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if_xi.c revision 1.9 
      1  1.9  jdolecek /*	$NetBSD: if_xi.c,v 1.9 2001/02/21 21:39:55 jdolecek Exp $	*/
      2  1.1  gmcgarry /*	OpenBSD: if_xe.c,v 1.9 1999/09/16 11:28:42 niklas Exp 	*/
      3  1.5   thorpej 
      4  1.5   thorpej /*
      5  1.5   thorpej  * XXX THIS DRIVER IS BROKEN WRT. MULTICAST LISTS AND PROMISC/ALLMULTI
      6  1.5   thorpej  * XXX FLAGS!
      7  1.5   thorpej  */
      8  1.1  gmcgarry 
      9  1.1  gmcgarry /*
     10  1.1  gmcgarry  * Copyright (c) 1999 Niklas Hallqvist, Brandon Creighton, Job de Haas
     11  1.1  gmcgarry  * All rights reserved.
     12  1.1  gmcgarry  *
     13  1.1  gmcgarry  * Redistribution and use in source and binary forms, with or without
     14  1.1  gmcgarry  * modification, are permitted provided that the following conditions
     15  1.1  gmcgarry  * are met:
     16  1.1  gmcgarry  * 1. Redistributions of source code must retain the above copyright
     17  1.1  gmcgarry  *    notice, this list of conditions and the following disclaimer.
     18  1.1  gmcgarry  * 2. Redistributions in binary form must reproduce the above copyright
     19  1.1  gmcgarry  *    notice, this list of conditions and the following disclaimer in the
     20  1.1  gmcgarry  *    documentation and/or other materials provided with the distribution.
     21  1.1  gmcgarry  * 3. All advertising materials mentioning features or use of this software
     22  1.1  gmcgarry  *    must display the following acknowledgement:
     23  1.1  gmcgarry  *	This product includes software developed by Niklas Hallqvist,
     24  1.1  gmcgarry  *	Brandon Creighton and Job de Haas.
     25  1.1  gmcgarry  * 4. The name of the author may not be used to endorse or promote products
     26  1.1  gmcgarry  *    derived from this software without specific prior written permission
     27  1.1  gmcgarry  *
     28  1.1  gmcgarry  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     29  1.1  gmcgarry  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     30  1.1  gmcgarry  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     31  1.1  gmcgarry  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     32  1.1  gmcgarry  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     33  1.1  gmcgarry  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     34  1.1  gmcgarry  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     35  1.1  gmcgarry  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     36  1.1  gmcgarry  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     37  1.1  gmcgarry  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     38  1.1  gmcgarry  */
     39  1.1  gmcgarry 
     40  1.1  gmcgarry /*
     41  1.1  gmcgarry  * A driver for Xircom CreditCard PCMCIA Ethernet adapters.
     42  1.1  gmcgarry  */
     43  1.1  gmcgarry 
     44  1.1  gmcgarry /*
     45  1.1  gmcgarry  * Known Bugs:
     46  1.1  gmcgarry  *
     47  1.1  gmcgarry  * 1) Promiscuous mode doesn't work on at least the CE2.
     48  1.1  gmcgarry  * 2) Slow. ~450KB/s.  Memory access would be better.
     49  1.1  gmcgarry  */
     50  1.1  gmcgarry 
     51  1.1  gmcgarry #include "opt_inet.h"
     52  1.1  gmcgarry #include "bpfilter.h"
     53  1.1  gmcgarry 
     54  1.1  gmcgarry #include <sys/param.h>
     55  1.1  gmcgarry #include <sys/systm.h>
     56  1.1  gmcgarry #include <sys/device.h>
     57  1.1  gmcgarry #include <sys/ioctl.h>
     58  1.1  gmcgarry #include <sys/mbuf.h>
     59  1.1  gmcgarry #include <sys/malloc.h>
     60  1.1  gmcgarry #include <sys/socket.h>
     61  1.1  gmcgarry 
     62  1.1  gmcgarry #include <net/if.h>
     63  1.1  gmcgarry #include <net/if_dl.h>
     64  1.1  gmcgarry #include <net/if_media.h>
     65  1.1  gmcgarry #include <net/if_types.h>
     66  1.1  gmcgarry #include <net/if_ether.h>
     67  1.1  gmcgarry 
     68  1.1  gmcgarry #ifdef INET
     69  1.1  gmcgarry #include <netinet/in.h>
     70  1.1  gmcgarry #include <netinet/in_systm.h>
     71  1.1  gmcgarry #include <netinet/in_var.h>
     72  1.1  gmcgarry #include <netinet/ip.h>
     73  1.1  gmcgarry #include <netinet/if_inarp.h>
     74  1.1  gmcgarry #endif
     75  1.1  gmcgarry 
     76  1.1  gmcgarry #ifdef IPX
     77  1.1  gmcgarry #include <netipx/ipx.h>
     78  1.1  gmcgarry #include <netipx/ipx_if.h>
     79  1.1  gmcgarry #endif
     80  1.1  gmcgarry 
     81  1.1  gmcgarry #ifdef NS
     82  1.1  gmcgarry #include <netns/ns.h>
     83  1.1  gmcgarry #include <netns/ns_if.h>
     84  1.1  gmcgarry #endif
     85  1.1  gmcgarry 
     86  1.1  gmcgarry #if NBPFILTER > 0
     87  1.1  gmcgarry #include <net/bpf.h>
     88  1.1  gmcgarry #include <net/bpfdesc.h>
     89  1.1  gmcgarry #endif
     90  1.1  gmcgarry 
     91  1.1  gmcgarry #define ETHER_MIN_LEN 64
     92  1.1  gmcgarry #define ETHER_CRC_LEN 4
     93  1.1  gmcgarry 
     94  1.1  gmcgarry /*
     95  1.1  gmcgarry  * Maximum number of bytes to read per interrupt.  Linux recommends
     96  1.1  gmcgarry  * somewhere between 2000-22000.
     97  1.1  gmcgarry  * XXX This is currently a hard maximum.
     98  1.1  gmcgarry  */
     99  1.1  gmcgarry #define MAX_BYTES_INTR 12000
    100  1.1  gmcgarry 
    101  1.1  gmcgarry #include <dev/mii/mii.h>
    102  1.1  gmcgarry #include <dev/mii/miivar.h>
    103  1.1  gmcgarry 
    104  1.1  gmcgarry #include <dev/pcmcia/pcmciareg.h>
    105  1.1  gmcgarry #include <dev/pcmcia/pcmciavar.h>
    106  1.1  gmcgarry #include <dev/pcmcia/pcmciadevs.h>
    107  1.1  gmcgarry 
    108  1.1  gmcgarry #define XI_IOSIZ	16
    109  1.1  gmcgarry 
    110  1.1  gmcgarry #include <dev/pcmcia/if_xireg.h>
    111  1.1  gmcgarry 
    112  1.1  gmcgarry #ifdef __GNUC__
    113  1.1  gmcgarry #define INLINE	__inline
    114  1.1  gmcgarry #else
    115  1.1  gmcgarry #define INLINE
    116  1.1  gmcgarry #endif	/* __GNUC__ */
    117  1.1  gmcgarry 
    118  1.1  gmcgarry #ifdef XIDEBUG
    119  1.1  gmcgarry #define DPRINTF(cat, x) if (xidebug & (cat)) printf x
    120  1.1  gmcgarry 
    121  1.1  gmcgarry #define XID_CONFIG	0x1
    122  1.1  gmcgarry #define XID_MII		0x2
    123  1.1  gmcgarry #define XID_INTR	0x4
    124  1.1  gmcgarry #define XID_FIFO	0x8
    125  1.1  gmcgarry 
    126  1.1  gmcgarry #ifdef XIDEBUG_VALUE
    127  1.1  gmcgarry int xidebug = XIDEBUG_VALUE;
    128  1.1  gmcgarry #else
    129  1.1  gmcgarry int xidebug = 0;
    130  1.1  gmcgarry #endif
    131  1.1  gmcgarry #else
    132  1.1  gmcgarry #define DPRINTF(cat, x) (void)0
    133  1.1  gmcgarry #endif
    134  1.1  gmcgarry 
    135  1.1  gmcgarry int	xi_pcmcia_match __P((struct device *, struct cfdata *, void *));
    136  1.1  gmcgarry void	xi_pcmcia_attach __P((struct device *, struct device *, void *));
    137  1.1  gmcgarry int	xi_pcmcia_detach __P((struct device *, int));
    138  1.1  gmcgarry int	xi_pcmcia_activate __P((struct device *, enum devact));
    139  1.1  gmcgarry 
    140  1.1  gmcgarry /*
    141  1.1  gmcgarry  * In case this chipset ever turns up out of pcmcia attachments (very
    142  1.1  gmcgarry  * unlikely) do the driver splitup.
    143  1.1  gmcgarry  */
    144  1.1  gmcgarry struct xi_softc {
    145  1.1  gmcgarry 	struct device sc_dev;			/* Generic device info */
    146  1.1  gmcgarry 	struct ethercom sc_ethercom;		/* Ethernet common part */
    147  1.1  gmcgarry 
    148  1.1  gmcgarry 	struct mii_data sc_mii;			/* MII media information */
    149  1.1  gmcgarry 
    150  1.1  gmcgarry 	bus_space_tag_t		sc_bst;		/* Bus cookie */
    151  1.1  gmcgarry 	bus_space_handle_t	sc_bsh;		/* Bus I/O handle */
    152  1.1  gmcgarry 	bus_addr_t		sc_offset;	/* Offset of registers */
    153  1.1  gmcgarry 
    154  1.1  gmcgarry 	u_int8_t	sc_rev;			/* Chip revision */
    155  1.1  gmcgarry 	u_int32_t	sc_flags;		/* Misc. flags */
    156  1.1  gmcgarry 	int		sc_all_mcasts;		/* Receive all multicasts */
    157  1.1  gmcgarry 	u_int8_t 	sc_enaddr[ETHER_ADDR_LEN];
    158  1.1  gmcgarry };
    159  1.1  gmcgarry 
    160  1.1  gmcgarry struct xi_pcmcia_softc {
    161  1.2  gmcgarry 	struct	xi_softc sc_xi;			/* Generic device info */
    162  1.1  gmcgarry 
    163  1.1  gmcgarry 	/* PCMCIA-specific goo */
    164  1.1  gmcgarry 	struct	pcmcia_function *sc_pf;		/* PCMCIA function */
    165  1.1  gmcgarry 	struct	pcmcia_io_handle sc_pcioh;	/* iospace info */
    166  1.1  gmcgarry 	int	sc_io_window;			/* io window info */
    167  1.1  gmcgarry 	void	*sc_ih;				/* Interrupt handler */
    168  1.1  gmcgarry 
    169  1.1  gmcgarry 	int	sc_resource;			/* resource allocated */
    170  1.1  gmcgarry #define XI_RES_PCIC	1
    171  1.1  gmcgarry #define XI_RES_IO	2
    172  1.1  gmcgarry #define XI_RES_MI	8
    173  1.1  gmcgarry };
    174  1.1  gmcgarry 
    175  1.1  gmcgarry struct cfattach xi_pcmcia_ca = {
    176  1.1  gmcgarry 	sizeof(struct xi_pcmcia_softc), xi_pcmcia_match, xi_pcmcia_attach,
    177  1.1  gmcgarry 	xi_pcmcia_detach, xi_pcmcia_activate
    178  1.1  gmcgarry };
    179  1.1  gmcgarry 
    180  1.1  gmcgarry static int xi_pcmcia_cis_quirks __P((struct pcmcia_function *));
    181  1.1  gmcgarry static void xi_cycle_power __P((struct xi_softc *));
    182  1.1  gmcgarry static int xi_ether_ioctl __P((struct ifnet *, u_long cmd, caddr_t));
    183  1.1  gmcgarry static void xi_full_reset __P((struct xi_softc *));
    184  1.1  gmcgarry static void xi_init __P((struct xi_softc *));
    185  1.1  gmcgarry static int xi_intr __P((void *));
    186  1.1  gmcgarry static int xi_ioctl __P((struct ifnet *, u_long, caddr_t));
    187  1.1  gmcgarry static int xi_mdi_read __P((struct device *, int, int));
    188  1.1  gmcgarry static void xi_mdi_write __P((struct device *, int, int, int));
    189  1.1  gmcgarry static int xi_mediachange __P((struct ifnet *));
    190  1.1  gmcgarry static void xi_mediastatus __P((struct ifnet *, struct ifmediareq *));
    191  1.1  gmcgarry static int xi_pcmcia_funce_enaddr __P((struct device *, u_int8_t *));
    192  1.1  gmcgarry static int xi_pcmcia_lan_nid_ciscallback __P((struct pcmcia_tuple *, void *));
    193  1.3  gmcgarry static int xi_pcmcia_manfid_ciscallback __P((struct pcmcia_tuple *, void *));
    194  1.1  gmcgarry static u_int16_t xi_get __P((struct xi_softc *));
    195  1.1  gmcgarry static void xi_reset __P((struct xi_softc *));
    196  1.1  gmcgarry static void xi_set_address __P((struct xi_softc *));
    197  1.1  gmcgarry static void xi_start __P((struct ifnet *));
    198  1.1  gmcgarry static void xi_statchg __P((struct device *));
    199  1.1  gmcgarry static void xi_stop __P((struct xi_softc *));
    200  1.1  gmcgarry static void xi_watchdog __P((struct ifnet *));
    201  1.9  jdolecek const struct xi_pcmcia_product *xi_pcmcia_identify __P((struct device *,
    202  1.3  gmcgarry 						struct pcmcia_attach_args *));
    203  1.1  gmcgarry 
    204  1.1  gmcgarry /* flags */
    205  1.3  gmcgarry #define XIFLAGS_MOHAWK	0x001		/* 100Mb capabilities (has phy) */
    206  1.3  gmcgarry #define XIFLAGS_DINGO	0x002		/* realport cards ??? */
    207  1.3  gmcgarry #define XIFLAGS_MODEM	0x004		/* modem also present */
    208  1.1  gmcgarry 
    209  1.9  jdolecek const struct xi_pcmcia_product {
    210  1.1  gmcgarry 	u_int32_t	xpp_vendor;	/* vendor ID */
    211  1.1  gmcgarry 	u_int32_t	xpp_product;	/* product ID */
    212  1.1  gmcgarry 	int		xpp_expfunc;	/* expected function number */
    213  1.1  gmcgarry 	int		xpp_flags;	/* initial softc flags */
    214  1.1  gmcgarry 	const char	*xpp_name;	/* device name */
    215  1.1  gmcgarry } xi_pcmcia_products[] = {
    216  1.1  gmcgarry #ifdef NOT_SUPPORTED
    217  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x0141,
    218  1.1  gmcgarry 	  0,				0,
    219  1.1  gmcgarry 	  PCMCIA_STR_XIRCOM_CE },
    220  1.1  gmcgarry #endif
    221  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x0141,
    222  1.1  gmcgarry 	  0,				0,
    223  1.1  gmcgarry 	  PCMCIA_STR_XIRCOM_CE2 },
    224  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x0142,
    225  1.3  gmcgarry 	  0,				0,
    226  1.3  gmcgarry 	  PCMCIA_STR_XIRCOM_CE2 },
    227  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x0143,
    228  1.3  gmcgarry 	  0,				XIFLAGS_MOHAWK,
    229  1.1  gmcgarry 	  PCMCIA_STR_XIRCOM_CE3 },
    230  1.3  gmcgarry 	{ PCMCIA_VENDOR_COMPAQ2,	0x0143,
    231  1.3  gmcgarry 	  0,				XIFLAGS_MOHAWK,
    232  1.1  gmcgarry 	  PCMCIA_STR_COMPAQ2_CPQ_10_100 },
    233  1.3  gmcgarry 	{ PCMCIA_VENDOR_INTEL,		0x0143,
    234  1.3  gmcgarry 	  0,				XIFLAGS_MOHAWK | XIFLAGS_MODEM,
    235  1.1  gmcgarry 	  PCMCIA_STR_INTEL_EEPRO100 },
    236  1.3  gmcgarry #ifdef NOT_SUPPORTED
    237  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x1141,
    238  1.3  gmcgarry 	  0,				XIFLAGS_MODEM,
    239  1.3  gmcgarry 	  PCMCIA_STR_XIRCOM_CEM },
    240  1.3  gmcgarry #endif
    241  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x1142,
    242  1.3  gmcgarry 	  0,				XIFLAGS_MODEM,
    243  1.1  gmcgarry 	  PCMCIA_STR_XIRCOM_CEM },
    244  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x1143,
    245  1.3  gmcgarry 	  0,				XIFLAGS_MODEM,
    246  1.3  gmcgarry 	  PCMCIA_STR_XIRCOM_CEM },
    247  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x1144,
    248  1.3  gmcgarry 	  0,				XIFLAGS_MODEM,
    249  1.3  gmcgarry 	  PCMCIA_STR_XIRCOM_CEM33 },
    250  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x1145,
    251  1.3  gmcgarry 	  0,				XIFLAGS_MOHAWK | XIFLAGS_MODEM,
    252  1.3  gmcgarry 	  PCMCIA_STR_XIRCOM_CEM56 },
    253  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x1146,
    254  1.3  gmcgarry 	  0,				XIFLAGS_MOHAWK | XIFLAGS_DINGO | XIFLAGS_MODEM,
    255  1.3  gmcgarry 	  PCMCIA_STR_XIRCOM_REM56 },
    256  1.3  gmcgarry 	{ PCMCIA_VENDOR_XIRCOM,		0x1147,
    257  1.3  gmcgarry 	  0,				XIFLAGS_MOHAWK | XIFLAGS_DINGO | XIFLAGS_MODEM,
    258  1.3  gmcgarry 	  PCMCIA_STR_XIRCOM_REM56 },
    259  1.1  gmcgarry 	{ 0,				0,
    260  1.1  gmcgarry 	  0,				0,
    261  1.1  gmcgarry 	  NULL },
    262  1.1  gmcgarry };
    263  1.1  gmcgarry 
    264  1.1  gmcgarry 
    265  1.9  jdolecek const struct xi_pcmcia_product *
    266  1.3  gmcgarry xi_pcmcia_identify(dev, pa)
    267  1.3  gmcgarry 	struct device *dev;
    268  1.1  gmcgarry         struct pcmcia_attach_args *pa;
    269  1.1  gmcgarry {
    270  1.9  jdolecek 	const struct xi_pcmcia_product *xpp;
    271  1.3  gmcgarry         u_int8_t id;
    272  1.3  gmcgarry 	u_int32_t prod;
    273  1.3  gmcgarry 
    274  1.3  gmcgarry 	/*
    275  1.3  gmcgarry 	 * The Xircom ethernet cards swap the revision and product fields
    276  1.3  gmcgarry 	 * inside the CIS, which makes identification just a little
    277  1.3  gmcgarry 	 * bit different.
    278  1.3  gmcgarry 	 */
    279  1.3  gmcgarry 
    280  1.3  gmcgarry         pcmcia_scan_cis(dev, xi_pcmcia_manfid_ciscallback, &id);
    281  1.3  gmcgarry 
    282  1.3  gmcgarry 	prod = (pa->product & ~0xff) | id;
    283  1.3  gmcgarry 
    284  1.4  gmcgarry 	DPRINTF(XID_CONFIG, ("product=0x%x\n", prod));
    285  1.1  gmcgarry 
    286  1.1  gmcgarry 	for (xpp = xi_pcmcia_products; xpp->xpp_name != NULL; xpp++)
    287  1.1  gmcgarry 		if (pa->manufacturer == xpp->xpp_vendor &&
    288  1.3  gmcgarry 			prod == xpp->xpp_product &&
    289  1.1  gmcgarry 			pa->pf->number == xpp->xpp_expfunc)
    290  1.1  gmcgarry 			return (xpp);
    291  1.1  gmcgarry 	return (NULL);
    292  1.1  gmcgarry }
    293  1.1  gmcgarry 
    294  1.1  gmcgarry /*
    295  1.1  gmcgarry  * If someone can determine which manufacturers/products require cis_quirks,
    296  1.1  gmcgarry  * then the proper infrastucture can be used.  Until then...
    297  1.1  gmcgarry  * This also becomes a pain with detaching.
    298  1.1  gmcgarry  */
    299  1.1  gmcgarry static int
    300  1.1  gmcgarry xi_pcmcia_cis_quirks(pf)
    301  1.1  gmcgarry 	struct pcmcia_function *pf;
    302  1.1  gmcgarry {
    303  1.1  gmcgarry 	struct pcmcia_config_entry *cfe;
    304  1.1  gmcgarry 
    305  1.1  gmcgarry 	/* Tell the pcmcia framework where the CCR is. */
    306  1.1  gmcgarry 	pf->ccr_base = 0x800;
    307  1.1  gmcgarry 	pf->ccr_mask = 0x67;
    308  1.1  gmcgarry 
    309  1.1  gmcgarry 	/* Fake a cfe. */
    310  1.1  gmcgarry 	SIMPLEQ_FIRST(&pf->cfe_head) = cfe = (struct pcmcia_config_entry *)
    311  1.1  gmcgarry 	    malloc(sizeof(*cfe), M_DEVBUF, M_NOWAIT);
    312  1.1  gmcgarry 
    313  1.1  gmcgarry 	if (cfe == NULL)
    314  1.1  gmcgarry 		return -1;
    315  1.1  gmcgarry 	bzero(cfe, sizeof(*cfe));
    316  1.1  gmcgarry 
    317  1.1  gmcgarry 	/*
    318  1.1  gmcgarry 	 * XXX Use preprocessor symbols instead.
    319  1.1  gmcgarry 	 * Enable ethernet & its interrupts, wiring them to -INT
    320  1.1  gmcgarry 	 * No I/O base.
    321  1.1  gmcgarry 	 */
    322  1.1  gmcgarry 	cfe->number = 0x5;
    323  1.1  gmcgarry 	cfe->flags = 0;		/* XXX Check! */
    324  1.1  gmcgarry 	cfe->iftype = PCMCIA_IFTYPE_IO;
    325  1.1  gmcgarry 	cfe->num_iospace = 0;
    326  1.1  gmcgarry 	cfe->num_memspace = 0;
    327  1.1  gmcgarry 	cfe->irqmask = 0x8eb0;
    328  1.1  gmcgarry 
    329  1.1  gmcgarry 	return 0;
    330  1.1  gmcgarry }
    331  1.1  gmcgarry 
    332  1.1  gmcgarry int
    333  1.1  gmcgarry xi_pcmcia_match(parent, match, aux)
    334  1.1  gmcgarry 	struct device *parent;
    335  1.1  gmcgarry 	struct cfdata *match;
    336  1.1  gmcgarry 	void *aux;
    337  1.1  gmcgarry {
    338  1.1  gmcgarry 	struct pcmcia_attach_args *pa = aux;
    339  1.1  gmcgarry 
    340  1.1  gmcgarry 	if (pa->pf->function != PCMCIA_FUNCTION_NETWORK)
    341  1.1  gmcgarry 		return (0);
    342  1.1  gmcgarry 
    343  1.3  gmcgarry 	if (pa->manufacturer == PCMCIA_VENDOR_COMPAQ2 &&
    344  1.3  gmcgarry 	    pa->product == PCMCIA_PRODUCT_COMPAQ2_CPQ_10_100)
    345  1.3  gmcgarry 		return (1);
    346  1.3  gmcgarry 
    347  1.3  gmcgarry 	if (pa->manufacturer == PCMCIA_VENDOR_INTEL &&
    348  1.3  gmcgarry 	   pa->product == PCMCIA_PRODUCT_INTEL_EEPRO100)
    349  1.3  gmcgarry 		return (1);
    350  1.3  gmcgarry 
    351  1.3  gmcgarry 	if (pa->manufacturer == PCMCIA_VENDOR_XIRCOM &&
    352  1.3  gmcgarry 	    ((pa->product >> 8) == XIMEDIA_ETHER ||
    353  1.3  gmcgarry 	    (pa->product >> 8) == (XIMEDIA_ETHER | XIMEDIA_MODEM)))
    354  1.1  gmcgarry 		return (1);
    355  1.3  gmcgarry 
    356  1.1  gmcgarry 	return (0);
    357  1.1  gmcgarry }
    358  1.1  gmcgarry 
    359  1.1  gmcgarry void
    360  1.1  gmcgarry xi_pcmcia_attach(parent, self, aux)
    361  1.1  gmcgarry 	struct device *parent, *self;
    362  1.1  gmcgarry 	void *aux;
    363  1.1  gmcgarry {
    364  1.1  gmcgarry 	struct xi_pcmcia_softc *psc = (struct xi_pcmcia_softc *)self;
    365  1.2  gmcgarry 	struct xi_softc *sc = &psc->sc_xi;
    366  1.1  gmcgarry 	struct pcmcia_attach_args *pa = aux;
    367  1.1  gmcgarry 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
    368  1.9  jdolecek 	const struct xi_pcmcia_product *xpp;
    369  1.1  gmcgarry 
    370  1.1  gmcgarry 	if (xi_pcmcia_cis_quirks(pa->pf) < 0) {
    371  1.1  gmcgarry 		printf(": function enable failed\n");
    372  1.1  gmcgarry 		return;
    373  1.1  gmcgarry 	}
    374  1.1  gmcgarry 
    375  1.1  gmcgarry 	/* Enable the card */
    376  1.1  gmcgarry 	psc->sc_pf = pa->pf;
    377  1.1  gmcgarry 	pcmcia_function_init(psc->sc_pf, psc->sc_pf->cfe_head.sqh_first);
    378  1.1  gmcgarry 	if (pcmcia_function_enable(psc->sc_pf)) {
    379  1.1  gmcgarry 		printf(": function enable failed\n");
    380  1.1  gmcgarry 		goto fail;
    381  1.1  gmcgarry 	}
    382  1.1  gmcgarry 	psc->sc_resource |= XI_RES_PCIC;
    383  1.1  gmcgarry 
    384  1.1  gmcgarry 	/* allocate/map ISA I/O space */
    385  1.1  gmcgarry 	if (pcmcia_io_alloc(psc->sc_pf, 0, XI_IOSIZ, XI_IOSIZ,
    386  1.1  gmcgarry 		&psc->sc_pcioh) != 0) {
    387  1.1  gmcgarry 		printf(": i/o allocation failed\n");
    388  1.1  gmcgarry 		goto fail;
    389  1.1  gmcgarry 	}
    390  1.1  gmcgarry 	if (pcmcia_io_map(psc->sc_pf, PCMCIA_WIDTH_IO16, 0, XI_IOSIZ,
    391  1.1  gmcgarry 		&psc->sc_pcioh, &psc->sc_io_window)) {
    392  1.1  gmcgarry 		printf(": can't map i/o space\n");
    393  1.1  gmcgarry 		goto fail;
    394  1.1  gmcgarry 	}
    395  1.1  gmcgarry 	sc->sc_bst = psc->sc_pcioh.iot;
    396  1.1  gmcgarry 	sc->sc_bsh = psc->sc_pcioh.ioh;
    397  1.1  gmcgarry 	sc->sc_offset = 0;
    398  1.1  gmcgarry 	psc->sc_resource |= XI_RES_IO;
    399  1.1  gmcgarry 
    400  1.3  gmcgarry 	xpp = xi_pcmcia_identify(parent,pa);
    401  1.3  gmcgarry 	if (xpp == NULL) {
    402  1.3  gmcgarry 		printf(": unrecognised model\n");
    403  1.3  gmcgarry 		return;
    404  1.3  gmcgarry 	}
    405  1.1  gmcgarry 	sc->sc_flags = xpp->xpp_flags;
    406  1.1  gmcgarry 
    407  1.1  gmcgarry 	printf(": %s\n", xpp->xpp_name);
    408  1.1  gmcgarry 
    409  1.1  gmcgarry 	/*
    410  1.1  gmcgarry 	 * Configuration as adviced by DINGO documentation.
    411  1.1  gmcgarry 	 * Dingo has some extra configuration registers in the CCR space.
    412  1.1  gmcgarry 	 */
    413  1.3  gmcgarry 	if (sc->sc_flags & XIFLAGS_DINGO) {
    414  1.1  gmcgarry 		struct pcmcia_mem_handle pcmh;
    415  1.1  gmcgarry 		int ccr_window;
    416  1.1  gmcgarry 		bus_addr_t ccr_offset;
    417  1.1  gmcgarry 
    418  1.1  gmcgarry 		if (pcmcia_mem_alloc(psc->sc_pf, PCMCIA_CCR_SIZE_DINGO,
    419  1.1  gmcgarry 			&pcmh)) {
    420  1.2  gmcgarry 			DPRINTF(XID_CONFIG, ("xi: bad mem alloc\n"));
    421  1.1  gmcgarry 			goto fail;
    422  1.1  gmcgarry 		}
    423  1.1  gmcgarry 
    424  1.1  gmcgarry 		if (pcmcia_mem_map(psc->sc_pf, PCMCIA_MEM_ATTR,
    425  1.1  gmcgarry 			psc->sc_pf->ccr_base, PCMCIA_CCR_SIZE_DINGO,
    426  1.1  gmcgarry 			&pcmh, &ccr_offset, &ccr_window)) {
    427  1.2  gmcgarry 			DPRINTF(XID_CONFIG, ("xi: bad mem map\n"));
    428  1.1  gmcgarry 			pcmcia_mem_free(psc->sc_pf, &pcmh);
    429  1.1  gmcgarry 			goto fail;
    430  1.1  gmcgarry 		}
    431  1.1  gmcgarry 
    432  1.1  gmcgarry 		bus_space_write_1(pcmh.memt, pcmh.memh,
    433  1.1  gmcgarry 		    ccr_offset + PCMCIA_CCR_DCOR0, PCMCIA_CCR_DCOR0_SFINT);
    434  1.1  gmcgarry 		bus_space_write_1(pcmh.memt, pcmh.memh,
    435  1.1  gmcgarry 		    ccr_offset + PCMCIA_CCR_DCOR1,
    436  1.1  gmcgarry 		    PCMCIA_CCR_DCOR1_FORCE_LEVIREQ | PCMCIA_CCR_DCOR1_D6);
    437  1.1  gmcgarry 		bus_space_write_1(pcmh.memt, pcmh.memh,
    438  1.1  gmcgarry 		    ccr_offset + PCMCIA_CCR_DCOR2, 0);
    439  1.1  gmcgarry 		bus_space_write_1(pcmh.memt, pcmh.memh,
    440  1.1  gmcgarry 		    ccr_offset + PCMCIA_CCR_DCOR3, 0);
    441  1.1  gmcgarry 		bus_space_write_1(pcmh.memt, pcmh.memh,
    442  1.1  gmcgarry 		    ccr_offset + PCMCIA_CCR_DCOR4, 0);
    443  1.1  gmcgarry 
    444  1.1  gmcgarry 		/* We don't need them anymore and can free them (I think). */
    445  1.1  gmcgarry 		pcmcia_mem_unmap(psc->sc_pf, ccr_window);
    446  1.1  gmcgarry 		pcmcia_mem_free(psc->sc_pf, &pcmh);
    447  1.1  gmcgarry 	}
    448  1.1  gmcgarry 
    449  1.1  gmcgarry 	/*
    450  1.1  gmcgarry 	 * Try to get the ethernet address from FUNCE/LAN_NID tuple.
    451  1.1  gmcgarry 	 */
    452  1.1  gmcgarry 	xi_pcmcia_funce_enaddr(parent, sc->sc_enaddr);
    453  1.1  gmcgarry 	if (!sc->sc_enaddr) {
    454  1.1  gmcgarry 		printf("%s: unable to get ethernet address\n",
    455  1.1  gmcgarry 			sc->sc_dev.dv_xname);
    456  1.1  gmcgarry 		goto fail;
    457  1.1  gmcgarry 	}
    458  1.1  gmcgarry 
    459  1.1  gmcgarry 	printf("%s: Ethernet address %s\n", sc->sc_dev.dv_xname,
    460  1.1  gmcgarry 	    ether_sprintf(sc->sc_enaddr));
    461  1.1  gmcgarry 
    462  1.1  gmcgarry 	ifp = &sc->sc_ethercom.ec_if;
    463  1.1  gmcgarry 	memcpy(ifp->if_xname, sc->sc_dev.dv_xname, IFNAMSIZ);
    464  1.1  gmcgarry 	ifp->if_softc = sc;
    465  1.1  gmcgarry 	ifp->if_start = xi_start;
    466  1.1  gmcgarry 	ifp->if_ioctl = xi_ioctl;
    467  1.1  gmcgarry 	ifp->if_watchdog = xi_watchdog;
    468  1.1  gmcgarry 	ifp->if_flags =
    469  1.1  gmcgarry 	    IFF_BROADCAST | IFF_NOTRAILERS | IFF_SIMPLEX | IFF_MULTICAST;
    470  1.7   thorpej 	IFQ_SET_READY(&ifp->if_snd);
    471  1.1  gmcgarry 
    472  1.1  gmcgarry 	/* Reset and initialize the card. */
    473  1.1  gmcgarry 	xi_full_reset(sc);
    474  1.1  gmcgarry 
    475  1.1  gmcgarry 	/*
    476  1.1  gmcgarry 	 * Initialize our media structures and probe the MII.
    477  1.1  gmcgarry 	 */
    478  1.1  gmcgarry 	sc->sc_mii.mii_ifp = ifp;
    479  1.1  gmcgarry 	sc->sc_mii.mii_readreg = xi_mdi_read;
    480  1.1  gmcgarry 	sc->sc_mii.mii_writereg = xi_mdi_write;
    481  1.1  gmcgarry 	sc->sc_mii.mii_statchg = xi_statchg;
    482  1.1  gmcgarry 	ifmedia_init(&sc->sc_mii.mii_media, 0, xi_mediachange,
    483  1.1  gmcgarry 	    xi_mediastatus);
    484  1.1  gmcgarry 	DPRINTF(XID_MII | XID_CONFIG,
    485  1.2  gmcgarry 	    ("xi: bmsr %x\n", xi_mdi_read(&sc->sc_dev, 0, 1)));
    486  1.1  gmcgarry 	mii_attach(self, &sc->sc_mii, 0xffffffff, MII_PHY_ANY,
    487  1.1  gmcgarry 		MII_OFFSET_ANY, 0);
    488  1.1  gmcgarry 	if (LIST_FIRST(&sc->sc_mii.mii_phys) == NULL)
    489  1.1  gmcgarry 		ifmedia_add(&sc->sc_mii.mii_media, IFM_ETHER | IFM_AUTO, 0,
    490  1.1  gmcgarry 		    NULL);
    491  1.1  gmcgarry 	ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER | IFM_AUTO);
    492  1.1  gmcgarry 
    493  1.1  gmcgarry 	/*
    494  1.1  gmcgarry 	 * Attach the interface.
    495  1.1  gmcgarry 	 */
    496  1.1  gmcgarry 	if_attach(ifp);
    497  1.1  gmcgarry 	ether_ifattach(ifp, sc->sc_enaddr);
    498  1.1  gmcgarry 	psc->sc_resource |= XI_RES_MI;
    499  1.1  gmcgarry 
    500  1.1  gmcgarry 	/*
    501  1.1  gmcgarry 	 * Reset and initialize the card again for DINGO (as found in Linux
    502  1.1  gmcgarry 	 * driver).  Without this Dingo will get a watchdog timeout the first
    503  1.1  gmcgarry 	 * time.  The ugly media tickling seems to be necessary for getting
    504  1.1  gmcgarry 	 * autonegotiation to work too.
    505  1.1  gmcgarry 	 */
    506  1.3  gmcgarry 	if (sc->sc_flags & XIFLAGS_DINGO) {
    507  1.1  gmcgarry 		xi_full_reset(sc);
    508  1.1  gmcgarry 		xi_init(sc);
    509  1.1  gmcgarry 		ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER | IFM_AUTO);
    510  1.1  gmcgarry 		ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER | IFM_NONE);
    511  1.1  gmcgarry 		xi_stop(sc);
    512  1.1  gmcgarry 	}
    513  1.1  gmcgarry 
    514  1.1  gmcgarry 	/* Establish the interrupt. */
    515  1.1  gmcgarry 	psc->sc_ih = pcmcia_intr_establish(psc->sc_pf, IPL_NET, xi_intr, sc);
    516  1.1  gmcgarry 	if (psc->sc_ih == NULL) {
    517  1.1  gmcgarry 		printf("%s: couldn't establish interrupt\n",
    518  1.1  gmcgarry 			sc->sc_dev.dv_xname);
    519  1.1  gmcgarry 		goto fail;
    520  1.1  gmcgarry 	}
    521  1.1  gmcgarry 
    522  1.1  gmcgarry 	return;
    523  1.1  gmcgarry 
    524  1.1  gmcgarry fail:
    525  1.1  gmcgarry 	if ((psc->sc_resource & XI_RES_IO) != 0) {
    526  1.1  gmcgarry 		/* Unmap our i/o windows. */
    527  1.1  gmcgarry 		pcmcia_io_unmap(psc->sc_pf, psc->sc_io_window);
    528  1.1  gmcgarry                 pcmcia_io_free(psc->sc_pf, &psc->sc_pcioh);
    529  1.1  gmcgarry         }
    530  1.1  gmcgarry         psc->sc_resource &= ~XI_RES_IO;
    531  1.1  gmcgarry 	if (psc->sc_resource & XI_RES_PCIC) {
    532  1.1  gmcgarry 		pcmcia_function_disable(pa->pf);
    533  1.1  gmcgarry 		psc->sc_resource &= ~XI_RES_PCIC;
    534  1.1  gmcgarry 	}
    535  1.1  gmcgarry 	free(SIMPLEQ_FIRST(&psc->sc_pf->cfe_head), M_DEVBUF);
    536  1.1  gmcgarry }
    537  1.1  gmcgarry 
    538  1.1  gmcgarry int
    539  1.1  gmcgarry xi_pcmcia_detach(self, flags)
    540  1.1  gmcgarry      struct device *self;
    541  1.1  gmcgarry      int flags;
    542  1.1  gmcgarry {
    543  1.1  gmcgarry 	struct xi_pcmcia_softc *psc = (struct xi_pcmcia_softc *)self;
    544  1.2  gmcgarry 	struct xi_softc *sc = &psc->sc_xi;
    545  1.1  gmcgarry 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
    546  1.1  gmcgarry 
    547  1.1  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_pcmcia_detach()\n"));
    548  1.1  gmcgarry 
    549  1.1  gmcgarry 	if ((ifp->if_flags & IFF_RUNNING) == 0) {
    550  1.1  gmcgarry 		xi_stop(sc);
    551  1.1  gmcgarry 	}
    552  1.1  gmcgarry 
    553  1.1  gmcgarry 	pcmcia_function_disable(psc->sc_pf);
    554  1.1  gmcgarry 	psc->sc_resource &= ~XI_RES_PCIC;
    555  1.1  gmcgarry 	pcmcia_intr_disestablish(psc->sc_pf, psc->sc_ih);
    556  1.1  gmcgarry 	ifp->if_flags &= ~IFF_RUNNING;
    557  1.1  gmcgarry 	ifp->if_timer = 0;
    558  1.1  gmcgarry 
    559  1.1  gmcgarry 	if ((psc->sc_resource & XI_RES_MI) != 0) {
    560  1.1  gmcgarry 
    561  1.1  gmcgarry 		mii_detach(&sc->sc_mii, MII_PHY_ANY, MII_OFFSET_ANY);
    562  1.1  gmcgarry 
    563  1.1  gmcgarry 		ifmedia_delete_instance(&sc->sc_mii.mii_media, IFM_INST_ANY);
    564  1.6   thorpej 
    565  1.1  gmcgarry 		ether_ifdetach(ifp);
    566  1.1  gmcgarry 		if_detach(ifp);
    567  1.1  gmcgarry 		psc->sc_resource &= ~XI_RES_MI;
    568  1.1  gmcgarry 	}
    569  1.1  gmcgarry 
    570  1.1  gmcgarry 	if ((psc->sc_resource & XI_RES_IO) != 0) {
    571  1.1  gmcgarry 		/* Unmap our i/o windows. */
    572  1.1  gmcgarry 		pcmcia_io_unmap(psc->sc_pf, psc->sc_io_window);
    573  1.1  gmcgarry                 pcmcia_io_free(psc->sc_pf, &psc->sc_pcioh);
    574  1.1  gmcgarry         }
    575  1.1  gmcgarry         free(SIMPLEQ_FIRST(&psc->sc_pf->cfe_head), M_DEVBUF);
    576  1.1  gmcgarry 	psc->sc_resource &= ~XI_RES_IO;
    577  1.1  gmcgarry 
    578  1.1  gmcgarry 	return 0;
    579  1.1  gmcgarry }
    580  1.1  gmcgarry 
    581  1.1  gmcgarry int
    582  1.1  gmcgarry xi_pcmcia_activate(self, act)
    583  1.1  gmcgarry      struct device *self;
    584  1.1  gmcgarry      enum devact act;
    585  1.1  gmcgarry {
    586  1.1  gmcgarry 	struct xi_pcmcia_softc *psc = (struct xi_pcmcia_softc *)self;
    587  1.2  gmcgarry 	struct xi_softc *sc = &psc->sc_xi;
    588  1.1  gmcgarry 	int s, rv=0;
    589  1.1  gmcgarry 
    590  1.1  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_pcmcia_activate()\n"));
    591  1.1  gmcgarry 
    592  1.1  gmcgarry 	s = splnet();
    593  1.1  gmcgarry 	switch (act) {
    594  1.1  gmcgarry 	case DVACT_ACTIVATE:
    595  1.1  gmcgarry 		rv = EOPNOTSUPP;
    596  1.1  gmcgarry 		break;
    597  1.1  gmcgarry 
    598  1.1  gmcgarry 	case DVACT_DEACTIVATE:
    599  1.1  gmcgarry 		if_deactivate(&sc->sc_ethercom.ec_if);
    600  1.1  gmcgarry 		break;
    601  1.1  gmcgarry 	}
    602  1.1  gmcgarry 	splx(s);
    603  1.1  gmcgarry 	return (rv);
    604  1.1  gmcgarry }
    605  1.1  gmcgarry 
    606  1.1  gmcgarry /*
    607  1.1  gmcgarry  * XXX These two functions might be OK to factor out into pcmcia.c since
    608  1.1  gmcgarry  * if_sm_pcmcia.c uses similar ones.
    609  1.1  gmcgarry  */
    610  1.1  gmcgarry static int
    611  1.1  gmcgarry xi_pcmcia_funce_enaddr(parent, myla)
    612  1.1  gmcgarry 	struct device *parent;
    613  1.1  gmcgarry 	u_int8_t *myla;
    614  1.1  gmcgarry {
    615  1.1  gmcgarry 	/* XXX The Linux driver has more ways to do this in case of failure. */
    616  1.1  gmcgarry 	return (pcmcia_scan_cis(parent, xi_pcmcia_lan_nid_ciscallback, myla));
    617  1.1  gmcgarry }
    618  1.1  gmcgarry 
    619  1.1  gmcgarry static int
    620  1.1  gmcgarry xi_pcmcia_lan_nid_ciscallback(tuple, arg)
    621  1.1  gmcgarry 	struct pcmcia_tuple *tuple;
    622  1.1  gmcgarry 	void *arg;
    623  1.1  gmcgarry {
    624  1.1  gmcgarry 	u_int8_t *myla = arg;
    625  1.1  gmcgarry 	int i;
    626  1.1  gmcgarry 
    627  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_pcmcia_lan_nid_ciscallback()\n"));
    628  1.1  gmcgarry 
    629  1.1  gmcgarry 	if (tuple->code == PCMCIA_CISTPL_FUNCE) {
    630  1.1  gmcgarry 		if (tuple->length < 2)
    631  1.1  gmcgarry 			return (0);
    632  1.1  gmcgarry 
    633  1.1  gmcgarry 		switch (pcmcia_tuple_read_1(tuple, 0)) {
    634  1.1  gmcgarry 		case PCMCIA_TPLFE_TYPE_LAN_NID:
    635  1.1  gmcgarry 			if (pcmcia_tuple_read_1(tuple, 1) != ETHER_ADDR_LEN)
    636  1.1  gmcgarry 				return (0);
    637  1.1  gmcgarry 			break;
    638  1.1  gmcgarry 
    639  1.1  gmcgarry 		case 0x02:
    640  1.1  gmcgarry 			/*
    641  1.1  gmcgarry 			 * Not sure about this, I don't have a CE2
    642  1.1  gmcgarry 			 * that puts the ethernet addr here.
    643  1.1  gmcgarry 			 */
    644  1.1  gmcgarry 		 	if (pcmcia_tuple_read_1(tuple, 1) != 13)
    645  1.1  gmcgarry 				return (0);
    646  1.1  gmcgarry 			break;
    647  1.1  gmcgarry 
    648  1.1  gmcgarry 		default:
    649  1.1  gmcgarry 			return (0);
    650  1.1  gmcgarry 		}
    651  1.1  gmcgarry 
    652  1.1  gmcgarry 		for (i = 0; i < ETHER_ADDR_LEN; i++)
    653  1.1  gmcgarry 			myla[i] = pcmcia_tuple_read_1(tuple, i + 2);
    654  1.1  gmcgarry 		return (1);
    655  1.1  gmcgarry 	}
    656  1.1  gmcgarry 
    657  1.1  gmcgarry 	/* Yet another spot where this might be. */
    658  1.1  gmcgarry 	if (tuple->code == 0x89) {
    659  1.1  gmcgarry 		pcmcia_tuple_read_1(tuple, 1);
    660  1.1  gmcgarry 		for (i = 0; i < ETHER_ADDR_LEN; i++)
    661  1.1  gmcgarry 			myla[i] = pcmcia_tuple_read_1(tuple, i + 2);
    662  1.1  gmcgarry 		return (1);
    663  1.1  gmcgarry 	}
    664  1.1  gmcgarry 	return (0);
    665  1.1  gmcgarry }
    666  1.1  gmcgarry 
    667  1.3  gmcgarry int
    668  1.3  gmcgarry xi_pcmcia_manfid_ciscallback(tuple, arg)
    669  1.3  gmcgarry 	struct pcmcia_tuple *tuple;
    670  1.3  gmcgarry 	void *arg;
    671  1.3  gmcgarry {
    672  1.3  gmcgarry 	u_int8_t *id = arg;
    673  1.3  gmcgarry 
    674  1.3  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_pcmcia_manfid_callback()\n"));
    675  1.3  gmcgarry 
    676  1.3  gmcgarry 	if (tuple->code != PCMCIA_CISTPL_MANFID)
    677  1.3  gmcgarry 		return (0);
    678  1.3  gmcgarry 
    679  1.3  gmcgarry 	if (tuple->length < 2)
    680  1.3  gmcgarry 		return (0);
    681  1.3  gmcgarry 
    682  1.3  gmcgarry 	*id = pcmcia_tuple_read_1(tuple, 4);
    683  1.3  gmcgarry 	return (1);
    684  1.3  gmcgarry }
    685  1.3  gmcgarry 
    686  1.3  gmcgarry 
    687  1.3  gmcgarry 
    688  1.1  gmcgarry static int
    689  1.1  gmcgarry xi_intr(arg)
    690  1.1  gmcgarry 	void *arg;
    691  1.1  gmcgarry {
    692  1.1  gmcgarry 	struct xi_softc *sc = arg;
    693  1.1  gmcgarry 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
    694  1.1  gmcgarry 	u_int8_t esr, rsr, isr, rx_status, savedpage;
    695  1.1  gmcgarry 	u_int16_t tx_status, recvcount = 0, tempint;
    696  1.1  gmcgarry 
    697  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_intr()\n"));
    698  1.1  gmcgarry 
    699  1.1  gmcgarry #if 0
    700  1.1  gmcgarry 	if (!(ifp->if_flags & IFF_RUNNING))
    701  1.1  gmcgarry 		return (0);
    702  1.1  gmcgarry #endif
    703  1.1  gmcgarry 
    704  1.1  gmcgarry 	ifp->if_timer = 0;	/* turn watchdog timer off */
    705  1.1  gmcgarry 
    706  1.3  gmcgarry 	if (sc->sc_flags & XIFLAGS_MOHAWK) {
    707  1.1  gmcgarry 		/* Disable interrupt (Linux does it). */
    708  1.1  gmcgarry 		bus_space_write_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + CR,
    709  1.1  gmcgarry 		    0);
    710  1.1  gmcgarry 	}
    711  1.1  gmcgarry 
    712  1.1  gmcgarry 	savedpage =
    713  1.1  gmcgarry 	    bus_space_read_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + PR);
    714  1.1  gmcgarry 
    715  1.1  gmcgarry 	PAGE(sc, 0);
    716  1.1  gmcgarry 	esr = bus_space_read_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + ESR);
    717  1.1  gmcgarry 	isr = bus_space_read_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + ISR0);
    718  1.1  gmcgarry 	rsr = bus_space_read_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + RSR);
    719  1.1  gmcgarry 
    720  1.1  gmcgarry 	/* Check to see if card has been ejected. */
    721  1.1  gmcgarry 	if (isr == 0xff) {
    722  1.1  gmcgarry #ifdef DIAGNOSTIC
    723  1.1  gmcgarry 		printf("%s: interrupt for dead card\n", sc->sc_dev.dv_xname);
    724  1.1  gmcgarry #endif
    725  1.1  gmcgarry 		goto end;
    726  1.1  gmcgarry 	}
    727  1.1  gmcgarry 
    728  1.1  gmcgarry 	PAGE(sc, 40);
    729  1.1  gmcgarry 	rx_status =
    730  1.1  gmcgarry 	    bus_space_read_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + RXST0);
    731  1.1  gmcgarry 	tx_status =
    732  1.1  gmcgarry 	    bus_space_read_2(sc->sc_bst, sc->sc_bsh, sc->sc_offset + TXST0);
    733  1.1  gmcgarry 
    734  1.1  gmcgarry 	/*
    735  1.1  gmcgarry 	 * XXX Linux writes to RXST0 and TXST* here.  My CE2 works just fine
    736  1.1  gmcgarry 	 * without it, and I can't see an obvious reason for it.
    737  1.1  gmcgarry 	 */
    738  1.1  gmcgarry 
    739  1.1  gmcgarry 	PAGE(sc, 0);
    740  1.1  gmcgarry 	while (esr & FULL_PKT_RCV) {
    741  1.1  gmcgarry 		if (!(rsr & RSR_RX_OK))
    742  1.1  gmcgarry 			break;
    743  1.1  gmcgarry 
    744  1.1  gmcgarry 		/* Compare bytes read this interrupt to hard maximum. */
    745  1.1  gmcgarry 		if (recvcount > MAX_BYTES_INTR) {
    746  1.1  gmcgarry 			DPRINTF(XID_INTR,
    747  1.2  gmcgarry 			    ("xi: too many bytes this interrupt\n"));
    748  1.1  gmcgarry 			ifp->if_iqdrops++;
    749  1.1  gmcgarry 			/* Drop packet. */
    750  1.1  gmcgarry 			bus_space_write_2(sc->sc_bst, sc->sc_bsh,
    751  1.1  gmcgarry 			    sc->sc_offset + DO0, DO_SKIP_RX_PKT);
    752  1.1  gmcgarry 		}
    753  1.1  gmcgarry 		tempint = xi_get(sc);	/* XXX doesn't check the error! */
    754  1.1  gmcgarry 		recvcount += tempint;
    755  1.1  gmcgarry 		ifp->if_ibytes += tempint;
    756  1.1  gmcgarry 		esr = bus_space_read_1(sc->sc_bst, sc->sc_bsh,
    757  1.1  gmcgarry 		    sc->sc_offset + ESR);
    758  1.1  gmcgarry 		rsr = bus_space_read_1(sc->sc_bst, sc->sc_bsh,
    759  1.1  gmcgarry 		    sc->sc_offset + RSR);
    760  1.1  gmcgarry 	}
    761  1.1  gmcgarry 
    762  1.1  gmcgarry 	/* Packet too long? */
    763  1.1  gmcgarry 	if (rsr & RSR_TOO_LONG) {
    764  1.1  gmcgarry 		ifp->if_ierrors++;
    765  1.2  gmcgarry 		DPRINTF(XID_INTR, ("xi: packet too long\n"));
    766  1.1  gmcgarry 	}
    767  1.1  gmcgarry 
    768  1.1  gmcgarry 	/* CRC error? */
    769  1.1  gmcgarry 	if (rsr & RSR_CRCERR) {
    770  1.1  gmcgarry 		ifp->if_ierrors++;
    771  1.2  gmcgarry 		DPRINTF(XID_INTR, ("xi: CRC error detected\n"));
    772  1.1  gmcgarry 	}
    773  1.1  gmcgarry 
    774  1.1  gmcgarry 	/* Alignment error? */
    775  1.1  gmcgarry 	if (rsr & RSR_ALIGNERR) {
    776  1.1  gmcgarry 		ifp->if_ierrors++;
    777  1.2  gmcgarry 		DPRINTF(XID_INTR, ("xi: alignment error detected\n"));
    778  1.1  gmcgarry 	}
    779  1.1  gmcgarry 
    780  1.1  gmcgarry 	/* Check for rx overrun. */
    781  1.1  gmcgarry 	if (rx_status & RX_OVERRUN) {
    782  1.1  gmcgarry 		bus_space_write_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + CR,
    783  1.1  gmcgarry 		    CLR_RX_OVERRUN);
    784  1.2  gmcgarry 		DPRINTF(XID_INTR, ("xi: overrun cleared\n"));
    785  1.1  gmcgarry 	}
    786  1.1  gmcgarry 
    787  1.1  gmcgarry 	/* Try to start more packets transmitting. */
    788  1.7   thorpej 	if (IFQ_IS_EMPTY(&ifp->if_snd) == 0)
    789  1.1  gmcgarry 		xi_start(ifp);
    790  1.1  gmcgarry 
    791  1.1  gmcgarry 	/* Detected excessive collisions? */
    792  1.1  gmcgarry 	if ((tx_status & EXCESSIVE_COLL) && ifp->if_opackets > 0) {
    793  1.2  gmcgarry 		DPRINTF(XID_INTR, ("xi: excessive collisions\n"));
    794  1.1  gmcgarry 		bus_space_write_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + CR,
    795  1.1  gmcgarry 		    RESTART_TX);
    796  1.1  gmcgarry 		ifp->if_oerrors++;
    797  1.1  gmcgarry 	}
    798  1.1  gmcgarry 
    799  1.1  gmcgarry 	if ((tx_status & TX_ABORT) && ifp->if_opackets > 0)
    800  1.1  gmcgarry 		ifp->if_oerrors++;
    801  1.1  gmcgarry 
    802  1.1  gmcgarry end:
    803  1.1  gmcgarry 	/* Reenable interrupts. */
    804  1.1  gmcgarry 	PAGE(sc, savedpage);
    805  1.1  gmcgarry 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + CR,
    806  1.1  gmcgarry 	    ENABLE_INT);
    807  1.1  gmcgarry 
    808  1.1  gmcgarry 	return (1);
    809  1.1  gmcgarry }
    810  1.1  gmcgarry 
    811  1.1  gmcgarry /*
    812  1.1  gmcgarry  * Pull a packet from the card into an mbuf chain.
    813  1.1  gmcgarry  */
    814  1.1  gmcgarry static u_int16_t
    815  1.1  gmcgarry xi_get(sc)
    816  1.1  gmcgarry 	struct xi_softc *sc;
    817  1.1  gmcgarry {
    818  1.1  gmcgarry 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
    819  1.1  gmcgarry 	struct mbuf *top, **mp, *m;
    820  1.1  gmcgarry 	u_int16_t pktlen, len, recvcount = 0;
    821  1.1  gmcgarry 	u_int8_t *data;
    822  1.1  gmcgarry 	u_int8_t rsr;
    823  1.1  gmcgarry 
    824  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_get()\n"));
    825  1.1  gmcgarry 
    826  1.1  gmcgarry 	PAGE(sc, 0);
    827  1.1  gmcgarry 	rsr = bus_space_read_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + RSR);
    828  1.1  gmcgarry 
    829  1.1  gmcgarry 	pktlen =
    830  1.1  gmcgarry 	    bus_space_read_2(sc->sc_bst, sc->sc_bsh, sc->sc_offset + RBC0) &
    831  1.1  gmcgarry 	    RBC_COUNT_MASK;
    832  1.1  gmcgarry 
    833  1.1  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_get: pktlen=%d\n", pktlen));
    834  1.1  gmcgarry 
    835  1.1  gmcgarry 	if (pktlen == 0) {
    836  1.1  gmcgarry 		/*
    837  1.1  gmcgarry 		 * XXX At least one CE2 sets RBC0 == 0 occasionally, and only
    838  1.1  gmcgarry 		 * when MPE is set.  It is not known why.
    839  1.1  gmcgarry 		 */
    840  1.1  gmcgarry 		return (0);
    841  1.1  gmcgarry 	}
    842  1.1  gmcgarry 
    843  1.1  gmcgarry 	/* XXX should this be incremented now ? */
    844  1.1  gmcgarry 	recvcount += pktlen;
    845  1.1  gmcgarry 
    846  1.1  gmcgarry 	MGETHDR(m, M_DONTWAIT, MT_DATA);
    847  1.1  gmcgarry 	if (m == 0)
    848  1.1  gmcgarry 		return (recvcount);
    849  1.1  gmcgarry 	m->m_pkthdr.rcvif = ifp;
    850  1.1  gmcgarry 	m->m_pkthdr.len = pktlen;
    851  1.1  gmcgarry 	len = MHLEN;
    852  1.1  gmcgarry 	top = 0;
    853  1.1  gmcgarry 	mp = &top;
    854  1.1  gmcgarry 
    855  1.1  gmcgarry 	while (pktlen > 0) {
    856  1.1  gmcgarry 		if (top) {
    857  1.1  gmcgarry 			MGET(m, M_DONTWAIT, MT_DATA);
    858  1.1  gmcgarry 			if (m == 0) {
    859  1.1  gmcgarry 				m_freem(top);
    860  1.1  gmcgarry 				return (recvcount);
    861  1.1  gmcgarry 			}
    862  1.1  gmcgarry 			len = MLEN;
    863  1.1  gmcgarry 		}
    864  1.1  gmcgarry 		if (pktlen >= MINCLSIZE) {
    865  1.1  gmcgarry 			MCLGET(m, M_DONTWAIT);
    866  1.1  gmcgarry 			if (!(m->m_flags & M_EXT)) {
    867  1.1  gmcgarry 				m_freem(m);
    868  1.1  gmcgarry 				m_freem(top);
    869  1.1  gmcgarry 				return (recvcount);
    870  1.1  gmcgarry 			}
    871  1.1  gmcgarry 			len = MCLBYTES;
    872  1.1  gmcgarry 		}
    873  1.1  gmcgarry 		if (!top) {
    874  1.1  gmcgarry 			caddr_t newdata = (caddr_t)ALIGN(m->m_data +
    875  1.1  gmcgarry 			    sizeof(struct ether_header)) -
    876  1.1  gmcgarry 			    sizeof(struct ether_header);
    877  1.1  gmcgarry 			len -= newdata - m->m_data;
    878  1.1  gmcgarry 			m->m_data = newdata;
    879  1.1  gmcgarry 		}
    880  1.1  gmcgarry 		len = min(pktlen, len);
    881  1.1  gmcgarry 		data = mtod(m, u_int8_t *);
    882  1.1  gmcgarry 		if (len > 1) {
    883  1.1  gmcgarry 		        len &= ~1;
    884  1.1  gmcgarry 			bus_space_read_multi_2(sc->sc_bst, sc->sc_bsh,
    885  1.1  gmcgarry 			    sc->sc_offset + EDP, data, len>>1);
    886  1.1  gmcgarry 		} else
    887  1.1  gmcgarry 			*data = bus_space_read_1(sc->sc_bst, sc->sc_bsh,
    888  1.1  gmcgarry 			    sc->sc_offset + EDP);
    889  1.1  gmcgarry 		m->m_len = len;
    890  1.1  gmcgarry 		pktlen -= len;
    891  1.1  gmcgarry 		*mp = m;
    892  1.1  gmcgarry 		mp = &m->m_next;
    893  1.1  gmcgarry 	}
    894  1.1  gmcgarry 
    895  1.1  gmcgarry 	/* Skip Rx packet. */
    896  1.1  gmcgarry 	bus_space_write_2(sc->sc_bst, sc->sc_bsh, sc->sc_offset + DO0,
    897  1.1  gmcgarry 	    DO_SKIP_RX_PKT);
    898  1.1  gmcgarry 
    899  1.1  gmcgarry 	ifp->if_ipackets++;
    900  1.1  gmcgarry 
    901  1.1  gmcgarry #if NBPFILTER > 0
    902  1.1  gmcgarry 	if (ifp->if_bpf)
    903  1.1  gmcgarry 		bpf_mtap(ifp->if_bpf, top);
    904  1.1  gmcgarry #endif
    905  1.1  gmcgarry 
    906  1.1  gmcgarry 	(*ifp->if_input)(ifp, top);
    907  1.1  gmcgarry 	return (recvcount);
    908  1.1  gmcgarry }
    909  1.1  gmcgarry 
    910  1.1  gmcgarry /*
    911  1.1  gmcgarry  * Serial management for the MII.
    912  1.1  gmcgarry  * The DELAY's below stem from the fact that the maximum frequency
    913  1.1  gmcgarry  * acceptable on the MDC pin is 2.5 MHz and fast processors can easily
    914  1.1  gmcgarry  * go much faster than that.
    915  1.1  gmcgarry  */
    916  1.1  gmcgarry 
    917  1.1  gmcgarry /* Let the MII serial management be idle for one period. */
    918  1.1  gmcgarry static INLINE void xi_mdi_idle __P((struct xi_softc *));
    919  1.1  gmcgarry static INLINE void
    920  1.1  gmcgarry xi_mdi_idle(sc)
    921  1.1  gmcgarry 	struct xi_softc *sc;
    922  1.1  gmcgarry {
    923  1.1  gmcgarry 	bus_space_tag_t bst = sc->sc_bst;
    924  1.1  gmcgarry 	bus_space_handle_t bsh = sc->sc_bsh;
    925  1.1  gmcgarry 	bus_addr_t offset = sc->sc_offset;
    926  1.1  gmcgarry 
    927  1.1  gmcgarry 	/* Drive MDC low... */
    928  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + GP2, MDC_LOW);
    929  1.1  gmcgarry 	DELAY(1);
    930  1.1  gmcgarry 
    931  1.1  gmcgarry 	/* and high again. */
    932  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + GP2, MDC_HIGH);
    933  1.1  gmcgarry 	DELAY(1);
    934  1.1  gmcgarry }
    935  1.1  gmcgarry 
    936  1.1  gmcgarry /* Pulse out one bit of data. */
    937  1.1  gmcgarry static INLINE void xi_mdi_pulse __P((struct xi_softc *, int));
    938  1.1  gmcgarry static INLINE void
    939  1.1  gmcgarry xi_mdi_pulse(sc, data)
    940  1.1  gmcgarry 	struct xi_softc *sc;
    941  1.1  gmcgarry 	int data;
    942  1.1  gmcgarry {
    943  1.1  gmcgarry 	bus_space_tag_t bst = sc->sc_bst;
    944  1.1  gmcgarry 	bus_space_handle_t bsh = sc->sc_bsh;
    945  1.1  gmcgarry 	bus_addr_t offset = sc->sc_offset;
    946  1.1  gmcgarry 	u_int8_t bit = data ? MDIO_HIGH : MDIO_LOW;
    947  1.1  gmcgarry 
    948  1.1  gmcgarry 	/* First latch the data bit MDIO with clock bit MDC low...*/
    949  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + GP2, bit | MDC_LOW);
    950  1.1  gmcgarry 	DELAY(1);
    951  1.1  gmcgarry 
    952  1.1  gmcgarry 	/* then raise the clock again, preserving the data bit. */
    953  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + GP2, bit | MDC_HIGH);
    954  1.1  gmcgarry 	DELAY(1);
    955  1.1  gmcgarry }
    956  1.1  gmcgarry 
    957  1.1  gmcgarry /* Probe one bit of data. */
    958  1.1  gmcgarry static INLINE int xi_mdi_probe __P((struct xi_softc *sc));
    959  1.1  gmcgarry static INLINE int
    960  1.1  gmcgarry xi_mdi_probe(sc)
    961  1.1  gmcgarry 	struct xi_softc *sc;
    962  1.1  gmcgarry {
    963  1.1  gmcgarry 	bus_space_tag_t bst = sc->sc_bst;
    964  1.1  gmcgarry 	bus_space_handle_t bsh = sc->sc_bsh;
    965  1.1  gmcgarry 	bus_addr_t offset = sc->sc_offset;
    966  1.1  gmcgarry 	u_int8_t x;
    967  1.1  gmcgarry 
    968  1.1  gmcgarry 	/* Pull clock bit MDCK low... */
    969  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + GP2, MDC_LOW);
    970  1.1  gmcgarry 	DELAY(1);
    971  1.1  gmcgarry 
    972  1.1  gmcgarry 	/* Read data and drive clock high again. */
    973  1.1  gmcgarry 	x = bus_space_read_1(bst, bsh, offset + GP2) & MDIO;
    974  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + GP2, MDC_HIGH);
    975  1.1  gmcgarry 	DELAY(1);
    976  1.1  gmcgarry 
    977  1.1  gmcgarry 	return (x);
    978  1.1  gmcgarry }
    979  1.1  gmcgarry 
    980  1.1  gmcgarry /* Pulse out a sequence of data bits. */
    981  1.1  gmcgarry static INLINE void xi_mdi_pulse_bits __P((struct xi_softc *, u_int32_t, int));
    982  1.1  gmcgarry static INLINE void
    983  1.1  gmcgarry xi_mdi_pulse_bits(sc, data, len)
    984  1.1  gmcgarry 	struct xi_softc *sc;
    985  1.1  gmcgarry 	u_int32_t data;
    986  1.1  gmcgarry 	int len;
    987  1.1  gmcgarry {
    988  1.1  gmcgarry 	u_int32_t mask;
    989  1.1  gmcgarry 
    990  1.1  gmcgarry 	for (mask = 1 << (len - 1); mask; mask >>= 1)
    991  1.1  gmcgarry 		xi_mdi_pulse(sc, data & mask);
    992  1.1  gmcgarry }
    993  1.1  gmcgarry 
    994  1.1  gmcgarry /* Read a PHY register. */
    995  1.1  gmcgarry static int
    996  1.1  gmcgarry xi_mdi_read(self, phy, reg)
    997  1.1  gmcgarry 	struct device *self;
    998  1.1  gmcgarry 	int phy;
    999  1.1  gmcgarry 	int reg;
   1000  1.1  gmcgarry {
   1001  1.1  gmcgarry 	struct xi_softc *sc = (struct xi_softc *)self;
   1002  1.1  gmcgarry 	int i;
   1003  1.1  gmcgarry 	u_int32_t mask;
   1004  1.1  gmcgarry 	u_int32_t data = 0;
   1005  1.1  gmcgarry 
   1006  1.1  gmcgarry 	PAGE(sc, 2);
   1007  1.1  gmcgarry 	for (i = 0; i < 32; i++)	/* Synchronize. */
   1008  1.1  gmcgarry 		xi_mdi_pulse(sc, 1);
   1009  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, 0x06, 4); /* Start + Read opcode */
   1010  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, phy, 5);	/* PHY address */
   1011  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, reg, 5);	/* PHY register */
   1012  1.1  gmcgarry 	xi_mdi_idle(sc);		/* Turn around. */
   1013  1.1  gmcgarry 	xi_mdi_probe(sc);		/* Drop initial zero bit. */
   1014  1.1  gmcgarry 
   1015  1.1  gmcgarry 	for (mask = 1 << 15; mask; mask >>= 1) {
   1016  1.1  gmcgarry 		if (xi_mdi_probe(sc))
   1017  1.1  gmcgarry 			data |= mask;
   1018  1.1  gmcgarry 	}
   1019  1.1  gmcgarry 	xi_mdi_idle(sc);
   1020  1.1  gmcgarry 
   1021  1.1  gmcgarry 	DPRINTF(XID_MII,
   1022  1.1  gmcgarry 	    ("xi_mdi_read: phy %d reg %d -> %x\n", phy, reg, data));
   1023  1.1  gmcgarry 
   1024  1.1  gmcgarry 	return (data);
   1025  1.1  gmcgarry }
   1026  1.1  gmcgarry 
   1027  1.1  gmcgarry /* Write a PHY register. */
   1028  1.1  gmcgarry static void
   1029  1.1  gmcgarry xi_mdi_write(self, phy, reg, value)
   1030  1.1  gmcgarry 	struct device *self;
   1031  1.1  gmcgarry 	int phy;
   1032  1.1  gmcgarry 	int reg;
   1033  1.1  gmcgarry 	int value;
   1034  1.1  gmcgarry {
   1035  1.1  gmcgarry 	struct xi_softc *sc = (struct xi_softc *)self;
   1036  1.1  gmcgarry 	int i;
   1037  1.1  gmcgarry 
   1038  1.1  gmcgarry 	PAGE(sc, 2);
   1039  1.1  gmcgarry 	for (i = 0; i < 32; i++)	/* Synchronize. */
   1040  1.1  gmcgarry 		xi_mdi_pulse(sc, 1);
   1041  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, 0x05, 4); /* Start + Write opcode */
   1042  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, phy, 5);	/* PHY address */
   1043  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, reg, 5);	/* PHY register */
   1044  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, 0x02, 2); /* Turn around. */
   1045  1.1  gmcgarry 	xi_mdi_pulse_bits(sc, value, 16);	/* Write the data */
   1046  1.1  gmcgarry 	xi_mdi_idle(sc);		/* Idle away. */
   1047  1.1  gmcgarry 
   1048  1.1  gmcgarry 	DPRINTF(XID_MII,
   1049  1.1  gmcgarry 	    ("xi_mdi_write: phy %d reg %d val %x\n", phy, reg, value));
   1050  1.1  gmcgarry }
   1051  1.1  gmcgarry 
   1052  1.1  gmcgarry static void
   1053  1.1  gmcgarry xi_statchg(self)
   1054  1.1  gmcgarry 	struct device *self;
   1055  1.1  gmcgarry {
   1056  1.1  gmcgarry 	/* XXX Update ifp->if_baudrate */
   1057  1.1  gmcgarry }
   1058  1.1  gmcgarry 
   1059  1.1  gmcgarry /*
   1060  1.1  gmcgarry  * Change media according to request.
   1061  1.1  gmcgarry  */
   1062  1.1  gmcgarry static int
   1063  1.1  gmcgarry xi_mediachange(ifp)
   1064  1.1  gmcgarry 	struct ifnet *ifp;
   1065  1.1  gmcgarry {
   1066  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_mediachange()\n"));
   1067  1.1  gmcgarry 
   1068  1.1  gmcgarry 	if (ifp->if_flags & IFF_UP)
   1069  1.1  gmcgarry 		xi_init(ifp->if_softc);
   1070  1.1  gmcgarry 	return (0);
   1071  1.1  gmcgarry }
   1072  1.1  gmcgarry 
   1073  1.1  gmcgarry /*
   1074  1.1  gmcgarry  * Notify the world which media we're using.
   1075  1.1  gmcgarry  */
   1076  1.1  gmcgarry static void
   1077  1.1  gmcgarry xi_mediastatus(ifp, ifmr)
   1078  1.1  gmcgarry 	struct ifnet *ifp;
   1079  1.1  gmcgarry 	struct ifmediareq *ifmr;
   1080  1.1  gmcgarry {
   1081  1.1  gmcgarry 	struct xi_softc *sc = ifp->if_softc;
   1082  1.1  gmcgarry 
   1083  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_mediastatus()\n"));
   1084  1.1  gmcgarry 
   1085  1.1  gmcgarry 	mii_pollstat(&sc->sc_mii);
   1086  1.1  gmcgarry 	ifmr->ifm_status = sc->sc_mii.mii_media_status;
   1087  1.1  gmcgarry 	ifmr->ifm_active = sc->sc_mii.mii_media_active;
   1088  1.1  gmcgarry }
   1089  1.1  gmcgarry 
   1090  1.1  gmcgarry static void
   1091  1.1  gmcgarry xi_reset(sc)
   1092  1.1  gmcgarry 	struct xi_softc *sc;
   1093  1.1  gmcgarry {
   1094  1.1  gmcgarry 	int s;
   1095  1.1  gmcgarry 
   1096  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_reset()\n"));
   1097  1.1  gmcgarry 
   1098  1.1  gmcgarry 	s = splnet();
   1099  1.1  gmcgarry 	xi_stop(sc);
   1100  1.1  gmcgarry 	xi_full_reset(sc);
   1101  1.1  gmcgarry 	xi_init(sc);
   1102  1.1  gmcgarry 	splx(s);
   1103  1.1  gmcgarry }
   1104  1.1  gmcgarry 
   1105  1.1  gmcgarry static void
   1106  1.1  gmcgarry xi_watchdog(ifp)
   1107  1.1  gmcgarry 	struct ifnet *ifp;
   1108  1.1  gmcgarry {
   1109  1.1  gmcgarry 	struct xi_softc *sc = ifp->if_softc;
   1110  1.1  gmcgarry 
   1111  1.1  gmcgarry 	printf("%s: device timeout\n", sc->sc_dev.dv_xname);
   1112  1.1  gmcgarry 	++ifp->if_oerrors;
   1113  1.1  gmcgarry 
   1114  1.1  gmcgarry 	xi_reset(sc);
   1115  1.1  gmcgarry }
   1116  1.1  gmcgarry 
   1117  1.1  gmcgarry static void
   1118  1.1  gmcgarry xi_stop(sc)
   1119  1.1  gmcgarry 	register struct xi_softc *sc;
   1120  1.1  gmcgarry {
   1121  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_stop()\n"));
   1122  1.1  gmcgarry 
   1123  1.1  gmcgarry 	/* Disable interrupts. */
   1124  1.1  gmcgarry 	PAGE(sc, 0);
   1125  1.1  gmcgarry 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + CR, 0);
   1126  1.1  gmcgarry 
   1127  1.1  gmcgarry 	PAGE(sc, 1);
   1128  1.1  gmcgarry 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + IMR0, 0);
   1129  1.1  gmcgarry 
   1130  1.1  gmcgarry 	/* Power down, wait. */
   1131  1.1  gmcgarry 	PAGE(sc, 4);
   1132  1.1  gmcgarry 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, sc->sc_offset + GP1, 0);
   1133  1.1  gmcgarry 	DELAY(40000);
   1134  1.1  gmcgarry 
   1135  1.1  gmcgarry 	/* Cancel watchdog timer. */
   1136  1.1  gmcgarry 	sc->sc_ethercom.ec_if.if_timer = 0;
   1137  1.1  gmcgarry }
   1138  1.1  gmcgarry 
   1139  1.1  gmcgarry static void
   1140  1.1  gmcgarry xi_init(sc)
   1141  1.1  gmcgarry 	struct xi_softc *sc;
   1142  1.1  gmcgarry {
   1143  1.1  gmcgarry 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
   1144  1.1  gmcgarry 	int s;
   1145  1.1  gmcgarry 
   1146  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_init()\n"));
   1147  1.1  gmcgarry 
   1148  1.8   thorpej 	s = splnet();
   1149  1.1  gmcgarry 
   1150  1.1  gmcgarry 	xi_set_address(sc);
   1151  1.1  gmcgarry 
   1152  1.1  gmcgarry 	/* Set current media. */
   1153  1.1  gmcgarry 	mii_mediachg(&sc->sc_mii);
   1154  1.1  gmcgarry 
   1155  1.1  gmcgarry 	ifp->if_flags |= IFF_RUNNING;
   1156  1.1  gmcgarry 	ifp->if_flags &= ~IFF_OACTIVE;
   1157  1.1  gmcgarry 	splx(s);
   1158  1.1  gmcgarry }
   1159  1.1  gmcgarry 
   1160  1.1  gmcgarry /*
   1161  1.1  gmcgarry  * Start outputting on the interface.
   1162  1.1  gmcgarry  * Always called as splnet().
   1163  1.1  gmcgarry  */
   1164  1.1  gmcgarry static void
   1165  1.1  gmcgarry xi_start(ifp)
   1166  1.1  gmcgarry 	struct ifnet *ifp;
   1167  1.1  gmcgarry {
   1168  1.1  gmcgarry 	struct xi_softc *sc = ifp->if_softc;
   1169  1.1  gmcgarry 	bus_space_tag_t bst = sc->sc_bst;
   1170  1.1  gmcgarry 	bus_space_handle_t bsh = sc->sc_bsh;
   1171  1.1  gmcgarry 	bus_addr_t offset = sc->sc_offset;
   1172  1.1  gmcgarry 	unsigned int s, len, pad = 0;
   1173  1.1  gmcgarry 	struct mbuf *m0, *m;
   1174  1.1  gmcgarry 	u_int16_t space;
   1175  1.1  gmcgarry 
   1176  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_start()\n"));
   1177  1.1  gmcgarry 
   1178  1.1  gmcgarry 	/* Don't transmit if interface is busy or not running. */
   1179  1.1  gmcgarry 	if ((ifp->if_flags & (IFF_RUNNING | IFF_OACTIVE)) != IFF_RUNNING) {
   1180  1.2  gmcgarry 		DPRINTF(XID_CONFIG, ("xi: interface busy or not running\n"));
   1181  1.1  gmcgarry 		return;
   1182  1.1  gmcgarry 	}
   1183  1.1  gmcgarry 
   1184  1.1  gmcgarry 	/* Peek at the next packet. */
   1185  1.7   thorpej 	IFQ_POLL(&ifp->if_snd, m0);
   1186  1.1  gmcgarry 	if (m0 == 0)
   1187  1.1  gmcgarry 		return;
   1188  1.1  gmcgarry 
   1189  1.1  gmcgarry 	/* We need to use m->m_pkthdr.len, so require the header. */
   1190  1.1  gmcgarry 	if (!(m0->m_flags & M_PKTHDR))
   1191  1.1  gmcgarry 		panic("xi_start: no header mbuf");
   1192  1.1  gmcgarry 
   1193  1.1  gmcgarry 	len = m0->m_pkthdr.len;
   1194  1.1  gmcgarry 
   1195  1.1  gmcgarry 	/* Pad to ETHER_MIN_LEN - ETHER_CRC_LEN. */
   1196  1.1  gmcgarry 	if (len < ETHER_MIN_LEN - ETHER_CRC_LEN)
   1197  1.1  gmcgarry 		pad = ETHER_MIN_LEN - ETHER_CRC_LEN - len;
   1198  1.1  gmcgarry 
   1199  1.1  gmcgarry 	PAGE(sc, 0);
   1200  1.1  gmcgarry 	space = bus_space_read_2(bst, bsh, offset + TSO0) & 0x7fff;
   1201  1.1  gmcgarry 	if (len + pad + 2 > space) {
   1202  1.1  gmcgarry 		DPRINTF(XID_FIFO,
   1203  1.2  gmcgarry 		    ("xi: not enough space in output FIFO (%d > %d)\n",
   1204  1.2  gmcgarry 		    len + pad + 2, space));
   1205  1.1  gmcgarry 		return;
   1206  1.1  gmcgarry 	}
   1207  1.1  gmcgarry 
   1208  1.7   thorpej 	IFQ_DEQUEUE(&ifp->if_snd, m0);
   1209  1.1  gmcgarry 
   1210  1.1  gmcgarry #if NBPFILTER > 0
   1211  1.1  gmcgarry 	if (ifp->if_bpf)
   1212  1.1  gmcgarry 		bpf_mtap(ifp->if_bpf, m0);
   1213  1.1  gmcgarry #endif
   1214  1.1  gmcgarry 
   1215  1.1  gmcgarry 	/*
   1216  1.1  gmcgarry 	 * Do the output at splhigh() so that an interrupt from another device
   1217  1.1  gmcgarry 	 * won't cause a FIFO underrun.
   1218  1.1  gmcgarry 	 */
   1219  1.1  gmcgarry 	s = splhigh();
   1220  1.1  gmcgarry 
   1221  1.1  gmcgarry 	bus_space_write_2(bst, bsh, offset + TSO2, (u_int16_t)len + pad + 2);
   1222  1.1  gmcgarry 	bus_space_write_2(bst, bsh, offset + EDP, (u_int16_t)len + pad);
   1223  1.1  gmcgarry 	for (m = m0; m; ) {
   1224  1.1  gmcgarry 		if (m->m_len > 1)
   1225  1.1  gmcgarry 			bus_space_write_multi_2(bst, bsh, offset + EDP,
   1226  1.1  gmcgarry 			    mtod(m, u_int8_t *), m->m_len>>1);
   1227  1.1  gmcgarry 		if (m->m_len & 1)
   1228  1.1  gmcgarry 			bus_space_write_1(bst, bsh, offset + EDP,
   1229  1.1  gmcgarry 			    *(mtod(m, u_int8_t *) + m->m_len - 1));
   1230  1.1  gmcgarry 		MFREE(m, m0);
   1231  1.1  gmcgarry 		m = m0;
   1232  1.1  gmcgarry 	}
   1233  1.3  gmcgarry 	if (sc->sc_flags & XIFLAGS_MOHAWK)
   1234  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + CR, TX_PKT | ENABLE_INT);
   1235  1.1  gmcgarry 	else {
   1236  1.1  gmcgarry 		for (; pad > 1; pad -= 2)
   1237  1.1  gmcgarry 			bus_space_write_2(bst, bsh, offset + EDP, 0);
   1238  1.1  gmcgarry 		if (pad == 1)
   1239  1.1  gmcgarry 			bus_space_write_1(bst, bsh, offset + EDP, 0);
   1240  1.1  gmcgarry 	}
   1241  1.1  gmcgarry 
   1242  1.1  gmcgarry 	splx(s);
   1243  1.1  gmcgarry 
   1244  1.1  gmcgarry 	ifp->if_timer = 5;
   1245  1.1  gmcgarry 	++ifp->if_opackets;
   1246  1.1  gmcgarry }
   1247  1.1  gmcgarry 
   1248  1.1  gmcgarry static int
   1249  1.1  gmcgarry xi_ether_ioctl(ifp, cmd, data)
   1250  1.1  gmcgarry 	struct ifnet *ifp;
   1251  1.1  gmcgarry 	u_long cmd;
   1252  1.1  gmcgarry 	caddr_t data;
   1253  1.1  gmcgarry {
   1254  1.1  gmcgarry 	struct ifaddr *ifa = (struct ifaddr *)data;
   1255  1.1  gmcgarry 	struct xi_softc *sc = ifp->if_softc;
   1256  1.1  gmcgarry 
   1257  1.1  gmcgarry 
   1258  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_ether_ioctl()\n"));
   1259  1.1  gmcgarry 
   1260  1.1  gmcgarry 	switch (cmd) {
   1261  1.1  gmcgarry 	case SIOCSIFADDR:
   1262  1.1  gmcgarry 		ifp->if_flags |= IFF_UP;
   1263  1.1  gmcgarry 
   1264  1.1  gmcgarry 		switch (ifa->ifa_addr->sa_family) {
   1265  1.1  gmcgarry #ifdef INET
   1266  1.1  gmcgarry 		case AF_INET:
   1267  1.1  gmcgarry 			xi_init(sc);
   1268  1.1  gmcgarry 			arp_ifinit(ifp, ifa);
   1269  1.1  gmcgarry 			break;
   1270  1.1  gmcgarry #endif	/* INET */
   1271  1.1  gmcgarry 
   1272  1.1  gmcgarry #ifdef NS
   1273  1.1  gmcgarry 		case AF_NS:
   1274  1.1  gmcgarry 		{
   1275  1.1  gmcgarry 			struct ns_addr *ina = &IA_SNS(ifa)->sns_addr;
   1276  1.1  gmcgarry 
   1277  1.1  gmcgarry 			if (ns_nullhost(*ina))
   1278  1.1  gmcgarry 				ina->x_host = *(union ns_host *)
   1279  1.1  gmcgarry 					LLADDR(ifp->if_sadl);
   1280  1.1  gmcgarry 			else
   1281  1.1  gmcgarry 				bcopy(ina->x_host.c_host,
   1282  1.1  gmcgarry 					LLADDR(ifp->if_sadl),
   1283  1.1  gmcgarry 					ifp->if_addrlen);
   1284  1.1  gmcgarry 			/* Set new address. */
   1285  1.1  gmcgarry 			xi_init(sc);
   1286  1.1  gmcgarry 			break;
   1287  1.1  gmcgarry 		}
   1288  1.1  gmcgarry #endif  /* NS */
   1289  1.1  gmcgarry 
   1290  1.1  gmcgarry 		default:
   1291  1.1  gmcgarry 			xi_init(sc);
   1292  1.1  gmcgarry 			break;
   1293  1.1  gmcgarry 		}
   1294  1.1  gmcgarry 		break;
   1295  1.1  gmcgarry 
   1296  1.1  gmcgarry 	default:
   1297  1.1  gmcgarry 		return (EINVAL);
   1298  1.1  gmcgarry 	}
   1299  1.1  gmcgarry 
   1300  1.1  gmcgarry 	return (0);
   1301  1.1  gmcgarry }
   1302  1.1  gmcgarry 
   1303  1.1  gmcgarry static int
   1304  1.1  gmcgarry xi_ioctl(ifp, command, data)
   1305  1.1  gmcgarry 	struct ifnet *ifp;
   1306  1.1  gmcgarry 	u_long command;
   1307  1.1  gmcgarry 	caddr_t data;
   1308  1.1  gmcgarry {
   1309  1.1  gmcgarry 	struct xi_softc *sc = ifp->if_softc;
   1310  1.1  gmcgarry 	struct ifreq *ifr = (struct ifreq *)data;
   1311  1.1  gmcgarry 	int s, error = 0;
   1312  1.1  gmcgarry 
   1313  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_ioctl()\n"));
   1314  1.1  gmcgarry 
   1315  1.8   thorpej 	s = splnet();
   1316  1.1  gmcgarry 
   1317  1.1  gmcgarry 	switch (command) {
   1318  1.1  gmcgarry 	case SIOCSIFADDR:
   1319  1.1  gmcgarry 		error = xi_ether_ioctl(ifp, command, data);
   1320  1.1  gmcgarry 		break;
   1321  1.1  gmcgarry 
   1322  1.1  gmcgarry 	case SIOCSIFFLAGS:
   1323  1.1  gmcgarry 		sc->sc_all_mcasts = (ifp->if_flags & IFF_ALLMULTI) ? 1 : 0;
   1324  1.1  gmcgarry 
   1325  1.1  gmcgarry 		PAGE(sc, 0x42);
   1326  1.1  gmcgarry 		if ((ifp->if_flags & IFF_PROMISC) ||
   1327  1.1  gmcgarry 		    (ifp->if_flags & IFF_ALLMULTI))
   1328  1.1  gmcgarry 			bus_space_write_1(sc->sc_bst, sc->sc_bsh,
   1329  1.1  gmcgarry 			    sc->sc_offset + SWC1,
   1330  1.1  gmcgarry 			    SWC1_PROMISC | SWC1_MCAST_PROM);
   1331  1.1  gmcgarry 		else
   1332  1.1  gmcgarry 			bus_space_write_1(sc->sc_bst, sc->sc_bsh,
   1333  1.1  gmcgarry 			    sc->sc_offset + SWC1, 0);
   1334  1.1  gmcgarry 
   1335  1.1  gmcgarry 		/*
   1336  1.1  gmcgarry 		 * If interface is marked up and not running, then start it.
   1337  1.1  gmcgarry 		 * If it is marked down and running, stop it.
   1338  1.1  gmcgarry 		 * XXX If it's up then re-initialize it. This is so flags
   1339  1.1  gmcgarry 		 * such as IFF_PROMISC are handled.
   1340  1.1  gmcgarry 		 */
   1341  1.1  gmcgarry 		if (ifp->if_flags & IFF_UP) {
   1342  1.1  gmcgarry 			xi_init(sc);
   1343  1.1  gmcgarry 		} else {
   1344  1.1  gmcgarry 			if (ifp->if_flags & IFF_RUNNING) {
   1345  1.1  gmcgarry 				xi_stop(sc);
   1346  1.1  gmcgarry 				ifp->if_flags &= ~IFF_RUNNING;
   1347  1.1  gmcgarry 			}
   1348  1.1  gmcgarry 		}
   1349  1.1  gmcgarry 		break;
   1350  1.1  gmcgarry 
   1351  1.1  gmcgarry 	case SIOCADDMULTI:
   1352  1.1  gmcgarry 	case SIOCDELMULTI:
   1353  1.1  gmcgarry 		sc->sc_all_mcasts = (ifp->if_flags & IFF_ALLMULTI) ? 1 : 0;
   1354  1.1  gmcgarry 		error = (command == SIOCADDMULTI) ?
   1355  1.1  gmcgarry 		    ether_addmulti(ifr, &sc->sc_ethercom) :
   1356  1.1  gmcgarry 		    ether_delmulti(ifr, &sc->sc_ethercom);
   1357  1.1  gmcgarry 
   1358  1.1  gmcgarry 		if (error == ENETRESET) {
   1359  1.1  gmcgarry 			/*
   1360  1.1  gmcgarry 			 * Multicast list has changed; set the hardware
   1361  1.1  gmcgarry 			 * filter accordingly.
   1362  1.1  gmcgarry 			 */
   1363  1.1  gmcgarry 			if (!sc->sc_all_mcasts &&
   1364  1.1  gmcgarry 			    !(ifp->if_flags & IFF_PROMISC))
   1365  1.1  gmcgarry 				xi_set_address(sc);
   1366  1.1  gmcgarry 
   1367  1.1  gmcgarry 			/*
   1368  1.1  gmcgarry 			 * xi_set_address() can turn on all_mcasts if we run
   1369  1.1  gmcgarry 			 * out of space, so check it again rather than else {}.
   1370  1.1  gmcgarry 			 */
   1371  1.1  gmcgarry 			if (sc->sc_all_mcasts)
   1372  1.1  gmcgarry 				xi_init(sc);
   1373  1.1  gmcgarry 			error = 0;
   1374  1.1  gmcgarry 		}
   1375  1.1  gmcgarry 		break;
   1376  1.1  gmcgarry 
   1377  1.1  gmcgarry 	case SIOCSIFMEDIA:
   1378  1.1  gmcgarry 	case SIOCGIFMEDIA:
   1379  1.1  gmcgarry 		error =
   1380  1.1  gmcgarry 		    ifmedia_ioctl(ifp, ifr, &sc->sc_mii.mii_media, command);
   1381  1.1  gmcgarry 		break;
   1382  1.1  gmcgarry 
   1383  1.1  gmcgarry 	default:
   1384  1.1  gmcgarry 		error = EINVAL;
   1385  1.1  gmcgarry 	}
   1386  1.1  gmcgarry 	splx(s);
   1387  1.1  gmcgarry 	return (error);
   1388  1.1  gmcgarry }
   1389  1.1  gmcgarry 
   1390  1.1  gmcgarry static void
   1391  1.1  gmcgarry xi_set_address(sc)
   1392  1.1  gmcgarry 	struct xi_softc *sc;
   1393  1.1  gmcgarry {
   1394  1.1  gmcgarry 	bus_space_tag_t bst = sc->sc_bst;
   1395  1.1  gmcgarry 	bus_space_handle_t bsh = sc->sc_bsh;
   1396  1.1  gmcgarry 	bus_addr_t offset = sc->sc_offset;
   1397  1.1  gmcgarry 	struct ethercom *ether = &sc->sc_ethercom;
   1398  1.1  gmcgarry 	struct ether_multi *enm;
   1399  1.1  gmcgarry 	struct ether_multistep step;
   1400  1.1  gmcgarry 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
   1401  1.1  gmcgarry 	int i, page, pos, num;
   1402  1.1  gmcgarry 
   1403  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_set_address()\n"));
   1404  1.1  gmcgarry 
   1405  1.1  gmcgarry 	PAGE(sc, 0x50);
   1406  1.1  gmcgarry 	for (i = 0; i < 6; i++) {
   1407  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + IA + i,
   1408  1.3  gmcgarry 		    sc->sc_enaddr[(sc->sc_flags & XIFLAGS_MOHAWK) ?  5-i : i]);
   1409  1.1  gmcgarry 	}
   1410  1.1  gmcgarry 
   1411  1.1  gmcgarry 	if (ether->ec_multicnt > 0) {
   1412  1.1  gmcgarry 		if (ether->ec_multicnt > 9) {
   1413  1.1  gmcgarry 			PAGE(sc, 0x42);
   1414  1.1  gmcgarry 			bus_space_write_1(sc->sc_bst, sc->sc_bsh,
   1415  1.1  gmcgarry 			    sc->sc_offset + SWC1,
   1416  1.1  gmcgarry 			    SWC1_PROMISC | SWC1_MCAST_PROM);
   1417  1.1  gmcgarry 			return;
   1418  1.1  gmcgarry 		}
   1419  1.1  gmcgarry 
   1420  1.1  gmcgarry 		ETHER_FIRST_MULTI(step, ether, enm);
   1421  1.1  gmcgarry 
   1422  1.1  gmcgarry 		pos = IA + 6;
   1423  1.1  gmcgarry 		for (page = 0x50, num = ether->ec_multicnt; num > 0 && enm;
   1424  1.1  gmcgarry 		    num--) {
   1425  1.1  gmcgarry 			if (bcmp(enm->enm_addrlo, enm->enm_addrhi,
   1426  1.1  gmcgarry 			    sizeof(enm->enm_addrlo)) != 0) {
   1427  1.1  gmcgarry 				/*
   1428  1.1  gmcgarry 				 * The multicast address is really a range;
   1429  1.1  gmcgarry 				 * it's easier just to accept all multicasts.
   1430  1.1  gmcgarry 				 * XXX should we be setting IFF_ALLMULTI here?
   1431  1.1  gmcgarry 				 */
   1432  1.1  gmcgarry 				ifp->if_flags |= IFF_ALLMULTI;
   1433  1.1  gmcgarry 				sc->sc_all_mcasts=1;
   1434  1.1  gmcgarry 				break;
   1435  1.1  gmcgarry 			}
   1436  1.1  gmcgarry 
   1437  1.1  gmcgarry 			for (i = 0; i < 6; i++) {
   1438  1.1  gmcgarry 				bus_space_write_1(bst, bsh, offset + pos,
   1439  1.1  gmcgarry 				    enm->enm_addrlo[
   1440  1.3  gmcgarry 				    (sc->sc_flags & XIFLAGS_MOHAWK) ? 5-i : i]);
   1441  1.1  gmcgarry 
   1442  1.1  gmcgarry 				if (++pos > 15) {
   1443  1.1  gmcgarry 					pos = IA;
   1444  1.1  gmcgarry 					page++;
   1445  1.1  gmcgarry 					PAGE(sc, page);
   1446  1.1  gmcgarry 				}
   1447  1.1  gmcgarry 			}
   1448  1.1  gmcgarry 		}
   1449  1.1  gmcgarry 	}
   1450  1.1  gmcgarry }
   1451  1.1  gmcgarry 
   1452  1.1  gmcgarry static void
   1453  1.1  gmcgarry xi_cycle_power(sc)
   1454  1.1  gmcgarry 	struct xi_softc *sc;
   1455  1.1  gmcgarry {
   1456  1.1  gmcgarry 	bus_space_tag_t bst = sc->sc_bst;
   1457  1.1  gmcgarry 	bus_space_handle_t bsh = sc->sc_bsh;
   1458  1.1  gmcgarry 	bus_addr_t offset = sc->sc_offset;
   1459  1.1  gmcgarry 
   1460  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_cycle_power()\n"));
   1461  1.1  gmcgarry 
   1462  1.1  gmcgarry 	PAGE(sc, 4);
   1463  1.1  gmcgarry 	DELAY(1);
   1464  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + GP1, 0);
   1465  1.1  gmcgarry 	DELAY(40000);
   1466  1.3  gmcgarry 	if (sc->sc_flags & XIFLAGS_MOHAWK)
   1467  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + GP1, POWER_UP);
   1468  1.1  gmcgarry 	else
   1469  1.1  gmcgarry 		/* XXX What is bit 2 (aka AIC)? */
   1470  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + GP1, POWER_UP | 4);
   1471  1.1  gmcgarry 	DELAY(20000);
   1472  1.1  gmcgarry }
   1473  1.1  gmcgarry 
   1474  1.1  gmcgarry static void
   1475  1.1  gmcgarry xi_full_reset(sc)
   1476  1.1  gmcgarry 	struct xi_softc *sc;
   1477  1.1  gmcgarry {
   1478  1.1  gmcgarry 	bus_space_tag_t bst = sc->sc_bst;
   1479  1.1  gmcgarry 	bus_space_handle_t bsh = sc->sc_bsh;
   1480  1.1  gmcgarry 	bus_addr_t offset = sc->sc_offset;
   1481  1.1  gmcgarry 
   1482  1.2  gmcgarry 	DPRINTF(XID_CONFIG, ("xi_full_reset()\n"));
   1483  1.1  gmcgarry 
   1484  1.1  gmcgarry 	/* Do an as extensive reset as possible on all functions. */
   1485  1.1  gmcgarry 	xi_cycle_power(sc);
   1486  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + CR, SOFT_RESET);
   1487  1.1  gmcgarry 	DELAY(20000);
   1488  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + CR, 0);
   1489  1.1  gmcgarry 	DELAY(20000);
   1490  1.3  gmcgarry 	if (sc->sc_flags & XIFLAGS_MOHAWK) {
   1491  1.1  gmcgarry 		PAGE(sc, 4);
   1492  1.1  gmcgarry 		/*
   1493  1.1  gmcgarry 		 * Drive GP1 low to power up ML6692 and GP2 high to power up
   1494  1.1  gmcgarry 		 * the 10Mhz chip.  XXX What chip is that?  The phy?
   1495  1.1  gmcgarry 		 */
   1496  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + GP0,
   1497  1.1  gmcgarry 		    GP1_OUT | GP2_OUT | GP2_WR);
   1498  1.1  gmcgarry 	}
   1499  1.1  gmcgarry 	DELAY(500000);
   1500  1.1  gmcgarry 
   1501  1.1  gmcgarry 	/* Get revision information.  XXX Symbolic constants. */
   1502  1.1  gmcgarry 	sc->sc_rev = bus_space_read_1(bst, bsh, offset + BV) &
   1503  1.3  gmcgarry 	    ((sc->sc_flags & XIFLAGS_MOHAWK) ? 0x70 : 0x30) >> 4;
   1504  1.1  gmcgarry 
   1505  1.1  gmcgarry 	/* Media selection.  XXX Maybe manual overriding too? */
   1506  1.3  gmcgarry 	if (!(sc->sc_flags & XIFLAGS_MOHAWK)) {
   1507  1.1  gmcgarry 		PAGE(sc, 4);
   1508  1.1  gmcgarry 		/*
   1509  1.1  gmcgarry 		 * XXX I have no idea what this really does, it is from the
   1510  1.1  gmcgarry 		 * Linux driver.
   1511  1.1  gmcgarry 		 */
   1512  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + GP0, GP1_OUT);
   1513  1.1  gmcgarry 	}
   1514  1.1  gmcgarry 	DELAY(40000);
   1515  1.1  gmcgarry 
   1516  1.1  gmcgarry 	/* Setup the ethernet interrupt mask. */
   1517  1.1  gmcgarry 	PAGE(sc, 1);
   1518  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + IMR0,
   1519  1.1  gmcgarry 	    ISR_TX_OFLOW | ISR_PKT_TX | ISR_MAC_INT | /* ISR_RX_EARLY | */
   1520  1.1  gmcgarry 	    ISR_RX_FULL | ISR_RX_PKT_REJ | ISR_FORCED_INT);
   1521  1.1  gmcgarry #if 0
   1522  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + IMR0, 0xff);
   1523  1.1  gmcgarry #endif
   1524  1.3  gmcgarry 	if (!(sc->sc_flags & XIFLAGS_DINGO)) {
   1525  1.1  gmcgarry 		/* XXX What is this?  Not for Dingo at least. */
   1526  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + IMR1, 1);
   1527  1.1  gmcgarry 	}
   1528  1.1  gmcgarry 
   1529  1.1  gmcgarry 	/*
   1530  1.1  gmcgarry 	 * Disable source insertion.
   1531  1.1  gmcgarry 	 * XXX Dingo does not have this bit, but Linux does it unconditionally.
   1532  1.1  gmcgarry 	 */
   1533  1.3  gmcgarry 	if (!(sc->sc_flags & XIFLAGS_DINGO)) {
   1534  1.1  gmcgarry 		PAGE(sc, 0x42);
   1535  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + SWC0, 0x20);
   1536  1.1  gmcgarry 	}
   1537  1.1  gmcgarry 
   1538  1.1  gmcgarry 	/* Set the local memory dividing line. */
   1539  1.1  gmcgarry 	if (sc->sc_rev != 1) {
   1540  1.1  gmcgarry 		PAGE(sc, 2);
   1541  1.1  gmcgarry 		/* XXX Symbolic constant preferrable. */
   1542  1.1  gmcgarry 		bus_space_write_2(bst, bsh, offset + RBS0, 0x2000);
   1543  1.1  gmcgarry 	}
   1544  1.1  gmcgarry 
   1545  1.1  gmcgarry 	xi_set_address(sc);
   1546  1.1  gmcgarry 
   1547  1.1  gmcgarry 	/*
   1548  1.1  gmcgarry 	 * Apparently the receive byte pointer can be bad after a reset, so
   1549  1.1  gmcgarry 	 * we hardwire it correctly.
   1550  1.1  gmcgarry 	 */
   1551  1.1  gmcgarry 	PAGE(sc, 0);
   1552  1.1  gmcgarry 	bus_space_write_2(bst, bsh, offset + DO0, DO_CHG_OFFSET);
   1553  1.1  gmcgarry 
   1554  1.1  gmcgarry 	/* Setup ethernet MAC registers. XXX Symbolic constants. */
   1555  1.1  gmcgarry 	PAGE(sc, 0x40);
   1556  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + RX0MSK,
   1557  1.1  gmcgarry 	    PKT_TOO_LONG | CRC_ERR | RX_OVERRUN | RX_ABORT | RX_OK);
   1558  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + TX0MSK,
   1559  1.1  gmcgarry 	    CARRIER_LOST | EXCESSIVE_COLL | TX_UNDERRUN | LATE_COLLISION |
   1560  1.1  gmcgarry 	    SQE | TX_ABORT | TX_OK);
   1561  1.3  gmcgarry 	if (!(sc->sc_flags & XIFLAGS_DINGO))
   1562  1.1  gmcgarry 		/* XXX From Linux, dunno what 0xb0 means. */
   1563  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + TX1MSK, 0xb0);
   1564  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + RXST0, 0);
   1565  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + TXST0, 0);
   1566  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + TXST1, 0);
   1567  1.1  gmcgarry 
   1568  1.1  gmcgarry 	/* Enable MII function if available. */
   1569  1.1  gmcgarry 	if (LIST_FIRST(&sc->sc_mii.mii_phys)) {
   1570  1.1  gmcgarry 		PAGE(sc, 2);
   1571  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + MSR,
   1572  1.1  gmcgarry 		    bus_space_read_1(bst, bsh, offset + MSR) | SELECT_MII);
   1573  1.1  gmcgarry 		DELAY(20000);
   1574  1.1  gmcgarry 	} else {
   1575  1.1  gmcgarry 		PAGE(sc, 0);
   1576  1.1  gmcgarry 
   1577  1.1  gmcgarry 		/* XXX Do we need to do this? */
   1578  1.1  gmcgarry 		PAGE(sc, 0x42);
   1579  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + SWC1, SWC1_AUTO_MEDIA);
   1580  1.1  gmcgarry 		DELAY(50000);
   1581  1.1  gmcgarry 
   1582  1.1  gmcgarry 		/* XXX Linux probes the media here. */
   1583  1.1  gmcgarry 	}
   1584  1.1  gmcgarry 
   1585  1.1  gmcgarry 	/* Configure the LED registers. */
   1586  1.1  gmcgarry 	PAGE(sc, 2);
   1587  1.1  gmcgarry 
   1588  1.1  gmcgarry 	/* XXX This is not good for 10base2. */
   1589  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + LED,
   1590  1.1  gmcgarry 	    LED_TX_ACT << LED1_SHIFT | LED_10MB_LINK << LED0_SHIFT);
   1591  1.3  gmcgarry 	if (sc->sc_flags & XIFLAGS_DINGO)
   1592  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + LED3,
   1593  1.1  gmcgarry 		    LED_100MB_LINK << LED3_SHIFT);
   1594  1.1  gmcgarry 
   1595  1.1  gmcgarry 	/* Enable receiver and go online. */
   1596  1.1  gmcgarry 	PAGE(sc, 0x40);
   1597  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + CMD0, ENABLE_RX | ONLINE);
   1598  1.1  gmcgarry 
   1599  1.1  gmcgarry #if 0
   1600  1.1  gmcgarry 	/* XXX Linux does this here - is it necessary? */
   1601  1.1  gmcgarry 	PAGE(sc, 1);
   1602  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + IMR0, 0xff);
   1603  1.3  gmcgarry 	if (!(sc->sc_flags & XIFLAGS_DINGO)) {
   1604  1.1  gmcgarry 		/* XXX What is this?  Not for Dingo at least. */
   1605  1.1  gmcgarry 		bus_space_write_1(bst, bsh, offset + IMR1, 1);
   1606  1.1  gmcgarry 	}
   1607  1.1  gmcgarry #endif
   1608  1.1  gmcgarry 
   1609  1.1  gmcgarry        /* Enable interrupts. */
   1610  1.1  gmcgarry 	PAGE(sc, 0);
   1611  1.1  gmcgarry 	bus_space_write_1(bst, bsh, offset + CR, ENABLE_INT);
   1612  1.1  gmcgarry 
   1613  1.1  gmcgarry 	/* XXX This is pure magic for me, found in the Linux driver. */
   1614  1.3  gmcgarry 	if ((sc->sc_flags & (XIFLAGS_DINGO | XIFLAGS_MODEM)) == XIFLAGS_MODEM) {
   1615  1.1  gmcgarry 		if ((bus_space_read_1(bst, bsh, offset + 0x10) & 0x01) == 0)
   1616  1.1  gmcgarry 			/* Unmask the master interrupt bit. */
   1617  1.1  gmcgarry 			bus_space_write_1(bst, bsh, offset + 0x10, 0x11);
   1618  1.1  gmcgarry 	}
   1619  1.1  gmcgarry 
   1620  1.1  gmcgarry 	/*
   1621  1.1  gmcgarry 	 * The Linux driver says this:
   1622  1.1  gmcgarry 	 * We should switch back to page 0 to avoid a bug in revision 0
   1623  1.1  gmcgarry 	 * where regs with offset below 8 can't be read after an access
   1624  1.1  gmcgarry 	 * to the MAC registers.
   1625  1.1  gmcgarry 	 */
   1626  1.1  gmcgarry 	PAGE(sc, 0);
   1627  1.1  gmcgarry }
   1628