wl3501_cs.c

/*
 * WL3501 Wireless LAN PCMCIA Card Driver for Linux
 * Written originally for Linux 2.0.30 by Fox Chen, mhchen@golf.ccl.itri.org.tw
 * Ported to 2.2, 2.4 & 2.5 by Arnaldo Carvalho de Melo <acme@conectiva.com.br>
 * Wireless extensions in 2.4 by Gustavo Niemeyer <niemeyer@conectiva.com>
 *
 * References used by Fox Chen while writing the original driver for 2.0.30:
 *
 *   1. WL24xx packet drivers (tooasm.asm)
 *   2. Access Point Firmware Interface Specification for IEEE 802.11 SUTRO
 *   3. IEEE 802.11
 *   4. Linux network driver (/usr/src/linux/drivers/net)
 *   5. ISA card driver - wl24.c
 *   6. Linux PCMCIA skeleton driver - skeleton.c
 *   7. Linux PCMCIA 3c589 network driver - 3c589_cs.c
 *
 * Tested with WL2400 firmware 1.2, Linux 2.0.30, and pcmcia-cs-2.9.12
 *   1. Performance: about 165 Kbytes/sec in TCP/IP with Ad-Hoc mode.
 *      rsh 192.168.1.3 "dd if=/dev/zero bs=1k count=1000" > /dev/null
 *      (Specification 2M bits/sec. is about 250 Kbytes/sec., but we must deduct
 *       ETHER/IP/UDP/TCP header, and acknowledgement overhead)
 *
 * Tested with Planet AP in 2.4.17, 184 Kbytes/s in UDP in Infrastructure mode,
 * 173 Kbytes/s in TCP.
 *
 * Tested with Planet AP in 2.5.73-bk, 216 Kbytes/s in Infrastructure mode
 * with a SMP machine (dual pentium 100), using pktgen, 432 pps (pkt_size = 60)
 */

#include <linux/delay.h>
#include <linux/types.h>
#include <linux/ethtool.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/in.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/fcntl.h>
#include <linux/if_arp.h>
#include <linux/ioport.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>
#include <linux/slab.h>
#include <linux/string.h>
#include <linux/wireless.h>

#include <net/iw_handler.h>

#include <pcmcia/cs_types.h>
#include <pcmcia/cs.h>
#include <pcmcia/cistpl.h>
#include <pcmcia/cisreg.h>
#include <pcmcia/ds.h>

#include <asm/io.h>
#include <asm/uaccess.h>
#include <asm/system.h>

#include "wl3501.h"

#ifndef __i386__
#define slow_down_io()
#endif

/* For rough constant delay */
#define WL3501_NOPLOOP(n) { int x = 0; while (x++ < n) slow_down_io(); }

/*
 * All the PCMCIA modules use PCMCIA_DEBUG to control debugging.  If you do not
 * define PCMCIA_DEBUG at all, all the debug code will be left out.  If you
 * compile with PCMCIA_DEBUG=0, the debug code will be present but disabled --
 * but it can then be enabled for specific modules at load time with a
 * 'pc_debug=#' option to insmod.
 */
#define PCMCIA_DEBUG 0
#ifdef PCMCIA_DEBUG
static int pc_debug = PCMCIA_DEBUG;
module_param(pc_debug, int, 0);
#define dprintk(n, format, args...) \
	{ if (pc_debug > (n)) \
		printk(KERN_INFO "%s: " format "\n", __FUNCTION__ , ##args); }
#else
#define dprintk(n, format, args...)
#endif

#define wl3501_outb(a, b) { outb(a, b); slow_down_io(); }
#define wl3501_outb_p(a, b) { outb_p(a, b); slow_down_io(); }
#define wl3501_outsb(a, b, c) { outsb(a, b, c); slow_down_io(); }

#define WL3501_RELEASE_TIMEOUT (25 * HZ)
#define WL3501_MAX_ADHOC_TRIES 16

#define WL3501_RESUME	0
#define WL3501_SUSPEND	1

/*
 * The event() function is this driver's Card Services event handler.  It will
 * be called by Card Services when an appropriate card status event is
 * received. The config() and release() entry points are used to configure or
 * release a socket, in response to card insertion and ejection events.  They
 * are invoked from the wl24 event handler.
 */
static int wl3501_config(struct pcmcia_device *link);
static void wl3501_release(struct pcmcia_device *link);

/*
 * The dev_info variable is the "key" that is used to match up this
 * device driver with appropriate cards, through the card configuration
 * database.
 */
static dev_info_t wl3501_dev_info = "wl3501_cs";

static int wl3501_chan2freq[] = {
	[0]  = 2412, [1]  = 2417, [2]  = 2422, [3]  = 2427, [4] = 2432,
	[5]  = 2437, [6]  = 2442, [7]  = 2447, [8]  = 2452, [9] = 2457,
	[10] = 2462, [11] = 2467, [12] = 2472, [13] = 2477,
};

static const struct {
	int reg_domain;
	int min, max, deflt;
} iw_channel_table[] = {
	{
		.reg_domain = IW_REG_DOMAIN_FCC,
		.min	    = 1,
		.max	    = 11,
		.deflt	    = 1,
	},
	{
		.reg_domain = IW_REG_DOMAIN_DOC,
		.min	    = 1,
		.max	    = 11,
		.deflt	    = 1,
	},
	{
		.reg_domain = IW_REG_DOMAIN_ETSI,
		.min	    = 1,
		.max	    = 13,
		.deflt	    = 1,
	},
	{
		.reg_domain = IW_REG_DOMAIN_SPAIN,
		.min	    = 10,
		.max	    = 11,
		.deflt	    = 10,
	},
	{
		.reg_domain = IW_REG_DOMAIN_FRANCE,
		.min	    = 10,
		.max	    = 13,
		.deflt	    = 10,
	},
	{
		.reg_domain = IW_REG_DOMAIN_MKK,
		.min	    = 14,
		.max	    = 14,
		.deflt	    = 14,
	},
	{
		.reg_domain = IW_REG_DOMAIN_MKK1,
		.min	    = 1,
		.max	    = 14,
		.deflt	    = 1,
	},
	{
		.reg_domain = IW_REG_DOMAIN_ISRAEL,
		.min	    = 3,
		.max	    = 9,
		.deflt	    = 9,
	},
};

/**
 * iw_valid_channel - validate channel in regulatory domain
 * @reg_comain - regulatory domain
 * @channel - channel to validate
 *
 * Returns 0 if invalid in the specified regulatory domain, non-zero if valid.
 */
static int iw_valid_channel(int reg_domain, int channel)
{
	int i, rc = 0;

	for (i = 0; i < ARRAY_SIZE(iw_channel_table); i++)
		if (reg_domain == iw_channel_table[i].reg_domain) {
			rc = channel >= iw_channel_table[i].min &&
			     channel <= iw_channel_table[i].max;
			break;
		}
	return rc;
}

/**
 * iw_default_channel - get default channel for a regulatory domain
 * @reg_comain - regulatory domain
 *
 * Returns the default channel for a regulatory domain
 */
static int iw_default_channel(int reg_domain)
{
	int i, rc = 1;

	for (i = 0; i < ARRAY_SIZE(iw_channel_table); i++)
		if (reg_domain == iw_channel_table[i].reg_domain) {
			rc = iw_channel_table[i].deflt;
			break;
		}
	return rc;
}

static void iw_set_mgmt_info_element(enum iw_mgmt_info_element_ids id,
				     struct iw_mgmt_info_element *el,
				     void *value, int len)
{
	el->id  = id;
	el->len = len;
	memcpy(el->data, value, len);
}

static void iw_copy_mgmt_info_element(struct iw_mgmt_info_element *to,
				      struct iw_mgmt_info_element *from)
{
	iw_set_mgmt_info_element(from->id, to, from->data, from->len);
}

static inline void wl3501_switch_page(struct wl3501_card *this, u8 page)
{
	wl3501_outb(page, this->base_addr + WL3501_NIC_BSS);
}

/*
 * Get Ethernet MAC addresss.
 *
 * WARNING: We switch to FPAGE0 and switc back again.
 *          Making sure there is no other WL function beening called by ISR.
 */
static int wl3501_get_flash_mac_addr(struct wl3501_card *this)
{
	int base_addr = this->base_addr;

	/* get MAC addr */
	wl3501_outb(WL3501_BSS_FPAGE3, base_addr + WL3501_NIC_BSS); /* BSS */
	wl3501_outb(0x00, base_addr + WL3501_NIC_LMAL);	/* LMAL */
	wl3501_outb(0x40, base_addr + WL3501_NIC_LMAH);	/* LMAH */

	/* wait for reading EEPROM */
	WL3501_NOPLOOP(100);
	this->mac_addr[0] = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	this->mac_addr[1] = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	this->mac_addr[2] = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	this->mac_addr[3] = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	this->mac_addr[4] = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	this->mac_addr[5] = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	this->reg_domain = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	wl3501_outb(WL3501_BSS_FPAGE0, base_addr + WL3501_NIC_BSS);
	wl3501_outb(0x04, base_addr + WL3501_NIC_LMAL);
	wl3501_outb(0x40, base_addr + WL3501_NIC_LMAH);
	WL3501_NOPLOOP(100);
	this->version[0] = inb(base_addr + WL3501_NIC_IODPA);
	WL3501_NOPLOOP(100);
	this->version[1] = inb(base_addr + WL3501_NIC_IODPA);
	/* switch to SRAM Page 0 (for safety) */
	wl3501_switch_page(this, WL3501_BSS_SPAGE0);

	/* The MAC addr should be 00:60:... */
	return this->mac_addr[0] == 0x00 && this->mac_addr[1] == 0x60;
}

/**
 * wl3501_set_to_wla - Move 'size' bytes from PC to card
 * @dest: Card addressing space
 * @src: PC addressing space
 * @size: Bytes to move
 *
 * Move 'size' bytes from PC to card. (Shouldn't be interrupted)
 */
static void wl3501_set_to_wla(struct wl3501_card *this, u16 dest, void *src,
			      int size)
{
	/* switch to SRAM Page 0 */
	wl3501_switch_page(this, (dest & 0x8000) ? WL3501_BSS_SPAGE1 :
						   WL3501_BSS_SPAGE0);
	/* set LMAL and LMAH */
	wl3501_outb(dest & 0xff, this->base_addr + WL3501_NIC_LMAL);
	wl3501_outb(((dest >> 8) & 0x7f), this->base_addr + WL3501_NIC_LMAH);

	/* rep out to Port A */
	wl3501_outsb(this->base_addr + WL3501_NIC_IODPA, src, size);
}

/**
 * wl3501_get_from_wla - Move 'size' bytes from card to PC
 * @src: Card addressing space
 * @dest: PC addressing space
 * @size: Bytes to move
 *
 * Move 'size' bytes from card to PC. (Shouldn't be interrupted)
 */
static void wl3501_get_from_wla(struct wl3501_card *this, u16 src, void *dest,
				int size)
{
	/* switch to SRAM Page 0 */
	wl3501_switch_page(this, (src & 0x8000) ? WL3501_BSS_SPAGE1 :
						  WL3501_BSS_SPAGE0);
	/* set LMAL and LMAH */
	wl3501_outb(src & 0xff, this->base_addr + WL3501_NIC_LMAL);
	wl3501_outb((src >> 8) & 0x7f, this->base_addr + WL3501_NIC_LMAH);

	/* rep get from Port A */
	insb(this->base_addr + WL3501_NIC_IODPA, dest, size);
}

/*
 * Get/Allocate a free Tx Data Buffer
 *
 *  *--------------*-----------------*----------------------------------*
 *  |    PLCP      |    MAC Header   |  DST  SRC         Data ...       |
 *  |  (24 bytes)  |    (30 bytes)   |  (6)  (6)  (Ethernet Row Data)   |
 *  *--------------*-----------------*----------------------------------*
 *  \               \- IEEE 802.11 -/ \-------------- len --------------/
 *   \-struct wl3501_80211_tx_hdr--/   \-------- Ethernet Frame -------/
 *
 * Return = Postion in Card
 */
static u16 wl3501_get_tx_buffer(struct wl3501_card *this, u16 len)
{
	u16 next, blk_cnt = 0, zero = 0;
	u16 full_len = sizeof(struct wl3501_80211_tx_hdr) + len;
	u16 ret = 0;

	if (full_len > this->tx_buffer_cnt * 254)
		goto out;
	ret = this->tx_buffer_head;
	while (full_len) {
		if (full_len < 254)
			full_len = 0;
		else
			full_len -= 254;
		wl3501_get_from_wla(this, this->tx_buffer_head, &next,
				    sizeof(next));
		if (!full_len)
			wl3501_set_to_wla(this, this->tx_buffer_head, &zero,
					  sizeof(zero));
		this->tx_buffer_head = next;
		blk_cnt++;
		/* if buffer is not enough */
		if (!next && full_len) {
			this->tx_buffer_head = ret;
			ret = 0;
			goto out;
		}
	}
	this->tx_buffer_cnt -= blk_cnt;
out:
	return ret;
}

/*
 * Free an allocated Tx Buffer. ptr must be correct position.
 */
static void wl3501_free_tx_buffer(struct wl3501_card *this, u16 ptr)
{
	/* check if all space is not free */
	if (!this->tx_buffer_head)
		this->tx_buffer_head = ptr;
	else
		wl3501_set_to_wla(this, this->tx_buffer_tail,
				  &ptr, sizeof(ptr));
	while (ptr) {
		u16 next;

		this->tx_buffer_cnt++;
		wl3501_get_from_wla(this, ptr, &next, sizeof(next));
		this->tx_buffer_tail = ptr;
		ptr = next;
	}
}

static int wl3501_esbq_req_test(struct wl3501_card *this)
{
	u8 tmp;

	wl3501_get_from_wla(this, this->esbq_req_head + 3, &tmp, sizeof(tmp));
	return tmp & 0x80;
}

static void wl3501_esbq_req(struct wl3501_card *this, u16 *ptr)
{
	u16 tmp = 0;

	wl3501_set_to_wla(this, this->esbq_req_head, ptr, 2);
	wl3501_set_to_wla(this, this->esbq_req_head + 2, &tmp, sizeof(tmp));
	this->esbq_req_head += 4;
	if (this->esbq_req_head >= this->esbq_req_end)
		this->esbq_req_head = this->esbq_req_start;
}

static int wl3501_esbq_exec(struct wl3501_card *this, void *sig, int sig_size)
{
	int rc = -EIO;

	if (wl3501_esbq_req_test(this)) {
		u16 ptr = wl3501_get_tx_buffer(this, sig_size);
		if (ptr) {
			wl3501_set_to_wla(this, ptr, sig, sig_size);
			wl3501_esbq_req(this, &ptr);
			rc = 0;
		}
	}
	return rc;
}

static int wl3501_get_mib_value(struct wl3501_card *this, u8 index,
				void *bf, int size)
{
	struct wl3501_get_req sig = {
		.sig_id	    = WL3501_SIG_GET_REQ,
		.mib_attrib = index,
	};
	unsigned long flags;
	int rc = -EIO;

	spin_lock_irqsave(&this->lock, flags);
	if (wl3501_esbq_req_test(this)) {
		u16 ptr = wl3501_get_tx_buffer(this, sizeof(sig));
		if (ptr) {
			wl3501_set_to_wla(this, ptr, &sig, sizeof(sig));
			wl3501_esbq_req(this, &ptr);
			this->sig_get_confirm.mib_status = 255;
			spin_unlock_irqrestore(&this->lock, flags);
			rc = wait_event_interruptible(this->wait,
				this->sig_get_confirm.mib_status != 255);
			if (!rc)
				memcpy(bf, this->sig_get_confirm.mib_value,
				       size);
			goto out;
		}
	}
	spin_unlock_irqrestore(&this->lock, flags);
out:
	return rc;
}

static int wl3501_pwr_mgmt(struct wl3501_card *this, int suspend)
{
	struct wl3501_pwr_mgmt_req sig = {
		.sig_id		= WL3501_SIG_PWR_MGMT_REQ,
		.pwr_save	= suspend,
		.wake_up	= !suspend,
		.receive_dtims	= 10,
	};
	unsigned long flags;
	int rc = -EIO;

	spin_lock_irqsave(&this->lock, flags);
	if (wl3501_esbq_req_test(this)) {
		u16 ptr = wl3501_get_tx_buffer(this, sizeof(sig));
		if (ptr) {
			wl3501_set_to_wla(this, ptr, &sig, sizeof(sig));
			wl3501_esbq_req(this, &ptr);
			this->sig_pwr_mgmt_confirm.status = 255;
			spin_unlock_irqrestore(&this->lock, flags);
			rc = wait_event_interruptible(this->wait,
				this->sig_pwr_mgmt_confirm.status != 255);
			printk(KERN_INFO "%s: %s status=%d\n", __FUNCTION__,
			       suspend ? "suspend" : "resume",
			       this->sig_pwr_mgmt_confirm.status);
			goto out;
		}
	}
	spin_unlock_irqrestore(&this->lock, flags);
out:
	return rc;
}

/**
 * wl3501_send_pkt - Send a packet.
 * @this - card
 *
 * Send a packet.
 *
 * data = Ethernet raw frame.  (e.g. data[0] - data[5] is Dest MAC Addr,
 *                                   data[6] - data[11] is Src MAC Addr)
 * Ref: IEEE 802.11
 */
static int wl3501_send_pkt(struct wl3501_card *this, u8 *data, u16 len)
{
	u16 bf, sig_bf, next, tmplen, pktlen;
	struct wl3501_md_req sig = {
		.sig_id = WL3501_SIG_MD_REQ,
	};
	u8 *pdata = (char *)data;
	int rc = -EIO;

	if (wl3501_esbq_req_test(this)) {
		sig_bf = wl3501_get_tx_buffer(this, sizeof(sig));
		rc = -ENOMEM;
		if (!sig_bf)	/* No free buffer available */
			goto out;
		bf = wl3501_get_tx_buffer(this, len + 26 + 24);
		if (!bf) {
			/* No free buffer available */
			wl3501_free_tx_buffer(this, sig_bf);
			goto out;
		}
		rc = 0;
		memcpy(&sig.daddr[0], pdata, 12);
		pktlen = len - 12;
		pdata += 12;
		sig.data = bf;
		if (((*pdata) * 256 + (*(pdata + 1))) > 1500) {
			u8 addr4[ETH_ALEN] = {
				[0] = 0xAA, [1] = 0xAA, [2] = 0x03, [4] = 0x00,
			};

			wl3501_set_to_wla(this, bf + 2 +
					  offsetof(struct wl3501_tx_hdr, addr4),
					  addr4, sizeof(addr4));
			sig.size = pktlen + 24 + 4 + 6;
			if (pktlen > (254 - sizeof(struct wl3501_tx_hdr))) {
				tmplen = 254 - sizeof(struct wl3501_tx_hdr);
				pktlen -= tmplen;
			} else {
				tmplen = pktlen;
				pktlen = 0;
			}
			wl3501_set_to_wla(this,
					  bf + 2 + sizeof(struct wl3501_tx_hdr),
					  pdata, tmplen);
			pdata += tmplen;
			wl3501_get_from_wla(this, bf, &next, sizeof(next));
			bf = next;
		} else {
			sig.size = pktlen + 24 + 4 - 2;
			pdata += 2;
			pktlen -= 2;
			if (pktlen > (254 - sizeof(struct wl3501_tx_hdr) + 6)) {
				tmplen = 254 - sizeof(struct wl3501_tx_hdr) + 6;
				pktlen -= tmplen;
			} else {
				tmplen = pktlen;
				pktlen = 0;
			}
			wl3501_set_to_wla(this, bf + 2 +
					  offsetof(struct wl3501_tx_hdr, addr4),
					  pdata, tmplen);
			pdata += tmplen;
			wl3501_get_from_wla(this, bf, &next, sizeof(next));
			bf = next;
		}
		while (pktlen > 0) {
			if (pktlen > 254) {
				tmplen = 254;
				pktlen -= 254;
			} else {
				tmplen = pktlen;
				pktlen = 0;
			}
			wl3501_set_to_wla(this, bf + 2, pdata, tmplen);
			pdata += tmplen;
			wl3501_get_from_wla(this, bf, &next, sizeof(next));
			bf = next;
		}
		wl3501_set_to_wla(this, sig_bf, &sig, sizeof(sig));
		wl3501_esbq_req(this, &sig_bf);
	}
out:
	return rc;
}

static int wl3501_mgmt_resync(struct wl3501_card *this)
{
	struct wl3501_resync_req sig = {
		.sig_id = WL3501_SIG_RESYNC_REQ,
	};

	return wl3501_esbq_exec(this, &sig, sizeof(sig));
}

static inline int wl3501_fw_bss_type(struct wl3501_card *this)
{
	return this->net_type == IW_MODE_INFRA ? WL3501_NET_TYPE_INFRA :
						 WL3501_NET_TYPE_ADHOC;
}

static inline int wl3501_fw_cap_info(struct wl3501_card *this)
{
	return this->net_type == IW_MODE_INFRA ? WL3501_MGMT_CAPABILITY_ESS :
						 WL3501_MGMT_CAPABILITY_IBSS;
}

static int wl3501_mgmt_scan(struct wl3501_card *this, u16 chan_time)
{
	struct wl3501_scan_req sig = {
		.sig_id		= WL3501_SIG_SCAN_REQ,
		.scan_type	= WL3501_SCAN_TYPE_ACTIVE,
		.probe_delay	= 0x10,
		.min_chan_time	= chan_time,
		.max_chan_time	= chan_time,
		.bss_type	= wl3501_fw_bss_type(this),
	};

	this->bss_cnt = this->join_sta_bss = 0;
	return wl3501_esbq_exec(this, &sig, sizeof(sig));
}

static int wl3501_mgmt_join(struct wl3501_card *this, u16 stas)
{
	struct wl3501_join_req sig = {
		.sig_id		  = WL3501_SIG_JOIN_REQ,
		.timeout	  = 10,
		.ds_pset = {
			.el = {
				.id  = IW_MGMT_INFO_ELEMENT_DS_PARAMETER_SET,
				.len = 1,
			},
			.chan	= this->chan,
		},
	};

	memcpy(&sig.beacon_period, &this->bss_set[stas].beacon_period, 72);
	return wl3501_esbq_exec(this, &sig, sizeof(sig));
}

static int wl3501_mgmt_start(struct wl3501_card *this)
{
	struct wl3501_start_req sig = {
		.sig_id			= WL3501_SIG_START_REQ,
		.beacon_period		= 400,
		.dtim_period		= 1,
		.ds_pset = {
			.el = {
				.id  = IW_MGMT_INFO_ELEMENT_DS_PARAMETER_SET,
				.len = 1,
			},
			.chan	= this->chan,
		},
		.bss_basic_rset	= {
			.el = {
				.id	= IW_MGMT_INFO_ELEMENT_SUPPORTED_RATES,
				.len = 2,
			},
			.data_rate_labels = {
				[0] = IW_MGMT_RATE_LABEL_MANDATORY |
				      IW_MGMT_RATE_LABEL_1MBIT,
				[1] = IW_MGMT_RATE_LABEL_MANDATORY |
				      IW_MGMT_RATE_LABEL_2MBIT,
			},
		},
		.operational_rset	= {
			.el = {
				.id	= IW_MGMT_INFO_ELEMENT_SUPPORTED_RATES,
				.len = 2,
			},
			.data_rate_labels = {
				[0] = IW_MGMT_RATE_LABEL_MANDATORY |
				      IW_MGMT_RATE_LABEL_1MBIT,
				[1] = IW_MGMT_RATE_LABEL_MANDATORY |
				      IW_MGMT_RATE_LABEL_2MBIT,
			},
		},
		.ibss_pset		= {
			.el = {
				.id	 = IW_MGMT_INFO_ELEMENT_IBSS_PARAMETER_SET,
				.len     = 2,
			},
			.atim_window = 10,
		},
		.bss_type		= wl3501_fw_bss_type(this),
		.cap_info		= wl3501_fw_cap_info(this),
	};

	iw_copy_mgmt_info_element(&sig.ssid.el, &this->essid.el);
	iw_copy_mgmt_info_element(&this->keep_essid.el, &this->essid.el);
	return wl3501_esbq_exec(this, &sig, sizeof(sig));
}

static void wl3501_mgmt_scan_confirm(struct wl3501_card *this, u16 addr)
{
	u16 i = 0;
	int matchflag = 0;
	struct wl3501_scan_confirm sig;

	dprintk(3, "entry");
	wl3501_get_from_wla(this, addr, &sig, sizeof(sig));
	if (sig.status == WL3501_STATUS_SUCCESS) {
		dprintk(3, "success");
		if ((this->net_type == IW_MODE_INFRA &&
		     (sig.cap_info & WL3501_MGMT_CAPABILITY_ESS)) ||
		    (this->net_type == IW_MODE_ADHOC &&
		     (sig.cap_info & WL3501_MGMT_CAPABILITY_IBSS)) ||
		    this->net_type == IW_MODE_AUTO) {
			if (!this->essid.el.len)
				matchflag = 1;
			else if (this->essid.el.len == 3 &&
				 !memcmp(this->essid.essid, "ANY", 3))
				matchflag = 1;
			else if (this->essid.el.len != sig.ssid.el.len)
				matchflag = 0;
			else if (memcmp(this->essid.essid, sig.ssid.essid,
					this->essid.el.len))
				matchflag = 0;
			else
				matchflag = 1;
			if (matchflag) {
				for (i = 0; i < this->bss_cnt; i++) {
					if (!memcmp(this->bss_set[i].bssid,
						    sig.bssid, ETH_ALEN)) {
						matchflag = 0;
						break;
					}
				}
			}
			if (matchflag && (i < 20)) {
				memcpy(&this->bss_set[i].beacon_period,
				       &sig.beacon_period, 73);
				this->bss_cnt++;
				this->rssi = sig.rssi;
			}
		}
	} else if (sig.status == WL3501_STATUS_TIMEOUT) {
		dprintk(3, "timeout");
		this->join_sta_bss = 0;
		for (i = this->join_sta_bss; i < this->bss_cnt; i++)
			if (!wl3501_mgmt_join(this, i))
				break;
		this->join_sta_bss = i;
		if (this->join_sta_bss == this->bss_cnt) {
			if (this->net_type == IW_MODE_INFRA)
				wl3501_mgmt_scan(this, 100);
			else {
				this->adhoc_times++;
				if (this->adhoc_times > WL3501_MAX_ADHOC_TRIES)
					wl3501_mgmt_start(this);
				else
					wl3501_mgmt_scan(this, 100);
			}
		}
	}
}

/**
 * wl3501_block_interrupt - Mask interrupt from SUTRO
 * @this - card
 *
 * Mask interrupt from SUTRO. (i.e. SUTRO cannot interrupt the HOST)
 * Return: 1 if interrupt is originally enabled
 */
static int wl3501_block_interrupt(struct wl3501_card *this)
{
	u8 old = inb(this->base_addr + WL3501_NIC_GCR);
	u8 new = old & (~(WL3501_GCR_ECINT | WL3501_GCR_INT2EC |
			WL3501_GCR_ENECINT));

	wl3501_outb(new, this->base_addr + WL3501_NIC_GCR);
	return old & WL3501_GCR_ENECINT;
}

/**
 * wl3501_unblock_interrupt - Enable interrupt from SUTRO
 * @this - card
 *
 * Enable interrupt from SUTRO. (i.e. SUTRO can interrupt the HOST)
 * Return: 1 if interrupt is originally enabled
 */
static int wl3501_unblock_interrupt(struct wl3501_card *this)
{
	u8 old = inb(this->base_addr + WL3501_NIC_GCR);
	u8 new = (old & ~(WL3501_GCR_ECINT | WL3501_GCR_INT2EC)) |
		  WL3501_GCR_ENECINT;

	wl3501_outb(new, this->base_addr + WL3501_NIC_GCR);
	return old & WL3501_GCR_ENECINT;
}

/**
 * wl3501_receive - Receive data from Receive Queue.
 *
 * Receive data from Receive Queue.
 *
 * @this: card
 * @bf: address of host
 * @size: size of buffer.
 */
static u16 wl3501_receive(struct wl3501_card *this, u8 *bf, u16 size)
{
	u16 next_addr, next_addr1;
	u8 *data = bf + 12;

	size -= 12;
	wl3501_get_from_wla(this, this->start_seg + 2,
			    &next_addr, sizeof(next_addr));
	if (size > WL3501_BLKSZ - sizeof(struct wl3501_rx_hdr)) {
		wl3501_get_from_wla(this,
				    this->start_seg +
					sizeof(struct wl3501_rx_hdr), data,
				    WL3501_BLKSZ -
					sizeof(struct wl3501_rx_hdr));
		size -= WL3501_BLKSZ - sizeof(struct wl3501_rx_hdr);
		data += WL3501_BLKSZ - sizeof(struct wl3501_rx_hdr);
	} else {
		wl3501_get_from_wla(this,
				    this->start_seg +
					sizeof(struct wl3501_rx_hdr),
				    data, size);
		size = 0;
	}
	while (size > 0) {
		if (size > WL3501_BLKSZ - 5) {
			wl3501_get_from_wla(this, next_addr + 5, data,
					    WL3501_BLKSZ - 5);
			size -= WL3501_BLKSZ - 5;
			data += WL3501_BLKSZ - 5;
			wl3501_get_from_wla(this, next_addr + 2, &next_addr1,
					    sizeof(next_addr1));
			next_addr = next_addr1;
		} else {
			wl3501_get_from_wla(this, next_addr + 5, data, size);
			size = 0;
		}
	}
	return 0;
}

static void wl3501_esbq_req_free(struct wl3501_card *this)
{
	u8 tmp;
	u16 addr;

	if (this->esbq_req_head == this->esbq_req_tail)
		goto out;
	wl3501_get_from_wla(this, this->esbq_req_tail + 3, &tmp, sizeof(tmp));
	if (!(tmp & 0x80))
		goto out;
	wl3501_get_from_wla(this, this->esbq_req_tail, &addr, sizeof(addr));
	wl3501_free_tx_buffer(this, addr);
	this->esbq_req_tail += 4;
	if (this->esbq_req_tail >= this->esbq_req_end)
		this->esbq_req_tail = this->esbq_req_start;
out:
	return;
}

static int wl3501_esbq_confirm(struct wl3501_card *this)
{
	u8 tmp;

	wl3501_get_from_wla(this, this->esbq_confirm + 3, &tmp, sizeof(tmp));
	return tmp & 0x80;
}

static void wl3501_online(struct net_device *dev)
{
	struct wl3501_card *this = netdev_priv(dev);
	DECLARE_MAC_BUF(mac);

	printk(KERN_INFO "%s: Wireless LAN online. BSSID: %s\n",
	       dev->name, print_mac(mac, this->bssid));
	netif_wake_queue(dev);
}

static void wl3501_esbq_confirm_done(struct wl3501_card *this)
{
	u8 tmp = 0;

	wl3501_set_to_wla(this, this->esbq_confirm + 3, &tmp, sizeof(tmp));
	this->esbq_confirm += 4;
	if (this->esbq_confirm >= this->esbq_confirm_end)
		this->esbq_confirm = this->esbq_confirm_start;
}

static int wl3501_mgmt_auth(struct wl3501_card *this)
{
	struct wl3501_auth_req sig = {
		.sig_id	 = WL3501_SIG_AUTH_REQ,
		.type	 = WL3501_SYS_TYPE_OPEN,
		.timeout = 1000,
	};

	dprintk(3, "entry");
	memcpy(sig.mac_addr, this->bssid, ETH_ALEN);
	return wl3501_esbq_exec(this, &sig, sizeof(sig));
}

static int wl3501_mgmt_association(struct wl3501_card *this)
{
	struct wl3501_assoc_req sig = {
		.sig_id		 = WL3501_SIG_ASSOC_REQ,
		.timeout	 = 1000,
		.listen_interval = 5,
		.cap_info	 = this->cap_info,
	};

	dprintk(3, "entry");
	memcpy(sig.mac_addr, this->bssid, ETH_ALEN);
	return wl3501_esbq_exec(this, &sig, sizeof(sig));
}

static void wl3501_mgmt_join_confirm(struct net_device *dev, u16 addr)
{
	struct wl3501_card *this = netdev_priv(dev);
	struct wl3501_join_confirm sig;

	dprintk(3, "entry");
	wl3501_get_from_wla(this, addr, &sig, sizeof(sig));
	if (sig.status == WL3501_STATUS_SUCCESS) {
		if (this->net_type == IW_MODE_INFRA) {
			if (this->join_sta_bss < this->bss_cnt) {
				const int i = this->join_sta_bss;
				memcpy(this->bssid,
				       this->bss_set[i].bssid, ETH_ALEN);
				this->chan = this->bss_set[i].ds_pset.chan;
				iw_copy_mgmt_info_element(&this->keep_essid.el,
						     &this->bss_set[i].ssid.el);
				wl3501_mgmt_auth(this);
			}
		} else {
			const int i = this->join_sta_bss;

			memcpy(&this->bssid, &this->bss_set[i].bssid, ETH_ALEN);
			this->chan = this->bss_set[i].ds_pset.chan;
			iw_copy_mgmt_info_element(&this->keep_essid.el,
						  &this->bss_set[i].ssid.el);
			wl3501_online(dev);
		}
	} else {
		int i;
		this->join_sta_bss++;
		for (i = this->join_sta_bss; i < this->bss_cnt; i++)
			if (!wl3501_mgmt_join(this, i))
				break;
		this->join_sta_bss = i;
		if (this->join_sta_bss == this->bss_cnt) {
			if (this->net_type == IW_MODE_INFRA)
				wl3501_mgmt_scan(this, 100);
			else {
				this->adhoc_times++;
				if (this->adhoc_times > WL3501_MAX_ADHOC_TRIES)
					wl3501_mgmt_start(this);
				else
					wl3501_mgmt_scan(this, 100);
			}
		}
	}
}

static inline void wl3501_alarm_interrupt(struct net_device *dev,
					  struct wl3501_card *this)
{
	if (this->net_type == IW_MODE_INFRA) {
		printk(KERN_INFO "Wireless LAN offline\n");
		netif_stop_queue(dev);
		wl3501_mgmt_resync(this);
	}
}

static inline void wl3501_md_confirm_interrupt(struct net_device *dev,
					       struct wl3501_card *this,
					       u16 addr)
{
	struct wl3501_md_confirm sig;

	dprintk(3, "entry");
	wl3501_get_from_wla(this, addr, &sig, sizeof(sig));
	wl3501_free_tx_buffer(this, sig.data);
	if (netif_queue_stopped(dev))
		netif_wake_queue(dev);
}

static inline void wl3501_md_ind_interrupt(struct net_device *dev,
					   struct wl3501_card *this, u16 addr)
{
	struct wl3501_md_ind sig;
	struct sk_buff *skb;
	u8 rssi, addr4[ETH_ALEN];
	u16 pkt_len;

	wl3501_get_from_wla(this, addr, &sig, sizeof(sig));
	this->start_seg = sig.data;
	wl3501_get_from_wla(this,
			    sig.data + offsetof(struct wl3501_rx_hdr, rssi),
			    &rssi, sizeof(rssi));
	this->rssi = rssi <= 63 ? (rssi * 100) / 64 : 255;

	wl3501_get_from_wla(this,
			    sig.data +
				offsetof(struct wl3501_rx_hdr, addr4),
			    &addr4, sizeof(addr4));
	if (!(addr4[0] == 0xAA && addr4[1] == 0xAA &&
	      addr4[2] == 0x03 && addr4[4] == 0x00)) {
		printk(KERN_INFO "Insupported packet type!\n");
		return;