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rtl8169.c revision 1.89.2.1
      1  1.89.2.1       mjf /*	$NetBSD: rtl8169.c,v 1.89.2.1 2008/02/18 21:05:41 mjf Exp $	*/
      2       1.1  jonathan 
      3       1.1  jonathan /*
      4       1.1  jonathan  * Copyright (c) 1997, 1998-2003
      5       1.1  jonathan  *	Bill Paul <wpaul (at) windriver.com>.  All rights reserved.
      6       1.1  jonathan  *
      7       1.1  jonathan  * Redistribution and use in source and binary forms, with or without
      8       1.1  jonathan  * modification, are permitted provided that the following conditions
      9       1.1  jonathan  * are met:
     10       1.1  jonathan  * 1. Redistributions of source code must retain the above copyright
     11       1.1  jonathan  *    notice, this list of conditions and the following disclaimer.
     12       1.1  jonathan  * 2. Redistributions in binary form must reproduce the above copyright
     13       1.1  jonathan  *    notice, this list of conditions and the following disclaimer in the
     14       1.1  jonathan  *    documentation and/or other materials provided with the distribution.
     15       1.1  jonathan  * 3. All advertising materials mentioning features or use of this software
     16       1.1  jonathan  *    must display the following acknowledgement:
     17       1.1  jonathan  *	This product includes software developed by Bill Paul.
     18       1.1  jonathan  * 4. Neither the name of the author nor the names of any co-contributors
     19       1.1  jonathan  *    may be used to endorse or promote products derived from this software
     20       1.1  jonathan  *    without specific prior written permission.
     21       1.1  jonathan  *
     22       1.1  jonathan  * THIS SOFTWARE IS PROVIDED BY Bill Paul AND CONTRIBUTORS ``AS IS'' AND
     23       1.1  jonathan  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
     24       1.1  jonathan  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
     25       1.1  jonathan  * ARE DISCLAIMED.  IN NO EVENT SHALL Bill Paul OR THE VOICES IN HIS HEAD
     26       1.1  jonathan  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     27       1.1  jonathan  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     28       1.1  jonathan  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     29       1.1  jonathan  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     30       1.1  jonathan  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     31       1.1  jonathan  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
     32       1.1  jonathan  * THE POSSIBILITY OF SUCH DAMAGE.
     33       1.1  jonathan  */
     34       1.1  jonathan 
     35       1.1  jonathan #include <sys/cdefs.h>
     36  1.89.2.1       mjf __KERNEL_RCSID(0, "$NetBSD: rtl8169.c,v 1.89.2.1 2008/02/18 21:05:41 mjf Exp $");
     37       1.1  jonathan /* $FreeBSD: /repoman/r/ncvs/src/sys/dev/re/if_re.c,v 1.20 2004/04/11 20:34:08 ru Exp $ */
     38       1.1  jonathan 
     39       1.1  jonathan /*
     40       1.1  jonathan  * RealTek 8139C+/8169/8169S/8110S PCI NIC driver
     41       1.1  jonathan  *
     42       1.1  jonathan  * Written by Bill Paul <wpaul (at) windriver.com>
     43       1.1  jonathan  * Senior Networking Software Engineer
     44       1.1  jonathan  * Wind River Systems
     45       1.1  jonathan  */
     46       1.1  jonathan 
     47       1.1  jonathan /*
     48       1.1  jonathan  * This driver is designed to support RealTek's next generation of
     49       1.1  jonathan  * 10/100 and 10/100/1000 PCI ethernet controllers. There are currently
     50       1.1  jonathan  * four devices in this family: the RTL8139C+, the RTL8169, the RTL8169S
     51       1.1  jonathan  * and the RTL8110S.
     52       1.1  jonathan  *
     53       1.1  jonathan  * The 8139C+ is a 10/100 ethernet chip. It is backwards compatible
     54       1.1  jonathan  * with the older 8139 family, however it also supports a special
     55       1.1  jonathan  * C+ mode of operation that provides several new performance enhancing
     56       1.1  jonathan  * features. These include:
     57       1.1  jonathan  *
     58       1.1  jonathan  *	o Descriptor based DMA mechanism. Each descriptor represents
     59       1.1  jonathan  *	  a single packet fragment. Data buffers may be aligned on
     60       1.1  jonathan  *	  any byte boundary.
     61       1.1  jonathan  *
     62       1.1  jonathan  *	o 64-bit DMA
     63       1.1  jonathan  *
     64       1.1  jonathan  *	o TCP/IP checksum offload for both RX and TX
     65       1.1  jonathan  *
     66       1.1  jonathan  *	o High and normal priority transmit DMA rings
     67       1.1  jonathan  *
     68       1.1  jonathan  *	o VLAN tag insertion and extraction
     69       1.1  jonathan  *
     70       1.1  jonathan  *	o TCP large send (segmentation offload)
     71       1.1  jonathan  *
     72       1.1  jonathan  * Like the 8139, the 8139C+ also has a built-in 10/100 PHY. The C+
     73       1.1  jonathan  * programming API is fairly straightforward. The RX filtering, EEPROM
     74       1.1  jonathan  * access and PHY access is the same as it is on the older 8139 series
     75       1.1  jonathan  * chips.
     76       1.1  jonathan  *
     77       1.1  jonathan  * The 8169 is a 64-bit 10/100/1000 gigabit ethernet MAC. It has almost the
     78       1.1  jonathan  * same programming API and feature set as the 8139C+ with the following
     79       1.1  jonathan  * differences and additions:
     80       1.1  jonathan  *
     81       1.1  jonathan  *	o 1000Mbps mode
     82       1.1  jonathan  *
     83       1.1  jonathan  *	o Jumbo frames
     84       1.1  jonathan  *
     85       1.1  jonathan  * 	o GMII and TBI ports/registers for interfacing with copper
     86       1.1  jonathan  *	  or fiber PHYs
     87       1.1  jonathan  *
     88       1.1  jonathan  *      o RX and TX DMA rings can have up to 1024 descriptors
     89       1.1  jonathan  *        (the 8139C+ allows a maximum of 64)
     90       1.1  jonathan  *
     91       1.1  jonathan  *	o Slight differences in register layout from the 8139C+
     92       1.1  jonathan  *
     93       1.1  jonathan  * The TX start and timer interrupt registers are at different locations
     94       1.1  jonathan  * on the 8169 than they are on the 8139C+. Also, the status word in the
     95       1.1  jonathan  * RX descriptor has a slightly different bit layout. The 8169 does not
     96       1.1  jonathan  * have a built-in PHY. Most reference boards use a Marvell 88E1000 'Alaska'
     97       1.1  jonathan  * copper gigE PHY.
     98       1.1  jonathan  *
     99       1.1  jonathan  * The 8169S/8110S 10/100/1000 devices have built-in copper gigE PHYs
    100       1.1  jonathan  * (the 'S' stands for 'single-chip'). These devices have the same
    101       1.1  jonathan  * programming API as the older 8169, but also have some vendor-specific
    102       1.1  jonathan  * registers for the on-board PHY. The 8110S is a LAN-on-motherboard
    103       1.1  jonathan  * part designed to be pin-compatible with the RealTek 8100 10/100 chip.
    104      1.12     perry  *
    105       1.1  jonathan  * This driver takes advantage of the RX and TX checksum offload and
    106       1.1  jonathan  * VLAN tag insertion/extraction features. It also implements TX
    107       1.1  jonathan  * interrupt moderation using the timer interrupt registers, which
    108       1.1  jonathan  * significantly reduces TX interrupt load. There is also support
    109       1.1  jonathan  * for jumbo frames, however the 8169/8169S/8110S can not transmit
    110       1.1  jonathan  * jumbo frames larger than 7.5K, so the max MTU possible with this
    111       1.1  jonathan  * driver is 7500 bytes.
    112       1.1  jonathan  */
    113       1.1  jonathan 
    114       1.1  jonathan #include "bpfilter.h"
    115       1.1  jonathan #include "vlan.h"
    116       1.1  jonathan 
    117       1.1  jonathan #include <sys/param.h>
    118       1.1  jonathan #include <sys/endian.h>
    119       1.1  jonathan #include <sys/systm.h>
    120       1.1  jonathan #include <sys/sockio.h>
    121       1.1  jonathan #include <sys/mbuf.h>
    122       1.1  jonathan #include <sys/malloc.h>
    123       1.1  jonathan #include <sys/kernel.h>
    124       1.1  jonathan #include <sys/socket.h>
    125       1.1  jonathan #include <sys/device.h>
    126       1.1  jonathan 
    127       1.1  jonathan #include <net/if.h>
    128       1.1  jonathan #include <net/if_arp.h>
    129       1.1  jonathan #include <net/if_dl.h>
    130       1.1  jonathan #include <net/if_ether.h>
    131       1.1  jonathan #include <net/if_media.h>
    132       1.1  jonathan #include <net/if_vlanvar.h>
    133       1.1  jonathan 
    134      1.13      yamt #include <netinet/in_systm.h>	/* XXX for IP_MAXPACKET */
    135      1.13      yamt #include <netinet/in.h>		/* XXX for IP_MAXPACKET */
    136      1.13      yamt #include <netinet/ip.h>		/* XXX for IP_MAXPACKET */
    137      1.13      yamt 
    138       1.1  jonathan #if NBPFILTER > 0
    139       1.1  jonathan #include <net/bpf.h>
    140       1.1  jonathan #endif
    141       1.1  jonathan 
    142      1.89        ad #include <sys/bus.h>
    143       1.1  jonathan 
    144       1.1  jonathan #include <dev/mii/mii.h>
    145       1.1  jonathan #include <dev/mii/miivar.h>
    146       1.1  jonathan 
    147       1.1  jonathan #include <dev/ic/rtl81x9reg.h>
    148       1.1  jonathan #include <dev/ic/rtl81x9var.h>
    149       1.1  jonathan 
    150       1.1  jonathan #include <dev/ic/rtl8169var.h>
    151       1.1  jonathan 
    152      1.64   tsutsui static inline void re_set_bufaddr(struct re_desc *, bus_addr_t);
    153       1.1  jonathan 
    154       1.4   kanaoka static int re_newbuf(struct rtk_softc *, int, struct mbuf *);
    155       1.4   kanaoka static int re_rx_list_init(struct rtk_softc *);
    156       1.4   kanaoka static int re_tx_list_init(struct rtk_softc *);
    157       1.4   kanaoka static void re_rxeof(struct rtk_softc *);
    158       1.4   kanaoka static void re_txeof(struct rtk_softc *);
    159       1.4   kanaoka static void re_tick(void *);
    160       1.4   kanaoka static void re_start(struct ifnet *);
    161      1.83  christos static int re_ioctl(struct ifnet *, u_long, void *);
    162       1.4   kanaoka static int re_init(struct ifnet *);
    163       1.4   kanaoka static void re_stop(struct ifnet *, int);
    164       1.4   kanaoka static void re_watchdog(struct ifnet *);
    165       1.4   kanaoka 
    166       1.4   kanaoka static void re_shutdown(void *);
    167       1.4   kanaoka static int re_enable(struct rtk_softc *);
    168       1.4   kanaoka static void re_disable(struct rtk_softc *);
    169       1.4   kanaoka static void re_power(int, void *);
    170       1.4   kanaoka 
    171       1.4   kanaoka static int re_gmii_readreg(struct device *, int, int);
    172       1.4   kanaoka static void re_gmii_writereg(struct device *, int, int, int);
    173       1.4   kanaoka 
    174       1.4   kanaoka static int re_miibus_readreg(struct device *, int, int);
    175       1.4   kanaoka static void re_miibus_writereg(struct device *, int, int, int);
    176       1.4   kanaoka static void re_miibus_statchg(struct device *);
    177       1.1  jonathan 
    178       1.4   kanaoka static void re_reset(struct rtk_softc *);
    179       1.1  jonathan 
    180      1.64   tsutsui static inline void
    181      1.64   tsutsui re_set_bufaddr(struct re_desc *d, bus_addr_t addr)
    182      1.64   tsutsui {
    183      1.64   tsutsui 
    184      1.64   tsutsui 	d->re_bufaddr_lo = htole32((uint32_t)addr);
    185      1.64   tsutsui 	if (sizeof(bus_addr_t) == sizeof(uint64_t))
    186      1.64   tsutsui 		d->re_bufaddr_hi = htole32((uint64_t)addr >> 32);
    187      1.64   tsutsui 	else
    188      1.64   tsutsui 		d->re_bufaddr_hi = 0;
    189      1.64   tsutsui }
    190      1.64   tsutsui 
    191       1.1  jonathan static int
    192       1.1  jonathan re_gmii_readreg(struct device *self, int phy, int reg)
    193       1.1  jonathan {
    194       1.1  jonathan 	struct rtk_softc	*sc = (void *)self;
    195      1.40   tsutsui 	uint32_t		rval;
    196       1.1  jonathan 	int			i;
    197       1.1  jonathan 
    198       1.1  jonathan 	if (phy != 7)
    199       1.4   kanaoka 		return 0;
    200       1.1  jonathan 
    201       1.1  jonathan 	/* Let the rgephy driver read the GMEDIASTAT register */
    202       1.1  jonathan 
    203       1.1  jonathan 	if (reg == RTK_GMEDIASTAT) {
    204       1.1  jonathan 		rval = CSR_READ_1(sc, RTK_GMEDIASTAT);
    205       1.4   kanaoka 		return rval;
    206       1.1  jonathan 	}
    207       1.1  jonathan 
    208       1.1  jonathan 	CSR_WRITE_4(sc, RTK_PHYAR, reg << 16);
    209       1.1  jonathan 	DELAY(1000);
    210       1.1  jonathan 
    211       1.1  jonathan 	for (i = 0; i < RTK_TIMEOUT; i++) {
    212       1.1  jonathan 		rval = CSR_READ_4(sc, RTK_PHYAR);
    213       1.1  jonathan 		if (rval & RTK_PHYAR_BUSY)
    214       1.1  jonathan 			break;
    215       1.1  jonathan 		DELAY(100);
    216       1.1  jonathan 	}
    217       1.1  jonathan 
    218       1.1  jonathan 	if (i == RTK_TIMEOUT) {
    219       1.4   kanaoka 		aprint_error("%s: PHY read failed\n", sc->sc_dev.dv_xname);
    220       1.4   kanaoka 		return 0;
    221       1.1  jonathan 	}
    222       1.1  jonathan 
    223       1.4   kanaoka 	return rval & RTK_PHYAR_PHYDATA;
    224       1.1  jonathan }
    225       1.1  jonathan 
    226       1.1  jonathan static void
    227      1.62  christos re_gmii_writereg(struct device *dev, int phy, int reg, int data)
    228       1.1  jonathan {
    229       1.1  jonathan 	struct rtk_softc	*sc = (void *)dev;
    230      1.40   tsutsui 	uint32_t		rval;
    231       1.1  jonathan 	int			i;
    232       1.1  jonathan 
    233       1.1  jonathan 	CSR_WRITE_4(sc, RTK_PHYAR, (reg << 16) |
    234       1.1  jonathan 	    (data & RTK_PHYAR_PHYDATA) | RTK_PHYAR_BUSY);
    235       1.1  jonathan 	DELAY(1000);
    236       1.1  jonathan 
    237       1.1  jonathan 	for (i = 0; i < RTK_TIMEOUT; i++) {
    238       1.1  jonathan 		rval = CSR_READ_4(sc, RTK_PHYAR);
    239       1.1  jonathan 		if (!(rval & RTK_PHYAR_BUSY))
    240       1.1  jonathan 			break;
    241       1.1  jonathan 		DELAY(100);
    242       1.1  jonathan 	}
    243       1.1  jonathan 
    244       1.1  jonathan 	if (i == RTK_TIMEOUT) {
    245       1.4   kanaoka 		aprint_error("%s: PHY write reg %x <- %x failed\n",
    246       1.4   kanaoka 		    sc->sc_dev.dv_xname, reg, data);
    247       1.1  jonathan 	}
    248       1.1  jonathan }
    249       1.1  jonathan 
    250       1.1  jonathan static int
    251       1.1  jonathan re_miibus_readreg(struct device *dev, int phy, int reg)
    252       1.1  jonathan {
    253       1.1  jonathan 	struct rtk_softc	*sc = (void *)dev;
    254      1.40   tsutsui 	uint16_t		rval = 0;
    255      1.40   tsutsui 	uint16_t		re8139_reg = 0;
    256       1.1  jonathan 	int			s;
    257       1.1  jonathan 
    258       1.1  jonathan 	s = splnet();
    259       1.1  jonathan 
    260      1.84   tsutsui 	if ((sc->sc_quirk & RTKQ_8139CPLUS) == 0) {
    261       1.1  jonathan 		rval = re_gmii_readreg(dev, phy, reg);
    262       1.1  jonathan 		splx(s);
    263       1.4   kanaoka 		return rval;
    264       1.1  jonathan 	}
    265       1.1  jonathan 
    266       1.1  jonathan 	/* Pretend the internal PHY is only at address 0 */
    267       1.1  jonathan 	if (phy) {
    268       1.1  jonathan 		splx(s);
    269       1.4   kanaoka 		return 0;
    270       1.1  jonathan 	}
    271       1.4   kanaoka 	switch (reg) {
    272       1.1  jonathan 	case MII_BMCR:
    273       1.1  jonathan 		re8139_reg = RTK_BMCR;
    274       1.1  jonathan 		break;
    275       1.1  jonathan 	case MII_BMSR:
    276       1.1  jonathan 		re8139_reg = RTK_BMSR;
    277       1.1  jonathan 		break;
    278       1.1  jonathan 	case MII_ANAR:
    279       1.1  jonathan 		re8139_reg = RTK_ANAR;
    280       1.1  jonathan 		break;
    281       1.1  jonathan 	case MII_ANER:
    282       1.1  jonathan 		re8139_reg = RTK_ANER;
    283       1.1  jonathan 		break;
    284       1.1  jonathan 	case MII_ANLPAR:
    285       1.1  jonathan 		re8139_reg = RTK_LPAR;
    286       1.1  jonathan 		break;
    287       1.1  jonathan 	case MII_PHYIDR1:
    288       1.1  jonathan 	case MII_PHYIDR2:
    289       1.1  jonathan 		splx(s);
    290       1.4   kanaoka 		return 0;
    291       1.1  jonathan 	/*
    292       1.1  jonathan 	 * Allow the rlphy driver to read the media status
    293       1.1  jonathan 	 * register. If we have a link partner which does not
    294       1.1  jonathan 	 * support NWAY, this is the register which will tell
    295       1.1  jonathan 	 * us the results of parallel detection.
    296       1.1  jonathan 	 */
    297       1.1  jonathan 	case RTK_MEDIASTAT:
    298       1.1  jonathan 		rval = CSR_READ_1(sc, RTK_MEDIASTAT);
    299       1.1  jonathan 		splx(s);
    300       1.4   kanaoka 		return rval;
    301       1.1  jonathan 	default:
    302       1.4   kanaoka 		aprint_error("%s: bad phy register\n", sc->sc_dev.dv_xname);
    303       1.1  jonathan 		splx(s);
    304       1.4   kanaoka 		return 0;
    305       1.1  jonathan 	}
    306       1.1  jonathan 	rval = CSR_READ_2(sc, re8139_reg);
    307      1.84   tsutsui 	if ((sc->sc_quirk & RTKQ_8139CPLUS) != 0 && re8139_reg == RTK_BMCR) {
    308      1.51   tsutsui 		/* 8139C+ has different bit layout. */
    309      1.51   tsutsui 		rval &= ~(BMCR_LOOP | BMCR_ISO);
    310      1.51   tsutsui 	}
    311       1.1  jonathan 	splx(s);
    312       1.4   kanaoka 	return rval;
    313       1.1  jonathan }
    314       1.1  jonathan 
    315       1.1  jonathan static void
    316       1.1  jonathan re_miibus_writereg(struct device *dev, int phy, int reg, int data)
    317       1.1  jonathan {
    318       1.1  jonathan 	struct rtk_softc	*sc = (void *)dev;
    319      1.40   tsutsui 	uint16_t		re8139_reg = 0;
    320       1.1  jonathan 	int			s;
    321       1.1  jonathan 
    322       1.1  jonathan 	s = splnet();
    323       1.1  jonathan 
    324      1.84   tsutsui 	if ((sc->sc_quirk & RTKQ_8139CPLUS) == 0) {
    325       1.1  jonathan 		re_gmii_writereg(dev, phy, reg, data);
    326       1.1  jonathan 		splx(s);
    327       1.1  jonathan 		return;
    328       1.1  jonathan 	}
    329       1.1  jonathan 
    330       1.1  jonathan 	/* Pretend the internal PHY is only at address 0 */
    331       1.1  jonathan 	if (phy) {
    332       1.1  jonathan 		splx(s);
    333       1.1  jonathan 		return;
    334       1.1  jonathan 	}
    335       1.4   kanaoka 	switch (reg) {
    336       1.1  jonathan 	case MII_BMCR:
    337       1.1  jonathan 		re8139_reg = RTK_BMCR;
    338      1.84   tsutsui 		if ((sc->sc_quirk & RTKQ_8139CPLUS) != 0) {
    339      1.51   tsutsui 			/* 8139C+ has different bit layout. */
    340      1.51   tsutsui 			data &= ~(BMCR_LOOP | BMCR_ISO);
    341      1.51   tsutsui 		}
    342       1.1  jonathan 		break;
    343       1.1  jonathan 	case MII_BMSR:
    344       1.1  jonathan 		re8139_reg = RTK_BMSR;
    345       1.1  jonathan 		break;
    346       1.1  jonathan 	case MII_ANAR:
    347       1.1  jonathan 		re8139_reg = RTK_ANAR;
    348       1.1  jonathan 		break;
    349       1.1  jonathan 	case MII_ANER:
    350       1.1  jonathan 		re8139_reg = RTK_ANER;
    351       1.1  jonathan 		break;
    352       1.1  jonathan 	case MII_ANLPAR:
    353       1.1  jonathan 		re8139_reg = RTK_LPAR;
    354       1.1  jonathan 		break;
    355       1.1  jonathan 	case MII_PHYIDR1:
    356       1.1  jonathan 	case MII_PHYIDR2:
    357       1.1  jonathan 		splx(s);
    358       1.1  jonathan 		return;
    359       1.1  jonathan 		break;
    360       1.1  jonathan 	default:
    361       1.4   kanaoka 		aprint_error("%s: bad phy register\n", sc->sc_dev.dv_xname);
    362       1.1  jonathan 		splx(s);
    363       1.1  jonathan 		return;
    364       1.1  jonathan 	}
    365       1.1  jonathan 	CSR_WRITE_2(sc, re8139_reg, data);
    366       1.1  jonathan 	splx(s);
    367       1.1  jonathan 	return;
    368       1.1  jonathan }
    369       1.1  jonathan 
    370       1.1  jonathan static void
    371      1.62  christos re_miibus_statchg(struct device *dev)
    372       1.1  jonathan {
    373       1.1  jonathan 
    374       1.1  jonathan 	return;
    375       1.1  jonathan }
    376       1.1  jonathan 
    377       1.1  jonathan static void
    378       1.1  jonathan re_reset(struct rtk_softc *sc)
    379       1.1  jonathan {
    380      1.41   tsutsui 	int		i;
    381       1.1  jonathan 
    382       1.1  jonathan 	CSR_WRITE_1(sc, RTK_COMMAND, RTK_CMD_RESET);
    383       1.1  jonathan 
    384       1.1  jonathan 	for (i = 0; i < RTK_TIMEOUT; i++) {
    385       1.1  jonathan 		DELAY(10);
    386      1.41   tsutsui 		if ((CSR_READ_1(sc, RTK_COMMAND) & RTK_CMD_RESET) == 0)
    387       1.1  jonathan 			break;
    388       1.1  jonathan 	}
    389       1.1  jonathan 	if (i == RTK_TIMEOUT)
    390       1.4   kanaoka 		aprint_error("%s: reset never completed!\n",
    391       1.4   kanaoka 		    sc->sc_dev.dv_xname);
    392       1.1  jonathan 
    393       1.1  jonathan 	/*
    394       1.1  jonathan 	 * NB: Realtek-supplied Linux driver does this only for
    395       1.1  jonathan 	 * MCFG_METHOD_2, which corresponds to sc->sc_rev == 2.
    396       1.1  jonathan 	 */
    397       1.4   kanaoka 	if (1) /* XXX check softc flag for 8169s version */
    398      1.66   tsutsui 		CSR_WRITE_1(sc, RTK_LDPS, 1);
    399       1.1  jonathan 
    400       1.1  jonathan 	return;
    401       1.1  jonathan }
    402       1.1  jonathan 
    403       1.1  jonathan /*
    404       1.1  jonathan  * The following routine is designed to test for a defect on some
    405       1.1  jonathan  * 32-bit 8169 cards. Some of these NICs have the REQ64# and ACK64#
    406       1.1  jonathan  * lines connected to the bus, however for a 32-bit only card, they
    407       1.1  jonathan  * should be pulled high. The result of this defect is that the
    408       1.1  jonathan  * NIC will not work right if you plug it into a 64-bit slot: DMA
    409       1.1  jonathan  * operations will be done with 64-bit transfers, which will fail
    410       1.1  jonathan  * because the 64-bit data lines aren't connected.
    411       1.1  jonathan  *
    412       1.1  jonathan  * There's no way to work around this (short of talking a soldering
    413       1.1  jonathan  * iron to the board), however we can detect it. The method we use
    414       1.1  jonathan  * here is to put the NIC into digital loopback mode, set the receiver
    415       1.1  jonathan  * to promiscuous mode, and then try to send a frame. We then compare
    416       1.1  jonathan  * the frame data we sent to what was received. If the data matches,
    417       1.1  jonathan  * then the NIC is working correctly, otherwise we know the user has
    418       1.1  jonathan  * a defective NIC which has been mistakenly plugged into a 64-bit PCI
    419       1.1  jonathan  * slot. In the latter case, there's no way the NIC can work correctly,
    420       1.1  jonathan  * so we print out a message on the console and abort the device attach.
    421       1.1  jonathan  */
    422       1.1  jonathan 
    423       1.6   kanaoka int
    424       1.1  jonathan re_diag(struct rtk_softc *sc)
    425       1.1  jonathan {
    426       1.1  jonathan 	struct ifnet		*ifp = &sc->ethercom.ec_if;
    427       1.1  jonathan 	struct mbuf		*m0;
    428       1.1  jonathan 	struct ether_header	*eh;
    429      1.52   tsutsui 	struct re_rxsoft	*rxs;
    430      1.52   tsutsui 	struct re_desc		*cur_rx;
    431       1.1  jonathan 	bus_dmamap_t		dmamap;
    432      1.40   tsutsui 	uint16_t		status;
    433      1.40   tsutsui 	uint32_t		rxstat;
    434       1.1  jonathan 	int			total_len, i, s, error = 0;
    435      1.40   tsutsui 	static const uint8_t	dst[] = { 0x00, 'h', 'e', 'l', 'l', 'o' };
    436      1.40   tsutsui 	static const uint8_t	src[] = { 0x00, 'w', 'o', 'r', 'l', 'd' };
    437       1.1  jonathan 
    438       1.1  jonathan 	/* Allocate a single mbuf */
    439       1.1  jonathan 
    440       1.1  jonathan 	MGETHDR(m0, M_DONTWAIT, MT_DATA);
    441       1.1  jonathan 	if (m0 == NULL)
    442       1.4   kanaoka 		return ENOBUFS;
    443       1.1  jonathan 
    444       1.1  jonathan 	/*
    445       1.1  jonathan 	 * Initialize the NIC in test mode. This sets the chip up
    446       1.1  jonathan 	 * so that it can send and receive frames, but performs the
    447       1.1  jonathan 	 * following special functions:
    448       1.1  jonathan 	 * - Puts receiver in promiscuous mode
    449       1.1  jonathan 	 * - Enables digital loopback mode
    450       1.1  jonathan 	 * - Leaves interrupts turned off
    451       1.1  jonathan 	 */
    452       1.1  jonathan 
    453       1.1  jonathan 	ifp->if_flags |= IFF_PROMISC;
    454      1.52   tsutsui 	sc->re_testmode = 1;
    455       1.1  jonathan 	re_init(ifp);
    456       1.6   kanaoka 	re_stop(ifp, 0);
    457       1.1  jonathan 	DELAY(100000);
    458       1.1  jonathan 	re_init(ifp);
    459       1.1  jonathan 
    460       1.1  jonathan 	/* Put some data in the mbuf */
    461       1.1  jonathan 
    462       1.1  jonathan 	eh = mtod(m0, struct ether_header *);
    463      1.36   tsutsui 	memcpy(eh->ether_dhost, (char *)&dst, ETHER_ADDR_LEN);
    464      1.36   tsutsui 	memcpy(eh->ether_shost, (char *)&src, ETHER_ADDR_LEN);
    465       1.1  jonathan 	eh->ether_type = htons(ETHERTYPE_IP);
    466       1.1  jonathan 	m0->m_pkthdr.len = m0->m_len = ETHER_MIN_LEN - ETHER_CRC_LEN;
    467       1.1  jonathan 
    468       1.1  jonathan 	/*
    469       1.1  jonathan 	 * Queue the packet, start transmission.
    470       1.1  jonathan 	 */
    471       1.1  jonathan 
    472       1.1  jonathan 	CSR_WRITE_2(sc, RTK_ISR, 0xFFFF);
    473       1.1  jonathan 	s = splnet();
    474       1.1  jonathan 	IF_ENQUEUE(&ifp->if_snd, m0);
    475       1.1  jonathan 	re_start(ifp);
    476       1.1  jonathan 	splx(s);
    477       1.1  jonathan 	m0 = NULL;
    478       1.1  jonathan 
    479       1.1  jonathan 	/* Wait for it to propagate through the chip */
    480       1.1  jonathan 
    481       1.1  jonathan 	DELAY(100000);
    482       1.1  jonathan 	for (i = 0; i < RTK_TIMEOUT; i++) {
    483       1.1  jonathan 		status = CSR_READ_2(sc, RTK_ISR);
    484       1.4   kanaoka 		if ((status & (RTK_ISR_TIMEOUT_EXPIRED | RTK_ISR_RX_OK)) ==
    485       1.4   kanaoka 		    (RTK_ISR_TIMEOUT_EXPIRED | RTK_ISR_RX_OK))
    486       1.1  jonathan 			break;
    487       1.1  jonathan 		DELAY(10);
    488       1.1  jonathan 	}
    489       1.1  jonathan 	if (i == RTK_TIMEOUT) {
    490       1.4   kanaoka 		aprint_error("%s: diagnostic failed, failed to receive packet "
    491       1.1  jonathan 		    "in loopback mode\n", sc->sc_dev.dv_xname);
    492       1.1  jonathan 		error = EIO;
    493       1.1  jonathan 		goto done;
    494       1.1  jonathan 	}
    495       1.1  jonathan 
    496       1.1  jonathan 	/*
    497       1.1  jonathan 	 * The packet should have been dumped into the first
    498       1.1  jonathan 	 * entry in the RX DMA ring. Grab it from there.
    499       1.1  jonathan 	 */
    500       1.1  jonathan 
    501      1.52   tsutsui 	rxs = &sc->re_ldata.re_rxsoft[0];
    502      1.50   tsutsui 	dmamap = rxs->rxs_dmamap;
    503       1.1  jonathan 	bus_dmamap_sync(sc->sc_dmat, dmamap, 0, dmamap->dm_mapsize,
    504      1.20    briggs 	    BUS_DMASYNC_POSTREAD);
    505      1.50   tsutsui 	bus_dmamap_unload(sc->sc_dmat, dmamap);
    506       1.1  jonathan 
    507      1.50   tsutsui 	m0 = rxs->rxs_mbuf;
    508      1.50   tsutsui 	rxs->rxs_mbuf = NULL;
    509       1.1  jonathan 	eh = mtod(m0, struct ether_header *);
    510       1.1  jonathan 
    511      1.52   tsutsui 	RE_RXDESCSYNC(sc, 0, BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
    512      1.52   tsutsui 	cur_rx = &sc->re_ldata.re_rx_list[0];
    513      1.52   tsutsui 	rxstat = le32toh(cur_rx->re_cmdstat);
    514      1.52   tsutsui 	total_len = rxstat & sc->re_rxlenmask;
    515       1.1  jonathan 
    516       1.1  jonathan 	if (total_len != ETHER_MIN_LEN) {
    517       1.4   kanaoka 		aprint_error("%s: diagnostic failed, received short packet\n",
    518       1.1  jonathan 		    sc->sc_dev.dv_xname);
    519       1.1  jonathan 		error = EIO;
    520       1.1  jonathan 		goto done;
    521       1.1  jonathan 	}
    522       1.1  jonathan 
    523       1.1  jonathan 	/* Test that the received packet data matches what we sent. */
    524       1.1  jonathan 
    525      1.36   tsutsui 	if (memcmp((char *)&eh->ether_dhost, (char *)&dst, ETHER_ADDR_LEN) ||
    526      1.36   tsutsui 	    memcmp((char *)&eh->ether_shost, (char *)&src, ETHER_ADDR_LEN) ||
    527       1.1  jonathan 	    ntohs(eh->ether_type) != ETHERTYPE_IP) {
    528       1.4   kanaoka 		aprint_error("%s: WARNING, DMA FAILURE!\n",
    529       1.4   kanaoka 		    sc->sc_dev.dv_xname);
    530       1.4   kanaoka 		aprint_error("%s: expected TX data: %s",
    531       1.1  jonathan 		    sc->sc_dev.dv_xname, ether_sprintf(dst));
    532       1.4   kanaoka 		aprint_error("/%s/0x%x\n", ether_sprintf(src), ETHERTYPE_IP);
    533       1.4   kanaoka 		aprint_error("%s: received RX data: %s",
    534       1.1  jonathan 		    sc->sc_dev.dv_xname,
    535       1.1  jonathan 		    ether_sprintf(eh->ether_dhost));
    536       1.4   kanaoka 		aprint_error("/%s/0x%x\n", ether_sprintf(eh->ether_shost),
    537       1.1  jonathan 		    ntohs(eh->ether_type));
    538       1.4   kanaoka 		aprint_error("%s: You may have a defective 32-bit NIC plugged "
    539       1.1  jonathan 		    "into a 64-bit PCI slot.\n", sc->sc_dev.dv_xname);
    540       1.4   kanaoka 		aprint_error("%s: Please re-install the NIC in a 32-bit slot "
    541       1.1  jonathan 		    "for proper operation.\n", sc->sc_dev.dv_xname);
    542       1.4   kanaoka 		aprint_error("%s: Read the re(4) man page for more details.\n",
    543       1.1  jonathan 		    sc->sc_dev.dv_xname);
    544       1.1  jonathan 		error = EIO;
    545       1.1  jonathan 	}
    546       1.1  jonathan 
    547      1.41   tsutsui  done:
    548       1.1  jonathan 	/* Turn interface off, release resources */
    549       1.1  jonathan 
    550      1.52   tsutsui 	sc->re_testmode = 0;
    551       1.1  jonathan 	ifp->if_flags &= ~IFF_PROMISC;
    552       1.6   kanaoka 	re_stop(ifp, 0);
    553       1.1  jonathan 	if (m0 != NULL)
    554       1.1  jonathan 		m_freem(m0);
    555       1.1  jonathan 
    556       1.4   kanaoka 	return error;
    557       1.1  jonathan }
    558       1.1  jonathan 
    559       1.1  jonathan 
    560       1.1  jonathan /*
    561       1.1  jonathan  * Attach the interface. Allocate softc structures, do ifmedia
    562       1.1  jonathan  * setup and ethernet/BPF attach.
    563       1.1  jonathan  */
    564       1.1  jonathan void
    565       1.1  jonathan re_attach(struct rtk_softc *sc)
    566       1.1  jonathan {
    567       1.1  jonathan 	u_char			eaddr[ETHER_ADDR_LEN];
    568      1.40   tsutsui 	uint16_t		val;
    569       1.1  jonathan 	struct ifnet		*ifp;
    570       1.1  jonathan 	int			error = 0, i, addr_len;
    571       1.1  jonathan 
    572       1.1  jonathan 	/* Reset the adapter. */
    573       1.1  jonathan 	re_reset(sc);
    574       1.1  jonathan 
    575      1.77   tsutsui 	if (rtk_read_eeprom(sc, RTK_EE_ID, RTK_EEADDR_LEN1) == 0x8129)
    576      1.77   tsutsui 		addr_len = RTK_EEADDR_LEN1;
    577      1.77   tsutsui 	else
    578      1.77   tsutsui 		addr_len = RTK_EEADDR_LEN0;
    579      1.77   tsutsui 
    580      1.77   tsutsui 	/*
    581      1.77   tsutsui 	 * Get station address from the EEPROM.
    582      1.77   tsutsui 	 */
    583      1.77   tsutsui 	for (i = 0; i < 3; i++) {
    584      1.77   tsutsui 		val = rtk_read_eeprom(sc, RTK_EE_EADDR0 + i, addr_len);
    585      1.77   tsutsui 		eaddr[(i * 2) + 0] = val & 0xff;
    586      1.77   tsutsui 		eaddr[(i * 2) + 1] = val >> 8;
    587      1.77   tsutsui 	}
    588      1.77   tsutsui 
    589      1.84   tsutsui 	if ((sc->sc_quirk & RTKQ_8139CPLUS) == 0) {
    590       1.1  jonathan 		uint32_t hwrev;
    591       1.1  jonathan 
    592       1.1  jonathan 		/* Revision of 8169/8169S/8110s in bits 30..26, 23 */
    593      1.78   tsutsui 		hwrev = CSR_READ_4(sc, RTK_TXCFG) & RTK_TXCFG_HWREV;
    594      1.78   tsutsui 		/* These rev numbers are taken from Realtek's driver */
    595      1.80   tsutsui 		if (       hwrev == RTK_HWREV_8100E_SPIN2) {
    596      1.78   tsutsui 			sc->sc_rev = 15;
    597      1.78   tsutsui 		} else if (hwrev == RTK_HWREV_8100E) {
    598      1.78   tsutsui 			sc->sc_rev = 14;
    599      1.78   tsutsui 		} else if (hwrev == RTK_HWREV_8101E) {
    600      1.78   tsutsui 			sc->sc_rev = 13;
    601      1.84   tsutsui 		} else if (hwrev == RTK_HWREV_8168_SPIN2 ||
    602      1.84   tsutsui 		           hwrev == RTK_HWREV_8168_SPIN3) {
    603      1.78   tsutsui 			sc->sc_rev = 12;
    604      1.78   tsutsui 		} else if (hwrev == RTK_HWREV_8168_SPIN1) {
    605      1.78   tsutsui 			sc->sc_rev = 11;
    606      1.78   tsutsui 		} else if (hwrev == RTK_HWREV_8169_8110SC) {
    607      1.78   tsutsui 			sc->sc_rev = 5;
    608      1.78   tsutsui 		} else if (hwrev == RTK_HWREV_8169_8110SB) {
    609       1.1  jonathan 			sc->sc_rev = 4;
    610      1.78   tsutsui 		} else if (hwrev == RTK_HWREV_8169S) {
    611       1.1  jonathan 			sc->sc_rev = 3;
    612      1.78   tsutsui 		} else if (hwrev == RTK_HWREV_8110S) {
    613       1.1  jonathan 			sc->sc_rev = 2;
    614      1.84   tsutsui 		} else if (hwrev == RTK_HWREV_8169) {
    615       1.1  jonathan 			sc->sc_rev = 1;
    616      1.84   tsutsui 			sc->sc_quirk |= RTKQ_8169NONS;
    617      1.84   tsutsui 		} else {
    618      1.84   tsutsui 			aprint_normal("%s: Unknown revision (0x%08x)\n",
    619      1.84   tsutsui 			    sc->sc_dev.dv_xname, hwrev);
    620      1.84   tsutsui 			/* assume the latest one */
    621      1.84   tsutsui 			sc->sc_rev = 15;
    622      1.84   tsutsui 		}
    623       1.1  jonathan 
    624       1.1  jonathan 		/* Set RX length mask */
    625      1.52   tsutsui 		sc->re_rxlenmask = RE_RDESC_STAT_GFRAGLEN;
    626      1.52   tsutsui 		sc->re_ldata.re_tx_desc_cnt = RE_TX_DESC_CNT_8169;
    627       1.1  jonathan 	} else {
    628       1.1  jonathan 		/* Set RX length mask */
    629      1.52   tsutsui 		sc->re_rxlenmask = RE_RDESC_STAT_FRAGLEN;
    630      1.52   tsutsui 		sc->re_ldata.re_tx_desc_cnt = RE_TX_DESC_CNT_8139;
    631       1.1  jonathan 	}
    632       1.1  jonathan 
    633       1.1  jonathan 	aprint_normal("%s: Ethernet address %s\n",
    634       1.1  jonathan 	    sc->sc_dev.dv_xname, ether_sprintf(eaddr));
    635       1.1  jonathan 
    636      1.52   tsutsui 	if (sc->re_ldata.re_tx_desc_cnt >
    637      1.52   tsutsui 	    PAGE_SIZE / sizeof(struct re_desc)) {
    638      1.52   tsutsui 		sc->re_ldata.re_tx_desc_cnt =
    639      1.52   tsutsui 		    PAGE_SIZE / sizeof(struct re_desc);
    640      1.15      yamt 	}
    641      1.15      yamt 
    642      1.15      yamt 	aprint_verbose("%s: using %d tx descriptors\n",
    643      1.52   tsutsui 	    sc->sc_dev.dv_xname, sc->re_ldata.re_tx_desc_cnt);
    644      1.65   tsutsui 	KASSERT(RE_NEXT_TX_DESC(sc, RE_TX_DESC_CNT(sc) - 1) == 0);
    645       1.1  jonathan 
    646       1.5   kanaoka 	/* Allocate DMA'able memory for the TX ring */
    647      1.52   tsutsui 	if ((error = bus_dmamem_alloc(sc->sc_dmat, RE_TX_LIST_SZ(sc),
    648      1.52   tsutsui 	    RE_RING_ALIGN, 0, &sc->re_ldata.re_tx_listseg, 1,
    649      1.52   tsutsui 	    &sc->re_ldata.re_tx_listnseg, BUS_DMA_NOWAIT)) != 0) {
    650       1.5   kanaoka 		aprint_error("%s: can't allocate tx listseg, error = %d\n",
    651       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    652       1.5   kanaoka 		goto fail_0;
    653       1.5   kanaoka 	}
    654       1.5   kanaoka 
    655       1.5   kanaoka 	/* Load the map for the TX ring. */
    656      1.52   tsutsui 	if ((error = bus_dmamem_map(sc->sc_dmat, &sc->re_ldata.re_tx_listseg,
    657      1.52   tsutsui 	    sc->re_ldata.re_tx_listnseg, RE_TX_LIST_SZ(sc),
    658      1.83  christos 	    (void **)&sc->re_ldata.re_tx_list,
    659      1.41   tsutsui 	    BUS_DMA_COHERENT | BUS_DMA_NOWAIT)) != 0) {
    660       1.5   kanaoka 		aprint_error("%s: can't map tx list, error = %d\n",
    661       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    662       1.5   kanaoka 	  	goto fail_1;
    663       1.5   kanaoka 	}
    664      1.52   tsutsui 	memset(sc->re_ldata.re_tx_list, 0, RE_TX_LIST_SZ(sc));
    665       1.5   kanaoka 
    666      1.52   tsutsui 	if ((error = bus_dmamap_create(sc->sc_dmat, RE_TX_LIST_SZ(sc), 1,
    667      1.52   tsutsui 	    RE_TX_LIST_SZ(sc), 0, 0,
    668      1.52   tsutsui 	    &sc->re_ldata.re_tx_list_map)) != 0) {
    669       1.5   kanaoka 		aprint_error("%s: can't create tx list map, error = %d\n",
    670       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    671       1.5   kanaoka 		goto fail_2;
    672       1.5   kanaoka 	}
    673       1.5   kanaoka 
    674       1.5   kanaoka 
    675      1.12     perry 	if ((error = bus_dmamap_load(sc->sc_dmat,
    676      1.52   tsutsui 	    sc->re_ldata.re_tx_list_map, sc->re_ldata.re_tx_list,
    677      1.52   tsutsui 	    RE_TX_LIST_SZ(sc), NULL, BUS_DMA_NOWAIT)) != 0) {
    678       1.5   kanaoka 		aprint_error("%s: can't load tx list, error = %d\n",
    679       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    680       1.5   kanaoka 		goto fail_3;
    681       1.5   kanaoka 	}
    682       1.5   kanaoka 
    683       1.5   kanaoka 	/* Create DMA maps for TX buffers */
    684      1.52   tsutsui 	for (i = 0; i < RE_TX_QLEN; i++) {
    685      1.13      yamt 		error = bus_dmamap_create(sc->sc_dmat,
    686      1.13      yamt 		    round_page(IP_MAXPACKET),
    687  1.89.2.1       mjf 		    RE_TX_DESC_CNT(sc), RE_TDESC_CMD_FRAGLEN,
    688      1.59   tsutsui 		    0, 0, &sc->re_ldata.re_txq[i].txq_dmamap);
    689       1.5   kanaoka 		if (error) {
    690       1.5   kanaoka 			aprint_error("%s: can't create DMA map for TX\n",
    691       1.5   kanaoka 			    sc->sc_dev.dv_xname);
    692       1.5   kanaoka 			goto fail_4;
    693       1.5   kanaoka 		}
    694       1.5   kanaoka 	}
    695       1.5   kanaoka 
    696       1.5   kanaoka 	/* Allocate DMA'able memory for the RX ring */
    697      1.71   tsutsui 	/* XXX see also a comment about RE_RX_DMAMEM_SZ in rtl81x9var.h */
    698      1.63   tsutsui 	if ((error = bus_dmamem_alloc(sc->sc_dmat,
    699      1.71   tsutsui 	    RE_RX_DMAMEM_SZ, RE_RING_ALIGN, 0, &sc->re_ldata.re_rx_listseg, 1,
    700      1.52   tsutsui 	    &sc->re_ldata.re_rx_listnseg, BUS_DMA_NOWAIT)) != 0) {
    701       1.5   kanaoka 		aprint_error("%s: can't allocate rx listseg, error = %d\n",
    702       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    703       1.5   kanaoka 		goto fail_4;
    704       1.5   kanaoka 	}
    705       1.5   kanaoka 
    706       1.5   kanaoka 	/* Load the map for the RX ring. */
    707      1.52   tsutsui 	if ((error = bus_dmamem_map(sc->sc_dmat, &sc->re_ldata.re_rx_listseg,
    708      1.71   tsutsui 	    sc->re_ldata.re_rx_listnseg, RE_RX_DMAMEM_SZ,
    709      1.83  christos 	    (void **)&sc->re_ldata.re_rx_list,
    710      1.41   tsutsui 	    BUS_DMA_COHERENT | BUS_DMA_NOWAIT)) != 0) {
    711       1.5   kanaoka 		aprint_error("%s: can't map rx list, error = %d\n",
    712       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    713       1.5   kanaoka 		goto fail_5;
    714       1.5   kanaoka 	}
    715      1.71   tsutsui 	memset(sc->re_ldata.re_rx_list, 0, RE_RX_DMAMEM_SZ);
    716       1.5   kanaoka 
    717      1.63   tsutsui 	if ((error = bus_dmamap_create(sc->sc_dmat,
    718      1.71   tsutsui 	    RE_RX_DMAMEM_SZ, 1, RE_RX_DMAMEM_SZ, 0, 0,
    719      1.52   tsutsui 	    &sc->re_ldata.re_rx_list_map)) != 0) {
    720       1.5   kanaoka 		aprint_error("%s: can't create rx list map, error = %d\n",
    721       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    722       1.5   kanaoka 		goto fail_6;
    723       1.5   kanaoka 	}
    724       1.5   kanaoka 
    725       1.5   kanaoka 	if ((error = bus_dmamap_load(sc->sc_dmat,
    726      1.52   tsutsui 	    sc->re_ldata.re_rx_list_map, sc->re_ldata.re_rx_list,
    727      1.71   tsutsui 	    RE_RX_DMAMEM_SZ, NULL, BUS_DMA_NOWAIT)) != 0) {
    728       1.5   kanaoka 		aprint_error("%s: can't load rx list, error = %d\n",
    729       1.5   kanaoka 		    sc->sc_dev.dv_xname, error);
    730       1.5   kanaoka 		goto fail_7;
    731       1.5   kanaoka 	}
    732       1.5   kanaoka 
    733       1.5   kanaoka 	/* Create DMA maps for RX buffers */
    734      1.52   tsutsui 	for (i = 0; i < RE_RX_DESC_CNT; i++) {
    735       1.5   kanaoka 		error = bus_dmamap_create(sc->sc_dmat, MCLBYTES, 1, MCLBYTES,
    736      1.52   tsutsui 		    0, 0, &sc->re_ldata.re_rxsoft[i].rxs_dmamap);
    737       1.5   kanaoka 		if (error) {
    738       1.5   kanaoka 			aprint_error("%s: can't create DMA map for RX\n",
    739       1.5   kanaoka 			    sc->sc_dev.dv_xname);
    740       1.5   kanaoka 			goto fail_8;
    741       1.5   kanaoka 		}
    742       1.1  jonathan 	}
    743       1.1  jonathan 
    744       1.6   kanaoka 	/*
    745       1.6   kanaoka 	 * Record interface as attached. From here, we should not fail.
    746       1.6   kanaoka 	 */
    747       1.6   kanaoka 	sc->sc_flags |= RTK_ATTACHED;
    748       1.6   kanaoka 
    749       1.1  jonathan 	ifp = &sc->ethercom.ec_if;
    750       1.1  jonathan 	ifp->if_softc = sc;
    751       1.1  jonathan 	strcpy(ifp->if_xname, sc->sc_dev.dv_xname);
    752       1.1  jonathan 	ifp->if_mtu = ETHERMTU;
    753       1.1  jonathan 	ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST;
    754       1.1  jonathan 	ifp->if_ioctl = re_ioctl;
    755      1.74   tsutsui 	sc->ethercom.ec_capabilities |=
    756      1.74   tsutsui 	    ETHERCAP_VLAN_MTU | ETHERCAP_VLAN_HWTAGGING;
    757       1.1  jonathan 	ifp->if_start = re_start;
    758       1.3   kanaoka 	ifp->if_stop = re_stop;
    759      1.19      yamt 
    760      1.19      yamt 	/*
    761      1.67   tsutsui 	 * IFCAP_CSUM_IPv4_Tx on re(4) is broken for small packets,
    762      1.67   tsutsui 	 * so we have a workaround to handle the bug by padding
    763      1.67   tsutsui 	 * such packets manually.
    764      1.19      yamt 	 */
    765       1.1  jonathan 	ifp->if_capabilities |=
    766      1.63   tsutsui 	    IFCAP_CSUM_IPv4_Tx | IFCAP_CSUM_IPv4_Rx |
    767      1.18      yamt 	    IFCAP_CSUM_TCPv4_Tx | IFCAP_CSUM_TCPv4_Rx |
    768      1.18      yamt 	    IFCAP_CSUM_UDPv4_Tx | IFCAP_CSUM_UDPv4_Rx |
    769      1.13      yamt 	    IFCAP_TSOv4;
    770       1.1  jonathan 	ifp->if_watchdog = re_watchdog;
    771       1.1  jonathan 	ifp->if_init = re_init;
    772      1.52   tsutsui 	ifp->if_snd.ifq_maxlen = RE_IFQ_MAXLEN;
    773       1.1  jonathan 	ifp->if_capenable = ifp->if_capabilities;
    774       1.1  jonathan 	IFQ_SET_READY(&ifp->if_snd);
    775       1.1  jonathan 
    776      1.86        ad 	callout_init(&sc->rtk_tick_ch, 0);
    777       1.1  jonathan 
    778       1.1  jonathan 	/* Do MII setup */
    779       1.1  jonathan 	sc->mii.mii_ifp = ifp;
    780       1.1  jonathan 	sc->mii.mii_readreg = re_miibus_readreg;
    781       1.1  jonathan 	sc->mii.mii_writereg = re_miibus_writereg;
    782       1.1  jonathan 	sc->mii.mii_statchg = re_miibus_statchg;
    783  1.89.2.1       mjf 	sc->ethercom.ec_mii = &sc->mii;
    784  1.89.2.1       mjf 	ifmedia_init(&sc->mii.mii_media, IFM_IMASK, ether_mediachange,
    785  1.89.2.1       mjf 	    ether_mediastatus);
    786       1.1  jonathan 	mii_attach(&sc->sc_dev, &sc->mii, 0xffffffff, MII_PHY_ANY,
    787       1.1  jonathan 	    MII_OFFSET_ANY, 0);
    788       1.4   kanaoka 	ifmedia_set(&sc->mii.mii_media, IFM_ETHER | IFM_AUTO);
    789       1.1  jonathan 
    790       1.1  jonathan 	/*
    791       1.1  jonathan 	 * Call MI attach routine.
    792       1.1  jonathan 	 */
    793       1.1  jonathan 	if_attach(ifp);
    794       1.1  jonathan 	ether_ifattach(ifp, eaddr);
    795       1.1  jonathan 
    796       1.1  jonathan 
    797       1.1  jonathan 	/*
    798       1.1  jonathan 	 * Make sure the interface is shutdown during reboot.
    799       1.1  jonathan 	 */
    800       1.1  jonathan 	sc->sc_sdhook = shutdownhook_establish(re_shutdown, sc);
    801       1.1  jonathan 	if (sc->sc_sdhook == NULL)
    802       1.4   kanaoka 		aprint_error("%s: WARNING: unable to establish shutdown hook\n",
    803       1.1  jonathan 		    sc->sc_dev.dv_xname);
    804       1.1  jonathan 	/*
    805       1.1  jonathan 	 * Add a suspend hook to make sure we come back up after a
    806       1.1  jonathan 	 * resume.
    807       1.1  jonathan 	 */
    808      1.26  jmcneill 	sc->sc_powerhook = powerhook_establish(sc->sc_dev.dv_xname,
    809      1.26  jmcneill 	    re_power, sc);
    810       1.1  jonathan 	if (sc->sc_powerhook == NULL)
    811       1.4   kanaoka 		aprint_error("%s: WARNING: unable to establish power hook\n",
    812       1.1  jonathan 		    sc->sc_dev.dv_xname);
    813       1.1  jonathan 
    814       1.1  jonathan 
    815       1.5   kanaoka 	return;
    816       1.5   kanaoka 
    817      1.41   tsutsui  fail_8:
    818       1.5   kanaoka 	/* Destroy DMA maps for RX buffers. */
    819      1.52   tsutsui 	for (i = 0; i < RE_RX_DESC_CNT; i++)
    820      1.52   tsutsui 		if (sc->re_ldata.re_rxsoft[i].rxs_dmamap != NULL)
    821       1.5   kanaoka 			bus_dmamap_destroy(sc->sc_dmat,
    822      1.52   tsutsui 			    sc->re_ldata.re_rxsoft[i].rxs_dmamap);
    823       1.5   kanaoka 
    824       1.5   kanaoka 	/* Free DMA'able memory for the RX ring. */
    825      1.52   tsutsui 	bus_dmamap_unload(sc->sc_dmat, sc->re_ldata.re_rx_list_map);
    826      1.41   tsutsui  fail_7:
    827      1.52   tsutsui 	bus_dmamap_destroy(sc->sc_dmat, sc->re_ldata.re_rx_list_map);
    828      1.41   tsutsui  fail_6:
    829       1.5   kanaoka 	bus_dmamem_unmap(sc->sc_dmat,
    830      1.83  christos 	    (void *)sc->re_ldata.re_rx_list, RE_RX_DMAMEM_SZ);
    831      1.41   tsutsui  fail_5:
    832       1.5   kanaoka 	bus_dmamem_free(sc->sc_dmat,
    833      1.52   tsutsui 	    &sc->re_ldata.re_rx_listseg, sc->re_ldata.re_rx_listnseg);
    834       1.5   kanaoka 
    835      1.41   tsutsui  fail_4:
    836       1.5   kanaoka 	/* Destroy DMA maps for TX buffers. */
    837      1.52   tsutsui 	for (i = 0; i < RE_TX_QLEN; i++)
    838      1.52   tsutsui 		if (sc->re_ldata.re_txq[i].txq_dmamap != NULL)
    839       1.5   kanaoka 			bus_dmamap_destroy(sc->sc_dmat,
    840      1.52   tsutsui 			    sc->re_ldata.re_txq[i].txq_dmamap);
    841       1.5   kanaoka 
    842       1.5   kanaoka 	/* Free DMA'able memory for the TX ring. */
    843      1.52   tsutsui 	bus_dmamap_unload(sc->sc_dmat, sc->re_ldata.re_tx_list_map);
    844      1.41   tsutsui  fail_3:
    845      1.52   tsutsui 	bus_dmamap_destroy(sc->sc_dmat, sc->re_ldata.re_tx_list_map);
    846      1.41   tsutsui  fail_2:
    847       1.5   kanaoka 	bus_dmamem_unmap(sc->sc_dmat,
    848      1.83  christos 	    (void *)sc->re_ldata.re_tx_list, RE_TX_LIST_SZ(sc));
    849      1.41   tsutsui  fail_1:
    850       1.5   kanaoka 	bus_dmamem_free(sc->sc_dmat,
    851      1.52   tsutsui 	    &sc->re_ldata.re_tx_listseg, sc->re_ldata.re_tx_listnseg);
    852      1.41   tsutsui  fail_0:
    853       1.1  jonathan 	return;
    854       1.1  jonathan }
    855       1.1  jonathan 
    856       1.1  jonathan 
    857       1.1  jonathan /*
    858       1.1  jonathan  * re_activate:
    859       1.1  jonathan  *     Handle device activation/deactivation requests.
    860       1.1  jonathan  */
    861       1.1  jonathan int
    862       1.1  jonathan re_activate(struct device *self, enum devact act)
    863       1.1  jonathan {
    864      1.41   tsutsui 	struct rtk_softc *sc = (void *)self;
    865       1.1  jonathan 	int s, error = 0;
    866       1.1  jonathan 
    867       1.1  jonathan 	s = splnet();
    868       1.1  jonathan 	switch (act) {
    869       1.1  jonathan 	case DVACT_ACTIVATE:
    870       1.1  jonathan 		error = EOPNOTSUPP;
    871       1.1  jonathan 		break;
    872       1.1  jonathan 	case DVACT_DEACTIVATE:
    873       1.1  jonathan 		mii_activate(&sc->mii, act, MII_PHY_ANY, MII_OFFSET_ANY);
    874       1.1  jonathan 		if_deactivate(&sc->ethercom.ec_if);
    875       1.1  jonathan 		break;
    876       1.1  jonathan 	}
    877       1.1  jonathan 	splx(s);
    878       1.1  jonathan 
    879       1.4   kanaoka 	return error;
    880       1.1  jonathan }
    881       1.1  jonathan 
    882       1.1  jonathan /*
    883       1.1  jonathan  * re_detach:
    884       1.1  jonathan  *     Detach a rtk interface.
    885       1.1  jonathan  */
    886       1.1  jonathan int
    887       1.1  jonathan re_detach(struct rtk_softc *sc)
    888       1.1  jonathan {
    889       1.1  jonathan 	struct ifnet *ifp = &sc->ethercom.ec_if;
    890       1.5   kanaoka 	int i;
    891       1.1  jonathan 
    892       1.1  jonathan 	/*
    893       1.1  jonathan 	 * Succeed now if there isn't any work to do.
    894       1.1  jonathan 	 */
    895       1.1  jonathan 	if ((sc->sc_flags & RTK_ATTACHED) == 0)
    896       1.4   kanaoka 		return 0;
    897       1.1  jonathan 
    898       1.1  jonathan 	/* Unhook our tick handler. */
    899       1.1  jonathan 	callout_stop(&sc->rtk_tick_ch);
    900       1.1  jonathan 
    901       1.1  jonathan 	/* Detach all PHYs. */
    902       1.1  jonathan 	mii_detach(&sc->mii, MII_PHY_ANY, MII_OFFSET_ANY);
    903       1.1  jonathan 
    904       1.1  jonathan 	/* Delete all remaining media. */
    905       1.1  jonathan 	ifmedia_delete_instance(&sc->mii.mii_media, IFM_INST_ANY);
    906       1.1  jonathan 
    907       1.1  jonathan 	ether_ifdetach(ifp);
    908       1.1  jonathan 	if_detach(ifp);
    909       1.1  jonathan 
    910       1.5   kanaoka 	/* Destroy DMA maps for RX buffers. */
    911      1.52   tsutsui 	for (i = 0; i < RE_RX_DESC_CNT; i++)
    912      1.52   tsutsui 		if (sc->re_ldata.re_rxsoft[i].rxs_dmamap != NULL)
    913       1.5   kanaoka 			bus_dmamap_destroy(sc->sc_dmat,
    914      1.52   tsutsui 			    sc->re_ldata.re_rxsoft[i].rxs_dmamap);
    915       1.5   kanaoka 
    916       1.5   kanaoka 	/* Free DMA'able memory for the RX ring. */
    917      1.52   tsutsui 	bus_dmamap_unload(sc->sc_dmat, sc->re_ldata.re_rx_list_map);
    918      1.52   tsutsui 	bus_dmamap_destroy(sc->sc_dmat, sc->re_ldata.re_rx_list_map);
    919       1.5   kanaoka 	bus_dmamem_unmap(sc->sc_dmat,
    920      1.83  christos 	    (void *)sc->re_ldata.re_rx_list, RE_RX_DMAMEM_SZ);
    921       1.5   kanaoka 	bus_dmamem_free(sc->sc_dmat,
    922      1.52   tsutsui 	    &sc->re_ldata.re_rx_listseg, sc->re_ldata.re_rx_listnseg);
    923       1.5   kanaoka 
    924       1.5   kanaoka 	/* Destroy DMA maps for TX buffers. */
    925      1.52   tsutsui 	for (i = 0; i < RE_TX_QLEN; i++)
    926      1.52   tsutsui 		if (sc->re_ldata.re_txq[i].txq_dmamap != NULL)
    927       1.5   kanaoka 			bus_dmamap_destroy(sc->sc_dmat,
    928      1.52   tsutsui 			    sc->re_ldata.re_txq[i].txq_dmamap);
    929       1.5   kanaoka 
    930       1.5   kanaoka 	/* Free DMA'able memory for the TX ring. */
    931      1.52   tsutsui 	bus_dmamap_unload(sc->sc_dmat, sc->re_ldata.re_tx_list_map);
    932      1.52   tsutsui 	bus_dmamap_destroy(sc->sc_dmat, sc->re_ldata.re_tx_list_map);
    933       1.5   kanaoka 	bus_dmamem_unmap(sc->sc_dmat,
    934      1.83  christos 	    (void *)sc->re_ldata.re_tx_list, RE_TX_LIST_SZ(sc));
    935       1.5   kanaoka 	bus_dmamem_free(sc->sc_dmat,
    936      1.52   tsutsui 	    &sc->re_ldata.re_tx_listseg, sc->re_ldata.re_tx_listnseg);
    937       1.5   kanaoka 
    938      1.12     perry 
    939       1.1  jonathan 	shutdownhook_disestablish(sc->sc_sdhook);
    940       1.1  jonathan 	powerhook_disestablish(sc->sc_powerhook);
    941       1.1  jonathan 
    942       1.4   kanaoka 	return 0;
    943       1.1  jonathan }
    944       1.1  jonathan 
    945       1.1  jonathan /*
    946       1.1  jonathan  * re_enable:
    947       1.1  jonathan  *     Enable the RTL81X9 chip.
    948       1.1  jonathan  */
    949      1.12     perry static int
    950       1.1  jonathan re_enable(struct rtk_softc *sc)
    951       1.1  jonathan {
    952      1.41   tsutsui 
    953       1.1  jonathan 	if (RTK_IS_ENABLED(sc) == 0 && sc->sc_enable != NULL) {
    954       1.1  jonathan 		if ((*sc->sc_enable)(sc) != 0) {
    955       1.4   kanaoka 			aprint_error("%s: device enable failed\n",
    956       1.1  jonathan 			    sc->sc_dev.dv_xname);
    957       1.4   kanaoka 			return EIO;
    958       1.1  jonathan 		}
    959       1.1  jonathan 		sc->sc_flags |= RTK_ENABLED;
    960       1.1  jonathan 	}
    961       1.4   kanaoka 	return 0;
    962       1.1  jonathan }
    963       1.1  jonathan 
    964       1.1  jonathan /*
    965       1.1  jonathan  * re_disable:
    966       1.1  jonathan  *     Disable the RTL81X9 chip.
    967       1.1  jonathan  */
    968      1.12     perry static void
    969       1.1  jonathan re_disable(struct rtk_softc *sc)
    970       1.1  jonathan {
    971       1.1  jonathan 
    972       1.1  jonathan 	if (RTK_IS_ENABLED(sc) && sc->sc_disable != NULL) {
    973       1.1  jonathan 		(*sc->sc_disable)(sc);
    974       1.1  jonathan 		sc->sc_flags &= ~RTK_ENABLED;
    975       1.1  jonathan 	}
    976       1.1  jonathan }
    977       1.1  jonathan 
    978       1.1  jonathan /*
    979       1.1  jonathan  * re_power:
    980       1.1  jonathan  *     Power management (suspend/resume) hook.
    981       1.1  jonathan  */
    982      1.12     perry void
    983       1.1  jonathan re_power(int why, void *arg)
    984       1.1  jonathan {
    985      1.41   tsutsui 	struct rtk_softc *sc = (void *)arg;
    986       1.1  jonathan 	struct ifnet *ifp = &sc->ethercom.ec_if;
    987       1.1  jonathan 	int s;
    988       1.1  jonathan 
    989       1.1  jonathan 	s = splnet();
    990       1.1  jonathan 	switch (why) {
    991       1.1  jonathan 	case PWR_SUSPEND:
    992       1.1  jonathan 	case PWR_STANDBY:
    993       1.3   kanaoka 		re_stop(ifp, 0);
    994       1.1  jonathan 		if (sc->sc_power != NULL)
    995       1.1  jonathan 			(*sc->sc_power)(sc, why);
    996       1.1  jonathan 		break;
    997       1.1  jonathan 	case PWR_RESUME:
    998       1.1  jonathan 		if (ifp->if_flags & IFF_UP) {
    999       1.1  jonathan 			if (sc->sc_power != NULL)
   1000       1.1  jonathan 				(*sc->sc_power)(sc, why);
   1001       1.1  jonathan 			re_init(ifp);
   1002       1.1  jonathan 		}
   1003       1.1  jonathan 		break;
   1004       1.1  jonathan 	case PWR_SOFTSUSPEND:
   1005       1.1  jonathan 	case PWR_SOFTSTANDBY:
   1006       1.1  jonathan 	case PWR_SOFTRESUME:
   1007       1.1  jonathan 		break;
   1008       1.1  jonathan 	}
   1009       1.1  jonathan 	splx(s);
   1010       1.1  jonathan }
   1011       1.1  jonathan 
   1012       1.1  jonathan 
   1013       1.1  jonathan static int
   1014       1.1  jonathan re_newbuf(struct rtk_softc *sc, int idx, struct mbuf *m)
   1015       1.1  jonathan {
   1016       1.1  jonathan 	struct mbuf		*n = NULL;
   1017       1.1  jonathan 	bus_dmamap_t		map;
   1018      1.52   tsutsui 	struct re_desc		*d;
   1019      1.52   tsutsui 	struct re_rxsoft	*rxs;
   1020      1.40   tsutsui 	uint32_t		cmdstat;
   1021       1.1  jonathan 	int			error;
   1022       1.1  jonathan 
   1023       1.1  jonathan 	if (m == NULL) {
   1024       1.1  jonathan 		MGETHDR(n, M_DONTWAIT, MT_DATA);
   1025       1.1  jonathan 		if (n == NULL)
   1026       1.4   kanaoka 			return ENOBUFS;
   1027       1.1  jonathan 
   1028      1.42   tsutsui 		MCLGET(n, M_DONTWAIT);
   1029      1.42   tsutsui 		if ((n->m_flags & M_EXT) == 0) {
   1030      1.42   tsutsui 			m_freem(n);
   1031       1.4   kanaoka 			return ENOBUFS;
   1032       1.1  jonathan 		}
   1033      1.42   tsutsui 		m = n;
   1034       1.1  jonathan 	} else
   1035       1.1  jonathan 		m->m_data = m->m_ext.ext_buf;
   1036       1.1  jonathan 
   1037       1.1  jonathan 	/*
   1038       1.1  jonathan 	 * Initialize mbuf length fields and fixup
   1039       1.1  jonathan 	 * alignment so that the frame payload is
   1040       1.1  jonathan 	 * longword aligned.
   1041       1.1  jonathan 	 */
   1042      1.61   tsutsui 	m->m_len = m->m_pkthdr.len = MCLBYTES - RE_ETHER_ALIGN;
   1043      1.61   tsutsui 	m->m_data += RE_ETHER_ALIGN;
   1044       1.1  jonathan 
   1045      1.52   tsutsui 	rxs = &sc->re_ldata.re_rxsoft[idx];
   1046      1.50   tsutsui 	map = rxs->rxs_dmamap;
   1047      1.21      yamt 	error = bus_dmamap_load_mbuf(sc->sc_dmat, map, m,
   1048      1.21      yamt 	    BUS_DMA_READ|BUS_DMA_NOWAIT);
   1049       1.1  jonathan 
   1050       1.1  jonathan 	if (error)
   1051       1.1  jonathan 		goto out;
   1052       1.1  jonathan 
   1053      1.33   tsutsui 	bus_dmamap_sync(sc->sc_dmat, map, 0, map->dm_mapsize,
   1054      1.33   tsutsui 	    BUS_DMASYNC_PREREAD);
   1055      1.33   tsutsui 
   1056      1.52   tsutsui 	d = &sc->re_ldata.re_rx_list[idx];
   1057      1.76   tsutsui #ifdef DIAGNOSTIC
   1058      1.52   tsutsui 	RE_RXDESCSYNC(sc, idx, BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
   1059      1.52   tsutsui 	cmdstat = le32toh(d->re_cmdstat);
   1060      1.52   tsutsui 	RE_RXDESCSYNC(sc, idx, BUS_DMASYNC_PREREAD);
   1061      1.52   tsutsui 	if (cmdstat & RE_RDESC_STAT_OWN) {
   1062      1.76   tsutsui 		panic("%s: tried to map busy RX descriptor",
   1063      1.32   tsutsui 		    sc->sc_dev.dv_xname);
   1064      1.32   tsutsui 	}
   1065      1.76   tsutsui #endif
   1066       1.1  jonathan 
   1067      1.50   tsutsui 	rxs->rxs_mbuf = m;
   1068      1.50   tsutsui 
   1069      1.74   tsutsui 	d->re_vlanctl = 0;
   1070       1.1  jonathan 	cmdstat = map->dm_segs[0].ds_len;
   1071      1.52   tsutsui 	if (idx == (RE_RX_DESC_CNT - 1))
   1072      1.52   tsutsui 		cmdstat |= RE_RDESC_CMD_EOR;
   1073      1.64   tsutsui 	re_set_bufaddr(d, map->dm_segs[0].ds_addr);
   1074      1.52   tsutsui 	d->re_cmdstat = htole32(cmdstat);
   1075      1.52   tsutsui 	RE_RXDESCSYNC(sc, idx, BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
   1076      1.52   tsutsui 	cmdstat |= RE_RDESC_CMD_OWN;
   1077      1.52   tsutsui 	d->re_cmdstat = htole32(cmdstat);
   1078      1.52   tsutsui 	RE_RXDESCSYNC(sc, idx, BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
   1079       1.1  jonathan 
   1080       1.1  jonathan 	return 0;
   1081      1.42   tsutsui  out:
   1082       1.1  jonathan 	if (n != NULL)
   1083       1.1  jonathan 		m_freem(n);
   1084       1.1  jonathan 	return ENOMEM;
   1085       1.1  jonathan }
   1086       1.1  jonathan 
   1087       1.1  jonathan static int
   1088       1.1  jonathan re_tx_list_init(struct rtk_softc *sc)
   1089       1.1  jonathan {
   1090      1.15      yamt 	int i;
   1091      1.15      yamt 
   1092      1.52   tsutsui 	memset(sc->re_ldata.re_tx_list, 0, RE_TX_LIST_SZ(sc));
   1093      1.52   tsutsui 	for (i = 0; i < RE_TX_QLEN; i++) {
   1094      1.52   tsutsui 		sc->re_ldata.re_txq[i].txq_mbuf = NULL;
   1095      1.15      yamt 	}
   1096       1.1  jonathan 
   1097       1.1  jonathan 	bus_dmamap_sync(sc->sc_dmat,
   1098      1.52   tsutsui 	    sc->re_ldata.re_tx_list_map, 0,
   1099      1.52   tsutsui 	    sc->re_ldata.re_tx_list_map->dm_mapsize,
   1100      1.32   tsutsui 	    BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
   1101      1.52   tsutsui 	sc->re_ldata.re_txq_prodidx = 0;
   1102      1.52   tsutsui 	sc->re_ldata.re_txq_considx = 0;
   1103      1.59   tsutsui 	sc->re_ldata.re_txq_free = RE_TX_QLEN;
   1104      1.52   tsutsui 	sc->re_ldata.re_tx_free = RE_TX_DESC_CNT(sc);
   1105      1.52   tsutsui 	sc->re_ldata.re_tx_nextfree = 0;
   1106       1.1  jonathan 
   1107       1.4   kanaoka 	return 0;
   1108       1.1  jonathan }
   1109       1.1  jonathan 
   1110       1.1  jonathan static int
   1111       1.1  jonathan re_rx_list_init(struct rtk_softc *sc)
   1112       1.1  jonathan {
   1113       1.1  jonathan 	int			i;
   1114       1.1  jonathan 
   1115      1.52   tsutsui 	memset((char *)sc->re_ldata.re_rx_list, 0, RE_RX_LIST_SZ);
   1116       1.1  jonathan 
   1117      1.52   tsutsui 	for (i = 0; i < RE_RX_DESC_CNT; i++) {
   1118       1.1  jonathan 		if (re_newbuf(sc, i, NULL) == ENOBUFS)
   1119       1.4   kanaoka 			return ENOBUFS;
   1120       1.1  jonathan 	}
   1121       1.1  jonathan 
   1122      1.52   tsutsui 	sc->re_ldata.re_rx_prodidx = 0;
   1123      1.52   tsutsui 	sc->re_head = sc->re_tail = NULL;
   1124       1.1  jonathan 
   1125       1.4   kanaoka 	return 0;
   1126       1.1  jonathan }
   1127       1.1  jonathan 
   1128       1.1  jonathan /*
   1129       1.1  jonathan  * RX handler for C+ and 8169. For the gigE chips, we support
   1130       1.1  jonathan  * the reception of jumbo frames that have been fragmented
   1131       1.1  jonathan  * across multiple 2K mbuf cluster buffers.
   1132       1.1  jonathan  */
   1133       1.1  jonathan static void
   1134       1.1  jonathan re_rxeof(struct rtk_softc *sc)
   1135       1.1  jonathan {
   1136       1.1  jonathan 	struct mbuf		*m;
   1137       1.1  jonathan 	struct ifnet		*ifp;
   1138       1.1  jonathan 	int			i, total_len;
   1139      1.52   tsutsui 	struct re_desc		*cur_rx;
   1140      1.52   tsutsui 	struct re_rxsoft	*rxs;
   1141      1.40   tsutsui 	uint32_t		rxstat, rxvlan;
   1142       1.1  jonathan 
   1143       1.1  jonathan 	ifp = &sc->ethercom.ec_if;
   1144       1.1  jonathan 
   1145      1.52   tsutsui 	for (i = sc->re_ldata.re_rx_prodidx;; i = RE_NEXT_RX_DESC(sc, i)) {
   1146      1.52   tsutsui 		cur_rx = &sc->re_ldata.re_rx_list[i];
   1147      1.52   tsutsui 		RE_RXDESCSYNC(sc, i,
   1148      1.32   tsutsui 		    BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
   1149      1.52   tsutsui 		rxstat = le32toh(cur_rx->re_cmdstat);
   1150      1.52   tsutsui 		RE_RXDESCSYNC(sc, i, BUS_DMASYNC_PREREAD);
   1151      1.52   tsutsui 		if ((rxstat & RE_RDESC_STAT_OWN) != 0) {
   1152      1.32   tsutsui 			break;
   1153      1.32   tsutsui 		}
   1154      1.52   tsutsui 		total_len = rxstat & sc->re_rxlenmask;
   1155      1.52   tsutsui 		rxvlan = le32toh(cur_rx->re_vlanctl);
   1156      1.52   tsutsui 		rxs = &sc->re_ldata.re_rxsoft[i];
   1157      1.50   tsutsui 		m = rxs->rxs_mbuf;
   1158       1.1  jonathan 
   1159       1.1  jonathan 		/* Invalidate the RX mbuf and unload its map */
   1160       1.1  jonathan 
   1161       1.1  jonathan 		bus_dmamap_sync(sc->sc_dmat,
   1162      1.50   tsutsui 		    rxs->rxs_dmamap, 0, rxs->rxs_dmamap->dm_mapsize,
   1163      1.20    briggs 		    BUS_DMASYNC_POSTREAD);
   1164      1.50   tsutsui 		bus_dmamap_unload(sc->sc_dmat, rxs->rxs_dmamap);
   1165       1.1  jonathan 
   1166      1.52   tsutsui 		if ((rxstat & RE_RDESC_STAT_EOF) == 0) {
   1167      1.52   tsutsui 			m->m_len = MCLBYTES - RE_ETHER_ALIGN;
   1168      1.52   tsutsui 			if (sc->re_head == NULL)
   1169      1.52   tsutsui 				sc->re_head = sc->re_tail = m;
   1170       1.1  jonathan 			else {
   1171       1.1  jonathan 				m->m_flags &= ~M_PKTHDR;
   1172      1.52   tsutsui 				sc->re_tail->m_next = m;
   1173      1.52   tsutsui 				sc->re_tail = m;
   1174       1.1  jonathan 			}
   1175       1.1  jonathan 			re_newbuf(sc, i, NULL);
   1176       1.1  jonathan 			continue;
   1177       1.1  jonathan 		}
   1178       1.1  jonathan 
   1179       1.1  jonathan 		/*
   1180       1.1  jonathan 		 * NOTE: for the 8139C+, the frame length field
   1181       1.1  jonathan 		 * is always 12 bits in size, but for the gigE chips,
   1182       1.1  jonathan 		 * it is 13 bits (since the max RX frame length is 16K).
   1183       1.1  jonathan 		 * Unfortunately, all 32 bits in the status word
   1184       1.1  jonathan 		 * were already used, so to make room for the extra
   1185       1.1  jonathan 		 * length bit, RealTek took out the 'frame alignment
   1186       1.1  jonathan 		 * error' bit and shifted the other status bits
   1187       1.1  jonathan 		 * over one slot. The OWN, EOR, FS and LS bits are
   1188       1.1  jonathan 		 * still in the same places. We have already extracted
   1189       1.1  jonathan 		 * the frame length and checked the OWN bit, so rather
   1190       1.1  jonathan 		 * than using an alternate bit mapping, we shift the
   1191       1.1  jonathan 		 * status bits one space to the right so we can evaluate
   1192       1.1  jonathan 		 * them using the 8169 status as though it was in the
   1193       1.1  jonathan 		 * same format as that of the 8139C+.
   1194       1.1  jonathan 		 */
   1195      1.84   tsutsui 		if ((sc->sc_quirk & RTKQ_8139CPLUS) == 0)
   1196       1.1  jonathan 			rxstat >>= 1;
   1197       1.1  jonathan 
   1198      1.75   tsutsui 		if (__predict_false((rxstat & RE_RDESC_STAT_RXERRSUM) != 0)) {
   1199      1.70   tsutsui #ifdef RE_DEBUG
   1200      1.70   tsutsui 			aprint_error("%s: RX error (rxstat = 0x%08x)",
   1201      1.70   tsutsui 			    sc->sc_dev.dv_xname, rxstat);
   1202      1.70   tsutsui 			if (rxstat & RE_RDESC_STAT_FRALIGN)
   1203      1.70   tsutsui 				aprint_error(", frame alignment error");
   1204      1.70   tsutsui 			if (rxstat & RE_RDESC_STAT_BUFOFLOW)
   1205      1.70   tsutsui 				aprint_error(", out of buffer space");
   1206      1.70   tsutsui 			if (rxstat & RE_RDESC_STAT_FIFOOFLOW)
   1207      1.70   tsutsui 				aprint_error(", FIFO overrun");
   1208      1.70   tsutsui 			if (rxstat & RE_RDESC_STAT_GIANT)
   1209      1.70   tsutsui 				aprint_error(", giant packet");
   1210      1.70   tsutsui 			if (rxstat & RE_RDESC_STAT_RUNT)
   1211      1.70   tsutsui 				aprint_error(", runt packet");
   1212      1.70   tsutsui 			if (rxstat & RE_RDESC_STAT_CRCERR)
   1213      1.70   tsutsui 				aprint_error(", CRC error");
   1214      1.70   tsutsui 			aprint_error("\n");
   1215      1.70   tsutsui #endif
   1216       1.1  jonathan 			ifp->if_ierrors++;
   1217       1.1  jonathan 			/*
   1218       1.1  jonathan 			 * If this is part of a multi-fragment packet,
   1219       1.1  jonathan 			 * discard all the pieces.
   1220       1.1  jonathan 			 */
   1221      1.52   tsutsui 			if (sc->re_head != NULL) {
   1222      1.52   tsutsui 				m_freem(sc->re_head);
   1223      1.52   tsutsui 				sc->re_head = sc->re_tail = NULL;
   1224       1.1  jonathan 			}
   1225       1.1  jonathan 			re_newbuf(sc, i, m);
   1226       1.1  jonathan 			continue;
   1227       1.1  jonathan 		}
   1228       1.1  jonathan 
   1229       1.1  jonathan 		/*
   1230       1.1  jonathan 		 * If allocating a replacement mbuf fails,
   1231       1.1  jonathan 		 * reload the current one.
   1232       1.1  jonathan 		 */
   1233       1.1  jonathan 
   1234      1.75   tsutsui 		if (__predict_false(re_newbuf(sc, i, NULL) != 0)) {
   1235       1.1  jonathan 			ifp->if_ierrors++;
   1236      1.52   tsutsui 			if (sc->re_head != NULL) {
   1237      1.52   tsutsui 				m_freem(sc->re_head);
   1238      1.52   tsutsui 				sc->re_head = sc->re_tail = NULL;
   1239       1.1  jonathan 			}
   1240       1.1  jonathan 			re_newbuf(sc, i, m);
   1241       1.1  jonathan 			continue;
   1242       1.1  jonathan 		}
   1243       1.1  jonathan 
   1244      1.52   tsutsui 		if (sc->re_head != NULL) {
   1245      1.52   tsutsui 			m->m_len = total_len % (MCLBYTES - RE_ETHER_ALIGN);
   1246      1.12     perry 			/*
   1247       1.1  jonathan 			 * Special case: if there's 4 bytes or less
   1248       1.1  jonathan 			 * in this buffer, the mbuf can be discarded:
   1249       1.1  jonathan 			 * the last 4 bytes is the CRC, which we don't
   1250       1.1  jonathan 			 * care about anyway.
   1251       1.1  jonathan 			 */
   1252       1.1  jonathan 			if (m->m_len <= ETHER_CRC_LEN) {
   1253      1.52   tsutsui 				sc->re_tail->m_len -=
   1254       1.1  jonathan 				    (ETHER_CRC_LEN - m->m_len);
   1255       1.1  jonathan 				m_freem(m);
   1256       1.1  jonathan 			} else {
   1257       1.1  jonathan 				m->m_len -= ETHER_CRC_LEN;
   1258       1.1  jonathan 				m->m_flags &= ~M_PKTHDR;
   1259      1.52   tsutsui 				sc->re_tail->m_next = m;
   1260       1.1  jonathan 			}
   1261      1.52   tsutsui 			m = sc->re_head;
   1262      1.52   tsutsui 			sc->re_head = sc->re_tail = NULL;
   1263       1.1  jonathan 			m->m_pkthdr.len = total_len - ETHER_CRC_LEN;
   1264       1.1  jonathan 		} else
   1265       1.1  jonathan 			m->m_pkthdr.len = m->m_len =
   1266       1.1  jonathan 			    (total_len - ETHER_CRC_LEN);
   1267       1.1  jonathan 
   1268       1.1  jonathan 		ifp->if_ipackets++;
   1269       1.1  jonathan 		m->m_pkthdr.rcvif = ifp;
   1270       1.1  jonathan 
   1271      1.68   tsutsui 		/* Do RX checksumming */
   1272       1.1  jonathan 
   1273      1.68   tsutsui 		/* Check IP header checksum */
   1274      1.68   tsutsui 		if (rxstat & RE_RDESC_STAT_PROTOID) {
   1275      1.68   tsutsui 			m->m_pkthdr.csum_flags |= M_CSUM_IPv4;
   1276      1.52   tsutsui 			if (rxstat & RE_RDESC_STAT_IPSUMBAD)
   1277       1.4   kanaoka 				m->m_pkthdr.csum_flags |= M_CSUM_IPv4_BAD;
   1278       1.1  jonathan 		}
   1279       1.1  jonathan 
   1280       1.1  jonathan 		/* Check TCP/UDP checksum */
   1281      1.68   tsutsui 		if (RE_TCPPKT(rxstat)) {
   1282       1.1  jonathan 			m->m_pkthdr.csum_flags |= M_CSUM_TCPv4;
   1283      1.52   tsutsui 			if (rxstat & RE_RDESC_STAT_TCPSUMBAD)
   1284       1.1  jonathan 				m->m_pkthdr.csum_flags |= M_CSUM_TCP_UDP_BAD;
   1285      1.68   tsutsui 		} else if (RE_UDPPKT(rxstat)) {
   1286       1.1  jonathan 			m->m_pkthdr.csum_flags |= M_CSUM_UDPv4;
   1287      1.52   tsutsui 			if (rxstat & RE_RDESC_STAT_UDPSUMBAD)
   1288       1.1  jonathan 				m->m_pkthdr.csum_flags |= M_CSUM_TCP_UDP_BAD;
   1289       1.1  jonathan 		}
   1290       1.1  jonathan 
   1291      1.52   tsutsui 		if (rxvlan & RE_RDESC_VLANCTL_TAG) {
   1292       1.9  jdolecek 			VLAN_INPUT_TAG(ifp, m,
   1293      1.74   tsutsui 			     bswap16(rxvlan & RE_RDESC_VLANCTL_DATA),
   1294       1.9  jdolecek 			     continue);
   1295       1.1  jonathan 		}
   1296       1.1  jonathan #if NBPFILTER > 0
   1297       1.1  jonathan 		if (ifp->if_bpf)
   1298       1.1  jonathan 			bpf_mtap(ifp->if_bpf, m);
   1299       1.1  jonathan #endif
   1300       1.1  jonathan 		(*ifp->if_input)(ifp, m);
   1301       1.1  jonathan 	}
   1302       1.1  jonathan 
   1303      1.52   tsutsui 	sc->re_ldata.re_rx_prodidx = i;
   1304       1.1  jonathan }
   1305       1.1  jonathan 
   1306       1.1  jonathan static void
   1307       1.1  jonathan re_txeof(struct rtk_softc *sc)
   1308       1.1  jonathan {
   1309       1.1  jonathan 	struct ifnet		*ifp;
   1310      1.58   tsutsui 	struct re_txq		*txq;
   1311      1.58   tsutsui 	uint32_t		txstat;
   1312      1.58   tsutsui 	int			idx, descidx;
   1313       1.1  jonathan 
   1314       1.1  jonathan 	ifp = &sc->ethercom.ec_if;
   1315       1.1  jonathan 
   1316      1.59   tsutsui 	for (idx = sc->re_ldata.re_txq_considx;
   1317      1.59   tsutsui 	    sc->re_ldata.re_txq_free < RE_TX_QLEN;
   1318      1.59   tsutsui 	    idx = RE_NEXT_TXQ(sc, idx), sc->re_ldata.re_txq_free++) {
   1319      1.58   tsutsui 		txq = &sc->re_ldata.re_txq[idx];
   1320      1.59   tsutsui 		KASSERT(txq->txq_mbuf != NULL);
   1321      1.15      yamt 
   1322      1.17      yamt 		descidx = txq->txq_descidx;
   1323      1.52   tsutsui 		RE_TXDESCSYNC(sc, descidx,
   1324      1.32   tsutsui 		    BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
   1325      1.15      yamt 		txstat =
   1326      1.52   tsutsui 		    le32toh(sc->re_ldata.re_tx_list[descidx].re_cmdstat);
   1327      1.52   tsutsui 		RE_TXDESCSYNC(sc, descidx, BUS_DMASYNC_PREREAD);
   1328      1.52   tsutsui 		KASSERT((txstat & RE_TDESC_CMD_EOF) != 0);
   1329      1.52   tsutsui 		if (txstat & RE_TDESC_CMD_OWN) {
   1330       1.1  jonathan 			break;
   1331      1.32   tsutsui 		}
   1332       1.1  jonathan 
   1333      1.63   tsutsui 		sc->re_ldata.re_tx_free += txq->txq_nsegs;
   1334      1.52   tsutsui 		KASSERT(sc->re_ldata.re_tx_free <= RE_TX_DESC_CNT(sc));
   1335      1.32   tsutsui 		bus_dmamap_sync(sc->sc_dmat, txq->txq_dmamap,
   1336      1.32   tsutsui 		    0, txq->txq_dmamap->dm_mapsize, BUS_DMASYNC_POSTWRITE);
   1337      1.15      yamt 		bus_dmamap_unload(sc->sc_dmat, txq->txq_dmamap);
   1338      1.15      yamt 		m_freem(txq->txq_mbuf);
   1339      1.15      yamt 		txq->txq_mbuf = NULL;
   1340      1.15      yamt 
   1341      1.52   tsutsui 		if (txstat & (RE_TDESC_STAT_EXCESSCOL | RE_TDESC_STAT_COLCNT))
   1342      1.15      yamt 			ifp->if_collisions++;
   1343      1.52   tsutsui 		if (txstat & RE_TDESC_STAT_TXERRSUM)
   1344      1.15      yamt 			ifp->if_oerrors++;
   1345      1.15      yamt 		else
   1346      1.15      yamt 			ifp->if_opackets++;
   1347      1.59   tsutsui 	}
   1348       1.1  jonathan 
   1349      1.59   tsutsui 	sc->re_ldata.re_txq_considx = idx;
   1350       1.1  jonathan 
   1351      1.79   tsutsui 	if (sc->re_ldata.re_txq_free > RE_NTXDESC_RSVD)
   1352       1.1  jonathan 		ifp->if_flags &= ~IFF_OACTIVE;
   1353       1.1  jonathan 
   1354       1.1  jonathan 	/*
   1355       1.1  jonathan 	 * If not all descriptors have been released reaped yet,
   1356       1.1  jonathan 	 * reload the timer so that we will eventually get another
   1357       1.1  jonathan 	 * interrupt that will cause us to re-enter this routine.
   1358       1.1  jonathan 	 * This is done in case the transmitter has gone idle.
   1359       1.1  jonathan 	 */
   1360      1.85   tsutsui 	if (sc->re_ldata.re_txq_free < RE_TX_QLEN) {
   1361       1.4   kanaoka 		CSR_WRITE_4(sc, RTK_TIMERCNT, 1);
   1362      1.85   tsutsui 		if ((sc->sc_quirk & RTKQ_PCIE) != 0) {
   1363      1.85   tsutsui 			/*
   1364      1.85   tsutsui 			 * Some chips will ignore a second TX request
   1365      1.85   tsutsui 			 * issued while an existing transmission is in
   1366      1.85   tsutsui 			 * progress. If the transmitter goes idle but
   1367      1.85   tsutsui 			 * there are still packets waiting to be sent,
   1368      1.85   tsutsui 			 * we need to restart the channel here to flush
   1369      1.85   tsutsui 			 * them out. This only seems to be required with
   1370      1.85   tsutsui 			 * the PCIe devices.
   1371      1.85   tsutsui 			 */
   1372  1.89.2.1       mjf 			CSR_WRITE_1(sc, RTK_GTXSTART, RTK_TXSTART_START);
   1373      1.85   tsutsui 		}
   1374      1.85   tsutsui 	} else
   1375      1.56   tsutsui 		ifp->if_timer = 0;
   1376       1.1  jonathan }
   1377       1.1  jonathan 
   1378       1.1  jonathan /*
   1379       1.1  jonathan  * Stop all chip I/O so that the kernel's probe routines don't
   1380       1.1  jonathan  * get confused by errant DMAs when rebooting.
   1381       1.1  jonathan  */
   1382       1.1  jonathan static void
   1383       1.1  jonathan re_shutdown(void *vsc)
   1384       1.1  jonathan 
   1385       1.1  jonathan {
   1386      1.41   tsutsui 	struct rtk_softc	*sc = vsc;
   1387       1.1  jonathan 
   1388       1.3   kanaoka 	re_stop(&sc->ethercom.ec_if, 0);
   1389       1.1  jonathan }
   1390       1.1  jonathan 
   1391       1.1  jonathan 
   1392       1.1  jonathan static void
   1393       1.1  jonathan re_tick(void *xsc)
   1394       1.1  jonathan {
   1395       1.1  jonathan 	struct rtk_softc	*sc = xsc;
   1396       1.1  jonathan 	int s;
   1397       1.1  jonathan 
   1398       1.1  jonathan 	/*XXX: just return for 8169S/8110S with rev 2 or newer phy */
   1399       1.1  jonathan 	s = splnet();
   1400       1.1  jonathan 
   1401       1.1  jonathan 	mii_tick(&sc->mii);
   1402       1.1  jonathan 	splx(s);
   1403       1.1  jonathan 
   1404       1.1  jonathan 	callout_reset(&sc->rtk_tick_ch, hz, re_tick, sc);
   1405       1.1  jonathan }
   1406       1.1  jonathan 
   1407       1.1  jonathan #ifdef DEVICE_POLLING
   1408       1.1  jonathan static void
   1409       1.1  jonathan re_poll(struct ifnet *ifp, enum poll_cmd cmd, int count)
   1410       1.1  jonathan {
   1411       1.1  jonathan 	struct rtk_softc *sc = ifp->if_softc;
   1412       1.1  jonathan 
   1413       1.1  jonathan 	RTK_LOCK(sc);
   1414      1.41   tsutsui 	if ((ifp->if_capenable & IFCAP_POLLING) == 0) {
   1415       1.1  jonathan 		ether_poll_deregister(ifp);
   1416       1.1  jonathan 		cmd = POLL_DEREGISTER;
   1417       1.1  jonathan 	}
   1418       1.1  jonathan 	if (cmd == POLL_DEREGISTER) { /* final call, enable interrupts */
   1419       1.1  jonathan 		CSR_WRITE_2(sc, RTK_IMR, RTK_INTRS_CPLUS);
   1420       1.1  jonathan 		goto done;
   1421       1.1  jonathan 	}
   1422       1.1  jonathan 
   1423       1.1  jonathan 	sc->rxcycles = count;
   1424       1.1  jonathan 	re_rxeof(sc);
   1425       1.1  jonathan 	re_txeof(sc);
   1426       1.1  jonathan 
   1427      1.25    rpaulo 	if (IFQ_IS_EMPTY(&ifp->if_snd) == 0)
   1428       1.1  jonathan 		(*ifp->if_start)(ifp);
   1429       1.1  jonathan 
   1430       1.1  jonathan 	if (cmd == POLL_AND_CHECK_STATUS) { /* also check status register */
   1431      1.40   tsutsui 		uint16_t       status;
   1432       1.1  jonathan 
   1433       1.1  jonathan 		status = CSR_READ_2(sc, RTK_ISR);
   1434       1.1  jonathan 		if (status == 0xffff)
   1435       1.1  jonathan 			goto done;
   1436       1.1  jonathan 		if (status)
   1437       1.1  jonathan 			CSR_WRITE_2(sc, RTK_ISR, status);
   1438       1.1  jonathan 
   1439       1.1  jonathan 		/*
   1440       1.1  jonathan 		 * XXX check behaviour on receiver stalls.
   1441       1.1  jonathan 		 */
   1442       1.1  jonathan 
   1443       1.1  jonathan 		if (status & RTK_ISR_SYSTEM_ERR) {
   1444       1.1  jonathan 			re_init(sc);
   1445       1.1  jonathan 		}
   1446       1.1  jonathan 	}
   1447      1.41   tsutsui  done:
   1448       1.1  jonathan 	RTK_UNLOCK(sc);
   1449       1.1  jonathan }
   1450       1.1  jonathan #endif /* DEVICE_POLLING */
   1451       1.1  jonathan 
   1452       1.1  jonathan int
   1453       1.1  jonathan re_intr(void *arg)
   1454       1.1  jonathan {
   1455       1.1  jonathan 	struct rtk_softc	*sc = arg;
   1456       1.1  jonathan 	struct ifnet		*ifp;
   1457      1.40   tsutsui 	uint16_t		status;
   1458       1.1  jonathan 	int			handled = 0;
   1459       1.1  jonathan 
   1460  1.89.2.1       mjf 	if (!device_has_power(&sc->sc_dev))
   1461  1.89.2.1       mjf 		return 0;
   1462  1.89.2.1       mjf 
   1463       1.1  jonathan 	ifp = &sc->ethercom.ec_if;
   1464       1.1  jonathan 
   1465      1.41   tsutsui 	if ((ifp->if_flags & IFF_UP) == 0)
   1466       1.1  jonathan 		return 0;
   1467       1.1  jonathan 
   1468       1.1  jonathan #ifdef DEVICE_POLLING
   1469       1.4   kanaoka 	if (ifp->if_flags & IFF_POLLING)
   1470       1.1  jonathan 		goto done;
   1471       1.1  jonathan 	if ((ifp->if_capenable & IFCAP_POLLING) &&
   1472       1.1  jonathan 	    ether_poll_register(re_poll, ifp)) { /* ok, disable interrupts */
   1473       1.1  jonathan 		CSR_WRITE_2(sc, RTK_IMR, 0x0000);
   1474       1.1  jonathan 		re_poll(ifp, 0, 1);
   1475       1.1  jonathan 		goto done;
   1476       1.1  jonathan 	}
   1477       1.1  jonathan #endif /* DEVICE_POLLING */
   1478       1.1  jonathan 
   1479       1.1  jonathan 	for (;;) {
   1480       1.1  jonathan 
   1481       1.1  jonathan 		status = CSR_READ_2(sc, RTK_ISR);
   1482       1.1  jonathan 		/* If the card has gone away the read returns 0xffff. */
   1483       1.1  jonathan 		if (status == 0xffff)
   1484       1.1  jonathan 			break;
   1485       1.1  jonathan 		if (status) {
   1486       1.1  jonathan 			handled = 1;
   1487       1.1  jonathan 			CSR_WRITE_2(sc, RTK_ISR, status);
   1488       1.1  jonathan 		}
   1489       1.1  jonathan 
   1490       1.1  jonathan 		if ((status & RTK_INTRS_CPLUS) == 0)
   1491       1.1  jonathan 			break;
   1492       1.1  jonathan 
   1493      1.57   tsutsui 		if (status & (RTK_ISR_RX_OK | RTK_ISR_RX_ERR))
   1494       1.1  jonathan 			re_rxeof(sc);
   1495       1.1  jonathan 
   1496      1.57   tsutsui 		if (status & (RTK_ISR_TIMEOUT_EXPIRED | RTK_ISR_TX_ERR |
   1497      1.57   tsutsui 		    RTK_ISR_TX_DESC_UNAVAIL))
   1498       1.1  jonathan 			re_txeof(sc);
   1499       1.1  jonathan 
   1500       1.1  jonathan 		if (status & RTK_ISR_SYSTEM_ERR) {
   1501       1.1  jonathan 			re_init(ifp);
   1502       1.1  jonathan 		}
   1503       1.1  jonathan 
   1504       1.1  jonathan 		if (status & RTK_ISR_LINKCHG) {
   1505       1.1  jonathan 			callout_stop(&sc->rtk_tick_ch);
   1506       1.1  jonathan 			re_tick(sc);
   1507       1.1  jonathan 		}
   1508       1.1  jonathan 	}
   1509       1.1  jonathan 
   1510      1.57   tsutsui 	if (handled && !IFQ_IS_EMPTY(&ifp->if_snd))
   1511      1.57   tsutsui 		re_start(ifp);
   1512       1.1  jonathan 
   1513       1.1  jonathan #ifdef DEVICE_POLLING
   1514      1.41   tsutsui  done:
   1515       1.1  jonathan #endif
   1516       1.1  jonathan 
   1517       1.1  jonathan 	return handled;
   1518       1.1  jonathan }
   1519       1.1  jonathan 
   1520      1.59   tsutsui 
   1521      1.59   tsutsui 
   1522      1.59   tsutsui /*
   1523      1.59   tsutsui  * Main transmit routine for C+ and gigE NICs.
   1524      1.59   tsutsui  */
   1525      1.59   tsutsui 
   1526      1.59   tsutsui static void
   1527      1.59   tsutsui re_start(struct ifnet *ifp)
   1528       1.1  jonathan {
   1529      1.59   tsutsui 	struct rtk_softc	*sc;
   1530      1.59   tsutsui 	struct mbuf		*m;
   1531       1.1  jonathan 	bus_dmamap_t		map;
   1532      1.59   tsutsui 	struct re_txq		*txq;
   1533      1.59   tsutsui 	struct re_desc		*d;
   1534       1.1  jonathan 	struct m_tag		*mtag;
   1535      1.52   tsutsui 	uint32_t		cmdstat, re_flags;
   1536      1.63   tsutsui 	int			ofree, idx, error, nsegs, seg;
   1537      1.59   tsutsui 	int			startdesc, curdesc, lastdesc;
   1538      1.82   thorpej 	bool			pad;
   1539       1.1  jonathan 
   1540      1.59   tsutsui 	sc = ifp->if_softc;
   1541      1.59   tsutsui 	ofree = sc->re_ldata.re_txq_free;
   1542       1.1  jonathan 
   1543      1.59   tsutsui 	for (idx = sc->re_ldata.re_txq_prodidx;; idx = RE_NEXT_TXQ(sc, idx)) {
   1544       1.1  jonathan 
   1545      1.59   tsutsui 		IFQ_POLL(&ifp->if_snd, m);
   1546      1.59   tsutsui 		if (m == NULL)
   1547      1.59   tsutsui 			break;
   1548       1.1  jonathan 
   1549      1.59   tsutsui 		if (sc->re_ldata.re_txq_free == 0 ||
   1550  1.89.2.1       mjf 		    sc->re_ldata.re_tx_free == 0) {
   1551      1.59   tsutsui 			/* no more free slots left */
   1552      1.59   tsutsui 			ifp->if_flags |= IFF_OACTIVE;
   1553      1.59   tsutsui 			break;
   1554      1.59   tsutsui 		}
   1555      1.16      yamt 
   1556      1.16      yamt 		/*
   1557      1.59   tsutsui 		 * Set up checksum offload. Note: checksum offload bits must
   1558      1.59   tsutsui 		 * appear in all descriptors of a multi-descriptor transmit
   1559      1.59   tsutsui 		 * attempt. (This is according to testing done with an 8169
   1560      1.59   tsutsui 		 * chip. I'm not sure if this is a requirement or a bug.)
   1561      1.16      yamt 		 */
   1562      1.16      yamt 
   1563      1.59   tsutsui 		if ((m->m_pkthdr.csum_flags & M_CSUM_TSOv4) != 0) {
   1564      1.59   tsutsui 			uint32_t segsz = m->m_pkthdr.segsz;
   1565      1.59   tsutsui 
   1566      1.59   tsutsui 			re_flags = RE_TDESC_CMD_LGSEND |
   1567      1.59   tsutsui 			    (segsz << RE_TDESC_CMD_MSSVAL_SHIFT);
   1568      1.59   tsutsui 		} else {
   1569      1.59   tsutsui 			/*
   1570      1.59   tsutsui 			 * set RE_TDESC_CMD_IPCSUM if any checksum offloading
   1571      1.59   tsutsui 			 * is requested.  otherwise, RE_TDESC_CMD_TCPCSUM/
   1572      1.59   tsutsui 			 * RE_TDESC_CMD_UDPCSUM doesn't make effects.
   1573      1.59   tsutsui 			 */
   1574      1.59   tsutsui 			re_flags = 0;
   1575      1.59   tsutsui 			if ((m->m_pkthdr.csum_flags &
   1576      1.59   tsutsui 			    (M_CSUM_IPv4 | M_CSUM_TCPv4 | M_CSUM_UDPv4))
   1577      1.59   tsutsui 			    != 0) {
   1578      1.59   tsutsui 				re_flags |= RE_TDESC_CMD_IPCSUM;
   1579      1.59   tsutsui 				if (m->m_pkthdr.csum_flags & M_CSUM_TCPv4) {
   1580      1.59   tsutsui 					re_flags |= RE_TDESC_CMD_TCPCSUM;
   1581      1.59   tsutsui 				} else if (m->m_pkthdr.csum_flags &
   1582      1.59   tsutsui 				    M_CSUM_UDPv4) {
   1583      1.59   tsutsui 					re_flags |= RE_TDESC_CMD_UDPCSUM;
   1584      1.59   tsutsui 				}
   1585      1.16      yamt 			}
   1586      1.16      yamt 		}
   1587       1.1  jonathan 
   1588      1.59   tsutsui 		txq = &sc->re_ldata.re_txq[idx];
   1589      1.59   tsutsui 		map = txq->txq_dmamap;
   1590      1.59   tsutsui 		error = bus_dmamap_load_mbuf(sc->sc_dmat, map, m,
   1591      1.59   tsutsui 		    BUS_DMA_WRITE|BUS_DMA_NOWAIT);
   1592      1.59   tsutsui 
   1593      1.75   tsutsui 		if (__predict_false(error)) {
   1594      1.59   tsutsui 			/* XXX try to defrag if EFBIG? */
   1595      1.59   tsutsui 			aprint_error("%s: can't map mbuf (error %d)\n",
   1596      1.59   tsutsui 			    sc->sc_dev.dv_xname, error);
   1597       1.1  jonathan 
   1598      1.59   tsutsui 			IFQ_DEQUEUE(&ifp->if_snd, m);
   1599      1.59   tsutsui 			m_freem(m);
   1600      1.59   tsutsui 			ifp->if_oerrors++;
   1601      1.59   tsutsui 			continue;
   1602      1.59   tsutsui 		}
   1603      1.13      yamt 
   1604      1.63   tsutsui 		nsegs = map->dm_nsegs;
   1605      1.87   tsutsui 		pad = false;
   1606      1.75   tsutsui 		if (__predict_false(m->m_pkthdr.len <= RE_IP4CSUMTX_PADLEN &&
   1607      1.75   tsutsui 		    (re_flags & RE_TDESC_CMD_IPCSUM) != 0)) {
   1608      1.87   tsutsui 			pad = true;
   1609      1.63   tsutsui 			nsegs++;
   1610      1.63   tsutsui 		}
   1611      1.63   tsutsui 
   1612  1.89.2.1       mjf 		if (nsegs > sc->re_ldata.re_tx_free) {
   1613      1.59   tsutsui 			/*
   1614      1.59   tsutsui 			 * Not enough free descriptors to transmit this packet.
   1615      1.59   tsutsui 			 */
   1616      1.59   tsutsui 			ifp->if_flags |= IFF_OACTIVE;
   1617      1.59   tsutsui 			bus_dmamap_unload(sc->sc_dmat, map);
   1618      1.59   tsutsui 			break;
   1619      1.59   tsutsui 		}
   1620      1.13      yamt 
   1621      1.59   tsutsui 		IFQ_DEQUEUE(&ifp->if_snd, m);
   1622       1.1  jonathan 
   1623      1.59   tsutsui 		/*
   1624      1.59   tsutsui 		 * Make sure that the caches are synchronized before we
   1625      1.59   tsutsui 		 * ask the chip to start DMA for the packet data.
   1626      1.59   tsutsui 		 */
   1627      1.59   tsutsui 		bus_dmamap_sync(sc->sc_dmat, map, 0, map->dm_mapsize,
   1628      1.59   tsutsui 		    BUS_DMASYNC_PREWRITE);
   1629      1.20    briggs 
   1630      1.59   tsutsui 		/*
   1631      1.59   tsutsui 		 * Map the segment array into descriptors.
   1632      1.59   tsutsui 		 * Note that we set the start-of-frame and
   1633      1.59   tsutsui 		 * end-of-frame markers for either TX or RX,
   1634      1.59   tsutsui 		 * but they really only have meaning in the TX case.
   1635      1.59   tsutsui 		 * (In the RX case, it's the chip that tells us
   1636      1.59   tsutsui 		 *  where packets begin and end.)
   1637      1.59   tsutsui 		 * We also keep track of the end of the ring
   1638      1.59   tsutsui 		 * and set the end-of-ring bits as needed,
   1639      1.59   tsutsui 		 * and we set the ownership bits in all except
   1640      1.59   tsutsui 		 * the very first descriptor. (The caller will
   1641      1.59   tsutsui 		 * set this descriptor later when it start
   1642      1.59   tsutsui 		 * transmission or reception.)
   1643      1.59   tsutsui 		 */
   1644      1.59   tsutsui 		curdesc = startdesc = sc->re_ldata.re_tx_nextfree;
   1645      1.59   tsutsui 		lastdesc = -1;
   1646      1.59   tsutsui 		for (seg = 0; seg < map->dm_nsegs;
   1647      1.59   tsutsui 		    seg++, curdesc = RE_NEXT_TX_DESC(sc, curdesc)) {
   1648      1.59   tsutsui 			d = &sc->re_ldata.re_tx_list[curdesc];
   1649      1.69   tsutsui #ifdef DIAGNOSTIC
   1650      1.59   tsutsui 			RE_TXDESCSYNC(sc, curdesc,
   1651      1.59   tsutsui 			    BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
   1652      1.59   tsutsui 			cmdstat = le32toh(d->re_cmdstat);
   1653      1.59   tsutsui 			RE_TXDESCSYNC(sc, curdesc, BUS_DMASYNC_PREREAD);
   1654      1.59   tsutsui 			if (cmdstat & RE_TDESC_STAT_OWN) {
   1655      1.59   tsutsui 				panic("%s: tried to map busy TX descriptor",
   1656      1.59   tsutsui 				    sc->sc_dev.dv_xname);
   1657      1.59   tsutsui 			}
   1658      1.59   tsutsui #endif
   1659      1.20    briggs 
   1660      1.74   tsutsui 			d->re_vlanctl = 0;
   1661      1.64   tsutsui 			re_set_bufaddr(d, map->dm_segs[seg].ds_addr);
   1662      1.59   tsutsui 			cmdstat = re_flags | map->dm_segs[seg].ds_len;
   1663      1.59   tsutsui 			if (seg == 0)
   1664      1.59   tsutsui 				cmdstat |= RE_TDESC_CMD_SOF;
   1665      1.59   tsutsui 			else
   1666      1.59   tsutsui 				cmdstat |= RE_TDESC_CMD_OWN;
   1667      1.59   tsutsui 			if (curdesc == (RE_TX_DESC_CNT(sc) - 1))
   1668      1.59   tsutsui 				cmdstat |= RE_TDESC_CMD_EOR;
   1669      1.63   tsutsui 			if (seg == nsegs - 1) {
   1670      1.59   tsutsui 				cmdstat |= RE_TDESC_CMD_EOF;
   1671      1.59   tsutsui 				lastdesc = curdesc;
   1672      1.13      yamt 			}
   1673      1.59   tsutsui 			d->re_cmdstat = htole32(cmdstat);
   1674      1.59   tsutsui 			RE_TXDESCSYNC(sc, curdesc,
   1675      1.59   tsutsui 			    BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
   1676      1.13      yamt 		}
   1677      1.75   tsutsui 		if (__predict_false(pad)) {
   1678      1.63   tsutsui 			bus_addr_t paddaddr;
   1679      1.63   tsutsui 
   1680      1.63   tsutsui 			d = &sc->re_ldata.re_tx_list[curdesc];
   1681      1.74   tsutsui 			d->re_vlanctl = 0;
   1682      1.63   tsutsui 			paddaddr = RE_TXPADDADDR(sc);
   1683      1.64   tsutsui 			re_set_bufaddr(d, paddaddr);
   1684      1.63   tsutsui 			cmdstat = re_flags |
   1685      1.63   tsutsui 			    RE_TDESC_CMD_OWN | RE_TDESC_CMD_EOF |
   1686      1.63   tsutsui 			    (RE_IP4CSUMTX_PADLEN + 1 - m->m_pkthdr.len);
   1687      1.63   tsutsui 			if (curdesc == (RE_TX_DESC_CNT(sc) - 1))
   1688      1.63   tsutsui 				cmdstat |= RE_TDESC_CMD_EOR;
   1689      1.63   tsutsui 			d->re_cmdstat = htole32(cmdstat);
   1690      1.63   tsutsui 			RE_TXDESCSYNC(sc, curdesc,
   1691      1.63   tsutsui 			    BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
   1692      1.63   tsutsui 			lastdesc = curdesc;
   1693      1.63   tsutsui 			curdesc = RE_NEXT_TX_DESC(sc, curdesc);
   1694      1.63   tsutsui 		}
   1695      1.59   tsutsui 		KASSERT(lastdesc != -1);
   1696       1.1  jonathan 
   1697      1.59   tsutsui 		/*
   1698      1.59   tsutsui 		 * Set up hardware VLAN tagging. Note: vlan tag info must
   1699      1.59   tsutsui 		 * appear in the first descriptor of a multi-descriptor
   1700      1.59   tsutsui 		 * transmission attempt.
   1701      1.59   tsutsui 		 */
   1702      1.59   tsutsui 		if ((mtag = VLAN_OUTPUT_TAG(&sc->ethercom, m)) != NULL) {
   1703      1.59   tsutsui 			sc->re_ldata.re_tx_list[startdesc].re_vlanctl =
   1704      1.74   tsutsui 			    htole32(bswap16(VLAN_TAG_VALUE(mtag)) |
   1705      1.59   tsutsui 			    RE_TDESC_VLANCTL_TAG);
   1706      1.59   tsutsui 		}
   1707       1.1  jonathan 
   1708      1.59   tsutsui 		/* Transfer ownership of packet to the chip. */
   1709       1.1  jonathan 
   1710      1.59   tsutsui 		sc->re_ldata.re_tx_list[startdesc].re_cmdstat |=
   1711      1.59   tsutsui 		    htole32(RE_TDESC_CMD_OWN);
   1712      1.59   tsutsui 		RE_TXDESCSYNC(sc, startdesc,
   1713      1.59   tsutsui 		    BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
   1714      1.17      yamt 
   1715      1.59   tsutsui 		/* update info of TX queue and descriptors */
   1716      1.59   tsutsui 		txq->txq_mbuf = m;
   1717      1.59   tsutsui 		txq->txq_descidx = lastdesc;
   1718      1.63   tsutsui 		txq->txq_nsegs = nsegs;
   1719      1.59   tsutsui 
   1720      1.59   tsutsui 		sc->re_ldata.re_txq_free--;
   1721      1.63   tsutsui 		sc->re_ldata.re_tx_free -= nsegs;
   1722      1.59   tsutsui 		sc->re_ldata.re_tx_nextfree = curdesc;
   1723      1.17      yamt 
   1724       1.1  jonathan #if NBPFILTER > 0
   1725       1.1  jonathan 		/*
   1726       1.1  jonathan 		 * If there's a BPF listener, bounce a copy of this frame
   1727       1.1  jonathan 		 * to him.
   1728       1.1  jonathan 		 */
   1729       1.1  jonathan 		if (ifp->if_bpf)
   1730      1.17      yamt 			bpf_mtap(ifp->if_bpf, m);
   1731       1.1  jonathan #endif
   1732       1.1  jonathan 	}
   1733       1.1  jonathan 
   1734      1.59   tsutsui 	if (sc->re_ldata.re_txq_free < ofree) {
   1735      1.59   tsutsui 		/*
   1736      1.59   tsutsui 		 * TX packets are enqueued.
   1737      1.59   tsutsui 		 */
   1738      1.59   tsutsui 		sc->re_ldata.re_txq_prodidx = idx;
   1739      1.17      yamt 
   1740      1.59   tsutsui 		/*
   1741      1.59   tsutsui 		 * Start the transmitter to poll.
   1742      1.59   tsutsui 		 *
   1743      1.59   tsutsui 		 * RealTek put the TX poll request register in a different
   1744      1.59   tsutsui 		 * location on the 8169 gigE chip. I don't know why.
   1745      1.59   tsutsui 		 */
   1746      1.84   tsutsui 		if ((sc->sc_quirk & RTKQ_8139CPLUS) != 0)
   1747      1.84   tsutsui 			CSR_WRITE_1(sc, RTK_TXSTART, RTK_TXSTART_START);
   1748      1.84   tsutsui 		else
   1749  1.89.2.1       mjf 			CSR_WRITE_1(sc, RTK_GTXSTART, RTK_TXSTART_START);
   1750       1.1  jonathan 
   1751      1.59   tsutsui 		/*
   1752      1.59   tsutsui 		 * Use the countdown timer for interrupt moderation.
   1753      1.59   tsutsui 		 * 'TX done' interrupts are disabled. Instead, we reset the
   1754      1.59   tsutsui 		 * countdown timer, which will begin counting until it hits
   1755      1.59   tsutsui 		 * the value in the TIMERINT register, and then trigger an
   1756      1.59   tsutsui 		 * interrupt. Each time we write to the TIMERCNT register,
   1757      1.59   tsutsui 		 * the timer count is reset to 0.
   1758      1.59   tsutsui 		 */
   1759      1.59   tsutsui 		CSR_WRITE_4(sc, RTK_TIMERCNT, 1);
   1760       1.1  jonathan 
   1761      1.59   tsutsui 		/*
   1762      1.59   tsutsui 		 * Set a timeout in case the chip goes out to lunch.
   1763      1.59   tsutsui 		 */
   1764      1.59   tsutsui 		ifp->if_timer = 5;
   1765      1.59   tsutsui 	}
   1766       1.1  jonathan }
   1767       1.1  jonathan 
   1768       1.1  jonathan static int
   1769       1.1  jonathan re_init(struct ifnet *ifp)
   1770       1.1  jonathan {
   1771       1.1  jonathan 	struct rtk_softc	*sc = ifp->if_softc;
   1772      1.88    dyoung 	const uint8_t		*enaddr;
   1773      1.40   tsutsui 	uint32_t		rxcfg = 0;
   1774      1.40   tsutsui 	uint32_t		reg;
   1775       1.1  jonathan 	int error;
   1776      1.12     perry 
   1777       1.1  jonathan 	if ((error = re_enable(sc)) != 0)
   1778       1.1  jonathan 		goto out;
   1779       1.1  jonathan 
   1780       1.1  jonathan 	/*
   1781       1.1  jonathan 	 * Cancel pending I/O and free all RX/TX buffers.
   1782       1.1  jonathan 	 */
   1783       1.3   kanaoka 	re_stop(ifp, 0);
   1784       1.1  jonathan 
   1785      1.53   tsutsui 	re_reset(sc);
   1786      1.53   tsutsui 
   1787       1.1  jonathan 	/*
   1788       1.1  jonathan 	 * Enable C+ RX and TX mode, as well as VLAN stripping and
   1789       1.1  jonathan 	 * RX checksum offload. We must configure the C+ register
   1790       1.1  jonathan 	 * before all others.
   1791       1.1  jonathan 	 */
   1792       1.1  jonathan 	reg = 0;
   1793       1.1  jonathan 
   1794       1.1  jonathan 	/*
   1795       1.1  jonathan 	 * XXX: Realtek docs say bits 0 and 1 are reserved, for 8169S/8110S.
   1796       1.1  jonathan 	 * FreeBSD  drivers set these bits anyway (for 8139C+?).
   1797       1.1  jonathan 	 * So far, it works.
   1798       1.1  jonathan 	 */
   1799       1.1  jonathan 
   1800       1.1  jonathan 	/*
   1801      1.84   tsutsui 	 * XXX: For old 8169 set bit 14.
   1802      1.84   tsutsui 	 *      For 8169S/8110S and above, do not set bit 14.
   1803       1.1  jonathan 	 */
   1804      1.84   tsutsui 	if ((sc->sc_quirk & RTKQ_8169NONS) != 0)
   1805       1.4   kanaoka 		reg |= (0x1 << 14) | RTK_CPLUSCMD_PCI_MRW;;
   1806       1.1  jonathan 
   1807       1.4   kanaoka 	if (1)  {/* not for 8169S ? */
   1808      1.24     blymn 		reg |=
   1809      1.23     pavel 		    RTK_CPLUSCMD_VLANSTRIP |
   1810       1.4   kanaoka 		    (ifp->if_capenable &
   1811      1.18      yamt 		    (IFCAP_CSUM_IPv4_Rx | IFCAP_CSUM_TCPv4_Rx |
   1812      1.18      yamt 		     IFCAP_CSUM_UDPv4_Rx) ?
   1813       1.4   kanaoka 		    RTK_CPLUSCMD_RXCSUM_ENB : 0);
   1814       1.4   kanaoka 	}
   1815      1.12     perry 
   1816       1.1  jonathan 	CSR_WRITE_2(sc, RTK_CPLUS_CMD,
   1817       1.4   kanaoka 	    reg | RTK_CPLUSCMD_RXENB | RTK_CPLUSCMD_TXENB);
   1818       1.1  jonathan 
   1819       1.1  jonathan 	/* XXX: from Realtek-supplied Linux driver. Wholly undocumented. */
   1820      1.84   tsutsui 	if ((sc->sc_quirk & RTKQ_8139CPLUS) == 0)
   1821      1.66   tsutsui 		CSR_WRITE_2(sc, RTK_IM, 0x0000);
   1822       1.1  jonathan 
   1823       1.1  jonathan 	DELAY(10000);
   1824       1.1  jonathan 
   1825       1.1  jonathan 	/*
   1826       1.1  jonathan 	 * Init our MAC address.  Even though the chipset
   1827       1.1  jonathan 	 * documentation doesn't mention it, we need to enter "Config
   1828       1.1  jonathan 	 * register write enable" mode to modify the ID registers.
   1829       1.1  jonathan 	 */
   1830       1.1  jonathan 	CSR_WRITE_1(sc, RTK_EECMD, RTK_EEMODE_WRITECFG);
   1831      1.88    dyoung 	enaddr = CLLADDR(ifp->if_sadl);
   1832      1.49   tsutsui 	reg = enaddr[0] | (enaddr[1] << 8) |
   1833      1.49   tsutsui 	    (enaddr[2] << 16) | (enaddr[3] << 24);
   1834      1.49   tsutsui 	CSR_WRITE_4(sc, RTK_IDR0, reg);
   1835      1.49   tsutsui 	reg = enaddr[4] | (enaddr[5] << 8);
   1836      1.49   tsutsui 	CSR_WRITE_4(sc, RTK_IDR4, reg);
   1837       1.1  jonathan 	CSR_WRITE_1(sc, RTK_EECMD, RTK_EEMODE_OFF);
   1838       1.1  jonathan 
   1839       1.1  jonathan 	/*
   1840       1.1  jonathan 	 * For C+ mode, initialize the RX descriptors and mbufs.
   1841       1.1  jonathan 	 */
   1842       1.1  jonathan 	re_rx_list_init(sc);
   1843       1.1  jonathan 	re_tx_list_init(sc);
   1844       1.1  jonathan 
   1845       1.1  jonathan 	/*
   1846      1.54   tsutsui 	 * Load the addresses of the RX and TX lists into the chip.
   1847      1.54   tsutsui 	 */
   1848      1.54   tsutsui 	CSR_WRITE_4(sc, RTK_RXLIST_ADDR_HI,
   1849      1.54   tsutsui 	    RE_ADDR_HI(sc->re_ldata.re_rx_list_map->dm_segs[0].ds_addr));
   1850      1.54   tsutsui 	CSR_WRITE_4(sc, RTK_RXLIST_ADDR_LO,
   1851      1.54   tsutsui 	    RE_ADDR_LO(sc->re_ldata.re_rx_list_map->dm_segs[0].ds_addr));
   1852      1.54   tsutsui 
   1853      1.54   tsutsui 	CSR_WRITE_4(sc, RTK_TXLIST_ADDR_HI,
   1854      1.54   tsutsui 	    RE_ADDR_HI(sc->re_ldata.re_tx_list_map->dm_segs[0].ds_addr));
   1855      1.54   tsutsui 	CSR_WRITE_4(sc, RTK_TXLIST_ADDR_LO,
   1856      1.54   tsutsui 	    RE_ADDR_LO(sc->re_ldata.re_tx_list_map->dm_segs[0].ds_addr));
   1857      1.54   tsutsui 
   1858      1.54   tsutsui 	/*
   1859       1.1  jonathan 	 * Enable transmit and receive.
   1860       1.1  jonathan 	 */
   1861       1.4   kanaoka 	CSR_WRITE_1(sc, RTK_COMMAND, RTK_CMD_TX_ENB | RTK_CMD_RX_ENB);
   1862       1.1  jonathan 
   1863       1.1  jonathan 	/*
   1864       1.1  jonathan 	 * Set the initial TX and RX configuration.
   1865       1.1  jonathan 	 */
   1866      1.84   tsutsui 	if (sc->re_testmode && (sc->sc_quirk & RTKQ_8169NONS) != 0) {
   1867      1.84   tsutsui 		/* test mode is needed only for old 8169 */
   1868      1.84   tsutsui 		CSR_WRITE_4(sc, RTK_TXCFG,
   1869      1.84   tsutsui 		    RE_TXCFG_CONFIG | RTK_LOOPTEST_ON);
   1870       1.1  jonathan 	} else
   1871      1.70   tsutsui 		CSR_WRITE_4(sc, RTK_TXCFG, RE_TXCFG_CONFIG);
   1872      1.54   tsutsui 
   1873      1.54   tsutsui 	CSR_WRITE_1(sc, RTK_EARLY_TX_THRESH, 16);
   1874      1.54   tsutsui 
   1875      1.70   tsutsui 	CSR_WRITE_4(sc, RTK_RXCFG, RE_RXCFG_CONFIG);
   1876       1.1  jonathan 
   1877       1.1  jonathan 	/* Set the individual bit to receive frames for this host only. */
   1878       1.1  jonathan 	rxcfg = CSR_READ_4(sc, RTK_RXCFG);
   1879       1.1  jonathan 	rxcfg |= RTK_RXCFG_RX_INDIV;
   1880       1.1  jonathan 
   1881       1.1  jonathan 	/* If we want promiscuous mode, set the allframes bit. */
   1882       1.8  jdolecek 	if (ifp->if_flags & IFF_PROMISC)
   1883       1.1  jonathan 		rxcfg |= RTK_RXCFG_RX_ALLPHYS;
   1884       1.8  jdolecek 	else
   1885       1.1  jonathan 		rxcfg &= ~RTK_RXCFG_RX_ALLPHYS;
   1886       1.8  jdolecek 	CSR_WRITE_4(sc, RTK_RXCFG, rxcfg);
   1887       1.1  jonathan 
   1888       1.1  jonathan 	/*
   1889       1.1  jonathan 	 * Set capture broadcast bit to capture broadcast frames.
   1890       1.1  jonathan 	 */
   1891       1.8  jdolecek 	if (ifp->if_flags & IFF_BROADCAST)
   1892       1.1  jonathan 		rxcfg |= RTK_RXCFG_RX_BROAD;
   1893       1.8  jdolecek 	else
   1894       1.1  jonathan 		rxcfg &= ~RTK_RXCFG_RX_BROAD;
   1895       1.8  jdolecek 	CSR_WRITE_4(sc, RTK_RXCFG, rxcfg);
   1896       1.1  jonathan 
   1897       1.1  jonathan 	/*
   1898       1.1  jonathan 	 * Program the multicast filter, if necessary.
   1899       1.1  jonathan 	 */
   1900       1.1  jonathan 	rtk_setmulti(sc);
   1901       1.1  jonathan 
   1902       1.1  jonathan #ifdef DEVICE_POLLING
   1903       1.1  jonathan 	/*
   1904       1.1  jonathan 	 * Disable interrupts if we are polling.
   1905       1.1  jonathan 	 */
   1906       1.1  jonathan 	if (ifp->if_flags & IFF_POLLING)
   1907       1.1  jonathan 		CSR_WRITE_2(sc, RTK_IMR, 0);
   1908       1.1  jonathan 	else	/* otherwise ... */
   1909       1.1  jonathan #endif /* DEVICE_POLLING */
   1910       1.1  jonathan 	/*
   1911       1.1  jonathan 	 * Enable interrupts.
   1912       1.1  jonathan 	 */
   1913      1.52   tsutsui 	if (sc->re_testmode)
   1914       1.1  jonathan 		CSR_WRITE_2(sc, RTK_IMR, 0);
   1915       1.1  jonathan 	else
   1916       1.1  jonathan 		CSR_WRITE_2(sc, RTK_IMR, RTK_INTRS_CPLUS);
   1917       1.1  jonathan 
   1918       1.1  jonathan 	/* Start RX/TX process. */
   1919       1.1  jonathan 	CSR_WRITE_4(sc, RTK_MISSEDPKT, 0);
   1920       1.1  jonathan #ifdef notdef
   1921       1.1  jonathan 	/* Enable receiver and transmitter. */
   1922       1.4   kanaoka 	CSR_WRITE_1(sc, RTK_COMMAND, RTK_CMD_TX_ENB | RTK_CMD_RX_ENB);
   1923       1.1  jonathan #endif
   1924       1.1  jonathan 
   1925       1.1  jonathan 	/*
   1926       1.1  jonathan 	 * Initialize the timer interrupt register so that
   1927       1.1  jonathan 	 * a timer interrupt will be generated once the timer
   1928       1.1  jonathan 	 * reaches a certain number of ticks. The timer is
   1929       1.1  jonathan 	 * reloaded on each transmit. This gives us TX interrupt
   1930       1.1  jonathan 	 * moderation, which dramatically improves TX frame rate.
   1931       1.1  jonathan 	 */
   1932       1.1  jonathan 
   1933      1.84   tsutsui 	if ((sc->sc_quirk & RTKQ_8139CPLUS) != 0)
   1934      1.84   tsutsui 		CSR_WRITE_4(sc, RTK_TIMERINT, 0x400);
   1935      1.84   tsutsui 	else {
   1936       1.1  jonathan 		CSR_WRITE_4(sc, RTK_TIMERINT_8169, 0x800);
   1937       1.1  jonathan 
   1938      1.84   tsutsui 		/*
   1939      1.84   tsutsui 		 * For 8169 gigE NICs, set the max allowed RX packet
   1940      1.84   tsutsui 		 * size so we can receive jumbo frames.
   1941      1.84   tsutsui 		 */
   1942       1.1  jonathan 		CSR_WRITE_2(sc, RTK_MAXRXPKTLEN, 16383);
   1943      1.84   tsutsui 	}
   1944       1.1  jonathan 
   1945      1.52   tsutsui 	if (sc->re_testmode)
   1946       1.1  jonathan 		return 0;
   1947       1.1  jonathan 
   1948      1.81   tsutsui 	CSR_WRITE_1(sc, RTK_CFG1, RTK_CFG1_DRVLOAD);
   1949       1.1  jonathan 
   1950       1.1  jonathan 	ifp->if_flags |= IFF_RUNNING;
   1951       1.1  jonathan 	ifp->if_flags &= ~IFF_OACTIVE;
   1952       1.1  jonathan 
   1953       1.1  jonathan 	callout_reset(&sc->rtk_tick_ch, hz, re_tick, sc);
   1954       1.1  jonathan 
   1955      1.41   tsutsui  out:
   1956       1.1  jonathan 	if (error) {
   1957       1.4   kanaoka 		ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE);
   1958       1.1  jonathan 		ifp->if_timer = 0;
   1959       1.4   kanaoka 		aprint_error("%s: interface not running\n",
   1960       1.4   kanaoka 		    sc->sc_dev.dv_xname);
   1961       1.1  jonathan 	}
   1962      1.12     perry 
   1963       1.1  jonathan 	return error;
   1964       1.1  jonathan }
   1965       1.1  jonathan 
   1966       1.1  jonathan static int
   1967      1.83  christos re_ioctl(struct ifnet *ifp, u_long command, void *data)
   1968       1.1  jonathan {
   1969       1.1  jonathan 	struct rtk_softc	*sc = ifp->if_softc;
   1970       1.1  jonathan 	struct ifreq		*ifr = (struct ifreq *) data;
   1971       1.1  jonathan 	int			s, error = 0;
   1972       1.1  jonathan 
   1973       1.1  jonathan 	s = splnet();
   1974       1.1  jonathan 
   1975       1.4   kanaoka 	switch (command) {
   1976       1.1  jonathan 	case SIOCSIFMTU:
   1977  1.89.2.1       mjf 		if (ifr->ifr_mtu < ETHERMIN || ifr->ifr_mtu > ETHERMTU_JUMBO)
   1978       1.1  jonathan 			error = EINVAL;
   1979  1.89.2.1       mjf 		else if ((error = ifioctl_common(ifp, command, data)) == ENETRESET)
   1980  1.89.2.1       mjf 			error = 0;
   1981       1.1  jonathan 		break;
   1982       1.1  jonathan 	default:
   1983  1.89.2.1       mjf 		if ((error = ether_ioctl(ifp, command, data)) != ENETRESET)
   1984  1.89.2.1       mjf 			break;
   1985  1.89.2.1       mjf 
   1986  1.89.2.1       mjf 		error = 0;
   1987  1.89.2.1       mjf 
   1988  1.89.2.1       mjf 		if (command == SIOCSIFCAP)
   1989  1.89.2.1       mjf 			error = (*ifp->if_init)(ifp);
   1990  1.89.2.1       mjf 		else if (command != SIOCADDMULTI && command != SIOCDELMULTI)
   1991  1.89.2.1       mjf 			;
   1992  1.89.2.1       mjf 		else if (ifp->if_flags & IFF_RUNNING)
   1993  1.89.2.1       mjf 			rtk_setmulti(sc);
   1994       1.1  jonathan 		break;
   1995       1.1  jonathan 	}
   1996       1.1  jonathan 
   1997       1.1  jonathan 	splx(s);
   1998       1.1  jonathan 
   1999       1.4   kanaoka 	return error;
   2000       1.1  jonathan }
   2001       1.1  jonathan 
   2002       1.1  jonathan static void
   2003       1.1  jonathan re_watchdog(struct ifnet *ifp)
   2004       1.1  jonathan {
   2005       1.1  jonathan 	struct rtk_softc	*sc;
   2006       1.1  jonathan 	int			s;
   2007       1.1  jonathan 
   2008       1.1  jonathan 	sc = ifp->if_softc;
   2009       1.1  jonathan 	s = splnet();
   2010       1.4   kanaoka 	aprint_error("%s: watchdog timeout\n", sc->sc_dev.dv_xname);
   2011       1.1  jonathan 	ifp->if_oerrors++;
   2012       1.1  jonathan 
   2013       1.1  jonathan 	re_txeof(sc);
   2014       1.1  jonathan 	re_rxeof(sc);
   2015       1.1  jonathan 
   2016       1.1  jonathan 	re_init(ifp);
   2017       1.1  jonathan 
   2018       1.1  jonathan 	splx(s);
   2019       1.1  jonathan }
   2020       1.1  jonathan 
   2021       1.1  jonathan /*
   2022       1.1  jonathan  * Stop the adapter and free any mbufs allocated to the
   2023       1.1  jonathan  * RX and TX lists.
   2024       1.1  jonathan  */
   2025       1.1  jonathan static void
   2026       1.3   kanaoka re_stop(struct ifnet *ifp, int disable)
   2027       1.1  jonathan {
   2028      1.41   tsutsui 	int		i;
   2029       1.3   kanaoka 	struct rtk_softc *sc = ifp->if_softc;
   2030       1.1  jonathan 
   2031       1.3   kanaoka 	callout_stop(&sc->rtk_tick_ch);
   2032       1.1  jonathan 
   2033       1.1  jonathan #ifdef DEVICE_POLLING
   2034       1.1  jonathan 	ether_poll_deregister(ifp);
   2035       1.1  jonathan #endif /* DEVICE_POLLING */
   2036       1.1  jonathan 
   2037       1.3   kanaoka 	mii_down(&sc->mii);
   2038       1.3   kanaoka 
   2039       1.1  jonathan 	CSR_WRITE_1(sc, RTK_COMMAND, 0x00);
   2040       1.1  jonathan 	CSR_WRITE_2(sc, RTK_IMR, 0x0000);
   2041       1.1  jonathan 
   2042      1.52   tsutsui 	if (sc->re_head != NULL) {
   2043      1.52   tsutsui 		m_freem(sc->re_head);
   2044      1.52   tsutsui 		sc->re_head = sc->re_tail = NULL;
   2045       1.1  jonathan 	}
   2046       1.1  jonathan 
   2047       1.1  jonathan 	/* Free the TX list buffers. */
   2048      1.52   tsutsui 	for (i = 0; i < RE_TX_QLEN; i++) {
   2049      1.52   tsutsui 		if (sc->re_ldata.re_txq[i].txq_mbuf != NULL) {
   2050       1.1  jonathan 			bus_dmamap_unload(sc->sc_dmat,
   2051      1.52   tsutsui 			    sc->re_ldata.re_txq[i].txq_dmamap);
   2052      1.52   tsutsui 			m_freem(sc->re_ldata.re_txq[i].txq_mbuf);
   2053      1.52   tsutsui 			sc->re_ldata.re_txq[i].txq_mbuf = NULL;
   2054       1.1  jonathan 		}
   2055       1.1  jonathan 	}
   2056       1.1  jonathan 
   2057       1.1  jonathan 	/* Free the RX list buffers. */
   2058      1.52   tsutsui 	for (i = 0; i < RE_RX_DESC_CNT; i++) {
   2059      1.52   tsutsui 		if (sc->re_ldata.re_rxsoft[i].rxs_mbuf != NULL) {
   2060       1.1  jonathan 			bus_dmamap_unload(sc->sc_dmat,
   2061      1.52   tsutsui 			    sc->re_ldata.re_rxsoft[i].rxs_dmamap);
   2062      1.52   tsutsui 			m_freem(sc->re_ldata.re_rxsoft[i].rxs_mbuf);
   2063      1.52   tsutsui 			sc->re_ldata.re_rxsoft[i].rxs_mbuf = NULL;
   2064       1.1  jonathan 		}
   2065       1.1  jonathan 	}
   2066       1.1  jonathan 
   2067       1.3   kanaoka 	if (disable)
   2068       1.3   kanaoka 		re_disable(sc);
   2069       1.3   kanaoka 
   2070       1.3   kanaoka 	ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE);
   2071       1.4   kanaoka 	ifp->if_timer = 0;
   2072       1.1  jonathan }
   2073