s2io.c 189.0 KB
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/************************************************************************
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 * s2io.c: A Linux PCI-X Ethernet driver for Neterion 10GbE Server NIC
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 * Copyright(c) 2002-2005 Neterion Inc.

 * This software may be used and distributed according to the terms of
 * the GNU General Public License (GPL), incorporated herein by reference.
 * Drivers based on or derived from this code fall under the GPL and must
 * retain the authorship, copyright and license notice.  This file is not
 * a complete program and may only be used when the entire operating
 * system is licensed under the GPL.
 * See the file COPYING in this distribution for more information.
 *
 * Credits:
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 * Jeff Garzik		: For pointing out the improper error condition
 *			  check in the s2io_xmit routine and also some
 *			  issues in the Tx watch dog function. Also for
 *			  patiently answering all those innumerable
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 *			  questions regaring the 2.6 porting issues.
 * Stephen Hemminger	: Providing proper 2.6 porting mechanism for some
 *			  macros available only in 2.6 Kernel.
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 * Francois Romieu	: For pointing out all code part that were
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 *			  deprecated and also styling related comments.
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 * Grant Grundler	: For helping me get rid of some Architecture
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 *			  dependent code.
 * Christopher Hellwig	: Some more 2.6 specific issues in the driver.
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 *
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 * The module loadable parameters that are supported by the driver and a brief
 * explaination of all the variables.
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 * rx_ring_num : This can be used to program the number of receive rings used
 * in the driver.
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 * rx_ring_sz: This defines the number of descriptors each ring can have. This
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 * is also an array of size 8.
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 * rx_ring_mode: This defines the operation mode of all 8 rings. The valid
 *		values are 1, 2 and 3.
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 * tx_fifo_num: This defines the number of Tx FIFOs thats used int the driver.
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 * tx_fifo_len: This too is an array of 8. Each element defines the number of
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 * Tx descriptors that can be associated with each corresponding FIFO.
 ************************************************************************/

#include <linux/config.h>
#include <linux/module.h>
#include <linux/types.h>
#include <linux/errno.h>
#include <linux/ioport.h>
#include <linux/pci.h>
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#include <linux/dma-mapping.h>
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#include <linux/kernel.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <linux/stddef.h>
#include <linux/ioctl.h>
#include <linux/timex.h>
#include <linux/sched.h>
#include <linux/ethtool.h>
#include <linux/workqueue.h>
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#include <linux/if_vlan.h>
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#include <linux/ip.h>
#include <linux/tcp.h>
#include <net/tcp.h>
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#include <asm/system.h>
#include <asm/uaccess.h>
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#include <asm/io.h>
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#include <asm/div64.h>
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/* local include */
#include "s2io.h"
#include "s2io-regs.h"

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#define DRV_VERSION "2.0.11.2"
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/* S2io Driver name & version. */
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static char s2io_driver_name[] = "Neterion";
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static char s2io_driver_version[] = DRV_VERSION;
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static int rxd_size[4] = {32,48,48,64};
static int rxd_count[4] = {127,85,85,63};
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static inline int RXD_IS_UP2DT(RxD_t *rxdp)
{
	int ret;

	ret = ((!(rxdp->Control_1 & RXD_OWN_XENA)) &&
		(GET_RXD_MARKER(rxdp->Control_2) != THE_RXD_MARK));

	return ret;
}

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/*
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 * Cards with following subsystem_id have a link state indication
 * problem, 600B, 600C, 600D, 640B, 640C and 640D.
 * macro below identifies these cards given the subsystem_id.
 */
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#define CARDS_WITH_FAULTY_LINK_INDICATORS(dev_type, subid) \
	(dev_type == XFRAME_I_DEVICE) ?			\
		((((subid >= 0x600B) && (subid <= 0x600D)) || \
		 ((subid >= 0x640B) && (subid <= 0x640D))) ? 1 : 0) : 0
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#define LINK_IS_UP(val64) (!(val64 & (ADAPTER_STATUS_RMAC_REMOTE_FAULT | \
				      ADAPTER_STATUS_RMAC_LOCAL_FAULT)))
#define TASKLET_IN_USE test_and_set_bit(0, (&sp->tasklet_status))
#define PANIC	1
#define LOW	2
static inline int rx_buffer_level(nic_t * sp, int rxb_size, int ring)
{
	int level = 0;
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	mac_info_t *mac_control;

	mac_control = &sp->mac_control;
	if ((mac_control->rings[ring].pkt_cnt - rxb_size) > 16) {
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		level = LOW;
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		if (rxb_size <= rxd_count[sp->rxd_mode]) {
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			level = PANIC;
		}
	}

	return level;
}

/* Ethtool related variables and Macros. */
static char s2io_gstrings[][ETH_GSTRING_LEN] = {
	"Register test\t(offline)",
	"Eeprom test\t(offline)",
	"Link test\t(online)",
	"RLDRAM test\t(offline)",
	"BIST Test\t(offline)"
};

static char ethtool_stats_keys[][ETH_GSTRING_LEN] = {
	{"tmac_frms"},
	{"tmac_data_octets"},
	{"tmac_drop_frms"},
	{"tmac_mcst_frms"},
	{"tmac_bcst_frms"},
	{"tmac_pause_ctrl_frms"},
	{"tmac_any_err_frms"},
	{"tmac_vld_ip_octets"},
	{"tmac_vld_ip"},
	{"tmac_drop_ip"},
	{"tmac_icmp"},
	{"tmac_rst_tcp"},
	{"tmac_tcp"},
	{"tmac_udp"},
	{"rmac_vld_frms"},
	{"rmac_data_octets"},
	{"rmac_fcs_err_frms"},
	{"rmac_drop_frms"},
	{"rmac_vld_mcst_frms"},
	{"rmac_vld_bcst_frms"},
	{"rmac_in_rng_len_err_frms"},
	{"rmac_long_frms"},
	{"rmac_pause_ctrl_frms"},
	{"rmac_discarded_frms"},
	{"rmac_usized_frms"},
	{"rmac_osized_frms"},
	{"rmac_frag_frms"},
	{"rmac_jabber_frms"},
	{"rmac_ip"},
	{"rmac_ip_octets"},
	{"rmac_hdr_err_ip"},
	{"rmac_drop_ip"},
	{"rmac_icmp"},
	{"rmac_tcp"},
	{"rmac_udp"},
	{"rmac_err_drp_udp"},
	{"rmac_pause_cnt"},
	{"rmac_accepted_ip"},
	{"rmac_err_tcp"},
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	{"\n DRIVER STATISTICS"},
	{"single_bit_ecc_errs"},
	{"double_bit_ecc_errs"},
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	("lro_aggregated_pkts"),
	("lro_flush_both_count"),
	("lro_out_of_sequence_pkts"),
	("lro_flush_due_to_max_pkts"),
	("lro_avg_aggr_pkts"),
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};

#define S2IO_STAT_LEN sizeof(ethtool_stats_keys)/ ETH_GSTRING_LEN
#define S2IO_STAT_STRINGS_LEN S2IO_STAT_LEN * ETH_GSTRING_LEN

#define S2IO_TEST_LEN	sizeof(s2io_gstrings) / ETH_GSTRING_LEN
#define S2IO_STRINGS_LEN	S2IO_TEST_LEN * ETH_GSTRING_LEN

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#define S2IO_TIMER_CONF(timer, handle, arg, exp)		\
			init_timer(&timer);			\
			timer.function = handle;		\
			timer.data = (unsigned long) arg;	\
			mod_timer(&timer, (jiffies + exp))	\

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/* Add the vlan */
static void s2io_vlan_rx_register(struct net_device *dev,
					struct vlan_group *grp)
{
	nic_t *nic = dev->priv;
	unsigned long flags;

	spin_lock_irqsave(&nic->tx_lock, flags);
	nic->vlgrp = grp;
	spin_unlock_irqrestore(&nic->tx_lock, flags);
}

/* Unregister the vlan */
static void s2io_vlan_rx_kill_vid(struct net_device *dev, unsigned long vid)
{
	nic_t *nic = dev->priv;
	unsigned long flags;

	spin_lock_irqsave(&nic->tx_lock, flags);
	if (nic->vlgrp)
		nic->vlgrp->vlan_devices[vid] = NULL;
	spin_unlock_irqrestore(&nic->tx_lock, flags);
}

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/*
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 * Constants to be programmed into the Xena's registers, to configure
 * the XAUI.
 */

#define SWITCH_SIGN	0xA5A5A5A5A5A5A5A5ULL
#define	END_SIGN	0x0

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static const u64 herc_act_dtx_cfg[] = {
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	/* Set address */
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	0x8000051536750000ULL, 0x80000515367500E0ULL,
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	/* Write data */
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	0x8000051536750004ULL, 0x80000515367500E4ULL,
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	/* Set address */
	0x80010515003F0000ULL, 0x80010515003F00E0ULL,
	/* Write data */
	0x80010515003F0004ULL, 0x80010515003F00E4ULL,
	/* Set address */
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	0x801205150D440000ULL, 0x801205150D4400E0ULL,
	/* Write data */
	0x801205150D440004ULL, 0x801205150D4400E4ULL,
	/* Set address */
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	0x80020515F2100000ULL, 0x80020515F21000E0ULL,
	/* Write data */
	0x80020515F2100004ULL, 0x80020515F21000E4ULL,
	/* Done */
	END_SIGN
};

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static const u64 xena_mdio_cfg[] = {
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	/* Reset PMA PLL */
	0xC001010000000000ULL, 0xC0010100000000E0ULL,
	0xC0010100008000E4ULL,
	/* Remove Reset from PMA PLL */
	0xC001010000000000ULL, 0xC0010100000000E0ULL,
	0xC0010100000000E4ULL,
	END_SIGN
};

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static const u64 xena_dtx_cfg[] = {
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	0x8000051500000000ULL, 0x80000515000000E0ULL,
	0x80000515D93500E4ULL, 0x8001051500000000ULL,
	0x80010515000000E0ULL, 0x80010515001E00E4ULL,
	0x8002051500000000ULL, 0x80020515000000E0ULL,
	0x80020515F21000E4ULL,
	/* Set PADLOOPBACKN */
	0x8002051500000000ULL, 0x80020515000000E0ULL,
	0x80020515B20000E4ULL, 0x8003051500000000ULL,
	0x80030515000000E0ULL, 0x80030515B20000E4ULL,
	0x8004051500000000ULL, 0x80040515000000E0ULL,
	0x80040515B20000E4ULL, 0x8005051500000000ULL,
	0x80050515000000E0ULL, 0x80050515B20000E4ULL,
	SWITCH_SIGN,
	/* Remove PADLOOPBACKN */
	0x8002051500000000ULL, 0x80020515000000E0ULL,
	0x80020515F20000E4ULL, 0x8003051500000000ULL,
	0x80030515000000E0ULL, 0x80030515F20000E4ULL,
	0x8004051500000000ULL, 0x80040515000000E0ULL,
	0x80040515F20000E4ULL, 0x8005051500000000ULL,
	0x80050515000000E0ULL, 0x80050515F20000E4ULL,
	END_SIGN
};

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/*
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 * Constants for Fixing the MacAddress problem seen mostly on
 * Alpha machines.
 */
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static const u64 fix_mac[] = {
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	0x0060000000000000ULL, 0x0060600000000000ULL,
	0x0040600000000000ULL, 0x0000600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0060600000000000ULL,
	0x0020600000000000ULL, 0x0000600000000000ULL,
	0x0040600000000000ULL, 0x0060600000000000ULL,
	END_SIGN
};

/* Module Loadable parameters. */
static unsigned int tx_fifo_num = 1;
static unsigned int tx_fifo_len[MAX_TX_FIFOS] =
    {[0 ...(MAX_TX_FIFOS - 1)] = 0 };
static unsigned int rx_ring_num = 1;
static unsigned int rx_ring_sz[MAX_RX_RINGS] =
    {[0 ...(MAX_RX_RINGS - 1)] = 0 };
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static unsigned int rts_frm_len[MAX_RX_RINGS] =
    {[0 ...(MAX_RX_RINGS - 1)] = 0 };
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static unsigned int rx_ring_mode = 1;
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static unsigned int use_continuous_tx_intrs = 1;
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static unsigned int rmac_pause_time = 65535;
static unsigned int mc_pause_threshold_q0q3 = 187;
static unsigned int mc_pause_threshold_q4q7 = 187;
static unsigned int shared_splits;
static unsigned int tmac_util_period = 5;
static unsigned int rmac_util_period = 5;
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static unsigned int bimodal = 0;
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static unsigned int l3l4hdr_size = 128;
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#ifndef CONFIG_S2IO_NAPI
static unsigned int indicate_max_pkts;
#endif
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/* Frequency of Rx desc syncs expressed as power of 2 */
static unsigned int rxsync_frequency = 3;
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/* Interrupt type. Values can be 0(INTA), 1(MSI), 2(MSI_X) */
static unsigned int intr_type = 0;
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/* Large receive offload feature */
static unsigned int lro = 0;
/* Max pkts to be aggregated by LRO at one time. If not specified,
 * aggregation happens until we hit max IP pkt size(64K)
 */
static unsigned int lro_max_pkts = 0xFFFF;
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/*
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 * S2IO device table.
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 * This table lists all the devices that this driver supports.
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 */
static struct pci_device_id s2io_tbl[] __devinitdata = {
	{PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_S2IO_WIN,
	 PCI_ANY_ID, PCI_ANY_ID},
	{PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_S2IO_UNI,
	 PCI_ANY_ID, PCI_ANY_ID},
	{PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_HERC_WIN,
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         PCI_ANY_ID, PCI_ANY_ID},
        {PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_HERC_UNI,
         PCI_ANY_ID, PCI_ANY_ID},
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	{0,}
};

MODULE_DEVICE_TABLE(pci, s2io_tbl);

static struct pci_driver s2io_driver = {
      .name = "S2IO",
      .id_table = s2io_tbl,
      .probe = s2io_init_nic,
      .remove = __devexit_p(s2io_rem_nic),
};

/* A simplifier macro used both by init and free shared_mem Fns(). */
#define TXD_MEM_PAGE_CNT(len, per_each) ((len+per_each - 1) / per_each)

/**
 * init_shared_mem - Allocation and Initialization of Memory
 * @nic: Device private variable.
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 * Description: The function allocates all the memory areas shared
 * between the NIC and the driver. This includes Tx descriptors,
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 * Rx descriptors and the statistics block.
 */

static int init_shared_mem(struct s2io_nic *nic)
{
	u32 size;
	void *tmp_v_addr, *tmp_v_addr_next;
	dma_addr_t tmp_p_addr, tmp_p_addr_next;
	RxD_block_t *pre_rxd_blk = NULL;
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	int i, j, blk_cnt, rx_sz, tx_sz;
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	int lst_size, lst_per_page;
	struct net_device *dev = nic->dev;
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	unsigned long tmp;
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	buffAdd_t *ba;

	mac_info_t *mac_control;
	struct config_param *config;

	mac_control = &nic->mac_control;
	config = &nic->config;


	/* Allocation and initialization of TXDLs in FIOFs */
	size = 0;
	for (i = 0; i < config->tx_fifo_num; i++) {
		size += config->tx_cfg[i].fifo_len;
	}
	if (size > MAX_AVAILABLE_TXDS) {
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		DBG_PRINT(ERR_DBG, "%s: Requested TxDs too high, ",
			  __FUNCTION__);
		DBG_PRINT(ERR_DBG, "Requested: %d, max supported: 8192\n", size);
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		return FAILURE;
	}

	lst_size = (sizeof(TxD_t) * config->max_txds);
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	tx_sz = lst_size * size;
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	lst_per_page = PAGE_SIZE / lst_size;

	for (i = 0; i < config->tx_fifo_num; i++) {
		int fifo_len = config->tx_cfg[i].fifo_len;
		int list_holder_size = fifo_len * sizeof(list_info_hold_t);
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		mac_control->fifos[i].list_info = kmalloc(list_holder_size,
							  GFP_KERNEL);
		if (!mac_control->fifos[i].list_info) {
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			DBG_PRINT(ERR_DBG,
				  "Malloc failed for list_info\n");
			return -ENOMEM;
		}
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		memset(mac_control->fifos[i].list_info, 0, list_holder_size);
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	}
	for (i = 0; i < config->tx_fifo_num; i++) {
		int page_num = TXD_MEM_PAGE_CNT(config->tx_cfg[i].fifo_len,
						lst_per_page);
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		mac_control->fifos[i].tx_curr_put_info.offset = 0;
		mac_control->fifos[i].tx_curr_put_info.fifo_len =
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		    config->tx_cfg[i].fifo_len - 1;
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		mac_control->fifos[i].tx_curr_get_info.offset = 0;
		mac_control->fifos[i].tx_curr_get_info.fifo_len =
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		    config->tx_cfg[i].fifo_len - 1;
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		mac_control->fifos[i].fifo_no = i;
		mac_control->fifos[i].nic = nic;
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		mac_control->fifos[i].max_txds = MAX_SKB_FRAGS + 2;
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		for (j = 0; j < page_num; j++) {
			int k = 0;
			dma_addr_t tmp_p;
			void *tmp_v;
			tmp_v = pci_alloc_consistent(nic->pdev,
						     PAGE_SIZE, &tmp_p);
			if (!tmp_v) {
				DBG_PRINT(ERR_DBG,
					  "pci_alloc_consistent ");
				DBG_PRINT(ERR_DBG, "failed for TxDL\n");
				return -ENOMEM;
			}
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			/* If we got a zero DMA address(can happen on
			 * certain platforms like PPC), reallocate.
			 * Store virtual address of page we don't want,
			 * to be freed later.
			 */
			if (!tmp_p) {
				mac_control->zerodma_virt_addr = tmp_v;
				DBG_PRINT(INIT_DBG, 
				"%s: Zero DMA address for TxDL. ", dev->name);
				DBG_PRINT(INIT_DBG, 
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				"Virtual address %p\n", tmp_v);
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				tmp_v = pci_alloc_consistent(nic->pdev,
						     PAGE_SIZE, &tmp_p);
				if (!tmp_v) {
					DBG_PRINT(ERR_DBG,
					  "pci_alloc_consistent ");
					DBG_PRINT(ERR_DBG, "failed for TxDL\n");
					return -ENOMEM;
				}
			}
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			while (k < lst_per_page) {
				int l = (j * lst_per_page) + k;
				if (l == config->tx_cfg[i].fifo_len)
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					break;
				mac_control->fifos[i].list_info[l].list_virt_addr =
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				    tmp_v + (k * lst_size);
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				mac_control->fifos[i].list_info[l].list_phy_addr =
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				    tmp_p + (k * lst_size);
				k++;
			}
		}
	}

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	nic->ufo_in_band_v = kmalloc((sizeof(u64) * size), GFP_KERNEL);
	if (!nic->ufo_in_band_v)
		return -ENOMEM;

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	/* Allocation and initialization of RXDs in Rings */
	size = 0;
	for (i = 0; i < config->rx_ring_num; i++) {
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		if (config->rx_cfg[i].num_rxd %
		    (rxd_count[nic->rxd_mode] + 1)) {
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			DBG_PRINT(ERR_DBG, "%s: RxD count of ", dev->name);
			DBG_PRINT(ERR_DBG, "Ring%d is not a multiple of ",
				  i);
			DBG_PRINT(ERR_DBG, "RxDs per Block");
			return FAILURE;
		}
		size += config->rx_cfg[i].num_rxd;
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		mac_control->rings[i].block_count =
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			config->rx_cfg[i].num_rxd /
			(rxd_count[nic->rxd_mode] + 1 );
		mac_control->rings[i].pkt_cnt = config->rx_cfg[i].num_rxd -
			mac_control->rings[i].block_count;
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	}
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	if (nic->rxd_mode == RXD_MODE_1)
		size = (size * (sizeof(RxD1_t)));
	else
		size = (size * (sizeof(RxD3_t)));
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	rx_sz = size;
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	for (i = 0; i < config->rx_ring_num; i++) {
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		mac_control->rings[i].rx_curr_get_info.block_index = 0;
		mac_control->rings[i].rx_curr_get_info.offset = 0;
		mac_control->rings[i].rx_curr_get_info.ring_len =
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		    config->rx_cfg[i].num_rxd - 1;
510 511 512
		mac_control->rings[i].rx_curr_put_info.block_index = 0;
		mac_control->rings[i].rx_curr_put_info.offset = 0;
		mac_control->rings[i].rx_curr_put_info.ring_len =
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		    config->rx_cfg[i].num_rxd - 1;
514 515 516
		mac_control->rings[i].nic = nic;
		mac_control->rings[i].ring_no = i;

517 518
		blk_cnt = config->rx_cfg[i].num_rxd /
				(rxd_count[nic->rxd_mode] + 1);
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		/*  Allocating all the Rx blocks */
		for (j = 0; j < blk_cnt; j++) {
521 522 523 524 525
			rx_block_info_t *rx_blocks;
			int l;

			rx_blocks = &mac_control->rings[i].rx_blocks[j];
			size = SIZE_OF_BLOCK; //size is always page size
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			tmp_v_addr = pci_alloc_consistent(nic->pdev, size,
							  &tmp_p_addr);
			if (tmp_v_addr == NULL) {
				/*
530 531 532
				 * In case of failure, free_shared_mem()
				 * is called, which should free any
				 * memory that was alloced till the
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				 * failure happened.
				 */
535
				rx_blocks->block_virt_addr = tmp_v_addr;
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				return -ENOMEM;
			}
			memset(tmp_v_addr, 0, size);
539 540 541 542 543 544 545 546 547 548 549 550 551 552
			rx_blocks->block_virt_addr = tmp_v_addr;
			rx_blocks->block_dma_addr = tmp_p_addr;
			rx_blocks->rxds = kmalloc(sizeof(rxd_info_t)*
						  rxd_count[nic->rxd_mode],
						  GFP_KERNEL);
			for (l=0; l<rxd_count[nic->rxd_mode];l++) {
				rx_blocks->rxds[l].virt_addr =
					rx_blocks->block_virt_addr +
					(rxd_size[nic->rxd_mode] * l);
				rx_blocks->rxds[l].dma_addr =
					rx_blocks->block_dma_addr +
					(rxd_size[nic->rxd_mode] * l);
			}

553 554 555 556
			mac_control->rings[i].rx_blocks[j].block_virt_addr =
				tmp_v_addr;
			mac_control->rings[i].rx_blocks[j].block_dma_addr =
				tmp_p_addr;
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		}
		/* Interlinking all Rx Blocks */
		for (j = 0; j < blk_cnt; j++) {
560 561
			tmp_v_addr =
				mac_control->rings[i].rx_blocks[j].block_virt_addr;
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			tmp_v_addr_next =
563
				mac_control->rings[i].rx_blocks[(j + 1) %
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					      blk_cnt].block_virt_addr;
565 566
			tmp_p_addr =
				mac_control->rings[i].rx_blocks[j].block_dma_addr;
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			tmp_p_addr_next =
568
				mac_control->rings[i].rx_blocks[(j + 1) %
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					      blk_cnt].block_dma_addr;

			pre_rxd_blk = (RxD_block_t *) tmp_v_addr;
			pre_rxd_blk->reserved_2_pNext_RxD_block =
			    (unsigned long) tmp_v_addr_next;
			pre_rxd_blk->pNext_RxD_Blk_physical =
			    (u64) tmp_p_addr_next;
		}
	}
578 579 580 581 582 583 584 585 586 587
	if (nic->rxd_mode >= RXD_MODE_3A) {
		/*
		 * Allocation of Storages for buffer addresses in 2BUFF mode
		 * and the buffers as well.
		 */
		for (i = 0; i < config->rx_ring_num; i++) {
			blk_cnt = config->rx_cfg[i].num_rxd /
			   (rxd_count[nic->rxd_mode]+ 1);
			mac_control->rings[i].ba =
				kmalloc((sizeof(buffAdd_t *) * blk_cnt),
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				     GFP_KERNEL);
589
			if (!mac_control->rings[i].ba)
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				return -ENOMEM;
591 592 593 594 595 596 597
			for (j = 0; j < blk_cnt; j++) {
				int k = 0;
				mac_control->rings[i].ba[j] =
					kmalloc((sizeof(buffAdd_t) *
						(rxd_count[nic->rxd_mode] + 1)),
						GFP_KERNEL);
				if (!mac_control->rings[i].ba[j])
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					return -ENOMEM;
599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620
				while (k != rxd_count[nic->rxd_mode]) {
					ba = &mac_control->rings[i].ba[j][k];

					ba->ba_0_org = (void *) kmalloc
					    (BUF0_LEN + ALIGN_SIZE, GFP_KERNEL);
					if (!ba->ba_0_org)
						return -ENOMEM;
					tmp = (unsigned long)ba->ba_0_org;
					tmp += ALIGN_SIZE;
					tmp &= ~((unsigned long) ALIGN_SIZE);
					ba->ba_0 = (void *) tmp;

					ba->ba_1_org = (void *) kmalloc
					    (BUF1_LEN + ALIGN_SIZE, GFP_KERNEL);
					if (!ba->ba_1_org)
						return -ENOMEM;
					tmp = (unsigned long) ba->ba_1_org;
					tmp += ALIGN_SIZE;
					tmp &= ~((unsigned long) ALIGN_SIZE);
					ba->ba_1 = (void *) tmp;
					k++;
				}
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			}
		}
	}

	/* Allocation and initialization of Statistics block */
	size = sizeof(StatInfo_t);
	mac_control->stats_mem = pci_alloc_consistent
	    (nic->pdev, size, &mac_control->stats_mem_phy);

	if (!mac_control->stats_mem) {
631 632 633
		/*
		 * In case of failure, free_shared_mem() is called, which
		 * should free any memory that was alloced till the
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		 * failure happened.
		 */
		return -ENOMEM;
	}
	mac_control->stats_mem_sz = size;

	tmp_v_addr = mac_control->stats_mem;
	mac_control->stats_info = (StatInfo_t *) tmp_v_addr;
	memset(tmp_v_addr, 0, size);
	DBG_PRINT(INIT_DBG, "%s:Ring Mem PHY: 0x%llx\n", dev->name,
		  (unsigned long long) tmp_p_addr);

	return SUCCESS;
}

649 650
/**
 * free_shared_mem - Free the allocated Memory
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 * @nic:  Device private variable.
 * Description: This function is to free all memory locations allocated by
 * the init_shared_mem() function and return it to the kernel.
 */

static void free_shared_mem(struct s2io_nic *nic)
{
	int i, j, blk_cnt, size;
	void *tmp_v_addr;
	dma_addr_t tmp_p_addr;
	mac_info_t *mac_control;
	struct config_param *config;
	int lst_size, lst_per_page;
664
	struct net_device *dev = nic->dev;
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	if (!nic)
		return;

	mac_control = &nic->mac_control;
	config = &nic->config;

	lst_size = (sizeof(TxD_t) * config->max_txds);
	lst_per_page = PAGE_SIZE / lst_size;

	for (i = 0; i < config->tx_fifo_num; i++) {
		int page_num = TXD_MEM_PAGE_CNT(config->tx_cfg[i].fifo_len,
						lst_per_page);
		for (j = 0; j < page_num; j++) {
			int mem_blks = (j * lst_per_page);
680 681 682 683
			if (!mac_control->fifos[i].list_info)
				return;	
			if (!mac_control->fifos[i].list_info[mem_blks].
				 list_virt_addr)
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				break;
			pci_free_consistent(nic->pdev, PAGE_SIZE,
686 687
					    mac_control->fifos[i].
					    list_info[mem_blks].
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					    list_virt_addr,
689 690
					    mac_control->fifos[i].
					    list_info[mem_blks].
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					    list_phy_addr);
		}
693 694 695 696 697 698 699 700
		/* If we got a zero DMA address during allocation,
		 * free the page now
		 */
		if (mac_control->zerodma_virt_addr) {
			pci_free_consistent(nic->pdev, PAGE_SIZE,
					    mac_control->zerodma_virt_addr,
					    (dma_addr_t)0);
			DBG_PRINT(INIT_DBG, 
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			  	"%s: Freeing TxDL with zero DMA addr. ",
				dev->name);
			DBG_PRINT(INIT_DBG, "Virtual address %p\n",
				mac_control->zerodma_virt_addr);
705
		}
706
		kfree(mac_control->fifos[i].list_info);
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	}

	size = SIZE_OF_BLOCK;
	for (i = 0; i < config->rx_ring_num; i++) {
711
		blk_cnt = mac_control->rings[i].block_count;
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		for (j = 0; j < blk_cnt; j++) {
713 714 715 716
			tmp_v_addr = mac_control->rings[i].rx_blocks[j].
				block_virt_addr;
			tmp_p_addr = mac_control->rings[i].rx_blocks[j].
				block_dma_addr;
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			if (tmp_v_addr == NULL)
				break;
			pci_free_consistent(nic->pdev, size,
					    tmp_v_addr, tmp_p_addr);
721
			kfree(mac_control->rings[i].rx_blocks[j].rxds);
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		}
	}

725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741
	if (nic->rxd_mode >= RXD_MODE_3A) {
		/* Freeing buffer storage addresses in 2BUFF mode. */
		for (i = 0; i < config->rx_ring_num; i++) {
			blk_cnt = config->rx_cfg[i].num_rxd /
			    (rxd_count[nic->rxd_mode] + 1);
			for (j = 0; j < blk_cnt; j++) {
				int k = 0;
				if (!mac_control->rings[i].ba[j])
					continue;
				while (k != rxd_count[nic->rxd_mode]) {
					buffAdd_t *ba =
						&mac_control->rings[i].ba[j][k];
					kfree(ba->ba_0_org);
					kfree(ba->ba_1_org);
					k++;
				}
				kfree(mac_control->rings[i].ba[j]);
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			}
743
			kfree(mac_control->rings[i].ba);
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		}
	}

	if (mac_control->stats_mem) {
		pci_free_consistent(nic->pdev,
				    mac_control->stats_mem_sz,
				    mac_control->stats_mem,
				    mac_control->stats_mem_phy);
	}
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	if (nic->ufo_in_band_v)
		kfree(nic->ufo_in_band_v);
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}

757 758 759 760 761 762
/**
 * s2io_verify_pci_mode -
 */

static int s2io_verify_pci_mode(nic_t *nic)
{
763
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780
	register u64 val64 = 0;
	int     mode;

	val64 = readq(&bar0->pci_mode);
	mode = (u8)GET_PCI_MODE(val64);

	if ( val64 & PCI_MODE_UNKNOWN_MODE)
		return -1;      /* Unknown PCI mode */
	return mode;
}


/**
 * s2io_print_pci_mode -
 */
static int s2io_print_pci_mode(nic_t *nic)
{
781
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837
	register u64 val64 = 0;
	int	mode;
	struct config_param *config = &nic->config;

	val64 = readq(&bar0->pci_mode);
	mode = (u8)GET_PCI_MODE(val64);

	if ( val64 & PCI_MODE_UNKNOWN_MODE)
		return -1;	/* Unknown PCI mode */

	if (val64 & PCI_MODE_32_BITS) {
		DBG_PRINT(ERR_DBG, "%s: Device is on 32 bit ", nic->dev->name);
	} else {
		DBG_PRINT(ERR_DBG, "%s: Device is on 64 bit ", nic->dev->name);
	}

	switch(mode) {
		case PCI_MODE_PCI_33:
			DBG_PRINT(ERR_DBG, "33MHz PCI bus\n");
			config->bus_speed = 33;
			break;
		case PCI_MODE_PCI_66:
			DBG_PRINT(ERR_DBG, "66MHz PCI bus\n");
			config->bus_speed = 133;
			break;
		case PCI_MODE_PCIX_M1_66:
			DBG_PRINT(ERR_DBG, "66MHz PCIX(M1) bus\n");
			config->bus_speed = 133; /* Herc doubles the clock rate */
			break;
		case PCI_MODE_PCIX_M1_100:
			DBG_PRINT(ERR_DBG, "100MHz PCIX(M1) bus\n");
			config->bus_speed = 200;
			break;
		case PCI_MODE_PCIX_M1_133:
			DBG_PRINT(ERR_DBG, "133MHz PCIX(M1) bus\n");
			config->bus_speed = 266;
			break;
		case PCI_MODE_PCIX_M2_66:
			DBG_PRINT(ERR_DBG, "133MHz PCIX(M2) bus\n");
			config->bus_speed = 133;
			break;
		case PCI_MODE_PCIX_M2_100:
			DBG_PRINT(ERR_DBG, "200MHz PCIX(M2) bus\n");
			config->bus_speed = 200;
			break;
		case PCI_MODE_PCIX_M2_133:
			DBG_PRINT(ERR_DBG, "266MHz PCIX(M2) bus\n");
			config->bus_speed = 266;
			break;
		default:
			return -1;	/* Unsupported bus speed */
	}

	return mode;
}

838 839
/**
 *  init_nic - Initialization of hardware
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 *  @nic: device peivate variable
841 842 843
 *  Description: The function sequentially configures every block
 *  of the H/W from their reset values.
 *  Return Value:  SUCCESS on success and
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 *  '-1' on failure (endian settings incorrect).
 */

static int init_nic(struct s2io_nic *nic)
{
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
	struct net_device *dev = nic->dev;
	register u64 val64 = 0;
	void __iomem *add;
	u32 time;
	int i, j;
	mac_info_t *mac_control;
	struct config_param *config;
	int mdio_cnt = 0, dtx_cnt = 0;
	unsigned long long mem_share;
859
	int mem_size;
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	mac_control = &nic->mac_control;
	config = &nic->config;

864
	/* to set the swapper controle on the card */
865
	if(s2io_set_swapper(nic)) {
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		DBG_PRINT(ERR_DBG,"ERROR: Setting Swapper failed\n");
		return -1;
	}

870 871 872 873 874 875 876 877 878 879
	/*
	 * Herc requires EOI to be removed from reset before XGXS, so..
	 */
	if (nic->device_type & XFRAME_II_DEVICE) {
		val64 = 0xA500000000ULL;
		writeq(val64, &bar0->sw_reset);
		msleep(500);
		val64 = readq(&bar0->sw_reset);
	}

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	/* Remove XGXS from reset state */
	val64 = 0;
	writeq(val64, &bar0->sw_reset);
	msleep(500);
884
	val64 = readq(&bar0->sw_reset);
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	/*  Enable Receiving broadcasts */
	add = &bar0->mac_cfg;
	val64 = readq(&bar0->mac_cfg);
	val64 |= MAC_RMAC_BCAST_ENABLE;
	writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
	writel((u32) val64, add);
	writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
	writel((u32) (val64 >> 32), (add + 4));

	/* Read registers in all blocks */
	val64 = readq(&bar0->mac_int_mask);
	val64 = readq(&bar0->mc_int_mask);
	val64 = readq(&bar0->xgxs_int_mask);

	/*  Set MTU */
	val64 = dev->mtu;
	writeq(vBIT(val64, 2, 14), &bar0->rmac_max_pyld_len);

904 905
	/*
	 * Configuring the XAUI Interface of Xena.
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	 * ***************************************
907 908 909 910
	 * To Configure the Xena's XAUI, one has to write a series
	 * of 64 bit values into two registers in a particular
	 * sequence. Hence a macro 'SWITCH_SIGN' has been defined
	 * which will be defined in the array of configuration values
911
	 * (xena_dtx_cfg & xena_mdio_cfg) at appropriate places
912
	 * to switch writing from one regsiter to another. We continue
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	 * writing these values until we encounter the 'END_SIGN' macro.
914 915
	 * For example, After making a series of 21 writes into
	 * dtx_control register the 'SWITCH_SIGN' appears and hence we
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	 * start writing into mdio_control until we encounter END_SIGN.
	 */
918 919
	if (nic->device_type & XFRAME_II_DEVICE) {
		while (herc_act_dtx_cfg[dtx_cnt] != END_SIGN) {
920
			SPECIAL_REG_WRITE(herc_act_dtx_cfg[dtx_cnt],
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					  &bar0->dtx_control, UF);
922 923
			if (dtx_cnt & 0x1)
				msleep(1); /* Necessary!! */
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			dtx_cnt++;
		}
926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946 947
	} else {
		while (1) {
		      dtx_cfg:
			while (xena_dtx_cfg[dtx_cnt] != END_SIGN) {
				if (xena_dtx_cfg[dtx_cnt] == SWITCH_SIGN) {
					dtx_cnt++;
					goto mdio_cfg;
				}
				SPECIAL_REG_WRITE(xena_dtx_cfg[dtx_cnt],
						  &bar0->dtx_control, UF);
				val64 = readq(&bar0->dtx_control);
				dtx_cnt++;
			}
		      mdio_cfg:
			while (xena_mdio_cfg[mdio_cnt] != END_SIGN) {
				if (xena_mdio_cfg[mdio_cnt] == SWITCH_SIGN) {
					mdio_cnt++;
					goto dtx_cfg;
				}
				SPECIAL_REG_WRITE(xena_mdio_cfg[mdio_cnt],
						  &bar0->mdio_control, UF);
				val64 = readq(&bar0->mdio_control);
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				mdio_cnt++;
949 950 951 952 953
			}
			if ((xena_dtx_cfg[dtx_cnt] == END_SIGN) &&
			    (xena_mdio_cfg[mdio_cnt] == END_SIGN)) {
				break;
			} else {
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				goto dtx_cfg;
			}
		}
	}

	/*  Tx DMA Initialization */
	val64 = 0;
	writeq(val64, &bar0->tx_fifo_partition_0);
	writeq(val64, &bar0->tx_fifo_partition_1);
	writeq(val64, &bar0->tx_fifo_partition_2);
	writeq(val64, &bar0->tx_fifo_partition_3);


	for (i = 0, j = 0; i < config->tx_fifo_num; i++) {
		val64 |=
		    vBIT(config->tx_cfg[i].fifo_len - 1, ((i * 32) + 19),
			 13) | vBIT(config->tx_cfg[i].fifo_priority,
				    ((i * 32) + 5), 3);

		if (i == (config->tx_fifo_num - 1)) {
			if (i % 2 == 0)
				i++;
		}

		switch (i) {
		case 1:
			writeq(val64, &bar0->tx_fifo_partition_0);
			val64 = 0;
			break;
		case 3:
			writeq(val64, &bar0->tx_fifo_partition_1);
			val64 = 0;
			break;
		case 5:
			writeq(val64, &bar0->tx_fifo_partition_2);
			val64 = 0;
			break;
		case 7:
			writeq(val64, &bar0->tx_fifo_partition_3);
			break;
		}
	}

	/* Enable Tx FIFO partition 0. */
	val64 = readq(&bar0->tx_fifo_partition_0);
	val64 |= BIT(0);	/* To enable the FIFO partition. */
	writeq(val64, &bar0->tx_fifo_partition_0);

1002 1003 1004 1005
	/*
	 * Disable 4 PCCs for Xena1, 2 and 3 as per H/W bug
	 * SXE-008 TRANSMIT DMA ARBITRATION ISSUE.
	 */
1006 1007
	if ((nic->device_type == XFRAME_I_DEVICE) &&
		(get_xena_rev_id(nic->pdev) < 4))
1008 1009
		writeq(PCC_ENABLE_FOUR, &bar0->pcc_enable);

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	val64 = readq(&bar0->tx_fifo_partition_0);
	DBG_PRINT(INIT_DBG, "Fifo partition at: 0x%p is: 0x%llx\n",
		  &bar0->tx_fifo_partition_0, (unsigned long long) val64);

1014 1015
	/*
	 * Initialization of Tx_PA_CONFIG register to ignore packet
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	 * integrity checking.
	 */
	val64 = readq(&bar0->tx_pa_cfg);
	val64 |= TX_PA_CFG_IGNORE_FRM_ERR | TX_PA_CFG_IGNORE_SNAP_OUI |
	    TX_PA_CFG_IGNORE_LLC_CTRL | TX_PA_CFG_IGNORE_L2_ERR;
	writeq(val64, &bar0->tx_pa_cfg);

	/* Rx DMA intialization. */
	val64 = 0;
	for (i = 0; i < config->rx_ring_num; i++) {
		val64 |=
		    vBIT(config->rx_cfg[i].ring_priority, (5 + (i * 8)),
			 3);
	}
	writeq(val64, &bar0->rx_queue_priority);

1032 1033
	/*
	 * Allocating equal share of memory to all the
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	 * configured Rings.
	 */
	val64 = 0;
1037 1038 1039 1040 1041
	if (nic->device_type & XFRAME_II_DEVICE)
		mem_size = 32;
	else
		mem_size = 64;

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	for (i = 0; i < config->rx_ring_num; i++) {
		switch (i) {
		case 0:
1045 1046
			mem_share = (mem_size / config->rx_ring_num +
				     mem_size % config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q0_SZ(mem_share);
			continue;
		case 1:
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			mem_share = (mem_size / config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q1_SZ(mem_share);
			continue;
		case 2:
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			mem_share = (mem_size / config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q2_SZ(mem_share);
			continue;
		case 3:
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			mem_share = (mem_size / config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q3_SZ(mem_share);
			continue;
		case 4:
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			mem_share = (mem_size / config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q4_SZ(mem_share);
			continue;
		case 5:
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			mem_share = (mem_size / config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q5_SZ(mem_share);
			continue;
		case 6:
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			mem_share = (mem_size / config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q6_SZ(mem_share);
			continue;
		case 7:
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			mem_share = (mem_size / config->rx_ring_num);
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			val64 |= RX_QUEUE_CFG_Q7_SZ(mem_share);
			continue;
		}
	}
	writeq(val64, &bar0->rx_queue_cfg);

1081
	/*
1082 1083
	 * Filling Tx round robin registers
	 * as per the number of FIFOs
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	 */
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 1185 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 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 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
	switch (config->tx_fifo_num) {
	case 1:
		val64 = 0x0000000000000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		writeq(val64, &bar0->tx_w_round_robin_1);
		writeq(val64, &bar0->tx_w_round_robin_2);
		writeq(val64, &bar0->tx_w_round_robin_3);
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	case 2:
		val64 = 0x0000010000010000ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		val64 = 0x0100000100000100ULL;
		writeq(val64, &bar0->tx_w_round_robin_1);
		val64 = 0x0001000001000001ULL;
		writeq(val64, &bar0->tx_w_round_robin_2);
		val64 = 0x0000010000010000ULL;
		writeq(val64, &bar0->tx_w_round_robin_3);
		val64 = 0x0100000000000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	case 3:
		val64 = 0x0001000102000001ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		val64 = 0x0001020000010001ULL;
		writeq(val64, &bar0->tx_w_round_robin_1);
		val64 = 0x0200000100010200ULL;
		writeq(val64, &bar0->tx_w_round_robin_2);
		val64 = 0x0001000102000001ULL;
		writeq(val64, &bar0->tx_w_round_robin_3);
		val64 = 0x0001020000000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	case 4:
		val64 = 0x0001020300010200ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		val64 = 0x0100000102030001ULL;
		writeq(val64, &bar0->tx_w_round_robin_1);
		val64 = 0x0200010000010203ULL;
		writeq(val64, &bar0->tx_w_round_robin_2);
		val64 = 0x0001020001000001ULL;
		writeq(val64, &bar0->tx_w_round_robin_3);
		val64 = 0x0203000100000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	case 5:
		val64 = 0x0001000203000102ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		val64 = 0x0001020001030004ULL;
		writeq(val64, &bar0->tx_w_round_robin_1);
		val64 = 0x0001000203000102ULL;
		writeq(val64, &bar0->tx_w_round_robin_2);
		val64 = 0x0001020001030004ULL;
		writeq(val64, &bar0->tx_w_round_robin_3);
		val64 = 0x0001000000000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	case 6:
		val64 = 0x0001020304000102ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		val64 = 0x0304050001020001ULL;
		writeq(val64, &bar0->tx_w_round_robin_1);
		val64 = 0x0203000100000102ULL;
		writeq(val64, &bar0->tx_w_round_robin_2);
		val64 = 0x0304000102030405ULL;
		writeq(val64, &bar0->tx_w_round_robin_3);
		val64 = 0x0001000200000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	case 7:
		val64 = 0x0001020001020300ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		val64 = 0x0102030400010203ULL;
		writeq(val64, &bar0->tx_w_round_robin_1);
		val64 = 0x0405060001020001ULL;
		writeq(val64, &bar0->tx_w_round_robin_2);
		val64 = 0x0304050000010200ULL;
		writeq(val64, &bar0->tx_w_round_robin_3);
		val64 = 0x0102030000000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	case 8:
		val64 = 0x0001020300040105ULL;
		writeq(val64, &bar0->tx_w_round_robin_0);
		val64 = 0x0200030106000204ULL;
		writeq(val64, &bar0->tx_w_round_robin_1);
		val64 = 0x0103000502010007ULL;
		writeq(val64, &bar0->tx_w_round_robin_2);
		val64 = 0x0304010002060500ULL;
		writeq(val64, &bar0->tx_w_round_robin_3);
		val64 = 0x0103020400000000ULL;
		writeq(val64, &bar0->tx_w_round_robin_4);
		break;
	}

	/* Filling the Rx round robin registers as per the
	 * number of Rings and steering based on QoS.
         */
	switch (config->rx_ring_num) {
	case 1:
		val64 = 0x8080808080808080ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	case 2:
		val64 = 0x0000010000010000ULL;
		writeq(val64, &bar0->rx_w_round_robin_0);
		val64 = 0x0100000100000100ULL;
		writeq(val64, &bar0->rx_w_round_robin_1);
		val64 = 0x0001000001000001ULL;
		writeq(val64, &bar0->rx_w_round_robin_2);
		val64 = 0x0000010000010000ULL;
		writeq(val64, &bar0->rx_w_round_robin_3);
		val64 = 0x0100000000000000ULL;
		writeq(val64, &bar0->rx_w_round_robin_4);

		val64 = 0x8080808040404040ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	case 3:
		val64 = 0x0001000102000001ULL;
		writeq(val64, &bar0->rx_w_round_robin_0);
		val64 = 0x0001020000010001ULL;
		writeq(val64, &bar0->rx_w_round_robin_1);
		val64 = 0x0200000100010200ULL;
		writeq(val64, &bar0->rx_w_round_robin_2);
		val64 = 0x0001000102000001ULL;
		writeq(val64, &bar0->rx_w_round_robin_3);
		val64 = 0x0001020000000000ULL;
		writeq(val64, &bar0->rx_w_round_robin_4);

		val64 = 0x8080804040402020ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	case 4:
		val64 = 0x0001020300010200ULL;
		writeq(val64, &bar0->rx_w_round_robin_0);
		val64 = 0x0100000102030001ULL;
		writeq(val64, &bar0->rx_w_round_robin_1);
		val64 = 0x0200010000010203ULL;
		writeq(val64, &bar0->rx_w_round_robin_2);
		val64 = 0x0001020001000001ULL;	
		writeq(val64, &bar0->rx_w_round_robin_3);
		val64 = 0x0203000100000000ULL;
		writeq(val64, &bar0->rx_w_round_robin_4);

		val64 = 0x8080404020201010ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	case 5:
		val64 = 0x0001000203000102ULL;
		writeq(val64, &bar0->rx_w_round_robin_0);
		val64 = 0x0001020001030004ULL;
		writeq(val64, &bar0->rx_w_round_robin_1);
		val64 = 0x0001000203000102ULL;
		writeq(val64, &bar0->rx_w_round_robin_2);
		val64 = 0x0001020001030004ULL;
		writeq(val64, &bar0->rx_w_round_robin_3);
		val64 = 0x0001000000000000ULL;
		writeq(val64, &bar0->rx_w_round_robin_4);

		val64 = 0x8080404020201008ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	case 6:
		val64 = 0x0001020304000102ULL;
		writeq(val64, &bar0->rx_w_round_robin_0);
		val64 = 0x0304050001020001ULL;
		writeq(val64, &bar0->rx_w_round_robin_1);
		val64 = 0x0203000100000102ULL;
		writeq(val64, &bar0->rx_w_round_robin_2);
		val64 = 0x0304000102030405ULL;
		writeq(val64, &bar0->rx_w_round_robin_3);
		val64 = 0x0001000200000000ULL;
		writeq(val64, &bar0->rx_w_round_robin_4);

		val64 = 0x8080404020100804ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	case 7:
		val64 = 0x0001020001020300ULL;
		writeq(val64, &bar0->rx_w_round_robin_0);
		val64 = 0x0102030400010203ULL;
		writeq(val64, &bar0->rx_w_round_robin_1);
		val64 = 0x0405060001020001ULL;
		writeq(val64, &bar0->rx_w_round_robin_2);
		val64 = 0x0304050000010200ULL;
		writeq(val64, &bar0->rx_w_round_robin_3);
		val64 = 0x0102030000000000ULL;
		writeq(val64, &bar0->rx_w_round_robin_4);

		val64 = 0x8080402010080402ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	case 8:
		val64 = 0x0001020300040105ULL;
		writeq(val64, &bar0->rx_w_round_robin_0);
		val64 = 0x0200030106000204ULL;
		writeq(val64, &bar0->rx_w_round_robin_1);
		val64 = 0x0103000502010007ULL;
		writeq(val64, &bar0->rx_w_round_robin_2);
		val64 = 0x0304010002060500ULL;
		writeq(val64, &bar0->rx_w_round_robin_3);
		val64 = 0x0103020400000000ULL;
		writeq(val64, &bar0->rx_w_round_robin_4);

		val64 = 0x8040201008040201ULL;
		writeq(val64, &bar0->rts_qos_steering);
		break;
	}
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	/* UDP Fix */
	val64 = 0;
1297
	for (i = 0; i < 8; i++)
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		writeq(val64, &bar0->rts_frm_len_n[i]);

1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319
	/* Set the default rts frame length for the rings configured */
	val64 = MAC_RTS_FRM_LEN_SET(dev->mtu+22);
	for (i = 0 ; i < config->rx_ring_num ; i++)
		writeq(val64, &bar0->rts_frm_len_n[i]);

	/* Set the frame length for the configured rings
	 * desired by the user
	 */
	for (i = 0; i < config->rx_ring_num; i++) {
		/* If rts_frm_len[i] == 0 then it is assumed that user not
		 * specified frame length steering.
		 * If the user provides the frame length then program
		 * the rts_frm_len register for those values or else
		 * leave it as it is.
		 */
		if (rts_frm_len[i] != 0) {
			writeq(MAC_RTS_FRM_LEN_SET(rts_frm_len[i]),
				&bar0->rts_frm_len_n[i]);
		}
	}
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1321
	/* Program statistics memory */
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	writeq(mac_control->stats_mem_phy, &bar0->stat_addr);

1324 1325 1326 1327 1328
	if (nic->device_type == XFRAME_II_DEVICE) {
		val64 = STAT_BC(0x320);
		writeq(val64, &bar0->stat_byte_cnt);
	}

1329
	/*
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	 * Initializing the sampling rate for the device to calculate the
	 * bandwidth utilization.
	 */
	val64 = MAC_TX_LINK_UTIL_VAL(tmac_util_period) |
	    MAC_RX_LINK_UTIL_VAL(rmac_util_period);
	writeq(val64, &bar0->mac_link_util);


1338 1339
	/*
	 * Initializing the Transmit and Receive Traffic Interrupt
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	 * Scheme.
	 */
1342 1343
	/*
	 * TTI Initialization. Default Tx timer gets us about
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	 * 250 interrupts per sec. Continuous interrupts are enabled
	 * by default.
	 */
1347 1348 1349 1350 1351 1352 1353 1354
	if (nic->device_type == XFRAME_II_DEVICE) {
		int count = (nic->config.bus_speed * 125)/2;
		val64 = TTI_DATA1_MEM_TX_TIMER_VAL(count);
	} else {

		val64 = TTI_DATA1_MEM_TX_TIMER_VAL(0x2078);
	}
	val64 |= TTI_DATA1_MEM_TX_URNG_A(0xA) |
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	    TTI_DATA1_MEM_TX_URNG_B(0x10) |
1356
	    TTI_DATA1_MEM_TX_URNG_C(0x30) | TTI_DATA1_MEM_TX_TIMER_AC_EN;
1357 1358
		if (use_continuous_tx_intrs)
			val64 |= TTI_DATA1_MEM_TX_TIMER_CI_EN;
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	writeq(val64, &bar0->tti_data1_mem);

	val64 = TTI_DATA2_MEM_TX_UFC_A(0x10) |
	    TTI_DATA2_MEM_TX_UFC_B(0x20) |
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	    TTI_DATA2_MEM_TX_UFC_C(0x70) | TTI_DATA2_MEM_TX_UFC_D(0x80);
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	writeq(val64, &bar0->tti_data2_mem);

	val64 = TTI_CMD_MEM_WE | TTI_CMD_MEM_STROBE_NEW_CMD;
	writeq(val64, &bar0->tti_command_mem);

1369
	/*
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	 * Once the operation completes, the Strobe bit of the command
	 * register will be reset. We poll for this particular condition
	 * We wait for a maximum of 500ms for the operation to complete,
	 * if it's not complete by then we return error.
	 */
	time = 0;
	while (TRUE) {
		val64 = readq(&bar0->tti_command_mem);
		if (!(val64 & TTI_CMD_MEM_STROBE_NEW_CMD)) {
			break;
		}
		if (time > 10) {
			DBG_PRINT(ERR_DBG, "%s: TTI init Failed\n",
				  dev->name);
			return -1;
		}
		msleep(50);
		time++;
	}

1390 1391 1392 1393 1394 1395
	if (nic->config.bimodal) {
		int k = 0;
		for (k = 0; k < config->rx_ring_num; k++) {
			val64 = TTI_CMD_MEM_WE | TTI_CMD_MEM_STROBE_NEW_CMD;
			val64 |= TTI_CMD_MEM_OFFSET(0x38+k);
			writeq(val64, &bar0->tti_command_mem);
1396 1397

		/*
1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418
		 * Once the operation completes, the Strobe bit of the command
		 * register will be reset. We poll for this particular condition
		 * We wait for a maximum of 500ms for the operation to complete,
		 * if it's not complete by then we return error.
		*/
			time = 0;
			while (TRUE) {
				val64 = readq(&bar0->tti_command_mem);
				if (!(val64 & TTI_CMD_MEM_STROBE_NEW_CMD)) {
					break;
				}
				if (time > 10) {
					DBG_PRINT(ERR_DBG,
						"%s: TTI init Failed\n",
					dev->name);
					return -1;
				}
				time++;
				msleep(50);
			}
		}
1419
	} else {
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1421 1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434
		/* RTI Initialization */
		if (nic->device_type == XFRAME_II_DEVICE) {
			/*
			 * Programmed to generate Apprx 500 Intrs per
			 * second
			 */
			int count = (nic->config.bus_speed * 125)/4;
			val64 = RTI_DATA1_MEM_RX_TIMER_VAL(count);
		} else {
			val64 = RTI_DATA1_MEM_RX_TIMER_VAL(0xFFF);
		}
		val64 |= RTI_DATA1_MEM_RX_URNG_A(0xA) |
		    RTI_DATA1_MEM_RX_URNG_B(0x10) |
		    RTI_DATA1_MEM_RX_URNG_C(0x30) | RTI_DATA1_MEM_RX_TIMER_AC_EN;
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		writeq(val64, &bar0->rti_data1_mem);
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		val64 = RTI_DATA2_MEM_RX_UFC_A(0x1) |
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		    RTI_DATA2_MEM_RX_UFC_B(0x2) ;
		if (nic->intr_type == MSI_X)
		    val64 |= (RTI_DATA2_MEM_RX_UFC_C(0x20) | \
				RTI_DATA2_MEM_RX_UFC_D(0x40));
		else
		    val64 |= (RTI_DATA2_MEM_RX_UFC_C(0x40) | \
				RTI_DATA2_MEM_RX_UFC_D(0x80));
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		writeq(val64, &bar0->rti_data2_mem);
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1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473
		for (i = 0; i < config->rx_ring_num; i++) {
			val64 = RTI_CMD_MEM_WE | RTI_CMD_MEM_STROBE_NEW_CMD
					| RTI_CMD_MEM_OFFSET(i);
			writeq(val64, &bar0->rti_command_mem);

			/*
			 * Once the operation completes, the Strobe bit of the
			 * command register will be reset. We poll for this
			 * particular condition. We wait for a maximum of 500ms
			 * for the operation to complete, if it's not complete
			 * by then we return error.
			 */
			time = 0;
			while (TRUE) {
				val64 = readq(&bar0->rti_command_mem);
				if (!(val64 & RTI_CMD_MEM_STROBE_NEW_CMD)) {
					break;
				}
				if (time > 10) {
					DBG_PRINT(ERR_DBG, "%s: RTI init Failed\n",
						  dev->name);
					return -1;
				}
				time++;
				msleep(50);
			}
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		}
	}

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	/*
	 * Initializing proper values as Pause threshold into all
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	 * the 8 Queues on Rx side.
	 */
	writeq(0xffbbffbbffbbffbbULL, &bar0->mc_pause_thresh_q0q3);
	writeq(0xffbbffbbffbbffbbULL, &bar0->mc_pause_thresh_q4q7);

	/* Disable RMAC PAD STRIPPING */
1485
	add = &bar0->mac_cfg;
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	val64 = readq(&bar0->mac_cfg);
	val64 &= ~(MAC_CFG_RMAC_STRIP_PAD);
	writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
	writel((u32) (val64), add);
	writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
	writel((u32) (val64 >> 32), (add + 4));
	val64 = readq(&bar0->mac_cfg);

1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506
	/* Enable FCS stripping by adapter */
	add = &bar0->mac_cfg;
	val64 = readq(&bar0->mac_cfg);
	val64 |= MAC_CFG_RMAC_STRIP_FCS;
	if (nic->device_type == XFRAME_II_DEVICE)
		writeq(val64, &bar0->mac_cfg);
	else {
		writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
		writel((u32) (val64), add);
		writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
		writel((u32) (val64 >> 32), (add + 4));
	}

1507 1508
	/*
	 * Set the time value to be inserted in the pause frame
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	 * generated by xena.
	 */
	val64 = readq(&bar0->rmac_pause_cfg);
	val64 &= ~(RMAC_PAUSE_HG_PTIME(0xffff));
	val64 |= RMAC_PAUSE_HG_PTIME(nic->mac_control.rmac_pause_time);
	writeq(val64, &bar0->rmac_pause_cfg);

1516
	/*
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	 * Set the Threshold Limit for Generating the pause frame
	 * If the amount of data in any Queue exceeds ratio of
	 * (mac_control.mc_pause_threshold_q0q3 or q4q7)/256
	 * pause frame is generated
	 */
	val64 = 0;
	for (i = 0; i < 4; i++) {
		val64 |=
		    (((u64) 0xFF00 | nic->mac_control.
		      mc_pause_threshold_q0q3)
		     << (i * 2 * 8));
	}
	writeq(val64, &bar0->mc_pause_thresh_q0q3);

	val64 = 0;
	for (i = 0; i < 4; i++) {
		val64 |=
		    (((u64) 0xFF00 | nic->mac_control.
		      mc_pause_threshold_q4q7)
		     << (i * 2 * 8));
	}
	writeq(val64, &bar0->mc_pause_thresh_q4q7);

1540 1541
	/*
	 * TxDMA will stop Read request if the number of read split has
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	 * exceeded the limit pointed by shared_splits
	 */
	val64 = readq(&bar0->pic_control);
	val64 |= PIC_CNTL_SHARED_SPLITS(shared_splits);
	writeq(val64, &bar0->pic_control);

1548 1549 1550 1551 1552 1553 1554 1555 1556
	/*
	 * Programming the Herc to split every write transaction
	 * that does not start on an ADB to reduce disconnects.
	 */
	if (nic->device_type == XFRAME_II_DEVICE) {
		val64 = WREQ_SPLIT_MASK_SET_MASK(255);
		writeq(val64, &bar0->wreq_split_mask);
	}

1557 1558 1559 1560 1561 1562
	/* Setting Link stability period to 64 ms */ 
	if (nic->device_type == XFRAME_II_DEVICE) {
		val64 = MISC_LINK_STABILITY_PRD(3);
		writeq(val64, &bar0->misc_control);
	}

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	return SUCCESS;
}
1565 1566 1567
#define LINK_UP_DOWN_INTERRUPT		1
#define MAC_RMAC_ERR_TIMER		2

1568
static int s2io_link_fault_indication(nic_t *nic)
1569
{
1570 1571
	if (nic->intr_type != INTA)
		return MAC_RMAC_ERR_TIMER;
1572 1573 1574 1575 1576
	if (nic->device_type == XFRAME_II_DEVICE)
		return LINK_UP_DOWN_INTERRUPT;
	else
		return MAC_RMAC_ERR_TIMER;
}
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1578 1579
/**
 *  en_dis_able_nic_intrs - Enable or Disable the interrupts
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 *  @nic: device private variable,
 *  @mask: A mask indicating which Intr block must be modified and,
 *  @flag: A flag indicating whether to enable or disable the Intrs.
 *  Description: This function will either disable or enable the interrupts
1584 1585
 *  depending on the flag argument. The mask argument can be used to
 *  enable/disable any Intr block.
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 *  Return Value: NONE.
 */

static void en_dis_able_nic_intrs(struct s2io_nic *nic, u16 mask, int flag)
{
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
	register u64 val64 = 0, temp64 = 0;

	/*  Top level interrupt classification */
	/*  PIC Interrupts */
	if ((mask & (TX_PIC_INTR | RX_PIC_INTR))) {
		/*  Enable PIC Intrs in the general intr mask register */
		val64 = TXPIC_INT_M | PIC_RX_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
1603
			/*
1604 1605
			 * If Hercules adapter enable GPIO otherwise
			 * disabled all PCIX, Flash, MDIO, IIC and GPIO
1606 1607
			 * interrupts for now.
			 * TODO
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			 */
1609 1610 1611 1612 1613 1614 1615 1616 1617 1618 1619
			if (s2io_link_fault_indication(nic) ==
					LINK_UP_DOWN_INTERRUPT ) {
				temp64 = readq(&bar0->pic_int_mask);
				temp64 &= ~((u64) PIC_INT_GPIO);
				writeq(temp64, &bar0->pic_int_mask);
				temp64 = readq(&bar0->gpio_int_mask);
				temp64 &= ~((u64) GPIO_INT_MASK_LINK_UP);
				writeq(temp64, &bar0->gpio_int_mask);
			} else {
				writeq(DISABLE_ALL_INTRS, &bar0->pic_int_mask);
			}
1620
			/*
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			 * No MSI Support is available presently, so TTI and
			 * RTI interrupts are also disabled.
			 */
		} else if (flag == DISABLE_INTRS) {
1625 1626 1627
			/*
			 * Disable PIC Intrs in the general
			 * intr mask register
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			 */
			writeq(DISABLE_ALL_INTRS, &bar0->pic_int_mask);
			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}

	/*  DMA Interrupts */
	/*  Enabling/Disabling Tx DMA interrupts */
	if (mask & TX_DMA_INTR) {
		/* Enable TxDMA Intrs in the general intr mask register */
		val64 = TXDMA_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
1645 1646
			/*
			 * Keep all interrupts other than PFC interrupt
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			 * and PCC interrupt disabled in DMA level.
			 */
			val64 = DISABLE_ALL_INTRS & ~(TXDMA_PFC_INT_M |
						      TXDMA_PCC_INT_M);
			writeq(val64, &bar0->txdma_int_mask);
1652 1653
			/*
			 * Enable only the MISC error 1 interrupt in PFC block
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			 */
			val64 = DISABLE_ALL_INTRS & (~PFC_MISC_ERR_1);
			writeq(val64, &bar0->pfc_err_mask);
1657 1658
			/*
			 * Enable only the FB_ECC error interrupt in PCC block
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			 */
			val64 = DISABLE_ALL_INTRS & (~PCC_FB_ECC_ERR);
			writeq(val64, &bar0->pcc_err_mask);
		} else if (flag == DISABLE_INTRS) {
1663 1664 1665
			/*
			 * Disable TxDMA Intrs in the general intr mask
			 * register
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			 */
			writeq(DISABLE_ALL_INTRS, &bar0->txdma_int_mask);
			writeq(DISABLE_ALL_INTRS, &bar0->pfc_err_mask);
			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}

	/*  Enabling/Disabling Rx DMA interrupts */
	if (mask & RX_DMA_INTR) {
		/*  Enable RxDMA Intrs in the general intr mask register */
		val64 = RXDMA_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
1683 1684 1685
			/*
			 * All RxDMA block interrupts are disabled for now
			 * TODO
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			 */
			writeq(DISABLE_ALL_INTRS, &bar0->rxdma_int_mask);
		} else if (flag == DISABLE_INTRS) {
1689 1690 1691
			/*
			 * Disable RxDMA Intrs in the general intr mask
			 * register
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			 */
			writeq(DISABLE_ALL_INTRS, &bar0->rxdma_int_mask);
			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}

	/*  MAC Interrupts */
	/*  Enabling/Disabling MAC interrupts */
	if (mask & (TX_MAC_INTR | RX_MAC_INTR)) {
		val64 = TXMAC_INT_M | RXMAC_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
1708 1709
			/*
			 * All MAC block error interrupts are disabled for now
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			 * TODO
			 */
		} else if (flag == DISABLE_INTRS) {
1713 1714
			/*
			 * Disable MAC Intrs in the general intr mask register
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			 */
			writeq(DISABLE_ALL_INTRS, &bar0->mac_int_mask);
			writeq(DISABLE_ALL_INTRS,
			       &bar0->mac_rmac_err_mask);

			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}

	/*  XGXS Interrupts */
	if (mask & (TX_XGXS_INTR | RX_XGXS_INTR)) {
		val64 = TXXGXS_INT_M | RXXGXS_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
1733
			/*
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			 * All XGXS block error interrupts are disabled for now
1735
			 * TODO
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			 */
			writeq(DISABLE_ALL_INTRS, &bar0->xgxs_int_mask);
		} else if (flag == DISABLE_INTRS) {
1739 1740
			/*
			 * Disable MC Intrs in the general intr mask register
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			 */
			writeq(DISABLE_ALL_INTRS, &bar0->xgxs_int_mask);
			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}

	/*  Memory Controller(MC) interrupts */
	if (mask & MC_INTR) {
		val64 = MC_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
1756
			/*
1757
			 * Enable all MC Intrs.
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			 */
1759 1760
			writeq(0x0, &bar0->mc_int_mask);
			writeq(0x0, &bar0->mc_err_mask);
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		} else if (flag == DISABLE_INTRS) {
			/*
			 * Disable MC Intrs in the general intr mask register
			 */
			writeq(DISABLE_ALL_INTRS, &bar0->mc_int_mask);
			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}


	/*  Tx traffic interrupts */
	if (mask & TX_TRAFFIC_INTR) {
		val64 = TXTRAFFIC_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
1780
			/*
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			 * Enable all the Tx side interrupts
1782
			 * writing 0 Enables all 64 TX interrupt levels
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			 */
			writeq(0x0, &bar0->tx_traffic_mask);
		} else if (flag == DISABLE_INTRS) {
1786 1787
			/*
			 * Disable Tx Traffic Intrs in the general intr mask
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			 * register.
			 */
			writeq(DISABLE_ALL_INTRS, &bar0->tx_traffic_mask);
			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}

	/*  Rx traffic interrupts */
	if (mask & RX_TRAFFIC_INTR) {
		val64 = RXTRAFFIC_INT_M;
		if (flag == ENABLE_INTRS) {
			temp64 = readq(&bar0->general_int_mask);
			temp64 &= ~((u64) val64);
			writeq(temp64, &bar0->general_int_mask);
			/* writing 0 Enables all 8 RX interrupt levels */
			writeq(0x0, &bar0->rx_traffic_mask);
		} else if (flag == DISABLE_INTRS) {
1807 1808
			/*
			 * Disable Rx Traffic Intrs in the general intr mask
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			 * register.
			 */
			writeq(DISABLE_ALL_INTRS, &bar0->rx_traffic_mask);
			temp64 = readq(&bar0->general_int_mask);
			val64 |= temp64;
			writeq(val64, &bar0->general_int_mask);
		}
	}
}

1819
static int check_prc_pcc_state(u64 val64, int flag, int rev_id, int herc)
1820 1821 1822 1823
{
	int ret = 0;

	if (flag == FALSE) {
1824
		if ((!herc && (rev_id >= 4)) || herc) {
1825 1826 1827 1828 1829
			if (!(val64 & ADAPTER_STATUS_RMAC_PCC_IDLE) &&
			    ((val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT) ==
			     ADAPTER_STATUS_RC_PRC_QUIESCENT)) {
				ret = 1;
			}
1830
		}else {
1831 1832 1833 1834 1835
			if (!(val64 & ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE) &&
			    ((val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT) ==
			     ADAPTER_STATUS_RC_PRC_QUIESCENT)) {
				ret = 1;
			}
1836 1837
		}
	} else {
1838
		if ((!herc && (rev_id >= 4)) || herc) {
1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853
			if (((val64 & ADAPTER_STATUS_RMAC_PCC_IDLE) ==
			     ADAPTER_STATUS_RMAC_PCC_IDLE) &&
			    (!(val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT) ||
			     ((val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT) ==
			      ADAPTER_STATUS_RC_PRC_QUIESCENT))) {
				ret = 1;
			}
		} else {
			if (((val64 & ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE) ==
			     ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE) &&
			    (!(val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT) ||
			     ((val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT) ==
			      ADAPTER_STATUS_RC_PRC_QUIESCENT))) {
				ret = 1;
			}
1854 1855 1856 1857 1858 1859 1860
		}
	}

	return ret;
}
/**
 *  verify_xena_quiescence - Checks whether the H/W is ready
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 *  @val64 :  Value read from adapter status register.
 *  @flag : indicates if the adapter enable bit was ever written once
 *  before.
 *  Description: Returns whether the H/W is ready to go or not. Depending
1865
 *  on whether adapter enable bit was written or not the comparison
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 *  differs and the calling function passes the input argument flag to
 *  indicate this.
1868
 *  Return: 1 If xena is quiescence
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 *          0 If Xena is not quiescence
 */

1872
static int verify_xena_quiescence(nic_t *sp, u64 val64, int flag)
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{
1874
	int ret = 0, herc;
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	u64 tmp64 = ~((u64) val64);
1876
	int rev_id = get_xena_rev_id(sp->pdev);
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1878
	herc = (sp->device_type == XFRAME_II_DEVICE);
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	if (!
	    (tmp64 &
	     (ADAPTER_STATUS_TDMA_READY | ADAPTER_STATUS_RDMA_READY |
	      ADAPTER_STATUS_PFC_READY | ADAPTER_STATUS_TMAC_BUF_EMPTY |
	      ADAPTER_STATUS_PIC_QUIESCENT | ADAPTER_STATUS_MC_DRAM_READY |
	      ADAPTER_STATUS_MC_QUEUES_READY | ADAPTER_STATUS_M_PLL_LOCK |
	      ADAPTER_STATUS_P_PLL_LOCK))) {
1886
		ret = check_prc_pcc_state(val64, flag, rev_id, herc);
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	}

	return ret;
}

/**
 * fix_mac_address -  Fix for Mac addr problem on Alpha platforms
 * @sp: Pointer to device specifc structure
1895
 * Description :
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 * New procedure to clear mac address reading  problems on Alpha platforms
 *
 */

1900
static void fix_mac_address(nic_t * sp)
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{
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64;
	int i = 0;

	while (fix_mac[i] != END_SIGN) {
		writeq(fix_mac[i++], &bar0->gpio_control);
1908
		udelay(10);
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		val64 = readq(&bar0->gpio_control);
	}
}

/**
1914
 *  start_nic - Turns the device on
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 *  @nic : device private variable.
1916 1917 1918 1919
 *  Description:
 *  This function actually turns the device on. Before this  function is
 *  called,all Registers are configured from their reset states
 *  and shared memory is allocated but the NIC is still quiescent. On
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 *  calling this function, the device interrupts are cleared and the NIC is
 *  literally switched on by writing into the adapter control register.
1922
 *  Return Value:
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 *  SUCCESS on success and -1 on failure.
 */

static int start_nic(struct s2io_nic *nic)
{
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
	struct net_device *dev = nic->dev;
	register u64 val64 = 0;
1931 1932
	u16 interruptible;
	u16 subid, i;
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	mac_info_t *mac_control;
	struct config_param *config;

	mac_control = &nic->mac_control;
	config = &nic->config;

	/*  PRC Initialization and configuration */
	for (i = 0; i < config->rx_ring_num; i++) {
1941
		writeq((u64) mac_control->rings[i].rx_blocks[0].block_dma_addr,
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		       &bar0->prc_rxd0_n[i]);

		val64 = readq(&bar0->prc_ctrl_n[i]);
1945 1946
		if (nic->config.bimodal)
			val64 |= PRC_CTRL_BIMODAL_INTERRUPT;
1947 1948 1949 1950
		if (nic->rxd_mode == RXD_MODE_1)
			val64 |= PRC_CTRL_RC_ENABLED;
		else
			val64 |= PRC_CTRL_RC_ENABLED | PRC_CTRL_RING_MODE_3;
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		writeq(val64, &bar0->prc_ctrl_n[i]);
	}

1954 1955 1956 1957 1958 1959
	if (nic->rxd_mode == RXD_MODE_3B) {
		/* Enabling 2 buffer mode by writing into Rx_pa_cfg reg. */
		val64 = readq(&bar0->rx_pa_cfg);
		val64 |= RX_PA_CFG_IGNORE_L2_ERR;
		writeq(val64, &bar0->rx_pa_cfg);
	}
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1961
	/*
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	 * Enabling MC-RLDRAM. After enabling the device, we timeout
	 * for around 100ms, which is approximately the time required
	 * for the device to be ready for operation.
	 */
	val64 = readq(&bar0->mc_rldram_mrs);
	val64 |= MC_RLDRAM_QUEUE_SIZE_ENABLE | MC_RLDRAM_MRS_ENABLE;
	SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_mrs, UF);
	val64 = readq(&bar0->mc_rldram_mrs);

1971
	msleep(100);	/* Delay by around 100 ms. */
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	/* Enabling ECC Protection. */
	val64 = readq(&bar0->adapter_control);
	val64 &= ~ADAPTER_ECC_EN;
	writeq(val64, &bar0->adapter_control);

1978 1979
	/*
	 * Clearing any possible Link state change interrupts that
L
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	 * could have popped up just before Enabling the card.
	 */
	val64 = readq(&bar0->mac_rmac_err_reg);
	if (val64)
		writeq(val64, &bar0->mac_rmac_err_reg);

1986 1987
	/*
	 * Verify if the device is ready to be enabled, if so enable
L
Linus Torvalds 已提交
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	 * it.
	 */
	val64 = readq(&bar0->adapter_status);
1991
	if (!verify_xena_quiescence(nic, val64, nic->device_enabled_once)) {
L
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		DBG_PRINT(ERR_DBG, "%s: device is not ready, ", dev->name);
		DBG_PRINT(ERR_DBG, "Adapter status reads: 0x%llx\n",
			  (unsigned long long) val64);
		return FAILURE;
	}

	/*  Enable select interrupts */
1999 2000 2001 2002 2003 2004 2005 2006
	if (nic->intr_type != INTA)
		en_dis_able_nic_intrs(nic, ENA_ALL_INTRS, DISABLE_INTRS);
	else {
		interruptible = TX_TRAFFIC_INTR | RX_TRAFFIC_INTR;
		interruptible |= TX_PIC_INTR | RX_PIC_INTR;
		interruptible |= TX_MAC_INTR | RX_MAC_INTR;
		en_dis_able_nic_intrs(nic, interruptible, ENABLE_INTRS);
	}
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2007

2008
	/*
L
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	 * With some switches, link might be already up at this point.
2010 2011 2012 2013
	 * Because of this weird behavior, when we enable laser,
	 * we may not get link. We need to handle this. We cannot
	 * figure out which switch is misbehaving. So we are forced to
	 * make a global change.
L
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	 */

	/* Enabling Laser. */
	val64 = readq(&bar0->adapter_control);
	val64 |= ADAPTER_EOI_TX_ON;
	writeq(val64, &bar0->adapter_control);

	/* SXE-002: Initialize link and activity LED */
	subid = nic->pdev->subsystem_device;
2023 2024
	if (((subid & 0xFF) >= 0x07) &&
	    (nic->device_type == XFRAME_I_DEVICE)) {
L
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2025 2026 2027 2028
		val64 = readq(&bar0->gpio_control);
		val64 |= 0x0000800000000000ULL;
		writeq(val64, &bar0->gpio_control);
		val64 = 0x0411040400000000ULL;
2029
		writeq(val64, (void __iomem *)bar0 + 0x2700);
L
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2030 2031
	}

2032 2033
	/*
	 * Don't see link state interrupts on certain switches, so
L
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2034 2035 2036 2037 2038 2039
	 * directly scheduling a link state task from here.
	 */
	schedule_work(&nic->set_link_task);

	return SUCCESS;
}
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Ananda Raju 已提交
2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050
/**
 * s2io_txdl_getskb - Get the skb from txdl, unmap and return skb
 */
static struct sk_buff *s2io_txdl_getskb(fifo_info_t *fifo_data, TxD_t *txdlp, int get_off)
{
	nic_t *nic = fifo_data->nic;
	struct sk_buff *skb;
	TxD_t *txds;
	u16 j, frg_cnt;

	txds = txdlp;
2051
	if (txds->Host_Control == (u64)(long)nic->ufo_in_band_v) {
A
Ananda Raju 已提交
2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082
		pci_unmap_single(nic->pdev, (dma_addr_t)
			txds->Buffer_Pointer, sizeof(u64),
			PCI_DMA_TODEVICE);
		txds++;
	}

	skb = (struct sk_buff *) ((unsigned long)
			txds->Host_Control);
	if (!skb) {
		memset(txdlp, 0, (sizeof(TxD_t) * fifo_data->max_txds));
		return NULL;
	}
	pci_unmap_single(nic->pdev, (dma_addr_t)
			 txds->Buffer_Pointer,
			 skb->len - skb->data_len,
			 PCI_DMA_TODEVICE);
	frg_cnt = skb_shinfo(skb)->nr_frags;
	if (frg_cnt) {
		txds++;
		for (j = 0; j < frg_cnt; j++, txds++) {
			skb_frag_t *frag = &skb_shinfo(skb)->frags[j];
			if (!txds->Buffer_Pointer)
				break;
			pci_unmap_page(nic->pdev, (dma_addr_t) 
					txds->Buffer_Pointer,
				       frag->size, PCI_DMA_TODEVICE);
		}
	}
	txdlp->Host_Control = 0;
	return(skb);
}
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2083

2084 2085
/**
 *  free_tx_buffers - Free all queued Tx buffers
L
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2086
 *  @nic : device private variable.
2087
 *  Description:
L
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2088
 *  Free all queued Tx buffers.
2089
 *  Return Value: void
L
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2090 2091 2092 2093 2094 2095 2096 2097 2098 2099
*/

static void free_tx_buffers(struct s2io_nic *nic)
{
	struct net_device *dev = nic->dev;
	struct sk_buff *skb;
	TxD_t *txdp;
	int i, j;
	mac_info_t *mac_control;
	struct config_param *config;
A
Ananda Raju 已提交
2100
	int cnt = 0;
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2101 2102 2103 2104 2105 2106

	mac_control = &nic->mac_control;
	config = &nic->config;

	for (i = 0; i < config->tx_fifo_num; i++) {
		for (j = 0; j < config->tx_cfg[i].fifo_len - 1; j++) {
2107
			txdp = (TxD_t *) mac_control->fifos[i].list_info[j].
L
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2108
			    list_virt_addr;
A
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2109 2110 2111 2112
			skb = s2io_txdl_getskb(&mac_control->fifos[i], txdp, j);
			if (skb) {
				dev_kfree_skb(skb);
				cnt++;
L
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2113 2114 2115 2116 2117
			}
		}
		DBG_PRINT(INTR_DBG,
			  "%s:forcibly freeing %d skbs on FIFO%d\n",
			  dev->name, cnt, i);
2118 2119
		mac_control->fifos[i].tx_curr_get_info.offset = 0;
		mac_control->fifos[i].tx_curr_put_info.offset = 0;
L
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2120 2121 2122
	}
}

2123 2124
/**
 *   stop_nic -  To stop the nic
L
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2125
 *   @nic ; device private variable.
2126 2127
 *   Description:
 *   This function does exactly the opposite of what the start_nic()
L
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2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144
 *   function does. This function is called to stop the device.
 *   Return Value:
 *   void.
 */

static void stop_nic(struct s2io_nic *nic)
{
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
	register u64 val64 = 0;
	u16 interruptible, i;
	mac_info_t *mac_control;
	struct config_param *config;

	mac_control = &nic->mac_control;
	config = &nic->config;

	/*  Disable all interrupts */
2145
	interruptible = TX_TRAFFIC_INTR | RX_TRAFFIC_INTR;
2146 2147
	interruptible |= TX_PIC_INTR | RX_PIC_INTR;
	interruptible |= TX_MAC_INTR | RX_MAC_INTR;
L
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2148 2149 2150 2151 2152 2153 2154 2155 2156 2157
	en_dis_able_nic_intrs(nic, interruptible, DISABLE_INTRS);

	/*  Disable PRCs */
	for (i = 0; i < config->rx_ring_num; i++) {
		val64 = readq(&bar0->prc_ctrl_n[i]);
		val64 &= ~((u64) PRC_CTRL_RC_ENABLED);
		writeq(val64, &bar0->prc_ctrl_n[i]);
	}
}

2158
static int fill_rxd_3buf(nic_t *nic, RxD_t *rxdp, struct sk_buff *skb)
2159 2160 2161
{
	struct net_device *dev = nic->dev;
	struct sk_buff *frag_list;
J
Jeff Garzik 已提交
2162
	void *tmp;
2163 2164 2165 2166 2167 2168 2169 2170 2171 2172 2173 2174 2175 2176

	/* Buffer-1 receives L3/L4 headers */
	((RxD3_t*)rxdp)->Buffer1_ptr = pci_map_single
			(nic->pdev, skb->data, l3l4hdr_size + 4,
			PCI_DMA_FROMDEVICE);

	/* skb_shinfo(skb)->frag_list will have L4 data payload */
	skb_shinfo(skb)->frag_list = dev_alloc_skb(dev->mtu + ALIGN_SIZE);
	if (skb_shinfo(skb)->frag_list == NULL) {
		DBG_PRINT(ERR_DBG, "%s: dev_alloc_skb failed\n ", dev->name);
		return -ENOMEM ;
	}
	frag_list = skb_shinfo(skb)->frag_list;
	frag_list->next = NULL;
J
Jeff Garzik 已提交
2177 2178 2179
	tmp = (void *)ALIGN((long)frag_list->data, ALIGN_SIZE + 1);
	frag_list->data = tmp;
	frag_list->tail = tmp;
2180 2181 2182 2183 2184 2185 2186 2187 2188 2189 2190

	/* Buffer-2 receives L4 data payload */
	((RxD3_t*)rxdp)->Buffer2_ptr = pci_map_single(nic->pdev,
				frag_list->data, dev->mtu,
				PCI_DMA_FROMDEVICE);
	rxdp->Control_2 |= SET_BUFFER1_SIZE_3(l3l4hdr_size + 4);
	rxdp->Control_2 |= SET_BUFFER2_SIZE_3(dev->mtu);

	return SUCCESS;
}

2191 2192
/**
 *  fill_rx_buffers - Allocates the Rx side skbs
L
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2193
 *  @nic:  device private variable
2194 2195
 *  @ring_no: ring number
 *  Description:
L
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2196 2197 2198 2199 2200 2201 2202
 *  The function allocates Rx side skbs and puts the physical
 *  address of these buffers into the RxD buffer pointers, so that the NIC
 *  can DMA the received frame into these locations.
 *  The NIC supports 3 receive modes, viz
 *  1. single buffer,
 *  2. three buffer and
 *  3. Five buffer modes.
2203 2204
 *  Each mode defines how many fragments the received frame will be split
 *  up into by the NIC. The frame is split into L3 header, L4 Header,
L
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2205 2206 2207 2208 2209 2210 2211
 *  L4 payload in three buffer mode and in 5 buffer mode, L4 payload itself
 *  is split into 3 fragments. As of now only single buffer mode is
 *  supported.
 *   Return Value:
 *  SUCCESS on success or an appropriate -ve value on failure.
 */

2212
static int fill_rx_buffers(struct s2io_nic *nic, int ring_no)
L
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2213 2214 2215 2216 2217 2218
{
	struct net_device *dev = nic->dev;
	struct sk_buff *skb;
	RxD_t *rxdp;
	int off, off1, size, block_no, block_no1;
	u32 alloc_tab = 0;
2219
	u32 alloc_cnt;
L
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2220 2221
	mac_info_t *mac_control;
	struct config_param *config;
2222
	u64 tmp;
L
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2223 2224 2225 2226
	buffAdd_t *ba;
#ifndef CONFIG_S2IO_NAPI
	unsigned long flags;
#endif
2227
	RxD_t *first_rxdp = NULL;
L
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2228 2229 2230

	mac_control = &nic->mac_control;
	config = &nic->config;
2231 2232
	alloc_cnt = mac_control->rings[ring_no].pkt_cnt -
	    atomic_read(&nic->rx_bufs_left[ring_no]);
L
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2233 2234

	while (alloc_tab < alloc_cnt) {
2235
		block_no = mac_control->rings[ring_no].rx_curr_put_info.
L
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2236
		    block_index;
2237
		block_no1 = mac_control->rings[ring_no].rx_curr_get_info.
L
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2238
		    block_index;
2239 2240
		off = mac_control->rings[ring_no].rx_curr_put_info.offset;
		off1 = mac_control->rings[ring_no].rx_curr_get_info.offset;
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2241

2242 2243 2244 2245 2246 2247 2248
		rxdp = mac_control->rings[ring_no].
				rx_blocks[block_no].rxds[off].virt_addr;

		if ((block_no == block_no1) && (off == off1) &&
					(rxdp->Host_Control)) {
			DBG_PRINT(INTR_DBG, "%s: Get and Put",
				  dev->name);
L
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2249 2250 2251
			DBG_PRINT(INTR_DBG, " info equated\n");
			goto end;
		}
2252
		if (off && (off == rxd_count[nic->rxd_mode])) {
2253
			mac_control->rings[ring_no].rx_curr_put_info.
L
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			    block_index++;
2255 2256 2257 2258 2259 2260 2261 2262 2263
			if (mac_control->rings[ring_no].rx_curr_put_info.
			    block_index == mac_control->rings[ring_no].
					block_count)
				mac_control->rings[ring_no].rx_curr_put_info.
					block_index = 0;
			block_no = mac_control->rings[ring_no].
					rx_curr_put_info.block_index;
			if (off == rxd_count[nic->rxd_mode])
				off = 0;
2264
			mac_control->rings[ring_no].rx_curr_put_info.
2265 2266 2267
				offset = off;
			rxdp = mac_control->rings[ring_no].
				rx_blocks[block_no].block_virt_addr;
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2268 2269 2270 2271 2272
			DBG_PRINT(INTR_DBG, "%s: Next block at: %p\n",
				  dev->name, rxdp);
		}
#ifndef CONFIG_S2IO_NAPI
		spin_lock_irqsave(&nic->put_lock, flags);
2273
		mac_control->rings[ring_no].put_pos =
2274
		    (block_no * (rxd_count[nic->rxd_mode] + 1)) + off;
L
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2275 2276
		spin_unlock_irqrestore(&nic->put_lock, flags);
#endif
2277 2278 2279
		if ((rxdp->Control_1 & RXD_OWN_XENA) &&
			((nic->rxd_mode >= RXD_MODE_3A) &&
				(rxdp->Control_2 & BIT(0)))) {
2280
			mac_control->rings[ring_no].rx_curr_put_info.
2281
					offset = off;
L
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2282 2283
			goto end;
		}
2284 2285 2286 2287 2288 2289 2290 2291 2292
		/* calculate size of skb based on ring mode */
		size = dev->mtu + HEADER_ETHERNET_II_802_3_SIZE +
				HEADER_802_2_SIZE + HEADER_SNAP_SIZE;
		if (nic->rxd_mode == RXD_MODE_1)
			size += NET_IP_ALIGN;
		else if (nic->rxd_mode == RXD_MODE_3B)
			size = dev->mtu + ALIGN_SIZE + BUF0_LEN + 4;
		else
			size = l3l4hdr_size + ALIGN_SIZE + BUF0_LEN + 4;
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2293

2294 2295 2296
		/* allocate skb */
		skb = dev_alloc_skb(size);
		if(!skb) {
L
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2297 2298
			DBG_PRINT(ERR_DBG, "%s: Out of ", dev->name);
			DBG_PRINT(ERR_DBG, "memory to allocate SKBs\n");
2299 2300 2301 2302
			if (first_rxdp) {
				wmb();
				first_rxdp->Control_1 |= RXD_OWN_XENA;
			}
2303 2304 2305 2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 2321 2322 2323 2324 2325 2326 2327 2328 2329 2330 2331 2332 2333 2334 2335 2336 2337 2338 2339 2340 2341 2342 2343 2344 2345 2346 2347 2348 2349 2350 2351 2352 2353 2354 2355 2356 2357 2358 2359 2360 2361 2362 2363 2364 2365 2366 2367 2368 2369
			return -ENOMEM ;
		}
		if (nic->rxd_mode == RXD_MODE_1) {
			/* 1 buffer mode - normal operation mode */
			memset(rxdp, 0, sizeof(RxD1_t));
			skb_reserve(skb, NET_IP_ALIGN);
			((RxD1_t*)rxdp)->Buffer0_ptr = pci_map_single
			    (nic->pdev, skb->data, size, PCI_DMA_FROMDEVICE);
			rxdp->Control_2 &= (~MASK_BUFFER0_SIZE_1);
			rxdp->Control_2 |= SET_BUFFER0_SIZE_1(size);

		} else if (nic->rxd_mode >= RXD_MODE_3A) {
			/*
			 * 2 or 3 buffer mode -
			 * Both 2 buffer mode and 3 buffer mode provides 128
			 * byte aligned receive buffers.
			 *
			 * 3 buffer mode provides header separation where in
			 * skb->data will have L3/L4 headers where as
			 * skb_shinfo(skb)->frag_list will have the L4 data
			 * payload
			 */

			memset(rxdp, 0, sizeof(RxD3_t));
			ba = &mac_control->rings[ring_no].ba[block_no][off];
			skb_reserve(skb, BUF0_LEN);
			tmp = (u64)(unsigned long) skb->data;
			tmp += ALIGN_SIZE;
			tmp &= ~ALIGN_SIZE;
			skb->data = (void *) (unsigned long)tmp;
			skb->tail = (void *) (unsigned long)tmp;

			((RxD3_t*)rxdp)->Buffer0_ptr =
			    pci_map_single(nic->pdev, ba->ba_0, BUF0_LEN,
					   PCI_DMA_FROMDEVICE);
			rxdp->Control_2 = SET_BUFFER0_SIZE_3(BUF0_LEN);
			if (nic->rxd_mode == RXD_MODE_3B) {
				/* Two buffer mode */

				/*
				 * Buffer2 will have L3/L4 header plus 
				 * L4 payload
				 */
				((RxD3_t*)rxdp)->Buffer2_ptr = pci_map_single
				(nic->pdev, skb->data, dev->mtu + 4,
						PCI_DMA_FROMDEVICE);

				/* Buffer-1 will be dummy buffer not used */
				((RxD3_t*)rxdp)->Buffer1_ptr =
				pci_map_single(nic->pdev, ba->ba_1, BUF1_LEN,
					PCI_DMA_FROMDEVICE);
				rxdp->Control_2 |= SET_BUFFER1_SIZE_3(1);
				rxdp->Control_2 |= SET_BUFFER2_SIZE_3
								(dev->mtu + 4);
			} else {
				/* 3 buffer mode */
				if (fill_rxd_3buf(nic, rxdp, skb) == -ENOMEM) {
					dev_kfree_skb_irq(skb);
					if (first_rxdp) {
						wmb();
						first_rxdp->Control_1 |=
							RXD_OWN_XENA;
					}
					return -ENOMEM ;
				}
			}
			rxdp->Control_2 |= BIT(0);
L
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2370 2371
		}
		rxdp->Host_Control = (unsigned long) (skb);
2372 2373
		if (alloc_tab & ((1 << rxsync_frequency) - 1))
			rxdp->Control_1 |= RXD_OWN_XENA;
L
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2374
		off++;
2375 2376
		if (off == (rxd_count[nic->rxd_mode] + 1))
			off = 0;
2377 2378
		mac_control->rings[ring_no].rx_curr_put_info.offset = off;

2379
		rxdp->Control_2 |= SET_RXD_MARKER;
2380 2381 2382 2383 2384 2385 2386
		if (!(alloc_tab & ((1 << rxsync_frequency) - 1))) {
			if (first_rxdp) {
				wmb();
				first_rxdp->Control_1 |= RXD_OWN_XENA;
			}
			first_rxdp = rxdp;
		}
L
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2387 2388 2389 2390 2391
		atomic_inc(&nic->rx_bufs_left[ring_no]);
		alloc_tab++;
	}

      end:
2392 2393 2394 2395 2396 2397 2398 2399 2400
	/* Transfer ownership of first descriptor to adapter just before
	 * exiting. Before that, use memory barrier so that ownership
	 * and other fields are seen by adapter correctly.
	 */
	if (first_rxdp) {
		wmb();
		first_rxdp->Control_1 |= RXD_OWN_XENA;
	}

L
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2401 2402 2403
	return SUCCESS;
}

2404 2405 2406 2407 2408 2409 2410 2411 2412 2413 2414 2415 2416 2417 2418 2419 2420 2421 2422 2423 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459 2460 2461 2462 2463 2464
static void free_rxd_blk(struct s2io_nic *sp, int ring_no, int blk)
{
	struct net_device *dev = sp->dev;
	int j;
	struct sk_buff *skb;
	RxD_t *rxdp;
	mac_info_t *mac_control;
	buffAdd_t *ba;

	mac_control = &sp->mac_control;
	for (j = 0 ; j < rxd_count[sp->rxd_mode]; j++) {
		rxdp = mac_control->rings[ring_no].
                                rx_blocks[blk].rxds[j].virt_addr;
		skb = (struct sk_buff *)
			((unsigned long) rxdp->Host_Control);
		if (!skb) {
			continue;
		}
		if (sp->rxd_mode == RXD_MODE_1) {
			pci_unmap_single(sp->pdev, (dma_addr_t)
				 ((RxD1_t*)rxdp)->Buffer0_ptr,
				 dev->mtu +
				 HEADER_ETHERNET_II_802_3_SIZE
				 + HEADER_802_2_SIZE +
				 HEADER_SNAP_SIZE,
				 PCI_DMA_FROMDEVICE);
			memset(rxdp, 0, sizeof(RxD1_t));
		} else if(sp->rxd_mode == RXD_MODE_3B) {
			ba = &mac_control->rings[ring_no].
				ba[blk][j];
			pci_unmap_single(sp->pdev, (dma_addr_t)
				 ((RxD3_t*)rxdp)->Buffer0_ptr,
				 BUF0_LEN,
				 PCI_DMA_FROMDEVICE);
			pci_unmap_single(sp->pdev, (dma_addr_t)
				 ((RxD3_t*)rxdp)->Buffer1_ptr,
				 BUF1_LEN,
				 PCI_DMA_FROMDEVICE);
			pci_unmap_single(sp->pdev, (dma_addr_t)
				 ((RxD3_t*)rxdp)->Buffer2_ptr,
				 dev->mtu + 4,
				 PCI_DMA_FROMDEVICE);
			memset(rxdp, 0, sizeof(RxD3_t));
		} else {
			pci_unmap_single(sp->pdev, (dma_addr_t)
				((RxD3_t*)rxdp)->Buffer0_ptr, BUF0_LEN,
				PCI_DMA_FROMDEVICE);
			pci_unmap_single(sp->pdev, (dma_addr_t)
				((RxD3_t*)rxdp)->Buffer1_ptr, 
				l3l4hdr_size + 4,
				PCI_DMA_FROMDEVICE);
			pci_unmap_single(sp->pdev, (dma_addr_t)
				((RxD3_t*)rxdp)->Buffer2_ptr, dev->mtu,
				PCI_DMA_FROMDEVICE);
			memset(rxdp, 0, sizeof(RxD3_t));
		}
		dev_kfree_skb(skb);
		atomic_dec(&sp->rx_bufs_left[ring_no]);
	}
}

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2465
/**
2466
 *  free_rx_buffers - Frees all Rx buffers
L
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2467
 *  @sp: device private variable.
2468
 *  Description:
L
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2469 2470 2471 2472 2473 2474 2475 2476
 *  This function will free all Rx buffers allocated by host.
 *  Return Value:
 *  NONE.
 */

static void free_rx_buffers(struct s2io_nic *sp)
{
	struct net_device *dev = sp->dev;
2477
	int i, blk = 0, buf_cnt = 0;
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2478 2479 2480 2481 2482 2483 2484
	mac_info_t *mac_control;
	struct config_param *config;

	mac_control = &sp->mac_control;
	config = &sp->config;

	for (i = 0; i < config->rx_ring_num; i++) {
2485 2486
		for (blk = 0; blk < rx_ring_sz[i]; blk++)
			free_rxd_blk(sp,i,blk);
L
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2487

2488 2489 2490 2491
		mac_control->rings[i].rx_curr_put_info.block_index = 0;
		mac_control->rings[i].rx_curr_get_info.block_index = 0;
		mac_control->rings[i].rx_curr_put_info.offset = 0;
		mac_control->rings[i].rx_curr_get_info.offset = 0;
L
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2492 2493 2494 2495 2496 2497 2498 2499 2500
		atomic_set(&sp->rx_bufs_left[i], 0);
		DBG_PRINT(INIT_DBG, "%s:Freed 0x%x Rx Buffers on ring%d\n",
			  dev->name, buf_cnt, i);
	}
}

/**
 * s2io_poll - Rx interrupt handler for NAPI support
 * @dev : pointer to the device structure.
2501
 * @budget : The number of packets that were budgeted to be processed
L
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 * during  one pass through the 'Poll" function.
 * Description:
 * Comes into picture only if NAPI support has been incorporated. It does
 * the same thing that rx_intr_handler does, but not in a interrupt context
 * also It will process only a given number of packets.
 * Return value:
 * 0 on success and 1 if there are No Rx packets to be processed.
 */

2511
#if defined(CONFIG_S2IO_NAPI)
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static int s2io_poll(struct net_device *dev, int *budget)
{
	nic_t *nic = dev->priv;
2515
	int pkt_cnt = 0, org_pkts_to_process;
L
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2516 2517
	mac_info_t *mac_control;
	struct config_param *config;
2518
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
2519 2520
	u64 val64;
	int i;
L
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2521

2522
	atomic_inc(&nic->isr_cnt);
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2523 2524 2525
	mac_control = &nic->mac_control;
	config = &nic->config;

2526 2527 2528 2529
	nic->pkts_to_process = *budget;
	if (nic->pkts_to_process > dev->quota)
		nic->pkts_to_process = dev->quota;
	org_pkts_to_process = nic->pkts_to_process;
L
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2530 2531 2532 2533 2534

	val64 = readq(&bar0->rx_traffic_int);
	writeq(val64, &bar0->rx_traffic_int);

	for (i = 0; i < config->rx_ring_num; i++) {
2535 2536 2537 2538 2539
		rx_intr_handler(&mac_control->rings[i]);
		pkt_cnt = org_pkts_to_process - nic->pkts_to_process;
		if (!nic->pkts_to_process) {
			/* Quota for the current iteration has been met */
			goto no_rx;
L
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2540 2541 2542 2543 2544 2545 2546 2547 2548 2549 2550 2551 2552 2553 2554 2555 2556 2557
		}
	}
	if (!pkt_cnt)
		pkt_cnt = 1;

	dev->quota -= pkt_cnt;
	*budget -= pkt_cnt;
	netif_rx_complete(dev);

	for (i = 0; i < config->rx_ring_num; i++) {
		if (fill_rx_buffers(nic, i) == -ENOMEM) {
			DBG_PRINT(ERR_DBG, "%s:Out of memory", dev->name);
			DBG_PRINT(ERR_DBG, " in Rx Poll!!\n");
			break;
		}
	}
	/* Re enable the Rx interrupts. */
	en_dis_able_nic_intrs(nic, RX_TRAFFIC_INTR, ENABLE_INTRS);
2558
	atomic_dec(&nic->isr_cnt);
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2559 2560
	return 0;

2561
no_rx:
L
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2562 2563 2564 2565 2566 2567 2568 2569 2570 2571
	dev->quota -= pkt_cnt;
	*budget -= pkt_cnt;

	for (i = 0; i < config->rx_ring_num; i++) {
		if (fill_rx_buffers(nic, i) == -ENOMEM) {
			DBG_PRINT(ERR_DBG, "%s:Out of memory", dev->name);
			DBG_PRINT(ERR_DBG, " in Rx Poll!!\n");
			break;
		}
	}
2572
	atomic_dec(&nic->isr_cnt);
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2573 2574
	return 1;
}
2575 2576 2577
#endif

/**
L
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2578 2579
 *  rx_intr_handler - Rx interrupt handler
 *  @nic: device private variable.
2580 2581
 *  Description:
 *  If the interrupt is because of a received frame or if the
L
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2582
 *  receive ring contains fresh as yet un-processed frames,this function is
2583 2584
 *  called. It picks out the RxD at which place the last Rx processing had
 *  stopped and sends the skb to the OSM's Rx handler and then increments
L
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2585 2586 2587 2588
 *  the offset.
 *  Return Value:
 *  NONE.
 */
2589
static void rx_intr_handler(ring_info_t *ring_data)
L
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2590
{
2591
	nic_t *nic = ring_data->nic;
L
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2592
	struct net_device *dev = (struct net_device *) nic->dev;
2593
	int get_block, put_block, put_offset;
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2594 2595 2596
	rx_curr_get_info_t get_info, put_info;
	RxD_t *rxdp;
	struct sk_buff *skb;
2597 2598
#ifndef CONFIG_S2IO_NAPI
	int pkt_cnt = 0;
L
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2599
#endif
2600 2601
	int i;

2602 2603
	spin_lock(&nic->rx_lock);
	if (atomic_read(&nic->card_state) == CARD_DOWN) {
2604
		DBG_PRINT(INTR_DBG, "%s: %s going down for reset\n",
2605 2606
			  __FUNCTION__, dev->name);
		spin_unlock(&nic->rx_lock);
2607
		return;
2608 2609
	}

2610 2611 2612 2613
	get_info = ring_data->rx_curr_get_info;
	get_block = get_info.block_index;
	put_info = ring_data->rx_curr_put_info;
	put_block = put_info.block_index;
2614
	rxdp = ring_data->rx_blocks[get_block].rxds[get_info.offset].virt_addr;
2615 2616 2617 2618 2619
#ifndef CONFIG_S2IO_NAPI
	spin_lock(&nic->put_lock);
	put_offset = ring_data->put_pos;
	spin_unlock(&nic->put_lock);
#else
2620
	put_offset = (put_block * (rxd_count[nic->rxd_mode] + 1)) +
2621 2622
		put_info.offset;
#endif
2623 2624 2625 2626 2627 2628 2629
	while (RXD_IS_UP2DT(rxdp)) {
		/* If your are next to put index then it's FIFO full condition */
		if ((get_block == put_block) &&
		    (get_info.offset + 1) == put_info.offset) {
			DBG_PRINT(ERR_DBG, "%s: Ring Full\n",dev->name);
			break;
		}
2630 2631 2632 2633 2634
		skb = (struct sk_buff *) ((unsigned long)rxdp->Host_Control);
		if (skb == NULL) {
			DBG_PRINT(ERR_DBG, "%s: The skb is ",
				  dev->name);
			DBG_PRINT(ERR_DBG, "Null in Rx Intr\n");
2635
			spin_unlock(&nic->rx_lock);
2636
			return;
L
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2637
		}
2638 2639 2640
		if (nic->rxd_mode == RXD_MODE_1) {
			pci_unmap_single(nic->pdev, (dma_addr_t)
				 ((RxD1_t*)rxdp)->Buffer0_ptr,
2641 2642 2643 2644 2645
				 dev->mtu +
				 HEADER_ETHERNET_II_802_3_SIZE +
				 HEADER_802_2_SIZE +
				 HEADER_SNAP_SIZE,
				 PCI_DMA_FROMDEVICE);
2646 2647 2648
		} else if (nic->rxd_mode == RXD_MODE_3B) {
			pci_unmap_single(nic->pdev, (dma_addr_t)
				 ((RxD3_t*)rxdp)->Buffer0_ptr,
2649
				 BUF0_LEN, PCI_DMA_FROMDEVICE);
2650 2651
			pci_unmap_single(nic->pdev, (dma_addr_t)
				 ((RxD3_t*)rxdp)->Buffer1_ptr,
2652
				 BUF1_LEN, PCI_DMA_FROMDEVICE);
2653 2654 2655
			pci_unmap_single(nic->pdev, (dma_addr_t)
				 ((RxD3_t*)rxdp)->Buffer2_ptr,
				 dev->mtu + 4,
2656
				 PCI_DMA_FROMDEVICE);
2657 2658 2659 2660 2661 2662 2663 2664 2665 2666 2667 2668
		} else {
			pci_unmap_single(nic->pdev, (dma_addr_t)
					 ((RxD3_t*)rxdp)->Buffer0_ptr, BUF0_LEN,
					 PCI_DMA_FROMDEVICE);
			pci_unmap_single(nic->pdev, (dma_addr_t)
					 ((RxD3_t*)rxdp)->Buffer1_ptr,
					 l3l4hdr_size + 4,
					 PCI_DMA_FROMDEVICE);
			pci_unmap_single(nic->pdev, (dma_addr_t)
					 ((RxD3_t*)rxdp)->Buffer2_ptr,
					 dev->mtu, PCI_DMA_FROMDEVICE);
		}
2669 2670
		rx_osm_handler(ring_data, rxdp);
		get_info.offset++;
2671 2672 2673 2674
		ring_data->rx_curr_get_info.offset = get_info.offset;
		rxdp = ring_data->rx_blocks[get_block].
				rxds[get_info.offset].virt_addr;
		if (get_info.offset == rxd_count[nic->rxd_mode]) {
2675
			get_info.offset = 0;
2676
			ring_data->rx_curr_get_info.offset = get_info.offset;
2677
			get_block++;
2678 2679 2680
			if (get_block == ring_data->block_count)
				get_block = 0;
			ring_data->rx_curr_get_info.block_index = get_block;
2681 2682
			rxdp = ring_data->rx_blocks[get_block].block_virt_addr;
		}
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2684 2685 2686 2687 2688 2689
#ifdef CONFIG_S2IO_NAPI
		nic->pkts_to_process -= 1;
		if (!nic->pkts_to_process)
			break;
#else
		pkt_cnt++;
L
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2690 2691
		if ((indicate_max_pkts) && (pkt_cnt > indicate_max_pkts))
			break;
2692
#endif
L
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2693
	}
2694 2695 2696 2697 2698 2699 2700 2701 2702 2703 2704 2705
	if (nic->lro) {
		/* Clear all LRO sessions before exiting */
		for (i=0; i<MAX_LRO_SESSIONS; i++) {
			lro_t *lro = &nic->lro0_n[i];
			if (lro->in_use) {
				update_L3L4_header(nic, lro);
				queue_rx_frame(lro->parent);
				clear_lro_session(lro);
			}
		}
	}

2706
	spin_unlock(&nic->rx_lock);
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2707
}
2708 2709

/**
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2710 2711
 *  tx_intr_handler - Transmit interrupt handler
 *  @nic : device private variable
2712 2713 2714 2715
 *  Description:
 *  If an interrupt was raised to indicate DMA complete of the
 *  Tx packet, this function is called. It identifies the last TxD
 *  whose buffer was freed and frees all skbs whose data have already
L
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2716 2717 2718 2719 2720
 *  DMA'ed into the NICs internal memory.
 *  Return Value:
 *  NONE
 */

2721
static void tx_intr_handler(fifo_info_t *fifo_data)
L
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2722
{
2723
	nic_t *nic = fifo_data->nic;
L
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2724 2725 2726 2727 2728
	struct net_device *dev = (struct net_device *) nic->dev;
	tx_curr_get_info_t get_info, put_info;
	struct sk_buff *skb;
	TxD_t *txdlp;

2729 2730 2731 2732 2733 2734 2735 2736 2737 2738 2739
	get_info = fifo_data->tx_curr_get_info;
	put_info = fifo_data->tx_curr_put_info;
	txdlp = (TxD_t *) fifo_data->list_info[get_info.offset].
	    list_virt_addr;
	while ((!(txdlp->Control_1 & TXD_LIST_OWN_XENA)) &&
	       (get_info.offset != put_info.offset) &&
	       (txdlp->Host_Control)) {
		/* Check for TxD errors */
		if (txdlp->Control_1 & TXD_T_CODE) {
			unsigned long long err;
			err = txdlp->Control_1 & TXD_T_CODE;
2740 2741
			if ((err >> 48) == 0xA) {
				DBG_PRINT(TX_DBG, "TxD returned due \
2742
to loss of link\n");
2743 2744 2745
			}
			else {
				DBG_PRINT(ERR_DBG, "***TxD error \
2746
%llx\n", err);
2747
			}
2748
		}
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2749

A
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2750
		skb = s2io_txdl_getskb(fifo_data, txdlp, get_info.offset);
2751 2752 2753 2754 2755 2756 2757 2758 2759 2760 2761 2762 2763 2764 2765 2766 2767
		if (skb == NULL) {
			DBG_PRINT(ERR_DBG, "%s: Null skb ",
			__FUNCTION__);
			DBG_PRINT(ERR_DBG, "in Tx Free Intr\n");
			return;
		}

		/* Updating the statistics block */
		nic->stats.tx_bytes += skb->len;
		dev_kfree_skb_irq(skb);

		get_info.offset++;
		get_info.offset %= get_info.fifo_len + 1;
		txdlp = (TxD_t *) fifo_data->list_info
		    [get_info.offset].list_virt_addr;
		fifo_data->tx_curr_get_info.offset =
		    get_info.offset;
L
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2768 2769 2770 2771 2772 2773 2774 2775
	}

	spin_lock(&nic->tx_lock);
	if (netif_queue_stopped(dev))
		netif_wake_queue(dev);
	spin_unlock(&nic->tx_lock);
}

2776
/**
L
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2777 2778
 *  alarm_intr_handler - Alarm Interrrupt handler
 *  @nic: device private variable
2779
 *  Description: If the interrupt was neither because of Rx packet or Tx
L
Linus Torvalds 已提交
2780
 *  complete, this function is called. If the interrupt was to indicate
2781 2782
 *  a loss of link, the OSM link status handler is invoked for any other
 *  alarm interrupt the block that raised the interrupt is displayed
L
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2783 2784 2785 2786 2787 2788 2789 2790 2791 2792 2793 2794
 *  and a H/W reset is issued.
 *  Return Value:
 *  NONE
*/

static void alarm_intr_handler(struct s2io_nic *nic)
{
	struct net_device *dev = (struct net_device *) nic->dev;
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
	register u64 val64 = 0, err_reg = 0;

	/* Handling link status change error Intr */
2795 2796 2797 2798 2799 2800
	if (s2io_link_fault_indication(nic) == MAC_RMAC_ERR_TIMER) {
		err_reg = readq(&bar0->mac_rmac_err_reg);
		writeq(err_reg, &bar0->mac_rmac_err_reg);
		if (err_reg & RMAC_LINK_STATE_CHANGE_INT) {
			schedule_work(&nic->set_link_task);
		}
L
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2801 2802
	}

2803 2804 2805 2806 2807
	/* Handling Ecc errors */
	val64 = readq(&bar0->mc_err_reg);
	writeq(val64, &bar0->mc_err_reg);
	if (val64 & (MC_ERR_REG_ECC_ALL_SNG | MC_ERR_REG_ECC_ALL_DBL)) {
		if (val64 & MC_ERR_REG_ECC_ALL_DBL) {
2808 2809
			nic->mac_control.stats_info->sw_stat.
				double_ecc_errs++;
2810
			DBG_PRINT(INIT_DBG, "%s: Device indicates ",
2811
				  dev->name);
2812
			DBG_PRINT(INIT_DBG, "double ECC error!!\n");
2813
			if (nic->device_type != XFRAME_II_DEVICE) {
2814 2815 2816 2817 2818 2819
				/* Reset XframeI only if critical error */
				if (val64 & (MC_ERR_REG_MIRI_ECC_DB_ERR_0 |
					     MC_ERR_REG_MIRI_ECC_DB_ERR_1)) {
					netif_stop_queue(dev);
					schedule_work(&nic->rst_timer_task);
				}
2820
			}
2821
		} else {
2822 2823
			nic->mac_control.stats_info->sw_stat.
				single_ecc_errs++;
2824 2825 2826
		}
	}

L
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2827 2828 2829 2830
	/* In case of a serious error, the device will be Reset. */
	val64 = readq(&bar0->serr_source);
	if (val64 & SERR_SOURCE_ANY) {
		DBG_PRINT(ERR_DBG, "%s: Device indicates ", dev->name);
2831 2832
		DBG_PRINT(ERR_DBG, "serious error %llx!!\n", 
			  (unsigned long long)val64);
L
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2833 2834 2835 2836 2837 2838 2839
		netif_stop_queue(dev);
		schedule_work(&nic->rst_timer_task);
	}

	/*
	 * Also as mentioned in the latest Errata sheets if the PCC_FB_ECC
	 * Error occurs, the adapter will be recycled by disabling the
2840
	 * adapter enable bit and enabling it again after the device
L
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2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852 2853 2854 2855
	 * becomes Quiescent.
	 */
	val64 = readq(&bar0->pcc_err_reg);
	writeq(val64, &bar0->pcc_err_reg);
	if (val64 & PCC_FB_ECC_DB_ERR) {
		u64 ac = readq(&bar0->adapter_control);
		ac &= ~(ADAPTER_CNTL_EN);
		writeq(ac, &bar0->adapter_control);
		ac = readq(&bar0->adapter_control);
		schedule_work(&nic->set_link_task);
	}

	/* Other type of interrupts are not being handled now,  TODO */
}

2856
/**
L
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2857
 *  wait_for_cmd_complete - waits for a command to complete.
2858
 *  @sp : private member of the device structure, which is a pointer to the
L
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2859
 *  s2io_nic structure.
2860 2861 2862
 *  Description: Function that waits for a command to Write into RMAC
 *  ADDR DATA registers to be completed and returns either success or
 *  error depending on whether the command was complete or not.
L
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2863 2864 2865 2866
 *  Return value:
 *   SUCCESS on success and FAILURE on failure.
 */

2867
static int wait_for_cmd_complete(nic_t * sp)
L
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2868 2869 2870 2871 2872 2873 2874 2875 2876 2877 2878 2879 2880 2881 2882 2883 2884 2885 2886
{
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	int ret = FAILURE, cnt = 0;
	u64 val64;

	while (TRUE) {
		val64 = readq(&bar0->rmac_addr_cmd_mem);
		if (!(val64 & RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING)) {
			ret = SUCCESS;
			break;
		}
		msleep(50);
		if (cnt++ > 10)
			break;
	}

	return ret;
}

2887 2888
/**
 *  s2io_reset - Resets the card.
L
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2889 2890
 *  @sp : private member of the device structure.
 *  Description: Function to Reset the card. This function then also
2891
 *  restores the previously saved PCI configuration space registers as
L
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2892 2893 2894 2895 2896
 *  the card reset also resets the configuration space.
 *  Return value:
 *  void.
 */

2897
static void s2io_reset(nic_t * sp)
L
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2898 2899 2900
{
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64;
2901
	u16 subid, pci_cmd;
L
Linus Torvalds 已提交
2902

2903
	/* Back up  the PCI-X CMD reg, dont want to lose MMRBC, OST settings */
2904
	pci_read_config_word(sp->pdev, PCIX_COMMAND_REGISTER, &(pci_cmd));
2905

L
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2906 2907 2908
	val64 = SW_RESET_ALL;
	writeq(val64, &bar0->sw_reset);

2909 2910 2911 2912
	/*
	 * At this stage, if the PCI write is indeed completed, the
	 * card is reset and so is the PCI Config space of the device.
	 * So a read cannot be issued at this stage on any of the
L
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2913 2914 2915 2916 2917 2918 2919 2920 2921 2922
	 * registers to ensure the write into "sw_reset" register
	 * has gone through.
	 * Question: Is there any system call that will explicitly force
	 * all the write commands still pending on the bus to be pushed
	 * through?
	 * As of now I'am just giving a 250ms delay and hoping that the
	 * PCI write to sw_reset register is done by this time.
	 */
	msleep(250);

2923 2924 2925
	/* Restore the PCI state saved during initialization. */
	pci_restore_state(sp->pdev);
	pci_write_config_word(sp->pdev, PCIX_COMMAND_REGISTER,
2926
				     pci_cmd);
L
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2927 2928 2929 2930
	s2io_init_pci(sp);

	msleep(250);

2931 2932 2933
	/* Set swapper to enable I/O register access */
	s2io_set_swapper(sp);

2934 2935 2936
	/* Restore the MSIX table entries from local variables */
	restore_xmsi_data(sp);

2937
	/* Clear certain PCI/PCI-X fields after reset */
2938 2939 2940
	if (sp->device_type == XFRAME_II_DEVICE) {
		/* Clear parity err detect bit */
		pci_write_config_word(sp->pdev, PCI_STATUS, 0x8000);
2941

2942 2943
		/* Clearing PCIX Ecc status register */
		pci_write_config_dword(sp->pdev, 0x68, 0x7C);
2944

2945 2946 2947
		/* Clearing PCI_STATUS error reflected here */
		writeq(BIT(62), &bar0->txpic_int_reg);
	}
2948

2949 2950 2951
	/* Reset device statistics maintained by OS */
	memset(&sp->stats, 0, sizeof (struct net_device_stats));

L
Linus Torvalds 已提交
2952 2953
	/* SXE-002: Configure link and activity LED to turn it off */
	subid = sp->pdev->subsystem_device;
2954 2955
	if (((subid & 0xFF) >= 0x07) &&
	    (sp->device_type == XFRAME_I_DEVICE)) {
L
Linus Torvalds 已提交
2956 2957 2958 2959
		val64 = readq(&bar0->gpio_control);
		val64 |= 0x0000800000000000ULL;
		writeq(val64, &bar0->gpio_control);
		val64 = 0x0411040400000000ULL;
2960
		writeq(val64, (void __iomem *)bar0 + 0x2700);
L
Linus Torvalds 已提交
2961 2962
	}

2963 2964 2965 2966 2967 2968 2969 2970 2971
	/*
	 * Clear spurious ECC interrupts that would have occured on
	 * XFRAME II cards after reset.
	 */
	if (sp->device_type == XFRAME_II_DEVICE) {
		val64 = readq(&bar0->pcc_err_reg);
		writeq(val64, &bar0->pcc_err_reg);
	}

L
Linus Torvalds 已提交
2972 2973 2974 2975
	sp->device_enabled_once = FALSE;
}

/**
2976 2977
 *  s2io_set_swapper - to set the swapper controle on the card
 *  @sp : private member of the device structure,
L
Linus Torvalds 已提交
2978
 *  pointer to the s2io_nic structure.
2979
 *  Description: Function to set the swapper control on the card
L
Linus Torvalds 已提交
2980 2981 2982 2983 2984
 *  correctly depending on the 'endianness' of the system.
 *  Return value:
 *  SUCCESS on success and FAILURE on failure.
 */

2985
static int s2io_set_swapper(nic_t * sp)
L
Linus Torvalds 已提交
2986 2987 2988 2989 2990
{
	struct net_device *dev = sp->dev;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64, valt, valr;

2991
	/*
L
Linus Torvalds 已提交
2992 2993 2994 2995 2996 2997 2998 2999 3000 3001 3002 3003 3004 3005 3006 3007 3008 3009 3010 3011 3012 3013 3014 3015 3016 3017 3018 3019 3020 3021 3022 3023 3024 3025 3026 3027 3028 3029 3030 3031 3032 3033 3034 3035 3036 3037 3038 3039 3040 3041 3042
	 * Set proper endian settings and verify the same by reading
	 * the PIF Feed-back register.
	 */

	val64 = readq(&bar0->pif_rd_swapper_fb);
	if (val64 != 0x0123456789ABCDEFULL) {
		int i = 0;
		u64 value[] = { 0xC30000C3C30000C3ULL,   /* FE=1, SE=1 */
				0x8100008181000081ULL,  /* FE=1, SE=0 */
				0x4200004242000042ULL,  /* FE=0, SE=1 */
				0};                     /* FE=0, SE=0 */

		while(i<4) {
			writeq(value[i], &bar0->swapper_ctrl);
			val64 = readq(&bar0->pif_rd_swapper_fb);
			if (val64 == 0x0123456789ABCDEFULL)
				break;
			i++;
		}
		if (i == 4) {
			DBG_PRINT(ERR_DBG, "%s: Endian settings are wrong, ",
				dev->name);
			DBG_PRINT(ERR_DBG, "feedback read %llx\n",
				(unsigned long long) val64);
			return FAILURE;
		}
		valr = value[i];
	} else {
		valr = readq(&bar0->swapper_ctrl);
	}

	valt = 0x0123456789ABCDEFULL;
	writeq(valt, &bar0->xmsi_address);
	val64 = readq(&bar0->xmsi_address);

	if(val64 != valt) {
		int i = 0;
		u64 value[] = { 0x00C3C30000C3C300ULL,  /* FE=1, SE=1 */
				0x0081810000818100ULL,  /* FE=1, SE=0 */
				0x0042420000424200ULL,  /* FE=0, SE=1 */
				0};                     /* FE=0, SE=0 */

		while(i<4) {
			writeq((value[i] | valr), &bar0->swapper_ctrl);
			writeq(valt, &bar0->xmsi_address);
			val64 = readq(&bar0->xmsi_address);
			if(val64 == valt)
				break;
			i++;
		}
		if(i == 4) {
3043
			unsigned long long x = val64;
L
Linus Torvalds 已提交
3044
			DBG_PRINT(ERR_DBG, "Write failed, Xmsi_addr ");
3045
			DBG_PRINT(ERR_DBG, "reads:0x%llx\n", x);
L
Linus Torvalds 已提交
3046 3047 3048 3049 3050 3051 3052
			return FAILURE;
		}
	}
	val64 = readq(&bar0->swapper_ctrl);
	val64 &= 0xFFFF000000000000ULL;

#ifdef  __BIG_ENDIAN
3053 3054
	/*
	 * The device by default set to a big endian format, so a
L
Linus Torvalds 已提交
3055 3056 3057 3058 3059 3060 3061 3062 3063 3064 3065 3066
	 * big endian driver need not set anything.
	 */
	val64 |= (SWAPPER_CTRL_TXP_FE |
		 SWAPPER_CTRL_TXP_SE |
		 SWAPPER_CTRL_TXD_R_FE |
		 SWAPPER_CTRL_TXD_W_FE |
		 SWAPPER_CTRL_TXF_R_FE |
		 SWAPPER_CTRL_RXD_R_FE |
		 SWAPPER_CTRL_RXD_W_FE |
		 SWAPPER_CTRL_RXF_W_FE |
		 SWAPPER_CTRL_XMSI_FE |
		 SWAPPER_CTRL_STATS_FE | SWAPPER_CTRL_STATS_SE);
A
Andrew Morton 已提交
3067
	if (sp->intr_type == INTA)
3068
		val64 |= SWAPPER_CTRL_XMSI_SE;
L
Linus Torvalds 已提交
3069 3070
	writeq(val64, &bar0->swapper_ctrl);
#else
3071
	/*
L
Linus Torvalds 已提交
3072
	 * Initially we enable all bits to make it accessible by the
3073
	 * driver, then we selectively enable only those bits that
L
Linus Torvalds 已提交
3074 3075 3076 3077 3078 3079 3080 3081 3082 3083 3084 3085 3086 3087 3088 3089
	 * we want to set.
	 */
	val64 |= (SWAPPER_CTRL_TXP_FE |
		 SWAPPER_CTRL_TXP_SE |
		 SWAPPER_CTRL_TXD_R_FE |
		 SWAPPER_CTRL_TXD_R_SE |
		 SWAPPER_CTRL_TXD_W_FE |
		 SWAPPER_CTRL_TXD_W_SE |
		 SWAPPER_CTRL_TXF_R_FE |
		 SWAPPER_CTRL_RXD_R_FE |
		 SWAPPER_CTRL_RXD_R_SE |
		 SWAPPER_CTRL_RXD_W_FE |
		 SWAPPER_CTRL_RXD_W_SE |
		 SWAPPER_CTRL_RXF_W_FE |
		 SWAPPER_CTRL_XMSI_FE |
		 SWAPPER_CTRL_STATS_FE | SWAPPER_CTRL_STATS_SE);
3090 3091
	if (sp->intr_type == INTA)
		val64 |= SWAPPER_CTRL_XMSI_SE;
L
Linus Torvalds 已提交
3092 3093 3094 3095
	writeq(val64, &bar0->swapper_ctrl);
#endif
	val64 = readq(&bar0->swapper_ctrl);

3096 3097
	/*
	 * Verifying if endian settings are accurate by reading a
L
Linus Torvalds 已提交
3098 3099 3100 3101 3102 3103 3104 3105 3106 3107 3108 3109 3110 3111 3112
	 * feedback register.
	 */
	val64 = readq(&bar0->pif_rd_swapper_fb);
	if (val64 != 0x0123456789ABCDEFULL) {
		/* Endian settings are incorrect, calls for another dekko. */
		DBG_PRINT(ERR_DBG, "%s: Endian settings are wrong, ",
			  dev->name);
		DBG_PRINT(ERR_DBG, "feedback read %llx\n",
			  (unsigned long long) val64);
		return FAILURE;
	}

	return SUCCESS;
}

3113
static int wait_for_msix_trans(nic_t *nic, int i)
3114
{
3115
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
3116 3117 3118 3119 3120 3121 3122 3123 3124 3125 3126 3127 3128 3129 3130 3131 3132 3133
	u64 val64;
	int ret = 0, cnt = 0;

	do {
		val64 = readq(&bar0->xmsi_access);
		if (!(val64 & BIT(15)))
			break;
		mdelay(1);
		cnt++;
	} while(cnt < 5);
	if (cnt == 5) {
		DBG_PRINT(ERR_DBG, "XMSI # %d Access failed\n", i);
		ret = 1;
	}

	return ret;
}

3134
static void restore_xmsi_data(nic_t *nic)
3135
{
3136
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
3137 3138 3139 3140 3141 3142 3143 3144 3145 3146 3147 3148 3149 3150 3151
	u64 val64;
	int i;

	for (i=0; i< MAX_REQUESTED_MSI_X; i++) {
		writeq(nic->msix_info[i].addr, &bar0->xmsi_address);
		writeq(nic->msix_info[i].data, &bar0->xmsi_data);
		val64 = (BIT(7) | BIT(15) | vBIT(i, 26, 6));
		writeq(val64, &bar0->xmsi_access);
		if (wait_for_msix_trans(nic, i)) {
			DBG_PRINT(ERR_DBG, "failed in %s\n", __FUNCTION__);
			continue;
		}
	}
}

3152
static void store_xmsi_data(nic_t *nic)
3153
{
3154
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
3155 3156 3157 3158 3159 3160 3161 3162 3163 3164 3165 3166 3167 3168 3169 3170 3171 3172 3173 3174 3175 3176
	u64 val64, addr, data;
	int i;

	/* Store and display */
	for (i=0; i< MAX_REQUESTED_MSI_X; i++) {
		val64 = (BIT(15) | vBIT(i, 26, 6));
		writeq(val64, &bar0->xmsi_access);
		if (wait_for_msix_trans(nic, i)) {
			DBG_PRINT(ERR_DBG, "failed in %s\n", __FUNCTION__);
			continue;
		}
		addr = readq(&bar0->xmsi_address);
		data = readq(&bar0->xmsi_data);
		if (addr && data) {
			nic->msix_info[i].addr = addr;
			nic->msix_info[i].data = data;
		}
	}
}

int s2io_enable_msi(nic_t *nic)
{
3177
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
3178 3179 3180 3181 3182 3183 3184 3185 3186 3187 3188 3189 3190 3191 3192 3193 3194 3195 3196 3197 3198 3199 3200 3201 3202 3203 3204 3205 3206 3207 3208 3209 3210 3211 3212 3213 3214 3215 3216 3217 3218 3219 3220 3221 3222 3223 3224
	u16 msi_ctrl, msg_val;
	struct config_param *config = &nic->config;
	struct net_device *dev = nic->dev;
	u64 val64, tx_mat, rx_mat;
	int i, err;

	val64 = readq(&bar0->pic_control);
	val64 &= ~BIT(1);
	writeq(val64, &bar0->pic_control);

	err = pci_enable_msi(nic->pdev);
	if (err) {
		DBG_PRINT(ERR_DBG, "%s: enabling MSI failed\n",
			  nic->dev->name);
		return err;
	}

	/*
	 * Enable MSI and use MSI-1 in stead of the standard MSI-0
	 * for interrupt handling.
	 */
	pci_read_config_word(nic->pdev, 0x4c, &msg_val);
	msg_val ^= 0x1;
	pci_write_config_word(nic->pdev, 0x4c, msg_val);
	pci_read_config_word(nic->pdev, 0x4c, &msg_val);

	pci_read_config_word(nic->pdev, 0x42, &msi_ctrl);
	msi_ctrl |= 0x10;
	pci_write_config_word(nic->pdev, 0x42, msi_ctrl);

	/* program MSI-1 into all usable Tx_Mat and Rx_Mat fields */
	tx_mat = readq(&bar0->tx_mat0_n[0]);
	for (i=0; i<config->tx_fifo_num; i++) {
		tx_mat |= TX_MAT_SET(i, 1);
	}
	writeq(tx_mat, &bar0->tx_mat0_n[0]);

	rx_mat = readq(&bar0->rx_mat);
	for (i=0; i<config->rx_ring_num; i++) {
		rx_mat |= RX_MAT_SET(i, 1);
	}
	writeq(rx_mat, &bar0->rx_mat);

	dev->irq = nic->pdev->irq;
	return 0;
}

3225
static int s2io_enable_msi_x(nic_t *nic)
3226
{
3227
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
3228 3229 3230 3231 3232 3233 3234 3235 3236 3237 3238 3239 3240 3241 3242 3243 3244 3245 3246 3247 3248 3249 3250 3251 3252 3253 3254 3255 3256 3257 3258 3259 3260 3261 3262 3263 3264 3265 3266 3267 3268 3269 3270 3271 3272 3273 3274 3275 3276 3277 3278 3279 3280 3281 3282 3283 3284 3285 3286 3287 3288 3289 3290 3291 3292 3293 3294 3295 3296 3297 3298 3299 3300 3301 3302 3303 3304 3305 3306 3307
	u64 tx_mat, rx_mat;
	u16 msi_control; /* Temp variable */
	int ret, i, j, msix_indx = 1;

	nic->entries = kmalloc(MAX_REQUESTED_MSI_X * sizeof(struct msix_entry),
			       GFP_KERNEL);
	if (nic->entries == NULL) {
		DBG_PRINT(ERR_DBG, "%s: Memory allocation failed\n", __FUNCTION__);
		return -ENOMEM;
	}
	memset(nic->entries, 0, MAX_REQUESTED_MSI_X * sizeof(struct msix_entry));

	nic->s2io_entries =
		kmalloc(MAX_REQUESTED_MSI_X * sizeof(struct s2io_msix_entry),
				   GFP_KERNEL);
	if (nic->s2io_entries == NULL) {
		DBG_PRINT(ERR_DBG, "%s: Memory allocation failed\n", __FUNCTION__);
		kfree(nic->entries);
		return -ENOMEM;
	}
	memset(nic->s2io_entries, 0,
	       MAX_REQUESTED_MSI_X * sizeof(struct s2io_msix_entry));

	for (i=0; i< MAX_REQUESTED_MSI_X; i++) {
		nic->entries[i].entry = i;
		nic->s2io_entries[i].entry = i;
		nic->s2io_entries[i].arg = NULL;
		nic->s2io_entries[i].in_use = 0;
	}

	tx_mat = readq(&bar0->tx_mat0_n[0]);
	for (i=0; i<nic->config.tx_fifo_num; i++, msix_indx++) {
		tx_mat |= TX_MAT_SET(i, msix_indx);
		nic->s2io_entries[msix_indx].arg = &nic->mac_control.fifos[i];
		nic->s2io_entries[msix_indx].type = MSIX_FIFO_TYPE;
		nic->s2io_entries[msix_indx].in_use = MSIX_FLG;
	}
	writeq(tx_mat, &bar0->tx_mat0_n[0]);

	if (!nic->config.bimodal) {
		rx_mat = readq(&bar0->rx_mat);
		for (j=0; j<nic->config.rx_ring_num; j++, msix_indx++) {
			rx_mat |= RX_MAT_SET(j, msix_indx);
			nic->s2io_entries[msix_indx].arg = &nic->mac_control.rings[j];
			nic->s2io_entries[msix_indx].type = MSIX_RING_TYPE;
			nic->s2io_entries[msix_indx].in_use = MSIX_FLG;
		}
		writeq(rx_mat, &bar0->rx_mat);
	} else {
		tx_mat = readq(&bar0->tx_mat0_n[7]);
		for (j=0; j<nic->config.rx_ring_num; j++, msix_indx++) {
			tx_mat |= TX_MAT_SET(i, msix_indx);
			nic->s2io_entries[msix_indx].arg = &nic->mac_control.rings[j];
			nic->s2io_entries[msix_indx].type = MSIX_RING_TYPE;
			nic->s2io_entries[msix_indx].in_use = MSIX_FLG;
		}
		writeq(tx_mat, &bar0->tx_mat0_n[7]);
	}

	ret = pci_enable_msix(nic->pdev, nic->entries, MAX_REQUESTED_MSI_X);
	if (ret) {
		DBG_PRINT(ERR_DBG, "%s: Enabling MSIX failed\n", nic->dev->name);
		kfree(nic->entries);
		kfree(nic->s2io_entries);
		nic->entries = NULL;
		nic->s2io_entries = NULL;
		return -ENOMEM;
	}

	/*
	 * To enable MSI-X, MSI also needs to be enabled, due to a bug
	 * in the herc NIC. (Temp change, needs to be removed later)
	 */
	pci_read_config_word(nic->pdev, 0x42, &msi_control);
	msi_control |= 0x1; /* Enable MSI */
	pci_write_config_word(nic->pdev, 0x42, msi_control);

	return 0;
}

L
Linus Torvalds 已提交
3308 3309 3310 3311
/* ********************************************************* *
 * Functions defined below concern the OS part of the driver *
 * ********************************************************* */

3312
/**
L
Linus Torvalds 已提交
3313 3314 3315 3316 3317
 *  s2io_open - open entry point of the driver
 *  @dev : pointer to the device structure.
 *  Description:
 *  This function is the open entry point of the driver. It mainly calls a
 *  function to allocate Rx buffers and inserts them into the buffer
3318
 *  descriptors and then enables the Rx part of the NIC.
L
Linus Torvalds 已提交
3319 3320 3321 3322 3323
 *  Return value:
 *  0 on success and an appropriate (-)ve integer as defined in errno.h
 *   file on failure.
 */

3324
static int s2io_open(struct net_device *dev)
L
Linus Torvalds 已提交
3325 3326 3327
{
	nic_t *sp = dev->priv;
	int err = 0;
3328 3329
	int i;
	u16 msi_control; /* Temp variable */
L
Linus Torvalds 已提交
3330

3331 3332
	/*
	 * Make sure you have link off by default every time
L
Linus Torvalds 已提交
3333 3334 3335
	 * Nic is initialized
	 */
	netif_carrier_off(dev);
3336
	sp->last_link_state = 0;
L
Linus Torvalds 已提交
3337 3338 3339 3340 3341

	/* Initialize H/W and enable interrupts */
	if (s2io_card_up(sp)) {
		DBG_PRINT(ERR_DBG, "%s: H/W initialization failed\n",
			  dev->name);
3342 3343
		err = -ENODEV;
		goto hw_init_failed;
L
Linus Torvalds 已提交
3344 3345
	}

3346 3347 3348
	/* Store the values of the MSIX table in the nic_t structure */
	store_xmsi_data(sp);

L
Linus Torvalds 已提交
3349
	/* After proper initialization of H/W, register ISR */
3350 3351 3352 3353 3354 3355 3356 3357 3358 3359 3360 3361 3362 3363 3364 3365 3366 3367
	if (sp->intr_type == MSI) {
		err = request_irq((int) sp->pdev->irq, s2io_msi_handle, 
			SA_SHIRQ, sp->name, dev);
		if (err) {
			DBG_PRINT(ERR_DBG, "%s: MSI registration \
failed\n", dev->name);
			goto isr_registration_failed;
		}
	}
	if (sp->intr_type == MSI_X) {
		for (i=1; (sp->s2io_entries[i].in_use == MSIX_FLG); i++) {
			if (sp->s2io_entries[i].type == MSIX_FIFO_TYPE) {
				sprintf(sp->desc1, "%s:MSI-X-%d-TX",
					dev->name, i);
				err = request_irq(sp->entries[i].vector,
					  s2io_msix_fifo_handle, 0, sp->desc1,
					  sp->s2io_entries[i].arg);
				DBG_PRINT(ERR_DBG, "%s @ 0x%llx\n", sp->desc1, 
3368
				    (unsigned long long)sp->msix_info[i].addr);
3369 3370 3371 3372 3373 3374 3375
			} else {
				sprintf(sp->desc2, "%s:MSI-X-%d-RX",
					dev->name, i);
				err = request_irq(sp->entries[i].vector,
					  s2io_msix_ring_handle, 0, sp->desc2,
					  sp->s2io_entries[i].arg);
				DBG_PRINT(ERR_DBG, "%s @ 0x%llx\n", sp->desc2, 
3376
				     (unsigned long long)sp->msix_info[i].addr);
3377 3378 3379 3380 3381 3382 3383 3384 3385 3386 3387 3388 3389 3390 3391 3392 3393 3394
			}
			if (err) {
				DBG_PRINT(ERR_DBG, "%s: MSI-X-%d registration \
failed\n", dev->name, i);
				DBG_PRINT(ERR_DBG, "Returned: %d\n", err);
				goto isr_registration_failed;
			}
			sp->s2io_entries[i].in_use = MSIX_REGISTERED_SUCCESS;
		}
	}
	if (sp->intr_type == INTA) {
		err = request_irq((int) sp->pdev->irq, s2io_isr, SA_SHIRQ,
				sp->name, dev);
		if (err) {
			DBG_PRINT(ERR_DBG, "%s: ISR registration failed\n",
				  dev->name);
			goto isr_registration_failed;
		}
L
Linus Torvalds 已提交
3395 3396 3397 3398
	}

	if (s2io_set_mac_addr(dev, dev->dev_addr) == FAILURE) {
		DBG_PRINT(ERR_DBG, "Set Mac Address Failed\n");
3399 3400
		err = -ENODEV;
		goto setting_mac_address_failed;
L
Linus Torvalds 已提交
3401 3402 3403 3404
	}

	netif_start_queue(dev);
	return 0;
3405 3406

setting_mac_address_failed:
3407 3408
	if (sp->intr_type != MSI_X)
		free_irq(sp->pdev->irq, dev);
3409
isr_registration_failed:
3410
	del_timer_sync(&sp->alarm_timer);
3411 3412 3413 3414 3415 3416 3417 3418 3419 3420 3421 3422 3423 3424 3425 3426 3427 3428 3429
	if (sp->intr_type == MSI_X) {
		if (sp->device_type == XFRAME_II_DEVICE) {
			for (i=1; (sp->s2io_entries[i].in_use == 
				MSIX_REGISTERED_SUCCESS); i++) {
				int vector = sp->entries[i].vector;
				void *arg = sp->s2io_entries[i].arg;

				free_irq(vector, arg);
			}
			pci_disable_msix(sp->pdev);

			/* Temp */
			pci_read_config_word(sp->pdev, 0x42, &msi_control);
			msi_control &= 0xFFFE; /* Disable MSI */
			pci_write_config_word(sp->pdev, 0x42, msi_control);
		}
	}
	else if (sp->intr_type == MSI)
		pci_disable_msi(sp->pdev);
3430 3431
	s2io_reset(sp);
hw_init_failed:
3432 3433 3434 3435 3436 3437
	if (sp->intr_type == MSI_X) {
		if (sp->entries)
			kfree(sp->entries);
		if (sp->s2io_entries)
			kfree(sp->s2io_entries);
	}
3438
	return err;
L
Linus Torvalds 已提交
3439 3440 3441 3442 3443 3444 3445 3446 3447 3448 3449 3450 3451 3452 3453
}

/**
 *  s2io_close -close entry point of the driver
 *  @dev : device pointer.
 *  Description:
 *  This is the stop entry point of the driver. It needs to undo exactly
 *  whatever was done by the open entry point,thus it's usually referred to
 *  as the close function.Among other things this function mainly stops the
 *  Rx side of the NIC and frees all the Rx buffers in the Rx rings.
 *  Return value:
 *  0 on success and an appropriate (-)ve integer as defined in errno.h
 *  file on failure.
 */

3454
static int s2io_close(struct net_device *dev)
L
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3455 3456
{
	nic_t *sp = dev->priv;
3457 3458 3459
	int i;
	u16 msi_control;

L
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3460 3461 3462 3463 3464
	flush_scheduled_work();
	netif_stop_queue(dev);
	/* Reset card, kill tasklet and free Tx and Rx buffers. */
	s2io_card_down(sp);

3465 3466 3467 3468 3469 3470 3471 3472 3473 3474 3475 3476 3477 3478 3479 3480 3481 3482 3483 3484 3485
	if (sp->intr_type == MSI_X) {
		if (sp->device_type == XFRAME_II_DEVICE) {
			for (i=1; (sp->s2io_entries[i].in_use == 
					MSIX_REGISTERED_SUCCESS); i++) {
				int vector = sp->entries[i].vector;
				void *arg = sp->s2io_entries[i].arg;

				free_irq(vector, arg);
			}
			pci_read_config_word(sp->pdev, 0x42, &msi_control);
			msi_control &= 0xFFFE; /* Disable MSI */
			pci_write_config_word(sp->pdev, 0x42, msi_control);

			pci_disable_msix(sp->pdev);
		}
	}
	else {
		free_irq(sp->pdev->irq, dev);
		if (sp->intr_type == MSI)
			pci_disable_msi(sp->pdev);
	}	
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3486 3487 3488 3489 3490 3491 3492 3493 3494 3495 3496 3497 3498 3499 3500 3501 3502
	sp->device_close_flag = TRUE;	/* Device is shut down. */
	return 0;
}

/**
 *  s2io_xmit - Tx entry point of te driver
 *  @skb : the socket buffer containing the Tx data.
 *  @dev : device pointer.
 *  Description :
 *  This function is the Tx entry point of the driver. S2IO NIC supports
 *  certain protocol assist features on Tx side, namely  CSO, S/G, LSO.
 *  NOTE: when device cant queue the pkt,just the trans_start variable will
 *  not be upadted.
 *  Return value:
 *  0 on success & 1 on failure.
 */

3503
static int s2io_xmit(struct sk_buff *skb, struct net_device *dev)
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3504 3505 3506 3507 3508 3509 3510 3511 3512 3513
{
	nic_t *sp = dev->priv;
	u16 frg_cnt, frg_len, i, queue, queue_len, put_off, get_off;
	register u64 val64;
	TxD_t *txdp;
	TxFIFO_element_t __iomem *tx_fifo;
	unsigned long flags;
#ifdef NETIF_F_TSO
	int mss;
#endif
3514 3515
	u16 vlan_tag = 0;
	int vlan_priority = 0;
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3516 3517 3518 3519 3520 3521
	mac_info_t *mac_control;
	struct config_param *config;

	mac_control = &sp->mac_control;
	config = &sp->config;

3522
	DBG_PRINT(TX_DBG, "%s: In Neterion Tx routine\n", dev->name);
L
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3523 3524
	spin_lock_irqsave(&sp->tx_lock, flags);
	if (atomic_read(&sp->card_state) == CARD_DOWN) {
3525
		DBG_PRINT(TX_DBG, "%s: Card going down for reset\n",
L
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3526 3527
			  dev->name);
		spin_unlock_irqrestore(&sp->tx_lock, flags);
3528 3529
		dev_kfree_skb(skb);
		return 0;
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3530 3531 3532 3533
	}

	queue = 0;

3534 3535 3536 3537 3538 3539 3540
	/* Get Fifo number to Transmit based on vlan priority */
	if (sp->vlgrp && vlan_tx_tag_present(skb)) {
		vlan_tag = vlan_tx_tag_get(skb);
		vlan_priority = vlan_tag >> 13;
		queue = config->fifo_mapping[vlan_priority];
	}

3541 3542 3543 3544 3545 3546
	put_off = (u16) mac_control->fifos[queue].tx_curr_put_info.offset;
	get_off = (u16) mac_control->fifos[queue].tx_curr_get_info.offset;
	txdp = (TxD_t *) mac_control->fifos[queue].list_info[put_off].
		list_virt_addr;

	queue_len = mac_control->fifos[queue].tx_curr_put_info.fifo_len + 1;
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3547 3548
	/* Avoid "put" pointer going beyond "get" pointer */
	if (txdp->Host_Control || (((put_off + 1) % queue_len) == get_off)) {
3549
		DBG_PRINT(TX_DBG, "Error in xmit, No free TXDs.\n");
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3550 3551 3552 3553 3554
		netif_stop_queue(dev);
		dev_kfree_skb(skb);
		spin_unlock_irqrestore(&sp->tx_lock, flags);
		return 0;
	}
3555 3556 3557 3558 3559 3560 3561 3562 3563

	/* A buffer with no data will be dropped */
	if (!skb->len) {
		DBG_PRINT(TX_DBG, "%s:Buffer has no data..\n", dev->name);
		dev_kfree_skb(skb);
		spin_unlock_irqrestore(&sp->tx_lock, flags);
		return 0;
	}

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3564 3565
	txdp->Control_1 = 0;
	txdp->Control_2 = 0;
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3566 3567 3568 3569 3570 3571 3572 3573 3574 3575 3576 3577
#ifdef NETIF_F_TSO
	mss = skb_shinfo(skb)->tso_size;
	if (mss) {
		txdp->Control_1 |= TXD_TCP_LSO_EN;
		txdp->Control_1 |= TXD_TCP_LSO_MSS(mss);
	}
#endif
	if (skb->ip_summed == CHECKSUM_HW) {
		txdp->Control_2 |=
		    (TXD_TX_CKO_IPV4_EN | TXD_TX_CKO_TCP_EN |
		     TXD_TX_CKO_UDP_EN);
	}
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3578 3579
	txdp->Control_1 |= TXD_GATHER_CODE_FIRST;
	txdp->Control_1 |= TXD_LIST_OWN_XENA;
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3580
	txdp->Control_2 |= config->tx_intr_type;
3581

3582 3583 3584 3585 3586
	if (sp->vlgrp && vlan_tx_tag_present(skb)) {
		txdp->Control_2 |= TXD_VLAN_ENABLE;
		txdp->Control_2 |= TXD_VLAN_TAG(vlan_tag);
	}

A
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3587 3588 3589 3590 3591 3592 3593 3594 3595 3596 3597 3598 3599 3600 3601 3602 3603 3604 3605 3606 3607 3608 3609 3610
	frg_len = skb->len - skb->data_len;
	if (skb_shinfo(skb)->ufo_size) {
		int ufo_size;

		ufo_size = skb_shinfo(skb)->ufo_size;
		ufo_size &= ~7;
		txdp->Control_1 |= TXD_UFO_EN;
		txdp->Control_1 |= TXD_UFO_MSS(ufo_size);
		txdp->Control_1 |= TXD_BUFFER0_SIZE(8);
#ifdef __BIG_ENDIAN
		sp->ufo_in_band_v[put_off] =
				(u64)skb_shinfo(skb)->ip6_frag_id;
#else
		sp->ufo_in_band_v[put_off] =
				(u64)skb_shinfo(skb)->ip6_frag_id << 32;
#endif
		txdp->Host_Control = (unsigned long)sp->ufo_in_band_v;
		txdp->Buffer_Pointer = pci_map_single(sp->pdev,
					sp->ufo_in_band_v,
					sizeof(u64), PCI_DMA_TODEVICE);
		txdp++;
		txdp->Control_1 = 0;
		txdp->Control_2 = 0;
	}
L
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3611

A
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3612 3613 3614 3615 3616 3617 3618 3619 3620
	txdp->Buffer_Pointer = pci_map_single
	    (sp->pdev, skb->data, frg_len, PCI_DMA_TODEVICE);
	txdp->Host_Control = (unsigned long) skb;
	txdp->Control_1 |= TXD_BUFFER0_SIZE(frg_len);

	if (skb_shinfo(skb)->ufo_size)
		txdp->Control_1 |= TXD_UFO_EN;

	frg_cnt = skb_shinfo(skb)->nr_frags;
L
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3621 3622 3623
	/* For fragmented SKB. */
	for (i = 0; i < frg_cnt; i++) {
		skb_frag_t *frag = &skb_shinfo(skb)->frags[i];
3624 3625 3626
		/* A '0' length fragment will be ignored */
		if (!frag->size)
			continue;
L
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3627 3628 3629 3630
		txdp++;
		txdp->Buffer_Pointer = (u64) pci_map_page
		    (sp->pdev, frag->page, frag->page_offset,
		     frag->size, PCI_DMA_TODEVICE);
A
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3631
		txdp->Control_1 = TXD_BUFFER0_SIZE(frag->size);
A
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3632 3633
		if (skb_shinfo(skb)->ufo_size)
			txdp->Control_1 |= TXD_UFO_EN;
L
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3634 3635 3636
	}
	txdp->Control_1 |= TXD_GATHER_CODE_LAST;

A
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3637 3638 3639
	if (skb_shinfo(skb)->ufo_size)
		frg_cnt++; /* as Txd0 was used for inband header */

L
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3640
	tx_fifo = mac_control->tx_FIFO_start[queue];
3641
	val64 = mac_control->fifos[queue].list_info[put_off].list_phy_addr;
L
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3642 3643 3644 3645
	writeq(val64, &tx_fifo->TxDL_Pointer);

	val64 = (TX_FIFO_LAST_TXD_NUM(frg_cnt) | TX_FIFO_FIRST_LIST |
		 TX_FIFO_LAST_LIST);
3646

L
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3647 3648 3649 3650
#ifdef NETIF_F_TSO
	if (mss)
		val64 |= TX_FIFO_SPECIAL_FUNC;
#endif
A
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3651 3652
	if (skb_shinfo(skb)->ufo_size)
		val64 |= TX_FIFO_SPECIAL_FUNC;
L
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3653 3654
	writeq(val64, &tx_fifo->List_Control);

3655 3656
	mmiowb();

L
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3657
	put_off++;
3658 3659
	put_off %= mac_control->fifos[queue].tx_curr_put_info.fifo_len + 1;
	mac_control->fifos[queue].tx_curr_put_info.offset = put_off;
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3660 3661 3662 3663 3664 3665 3666 3667 3668 3669 3670 3671 3672 3673 3674

	/* Avoid "put" pointer going beyond "get" pointer */
	if (((put_off + 1) % queue_len) == get_off) {
		DBG_PRINT(TX_DBG,
			  "No free TxDs for xmit, Put: 0x%x Get:0x%x\n",
			  put_off, get_off);
		netif_stop_queue(dev);
	}

	dev->trans_start = jiffies;
	spin_unlock_irqrestore(&sp->tx_lock, flags);

	return 0;
}

3675 3676 3677 3678 3679 3680 3681 3682 3683
static void
s2io_alarm_handle(unsigned long data)
{
	nic_t *sp = (nic_t *)data;

	alarm_intr_handler(sp);
	mod_timer(&sp->alarm_timer, jiffies + HZ / 2);
}

3684 3685 3686 3687 3688 3689 3690 3691 3692 3693 3694 3695 3696 3697 3698 3699 3700 3701 3702 3703 3704 3705 3706 3707 3708 3709 3710 3711 3712
static irqreturn_t
s2io_msi_handle(int irq, void *dev_id, struct pt_regs *regs)
{
	struct net_device *dev = (struct net_device *) dev_id;
	nic_t *sp = dev->priv;
	int i;
	int ret;
	mac_info_t *mac_control;
	struct config_param *config;

	atomic_inc(&sp->isr_cnt);
	mac_control = &sp->mac_control;
	config = &sp->config;
	DBG_PRINT(INTR_DBG, "%s: MSI handler\n", __FUNCTION__);

	/* If Intr is because of Rx Traffic */
	for (i = 0; i < config->rx_ring_num; i++)
		rx_intr_handler(&mac_control->rings[i]);

	/* If Intr is because of Tx Traffic */
	for (i = 0; i < config->tx_fifo_num; i++)
		tx_intr_handler(&mac_control->fifos[i]);

	/*
	 * If the Rx buffer count is below the panic threshold then
	 * reallocate the buffers from the interrupt handler itself,
	 * else schedule a tasklet to reallocate the buffers.
	 */
	for (i = 0; i < config->rx_ring_num; i++) {
3713 3714 3715 3716 3717 3718 3719 3720 3721 3722 3723 3724 3725 3726 3727 3728
		if (!sp->lro) {
			int rxb_size = atomic_read(&sp->rx_bufs_left[i]);
			int level = rx_buffer_level(sp, rxb_size, i);

			if ((level == PANIC) && (!TASKLET_IN_USE)) {
				DBG_PRINT(INTR_DBG, "%s: Rx BD hit ", 
							dev->name);
				DBG_PRINT(INTR_DBG, "PANIC levels\n");
				if ((ret = fill_rx_buffers(sp, i)) == -ENOMEM) {
					DBG_PRINT(ERR_DBG, "%s:Out of memory",
						  dev->name);
					DBG_PRINT(ERR_DBG, " in ISR!!\n");
					clear_bit(0, (&sp->tasklet_status));
					atomic_dec(&sp->isr_cnt);
					return IRQ_HANDLED;
				}
3729
				clear_bit(0, (&sp->tasklet_status));
3730 3731
			} else if (level == LOW) {
				tasklet_schedule(&sp->task);
3732
			}
3733 3734 3735 3736 3737 3738
		}
		else if (fill_rx_buffers(sp, i) == -ENOMEM) {
				DBG_PRINT(ERR_DBG, "%s:Out of memory",
							dev->name);
				DBG_PRINT(ERR_DBG, " in Rx Intr!!\n");
				break;
3739 3740 3741 3742 3743 3744 3745 3746 3747 3748 3749 3750
		}
	}

	atomic_dec(&sp->isr_cnt);
	return IRQ_HANDLED;
}

static irqreturn_t
s2io_msix_ring_handle(int irq, void *dev_id, struct pt_regs *regs)
{
	ring_info_t *ring = (ring_info_t *)dev_id;
	nic_t *sp = ring->nic;
3751
	struct net_device *dev = (struct net_device *) dev_id;
3752 3753 3754 3755 3756 3757
	int rxb_size, level, rng_n;

	atomic_inc(&sp->isr_cnt);
	rx_intr_handler(ring);

	rng_n = ring->ring_no;
3758 3759 3760 3761 3762 3763 3764 3765 3766 3767 3768 3769 3770 3771
	if (!sp->lro) {
		rxb_size = atomic_read(&sp->rx_bufs_left[rng_n]);
		level = rx_buffer_level(sp, rxb_size, rng_n);

		if ((level == PANIC) && (!TASKLET_IN_USE)) {
			int ret;
			DBG_PRINT(INTR_DBG, "%s: Rx BD hit ", __FUNCTION__);
			DBG_PRINT(INTR_DBG, "PANIC levels\n");
			if ((ret = fill_rx_buffers(sp, rng_n)) == -ENOMEM) {
				DBG_PRINT(ERR_DBG, "Out of memory in %s",
					  __FUNCTION__);
				clear_bit(0, (&sp->tasklet_status));
				return IRQ_HANDLED;
			}
3772
			clear_bit(0, (&sp->tasklet_status));
3773 3774
		} else if (level == LOW) {
			tasklet_schedule(&sp->task);
3775 3776
		}
	}
3777 3778 3779 3780 3781
	else if (fill_rx_buffers(sp, rng_n) == -ENOMEM) {
			DBG_PRINT(ERR_DBG, "%s:Out of memory", dev->name);
			DBG_PRINT(ERR_DBG, " in Rx Intr!!\n");
	}

3782 3783 3784 3785 3786 3787 3788 3789 3790 3791 3792 3793 3794 3795 3796 3797 3798
	atomic_dec(&sp->isr_cnt);

	return IRQ_HANDLED;
}

static irqreturn_t
s2io_msix_fifo_handle(int irq, void *dev_id, struct pt_regs *regs)
{
	fifo_info_t *fifo = (fifo_info_t *)dev_id;
	nic_t *sp = fifo->nic;

	atomic_inc(&sp->isr_cnt);
	tx_intr_handler(fifo);
	atomic_dec(&sp->isr_cnt);
	return IRQ_HANDLED;
}

3799 3800
static void s2io_txpic_intr_handle(nic_t *sp)
{
3801
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
3802 3803 3804 3805 3806 3807 3808 3809 3810 3811 3812 3813 3814 3815 3816 3817 3818 3819 3820 3821 3822 3823 3824 3825 3826 3827 3828 3829 3830 3831 3832 3833 3834 3835 3836 3837 3838 3839 3840 3841 3842 3843 3844 3845
	u64 val64;

	val64 = readq(&bar0->pic_int_status);
	if (val64 & PIC_INT_GPIO) {
		val64 = readq(&bar0->gpio_int_reg);
		if ((val64 & GPIO_INT_REG_LINK_DOWN) &&
		    (val64 & GPIO_INT_REG_LINK_UP)) {
			val64 |=  GPIO_INT_REG_LINK_DOWN;
			val64 |= GPIO_INT_REG_LINK_UP;
			writeq(val64, &bar0->gpio_int_reg);
			goto masking;
		}

		if (((sp->last_link_state == LINK_UP) &&
			(val64 & GPIO_INT_REG_LINK_DOWN)) ||
		((sp->last_link_state == LINK_DOWN) &&
		(val64 & GPIO_INT_REG_LINK_UP))) {
			val64 = readq(&bar0->gpio_int_mask);
			val64 |=  GPIO_INT_MASK_LINK_DOWN;
			val64 |= GPIO_INT_MASK_LINK_UP;
			writeq(val64, &bar0->gpio_int_mask);
			s2io_set_link((unsigned long)sp);
		}
masking:
		if (sp->last_link_state == LINK_UP) {
			/*enable down interrupt */
			val64 = readq(&bar0->gpio_int_mask);
			/* unmasks link down intr */
			val64 &=  ~GPIO_INT_MASK_LINK_DOWN;
			/* masks link up intr */
			val64 |= GPIO_INT_MASK_LINK_UP;
			writeq(val64, &bar0->gpio_int_mask);
		} else {
			/*enable UP Interrupt */
			val64 = readq(&bar0->gpio_int_mask);
			/* unmasks link up interrupt */
			val64 &= ~GPIO_INT_MASK_LINK_UP;
			/* masks link down interrupt */
			val64 |=  GPIO_INT_MASK_LINK_DOWN;
			writeq(val64, &bar0->gpio_int_mask);
		}
	}
}

L
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3846 3847 3848 3849 3850
/**
 *  s2io_isr - ISR handler of the device .
 *  @irq: the irq of the device.
 *  @dev_id: a void pointer to the dev structure of the NIC.
 *  @pt_regs: pointer to the registers pushed on the stack.
3851 3852 3853
 *  Description:  This function is the ISR handler of the device. It
 *  identifies the reason for the interrupt and calls the relevant
 *  service routines. As a contongency measure, this ISR allocates the
L
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3854 3855 3856
 *  recv buffers, if their numbers are below the panic value which is
 *  presently set to 25% of the original number of rcv buffers allocated.
 *  Return value:
3857
 *   IRQ_HANDLED: will be returned if IRQ was handled by this routine
L
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3858 3859 3860 3861 3862 3863 3864
 *   IRQ_NONE: will be returned if interrupt is not from our device
 */
static irqreturn_t s2io_isr(int irq, void *dev_id, struct pt_regs *regs)
{
	struct net_device *dev = (struct net_device *) dev_id;
	nic_t *sp = dev->priv;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
3865
	int i;
3866
	u64 reason = 0, val64;
L
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3867 3868 3869
	mac_info_t *mac_control;
	struct config_param *config;

3870
	atomic_inc(&sp->isr_cnt);
L
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3871 3872 3873
	mac_control = &sp->mac_control;
	config = &sp->config;

3874
	/*
L
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3875 3876 3877 3878 3879
	 * Identify the cause for interrupt and call the appropriate
	 * interrupt handler. Causes for the interrupt could be;
	 * 1. Rx of packet.
	 * 2. Tx complete.
	 * 3. Link down.
3880
	 * 4. Error in any functional blocks of the NIC.
L
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3881 3882 3883 3884 3885
	 */
	reason = readq(&bar0->general_int_status);

	if (!reason) {
		/* The interrupt was not raised by Xena. */
3886
		atomic_dec(&sp->isr_cnt);
L
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3887 3888 3889 3890 3891 3892 3893 3894 3895 3896 3897 3898 3899 3900
		return IRQ_NONE;
	}

#ifdef CONFIG_S2IO_NAPI
	if (reason & GEN_INTR_RXTRAFFIC) {
		if (netif_rx_schedule_prep(dev)) {
			en_dis_able_nic_intrs(sp, RX_TRAFFIC_INTR,
					      DISABLE_INTRS);
			__netif_rx_schedule(dev);
		}
	}
#else
	/* If Intr is because of Rx Traffic */
	if (reason & GEN_INTR_RXTRAFFIC) {
3901 3902 3903 3904 3905 3906 3907
		/*
		 * rx_traffic_int reg is an R1 register, writing all 1's
		 * will ensure that the actual interrupt causing bit get's
		 * cleared and hence a read can be avoided.
		 */
		val64 = 0xFFFFFFFFFFFFFFFFULL;
		writeq(val64, &bar0->rx_traffic_int);
3908 3909 3910
		for (i = 0; i < config->rx_ring_num; i++) {
			rx_intr_handler(&mac_control->rings[i]);
		}
L
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3911 3912 3913
	}
#endif

3914 3915
	/* If Intr is because of Tx Traffic */
	if (reason & GEN_INTR_TXTRAFFIC) {
3916 3917 3918 3919 3920 3921 3922 3923
		/*
		 * tx_traffic_int reg is an R1 register, writing all 1's
		 * will ensure that the actual interrupt causing bit get's
		 * cleared and hence a read can be avoided.
		 */
		val64 = 0xFFFFFFFFFFFFFFFFULL;
		writeq(val64, &bar0->tx_traffic_int);

3924 3925 3926 3927
		for (i = 0; i < config->tx_fifo_num; i++)
			tx_intr_handler(&mac_control->fifos[i]);
	}

3928 3929
	if (reason & GEN_INTR_TXPIC)
		s2io_txpic_intr_handle(sp);
3930 3931 3932
	/*
	 * If the Rx buffer count is below the panic threshold then
	 * reallocate the buffers from the interrupt handler itself,
L
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3933 3934 3935 3936
	 * else schedule a tasklet to reallocate the buffers.
	 */
#ifndef CONFIG_S2IO_NAPI
	for (i = 0; i < config->rx_ring_num; i++) {
3937 3938 3939 3940 3941 3942 3943 3944 3945 3946 3947 3948 3949 3950 3951 3952 3953
		if (!sp->lro) {
			int ret;
			int rxb_size = atomic_read(&sp->rx_bufs_left[i]);
			int level = rx_buffer_level(sp, rxb_size, i);

			if ((level == PANIC) && (!TASKLET_IN_USE)) {
				DBG_PRINT(INTR_DBG, "%s: Rx BD hit ", 
							dev->name);
				DBG_PRINT(INTR_DBG, "PANIC levels\n");
				if ((ret = fill_rx_buffers(sp, i)) == -ENOMEM) {
					DBG_PRINT(ERR_DBG, "%s:Out of memory",
						  dev->name);
					DBG_PRINT(ERR_DBG, " in ISR!!\n");
					clear_bit(0, (&sp->tasklet_status));
					atomic_dec(&sp->isr_cnt);
					return IRQ_HANDLED;
				}
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3954
				clear_bit(0, (&sp->tasklet_status));
3955 3956
			} else if (level == LOW) {
				tasklet_schedule(&sp->task);
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			}
3958 3959 3960 3961 3962 3963
		}
		else if (fill_rx_buffers(sp, i) == -ENOMEM) {
				DBG_PRINT(ERR_DBG, "%s:Out of memory",
							dev->name);
				DBG_PRINT(ERR_DBG, " in Rx intr!!\n");
				break;
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		}
	}
#endif

3968
	atomic_dec(&sp->isr_cnt);
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	return IRQ_HANDLED;
}

3972 3973 3974 3975 3976 3977 3978 3979 3980 3981 3982 3983 3984 3985 3986 3987 3988 3989 3990 3991 3992 3993 3994 3995 3996 3997
/**
 * s2io_updt_stats -
 */
static void s2io_updt_stats(nic_t *sp)
{
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64;
	int cnt = 0;

	if (atomic_read(&sp->card_state) == CARD_UP) {
		/* Apprx 30us on a 133 MHz bus */
		val64 = SET_UPDT_CLICKS(10) |
			STAT_CFG_ONE_SHOT_EN | STAT_CFG_STAT_EN;
		writeq(val64, &bar0->stat_cfg);
		do {
			udelay(100);
			val64 = readq(&bar0->stat_cfg);
			if (!(val64 & BIT(0)))
				break;
			cnt++;
			if (cnt == 5)
				break; /* Updt failed */
		} while(1);
	}
}

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/**
3999
 *  s2io_get_stats - Updates the device statistics structure.
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 *  @dev : pointer to the device structure.
 *  Description:
4002
 *  This function updates the device statistics structure in the s2io_nic
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 *  structure and returns a pointer to the same.
 *  Return value:
 *  pointer to the updated net_device_stats structure.
 */

4008
static struct net_device_stats *s2io_get_stats(struct net_device *dev)
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{
	nic_t *sp = dev->priv;
	mac_info_t *mac_control;
	struct config_param *config;

4014

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	mac_control = &sp->mac_control;
	config = &sp->config;

4018 4019 4020 4021 4022
	/* Configure Stats for immediate updt */
	s2io_updt_stats(sp);

	sp->stats.tx_packets =
		le32_to_cpu(mac_control->stats_info->tmac_frms);
4023 4024 4025 4026 4027 4028
	sp->stats.tx_errors =
		le32_to_cpu(mac_control->stats_info->tmac_any_err_frms);
	sp->stats.rx_errors =
		le32_to_cpu(mac_control->stats_info->rmac_drop_frms);
	sp->stats.multicast =
		le32_to_cpu(mac_control->stats_info->rmac_vld_mcst_frms);
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	sp->stats.rx_length_errors =
4030
		le32_to_cpu(mac_control->stats_info->rmac_long_frms);
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	return (&sp->stats);
}

/**
 *  s2io_set_multicast - entry point for multicast address enable/disable.
 *  @dev : pointer to the device structure
 *  Description:
4039 4040
 *  This function is a driver entry point which gets called by the kernel
 *  whenever multicast addresses must be enabled/disabled. This also gets
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 *  called to set/reset promiscuous mode. Depending on the deivce flag, we
 *  determine, if multicast address must be enabled or if promiscuous mode
 *  is to be disabled etc.
 *  Return value:
 *  void.
 */

static void s2io_set_multicast(struct net_device *dev)
{
	int i, j, prev_cnt;
	struct dev_mc_list *mclist;
	nic_t *sp = dev->priv;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64 = 0, multi_mac = 0x010203040506ULL, mask =
	    0xfeffffffffffULL;
	u64 dis_addr = 0xffffffffffffULL, mac_addr = 0;
	void __iomem *add;

	if ((dev->flags & IFF_ALLMULTI) && (!sp->m_cast_flg)) {
		/*  Enable all Multicast addresses */
		writeq(RMAC_ADDR_DATA0_MEM_ADDR(multi_mac),
		       &bar0->rmac_addr_data0_mem);
		writeq(RMAC_ADDR_DATA1_MEM_MASK(mask),
		       &bar0->rmac_addr_data1_mem);
		val64 = RMAC_ADDR_CMD_MEM_WE |
		    RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
		    RMAC_ADDR_CMD_MEM_OFFSET(MAC_MC_ALL_MC_ADDR_OFFSET);
		writeq(val64, &bar0->rmac_addr_cmd_mem);
		/* Wait till command completes */
		wait_for_cmd_complete(sp);

		sp->m_cast_flg = 1;
		sp->all_multi_pos = MAC_MC_ALL_MC_ADDR_OFFSET;
	} else if ((dev->flags & IFF_ALLMULTI) && (sp->m_cast_flg)) {
		/*  Disable all Multicast addresses */
		writeq(RMAC_ADDR_DATA0_MEM_ADDR(dis_addr),
		       &bar0->rmac_addr_data0_mem);
4078 4079
		writeq(RMAC_ADDR_DATA1_MEM_MASK(0x0),
		       &bar0->rmac_addr_data1_mem);
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		val64 = RMAC_ADDR_CMD_MEM_WE |
		    RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
		    RMAC_ADDR_CMD_MEM_OFFSET(sp->all_multi_pos);
		writeq(val64, &bar0->rmac_addr_cmd_mem);
		/* Wait till command completes */
		wait_for_cmd_complete(sp);

		sp->m_cast_flg = 0;
		sp->all_multi_pos = 0;
	}

	if ((dev->flags & IFF_PROMISC) && (!sp->promisc_flg)) {
		/*  Put the NIC into promiscuous mode */
		add = &bar0->mac_cfg;
		val64 = readq(&bar0->mac_cfg);
		val64 |= MAC_CFG_RMAC_PROM_ENABLE;

		writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
		writel((u32) val64, add);
		writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
		writel((u32) (val64 >> 32), (add + 4));

		val64 = readq(&bar0->mac_cfg);
		sp->promisc_flg = 1;
4104
		DBG_PRINT(INFO_DBG, "%s: entered promiscuous mode\n",
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			  dev->name);
	} else if (!(dev->flags & IFF_PROMISC) && (sp->promisc_flg)) {
		/*  Remove the NIC from promiscuous mode */
		add = &bar0->mac_cfg;
		val64 = readq(&bar0->mac_cfg);
		val64 &= ~MAC_CFG_RMAC_PROM_ENABLE;

		writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
		writel((u32) val64, add);
		writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key);
		writel((u32) (val64 >> 32), (add + 4));

		val64 = readq(&bar0->mac_cfg);
		sp->promisc_flg = 0;
4119
		DBG_PRINT(INFO_DBG, "%s: left promiscuous mode\n",
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			  dev->name);
	}

	/*  Update individual M_CAST address list */
	if ((!sp->m_cast_flg) && dev->mc_count) {
		if (dev->mc_count >
		    (MAX_ADDRS_SUPPORTED - MAC_MC_ADDR_START_OFFSET - 1)) {
			DBG_PRINT(ERR_DBG, "%s: No more Rx filters ",
				  dev->name);
			DBG_PRINT(ERR_DBG, "can be added, please enable ");
			DBG_PRINT(ERR_DBG, "ALL_MULTI instead\n");
			return;
		}

		prev_cnt = sp->mc_addr_count;
		sp->mc_addr_count = dev->mc_count;

		/* Clear out the previous list of Mc in the H/W. */
		for (i = 0; i < prev_cnt; i++) {
			writeq(RMAC_ADDR_DATA0_MEM_ADDR(dis_addr),
			       &bar0->rmac_addr_data0_mem);
			writeq(RMAC_ADDR_DATA1_MEM_MASK(0ULL),
4142
				&bar0->rmac_addr_data1_mem);
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			val64 = RMAC_ADDR_CMD_MEM_WE |
			    RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
			    RMAC_ADDR_CMD_MEM_OFFSET
			    (MAC_MC_ADDR_START_OFFSET + i);
			writeq(val64, &bar0->rmac_addr_cmd_mem);

			/* Wait for command completes */
			if (wait_for_cmd_complete(sp)) {
				DBG_PRINT(ERR_DBG, "%s: Adding ",
					  dev->name);
				DBG_PRINT(ERR_DBG, "Multicasts failed\n");
				return;
			}
		}

		/* Create the new Rx filter list and update the same in H/W. */
		for (i = 0, mclist = dev->mc_list; i < dev->mc_count;
		     i++, mclist = mclist->next) {
			memcpy(sp->usr_addrs[i].addr, mclist->dmi_addr,
			       ETH_ALEN);
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			mac_addr = 0;
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			for (j = 0; j < ETH_ALEN; j++) {
				mac_addr |= mclist->dmi_addr[j];
				mac_addr <<= 8;
			}
			mac_addr >>= 8;
			writeq(RMAC_ADDR_DATA0_MEM_ADDR(mac_addr),
			       &bar0->rmac_addr_data0_mem);
			writeq(RMAC_ADDR_DATA1_MEM_MASK(0ULL),
4172
				&bar0->rmac_addr_data1_mem);
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			val64 = RMAC_ADDR_CMD_MEM_WE |
			    RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
			    RMAC_ADDR_CMD_MEM_OFFSET
			    (i + MAC_MC_ADDR_START_OFFSET);
			writeq(val64, &bar0->rmac_addr_cmd_mem);

			/* Wait for command completes */
			if (wait_for_cmd_complete(sp)) {
				DBG_PRINT(ERR_DBG, "%s: Adding ",
					  dev->name);
				DBG_PRINT(ERR_DBG, "Multicasts failed\n");
				return;
			}
		}
	}
}

/**
4191
 *  s2io_set_mac_addr - Programs the Xframe mac address
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 *  @dev : pointer to the device structure.
 *  @addr: a uchar pointer to the new mac address which is to be set.
4194
 *  Description : This procedure will program the Xframe to receive
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 *  frames with new Mac Address
4196
 *  Return value: SUCCESS on success and an appropriate (-)ve integer
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 *  as defined in errno.h file on failure.
 */

4200
static int s2io_set_mac_addr(struct net_device *dev, u8 * addr)
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{
	nic_t *sp = dev->priv;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	register u64 val64, mac_addr = 0;
	int i;

4207
	/*
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	 * Set the new MAC address as the new unicast filter and reflect this
	 * change on the device address registered with the OS. It will be
4210
	 * at offset 0.
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	 */
	for (i = 0; i < ETH_ALEN; i++) {
		mac_addr <<= 8;
		mac_addr |= addr[i];
	}

	writeq(RMAC_ADDR_DATA0_MEM_ADDR(mac_addr),
	       &bar0->rmac_addr_data0_mem);

	val64 =
	    RMAC_ADDR_CMD_MEM_WE | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
	    RMAC_ADDR_CMD_MEM_OFFSET(0);
	writeq(val64, &bar0->rmac_addr_cmd_mem);
	/* Wait till command completes */
	if (wait_for_cmd_complete(sp)) {
		DBG_PRINT(ERR_DBG, "%s: set_mac_addr failed\n", dev->name);
		return FAILURE;
	}

	return SUCCESS;
}

/**
4234
 * s2io_ethtool_sset - Sets different link parameters.
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 * @sp : private member of the device structure, which is a pointer to the  * s2io_nic structure.
 * @info: pointer to the structure with parameters given by ethtool to set
 * link information.
 * Description:
4239
 * The function sets different link parameters provided by the user onto
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 * the NIC.
 * Return value:
 * 0 on success.
*/

static int s2io_ethtool_sset(struct net_device *dev,
			     struct ethtool_cmd *info)
{
	nic_t *sp = dev->priv;
	if ((info->autoneg == AUTONEG_ENABLE) ||
	    (info->speed != SPEED_10000) || (info->duplex != DUPLEX_FULL))
		return -EINVAL;
	else {
		s2io_close(sp->dev);
		s2io_open(sp->dev);
	}

	return 0;
}

/**
4261
 * s2io_ethtol_gset - Return link specific information.
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 * @sp : private member of the device structure, pointer to the
 *      s2io_nic structure.
 * @info : pointer to the structure with parameters given by ethtool
 * to return link information.
 * Description:
 * Returns link specific information like speed, duplex etc.. to ethtool.
 * Return value :
 * return 0 on success.
 */

static int s2io_ethtool_gset(struct net_device *dev, struct ethtool_cmd *info)
{
	nic_t *sp = dev->priv;
	info->supported = (SUPPORTED_10000baseT_Full | SUPPORTED_FIBRE);
	info->advertising = (SUPPORTED_10000baseT_Full | SUPPORTED_FIBRE);
	info->port = PORT_FIBRE;
	/* info->transceiver?? TODO */

	if (netif_carrier_ok(sp->dev)) {
		info->speed = 10000;
		info->duplex = DUPLEX_FULL;
	} else {
		info->speed = -1;
		info->duplex = -1;
	}

	info->autoneg = AUTONEG_DISABLE;
	return 0;
}

/**
4293 4294
 * s2io_ethtool_gdrvinfo - Returns driver specific information.
 * @sp : private member of the device structure, which is a pointer to the
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4295 4296 4297 4298 4299 4300 4301 4302 4303 4304 4305 4306 4307 4308
 * s2io_nic structure.
 * @info : pointer to the structure with parameters given by ethtool to
 * return driver information.
 * Description:
 * Returns driver specefic information like name, version etc.. to ethtool.
 * Return value:
 *  void
 */

static void s2io_ethtool_gdrvinfo(struct net_device *dev,
				  struct ethtool_drvinfo *info)
{
	nic_t *sp = dev->priv;

4309 4310 4311 4312
	strncpy(info->driver, s2io_driver_name, sizeof(info->driver));
	strncpy(info->version, s2io_driver_version, sizeof(info->version));
	strncpy(info->fw_version, "", sizeof(info->fw_version));
	strncpy(info->bus_info, pci_name(sp->pdev), sizeof(info->bus_info));
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	info->regdump_len = XENA_REG_SPACE;
	info->eedump_len = XENA_EEPROM_SPACE;
	info->testinfo_len = S2IO_TEST_LEN;
	info->n_stats = S2IO_STAT_LEN;
}

/**
 *  s2io_ethtool_gregs - dumps the entire space of Xfame into the buffer.
4321
 *  @sp: private member of the device structure, which is a pointer to the
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4322
 *  s2io_nic structure.
4323
 *  @regs : pointer to the structure with parameters given by ethtool for
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4324 4325 4326 4327 4328 4329 4330 4331 4332 4333 4334 4335 4336 4337 4338 4339 4340 4341 4342 4343 4344 4345 4346 4347 4348 4349 4350 4351
 *  dumping the registers.
 *  @reg_space: The input argumnet into which all the registers are dumped.
 *  Description:
 *  Dumps the entire register space of xFrame NIC into the user given
 *  buffer area.
 * Return value :
 * void .
*/

static void s2io_ethtool_gregs(struct net_device *dev,
			       struct ethtool_regs *regs, void *space)
{
	int i;
	u64 reg;
	u8 *reg_space = (u8 *) space;
	nic_t *sp = dev->priv;

	regs->len = XENA_REG_SPACE;
	regs->version = sp->pdev->subsystem_device;

	for (i = 0; i < regs->len; i += 8) {
		reg = readq(sp->bar0 + i);
		memcpy((reg_space + i), &reg, 8);
	}
}

/**
 *  s2io_phy_id  - timer function that alternates adapter LED.
4352
 *  @data : address of the private member of the device structure, which
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 *  is a pointer to the s2io_nic structure, provided as an u32.
4354 4355 4356
 * Description: This is actually the timer function that alternates the
 * adapter LED bit of the adapter control bit to set/reset every time on
 * invocation. The timer is set for 1/2 a second, hence tha NIC blinks
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 *  once every second.
*/
static void s2io_phy_id(unsigned long data)
{
	nic_t *sp = (nic_t *) data;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64 = 0;
	u16 subid;

	subid = sp->pdev->subsystem_device;
4367 4368
	if ((sp->device_type == XFRAME_II_DEVICE) ||
		   ((subid & 0xFF) >= 0x07)) {
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		val64 = readq(&bar0->gpio_control);
		val64 ^= GPIO_CTRL_GPIO_0;
		writeq(val64, &bar0->gpio_control);
	} else {
		val64 = readq(&bar0->adapter_control);
		val64 ^= ADAPTER_LED_ON;
		writeq(val64, &bar0->adapter_control);
	}

	mod_timer(&sp->id_timer, jiffies + HZ / 2);
}

/**
 * s2io_ethtool_idnic - To physically identify the nic on the system.
 * @sp : private member of the device structure, which is a pointer to the
 * s2io_nic structure.
4385
 * @id : pointer to the structure with identification parameters given by
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 * ethtool.
 * Description: Used to physically identify the NIC on the system.
4388
 * The Link LED will blink for a time specified by the user for
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4389
 * identification.
4390
 * NOTE: The Link has to be Up to be able to blink the LED. Hence
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 * identification is possible only if it's link is up.
 * Return value:
 * int , returns 0 on success
 */

static int s2io_ethtool_idnic(struct net_device *dev, u32 data)
{
	u64 val64 = 0, last_gpio_ctrl_val;
	nic_t *sp = dev->priv;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u16 subid;

	subid = sp->pdev->subsystem_device;
	last_gpio_ctrl_val = readq(&bar0->gpio_control);
4405 4406
	if ((sp->device_type == XFRAME_I_DEVICE) &&
		((subid & 0xFF) < 0x07)) {
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		val64 = readq(&bar0->adapter_control);
		if (!(val64 & ADAPTER_CNTL_EN)) {
			printk(KERN_ERR
			       "Adapter Link down, cannot blink LED\n");
			return -EFAULT;
		}
	}
	if (sp->id_timer.function == NULL) {
		init_timer(&sp->id_timer);
		sp->id_timer.function = s2io_phy_id;
		sp->id_timer.data = (unsigned long) sp;
	}
	mod_timer(&sp->id_timer, jiffies);
	if (data)
4421
		msleep_interruptible(data * HZ);
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	else
4423
		msleep_interruptible(MAX_FLICKER_TIME);
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	del_timer_sync(&sp->id_timer);

4426
	if (CARDS_WITH_FAULTY_LINK_INDICATORS(sp->device_type, subid)) {
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		writeq(last_gpio_ctrl_val, &bar0->gpio_control);
		last_gpio_ctrl_val = readq(&bar0->gpio_control);
	}

	return 0;
}

/**
 * s2io_ethtool_getpause_data -Pause frame frame generation and reception.
4436 4437
 * @sp : private member of the device structure, which is a pointer to the
 *	s2io_nic structure.
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 * @ep : pointer to the structure with pause parameters given by ethtool.
 * Description:
 * Returns the Pause frame generation and reception capability of the NIC.
 * Return value:
 *  void
 */
static void s2io_ethtool_getpause_data(struct net_device *dev,
				       struct ethtool_pauseparam *ep)
{
	u64 val64;
	nic_t *sp = dev->priv;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;

	val64 = readq(&bar0->rmac_pause_cfg);
	if (val64 & RMAC_PAUSE_GEN_ENABLE)
		ep->tx_pause = TRUE;
	if (val64 & RMAC_PAUSE_RX_ENABLE)
		ep->rx_pause = TRUE;
	ep->autoneg = FALSE;
}

/**
 * s2io_ethtool_setpause_data -  set/reset pause frame generation.
4461
 * @sp : private member of the device structure, which is a pointer to the
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 *      s2io_nic structure.
 * @ep : pointer to the structure with pause parameters given by ethtool.
 * Description:
 * It can be used to set or reset Pause frame generation or reception
 * support of the NIC.
 * Return value:
 * int, returns 0 on Success
 */

static int s2io_ethtool_setpause_data(struct net_device *dev,
4472
			       struct ethtool_pauseparam *ep)
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{
	u64 val64;
	nic_t *sp = dev->priv;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;

	val64 = readq(&bar0->rmac_pause_cfg);
	if (ep->tx_pause)
		val64 |= RMAC_PAUSE_GEN_ENABLE;
	else
		val64 &= ~RMAC_PAUSE_GEN_ENABLE;
	if (ep->rx_pause)
		val64 |= RMAC_PAUSE_RX_ENABLE;
	else
		val64 &= ~RMAC_PAUSE_RX_ENABLE;
	writeq(val64, &bar0->rmac_pause_cfg);
	return 0;
}

/**
 * read_eeprom - reads 4 bytes of data from user given offset.
4493
 * @sp : private member of the device structure, which is a pointer to the
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 *      s2io_nic structure.
 * @off : offset at which the data must be written
 * @data : Its an output parameter where the data read at the given
4497
 *	offset is stored.
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 * Description:
4499
 * Will read 4 bytes of data from the user given offset and return the
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 * read data.
 * NOTE: Will allow to read only part of the EEPROM visible through the
 *   I2C bus.
 * Return value:
 *  -1 on failure and 0 on success.
 */

#define S2IO_DEV_ID		5
4508
static int read_eeprom(nic_t * sp, int off, u64 * data)
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{
	int ret = -1;
	u32 exit_cnt = 0;
	u64 val64;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;

4515 4516 4517 4518 4519
	if (sp->device_type == XFRAME_I_DEVICE) {
		val64 = I2C_CONTROL_DEV_ID(S2IO_DEV_ID) | I2C_CONTROL_ADDR(off) |
		    I2C_CONTROL_BYTE_CNT(0x3) | I2C_CONTROL_READ |
		    I2C_CONTROL_CNTL_START;
		SPECIAL_REG_WRITE(val64, &bar0->i2c_control, LF);
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4521 4522 4523 4524 4525 4526 4527 4528 4529
		while (exit_cnt < 5) {
			val64 = readq(&bar0->i2c_control);
			if (I2C_CONTROL_CNTL_END(val64)) {
				*data = I2C_CONTROL_GET_DATA(val64);
				ret = 0;
				break;
			}
			msleep(50);
			exit_cnt++;
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		}
	}

4533 4534 4535 4536 4537 4538 4539 4540 4541 4542 4543 4544 4545 4546 4547 4548 4549 4550 4551 4552 4553 4554
	if (sp->device_type == XFRAME_II_DEVICE) {
		val64 = SPI_CONTROL_KEY(0x9) | SPI_CONTROL_SEL1 |
			SPI_CONTROL_BYTECNT(0x3) | 
			SPI_CONTROL_CMD(0x3) | SPI_CONTROL_ADDR(off);
		SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF);
		val64 |= SPI_CONTROL_REQ;
		SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF);
		while (exit_cnt < 5) {
			val64 = readq(&bar0->spi_control);
			if (val64 & SPI_CONTROL_NACK) {
				ret = 1;
				break;
			} else if (val64 & SPI_CONTROL_DONE) {
				*data = readq(&bar0->spi_data);
				*data &= 0xffffff;
				ret = 0;
				break;
			}
			msleep(50);
			exit_cnt++;
		}
	}
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	return ret;
}

/**
 *  write_eeprom - actually writes the relevant part of the data value.
 *  @sp : private member of the device structure, which is a pointer to the
 *       s2io_nic structure.
 *  @off : offset at which the data must be written
 *  @data : The data that is to be written
4564
 *  @cnt : Number of bytes of the data that are actually to be written into
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 *  the Eeprom. (max of 3)
 * Description:
 *  Actually writes the relevant part of the data value into the Eeprom
 *  through the I2C bus.
 * Return value:
 *  0 on success, -1 on failure.
 */

4573
static int write_eeprom(nic_t * sp, int off, u64 data, int cnt)
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{
	int exit_cnt = 0, ret = -1;
	u64 val64;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;

4579 4580 4581 4582 4583 4584 4585 4586 4587 4588 4589 4590 4591 4592 4593 4594 4595
	if (sp->device_type == XFRAME_I_DEVICE) {
		val64 = I2C_CONTROL_DEV_ID(S2IO_DEV_ID) | I2C_CONTROL_ADDR(off) |
		    I2C_CONTROL_BYTE_CNT(cnt) | I2C_CONTROL_SET_DATA((u32)data) |
		    I2C_CONTROL_CNTL_START;
		SPECIAL_REG_WRITE(val64, &bar0->i2c_control, LF);

		while (exit_cnt < 5) {
			val64 = readq(&bar0->i2c_control);
			if (I2C_CONTROL_CNTL_END(val64)) {
				if (!(val64 & I2C_CONTROL_NACK))
					ret = 0;
				break;
			}
			msleep(50);
			exit_cnt++;
		}
	}
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4597 4598 4599 4600 4601 4602 4603 4604 4605 4606 4607 4608 4609 4610 4611 4612
	if (sp->device_type == XFRAME_II_DEVICE) {
		int write_cnt = (cnt == 8) ? 0 : cnt;
		writeq(SPI_DATA_WRITE(data,(cnt<<3)), &bar0->spi_data);

		val64 = SPI_CONTROL_KEY(0x9) | SPI_CONTROL_SEL1 |
			SPI_CONTROL_BYTECNT(write_cnt) | 
			SPI_CONTROL_CMD(0x2) | SPI_CONTROL_ADDR(off);
		SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF);
		val64 |= SPI_CONTROL_REQ;
		SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF);
		while (exit_cnt < 5) {
			val64 = readq(&bar0->spi_control);
			if (val64 & SPI_CONTROL_NACK) {
				ret = 1;
				break;
			} else if (val64 & SPI_CONTROL_DONE) {
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				ret = 0;
4614 4615 4616 4617
				break;
			}
			msleep(50);
			exit_cnt++;
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		}
	}
	return ret;
}

/**
 *  s2io_ethtool_geeprom  - reads the value stored in the Eeprom.
 *  @sp : private member of the device structure, which is a pointer to the *       s2io_nic structure.
4626
 *  @eeprom : pointer to the user level structure provided by ethtool,
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 *  containing all relevant information.
 *  @data_buf : user defined value to be written into Eeprom.
 *  Description: Reads the values stored in the Eeprom at given offset
 *  for a given length. Stores these values int the input argument data
 *  buffer 'data_buf' and returns these to the caller (ethtool.)
 *  Return value:
 *  int  0 on success
 */

static int s2io_ethtool_geeprom(struct net_device *dev,
4637
			 struct ethtool_eeprom *eeprom, u8 * data_buf)
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4638
{
4639 4640
	u32 i, valid;
	u64 data;
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	nic_t *sp = dev->priv;

	eeprom->magic = sp->pdev->vendor | (sp->pdev->device << 16);

	if ((eeprom->offset + eeprom->len) > (XENA_EEPROM_SPACE))
		eeprom->len = XENA_EEPROM_SPACE - eeprom->offset;

	for (i = 0; i < eeprom->len; i += 4) {
		if (read_eeprom(sp, (eeprom->offset + i), &data)) {
			DBG_PRINT(ERR_DBG, "Read of EEPROM failed\n");
			return -EFAULT;
		}
		valid = INV(data);
		memcpy((data_buf + i), &valid, 4);
	}
	return 0;
}

/**
 *  s2io_ethtool_seeprom - tries to write the user provided value in Eeprom
 *  @sp : private member of the device structure, which is a pointer to the
 *  s2io_nic structure.
4663
 *  @eeprom : pointer to the user level structure provided by ethtool,
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 *  containing all relevant information.
 *  @data_buf ; user defined value to be written into Eeprom.
 *  Description:
 *  Tries to write the user provided value in the Eeprom, at the offset
 *  given by the user.
 *  Return value:
 *  0 on success, -EFAULT on failure.
 */

static int s2io_ethtool_seeprom(struct net_device *dev,
				struct ethtool_eeprom *eeprom,
				u8 * data_buf)
{
	int len = eeprom->len, cnt = 0;
4678
	u64 valid = 0, data;
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4679 4680 4681 4682 4683 4684 4685 4686 4687 4688 4689 4690 4691 4692 4693 4694 4695 4696 4697 4698 4699 4700 4701 4702 4703 4704 4705 4706 4707 4708 4709 4710
	nic_t *sp = dev->priv;

	if (eeprom->magic != (sp->pdev->vendor | (sp->pdev->device << 16))) {
		DBG_PRINT(ERR_DBG,
			  "ETHTOOL_WRITE_EEPROM Err: Magic value ");
		DBG_PRINT(ERR_DBG, "is wrong, Its not 0x%x\n",
			  eeprom->magic);
		return -EFAULT;
	}

	while (len) {
		data = (u32) data_buf[cnt] & 0x000000FF;
		if (data) {
			valid = (u32) (data << 24);
		} else
			valid = data;

		if (write_eeprom(sp, (eeprom->offset + cnt), valid, 0)) {
			DBG_PRINT(ERR_DBG,
				  "ETHTOOL_WRITE_EEPROM Err: Cannot ");
			DBG_PRINT(ERR_DBG,
				  "write into the specified offset\n");
			return -EFAULT;
		}
		cnt++;
		len--;
	}

	return 0;
}

/**
4711 4712
 * s2io_register_test - reads and writes into all clock domains.
 * @sp : private member of the device structure, which is a pointer to the
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 * s2io_nic structure.
 * @data : variable that returns the result of each of the test conducted b
 * by the driver.
 * Description:
 * Read and write into all clock domains. The NIC has 3 clock domains,
 * see that registers in all the three regions are accessible.
 * Return value:
 * 0 on success.
 */

static int s2io_register_test(nic_t * sp, uint64_t * data)
{
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
4726
	u64 val64 = 0, exp_val;
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4727 4728
	int fail = 0;

4729 4730
	val64 = readq(&bar0->pif_rd_swapper_fb);
	if (val64 != 0x123456789abcdefULL) {
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		fail = 1;
		DBG_PRINT(INFO_DBG, "Read Test level 1 fails\n");
	}

	val64 = readq(&bar0->rmac_pause_cfg);
	if (val64 != 0xc000ffff00000000ULL) {
		fail = 1;
		DBG_PRINT(INFO_DBG, "Read Test level 2 fails\n");
	}

	val64 = readq(&bar0->rx_queue_cfg);
4742 4743 4744 4745 4746
	if (sp->device_type == XFRAME_II_DEVICE)
		exp_val = 0x0404040404040404ULL;
	else
		exp_val = 0x0808080808080808ULL;
	if (val64 != exp_val) {
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		fail = 1;
		DBG_PRINT(INFO_DBG, "Read Test level 3 fails\n");
	}

	val64 = readq(&bar0->xgxs_efifo_cfg);
	if (val64 != 0x000000001923141EULL) {
		fail = 1;
		DBG_PRINT(INFO_DBG, "Read Test level 4 fails\n");
	}

	val64 = 0x5A5A5A5A5A5A5A5AULL;
	writeq(val64, &bar0->xmsi_data);
	val64 = readq(&bar0->xmsi_data);
	if (val64 != 0x5A5A5A5A5A5A5A5AULL) {
		fail = 1;
		DBG_PRINT(ERR_DBG, "Write Test level 1 fails\n");
	}

	val64 = 0xA5A5A5A5A5A5A5A5ULL;
	writeq(val64, &bar0->xmsi_data);
	val64 = readq(&bar0->xmsi_data);
	if (val64 != 0xA5A5A5A5A5A5A5A5ULL) {
		fail = 1;
		DBG_PRINT(ERR_DBG, "Write Test level 2 fails\n");
	}

	*data = fail;
4774
	return fail;
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}

/**
4778
 * s2io_eeprom_test - to verify that EEprom in the xena can be programmed.
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 * @sp : private member of the device structure, which is a pointer to the
 * s2io_nic structure.
 * @data:variable that returns the result of each of the test conducted by
 * the driver.
 * Description:
4784
 * Verify that EEPROM in the xena can be programmed using I2C_CONTROL
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 * register.
 * Return value:
 * 0 on success.
 */

static int s2io_eeprom_test(nic_t * sp, uint64_t * data)
{
	int fail = 0;
4793 4794 4795
	u64 ret_data, org_4F0, org_7F0;
	u8 saved_4F0 = 0, saved_7F0 = 0;
	struct net_device *dev = sp->dev;
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	/* Test Write Error at offset 0 */
4798 4799 4800 4801 4802 4803 4804 4805 4806 4807 4808 4809
	/* Note that SPI interface allows write access to all areas
	 * of EEPROM. Hence doing all negative testing only for Xframe I.
	 */
	if (sp->device_type == XFRAME_I_DEVICE)
		if (!write_eeprom(sp, 0, 0, 3))
			fail = 1;

	/* Save current values at offsets 0x4F0 and 0x7F0 */
	if (!read_eeprom(sp, 0x4F0, &org_4F0))
		saved_4F0 = 1;
	if (!read_eeprom(sp, 0x7F0, &org_7F0))
		saved_7F0 = 1;
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	/* Test Write at offset 4f0 */
4812
	if (write_eeprom(sp, 0x4F0, 0x012345, 3))
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4813 4814 4815 4816
		fail = 1;
	if (read_eeprom(sp, 0x4F0, &ret_data))
		fail = 1;

4817
	if (ret_data != 0x012345) {
4818 4819 4820 4821
		DBG_PRINT(ERR_DBG, "%s: eeprom test error at offset 0x4F0. "
			"Data written %llx Data read %llx\n",
			dev->name, (unsigned long long)0x12345,
			(unsigned long long)ret_data);
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4822
		fail = 1;
4823
	}
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4824 4825

	/* Reset the EEPROM data go FFFF */
4826
	write_eeprom(sp, 0x4F0, 0xFFFFFF, 3);
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4827 4828

	/* Test Write Request Error at offset 0x7c */
4829 4830 4831
	if (sp->device_type == XFRAME_I_DEVICE)
		if (!write_eeprom(sp, 0x07C, 0, 3))
			fail = 1;
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4833 4834
	/* Test Write Request at offset 0x7f0 */
	if (write_eeprom(sp, 0x7F0, 0x012345, 3))
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		fail = 1;
4836
	if (read_eeprom(sp, 0x7F0, &ret_data))
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4837 4838
		fail = 1;

4839
	if (ret_data != 0x012345) {
4840 4841 4842 4843
		DBG_PRINT(ERR_DBG, "%s: eeprom test error at offset 0x7F0. "
			"Data written %llx Data read %llx\n",
			dev->name, (unsigned long long)0x12345,
			(unsigned long long)ret_data);
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		fail = 1;
4845
	}
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4846 4847

	/* Reset the EEPROM data go FFFF */
4848
	write_eeprom(sp, 0x7F0, 0xFFFFFF, 3);
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4850 4851 4852 4853
	if (sp->device_type == XFRAME_I_DEVICE) {
		/* Test Write Error at offset 0x80 */
		if (!write_eeprom(sp, 0x080, 0, 3))
			fail = 1;
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4855 4856 4857
		/* Test Write Error at offset 0xfc */
		if (!write_eeprom(sp, 0x0FC, 0, 3))
			fail = 1;
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4858

4859 4860 4861
		/* Test Write Error at offset 0x100 */
		if (!write_eeprom(sp, 0x100, 0, 3))
			fail = 1;
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4863 4864 4865 4866 4867 4868 4869 4870 4871 4872
		/* Test Write Error at offset 4ec */
		if (!write_eeprom(sp, 0x4EC, 0, 3))
			fail = 1;
	}

	/* Restore values at offsets 0x4F0 and 0x7F0 */
	if (saved_4F0)
		write_eeprom(sp, 0x4F0, org_4F0, 3);
	if (saved_7F0)
		write_eeprom(sp, 0x7F0, org_7F0, 3);
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	*data = fail;
4875
	return fail;
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}

/**
 * s2io_bist_test - invokes the MemBist test of the card .
4880
 * @sp : private member of the device structure, which is a pointer to the
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 * s2io_nic structure.
4882
 * @data:variable that returns the result of each of the test conducted by
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 * the driver.
 * Description:
 * This invokes the MemBist test of the card. We give around
 * 2 secs time for the Test to complete. If it's still not complete
4887
 * within this peiod, we consider that the test failed.
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 * Return value:
 * 0 on success and -1 on failure.
 */

static int s2io_bist_test(nic_t * sp, uint64_t * data)
{
	u8 bist = 0;
	int cnt = 0, ret = -1;

	pci_read_config_byte(sp->pdev, PCI_BIST, &bist);
	bist |= PCI_BIST_START;
	pci_write_config_word(sp->pdev, PCI_BIST, bist);

	while (cnt < 20) {
		pci_read_config_byte(sp->pdev, PCI_BIST, &bist);
		if (!(bist & PCI_BIST_START)) {
			*data = (bist & PCI_BIST_CODE_MASK);
			ret = 0;
			break;
		}
		msleep(100);
		cnt++;
	}

	return ret;
}

/**
4916 4917
 * s2io-link_test - verifies the link state of the nic
 * @sp ; private member of the device structure, which is a pointer to the
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 * s2io_nic structure.
 * @data: variable that returns the result of each of the test conducted by
 * the driver.
 * Description:
4922
 * The function verifies the link state of the NIC and updates the input
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 * argument 'data' appropriately.
 * Return value:
 * 0 on success.
 */

static int s2io_link_test(nic_t * sp, uint64_t * data)
{
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64;

	val64 = readq(&bar0->adapter_status);
	if (val64 & ADAPTER_STATUS_RMAC_LOCAL_FAULT)
		*data = 1;

	return 0;
}

/**
4941 4942
 * s2io_rldram_test - offline test for access to the RldRam chip on the NIC
 * @sp - private member of the device structure, which is a pointer to the
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4943
 * s2io_nic structure.
4944
 * @data - variable that returns the result of each of the test
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4945 4946
 * conducted by the driver.
 * Description:
4947
 *  This is one of the offline test that tests the read and write
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 *  access to the RldRam chip on the NIC.
 * Return value:
 *  0 on success.
 */

static int s2io_rldram_test(nic_t * sp, uint64_t * data)
{
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	u64 val64;
4957
	int cnt, iteration = 0, test_fail = 0;
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	val64 = readq(&bar0->adapter_control);
	val64 &= ~ADAPTER_ECC_EN;
	writeq(val64, &bar0->adapter_control);

	val64 = readq(&bar0->mc_rldram_test_ctrl);
	val64 |= MC_RLDRAM_TEST_MODE;
4965
	SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_test_ctrl, LF);
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	val64 = readq(&bar0->mc_rldram_mrs);
	val64 |= MC_RLDRAM_QUEUE_SIZE_ENABLE;
	SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_mrs, UF);

	val64 |= MC_RLDRAM_MRS_ENABLE;
	SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_mrs, UF);

	while (iteration < 2) {
		val64 = 0x55555555aaaa0000ULL;
		if (iteration == 1) {
			val64 ^= 0xFFFFFFFFFFFF0000ULL;
		}
		writeq(val64, &bar0->mc_rldram_test_d0);

		val64 = 0xaaaa5a5555550000ULL;
		if (iteration == 1) {
			val64 ^= 0xFFFFFFFFFFFF0000ULL;
		}
		writeq(val64, &bar0->mc_rldram_test_d1);

		val64 = 0x55aaaaaaaa5a0000ULL;
		if (iteration == 1) {
			val64 ^= 0xFFFFFFFFFFFF0000ULL;
		}
		writeq(val64, &bar0->mc_rldram_test_d2);

4993
		val64 = (u64) (0x0000003ffffe0100ULL);
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		writeq(val64, &bar0->mc_rldram_test_add);

4996 4997 4998
		val64 = MC_RLDRAM_TEST_MODE | MC_RLDRAM_TEST_WRITE |
		    	MC_RLDRAM_TEST_GO;
		SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_test_ctrl, LF);
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		for (cnt = 0; cnt < 5; cnt++) {
			val64 = readq(&bar0->mc_rldram_test_ctrl);
			if (val64 & MC_RLDRAM_TEST_DONE)
				break;
			msleep(200);
		}

		if (cnt == 5)
			break;

5010 5011
		val64 = MC_RLDRAM_TEST_MODE | MC_RLDRAM_TEST_GO;
		SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_test_ctrl, LF);
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		for (cnt = 0; cnt < 5; cnt++) {
			val64 = readq(&bar0->mc_rldram_test_ctrl);
			if (val64 & MC_RLDRAM_TEST_DONE)
				break;
			msleep(500);
		}

		if (cnt == 5)
			break;

		val64 = readq(&bar0->mc_rldram_test_ctrl);
5024 5025
		if (!(val64 & MC_RLDRAM_TEST_PASS))
			test_fail = 1;
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		iteration++;
	}

5030
	*data = test_fail;
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5032 5033 5034 5035
	/* Bring the adapter out of test mode */
	SPECIAL_REG_WRITE(0, &bar0->mc_rldram_test_ctrl, LF);

	return test_fail;
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}

/**
 *  s2io_ethtool_test - conducts 6 tsets to determine the health of card.
 *  @sp : private member of the device structure, which is a pointer to the
 *  s2io_nic structure.
 *  @ethtest : pointer to a ethtool command specific structure that will be
 *  returned to the user.
5044
 *  @data : variable that returns the result of each of the test
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 * conducted by the driver.
 * Description:
 *  This function conducts 6 tests ( 4 offline and 2 online) to determine
 *  the health of the card.
 * Return value:
 *  void
 */

static void s2io_ethtool_test(struct net_device *dev,
			      struct ethtool_test *ethtest,
			      uint64_t * data)
{
	nic_t *sp = dev->priv;
	int orig_state = netif_running(sp->dev);

	if (ethtest->flags == ETH_TEST_FL_OFFLINE) {
		/* Offline Tests. */
5062
		if (orig_state)
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			s2io_close(sp->dev);

		if (s2io_register_test(sp, &data[0]))
			ethtest->flags |= ETH_TEST_FL_FAILED;

		s2io_reset(sp);

		if (s2io_rldram_test(sp, &data[3]))
			ethtest->flags |= ETH_TEST_FL_FAILED;

		s2io_reset(sp);

		if (s2io_eeprom_test(sp, &data[1]))
			ethtest->flags |= ETH_TEST_FL_FAILED;

		if (s2io_bist_test(sp, &data[4]))
			ethtest->flags |= ETH_TEST_FL_FAILED;

		if (orig_state)
			s2io_open(sp->dev);

		data[2] = 0;
	} else {
		/* Online Tests. */
		if (!orig_state) {
			DBG_PRINT(ERR_DBG,
				  "%s: is not up, cannot run test\n",
				  dev->name);
			data[0] = -1;
			data[1] = -1;
			data[2] = -1;
			data[3] = -1;
			data[4] = -1;
		}

		if (s2io_link_test(sp, &data[2]))
			ethtest->flags |= ETH_TEST_FL_FAILED;

		data[0] = 0;
		data[1] = 0;
		data[3] = 0;
		data[4] = 0;
	}
}

static void s2io_get_ethtool_stats(struct net_device *dev,
				   struct ethtool_stats *estats,
				   u64 * tmp_stats)
{
	int i = 0;
	nic_t *sp = dev->priv;
	StatInfo_t *stat_info = sp->mac_control.stats_info;
5115
	u64 tmp;
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5117
	s2io_updt_stats(sp);
5118 5119 5120 5121 5122 5123
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_frms_oflow) << 32  |
		le32_to_cpu(stat_info->tmac_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_data_octets_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_data_octets);
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	tmp_stats[i++] = le64_to_cpu(stat_info->tmac_drop_frms);
5125 5126 5127 5128 5129 5130
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_mcst_frms_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_mcst_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_bcst_frms_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_bcst_frms);
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	tmp_stats[i++] = le64_to_cpu(stat_info->tmac_pause_ctrl_frms);
5132 5133 5134
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_any_err_frms_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_any_err_frms);
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	tmp_stats[i++] = le64_to_cpu(stat_info->tmac_vld_ip_octets);
5136 5137 5138 5139 5140 5141 5142 5143 5144 5145 5146 5147
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_vld_ip_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_vld_ip);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_drop_ip_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_drop_ip);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_icmp_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_icmp);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->tmac_rst_tcp_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_rst_tcp);
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5148
	tmp_stats[i++] = le64_to_cpu(stat_info->tmac_tcp);
5149 5150 5151 5152 5153 5154 5155 5156
	tmp_stats[i++] = (u64)le32_to_cpu(stat_info->tmac_udp_oflow) << 32 |
		le32_to_cpu(stat_info->tmac_udp);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_vld_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_vld_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_data_octets_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_data_octets);
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	tmp_stats[i++] = le64_to_cpu(stat_info->rmac_fcs_err_frms);
	tmp_stats[i++] = le64_to_cpu(stat_info->rmac_drop_frms);
5159 5160 5161 5162 5163 5164
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_vld_mcst_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_vld_mcst_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_vld_bcst_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_vld_bcst_frms);
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	tmp_stats[i++] = le32_to_cpu(stat_info->rmac_in_rng_len_err_frms);
	tmp_stats[i++] = le64_to_cpu(stat_info->rmac_long_frms);
	tmp_stats[i++] = le64_to_cpu(stat_info->rmac_pause_ctrl_frms);
5168 5169 5170 5171 5172 5173 5174 5175 5176 5177 5178 5179 5180 5181 5182 5183 5184
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_discarded_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_discarded_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_usized_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_usized_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_osized_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_osized_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_frag_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_frag_frms);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_jabber_frms_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_jabber_frms);
	tmp_stats[i++] = (u64)le32_to_cpu(stat_info->rmac_ip_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_ip);
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	tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ip_octets);
	tmp_stats[i++] = le32_to_cpu(stat_info->rmac_hdr_err_ip);
5187 5188 5189 5190
	tmp_stats[i++] = (u64)le32_to_cpu(stat_info->rmac_drop_ip_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_drop_ip);
	tmp_stats[i++] = (u64)le32_to_cpu(stat_info->rmac_icmp_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_icmp);
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5191
	tmp_stats[i++] = le64_to_cpu(stat_info->rmac_tcp);
5192 5193 5194 5195 5196 5197 5198 5199 5200 5201 5202
	tmp_stats[i++] = (u64)le32_to_cpu(stat_info->rmac_udp_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_udp);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_err_drp_udp_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_err_drp_udp);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_pause_cnt_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_pause_cnt);
	tmp_stats[i++] =
		(u64)le32_to_cpu(stat_info->rmac_accepted_ip_oflow) << 32 |
		le32_to_cpu(stat_info->rmac_accepted_ip);
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5203
	tmp_stats[i++] = le32_to_cpu(stat_info->rmac_err_tcp);
5204 5205 5206
	tmp_stats[i++] = 0;
	tmp_stats[i++] = stat_info->sw_stat.single_ecc_errs;
	tmp_stats[i++] = stat_info->sw_stat.double_ecc_errs;
5207 5208 5209 5210
	tmp_stats[i++] = stat_info->sw_stat.clubbed_frms_cnt;
	tmp_stats[i++] = stat_info->sw_stat.sending_both;
	tmp_stats[i++] = stat_info->sw_stat.outof_sequence_pkts;
	tmp_stats[i++] = stat_info->sw_stat.flush_max_pkts;
5211 5212 5213 5214 5215 5216
	tmp = 0;
	if (stat_info->sw_stat.num_aggregations) {
		tmp = stat_info->sw_stat.sum_avg_pkts_aggregated;
		do_div(tmp, stat_info->sw_stat.num_aggregations);
	}
	tmp_stats[i++] = tmp;
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5217 5218
}

5219
static int s2io_ethtool_get_regs_len(struct net_device *dev)
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{
	return (XENA_REG_SPACE);
}


5225
static u32 s2io_ethtool_get_rx_csum(struct net_device * dev)
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{
	nic_t *sp = dev->priv;

	return (sp->rx_csum);
}
5231 5232

static int s2io_ethtool_set_rx_csum(struct net_device *dev, u32 data)
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5233 5234 5235 5236 5237 5238 5239 5240 5241 5242
{
	nic_t *sp = dev->priv;

	if (data)
		sp->rx_csum = 1;
	else
		sp->rx_csum = 0;

	return 0;
}
5243 5244

static int s2io_get_eeprom_len(struct net_device *dev)
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5245 5246 5247 5248
{
	return (XENA_EEPROM_SPACE);
}

5249
static int s2io_ethtool_self_test_count(struct net_device *dev)
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5250 5251 5252
{
	return (S2IO_TEST_LEN);
}
5253 5254 5255

static void s2io_ethtool_get_strings(struct net_device *dev,
				     u32 stringset, u8 * data)
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5256 5257 5258 5259 5260 5261 5262 5263 5264 5265 5266 5267 5268 5269 5270
{
	switch (stringset) {
	case ETH_SS_TEST:
		memcpy(data, s2io_gstrings, S2IO_STRINGS_LEN);
		break;
	case ETH_SS_STATS:
		memcpy(data, &ethtool_stats_keys,
		       sizeof(ethtool_stats_keys));
	}
}
static int s2io_ethtool_get_stats_count(struct net_device *dev)
{
	return (S2IO_STAT_LEN);
}

5271
static int s2io_ethtool_op_set_tx_csum(struct net_device *dev, u32 data)
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{
	if (data)
		dev->features |= NETIF_F_IP_CSUM;
	else
		dev->features &= ~NETIF_F_IP_CSUM;

	return 0;
}


static struct ethtool_ops netdev_ethtool_ops = {
	.get_settings = s2io_ethtool_gset,
	.set_settings = s2io_ethtool_sset,
	.get_drvinfo = s2io_ethtool_gdrvinfo,
	.get_regs_len = s2io_ethtool_get_regs_len,
	.get_regs = s2io_ethtool_gregs,
	.get_link = ethtool_op_get_link,
	.get_eeprom_len = s2io_get_eeprom_len,
	.get_eeprom = s2io_ethtool_geeprom,
	.set_eeprom = s2io_ethtool_seeprom,
	.get_pauseparam = s2io_ethtool_getpause_data,
	.set_pauseparam = s2io_ethtool_setpause_data,
	.get_rx_csum = s2io_ethtool_get_rx_csum,
	.set_rx_csum = s2io_ethtool_set_rx_csum,
	.get_tx_csum = ethtool_op_get_tx_csum,
	.set_tx_csum = s2io_ethtool_op_set_tx_csum,
	.get_sg = ethtool_op_get_sg,
	.set_sg = ethtool_op_set_sg,
#ifdef NETIF_F_TSO
	.get_tso = ethtool_op_get_tso,
	.set_tso = ethtool_op_set_tso,
#endif
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	.get_ufo = ethtool_op_get_ufo,
	.set_ufo = ethtool_op_set_ufo,
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	.self_test_count = s2io_ethtool_self_test_count,
	.self_test = s2io_ethtool_test,
	.get_strings = s2io_ethtool_get_strings,
	.phys_id = s2io_ethtool_idnic,
	.get_stats_count = s2io_ethtool_get_stats_count,
	.get_ethtool_stats = s2io_get_ethtool_stats
};

/**
5315
 *  s2io_ioctl - Entry point for the Ioctl
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5316 5317 5318 5319 5320 5321
 *  @dev :  Device pointer.
 *  @ifr :  An IOCTL specefic structure, that can contain a pointer to
 *  a proprietary structure used to pass information to the driver.
 *  @cmd :  This is used to distinguish between the different commands that
 *  can be passed to the IOCTL functions.
 *  Description:
5322 5323
 *  Currently there are no special functionality supported in IOCTL, hence
 *  function always return EOPNOTSUPPORTED
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 */

5326
static int s2io_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
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5327 5328 5329 5330 5331 5332 5333 5334 5335 5336 5337 5338 5339 5340 5341
{
	return -EOPNOTSUPP;
}

/**
 *  s2io_change_mtu - entry point to change MTU size for the device.
 *   @dev : device pointer.
 *   @new_mtu : the new MTU size for the device.
 *   Description: A driver entry point to change MTU size for the device.
 *   Before changing the MTU the device must be stopped.
 *  Return value:
 *   0 on success and an appropriate (-)ve integer as defined in errno.h
 *   file on failure.
 */

5342
static int s2io_change_mtu(struct net_device *dev, int new_mtu)
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{
	nic_t *sp = dev->priv;

	if ((new_mtu < MIN_MTU) || (new_mtu > S2IO_JUMBO_SIZE)) {
		DBG_PRINT(ERR_DBG, "%s: MTU size is invalid.\n",
			  dev->name);
		return -EPERM;
	}

	dev->mtu = new_mtu;
5353 5354 5355 5356 5357 5358 5359 5360 5361 5362 5363 5364 5365 5366 5367
	if (netif_running(dev)) {
		s2io_card_down(sp);
		netif_stop_queue(dev);
		if (s2io_card_up(sp)) {
			DBG_PRINT(ERR_DBG, "%s: Device bring up failed\n",
				  __FUNCTION__);
		}
		if (netif_queue_stopped(dev))
			netif_wake_queue(dev);
	} else { /* Device is down */
		XENA_dev_config_t __iomem *bar0 = sp->bar0;
		u64 val64 = new_mtu;

		writeq(vBIT(val64, 2, 14), &bar0->rmac_max_pyld_len);
	}
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	return 0;
}

/**
 *  s2io_tasklet - Bottom half of the ISR.
 *  @dev_adr : address of the device structure in dma_addr_t format.
 *  Description:
 *  This is the tasklet or the bottom half of the ISR. This is
5377
 *  an extension of the ISR which is scheduled by the scheduler to be run
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5378
 *  when the load on the CPU is low. All low priority tasks of the ISR can
5379
 *  be pushed into the tasklet. For now the tasklet is used only to
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5380 5381 5382 5383 5384 5385 5386 5387 5388 5389 5390 5391 5392 5393 5394 5395 5396 5397 5398 5399 5400 5401 5402 5403 5404 5405 5406 5407 5408 5409 5410 5411 5412 5413 5414 5415 5416 5417 5418 5419 5420 5421 5422 5423 5424 5425 5426 5427 5428 5429 5430 5431 5432 5433 5434
 *  replenish the Rx buffers in the Rx buffer descriptors.
 *  Return value:
 *  void.
 */

static void s2io_tasklet(unsigned long dev_addr)
{
	struct net_device *dev = (struct net_device *) dev_addr;
	nic_t *sp = dev->priv;
	int i, ret;
	mac_info_t *mac_control;
	struct config_param *config;

	mac_control = &sp->mac_control;
	config = &sp->config;

	if (!TASKLET_IN_USE) {
		for (i = 0; i < config->rx_ring_num; i++) {
			ret = fill_rx_buffers(sp, i);
			if (ret == -ENOMEM) {
				DBG_PRINT(ERR_DBG, "%s: Out of ",
					  dev->name);
				DBG_PRINT(ERR_DBG, "memory in tasklet\n");
				break;
			} else if (ret == -EFILL) {
				DBG_PRINT(ERR_DBG,
					  "%s: Rx Ring %d is full\n",
					  dev->name, i);
				break;
			}
		}
		clear_bit(0, (&sp->tasklet_status));
	}
}

/**
 * s2io_set_link - Set the LInk status
 * @data: long pointer to device private structue
 * Description: Sets the link status for the adapter
 */

static void s2io_set_link(unsigned long data)
{
	nic_t *nic = (nic_t *) data;
	struct net_device *dev = nic->dev;
	XENA_dev_config_t __iomem *bar0 = nic->bar0;
	register u64 val64;
	u16 subid;

	if (test_and_set_bit(0, &(nic->link_state))) {
		/* The card is being reset, no point doing anything */
		return;
	}

	subid = nic->pdev->subsystem_device;
5435 5436 5437 5438 5439 5440 5441
	if (s2io_link_fault_indication(nic) == MAC_RMAC_ERR_TIMER) {
		/*
		 * Allow a small delay for the NICs self initiated
		 * cleanup to complete.
		 */
		msleep(100);
	}
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	val64 = readq(&bar0->adapter_status);
5444
	if (verify_xena_quiescence(nic, val64, nic->device_enabled_once)) {
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5445 5446 5447 5448
		if (LINK_IS_UP(val64)) {
			val64 = readq(&bar0->adapter_control);
			val64 |= ADAPTER_CNTL_EN;
			writeq(val64, &bar0->adapter_control);
5449 5450
			if (CARDS_WITH_FAULTY_LINK_INDICATORS(nic->device_type,
							     subid)) {
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5451 5452 5453 5454 5455 5456 5457 5458
				val64 = readq(&bar0->gpio_control);
				val64 |= GPIO_CTRL_GPIO_0;
				writeq(val64, &bar0->gpio_control);
				val64 = readq(&bar0->gpio_control);
			} else {
				val64 |= ADAPTER_LED_ON;
				writeq(val64, &bar0->adapter_control);
			}
5459 5460 5461 5462 5463 5464 5465 5466 5467 5468
			if (s2io_link_fault_indication(nic) ==
						MAC_RMAC_ERR_TIMER) {
				val64 = readq(&bar0->adapter_status);
				if (!LINK_IS_UP(val64)) {
					DBG_PRINT(ERR_DBG, "%s:", dev->name);
					DBG_PRINT(ERR_DBG, " Link down");
					DBG_PRINT(ERR_DBG, "after ");
					DBG_PRINT(ERR_DBG, "enabling ");
					DBG_PRINT(ERR_DBG, "device \n");
				}
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5469 5470 5471 5472 5473 5474
			}
			if (nic->device_enabled_once == FALSE) {
				nic->device_enabled_once = TRUE;
			}
			s2io_link(nic, LINK_UP);
		} else {
5475 5476
			if (CARDS_WITH_FAULTY_LINK_INDICATORS(nic->device_type,
							      subid)) {
L
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5477 5478 5479 5480 5481 5482 5483 5484 5485 5486 5487 5488 5489 5490 5491 5492 5493 5494 5495 5496 5497 5498
				val64 = readq(&bar0->gpio_control);
				val64 &= ~GPIO_CTRL_GPIO_0;
				writeq(val64, &bar0->gpio_control);
				val64 = readq(&bar0->gpio_control);
			}
			s2io_link(nic, LINK_DOWN);
		}
	} else {		/* NIC is not Quiescent. */
		DBG_PRINT(ERR_DBG, "%s: Error: ", dev->name);
		DBG_PRINT(ERR_DBG, "device is not Quiescent\n");
		netif_stop_queue(dev);
	}
	clear_bit(0, &(nic->link_state));
}

static void s2io_card_down(nic_t * sp)
{
	int cnt = 0;
	XENA_dev_config_t __iomem *bar0 = sp->bar0;
	unsigned long flags;
	register u64 val64 = 0;

5499
	del_timer_sync(&sp->alarm_timer);
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5500
	/* If s2io_set_link task is executing, wait till it completes. */
5501
	while (test_and_set_bit(0, &(sp->link_state))) {
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5502
		msleep(50);
5503
	}
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5504 5505 5506 5507 5508 5509 5510 5511 5512 5513 5514
	atomic_set(&sp->card_state, CARD_DOWN);

	/* disable Tx and Rx traffic on the NIC */
	stop_nic(sp);

	/* Kill tasklet. */
	tasklet_kill(&sp->task);

	/* Check if the device is Quiescent and then Reset the NIC */
	do {
		val64 = readq(&bar0->adapter_status);
5515
		if (verify_xena_quiescence(sp, val64, sp->device_enabled_once)) {
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5516 5517 5518 5519 5520 5521 5522 5523 5524 5525 5526 5527 5528 5529 5530
			break;
		}

		msleep(50);
		cnt++;
		if (cnt == 10) {
			DBG_PRINT(ERR_DBG,
				  "s2io_close:Device not Quiescent ");
			DBG_PRINT(ERR_DBG, "adaper status reads 0x%llx\n",
				  (unsigned long long) val64);
			break;
		}
	} while (1);
	s2io_reset(sp);

5531 5532 5533 5534 5535 5536 5537 5538 5539 5540 5541
	/* Waiting till all Interrupt handlers are complete */
	cnt = 0;
	do {
		msleep(10);
		if (!atomic_read(&sp->isr_cnt))
			break;
		cnt++;
	} while(cnt < 5);

	spin_lock_irqsave(&sp->tx_lock, flags);
	/* Free all Tx buffers */
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5542
	free_tx_buffers(sp);
5543 5544 5545 5546
	spin_unlock_irqrestore(&sp->tx_lock, flags);

	/* Free all Rx buffers */
	spin_lock_irqsave(&sp->rx_lock, flags);
L
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5547
	free_rx_buffers(sp);
5548
	spin_unlock_irqrestore(&sp->rx_lock, flags);
L
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5549 5550 5551 5552 5553 5554

	clear_bit(0, &(sp->link_state));
}

static int s2io_card_up(nic_t * sp)
{
5555
	int i, ret = 0;
L
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5556 5557 5558 5559 5560 5561 5562 5563 5564 5565 5566
	mac_info_t *mac_control;
	struct config_param *config;
	struct net_device *dev = (struct net_device *) sp->dev;

	/* Initialize the H/W I/O registers */
	if (init_nic(sp) != 0) {
		DBG_PRINT(ERR_DBG, "%s: H/W initialization failed\n",
			  dev->name);
		return -ENODEV;
	}

5567 5568 5569 5570 5571 5572 5573 5574 5575
	if (sp->intr_type == MSI)
		ret = s2io_enable_msi(sp);
	else if (sp->intr_type == MSI_X)
		ret = s2io_enable_msi_x(sp);
	if (ret) {
		DBG_PRINT(ERR_DBG, "%s: Defaulting to INTA\n", dev->name);
		sp->intr_type = INTA;
	}

5576 5577
	/*
	 * Initializing the Rx buffers. For now we are considering only 1
L
Linus Torvalds 已提交
5578 5579 5580 5581 5582 5583 5584 5585 5586 5587 5588 5589 5590 5591 5592 5593 5594 5595 5596 5597
	 * Rx ring and initializing buffers into 30 Rx blocks
	 */
	mac_control = &sp->mac_control;
	config = &sp->config;

	for (i = 0; i < config->rx_ring_num; i++) {
		if ((ret = fill_rx_buffers(sp, i))) {
			DBG_PRINT(ERR_DBG, "%s: Out of memory in Open\n",
				  dev->name);
			s2io_reset(sp);
			free_rx_buffers(sp);
			return -ENOMEM;
		}
		DBG_PRINT(INFO_DBG, "Buf in ring:%d is %d:\n", i,
			  atomic_read(&sp->rx_bufs_left[i]));
	}

	/* Setting its receive mode */
	s2io_set_multicast(dev);

5598 5599 5600 5601 5602 5603 5604 5605
	if (sp->lro) {
		/* Initialize max aggregatable pkts based on MTU */
		sp->lro_max_aggr_per_sess = ((1<<16) - 1) / dev->mtu;
		/* Check if we can use(if specified) user provided value */
		if (lro_max_pkts < sp->lro_max_aggr_per_sess)
			sp->lro_max_aggr_per_sess = lro_max_pkts;
	}

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5606 5607 5608 5609 5610 5611 5612 5613 5614 5615 5616 5617 5618
	/* Enable tasklet for the device */
	tasklet_init(&sp->task, s2io_tasklet, (unsigned long) dev);

	/* Enable Rx Traffic and interrupts on the NIC */
	if (start_nic(sp)) {
		DBG_PRINT(ERR_DBG, "%s: Starting NIC failed\n", dev->name);
		tasklet_kill(&sp->task);
		s2io_reset(sp);
		free_irq(dev->irq, dev);
		free_rx_buffers(sp);
		return -ENODEV;
	}

5619 5620
	S2IO_TIMER_CONF(sp->alarm_timer, s2io_alarm_handle, sp, (HZ/2));

L
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5621 5622 5623 5624
	atomic_set(&sp->card_state, CARD_UP);
	return 0;
}

5625
/**
L
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5626 5627 5628 5629
 * s2io_restart_nic - Resets the NIC.
 * @data : long pointer to the device private structure
 * Description:
 * This function is scheduled to be run by the s2io_tx_watchdog
5630
 * function after 0.5 secs to reset the NIC. The idea is to reduce
L
Linus Torvalds 已提交
5631 5632 5633 5634 5635 5636 5637 5638 5639 5640 5641 5642 5643 5644 5645 5646 5647
 * the run time of the watch dog routine which is run holding a
 * spin lock.
 */

static void s2io_restart_nic(unsigned long data)
{
	struct net_device *dev = (struct net_device *) data;
	nic_t *sp = dev->priv;

	s2io_card_down(sp);
	if (s2io_card_up(sp)) {
		DBG_PRINT(ERR_DBG, "%s: Device bring up failed\n",
			  dev->name);
	}
	netif_wake_queue(dev);
	DBG_PRINT(ERR_DBG, "%s: was reset by Tx watchdog timer\n",
		  dev->name);
5648

L
Linus Torvalds 已提交
5649 5650
}

5651 5652
/**
 *  s2io_tx_watchdog - Watchdog for transmit side.
L
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5653 5654 5655 5656 5657 5658 5659 5660 5661 5662 5663 5664 5665 5666 5667 5668 5669 5670 5671 5672 5673 5674 5675 5676 5677 5678 5679
 *  @dev : Pointer to net device structure
 *  Description:
 *  This function is triggered if the Tx Queue is stopped
 *  for a pre-defined amount of time when the Interface is still up.
 *  If the Interface is jammed in such a situation, the hardware is
 *  reset (by s2io_close) and restarted again (by s2io_open) to
 *  overcome any problem that might have been caused in the hardware.
 *  Return value:
 *  void
 */

static void s2io_tx_watchdog(struct net_device *dev)
{
	nic_t *sp = dev->priv;

	if (netif_carrier_ok(dev)) {
		schedule_work(&sp->rst_timer_task);
	}
}

/**
 *   rx_osm_handler - To perform some OS related operations on SKB.
 *   @sp: private member of the device structure,pointer to s2io_nic structure.
 *   @skb : the socket buffer pointer.
 *   @len : length of the packet
 *   @cksum : FCS checksum of the frame.
 *   @ring_no : the ring from which this RxD was extracted.
5680
 *   Description:
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5681 5682 5683 5684 5685 5686 5687 5688 5689
 *   This function is called by the Tx interrupt serivce routine to perform
 *   some OS related operations on the SKB before passing it to the upper
 *   layers. It mainly checks if the checksum is OK, if so adds it to the
 *   SKBs cksum variable, increments the Rx packet count and passes the SKB
 *   to the upper layer. If the checksum is wrong, it increments the Rx
 *   packet error count, frees the SKB and returns error.
 *   Return value:
 *   SUCCESS on success and -1 on failure.
 */
5690
static int rx_osm_handler(ring_info_t *ring_data, RxD_t * rxdp)
L
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5691
{
5692
	nic_t *sp = ring_data->nic;
L
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5693
	struct net_device *dev = (struct net_device *) sp->dev;
5694 5695 5696
	struct sk_buff *skb = (struct sk_buff *)
		((unsigned long) rxdp->Host_Control);
	int ring_no = ring_data->ring_no;
L
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5697
	u16 l3_csum, l4_csum;
5698
	lro_t *lro;
5699

5700 5701 5702 5703 5704
	skb->dev = dev;
	if (rxdp->Control_1 & RXD_T_CODE) {
		unsigned long long err = rxdp->Control_1 & RXD_T_CODE;
		DBG_PRINT(ERR_DBG, "%s: Rx error Value: 0x%llx\n",
			  dev->name, err);
5705 5706 5707 5708 5709
		dev_kfree_skb(skb);
		sp->stats.rx_crc_errors++;
		atomic_dec(&sp->rx_bufs_left[ring_no]);
		rxdp->Host_Control = 0;
		return 0;
5710
	}
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5711

5712 5713 5714 5715
	/* Updating statistics */
	rxdp->Host_Control = 0;
	sp->rx_pkt_count++;
	sp->stats.rx_packets++;
5716 5717
	if (sp->rxd_mode == RXD_MODE_1) {
		int len = RXD_GET_BUFFER0_SIZE_1(rxdp->Control_2);
5718

5719 5720 5721 5722 5723 5724 5725 5726 5727 5728 5729 5730 5731 5732 5733 5734 5735 5736 5737 5738 5739 5740 5741 5742 5743 5744 5745
		sp->stats.rx_bytes += len;
		skb_put(skb, len);

	} else if (sp->rxd_mode >= RXD_MODE_3A) {
		int get_block = ring_data->rx_curr_get_info.block_index;
		int get_off = ring_data->rx_curr_get_info.offset;
		int buf0_len = RXD_GET_BUFFER0_SIZE_3(rxdp->Control_2);
		int buf2_len = RXD_GET_BUFFER2_SIZE_3(rxdp->Control_2);
		unsigned char *buff = skb_push(skb, buf0_len);

		buffAdd_t *ba = &ring_data->ba[get_block][get_off];
		sp->stats.rx_bytes += buf0_len + buf2_len;
		memcpy(buff, ba->ba_0, buf0_len);

		if (sp->rxd_mode == RXD_MODE_3A) {
			int buf1_len = RXD_GET_BUFFER1_SIZE_3(rxdp->Control_2);

			skb_put(skb, buf1_len);
			skb->len += buf2_len;
			skb->data_len += buf2_len;
			skb->truesize += buf2_len;
			skb_put(skb_shinfo(skb)->frag_list, buf2_len);
			sp->stats.rx_bytes += buf1_len;

		} else
			skb_put(skb, buf2_len);
	}
5746

5747 5748
	if ((rxdp->Control_1 & TCP_OR_UDP_FRAME) && ((!sp->lro) ||
	    (sp->lro && (!(rxdp->Control_1 & RXD_FRAME_IP_FRAG)))) &&
5749 5750
	    (sp->rx_csum)) {
		l3_csum = RXD_GET_L3_CKSUM(rxdp->Control_1);
L
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5751 5752
		l4_csum = RXD_GET_L4_CKSUM(rxdp->Control_1);
		if ((l3_csum == L3_CKSUM_OK) && (l4_csum == L4_CKSUM_OK)) {
5753
			/*
L
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5754 5755 5756 5757 5758
			 * NIC verifies if the Checksum of the received
			 * frame is Ok or not and accordingly returns
			 * a flag in the RxD.
			 */
			skb->ip_summed = CHECKSUM_UNNECESSARY;
5759 5760 5761 5762 5763 5764 5765 5766 5767 5768 5769 5770 5771 5772 5773 5774 5775 5776 5777 5778 5779 5780 5781 5782 5783 5784 5785 5786 5787 5788 5789 5790 5791 5792 5793 5794 5795 5796 5797 5798 5799 5800 5801 5802 5803 5804 5805 5806
			if (sp->lro) {
				u32 tcp_len;
				u8 *tcp;
				int ret = 0;

				ret = s2io_club_tcp_session(skb->data, &tcp,
						&tcp_len, &lro, rxdp, sp);
				switch (ret) {
					case 3: /* Begin anew */
						lro->parent = skb;
						goto aggregate;
					case 1: /* Aggregate */
					{
						lro_append_pkt(sp, lro,
							skb, tcp_len);
						goto aggregate;
					}
					case 4: /* Flush session */
					{
						lro_append_pkt(sp, lro,
							skb, tcp_len);
						queue_rx_frame(lro->parent);
						clear_lro_session(lro);
						sp->mac_control.stats_info->
						    sw_stat.flush_max_pkts++;
						goto aggregate;
					}
					case 2: /* Flush both */
						lro->parent->data_len =
							lro->frags_len;
						sp->mac_control.stats_info->
						     sw_stat.sending_both++;
						queue_rx_frame(lro->parent);
						clear_lro_session(lro);
						goto send_up;
					case 0: /* sessions exceeded */
					case 5: /*
						 * First pkt in session not
						 * L3/L4 aggregatable
						 */
						break;
					default:
						DBG_PRINT(ERR_DBG,
							"%s: Samadhana!!\n",
							 __FUNCTION__);
						BUG();
				}
			}
L
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5807
		} else {
5808 5809
			/*
			 * Packet with erroneous checksum, let the
L
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5810 5811 5812 5813 5814 5815 5816 5817
			 * upper layers deal with it.
			 */
			skb->ip_summed = CHECKSUM_NONE;
		}
	} else {
		skb->ip_summed = CHECKSUM_NONE;
	}

5818 5819
	if (!sp->lro) {
		skb->protocol = eth_type_trans(skb, dev);
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5820
#ifdef CONFIG_S2IO_NAPI
5821 5822 5823 5824 5825 5826 5827
		if (sp->vlgrp && RXD_GET_VLAN_TAG(rxdp->Control_2)) {
			/* Queueing the vlan frame to the upper layer */
			vlan_hwaccel_receive_skb(skb, sp->vlgrp,
				RXD_GET_VLAN_TAG(rxdp->Control_2));
		} else {
			netif_receive_skb(skb);
		}
L
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5828
#else
5829 5830 5831 5832 5833 5834 5835
		if (sp->vlgrp && RXD_GET_VLAN_TAG(rxdp->Control_2)) {
			/* Queueing the vlan frame to the upper layer */
			vlan_hwaccel_rx(skb, sp->vlgrp,
				RXD_GET_VLAN_TAG(rxdp->Control_2));
		} else {
			netif_rx(skb);
		}
L
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5836
#endif
5837 5838 5839 5840
	} else {
send_up:
		queue_rx_frame(skb);
	}		
L
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5841
	dev->last_rx = jiffies;
5842
aggregate:
L
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5843 5844 5845 5846 5847 5848 5849 5850 5851 5852 5853
	atomic_dec(&sp->rx_bufs_left[ring_no]);
	return SUCCESS;
}

/**
 *  s2io_link - stops/starts the Tx queue.
 *  @sp : private member of the device structure, which is a pointer to the
 *  s2io_nic structure.
 *  @link : inidicates whether link is UP/DOWN.
 *  Description:
 *  This function stops/starts the Tx queue depending on whether the link
5854 5855
 *  status of the NIC is is down or up. This is called by the Alarm
 *  interrupt handler whenever a link change interrupt comes up.
L
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5856 5857 5858 5859
 *  Return value:
 *  void.
 */

5860
static void s2io_link(nic_t * sp, int link)
L
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5861 5862 5863 5864 5865 5866 5867 5868 5869 5870 5871 5872 5873 5874 5875 5876
{
	struct net_device *dev = (struct net_device *) sp->dev;

	if (link != sp->last_link_state) {
		if (link == LINK_DOWN) {
			DBG_PRINT(ERR_DBG, "%s: Link down\n", dev->name);
			netif_carrier_off(dev);
		} else {
			DBG_PRINT(ERR_DBG, "%s: Link Up\n", dev->name);
			netif_carrier_on(dev);
		}
	}
	sp->last_link_state = link;
}

/**
5877 5878 5879 5880 5881 5882 5883 5884
 *  get_xena_rev_id - to identify revision ID of xena.
 *  @pdev : PCI Dev structure
 *  Description:
 *  Function to identify the Revision ID of xena.
 *  Return value:
 *  returns the revision ID of the device.
 */

5885
static int get_xena_rev_id(struct pci_dev *pdev)
5886 5887 5888 5889 5890 5891 5892 5893 5894 5895
{
	u8 id = 0;
	int ret;
	ret = pci_read_config_byte(pdev, PCI_REVISION_ID, (u8 *) & id);
	return id;
}

/**
 *  s2io_init_pci -Initialization of PCI and PCI-X configuration registers .
 *  @sp : private member of the device structure, which is a pointer to the
L
Linus Torvalds 已提交
5896 5897 5898 5899 5900 5901 5902 5903 5904 5905
 *  s2io_nic structure.
 *  Description:
 *  This function initializes a few of the PCI and PCI-X configuration registers
 *  with recommended values.
 *  Return value:
 *  void
 */

static void s2io_init_pci(nic_t * sp)
{
5906
	u16 pci_cmd = 0, pcix_cmd = 0;
L
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5907 5908 5909

	/* Enable Data Parity Error Recovery in PCI-X command register. */
	pci_read_config_word(sp->pdev, PCIX_COMMAND_REGISTER,
5910
			     &(pcix_cmd));
L
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5911
	pci_write_config_word(sp->pdev, PCIX_COMMAND_REGISTER,
5912
			      (pcix_cmd | 1));
L
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5913
	pci_read_config_word(sp->pdev, PCIX_COMMAND_REGISTER,
5914
			     &(pcix_cmd));
L
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5915 5916 5917 5918 5919 5920 5921 5922

	/* Set the PErr Response bit in PCI command register. */
	pci_read_config_word(sp->pdev, PCI_COMMAND, &pci_cmd);
	pci_write_config_word(sp->pdev, PCI_COMMAND,
			      (pci_cmd | PCI_COMMAND_PARITY));
	pci_read_config_word(sp->pdev, PCI_COMMAND, &pci_cmd);

	/* Forcibly disabling relaxed ordering capability of the card. */
5923
	pcix_cmd &= 0xfffd;
L
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5924
	pci_write_config_word(sp->pdev, PCIX_COMMAND_REGISTER,
5925
			      pcix_cmd);
L
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5926
	pci_read_config_word(sp->pdev, PCIX_COMMAND_REGISTER,
5927
			     &(pcix_cmd));
L
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5928 5929 5930 5931
}

MODULE_AUTHOR("Raghavendra Koushik <raghavendra.koushik@neterion.com>");
MODULE_LICENSE("GPL");
5932 5933
MODULE_VERSION(DRV_VERSION);

L
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5934 5935
module_param(tx_fifo_num, int, 0);
module_param(rx_ring_num, int, 0);
5936
module_param(rx_ring_mode, int, 0);
5937 5938 5939
module_param_array(tx_fifo_len, uint, NULL, 0);
module_param_array(rx_ring_sz, uint, NULL, 0);
module_param_array(rts_frm_len, uint, NULL, 0);
5940
module_param(use_continuous_tx_intrs, int, 1);
L
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5941 5942 5943 5944 5945 5946
module_param(rmac_pause_time, int, 0);
module_param(mc_pause_threshold_q0q3, int, 0);
module_param(mc_pause_threshold_q4q7, int, 0);
module_param(shared_splits, int, 0);
module_param(tmac_util_period, int, 0);
module_param(rmac_util_period, int, 0);
5947
module_param(bimodal, bool, 0);
5948
module_param(l3l4hdr_size, int , 0);
L
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5949 5950 5951
#ifndef CONFIG_S2IO_NAPI
module_param(indicate_max_pkts, int, 0);
#endif
5952
module_param(rxsync_frequency, int, 0);
5953
module_param(intr_type, int, 0);
5954 5955
module_param(lro, int, 0);
module_param(lro_max_pkts, int, 0);
5956

L
Linus Torvalds 已提交
5957
/**
5958
 *  s2io_init_nic - Initialization of the adapter .
L
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5959 5960 5961 5962
 *  @pdev : structure containing the PCI related information of the device.
 *  @pre: List of PCI devices supported by the driver listed in s2io_tbl.
 *  Description:
 *  The function initializes an adapter identified by the pci_dec structure.
5963 5964 5965
 *  All OS related initialization including memory and device structure and
 *  initlaization of the device private variable is done. Also the swapper
 *  control register is initialized to enable read and write into the I/O
L
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5966 5967 5968 5969 5970 5971 5972 5973 5974 5975 5976 5977 5978 5979 5980 5981 5982 5983
 *  registers of the device.
 *  Return value:
 *  returns 0 on success and negative on failure.
 */

static int __devinit
s2io_init_nic(struct pci_dev *pdev, const struct pci_device_id *pre)
{
	nic_t *sp;
	struct net_device *dev;
	int i, j, ret;
	int dma_flag = FALSE;
	u32 mac_up, mac_down;
	u64 val64 = 0, tmp64 = 0;
	XENA_dev_config_t __iomem *bar0 = NULL;
	u16 subid;
	mac_info_t *mac_control;
	struct config_param *config;
5984
	int mode;
5985
	u8 dev_intr_type = intr_type;
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5986

5987
#ifdef CONFIG_S2IO_NAPI
5988 5989 5990 5991 5992 5993 5994
	if (dev_intr_type != INTA) {
		DBG_PRINT(ERR_DBG, "NAPI cannot be enabled when MSI/MSI-X \
is enabled. Defaulting to INTA\n");
		dev_intr_type = INTA;
	}
	else
		DBG_PRINT(ERR_DBG, "NAPI support has been enabled\n");
5995
#endif
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	if ((ret = pci_enable_device(pdev))) {
		DBG_PRINT(ERR_DBG,
			  "s2io_init_nic: pci_enable_device failed\n");
		return ret;
	}

6003
	if (!pci_set_dma_mask(pdev, DMA_64BIT_MASK)) {
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6004 6005 6006
		DBG_PRINT(INIT_DBG, "s2io_init_nic: Using 64bit DMA\n");
		dma_flag = TRUE;
		if (pci_set_consistent_dma_mask
6007
		    (pdev, DMA_64BIT_MASK)) {
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6008 6009 6010 6011 6012 6013
			DBG_PRINT(ERR_DBG,
				  "Unable to obtain 64bit DMA for \
					consistent allocations\n");
			pci_disable_device(pdev);
			return -ENOMEM;
		}
6014
	} else if (!pci_set_dma_mask(pdev, DMA_32BIT_MASK)) {
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6015 6016 6017 6018 6019 6020
		DBG_PRINT(INIT_DBG, "s2io_init_nic: Using 32bit DMA\n");
	} else {
		pci_disable_device(pdev);
		return -ENOMEM;
	}

6021 6022 6023 6024 6025 6026 6027 6028 6029 6030 6031 6032 6033 6034 6035 6036 6037 6038 6039 6040 6041 6042 6043 6044 6045 6046 6047 6048 6049
	if ((dev_intr_type == MSI_X) && 
			((pdev->device != PCI_DEVICE_ID_HERC_WIN) &&
			(pdev->device != PCI_DEVICE_ID_HERC_UNI))) {
		DBG_PRINT(ERR_DBG, "Xframe I does not support MSI_X. \
Defaulting to INTA\n");
		dev_intr_type = INTA;
	}
	if (dev_intr_type != MSI_X) {
		if (pci_request_regions(pdev, s2io_driver_name)) {
			DBG_PRINT(ERR_DBG, "Request Regions failed\n"),
			    pci_disable_device(pdev);
			return -ENODEV;
		}
	}
	else {
		if (!(request_mem_region(pci_resource_start(pdev, 0),
               	         pci_resource_len(pdev, 0), s2io_driver_name))) {
			DBG_PRINT(ERR_DBG, "bar0 Request Regions failed\n");
			pci_disable_device(pdev);
			return -ENODEV;
		}
        	if (!(request_mem_region(pci_resource_start(pdev, 2),
               	         pci_resource_len(pdev, 2), s2io_driver_name))) {
			DBG_PRINT(ERR_DBG, "bar1 Request Regions failed\n");
                	release_mem_region(pci_resource_start(pdev, 0),
                                   pci_resource_len(pdev, 0));
			pci_disable_device(pdev);
			return -ENODEV;
		}
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6050 6051 6052 6053 6054 6055 6056 6057 6058 6059 6060 6061 6062 6063 6064 6065 6066 6067 6068 6069 6070 6071
	}

	dev = alloc_etherdev(sizeof(nic_t));
	if (dev == NULL) {
		DBG_PRINT(ERR_DBG, "Device allocation failed\n");
		pci_disable_device(pdev);
		pci_release_regions(pdev);
		return -ENODEV;
	}

	pci_set_master(pdev);
	pci_set_drvdata(pdev, dev);
	SET_MODULE_OWNER(dev);
	SET_NETDEV_DEV(dev, &pdev->dev);

	/*  Private member variable initialized to s2io NIC structure */
	sp = dev->priv;
	memset(sp, 0, sizeof(nic_t));
	sp->dev = dev;
	sp->pdev = pdev;
	sp->high_dma_flag = dma_flag;
	sp->device_enabled_once = FALSE;
6072 6073 6074 6075 6076 6077 6078
	if (rx_ring_mode == 1)
		sp->rxd_mode = RXD_MODE_1;
	if (rx_ring_mode == 2)
		sp->rxd_mode = RXD_MODE_3B;
	if (rx_ring_mode == 3)
		sp->rxd_mode = RXD_MODE_3A;

6079
	sp->intr_type = dev_intr_type;
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6081 6082 6083 6084 6085 6086
	if ((pdev->device == PCI_DEVICE_ID_HERC_WIN) ||
		(pdev->device == PCI_DEVICE_ID_HERC_UNI))
		sp->device_type = XFRAME_II_DEVICE;
	else
		sp->device_type = XFRAME_I_DEVICE;

6087
	sp->lro = lro;
6088
		
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6089 6090 6091
	/* Initialize some PCI/PCI-X fields of the NIC. */
	s2io_init_pci(sp);

6092
	/*
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6093
	 * Setting the device configuration parameters.
6094 6095 6096
	 * Most of these parameters can be specified by the user during
	 * module insertion as they are module loadable parameters. If
	 * these parameters are not not specified during load time, they
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6097 6098 6099 6100 6101 6102
	 * are initialized with default values.
	 */
	mac_control = &sp->mac_control;
	config = &sp->config;

	/* Tx side parameters. */
6103 6104
	if (tx_fifo_len[0] == 0)
		tx_fifo_len[0] = DEFAULT_FIFO_LEN; /* Default value. */
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	config->tx_fifo_num = tx_fifo_num;
	for (i = 0; i < MAX_TX_FIFOS; i++) {
		config->tx_cfg[i].fifo_len = tx_fifo_len[i];
		config->tx_cfg[i].fifo_priority = i;
	}

6111 6112 6113 6114
	/* mapping the QoS priority to the configured fifos */
	for (i = 0; i < MAX_TX_FIFOS; i++)
		config->fifo_mapping[i] = fifo_map[config->tx_fifo_num][i];

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6115 6116 6117 6118 6119 6120 6121 6122 6123
	config->tx_intr_type = TXD_INT_TYPE_UTILZ;
	for (i = 0; i < config->tx_fifo_num; i++) {
		config->tx_cfg[i].f_no_snoop =
		    (NO_SNOOP_TXD | NO_SNOOP_TXD_BUFFER);
		if (config->tx_cfg[i].fifo_len < 65) {
			config->tx_intr_type = TXD_INT_TYPE_PER_LIST;
			break;
		}
	}
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Ananda Raju 已提交
6124 6125
	/* + 2 because one Txd for skb->data and one Txd for UFO */
	config->max_txds = MAX_SKB_FRAGS + 2;
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6126 6127

	/* Rx side parameters. */
6128 6129
	if (rx_ring_sz[0] == 0)
		rx_ring_sz[0] = SMALL_BLK_CNT; /* Default value. */
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6130 6131 6132
	config->rx_ring_num = rx_ring_num;
	for (i = 0; i < MAX_RX_RINGS; i++) {
		config->rx_cfg[i].num_rxd = rx_ring_sz[i] *
6133
		    (rxd_count[sp->rxd_mode] + 1);
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6134 6135 6136 6137 6138 6139 6140 6141 6142 6143 6144 6145 6146 6147 6148 6149 6150 6151 6152
		config->rx_cfg[i].ring_priority = i;
	}

	for (i = 0; i < rx_ring_num; i++) {
		config->rx_cfg[i].ring_org = RING_ORG_BUFF1;
		config->rx_cfg[i].f_no_snoop =
		    (NO_SNOOP_RXD | NO_SNOOP_RXD_BUFFER);
	}

	/*  Setting Mac Control parameters */
	mac_control->rmac_pause_time = rmac_pause_time;
	mac_control->mc_pause_threshold_q0q3 = mc_pause_threshold_q0q3;
	mac_control->mc_pause_threshold_q4q7 = mc_pause_threshold_q4q7;


	/* Initialize Ring buffer parameters. */
	for (i = 0; i < config->rx_ring_num; i++)
		atomic_set(&sp->rx_bufs_left[i], 0);

6153 6154 6155
	/* Initialize the number of ISRs currently running */
	atomic_set(&sp->isr_cnt, 0);

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6156 6157 6158
	/*  initialize the shared memory used by the NIC and the host */
	if (init_shared_mem(sp)) {
		DBG_PRINT(ERR_DBG, "%s: Memory allocation failed\n",
6159
			  __FUNCTION__);
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6160 6161 6162 6163 6164 6165 6166 6167 6168 6169 6170 6171 6172 6173 6174 6175 6176 6177 6178 6179 6180 6181 6182 6183 6184 6185 6186 6187 6188 6189 6190 6191 6192 6193 6194 6195 6196 6197 6198 6199
		ret = -ENOMEM;
		goto mem_alloc_failed;
	}

	sp->bar0 = ioremap(pci_resource_start(pdev, 0),
				     pci_resource_len(pdev, 0));
	if (!sp->bar0) {
		DBG_PRINT(ERR_DBG, "%s: S2IO: cannot remap io mem1\n",
			  dev->name);
		ret = -ENOMEM;
		goto bar0_remap_failed;
	}

	sp->bar1 = ioremap(pci_resource_start(pdev, 2),
				     pci_resource_len(pdev, 2));
	if (!sp->bar1) {
		DBG_PRINT(ERR_DBG, "%s: S2IO: cannot remap io mem2\n",
			  dev->name);
		ret = -ENOMEM;
		goto bar1_remap_failed;
	}

	dev->irq = pdev->irq;
	dev->base_addr = (unsigned long) sp->bar0;

	/* Initializing the BAR1 address as the start of the FIFO pointer. */
	for (j = 0; j < MAX_TX_FIFOS; j++) {
		mac_control->tx_FIFO_start[j] = (TxFIFO_element_t __iomem *)
		    (sp->bar1 + (j * 0x00020000));
	}

	/*  Driver entry points */
	dev->open = &s2io_open;
	dev->stop = &s2io_close;
	dev->hard_start_xmit = &s2io_xmit;
	dev->get_stats = &s2io_get_stats;
	dev->set_multicast_list = &s2io_set_multicast;
	dev->do_ioctl = &s2io_ioctl;
	dev->change_mtu = &s2io_change_mtu;
	SET_ETHTOOL_OPS(dev, &netdev_ethtool_ops);
6200 6201 6202
	dev->features |= NETIF_F_HW_VLAN_TX | NETIF_F_HW_VLAN_RX;
	dev->vlan_rx_register = s2io_vlan_rx_register;
	dev->vlan_rx_kill_vid = (void *)s2io_vlan_rx_kill_vid;
6203

L
Linus Torvalds 已提交
6204 6205 6206 6207
	/*
	 * will use eth_mac_addr() for  dev->set_mac_address
	 * mac address will be set every time dev->open() is called
	 */
6208
#if defined(CONFIG_S2IO_NAPI)
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6209
	dev->poll = s2io_poll;
6210
	dev->weight = 32;
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6211 6212 6213 6214 6215 6216 6217 6218
#endif

	dev->features |= NETIF_F_SG | NETIF_F_IP_CSUM;
	if (sp->high_dma_flag == TRUE)
		dev->features |= NETIF_F_HIGHDMA;
#ifdef NETIF_F_TSO
	dev->features |= NETIF_F_TSO;
#endif
A
Ananda Raju 已提交
6219 6220 6221 6222
	if (sp->device_type & XFRAME_II_DEVICE) {
		dev->features |= NETIF_F_UFO;
		dev->features |= NETIF_F_HW_CSUM;
	}
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6223 6224 6225 6226 6227 6228 6229 6230

	dev->tx_timeout = &s2io_tx_watchdog;
	dev->watchdog_timeo = WATCH_DOG_TIMEOUT;
	INIT_WORK(&sp->rst_timer_task,
		  (void (*)(void *)) s2io_restart_nic, dev);
	INIT_WORK(&sp->set_link_task,
		  (void (*)(void *)) s2io_set_link, sp);

6231
	pci_save_state(sp->pdev);
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Linus Torvalds 已提交
6232 6233 6234 6235 6236 6237 6238 6239 6240

	/* Setting swapper control on the NIC, for proper reset operation */
	if (s2io_set_swapper(sp)) {
		DBG_PRINT(ERR_DBG, "%s:swapper settings are wrong\n",
			  dev->name);
		ret = -EAGAIN;
		goto set_swap_failed;
	}

6241 6242 6243 6244 6245 6246 6247 6248 6249 6250 6251 6252 6253 6254 6255 6256 6257 6258 6259 6260
	/* Verify if the Herc works on the slot its placed into */
	if (sp->device_type & XFRAME_II_DEVICE) {
		mode = s2io_verify_pci_mode(sp);
		if (mode < 0) {
			DBG_PRINT(ERR_DBG, "%s: ", __FUNCTION__);
			DBG_PRINT(ERR_DBG, " Unsupported PCI bus mode\n");
			ret = -EBADSLT;
			goto set_swap_failed;
		}
	}

	/* Not needed for Herc */
	if (sp->device_type & XFRAME_I_DEVICE) {
		/*
		 * Fix for all "FFs" MAC address problems observed on
		 * Alpha platforms
		 */
		fix_mac_address(sp);
		s2io_reset(sp);
	}
L
Linus Torvalds 已提交
6261 6262 6263 6264 6265 6266 6267 6268 6269 6270 6271 6272 6273 6274 6275 6276 6277 6278 6279 6280 6281 6282 6283 6284 6285 6286 6287 6288 6289

	/*
	 * MAC address initialization.
	 * For now only one mac address will be read and used.
	 */
	bar0 = sp->bar0;
	val64 = RMAC_ADDR_CMD_MEM_RD | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
	    RMAC_ADDR_CMD_MEM_OFFSET(0 + MAC_MAC_ADDR_START_OFFSET);
	writeq(val64, &bar0->rmac_addr_cmd_mem);
	wait_for_cmd_complete(sp);

	tmp64 = readq(&bar0->rmac_addr_data0_mem);
	mac_down = (u32) tmp64;
	mac_up = (u32) (tmp64 >> 32);

	memset(sp->def_mac_addr[0].mac_addr, 0, sizeof(ETH_ALEN));

	sp->def_mac_addr[0].mac_addr[3] = (u8) (mac_up);
	sp->def_mac_addr[0].mac_addr[2] = (u8) (mac_up >> 8);
	sp->def_mac_addr[0].mac_addr[1] = (u8) (mac_up >> 16);
	sp->def_mac_addr[0].mac_addr[0] = (u8) (mac_up >> 24);
	sp->def_mac_addr[0].mac_addr[5] = (u8) (mac_down >> 16);
	sp->def_mac_addr[0].mac_addr[4] = (u8) (mac_down >> 24);

	/*  Set the factory defined MAC address initially   */
	dev->addr_len = ETH_ALEN;
	memcpy(dev->dev_addr, sp->def_mac_addr, ETH_ALEN);

	/*
6290
	 * Initialize the tasklet status and link state flags
6291
	 * and the card state parameter
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6292 6293 6294 6295 6296 6297 6298 6299 6300 6301
	 */
	atomic_set(&(sp->card_state), 0);
	sp->tasklet_status = 0;
	sp->link_state = 0;

	/* Initialize spinlocks */
	spin_lock_init(&sp->tx_lock);
#ifndef CONFIG_S2IO_NAPI
	spin_lock_init(&sp->put_lock);
#endif
6302
	spin_lock_init(&sp->rx_lock);
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Linus Torvalds 已提交
6303

6304 6305 6306
	/*
	 * SXE-002: Configure link and activity LED to init state
	 * on driver load.
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6307 6308 6309 6310 6311 6312 6313 6314 6315 6316 6317 6318 6319 6320 6321 6322 6323 6324 6325
	 */
	subid = sp->pdev->subsystem_device;
	if ((subid & 0xFF) >= 0x07) {
		val64 = readq(&bar0->gpio_control);
		val64 |= 0x0000800000000000ULL;
		writeq(val64, &bar0->gpio_control);
		val64 = 0x0411040400000000ULL;
		writeq(val64, (void __iomem *) bar0 + 0x2700);
		val64 = readq(&bar0->gpio_control);
	}

	sp->rx_csum = 1;	/* Rx chksum verify enabled by default */

	if (register_netdev(dev)) {
		DBG_PRINT(ERR_DBG, "Device registration failed\n");
		ret = -ENODEV;
		goto register_failed;
	}

6326 6327 6328
	if (sp->device_type & XFRAME_II_DEVICE) {
		DBG_PRINT(ERR_DBG, "%s: Neterion Xframe II 10GbE adapter ",
			  dev->name);
6329
		DBG_PRINT(ERR_DBG, "(rev %d), Version %s",
6330 6331
				get_xena_rev_id(sp->pdev),
				s2io_driver_version);
6332 6333 6334 6335 6336 6337 6338 6339 6340 6341 6342
		switch(sp->intr_type) {
			case INTA:
				DBG_PRINT(ERR_DBG, ", Intr type INTA");
				break;
			case MSI:
				DBG_PRINT(ERR_DBG, ", Intr type MSI");
				break;
			case MSI_X:
				DBG_PRINT(ERR_DBG, ", Intr type MSI-X");
				break;
		}
6343 6344

		DBG_PRINT(ERR_DBG, "\nCopyright(c) 2002-2005 Neterion Inc.\n");
6345 6346 6347 6348 6349 6350 6351
		DBG_PRINT(ERR_DBG, "MAC ADDR: %02x:%02x:%02x:%02x:%02x:%02x\n",
			  sp->def_mac_addr[0].mac_addr[0],
			  sp->def_mac_addr[0].mac_addr[1],
			  sp->def_mac_addr[0].mac_addr[2],
			  sp->def_mac_addr[0].mac_addr[3],
			  sp->def_mac_addr[0].mac_addr[4],
			  sp->def_mac_addr[0].mac_addr[5]);
6352
		mode = s2io_print_pci_mode(sp);
6353 6354 6355 6356 6357 6358 6359 6360
		if (mode < 0) {
			DBG_PRINT(ERR_DBG, " Unsupported PCI bus mode ");
			ret = -EBADSLT;
			goto set_swap_failed;
		}
	} else {
		DBG_PRINT(ERR_DBG, "%s: Neterion Xframe I 10GbE adapter ",
			  dev->name);
6361
		DBG_PRINT(ERR_DBG, "(rev %d), Version %s",
6362 6363
					get_xena_rev_id(sp->pdev),
					s2io_driver_version);
6364 6365 6366 6367 6368 6369 6370 6371 6372 6373 6374
		switch(sp->intr_type) {
			case INTA:
				DBG_PRINT(ERR_DBG, ", Intr type INTA");
				break;
			case MSI:
				DBG_PRINT(ERR_DBG, ", Intr type MSI");
				break;
			case MSI_X:
				DBG_PRINT(ERR_DBG, ", Intr type MSI-X");
				break;
		}
6375
		DBG_PRINT(ERR_DBG, "\nCopyright(c) 2002-2005 Neterion Inc.\n");
6376 6377 6378 6379 6380 6381 6382 6383
		DBG_PRINT(ERR_DBG, "MAC ADDR: %02x:%02x:%02x:%02x:%02x:%02x\n",
			  sp->def_mac_addr[0].mac_addr[0],
			  sp->def_mac_addr[0].mac_addr[1],
			  sp->def_mac_addr[0].mac_addr[2],
			  sp->def_mac_addr[0].mac_addr[3],
			  sp->def_mac_addr[0].mac_addr[4],
			  sp->def_mac_addr[0].mac_addr[5]);
	}
6384 6385 6386 6387 6388 6389
	if (sp->rxd_mode == RXD_MODE_3B)
		DBG_PRINT(ERR_DBG, "%s: 2-Buffer mode support has been "
			  "enabled\n",dev->name);
	if (sp->rxd_mode == RXD_MODE_3A)
		DBG_PRINT(ERR_DBG, "%s: 3-Buffer mode support has been "
			  "enabled\n",dev->name);
6390

6391 6392 6393 6394
	if (sp->lro)
		DBG_PRINT(ERR_DBG, "%s: Large receive offload enabled\n",
			dev->name);

6395 6396
	/* Initialize device name */
	strcpy(sp->name, dev->name);
6397 6398 6399 6400
	if (sp->device_type & XFRAME_II_DEVICE)
		strcat(sp->name, ": Neterion Xframe II 10GbE adapter");
	else
		strcat(sp->name, ": Neterion Xframe I 10GbE adapter");
6401

6402 6403 6404 6405 6406 6407 6408 6409
	/* Initialize bimodal Interrupts */
	sp->config.bimodal = bimodal;
	if (!(sp->device_type & XFRAME_II_DEVICE) && bimodal) {
		sp->config.bimodal = 0;
		DBG_PRINT(ERR_DBG,"%s:Bimodal intr not supported by Xframe I\n",
			dev->name);
	}

6410 6411 6412
	/*
	 * Make Link state as off at this point, when the Link change
	 * interrupt comes the state will be automatically changed to
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Linus Torvalds 已提交
6413 6414 6415 6416 6417 6418 6419 6420 6421 6422 6423 6424 6425 6426 6427
	 * the right state.
	 */
	netif_carrier_off(dev);

	return 0;

      register_failed:
      set_swap_failed:
	iounmap(sp->bar1);
      bar1_remap_failed:
	iounmap(sp->bar0);
      bar0_remap_failed:
      mem_alloc_failed:
	free_shared_mem(sp);
	pci_disable_device(pdev);
6428 6429 6430 6431 6432 6433 6434 6435
	if (dev_intr_type != MSI_X)
		pci_release_regions(pdev);
	else {
		release_mem_region(pci_resource_start(pdev, 0),
			pci_resource_len(pdev, 0));
		release_mem_region(pci_resource_start(pdev, 2),
			pci_resource_len(pdev, 2));
	}
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6436 6437 6438 6439 6440 6441 6442
	pci_set_drvdata(pdev, NULL);
	free_netdev(dev);

	return ret;
}

/**
6443
 * s2io_rem_nic - Free the PCI device
L
Linus Torvalds 已提交
6444
 * @pdev: structure containing the PCI related information of the device.
6445
 * Description: This function is called by the Pci subsystem to release a
L
Linus Torvalds 已提交
6446
 * PCI device and free up all resource held up by the device. This could
6447
 * be in response to a Hot plug event or when the driver is to be removed
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6448 6449 6450 6451 6452 6453 6454 6455 6456 6457 6458 6459 6460 6461 6462 6463 6464 6465 6466 6467 6468
 * from memory.
 */

static void __devexit s2io_rem_nic(struct pci_dev *pdev)
{
	struct net_device *dev =
	    (struct net_device *) pci_get_drvdata(pdev);
	nic_t *sp;

	if (dev == NULL) {
		DBG_PRINT(ERR_DBG, "Driver Data is NULL!!\n");
		return;
	}

	sp = dev->priv;
	unregister_netdev(dev);

	free_shared_mem(sp);
	iounmap(sp->bar0);
	iounmap(sp->bar1);
	pci_disable_device(pdev);
6469 6470 6471 6472 6473 6474 6475 6476
	if (sp->intr_type != MSI_X)
		pci_release_regions(pdev);
	else {
		release_mem_region(pci_resource_start(pdev, 0),
			pci_resource_len(pdev, 0));
		release_mem_region(pci_resource_start(pdev, 2),
			pci_resource_len(pdev, 2));
	}
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	pci_set_drvdata(pdev, NULL);
	free_netdev(dev);
}

/**
 * s2io_starter - Entry point for the driver
 * Description: This function is the entry point for the driver. It verifies
 * the module loadable parameters and initializes PCI configuration space.
 */

int __init s2io_starter(void)
{
	return pci_module_init(&s2io_driver);
}

/**
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 * s2io_closer - Cleanup routine for the driver
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 * Description: This function is the cleanup routine for the driver. It unregist * ers the driver.
 */

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static void s2io_closer(void)
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{
	pci_unregister_driver(&s2io_driver);
	DBG_PRINT(INIT_DBG, "cleanup done\n");
}

module_init(s2io_starter);
module_exit(s2io_closer);
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static int check_L2_lro_capable(u8 *buffer, struct iphdr **ip, 
		struct tcphdr **tcp, RxD_t *rxdp)
{
	int ip_off;
	u8 l2_type = (u8)((rxdp->Control_1 >> 37) & 0x7), ip_len;

	if (!(rxdp->Control_1 & RXD_FRAME_PROTO_TCP)) {
		DBG_PRINT(INIT_DBG,"%s: Non-TCP frames not supported for LRO\n",
			  __FUNCTION__);
		return -1;
	}

	/* TODO:
	 * By default the VLAN field in the MAC is stripped by the card, if this
	 * feature is turned off in rx_pa_cfg register, then the ip_off field
	 * has to be shifted by a further 2 bytes
	 */
	switch (l2_type) {
		case 0: /* DIX type */
		case 4: /* DIX type with VLAN */
			ip_off = HEADER_ETHERNET_II_802_3_SIZE;
			break;
		/* LLC, SNAP etc are considered non-mergeable */
		default:
			return -1;
	}

	*ip = (struct iphdr *)((u8 *)buffer + ip_off);
	ip_len = (u8)((*ip)->ihl);
	ip_len <<= 2;
	*tcp = (struct tcphdr *)((unsigned long)*ip + ip_len);

	return 0;
}

static int check_for_socket_match(lro_t *lro, struct iphdr *ip,
				  struct tcphdr *tcp)
{
	DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__);
	if ((lro->iph->saddr != ip->saddr) || (lro->iph->daddr != ip->daddr) ||
	   (lro->tcph->source != tcp->source) || (lro->tcph->dest != tcp->dest))
		return -1;
	return 0;
}

static inline int get_l4_pyld_length(struct iphdr *ip, struct tcphdr *tcp)
{
	return(ntohs(ip->tot_len) - (ip->ihl << 2) - (tcp->doff << 2));
}

static void initiate_new_session(lro_t *lro, u8 *l2h,
		     struct iphdr *ip, struct tcphdr *tcp, u32 tcp_pyld_len)
{
	DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__);
	lro->l2h = l2h;
	lro->iph = ip;
	lro->tcph = tcp;
	lro->tcp_next_seq = tcp_pyld_len + ntohl(tcp->seq);
	lro->tcp_ack = ntohl(tcp->ack_seq);
	lro->sg_num = 1;
	lro->total_len = ntohs(ip->tot_len);
	lro->frags_len = 0;
	/* 
	 * check if we saw TCP timestamp. Other consistency checks have
	 * already been done.
 	 */
	if (tcp->doff == 8) {
		u32 *ptr;
		ptr = (u32 *)(tcp+1);
		lro->saw_ts = 1;
		lro->cur_tsval = *(ptr+1);
		lro->cur_tsecr = *(ptr+2);
	}
	lro->in_use = 1;
}

static void update_L3L4_header(nic_t *sp, lro_t *lro)
{
	struct iphdr *ip = lro->iph;
	struct tcphdr *tcp = lro->tcph;
	u16 nchk;
	StatInfo_t *statinfo = sp->mac_control.stats_info;
	DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__);

	/* Update L3 header */
	ip->tot_len = htons(lro->total_len);
	ip->check = 0;
	nchk = ip_fast_csum((u8 *)lro->iph, ip->ihl);
	ip->check = nchk;

	/* Update L4 header */
	tcp->ack_seq = lro->tcp_ack;
	tcp->window = lro->window;

	/* Update tsecr field if this session has timestamps enabled */
	if (lro->saw_ts) {
		u32 *ptr = (u32 *)(tcp + 1);
		*(ptr+2) = lro->cur_tsecr;
	}

	/* Update counters required for calculation of
	 * average no. of packets aggregated.
	 */
	statinfo->sw_stat.sum_avg_pkts_aggregated += lro->sg_num;
	statinfo->sw_stat.num_aggregations++;
}

static void aggregate_new_rx(lro_t *lro, struct iphdr *ip,
		struct tcphdr *tcp, u32 l4_pyld)
{
	DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__);
	lro->total_len += l4_pyld;
	lro->frags_len += l4_pyld;
	lro->tcp_next_seq += l4_pyld;
	lro->sg_num++;

	/* Update ack seq no. and window ad(from this pkt) in LRO object */
	lro->tcp_ack = tcp->ack_seq;
	lro->window = tcp->window;
	
	if (lro->saw_ts) {
		u32 *ptr;
		/* Update tsecr and tsval from this packet */
		ptr = (u32 *) (tcp + 1);
		lro->cur_tsval = *(ptr + 1); 
		lro->cur_tsecr = *(ptr + 2);
	}
}

static int verify_l3_l4_lro_capable(lro_t *l_lro, struct iphdr *ip,
				    struct tcphdr *tcp, u32 tcp_pyld_len)
{
	u8 *ptr;

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	DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__);

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	if (!tcp_pyld_len) {
		/* Runt frame or a pure ack */
		return -1;
	}

	if (ip->ihl != 5) /* IP has options */
		return -1;

	if (tcp->urg || tcp->psh || tcp->rst || tcp->syn || tcp->fin ||
								!tcp->ack) {
		/*
		 * Currently recognize only the ack control word and
		 * any other control field being set would result in
		 * flushing the LRO session
		 */
		return -1;
	}

	/* 
	 * Allow only one TCP timestamp option. Don't aggregate if
	 * any other options are detected.
	 */
	if (tcp->doff != 5 && tcp->doff != 8)
		return -1;

	if (tcp->doff == 8) {
		ptr = (u8 *)(tcp + 1);	
		while (*ptr == TCPOPT_NOP)
			ptr++;
		if (*ptr != TCPOPT_TIMESTAMP || *(ptr+1) != TCPOLEN_TIMESTAMP)
			return -1;

		/* Ensure timestamp value increases monotonically */
		if (l_lro)
			if (l_lro->cur_tsval > *((u32 *)(ptr+2)))
				return -1;

		/* timestamp echo reply should be non-zero */
		if (*((u32 *)(ptr+6)) == 0) 
			return -1;
	}

	return 0;
}

static int
s2io_club_tcp_session(u8 *buffer, u8 **tcp, u32 *tcp_len, lro_t **lro,
		      RxD_t *rxdp, nic_t *sp)
{
	struct iphdr *ip;
	struct tcphdr *tcph;
	int ret = 0, i;

	if (!(ret = check_L2_lro_capable(buffer, &ip, (struct tcphdr **)tcp,
					 rxdp))) {
		DBG_PRINT(INFO_DBG,"IP Saddr: %x Daddr: %x\n",
			  ip->saddr, ip->daddr);
	} else {
		return ret;
	}

	tcph = (struct tcphdr *)*tcp;
	*tcp_len = get_l4_pyld_length(ip, tcph);
	for (i=0; i<MAX_LRO_SESSIONS; i++) {
		lro_t *l_lro = &sp->lro0_n[i];
		if (l_lro->in_use) {
			if (check_for_socket_match(l_lro, ip, tcph))
				continue;
			/* Sock pair matched */
			*lro = l_lro;

			if ((*lro)->tcp_next_seq != ntohl(tcph->seq)) {
				DBG_PRINT(INFO_DBG, "%s:Out of order. expected "
					  "0x%x, actual 0x%x\n", __FUNCTION__,
					  (*lro)->tcp_next_seq,
					  ntohl(tcph->seq));

				sp->mac_control.stats_info->
				   sw_stat.outof_sequence_pkts++;
				ret = 2;
				break;
			}

			if (!verify_l3_l4_lro_capable(l_lro, ip, tcph,*tcp_len))
				ret = 1; /* Aggregate */
			else
				ret = 2; /* Flush both */
			break;
		}
	}

	if (ret == 0) {
		/* Before searching for available LRO objects,
		 * check if the pkt is L3/L4 aggregatable. If not
		 * don't create new LRO session. Just send this
		 * packet up.
		 */
		if (verify_l3_l4_lro_capable(NULL, ip, tcph, *tcp_len)) {
			return 5;
		}

		for (i=0; i<MAX_LRO_SESSIONS; i++) {
			lro_t *l_lro = &sp->lro0_n[i];
			if (!(l_lro->in_use)) {
				*lro = l_lro;
				ret = 3; /* Begin anew */
				break;
			}
		}
	}

	if (ret == 0) { /* sessions exceeded */
		DBG_PRINT(INFO_DBG,"%s:All LRO sessions already in use\n",
			  __FUNCTION__);
		*lro = NULL;
		return ret;
	}

	switch (ret) {
		case 3:
			initiate_new_session(*lro, buffer, ip, tcph, *tcp_len);
			break;
		case 2:
			update_L3L4_header(sp, *lro);
			break;
		case 1:
			aggregate_new_rx(*lro, ip, tcph, *tcp_len);
			if ((*lro)->sg_num == sp->lro_max_aggr_per_sess) {
				update_L3L4_header(sp, *lro);
				ret = 4; /* Flush the LRO */
			}
			break;
		default:
			DBG_PRINT(ERR_DBG,"%s:Dont know, can't say!!\n",
				__FUNCTION__);
			break;
	}

	return ret;
}

static void clear_lro_session(lro_t *lro)
{
	static u16 lro_struct_size = sizeof(lro_t);

	memset(lro, 0, lro_struct_size);
}

static void queue_rx_frame(struct sk_buff *skb)
{
	struct net_device *dev = skb->dev;

	skb->protocol = eth_type_trans(skb, dev);
#ifdef CONFIG_S2IO_NAPI
	netif_receive_skb(skb);
#else
	netif_rx(skb);
#endif
}

static void lro_append_pkt(nic_t *sp, lro_t *lro, struct sk_buff *skb,
			   u32 tcp_len)
{
	struct sk_buff *tmp, *first = lro->parent;

	first->len += tcp_len;
	first->data_len = lro->frags_len;
	skb_pull(skb, (skb->len - tcp_len));
	if ((tmp = skb_shinfo(first)->frag_list)) {
		while (tmp->next)
			tmp = tmp->next;
		tmp->next = skb;
	}
	else
		skb_shinfo(first)->frag_list = skb;
	sp->mac_control.stats_info->sw_stat.clubbed_frms_cnt++;
	return;
}