,
			 u32 control)
{
	struct pci_dev *pdev = skge->hw->pdev;

	BUG_ON(!e->skb);

	/* skb header vs. fragment */
	if (control & BMU_STF)
		pci_unmap_single(pdev, pci_unmap_addr(e, mapaddr),
				 pci_unmap_len(e, maplen),
				 PCI_DMA_TODEVICE);
	else
		pci_unmap_page(pdev, pci_unmap_addr(e, mapaddr),
			       pci_unmap_len(e, maplen),
			       PCI_DMA_TODEVICE);

	if (control & BMU_EOF) {
		if (unlikely(netif_msg_tx_done(skge)))
			printk(KERN_DEBUG PFX "%s: tx done slot %td\n",
			       skge->netdev->name, e - skge->tx_ring.start);

		dev_kfree_skb(e->skb);
	}
	e->skb = NULL;
}

/* Free all buffers in transmit ring */
static void skge_tx_clean(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_element *e;

	netif_tx_lock_bh(dev);
	for (e = skge->tx_ring.to_clean; e != skge->tx_ring.to_use; e = e->next) {
		struct skge_tx_desc *td = e->desc;
		skge_tx_free(skge, e, td->control);
		td->control = 0;
	}

	skge->tx_ring.to_clean = e;
	netif_wake_queue(dev);
	netif_tx_unlock_bh(dev);
}

static void skge_tx_timeout(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);

	if (netif_msg_timer(skge))
		printk(KERN_DEBUG PFX "%s: tx timeout\n", dev->name);

	skge_write8(skge->hw, Q_ADDR(txqaddr[skge->port], Q_CSR), CSR_STOP);
	skge_tx_clean(dev);
}

static int skge_change_mtu(struct net_device *dev, int new_mtu)
{
	int err;

	if (new_mtu < ETH_ZLEN || new_mtu > ETH_JUMBO_MTU)
		return -EINVAL;

	if (!netif_running(dev)) {
		dev->mtu = new_mtu;
		return 0;
	}

	skge_down(dev);

	dev->mtu = new_mtu;

	err = skge_up(dev);
	if (err)
		dev_close(dev);

	return err;
}

static void genesis_set_multicast(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	int i, count = dev->mc_count;
	struct dev_mc_list *list = dev->mc_list;
	u32 mode;
	u8 filter[8];

	mode = xm_read32(hw, port, XM_MODE);
	mode |= XM_MD_ENA_HASH;
	if (dev->flags & IFF_PROMISC)
		mode |= XM_MD_ENA_PROM;
	else
		mode &= ~XM_MD_ENA_PROM;

	if (dev->flags & IFF_ALLMULTI)
		memset(filter, 0xff, sizeof(filter));
	else {
		memset(filter, 0, sizeof(filter));
		for (i = 0; list && i < count; i++, list = list->next) {
			u32 crc, bit;
			crc = ether_crc_le(ETH_ALEN, list->dmi_addr);
			bit = ~crc & 0x3f;
			filter[bit/8] |= 1 << (bit%8);
		}
	}

	xm_write32(hw, port, XM_MODE, mode);
	xm_outhash(hw, port, XM_HSM, filter);
}

static void yukon_set_multicast(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	int port = skge->port;
	struct dev_mc_list *list = dev->mc_list;
	u16 reg;
	u8 filter[8];

	memset(filter, 0, sizeof(filter));

	reg = gma_read16(hw, port, GM_RX_CTRL);
	reg |= GM_RXCR_UCF_ENA;

	if (dev->flags & IFF_PROMISC) 		/* promiscuous */
		reg &= ~(GM_RXCR_UCF_ENA | GM_RXCR_MCF_ENA);
	else if (dev->flags & IFF_ALLMULTI)	/* all multicast */
		memset(filter, 0xff, sizeof(filter));
	else if (dev->mc_count == 0)		/* no multicast */
		reg &= ~GM_RXCR_MCF_ENA;
	else {
		int i;
		reg |= GM_RXCR_MCF_ENA;

		for (i = 0; list && i < dev->mc_count; i++, list = list->next) {
			u32 bit = ether_crc(ETH_ALEN, list->dmi_addr) & 0x3f;
			filter[bit/8] |= 1 << (bit%8);
		}
	}


	gma_write16(hw, port, GM_MC_ADDR_H1,
			 (u16)filter[0] | ((u16)filter[1] << 8));
	gma_write16(hw, port, GM_MC_ADDR_H2,
			 (u16)filter[2] | ((u16)filter[3] << 8));
	gma_write16(hw, port, GM_MC_ADDR_H3,
			 (u16)filter[4] | ((u16)filter[5] << 8));
	gma_write16(hw, port, GM_MC_ADDR_H4,
			 (u16)filter[6] | ((u16)filter[7] << 8));

	gma_write16(hw, port, GM_RX_CTRL, reg);
}

static inline u16 phy_length(const struct skge_hw *hw, u32 status)
{
	if (hw->chip_id == CHIP_ID_GENESIS)
		return status >> XMR_FS_LEN_SHIFT;
	else
		return status >> GMR_FS_LEN_SHIFT;
}

static inline int bad_phy_status(const struct skge_hw *hw, u32 status)
{
	if (hw->chip_id == CHIP_ID_GENESIS)
		return (status & (XMR_FS_ERR | XMR_FS_2L_VLAN)) != 0;
	else
		return (status & GMR_FS_ANY_ERR) ||
			(status & GMR_FS_RX_OK) == 0;
}


/* Get receive buffer from descriptor.
 * Handles copy of small buffers and reallocation failures
 */
static struct sk_buff *skge_rx_get(struct net_device *dev,
				   struct skge_element *e,
				   u32 control, u32 status, u16 csum)
{
	struct skge_port *skge = netdev_priv(dev);
	struct sk_buff *skb;
	u16 len = control & BMU_BBC;

	if (unlikely(netif_msg_rx_status(skge)))
		printk(KERN_DEBUG PFX "%s: rx slot %td status 0x%x len %d\n",
		       dev->name, e - skge->rx_ring.start,
		       status, len);

	if (len > skge->rx_buf_size)
		goto error;

	if ((control & (BMU_EOF|BMU_STF)) != (BMU_STF|BMU_EOF))
		goto error;

	if (bad_phy_status(skge->hw, status))
		goto error;

	if (phy_length(skge->hw, status) != len)
		goto error;

	if (len < RX_COPY_THRESHOLD) {
		skb = netdev_alloc_skb(dev, len + 2);
		if (!skb)
			goto resubmit;

		skb_reserve(skb, 2);
		pci_dma_sync_single_for_cpu(skge->hw->pdev,
					    pci_unmap_addr(e, mapaddr),
					    len, PCI_DMA_FROMDEVICE);
		memcpy(skb->data, e->skb->data, len);
		pci_dma_sync_single_for_device(skge->hw->pdev,
					       pci_unmap_addr(e, mapaddr),
					       len, PCI_DMA_FROMDEVICE);
		skge_rx_reuse(e, skge->rx_buf_size);
	} else {
		struct sk_buff *nskb;
		nskb = netdev_alloc_skb(dev, skge->rx_buf_size + NET_IP_ALIGN);
		if (!nskb)
			goto resubmit;

		skb_reserve(nskb, NET_IP_ALIGN);
		pci_unmap_single(skge->hw->pdev,
				 pci_unmap_addr(e, mapaddr),
				 pci_unmap_len(e, maplen),
				 PCI_DMA_FROMDEVICE);
		skb = e->skb;
  		prefetch(skb->data);
		skge_rx_setup(skge, e, nskb, skge->rx_buf_size);
	}

	skb_put(skb, len);
	if (skge->rx_csum) {
		skb->csum = csum;
		skb->ip_summed = CHECKSUM_COMPLETE;
	}

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

	return skb;
error:

	if (netif_msg_rx_err(skge))
		printk(KERN_DEBUG PFX "%s: rx err, slot %td control 0x%x status 0x%x\n",
		       dev->name, e - skge->rx_ring.start,
		       control, status);

	if (skge->hw->chip_id == CHIP_ID_GENESIS) {
		if (status & (XMR_FS_RUNT|XMR_FS_LNG_ERR))
			skge->net_stats.rx_length_errors++;
		if (status & XMR_FS_FRA_ERR)
			skge->net_stats.rx_frame_errors++;
		if (status & XMR_FS_FCS_ERR)
			skge->net_stats.rx_crc_errors++;
	} else {
		if (status & (GMR_FS_LONG_ERR|GMR_FS_UN_SIZE))
			skge->net_stats.rx_length_errors++;
		if (status & GMR_FS_FRAGMENT)
			skge->net_stats.rx_frame_errors++;
		if (status & GMR_FS_CRC_ERR)
			skge->net_stats.rx_crc_errors++;
	}

resubmit:
	skge_rx_reuse(e, skge->rx_buf_size);
	return NULL;
}

/* Free all buffers in Tx ring which are no longer owned by device */
static void skge_tx_done(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_ring *ring = &skge->tx_ring;
	struct skge_element *e;

	skge_write8(skge->hw, Q_ADDR(txqaddr[skge->port], Q_CSR), CSR_IRQ_CL_F);

	netif_tx_lock(dev);
	for (e = ring->to_clean; e != ring->to_use; e = e->next) {
		struct skge_tx_desc *td = e->desc;

		if (td->control & BMU_OWN)
			break;

		skge_tx_free(skge, e, td->control);
	}
	skge->tx_ring.to_clean = e;

	if (skge_avail(&skge->tx_ring) > TX_LOW_WATER)
		netif_wake_queue(dev);

	netif_tx_unlock(dev);
}

static int skge_poll(struct net_device *dev, int *budget)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	struct skge_ring *ring = &skge->rx_ring;
	struct skge_element *e;
	int to_do = min(dev->quota, *budget);
	int work_done = 0;

	skge_tx_done(dev);

	skge_write8(hw, Q_ADDR(rxqaddr[skge->port], Q_CSR), CSR_IRQ_CL_F);

	for (e = ring->to_clean; prefetch(e->next), work_done < to_do; e = e->next) {
		struct skge_rx_desc *rd = e->desc;
		struct sk_buff *skb;
		u32 control;

		rmb();
		control = rd->control;
		if (control & BMU_OWN)
			break;

		skb = skge_rx_get(dev, e, control, rd->status, rd->csum2);
		if (likely(skb)) {
			dev->last_rx = jiffies;
			netif_receive_skb(skb);

			++work_done;
		}
	}
	ring->to_clean = e;

	/* restart receiver */
	wmb();
	skge_write8(hw, Q_ADDR(rxqaddr[skge->port], Q_CSR), CSR_START);

	*budget -= work_done;
	dev->quota -= work_done;

	if (work_done >=  to_do)
		return 1; /* not done */

	spin_lock_irq(&hw->hw_lock);
	__netif_rx_complete(dev);
	hw->intr_mask |= irqmask[skge->port];
  	skge_write32(hw, B0_IMSK, hw->intr_mask);
	skge_read32(hw, B0_IMSK);
	spin_unlock_irq(&hw->hw_lock);

	return 0;
}

/* Parity errors seem to happen when Genesis is connected to a switch
 * with no other ports present. Heartbeat error??
 */
static void skge_mac_parity(struct skge_hw *hw, int port)
{
	struct net_device *dev = hw->dev[port];

	if (dev) {
		struct skge_port *skge = netdev_priv(dev);
		++skge->net_stats.tx_heartbeat_errors;
	}

	if (hw->chip_id == CHIP_ID_GENESIS)
		skge_write16(hw, SK_REG(port, TX_MFF_CTRL1),
			     MFF_CLR_PERR);
	else
		/* HW-Bug #8: cleared by GMF_CLI_TX_FC instead of GMF_CLI_TX_PE */
		skge_write8(hw, SK_REG(port, TX_GMF_CTRL_T),
			    (hw->chip_id == CHIP_ID_YUKON && hw->chip_rev == 0)
			    ? GMF_CLI_TX_FC : GMF_CLI_TX_PE);
}

static void skge_mac_intr(struct skge_hw *hw, int port)
{
	if (hw->chip_id == CHIP_ID_GENESIS)
		genesis_mac_intr(hw, port);
	else
		yukon_mac_intr(hw, port);
}

/* Handle device specific framing and timeout interrupts */
static void skge_error_irq(struct skge_hw *hw)
{
	u32 hwstatus = skge_read32(hw, B0_HWE_ISRC);

	if (hw->chip_id == CHIP_ID_GENESIS) {
		/* clear xmac errors */
		if (hwstatus & (IS_NO_STAT_M1|IS_NO_TIST_M1))
			skge_write16(hw, RX_MFF_CTRL1, MFF_CLR_INSTAT);
		if (hwstatus & (IS_NO_STAT_M2|IS_NO_TIST_M2))
			skge_write16(hw, RX_MFF_CTRL2, MFF_CLR_INSTAT);
	} else {
		/* Timestamp (unused) overflow */
		if (hwstatus & IS_IRQ_TIST_OV)
			skge_write8(hw, GMAC_TI_ST_CTRL, GMT_ST_CLR_IRQ);
	}

	if (hwstatus & IS_RAM_RD_PAR) {
		printk(KERN_ERR PFX "Ram read data parity error\n");
		skge_write16(hw, B3_RI_CTRL, RI_CLR_RD_PERR);
	}

	if (hwstatus & IS_RAM_WR_PAR) {
		printk(KERN_ERR PFX "Ram write data parity error\n");
		skge_write16(hw, B3_RI_CTRL, RI_CLR_WR_PERR);
	}

	if (hwstatus & IS_M1_PAR_ERR)
		skge_mac_parity(hw, 0);

	if (hwstatus & IS_M2_PAR_ERR)
		skge_mac_parity(hw, 1);

	if (hwstatus & IS_R1_PAR_ERR) {
		printk(KERN_ERR PFX "%s: receive queue parity error\n",
		       hw->dev[0]->name);
		skge_write32(hw, B0_R1_CSR, CSR_IRQ_CL_P);
	}

	if (hwstatus & IS_R2_PAR_ERR) {
		printk(KERN_ERR PFX "%s: receive queue parity error\n",
		       hw->dev[1]->name);
		skge_write32(hw, B0_R2_CSR, CSR_IRQ_CL_P);
	}

	if (hwstatus & (IS_IRQ_MST_ERR|IS_IRQ_STAT)) {
		u16 pci_status, pci_cmd;

		pci_read_config_word(hw->pdev, PCI_COMMAND, &pci_cmd);
		pci_read_config_word(hw->pdev, PCI_STATUS, &pci_status);

		printk(KERN_ERR PFX "%s: PCI error cmd=%#x status=%#x\n",
			       pci_name(hw->pdev), pci_cmd, pci_status);

		/* Write the error bits back to clear them. */
		pci_status &= PCI_STATUS_ERROR_BITS;
		skge_write8(hw, B2_TST_CTRL1, TST_CFG_WRITE_ON);
		pci_write_config_word(hw->pdev, PCI_COMMAND,
				      pci_cmd | PCI_COMMAND_SERR | PCI_COMMAND_PARITY);
		pci_write_config_word(hw->pdev, PCI_STATUS, pci_status);
		skge_write8(hw, B2_TST_CTRL1, TST_CFG_WRITE_OFF);

		/* if error still set then just ignore it */
		hwstatus = skge_read32(hw, B0_HWE_ISRC);
		if (hwstatus & IS_IRQ_STAT) {
			printk(KERN_INFO PFX "unable to clear error (so ignoring them)\n");
			hw->intr_mask &= ~IS_HW_ERR;
		}
	}
}

/*
 * Interrupt from PHY are handled in work queue
 * because accessing phy registers requires spin wait which might
 * cause excess interrupt latency.
 */
static void skge_extirq(void *arg)
{
	struct skge_hw *hw = arg;
	int port;

	mutex_lock(&hw->phy_mutex);
	for (port = 0; port < hw->ports; port++) {
		struct net_device *dev = hw->dev[port];
		struct skge_port *skge = netdev_priv(dev);

		if (netif_running(dev)) {
			if (hw->chip_id != CHIP_ID_GENESIS)
				yukon_phy_intr(skge);
			else if (hw->phy_type == SK_PHY_BCOM)
				bcom_phy_intr(skge);
		}
	}
	mutex_unlock(&hw->phy_mutex);

	spin_lock_irq(&hw->hw_lock);
	hw->intr_mask |= IS_EXT_REG;
	skge_write32(hw, B0_IMSK, hw->intr_mask);
	skge_read32(hw, B0_IMSK);
	spin_unlock_irq(&hw->hw_lock);
}

static irqreturn_t skge_intr(int irq, void *dev_id, struct pt_regs *regs)
{
	struct skge_hw *hw = dev_id;
	u32 status;
	int handled = 0;

	spin_lock(&hw->hw_lock);
	/* Reading this register masks IRQ */
	status = skge_read32(hw, B0_SP_ISRC);
	if (status == 0 || status == ~0)
		goto out;

	handled = 1;
	status &= hw->intr_mask;
	if (status & IS_EXT_REG) {
		hw->intr_mask &= ~IS_EXT_REG;
		schedule_work(&hw->phy_work);
	}

	if (status & (IS_XA1_F|IS_R1_F)) {
		hw->intr_mask &= ~(IS_XA1_F|IS_R1_F);
		netif_rx_schedule(hw->dev[0]);
	}

	if (status & IS_PA_TO_TX1)
		skge_write16(hw, B3_PA_CTRL, PA_CLR_TO_TX1);

	if (status & IS_PA_TO_RX1) {
		struct skge_port *skge = netdev_priv(hw->dev[0]);

		++skge->net_stats.rx_over_errors;
		skge_write16(hw, B3_PA_CTRL, PA_CLR_TO_RX1);
	}


	if (status & IS_MAC1)
		skge_mac_intr(hw, 0);

	if (hw->dev[1]) {
		if (status & (IS_XA2_F|IS_R2_F)) {
			hw->intr_mask &= ~(IS_XA2_F|IS_R2_F);
			netif_rx_schedule(hw->dev[1]);
		}

		if (status & IS_PA_TO_RX2) {
			struct skge_port *skge = netdev_priv(hw->dev[1]);
			++skge->net_stats.rx_over_errors;
			skge_write16(hw, B3_PA_CTRL, PA_CLR_TO_RX2);
		}

		if (status & IS_PA_TO_TX2)
			skge_write16(hw, B3_PA_CTRL, PA_CLR_TO_TX2);

		if (status & IS_MAC2)
			skge_mac_intr(hw, 1);
	}

	if (status & IS_HW_ERR)
		skge_error_irq(hw);

	skge_write32(hw, B0_IMSK, hw->intr_mask);
	skge_read32(hw, B0_IMSK);
out:
	spin_unlock(&hw->hw_lock);

	return IRQ_RETVAL(handled);
}

#ifdef CONFIG_NET_POLL_CONTROLLER
static void skge_netpoll(struct net_device *dev)
{
	struct skge_port *skge = netdev_priv(dev);

	disable_irq(dev->irq);
	skge_intr(dev->irq, skge->hw, NULL);
	enable_irq(dev->irq);
}
#endif

static int skge_set_mac_address(struct net_device *dev, void *p)
{
	struct skge_port *skge = netdev_priv(dev);
	struct skge_hw *hw = skge->hw;
	unsigned port = skge->port;
	const struct sockaddr *addr = p;

	if (!is_valid_ether_addr(addr->sa_data))
		return -EADDRNOTAVAIL;

	mutex_lock(&hw->phy_mutex);
	memcpy(dev->dev_addr, addr->sa_data, ETH_ALEN);
	memcpy_toio(hw->regs + B2_MAC_1 + port*8,
		    dev->dev_addr, ETH_ALEN);
	memcpy_toio(hw->regs + B2_MAC_2 + port*8,
		    dev->dev_addr, ETH_ALEN);

	if (hw->chip_id == CHIP_ID_GENESIS)
		xm_outaddr(hw, port, XM_SA, dev->dev_addr);
	else {
		gma_set_addr(hw, port, GM_SRC_ADDR_1L, dev->dev_addr);
		gma_set_addr(hw, port, GM_SRC_ADDR_2L, dev->dev_addr);
	}
	mutex_unlock(&hw->phy_mutex);

	return 0;
}

static const struct {
	u8 id;
	const char *name;
} skge_chips[] = {
	{ CHIP_ID_GENESIS,	"Genesis" },
	{ CHIP_ID_YUKON,	 "Yukon" },
	{ CHIP_ID_YUKON_LITE,	 "Yukon-Lite"},
	{ CHIP_ID_YUKON_LP,	 "Yukon-LP"},
};

static const char *skge_board_name(const struct skge_hw *hw)
{
	int i;
	static char buf[16];

	for (i = 0; i < ARRAY_SIZE(skge_chips); i++)
		if (skge_chips[i].id == hw->chip_id)
			return skge_chips[i].name;

	snprintf(buf, sizeof buf, "chipid 0x%x", hw->chip_id);
	return buf;
}


/*
 * Setup the board data structure, but don't bring up
 * the port(s)
 */
static int skge_reset(struct skge_hw *hw)
{
	u32 reg;
	u16 ctst, pci_status;
	u8 t8, mac_cfg, pmd_type;
	int i;

	ctst = skge_read16(hw, B0_CTST);

	/* do a SW reset */
	skge_write8(hw, B0_CTST, CS_RST_SET);
	skge_write8(hw, B0_CTST, CS_RST_CLR);

	/* clear PCI errors, if any */
	skge_write8(hw, B2_TST_CTRL1, TST_CFG_WRITE_ON);
	skge_write8(hw, B2_TST_CTRL2, 0);

	pci_read_config_word(hw->pdev, PCI_STATUS, &pci_status);
	pci_write_config_word(hw->pdev, PCI_STATUS,
			      pci_status | PCI_STATUS_ERROR_BITS);
	skge_write8(hw, B2_TST_CTRL1, TST_CFG_WRITE_OFF);
	skge_write8(hw, B0_CTST, CS_MRST_CLR);

	/* restore CLK_RUN bits (for Yukon-Lite) */
	skge_write16(hw, B0_CTST,
		     ctst & (CS_CLK_RUN_HOT|CS_CLK_RUN_RST|CS_CLK_RUN_ENA));

	hw->chip_id = skge_read8(hw, B2_CHIP_ID);
	hw->phy_type = skge_read8(hw, B2_E_1) & 0xf;
	pmd_type = skge_read8(hw, B2_PMD_TYP);
	hw->copper = (pmd_type == 'T' || pmd_type == '1');

	switch (hw->chip_id) {
	case CHIP_ID_GENESIS:
		switch (hw->phy_type) {
		case SK_PHY_XMAC:
			hw->phy_addr = PHY_ADDR_XMAC;
			break;
		case SK_PHY_BCOM:
			hw->phy_addr = PHY_ADDR_BCOM;
			break;
		default:
			printk(KERN_ERR PFX "%s: unsupported phy type 0x%x\n",
			       pci_name(hw->pdev), hw->phy_type);
			return -EOPNOTSUPP;
		}
		break;

	case CHIP_ID_YUKON:
	case CHIP_ID_YUKON_LITE:
	case CHIP_ID_YUKON_LP:
		if (hw->phy_type < SK_PHY_MARV_COPPER && pmd_type != 'S')
			hw->copper = 1;

		hw->phy_addr = PHY_ADDR_MARV;
		break;

	default:
		printk(KERN_ERR PFX "%s: unsupported chip type 0x%x\n",
		       pci_name(hw->pdev), hw->chip_id);
		return -EOPNOTSUPP;
	}

	mac_cfg = skge_read8(hw, B2_MAC_CFG);
	hw->ports = (mac_cfg & CFG_SNG_MAC) ? 1 : 2;
	hw->chip_rev = (mac_cfg & CFG_CHIP_R_MSK) >> 4;

	/* read the adapters RAM size */
	t8 = skge_read8(hw, B2_E_0);
	if (hw->chip_id == CHIP_ID_GENESIS) {
		if (t8 == 3) {
			/* special case: 4 x 64k x 36, offset = 0x80000 */
			hw->ram_size = 0x100000;
			hw->ram_offset = 0x80000;
		} else
			hw->ram_size = t8 * 512;
	}
	else if (t8 == 0)
		hw->ram_size = 0x20000;
	else
		hw->ram_size = t8 * 4096;

	hw->intr_mask = IS_HW_ERR | IS_PORT_1;
	if (hw->ports > 1)
		hw->intr_mask |= IS_PORT_2;

	if (!(hw->chip_id == CHIP_ID_GENESIS && hw->phy_type == SK_PHY_XMAC))
		hw->intr_mask |= IS_EXT_REG;

	if (hw->chip_id == CHIP_ID_GENESIS)
		genesis_init(hw);
	else {
		/* switch power to VCC (WA for VAUX problem) */
		skge_write8(hw, B0_POWER_CTRL,
			    PC_VAUX_ENA | PC_VCC_ENA | PC_VAUX_OFF | PC_VCC_ON);

		/* avoid boards with stuck Hardware error bits */
		if ((skge_read32(hw, B0_ISRC) & IS_HW_ERR) &&
		    (skge_read32(hw, B0_HWE_ISRC) & IS_IRQ_SENSOR)) {
			printk(KERN_WARNING PFX "stuck hardware sensor bit\n");
			hw->intr_mask &= ~IS_HW_ERR;
		}

		/* Clear PHY COMA */
		skge_write8(hw, B2_TST_CTRL1, TST_CFG_WRITE_ON);
		pci_read_config_dword(hw->pdev, PCI_DEV_REG1, &reg);
		reg &= ~PCI_PHY_COMA;
		pci_write_config_dword(hw->pdev, PCI_DEV_REG1, reg);
		skge_write8(hw, B2_TST_CTRL1, TST_CFG_WRITE_OFF);


		for (i = 0; i < hw->ports; i++) {
			skge_write16(hw, SK_REG(i, GMAC_LINK_CTRL), GMLC_RST_SET);
			skge_write16(hw, SK_REG(i, GMAC_LINK_CTRL), GMLC_RST_CLR);
		}
	}

	/* turn off hardware timer (unused) */
	skge_write8(hw, B2_TI_CTRL, TIM_STOP);
	skge_write8(hw, B2_TI_CTRL, TIM_CLR_IRQ);
	skge_write8(hw, B0_LED, LED_STAT_ON);

	/* enable the Tx Arbiters */
	for (i = 0; i < hw->ports; i++)
		skge_write8(hw, SK_REG(i, TXA_CTRL), TXA_ENA_ARB);

	/* Initialize ram interface */
	skge_write16(hw, B3_RI_CTRL, RI_RST_CLR);

	skge_write8(hw, B3_RI_WTO_R1, SK_RI_TO_53);
	skge_write8(hw, B3_RI_WTO_XA1, SK_RI_TO_53);
	skge_write8(hw, B3_RI_WTO_XS1, SK_RI_TO_53);
	skge_write8(hw, B3_RI_RTO_R1, SK_RI_TO_53);
	skge_write8(hw, B3_RI_RTO_XA1, SK_RI_TO_53);
	skge_write8(hw, B3_RI_RTO_XS1, SK_RI_TO_53);
	skge_write8(hw, B3_RI_WTO_R2, SK_RI_TO_53);
	skge_write8(hw, B3_RI_WTO_XA2, SK_RI_TO_53);
	skge_write8(hw, B3_RI_WTO_XS2, SK_RI_TO_53);
	skge_write8(hw, B3_RI_RTO_R2, SK_RI_TO_53);
	skge_write8(hw, B3_RI_RTO_XA2, SK_RI_TO_53);
	skge_write8(hw, B3_RI_RTO_XS2, SK_RI_TO_53);

	skge_write32(hw, B0_HWE_IMSK, IS_ERR_MSK);

	/* Set interrupt moderation for Transmit only
	 * Receive interrupts avoided by NAPI
	 */
	skge_write32(hw, B2_IRQM_MSK, IS_XA1_F|IS_XA2_F);
	skge_write32(hw, B2_IRQM_INI, skge_usecs2clk(hw, 100));
	skge_write32(hw, B2_IRQM_CTRL, TIM_START);

	skge_write32(hw, B0_IMSK, hw->intr_mask);

	mutex_lock(&hw->phy_mutex);
	for (i = 0; i < hw->ports; i++) {
		if (hw->chip_id == CHIP_ID_GENESIS)
			genesis_reset(hw, i);
		else
			yukon_reset(hw, i);
	}
	mutex_unlock(&hw->phy_mutex);

	return 0;
}

/* Initialize network device */
static struct net_device *skge_devinit(struct skge_hw *hw, int port,
				       int highmem)
{
	struct skge_port *skge;
	struct net_device *dev = alloc_etherdev(sizeof(*skge));

	if (!dev) {
		printk(KERN_ERR "skge etherdev alloc failed");
		return NULL;
	}

	SET_MODULE_OWNER(dev);
	SET_NETDEV_DEV(dev, &hw->pdev->dev);
	dev->open = skge_up;
	dev->stop = skge_down;
	dev->do_ioctl = skge_ioctl;
	dev->hard_start_xmit = skge_xmit_frame;
	dev->get_stats = skge_get_stats;
	if (hw->chip_id == CHIP_ID_GENESIS)
		dev->set_multicast_list = genesis_set_multicast;
	else
		dev->set_multicast_list = yukon_set_multicast;

	dev->set_mac_address = skge_set_mac_address;
	dev->change_mtu = skge_change_mtu;
	SET_ETHTOOL_OPS(dev, &skge_ethtool_ops);
	dev->tx_timeout = skge_tx_timeout;
	dev->watchdog_timeo = TX_WATCHDOG;
	dev->poll = skge_poll;
	dev->weight = NAPI_WEIGHT;
#ifdef CONFIG_NET_POLL_CONTROLLER
	dev->poll_controller = skge_netpoll;
#endif
	dev->irq = hw->pdev->irq;

	if (highmem)
		dev->features |= NETIF_F_HIGHDMA;

	skge = netdev_priv(dev);
	skge->netdev = dev;
	skge->hw = hw;
	skge->msg_enable = netif_msg_init(debug, default_msg);
	skge->tx_ring.count = DEFAULT_TX_RING_SIZE;
	skge->rx_ring.count = DEFAULT_RX_RING_SIZE;

	/* Auto speed and flow control */
	skge->autoneg = AUTONEG_ENABLE;
	skge->flow_control = FLOW_MODE_SYMMETRIC;
	skge->duplex = -1;
	skge->speed = -1;
	skge->advertising = skge_supported_modes(hw);

	hw->dev[port] = dev;

	skge->port = port;

	/* Only used for Genesis XMAC */
	INIT_WORK(&skge->link_thread, xm_link_timer, dev);

	if (hw->chip_id != CHIP_ID_GENESIS) {
		dev->features |= NETIF_F_IP_CSUM | NETIF_F_SG;
		skge->rx_csum = 1;
	}

	/* read the mac address */
	memcpy_fromio(dev->dev_addr, hw->regs + B2_MAC_1 + port*8, ETH_ALEN);
	memcpy(dev->perm_addr, dev->dev_addr, dev->addr_len);

	/* device is off until link detection */
	netif_carrier_off(dev);
	netif_stop_queue(dev);

	return dev;
}

static void __devinit skge_show_addr(struct net_device *dev)
{
	const struct skge_port *skge = netdev_priv(dev);

	if (netif_msg_probe(skge))
		printk(KERN_INFO PFX "%s: addr %02x:%02x:%02x:%02x:%02x:%02x\n",
		       dev->name,
		       dev->dev_addr[0], dev->dev_addr[1], dev->dev_addr[2],
		       dev->dev_addr[3], dev->dev_addr[4], dev->dev_addr[5]);
}

static int __devinit skge_probe(struct pci_dev *pdev,
				const struct pci_device_id *ent)
{
	struct net_device *dev, *dev1;
	struct skge_hw *hw;
	int err, using_dac = 0;

	err = pci_enable_device(pdev);
	if (err) {
		printk(KERN_ERR PFX "%s cannot enable PCI device\n",
		       pci_name(pdev));
		goto err_out;
	}

	err = pci_request_regions(pdev, DRV_NAME);
	if (err) {
		printk(KERN_ERR PFX "%s cannot obtain PCI resources\n",
		       pci_name(pdev));
		goto err_out_disable_pdev;
	}

	pci_set_master(pdev);

	if (!pci_set_dma_mask(pdev, DMA_64BIT_MASK)) {
		using_dac = 1;
		err = pci_set_consistent_dma_mask(pdev, DMA_64BIT_MASK);
	} else if (!(err = pci_set_dma_mask(pdev, DMA_32BIT_MASK))) {
		using_dac = 0;
		err = pci_set_consistent_dma_mask(pdev, DMA_32BIT_MASK);
	}

	if (err) {
		printk(KERN_ERR PFX "%s no usable DMA configuration\n",
		       pci_name(pdev));
		goto err_out_free_regions;
	}

#ifdef __BIG_ENDIAN
	/* byte swap descriptors in hardware */
	{
		u32 reg;

		pci_read_config_dword(pdev, PCI_DEV_REG2, &reg);
		reg |= PCI_REV_DESC;
		pci_write_config_dword(pdev, PCI_DEV_REG2, reg);
	}
#endif

	err = -ENOMEM;
	hw = kzalloc(sizeof(*hw), GFP_KERNEL);
	if (!hw) {
		printk(KERN_ERR PFX "%s: cannot allocate hardware struct\n",
		       pci_name(pdev));
		goto err_out_free_regions;
	}

	hw->pdev = pdev;
	mutex_init(&hw->phy_mutex);
	INIT_WORK(&hw->phy_work, skge_extirq, hw);
	spin_lock_init(&hw->hw_lock);

	hw->regs = ioremap_nocache(pci_resource_start(pdev, 0), 0x4000);
	if (!hw->regs) {
		printk(KERN_ERR PFX "%s: cannot map device registers\n",
		       pci_name(pdev));
		goto err_out_free_hw;
	}

	err = skge_reset(hw);
	if (err)
		goto err_out_iounmap;

	printk(KERN_INFO PFX DRV_VERSION " addr 0x%llx irq %d chip %s rev %d\n",
	       (unsigned long long)pci_resource_start(pdev, 0), pdev->irq,
	       skge_board_name(hw), hw->chip_rev);

	dev = skge_devinit(hw, 0, using_dac);
	if (!dev)
		goto err_out_led_off;

	if (!is_valid_ether_addr(dev->dev_addr)) {
		printk(KERN_ERR PFX "%s: bad (zero?) ethernet address in rom\n",
		       pci_name(pdev));
		err = -EIO;
		goto err_out_free_netdev;
	}

	err = register_netdev(dev);
	if (err) {
		printk(KERN_ERR PFX "%s: cannot register net device\n",
		       pci_name(pdev));
		goto err_out_free_netdev;
	}

	err = request_irq(pdev->irq, skge_intr, IRQF_SHARED, dev->name, hw);
	if (err) {
		printk(KERN_ERR PFX "%s: cannot assign irq %d\n",
		       dev->name, pdev->irq);
		goto err_out_unregister;
	}
	skge_show_addr(dev);

	if (hw->ports > 1 && (dev1 = skge_devinit(hw, 1, using_dac))) {
		if (register_netdev(dev1) == 0)
			skge_show_addr(dev1);
		else {
			/* Failure to register second port need not be fatal */
			printk(KERN_WARNING PFX "register of second port failed\n");
			hw->dev[1] = NULL;
			free_netdev(dev1);
		}
	}
	pci_set_drvdata(pdev, hw);

	return 0;

err_out_unregister:
	unregister_netdev(dev);
err_out_free_netdev:
	free_netdev(dev);
err_out_led_off:
	skge_write16(hw, B0_LED, LED_STAT_OFF);
err_out_iounmap:
	iounmap(hw->regs);
err_out_free_hw:
	kfree(hw);
err_out_free_regions:
	pci_release_regions(pdev);
err_out_disable_pdev:
	pci_disable_device(pdev);
	pci_set_drvdata(pdev, NULL);
err_out:
	return err;
}

static void __devexit skge_remove(struct pci_dev *pdev)
{
	struct skge_hw *hw  = pci_get_drvdata(pdev);
	struct net_device *dev0, *dev1;

	if (!hw)
		return;

	if ((dev1 = hw->dev[1]))
		unregister_netdev(dev1);
	dev0 = hw->dev[0];
	unregister_netdev(dev0);

	spin_lock_irq(&hw->hw_lock);
	hw->intr_mask = 0;
	skge_write32(hw, B0_IMSK, 0);
	skge_read32(hw, B0_IMSK);
	spin_unlock_irq(&hw->hw_lock);

	skge_write16(hw, B0_LED, LED_STAT_OFF);
	skge_write8(hw, B0_CTST, CS_RST_SET);

	flush_scheduled_work();

	free_irq(pdev->irq, hw);
	pci_release_regions(pdev);
	pci_disable_device(pdev);
	if (dev1)
		free_netdev(dev1);
	free_netdev(dev0);

	iounmap(hw->regs);
	kfree(hw);
	pci_set_drvdata(pdev, NULL);
}

#ifdef CONFIG_PM
static int skge_suspend(struct pci_dev *pdev, pm_message_t state)
{
	struct skge_hw *hw  = pci_get_drvdata(pdev);
	int i, wol = 0;

	pci_save_state(pdev);
	for (i = 0; i < hw->ports; i++) {
		struct net_device *dev = hw->dev[i];

		if (netif_running(dev)) {
			struct skge_port *skge = netdev_priv(dev);

			netif_carrier_off(dev);
			if (skge->wol)
				netif_stop_queue(dev);
			else
				skge_down(dev);
			wol |= skge->wol;
		}
		netif_device_detach(dev);
	}

	skge_write32(hw, B0_IMSK, 0);
	pci_enable_wake(pdev, pci_choose_state(pdev, state), wol);
	pci_set_power_state(pdev, pci_choose_state(pdev, state));

	return 0;
}

static int skge_resume(struct pci_dev *pdev)
{
	struct skge_hw *hw  = pci_get_drvdata(pdev);
	int i, err;

	pci_set_power_state(pdev, PCI_D0);
	pci_restore_state(pdev);
	pci_enable_wake(pdev, PCI_D0, 0);

	err = skge_reset(hw);
	if (err)
		goto out;

	for (i = 0; i < hw->ports; i++) {
		struct net_device *dev = hw->dev[i];

		netif_device_attach(dev);
		if (netif_running(dev)) {
			err = skge_up(dev);

			if (err) {
				printk(KERN_ERR PFX "%s: could not up: %d\n",
				       dev->name, err);
				dev_close(dev);
				goto out;
			}
		}
	}
out:
	return err;
}
#endif

static struct pci_driver skge_driver = {
	.name =         DRV_NAME,
	.id_table =     skge_id_table,
	.probe =        skge_probe,
	.remove =       __devexit_p(skge_remove),
#ifdef CONFIG_PM
	.suspend = 	skge_suspend,
	.resume = 	skge_resume,
#endif
};

static int __init skge_init_module(void)
{
	return pci_register_driver(&skge_driver);
}

static void __exit skge_cleanup_module(void)
{
	pci_unregister_driver(&skge_driver);
}

module_init(skge_init_module);
module_exit(skge_cleanup_module);