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2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852 2853 2854 2855 2856 2857 2858 2859 2860 2861 2862 2863 2864 2865 2866 2867 2868 2869 2870 2871 2872 2873 2874 2875 2876 2877 2878 2879 2880 2881 2882 2883 2884 2885 2886 2887 2888 2889 2890 2891 2892 2893 2894 2895 2896 2897 2898 2899 2900 2901 2902 2903 2904 2905 2906 2907 2908 2909 2910 2911 2912 2913 2914 2915 2916 2917 2918 2919 2920 2921 2922 2923 2924 2925 2926 2927 2928 2929 2930 2931 2932 2933 2934 2935 2936 2937 2938 2939 2940 2941 2942 2943 2944 2945 2946 2947 2948 2949 2950 2951 2952 2953 2954 2955 2956 2957 2958 2959 2960 2961 2962 2963 2964 2965 2966 2967 2968 2969 2970 2971 2972 2973 2974 2975 2976 | /*============================================================================= * * A PCMCIA client driver for the Raylink wireless LAN card. * The starting point for this module was the skeleton.c in the * PCMCIA 2.9.12 package written by David Hinds, dhinds@allegro.stanford.edu * * * Copyright (c) 1998 Corey Thomas (corey@world.std.com) * * This driver is free software; you can redistribute it and/or modify * it under the terms of version 2 only of the GNU General Public License as * published by the Free Software Foundation. * * It is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA * * Changes: * Arnaldo Carvalho de Melo <acme@conectiva.com.br> - 08/08/2000 * - reorganize kmallocs in ray_attach, checking all for failure * and releasing the previous allocations if one fails * * =============================================================================*/ #include <linux/config.h> #include <linux/module.h> #include <linux/kernel.h> #include <linux/sched.h> #include <linux/proc_fs.h> #include <linux/ptrace.h> #include <linux/slab.h> #include <linux/string.h> #include <linux/timer.h> #include <linux/init.h> #include <asm/io.h> #include <asm/system.h> #include <asm/byteorder.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/if_arp.h> #include <linux/ioport.h> #include <linux/skbuff.h> #include <pcmcia/version.h> #include <pcmcia/cs_types.h> #include <pcmcia/cs.h> #include <pcmcia/cistpl.h> #include <pcmcia/cisreg.h> #include <pcmcia/ds.h> #include <pcmcia/mem_op.h> #ifdef CONFIG_NET_PCMCIA_RADIO #include <linux/wireless.h> /* Warning : these stuff will slow down the driver... */ #define WIRELESS_SPY /* Enable spying addresses */ /* Definitions we need for spy */ typedef struct iw_statistics iw_stats; typedef struct iw_quality iw_qual; typedef u_char mac_addr[ETH_ALEN]; /* Hardware address */ #endif /* CONFIG_NET_PCMCIA_RADIO */ #include "rayctl.h" #include "ray_cs.h" /* 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. */ #ifdef RAYLINK_DEBUG #define PCMCIA_DEBUG RAYLINK_DEBUG #endif #ifdef PCMCIA_DEBUG static int ray_debug; static int pc_debug = PCMCIA_DEBUG; MODULE_PARM(pc_debug, "i"); /* #define DEBUG(n, args...) if (pc_debug>(n)) printk(KERN_DEBUG args); */ #define DEBUG(n, args...) if (pc_debug>(n)) printk(args); #else #define DEBUG(n, args...) #endif /** Prototypes based on PCMCIA skeleton driver *******************************/ static void ray_config(dev_link_t *link); static void ray_release(u_long arg); static int ray_event(event_t event, int priority, event_callback_args_t *args); static dev_link_t *ray_attach(void); static void ray_detach(dev_link_t *); /***** Prototypes indicated by device structure ******************************/ static int ray_dev_close(struct net_device *dev); static int ray_dev_config(struct net_device *dev, struct ifmap *map); static struct net_device_stats *ray_get_stats(struct net_device *dev); static int ray_dev_init(struct net_device *dev); static int ray_dev_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd); static int ray_open(struct net_device *dev); static int ray_dev_start_xmit(struct sk_buff *skb, struct net_device *dev); static void set_multicast_list(struct net_device *dev); static void ray_update_multi_list(struct net_device *dev, int all); static int translate_frame(ray_dev_t *local, struct tx_msg *ptx, unsigned char *data, int len); static void ray_build_header(ray_dev_t *local, struct tx_msg *ptx, UCHAR msg_type, unsigned char *data); static void untranslate(ray_dev_t *local, struct sk_buff *skb, int len); #if WIRELESS_EXT > 7 /* If wireless extension exist in the kernel */ static iw_stats * ray_get_wireless_stats(struct net_device * dev); #endif /* WIRELESS_EXT > 7 */ /***** Prototypes for raylink functions **************************************/ static int asc_to_int(char a); static void authenticate(ray_dev_t *local); static int build_auth_frame(ray_dev_t *local, UCHAR *dest, int auth_type); static void authenticate_timeout(u_long); static int get_free_ccs(ray_dev_t *local); static int get_free_tx_ccs(ray_dev_t *local); static void init_startup_params(ray_dev_t *local); static int parse_addr(char *in_str, UCHAR *out); static int ray_hw_xmit(unsigned char* data, int len, struct net_device* dev, UCHAR type); static int ray_init(struct net_device *dev); static int interrupt_ecf(ray_dev_t *local, int ccs); static void ray_reset(struct net_device *dev); static void ray_update_parm(struct net_device *dev, UCHAR objid, UCHAR *value, int len); static void verify_dl_startup(u_long); /* Prototypes for interrpt time functions **********************************/ static void ray_interrupt (int reg, void *dev_id, struct pt_regs *regs); static void clear_interrupt(ray_dev_t *local); static void rx_deauthenticate(ray_dev_t *local, struct rcs *prcs, unsigned int pkt_addr, int rx_len); static int copy_from_rx_buff(ray_dev_t *local, UCHAR *dest, int pkt_addr, int len); static void ray_rx(struct net_device *dev, ray_dev_t *local, struct rcs *prcs); static void release_frag_chain(ray_dev_t *local, struct rcs *prcs); static void rx_authenticate(ray_dev_t *local, struct rcs *prcs, unsigned int pkt_addr, int rx_len); static void rx_data(struct net_device *dev, struct rcs *prcs, unsigned int pkt_addr, int rx_len); static void associate(ray_dev_t *local); /* Card command functions */ static int dl_startup_params(struct net_device *dev); static void join_net(u_long local); static void start_net(u_long local); /* void start_net(ray_dev_t *local); */ /* Create symbol table for registering with kernel in init_module */ EXPORT_SYMBOL(ray_dev_ioctl); EXPORT_SYMBOL(ray_rx); /*===========================================================================*/ /* Parameters that can be set with 'insmod' */ /* Bit map of interrupts to choose from */ /* This means pick from 15, 14, 12, 11, 10, 9, 7, 5, 4, and 3 */ static u_long irq_mask = 0xdeb8; /* ADHOC=0, Infrastructure=1 */ static int net_type = ADHOC; /* Hop dwell time in Kus (1024 us units defined by 802.11) */ static int hop_dwell = 128; /* Beacon period in Kus */ static int beacon_period = 256; /* power save mode (0 = off, 1 = save power) */ static int psm; /* String for network's Extended Service Set ID. 32 Characters max */ static char *essid; /* Default to encapsulation unless translation requested */ static int translate = 1; static int country = USA; static int sniffer; static int bc; /* 48 bit physical card address if overriding card's real physical * address is required. Since IEEE 802.11 addresses are 48 bits * like ethernet, an int can't be used, so a string is used. To * allow use of addresses starting with a decimal digit, the first * character must be a letter and will be ignored. This letter is * followed by up to 12 hex digits which are the address. If less * than 12 digits are used, the address will be left filled with 0's. * Note that bit 0 of the first byte is the broadcast bit, and evil * things will happen if it is not 0 in a card address. */ static char *phy_addr = NULL; /* 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 dev_info = "ray_cs"; /* A linked list of "instances" of the ray device. Each actual PCMCIA card corresponds to one device instance, and is described by one dev_link_t structure (defined in ds.h). */ static dev_link_t *dev_list = NULL; /* A dev_link_t structure has fields for most things that are needed to keep track of a socket, but there will usually be some device specific information that also needs to be kept track of. The 'priv' pointer in a dev_link_t structure can be used to point to a device-specific private data structure, like this. */ static unsigned int ray_mem_speed = 500; MODULE_AUTHOR("Corey Thomas <corey@world.std.com>"); MODULE_DESCRIPTION("Raylink/WebGear wireless LAN driver"); MODULE_LICENSE("GPL"); MODULE_PARM(irq_mask,"i"); MODULE_PARM(net_type,"i"); MODULE_PARM(hop_dwell,"i"); MODULE_PARM(beacon_period,"i"); MODULE_PARM(psm,"i"); MODULE_PARM(essid,"s"); MODULE_PARM(translate,"i"); MODULE_PARM(country,"i"); MODULE_PARM(sniffer,"i"); MODULE_PARM(bc,"i"); MODULE_PARM(phy_addr,"s"); MODULE_PARM(ray_mem_speed, "i"); static UCHAR b5_default_startup_parms[] = { 0, 0, /* Adhoc station */ 'L','I','N','U','X', 0, 0, 0, /* 32 char ESSID */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, /* Active scan, CA Mode */ 0, 0, 0, 0, 0, 0, /* No default MAC addr */ 0x7f, 0xff, /* Frag threshold */ 0x00, 0x80, /* Hop time 128 Kus*/ 0x01, 0x00, /* Beacon period 256 Kus */ 0x01, 0x07, 0xa3, /* DTIM, retries, ack timeout*/ 0x1d, 0x82, 0x4e, /* SIFS, DIFS, PIFS */ 0x7f, 0xff, /* RTS threshold */ 0x04, 0xe2, 0x38, 0xA4, /* scan_dwell, max_scan_dwell */ 0x05, /* assoc resp timeout thresh */ 0x08, 0x02, 0x08, /* adhoc, infra, super cycle max*/ 0, /* Promiscuous mode */ 0x0c, 0x0bd, /* Unique word */ 0x32, /* Slot time */ 0xff, 0xff, /* roam-low snr, low snr count */ 0x05, 0xff, /* Infra, adhoc missed bcn thresh */ 0x01, 0x0b, 0x4f, /* USA, hop pattern, hop pat length */ /* b4 - b5 differences start here */ 0x00, 0x3f, /* CW max */ 0x00, 0x0f, /* CW min */ 0x04, 0x08, /* Noise gain, limit offset */ 0x28, 0x28, /* det rssi, med busy offsets */ 7, /* det sync thresh */ 0, 2, 2, /* test mode, min, max */ 0, /* allow broadcast SSID probe resp */ 0, 0, /* privacy must start, can join */ 2, 0, 0, 0, 0, 0, 0, 0 /* basic rate set */ }; static UCHAR b4_default_startup_parms[] = { 0, 0, /* Adhoc station */ 'L','I','N','U','X', 0, 0, 0, /* 32 char ESSID */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, /* Active scan, CA Mode */ 0, 0, 0, 0, 0, 0, /* No default MAC addr */ 0x7f, 0xff, /* Frag threshold */ 0x02, 0x00, /* Hop time */ 0x00, 0x01, /* Beacon period */ 0x01, 0x07, 0xa3, /* DTIM, retries, ack timeout*/ 0x1d, 0x82, 0xce, /* SIFS, DIFS, PIFS */ 0x7f, 0xff, /* RTS threshold */ 0xfb, 0x1e, 0xc7, 0x5c, /* scan_dwell, max_scan_dwell */ 0x05, /* assoc resp timeout thresh */ 0x04, 0x02, 0x4, /* adhoc, infra, super cycle max*/ 0, /* Promiscuous mode */ 0x0c, 0x0bd, /* Unique word */ 0x4e, /* Slot time (TBD seems wrong)*/ 0xff, 0xff, /* roam-low snr, low snr count */ 0x05, 0xff, /* Infra, adhoc missed bcn thresh */ 0x01, 0x0b, 0x4e, /* USA, hop pattern, hop pat length */ /* b4 - b5 differences start here */ 0x3f, 0x0f, /* CW max, min */ 0x04, 0x08, /* Noise gain, limit offset */ 0x28, 0x28, /* det rssi, med busy offsets */ 7, /* det sync thresh */ 0, 2, 2 /* test mode, min, max*/ }; /*===========================================================================*/ static unsigned char eth2_llc[] = {0xaa, 0xaa, 3, 0, 0, 0}; static char hop_pattern_length[] = { 1, USA_HOP_MOD, EUROPE_HOP_MOD, JAPAN_HOP_MOD, KOREA_HOP_MOD, SPAIN_HOP_MOD, FRANCE_HOP_MOD, ISRAEL_HOP_MOD, AUSTRALIA_HOP_MOD, JAPAN_TEST_HOP_MOD }; static char rcsid[] = "Raylink/WebGear wireless LAN - Corey <Thomas corey@world.std.com>"; /*===========================================================================*/ static void cs_error(client_handle_t handle, int func, int ret) { error_info_t err = { func, ret }; pcmcia_report_error(handle, &err); } /*====================================================================== This bit of code is used to avoid unregistering network devices at inappropriate times. 2.2 and later kernels are fairly picky about when this can happen. ======================================================================*/ static void flush_stale_links(void) { dev_link_t *link, *next; for (link = dev_list; link; link = next) { next = link->next; if (link->state & DEV_STALE_LINK) ray_detach(link); } } /*============================================================================= ray_attach() creates an "instance" of the driver, allocating local data structures for one device. The device is registered with Card Services. The dev_link structure is initialized, but we don't actually configure the card at this point -- we wait until we receive a card insertion event. =============================================================================*/ static dev_link_t *ray_attach(void) { client_reg_t client_reg; dev_link_t *link; ray_dev_t *local; int ret; struct net_device *dev; DEBUG(1, "ray_attach()\n"); flush_stale_links(); /* Initialize the dev_link_t structure */ link = kmalloc(sizeof(struct dev_link_t), GFP_KERNEL); if (!link) return NULL; /* Allocate space for private device-specific data */ dev = kmalloc(sizeof(struct net_device), GFP_KERNEL); if (!dev) goto fail_alloc_dev; local = kmalloc(sizeof(ray_dev_t), GFP_KERNEL); if (!local) goto fail_alloc_local; memset(link, 0, sizeof(struct dev_link_t)); memset(dev, 0, sizeof(struct net_device)); memset(local, 0, sizeof(ray_dev_t)); link->release.function = &ray_release; link->release.data = (u_long)link; /* The io structure describes IO port mapping. None used here */ link->io.NumPorts1 = 0; link->io.Attributes1 = IO_DATA_PATH_WIDTH_8; link->io.IOAddrLines = 5; /* Interrupt setup. For PCMCIA, driver takes what's given */ link->irq.Attributes = IRQ_TYPE_EXCLUSIVE | IRQ_HANDLE_PRESENT; link->irq.IRQInfo1 = IRQ_INFO2_VALID | IRQ_LEVEL_ID; link->irq.IRQInfo2 = irq_mask; link->irq.Handler = &ray_interrupt; /* General socket configuration */ link->conf.Attributes = CONF_ENABLE_IRQ; link->conf.Vcc = 50; link->conf.IntType = INT_MEMORY_AND_IO; link->conf.ConfigIndex = 1; link->conf.Present = PRESENT_OPTION; link->priv = dev; link->irq.Instance = dev; dev->priv = local; local->finder = link; local->card_status = CARD_INSERTED; local->authentication_state = UNAUTHENTICATED; local->num_multi = 0; DEBUG(2,"ray_attach link = %p, dev = %p, local = %p, intr = %p\n", link,dev,local,&ray_interrupt); /* Raylink entries in the device structure */ dev->hard_start_xmit = &ray_dev_start_xmit; dev->set_config = &ray_dev_config; dev->get_stats = &ray_get_stats; dev->do_ioctl = &ray_dev_ioctl; #if WIRELESS_EXT > 7 /* If wireless extension exist in the kernel */ dev->get_wireless_stats = ray_get_wireless_stats; #endif dev->set_multicast_list = &set_multicast_list; DEBUG(2,"ray_cs ray_attach calling ether_setup.)\n"); ether_setup(dev); dev->init = &ray_dev_init; dev->open = &ray_open; dev->stop = &ray_dev_close; netif_stop_queue(dev); /* Register with Card Services */ link->next = dev_list; dev_list = link; client_reg.dev_info = &dev_info; client_reg.Attributes = INFO_IO_CLIENT | INFO_CARD_SHARE; client_reg.EventMask = CS_EVENT_CARD_INSERTION | CS_EVENT_CARD_REMOVAL | CS_EVENT_RESET_PHYSICAL | CS_EVENT_CARD_RESET | CS_EVENT_PM_SUSPEND | CS_EVENT_PM_RESUME; client_reg.event_handler = &ray_event; client_reg.Version = 0x0210; client_reg.event_callback_args.client_data = link; DEBUG(2,"ray_cs ray_attach calling CardServices(RegisterClient...)\n"); init_timer(&local->timer); ret = pcmcia_register_client(&link->handle, &client_reg); if (ret != 0) { printk("ray_cs ray_attach RegisterClient unhappy - detaching\n"); cs_error(link->handle, RegisterClient, ret); ray_detach(link); return NULL; } DEBUG(2,"ray_cs ray_attach ending\n"); return link; fail_alloc_local: kfree(dev); fail_alloc_dev: kfree(link); return NULL; } /* ray_attach */ /*============================================================================= This deletes a driver "instance". The device is de-registered with Card Services. If it has been released, all local data structures are freed. Otherwise, the structures will be freed when the device is released. =============================================================================*/ static void ray_detach(dev_link_t *link) { dev_link_t **linkp; DEBUG(1, "ray_detach(0x%p)\n", link); /* Locate device structure */ for (linkp = &dev_list; *linkp; linkp = &(*linkp)->next) if (*linkp == link) break; if (*linkp == NULL) return; /* If the device is currently configured and active, we won't actually delete it yet. Instead, it is marked so that when the release() function is called, that will trigger a proper detach(). */ del_timer(&link->release); if (link->state & DEV_CONFIG) { ray_release((u_long)link); if(link->state & DEV_STALE_CONFIG) { link->state |= DEV_STALE_LINK; return; } } /* Break the link with Card Services */ if (link->handle) pcmcia_deregister_client(link->handle); /* Unlink device structure, free pieces */ *linkp = link->next; if (link->priv) { struct net_device *dev = link->priv; if (link->dev) unregister_netdev(dev); if (dev->priv) kfree(dev->priv); kfree(link->priv); } kfree(link); DEBUG(2,"ray_cs ray_detach ending\n"); } /* ray_detach */ /*============================================================================= ray_config() is run after a CARD_INSERTION event is received, to configure the PCMCIA socket, and to make the ethernet device available to the system. =============================================================================*/ #define CS_CHECK(fn, args...) \ while ((last_ret=fn(args))!=0) goto cs_failed #define MAX_TUPLE_SIZE 128 static void ray_config(dev_link_t *link) { client_handle_t handle = link->handle; tuple_t tuple; cisparse_t parse; int last_fn = 0, last_ret = 0; int i; u_char buf[MAX_TUPLE_SIZE]; win_req_t req; memreq_t mem; struct net_device *dev = (struct net_device *)link->priv; ray_dev_t *local = (ray_dev_t *)dev->priv; DEBUG(1, "ray_config(0x%p)\n", link); /* This reads the card's CONFIG tuple to find its configuration regs */ tuple.DesiredTuple = CISTPL_CONFIG; CS_CHECK(pcmcia_get_first_tuple, handle, &tuple); tuple.TupleData = buf; tuple.TupleDataMax = MAX_TUPLE_SIZE; tuple.TupleOffset = 0; CS_CHECK(pcmcia_get_tuple_data, handle, &tuple); CS_CHECK(pcmcia_parse_tuple, handle, &tuple, &parse); link->conf.ConfigBase = parse.config.base; link->conf.Present = parse.config.rmask[0]; /* Determine card type and firmware version */ buf[0] = buf[MAX_TUPLE_SIZE - 1] = 0; tuple.DesiredTuple = CISTPL_VERS_1; CS_CHECK(pcmcia_get_first_tuple, handle, &tuple); tuple.TupleData = buf; tuple.TupleDataMax = MAX_TUPLE_SIZE; tuple.TupleOffset = 2; CS_CHECK(pcmcia_get_tuple_data, handle, &tuple); for (i=0; i<tuple.TupleDataLen - 4; i++) if (buf[i] == 0) buf[i] = ' '; printk(KERN_INFO "ray_cs Detected: %s\n",buf); /* Configure card */ link->state |= DEV_CONFIG; /* Now allocate an interrupt line. Note that this does not actually assign a handler to the interrupt. */ CS_CHECK(pcmcia_request_irq, link->handle, &link->irq); dev->irq = link->irq.AssignedIRQ; /* This actually configures the PCMCIA socket -- setting up the I/O windows and the interrupt mapping. */ CS_CHECK(pcmcia_request_configuration, link->handle, &link->conf); /*** Set up 32k window for shared memory (transmit and control) ************/ req.Attributes = WIN_DATA_WIDTH_8 | WIN_MEMORY_TYPE_CM | WIN_ENABLE | WIN_USE_WAIT; req.Base = 0; req.Size = 0x8000; req.AccessSpeed = ray_mem_speed; CS_CHECK(pcmcia_request_window, &link->handle, &req, &link->win); mem.CardOffset = 0x0000; mem.Page = 0; CS_CHECK(pcmcia_map_mem_page, link->win, &mem); local->sram = (UCHAR *)(ioremap(req.Base,req.Size)); /*** Set up 16k window for shared memory (receive buffer) ***************/ req.Attributes = WIN_DATA_WIDTH_8 | WIN_MEMORY_TYPE_CM | WIN_ENABLE | WIN_USE_WAIT; req.Base = 0; req.Size = 0x4000; req.AccessSpeed = ray_mem_speed; CS_CHECK(pcmcia_request_window, &link->handle, &req, &local->rmem_handle); mem.CardOffset = 0x8000; mem.Page = 0; CS_CHECK(pcmcia_map_mem_page, local->rmem_handle, &mem); local->rmem = (UCHAR *)(ioremap(req.Base,req.Size)); /*** Set up window for attribute memory ***********************************/ req.Attributes = WIN_DATA_WIDTH_8 | WIN_MEMORY_TYPE_AM | WIN_ENABLE | WIN_USE_WAIT; req.Base = 0; req.Size = 0x1000; req.AccessSpeed = ray_mem_speed; CS_CHECK(pcmcia_request_window, &link->handle, &req, &local->amem_handle); mem.CardOffset = 0x0000; mem.Page = 0; CS_CHECK(pcmcia_map_mem_page, local->amem_handle, &mem); local->amem = (UCHAR *)(ioremap(req.Base,req.Size)); DEBUG(3,"ray_config sram=%p\n",local->sram); DEBUG(3,"ray_config rmem=%p\n",local->rmem); DEBUG(3,"ray_config amem=%p\n",local->amem); if (ray_init(dev) < 0) { ray_release((u_long)link); return; } i = register_netdev(dev); if (i != 0) { printk("ray_config register_netdev() failed\n"); ray_release((u_long)link); return; } strcpy(local->node.dev_name, dev->name); link->dev = &local->node; link->state &= ~DEV_CONFIG_PENDING; printk(KERN_INFO "%s: RayLink, irq %d, hw_addr ", dev->name, dev->irq); for (i = 0; i < 6; i++) printk("%02X%s", dev->dev_addr[i], ((i<5) ? ":" : "\n")); return; cs_failed: cs_error(link->handle, last_fn, last_ret); ray_release((u_long)link); } /* ray_config */ /*===========================================================================*/ static int ray_init(struct net_device *dev) { int i; UCHAR *p; struct ccs *pccs; ray_dev_t *local = (ray_dev_t *)dev->priv; dev_link_t *link = local->finder; DEBUG(1, "ray_init(0x%p)\n", dev); if (!(link->state & DEV_PRESENT)) { DEBUG(0,"ray_init - device not present\n"); return -1; } local->net_type = net_type; local->sta_type = TYPE_STA; /* Copy the startup results to local memory */ memcpy_fromio(&local->startup_res, local->sram + ECF_TO_HOST_BASE,\ sizeof(struct startup_res_6)); /* Check Power up test status and get mac address from card */ if (local->startup_res.startup_word != 0x80) { printk(KERN_INFO "ray_init ERROR card status = %2x\n", local->startup_res.startup_word); local->card_status = CARD_INIT_ERROR; return -1; } local->fw_ver = local->startup_res.firmware_version[0]; local->fw_bld = local->startup_res.firmware_version[1]; local->fw_var = local->startup_res.firmware_version[2]; DEBUG(1,"ray_init firmware version %d.%d \n",local->fw_ver, local->fw_bld); local->tib_length = 0x20; if ((local->fw_ver == 5) && (local->fw_bld >= 30)) local->tib_length = local->startup_res.tib_length; DEBUG(2,"ray_init tib_length = 0x%02x\n", local->tib_length); /* Initialize CCS's to buffer free state */ pccs = (struct ccs *)(local->sram + CCS_BASE); for (i=0; i<NUMBER_OF_CCS; i++) { writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); } init_startup_params(local); /* copy mac address to startup parameters */ if (parse_addr(phy_addr, local->sparm.b4.a_mac_addr)) { p = local->sparm.b4.a_mac_addr; } else { memcpy(&local->sparm.b4.a_mac_addr, &local->startup_res.station_addr, ADDRLEN); p = local->sparm.b4.a_mac_addr; } clear_interrupt(local); /* Clear any interrupt from the card */ local->card_status = CARD_AWAITING_PARAM; DEBUG(2,"ray_init ending\n"); return 0; } /* ray_init */ /*===========================================================================*/ /* Download startup parameters to the card and command it to read them */ static int dl_startup_params(struct net_device *dev) { int ccsindex; ray_dev_t *local = (ray_dev_t *)dev->priv; struct ccs *pccs; dev_link_t *link = local->finder; DEBUG(1,"dl_startup_params entered\n"); if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs dl_startup_params - device not present\n"); return -1; } /* Copy parameters to host to ECF area */ if (local->fw_ver == 0x55) memcpy_toio(local->sram + HOST_TO_ECF_BASE, &local->sparm.b4, sizeof(struct b4_startup_params)); else memcpy_toio(local->sram + HOST_TO_ECF_BASE, &local->sparm.b5, sizeof(struct b5_startup_params)); /* Fill in the CCS fields for the ECF */ if ((ccsindex = get_free_ccs(local)) < 0) return -1; local->dl_param_ccs = ccsindex; pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; writeb(CCS_DOWNLOAD_STARTUP_PARAMS, &pccs->cmd); DEBUG(2,"dl_startup_params start ccsindex = %d\n", local->dl_param_ccs); /* Interrupt the firmware to process the command */ if (interrupt_ecf(local, ccsindex)) { printk(KERN_INFO "ray dl_startup_params failed - " "ECF not ready for intr\n"); local->card_status = CARD_DL_PARAM_ERROR; writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); return -2; } local->card_status = CARD_DL_PARAM; /* Start kernel timer to wait for dl startup to complete. */ local->timer.expires = jiffies + HZ/2; local->timer.data = (long)local; local->timer.function = &verify_dl_startup; add_timer(&local->timer); DEBUG(2,"ray_cs dl_startup_params started timer for verify_dl_startup\n"); return 0; } /* dl_startup_params */ /*===========================================================================*/ static void init_startup_params(ray_dev_t *local) { int i; if (country > JAPAN_TEST) country = USA; else if (country < USA) country = USA; /* structure for hop time and beacon period is defined here using * New 802.11D6.1 format. Card firmware is still using old format * until version 6. * Before After * a_hop_time ms byte a_hop_time ms byte * a_hop_time 2s byte a_hop_time ls byte * a_hop_time ls byte a_beacon_period ms byte * a_beacon_period a_beacon_period ls byte * * a_hop_time = uS a_hop_time = KuS * a_beacon_period = hops a_beacon_period = KuS */ /* 64ms = 010000 */ if (local->fw_ver == 0x55) { memcpy((UCHAR *)&local->sparm.b4, b4_default_startup_parms, sizeof(struct b4_startup_params)); /* Translate sane kus input values to old build 4/5 format */ /* i = hop time in uS truncated to 3 bytes */ i = (hop_dwell * 1024) & 0xffffff; local->sparm.b4.a_hop_time[0] = (i >> 16) & 0xff; local->sparm.b4.a_hop_time[1] = (i >> 8) & 0xff; local->sparm.b4.a_beacon_period[0] = 0; local->sparm.b4.a_beacon_period[1] = ((beacon_period/hop_dwell) - 1) & 0xff; local->sparm.b4.a_curr_country_code = country; local->sparm.b4.a_hop_pattern_length = hop_pattern_length[(int)country] - 1; if (bc) { local->sparm.b4.a_ack_timeout = 0x50; local->sparm.b4.a_sifs = 0x3f; } } else { /* Version 5 uses real kus values */ memcpy((UCHAR *)&local->sparm.b5, b5_default_startup_parms, sizeof(struct b5_startup_params)); local->sparm.b5.a_hop_time[0] = (hop_dwell >> 8) & 0xff; local->sparm.b5.a_hop_time[1] = hop_dwell & 0xff; local->sparm.b5.a_beacon_period[0] = (beacon_period >> 8) & 0xff; local->sparm.b5.a_beacon_period[1] = beacon_period & 0xff; if (psm) local->sparm.b5.a_power_mgt_state = 1; local->sparm.b5.a_curr_country_code = country; local->sparm.b5.a_hop_pattern_length = hop_pattern_length[(int)country]; } local->sparm.b4.a_network_type = net_type & 0x01; local->sparm.b4.a_acting_as_ap_status = TYPE_STA; if (essid != NULL) strncpy(local->sparm.b4.a_current_ess_id, essid, ESSID_SIZE); } /* init_startup_params */ /*===========================================================================*/ static void verify_dl_startup(u_long data) { ray_dev_t *local = (ray_dev_t *)data; struct ccs *pccs = ((struct ccs *)(local->sram + CCS_BASE)) + local->dl_param_ccs; UCHAR status; dev_link_t *link = local->finder; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs verify_dl_startup - device not present\n"); return; } #ifdef PCMCIA_DEBUG if (pc_debug > 2) { int i; printk(KERN_DEBUG "verify_dl_startup parameters sent via ccs %d:\n", local->dl_param_ccs); for (i=0; i<sizeof(struct b5_startup_params); i++) { printk(" %2x", (unsigned int) readb(local->sram + HOST_TO_ECF_BASE + i)); } printk("\n"); } #endif status = readb(&pccs->buffer_status); if (status!= CCS_BUFFER_FREE) { printk(KERN_INFO "Download startup params failed. Status = %d\n", status); local->card_status = CARD_DL_PARAM_ERROR; return; } if (local->sparm.b4.a_network_type == ADHOC) start_net((u_long)local); else join_net((u_long)local); return; } /* end verify_dl_startup */ /*===========================================================================*/ /* Command card to start a network */ static void start_net(u_long data) { ray_dev_t *local = (ray_dev_t *)data; struct ccs *pccs; int ccsindex; dev_link_t *link = local->finder; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs start_net - device not present\n"); return; } /* Fill in the CCS fields for the ECF */ if ((ccsindex = get_free_ccs(local)) < 0) return; pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; writeb(CCS_START_NETWORK, &pccs->cmd); writeb(0, &pccs->var.start_network.update_param); /* Interrupt the firmware to process the command */ if (interrupt_ecf(local, ccsindex)) { DEBUG(1,"ray start net failed - card not ready for intr\n"); writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); return; } local->card_status = CARD_DOING_ACQ; return; } /* end start_net */ /*===========================================================================*/ /* Command card to join a network */ static void join_net(u_long data) { ray_dev_t *local = (ray_dev_t *)data; struct ccs *pccs; int ccsindex; dev_link_t *link = local->finder; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs join_net - device not present\n"); return; } /* Fill in the CCS fields for the ECF */ if ((ccsindex = get_free_ccs(local)) < 0) return; pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; writeb(CCS_JOIN_NETWORK, &pccs->cmd); writeb(0, &pccs->var.join_network.update_param); writeb(0, &pccs->var.join_network.net_initiated); /* Interrupt the firmware to process the command */ if (interrupt_ecf(local, ccsindex)) { DEBUG(1,"ray join net failed - card not ready for intr\n"); writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); return; } local->card_status = CARD_DOING_ACQ; return; } /*============================================================================ After a card is removed, ray_release() will unregister the net device, and release the PCMCIA configuration. If the device is still open, this will be postponed until it is closed. =============================================================================*/ static void ray_release(u_long arg) { dev_link_t *link = (dev_link_t *)arg; struct net_device *dev = link->priv; ray_dev_t *local = dev->priv; int i; DEBUG(1, "ray_release(0x%p)\n", link); /* If the device is currently in use, we won't release until it is actually closed. */ if (link->open) { DEBUG(1, "ray_cs: release postponed, '%s' still open\n", link->dev->dev_name); link->state |= DEV_STALE_CONFIG; return; } del_timer(&local->timer); link->state &= ~DEV_CONFIG; iounmap(local->sram); iounmap(local->rmem); iounmap(local->amem); /* Do bother checking to see if these succeed or not */ i = pcmcia_release_window(link->win); if ( i != CS_SUCCESS ) DEBUG(0,"ReleaseWindow(link->win) ret = %x\n",i); i = pcmcia_release_window(local->amem_handle); if ( i != CS_SUCCESS ) DEBUG(0,"ReleaseWindow(local->amem) ret = %x\n",i); i = pcmcia_release_window(local->rmem_handle); if ( i != CS_SUCCESS ) DEBUG(0,"ReleaseWindow(local->rmem) ret = %x\n",i); i = pcmcia_release_configuration(link->handle); if ( i != CS_SUCCESS ) DEBUG(0,"ReleaseConfiguration ret = %x\n",i); i = pcmcia_release_irq(link->handle, &link->irq); if ( i != CS_SUCCESS ) DEBUG(0,"ReleaseIRQ ret = %x\n",i); DEBUG(2,"ray_release ending\n"); } /* ray_release */ /*============================================================================= The card status event handler. Mostly, this schedules other stuff to run after an event is received. A CARD_REMOVAL event also sets some flags to discourage the net drivers from trying to talk to the card any more. When a CARD_REMOVAL event is received, we immediately set a flag to block future accesses to this device. All the functions that actually access the device should check this flag to make sure the card is still present. =============================================================================*/ static int ray_event(event_t event, int priority, event_callback_args_t *args) { dev_link_t *link = args->client_data; struct net_device *dev = link->priv; ray_dev_t *local = (ray_dev_t *)dev->priv; DEBUG(1, "ray_event(0x%06x)\n", event); switch (event) { case CS_EVENT_CARD_REMOVAL: link->state &= ~DEV_PRESENT; netif_device_detach(dev); if (link->state & DEV_CONFIG) { mod_timer(&link->release, jiffies + HZ/20); del_timer(&local->timer); } break; case CS_EVENT_CARD_INSERTION: link->state |= DEV_PRESENT | DEV_CONFIG_PENDING; ray_config(link); break; case CS_EVENT_PM_SUSPEND: link->state |= DEV_SUSPEND; /* Fall through... */ case CS_EVENT_RESET_PHYSICAL: if (link->state & DEV_CONFIG) { if (link->open) netif_device_detach(dev); pcmcia_release_configuration(link->handle); } break; case CS_EVENT_PM_RESUME: link->state &= ~DEV_SUSPEND; /* Fall through... */ case CS_EVENT_CARD_RESET: if (link->state & DEV_CONFIG) { pcmcia_request_configuration(link->handle, &link->conf); if (link->open) { ray_reset(dev); netif_device_attach(dev); } } break; } return 0; DEBUG(2,"ray_event ending\n"); } /* ray_event */ /*===========================================================================*/ int ray_dev_init(struct net_device *dev) { #ifdef RAY_IMMEDIATE_INIT int i; #endif /* RAY_IMMEDIATE_INIT */ ray_dev_t *local = dev->priv; dev_link_t *link = local->finder; DEBUG(1,"ray_dev_init(dev=%p)\n",dev); if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_dev_init - device not present\n"); return -1; } #ifdef RAY_IMMEDIATE_INIT /* Download startup parameters */ if ( (i = dl_startup_params(dev)) < 0) { printk(KERN_INFO "ray_dev_init dl_startup_params failed - " "returns 0x%x\n",i); return -1; } #else /* RAY_IMMEDIATE_INIT */ /* Postpone the card init so that we can still configure the card, * for example using the Wireless Extensions. The init will happen * in ray_open() - Jean II */ DEBUG(1,"ray_dev_init: postponing card init to ray_open() ; Status = %d\n", local->card_status); #endif /* RAY_IMMEDIATE_INIT */ /* copy mac and broadcast addresses to linux device */ memcpy(&dev->dev_addr, &local->sparm.b4.a_mac_addr, ADDRLEN); memset(dev->broadcast, 0xff, ETH_ALEN); DEBUG(2,"ray_dev_init ending\n"); return 0; } /*===========================================================================*/ static int ray_dev_config(struct net_device *dev, struct ifmap *map) { ray_dev_t *local = dev->priv; dev_link_t *link = local->finder; /* Dummy routine to satisfy device structure */ DEBUG(1,"ray_dev_config(dev=%p,ifmap=%p)\n",dev,map); if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_dev_config - device not present\n"); return -1; } return 0; } /*===========================================================================*/ static int ray_dev_start_xmit(struct sk_buff *skb, struct net_device *dev) { ray_dev_t *local = dev->priv; dev_link_t *link = local->finder; short length; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_dev_start_xmit - device not present\n"); return -1; } DEBUG(3,"ray_dev_start_xmit(skb=%p, dev=%p)\n",skb,dev); if (local->authentication_state == NEED_TO_AUTH) { DEBUG(0,"ray_cs Sending authentication request.\n"); if (!build_auth_frame (local, local->auth_id, OPEN_AUTH_REQUEST)) { local->authentication_state = AUTHENTICATED; netif_stop_queue(dev); return 1; } } length = ETH_ZLEN < skb->len ? skb->len : ETH_ZLEN; switch (ray_hw_xmit( skb->data, length, dev, DATA_TYPE)) { case XMIT_NO_CCS: case XMIT_NEED_AUTH: netif_stop_queue(dev); return 1; case XMIT_NO_INTR: case XMIT_MSG_BAD: case XMIT_OK: default: dev->trans_start = jiffies; dev_kfree_skb(skb); return 0; } return 0; } /* ray_dev_start_xmit */ /*===========================================================================*/ static int ray_hw_xmit(unsigned char* data, int len, struct net_device* dev, UCHAR msg_type) { ray_dev_t *local = (ray_dev_t *)dev->priv; struct ccs *pccs; int ccsindex; int offset; struct tx_msg *ptx; /* Address of xmit buffer in PC space */ short int addr; /* Address of xmit buffer in card space */ DEBUG(3,"ray_hw_xmit(data=%p, len=%d, dev=%p)\n",data,len,dev); if (len + TX_HEADER_LENGTH > TX_BUF_SIZE) { printk(KERN_INFO "ray_hw_xmit packet too large: %d bytes\n",len); return XMIT_MSG_BAD; } switch (ccsindex = get_free_tx_ccs(local)) { case ECCSBUSY: DEBUG(2,"ray_hw_xmit tx_ccs table busy\n"); case ECCSFULL: DEBUG(2,"ray_hw_xmit No free tx ccs\n"); case ECARDGONE: netif_stop_queue(dev); return XMIT_NO_CCS; default: break; } addr = TX_BUF_BASE + (ccsindex << 11); if (msg_type == DATA_TYPE) { local->stats.tx_bytes += len; local->stats.tx_packets++; } ptx = (struct tx_msg *)(local->sram + addr); ray_build_header(local, ptx, msg_type, data); if (translate) { offset = translate_frame(local, ptx, data, len); } else { /* Encapsulate frame */ /* TBD TIB length will move address of ptx->var */ memcpy_toio(&ptx->var, data, len); offset = 0; } /* fill in the CCS */ pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; len += TX_HEADER_LENGTH + offset; writeb(CCS_TX_REQUEST, &pccs->cmd); writeb(addr >> 8, &pccs->var.tx_request.tx_data_ptr[0]); writeb(local->tib_length, &pccs->var.tx_request.tx_data_ptr[1]); writeb(len >> 8, &pccs->var.tx_request.tx_data_length[0]); writeb(len & 0xff, &pccs->var.tx_request.tx_data_length[1]); /* TBD still need psm_cam? */ writeb(PSM_CAM, &pccs->var.tx_request.pow_sav_mode); writeb(local->net_default_tx_rate, &pccs->var.tx_request.tx_rate); writeb(0, &pccs->var.tx_request.antenna); DEBUG(3,"ray_hw_xmit default_tx_rate = 0x%x\n",\ local->net_default_tx_rate); /* Interrupt the firmware to process the command */ if (interrupt_ecf(local, ccsindex)) { DEBUG(2,"ray_hw_xmit failed - ECF not ready for intr\n"); /* TBD very inefficient to copy packet to buffer, and then not send it, but the alternative is to queue the messages and that won't be done for a while. Maybe set tbusy until a CCS is free? */ writeb(CCS_BUFFER_FREE, &pccs->buffer_status); return XMIT_NO_INTR; } return XMIT_OK; } /* end ray_hw_xmit */ /*===========================================================================*/ static int translate_frame(ray_dev_t *local, struct tx_msg *ptx, unsigned char *data, int len) { unsigned short int proto = ((struct ethhdr *)data)->h_proto; if (ntohs(proto) >= 1536) { /* DIX II ethernet frame */ DEBUG(3,"ray_cs translate_frame DIX II\n"); /* Copy LLC header to card buffer */ memcpy_toio((UCHAR *)&ptx->var, eth2_llc, sizeof(eth2_llc)); memcpy_toio( ((UCHAR *)&ptx->var) + sizeof(eth2_llc), (UCHAR *)&proto, 2); if ((proto == 0xf380) || (proto == 0x3781)) { /* This is the selective translation table, only 2 entries */ writeb(0xf8, (UCHAR *) &((struct snaphdr_t *)ptx->var)->org[3]); } /* Copy body of ethernet packet without ethernet header */ memcpy_toio((UCHAR *)&ptx->var + sizeof(struct snaphdr_t), \ data + ETH_HLEN, len - ETH_HLEN); return (int) sizeof(struct snaphdr_t) - ETH_HLEN; } else { /* already 802 type, and proto is length */ DEBUG(3,"ray_cs translate_frame 802\n"); if (proto == 0xffff) { /* evil netware IPX 802.3 without LLC */ DEBUG(3,"ray_cs translate_frame evil IPX\n"); memcpy_toio((UCHAR *)&ptx->var, data + ETH_HLEN, len - ETH_HLEN); return 0 - ETH_HLEN; } memcpy_toio((UCHAR *)&ptx->var, data + ETH_HLEN, len - ETH_HLEN); return 0 - ETH_HLEN; } /* TBD do other frame types */ } /* end translate_frame */ /*===========================================================================*/ static void ray_build_header(ray_dev_t *local, struct tx_msg *ptx, UCHAR msg_type, unsigned char *data) { writeb(PROTOCOL_VER | msg_type, &ptx->mac.frame_ctl_1); /*** IEEE 802.11 Address field assignments ************* TODS FROMDS addr_1 addr_2 addr_3 addr_4 Adhoc 0 0 dest src (terminal) BSSID N/A AP to Terminal 0 1 dest AP(BSSID) source N/A Terminal to AP 1 0 AP(BSSID) src (terminal) dest N/A AP to AP 1 1 dest AP src AP dest source *******************************************************/ if (local->net_type == ADHOC) { writeb(0, &ptx->mac.frame_ctl_2); memcpy_toio(ptx->mac.addr_1, ((struct ethhdr *)data)->h_dest, 2 * ADDRLEN); memcpy_toio(ptx->mac.addr_3, local->bss_id, ADDRLEN); } else /* infrastructure */ { if (local->sparm.b4.a_acting_as_ap_status) { writeb(FC2_FROM_DS, &ptx->mac.frame_ctl_2); memcpy_toio(ptx->mac.addr_1, ((struct ethhdr *)data)->h_dest, ADDRLEN); memcpy_toio(ptx->mac.addr_2, local->bss_id, 6); memcpy_toio(ptx->mac.addr_3, ((struct ethhdr *)data)->h_source, ADDRLEN); } else /* Terminal */ { writeb(FC2_TO_DS, &ptx->mac.frame_ctl_2); memcpy_toio(ptx->mac.addr_1, local->bss_id, ADDRLEN); memcpy_toio(ptx->mac.addr_2, ((struct ethhdr *)data)->h_source, ADDRLEN); memcpy_toio(ptx->mac.addr_3, ((struct ethhdr *)data)->h_dest, ADDRLEN); } } } /* end encapsulate_frame */ /*===========================================================================*/ static int ray_dev_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd) { ray_dev_t *local = (ray_dev_t *)dev->priv; dev_link_t *link = local->finder; int err = 0; #if WIRELESS_EXT > 7 struct iwreq *wrq = (struct iwreq *) ifr; #endif /* WIRELESS_EXT > 7 */ if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_dev_ioctl - device not present\n"); return -1; } DEBUG(2,"ray_cs IOCTL dev=%p, ifr=%p, cmd = 0x%x\n",dev,ifr,cmd); /* Validate the command */ switch (cmd) { #if WIRELESS_EXT > 7 /* --------------- WIRELESS EXTENSIONS --------------- */ /* Get name */ case SIOCGIWNAME: strcpy(wrq->u.name, "IEEE 802.11-FH"); break; /* Get frequency/channel */ case SIOCGIWFREQ: wrq->u.freq.m = local->sparm.b5.a_hop_pattern; wrq->u.freq.e = 0; break; /* Set frequency/channel */ case SIOCSIWFREQ: /* Reject if card is already initialised */ if(local->card_status != CARD_AWAITING_PARAM) { err = -EBUSY; break; } /* Setting by channel number */ if ((wrq->u.freq.m > USA_HOP_MOD) || (wrq->u.freq.e > 0)) err = -EOPNOTSUPP; else local->sparm.b5.a_hop_pattern = wrq->u.freq.m; break; /* Get current network name (ESSID) */ case SIOCGIWESSID: if (wrq->u.data.pointer) { char essid[IW_ESSID_MAX_SIZE + 1]; /* Get the essid that was set */ memcpy(essid, local->sparm.b5.a_current_ess_id, IW_ESSID_MAX_SIZE); essid[IW_ESSID_MAX_SIZE] = '\0'; /* Push it out ! */ wrq->u.data.length = strlen(essid) + 1; wrq->u.data.flags = 1; /* active */ copy_to_user(wrq->u.data.pointer, essid, sizeof(essid)); } break; /* Set desired network name (ESSID) */ case SIOCSIWESSID: /* Reject if card is already initialised */ if(local->card_status != CARD_AWAITING_PARAM) { err = -EBUSY; break; } if (wrq->u.data.pointer) { char card_essid[IW_ESSID_MAX_SIZE + 1]; /* Check if we asked for `any' */ if(wrq->u.data.flags == 0) { /* Corey : can you do that ? */ err = -EOPNOTSUPP; } else { /* Check the size of the string */ if(wrq->u.data.length > IW_ESSID_MAX_SIZE + 1) { err = -E2BIG; break; } if (copy_from_user(card_essid, wrq->u.data.pointer, wrq->u.data.length)) { err = -EFAULT; break; } card_essid[IW_ESSID_MAX_SIZE] = '\0'; /* Set the ESSID in the card */ memcpy(local->sparm.b5.a_current_ess_id, card_essid, IW_ESSID_MAX_SIZE); } } break; /* Get current Access Point (BSSID in our case) */ case SIOCGIWAP: memcpy(wrq->u.ap_addr.sa_data, local->bss_id, ETH_ALEN); wrq->u.ap_addr.sa_family = ARPHRD_ETHER; break; /* Get the current bit-rate */ case SIOCGIWRATE: if(local->net_default_tx_rate == 3) wrq->u.bitrate.value = 2000000; /* Hum... */ else wrq->u.bitrate.value = local->net_default_tx_rate * 500000; wrq->u.bitrate.fixed = 0; /* We are in auto mode */ break; /* Set the desired bit-rate */ case SIOCSIWRATE: /* Check if rate is in range */ if((wrq->u.bitrate.value != 1000000) && (wrq->u.bitrate.value != 2000000)) { err = -EINVAL; break; } /* Hack for 1.5 Mb/s instead of 2 Mb/s */ if((local->fw_ver == 0x55) && /* Please check */ (wrq->u.bitrate.value == 2000000)) local->net_default_tx_rate = 3; else local->net_default_tx_rate = wrq->u.bitrate.value/500000; break; /* Get the current RTS threshold */ case SIOCGIWRTS: wrq->u.rts.value = (local->sparm.b5.a_rts_threshold[0] << 8) + local->sparm.b5.a_rts_threshold[1]; #if WIRELESS_EXT > 8 wrq->u.rts.disabled = (wrq->u.rts.value == 32767); #endif /* WIRELESS_EXT > 8 */ wrq->u.rts.fixed = 1; break; /* Set the desired RTS threshold */ case SIOCSIWRTS: { int rthr = wrq->u.rts.value; /* Reject if card is already initialised */ if(local->card_status != CARD_AWAITING_PARAM) { err = -EBUSY; break; } /* if(wrq->u.rts.fixed == 0) we should complain */ #if WIRELESS_EXT > 8 if(wrq->u.rts.disabled) rthr = 32767; else #endif /* WIRELESS_EXT > 8 */ if((rthr < 0) || (rthr > 2347)) /* What's the max packet size ??? */ { err = -EINVAL; break; } local->sparm.b5.a_rts_threshold[0] = (rthr >> 8) & 0xFF; local->sparm.b5.a_rts_threshold[1] = rthr & 0xFF; } break; /* Get the current fragmentation threshold */ case SIOCGIWFRAG: wrq->u.frag.value = (local->sparm.b5.a_frag_threshold[0] << 8) + local->sparm.b5.a_frag_threshold[1]; #if WIRELESS_EXT > 8 wrq->u.frag.disabled = (wrq->u.frag.value == 32767); #endif /* WIRELESS_EXT > 8 */ wrq->u.frag.fixed = 1; break; /* Set the desired fragmentation threshold */ case SIOCSIWFRAG: { int fthr = wrq->u.frag.value; /* Reject if card is already initialised */ if(local->card_status != CARD_AWAITING_PARAM) { err = -EBUSY; break; } /* if(wrq->u.frag.fixed == 0) should complain */ #if WIRELESS_EXT > 8 if(wrq->u.frag.disabled) fthr = 32767; else #endif /* WIRELESS_EXT > 8 */ if((fthr < 256) || (fthr > 2347)) /* To check out ! */ { err = -EINVAL; break; } local->sparm.b5.a_frag_threshold[0] = (fthr >> 8) & 0xFF; local->sparm.b5.a_frag_threshold[1] = fthr & 0xFF; } break; #endif /* WIRELESS_EXT > 7 */ #if WIRELESS_EXT > 8 /* Get the current mode of operation */ case SIOCGIWMODE: if(local->sparm.b5.a_network_type) wrq->u.mode = IW_MODE_INFRA; else wrq->u.mode = IW_MODE_ADHOC; break; /* Set the current mode of operation */ case SIOCSIWMODE: { char card_mode = 1; /* Reject if card is already initialised */ if(local->card_status != CARD_AWAITING_PARAM) { err = -EBUSY; break; } switch (wrq->u.mode) { case IW_MODE_ADHOC: card_mode = 0; // Fall through case IW_MODE_INFRA: local->sparm.b5.a_network_type = card_mode; break; default: err = -EINVAL; } } break; #endif /* WIRELESS_EXT > 8 */ #if WIRELESS_EXT > 7 /* ------------------ IWSPY SUPPORT ------------------ */ /* Define the range (variations) of above parameters */ case SIOCGIWRANGE: /* Basic checking... */ if(wrq->u.data.pointer != (caddr_t) 0) { struct iw_range range; memset((char *) &range, 0, sizeof(struct iw_range)); /* Set the length (very important for backward compatibility) */ wrq->u.data.length = sizeof(struct iw_range); #if WIRELESS_EXT > 10 /* Set the Wireless Extension versions */ range.we_version_compiled = WIRELESS_EXT; range.we_version_source = 9; #endif /* WIRELESS_EXT > 10 */ /* Set information in the range struct */ range.throughput = 1.1 * 1000 * 1000; /* Put the right number here */ range.num_channels = hop_pattern_length[(int)country]; range.num_frequency = 0; range.max_qual.qual = 0; range.max_qual.level = 255; /* What's the correct value ? */ range.max_qual.noise = 255; /* Idem */ range.num_bitrates = 2; range.bitrate[0] = 1000000; /* 1 Mb/s */ range.bitrate[1] = 2000000; /* 2 Mb/s */ /* Copy structure to the user buffer */ if(copy_to_user(wrq->u.data.pointer, &range, sizeof(struct iw_range))) err = -EFAULT; } break; #ifdef WIRELESS_SPY /* Set addresses to spy */ case SIOCSIWSPY: /* Check the number of addresses */ if(wrq->u.data.length > IW_MAX_SPY) { err = -E2BIG; break; } local->spy_number = wrq->u.data.length; /* If there is some addresses to copy */ if(local->spy_number > 0) { struct sockaddr address[IW_MAX_SPY]; int i; /* Copy addresses to the driver */ if(copy_from_user(address, wrq->u.data.pointer, sizeof(struct sockaddr) * local->spy_number)) { err = -EFAULT; break; } /* Copy addresses to the lp structure */ for(i = 0; i < local->spy_number; i++) memcpy(local->spy_address[i], address[i].sa_data, ETH_ALEN); /* Reset structure... */ memset(local->spy_stat, 0x00, sizeof(iw_qual) * IW_MAX_SPY); #ifdef DEBUG_IOCTL_INFO printk(KERN_DEBUG "SetSpy - Set of new addresses is :\n"); for(i = 0; i < local->spy_number; i++) printk(KERN_DEBUG "%02X:%02X:%02X:%02X:%02X:%02X\n", local->spy_address[i][0], local->spy_address[i][1], local->spy_address[i][2], local->spy_address[i][3], local->spy_address[i][4], local->spy_address[i][5]); #endif /* DEBUG_IOCTL_INFO */ } break; /* Get the spy list and spy stats */ case SIOCGIWSPY: /* Set the number of addresses */ wrq->u.data.length = local->spy_number; /* If the user want to have the addresses back... */ if((local->spy_number > 0) && (wrq->u.data.pointer != (caddr_t) 0)) { struct sockaddr address[IW_MAX_SPY]; int i; /* Copy addresses from the lp structure */ for(i = 0; i < local->spy_number; i++) { memcpy(address[i].sa_data, local->spy_address[i], ETH_ALEN); address[i].sa_family = ARPHRD_ETHER; } /* Copy addresses to the user buffer */ if(copy_to_user(wrq->u.data.pointer, address, sizeof(struct sockaddr) * local->spy_number)) { err = -EFAULT; break; } /* Copy stats to the user buffer (just after) */ if(copy_to_user(wrq->u.data.pointer + (sizeof(struct sockaddr) * local->spy_number), local->spy_stat, sizeof(iw_qual) * local->spy_number)) { err = -EFAULT; break; } /* Reset updated flags */ for(i = 0; i < local->spy_number; i++) local->spy_stat[i].updated = 0x0; } /* if(pointer != NULL) */ break; #endif /* WIRELESS_SPY */ /* ------------------ PRIVATE IOCTL ------------------ */ #ifndef SIOCIWFIRSTPRIV #define SIOCIWFIRSTPRIV SIOCDEVPRIVATE #endif /* SIOCIWFIRSTPRIV */ #define SIOCSIPFRAMING SIOCIWFIRSTPRIV /* Set framing mode */ #define SIOCGIPFRAMING SIOCIWFIRSTPRIV + 1 /* Get framing mode */ #define SIOCGIPCOUNTRY SIOCIWFIRSTPRIV + 3 /* Get country code */ case SIOCSIPFRAMING: if(!capable(CAP_NET_ADMIN)) /* For private IOCTLs, we need to check permissions */ { err = -EPERM; break; } translate = *(wrq->u.name); /* Set framing mode */ break; case SIOCGIPFRAMING: *(wrq->u.name) = translate; break; case SIOCGIPCOUNTRY: *(wrq->u.name) = country; break; case SIOCGIWPRIV: /* Export our "private" intercace */ if(wrq->u.data.pointer != (caddr_t) 0) { struct iw_priv_args priv[] = { /* cmd, set_args, get_args, name */ { SIOCSIPFRAMING, IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, 0, "set_framing" }, { SIOCGIPFRAMING, 0, IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, "get_framing" }, { SIOCGIPCOUNTRY, 0, IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, "get_country" }, }; /* Set the number of ioctl available */ wrq->u.data.length = 3; /* Copy structure to the user buffer */ if(copy_to_user(wrq->u.data.pointer, (u_char *) priv, sizeof(priv))) err = -EFAULT; } break; #endif /* WIRELESS_EXT > 7 */ default: DEBUG(0,"ray_dev_ioctl cmd = 0x%x\n", cmd); err = -EOPNOTSUPP; } return err; } /* end ray_dev_ioctl */ /*===========================================================================*/ #if WIRELESS_EXT > 7 /* If wireless extension exist in the kernel */ static iw_stats * ray_get_wireless_stats(struct net_device * dev) { ray_dev_t * local = (ray_dev_t *) dev->priv; dev_link_t *link = local->finder; struct status *p = (struct status *)(local->sram + STATUS_BASE); if(local == (ray_dev_t *) NULL) return (iw_stats *) NULL; local->wstats.status = local->card_status; #ifdef WIRELESS_SPY if((local->spy_number > 0) && (local->sparm.b5.a_network_type == 0)) { /* Get it from the first node in spy list */ local->wstats.qual.qual = local->spy_stat[0].qual; local->wstats.qual.level = local->spy_stat[0].level; local->wstats.qual.noise = local->spy_stat[0].noise; local->wstats.qual.updated = local->spy_stat[0].updated; } #endif /* WIRELESS_SPY */ if((link->state & DEV_PRESENT)) { local->wstats.qual.noise = readb(&p->rxnoise); local->wstats.qual.updated |= 4; } return &local->wstats; } /* end ray_get_wireless_stats */ #endif /* WIRELESS_EXT > 7 */ /*===========================================================================*/ static int ray_open(struct net_device *dev) { dev_link_t *link; ray_dev_t *local = (ray_dev_t *)dev->priv; MOD_INC_USE_COUNT; DEBUG(1, "ray_open('%s')\n", dev->name); for (link = dev_list; link; link = link->next) if (link->priv == dev) break; if (!DEV_OK(link)) { MOD_DEC_USE_COUNT; return -ENODEV; } if (link->open == 0) local->num_multi = 0; link->open++; /* If the card is not started, time to start it ! - Jean II */ if(local->card_status == CARD_AWAITING_PARAM) { int i; DEBUG(1,"ray_open: doing init now !\n"); /* Download startup parameters */ if ( (i = dl_startup_params(dev)) < 0) { printk(KERN_INFO "ray_dev_init dl_startup_params failed - " "returns 0x%x\n",i); return -1; } } if (sniffer) netif_stop_queue(dev); else netif_start_queue(dev); DEBUG(2,"ray_open ending\n"); return 0; } /* end ray_open */ /*===========================================================================*/ static int ray_dev_close(struct net_device *dev) { dev_link_t *link; DEBUG(1, "ray_dev_close('%s')\n", dev->name); for (link = dev_list; link; link = link->next) if (link->priv == dev) break; if (link == NULL) return -ENODEV; link->open--; netif_stop_queue(dev); if (link->state & DEV_STALE_CONFIG) mod_timer(&link->release, jiffies + HZ/20); /* In here, we should stop the hardware (stop card from beeing active) * and set local->card_status to CARD_AWAITING_PARAM, so that while the * card is closed we can chage its configuration. * Probably also need a COR reset to get sane state - Jean II */ MOD_DEC_USE_COUNT; return 0; } /* end ray_dev_close */ /*===========================================================================*/ static void ray_reset(struct net_device *dev) { DEBUG(1,"ray_reset entered\n"); return; } /*===========================================================================*/ /* Cause a firmware interrupt if it is ready for one */ /* Return nonzero if not ready */ static int interrupt_ecf(ray_dev_t *local, int ccs) { int i = 50; dev_link_t *link = local->finder; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs interrupt_ecf - device not present\n"); return -1; } DEBUG(2,"interrupt_ecf(local=%p, ccs = 0x%x\n",local,ccs); while ( i && (readb(local->amem + CIS_OFFSET + ECF_INTR_OFFSET) & ECF_INTR_SET)) i--; if (i == 0) { DEBUG(2,"ray_cs interrupt_ecf card not ready for interrupt\n"); return -1; } /* Fill the mailbox, then kick the card */ writeb(ccs, local->sram + SCB_BASE); writeb(ECF_INTR_SET, local->amem + CIS_OFFSET + ECF_INTR_OFFSET); return 0; } /* interrupt_ecf */ /*===========================================================================*/ /* Get next free transmit CCS */ /* Return - index of current tx ccs */ static int get_free_tx_ccs(ray_dev_t *local) { int i; struct ccs *pccs = (struct ccs *)(local->sram + CCS_BASE); dev_link_t *link = local->finder; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs get_free_tx_ccs - device not present\n"); return ECARDGONE; } if (test_and_set_bit(0,&local->tx_ccs_lock)) { DEBUG(1,"ray_cs tx_ccs_lock busy\n"); return ECCSBUSY; } for (i=0; i < NUMBER_OF_TX_CCS; i++) { if (readb(&(pccs+i)->buffer_status) == CCS_BUFFER_FREE) { writeb(CCS_BUFFER_BUSY, &(pccs+i)->buffer_status); writeb(CCS_END_LIST, &(pccs+i)->link); local->tx_ccs_lock = 0; return i; } } local->tx_ccs_lock = 0; DEBUG(2,"ray_cs ERROR no free tx CCS for raylink card\n"); return ECCSFULL; } /* get_free_tx_ccs */ /*===========================================================================*/ /* Get next free CCS */ /* Return - index of current ccs */ static int get_free_ccs(ray_dev_t *local) { int i; struct ccs *pccs = (struct ccs *)(local->sram + CCS_BASE); dev_link_t *link = local->finder; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs get_free_ccs - device not present\n"); return ECARDGONE; } if (test_and_set_bit(0,&local->ccs_lock)) { DEBUG(1,"ray_cs ccs_lock busy\n"); return ECCSBUSY; } for (i = NUMBER_OF_TX_CCS; i < NUMBER_OF_CCS; i++) { if (readb(&(pccs+i)->buffer_status) == CCS_BUFFER_FREE) { writeb(CCS_BUFFER_BUSY, &(pccs+i)->buffer_status); writeb(CCS_END_LIST, &(pccs+i)->link); local->ccs_lock = 0; return i; } } local->ccs_lock = 0; DEBUG(1,"ray_cs ERROR no free CCS for raylink card\n"); return ECCSFULL; } /* get_free_ccs */ /*===========================================================================*/ static void authenticate_timeout(u_long data) { ray_dev_t *local = (ray_dev_t *)data; del_timer(&local->timer); printk(KERN_INFO "ray_cs Authentication with access point failed" " - timeout\n"); join_net((u_long)local); } /*===========================================================================*/ static int asc_to_int(char a) { if (a < '0') return -1; if (a <= '9') return (a - '0'); if (a < 'A') return -1; if (a <= 'F') return (10 + a - 'A'); if (a < 'a') return -1; if (a <= 'f') return (10 + a - 'a'); return -1; } /*===========================================================================*/ static int parse_addr(char *in_str, UCHAR *out) { int len; int i,j,k; int status; if (in_str == NULL) return 0; if ((len = strlen(in_str)) < 2) return 0; memset(out, 0, ADDRLEN); status = 1; j = len - 1; if (j > 12) j = 12; i = 5; while (j > 0) { if ((k = asc_to_int(in_str[j--])) != -1) out[i] = k; else return 0; if (j == 0) break; if ((k = asc_to_int(in_str[j--])) != -1) out[i] += k << 4; else return 0; if (!i--) break; } return status; } /*===========================================================================*/ static struct net_device_stats *ray_get_stats(struct net_device *dev) { ray_dev_t *local = (ray_dev_t *)dev->priv; dev_link_t *link = local->finder; struct status *p = (struct status *)(local->sram + STATUS_BASE); if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs net_device_stats - device not present\n"); return &local->stats; } if (readb(&p->mrx_overflow_for_host)) { local->stats.rx_over_errors += ntohs(readb(&p->mrx_overflow)); writeb(0,&p->mrx_overflow); writeb(0,&p->mrx_overflow_for_host); } if (readb(&p->mrx_checksum_error_for_host)) { local->stats.rx_crc_errors += ntohs(readb(&p->mrx_checksum_error)); writeb(0,&p->mrx_checksum_error); writeb(0,&p->mrx_checksum_error_for_host); } if (readb(&p->rx_hec_error_for_host)) { local->stats.rx_frame_errors += ntohs(readb(&p->rx_hec_error)); writeb(0,&p->rx_hec_error); writeb(0,&p->rx_hec_error_for_host); } return &local->stats; } /*===========================================================================*/ static void ray_update_parm(struct net_device *dev, UCHAR objid, UCHAR *value, int len) { ray_dev_t *local = (ray_dev_t *)dev->priv; dev_link_t *link = local->finder; int ccsindex; int i; struct ccs *pccs; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_update_parm - device not present\n"); return; } if ((ccsindex = get_free_ccs(local)) < 0) { DEBUG(0,"ray_update_parm - No free ccs\n"); return; } pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; writeb(CCS_UPDATE_PARAMS, &pccs->cmd); writeb(objid, &pccs->var.update_param.object_id); writeb(1, &pccs->var.update_param.number_objects); writeb(0, &pccs->var.update_param.failure_cause); for (i=0; i<len; i++) { writeb(value[i], local->sram + HOST_TO_ECF_BASE); } /* Interrupt the firmware to process the command */ if (interrupt_ecf(local, ccsindex)) { DEBUG(0,"ray_cs associate failed - ECF not ready for intr\n"); writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); } } /*===========================================================================*/ static void ray_update_multi_list(struct net_device *dev, int all) { struct dev_mc_list *dmi, **dmip; int ccsindex; struct ccs *pccs; int i = 0; ray_dev_t *local = (ray_dev_t *)dev->priv; dev_link_t *link = local->finder; UCHAR *p = local->sram + HOST_TO_ECF_BASE; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_update_multi_list - device not present\n"); return; } else DEBUG(2,"ray_update_multi_list(%p)\n",dev); if ((ccsindex = get_free_ccs(local)) < 0) { DEBUG(1,"ray_update_multi - No free ccs\n"); return; } pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; writeb(CCS_UPDATE_MULTICAST_LIST, &pccs->cmd); if (all) { writeb(0xff, &pccs->var); local->num_multi = 0xff; } else { /* Copy the kernel's list of MC addresses to card */ for (dmip=&dev->mc_list; (dmi=*dmip)!=NULL; dmip=&dmi->next) { memcpy_toio(p, dmi->dmi_addr, ETH_ALEN); DEBUG(1,"ray_update_multi add addr %02x%02x%02x%02x%02x%02x\n",dmi->dmi_addr[0],dmi->dmi_addr[1],dmi->dmi_addr[2],dmi->dmi_addr[3],dmi->dmi_addr[4],dmi->dmi_addr[5]); p += ETH_ALEN; i++; } if (i > 256/ADDRLEN) i = 256/ADDRLEN; writeb((UCHAR)i, &pccs->var); DEBUG(1,"ray_cs update_multi %d addresses in list\n", i); /* Interrupt the firmware to process the command */ local->num_multi = i; } if (interrupt_ecf(local, ccsindex)) { DEBUG(1,"ray_cs update_multi failed - ECF not ready for intr\n"); writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); } } /* end ray_update_multi_list */ /*===========================================================================*/ static void set_multicast_list(struct net_device *dev) { ray_dev_t *local = (ray_dev_t *)dev->priv; UCHAR promisc; DEBUG(2,"ray_cs set_multicast_list(%p)\n",dev); if (dev->flags & IFF_PROMISC) { if (local->sparm.b5.a_promiscuous_mode == 0) { DEBUG(1,"ray_cs set_multicast_list promisc on\n"); local->sparm.b5.a_promiscuous_mode = 1; promisc = 1; ray_update_parm(dev, OBJID_promiscuous_mode, \ &promisc, sizeof(promisc)); } } else { if (local->sparm.b5.a_promiscuous_mode == 1) { DEBUG(1,"ray_cs set_multicast_list promisc off\n"); local->sparm.b5.a_promiscuous_mode = 0; promisc = 0; ray_update_parm(dev, OBJID_promiscuous_mode, \ &promisc, sizeof(promisc)); } } if (dev->flags & IFF_ALLMULTI) ray_update_multi_list(dev, 1); else { if (local->num_multi != dev->mc_count) ray_update_multi_list(dev, 0); } } /* end set_multicast_list */ /*============================================================================= * All routines below here are run at interrupt time. =============================================================================*/ static void ray_interrupt(int irq, void *dev_id, struct pt_regs * regs) { struct net_device *dev = (struct net_device *)dev_id; dev_link_t *link; ray_dev_t *local; struct ccs *pccs; struct rcs *prcs; UCHAR rcsindex; UCHAR tmp; UCHAR cmd; UCHAR status; if (dev == NULL) /* Note that we want interrupts with dev->start == 0 */ return; DEBUG(4,"ray_cs: interrupt for *dev=%p\n",dev); local = (ray_dev_t *)dev->priv; link = (dev_link_t *)local->finder; if ( ! (link->state & DEV_PRESENT) || link->state & DEV_SUSPEND ) { DEBUG(2,"ray_cs interrupt from device not present or suspended.\n"); return; } rcsindex = readb(&((struct scb *)(local->sram))->rcs_index); if (rcsindex >= (NUMBER_OF_CCS + NUMBER_OF_RCS)) { DEBUG(1,"ray_cs interrupt bad rcsindex = 0x%x\n",rcsindex); clear_interrupt(local); return; } if (rcsindex < NUMBER_OF_CCS) /* If it's a returned CCS */ { pccs = ((struct ccs *) (local->sram + CCS_BASE)) + rcsindex; cmd = readb(&pccs->cmd); status = readb(&pccs->buffer_status); switch (cmd) { case CCS_DOWNLOAD_STARTUP_PARAMS: /* Happens in firmware someday */ del_timer(&local->timer); if (status == CCS_COMMAND_COMPLETE) { DEBUG(1,"ray_cs interrupt download_startup_parameters OK\n"); } else { DEBUG(1,"ray_cs interrupt download_startup_parameters fail\n"); } break; case CCS_UPDATE_PARAMS: DEBUG(1,"ray_cs interrupt update params done\n"); if (status != CCS_COMMAND_COMPLETE) { tmp = readb(&pccs->var.update_param.failure_cause); DEBUG(0,"ray_cs interrupt update params failed - reason %d\n",tmp); } break; case CCS_REPORT_PARAMS: DEBUG(1,"ray_cs interrupt report params done\n"); break; case CCS_UPDATE_MULTICAST_LIST: /* Note that this CCS isn't returned */ DEBUG(1,"ray_cs interrupt CCS Update Multicast List done\n"); break; case CCS_UPDATE_POWER_SAVINGS_MODE: DEBUG(1,"ray_cs interrupt update power save mode done\n"); break; case CCS_START_NETWORK: case CCS_JOIN_NETWORK: if (status == CCS_COMMAND_COMPLETE) { if (readb(&pccs->var.start_network.net_initiated) == 1) { DEBUG(0,"ray_cs interrupt network \"%s\" started\n",\ local->sparm.b4.a_current_ess_id); } else { DEBUG(0,"ray_cs interrupt network \"%s\" joined\n",\ local->sparm.b4.a_current_ess_id); } memcpy_fromio(&local->bss_id,pccs->var.start_network.bssid,ADDRLEN); if (local->fw_ver == 0x55) local->net_default_tx_rate = 3; else local->net_default_tx_rate = readb(&pccs->var.start_network.net_default_tx_rate); local->encryption = readb(&pccs->var.start_network.encryption); if (!sniffer && (local->net_type == INFRA) && !(local->sparm.b4.a_acting_as_ap_status)) { authenticate(local); } local->card_status = CARD_ACQ_COMPLETE; } else { local->card_status = CARD_ACQ_FAILED; del_timer(&local->timer); local->timer.expires = jiffies + HZ*5; local->timer.data = (long)local; if (status == CCS_START_NETWORK) { DEBUG(0,"ray_cs interrupt network \"%s\" start failed\n",\ local->sparm.b4.a_current_ess_id); local->timer.function = &start_net; } else { DEBUG(0,"ray_cs interrupt network \"%s\" join failed\n",\ local->sparm.b4.a_current_ess_id); local->timer.function = &join_net; } add_timer(&local->timer); } break; case CCS_START_ASSOCIATION: if (status == CCS_COMMAND_COMPLETE) { local->card_status = CARD_ASSOC_COMPLETE; DEBUG(0,"ray_cs association successful\n"); } else { DEBUG(0,"ray_cs association failed,\n"); local->card_status = CARD_ASSOC_FAILED; join_net((u_long)local); } break; case CCS_TX_REQUEST: if (status == CCS_COMMAND_COMPLETE) { DEBUG(3,"ray_cs interrupt tx request complete\n"); } else { DEBUG(1,"ray_cs interrupt tx request failed\n"); } if (!sniffer) netif_start_queue(dev); netif_wake_queue(dev); break; case CCS_TEST_MEMORY: DEBUG(1,"ray_cs interrupt mem test done\n"); break; case CCS_SHUTDOWN: DEBUG(1,"ray_cs interrupt Unexpected CCS returned - Shutdown\n"); break; case CCS_DUMP_MEMORY: DEBUG(1,"ray_cs interrupt dump memory done\n"); break; case CCS_START_TIMER: DEBUG(2,"ray_cs interrupt DING - raylink timer expired\n"); break; default: DEBUG(1,"ray_cs interrupt Unexpected CCS 0x%x returned 0x%x\n",\ rcsindex, cmd); } writeb(CCS_BUFFER_FREE, &pccs->buffer_status); } else /* It's an RCS */ { prcs = ((struct rcs *)(local->sram + CCS_BASE)) + rcsindex; switch (readb(&prcs->interrupt_id)) { case PROCESS_RX_PACKET: ray_rx(dev, local, prcs); break; case REJOIN_NET_COMPLETE: DEBUG(1,"ray_cs interrupt rejoin net complete\n"); local->card_status = CARD_ACQ_COMPLETE; /* do we need to clear tx buffers CCS's? */ if (local->sparm.b4.a_network_type == ADHOC) { if (!sniffer) netif_start_queue(dev); } else { memcpy_fromio(&local->bss_id, prcs->var.rejoin_net_complete.bssid, ADDRLEN); DEBUG(1,"ray_cs new BSSID = %02x%02x%02x%02x%02x%02x\n",\ local->bss_id[0], local->bss_id[1], local->bss_id[2],\ local->bss_id[3], local->bss_id[4], local->bss_id[5]); if (!sniffer) authenticate(local); } break; case ROAMING_INITIATED: DEBUG(1,"ray_cs interrupt roaming initiated\n"); netif_stop_queue(dev); local->card_status = CARD_DOING_ACQ; break; case JAPAN_CALL_SIGN_RXD: DEBUG(1,"ray_cs interrupt japan call sign rx\n"); break; default: DEBUG(1,"ray_cs Unexpected interrupt for RCS 0x%x cmd = 0x%x\n",\ rcsindex, (unsigned int) readb(&prcs->interrupt_id)); break; } writeb(CCS_BUFFER_FREE, &prcs->buffer_status); } clear_interrupt(local); } /* ray_interrupt */ /*===========================================================================*/ static void ray_rx(struct net_device *dev, ray_dev_t *local, struct rcs *prcs) { int rx_len; unsigned int pkt_addr; UCHAR *pmsg; DEBUG(4,"ray_rx process rx packet\n"); /* Calculate address of packet within Rx buffer */ pkt_addr = ((readb(&prcs->var.rx_packet.rx_data_ptr[0]) << 8) + readb(&prcs->var.rx_packet.rx_data_ptr[1])) & RX_BUFF_END; /* Length of first packet fragment */ rx_len = (readb(&prcs->var.rx_packet.rx_data_length[0]) << 8) + readb(&prcs->var.rx_packet.rx_data_length[1]); local->last_rsl = readb(&prcs->var.rx_packet.rx_sig_lev); pmsg = local->rmem + pkt_addr; switch(readb(pmsg)) { case DATA_TYPE: DEBUG(4,"ray_rx data type\n"); rx_data(dev, prcs, pkt_addr, rx_len); break; case AUTHENTIC_TYPE: DEBUG(4,"ray_rx authentic type\n"); if (sniffer) rx_data(dev, prcs, pkt_addr, rx_len); else rx_authenticate(local, prcs, pkt_addr, rx_len); break; case DEAUTHENTIC_TYPE: DEBUG(4,"ray_rx deauth type\n"); if (sniffer) rx_data(dev, prcs, pkt_addr, rx_len); else rx_deauthenticate(local, prcs, pkt_addr, rx_len); break; case NULL_MSG_TYPE: DEBUG(3,"ray_cs rx NULL msg\n"); break; case BEACON_TYPE: DEBUG(4,"ray_rx beacon type\n"); if (sniffer) rx_data(dev, prcs, pkt_addr, rx_len); copy_from_rx_buff(local, (UCHAR *)&local->last_bcn, pkt_addr, rx_len < sizeof(struct beacon_rx) ? rx_len : sizeof(struct beacon_rx)); local->beacon_rxed = 1; /* Get the statistics so the card counters never overflow */ ray_get_stats(dev); break; default: DEBUG(0,"ray_cs unknown pkt type %2x\n", (unsigned int) readb(pmsg)); break; } } /* end ray_rx */ /*===========================================================================*/ static void rx_data(struct net_device *dev, struct rcs *prcs, unsigned int pkt_addr, int rx_len) { struct sk_buff *skb = NULL; struct rcs *prcslink = prcs; ray_dev_t *local = dev->priv; UCHAR *rx_ptr; int total_len; int tmp; #ifdef WIRELESS_SPY int siglev = local->last_rsl; u_char linksrcaddr[ETH_ALEN]; /* Other end of the wireless link */ #endif if (!sniffer) { if (translate) { /* TBD length needs fixing for translated header */ if (rx_len < (ETH_HLEN + RX_MAC_HEADER_LENGTH) || rx_len > (dev->mtu + RX_MAC_HEADER_LENGTH + ETH_HLEN + FCS_LEN)) { DEBUG(0,"ray_cs invalid packet length %d received \n",rx_len); return; } } else /* encapsulated ethernet */ { if (rx_len < (ETH_HLEN + RX_MAC_HEADER_LENGTH) || rx_len > (dev->mtu + RX_MAC_HEADER_LENGTH + ETH_HLEN + FCS_LEN)) { DEBUG(0,"ray_cs invalid packet length %d received \n",rx_len); return; } } } DEBUG(4,"ray_cs rx_data packet\n"); /* If fragmented packet, verify sizes of fragments add up */ if (readb(&prcs->var.rx_packet.next_frag_rcs_index) != 0xFF) { DEBUG(1,"ray_cs rx'ed fragment\n"); tmp = (readb(&prcs->var.rx_packet.totalpacketlength[0]) << 8) + readb(&prcs->var.rx_packet.totalpacketlength[1]); total_len = tmp; prcslink = prcs; do { tmp -= (readb(&prcslink->var.rx_packet.rx_data_length[0]) << 8) + readb(&prcslink->var.rx_packet.rx_data_length[1]); if (readb(&prcslink->var.rx_packet.next_frag_rcs_index) == 0xFF || tmp < 0) break; prcslink = ((struct rcs *)(local->sram + CCS_BASE)) + readb(&prcslink->link_field); } while (1); if (tmp < 0) { DEBUG(0,"ray_cs rx_data fragment lengths don't add up\n"); local->stats.rx_dropped++; release_frag_chain(local, prcs); return; } } else { /* Single unfragmented packet */ total_len = rx_len; } skb = dev_alloc_skb( total_len+5 ); if (skb == NULL) { DEBUG(0,"ray_cs rx_data could not allocate skb\n"); local->stats.rx_dropped++; if (readb(&prcs->var.rx_packet.next_frag_rcs_index) != 0xFF) release_frag_chain(local, prcs); return; } skb_reserve( skb, 2); /* Align IP on 16 byte (TBD check this)*/ skb->dev = dev; DEBUG(4,"ray_cs rx_data total_len = %x, rx_len = %x\n",total_len,rx_len); /************************/ /* Reserve enough room for the whole damn packet. */ rx_ptr = skb_put( skb, total_len); /* Copy the whole packet to sk_buff */ rx_ptr += copy_from_rx_buff(local, rx_ptr, pkt_addr & RX_BUFF_END, rx_len); /* Get source address */ #ifdef WIRELESS_SPY memcpy(linksrcaddr, ((struct mac_header *)skb->data)->addr_2, ETH_ALEN); #endif /* Now, deal with encapsulation/translation/sniffer */ if (!sniffer) { if (!translate) { /* Encapsulated ethernet, so just lop off 802.11 MAC header */ /* TBD reserve skb_reserve( skb, RX_MAC_HEADER_LENGTH); */ skb_pull( skb, RX_MAC_HEADER_LENGTH); } else { /* Do translation */ untranslate(local, skb, total_len); } } else { /* sniffer mode, so just pass whole packet */ }; /************************/ /* Now pick up the rest of the fragments if any */ tmp = 17; if (readb(&prcs->var.rx_packet.next_frag_rcs_index) != 0xFF) { prcslink = prcs; DEBUG(1,"ray_cs rx_data in fragment loop\n"); do { prcslink = ((struct rcs *)(local->sram + CCS_BASE)) + readb(&prcslink->var.rx_packet.next_frag_rcs_index); rx_len = (( readb(&prcslink->var.rx_packet.rx_data_length[0]) << 8) + readb(&prcslink->var.rx_packet.rx_data_length[1])) & RX_BUFF_END; pkt_addr = (( readb(&prcslink->var.rx_packet.rx_data_ptr[0]) << 8) + readb(&prcslink->var.rx_packet.rx_data_ptr[1])) & RX_BUFF_END; rx_ptr += copy_from_rx_buff(local, rx_ptr, pkt_addr, rx_len); } while (tmp-- && readb(&prcslink->var.rx_packet.next_frag_rcs_index) != 0xFF); release_frag_chain(local, prcs); } skb->protocol = eth_type_trans(skb,dev); netif_rx(skb); dev->last_rx = jiffies; local->stats.rx_packets++; local->stats.rx_bytes += total_len; /* Gather signal strength per address */ #ifdef WIRELESS_SPY /* For the Access Point or the node having started the ad-hoc net * note : ad-hoc work only in some specific configurations, but we * kludge in ray_get_wireless_stats... */ if(!memcmp(linksrcaddr, local->bss_id, ETH_ALEN)) { /* Update statistics */ /*local->wstats.qual.qual = none ? */ local->wstats.qual.level = siglev; /*local->wstats.qual.noise = none ? */ local->wstats.qual.updated = 0x2; } /* Now, for the addresses in the spy list */ { int i; /* Look all addresses */ for(i = 0; i < local->spy_number; i++) /* If match */ if(!memcmp(linksrcaddr, local->spy_address[i], ETH_ALEN)) { /* Update statistics */ /*local->spy_stat[i].qual = none ? */ local->spy_stat[i].level = siglev; /*local->spy_stat[i].noise = none ? */ local->spy_stat[i].updated = 0x2; } } #endif /* WIRELESS_SPY */ } /* end rx_data */ /*===========================================================================*/ static void untranslate(ray_dev_t *local, struct sk_buff *skb, int len) { snaphdr_t *psnap = (snaphdr_t *)(skb->data + RX_MAC_HEADER_LENGTH); struct mac_header *pmac = (struct mac_header *)skb->data; unsigned short type = *(unsigned short *)psnap->ethertype; unsigned int xsap = *(unsigned int *)psnap & 0x00ffffff; unsigned int org = (*(unsigned int *)psnap->org) & 0x00ffffff; int delta; struct ethhdr *peth; UCHAR srcaddr[ADDRLEN]; UCHAR destaddr[ADDRLEN]; if (pmac->frame_ctl_2 & FC2_FROM_DS) { if (pmac->frame_ctl_2 & FC2_TO_DS) { /* AP to AP */ memcpy(destaddr, pmac->addr_3, ADDRLEN); memcpy(srcaddr, ((unsigned char *)pmac->addr_3) + ADDRLEN, ADDRLEN); } else { /* AP to terminal */ memcpy(destaddr, pmac->addr_1, ADDRLEN); memcpy(srcaddr, pmac->addr_3, ADDRLEN); } } else { /* Terminal to AP */ if (pmac->frame_ctl_2 & FC2_TO_DS) { memcpy(destaddr, pmac->addr_3, ADDRLEN); memcpy(srcaddr, pmac->addr_2, ADDRLEN); } else { /* Adhoc */ memcpy(destaddr, pmac->addr_1, ADDRLEN); memcpy(srcaddr, pmac->addr_2, ADDRLEN); } } #ifdef PCMCIA_DEBUG if (pc_debug > 3) { int i; printk(KERN_DEBUG "skb->data before untranslate"); for (i=0;i<64;i++) printk("%02x ",skb->data[i]); printk("\n" KERN_DEBUG "type = %08x, xsap = %08x, org = %08x\n", type,xsap,org); printk(KERN_DEBUG "untranslate skb->data = %p\n",skb->data); } #endif if ( xsap != SNAP_ID) { /* not a snap type so leave it alone */ DEBUG(3,"ray_cs untranslate NOT SNAP %x\n", *(unsigned int *)psnap & 0x00ffffff); delta = RX_MAC_HEADER_LENGTH - ETH_HLEN; peth = (struct ethhdr *)(skb->data + delta); peth->h_proto = htons(len - RX_MAC_HEADER_LENGTH); } else { /* Its a SNAP */ if (org == BRIDGE_ENCAP) { /* EtherII and nuke the LLC */ DEBUG(3,"ray_cs untranslate Bridge encap\n"); delta = RX_MAC_HEADER_LENGTH + sizeof(struct snaphdr_t) - ETH_HLEN; peth = (struct ethhdr *)(skb->data + delta); peth->h_proto = type; } else { if (org == RFC1042_ENCAP) { switch (type) { case RAY_IPX_TYPE: case APPLEARP_TYPE: DEBUG(3,"ray_cs untranslate RFC IPX/AARP\n"); delta = RX_MAC_HEADER_LENGTH - ETH_HLEN; peth = (struct ethhdr *)(skb->data + delta); peth->h_proto = htons(len - RX_MAC_HEADER_LENGTH); break; default: DEBUG(3,"ray_cs untranslate RFC default\n"); delta = RX_MAC_HEADER_LENGTH + sizeof(struct snaphdr_t) - ETH_HLEN; peth = (struct ethhdr *)(skb->data + delta); peth->h_proto = type; break; } } else { printk("ray_cs untranslate very confused by packet\n"); delta = RX_MAC_HEADER_LENGTH - ETH_HLEN; peth = (struct ethhdr *)(skb->data + delta); peth->h_proto = type; } } } /* TBD reserve skb_reserve(skb, delta); */ skb_pull(skb, delta); DEBUG(3,"untranslate after skb_pull(%d), skb->data = %p\n",delta,skb->data); memcpy(peth->h_dest, destaddr, ADDRLEN); memcpy(peth->h_source, srcaddr, ADDRLEN); #ifdef PCMCIA_DEBUG if (pc_debug > 3) { int i; printk(KERN_DEBUG "skb->data after untranslate:"); for (i=0;i<64;i++) printk("%02x ",skb->data[i]); printk("\n"); } #endif } /* end untranslate */ /*===========================================================================*/ /* Copy data from circular receive buffer to PC memory. * dest = destination address in PC memory * pkt_addr = source address in receive buffer * len = length of packet to copy */ static int copy_from_rx_buff(ray_dev_t *local, UCHAR *dest, int pkt_addr, int length) { int wrap_bytes = (pkt_addr + length) - (RX_BUFF_END + 1); if (wrap_bytes <= 0) { memcpy_fromio(dest,local->rmem + pkt_addr,length); } else /* Packet wrapped in circular buffer */ { memcpy_fromio(dest,local->rmem+pkt_addr,length - wrap_bytes); memcpy_fromio(dest + length - wrap_bytes, local->rmem, wrap_bytes); } return length; } /*===========================================================================*/ static void release_frag_chain(ray_dev_t *local, struct rcs* prcs) { struct rcs *prcslink = prcs; int tmp = 17; unsigned rcsindex = readb(&prcs->var.rx_packet.next_frag_rcs_index); while (tmp--) { writeb(CCS_BUFFER_FREE, &prcslink->buffer_status); if (rcsindex >= (NUMBER_OF_CCS + NUMBER_OF_RCS)) { DEBUG(1,"ray_cs interrupt bad rcsindex = 0x%x\n",rcsindex); break; } prcslink = ((struct rcs *)(local->sram + CCS_BASE)) + rcsindex; rcsindex = readb(&prcslink->var.rx_packet.next_frag_rcs_index); } writeb(CCS_BUFFER_FREE, &prcslink->buffer_status); } /*===========================================================================*/ static void authenticate(ray_dev_t *local) { dev_link_t *link = local->finder; DEBUG(0,"ray_cs Starting authentication.\n"); if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs authenticate - device not present\n"); return; } del_timer(&local->timer); if (build_auth_frame(local, local->bss_id, OPEN_AUTH_REQUEST)) { local->timer.function = &join_net; } else { local->timer.function = &authenticate_timeout; } local->timer.expires = jiffies + HZ*2; local->timer.data = (long)local; add_timer(&local->timer); local->authentication_state = AWAITING_RESPONSE; } /* end authenticate */ /*===========================================================================*/ static void rx_authenticate(ray_dev_t *local, struct rcs *prcs, unsigned int pkt_addr, int rx_len) { UCHAR buff[256]; struct rx_msg *msg = (struct rx_msg *)buff; del_timer(&local->timer); copy_from_rx_buff(local, buff, pkt_addr, rx_len & 0xff); /* if we are trying to get authenticated */ if (local->sparm.b4.a_network_type == ADHOC) { DEBUG(1,"ray_cs rx_auth var= %02x %02x %02x %02x %02x %02x\n", msg->var[0],msg->var[1],msg->var[2],msg->var[3],msg->var[4],msg->var[5]); if (msg->var[2] == 1) { DEBUG(0,"ray_cs Sending authentication response.\n"); if (!build_auth_frame (local, msg->mac.addr_2, OPEN_AUTH_RESPONSE)) { local->authentication_state = NEED_TO_AUTH; memcpy(local->auth_id, msg->mac.addr_2, ADDRLEN); } } } else /* Infrastructure network */ { if (local->authentication_state == AWAITING_RESPONSE) { /* Verify authentication sequence #2 and success */ if (msg->var[2] == 2) { if ((msg->var[3] | msg->var[4]) == 0) { DEBUG(1,"Authentication successful\n"); local->card_status = CARD_AUTH_COMPLETE; associate(local); local->authentication_state = AUTHENTICATED; } else { DEBUG(0,"Authentication refused\n"); local->card_status = CARD_AUTH_REFUSED; join_net((u_long)local); local->authentication_state = UNAUTHENTICATED; } } } } } /* end rx_authenticate */ /*===========================================================================*/ static void associate(ray_dev_t *local) { struct ccs *pccs; dev_link_t *link = local->finder; struct net_device *dev = link->priv; int ccsindex; if (!(link->state & DEV_PRESENT)) { DEBUG(2,"ray_cs associate - device not present\n"); return; } /* If no tx buffers available, return*/ if ((ccsindex = get_free_ccs(local)) < 0) { /* TBD should never be here but... what if we are? */ DEBUG(1,"ray_cs associate - No free ccs\n"); return; } DEBUG(1,"ray_cs Starting association with access point\n"); pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; /* fill in the CCS */ writeb(CCS_START_ASSOCIATION, &pccs->cmd); /* Interrupt the firmware to process the command */ if (interrupt_ecf(local, ccsindex)) { DEBUG(1,"ray_cs associate failed - ECF not ready for intr\n"); writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); del_timer(&local->timer); local->timer.expires = jiffies + HZ*2; local->timer.data = (long)local; local->timer.function = &join_net; add_timer(&local->timer); local->card_status = CARD_ASSOC_FAILED; return; } if (!sniffer) netif_start_queue(dev); } /* end associate */ /*===========================================================================*/ static void rx_deauthenticate(ray_dev_t *local, struct rcs *prcs, unsigned int pkt_addr, int rx_len) { /* UCHAR buff[256]; struct rx_msg *msg = (struct rx_msg *)buff; */ DEBUG(0,"Deauthentication frame received\n"); local->authentication_state = UNAUTHENTICATED; /* Need to reauthenticate or rejoin depending on reason code */ /* copy_from_rx_buff(local, buff, pkt_addr, rx_len & 0xff); */ } /*===========================================================================*/ static void clear_interrupt(ray_dev_t *local) { writeb(0, local->amem + CIS_OFFSET + HCS_INTR_OFFSET); } /*===========================================================================*/ #ifdef CONFIG_PROC_FS #define MAXDATA (PAGE_SIZE - 80) static char *card_status[] = { "Card inserted - uninitialized", /* 0 */ "Card not downloaded", /* 1 */ "Waiting for download parameters", /* 2 */ "Card doing acquisition", /* 3 */ "Acquisition complete", /* 4 */ "Authentication complete", /* 5 */ "Association complete", /* 6 */ "???", "???", "???", "???", /* 7 8 9 10 undefined */ "Card init error", /* 11 */ "Download parameters error", /* 12 */ "???", /* 13 */ "Acquisition failed", /* 14 */ "Authentication refused", /* 15 */ "Association failed" /* 16 */ }; static char *nettype[] = {"Adhoc", "Infra "}; static char *framing[] = {"Encapsulation", "Translation"} ; /*===========================================================================*/ static int ray_cs_proc_read(char *buf, char **start, off_t offset, int len) { /* Print current values which are not available via other means * eg ifconfig */ int i; dev_link_t *link; struct net_device *dev; ray_dev_t *local; UCHAR *p; struct freq_hop_element *pfh; UCHAR c[33]; link = dev_list; if (!link) return 0; dev = (struct net_device *)link->priv; if (!dev) return 0; local = (ray_dev_t *)dev->priv; if (!local) return 0; len = 0; len += sprintf(buf + len, "Raylink Wireless LAN driver status\n"); len += sprintf(buf + len, "%s\n", rcsid); /* build 4 does not report version, and field is 0x55 after memtest */ len += sprintf(buf + len, "Firmware version = "); if (local->fw_ver == 0x55) len += sprintf(buf + len, "4 - Use dump_cis for more details\n"); else len += sprintf(buf + len, "%2d.%02d.%02d\n", local->fw_ver, local->fw_bld, local->fw_var); for (i=0; i<32; i++) c[i] = local->sparm.b5.a_current_ess_id[i]; c[32] = 0; len += sprintf(buf + len, "%s network ESSID = \"%s\"\n", nettype[local->sparm.b5.a_network_type], c); p = local->bss_id; len += sprintf(buf + len, "BSSID = %02x:%02x:%02x:%02x:%02x:%02x\n", p[0],p[1],p[2],p[3],p[4],p[5]); len += sprintf(buf + len, "Country code = %d\n", local->sparm.b5.a_curr_country_code); i = local->card_status; if (i < 0) i = 10; if (i > 16) i = 10; len += sprintf(buf + len, "Card status = %s\n", card_status[i]); len += sprintf(buf + len, "Framing mode = %s\n",framing[translate]); len += sprintf(buf + len, "Last pkt signal lvl = %d\n", local->last_rsl); if (local->beacon_rxed) { /* Pull some fields out of last beacon received */ len += sprintf(buf + len, "Beacon Interval = %d Kus\n", local->last_bcn.beacon_intvl[0] + 256 * local->last_bcn.beacon_intvl[1]); p = local->last_bcn.elements; if (p[0] == C_ESSID_ELEMENT_ID) p += p[1] + 2; else { len += sprintf(buf + len, "Parse beacon failed at essid element id = %d\n",p[0]); return len; } if (p[0] == C_SUPPORTED_RATES_ELEMENT_ID) { len += sprintf(buf + len, "Supported rate codes = "); for (i=2; i<p[1] + 2; i++) len += sprintf(buf + len, "0x%02x ", p[i]); len += sprintf(buf + len, "\n"); p += p[1] + 2; } else { len += sprintf(buf + len, "Parse beacon failed at rates element\n"); return len; } if (p[0] == C_FH_PARAM_SET_ELEMENT_ID) { pfh = (struct freq_hop_element *)p; len += sprintf(buf + len, "Hop dwell = %d Kus\n", pfh->dwell_time[0] + 256 * pfh->dwell_time[1]); len += sprintf(buf + len, "Hop set = %d \n", pfh->hop_set); len += sprintf(buf + len, "Hop pattern = %d \n", pfh->hop_pattern); len += sprintf(buf + len, "Hop index = %d \n", pfh->hop_index); p += p[1] + 2; } else { len += sprintf(buf + len, "Parse beacon failed at FH param element\n"); return len; } } else { len += sprintf(buf + len, "No beacons received\n"); } return len; } #endif /*===========================================================================*/ static int build_auth_frame(ray_dev_t *local, UCHAR *dest, int auth_type) { int addr; struct ccs *pccs; struct tx_msg *ptx; int ccsindex; /* If no tx buffers available, return */ if ((ccsindex = get_free_tx_ccs(local)) < 0) { DEBUG(1,"ray_cs send authenticate - No free tx ccs\n"); return -1; } pccs = ((struct ccs *)(local->sram + CCS_BASE)) + ccsindex; /* Address in card space */ addr = TX_BUF_BASE + (ccsindex << 11); /* fill in the CCS */ writeb(CCS_TX_REQUEST, &pccs->cmd); writeb(addr >> 8, pccs->var.tx_request.tx_data_ptr); writeb(0x20, pccs->var.tx_request.tx_data_ptr + 1); writeb(TX_AUTHENTICATE_LENGTH_MSB, pccs->var.tx_request.tx_data_length); writeb(TX_AUTHENTICATE_LENGTH_LSB,pccs->var.tx_request.tx_data_length + 1); writeb(0, &pccs->var.tx_request.pow_sav_mode); ptx = (struct tx_msg *)(local->sram + addr); /* fill in the mac header */ writeb(PROTOCOL_VER | AUTHENTIC_TYPE, &ptx->mac.frame_ctl_1); writeb(0, &ptx->mac.frame_ctl_2); memcpy_toio(ptx->mac.addr_1, dest, ADDRLEN); memcpy_toio(ptx->mac.addr_2, local->sparm.b4.a_mac_addr, ADDRLEN); memcpy_toio(ptx->mac.addr_3, local->bss_id, ADDRLEN); /* Fill in msg body with protocol 00 00, sequence 01 00 ,status 00 00 */ memset_io(ptx->var, 0, 6); writeb(auth_type & 0xff, ptx->var + 2); /* Interrupt the firmware to process the command */ if (interrupt_ecf(local, ccsindex)) { DEBUG(1,"ray_cs send authentication request failed - ECF not ready for intr\n"); writeb(CCS_BUFFER_FREE, &(pccs++)->buffer_status); return -1; } return 0; } /* End build_auth_frame */ /*===========================================================================*/ #ifdef CONFIG_PROC_FS static void raycs_write(const char *name, write_proc_t *w, void *data) { struct proc_dir_entry * entry = create_proc_entry(name, S_IFREG | S_IWUSR, NULL); if (entry) { entry->write_proc = w; entry->data = data; } } static int write_essid(struct file *file, const char *buffer, unsigned long count, void *data) { static char proc_essid[33]; int len = count; if (len > 32) len = 32; memset(proc_essid, 0, 33); if (copy_from_user(proc_essid, buffer, len)) return -EFAULT; essid = proc_essid; return count; } static int write_int(struct file *file, const char *buffer, unsigned long count, void *data) { static char proc_number[10]; char *p; int nr, len; if (!count) return 0; if (count > 9) return -EINVAL; if (copy_from_user(proc_number, buffer, count)) return -EFAULT; p = proc_number; nr = 0; len = count; do { unsigned int c = *p - '0'; if (c > 9) return -EINVAL; nr = nr*10 + c; p++; } while (--len); *(int *)data = nr; return count; } #endif static int __init init_ray_cs(void) { int rc; DEBUG(1, "%s\n", rcsid); rc = register_pcmcia_driver(&dev_info, &ray_attach, &ray_detach); DEBUG(1, "raylink init_module register_pcmcia_driver returns 0x%x\n",rc); #ifdef CONFIG_PROC_FS proc_mkdir("driver/ray_cs", 0); create_proc_info_entry("driver/ray_cs/ray_cs", 0, NULL, &ray_cs_proc_read); raycs_write("driver/ray_cs/essid", write_essid, NULL); raycs_write("driver/ray_cs/net_type", write_int, &net_type); raycs_write("driver/ray_cs/translate", write_int, &translate); #endif if (translate != 0) translate = 1; return 0; } /* init_ray_cs */ /*===========================================================================*/ static void __exit exit_ray_cs(void) { DEBUG(0, "ray_cs: cleanup_module\n"); #ifdef CONFIG_PROC_FS remove_proc_entry("ray_cs", proc_root_driver); #endif unregister_pcmcia_driver(&dev_info); while (dev_list != NULL) ray_detach(dev_list); #ifdef CONFIG_PROC_FS remove_proc_entry("driver/ray_cs/ray_cs", NULL); remove_proc_entry("driver/ray_cs/essid", NULL); remove_proc_entry("driver/ray_cs/net_type", NULL); remove_proc_entry("driver/ray_cs/translate", NULL); remove_proc_entry("driver/ray_cs", NULL); #endif } /* exit_ray_cs */ module_init(init_ray_cs); module_exit(exit_ray_cs); /*===========================================================================*/ |