3c59x.c 101.0 KB
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/* EtherLinkXL.c: A 3Com EtherLink PCI III/XL ethernet driver for linux. */
/*
	Written 1996-1999 by Donald Becker.

	This software may be used and distributed according to the terms
	of the GNU General Public License, incorporated herein by reference.

	This driver is for the 3Com "Vortex" and "Boomerang" series ethercards.
	Members of the series include Fast EtherLink 3c590/3c592/3c595/3c597
	and the EtherLink XL 3c900 and 3c905 cards.

	Problem reports and questions should be directed to
	vortex@scyld.com

	The author may be reached as becker@scyld.com, or C/O
	Scyld Computing Corporation
	410 Severn Ave., Suite 210
	Annapolis MD 21403

*/

/*
 * FIXME: This driver _could_ support MTU changing, but doesn't.  See Don's hamachi.c implementation
 * as well as other drivers
 *
 * NOTE: If you make 'vortex_debug' a constant (#define vortex_debug 0) the driver shrinks by 2k
 * due to dead code elimination.  There will be some performance benefits from this due to
 * elimination of all the tests and reduced cache footprint.
 */


#define DRV_NAME	"3c59x"



/* A few values that may be tweaked. */
/* Keep the ring sizes a power of two for efficiency. */
#define TX_RING_SIZE	16
#define RX_RING_SIZE	32
#define PKT_BUF_SZ		1536			/* Size of each temporary Rx buffer.*/

/* "Knobs" that adjust features and parameters. */
/* Set the copy breakpoint for the copy-only-tiny-frames scheme.
   Setting to > 1512 effectively disables this feature. */
#ifndef __arm__
static int rx_copybreak = 200;
#else
/* ARM systems perform better by disregarding the bus-master
   transfer capability of these cards. -- rmk */
static int rx_copybreak = 1513;
#endif
/* Allow setting MTU to a larger size, bypassing the normal ethernet setup. */
static const int mtu = 1500;
/* Maximum events (Rx packets, etc.) to handle at each interrupt. */
static int max_interrupt_work = 32;
/* Tx timeout interval (millisecs) */
static int watchdog = 5000;

/* Allow aggregation of Tx interrupts.  Saves CPU load at the cost
 * of possible Tx stalls if the system is blocking interrupts
 * somewhere else.  Undefine this to disable.
 */
#define tx_interrupt_mitigation 1

/* Put out somewhat more debugging messages. (0: no msg, 1 minimal .. 6). */
#define vortex_debug debug
#ifdef VORTEX_DEBUG
static int vortex_debug = VORTEX_DEBUG;
#else
static int vortex_debug = 1;
#endif

#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/string.h>
#include <linux/timer.h>
#include <linux/errno.h>
#include <linux/in.h>
#include <linux/ioport.h>
#include <linux/slab.h>
#include <linux/interrupt.h>
#include <linux/pci.h>
#include <linux/mii.h>
#include <linux/init.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>
#include <linux/ethtool.h>
#include <linux/highmem.h>
#include <linux/eisa.h>
#include <linux/bitops.h>
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#include <linux/jiffies.h>
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#include <asm/irq.h>			/* For NR_IRQS only. */
#include <asm/io.h>
#include <asm/uaccess.h>

/* Kernel compatibility defines, some common to David Hinds' PCMCIA package.
   This is only in the support-all-kernels source code. */

#define RUN_AT(x) (jiffies + (x))

#include <linux/delay.h>


static char version[] __devinitdata =
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DRV_NAME ": Donald Becker and others.\n";
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MODULE_AUTHOR("Donald Becker <becker@scyld.com>");
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MODULE_DESCRIPTION("3Com 3c59x/3c9xx ethernet driver ");
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MODULE_LICENSE("GPL");


/* Operational parameter that usually are not changed. */

/* The Vortex size is twice that of the original EtherLinkIII series: the
   runtime register window, window 1, is now always mapped in.
   The Boomerang size is twice as large as the Vortex -- it has additional
   bus master control registers. */
#define VORTEX_TOTAL_SIZE 0x20
#define BOOMERANG_TOTAL_SIZE 0x40

/* Set iff a MII transceiver on any interface requires mdio preamble.
   This only set with the original DP83840 on older 3c905 boards, so the extra
   code size of a per-interface flag is not worthwhile. */
static char mii_preamble_required;

#define PFX DRV_NAME ": "



/*
				Theory of Operation

I. Board Compatibility

This device driver is designed for the 3Com FastEtherLink and FastEtherLink
XL, 3Com's PCI to 10/100baseT adapters.  It also works with the 10Mbs
versions of the FastEtherLink cards.  The supported product IDs are
  3c590, 3c592, 3c595, 3c597, 3c900, 3c905

The related ISA 3c515 is supported with a separate driver, 3c515.c, included
with the kernel source or available from
    cesdis.gsfc.nasa.gov:/pub/linux/drivers/3c515.html

II. Board-specific settings

PCI bus devices are configured by the system at boot time, so no jumpers
need to be set on the board.  The system BIOS should be set to assign the
PCI INTA signal to an otherwise unused system IRQ line.

The EEPROM settings for media type and forced-full-duplex are observed.
The EEPROM media type should be left at the default "autoselect" unless using
10base2 or AUI connections which cannot be reliably detected.

III. Driver operation

The 3c59x series use an interface that's very similar to the previous 3c5x9
series.  The primary interface is two programmed-I/O FIFOs, with an
alternate single-contiguous-region bus-master transfer (see next).

The 3c900 "Boomerang" series uses a full-bus-master interface with separate
lists of transmit and receive descriptors, similar to the AMD LANCE/PCnet,
DEC Tulip and Intel Speedo3.  The first chip version retains a compatible
programmed-I/O interface that has been removed in 'B' and subsequent board
revisions.

One extension that is advertised in a very large font is that the adapters
are capable of being bus masters.  On the Vortex chip this capability was
only for a single contiguous region making it far less useful than the full
bus master capability.  There is a significant performance impact of taking
an extra interrupt or polling for the completion of each transfer, as well
as difficulty sharing the single transfer engine between the transmit and
receive threads.  Using DMA transfers is a win only with large blocks or
with the flawed versions of the Intel Orion motherboard PCI controller.

The Boomerang chip's full-bus-master interface is useful, and has the
currently-unused advantages over other similar chips that queued transmit
packets may be reordered and receive buffer groups are associated with a
single frame.

With full-bus-master support, this driver uses a "RX_COPYBREAK" scheme.
Rather than a fixed intermediate receive buffer, this scheme allocates
full-sized skbuffs as receive buffers.  The value RX_COPYBREAK is used as
the copying breakpoint: it is chosen to trade-off the memory wasted by
passing the full-sized skbuff to the queue layer for all frames vs. the
copying cost of copying a frame to a correctly-sized skbuff.

IIIC. Synchronization
The driver runs as two independent, single-threaded flows of control.  One
is the send-packet routine, which enforces single-threaded use by the
dev->tbusy flag.  The other thread is the interrupt handler, which is single
threaded by the hardware and other software.

IV. Notes

Thanks to Cameron Spitzer and Terry Murphy of 3Com for providing development
3c590, 3c595, and 3c900 boards.
The name "Vortex" is the internal 3Com project name for the PCI ASIC, and
the EISA version is called "Demon".  According to Terry these names come
from rides at the local amusement park.

The new chips support both ethernet (1.5K) and FDDI (4.5K) packet sizes!
This driver only supports ethernet packets because of the skbuff allocation
limit of 4K.
*/

/* This table drives the PCI probe routines.  It's mostly boilerplate in all
   of the drivers, and will likely be provided by some future kernel.
*/
enum pci_flags_bit {
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	PCI_USES_MASTER=4,
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};

enum {	IS_VORTEX=1, IS_BOOMERANG=2, IS_CYCLONE=4, IS_TORNADO=8,
	EEPROM_8BIT=0x10,	/* AKPM: Uses 0x230 as the base bitmaps for EEPROM reads */
	HAS_PWR_CTRL=0x20, HAS_MII=0x40, HAS_NWAY=0x80, HAS_CB_FNS=0x100,
	INVERT_MII_PWR=0x200, INVERT_LED_PWR=0x400, MAX_COLLISION_RESET=0x800,
	EEPROM_OFFSET=0x1000, HAS_HWCKSM=0x2000, WNO_XCVR_PWR=0x4000,
	EXTRA_PREAMBLE=0x8000, EEPROM_RESET=0x10000, };

enum vortex_chips {
	CH_3C590 = 0,
	CH_3C592,
	CH_3C597,
	CH_3C595_1,
	CH_3C595_2,

	CH_3C595_3,
	CH_3C900_1,
	CH_3C900_2,
	CH_3C900_3,
	CH_3C900_4,

	CH_3C900_5,
	CH_3C900B_FL,
	CH_3C905_1,
	CH_3C905_2,
	CH_3C905B_1,

	CH_3C905B_2,
	CH_3C905B_FX,
	CH_3C905C,
	CH_3C9202,
	CH_3C980,
	CH_3C9805,

	CH_3CSOHO100_TX,
	CH_3C555,
	CH_3C556,
	CH_3C556B,
	CH_3C575,

	CH_3C575_1,
	CH_3CCFE575,
	CH_3CCFE575CT,
	CH_3CCFE656,
	CH_3CCFEM656,

	CH_3CCFEM656_1,
	CH_3C450,
	CH_3C920,
	CH_3C982A,
	CH_3C982B,

	CH_905BT4,
	CH_920B_EMB_WNM,
};


/* note: this array directly indexed by above enums, and MUST
 * be kept in sync with both the enums above, and the PCI device
 * table below
 */
static struct vortex_chip_info {
	const char *name;
	int flags;
	int drv_flags;
	int io_size;
} vortex_info_tbl[] __devinitdata = {
	{"3c590 Vortex 10Mbps",
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	 PCI_USES_MASTER, IS_VORTEX, 32, },
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	{"3c592 EISA 10Mbps Demon/Vortex",					/* AKPM: from Don's 3c59x_cb.c 0.49H */
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	 PCI_USES_MASTER, IS_VORTEX, 32, },
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	{"3c597 EISA Fast Demon/Vortex",					/* AKPM: from Don's 3c59x_cb.c 0.49H */
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	 PCI_USES_MASTER, IS_VORTEX, 32, },
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	{"3c595 Vortex 100baseTx",
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	 PCI_USES_MASTER, IS_VORTEX, 32, },
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	{"3c595 Vortex 100baseT4",
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	 PCI_USES_MASTER, IS_VORTEX, 32, },
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	{"3c595 Vortex 100base-MII",
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	 PCI_USES_MASTER, IS_VORTEX, 32, },
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	{"3c900 Boomerang 10baseT",
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	 PCI_USES_MASTER, IS_BOOMERANG|EEPROM_RESET, 64, },
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	{"3c900 Boomerang 10Mbps Combo",
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	 PCI_USES_MASTER, IS_BOOMERANG|EEPROM_RESET, 64, },
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	{"3c900 Cyclone 10Mbps TPO",						/* AKPM: from Don's 0.99M */
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_HWCKSM, 128, },
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	{"3c900 Cyclone 10Mbps Combo",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_HWCKSM, 128, },
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	{"3c900 Cyclone 10Mbps TPC",						/* AKPM: from Don's 0.99M */
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_HWCKSM, 128, },
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	{"3c900B-FL Cyclone 10base-FL",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_HWCKSM, 128, },
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	{"3c905 Boomerang 100baseTx",
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	 PCI_USES_MASTER, IS_BOOMERANG|HAS_MII|EEPROM_RESET, 64, },
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	{"3c905 Boomerang 100baseT4",
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	 PCI_USES_MASTER, IS_BOOMERANG|HAS_MII|EEPROM_RESET, 64, },
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	{"3c905B Cyclone 100baseTx",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_HWCKSM|EXTRA_PREAMBLE, 128, },
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	{"3c905B Cyclone 10/100/BNC",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_HWCKSM, 128, },
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	{"3c905B-FX Cyclone 100baseFx",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_HWCKSM, 128, },
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	{"3c905C Tornado",
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	PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|HAS_HWCKSM|EXTRA_PREAMBLE, 128, },
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	{"3c920B-EMB-WNM (ATI Radeon 9100 IGP)",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_MII|HAS_HWCKSM, 128, },
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	{"3c980 Cyclone",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_HWCKSM|EXTRA_PREAMBLE, 128, },
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	{"3c980C Python-T",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_HWCKSM, 128, },
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	{"3cSOHO100-TX Hurricane",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_HWCKSM|EXTRA_PREAMBLE, 128, },
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	{"3c555 Laptop Hurricane",
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	 PCI_USES_MASTER, IS_CYCLONE|EEPROM_8BIT|HAS_HWCKSM, 128, },
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	{"3c556 Laptop Tornado",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|EEPROM_8BIT|HAS_CB_FNS|INVERT_MII_PWR|
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									HAS_HWCKSM, 128, },
	{"3c556B Laptop Hurricane",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|EEPROM_OFFSET|HAS_CB_FNS|INVERT_MII_PWR|
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	                                WNO_XCVR_PWR|HAS_HWCKSM, 128, },

	{"3c575 [Megahertz] 10/100 LAN 	CardBus",
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	PCI_USES_MASTER, IS_BOOMERANG|HAS_MII|EEPROM_8BIT, 128, },
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	{"3c575 Boomerang CardBus",
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	 PCI_USES_MASTER, IS_BOOMERANG|HAS_MII|EEPROM_8BIT, 128, },
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	{"3CCFE575BT Cyclone CardBus",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_CB_FNS|EEPROM_8BIT|
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									INVERT_LED_PWR|HAS_HWCKSM, 128, },
	{"3CCFE575CT Tornado CardBus",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|HAS_CB_FNS|EEPROM_8BIT|INVERT_MII_PWR|
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									MAX_COLLISION_RESET|HAS_HWCKSM, 128, },
	{"3CCFE656 Cyclone CardBus",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_CB_FNS|EEPROM_8BIT|INVERT_MII_PWR|
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									INVERT_LED_PWR|HAS_HWCKSM, 128, },

	{"3CCFEM656B Cyclone+Winmodem CardBus",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_CB_FNS|EEPROM_8BIT|INVERT_MII_PWR|
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									INVERT_LED_PWR|HAS_HWCKSM, 128, },
	{"3CXFEM656C Tornado+Winmodem CardBus",			/* From pcmcia-cs-3.1.5 */
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	 PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|HAS_CB_FNS|EEPROM_8BIT|INVERT_MII_PWR|
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									MAX_COLLISION_RESET|HAS_HWCKSM, 128, },
	{"3c450 HomePNA Tornado",						/* AKPM: from Don's 0.99Q */
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	 PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|HAS_HWCKSM, 128, },
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	{"3c920 Tornado",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|HAS_HWCKSM, 128, },
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	{"3c982 Hydra Dual Port A",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_HWCKSM|HAS_NWAY, 128, },
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	{"3c982 Hydra Dual Port B",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_HWCKSM|HAS_NWAY, 128, },
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	{"3c905B-T4",
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	 PCI_USES_MASTER, IS_CYCLONE|HAS_NWAY|HAS_HWCKSM|EXTRA_PREAMBLE, 128, },
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	{"3c920B-EMB-WNM Tornado",
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	 PCI_USES_MASTER, IS_TORNADO|HAS_NWAY|HAS_HWCKSM, 128, },
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	{NULL,}, /* NULL terminated list. */
};


static struct pci_device_id vortex_pci_tbl[] = {
	{ 0x10B7, 0x5900, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C590 },
	{ 0x10B7, 0x5920, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C592 },
	{ 0x10B7, 0x5970, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C597 },
	{ 0x10B7, 0x5950, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C595_1 },
	{ 0x10B7, 0x5951, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C595_2 },

	{ 0x10B7, 0x5952, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C595_3 },
	{ 0x10B7, 0x9000, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C900_1 },
	{ 0x10B7, 0x9001, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C900_2 },
	{ 0x10B7, 0x9004, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C900_3 },
	{ 0x10B7, 0x9005, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C900_4 },

	{ 0x10B7, 0x9006, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C900_5 },
	{ 0x10B7, 0x900A, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C900B_FL },
	{ 0x10B7, 0x9050, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C905_1 },
	{ 0x10B7, 0x9051, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C905_2 },
	{ 0x10B7, 0x9055, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C905B_1 },

	{ 0x10B7, 0x9058, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C905B_2 },
	{ 0x10B7, 0x905A, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C905B_FX },
	{ 0x10B7, 0x9200, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C905C },
	{ 0x10B7, 0x9202, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C9202 },
	{ 0x10B7, 0x9800, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C980 },
	{ 0x10B7, 0x9805, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C9805 },

	{ 0x10B7, 0x7646, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3CSOHO100_TX },
	{ 0x10B7, 0x5055, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C555 },
	{ 0x10B7, 0x6055, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C556 },
	{ 0x10B7, 0x6056, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C556B },
	{ 0x10B7, 0x5b57, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C575 },

	{ 0x10B7, 0x5057, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C575_1 },
	{ 0x10B7, 0x5157, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3CCFE575 },
	{ 0x10B7, 0x5257, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3CCFE575CT },
	{ 0x10B7, 0x6560, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3CCFE656 },
	{ 0x10B7, 0x6562, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3CCFEM656 },

	{ 0x10B7, 0x6564, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3CCFEM656_1 },
	{ 0x10B7, 0x4500, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C450 },
	{ 0x10B7, 0x9201, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C920 },
	{ 0x10B7, 0x1201, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C982A },
	{ 0x10B7, 0x1202, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_3C982B },

	{ 0x10B7, 0x9056, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_905BT4 },
	{ 0x10B7, 0x9210, PCI_ANY_ID, PCI_ANY_ID, 0, 0, CH_920B_EMB_WNM },

	{0,}						/* 0 terminated list. */
};
MODULE_DEVICE_TABLE(pci, vortex_pci_tbl);


/* Operational definitions.
   These are not used by other compilation units and thus are not
   exported in a ".h" file.

   First the windows.  There are eight register windows, with the command
   and status registers available in each.
   */
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#define EL3WINDOW(win_num) iowrite16(SelectWindow + (win_num), ioaddr + EL3_CMD)
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#define EL3_CMD 0x0e
#define EL3_STATUS 0x0e

/* The top five bits written to EL3_CMD are a command, the lower
   11 bits are the parameter, if applicable.
   Note that 11 parameters bits was fine for ethernet, but the new chip
   can handle FDDI length frames (~4500 octets) and now parameters count
   32-bit 'Dwords' rather than octets. */

enum vortex_cmd {
	TotalReset = 0<<11, SelectWindow = 1<<11, StartCoax = 2<<11,
	RxDisable = 3<<11, RxEnable = 4<<11, RxReset = 5<<11,
	UpStall = 6<<11, UpUnstall = (6<<11)+1,
	DownStall = (6<<11)+2, DownUnstall = (6<<11)+3,
	RxDiscard = 8<<11, TxEnable = 9<<11, TxDisable = 10<<11, TxReset = 11<<11,
	FakeIntr = 12<<11, AckIntr = 13<<11, SetIntrEnb = 14<<11,
	SetStatusEnb = 15<<11, SetRxFilter = 16<<11, SetRxThreshold = 17<<11,
	SetTxThreshold = 18<<11, SetTxStart = 19<<11,
	StartDMAUp = 20<<11, StartDMADown = (20<<11)+1, StatsEnable = 21<<11,
	StatsDisable = 22<<11, StopCoax = 23<<11, SetFilterBit = 25<<11,};

/* The SetRxFilter command accepts the following classes: */
enum RxFilter {
	RxStation = 1, RxMulticast = 2, RxBroadcast = 4, RxProm = 8 };

/* Bits in the general status register. */
enum vortex_status {
	IntLatch = 0x0001, HostError = 0x0002, TxComplete = 0x0004,
	TxAvailable = 0x0008, RxComplete = 0x0010, RxEarly = 0x0020,
	IntReq = 0x0040, StatsFull = 0x0080,
	DMADone = 1<<8, DownComplete = 1<<9, UpComplete = 1<<10,
	DMAInProgress = 1<<11,			/* DMA controller is still busy.*/
	CmdInProgress = 1<<12,			/* EL3_CMD is still busy.*/
};

/* Register window 1 offsets, the window used in normal operation.
   On the Vortex this window is always mapped at offsets 0x10-0x1f. */
enum Window1 {
	TX_FIFO = 0x10,  RX_FIFO = 0x10,  RxErrors = 0x14,
	RxStatus = 0x18,  Timer=0x1A, TxStatus = 0x1B,
	TxFree = 0x1C, /* Remaining free bytes in Tx buffer. */
};
enum Window0 {
	Wn0EepromCmd = 10,		/* Window 0: EEPROM command register. */
	Wn0EepromData = 12,		/* Window 0: EEPROM results register. */
	IntrStatus=0x0E,		/* Valid in all windows. */
};
enum Win0_EEPROM_bits {
	EEPROM_Read = 0x80, EEPROM_WRITE = 0x40, EEPROM_ERASE = 0xC0,
	EEPROM_EWENB = 0x30,		/* Enable erasing/writing for 10 msec. */
	EEPROM_EWDIS = 0x00,		/* Disable EWENB before 10 msec timeout. */
};
/* EEPROM locations. */
enum eeprom_offset {
	PhysAddr01=0, PhysAddr23=1, PhysAddr45=2, ModelID=3,
	EtherLink3ID=7, IFXcvrIO=8, IRQLine=9,
	NodeAddr01=10, NodeAddr23=11, NodeAddr45=12,
	DriverTune=13, Checksum=15};

enum Window2 {			/* Window 2. */
	Wn2_ResetOptions=12,
};
enum Window3 {			/* Window 3: MAC/config bits. */
	Wn3_Config=0, Wn3_MaxPktSize=4, Wn3_MAC_Ctrl=6, Wn3_Options=8,
};

#define BFEXT(value, offset, bitcount)  \
    ((((unsigned long)(value)) >> (offset)) & ((1 << (bitcount)) - 1))

#define BFINS(lhs, rhs, offset, bitcount)					\
	(((lhs) & ~((((1 << (bitcount)) - 1)) << (offset))) |	\
	(((rhs) & ((1 << (bitcount)) - 1)) << (offset)))

#define RAM_SIZE(v)		BFEXT(v, 0, 3)
#define RAM_WIDTH(v)	BFEXT(v, 3, 1)
#define RAM_SPEED(v)	BFEXT(v, 4, 2)
#define ROM_SIZE(v)		BFEXT(v, 6, 2)
#define RAM_SPLIT(v)	BFEXT(v, 16, 2)
#define XCVR(v)			BFEXT(v, 20, 4)
#define AUTOSELECT(v)	BFEXT(v, 24, 1)

enum Window4 {		/* Window 4: Xcvr/media bits. */
	Wn4_FIFODiag = 4, Wn4_NetDiag = 6, Wn4_PhysicalMgmt=8, Wn4_Media = 10,
};
enum Win4_Media_bits {
	Media_SQE = 0x0008,		/* Enable SQE error counting for AUI. */
	Media_10TP = 0x00C0,	/* Enable link beat and jabber for 10baseT. */
	Media_Lnk = 0x0080,		/* Enable just link beat for 100TX/100FX. */
	Media_LnkBeat = 0x0800,
};
enum Window7 {					/* Window 7: Bus Master control. */
	Wn7_MasterAddr = 0, Wn7_VlanEtherType=4, Wn7_MasterLen = 6,
	Wn7_MasterStatus = 12,
};
/* Boomerang bus master control registers. */
enum MasterCtrl {
	PktStatus = 0x20, DownListPtr = 0x24, FragAddr = 0x28, FragLen = 0x2c,
	TxFreeThreshold = 0x2f, UpPktStatus = 0x30, UpListPtr = 0x38,
};

/* The Rx and Tx descriptor lists.
   Caution Alpha hackers: these types are 32 bits!  Note also the 8 byte
   alignment contraint on tx_ring[] and rx_ring[]. */
#define LAST_FRAG 	0x80000000			/* Last Addr/Len pair in descriptor. */
#define DN_COMPLETE	0x00010000			/* This packet has been downloaded */
struct boom_rx_desc {
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	__le32 next;					/* Last entry points to 0.   */
	__le32 status;
	__le32 addr;					/* Up to 63 addr/len pairs possible. */
	__le32 length;					/* Set LAST_FRAG to indicate last pair. */
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};
/* Values for the Rx status entry. */
enum rx_desc_status {
	RxDComplete=0x00008000, RxDError=0x4000,
	/* See boomerang_rx() for actual error bits */
	IPChksumErr=1<<25, TCPChksumErr=1<<26, UDPChksumErr=1<<27,
	IPChksumValid=1<<29, TCPChksumValid=1<<30, UDPChksumValid=1<<31,
};

#ifdef MAX_SKB_FRAGS
#define DO_ZEROCOPY 1
#else
#define DO_ZEROCOPY 0
#endif

struct boom_tx_desc {
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	__le32 next;					/* Last entry points to 0.   */
	__le32 status;					/* bits 0:12 length, others see below.  */
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#if DO_ZEROCOPY
	struct {
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		__le32 addr;
		__le32 length;
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	} frag[1+MAX_SKB_FRAGS];
#else
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		__le32 addr;
		__le32 length;
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#endif
};

/* Values for the Tx status entry. */
enum tx_desc_status {
	CRCDisable=0x2000, TxDComplete=0x8000,
	AddIPChksum=0x02000000, AddTCPChksum=0x04000000, AddUDPChksum=0x08000000,
	TxIntrUploaded=0x80000000,		/* IRQ when in FIFO, but maybe not sent. */
};

/* Chip features we care about in vp->capabilities, read from the EEPROM. */
enum ChipCaps { CapBusMaster=0x20, CapPwrMgmt=0x2000 };

struct vortex_extra_stats {
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	unsigned long tx_deferred;
	unsigned long tx_max_collisions;
	unsigned long tx_multiple_collisions;
	unsigned long tx_single_collisions;
	unsigned long rx_bad_ssd;
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};

struct vortex_private {
	/* The Rx and Tx rings should be quad-word-aligned. */
	struct boom_rx_desc* rx_ring;
	struct boom_tx_desc* tx_ring;
	dma_addr_t rx_ring_dma;
	dma_addr_t tx_ring_dma;
	/* The addresses of transmit- and receive-in-place skbuffs. */
	struct sk_buff* rx_skbuff[RX_RING_SIZE];
	struct sk_buff* tx_skbuff[TX_RING_SIZE];
	unsigned int cur_rx, cur_tx;		/* The next free ring entry */
	unsigned int dirty_rx, dirty_tx;	/* The ring entries to be free()ed. */
	struct vortex_extra_stats xstats;	/* NIC-specific extra stats */
	struct sk_buff *tx_skb;				/* Packet being eaten by bus master ctrl.  */
	dma_addr_t tx_skb_dma;				/* Allocated DMA address for bus master ctrl DMA.   */

	/* PCI configuration space information. */
	struct device *gendev;
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	void __iomem *ioaddr;			/* IO address space */
	void __iomem *cb_fn_base;		/* CardBus function status addr space. */
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	/* Some values here only for performance evaluation and path-coverage */
	int rx_nocopy, rx_copy, queued_packet, rx_csumhits;
	int card_idx;

	/* The remainder are related to chip state, mostly media selection. */
	struct timer_list timer;			/* Media selection timer. */
	struct timer_list rx_oom_timer;		/* Rx skb allocation retry timer */
	int options;						/* User-settable misc. driver options. */
	unsigned int media_override:4, 		/* Passed-in media type. */
		default_media:4,				/* Read from the EEPROM/Wn3_Config. */
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		full_duplex:1, autoselect:1,
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		bus_master:1,					/* Vortex can only do a fragment bus-m. */
		full_bus_master_tx:1, full_bus_master_rx:2, /* Boomerang  */
		flow_ctrl:1,					/* Use 802.3x flow control (PAUSE only) */
		partner_flow_ctrl:1,			/* Partner supports flow control */
		has_nway:1,
		enable_wol:1,					/* Wake-on-LAN is enabled */
		pm_state_valid:1,				/* pci_dev->saved_config_space has sane contents */
		open:1,
		medialock:1,
		must_free_region:1,				/* Flag: if zero, Cardbus owns the I/O region */
		large_frames:1;			/* accept large frames */
	int drv_flags;
	u16 status_enable;
	u16 intr_enable;
	u16 available_media;				/* From Wn3_Options. */
	u16 capabilities, info1, info2;		/* Various, from EEPROM. */
	u16 advertising;					/* NWay media advertisement */
	unsigned char phys[2];				/* MII device addresses. */
	u16 deferred;						/* Resend these interrupts when we
										 * bale from the ISR */
	u16 io_size;						/* Size of PCI region (for release_region) */
	spinlock_t lock;					/* Serialise access to device & its vortex_private */
	struct mii_if_info mii;				/* MII lib hooks/info */
};

#ifdef CONFIG_PCI
#define DEVICE_PCI(dev) (((dev)->bus == &pci_bus_type) ? to_pci_dev((dev)) : NULL)
#else
#define DEVICE_PCI(dev) NULL
#endif

#define VORTEX_PCI(vp) (((vp)->gendev) ? DEVICE_PCI((vp)->gendev) : NULL)

#ifdef CONFIG_EISA
#define DEVICE_EISA(dev) (((dev)->bus == &eisa_bus_type) ? to_eisa_device((dev)) : NULL)
#else
#define DEVICE_EISA(dev) NULL
#endif

#define VORTEX_EISA(vp) (((vp)->gendev) ? DEVICE_EISA((vp)->gendev) : NULL)

/* The action to take with a media selection timer tick.
   Note that we deviate from the 3Com order by checking 10base2 before AUI.
 */
enum xcvr_types {
	XCVR_10baseT=0, XCVR_AUI, XCVR_10baseTOnly, XCVR_10base2, XCVR_100baseTx,
	XCVR_100baseFx, XCVR_MII=6, XCVR_NWAY=8, XCVR_ExtMII=9, XCVR_Default=10,
};

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static const struct media_table {
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	char *name;
	unsigned int media_bits:16,		/* Bits to set in Wn4_Media register. */
		mask:8,						/* The transceiver-present bit in Wn3_Config.*/
		next:8;						/* The media type to try next. */
	int wait;						/* Time before we check media status. */
} media_tbl[] = {
  {	"10baseT",   Media_10TP,0x08, XCVR_10base2, (14*HZ)/10},
  { "10Mbs AUI", Media_SQE, 0x20, XCVR_Default, (1*HZ)/10},
  { "undefined", 0,			0x80, XCVR_10baseT, 10000},
  { "10base2",   0,			0x10, XCVR_AUI,		(1*HZ)/10},
  { "100baseTX", Media_Lnk, 0x02, XCVR_100baseFx, (14*HZ)/10},
  { "100baseFX", Media_Lnk, 0x04, XCVR_MII,		(14*HZ)/10},
  { "MII",		 0,			0x41, XCVR_10baseT, 3*HZ },
  { "undefined", 0,			0x01, XCVR_10baseT, 10000},
  { "Autonegotiate", 0,		0x41, XCVR_10baseT, 3*HZ},
  { "MII-External",	 0,		0x41, XCVR_10baseT, 3*HZ },
  { "Default",	 0,			0xFF, XCVR_10baseT, 10000},
};

static struct {
	const char str[ETH_GSTRING_LEN];
} ethtool_stats_keys[] = {
	{ "tx_deferred" },
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	{ "tx_max_collisions" },
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	{ "tx_multiple_collisions" },
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	{ "tx_single_collisions" },
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	{ "rx_bad_ssd" },
};

/* number of ETHTOOL_GSTATS u64's */
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#define VORTEX_NUM_STATS    5
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static int vortex_probe1(struct device *gendev, void __iomem *ioaddr, int irq,
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				   int chip_idx, int card_idx);
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static int vortex_up(struct net_device *dev);
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static void vortex_down(struct net_device *dev, int final);
static int vortex_open(struct net_device *dev);
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static void mdio_sync(void __iomem *ioaddr, int bits);
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static int mdio_read(struct net_device *dev, int phy_id, int location);
static void mdio_write(struct net_device *vp, int phy_id, int location, int value);
static void vortex_timer(unsigned long arg);
static void rx_oom_timer(unsigned long arg);
static int vortex_start_xmit(struct sk_buff *skb, struct net_device *dev);
static int boomerang_start_xmit(struct sk_buff *skb, struct net_device *dev);
static int vortex_rx(struct net_device *dev);
static int boomerang_rx(struct net_device *dev);
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static irqreturn_t vortex_interrupt(int irq, void *dev_id);
static irqreturn_t boomerang_interrupt(int irq, void *dev_id);
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static int vortex_close(struct net_device *dev);
static void dump_tx_ring(struct net_device *dev);
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static void update_stats(void __iomem *ioaddr, struct net_device *dev);
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static struct net_device_stats *vortex_get_stats(struct net_device *dev);
static void set_rx_mode(struct net_device *dev);
#ifdef CONFIG_PCI
static int vortex_ioctl(struct net_device *dev, struct ifreq *rq, int cmd);
#endif
static void vortex_tx_timeout(struct net_device *dev);
static void acpi_set_WOL(struct net_device *dev);
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static const struct ethtool_ops vortex_ethtool_ops;
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static void set_8021q_mode(struct net_device *dev, int enable);

/* This driver uses 'options' to pass the media type, full-duplex flag, etc. */
/* Option count limit only -- unlimited interfaces are supported. */
#define MAX_UNITS 8
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static int options[MAX_UNITS] = { [0 ... MAX_UNITS-1] = -1 };
static int full_duplex[MAX_UNITS] = {[0 ... MAX_UNITS-1] = -1 };
static int hw_checksums[MAX_UNITS] = {[0 ... MAX_UNITS-1] = -1 };
static int flow_ctrl[MAX_UNITS] = {[0 ... MAX_UNITS-1] = -1 };
static int enable_wol[MAX_UNITS] = {[0 ... MAX_UNITS-1] = -1 };
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static int use_mmio[MAX_UNITS] = {[0 ... MAX_UNITS-1] = -1 };
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static int global_options = -1;
static int global_full_duplex = -1;
static int global_enable_wol = -1;
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static int global_use_mmio = -1;
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/* Variables to work-around the Compaq PCI BIOS32 problem. */
static int compaq_ioaddr, compaq_irq, compaq_device_id = 0x5900;
static struct net_device *compaq_net_device;

static int vortex_cards_found;

module_param(debug, int, 0);
module_param(global_options, int, 0);
module_param_array(options, int, NULL, 0);
module_param(global_full_duplex, int, 0);
module_param_array(full_duplex, int, NULL, 0);
module_param_array(hw_checksums, int, NULL, 0);
module_param_array(flow_ctrl, int, NULL, 0);
module_param(global_enable_wol, int, 0);
module_param_array(enable_wol, int, NULL, 0);
module_param(rx_copybreak, int, 0);
module_param(max_interrupt_work, int, 0);
module_param(compaq_ioaddr, int, 0);
module_param(compaq_irq, int, 0);
module_param(compaq_device_id, int, 0);
module_param(watchdog, int, 0);
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module_param(global_use_mmio, int, 0);
module_param_array(use_mmio, int, NULL, 0);
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MODULE_PARM_DESC(debug, "3c59x debug level (0-6)");
MODULE_PARM_DESC(options, "3c59x: Bits 0-3: media type, bit 4: bus mastering, bit 9: full duplex");
MODULE_PARM_DESC(global_options, "3c59x: same as options, but applies to all NICs if options is unset");
MODULE_PARM_DESC(full_duplex, "3c59x full duplex setting(s) (1)");
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MODULE_PARM_DESC(global_full_duplex, "3c59x: same as full_duplex, but applies to all NICs if full_duplex is unset");
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MODULE_PARM_DESC(hw_checksums, "3c59x Hardware checksum checking by adapter(s) (0-1)");
MODULE_PARM_DESC(flow_ctrl, "3c59x 802.3x flow control usage (PAUSE only) (0-1)");
MODULE_PARM_DESC(enable_wol, "3c59x: Turn on Wake-on-LAN for adapter(s) (0-1)");
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MODULE_PARM_DESC(global_enable_wol, "3c59x: same as enable_wol, but applies to all NICs if enable_wol is unset");
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MODULE_PARM_DESC(rx_copybreak, "3c59x copy breakpoint for copy-only-tiny-frames");
MODULE_PARM_DESC(max_interrupt_work, "3c59x maximum events handled per interrupt");
MODULE_PARM_DESC(compaq_ioaddr, "3c59x PCI I/O base address (Compaq BIOS problem workaround)");
MODULE_PARM_DESC(compaq_irq, "3c59x PCI IRQ number (Compaq BIOS problem workaround)");
MODULE_PARM_DESC(compaq_device_id, "3c59x PCI device ID (Compaq BIOS problem workaround)");
MODULE_PARM_DESC(watchdog, "3c59x transmit timeout in milliseconds");
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MODULE_PARM_DESC(global_use_mmio, "3c59x: same as use_mmio, but applies to all NICs if options is unset");
MODULE_PARM_DESC(use_mmio, "3c59x: use memory-mapped PCI I/O resource (0-1)");
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#ifdef CONFIG_NET_POLL_CONTROLLER
static void poll_vortex(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
	unsigned long flags;
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	local_irq_save(flags);
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	(vp->full_bus_master_rx ? boomerang_interrupt:vortex_interrupt)(dev->irq,dev);
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	local_irq_restore(flags);
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}
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#endif

#ifdef CONFIG_PM

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static int vortex_suspend(struct pci_dev *pdev, pm_message_t state)
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{
	struct net_device *dev = pci_get_drvdata(pdev);

	if (dev && dev->priv) {
		if (netif_running(dev)) {
			netif_device_detach(dev);
			vortex_down(dev, 1);
		}
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		pci_save_state(pdev);
		pci_enable_wake(pdev, pci_choose_state(pdev, state), 0);
		free_irq(dev->irq, dev);
		pci_disable_device(pdev);
		pci_set_power_state(pdev, pci_choose_state(pdev, state));
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	}
	return 0;
}

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static int vortex_resume(struct pci_dev *pdev)
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{
	struct net_device *dev = pci_get_drvdata(pdev);
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	struct vortex_private *vp = netdev_priv(dev);
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	int err;
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	if (dev && vp) {
		pci_set_power_state(pdev, PCI_D0);
		pci_restore_state(pdev);
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		err = pci_enable_device(pdev);
		if (err) {
			printk(KERN_WARNING "%s: Could not enable device \n",
				dev->name);
			return err;
		}
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		pci_set_master(pdev);
		if (request_irq(dev->irq, vp->full_bus_master_rx ?
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				&boomerang_interrupt : &vortex_interrupt, IRQF_SHARED, dev->name, dev)) {
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			printk(KERN_WARNING "%s: Could not reserve IRQ %d\n", dev->name, dev->irq);
			pci_disable_device(pdev);
			return -EBUSY;
		}
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		if (netif_running(dev)) {
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			err = vortex_up(dev);
			if (err)
				return err;
			else
				netif_device_attach(dev);
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		}
	}
	return 0;
}

#endif /* CONFIG_PM */

#ifdef CONFIG_EISA
static struct eisa_device_id vortex_eisa_ids[] = {
	{ "TCM5920", CH_3C592 },
	{ "TCM5970", CH_3C597 },
	{ "" }
};
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MODULE_DEVICE_TABLE(eisa, vortex_eisa_ids);
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static int __init vortex_eisa_probe(struct device *device)
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{
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	void __iomem *ioaddr;
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	struct eisa_device *edev;

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	edev = to_eisa_device(device);
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	if (!request_region(edev->base_addr, VORTEX_TOTAL_SIZE, DRV_NAME))
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		return -EBUSY;

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	ioaddr = ioport_map(edev->base_addr, VORTEX_TOTAL_SIZE);

	if (vortex_probe1(device, ioaddr, ioread16(ioaddr + 0xC88) >> 12,
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					  edev->id.driver_data, vortex_cards_found)) {
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		release_region(edev->base_addr, VORTEX_TOTAL_SIZE);
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		return -ENODEV;
	}

	vortex_cards_found++;

	return 0;
}

886
static int __devexit vortex_eisa_remove(struct device *device)
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{
	struct eisa_device *edev;
	struct net_device *dev;
	struct vortex_private *vp;
891
	void __iomem *ioaddr;
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	edev = to_eisa_device(device);
	dev = eisa_get_drvdata(edev);
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	if (!dev) {
		printk("vortex_eisa_remove called for Compaq device!\n");
		BUG();
	}

	vp = netdev_priv(dev);
902
	ioaddr = vp->ioaddr;
903

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	unregister_netdev(dev);
	iowrite16(TotalReset|0x14, ioaddr + EL3_CMD);
	release_region(dev->base_addr, VORTEX_TOTAL_SIZE);
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	free_netdev(dev);
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	return 0;
}
911 912 913 914 915 916 917 918 919 920 921

static struct eisa_driver vortex_eisa_driver = {
	.id_table = vortex_eisa_ids,
	.driver   = {
		.name    = "3c59x",
		.probe   = vortex_eisa_probe,
		.remove  = __devexit_p(vortex_eisa_remove)
	}
};

#endif /* CONFIG_EISA */
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/* returns count found (>= 0), or negative on error */
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static int __init vortex_eisa_init(void)
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{
	int eisa_found = 0;
	int orig_cards_found = vortex_cards_found;

#ifdef CONFIG_EISA
930 931 932 933 934 935 936 937 938 939 940 941
	int err;

	err = eisa_driver_register (&vortex_eisa_driver);
	if (!err) {
		/*
		 * Because of the way EISA bus is probed, we cannot assume
		 * any device have been found when we exit from
		 * eisa_driver_register (the bus root driver may not be
		 * initialized yet). So we blindly assume something was
		 * found, and let the sysfs magic happend...
		 */
		eisa_found = 1;
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	}
#endif
944

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	/* Special code to work-around the Compaq PCI BIOS32 problem. */
	if (compaq_ioaddr) {
947 948
		vortex_probe1(NULL, ioport_map(compaq_ioaddr, VORTEX_TOTAL_SIZE),
			      compaq_irq, compaq_device_id, vortex_cards_found++);
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	}

	return vortex_cards_found - orig_cards_found + eisa_found;
}

/* returns count (>= 0), or negative on error */
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static int __devinit vortex_init_one(struct pci_dev *pdev,
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				      const struct pci_device_id *ent)
{
958 959 960
	int rc, unit, pci_bar;
	struct vortex_chip_info *vci;
	void __iomem *ioaddr;
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962
	/* wake up and enable device */
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	rc = pci_enable_device(pdev);
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	if (rc < 0)
		goto out;

967 968 969 970 971 972 973 974 975 976 977 978 979 980 981 982 983
	unit = vortex_cards_found;

	if (global_use_mmio < 0 && (unit >= MAX_UNITS || use_mmio[unit] < 0)) {
		/* Determine the default if the user didn't override us */
		vci = &vortex_info_tbl[ent->driver_data];
		pci_bar = vci->drv_flags & (IS_CYCLONE | IS_TORNADO) ? 1 : 0;
	} else if (unit < MAX_UNITS && use_mmio[unit] >= 0)
		pci_bar = use_mmio[unit] ? 1 : 0;
	else
		pci_bar = global_use_mmio ? 1 : 0;

	ioaddr = pci_iomap(pdev, pci_bar, 0);
	if (!ioaddr) /* If mapping fails, fall-back to BAR 0... */
		ioaddr = pci_iomap(pdev, 0, 0);

	rc = vortex_probe1(&pdev->dev, ioaddr, pdev->irq,
			   ent->driver_data, unit);
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	if (rc < 0) {
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		pci_disable_device(pdev);
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		goto out;
	}

	vortex_cards_found++;

out:
	return rc;
}

/*
 * Start up the PCI/EISA device which is described by *gendev.
 * Return 0 on success.
 *
 * NOTE: pdev can be NULL, for the case of a Compaq device
 */
static int __devinit vortex_probe1(struct device *gendev,
1002
				   void __iomem *ioaddr, int irq,
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				   int chip_idx, int card_idx)
{
	struct vortex_private *vp;
	int option;
	unsigned int eeprom[0x40], checksum = 0;		/* EEPROM contents */
	int i, step;
	struct net_device *dev;
	static int printed_version;
	int retval, print_info;
	struct vortex_chip_info * const vci = &vortex_info_tbl[chip_idx];
	char *print_name = "3c59x";
	struct pci_dev *pdev = NULL;
	struct eisa_device *edev = NULL;
1016
	DECLARE_MAC_BUF(mac);
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	if (!printed_version) {
		printk (version);
		printed_version = 1;
	}

	if (gendev) {
		if ((pdev = DEVICE_PCI(gendev))) {
			print_name = pci_name(pdev);
		}

		if ((edev = DEVICE_EISA(gendev))) {
			print_name = edev->dev.bus_id;
		}
	}

	dev = alloc_etherdev(sizeof(*vp));
	retval = -ENOMEM;
	if (!dev) {
		printk (KERN_ERR PFX "unable to allocate etherdev, aborting\n");
		goto out;
	}
	SET_NETDEV_DEV(dev, gendev);
	vp = netdev_priv(dev);

	option = global_options;

	/* The lower four bits are the media type. */
	if (dev->mem_start) {
		/*
		 * The 'options' param is passed in as the third arg to the
		 * LILO 'ether=' argument for non-modular use
		 */
		option = dev->mem_start;
	}
	else if (card_idx < MAX_UNITS) {
		if (options[card_idx] >= 0)
			option = options[card_idx];
	}

	if (option > 0) {
		if (option & 0x8000)
			vortex_debug = 7;
		if (option & 0x4000)
			vortex_debug = 2;
		if (option & 0x0400)
			vp->enable_wol = 1;
	}

	print_info = (vortex_debug > 1);
	if (print_info)
		printk (KERN_INFO "See Documentation/networking/vortex.txt\n");

1070
	printk(KERN_INFO "%s: 3Com %s %s at %p.\n",
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	       print_name,
	       pdev ? "PCI" : "EISA",
	       vci->name,
	       ioaddr);

1076
	dev->base_addr = (unsigned long)ioaddr;
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	dev->irq = irq;
	dev->mtu = mtu;
1079
	vp->ioaddr = ioaddr;
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	vp->large_frames = mtu > 1500;
	vp->drv_flags = vci->drv_flags;
	vp->has_nway = (vci->drv_flags & HAS_NWAY) ? 1 : 0;
	vp->io_size = vci->io_size;
	vp->card_idx = card_idx;

	/* module list only for Compaq device */
	if (gendev == NULL) {
		compaq_net_device = dev;
	}

	/* PCI-only startup logic */
	if (pdev) {
		/* EISA resources already marked, so only PCI needs to do this here */
		/* Ignore return value, because Cardbus drivers already allocate for us */
1095
		if (request_region(dev->base_addr, vci->io_size, print_name) != NULL)
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			vp->must_free_region = 1;

1098
		/* enable bus-mastering if necessary */
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		if (vci->flags & PCI_USES_MASTER)
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			pci_set_master(pdev);
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		if (vci->drv_flags & IS_VORTEX) {
			u8 pci_latency;
			u8 new_latency = 248;

			/* Check the PCI latency value.  On the 3c590 series the latency timer
			   must be set to the maximum value to avoid data corruption that occurs
			   when the timer expires during a transfer.  This bug exists the Vortex
			   chip only. */
			pci_read_config_byte(pdev, PCI_LATENCY_TIMER, &pci_latency);
			if (pci_latency < new_latency) {
				printk(KERN_INFO "%s: Overriding PCI latency"
					" timer (CFLT) setting of %d, new value is %d.\n",
					print_name, pci_latency, new_latency);
					pci_write_config_byte(pdev, PCI_LATENCY_TIMER, new_latency);
			}
		}
	}

	spin_lock_init(&vp->lock);
	vp->gendev = gendev;
	vp->mii.dev = dev;
	vp->mii.mdio_read = mdio_read;
	vp->mii.mdio_write = mdio_write;
	vp->mii.phy_id_mask = 0x1f;
	vp->mii.reg_num_mask = 0x1f;

	/* Makes sure rings are at least 16 byte aligned. */
	vp->rx_ring = pci_alloc_consistent(pdev, sizeof(struct boom_rx_desc) * RX_RING_SIZE
					   + sizeof(struct boom_tx_desc) * TX_RING_SIZE,
					   &vp->rx_ring_dma);
	retval = -ENOMEM;
1133
	if (!vp->rx_ring)
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		goto free_region;

	vp->tx_ring = (struct boom_tx_desc *)(vp->rx_ring + RX_RING_SIZE);
	vp->tx_ring_dma = vp->rx_ring_dma + sizeof(struct boom_rx_desc) * RX_RING_SIZE;

	/* if we are a PCI driver, we store info in pdev->driver_data
1140
	 * instead of a module list */
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	if (pdev)
		pci_set_drvdata(pdev, dev);
	if (edev)
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		eisa_set_drvdata(edev, dev);
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	vp->media_override = 7;
	if (option >= 0) {
		vp->media_override = ((option & 7) == 2)  ?  0  :  option & 15;
		if (vp->media_override != 7)
			vp->medialock = 1;
		vp->full_duplex = (option & 0x200) ? 1 : 0;
		vp->bus_master = (option & 16) ? 1 : 0;
	}

	if (global_full_duplex > 0)
		vp->full_duplex = 1;
	if (global_enable_wol > 0)
		vp->enable_wol = 1;

	if (card_idx < MAX_UNITS) {
		if (full_duplex[card_idx] > 0)
			vp->full_duplex = 1;
		if (flow_ctrl[card_idx] > 0)
			vp->flow_ctrl = 1;
		if (enable_wol[card_idx] > 0)
			vp->enable_wol = 1;
	}

1169
	vp->mii.force_media = vp->full_duplex;
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	vp->options = option;
	/* Read the station address from the EEPROM. */
	EL3WINDOW(0);
	{
		int base;

		if (vci->drv_flags & EEPROM_8BIT)
			base = 0x230;
		else if (vci->drv_flags & EEPROM_OFFSET)
			base = EEPROM_Read + 0x30;
		else
			base = EEPROM_Read;

		for (i = 0; i < 0x40; i++) {
			int timer;
1185
			iowrite16(base + i, ioaddr + Wn0EepromCmd);
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			/* Pause for at least 162 us. for the read to take place. */
			for (timer = 10; timer >= 0; timer--) {
				udelay(162);
1189
				if ((ioread16(ioaddr + Wn0EepromCmd) & 0x8000) == 0)
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					break;
			}
1192
			eeprom[i] = ioread16(ioaddr + Wn0EepromData);
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		}
	}
	for (i = 0; i < 0x18; i++)
		checksum ^= eeprom[i];
	checksum = (checksum ^ (checksum >> 8)) & 0xff;
	if (checksum != 0x00) {		/* Grrr, needless incompatible change 3Com. */
		while (i < 0x21)
			checksum ^= eeprom[i++];
		checksum = (checksum ^ (checksum >> 8)) & 0xff;
	}
	if ((checksum != 0x00) && !(vci->drv_flags & IS_TORNADO))
		printk(" ***INVALID CHECKSUM %4.4x*** ", checksum);
	for (i = 0; i < 3; i++)
1206
		((__be16 *)dev->dev_addr)[i] = htons(eeprom[i + 10]);
1207
	memcpy(dev->perm_addr, dev->dev_addr, dev->addr_len);
1208 1209
	if (print_info)
		printk(" %s", print_mac(mac, dev->dev_addr));
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	/* Unfortunately an all zero eeprom passes the checksum and this
	   gets found in the wild in failure cases. Crypto is hard 8) */
	if (!is_valid_ether_addr(dev->dev_addr)) {
		retval = -EINVAL;
		printk(KERN_ERR "*** EEPROM MAC address is invalid.\n");
		goto free_ring;	/* With every pack */
	}
	EL3WINDOW(2);
	for (i = 0; i < 6; i++)
1219
		iowrite8(dev->dev_addr[i], ioaddr + i);
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	if (print_info)
		printk(", IRQ %d\n", dev->irq);
	/* Tell them about an invalid IRQ. */
	if (dev->irq <= 0 || dev->irq >= NR_IRQS)
		printk(KERN_WARNING " *** Warning: IRQ %d is unlikely to work! ***\n",
			   dev->irq);

	EL3WINDOW(4);
1229
	step = (ioread8(ioaddr + Wn4_NetDiag) & 0x1e) >> 1;
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	if (print_info) {
		printk(KERN_INFO "  product code %02x%02x rev %02x.%d date %02d-"
			"%02d-%02d\n", eeprom[6]&0xff, eeprom[6]>>8, eeprom[0x14],
			step, (eeprom[4]>>5) & 15, eeprom[4] & 31, eeprom[4]>>9);
	}


	if (pdev && vci->drv_flags & HAS_CB_FNS) {
		unsigned short n;

1240 1241
		vp->cb_fn_base = pci_iomap(pdev, 2, 0);
		if (!vp->cb_fn_base) {
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			retval = -ENOMEM;
1243
			goto free_ring;
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		}
1245

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		if (print_info) {
1247 1248 1249 1250
			printk(KERN_INFO "%s: CardBus functions mapped "
				"%16.16llx->%p\n",
				print_name,
				(unsigned long long)pci_resource_start(pdev, 2),
1251
				vp->cb_fn_base);
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		}
		EL3WINDOW(2);

1255
		n = ioread16(ioaddr + Wn2_ResetOptions) & ~0x4010;
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		if (vp->drv_flags & INVERT_LED_PWR)
			n |= 0x10;
		if (vp->drv_flags & INVERT_MII_PWR)
			n |= 0x4000;
1260
		iowrite16(n, ioaddr + Wn2_ResetOptions);
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		if (vp->drv_flags & WNO_XCVR_PWR) {
			EL3WINDOW(0);
1263
			iowrite16(0x0800, ioaddr);
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		}
	}

	/* Extract our information from the EEPROM data. */
	vp->info1 = eeprom[13];
	vp->info2 = eeprom[15];
	vp->capabilities = eeprom[16];

	if (vp->info1 & 0x8000) {
		vp->full_duplex = 1;
		if (print_info)
			printk(KERN_INFO "Full duplex capable\n");
	}

	{
1279
		static const char * const ram_split[] = {"5:3", "3:1", "1:1", "3:5"};
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		unsigned int config;
		EL3WINDOW(3);
1282
		vp->available_media = ioread16(ioaddr + Wn3_Options);
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		if ((vp->available_media & 0xff) == 0)		/* Broken 3c916 */
			vp->available_media = 0x40;
1285
		config = ioread32(ioaddr + Wn3_Config);
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		if (print_info) {
			printk(KERN_DEBUG "  Internal config register is %4.4x, "
1288
				   "transceivers %#x.\n", config, ioread16(ioaddr + Wn3_Options));
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			printk(KERN_INFO "  %dK %s-wide RAM %s Rx:Tx split, %s%s interface.\n",
				   8 << RAM_SIZE(config),
				   RAM_WIDTH(config) ? "word" : "byte",
				   ram_split[RAM_SPLIT(config)],
				   AUTOSELECT(config) ? "autoselect/" : "",
				   XCVR(config) > XCVR_ExtMII ? "<invalid transceiver>" :
				   media_tbl[XCVR(config)].name);
		}
		vp->default_media = XCVR(config);
		if (vp->default_media == XCVR_NWAY)
			vp->has_nway = 1;
		vp->autoselect = AUTOSELECT(config);
	}

	if (vp->media_override != 7) {
		printk(KERN_INFO "%s:  Media override to transceiver type %d (%s).\n",
				print_name, vp->media_override,
				media_tbl[vp->media_override].name);
		dev->if_port = vp->media_override;
	} else
		dev->if_port = vp->default_media;

	if ((vp->available_media & 0x40) || (vci->drv_flags & HAS_NWAY) ||
		dev->if_port == XCVR_MII || dev->if_port == XCVR_NWAY) {
		int phy, phy_idx = 0;
		EL3WINDOW(4);
		mii_preamble_required++;
		if (vp->drv_flags & EXTRA_PREAMBLE)
			mii_preamble_required++;
		mdio_sync(ioaddr, 32);
1319
		mdio_read(dev, 24, MII_BMSR);
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		for (phy = 0; phy < 32 && phy_idx < 1; phy++) {
			int mii_status, phyx;

			/*
			 * For the 3c905CX we look at index 24 first, because it bogusly
			 * reports an external PHY at all indices
			 */
			if (phy == 0)
				phyx = 24;
			else if (phy <= 24)
				phyx = phy - 1;
			else
				phyx = phy;
1333
			mii_status = mdio_read(dev, phyx, MII_BMSR);
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			if (mii_status  &&  mii_status != 0xffff) {
				vp->phys[phy_idx++] = phyx;
				if (print_info) {
					printk(KERN_INFO "  MII transceiver found at address %d,"
						" status %4x.\n", phyx, mii_status);
				}
				if ((mii_status & 0x0040) == 0)
					mii_preamble_required++;
			}
		}
		mii_preamble_required--;
		if (phy_idx == 0) {
			printk(KERN_WARNING"  ***WARNING*** No MII transceivers found!\n");
			vp->phys[0] = 24;
		} else {
1349
			vp->advertising = mdio_read(dev, vp->phys[0], MII_ADVERTISE);
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			if (vp->full_duplex) {
				/* Only advertise the FD media types. */
				vp->advertising &= ~0x02A0;
				mdio_write(dev, vp->phys[0], 4, vp->advertising);
			}
		}
		vp->mii.phy_id = vp->phys[0];
	}

	if (vp->capabilities & CapBusMaster) {
		vp->full_bus_master_tx = 1;
		if (print_info) {
			printk(KERN_INFO "  Enabling bus-master transmits and %s receives.\n",
			(vp->info2 & 1) ? "early" : "whole-frame" );
		}
		vp->full_bus_master_rx = (vp->info2 & 1) ? 1 : 2;
		vp->bus_master = 0;		/* AKPM: vortex only */
	}

	/* The 3c59x-specific entries in the device structure. */
	dev->open = vortex_open;
	if (vp->full_bus_master_tx) {
		dev->hard_start_xmit = boomerang_start_xmit;
		/* Actually, it still should work with iommu. */
1374 1375 1376
		if (card_idx < MAX_UNITS &&
		    ((hw_checksums[card_idx] == -1 && (vp->drv_flags & HAS_HWCKSM)) ||
				hw_checksums[card_idx] == 1)) {
1377
			dev->features |= NETIF_F_IP_CSUM | NETIF_F_SG;
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		}
	} else {
		dev->hard_start_xmit = vortex_start_xmit;
	}

	if (print_info) {
		printk(KERN_INFO "%s: scatter/gather %sabled. h/w checksums %sabled\n",
				print_name,
				(dev->features & NETIF_F_SG) ? "en":"dis",
				(dev->features & NETIF_F_IP_CSUM) ? "en":"dis");
	}

	dev->stop = vortex_close;
	dev->get_stats = vortex_get_stats;
#ifdef CONFIG_PCI
	dev->do_ioctl = vortex_ioctl;
#endif
	dev->ethtool_ops = &vortex_ethtool_ops;
	dev->set_multicast_list = set_rx_mode;
	dev->tx_timeout = vortex_tx_timeout;
	dev->watchdog_timeo = (watchdog * HZ) / 1000;
#ifdef CONFIG_NET_POLL_CONTROLLER
1400
	dev->poll_controller = poll_vortex;
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#endif
	if (pdev) {
		vp->pm_state_valid = 1;
 		pci_save_state(VORTEX_PCI(vp));
 		acpi_set_WOL(dev);
	}
	retval = register_netdev(dev);
	if (retval == 0)
		return 0;

free_ring:
	pci_free_consistent(pdev,
						sizeof(struct boom_rx_desc) * RX_RING_SIZE
							+ sizeof(struct boom_tx_desc) * TX_RING_SIZE,
						vp->rx_ring,
						vp->rx_ring_dma);
free_region:
	if (vp->must_free_region)
1419
		release_region(dev->base_addr, vci->io_size);
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	free_netdev(dev);
	printk(KERN_ERR PFX "vortex_probe1 fails.  Returns %d\n", retval);
out:
	return retval;
}

static void
issue_and_wait(struct net_device *dev, int cmd)
{
1429 1430
	struct vortex_private *vp = netdev_priv(dev);
	void __iomem *ioaddr = vp->ioaddr;
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	int i;

1433
	iowrite16(cmd, ioaddr + EL3_CMD);
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	for (i = 0; i < 2000; i++) {
1435
		if (!(ioread16(ioaddr + EL3_STATUS) & CmdInProgress))
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			return;
	}

	/* OK, that didn't work.  Do it the slow way.  One second */
	for (i = 0; i < 100000; i++) {
1441
		if (!(ioread16(ioaddr + EL3_STATUS) & CmdInProgress)) {
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			if (vortex_debug > 1)
				printk(KERN_INFO "%s: command 0x%04x took %d usecs\n",
					   dev->name, cmd, i * 10);
			return;
		}
		udelay(10);
	}
	printk(KERN_ERR "%s: command 0x%04x did not complete! Status=0x%x\n",
1450
			   dev->name, cmd, ioread16(ioaddr + EL3_STATUS));
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}

1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486
static void
vortex_set_duplex(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
	void __iomem *ioaddr = vp->ioaddr;

	printk(KERN_INFO "%s:  setting %s-duplex.\n",
		dev->name, (vp->full_duplex) ? "full" : "half");

	EL3WINDOW(3);
	/* Set the full-duplex bit. */
	iowrite16(((vp->info1 & 0x8000) || vp->full_duplex ? 0x20 : 0) |
		 	(vp->large_frames ? 0x40 : 0) |
			((vp->full_duplex && vp->flow_ctrl && vp->partner_flow_ctrl) ?
					0x100 : 0),
			ioaddr + Wn3_MAC_Ctrl);
}

static void vortex_check_media(struct net_device *dev, unsigned int init)
{
	struct vortex_private *vp = netdev_priv(dev);
	unsigned int ok_to_print = 0;

	if (vortex_debug > 3)
		ok_to_print = 1;

	if (mii_check_media(&vp->mii, ok_to_print, init)) {
		vp->full_duplex = vp->mii.full_duplex;
		vortex_set_duplex(dev);
	} else if (init) {
		vortex_set_duplex(dev);
	}
}

1487
static int
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vortex_up(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
1491
	void __iomem *ioaddr = vp->ioaddr;
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	unsigned int config;
1493
	int i, mii_reg1, mii_reg5, err = 0;
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	if (VORTEX_PCI(vp)) {
		pci_set_power_state(VORTEX_PCI(vp), PCI_D0);	/* Go active */
1497 1498
		if (vp->pm_state_valid)
			pci_restore_state(VORTEX_PCI(vp));
1499 1500 1501 1502 1503 1504
		err = pci_enable_device(VORTEX_PCI(vp));
		if (err) {
			printk(KERN_WARNING "%s: Could not enable device \n",
				dev->name);
			goto err_out;
		}
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	}

	/* Before initializing select the active media port. */
	EL3WINDOW(3);
1509
	config = ioread32(ioaddr + Wn3_Config);
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	if (vp->media_override != 7) {
		printk(KERN_INFO "%s: Media override to transceiver %d (%s).\n",
			   dev->name, vp->media_override,
			   media_tbl[vp->media_override].name);
		dev->if_port = vp->media_override;
	} else if (vp->autoselect) {
		if (vp->has_nway) {
			if (vortex_debug > 1)
				printk(KERN_INFO "%s: using NWAY device table, not %d\n",
								dev->name, dev->if_port);
			dev->if_port = XCVR_NWAY;
		} else {
			/* Find first available media type, starting with 100baseTx. */
			dev->if_port = XCVR_100baseTx;
			while (! (vp->available_media & media_tbl[dev->if_port].mask))
				dev->if_port = media_tbl[dev->if_port].next;
			if (vortex_debug > 1)
				printk(KERN_INFO "%s: first available media type: %s\n",
					dev->name, media_tbl[dev->if_port].name);
		}
	} else {
		dev->if_port = vp->default_media;
		if (vortex_debug > 1)
			printk(KERN_INFO "%s: using default media %s\n",
				dev->name, media_tbl[dev->if_port].name);
	}

	init_timer(&vp->timer);
	vp->timer.expires = RUN_AT(media_tbl[dev->if_port].wait);
	vp->timer.data = (unsigned long)dev;
	vp->timer.function = vortex_timer;		/* timer handler */
	add_timer(&vp->timer);

	init_timer(&vp->rx_oom_timer);
	vp->rx_oom_timer.data = (unsigned long)dev;
	vp->rx_oom_timer.function = rx_oom_timer;

	if (vortex_debug > 1)
		printk(KERN_DEBUG "%s: Initial media type %s.\n",
			   dev->name, media_tbl[dev->if_port].name);

1552
	vp->full_duplex = vp->mii.force_media;
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	config = BFINS(config, dev->if_port, 20, 4);
	if (vortex_debug > 6)
		printk(KERN_DEBUG "vortex_up(): writing 0x%x to InternalConfig\n", config);
1556
	iowrite32(config, ioaddr + Wn3_Config);
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	if (dev->if_port == XCVR_MII || dev->if_port == XCVR_NWAY) {
		EL3WINDOW(4);
1560 1561 1562
		mii_reg1 = mdio_read(dev, vp->phys[0], MII_BMSR);
		mii_reg5 = mdio_read(dev, vp->phys[0], MII_LPA);
		vp->partner_flow_ctrl = ((mii_reg5 & 0x0400) != 0);
1563
		vp->mii.full_duplex = vp->full_duplex;
1564

1565
		vortex_check_media(dev, 1);
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	}
1567 1568
	else
		vortex_set_duplex(dev);
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1570 1571 1572 1573 1574 1575
	issue_and_wait(dev, TxReset);
	/*
	 * Don't reset the PHY - that upsets autonegotiation during DHCP operations.
	 */
	issue_and_wait(dev, RxReset|0x04);

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1577
	iowrite16(SetStatusEnb | 0x00, ioaddr + EL3_CMD);
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	if (vortex_debug > 1) {
		EL3WINDOW(4);
		printk(KERN_DEBUG "%s: vortex_up() irq %d media status %4.4x.\n",
1582
			   dev->name, dev->irq, ioread16(ioaddr + Wn4_Media));
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	}

	/* Set the station address and mask in window 2 each time opened. */
	EL3WINDOW(2);
	for (i = 0; i < 6; i++)
1588
		iowrite8(dev->dev_addr[i], ioaddr + i);
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	for (; i < 12; i+=2)
1590
		iowrite16(0, ioaddr + i);
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	if (vp->cb_fn_base) {
1593
		unsigned short n = ioread16(ioaddr + Wn2_ResetOptions) & ~0x4010;
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		if (vp->drv_flags & INVERT_LED_PWR)
			n |= 0x10;
		if (vp->drv_flags & INVERT_MII_PWR)
			n |= 0x4000;
1598
		iowrite16(n, ioaddr + Wn2_ResetOptions);
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	}

	if (dev->if_port == XCVR_10base2)
		/* Start the thinnet transceiver. We should really wait 50ms...*/
1603
		iowrite16(StartCoax, ioaddr + EL3_CMD);
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	if (dev->if_port != XCVR_NWAY) {
		EL3WINDOW(4);
1606
		iowrite16((ioread16(ioaddr + Wn4_Media) & ~(Media_10TP|Media_SQE)) |
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			 media_tbl[dev->if_port].media_bits, ioaddr + Wn4_Media);
	}

	/* Switch to the stats window, and clear all stats by reading. */
1611
	iowrite16(StatsDisable, ioaddr + EL3_CMD);
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	EL3WINDOW(6);
	for (i = 0; i < 10; i++)
1614 1615 1616
		ioread8(ioaddr + i);
	ioread16(ioaddr + 10);
	ioread16(ioaddr + 12);
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	/* New: On the Vortex we must also clear the BadSSD counter. */
	EL3WINDOW(4);
1619
	ioread8(ioaddr + 12);
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	/* ..and on the Boomerang we enable the extra statistics bits. */
1621
	iowrite16(0x0040, ioaddr + Wn4_NetDiag);
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	/* Switch to register set 7 for normal use. */
	EL3WINDOW(7);

	if (vp->full_bus_master_rx) { /* Boomerang bus master. */
		vp->cur_rx = vp->dirty_rx = 0;
		/* Initialize the RxEarly register as recommended. */
1629 1630 1631
		iowrite16(SetRxThreshold + (1536>>2), ioaddr + EL3_CMD);
		iowrite32(0x0020, ioaddr + PktStatus);
		iowrite32(vp->rx_ring_dma, ioaddr + UpListPtr);
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	}
	if (vp->full_bus_master_tx) { 		/* Boomerang bus master Tx. */
		vp->cur_tx = vp->dirty_tx = 0;
		if (vp->drv_flags & IS_BOOMERANG)
1636
			iowrite8(PKT_BUF_SZ>>8, ioaddr + TxFreeThreshold); /* Room for a packet. */
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		/* Clear the Rx, Tx rings. */
		for (i = 0; i < RX_RING_SIZE; i++)	/* AKPM: this is done in vortex_open, too */
			vp->rx_ring[i].status = 0;
		for (i = 0; i < TX_RING_SIZE; i++)
			vp->tx_skbuff[i] = NULL;
1642
		iowrite32(0, ioaddr + DownListPtr);
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	}
	/* Set receiver mode: presumably accept b-case and phys addr only. */
	set_rx_mode(dev);
	/* enable 802.1q tagged frames */
	set_8021q_mode(dev, 1);
1648
	iowrite16(StatsEnable, ioaddr + EL3_CMD); /* Turn on statistics. */
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1650 1651
	iowrite16(RxEnable, ioaddr + EL3_CMD); /* Enable the receiver. */
	iowrite16(TxEnable, ioaddr + EL3_CMD); /* Enable transmitter. */
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	/* Allow status bits to be seen. */
	vp->status_enable = SetStatusEnb | HostError|IntReq|StatsFull|TxComplete|
		(vp->full_bus_master_tx ? DownComplete : TxAvailable) |
		(vp->full_bus_master_rx ? UpComplete : RxComplete) |
		(vp->bus_master ? DMADone : 0);
	vp->intr_enable = SetIntrEnb | IntLatch | TxAvailable |
		(vp->full_bus_master_rx ? 0 : RxComplete) |
		StatsFull | HostError | TxComplete | IntReq
		| (vp->bus_master ? DMADone : 0) | UpComplete | DownComplete;
1661
	iowrite16(vp->status_enable, ioaddr + EL3_CMD);
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	/* Ack all pending events, and set active indicator mask. */
1663
	iowrite16(AckIntr | IntLatch | TxAvailable | RxEarly | IntReq,
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		 ioaddr + EL3_CMD);
1665
	iowrite16(vp->intr_enable, ioaddr + EL3_CMD);
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	if (vp->cb_fn_base)			/* The PCMCIA people are idiots.  */
1667
		iowrite32(0x8000, vp->cb_fn_base + 4);
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	netif_start_queue (dev);
1669 1670
err_out:
	return err;
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}

static int
vortex_open(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
	int i;
	int retval;

	/* Use the now-standard shared IRQ implementation. */
	if ((retval = request_irq(dev->irq, vp->full_bus_master_rx ?
1682
				&boomerang_interrupt : &vortex_interrupt, IRQF_SHARED, dev->name, dev))) {
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		printk(KERN_ERR "%s: Could not reserve IRQ %d\n", dev->name, dev->irq);
1684
		goto err;
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	}

	if (vp->full_bus_master_rx) { /* Boomerang bus master. */
		if (vortex_debug > 2)
			printk(KERN_DEBUG "%s:  Filling in the Rx ring.\n", dev->name);
		for (i = 0; i < RX_RING_SIZE; i++) {
			struct sk_buff *skb;
			vp->rx_ring[i].next = cpu_to_le32(vp->rx_ring_dma + sizeof(struct boom_rx_desc) * (i+1));
			vp->rx_ring[i].status = 0;	/* Clear complete bit. */
			vp->rx_ring[i].length = cpu_to_le32(PKT_BUF_SZ | LAST_FRAG);
			skb = dev_alloc_skb(PKT_BUF_SZ);
			vp->rx_skbuff[i] = skb;
			if (skb == NULL)
				break;			/* Bad news!  */
			skb->dev = dev;			/* Mark as being used by this device. */
			skb_reserve(skb, 2);	/* Align IP on 16 byte boundaries */
1701
			vp->rx_ring[i].addr = cpu_to_le32(pci_map_single(VORTEX_PCI(vp), skb->data, PKT_BUF_SZ, PCI_DMA_FROMDEVICE));
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		}
		if (i != RX_RING_SIZE) {
			int j;
			printk(KERN_EMERG "%s: no memory for rx ring\n", dev->name);
			for (j = 0; j < i; j++) {
				if (vp->rx_skbuff[j]) {
					dev_kfree_skb(vp->rx_skbuff[j]);
					vp->rx_skbuff[j] = NULL;
				}
			}
			retval = -ENOMEM;
1713
			goto err_free_irq;
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		}
		/* Wrap the ring. */
		vp->rx_ring[i-1].next = cpu_to_le32(vp->rx_ring_dma);
	}

1719 1720 1721
	retval = vortex_up(dev);
	if (!retval)
		goto out;
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1723
err_free_irq:
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	free_irq(dev->irq, dev);
1725
err:
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	if (vortex_debug > 1)
		printk(KERN_ERR "%s: vortex_open() fails: returning %d\n", dev->name, retval);
1728
out:
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	return retval;
}

static void
vortex_timer(unsigned long data)
{
	struct net_device *dev = (struct net_device *)data;
	struct vortex_private *vp = netdev_priv(dev);
1737
	void __iomem *ioaddr = vp->ioaddr;
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	int next_tick = 60*HZ;
	int ok = 0;
1740
	int media_status, old_window;
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	if (vortex_debug > 2) {
		printk(KERN_DEBUG "%s: Media selection timer tick happened, %s.\n",
			   dev->name, media_tbl[dev->if_port].name);
		printk(KERN_DEBUG "dev->watchdog_timeo=%d\n", dev->watchdog_timeo);
	}

1748
	disable_irq_lockdep(dev->irq);
1749
	old_window = ioread16(ioaddr + EL3_CMD) >> 13;
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	EL3WINDOW(4);
1751
	media_status = ioread16(ioaddr + Wn4_Media);
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	switch (dev->if_port) {
	case XCVR_10baseT:  case XCVR_100baseTx:  case XCVR_100baseFx:
		if (media_status & Media_LnkBeat) {
			netif_carrier_on(dev);
			ok = 1;
			if (vortex_debug > 1)
				printk(KERN_DEBUG "%s: Media %s has link beat, %x.\n",
					   dev->name, media_tbl[dev->if_port].name, media_status);
		} else {
			netif_carrier_off(dev);
			if (vortex_debug > 1) {
				printk(KERN_DEBUG "%s: Media %s has no link beat, %x.\n",
					   dev->name, media_tbl[dev->if_port].name, media_status);
			}
		}
		break;
	case XCVR_MII: case XCVR_NWAY:
		{
			ok = 1;
1771 1772
			spin_lock_bh(&vp->lock);
			vortex_check_media(dev, 0);
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			spin_unlock_bh(&vp->lock);
		}
		break;
	  default:					/* Other media types handled by Tx timeouts. */
		if (vortex_debug > 1)
		  printk(KERN_DEBUG "%s: Media %s has no indication, %x.\n",
				 dev->name, media_tbl[dev->if_port].name, media_status);
		ok = 1;
	}
1782 1783 1784 1785

	if (!netif_carrier_ok(dev))
		next_tick = 5*HZ;

1786 1787 1788
	if (vp->medialock)
		goto leave_media_alone;

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	if (!ok) {
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		unsigned int config;

		do {
			dev->if_port = media_tbl[dev->if_port].next;
		} while ( ! (vp->available_media & media_tbl[dev->if_port].mask));
		if (dev->if_port == XCVR_Default) { /* Go back to default. */
		  dev->if_port = vp->default_media;
		  if (vortex_debug > 1)
			printk(KERN_DEBUG "%s: Media selection failing, using default "
				   "%s port.\n",
				   dev->name, media_tbl[dev->if_port].name);
		} else {
			if (vortex_debug > 1)
				printk(KERN_DEBUG "%s: Media selection failed, now trying "
					   "%s port.\n",
					   dev->name, media_tbl[dev->if_port].name);
			next_tick = media_tbl[dev->if_port].wait;
		}
1808
		iowrite16((media_status & ~(Media_10TP|Media_SQE)) |
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			 media_tbl[dev->if_port].media_bits, ioaddr + Wn4_Media);

		EL3WINDOW(3);
1812
		config = ioread32(ioaddr + Wn3_Config);
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		config = BFINS(config, dev->if_port, 20, 4);
1814
		iowrite32(config, ioaddr + Wn3_Config);
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1816
		iowrite16(dev->if_port == XCVR_10base2 ? StartCoax : StopCoax,
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			 ioaddr + EL3_CMD);
		if (vortex_debug > 1)
			printk(KERN_DEBUG "wrote 0x%08x to Wn3_Config\n", config);
		/* AKPM: FIXME: Should reset Rx & Tx here.  P60 of 3c90xc.pdf */
	}

leave_media_alone:
	if (vortex_debug > 2)
	  printk(KERN_DEBUG "%s: Media selection timer finished, %s.\n",
			 dev->name, media_tbl[dev->if_port].name);

1828
	EL3WINDOW(old_window);
1829
	enable_irq_lockdep(dev->irq);
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	mod_timer(&vp->timer, RUN_AT(next_tick));
	if (vp->deferred)
1832
		iowrite16(FakeIntr, ioaddr + EL3_CMD);
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	return;
}

static void vortex_tx_timeout(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
1839
	void __iomem *ioaddr = vp->ioaddr;
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	printk(KERN_ERR "%s: transmit timed out, tx_status %2.2x status %4.4x.\n",
1842 1843
		   dev->name, ioread8(ioaddr + TxStatus),
		   ioread16(ioaddr + EL3_STATUS));
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	EL3WINDOW(4);
	printk(KERN_ERR "  diagnostics: net %04x media %04x dma %08x fifo %04x\n",
1846 1847 1848 1849
			ioread16(ioaddr + Wn4_NetDiag),
			ioread16(ioaddr + Wn4_Media),
			ioread32(ioaddr + PktStatus),
			ioread16(ioaddr + Wn4_FIFODiag));
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	/* Slight code bloat to be user friendly. */
1851
	if ((ioread8(ioaddr + TxStatus) & 0x88) == 0x88)
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		printk(KERN_ERR "%s: Transmitter encountered 16 collisions --"
			   " network cable problem?\n", dev->name);
1854
	if (ioread16(ioaddr + EL3_STATUS) & IntLatch) {
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		printk(KERN_ERR "%s: Interrupt posted but not delivered --"
			   " IRQ blocked by another device?\n", dev->name);
		/* Bad idea here.. but we might as well handle a few events. */
		{
			/*
			 * Block interrupts because vortex_interrupt does a bare spin_lock()
			 */
			unsigned long flags;
			local_irq_save(flags);
			if (vp->full_bus_master_tx)
1865
				boomerang_interrupt(dev->irq, dev);
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			else
1867
				vortex_interrupt(dev->irq, dev);
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			local_irq_restore(flags);
		}
	}

	if (vortex_debug > 0)
		dump_tx_ring(dev);

	issue_and_wait(dev, TxReset);

1877
	dev->stats.tx_errors++;
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	if (vp->full_bus_master_tx) {
		printk(KERN_DEBUG "%s: Resetting the Tx ring pointer.\n", dev->name);
1880 1881
		if (vp->cur_tx - vp->dirty_tx > 0  &&  ioread32(ioaddr + DownListPtr) == 0)
			iowrite32(vp->tx_ring_dma + (vp->dirty_tx % TX_RING_SIZE) * sizeof(struct boom_tx_desc),
L
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				 ioaddr + DownListPtr);
		if (vp->cur_tx - vp->dirty_tx < TX_RING_SIZE)
			netif_wake_queue (dev);
		if (vp->drv_flags & IS_BOOMERANG)
1886 1887
			iowrite8(PKT_BUF_SZ>>8, ioaddr + TxFreeThreshold);
		iowrite16(DownUnstall, ioaddr + EL3_CMD);
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	} else {
1889
		dev->stats.tx_dropped++;
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		netif_wake_queue(dev);
	}
1892

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	/* Issue Tx Enable */
1894
	iowrite16(TxEnable, ioaddr + EL3_CMD);
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	dev->trans_start = jiffies;
1896

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	/* Switch to register set 7 for normal use. */
	EL3WINDOW(7);
}

/*
 * Handle uncommon interrupt sources.  This is a separate routine to minimize
 * the cache impact.
 */
static void
vortex_error(struct net_device *dev, int status)
{
	struct vortex_private *vp = netdev_priv(dev);
1909
	void __iomem *ioaddr = vp->ioaddr;
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	int do_tx_reset = 0, reset_mask = 0;
	unsigned char tx_status = 0;

	if (vortex_debug > 2) {
		printk(KERN_ERR "%s: vortex_error(), status=0x%x\n", dev->name, status);
	}

	if (status & TxComplete) {			/* Really "TxError" for us. */
1918
		tx_status = ioread8(ioaddr + TxStatus);
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		/* Presumably a tx-timeout. We must merely re-enable. */
		if (vortex_debug > 2
			|| (tx_status != 0x88 && vortex_debug > 0)) {
			printk(KERN_ERR "%s: Transmit error, Tx status register %2.2x.\n",
				   dev->name, tx_status);
			if (tx_status == 0x82) {
				printk(KERN_ERR "Probably a duplex mismatch.  See "
						"Documentation/networking/vortex.txt\n");
			}
			dump_tx_ring(dev);
		}
1930 1931
		if (tx_status & 0x14)  dev->stats.tx_fifo_errors++;
		if (tx_status & 0x38)  dev->stats.tx_aborted_errors++;
1932
		if (tx_status & 0x08)  vp->xstats.tx_max_collisions++;
1933
		iowrite8(0, ioaddr + TxStatus);
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		if (tx_status & 0x30) {			/* txJabber or txUnderrun */
			do_tx_reset = 1;
1936 1937 1938 1939
		} else if ((tx_status & 0x08) && (vp->drv_flags & MAX_COLLISION_RESET))  {	/* maxCollisions */
			do_tx_reset = 1;
			reset_mask = 0x0108;		/* Reset interface logic, but not download logic */
		} else {				/* Merely re-enable the transmitter. */
1940
			iowrite16(TxEnable, ioaddr + EL3_CMD);
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		}
	}

	if (status & RxEarly) {				/* Rx early is unused. */
		vortex_rx(dev);
1946
		iowrite16(AckIntr | RxEarly, ioaddr + EL3_CMD);
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	}
	if (status & StatsFull) {			/* Empty statistics. */
		static int DoneDidThat;
		if (vortex_debug > 4)
			printk(KERN_DEBUG "%s: Updating stats.\n", dev->name);
		update_stats(ioaddr, dev);
		/* HACK: Disable statistics as an interrupt source. */
		/* This occurs when we have the wrong media type! */
		if (DoneDidThat == 0  &&
1956
			ioread16(ioaddr + EL3_STATUS) & StatsFull) {
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			printk(KERN_WARNING "%s: Updating statistics failed, disabling "
				   "stats as an interrupt source.\n", dev->name);
			EL3WINDOW(5);
1960
			iowrite16(SetIntrEnb | (ioread16(ioaddr + 10) & ~StatsFull), ioaddr + EL3_CMD);
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			vp->intr_enable &= ~StatsFull;
			EL3WINDOW(7);
			DoneDidThat++;
		}
	}
	if (status & IntReq) {		/* Restore all interrupt sources.  */
1967 1968
		iowrite16(vp->status_enable, ioaddr + EL3_CMD);
		iowrite16(vp->intr_enable, ioaddr + EL3_CMD);
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	}
	if (status & HostError) {
		u16 fifo_diag;
		EL3WINDOW(4);
1973
		fifo_diag = ioread16(ioaddr + Wn4_FIFODiag);
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		printk(KERN_ERR "%s: Host error, FIFO diagnostic register %4.4x.\n",
			   dev->name, fifo_diag);
		/* Adapter failure requires Tx/Rx reset and reinit. */
		if (vp->full_bus_master_tx) {
1978
			int bus_status = ioread32(ioaddr + PktStatus);
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			/* 0x80000000 PCI master abort. */
			/* 0x40000000 PCI target abort. */
			if (vortex_debug)
				printk(KERN_ERR "%s: PCI bus error, bus status %8.8x\n", dev->name, bus_status);

			/* In this case, blow the card away */
			/* Must not enter D3 or we can't legally issue the reset! */
			vortex_down(dev, 0);
			issue_and_wait(dev, TotalReset | 0xff);
			vortex_up(dev);		/* AKPM: bug.  vortex_up() assumes that the rx ring is full. It may not be. */
		} else if (fifo_diag & 0x0400)
			do_tx_reset = 1;
		if (fifo_diag & 0x3000) {
			/* Reset Rx fifo and upload logic */
			issue_and_wait(dev, RxReset|0x07);
			/* Set the Rx filter to the current state. */
			set_rx_mode(dev);
			/* enable 802.1q VLAN tagged frames */
			set_8021q_mode(dev, 1);
1998 1999
			iowrite16(RxEnable, ioaddr + EL3_CMD); /* Re-enable the receiver. */
			iowrite16(AckIntr | HostError, ioaddr + EL3_CMD);
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		}
	}

	if (do_tx_reset) {
		issue_and_wait(dev, TxReset|reset_mask);
2005
		iowrite16(TxEnable, ioaddr + EL3_CMD);
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		if (!vp->full_bus_master_tx)
			netif_wake_queue(dev);
	}
}

static int
vortex_start_xmit(struct sk_buff *skb, struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
2015
	void __iomem *ioaddr = vp->ioaddr;
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	/* Put out the doubleword header... */
2018
	iowrite32(skb->len, ioaddr + TX_FIFO);
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	if (vp->bus_master) {
		/* Set the bus-master controller to transfer the packet. */
		int len = (skb->len + 3) & ~3;
S
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		iowrite32(vp->tx_skb_dma = pci_map_single(VORTEX_PCI(vp), skb->data, len, PCI_DMA_TODEVICE),
L
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				ioaddr + Wn7_MasterAddr);
2024
		iowrite16(len, ioaddr + Wn7_MasterLen);
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		vp->tx_skb = skb;
2026
		iowrite16(StartDMADown, ioaddr + EL3_CMD);
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		/* netif_wake_queue() will be called at the DMADone interrupt. */
	} else {
		/* ... and the packet rounded to a doubleword. */
2030
		iowrite32_rep(ioaddr + TX_FIFO, skb->data, (skb->len + 3) >> 2);
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		dev_kfree_skb (skb);
2032
		if (ioread16(ioaddr + TxFree) > 1536) {
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			netif_start_queue (dev);	/* AKPM: redundant? */
		} else {
			/* Interrupt us when the FIFO has room for max-sized packet. */
			netif_stop_queue(dev);
2037
			iowrite16(SetTxThreshold + (1536>>2), ioaddr + EL3_CMD);
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		}
	}

	dev->trans_start = jiffies;

	/* Clear the Tx status stack. */
	{
		int tx_status;
		int i = 32;

2048
		while (--i > 0	&&	(tx_status = ioread8(ioaddr + TxStatus)) > 0) {
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			if (tx_status & 0x3C) {		/* A Tx-disabling error occurred.  */
				if (vortex_debug > 2)
				  printk(KERN_DEBUG "%s: Tx error, status %2.2x.\n",
						 dev->name, tx_status);
2053 2054
				if (tx_status & 0x04) dev->stats.tx_fifo_errors++;
				if (tx_status & 0x38) dev->stats.tx_aborted_errors++;
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				if (tx_status & 0x30) {
					issue_and_wait(dev, TxReset);
				}
2058
				iowrite16(TxEnable, ioaddr + EL3_CMD);
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2059
			}
2060
			iowrite8(0x00, ioaddr + TxStatus); /* Pop the status stack. */
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		}
	}
	return 0;
}

static int
boomerang_start_xmit(struct sk_buff *skb, struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
2070
	void __iomem *ioaddr = vp->ioaddr;
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	/* Calculate the next Tx descriptor entry. */
	int entry = vp->cur_tx % TX_RING_SIZE;
	struct boom_tx_desc *prev_entry = &vp->tx_ring[(vp->cur_tx-1) % TX_RING_SIZE];
	unsigned long flags;

	if (vortex_debug > 6) {
		printk(KERN_DEBUG "boomerang_start_xmit()\n");
2078 2079
		printk(KERN_DEBUG "%s: Trying to send a packet, Tx index %d.\n",
			   dev->name, vp->cur_tx);
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	}

	if (vp->cur_tx - vp->dirty_tx >= TX_RING_SIZE) {
		if (vortex_debug > 0)
			printk(KERN_WARNING "%s: BUG! Tx Ring full, refusing to send buffer.\n",
				   dev->name);
		netif_stop_queue(dev);
		return 1;
	}

	vp->tx_skbuff[entry] = skb;

	vp->tx_ring[entry].next = 0;
#if DO_ZEROCOPY
2094
	if (skb->ip_summed != CHECKSUM_PARTIAL)
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2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133
			vp->tx_ring[entry].status = cpu_to_le32(skb->len | TxIntrUploaded);
	else
			vp->tx_ring[entry].status = cpu_to_le32(skb->len | TxIntrUploaded | AddTCPChksum | AddUDPChksum);

	if (!skb_shinfo(skb)->nr_frags) {
		vp->tx_ring[entry].frag[0].addr = cpu_to_le32(pci_map_single(VORTEX_PCI(vp), skb->data,
										skb->len, PCI_DMA_TODEVICE));
		vp->tx_ring[entry].frag[0].length = cpu_to_le32(skb->len | LAST_FRAG);
	} else {
		int i;

		vp->tx_ring[entry].frag[0].addr = cpu_to_le32(pci_map_single(VORTEX_PCI(vp), skb->data,
										skb->len-skb->data_len, PCI_DMA_TODEVICE));
		vp->tx_ring[entry].frag[0].length = cpu_to_le32(skb->len-skb->data_len);

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

			vp->tx_ring[entry].frag[i+1].addr =
					cpu_to_le32(pci_map_single(VORTEX_PCI(vp),
											   (void*)page_address(frag->page) + frag->page_offset,
											   frag->size, PCI_DMA_TODEVICE));

			if (i == skb_shinfo(skb)->nr_frags-1)
					vp->tx_ring[entry].frag[i+1].length = cpu_to_le32(frag->size|LAST_FRAG);
			else
					vp->tx_ring[entry].frag[i+1].length = cpu_to_le32(frag->size);
		}
	}
#else
	vp->tx_ring[entry].addr = cpu_to_le32(pci_map_single(VORTEX_PCI(vp), skb->data, skb->len, PCI_DMA_TODEVICE));
	vp->tx_ring[entry].length = cpu_to_le32(skb->len | LAST_FRAG);
	vp->tx_ring[entry].status = cpu_to_le32(skb->len | TxIntrUploaded);
#endif

	spin_lock_irqsave(&vp->lock, flags);
	/* Wait for the stall to complete. */
	issue_and_wait(dev, DownStall);
	prev_entry->next = cpu_to_le32(vp->tx_ring_dma + entry * sizeof(struct boom_tx_desc));
2134 2135
	if (ioread32(ioaddr + DownListPtr) == 0) {
		iowrite32(vp->tx_ring_dma + entry * sizeof(struct boom_tx_desc), ioaddr + DownListPtr);
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		vp->queued_packet++;
	}

	vp->cur_tx++;
	if (vp->cur_tx - vp->dirty_tx > TX_RING_SIZE - 1) {
		netif_stop_queue (dev);
	} else {					/* Clear previous interrupt enable. */
#if defined(tx_interrupt_mitigation)
		/* Dubious. If in boomeang_interrupt "faster" cyclone ifdef
		 * were selected, this would corrupt DN_COMPLETE. No?
		 */
		prev_entry->status &= cpu_to_le32(~TxIntrUploaded);
#endif
	}
2150
	iowrite16(DownUnstall, ioaddr + EL3_CMD);
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2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164
	spin_unlock_irqrestore(&vp->lock, flags);
	dev->trans_start = jiffies;
	return 0;
}

/* The interrupt handler does all of the Rx thread work and cleans up
   after the Tx thread. */

/*
 * This is the ISR for the vortex series chips.
 * full_bus_master_tx == 0 && full_bus_master_rx == 0
 */

static irqreturn_t
2165
vortex_interrupt(int irq, void *dev_id)
L
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{
	struct net_device *dev = dev_id;
	struct vortex_private *vp = netdev_priv(dev);
2169
	void __iomem *ioaddr;
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	int status;
	int work_done = max_interrupt_work;
	int handled = 0;

2174
	ioaddr = vp->ioaddr;
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	spin_lock(&vp->lock);

2177
	status = ioread16(ioaddr + EL3_STATUS);
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	if (vortex_debug > 6)
		printk("vortex_interrupt(). status=0x%4x\n", status);

	if ((status & IntLatch) == 0)
		goto handler_exit;		/* No interrupt: shared IRQs cause this */
	handled = 1;

	if (status & IntReq) {
		status |= vp->deferred;
		vp->deferred = 0;
	}

	if (status == 0xffff)		/* h/w no longer present (hotplug)? */
		goto handler_exit;

	if (vortex_debug > 4)
		printk(KERN_DEBUG "%s: interrupt, status %4.4x, latency %d ticks.\n",
2196
			   dev->name, status, ioread8(ioaddr + Timer));
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	do {
		if (vortex_debug > 5)
				printk(KERN_DEBUG "%s: In interrupt loop, status %4.4x.\n",
					   dev->name, status);
		if (status & RxComplete)
			vortex_rx(dev);

		if (status & TxAvailable) {
			if (vortex_debug > 5)
				printk(KERN_DEBUG "	TX room bit was handled.\n");
			/* There's room in the FIFO for a full-sized packet. */
2209
			iowrite16(AckIntr | TxAvailable, ioaddr + EL3_CMD);
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			netif_wake_queue (dev);
		}

		if (status & DMADone) {
2214 2215
			if (ioread16(ioaddr + Wn7_MasterStatus) & 0x1000) {
				iowrite16(0x1000, ioaddr + Wn7_MasterStatus); /* Ack the event. */
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				pci_unmap_single(VORTEX_PCI(vp), vp->tx_skb_dma, (vp->tx_skb->len + 3) & ~3, PCI_DMA_TODEVICE);
				dev_kfree_skb_irq(vp->tx_skb); /* Release the transferred buffer */
2218
				if (ioread16(ioaddr + TxFree) > 1536) {
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					/*
					 * AKPM: FIXME: I don't think we need this.  If the queue was stopped due to
					 * insufficient FIFO room, the TxAvailable test will succeed and call
					 * netif_wake_queue()
					 */
					netif_wake_queue(dev);
				} else { /* Interrupt when FIFO has room for max-sized packet. */
2226
					iowrite16(SetTxThreshold + (1536>>2), ioaddr + EL3_CMD);
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					netif_stop_queue(dev);
				}
			}
		}
		/* Check for all uncommon interrupts at once. */
		if (status & (HostError | RxEarly | StatsFull | TxComplete | IntReq)) {
			if (status == 0xffff)
				break;
			vortex_error(dev, status);
		}

		if (--work_done < 0) {
			printk(KERN_WARNING "%s: Too much work in interrupt, status "
				   "%4.4x.\n", dev->name, status);
			/* Disable all pending interrupts. */
			do {
				vp->deferred |= status;
2244
				iowrite16(SetStatusEnb | (~vp->deferred & vp->status_enable),
L
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2245
					 ioaddr + EL3_CMD);
2246 2247
				iowrite16(AckIntr | (vp->deferred & 0x7ff), ioaddr + EL3_CMD);
			} while ((status = ioread16(ioaddr + EL3_CMD)) & IntLatch);
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			/* The timer will reenable interrupts. */
			mod_timer(&vp->timer, jiffies + 1*HZ);
			break;
		}
		/* Acknowledge the IRQ. */
2253 2254
		iowrite16(AckIntr | IntReq | IntLatch, ioaddr + EL3_CMD);
	} while ((status = ioread16(ioaddr + EL3_STATUS)) & (IntLatch | RxComplete));
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	if (vortex_debug > 4)
		printk(KERN_DEBUG "%s: exiting interrupt, status %4.4x.\n",
			   dev->name, status);
handler_exit:
	spin_unlock(&vp->lock);
	return IRQ_RETVAL(handled);
}

/*
 * This is the ISR for the boomerang series chips.
 * full_bus_master_tx == 1 && full_bus_master_rx == 1
 */

static irqreturn_t
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boomerang_interrupt(int irq, void *dev_id)
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{
	struct net_device *dev = dev_id;
	struct vortex_private *vp = netdev_priv(dev);
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	void __iomem *ioaddr;
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	int status;
	int work_done = max_interrupt_work;

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	ioaddr = vp->ioaddr;
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	/*
	 * It seems dopey to put the spinlock this early, but we could race against vortex_tx_timeout
	 * and boomerang_start_xmit
	 */
	spin_lock(&vp->lock);

2286
	status = ioread16(ioaddr + EL3_STATUS);
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	if (vortex_debug > 6)
		printk(KERN_DEBUG "boomerang_interrupt. status=0x%4x\n", status);

	if ((status & IntLatch) == 0)
		goto handler_exit;		/* No interrupt: shared IRQs can cause this */

	if (status == 0xffff) {		/* h/w no longer present (hotplug)? */
		if (vortex_debug > 1)
			printk(KERN_DEBUG "boomerang_interrupt(1): status = 0xffff\n");
		goto handler_exit;
	}

	if (status & IntReq) {
		status |= vp->deferred;
		vp->deferred = 0;
	}

	if (vortex_debug > 4)
		printk(KERN_DEBUG "%s: interrupt, status %4.4x, latency %d ticks.\n",
2307
			   dev->name, status, ioread8(ioaddr + Timer));
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	do {
		if (vortex_debug > 5)
				printk(KERN_DEBUG "%s: In interrupt loop, status %4.4x.\n",
					   dev->name, status);
		if (status & UpComplete) {
2313
			iowrite16(AckIntr | UpComplete, ioaddr + EL3_CMD);
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			if (vortex_debug > 5)
				printk(KERN_DEBUG "boomerang_interrupt->boomerang_rx\n");
			boomerang_rx(dev);
		}

		if (status & DownComplete) {
			unsigned int dirty_tx = vp->dirty_tx;

2322
			iowrite16(AckIntr | DownComplete, ioaddr + EL3_CMD);
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			while (vp->cur_tx - dirty_tx > 0) {
				int entry = dirty_tx % TX_RING_SIZE;
#if 1	/* AKPM: the latter is faster, but cyclone-only */
2326
				if (ioread32(ioaddr + DownListPtr) ==
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					vp->tx_ring_dma + entry * sizeof(struct boom_tx_desc))
					break;			/* It still hasn't been processed. */
#else
				if ((vp->tx_ring[entry].status & DN_COMPLETE) == 0)
					break;			/* It still hasn't been processed. */
#endif
2333

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				if (vp->tx_skbuff[entry]) {
					struct sk_buff *skb = vp->tx_skbuff[entry];
2336
#if DO_ZEROCOPY
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					int i;
					for (i=0; i<=skb_shinfo(skb)->nr_frags; i++)
							pci_unmap_single(VORTEX_PCI(vp),
											 le32_to_cpu(vp->tx_ring[entry].frag[i].addr),
											 le32_to_cpu(vp->tx_ring[entry].frag[i].length)&0xFFF,
											 PCI_DMA_TODEVICE);
#else
					pci_unmap_single(VORTEX_PCI(vp),
						le32_to_cpu(vp->tx_ring[entry].addr), skb->len, PCI_DMA_TODEVICE);
#endif
					dev_kfree_skb_irq(skb);
					vp->tx_skbuff[entry] = NULL;
				} else {
					printk(KERN_DEBUG "boomerang_interrupt: no skb!\n");
				}
2352
				/* dev->stats.tx_packets++;  Counted below. */
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				dirty_tx++;
			}
			vp->dirty_tx = dirty_tx;
			if (vp->cur_tx - dirty_tx <= TX_RING_SIZE - 1) {
				if (vortex_debug > 6)
					printk(KERN_DEBUG "boomerang_interrupt: wake queue\n");
				netif_wake_queue (dev);
			}
		}

		/* Check for all uncommon interrupts at once. */
		if (status & (HostError | RxEarly | StatsFull | TxComplete | IntReq))
			vortex_error(dev, status);

		if (--work_done < 0) {
			printk(KERN_WARNING "%s: Too much work in interrupt, status "
				   "%4.4x.\n", dev->name, status);
			/* Disable all pending interrupts. */
			do {
				vp->deferred |= status;
2373
				iowrite16(SetStatusEnb | (~vp->deferred & vp->status_enable),
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					 ioaddr + EL3_CMD);
2375 2376
				iowrite16(AckIntr | (vp->deferred & 0x7ff), ioaddr + EL3_CMD);
			} while ((status = ioread16(ioaddr + EL3_CMD)) & IntLatch);
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			/* The timer will reenable interrupts. */
			mod_timer(&vp->timer, jiffies + 1*HZ);
			break;
		}
		/* Acknowledge the IRQ. */
2382
		iowrite16(AckIntr | IntReq | IntLatch, ioaddr + EL3_CMD);
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		if (vp->cb_fn_base)			/* The PCMCIA people are idiots.  */
2384
			iowrite32(0x8000, vp->cb_fn_base + 4);
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2386
	} while ((status = ioread16(ioaddr + EL3_STATUS)) & IntLatch);
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	if (vortex_debug > 4)
		printk(KERN_DEBUG "%s: exiting interrupt, status %4.4x.\n",
			   dev->name, status);
handler_exit:
	spin_unlock(&vp->lock);
	return IRQ_HANDLED;
}

static int vortex_rx(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
2399
	void __iomem *ioaddr = vp->ioaddr;
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	int i;
	short rx_status;

	if (vortex_debug > 5)
		printk(KERN_DEBUG "vortex_rx(): status %4.4x, rx_status %4.4x.\n",
2405 2406
			   ioread16(ioaddr+EL3_STATUS), ioread16(ioaddr+RxStatus));
	while ((rx_status = ioread16(ioaddr + RxStatus)) > 0) {
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		if (rx_status & 0x4000) { /* Error, update stats. */
2408
			unsigned char rx_error = ioread8(ioaddr + RxErrors);
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			if (vortex_debug > 2)
				printk(KERN_DEBUG " Rx error: status %2.2x.\n", rx_error);
2411 2412 2413 2414 2415 2416
			dev->stats.rx_errors++;
			if (rx_error & 0x01)  dev->stats.rx_over_errors++;
			if (rx_error & 0x02)  dev->stats.rx_length_errors++;
			if (rx_error & 0x04)  dev->stats.rx_frame_errors++;
			if (rx_error & 0x08)  dev->stats.rx_crc_errors++;
			if (rx_error & 0x10)  dev->stats.rx_length_errors++;
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		} else {
			/* The packet length: up to 4.5K!. */
			int pkt_len = rx_status & 0x1fff;
			struct sk_buff *skb;

			skb = dev_alloc_skb(pkt_len + 5);
			if (vortex_debug > 4)
				printk(KERN_DEBUG "Receiving packet size %d status %4.4x.\n",
					   pkt_len, rx_status);
			if (skb != NULL) {
				skb_reserve(skb, 2);	/* Align IP on 16 byte boundaries */
				/* 'skb_put()' points to the start of sk_buff data area. */
				if (vp->bus_master &&
2430
					! (ioread16(ioaddr + Wn7_MasterStatus) & 0x8000)) {
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					dma_addr_t dma = pci_map_single(VORTEX_PCI(vp), skb_put(skb, pkt_len),
									   pkt_len, PCI_DMA_FROMDEVICE);
2433 2434 2435 2436
					iowrite32(dma, ioaddr + Wn7_MasterAddr);
					iowrite16((skb->len + 3) & ~3, ioaddr + Wn7_MasterLen);
					iowrite16(StartDMAUp, ioaddr + EL3_CMD);
					while (ioread16(ioaddr + Wn7_MasterStatus) & 0x8000)
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						;
					pci_unmap_single(VORTEX_PCI(vp), dma, pkt_len, PCI_DMA_FROMDEVICE);
				} else {
2440 2441 2442
					ioread32_rep(ioaddr + RX_FIFO,
					             skb_put(skb, pkt_len),
						     (pkt_len + 3) >> 2);
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				}
2444
				iowrite16(RxDiscard, ioaddr + EL3_CMD); /* Pop top Rx packet. */
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				skb->protocol = eth_type_trans(skb, dev);
				netif_rx(skb);
				dev->last_rx = jiffies;
2448
				dev->stats.rx_packets++;
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				/* Wait a limited time to go to next packet. */
				for (i = 200; i >= 0; i--)
2451
					if ( ! (ioread16(ioaddr + EL3_STATUS) & CmdInProgress))
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						break;
				continue;
			} else if (vortex_debug > 0)
				printk(KERN_NOTICE "%s: No memory to allocate a sk_buff of "
					   "size %d.\n", dev->name, pkt_len);
2457
			dev->stats.rx_dropped++;
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		}
		issue_and_wait(dev, RxDiscard);
	}

	return 0;
}

static int
boomerang_rx(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
	int entry = vp->cur_rx % RX_RING_SIZE;
2470
	void __iomem *ioaddr = vp->ioaddr;
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	int rx_status;
	int rx_work_limit = vp->dirty_rx + RX_RING_SIZE - vp->cur_rx;

	if (vortex_debug > 5)
2475
		printk(KERN_DEBUG "boomerang_rx(): status %4.4x\n", ioread16(ioaddr+EL3_STATUS));
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	while ((rx_status = le32_to_cpu(vp->rx_ring[entry].status)) & RxDComplete){
		if (--rx_work_limit < 0)
			break;
		if (rx_status & RxDError) { /* Error, update stats. */
			unsigned char rx_error = rx_status >> 16;
			if (vortex_debug > 2)
				printk(KERN_DEBUG " Rx error: status %2.2x.\n", rx_error);
2484 2485 2486 2487 2488 2489
			dev->stats.rx_errors++;
			if (rx_error & 0x01)  dev->stats.rx_over_errors++;
			if (rx_error & 0x02)  dev->stats.rx_length_errors++;
			if (rx_error & 0x04)  dev->stats.rx_frame_errors++;
			if (rx_error & 0x08)  dev->stats.rx_crc_errors++;
			if (rx_error & 0x10)  dev->stats.rx_length_errors++;
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		} else {
			/* The packet length: up to 4.5K!. */
			int pkt_len = rx_status & 0x1fff;
			struct sk_buff *skb;
			dma_addr_t dma = le32_to_cpu(vp->rx_ring[entry].addr);

			if (vortex_debug > 4)
				printk(KERN_DEBUG "Receiving packet size %d status %4.4x.\n",
					   pkt_len, rx_status);

			/* Check if the packet is long enough to just accept without
			   copying to a properly sized skbuff. */
2502
			if (pkt_len < rx_copybreak && (skb = dev_alloc_skb(pkt_len + 2)) != NULL) {
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				skb_reserve(skb, 2);	/* Align IP on 16 byte boundaries */
				pci_dma_sync_single_for_cpu(VORTEX_PCI(vp), dma, PKT_BUF_SZ, PCI_DMA_FROMDEVICE);
				/* 'skb_put()' points to the start of sk_buff data area. */
				memcpy(skb_put(skb, pkt_len),
2507
					   vp->rx_skbuff[entry]->data,
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					   pkt_len);
				pci_dma_sync_single_for_device(VORTEX_PCI(vp), dma, PKT_BUF_SZ, PCI_DMA_FROMDEVICE);
				vp->rx_copy++;
			} else {
				/* Pass up the skbuff already on the Rx ring. */
				skb = vp->rx_skbuff[entry];
				vp->rx_skbuff[entry] = NULL;
				skb_put(skb, pkt_len);
				pci_unmap_single(VORTEX_PCI(vp), dma, PKT_BUF_SZ, PCI_DMA_FROMDEVICE);
				vp->rx_nocopy++;
			}
			skb->protocol = eth_type_trans(skb, dev);
			{					/* Use hardware checksum info. */
				int csum_bits = rx_status & 0xee000000;
				if (csum_bits &&
					(csum_bits == (IPChksumValid | TCPChksumValid) ||
					 csum_bits == (IPChksumValid | UDPChksumValid))) {
					skb->ip_summed = CHECKSUM_UNNECESSARY;
					vp->rx_csumhits++;
				}
			}
			netif_rx(skb);
			dev->last_rx = jiffies;
2531
			dev->stats.rx_packets++;
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		}
		entry = (++vp->cur_rx) % RX_RING_SIZE;
	}
	/* Refill the Rx ring buffers. */
	for (; vp->cur_rx - vp->dirty_rx > 0; vp->dirty_rx++) {
		struct sk_buff *skb;
		entry = vp->dirty_rx % RX_RING_SIZE;
		if (vp->rx_skbuff[entry] == NULL) {
			skb = dev_alloc_skb(PKT_BUF_SZ);
			if (skb == NULL) {
				static unsigned long last_jif;
2543
				if (time_after(jiffies, last_jif + 10 * HZ)) {
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					printk(KERN_WARNING "%s: memory shortage\n", dev->name);
					last_jif = jiffies;
				}
				if ((vp->cur_rx - vp->dirty_rx) == RX_RING_SIZE)
					mod_timer(&vp->rx_oom_timer, RUN_AT(HZ * 1));
				break;			/* Bad news!  */
			}
			skb->dev = dev;			/* Mark as being used by this device. */
			skb_reserve(skb, 2);	/* Align IP on 16 byte boundaries */
2553
			vp->rx_ring[entry].addr = cpu_to_le32(pci_map_single(VORTEX_PCI(vp), skb->data, PKT_BUF_SZ, PCI_DMA_FROMDEVICE));
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			vp->rx_skbuff[entry] = skb;
		}
		vp->rx_ring[entry].status = 0;	/* Clear complete bit. */
2557
		iowrite16(UpUnstall, ioaddr + EL3_CMD);
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	}
	return 0;
}

/*
 * If we've hit a total OOM refilling the Rx ring we poll once a second
 * for some memory.  Otherwise there is no way to restart the rx process.
 */
static void
rx_oom_timer(unsigned long arg)
{
	struct net_device *dev = (struct net_device *)arg;
	struct vortex_private *vp = netdev_priv(dev);

	spin_lock_irq(&vp->lock);
	if ((vp->cur_rx - vp->dirty_rx) == RX_RING_SIZE)	/* This test is redundant, but makes me feel good */
		boomerang_rx(dev);
	if (vortex_debug > 1) {
		printk(KERN_DEBUG "%s: rx_oom_timer %s\n", dev->name,
			((vp->cur_rx - vp->dirty_rx) != RX_RING_SIZE) ? "succeeded" : "retrying");
	}
	spin_unlock_irq(&vp->lock);
}

static void
vortex_down(struct net_device *dev, int final_down)
{
	struct vortex_private *vp = netdev_priv(dev);
2586
	void __iomem *ioaddr = vp->ioaddr;
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	netif_stop_queue (dev);

	del_timer_sync(&vp->rx_oom_timer);
	del_timer_sync(&vp->timer);

2593
	/* Turn off statistics ASAP.  We update dev->stats below. */
2594
	iowrite16(StatsDisable, ioaddr + EL3_CMD);
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	/* Disable the receiver and transmitter. */
2597 2598
	iowrite16(RxDisable, ioaddr + EL3_CMD);
	iowrite16(TxDisable, ioaddr + EL3_CMD);
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	/* Disable receiving 802.1q tagged frames */
	set_8021q_mode(dev, 0);

	if (dev->if_port == XCVR_10base2)
		/* Turn off thinnet power.  Green! */
2605
		iowrite16(StopCoax, ioaddr + EL3_CMD);
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2607
	iowrite16(SetIntrEnb | 0x0000, ioaddr + EL3_CMD);
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	update_stats(ioaddr, dev);
	if (vp->full_bus_master_rx)
2611
		iowrite32(0, ioaddr + UpListPtr);
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	if (vp->full_bus_master_tx)
2613
		iowrite32(0, ioaddr + DownListPtr);
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	if (final_down && VORTEX_PCI(vp)) {
2616
		vp->pm_state_valid = 1;
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		pci_save_state(VORTEX_PCI(vp));
		acpi_set_WOL(dev);
	}
}

static int
vortex_close(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
2626
	void __iomem *ioaddr = vp->ioaddr;
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	int i;

	if (netif_device_present(dev))
		vortex_down(dev, 1);

	if (vortex_debug > 1) {
		printk(KERN_DEBUG"%s: vortex_close() status %4.4x, Tx status %2.2x.\n",
2634
			   dev->name, ioread16(ioaddr + EL3_STATUS), ioread8(ioaddr + TxStatus));
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		printk(KERN_DEBUG "%s: vortex close stats: rx_nocopy %d rx_copy %d"
			   " tx_queued %d Rx pre-checksummed %d.\n",
			   dev->name, vp->rx_nocopy, vp->rx_copy, vp->queued_packet, vp->rx_csumhits);
	}

#if DO_ZEROCOPY
2641 2642 2643 2644 2645
	if (vp->rx_csumhits &&
	    (vp->drv_flags & HAS_HWCKSM) == 0 &&
	    (vp->card_idx >= MAX_UNITS || hw_checksums[vp->card_idx] == -1)) {
			printk(KERN_WARNING "%s supports hardware checksums, and we're "
						"not using them!\n", dev->name);
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	}
#endif
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	free_irq(dev->irq, dev);

	if (vp->full_bus_master_rx) { /* Free Boomerang bus master Rx buffers. */
		for (i = 0; i < RX_RING_SIZE; i++)
			if (vp->rx_skbuff[i]) {
				pci_unmap_single(	VORTEX_PCI(vp), le32_to_cpu(vp->rx_ring[i].addr),
									PKT_BUF_SZ, PCI_DMA_FROMDEVICE);
				dev_kfree_skb(vp->rx_skbuff[i]);
				vp->rx_skbuff[i] = NULL;
			}
	}
	if (vp->full_bus_master_tx) { /* Free Boomerang bus master Tx buffers. */
		for (i = 0; i < TX_RING_SIZE; i++) {
			if (vp->tx_skbuff[i]) {
				struct sk_buff *skb = vp->tx_skbuff[i];
#if DO_ZEROCOPY
				int k;

				for (k=0; k<=skb_shinfo(skb)->nr_frags; k++)
						pci_unmap_single(VORTEX_PCI(vp),
										 le32_to_cpu(vp->tx_ring[i].frag[k].addr),
										 le32_to_cpu(vp->tx_ring[i].frag[k].length)&0xFFF,
										 PCI_DMA_TODEVICE);
#else
				pci_unmap_single(VORTEX_PCI(vp), le32_to_cpu(vp->tx_ring[i].addr), skb->len, PCI_DMA_TODEVICE);
#endif
				dev_kfree_skb(skb);
				vp->tx_skbuff[i] = NULL;
			}
		}
	}

	return 0;
}

static void
dump_tx_ring(struct net_device *dev)
{
	if (vortex_debug > 0) {
	struct vortex_private *vp = netdev_priv(dev);
2689
		void __iomem *ioaddr = vp->ioaddr;
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		if (vp->full_bus_master_tx) {
			int i;
2693
			int stalled = ioread32(ioaddr + PktStatus) & 0x04;	/* Possible racy. But it's only debug stuff */
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			printk(KERN_ERR "  Flags; bus-master %d, dirty %d(%d) current %d(%d)\n",
					vp->full_bus_master_tx,
					vp->dirty_tx, vp->dirty_tx % TX_RING_SIZE,
					vp->cur_tx, vp->cur_tx % TX_RING_SIZE);
			printk(KERN_ERR "  Transmit list %8.8x vs. %p.\n",
2700
				   ioread32(ioaddr + DownListPtr),
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				   &vp->tx_ring[vp->dirty_tx % TX_RING_SIZE]);
			issue_and_wait(dev, DownStall);
			for (i = 0; i < TX_RING_SIZE; i++) {
				printk(KERN_ERR "  %d: @%p  length %8.8x status %8.8x\n", i,
					   &vp->tx_ring[i],
#if DO_ZEROCOPY
					   le32_to_cpu(vp->tx_ring[i].frag[0].length),
#else
					   le32_to_cpu(vp->tx_ring[i].length),
#endif
					   le32_to_cpu(vp->tx_ring[i].status));
			}
			if (!stalled)
2714
				iowrite16(DownUnstall, ioaddr + EL3_CMD);
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		}
	}
}

static struct net_device_stats *vortex_get_stats(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
2722
	void __iomem *ioaddr = vp->ioaddr;
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	unsigned long flags;

	if (netif_device_present(dev)) {	/* AKPM: Used to be netif_running */
		spin_lock_irqsave (&vp->lock, flags);
2727
		update_stats(ioaddr, dev);
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		spin_unlock_irqrestore (&vp->lock, flags);
	}
2730
	return &dev->stats;
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}

/*  Update statistics.
	Unlike with the EL3 we need not worry about interrupts changing
	the window setting from underneath us, but we must still guard
	against a race condition with a StatsUpdate interrupt updating the
	table.  This is done by checking that the ASM (!) code generated uses
	atomic updates with '+='.
	*/
2740
static void update_stats(void __iomem *ioaddr, struct net_device *dev)
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{
	struct vortex_private *vp = netdev_priv(dev);
2743
	int old_window = ioread16(ioaddr + EL3_CMD);
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	if (old_window == 0xffff)	/* Chip suspended or ejected. */
		return;
	/* Unlike the 3c5x9 we need not turn off stats updates while reading. */
	/* Switch to the stats window, and read everything. */
	EL3WINDOW(6);
2750 2751 2752 2753 2754 2755
	dev->stats.tx_carrier_errors		+= ioread8(ioaddr + 0);
	dev->stats.tx_heartbeat_errors		+= ioread8(ioaddr + 1);
	dev->stats.tx_window_errors		+= ioread8(ioaddr + 4);
	dev->stats.rx_fifo_errors		+= ioread8(ioaddr + 5);
	dev->stats.tx_packets			+= ioread8(ioaddr + 6);
	dev->stats.tx_packets			+= (ioread8(ioaddr + 9)&0x30) << 4;
2756
	/* Rx packets	*/			ioread8(ioaddr + 7);   /* Must read to clear */
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	/* Don't bother with register 9, an extension of registers 6&7.
	   If we do use the 6&7 values the atomic update assumption above
	   is invalid. */
2760 2761
	dev->stats.rx_bytes 			+= ioread16(ioaddr + 10);
	dev->stats.tx_bytes 			+= ioread16(ioaddr + 12);
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	/* Extra stats for get_ethtool_stats() */
2763
	vp->xstats.tx_multiple_collisions	+= ioread8(ioaddr + 2);
2764
	vp->xstats.tx_single_collisions         += ioread8(ioaddr + 3);
2765
	vp->xstats.tx_deferred			+= ioread8(ioaddr + 8);
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	EL3WINDOW(4);
2767
	vp->xstats.rx_bad_ssd			+= ioread8(ioaddr + 12);
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2769
	dev->stats.collisions = vp->xstats.tx_multiple_collisions
2770 2771 2772
		+ vp->xstats.tx_single_collisions
		+ vp->xstats.tx_max_collisions;

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	{
2774
		u8 up = ioread8(ioaddr + 13);
2775 2776
		dev->stats.rx_bytes += (up & 0x0f) << 16;
		dev->stats.tx_bytes += (up & 0xf0) << 12;
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	}

	EL3WINDOW(old_window >> 13);
	return;
}

static int vortex_nway_reset(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
2786
	void __iomem *ioaddr = vp->ioaddr;
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	unsigned long flags;
	int rc;

	spin_lock_irqsave(&vp->lock, flags);
	EL3WINDOW(4);
	rc = mii_nway_restart(&vp->mii);
	spin_unlock_irqrestore(&vp->lock, flags);
	return rc;
}

static int vortex_get_settings(struct net_device *dev, struct ethtool_cmd *cmd)
{
	struct vortex_private *vp = netdev_priv(dev);
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	void __iomem *ioaddr = vp->ioaddr;
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	unsigned long flags;
	int rc;

	spin_lock_irqsave(&vp->lock, flags);
	EL3WINDOW(4);
	rc = mii_ethtool_gset(&vp->mii, cmd);
	spin_unlock_irqrestore(&vp->lock, flags);
	return rc;
}

static int vortex_set_settings(struct net_device *dev, struct ethtool_cmd *cmd)
{
	struct vortex_private *vp = netdev_priv(dev);
2814
	void __iomem *ioaddr = vp->ioaddr;
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	unsigned long flags;
	int rc;

	spin_lock_irqsave(&vp->lock, flags);
	EL3WINDOW(4);
	rc = mii_ethtool_sset(&vp->mii, cmd);
	spin_unlock_irqrestore(&vp->lock, flags);
	return rc;
}

static u32 vortex_get_msglevel(struct net_device *dev)
{
	return vortex_debug;
}

static void vortex_set_msglevel(struct net_device *dev, u32 dbg)
{
	vortex_debug = dbg;
}

2835
static int vortex_get_sset_count(struct net_device *dev, int sset)
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{
2837 2838 2839 2840 2841 2842
	switch (sset) {
	case ETH_SS_STATS:
		return VORTEX_NUM_STATS;
	default:
		return -EOPNOTSUPP;
	}
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}

static void vortex_get_ethtool_stats(struct net_device *dev,
	struct ethtool_stats *stats, u64 *data)
{
	struct vortex_private *vp = netdev_priv(dev);
2849
	void __iomem *ioaddr = vp->ioaddr;
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	unsigned long flags;

	spin_lock_irqsave(&vp->lock, flags);
2853
	update_stats(ioaddr, dev);
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	spin_unlock_irqrestore(&vp->lock, flags);

	data[0] = vp->xstats.tx_deferred;
2857 2858 2859 2860
	data[1] = vp->xstats.tx_max_collisions;
	data[2] = vp->xstats.tx_multiple_collisions;
	data[3] = vp->xstats.tx_single_collisions;
	data[4] = vp->xstats.rx_bad_ssd;
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}


static void vortex_get_strings(struct net_device *dev, u32 stringset, u8 *data)
{
	switch (stringset) {
	case ETH_SS_STATS:
		memcpy(data, &ethtool_stats_keys, sizeof(ethtool_stats_keys));
		break;
	default:
		WARN_ON(1);
		break;
	}
}

static void vortex_get_drvinfo(struct net_device *dev,
					struct ethtool_drvinfo *info)
{
	struct vortex_private *vp = netdev_priv(dev);

	strcpy(info->driver, DRV_NAME);
	if (VORTEX_PCI(vp)) {
		strcpy(info->bus_info, pci_name(VORTEX_PCI(vp)));
	} else {
		if (VORTEX_EISA(vp))
			sprintf(info->bus_info, vp->gendev->bus_id);
		else
			sprintf(info->bus_info, "EISA 0x%lx %d",
					dev->base_addr, dev->irq);
	}
}

2893
static const struct ethtool_ops vortex_ethtool_ops = {
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	.get_drvinfo		= vortex_get_drvinfo,
	.get_strings            = vortex_get_strings,
	.get_msglevel           = vortex_get_msglevel,
	.set_msglevel           = vortex_set_msglevel,
	.get_ethtool_stats      = vortex_get_ethtool_stats,
2899
	.get_sset_count		= vortex_get_sset_count,
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	.get_settings           = vortex_get_settings,
	.set_settings           = vortex_set_settings,
2902
	.get_link               = ethtool_op_get_link,
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	.nway_reset             = vortex_nway_reset,
};

#ifdef CONFIG_PCI
/*
 *	Must power the device up to do MDIO operations
 */
static int vortex_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
{
	int err;
	struct vortex_private *vp = netdev_priv(dev);
2914
	void __iomem *ioaddr = vp->ioaddr;
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	unsigned long flags;
2916
	pci_power_t state = 0;
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	if(VORTEX_PCI(vp))
		state = VORTEX_PCI(vp)->current_state;

	/* The kernel core really should have pci_get_power_state() */

	if(state != 0)
		pci_set_power_state(VORTEX_PCI(vp), PCI_D0);
	spin_lock_irqsave(&vp->lock, flags);
	EL3WINDOW(4);
	err = generic_mii_ioctl(&vp->mii, if_mii(rq), cmd, NULL);
	spin_unlock_irqrestore(&vp->lock, flags);
	if(state != 0)
		pci_set_power_state(VORTEX_PCI(vp), state);

	return err;
}
#endif


/* Pre-Cyclone chips have no documented multicast filter, so the only
   multicast setting is to receive all multicast frames.  At least
   the chip has a very clean way to set the mode, unlike many others. */
static void set_rx_mode(struct net_device *dev)
{
2942 2943
	struct vortex_private *vp = netdev_priv(dev);
	void __iomem *ioaddr = vp->ioaddr;
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	int new_mode;

	if (dev->flags & IFF_PROMISC) {
2947
		if (vortex_debug > 3)
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			printk(KERN_NOTICE "%s: Setting promiscuous mode.\n", dev->name);
		new_mode = SetRxFilter|RxStation|RxMulticast|RxBroadcast|RxProm;
	} else	if ((dev->mc_list)  ||  (dev->flags & IFF_ALLMULTI)) {
		new_mode = SetRxFilter|RxStation|RxMulticast|RxBroadcast;
	} else
		new_mode = SetRxFilter | RxStation | RxBroadcast;

2955
	iowrite16(new_mode, ioaddr + EL3_CMD);
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}

#if defined(CONFIG_VLAN_8021Q) || defined(CONFIG_VLAN_8021Q_MODULE)
/* Setup the card so that it can receive frames with an 802.1q VLAN tag.
   Note that this must be done after each RxReset due to some backwards
   compatibility logic in the Cyclone and Tornado ASICs */

/* The Ethernet Type used for 802.1q tagged frames */
#define VLAN_ETHER_TYPE 0x8100

static void set_8021q_mode(struct net_device *dev, int enable)
{
	struct vortex_private *vp = netdev_priv(dev);
2969 2970
	void __iomem *ioaddr = vp->ioaddr;
	int old_window = ioread16(ioaddr + EL3_CMD);
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	int mac_ctrl;

	if ((vp->drv_flags&IS_CYCLONE) || (vp->drv_flags&IS_TORNADO)) {
		/* cyclone and tornado chipsets can recognize 802.1q
		 * tagged frames and treat them correctly */

		int max_pkt_size = dev->mtu+14;	/* MTU+Ethernet header */
		if (enable)
			max_pkt_size += 4;	/* 802.1Q VLAN tag */

		EL3WINDOW(3);
2982
		iowrite16(max_pkt_size, ioaddr+Wn3_MaxPktSize);
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		/* set VlanEtherType to let the hardware checksumming
		   treat tagged frames correctly */
		EL3WINDOW(7);
2987
		iowrite16(VLAN_ETHER_TYPE, ioaddr+Wn7_VlanEtherType);
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	} else {
		/* on older cards we have to enable large frames */

		vp->large_frames = dev->mtu > 1500 || enable;

		EL3WINDOW(3);
2994
		mac_ctrl = ioread16(ioaddr+Wn3_MAC_Ctrl);
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		if (vp->large_frames)
			mac_ctrl |= 0x40;
		else
			mac_ctrl &= ~0x40;
2999
		iowrite16(mac_ctrl, ioaddr+Wn3_MAC_Ctrl);
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	}

	EL3WINDOW(old_window);
}
#else

static void set_8021q_mode(struct net_device *dev, int enable)
{
}


#endif

/* MII transceiver control section.
   Read and write the MII registers using software-generated serial
   MDIO protocol.  See the MII specifications or DP83840A data sheet
   for details. */

/* The maximum data clock rate is 2.5 Mhz.  The minimum timing is usually
   met by back-to-back PCI I/O cycles, but we insert a delay to avoid
   "overclocking" issues. */
3021
#define mdio_delay() ioread32(mdio_addr)
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#define MDIO_SHIFT_CLK	0x01
#define MDIO_DIR_WRITE	0x04
#define MDIO_DATA_WRITE0 (0x00 | MDIO_DIR_WRITE)
#define MDIO_DATA_WRITE1 (0x02 | MDIO_DIR_WRITE)
#define MDIO_DATA_READ	0x02
#define MDIO_ENB_IN		0x00

/* Generate the preamble required for initial synchronization and
   a few older transceivers. */
3032
static void mdio_sync(void __iomem *ioaddr, int bits)
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{
3034
	void __iomem *mdio_addr = ioaddr + Wn4_PhysicalMgmt;
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	/* Establish sync by sending at least 32 logic ones. */
	while (-- bits >= 0) {
3038
		iowrite16(MDIO_DATA_WRITE1, mdio_addr);
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		mdio_delay();
3040
		iowrite16(MDIO_DATA_WRITE1 | MDIO_SHIFT_CLK, mdio_addr);
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		mdio_delay();
	}
}

static int mdio_read(struct net_device *dev, int phy_id, int location)
{
	int i;
3048 3049
	struct vortex_private *vp = netdev_priv(dev);
	void __iomem *ioaddr = vp->ioaddr;
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	int read_cmd = (0xf6 << 10) | (phy_id << 5) | location;
	unsigned int retval = 0;
3052
	void __iomem *mdio_addr = ioaddr + Wn4_PhysicalMgmt;
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	if (mii_preamble_required)
		mdio_sync(ioaddr, 32);

	/* Shift the read command bits out. */
	for (i = 14; i >= 0; i--) {
		int dataval = (read_cmd&(1<<i)) ? MDIO_DATA_WRITE1 : MDIO_DATA_WRITE0;
3060
		iowrite16(dataval, mdio_addr);
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		mdio_delay();
3062
		iowrite16(dataval | MDIO_SHIFT_CLK, mdio_addr);
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		mdio_delay();
	}
	/* Read the two transition, 16 data, and wire-idle bits. */
	for (i = 19; i > 0; i--) {
3067
		iowrite16(MDIO_ENB_IN, mdio_addr);
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		mdio_delay();
3069 3070
		retval = (retval << 1) | ((ioread16(mdio_addr) & MDIO_DATA_READ) ? 1 : 0);
		iowrite16(MDIO_ENB_IN | MDIO_SHIFT_CLK, mdio_addr);
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		mdio_delay();
	}
	return retval & 0x20000 ? 0xffff : retval>>1 & 0xffff;
}

static void mdio_write(struct net_device *dev, int phy_id, int location, int value)
{
3078 3079
	struct vortex_private *vp = netdev_priv(dev);
	void __iomem *ioaddr = vp->ioaddr;
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	int write_cmd = 0x50020000 | (phy_id << 23) | (location << 18) | value;
3081
	void __iomem *mdio_addr = ioaddr + Wn4_PhysicalMgmt;
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	int i;

	if (mii_preamble_required)
		mdio_sync(ioaddr, 32);

	/* Shift the command bits out. */
	for (i = 31; i >= 0; i--) {
		int dataval = (write_cmd&(1<<i)) ? MDIO_DATA_WRITE1 : MDIO_DATA_WRITE0;
3090
		iowrite16(dataval, mdio_addr);
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		mdio_delay();
3092
		iowrite16(dataval | MDIO_SHIFT_CLK, mdio_addr);
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		mdio_delay();
	}
	/* Leave the interface idle. */
	for (i = 1; i >= 0; i--) {
3097
		iowrite16(MDIO_ENB_IN, mdio_addr);
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		mdio_delay();
3099
		iowrite16(MDIO_ENB_IN | MDIO_SHIFT_CLK, mdio_addr);
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		mdio_delay();
	}
	return;
}
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/* ACPI: Advanced Configuration and Power Interface. */
/* Set Wake-On-LAN mode and put the board into D3 (power-down) state. */
static void acpi_set_WOL(struct net_device *dev)
{
	struct vortex_private *vp = netdev_priv(dev);
3110
	void __iomem *ioaddr = vp->ioaddr;
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	if (vp->enable_wol) {
		/* Power up on: 1==Downloaded Filter, 2==Magic Packets, 4==Link Status. */
		EL3WINDOW(7);
3115
		iowrite16(2, ioaddr + 0x0c);
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		/* The RxFilter must accept the WOL frames. */
3117 3118
		iowrite16(SetRxFilter|RxStation|RxMulticast|RxBroadcast, ioaddr + EL3_CMD);
		iowrite16(RxEnable, ioaddr + EL3_CMD);
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		if (pci_enable_wake(VORTEX_PCI(vp), PCI_D3hot, 1)) {
			printk(KERN_INFO "%s: WOL not supported.\n",
					pci_name(VORTEX_PCI(vp)));

			vp->enable_wol = 0;
			return;
		}
3127 3128 3129

		/* Change the power state to D3; RxEnable doesn't take effect. */
		pci_set_power_state(VORTEX_PCI(vp), PCI_D3hot);
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	}
}


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static void __devexit vortex_remove_one(struct pci_dev *pdev)
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{
	struct net_device *dev = pci_get_drvdata(pdev);
	struct vortex_private *vp;

	if (!dev) {
		printk("vortex_remove_one called for Compaq device!\n");
		BUG();
	}

	vp = netdev_priv(dev);

3146 3147 3148
	if (vp->cb_fn_base)
		pci_iounmap(VORTEX_PCI(vp), vp->cb_fn_base);

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	unregister_netdev(dev);

	if (VORTEX_PCI(vp)) {
		pci_set_power_state(VORTEX_PCI(vp), PCI_D0);	/* Go active */
		if (vp->pm_state_valid)
			pci_restore_state(VORTEX_PCI(vp));
		pci_disable_device(VORTEX_PCI(vp));
	}
	/* Should really use issue_and_wait() here */
3158 3159 3160 3161
	iowrite16(TotalReset | ((vp->drv_flags & EEPROM_RESET) ? 0x04 : 0x14),
	     vp->ioaddr + EL3_CMD);

	pci_iounmap(VORTEX_PCI(vp), vp->ioaddr);
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	pci_free_consistent(pdev,
						sizeof(struct boom_rx_desc) * RX_RING_SIZE
							+ sizeof(struct boom_tx_desc) * TX_RING_SIZE,
						vp->rx_ring,
						vp->rx_ring_dma);
	if (vp->must_free_region)
		release_region(dev->base_addr, vp->io_size);
	free_netdev(dev);
}


static struct pci_driver vortex_driver = {
	.name		= "3c59x",
	.probe		= vortex_init_one,
	.remove		= __devexit_p(vortex_remove_one),
	.id_table	= vortex_pci_tbl,
#ifdef CONFIG_PM
	.suspend	= vortex_suspend,
	.resume		= vortex_resume,
#endif
};


static int vortex_have_pci;
static int vortex_have_eisa;


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static int __init vortex_init(void)
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{
	int pci_rc, eisa_rc;

3194
	pci_rc = pci_register_driver(&vortex_driver);
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	eisa_rc = vortex_eisa_init();

	if (pci_rc == 0)
		vortex_have_pci = 1;
	if (eisa_rc > 0)
		vortex_have_eisa = 1;

	return (vortex_have_pci + vortex_have_eisa) ? 0 : -ENODEV;
}


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static void __exit vortex_eisa_cleanup(void)
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{
	struct vortex_private *vp;
3209
	void __iomem *ioaddr;
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#ifdef CONFIG_EISA
	/* Take care of the EISA devices */
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	eisa_driver_unregister(&vortex_eisa_driver);
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#endif
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	if (compaq_net_device) {
		vp = compaq_net_device->priv;
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		ioaddr = ioport_map(compaq_net_device->base_addr,
		                    VORTEX_TOTAL_SIZE);
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		unregister_netdev(compaq_net_device);
		iowrite16(TotalReset, ioaddr + EL3_CMD);
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		release_region(compaq_net_device->base_addr,
		               VORTEX_TOTAL_SIZE);
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		free_netdev(compaq_net_device);
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	}
}


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static void __exit vortex_cleanup(void)
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{
	if (vortex_have_pci)
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		pci_unregister_driver(&vortex_driver);
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	if (vortex_have_eisa)
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		vortex_eisa_cleanup();
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}


module_init(vortex_init);
module_exit(vortex_cleanup);