e100.c 83.3 KB
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/*******************************************************************************

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  Intel PRO/100 Linux driver
  Copyright(c) 1999 - 2006 Intel Corporation.
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  This program is free software; you can redistribute it and/or modify it
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  under the terms and conditions of the GNU General Public License,
  version 2, as published by the Free Software Foundation.
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  This program is distributed in the hope it will be useful, but WITHOUT
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  ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
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  more details.
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  You should have received a copy of the GNU General Public License along with
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  this program; if not, write to the Free Software Foundation, Inc.,
  51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
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  The full GNU General Public License is included in this distribution in
  the file called "COPYING".
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  Contact Information:
  Linux NICS <linux.nics@intel.com>
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  e1000-devel Mailing List <e1000-devel@lists.sourceforge.net>
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  Intel Corporation, 5200 N.E. Elam Young Parkway, Hillsboro, OR 97124-6497

*******************************************************************************/

/*
 *	e100.c: Intel(R) PRO/100 ethernet driver
 *
 *	(Re)written 2003 by scott.feldman@intel.com.  Based loosely on
 *	original e100 driver, but better described as a munging of
 *	e100, e1000, eepro100, tg3, 8139cp, and other drivers.
 *
 *	References:
 *		Intel 8255x 10/100 Mbps Ethernet Controller Family,
 *		Open Source Software Developers Manual,
 *		http://sourceforge.net/projects/e1000
 *
 *
 *	                      Theory of Operation
 *
 *	I.   General
 *
 *	The driver supports Intel(R) 10/100 Mbps PCI Fast Ethernet
 *	controller family, which includes the 82557, 82558, 82559, 82550,
 *	82551, and 82562 devices.  82558 and greater controllers
 *	integrate the Intel 82555 PHY.  The controllers are used in
 *	server and client network interface cards, as well as in
 *	LAN-On-Motherboard (LOM), CardBus, MiniPCI, and ICHx
 *	configurations.  8255x supports a 32-bit linear addressing
 *	mode and operates at 33Mhz PCI clock rate.
 *
 *	II.  Driver Operation
 *
 *	Memory-mapped mode is used exclusively to access the device's
 *	shared-memory structure, the Control/Status Registers (CSR). All
 *	setup, configuration, and control of the device, including queuing
 *	of Tx, Rx, and configuration commands is through the CSR.
 *	cmd_lock serializes accesses to the CSR command register.  cb_lock
 *	protects the shared Command Block List (CBL).
 *
 *	8255x is highly MII-compliant and all access to the PHY go
 *	through the Management Data Interface (MDI).  Consequently, the
 *	driver leverages the mii.c library shared with other MII-compliant
 *	devices.
 *
 *	Big- and Little-Endian byte order as well as 32- and 64-bit
 *	archs are supported.  Weak-ordered memory and non-cache-coherent
 *	archs are supported.
 *
 *	III. Transmit
 *
 *	A Tx skb is mapped and hangs off of a TCB.  TCBs are linked
 *	together in a fixed-size ring (CBL) thus forming the flexible mode
 *	memory structure.  A TCB marked with the suspend-bit indicates
 *	the end of the ring.  The last TCB processed suspends the
 *	controller, and the controller can be restarted by issue a CU
 *	resume command to continue from the suspend point, or a CU start
 *	command to start at a given position in the ring.
 *
 *	Non-Tx commands (config, multicast setup, etc) are linked
 *	into the CBL ring along with Tx commands.  The common structure
 *	used for both Tx and non-Tx commands is the Command Block (CB).
 *
 *	cb_to_use is the next CB to use for queuing a command; cb_to_clean
 *	is the next CB to check for completion; cb_to_send is the first
 *	CB to start on in case of a previous failure to resume.  CB clean
 *	up happens in interrupt context in response to a CU interrupt.
 *	cbs_avail keeps track of number of free CB resources available.
 *
 * 	Hardware padding of short packets to minimum packet size is
 * 	enabled.  82557 pads with 7Eh, while the later controllers pad
 * 	with 00h.
 *
 *	IV.  Recieve
 *
 *	The Receive Frame Area (RFA) comprises a ring of Receive Frame
 *	Descriptors (RFD) + data buffer, thus forming the simplified mode
 *	memory structure.  Rx skbs are allocated to contain both the RFD
 *	and the data buffer, but the RFD is pulled off before the skb is
 *	indicated.  The data buffer is aligned such that encapsulated
 *	protocol headers are u32-aligned.  Since the RFD is part of the
 *	mapped shared memory, and completion status is contained within
 *	the RFD, the RFD must be dma_sync'ed to maintain a consistent
 *	view from software and hardware.
 *
 *	Under typical operation, the  receive unit (RU) is start once,
 *	and the controller happily fills RFDs as frames arrive.  If
 *	replacement RFDs cannot be allocated, or the RU goes non-active,
 *	the RU must be restarted.  Frame arrival generates an interrupt,
 *	and Rx indication and re-allocation happen in the same context,
 *	therefore no locking is required.  A software-generated interrupt
 *	is generated from the watchdog to recover from a failed allocation
 *	senario where all Rx resources have been indicated and none re-
 *	placed.
 *
 *	V.   Miscellaneous
 *
 * 	VLAN offloading of tagging, stripping and filtering is not
 * 	supported, but driver will accommodate the extra 4-byte VLAN tag
 * 	for processing by upper layers.  Tx/Rx Checksum offloading is not
 * 	supported.  Tx Scatter/Gather is not supported.  Jumbo Frames is
 * 	not supported (hardware limitation).
 *
 * 	MagicPacket(tm) WoL support is enabled/disabled via ethtool.
 *
 * 	Thanks to JC (jchapman@katalix.com) for helping with
 * 	testing/troubleshooting the development driver.
 *
 * 	TODO:
 * 	o several entry points race with dev->close
 * 	o check for tx-no-resources/stop Q races with tx clean/wake Q
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 *
 *	FIXES:
 * 2005/12/02 - Michael O'Donnell <Michael.ODonnell at stratus dot com>
 *	- Stratus87247: protect MDI control register manipulations
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 */

#include <linux/module.h>
#include <linux/moduleparam.h>
#include <linux/kernel.h>
#include <linux/types.h>
#include <linux/slab.h>
#include <linux/delay.h>
#include <linux/init.h>
#include <linux/pci.h>
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#include <linux/dma-mapping.h>
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#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/mii.h>
#include <linux/if_vlan.h>
#include <linux/skbuff.h>
#include <linux/ethtool.h>
#include <linux/string.h>
#include <asm/unaligned.h>


#define DRV_NAME		"e100"
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#define DRV_EXT			"-NAPI"
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#define DRV_VERSION		"3.5.23-k4"DRV_EXT
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#define DRV_DESCRIPTION		"Intel(R) PRO/100 Network Driver"
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#define DRV_COPYRIGHT		"Copyright(c) 1999-2006 Intel Corporation"
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#define PFX			DRV_NAME ": "

#define E100_WATCHDOG_PERIOD	(2 * HZ)
#define E100_NAPI_WEIGHT	16

MODULE_DESCRIPTION(DRV_DESCRIPTION);
MODULE_AUTHOR(DRV_COPYRIGHT);
MODULE_LICENSE("GPL");
MODULE_VERSION(DRV_VERSION);

static int debug = 3;
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static int eeprom_bad_csum_allow = 0;
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static int use_io = 0;
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module_param(debug, int, 0);
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module_param(eeprom_bad_csum_allow, int, 0);
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module_param(use_io, int, 0);
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MODULE_PARM_DESC(debug, "Debug level (0=none,...,16=all)");
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MODULE_PARM_DESC(eeprom_bad_csum_allow, "Allow bad eeprom checksums");
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MODULE_PARM_DESC(use_io, "Force use of i/o access mode");
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#define DPRINTK(nlevel, klevel, fmt, args...) \
	(void)((NETIF_MSG_##nlevel & nic->msg_enable) && \
	printk(KERN_##klevel PFX "%s: %s: " fmt, nic->netdev->name, \
		__FUNCTION__ , ## args))

#define INTEL_8255X_ETHERNET_DEVICE(device_id, ich) {\
	PCI_VENDOR_ID_INTEL, device_id, PCI_ANY_ID, PCI_ANY_ID, \
	PCI_CLASS_NETWORK_ETHERNET << 8, 0xFFFF00, ich }
static struct pci_device_id e100_id_table[] = {
	INTEL_8255X_ETHERNET_DEVICE(0x1029, 0),
	INTEL_8255X_ETHERNET_DEVICE(0x1030, 0),
	INTEL_8255X_ETHERNET_DEVICE(0x1031, 3),
	INTEL_8255X_ETHERNET_DEVICE(0x1032, 3),
	INTEL_8255X_ETHERNET_DEVICE(0x1033, 3),
	INTEL_8255X_ETHERNET_DEVICE(0x1034, 3),
	INTEL_8255X_ETHERNET_DEVICE(0x1038, 3),
	INTEL_8255X_ETHERNET_DEVICE(0x1039, 4),
	INTEL_8255X_ETHERNET_DEVICE(0x103A, 4),
	INTEL_8255X_ETHERNET_DEVICE(0x103B, 4),
	INTEL_8255X_ETHERNET_DEVICE(0x103C, 4),
	INTEL_8255X_ETHERNET_DEVICE(0x103D, 4),
	INTEL_8255X_ETHERNET_DEVICE(0x103E, 4),
	INTEL_8255X_ETHERNET_DEVICE(0x1050, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1051, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1052, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1053, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1054, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1055, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1056, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1057, 5),
	INTEL_8255X_ETHERNET_DEVICE(0x1059, 0),
	INTEL_8255X_ETHERNET_DEVICE(0x1064, 6),
	INTEL_8255X_ETHERNET_DEVICE(0x1065, 6),
	INTEL_8255X_ETHERNET_DEVICE(0x1066, 6),
	INTEL_8255X_ETHERNET_DEVICE(0x1067, 6),
	INTEL_8255X_ETHERNET_DEVICE(0x1068, 6),
	INTEL_8255X_ETHERNET_DEVICE(0x1069, 6),
	INTEL_8255X_ETHERNET_DEVICE(0x106A, 6),
	INTEL_8255X_ETHERNET_DEVICE(0x106B, 6),
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	INTEL_8255X_ETHERNET_DEVICE(0x1091, 7),
	INTEL_8255X_ETHERNET_DEVICE(0x1092, 7),
	INTEL_8255X_ETHERNET_DEVICE(0x1093, 7),
	INTEL_8255X_ETHERNET_DEVICE(0x1094, 7),
	INTEL_8255X_ETHERNET_DEVICE(0x1095, 7),
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	INTEL_8255X_ETHERNET_DEVICE(0x1209, 0),
	INTEL_8255X_ETHERNET_DEVICE(0x1229, 0),
	INTEL_8255X_ETHERNET_DEVICE(0x2449, 2),
	INTEL_8255X_ETHERNET_DEVICE(0x2459, 2),
	INTEL_8255X_ETHERNET_DEVICE(0x245D, 2),
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	INTEL_8255X_ETHERNET_DEVICE(0x27DC, 7),
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	{ 0, }
};
MODULE_DEVICE_TABLE(pci, e100_id_table);

enum mac {
	mac_82557_D100_A  = 0,
	mac_82557_D100_B  = 1,
	mac_82557_D100_C  = 2,
	mac_82558_D101_A4 = 4,
	mac_82558_D101_B0 = 5,
	mac_82559_D101M   = 8,
	mac_82559_D101S   = 9,
	mac_82550_D102    = 12,
	mac_82550_D102_C  = 13,
	mac_82551_E       = 14,
	mac_82551_F       = 15,
	mac_82551_10      = 16,
	mac_unknown       = 0xFF,
};

enum phy {
	phy_100a     = 0x000003E0,
	phy_100c     = 0x035002A8,
	phy_82555_tx = 0x015002A8,
	phy_nsc_tx   = 0x5C002000,
	phy_82562_et = 0x033002A8,
	phy_82562_em = 0x032002A8,
	phy_82562_ek = 0x031002A8,
	phy_82562_eh = 0x017002A8,
	phy_unknown  = 0xFFFFFFFF,
};

/* CSR (Control/Status Registers) */
struct csr {
	struct {
		u8 status;
		u8 stat_ack;
		u8 cmd_lo;
		u8 cmd_hi;
		u32 gen_ptr;
	} scb;
	u32 port;
	u16 flash_ctrl;
	u8 eeprom_ctrl_lo;
	u8 eeprom_ctrl_hi;
	u32 mdi_ctrl;
	u32 rx_dma_count;
};

enum scb_status {
	rus_ready        = 0x10,
	rus_mask         = 0x3C,
};

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enum ru_state  {
	RU_SUSPENDED = 0,
	RU_RUNNING	 = 1,
	RU_UNINITIALIZED = -1,
};

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enum scb_stat_ack {
	stat_ack_not_ours    = 0x00,
	stat_ack_sw_gen      = 0x04,
	stat_ack_rnr         = 0x10,
	stat_ack_cu_idle     = 0x20,
	stat_ack_frame_rx    = 0x40,
	stat_ack_cu_cmd_done = 0x80,
	stat_ack_not_present = 0xFF,
	stat_ack_rx = (stat_ack_sw_gen | stat_ack_rnr | stat_ack_frame_rx),
	stat_ack_tx = (stat_ack_cu_idle | stat_ack_cu_cmd_done),
};

enum scb_cmd_hi {
	irq_mask_none = 0x00,
	irq_mask_all  = 0x01,
	irq_sw_gen    = 0x02,
};

enum scb_cmd_lo {
	cuc_nop        = 0x00,
	ruc_start      = 0x01,
	ruc_load_base  = 0x06,
	cuc_start      = 0x10,
	cuc_resume     = 0x20,
	cuc_dump_addr  = 0x40,
	cuc_dump_stats = 0x50,
	cuc_load_base  = 0x60,
	cuc_dump_reset = 0x70,
};

enum cuc_dump {
	cuc_dump_complete       = 0x0000A005,
	cuc_dump_reset_complete = 0x0000A007,
};
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enum port {
	software_reset  = 0x0000,
	selftest        = 0x0001,
	selective_reset = 0x0002,
};

enum eeprom_ctrl_lo {
	eesk = 0x01,
	eecs = 0x02,
	eedi = 0x04,
	eedo = 0x08,
};

enum mdi_ctrl {
	mdi_write = 0x04000000,
	mdi_read  = 0x08000000,
	mdi_ready = 0x10000000,
};

enum eeprom_op {
	op_write = 0x05,
	op_read  = 0x06,
	op_ewds  = 0x10,
	op_ewen  = 0x13,
};

enum eeprom_offsets {
	eeprom_cnfg_mdix  = 0x03,
	eeprom_id         = 0x0A,
	eeprom_config_asf = 0x0D,
	eeprom_smbus_addr = 0x90,
};

enum eeprom_cnfg_mdix {
	eeprom_mdix_enabled = 0x0080,
};

enum eeprom_id {
	eeprom_id_wol = 0x0020,
};

enum eeprom_config_asf {
	eeprom_asf = 0x8000,
	eeprom_gcl = 0x4000,
};

enum cb_status {
	cb_complete = 0x8000,
	cb_ok       = 0x2000,
};

enum cb_command {
	cb_nop    = 0x0000,
	cb_iaaddr = 0x0001,
	cb_config = 0x0002,
	cb_multi  = 0x0003,
	cb_tx     = 0x0004,
	cb_ucode  = 0x0005,
	cb_dump   = 0x0006,
	cb_tx_sf  = 0x0008,
	cb_cid    = 0x1f00,
	cb_i      = 0x2000,
	cb_s      = 0x4000,
	cb_el     = 0x8000,
};

struct rfd {
	u16 status;
	u16 command;
	u32 link;
	u32 rbd;
	u16 actual_size;
	u16 size;
};

struct rx {
	struct rx *next, *prev;
	struct sk_buff *skb;
	dma_addr_t dma_addr;
};

#if defined(__BIG_ENDIAN_BITFIELD)
#define X(a,b)	b,a
#else
#define X(a,b)	a,b
#endif
struct config {
/*0*/	u8 X(byte_count:6, pad0:2);
/*1*/	u8 X(X(rx_fifo_limit:4, tx_fifo_limit:3), pad1:1);
/*2*/	u8 adaptive_ifs;
/*3*/	u8 X(X(X(X(mwi_enable:1, type_enable:1), read_align_enable:1),
	   term_write_cache_line:1), pad3:4);
/*4*/	u8 X(rx_dma_max_count:7, pad4:1);
/*5*/	u8 X(tx_dma_max_count:7, dma_max_count_enable:1);
/*6*/	u8 X(X(X(X(X(X(X(late_scb_update:1, direct_rx_dma:1),
	   tno_intr:1), cna_intr:1), standard_tcb:1), standard_stat_counter:1),
	   rx_discard_overruns:1), rx_save_bad_frames:1);
/*7*/	u8 X(X(X(X(X(rx_discard_short_frames:1, tx_underrun_retry:2),
	   pad7:2), rx_extended_rfd:1), tx_two_frames_in_fifo:1),
	   tx_dynamic_tbd:1);
/*8*/	u8 X(X(mii_mode:1, pad8:6), csma_disabled:1);
/*9*/	u8 X(X(X(X(X(rx_tcpudp_checksum:1, pad9:3), vlan_arp_tco:1),
	   link_status_wake:1), arp_wake:1), mcmatch_wake:1);
/*10*/	u8 X(X(X(pad10:3, no_source_addr_insertion:1), preamble_length:2),
	   loopback:2);
/*11*/	u8 X(linear_priority:3, pad11:5);
/*12*/	u8 X(X(linear_priority_mode:1, pad12:3), ifs:4);
/*13*/	u8 ip_addr_lo;
/*14*/	u8 ip_addr_hi;
/*15*/	u8 X(X(X(X(X(X(X(promiscuous_mode:1, broadcast_disabled:1),
	   wait_after_win:1), pad15_1:1), ignore_ul_bit:1), crc_16_bit:1),
	   pad15_2:1), crs_or_cdt:1);
/*16*/	u8 fc_delay_lo;
/*17*/	u8 fc_delay_hi;
/*18*/	u8 X(X(X(X(X(rx_stripping:1, tx_padding:1), rx_crc_transfer:1),
	   rx_long_ok:1), fc_priority_threshold:3), pad18:1);
/*19*/	u8 X(X(X(X(X(X(X(addr_wake:1, magic_packet_disable:1),
	   fc_disable:1), fc_restop:1), fc_restart:1), fc_reject:1),
	   full_duplex_force:1), full_duplex_pin:1);
/*20*/	u8 X(X(X(pad20_1:5, fc_priority_location:1), multi_ia:1), pad20_2:1);
/*21*/	u8 X(X(pad21_1:3, multicast_all:1), pad21_2:4);
/*22*/	u8 X(X(rx_d102_mode:1, rx_vlan_drop:1), pad22:6);
	u8 pad_d102[9];
};

#define E100_MAX_MULTICAST_ADDRS	64
struct multi {
	u16 count;
	u8 addr[E100_MAX_MULTICAST_ADDRS * ETH_ALEN + 2/*pad*/];
};

/* Important: keep total struct u32-aligned */
#define UCODE_SIZE			134
struct cb {
	u16 status;
	u16 command;
	u32 link;
	union {
		u8 iaaddr[ETH_ALEN];
		u32 ucode[UCODE_SIZE];
		struct config config;
		struct multi multi;
		struct {
			u32 tbd_array;
			u16 tcb_byte_count;
			u8 threshold;
			u8 tbd_count;
			struct {
				u32 buf_addr;
				u16 size;
				u16 eol;
			} tbd;
		} tcb;
		u32 dump_buffer_addr;
	} u;
	struct cb *next, *prev;
	dma_addr_t dma_addr;
	struct sk_buff *skb;
};

enum loopback {
	lb_none = 0, lb_mac = 1, lb_phy = 3,
};

struct stats {
	u32 tx_good_frames, tx_max_collisions, tx_late_collisions,
		tx_underruns, tx_lost_crs, tx_deferred, tx_single_collisions,
		tx_multiple_collisions, tx_total_collisions;
	u32 rx_good_frames, rx_crc_errors, rx_alignment_errors,
		rx_resource_errors, rx_overrun_errors, rx_cdt_errors,
		rx_short_frame_errors;
	u32 fc_xmt_pause, fc_rcv_pause, fc_rcv_unsupported;
	u16 xmt_tco_frames, rcv_tco_frames;
	u32 complete;
};

struct mem {
	struct {
		u32 signature;
		u32 result;
	} selftest;
	struct stats stats;
	u8 dump_buf[596];
};

struct param_range {
	u32 min;
	u32 max;
	u32 count;
};

struct params {
	struct param_range rfds;
	struct param_range cbs;
};

struct nic {
	/* Begin: frequently used values: keep adjacent for cache effect */
	u32 msg_enable				____cacheline_aligned;
	struct net_device *netdev;
	struct pci_dev *pdev;

	struct rx *rxs				____cacheline_aligned;
	struct rx *rx_to_use;
	struct rx *rx_to_clean;
	struct rfd blank_rfd;
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	enum ru_state ru_running;
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	spinlock_t cb_lock			____cacheline_aligned;
	spinlock_t cmd_lock;
	struct csr __iomem *csr;
	enum scb_cmd_lo cuc_cmd;
	unsigned int cbs_avail;
	struct cb *cbs;
	struct cb *cb_to_use;
	struct cb *cb_to_send;
	struct cb *cb_to_clean;
	u16 tx_command;
	/* End: frequently used values: keep adjacent for cache effect */

	enum {
		ich                = (1 << 0),
		promiscuous        = (1 << 1),
		multicast_all      = (1 << 2),
		wol_magic          = (1 << 3),
		ich_10h_workaround = (1 << 4),
	} flags					____cacheline_aligned;

	enum mac mac;
	enum phy phy;
	struct params params;
	struct net_device_stats net_stats;
	struct timer_list watchdog;
	struct timer_list blink_timer;
	struct mii_if_info mii;
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	struct work_struct tx_timeout_task;
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	enum loopback loopback;

	struct mem *mem;
	dma_addr_t dma_addr;

	dma_addr_t cbs_dma_addr;
	u8 adaptive_ifs;
	u8 tx_threshold;
	u32 tx_frames;
	u32 tx_collisions;
	u32 tx_deferred;
	u32 tx_single_collisions;
	u32 tx_multiple_collisions;
	u32 tx_fc_pause;
	u32 tx_tco_frames;

	u32 rx_fc_pause;
	u32 rx_fc_unsupported;
	u32 rx_tco_frames;
	u32 rx_over_length_errors;

	u8 rev_id;
	u16 leds;
	u16 eeprom_wc;
	u16 eeprom[256];
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	spinlock_t mdio_lock;
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};

static inline void e100_write_flush(struct nic *nic)
{
	/* Flush previous PCI writes through intermediate bridges
	 * by doing a benign read */
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	(void)ioread8(&nic->csr->scb.status);
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}

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static void e100_enable_irq(struct nic *nic)
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{
	unsigned long flags;

	spin_lock_irqsave(&nic->cmd_lock, flags);
605
	iowrite8(irq_mask_none, &nic->csr->scb.cmd_hi);
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	e100_write_flush(nic);
607
	spin_unlock_irqrestore(&nic->cmd_lock, flags);
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}

610
static void e100_disable_irq(struct nic *nic)
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{
	unsigned long flags;

	spin_lock_irqsave(&nic->cmd_lock, flags);
615
	iowrite8(irq_mask_all, &nic->csr->scb.cmd_hi);
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	e100_write_flush(nic);
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	spin_unlock_irqrestore(&nic->cmd_lock, flags);
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}

static void e100_hw_reset(struct nic *nic)
{
	/* Put CU and RU into idle with a selective reset to get
	 * device off of PCI bus */
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	iowrite32(selective_reset, &nic->csr->port);
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	e100_write_flush(nic); udelay(20);

	/* Now fully reset device */
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	iowrite32(software_reset, &nic->csr->port);
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	e100_write_flush(nic); udelay(20);

	/* Mask off our interrupt line - it's unmasked after reset */
	e100_disable_irq(nic);
}

static int e100_self_test(struct nic *nic)
{
	u32 dma_addr = nic->dma_addr + offsetof(struct mem, selftest);

	/* Passing the self-test is a pretty good indication
	 * that the device can DMA to/from host memory */

	nic->mem->selftest.signature = 0;
	nic->mem->selftest.result = 0xFFFFFFFF;

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	iowrite32(selftest | dma_addr, &nic->csr->port);
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	e100_write_flush(nic);
	/* Wait 10 msec for self-test to complete */
	msleep(10);

	/* Interrupts are enabled after self-test */
	e100_disable_irq(nic);

	/* Check results of self-test */
	if(nic->mem->selftest.result != 0) {
		DPRINTK(HW, ERR, "Self-test failed: result=0x%08X\n",
			nic->mem->selftest.result);
		return -ETIMEDOUT;
	}
	if(nic->mem->selftest.signature == 0) {
		DPRINTK(HW, ERR, "Self-test failed: timed out\n");
		return -ETIMEDOUT;
	}

	return 0;
}

static void e100_eeprom_write(struct nic *nic, u16 addr_len, u16 addr, u16 data)
{
	u32 cmd_addr_data[3];
	u8 ctrl;
	int i, j;

	/* Three cmds: write/erase enable, write data, write/erase disable */
	cmd_addr_data[0] = op_ewen << (addr_len - 2);
	cmd_addr_data[1] = (((op_write << addr_len) | addr) << 16) |
		cpu_to_le16(data);
	cmd_addr_data[2] = op_ewds << (addr_len - 2);

	/* Bit-bang cmds to write word to eeprom */
	for(j = 0; j < 3; j++) {

		/* Chip select */
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		iowrite8(eecs | eesk, &nic->csr->eeprom_ctrl_lo);
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		e100_write_flush(nic); udelay(4);

		for(i = 31; i >= 0; i--) {
			ctrl = (cmd_addr_data[j] & (1 << i)) ?
				eecs | eedi : eecs;
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			iowrite8(ctrl, &nic->csr->eeprom_ctrl_lo);
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			e100_write_flush(nic); udelay(4);

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			iowrite8(ctrl | eesk, &nic->csr->eeprom_ctrl_lo);
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			e100_write_flush(nic); udelay(4);
		}
		/* Wait 10 msec for cmd to complete */
		msleep(10);

		/* Chip deselect */
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		iowrite8(0, &nic->csr->eeprom_ctrl_lo);
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		e100_write_flush(nic); udelay(4);
	}
};

/* General technique stolen from the eepro100 driver - very clever */
static u16 e100_eeprom_read(struct nic *nic, u16 *addr_len, u16 addr)
{
	u32 cmd_addr_data;
	u16 data = 0;
	u8 ctrl;
	int i;

	cmd_addr_data = ((op_read << *addr_len) | addr) << 16;

	/* Chip select */
715
	iowrite8(eecs | eesk, &nic->csr->eeprom_ctrl_lo);
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	e100_write_flush(nic); udelay(4);

	/* Bit-bang to read word from eeprom */
	for(i = 31; i >= 0; i--) {
		ctrl = (cmd_addr_data & (1 << i)) ? eecs | eedi : eecs;
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		iowrite8(ctrl, &nic->csr->eeprom_ctrl_lo);
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		e100_write_flush(nic); udelay(4);
723

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		iowrite8(ctrl | eesk, &nic->csr->eeprom_ctrl_lo);
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		e100_write_flush(nic); udelay(4);
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		/* Eeprom drives a dummy zero to EEDO after receiving
		 * complete address.  Use this to adjust addr_len. */
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		ctrl = ioread8(&nic->csr->eeprom_ctrl_lo);
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		if(!(ctrl & eedo) && i > 16) {
			*addr_len -= (i - 16);
			i = 17;
		}
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		data = (data << 1) | (ctrl & eedo ? 1 : 0);
	}

	/* Chip deselect */
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	iowrite8(0, &nic->csr->eeprom_ctrl_lo);
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	e100_write_flush(nic); udelay(4);

	return le16_to_cpu(data);
};

/* Load entire EEPROM image into driver cache and validate checksum */
static int e100_eeprom_load(struct nic *nic)
{
	u16 addr, addr_len = 8, checksum = 0;

	/* Try reading with an 8-bit addr len to discover actual addr len */
	e100_eeprom_read(nic, &addr_len, 0);
	nic->eeprom_wc = 1 << addr_len;

	for(addr = 0; addr < nic->eeprom_wc; addr++) {
		nic->eeprom[addr] = e100_eeprom_read(nic, &addr_len, addr);
		if(addr < nic->eeprom_wc - 1)
			checksum += cpu_to_le16(nic->eeprom[addr]);
	}

	/* The checksum, stored in the last word, is calculated such that
	 * the sum of words should be 0xBABA */
	checksum = le16_to_cpu(0xBABA - checksum);
	if(checksum != nic->eeprom[nic->eeprom_wc - 1]) {
		DPRINTK(PROBE, ERR, "EEPROM corrupted\n");
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		if (!eeprom_bad_csum_allow)
			return -EAGAIN;
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	}

	return 0;
}

/* Save (portion of) driver EEPROM cache to device and update checksum */
static int e100_eeprom_save(struct nic *nic, u16 start, u16 count)
{
	u16 addr, addr_len = 8, checksum = 0;

	/* Try reading with an 8-bit addr len to discover actual addr len */
	e100_eeprom_read(nic, &addr_len, 0);
	nic->eeprom_wc = 1 << addr_len;

	if(start + count >= nic->eeprom_wc)
		return -EINVAL;

	for(addr = start; addr < start + count; addr++)
		e100_eeprom_write(nic, addr_len, addr, nic->eeprom[addr]);

	/* The checksum, stored in the last word, is calculated such that
	 * the sum of words should be 0xBABA */
	for(addr = 0; addr < nic->eeprom_wc - 1; addr++)
		checksum += cpu_to_le16(nic->eeprom[addr]);
	nic->eeprom[nic->eeprom_wc - 1] = le16_to_cpu(0xBABA - checksum);
	e100_eeprom_write(nic, addr_len, nic->eeprom_wc - 1,
		nic->eeprom[nic->eeprom_wc - 1]);

	return 0;
}

798
#define E100_WAIT_SCB_TIMEOUT 20000 /* we might have to wait 100ms!!! */
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#define E100_WAIT_SCB_FAST 20       /* delay like the old code */
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static int e100_exec_cmd(struct nic *nic, u8 cmd, dma_addr_t dma_addr)
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{
	unsigned long flags;
	unsigned int i;
	int err = 0;

	spin_lock_irqsave(&nic->cmd_lock, flags);

	/* Previous command is accepted when SCB clears */
	for(i = 0; i < E100_WAIT_SCB_TIMEOUT; i++) {
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		if(likely(!ioread8(&nic->csr->scb.cmd_lo)))
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			break;
		cpu_relax();
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		if(unlikely(i > E100_WAIT_SCB_FAST))
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			udelay(5);
	}
	if(unlikely(i == E100_WAIT_SCB_TIMEOUT)) {
		err = -EAGAIN;
		goto err_unlock;
	}

	if(unlikely(cmd != cuc_resume))
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		iowrite32(dma_addr, &nic->csr->scb.gen_ptr);
	iowrite8(cmd, &nic->csr->scb.cmd_lo);
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err_unlock:
	spin_unlock_irqrestore(&nic->cmd_lock, flags);

	return err;
}

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static int e100_exec_cb(struct nic *nic, struct sk_buff *skb,
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	void (*cb_prepare)(struct nic *, struct cb *, struct sk_buff *))
{
	struct cb *cb;
	unsigned long flags;
	int err = 0;

	spin_lock_irqsave(&nic->cb_lock, flags);

	if(unlikely(!nic->cbs_avail)) {
		err = -ENOMEM;
		goto err_unlock;
	}

	cb = nic->cb_to_use;
	nic->cb_to_use = cb->next;
	nic->cbs_avail--;
	cb->skb = skb;

	if(unlikely(!nic->cbs_avail))
		err = -ENOSPC;

	cb_prepare(nic, cb, skb);

	/* Order is important otherwise we'll be in a race with h/w:
	 * set S-bit in current first, then clear S-bit in previous. */
	cb->command |= cpu_to_le16(cb_s);
	wmb();
	cb->prev->command &= cpu_to_le16(~cb_s);

	while(nic->cb_to_send != nic->cb_to_use) {
		if(unlikely(e100_exec_cmd(nic, nic->cuc_cmd,
			nic->cb_to_send->dma_addr))) {
			/* Ok, here's where things get sticky.  It's
			 * possible that we can't schedule the command
			 * because the controller is too busy, so
			 * let's just queue the command and try again
			 * when another command is scheduled. */
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			if(err == -ENOSPC) {
				//request a reset
				schedule_work(&nic->tx_timeout_task);
			}
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			break;
		} else {
			nic->cuc_cmd = cuc_resume;
			nic->cb_to_send = nic->cb_to_send->next;
		}
	}

err_unlock:
	spin_unlock_irqrestore(&nic->cb_lock, flags);

	return err;
}

static u16 mdio_ctrl(struct nic *nic, u32 addr, u32 dir, u32 reg, u16 data)
{
	u32 data_out = 0;
	unsigned int i;
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	unsigned long flags;
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	/*
	 * Stratus87247: we shouldn't be writing the MDI control
	 * register until the Ready bit shows True.  Also, since
	 * manipulation of the MDI control registers is a multi-step
	 * procedure it should be done under lock.
	 */
	spin_lock_irqsave(&nic->mdio_lock, flags);
	for (i = 100; i; --i) {
901
		if (ioread32(&nic->csr->mdi_ctrl) & mdi_ready)
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			break;
		udelay(20);
	}
	if (unlikely(!i)) {
		printk("e100.mdio_ctrl(%s) won't go Ready\n",
			nic->netdev->name );
		spin_unlock_irqrestore(&nic->mdio_lock, flags);
		return 0;		/* No way to indicate timeout error */
	}
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	iowrite32((reg << 16) | (addr << 21) | dir | data, &nic->csr->mdi_ctrl);
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	for (i = 0; i < 100; i++) {
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		udelay(20);
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		if ((data_out = ioread32(&nic->csr->mdi_ctrl)) & mdi_ready)
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			break;
	}
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	spin_unlock_irqrestore(&nic->mdio_lock, flags);
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	DPRINTK(HW, DEBUG,
		"%s:addr=%d, reg=%d, data_in=0x%04X, data_out=0x%04X\n",
		dir == mdi_read ? "READ" : "WRITE", addr, reg, data, data_out);
	return (u16)data_out;
}

static int mdio_read(struct net_device *netdev, int addr, int reg)
{
	return mdio_ctrl(netdev_priv(netdev), addr, mdi_read, reg, 0);
}

static void mdio_write(struct net_device *netdev, int addr, int reg, int data)
{
	mdio_ctrl(netdev_priv(netdev), addr, mdi_write, reg, data);
}

static void e100_get_defaults(struct nic *nic)
{
937 938
	struct param_range rfds = { .min = 16, .max = 256, .count = 256 };
	struct param_range cbs  = { .min = 64, .max = 256, .count = 128 };
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	pci_read_config_byte(nic->pdev, PCI_REVISION_ID, &nic->rev_id);
	/* MAC type is encoded as rev ID; exception: ICH is treated as 82559 */
	nic->mac = (nic->flags & ich) ? mac_82559_D101M : nic->rev_id;
	if(nic->mac == mac_unknown)
		nic->mac = mac_82557_D100_A;

	nic->params.rfds = rfds;
	nic->params.cbs = cbs;

	/* Quadwords to DMA into FIFO before starting frame transmit */
	nic->tx_threshold = 0xE0;

952 953 954
	/* no interrupt for every tx completion, delay = 256us if not 557*/
	nic->tx_command = cpu_to_le16(cb_tx | cb_tx_sf |
		((nic->mac >= mac_82558_D101_A4) ? cb_cid : cb_i));
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	/* Template for a freshly allocated RFD */
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	nic->blank_rfd.command = cpu_to_le16(cb_el);
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	nic->blank_rfd.rbd = 0xFFFFFFFF;
	nic->blank_rfd.size = cpu_to_le16(VLAN_ETH_FRAME_LEN);

	/* MII setup */
	nic->mii.phy_id_mask = 0x1F;
	nic->mii.reg_num_mask = 0x1F;
	nic->mii.dev = nic->netdev;
	nic->mii.mdio_read = mdio_read;
	nic->mii.mdio_write = mdio_write;
}

static void e100_configure(struct nic *nic, struct cb *cb, struct sk_buff *skb)
{
	struct config *config = &cb->u.config;
	u8 *c = (u8 *)config;

	cb->command = cpu_to_le16(cb_config);

	memset(config, 0, sizeof(struct config));

	config->byte_count = 0x16;		/* bytes in this struct */
	config->rx_fifo_limit = 0x8;		/* bytes in FIFO before DMA */
	config->direct_rx_dma = 0x1;		/* reserved */
	config->standard_tcb = 0x1;		/* 1=standard, 0=extended */
	config->standard_stat_counter = 0x1;	/* 1=standard, 0=extended */
	config->rx_discard_short_frames = 0x1;	/* 1=discard, 0=pass */
	config->tx_underrun_retry = 0x3;	/* # of underrun retries */
	config->mii_mode = 0x1;			/* 1=MII mode, 0=503 mode */
	config->pad10 = 0x6;
	config->no_source_addr_insertion = 0x1;	/* 1=no, 0=yes */
	config->preamble_length = 0x2;		/* 0=1, 1=3, 2=7, 3=15 bytes */
	config->ifs = 0x6;			/* x16 = inter frame spacing */
	config->ip_addr_hi = 0xF2;		/* ARP IP filter - not used */
	config->pad15_1 = 0x1;
	config->pad15_2 = 0x1;
	config->crs_or_cdt = 0x0;		/* 0=CRS only, 1=CRS or CDT */
	config->fc_delay_hi = 0x40;		/* time delay for fc frame */
	config->tx_padding = 0x1;		/* 1=pad short frames */
	config->fc_priority_threshold = 0x7;	/* 7=priority fc disabled */
	config->pad18 = 0x1;
	config->full_duplex_pin = 0x1;		/* 1=examine FDX# pin */
	config->pad20_1 = 0x1F;
	config->fc_priority_location = 0x1;	/* 1=byte#31, 0=byte#19 */
	config->pad21_1 = 0x5;

	config->adaptive_ifs = nic->adaptive_ifs;
	config->loopback = nic->loopback;

	if(nic->mii.force_media && nic->mii.full_duplex)
		config->full_duplex_force = 0x1;	/* 1=force, 0=auto */

	if(nic->flags & promiscuous || nic->loopback) {
		config->rx_save_bad_frames = 0x1;	/* 1=save, 0=discard */
		config->rx_discard_short_frames = 0x0;	/* 1=discard, 0=save */
		config->promiscuous_mode = 0x1;		/* 1=on, 0=off */
	}

	if(nic->flags & multicast_all)
		config->multicast_all = 0x1;		/* 1=accept, 0=no */

1018 1019
	/* disable WoL when up */
	if(netif_running(nic->netdev) || !(nic->flags & wol_magic))
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		config->magic_packet_disable = 0x1;	/* 1=off, 0=on */

	if(nic->mac >= mac_82558_D101_A4) {
		config->fc_disable = 0x1;	/* 1=Tx fc off, 0=Tx fc on */
		config->mwi_enable = 0x1;	/* 1=enable, 0=disable */
		config->standard_tcb = 0x0;	/* 1=standard, 0=extended */
		config->rx_long_ok = 0x1;	/* 1=VLANs ok, 0=standard */
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		if (nic->mac >= mac_82559_D101M) {
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			config->tno_intr = 0x1;		/* TCO stats enable */
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			/* Enable TCO in extended config */
			if (nic->mac >= mac_82551_10) {
				config->byte_count = 0x20; /* extended bytes */
				config->rx_d102_mode = 0x1; /* GMRC for TCO */
			}
		} else {
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			config->standard_stat_counter = 0x0;
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		}
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	}

	DPRINTK(HW, DEBUG, "[00-07]=%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
		c[0], c[1], c[2], c[3], c[4], c[5], c[6], c[7]);
	DPRINTK(HW, DEBUG, "[08-15]=%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
		c[8], c[9], c[10], c[11], c[12], c[13], c[14], c[15]);
	DPRINTK(HW, DEBUG, "[16-23]=%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
		c[16], c[17], c[18], c[19], c[20], c[21], c[22], c[23]);
}

1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184
/********************************************************/
/*  Micro code for 8086:1229 Rev 8                      */
/********************************************************/

/*  Parameter values for the D101M B-step  */
#define D101M_CPUSAVER_TIMER_DWORD		78
#define D101M_CPUSAVER_BUNDLE_DWORD		65
#define D101M_CPUSAVER_MIN_SIZE_DWORD		126

#define D101M_B_RCVBUNDLE_UCODE \
{\
0x00550215, 0xFFFF0437, 0xFFFFFFFF, 0x06A70789, 0xFFFFFFFF, 0x0558FFFF, \
0x000C0001, 0x00101312, 0x000C0008, 0x00380216, \
0x0010009C, 0x00204056, 0x002380CC, 0x00380056, \
0x0010009C, 0x00244C0B, 0x00000800, 0x00124818, \
0x00380438, 0x00000000, 0x00140000, 0x00380555, \
0x00308000, 0x00100662, 0x00100561, 0x000E0408, \
0x00134861, 0x000C0002, 0x00103093, 0x00308000, \
0x00100624, 0x00100561, 0x000E0408, 0x00100861, \
0x000C007E, 0x00222C21, 0x000C0002, 0x00103093, \
0x00380C7A, 0x00080000, 0x00103090, 0x00380C7A, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x0010009C, 0x00244C2D, 0x00010004, 0x00041000, \
0x003A0437, 0x00044010, 0x0038078A, 0x00000000, \
0x00100099, 0x00206C7A, 0x0010009C, 0x00244C48, \
0x00130824, 0x000C0001, 0x00101213, 0x00260C75, \
0x00041000, 0x00010004, 0x00130826, 0x000C0006, \
0x002206A8, 0x0013C926, 0x00101313, 0x003806A8, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00080600, 0x00101B10, 0x00050004, 0x00100826, \
0x00101210, 0x00380C34, 0x00000000, 0x00000000, \
0x0021155B, 0x00100099, 0x00206559, 0x0010009C, \
0x00244559, 0x00130836, 0x000C0000, 0x00220C62, \
0x000C0001, 0x00101B13, 0x00229C0E, 0x00210C0E, \
0x00226C0E, 0x00216C0E, 0x0022FC0E, 0x00215C0E, \
0x00214C0E, 0x00380555, 0x00010004, 0x00041000, \
0x00278C67, 0x00040800, 0x00018100, 0x003A0437, \
0x00130826, 0x000C0001, 0x00220559, 0x00101313, \
0x00380559, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00130831, 0x0010090B, 0x00124813, \
0x000CFF80, 0x002606AB, 0x00041000, 0x00010004, \
0x003806A8, 0x00000000, 0x00000000, 0x00000000, \
}

/********************************************************/
/*  Micro code for 8086:1229 Rev 9                      */
/********************************************************/

/*  Parameter values for the D101S  */
#define D101S_CPUSAVER_TIMER_DWORD		78
#define D101S_CPUSAVER_BUNDLE_DWORD		67
#define D101S_CPUSAVER_MIN_SIZE_DWORD		128

#define D101S_RCVBUNDLE_UCODE \
{\
0x00550242, 0xFFFF047E, 0xFFFFFFFF, 0x06FF0818, 0xFFFFFFFF, 0x05A6FFFF, \
0x000C0001, 0x00101312, 0x000C0008, 0x00380243, \
0x0010009C, 0x00204056, 0x002380D0, 0x00380056, \
0x0010009C, 0x00244F8B, 0x00000800, 0x00124818, \
0x0038047F, 0x00000000, 0x00140000, 0x003805A3, \
0x00308000, 0x00100610, 0x00100561, 0x000E0408, \
0x00134861, 0x000C0002, 0x00103093, 0x00308000, \
0x00100624, 0x00100561, 0x000E0408, 0x00100861, \
0x000C007E, 0x00222FA1, 0x000C0002, 0x00103093, \
0x00380F90, 0x00080000, 0x00103090, 0x00380F90, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x0010009C, 0x00244FAD, 0x00010004, 0x00041000, \
0x003A047E, 0x00044010, 0x00380819, 0x00000000, \
0x00100099, 0x00206FFD, 0x0010009A, 0x0020AFFD, \
0x0010009C, 0x00244FC8, 0x00130824, 0x000C0001, \
0x00101213, 0x00260FF7, 0x00041000, 0x00010004, \
0x00130826, 0x000C0006, 0x00220700, 0x0013C926, \
0x00101313, 0x00380700, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00080600, 0x00101B10, 0x00050004, 0x00100826, \
0x00101210, 0x00380FB6, 0x00000000, 0x00000000, \
0x002115A9, 0x00100099, 0x002065A7, 0x0010009A, \
0x0020A5A7, 0x0010009C, 0x002445A7, 0x00130836, \
0x000C0000, 0x00220FE4, 0x000C0001, 0x00101B13, \
0x00229F8E, 0x00210F8E, 0x00226F8E, 0x00216F8E, \
0x0022FF8E, 0x00215F8E, 0x00214F8E, 0x003805A3, \
0x00010004, 0x00041000, 0x00278FE9, 0x00040800, \
0x00018100, 0x003A047E, 0x00130826, 0x000C0001, \
0x002205A7, 0x00101313, 0x003805A7, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00130831, \
0x0010090B, 0x00124813, 0x000CFF80, 0x00260703, \
0x00041000, 0x00010004, 0x00380700  \
}

/********************************************************/
/*  Micro code for the 8086:1229 Rev F/10               */
/********************************************************/

/*  Parameter values for the D102 E-step  */
#define D102_E_CPUSAVER_TIMER_DWORD		42
#define D102_E_CPUSAVER_BUNDLE_DWORD		54
#define D102_E_CPUSAVER_MIN_SIZE_DWORD		46

#define     D102_E_RCVBUNDLE_UCODE \
{\
0x007D028F, 0x0E4204F9, 0x14ED0C85, 0x14FA14E9, 0x0EF70E36, 0x1FFF1FFF, \
0x00E014B9, 0x00000000, 0x00000000, 0x00000000, \
0x00E014BD, 0x00000000, 0x00000000, 0x00000000, \
0x00E014D5, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00E014C1, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00E014C8, 0x00000000, 0x00000000, 0x00000000, \
0x00200600, 0x00E014EE, 0x00000000, 0x00000000, \
0x0030FF80, 0x00940E46, 0x00038200, 0x00102000, \
0x00E00E43, 0x00000000, 0x00000000, 0x00000000, \
0x00300006, 0x00E014FB, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00906E41, 0x00800E3C, 0x00E00E39, 0x00000000, \
0x00906EFD, 0x00900EFD, 0x00E00EF8, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
0x00000000, 0x00000000, 0x00000000, 0x00000000, \
}

1185
static void e100_setup_ucode(struct nic *nic, struct cb *cb, struct sk_buff *skb)
L
Linus Torvalds 已提交
1186
{
1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225 1226
/* *INDENT-OFF* */
	static struct {
		u32 ucode[UCODE_SIZE + 1];
		u8 mac;
		u8 timer_dword;
		u8 bundle_dword;
		u8 min_size_dword;
	} ucode_opts[] = {
		{ D101M_B_RCVBUNDLE_UCODE,
		  mac_82559_D101M,
		  D101M_CPUSAVER_TIMER_DWORD,
		  D101M_CPUSAVER_BUNDLE_DWORD,
		  D101M_CPUSAVER_MIN_SIZE_DWORD },
		{ D101S_RCVBUNDLE_UCODE,
		  mac_82559_D101S,
		  D101S_CPUSAVER_TIMER_DWORD,
		  D101S_CPUSAVER_BUNDLE_DWORD,
		  D101S_CPUSAVER_MIN_SIZE_DWORD },
		{ D102_E_RCVBUNDLE_UCODE,
		  mac_82551_F,
		  D102_E_CPUSAVER_TIMER_DWORD,
		  D102_E_CPUSAVER_BUNDLE_DWORD,
		  D102_E_CPUSAVER_MIN_SIZE_DWORD },
		{ D102_E_RCVBUNDLE_UCODE,
		  mac_82551_10,
		  D102_E_CPUSAVER_TIMER_DWORD,
		  D102_E_CPUSAVER_BUNDLE_DWORD,
		  D102_E_CPUSAVER_MIN_SIZE_DWORD },
		{ {0}, 0, 0, 0, 0}
	}, *opts;
/* *INDENT-ON* */

/*************************************************************************
*  CPUSaver parameters
*
*  All CPUSaver parameters are 16-bit literals that are part of a
*  "move immediate value" instruction.  By changing the value of
*  the literal in the instruction before the code is loaded, the
*  driver can change the algorithm.
*
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Matt LaPlante 已提交
1227
*  INTDELAY - This loads the dead-man timer with its initial value.
1228
*    When this timer expires the interrupt is asserted, and the
1229 1230 1231 1232 1233
*    timer is reset each time a new packet is received.  (see
*    BUNDLEMAX below to set the limit on number of chained packets)
*    The current default is 0x600 or 1536.  Experiments show that
*    the value should probably stay within the 0x200 - 0x1000.
*
1234
*  BUNDLEMAX -
1235 1236 1237 1238 1239 1240 1241 1242 1243
*    This sets the maximum number of frames that will be bundled.  In
*    some situations, such as the TCP windowing algorithm, it may be
*    better to limit the growth of the bundle size than let it go as
*    high as it can, because that could cause too much added latency.
*    The default is six, because this is the number of packets in the
*    default TCP window size.  A value of 1 would make CPUSaver indicate
*    an interrupt for every frame received.  If you do not want to put
*    a limit on the bundle size, set this value to xFFFF.
*
1244
*  BUNDLESMALL -
1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258
*    This contains a bit-mask describing the minimum size frame that
*    will be bundled.  The default masks the lower 7 bits, which means
*    that any frame less than 128 bytes in length will not be bundled,
*    but will instead immediately generate an interrupt.  This does
*    not affect the current bundle in any way.  Any frame that is 128
*    bytes or large will be bundled normally.  This feature is meant
*    to provide immediate indication of ACK frames in a TCP environment.
*    Customers were seeing poor performance when a machine with CPUSaver
*    enabled was sending but not receiving.  The delay introduced when
*    the ACKs were received was enough to reduce total throughput, because
*    the sender would sit idle until the ACK was finally seen.
*
*    The current default is 0xFF80, which masks out the lower 7 bits.
*    This means that any frame which is x7F (127) bytes or smaller
1259
*    will cause an immediate interrupt.  Because this value must be a
1260 1261 1262 1263 1264 1265 1266 1267
*    bit mask, there are only a few valid values that can be used.  To
*    turn this feature off, the driver can write the value xFFFF to the
*    lower word of this instruction (in the same way that the other
*    parameters are used).  Likewise, a value of 0xF800 (2047) would
*    cause an interrupt to be generated for every frame, because all
*    standard Ethernet frames are <= 2047 bytes in length.
*************************************************************************/

1268
/* if you wish to disable the ucode functionality, while maintaining the
1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297
 * workarounds it provides, set the following defines to:
 * BUNDLESMALL 0
 * BUNDLEMAX 1
 * INTDELAY 1
 */
#define BUNDLESMALL 1
#define BUNDLEMAX (u16)6
#define INTDELAY (u16)1536 /* 0x600 */

	/* do not load u-code for ICH devices */
	if (nic->flags & ich)
		goto noloaducode;

	/* Search for ucode match against h/w rev_id */
	for (opts = ucode_opts; opts->mac; opts++) {
		int i;
		u32 *ucode = opts->ucode;
		if (nic->mac != opts->mac)
			continue;

		/* Insert user-tunable settings */
		ucode[opts->timer_dword] &= 0xFFFF0000;
		ucode[opts->timer_dword] |= INTDELAY;
		ucode[opts->bundle_dword] &= 0xFFFF0000;
		ucode[opts->bundle_dword] |= BUNDLEMAX;
		ucode[opts->min_size_dword] &= 0xFFFF0000;
		ucode[opts->min_size_dword] |= (BUNDLESMALL) ? 0xFFFF : 0xFF80;

		for (i = 0; i < UCODE_SIZE; i++)
1298
			cb->u.ucode[i] = cpu_to_le32(ucode[i]);
1299
		cb->command = cpu_to_le16(cb_ucode | cb_el);
1300 1301 1302 1303
		return;
	}

noloaducode:
1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314
	cb->command = cpu_to_le16(cb_nop | cb_el);
}

static inline int e100_exec_cb_wait(struct nic *nic, struct sk_buff *skb,
	void (*cb_prepare)(struct nic *, struct cb *, struct sk_buff *))
{
	int err = 0, counter = 50;
	struct cb *cb = nic->cb_to_clean;

	if ((err = e100_exec_cb(nic, NULL, e100_setup_ucode)))
		DPRINTK(PROBE,ERR, "ucode cmd failed with error %d\n", err);
1315

1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327
	/* must restart cuc */
	nic->cuc_cmd = cuc_start;

	/* wait for completion */
	e100_write_flush(nic);
	udelay(10);

	/* wait for possibly (ouch) 500ms */
	while (!(cb->status & cpu_to_le16(cb_complete))) {
		msleep(10);
		if (!--counter) break;
	}
1328

1329
	/* ack any interupts, something could have been set */
1330
	iowrite8(~0, &nic->csr->scb.stat_ack);
1331 1332 1333 1334 1335 1336

	/* if the command failed, or is not OK, notify and return */
	if (!counter || !(cb->status & cpu_to_le16(cb_ok))) {
		DPRINTK(PROBE,ERR, "ucode load failed\n");
		err = -EPERM;
	}
1337

1338
	return err;
L
Linus Torvalds 已提交
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}

static void e100_setup_iaaddr(struct nic *nic, struct cb *cb,
	struct sk_buff *skb)
{
	cb->command = cpu_to_le16(cb_iaaddr);
	memcpy(cb->u.iaaddr, nic->netdev->dev_addr, ETH_ALEN);
}

static void e100_dump(struct nic *nic, struct cb *cb, struct sk_buff *skb)
{
	cb->command = cpu_to_le16(cb_dump);
	cb->u.dump_buffer_addr = cpu_to_le32(nic->dma_addr +
		offsetof(struct mem, dump_buf));
}

#define NCONFIG_AUTO_SWITCH	0x0080
#define MII_NSC_CONG		MII_RESV1
#define NSC_CONG_ENABLE		0x0100
#define NSC_CONG_TXREADY	0x0400
#define ADVERTISE_FC_SUPPORTED	0x0400
static int e100_phy_init(struct nic *nic)
{
	struct net_device *netdev = nic->netdev;
	u32 addr;
	u16 bmcr, stat, id_lo, id_hi, cong;

	/* Discover phy addr by searching addrs in order {1,0,2,..., 31} */
	for(addr = 0; addr < 32; addr++) {
		nic->mii.phy_id = (addr == 0) ? 1 : (addr == 1) ? 0 : addr;
		bmcr = mdio_read(netdev, nic->mii.phy_id, MII_BMCR);
		stat = mdio_read(netdev, nic->mii.phy_id, MII_BMSR);
		stat = mdio_read(netdev, nic->mii.phy_id, MII_BMSR);
		if(!((bmcr == 0xFFFF) || ((stat == 0) && (bmcr == 0))))
			break;
	}
	DPRINTK(HW, DEBUG, "phy_addr = %d\n", nic->mii.phy_id);
	if(addr == 32)
		return -EAGAIN;

	/* Selected the phy and isolate the rest */
	for(addr = 0; addr < 32; addr++) {
		if(addr != nic->mii.phy_id) {
			mdio_write(netdev, addr, MII_BMCR, BMCR_ISOLATE);
		} else {
			bmcr = mdio_read(netdev, addr, MII_BMCR);
			mdio_write(netdev, addr, MII_BMCR,
				bmcr & ~BMCR_ISOLATE);
		}
	}

	/* Get phy ID */
	id_lo = mdio_read(netdev, nic->mii.phy_id, MII_PHYSID1);
	id_hi = mdio_read(netdev, nic->mii.phy_id, MII_PHYSID2);
	nic->phy = (u32)id_hi << 16 | (u32)id_lo;
	DPRINTK(HW, DEBUG, "phy ID = 0x%08X\n", nic->phy);

	/* Handle National tx phys */
#define NCS_PHY_MODEL_MASK	0xFFF0FFFF
	if((nic->phy & NCS_PHY_MODEL_MASK) == phy_nsc_tx) {
		/* Disable congestion control */
		cong = mdio_read(netdev, nic->mii.phy_id, MII_NSC_CONG);
		cong |= NSC_CONG_TXREADY;
		cong &= ~NSC_CONG_ENABLE;
		mdio_write(netdev, nic->mii.phy_id, MII_NSC_CONG, cong);
	}

1406
	if((nic->mac >= mac_82550_D102) || ((nic->flags & ich) &&
J
Jeff Kirsher 已提交
1407 1408 1409 1410 1411
	   (mdio_read(netdev, nic->mii.phy_id, MII_TPISTATUS) & 0x8000) &&
		!(nic->eeprom[eeprom_cnfg_mdix] & eeprom_mdix_enabled))) {
		/* enable/disable MDI/MDI-X auto-switching. */
		mdio_write(netdev, nic->mii.phy_id, MII_NCONFIG,
				nic->mii.force_media ? 0 : NCONFIG_AUTO_SWITCH);
1412
	}
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Linus Torvalds 已提交
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	return 0;
}

static int e100_hw_init(struct nic *nic)
{
	int err;

	e100_hw_reset(nic);

	DPRINTK(HW, ERR, "e100_hw_init\n");
	if(!in_interrupt() && (err = e100_self_test(nic)))
		return err;

	if((err = e100_phy_init(nic)))
		return err;
	if((err = e100_exec_cmd(nic, cuc_load_base, 0)))
		return err;
	if((err = e100_exec_cmd(nic, ruc_load_base, 0)))
		return err;
1433
	if ((err = e100_exec_cb_wait(nic, NULL, e100_setup_ucode)))
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Linus Torvalds 已提交
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		return err;
	if((err = e100_exec_cb(nic, NULL, e100_configure)))
		return err;
	if((err = e100_exec_cb(nic, NULL, e100_setup_iaaddr)))
		return err;
	if((err = e100_exec_cmd(nic, cuc_dump_addr,
		nic->dma_addr + offsetof(struct mem, stats))))
		return err;
	if((err = e100_exec_cmd(nic, cuc_dump_reset, 0)))
		return err;

	e100_disable_irq(nic);

	return 0;
}

static void e100_multi(struct nic *nic, struct cb *cb, struct sk_buff *skb)
{
	struct net_device *netdev = nic->netdev;
	struct dev_mc_list *list = netdev->mc_list;
	u16 i, count = min(netdev->mc_count, E100_MAX_MULTICAST_ADDRS);

	cb->command = cpu_to_le16(cb_multi);
	cb->u.multi.count = cpu_to_le16(count * ETH_ALEN);
	for(i = 0; list && i < count; i++, list = list->next)
		memcpy(&cb->u.multi.addr[i*ETH_ALEN], &list->dmi_addr,
			ETH_ALEN);
}

static void e100_set_multicast_list(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);

	DPRINTK(HW, DEBUG, "mc_count=%d, flags=0x%04X\n",
		netdev->mc_count, netdev->flags);

	if(netdev->flags & IFF_PROMISC)
		nic->flags |= promiscuous;
	else
		nic->flags &= ~promiscuous;

	if(netdev->flags & IFF_ALLMULTI ||
		netdev->mc_count > E100_MAX_MULTICAST_ADDRS)
		nic->flags |= multicast_all;
	else
		nic->flags &= ~multicast_all;

	e100_exec_cb(nic, NULL, e100_configure);
	e100_exec_cb(nic, NULL, e100_multi);
}

static void e100_update_stats(struct nic *nic)
{
	struct net_device_stats *ns = &nic->net_stats;
	struct stats *s = &nic->mem->stats;
	u32 *complete = (nic->mac < mac_82558_D101_A4) ? &s->fc_xmt_pause :
		(nic->mac < mac_82559_D101M) ? (u32 *)&s->xmt_tco_frames :
		&s->complete;

	/* Device's stats reporting may take several microseconds to
	 * complete, so where always waiting for results of the
	 * previous command. */

	if(*complete == le32_to_cpu(cuc_dump_reset_complete)) {
		*complete = 0;
		nic->tx_frames = le32_to_cpu(s->tx_good_frames);
		nic->tx_collisions = le32_to_cpu(s->tx_total_collisions);
		ns->tx_aborted_errors += le32_to_cpu(s->tx_max_collisions);
		ns->tx_window_errors += le32_to_cpu(s->tx_late_collisions);
		ns->tx_carrier_errors += le32_to_cpu(s->tx_lost_crs);
		ns->tx_fifo_errors += le32_to_cpu(s->tx_underruns);
		ns->collisions += nic->tx_collisions;
		ns->tx_errors += le32_to_cpu(s->tx_max_collisions) +
			le32_to_cpu(s->tx_lost_crs);
		ns->rx_length_errors += le32_to_cpu(s->rx_short_frame_errors) +
			nic->rx_over_length_errors;
		ns->rx_crc_errors += le32_to_cpu(s->rx_crc_errors);
		ns->rx_frame_errors += le32_to_cpu(s->rx_alignment_errors);
		ns->rx_over_errors += le32_to_cpu(s->rx_overrun_errors);
		ns->rx_fifo_errors += le32_to_cpu(s->rx_overrun_errors);
1514
		ns->rx_missed_errors += le32_to_cpu(s->rx_resource_errors);
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		ns->rx_errors += le32_to_cpu(s->rx_crc_errors) +
			le32_to_cpu(s->rx_alignment_errors) +
			le32_to_cpu(s->rx_short_frame_errors) +
			le32_to_cpu(s->rx_cdt_errors);
		nic->tx_deferred += le32_to_cpu(s->tx_deferred);
		nic->tx_single_collisions +=
			le32_to_cpu(s->tx_single_collisions);
		nic->tx_multiple_collisions +=
			le32_to_cpu(s->tx_multiple_collisions);
		if(nic->mac >= mac_82558_D101_A4) {
			nic->tx_fc_pause += le32_to_cpu(s->fc_xmt_pause);
			nic->rx_fc_pause += le32_to_cpu(s->fc_rcv_pause);
			nic->rx_fc_unsupported +=
				le32_to_cpu(s->fc_rcv_unsupported);
			if(nic->mac >= mac_82559_D101M) {
				nic->tx_tco_frames +=
					le16_to_cpu(s->xmt_tco_frames);
				nic->rx_tco_frames +=
					le16_to_cpu(s->rcv_tco_frames);
			}
		}
	}

1538

1539 1540
	if(e100_exec_cmd(nic, cuc_dump_reset, 0))
		DPRINTK(TX_ERR, DEBUG, "exec cuc_dump_reset failed\n");
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}

static void e100_adjust_adaptive_ifs(struct nic *nic, int speed, int duplex)
{
	/* Adjust inter-frame-spacing (IFS) between two transmits if
	 * we're getting collisions on a half-duplex connection. */

	if(duplex == DUPLEX_HALF) {
		u32 prev = nic->adaptive_ifs;
		u32 min_frames = (speed == SPEED_100) ? 1000 : 100;

		if((nic->tx_frames / 32 < nic->tx_collisions) &&
		   (nic->tx_frames > min_frames)) {
			if(nic->adaptive_ifs < 60)
				nic->adaptive_ifs += 5;
		} else if (nic->tx_frames < min_frames) {
			if(nic->adaptive_ifs >= 5)
				nic->adaptive_ifs -= 5;
		}
		if(nic->adaptive_ifs != prev)
			e100_exec_cb(nic, NULL, e100_configure);
	}
}

static void e100_watchdog(unsigned long data)
{
	struct nic *nic = (struct nic *)data;
	struct ethtool_cmd cmd;

	DPRINTK(TIMER, DEBUG, "right now = %ld\n", jiffies);

	/* mii library handles link maintenance tasks */

	mii_ethtool_gset(&nic->mii, &cmd);

	if(mii_link_ok(&nic->mii) && !netif_carrier_ok(nic->netdev)) {
		DPRINTK(LINK, INFO, "link up, %sMbps, %s-duplex\n",
			cmd.speed == SPEED_100 ? "100" : "10",
			cmd.duplex == DUPLEX_FULL ? "full" : "half");
	} else if(!mii_link_ok(&nic->mii) && netif_carrier_ok(nic->netdev)) {
		DPRINTK(LINK, INFO, "link down\n");
	}

	mii_check_link(&nic->mii);

	/* Software generated interrupt to recover from (rare) Rx
1587 1588 1589 1590
	 * allocation failure.
	 * Unfortunately have to use a spinlock to not re-enable interrupts
	 * accidentally, due to hardware that shares a register between the
	 * interrupt mask bit and the SW Interrupt generation bit */
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	spin_lock_irq(&nic->cmd_lock);
1592
	iowrite8(ioread8(&nic->csr->scb.cmd_hi) | irq_sw_gen,&nic->csr->scb.cmd_hi);
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	e100_write_flush(nic);
1594
	spin_unlock_irq(&nic->cmd_lock);
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	e100_update_stats(nic);
	e100_adjust_adaptive_ifs(nic, cmd.speed, cmd.duplex);

	if(nic->mac <= mac_82557_D100_C)
		/* Issue a multicast command to workaround a 557 lock up */
		e100_set_multicast_list(nic->netdev);

	if(nic->flags & ich && cmd.speed==SPEED_10 && cmd.duplex==DUPLEX_HALF)
		/* Need SW workaround for ICH[x] 10Mbps/half duplex Tx hang. */
		nic->flags |= ich_10h_workaround;
	else
		nic->flags &= ~ich_10h_workaround;

	mod_timer(&nic->watchdog, jiffies + E100_WATCHDOG_PERIOD);
}

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static void e100_xmit_prepare(struct nic *nic, struct cb *cb,
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	struct sk_buff *skb)
{
	cb->command = nic->tx_command;
1616
	/* interrupt every 16 packets regardless of delay */
1617 1618
	if((nic->cbs_avail & ~15) == nic->cbs_avail)
		cb->command |= cpu_to_le16(cb_i);
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	cb->u.tcb.tbd_array = cb->dma_addr + offsetof(struct cb, u.tcb.tbd);
	cb->u.tcb.tcb_byte_count = 0;
	cb->u.tcb.threshold = nic->tx_threshold;
	cb->u.tcb.tbd_count = 1;
	cb->u.tcb.tbd.buf_addr = cpu_to_le32(pci_map_single(nic->pdev,
		skb->data, skb->len, PCI_DMA_TODEVICE));
1625
	/* check for mapping failure? */
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	cb->u.tcb.tbd.size = cpu_to_le16(skb->len);
}

static int e100_xmit_frame(struct sk_buff *skb, struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
	int err;

	if(nic->flags & ich_10h_workaround) {
		/* SW workaround for ICH[x] 10Mbps/half duplex Tx hang.
		   Issue a NOP command followed by a 1us delay before
		   issuing the Tx command. */
1638 1639
		if(e100_exec_cmd(nic, cuc_nop, 0))
			DPRINTK(TX_ERR, DEBUG, "exec cuc_nop failed\n");
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		udelay(1);
	}

	err = e100_exec_cb(nic, skb, e100_xmit_prepare);

	switch(err) {
	case -ENOSPC:
		/* We queued the skb, but now we're out of space. */
		DPRINTK(TX_ERR, DEBUG, "No space for CB\n");
		netif_stop_queue(netdev);
		break;
	case -ENOMEM:
		/* This is a hard error - log it. */
		DPRINTK(TX_ERR, DEBUG, "Out of Tx resources, returning skb\n");
		netif_stop_queue(netdev);
		return 1;
	}

	netdev->trans_start = jiffies;
	return 0;
}

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static int e100_tx_clean(struct nic *nic)
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{
	struct cb *cb;
	int tx_cleaned = 0;

	spin_lock(&nic->cb_lock);

	/* Clean CBs marked complete */
	for(cb = nic->cb_to_clean;
	    cb->status & cpu_to_le16(cb_complete);
	    cb = nic->cb_to_clean = cb->next) {
1673 1674 1675 1676
		DPRINTK(TX_DONE, DEBUG, "cb[%d]->status = 0x%04X\n",
		        (int)(((void*)cb - (void*)nic->cbs)/sizeof(struct cb)),
		        cb->status);

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		if(likely(cb->skb != NULL)) {
			nic->net_stats.tx_packets++;
			nic->net_stats.tx_bytes += cb->skb->len;

			pci_unmap_single(nic->pdev,
				le32_to_cpu(cb->u.tcb.tbd.buf_addr),
				le16_to_cpu(cb->u.tcb.tbd.size),
				PCI_DMA_TODEVICE);
			dev_kfree_skb_any(cb->skb);
			cb->skb = NULL;
			tx_cleaned = 1;
		}
		cb->status = 0;
		nic->cbs_avail++;
	}

	spin_unlock(&nic->cb_lock);

	/* Recover from running out of Tx resources in xmit_frame */
	if(unlikely(tx_cleaned && netif_queue_stopped(nic->netdev)))
		netif_wake_queue(nic->netdev);

	return tx_cleaned;
}

static void e100_clean_cbs(struct nic *nic)
{
	if(nic->cbs) {
		while(nic->cbs_avail != nic->params.cbs.count) {
			struct cb *cb = nic->cb_to_clean;
			if(cb->skb) {
				pci_unmap_single(nic->pdev,
					le32_to_cpu(cb->u.tcb.tbd.buf_addr),
					le16_to_cpu(cb->u.tcb.tbd.size),
					PCI_DMA_TODEVICE);
				dev_kfree_skb(cb->skb);
			}
			nic->cb_to_clean = nic->cb_to_clean->next;
			nic->cbs_avail++;
		}
		pci_free_consistent(nic->pdev,
			sizeof(struct cb) * nic->params.cbs.count,
			nic->cbs, nic->cbs_dma_addr);
		nic->cbs = NULL;
		nic->cbs_avail = 0;
	}
	nic->cuc_cmd = cuc_start;
	nic->cb_to_use = nic->cb_to_send = nic->cb_to_clean =
		nic->cbs;
}

static int e100_alloc_cbs(struct nic *nic)
{
	struct cb *cb;
	unsigned int i, count = nic->params.cbs.count;

	nic->cuc_cmd = cuc_start;
	nic->cb_to_use = nic->cb_to_send = nic->cb_to_clean = NULL;
	nic->cbs_avail = 0;

	nic->cbs = pci_alloc_consistent(nic->pdev,
		sizeof(struct cb) * count, &nic->cbs_dma_addr);
	if(!nic->cbs)
		return -ENOMEM;

	for(cb = nic->cbs, i = 0; i < count; cb++, i++) {
		cb->next = (i + 1 < count) ? cb + 1 : nic->cbs;
		cb->prev = (i == 0) ? nic->cbs + count - 1 : cb - 1;

		cb->dma_addr = nic->cbs_dma_addr + i * sizeof(struct cb);
		cb->link = cpu_to_le32(nic->cbs_dma_addr +
			((i+1) % count) * sizeof(struct cb));
		cb->skb = NULL;
	}

	nic->cb_to_use = nic->cb_to_send = nic->cb_to_clean = nic->cbs;
	nic->cbs_avail = count;

	return 0;
}

1758
static inline void e100_start_receiver(struct nic *nic, struct rx *rx)
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{
1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770
	if(!nic->rxs) return;
	if(RU_SUSPENDED != nic->ru_running) return;

	/* handle init time starts */
	if(!rx) rx = nic->rxs;

	/* (Re)start RU if suspended or idle and RFA is non-NULL */
	if(rx->skb) {
		e100_exec_cmd(nic, ruc_start, rx->dma_addr);
		nic->ru_running = RU_RUNNING;
	}
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}

#define RFD_BUF_LEN (sizeof(struct rfd) + VLAN_ETH_FRAME_LEN)
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static int e100_rx_alloc_skb(struct nic *nic, struct rx *rx)
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{
1776
	if(!(rx->skb = netdev_alloc_skb(nic->netdev, RFD_BUF_LEN + NET_IP_ALIGN)))
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		return -ENOMEM;

	/* Align, init, and map the RFD. */
	skb_reserve(rx->skb, NET_IP_ALIGN);
1781
	skb_copy_to_linear_data(rx->skb, &nic->blank_rfd, sizeof(struct rfd));
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	rx->dma_addr = pci_map_single(nic->pdev, rx->skb->data,
		RFD_BUF_LEN, PCI_DMA_BIDIRECTIONAL);

1785 1786
	if(pci_dma_mapping_error(rx->dma_addr)) {
		dev_kfree_skb_any(rx->skb);
1787
		rx->skb = NULL;
1788 1789 1790 1791
		rx->dma_addr = 0;
		return -ENOMEM;
	}

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	/* Link the RFD to end of RFA by linking previous RFD to
	 * this one, and clearing EL bit of previous.  */
	if(rx->prev->skb) {
		struct rfd *prev_rfd = (struct rfd *)rx->prev->skb->data;
		put_unaligned(cpu_to_le32(rx->dma_addr),
			(u32 *)&prev_rfd->link);
		wmb();
1799
		prev_rfd->command &= ~cpu_to_le16(cb_el);
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		pci_dma_sync_single_for_device(nic->pdev, rx->prev->dma_addr,
			sizeof(struct rfd), PCI_DMA_TODEVICE);
	}

	return 0;
}

1807
static int e100_rx_indicate(struct nic *nic, struct rx *rx,
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	unsigned int *work_done, unsigned int work_to_do)
{
	struct sk_buff *skb = rx->skb;
	struct rfd *rfd = (struct rfd *)skb->data;
	u16 rfd_status, actual_size;

	if(unlikely(work_done && *work_done >= work_to_do))
		return -EAGAIN;

	/* Need to sync before taking a peek at cb_complete bit */
	pci_dma_sync_single_for_cpu(nic->pdev, rx->dma_addr,
		sizeof(struct rfd), PCI_DMA_FROMDEVICE);
	rfd_status = le16_to_cpu(rfd->status);

	DPRINTK(RX_STATUS, DEBUG, "status=0x%04X\n", rfd_status);

	/* If data isn't ready, nothing to indicate */
	if(unlikely(!(rfd_status & cb_complete)))
1826
		return -ENODATA;
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	/* Get actual data size */
	actual_size = le16_to_cpu(rfd->actual_size) & 0x3FFF;
	if(unlikely(actual_size > RFD_BUF_LEN - sizeof(struct rfd)))
		actual_size = RFD_BUF_LEN - sizeof(struct rfd);

	/* Get data */
	pci_unmap_single(nic->pdev, rx->dma_addr,
		RFD_BUF_LEN, PCI_DMA_FROMDEVICE);

1837 1838 1839 1840
	/* this allows for a fast restart without re-enabling interrupts */
	if(le16_to_cpu(rfd->command) & cb_el)
		nic->ru_running = RU_SUSPENDED;

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	/* Pull off the RFD and put the actual data (minus eth hdr) */
	skb_reserve(skb, sizeof(struct rfd));
	skb_put(skb, actual_size);
	skb->protocol = eth_type_trans(skb, nic->netdev);

	if(unlikely(!(rfd_status & cb_ok))) {
		/* Don't indicate if hardware indicates errors */
		dev_kfree_skb_any(skb);
1849
	} else if(actual_size > ETH_DATA_LEN + VLAN_ETH_HLEN) {
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		/* Don't indicate oversized frames */
		nic->rx_over_length_errors++;
		dev_kfree_skb_any(skb);
	} else {
		nic->net_stats.rx_packets++;
		nic->net_stats.rx_bytes += actual_size;
		nic->netdev->last_rx = jiffies;
		netif_receive_skb(skb);
		if(work_done)
			(*work_done)++;
	}

	rx->skb = NULL;

	return 0;
}

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static void e100_rx_clean(struct nic *nic, unsigned int *work_done,
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	unsigned int work_to_do)
{
	struct rx *rx;
1871 1872 1873 1874 1875 1876 1877 1878 1879
	int restart_required = 0;
	struct rx *rx_to_start = NULL;

	/* are we already rnr? then pay attention!!! this ensures that
	 * the state machine progression never allows a start with a
	 * partially cleaned list, avoiding a race between hardware
	 * and rx_to_clean when in NAPI mode */
	if(RU_SUSPENDED == nic->ru_running)
		restart_required = 1;
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	/* Indicate newly arrived packets */
	for(rx = nic->rx_to_clean; rx->skb; rx = nic->rx_to_clean = rx->next) {
1883 1884 1885 1886 1887 1888 1889
		int err = e100_rx_indicate(nic, rx, work_done, work_to_do);
		if(-EAGAIN == err) {
			/* hit quota so have more work to do, restart once
			 * cleanup is complete */
			restart_required = 0;
			break;
		} else if(-ENODATA == err)
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			break; /* No more to clean */
	}

1893 1894 1895 1896
	/* save our starting point as the place we'll restart the receiver */
	if(restart_required)
		rx_to_start = nic->rx_to_clean;

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	/* Alloc new skbs to refill list */
	for(rx = nic->rx_to_use; !rx->skb; rx = nic->rx_to_use = rx->next) {
		if(unlikely(e100_rx_alloc_skb(nic, rx)))
			break; /* Better luck next time (see watchdog) */
	}
1902 1903 1904 1905 1906 1907 1908 1909

	if(restart_required) {
		// ack the rnr?
		writeb(stat_ack_rnr, &nic->csr->scb.stat_ack);
		e100_start_receiver(nic, rx_to_start);
		if(work_done)
			(*work_done)++;
	}
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}

static void e100_rx_clean_list(struct nic *nic)
{
	struct rx *rx;
	unsigned int i, count = nic->params.rfds.count;

1917 1918
	nic->ru_running = RU_UNINITIALIZED;

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	if(nic->rxs) {
		for(rx = nic->rxs, i = 0; i < count; rx++, i++) {
			if(rx->skb) {
				pci_unmap_single(nic->pdev, rx->dma_addr,
					RFD_BUF_LEN, PCI_DMA_FROMDEVICE);
				dev_kfree_skb(rx->skb);
			}
		}
		kfree(nic->rxs);
		nic->rxs = NULL;
	}

	nic->rx_to_use = nic->rx_to_clean = NULL;
}

static int e100_rx_alloc_list(struct nic *nic)
{
	struct rx *rx;
	unsigned int i, count = nic->params.rfds.count;

	nic->rx_to_use = nic->rx_to_clean = NULL;
1940
	nic->ru_running = RU_UNINITIALIZED;
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	if(!(nic->rxs = kcalloc(count, sizeof(struct rx), GFP_ATOMIC)))
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		return -ENOMEM;

	for(rx = nic->rxs, i = 0; i < count; rx++, i++) {
		rx->next = (i + 1 < count) ? rx + 1 : nic->rxs;
		rx->prev = (i == 0) ? nic->rxs + count - 1 : rx - 1;
		if(e100_rx_alloc_skb(nic, rx)) {
			e100_rx_clean_list(nic);
			return -ENOMEM;
		}
	}

	nic->rx_to_use = nic->rx_to_clean = nic->rxs;
1955
	nic->ru_running = RU_SUSPENDED;
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	return 0;
}

1960
static irqreturn_t e100_intr(int irq, void *dev_id)
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{
	struct net_device *netdev = dev_id;
	struct nic *nic = netdev_priv(netdev);
1964
	u8 stat_ack = ioread8(&nic->csr->scb.stat_ack);
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	DPRINTK(INTR, DEBUG, "stat_ack = 0x%02X\n", stat_ack);

	if(stat_ack == stat_ack_not_ours ||	/* Not our interrupt */
	   stat_ack == stat_ack_not_present)	/* Hardware is ejected */
		return IRQ_NONE;

	/* Ack interrupt(s) */
1973
	iowrite8(stat_ack, &nic->csr->scb.stat_ack);
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1975 1976 1977 1978
	/* We hit Receive No Resource (RNR); restart RU after cleaning */
	if(stat_ack & stat_ack_rnr)
		nic->ru_running = RU_SUSPENDED;

1979 1980 1981 1982
	if(likely(netif_rx_schedule_prep(netdev))) {
		e100_disable_irq(nic);
		__netif_rx_schedule(netdev);
	}
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	return IRQ_HANDLED;
}

static int e100_poll(struct net_device *netdev, int *budget)
{
	struct nic *nic = netdev_priv(netdev);
	unsigned int work_to_do = min(netdev->quota, *budget);
	unsigned int work_done = 0;
	int tx_cleaned;

	e100_rx_clean(nic, &work_done, work_to_do);
	tx_cleaned = e100_tx_clean(nic);

	/* If no Rx and Tx cleanup work was done, exit polling mode. */
	if((!tx_cleaned && (work_done == 0)) || !netif_running(netdev)) {
		netif_rx_complete(netdev);
		e100_enable_irq(nic);
		return 0;
	}

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

	return 1;
}

#ifdef CONFIG_NET_POLL_CONTROLLER
static void e100_netpoll(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
2014

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	e100_disable_irq(nic);
2016
	e100_intr(nic->pdev->irq, netdev);
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	e100_tx_clean(nic);
	e100_enable_irq(nic);
}
#endif

static struct net_device_stats *e100_get_stats(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
	return &nic->net_stats;
}

static int e100_set_mac_address(struct net_device *netdev, void *p)
{
	struct nic *nic = netdev_priv(netdev);
	struct sockaddr *addr = p;

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

	memcpy(netdev->dev_addr, addr->sa_data, netdev->addr_len);
	e100_exec_cb(nic, NULL, e100_setup_iaaddr);

	return 0;
}

static int e100_change_mtu(struct net_device *netdev, int new_mtu)
{
	if(new_mtu < ETH_ZLEN || new_mtu > ETH_DATA_LEN)
		return -EINVAL;
	netdev->mtu = new_mtu;
	return 0;
}

static int e100_asf(struct nic *nic)
{
	/* ASF can be enabled from eeprom */
	return((nic->pdev->device >= 0x1050) && (nic->pdev->device <= 0x1057) &&
	   (nic->eeprom[eeprom_config_asf] & eeprom_asf) &&
	   !(nic->eeprom[eeprom_config_asf] & eeprom_gcl) &&
	   ((nic->eeprom[eeprom_smbus_addr] & 0xFF) != 0xFE));
}

static int e100_up(struct nic *nic)
{
	int err;

	if((err = e100_rx_alloc_list(nic)))
		return err;
	if((err = e100_alloc_cbs(nic)))
		goto err_rx_clean_list;
	if((err = e100_hw_init(nic)))
		goto err_clean_cbs;
	e100_set_multicast_list(nic->netdev);
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	e100_start_receiver(nic, NULL);
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	mod_timer(&nic->watchdog, jiffies);
2072
	if((err = request_irq(nic->pdev->irq, e100_intr, IRQF_SHARED,
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		nic->netdev->name, nic->netdev)))
		goto err_no_irq;
	netif_wake_queue(nic->netdev);
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	netif_poll_enable(nic->netdev);
	/* enable ints _after_ enabling poll, preventing a race between
	 * disable ints+schedule */
	e100_enable_irq(nic);
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	return 0;

err_no_irq:
	del_timer_sync(&nic->watchdog);
err_clean_cbs:
	e100_clean_cbs(nic);
err_rx_clean_list:
	e100_rx_clean_list(nic);
	return err;
}

static void e100_down(struct nic *nic)
{
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	/* wait here for poll to complete */
	netif_poll_disable(nic->netdev);
	netif_stop_queue(nic->netdev);
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	e100_hw_reset(nic);
	free_irq(nic->pdev->irq, nic->netdev);
	del_timer_sync(&nic->watchdog);
	netif_carrier_off(nic->netdev);
	e100_clean_cbs(nic);
	e100_rx_clean_list(nic);
}

static void e100_tx_timeout(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);

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	/* Reset outside of interrupt context, to avoid request_irq
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	 * in interrupt context */
	schedule_work(&nic->tx_timeout_task);
}

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static void e100_tx_timeout_task(struct work_struct *work)
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{
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	struct nic *nic = container_of(work, struct nic, tx_timeout_task);
	struct net_device *netdev = nic->netdev;
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	DPRINTK(TX_ERR, DEBUG, "scb.status=0x%02X\n",
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		ioread8(&nic->csr->scb.status));
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	e100_down(netdev_priv(netdev));
	e100_up(netdev_priv(netdev));
}

static int e100_loopback_test(struct nic *nic, enum loopback loopback_mode)
{
	int err;
	struct sk_buff *skb;

	/* Use driver resources to perform internal MAC or PHY
	 * loopback test.  A single packet is prepared and transmitted
	 * in loopback mode, and the test passes if the received
	 * packet compares byte-for-byte to the transmitted packet. */

	if((err = e100_rx_alloc_list(nic)))
		return err;
	if((err = e100_alloc_cbs(nic)))
		goto err_clean_rx;

	/* ICH PHY loopback is broken so do MAC loopback instead */
	if(nic->flags & ich && loopback_mode == lb_phy)
		loopback_mode = lb_mac;

	nic->loopback = loopback_mode;
	if((err = e100_hw_init(nic)))
		goto err_loopback_none;

	if(loopback_mode == lb_phy)
		mdio_write(nic->netdev, nic->mii.phy_id, MII_BMCR,
			BMCR_LOOPBACK);

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	e100_start_receiver(nic, NULL);
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	if(!(skb = netdev_alloc_skb(nic->netdev, ETH_DATA_LEN))) {
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		err = -ENOMEM;
		goto err_loopback_none;
	}
	skb_put(skb, ETH_DATA_LEN);
	memset(skb->data, 0xFF, ETH_DATA_LEN);
	e100_xmit_frame(skb, nic->netdev);

	msleep(10);

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	pci_dma_sync_single_for_cpu(nic->pdev, nic->rx_to_clean->dma_addr,
			RFD_BUF_LEN, PCI_DMA_FROMDEVICE);

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	if(memcmp(nic->rx_to_clean->skb->data + sizeof(struct rfd),
	   skb->data, ETH_DATA_LEN))
		err = -EAGAIN;

err_loopback_none:
	mdio_write(nic->netdev, nic->mii.phy_id, MII_BMCR, 0);
	nic->loopback = lb_none;
	e100_clean_cbs(nic);
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	e100_hw_reset(nic);
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err_clean_rx:
	e100_rx_clean_list(nic);
	return err;
}

#define MII_LED_CONTROL	0x1B
static void e100_blink_led(unsigned long data)
{
	struct nic *nic = (struct nic *)data;
	enum led_state {
		led_on     = 0x01,
		led_off    = 0x04,
		led_on_559 = 0x05,
		led_on_557 = 0x07,
	};

	nic->leds = (nic->leds & led_on) ? led_off :
		(nic->mac < mac_82559_D101M) ? led_on_557 : led_on_559;
	mdio_write(nic->netdev, nic->mii.phy_id, MII_LED_CONTROL, nic->leds);
	mod_timer(&nic->blink_timer, jiffies + HZ / 4);
}

static int e100_get_settings(struct net_device *netdev, struct ethtool_cmd *cmd)
{
	struct nic *nic = netdev_priv(netdev);
	return mii_ethtool_gset(&nic->mii, cmd);
}

static int e100_set_settings(struct net_device *netdev, struct ethtool_cmd *cmd)
{
	struct nic *nic = netdev_priv(netdev);
	int err;

	mdio_write(netdev, nic->mii.phy_id, MII_BMCR, BMCR_RESET);
	err = mii_ethtool_sset(&nic->mii, cmd);
	e100_exec_cb(nic, NULL, e100_configure);

	return err;
}

static void e100_get_drvinfo(struct net_device *netdev,
	struct ethtool_drvinfo *info)
{
	struct nic *nic = netdev_priv(netdev);
	strcpy(info->driver, DRV_NAME);
	strcpy(info->version, DRV_VERSION);
	strcpy(info->fw_version, "N/A");
	strcpy(info->bus_info, pci_name(nic->pdev));
}

static int e100_get_regs_len(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
#define E100_PHY_REGS		0x1C
#define E100_REGS_LEN		1 + E100_PHY_REGS + \
	sizeof(nic->mem->dump_buf) / sizeof(u32)
	return E100_REGS_LEN * sizeof(u32);
}

static void e100_get_regs(struct net_device *netdev,
	struct ethtool_regs *regs, void *p)
{
	struct nic *nic = netdev_priv(netdev);
	u32 *buff = p;
	int i;

	regs->version = (1 << 24) | nic->rev_id;
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	buff[0] = ioread8(&nic->csr->scb.cmd_hi) << 24 |
		ioread8(&nic->csr->scb.cmd_lo) << 16 |
		ioread16(&nic->csr->scb.status);
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	for(i = E100_PHY_REGS; i >= 0; i--)
		buff[1 + E100_PHY_REGS - i] =
			mdio_read(netdev, nic->mii.phy_id, i);
	memset(nic->mem->dump_buf, 0, sizeof(nic->mem->dump_buf));
	e100_exec_cb(nic, NULL, e100_dump);
	msleep(10);
	memcpy(&buff[2 + E100_PHY_REGS], nic->mem->dump_buf,
		sizeof(nic->mem->dump_buf));
}

static void e100_get_wol(struct net_device *netdev, struct ethtool_wolinfo *wol)
{
	struct nic *nic = netdev_priv(netdev);
	wol->supported = (nic->mac >= mac_82558_D101_A4) ?  WAKE_MAGIC : 0;
	wol->wolopts = (nic->flags & wol_magic) ? WAKE_MAGIC : 0;
}

static int e100_set_wol(struct net_device *netdev, struct ethtool_wolinfo *wol)
{
	struct nic *nic = netdev_priv(netdev);

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

	if(wol->wolopts)
		nic->flags |= wol_magic;
	else
		nic->flags &= ~wol_magic;

	e100_exec_cb(nic, NULL, e100_configure);

	return 0;
}

static u32 e100_get_msglevel(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
	return nic->msg_enable;
}

static void e100_set_msglevel(struct net_device *netdev, u32 value)
{
	struct nic *nic = netdev_priv(netdev);
	nic->msg_enable = value;
}

static int e100_nway_reset(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
	return mii_nway_restart(&nic->mii);
}

static u32 e100_get_link(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
	return mii_link_ok(&nic->mii);
}

static int e100_get_eeprom_len(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
	return nic->eeprom_wc << 1;
}

#define E100_EEPROM_MAGIC	0x1234
static int e100_get_eeprom(struct net_device *netdev,
	struct ethtool_eeprom *eeprom, u8 *bytes)
{
	struct nic *nic = netdev_priv(netdev);

	eeprom->magic = E100_EEPROM_MAGIC;
	memcpy(bytes, &((u8 *)nic->eeprom)[eeprom->offset], eeprom->len);

	return 0;
}

static int e100_set_eeprom(struct net_device *netdev,
	struct ethtool_eeprom *eeprom, u8 *bytes)
{
	struct nic *nic = netdev_priv(netdev);

	if(eeprom->magic != E100_EEPROM_MAGIC)
		return -EINVAL;

	memcpy(&((u8 *)nic->eeprom)[eeprom->offset], bytes, eeprom->len);

	return e100_eeprom_save(nic, eeprom->offset >> 1,
		(eeprom->len >> 1) + 1);
}

static void e100_get_ringparam(struct net_device *netdev,
	struct ethtool_ringparam *ring)
{
	struct nic *nic = netdev_priv(netdev);
	struct param_range *rfds = &nic->params.rfds;
	struct param_range *cbs = &nic->params.cbs;

	ring->rx_max_pending = rfds->max;
	ring->tx_max_pending = cbs->max;
	ring->rx_mini_max_pending = 0;
	ring->rx_jumbo_max_pending = 0;
	ring->rx_pending = rfds->count;
	ring->tx_pending = cbs->count;
	ring->rx_mini_pending = 0;
	ring->rx_jumbo_pending = 0;
}

static int e100_set_ringparam(struct net_device *netdev,
	struct ethtool_ringparam *ring)
{
	struct nic *nic = netdev_priv(netdev);
	struct param_range *rfds = &nic->params.rfds;
	struct param_range *cbs = &nic->params.cbs;

2359
	if ((ring->rx_mini_pending) || (ring->rx_jumbo_pending))
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		return -EINVAL;

	if(netif_running(netdev))
		e100_down(nic);
	rfds->count = max(ring->rx_pending, rfds->min);
	rfds->count = min(rfds->count, rfds->max);
	cbs->count = max(ring->tx_pending, cbs->min);
	cbs->count = min(cbs->count, cbs->max);
	DPRINTK(DRV, INFO, "Ring Param settings: rx: %d, tx %d\n",
	        rfds->count, cbs->count);
	if(netif_running(netdev))
		e100_up(nic);

	return 0;
}

static const char e100_gstrings_test[][ETH_GSTRING_LEN] = {
	"Link test     (on/offline)",
	"Eeprom test   (on/offline)",
	"Self test        (offline)",
	"Mac loopback     (offline)",
	"Phy loopback     (offline)",
};
#define E100_TEST_LEN	sizeof(e100_gstrings_test) / ETH_GSTRING_LEN

static int e100_diag_test_count(struct net_device *netdev)
{
	return E100_TEST_LEN;
}

static void e100_diag_test(struct net_device *netdev,
	struct ethtool_test *test, u64 *data)
{
	struct ethtool_cmd cmd;
	struct nic *nic = netdev_priv(netdev);
	int i, err;

	memset(data, 0, E100_TEST_LEN * sizeof(u64));
	data[0] = !mii_link_ok(&nic->mii);
	data[1] = e100_eeprom_load(nic);
	if(test->flags & ETH_TEST_FL_OFFLINE) {

		/* save speed, duplex & autoneg settings */
		err = mii_ethtool_gset(&nic->mii, &cmd);

		if(netif_running(netdev))
			e100_down(nic);
		data[2] = e100_self_test(nic);
		data[3] = e100_loopback_test(nic, lb_mac);
		data[4] = e100_loopback_test(nic, lb_phy);

		/* restore speed, duplex & autoneg settings */
		err = mii_ethtool_sset(&nic->mii, &cmd);

		if(netif_running(netdev))
			e100_up(nic);
	}
	for(i = 0; i < E100_TEST_LEN; i++)
		test->flags |= data[i] ? ETH_TEST_FL_FAILED : 0;
2419 2420

	msleep_interruptible(4 * 1000);
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}

static int e100_phys_id(struct net_device *netdev, u32 data)
{
	struct nic *nic = netdev_priv(netdev);

	if(!data || data > (u32)(MAX_SCHEDULE_TIMEOUT / HZ))
		data = (u32)(MAX_SCHEDULE_TIMEOUT / HZ);
	mod_timer(&nic->blink_timer, jiffies);
	msleep_interruptible(data * 1000);
	del_timer_sync(&nic->blink_timer);
	mdio_write(netdev, nic->mii.phy_id, MII_LED_CONTROL, 0);

	return 0;
}

static const char e100_gstrings_stats[][ETH_GSTRING_LEN] = {
	"rx_packets", "tx_packets", "rx_bytes", "tx_bytes", "rx_errors",
	"tx_errors", "rx_dropped", "tx_dropped", "multicast", "collisions",
	"rx_length_errors", "rx_over_errors", "rx_crc_errors",
	"rx_frame_errors", "rx_fifo_errors", "rx_missed_errors",
	"tx_aborted_errors", "tx_carrier_errors", "tx_fifo_errors",
	"tx_heartbeat_errors", "tx_window_errors",
	/* device-specific stats */
	"tx_deferred", "tx_single_collisions", "tx_multi_collisions",
	"tx_flow_control_pause", "rx_flow_control_pause",
	"rx_flow_control_unsupported", "tx_tco_packets", "rx_tco_packets",
};
#define E100_NET_STATS_LEN	21
#define E100_STATS_LEN	sizeof(e100_gstrings_stats) / ETH_GSTRING_LEN

static int e100_get_stats_count(struct net_device *netdev)
{
	return E100_STATS_LEN;
}

static void e100_get_ethtool_stats(struct net_device *netdev,
	struct ethtool_stats *stats, u64 *data)
{
	struct nic *nic = netdev_priv(netdev);
	int i;

	for(i = 0; i < E100_NET_STATS_LEN; i++)
		data[i] = ((unsigned long *)&nic->net_stats)[i];

	data[i++] = nic->tx_deferred;
	data[i++] = nic->tx_single_collisions;
	data[i++] = nic->tx_multiple_collisions;
	data[i++] = nic->tx_fc_pause;
	data[i++] = nic->rx_fc_pause;
	data[i++] = nic->rx_fc_unsupported;
	data[i++] = nic->tx_tco_frames;
	data[i++] = nic->rx_tco_frames;
}

static void e100_get_strings(struct net_device *netdev, u32 stringset, u8 *data)
{
	switch(stringset) {
	case ETH_SS_TEST:
		memcpy(data, *e100_gstrings_test, sizeof(e100_gstrings_test));
		break;
	case ETH_SS_STATS:
		memcpy(data, *e100_gstrings_stats, sizeof(e100_gstrings_stats));
		break;
	}
}

2488
static const struct ethtool_ops e100_ethtool_ops = {
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	.get_settings		= e100_get_settings,
	.set_settings		= e100_set_settings,
	.get_drvinfo		= e100_get_drvinfo,
	.get_regs_len		= e100_get_regs_len,
	.get_regs		= e100_get_regs,
	.get_wol		= e100_get_wol,
	.set_wol		= e100_set_wol,
	.get_msglevel		= e100_get_msglevel,
	.set_msglevel		= e100_set_msglevel,
	.nway_reset		= e100_nway_reset,
	.get_link		= e100_get_link,
	.get_eeprom_len		= e100_get_eeprom_len,
	.get_eeprom		= e100_get_eeprom,
	.set_eeprom		= e100_set_eeprom,
	.get_ringparam		= e100_get_ringparam,
	.set_ringparam		= e100_set_ringparam,
	.self_test_count	= e100_diag_test_count,
	.self_test		= e100_diag_test,
	.get_strings		= e100_get_strings,
	.phys_id		= e100_phys_id,
	.get_stats_count	= e100_get_stats_count,
	.get_ethtool_stats	= e100_get_ethtool_stats,
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	.get_perm_addr		= ethtool_op_get_perm_addr,
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};

static int e100_do_ioctl(struct net_device *netdev, struct ifreq *ifr, int cmd)
{
	struct nic *nic = netdev_priv(netdev);

	return generic_mii_ioctl(&nic->mii, if_mii(ifr), cmd, NULL);
}

static int e100_alloc(struct nic *nic)
{
	nic->mem = pci_alloc_consistent(nic->pdev, sizeof(struct mem),
		&nic->dma_addr);
	return nic->mem ? 0 : -ENOMEM;
}

static void e100_free(struct nic *nic)
{
	if(nic->mem) {
		pci_free_consistent(nic->pdev, sizeof(struct mem),
			nic->mem, nic->dma_addr);
		nic->mem = NULL;
	}
}

static int e100_open(struct net_device *netdev)
{
	struct nic *nic = netdev_priv(netdev);
	int err = 0;

	netif_carrier_off(netdev);
	if((err = e100_up(nic)))
		DPRINTK(IFUP, ERR, "Cannot open interface, aborting.\n");
	return err;
}

static int e100_close(struct net_device *netdev)
{
	e100_down(netdev_priv(netdev));
	return 0;
}

static int __devinit e100_probe(struct pci_dev *pdev,
	const struct pci_device_id *ent)
{
	struct net_device *netdev;
	struct nic *nic;
	int err;

	if(!(netdev = alloc_etherdev(sizeof(struct nic)))) {
		if(((1 << debug) - 1) & NETIF_MSG_PROBE)
			printk(KERN_ERR PFX "Etherdev alloc failed, abort.\n");
		return -ENOMEM;
	}

	netdev->open = e100_open;
	netdev->stop = e100_close;
	netdev->hard_start_xmit = e100_xmit_frame;
	netdev->get_stats = e100_get_stats;
	netdev->set_multicast_list = e100_set_multicast_list;
	netdev->set_mac_address = e100_set_mac_address;
	netdev->change_mtu = e100_change_mtu;
	netdev->do_ioctl = e100_do_ioctl;
	SET_ETHTOOL_OPS(netdev, &e100_ethtool_ops);
	netdev->tx_timeout = e100_tx_timeout;
	netdev->watchdog_timeo = E100_WATCHDOG_PERIOD;
	netdev->poll = e100_poll;
	netdev->weight = E100_NAPI_WEIGHT;
#ifdef CONFIG_NET_POLL_CONTROLLER
	netdev->poll_controller = e100_netpoll;
#endif
2583
	strncpy(netdev->name, pci_name(pdev), sizeof(netdev->name) - 1);
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	nic = netdev_priv(netdev);
	nic->netdev = netdev;
	nic->pdev = pdev;
	nic->msg_enable = (1 << debug) - 1;
	pci_set_drvdata(pdev, netdev);

	if((err = pci_enable_device(pdev))) {
		DPRINTK(PROBE, ERR, "Cannot enable PCI device, aborting.\n");
		goto err_out_free_dev;
	}

	if(!(pci_resource_flags(pdev, 0) & IORESOURCE_MEM)) {
		DPRINTK(PROBE, ERR, "Cannot find proper PCI device "
			"base address, aborting.\n");
		err = -ENODEV;
		goto err_out_disable_pdev;
	}

	if((err = pci_request_regions(pdev, DRV_NAME))) {
		DPRINTK(PROBE, ERR, "Cannot obtain PCI resources, aborting.\n");
		goto err_out_disable_pdev;
	}

2608
	if((err = pci_set_dma_mask(pdev, DMA_32BIT_MASK))) {
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		DPRINTK(PROBE, ERR, "No usable DMA configuration, aborting.\n");
		goto err_out_free_res;
	}

	SET_MODULE_OWNER(netdev);
	SET_NETDEV_DEV(netdev, &pdev->dev);

2616 2617 2618 2619
	if (use_io)
		DPRINTK(PROBE, INFO, "using i/o access mode\n");

	nic->csr = pci_iomap(pdev, (use_io ? 1 : 0), sizeof(struct csr));
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	if(!nic->csr) {
		DPRINTK(PROBE, ERR, "Cannot map device registers, aborting.\n");
		err = -ENOMEM;
		goto err_out_free_res;
	}

	if(ent->driver_data)
		nic->flags |= ich;
	else
		nic->flags &= ~ich;

	e100_get_defaults(nic);

2633
	/* locks must be initialized before calling hw_reset */
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	spin_lock_init(&nic->cb_lock);
	spin_lock_init(&nic->cmd_lock);
2636
	spin_lock_init(&nic->mdio_lock);
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	/* Reset the device before pci_set_master() in case device is in some
	 * funky state and has an interrupt pending - hint: we don't have the
	 * interrupt handler registered yet. */
	e100_hw_reset(nic);

	pci_set_master(pdev);

	init_timer(&nic->watchdog);
	nic->watchdog.function = e100_watchdog;
	nic->watchdog.data = (unsigned long)nic;
	init_timer(&nic->blink_timer);
	nic->blink_timer.function = e100_blink_led;
	nic->blink_timer.data = (unsigned long)nic;

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	INIT_WORK(&nic->tx_timeout_task, e100_tx_timeout_task);
2653

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	if((err = e100_alloc(nic))) {
		DPRINTK(PROBE, ERR, "Cannot alloc driver memory, aborting.\n");
		goto err_out_iounmap;
	}

	if((err = e100_eeprom_load(nic)))
		goto err_out_free;

2662 2663
	e100_phy_init(nic);

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	memcpy(netdev->dev_addr, nic->eeprom, ETH_ALEN);
2665
	memcpy(netdev->perm_addr, nic->eeprom, ETH_ALEN);
2666 2667 2668 2669 2670 2671 2672 2673 2674 2675
	if (!is_valid_ether_addr(netdev->perm_addr)) {
		if (!eeprom_bad_csum_allow) {
			DPRINTK(PROBE, ERR, "Invalid MAC address from "
			        "EEPROM, aborting.\n");
			err = -EAGAIN;
			goto err_out_free;
		} else {
			DPRINTK(PROBE, ERR, "Invalid MAC address from EEPROM, "
			        "you MUST configure one.\n");
		}
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	}

	/* Wol magic packet can be enabled from eeprom */
	if((nic->mac >= mac_82558_D101_A4) &&
	   (nic->eeprom[eeprom_id] & eeprom_id_wol))
		nic->flags |= wol_magic;

2683
	/* ack any pending wake events, disable PME */
2684 2685 2686
	err = pci_enable_wake(pdev, 0, 0);
	if (err)
		DPRINTK(PROBE, ERR, "Error clearing wake event\n");
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	strcpy(netdev->name, "eth%d");
	if((err = register_netdev(netdev))) {
		DPRINTK(PROBE, ERR, "Cannot register net device, aborting.\n");
		goto err_out_free;
	}

2694
	DPRINTK(PROBE, INFO, "addr 0x%llx, irq %d, "
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		"MAC addr %02X:%02X:%02X:%02X:%02X:%02X\n",
2696
		(unsigned long long)pci_resource_start(pdev, use_io ? 1 : 0), pdev->irq,
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		netdev->dev_addr[0], netdev->dev_addr[1], netdev->dev_addr[2],
		netdev->dev_addr[3], netdev->dev_addr[4], netdev->dev_addr[5]);

	return 0;

err_out_free:
	e100_free(nic);
err_out_iounmap:
2705
	pci_iounmap(pdev, nic->csr);
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err_out_free_res:
	pci_release_regions(pdev);
err_out_disable_pdev:
	pci_disable_device(pdev);
err_out_free_dev:
	pci_set_drvdata(pdev, NULL);
	free_netdev(netdev);
	return err;
}

static void __devexit e100_remove(struct pci_dev *pdev)
{
	struct net_device *netdev = pci_get_drvdata(pdev);

	if(netdev) {
		struct nic *nic = netdev_priv(netdev);
		unregister_netdev(netdev);
		e100_free(nic);
		iounmap(nic->csr);
		free_netdev(netdev);
		pci_release_regions(pdev);
		pci_disable_device(pdev);
		pci_set_drvdata(pdev, NULL);
	}
}

2732
#ifdef CONFIG_PM
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static int e100_suspend(struct pci_dev *pdev, pm_message_t state)
{
	struct net_device *netdev = pci_get_drvdata(pdev);
	struct nic *nic = netdev_priv(netdev);

2738 2739
	if (netif_running(netdev))
		netif_poll_disable(nic->netdev);
2740 2741
	del_timer_sync(&nic->watchdog);
	netif_carrier_off(nic->netdev);
A
Auke Kok 已提交
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	netif_device_detach(netdev);
2743

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	pci_save_state(pdev);
2745 2746 2747 2748 2749 2750 2751 2752

	if ((nic->flags & wol_magic) | e100_asf(nic)) {
		pci_enable_wake(pdev, PCI_D3hot, 1);
		pci_enable_wake(pdev, PCI_D3cold, 1);
	} else {
		pci_enable_wake(pdev, PCI_D3hot, 0);
		pci_enable_wake(pdev, PCI_D3cold, 0);
	}
2753

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	pci_disable_device(pdev);
A
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	free_irq(pdev->irq, netdev);
2756
	pci_set_power_state(pdev, PCI_D3hot);
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	return 0;
}

static int e100_resume(struct pci_dev *pdev)
{
	struct net_device *netdev = pci_get_drvdata(pdev);
	struct nic *nic = netdev_priv(netdev);

2766
	pci_set_power_state(pdev, PCI_D0);
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	pci_restore_state(pdev);
2768
	/* ack any pending wake events, disable PME */
2769
	pci_enable_wake(pdev, 0, 0);
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	netif_device_attach(netdev);
2772
	if (netif_running(netdev))
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		e100_up(nic);

	return 0;
}
2777
#endif /* CONFIG_PM */
L
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2779
static void e100_shutdown(struct pci_dev *pdev)
2780
{
2781 2782 2783
	struct net_device *netdev = pci_get_drvdata(pdev);
	struct nic *nic = netdev_priv(netdev);

2784 2785
	if (netif_running(netdev))
		netif_poll_disable(nic->netdev);
2786 2787 2788 2789 2790 2791 2792 2793 2794 2795 2796 2797 2798
	del_timer_sync(&nic->watchdog);
	netif_carrier_off(nic->netdev);

	if ((nic->flags & wol_magic) | e100_asf(nic)) {
		pci_enable_wake(pdev, PCI_D3hot, 1);
		pci_enable_wake(pdev, PCI_D3cold, 1);
	} else {
		pci_enable_wake(pdev, PCI_D3hot, 0);
		pci_enable_wake(pdev, PCI_D3cold, 0);
	}

	pci_disable_device(pdev);
	pci_set_power_state(pdev, PCI_D3hot);
2799 2800
}

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/* ------------------ PCI Error Recovery infrastructure  -------------- */
/**
 * e100_io_error_detected - called when PCI error is detected.
 * @pdev: Pointer to PCI device
 * @state: The current pci conneection state
 */
static pci_ers_result_t e100_io_error_detected(struct pci_dev *pdev, pci_channel_state_t state)
{
	struct net_device *netdev = pci_get_drvdata(pdev);

	/* Similar to calling e100_down(), but avoids adpater I/O. */
	netdev->stop(netdev);

	/* Detach; put netif into state similar to hotplug unplug. */
	netif_poll_enable(netdev);
	netif_device_detach(netdev);
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Linas Vepstas 已提交
2817
	pci_disable_device(pdev);
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2818 2819 2820 2821 2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852 2853 2854 2855 2856 2857 2858 2859 2860 2861 2862 2863 2864 2865 2866 2867 2868 2869 2870 2871 2872 2873 2874 2875

	/* Request a slot reset. */
	return PCI_ERS_RESULT_NEED_RESET;
}

/**
 * e100_io_slot_reset - called after the pci bus has been reset.
 * @pdev: Pointer to PCI device
 *
 * Restart the card from scratch.
 */
static pci_ers_result_t e100_io_slot_reset(struct pci_dev *pdev)
{
	struct net_device *netdev = pci_get_drvdata(pdev);
	struct nic *nic = netdev_priv(netdev);

	if (pci_enable_device(pdev)) {
		printk(KERN_ERR "e100: Cannot re-enable PCI device after reset.\n");
		return PCI_ERS_RESULT_DISCONNECT;
	}
	pci_set_master(pdev);

	/* Only one device per card can do a reset */
	if (0 != PCI_FUNC(pdev->devfn))
		return PCI_ERS_RESULT_RECOVERED;
	e100_hw_reset(nic);
	e100_phy_init(nic);

	return PCI_ERS_RESULT_RECOVERED;
}

/**
 * e100_io_resume - resume normal operations
 * @pdev: Pointer to PCI device
 *
 * Resume normal operations after an error recovery
 * sequence has been completed.
 */
static void e100_io_resume(struct pci_dev *pdev)
{
	struct net_device *netdev = pci_get_drvdata(pdev);
	struct nic *nic = netdev_priv(netdev);

	/* ack any pending wake events, disable PME */
	pci_enable_wake(pdev, 0, 0);

	netif_device_attach(netdev);
	if (netif_running(netdev)) {
		e100_open(netdev);
		mod_timer(&nic->watchdog, jiffies);
	}
}

static struct pci_error_handlers e100_err_handler = {
	.error_detected = e100_io_error_detected,
	.slot_reset = e100_io_slot_reset,
	.resume = e100_io_resume,
};
2876

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static struct pci_driver e100_driver = {
	.name =         DRV_NAME,
	.id_table =     e100_id_table,
	.probe =        e100_probe,
	.remove =       __devexit_p(e100_remove),
2882
#ifdef CONFIG_PM
2883
	/* Power Management hooks */
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	.suspend =      e100_suspend,
	.resume =       e100_resume,
#endif
2887
	.shutdown =     e100_shutdown,
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Auke Kok 已提交
2888
	.err_handler = &e100_err_handler,
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2889 2890 2891 2892 2893 2894 2895 2896
};

static int __init e100_init_module(void)
{
	if(((1 << debug) - 1) & NETIF_MSG_DRV) {
		printk(KERN_INFO PFX "%s, %s\n", DRV_DESCRIPTION, DRV_VERSION);
		printk(KERN_INFO PFX "%s\n", DRV_COPYRIGHT);
	}
2897
	return pci_register_driver(&e100_driver);
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}

static void __exit e100_cleanup_module(void)
{
	pci_unregister_driver(&e100_driver);
}

module_init(e100_init_module);
module_exit(e100_cleanup_module);