arm/xscale/ixp425_if_npe.c

*4f37cd5cSmaxv/*	$NetBSD: ixp425_if_npe.c,v 1.35 2018/12/22 14:07:53 maxv Exp $ */
bdea1361Sscw
bdea1361Sscw/*-
bdea1361Sscw * Copyright (c) 2006 Sam Leffler.  All rights reserved.
bdea1361Sscw *
bdea1361Sscw * Redistribution and use in source and binary forms, with or without
bdea1361Sscw * modification, are permitted provided that the following conditions
bdea1361Sscw * are met:
bdea1361Sscw * 1. Redistributions of source code must retain the above copyright
bdea1361Sscw *    notice, this list of conditions and the following disclaimer.
bdea1361Sscw * 2. Redistributions in binary form must reproduce the above copyright
bdea1361Sscw *    notice, this list of conditions and the following disclaimer in the
bdea1361Sscw *    documentation and/or other materials provided with the distribution.
bdea1361Sscw *
bdea1361Sscw * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
bdea1361Sscw * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
bdea1361Sscw * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
bdea1361Sscw * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
bdea1361Sscw * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
bdea1361Sscw * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
bdea1361Sscw * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
bdea1361Sscw * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
bdea1361Sscw * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
bdea1361Sscw * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
bdea1361Sscw */
bdea1361Sscw
bdea1361Sscw#include <sys/cdefs.h>
bdea1361Sscw#if 0
bdea1361Sscw__FBSDID("$FreeBSD: src/sys/arm/xscale/ixp425/if_npe.c,v 1.1 2006/11/19 23:55:23 sam Exp $");
bdea1361Sscw#endif
*4f37cd5cSmaxv__KERNEL_RCSID(0, "$NetBSD: ixp425_if_npe.c,v 1.35 2018/12/22 14:07:53 maxv Exp $");
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Intel XScale NPE Ethernet driver.
bdea1361Sscw *
bdea1361Sscw * This driver handles the two ports present on the IXP425.
bdea1361Sscw * Packet processing is done by the Network Processing Engines
bdea1361Sscw * (NPE's) that work together with a MAC and PHY. The MAC
bdea1361Sscw * is also mapped to the XScale cpu; the PHY is accessed via
bdea1361Sscw * the MAC. NPE-XScale communication happens through h/w
bdea1361Sscw * queues managed by the Q Manager block.
bdea1361Sscw *
bdea1361Sscw * The code here replaces the ethAcc, ethMii, and ethDB classes
bdea1361Sscw * in the Intel Access Library (IAL) and the OS-specific driver.
bdea1361Sscw *
bdea1361Sscw * XXX add vlan support
bdea1361Sscw * XXX NPE-C port doesn't work yet
bdea1361Sscw */
bdea1361Sscw
bdea1361Sscw#include <sys/param.h>
bdea1361Sscw#include <sys/systm.h>
bdea1361Sscw#include <sys/kernel.h>
bdea1361Sscw#include <sys/device.h>
bdea1361Sscw#include <sys/callout.h>
bdea1361Sscw#include <sys/mbuf.h>
bdea1361Sscw#include <sys/malloc.h>
bdea1361Sscw#include <sys/socket.h>
bdea1361Sscw#include <sys/endian.h>
bdea1361Sscw#include <sys/ioctl.h>
3589a8fdSmsaitoh#include <sys/syslog.h>
bdea1361Sscw
af51edd2Sdyoung#include <sys/bus.h>
bdea1361Sscw
bdea1361Sscw#include <net/if.h>
bdea1361Sscw#include <net/if_dl.h>
bdea1361Sscw#include <net/if_media.h>
bdea1361Sscw#include <net/if_ether.h>
bdea1361Sscw
bdea1361Sscw#include <net/bpf.h>
bdea1361Sscw
7347b26dSriastradh#include <sys/rndsource.h>
507aaf9eSmsaitoh
bdea1361Sscw#include <arm/xscale/ixp425reg.h>
bdea1361Sscw#include <arm/xscale/ixp425var.h>
bdea1361Sscw#include <arm/xscale/ixp425_qmgr.h>
bdea1361Sscw#include <arm/xscale/ixp425_npevar.h>
bdea1361Sscw#include <arm/xscale/ixp425_if_npereg.h>
bdea1361Sscw
bdea1361Sscw#include <dev/mii/miivar.h>
bdea1361Sscw
bdea1361Sscw#include "locators.h"
bdea1361Sscw
bdea1361Sscwstruct npebuf {
bdea1361Sscw	struct npebuf	*ix_next;	/* chain to next buffer */
bdea1361Sscw	void		*ix_m;		/* backpointer to mbuf */
bdea1361Sscw	bus_dmamap_t	ix_map;		/* bus dma map for associated data */
bdea1361Sscw	struct npehwbuf	*ix_hw;		/* associated h/w block */
bdea1361Sscw	uint32_t	ix_neaddr;	/* phys address of ix_hw */
bdea1361Sscw};
bdea1361Sscw
bdea1361Sscwstruct npedma {
bdea1361Sscw	const char*	name;
bdea1361Sscw	int		nbuf;		/* # npebuf's allocated */
bdea1361Sscw	bus_dmamap_t	m_map;
bdea1361Sscw	struct npehwbuf	*hwbuf;		/* NPE h/w buffers */
bdea1361Sscw	bus_dmamap_t	buf_map;
bdea1361Sscw	bus_addr_t	buf_phys;	/* phys addr of buffers */
bdea1361Sscw	struct npebuf	*buf;		/* s/w buffers (1-1 w/ h/w) */
bdea1361Sscw};
bdea1361Sscw
bdea1361Sscwstruct npe_softc {
e20bd029Smatt	device_t	sc_dev;
bdea1361Sscw	struct ethercom	sc_ethercom;
3589a8fdSmsaitoh	uint8_t		sc_enaddr[ETHER_ADDR_LEN];
bdea1361Sscw	struct mii_data	sc_mii;
bdea1361Sscw	bus_space_tag_t	sc_iot;
bdea1361Sscw	bus_dma_tag_t	sc_dt;
bdea1361Sscw	bus_space_handle_t sc_ioh;	/* MAC register window */
bdea1361Sscw	bus_space_handle_t sc_miih;	/* MII register window */
bdea1361Sscw	struct ixpnpe_softc *sc_npe;	/* NPE support */
bdea1361Sscw	int		sc_unit;
bdea1361Sscw	int		sc_phy;
bdea1361Sscw	struct callout	sc_tick_ch;	/* Tick callout */
bdea1361Sscw	struct npedma	txdma;
bdea1361Sscw	struct npebuf	*tx_free;	/* list of free tx buffers */
bdea1361Sscw	struct npedma	rxdma;
bdea1361Sscw	int		rx_qid;		/* rx qid */
bdea1361Sscw	int		rx_freeqid;	/* rx free buffers qid */
bdea1361Sscw	int		tx_qid;		/* tx qid */
bdea1361Sscw	int		tx_doneqid;	/* tx completed qid */
bdea1361Sscw	struct npestats	*sc_stats;
bdea1361Sscw	bus_dmamap_t	sc_stats_map;
bdea1361Sscw	bus_addr_t	sc_stats_phys;	/* phys addr of sc_stats */
816cf5b8Smsaitoh	int		sc_if_flags;	/* keep last if_flags */
8e933452Stls	krndsource_t rnd_source; /* random source */
bdea1361Sscw};
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Per-unit static configuration for IXP425.  The tx and
bdea1361Sscw * rx free Q id's are fixed by the NPE microcode.  The
bdea1361Sscw * rx Q id's are programmed to be separate to simplify
bdea1361Sscw * multi-port processing.  It may be better to handle
bdea1361Sscw * all traffic through one Q (as done by the Intel drivers).
bdea1361Sscw *
bdea1361Sscw * Note that the PHY's are accessible only from MAC A
bdea1361Sscw * on the IXP425.  This and other platform-specific
bdea1361Sscw * assumptions probably need to be handled through hints.
bdea1361Sscw */
bdea1361Sscwstatic const struct {
bdea1361Sscw	const char	*desc;		/* device description */
bdea1361Sscw	int		npeid;		/* NPE assignment */
227ae4c9Smsaitoh	int		macport;	/* Port number of the MAC */
bdea1361Sscw	uint32_t	imageid;	/* NPE firmware image id */
bdea1361Sscw	uint32_t	regbase;
bdea1361Sscw	int		regsize;
bdea1361Sscw	uint32_t	miibase;
bdea1361Sscw	int		miisize;
bdea1361Sscw	uint8_t		rx_qid;
bdea1361Sscw	uint8_t		rx_freeqid;
bdea1361Sscw	uint8_t		tx_qid;
bdea1361Sscw	uint8_t		tx_doneqid;
bdea1361Sscw} npeconfig[NPE_PORTS_MAX] = {
bdea1361Sscw	{ .desc		= "IXP NPE-B",
bdea1361Sscw	  .npeid	= NPE_B,
227ae4c9Smsaitoh	  .macport	= 0x10,
bdea1361Sscw	  .imageid	= IXP425_NPE_B_IMAGEID,
bdea1361Sscw	  .regbase	= IXP425_MAC_A_HWBASE,
bdea1361Sscw	  .regsize	= IXP425_MAC_A_SIZE,
bdea1361Sscw	  .miibase	= IXP425_MAC_A_HWBASE,
bdea1361Sscw	  .miisize	= IXP425_MAC_A_SIZE,
bdea1361Sscw	  .rx_qid	= 4,
bdea1361Sscw	  .rx_freeqid	= 27,
bdea1361Sscw	  .tx_qid	= 24,
bdea1361Sscw	  .tx_doneqid	= 31
bdea1361Sscw	},
bdea1361Sscw	{ .desc		= "IXP NPE-C",
bdea1361Sscw	  .npeid	= NPE_C,
227ae4c9Smsaitoh	  .macport	= 0x20,
bdea1361Sscw	  .imageid	= IXP425_NPE_C_IMAGEID,
bdea1361Sscw	  .regbase	= IXP425_MAC_B_HWBASE,
bdea1361Sscw	  .regsize	= IXP425_MAC_B_SIZE,
bdea1361Sscw	  .miibase	= IXP425_MAC_A_HWBASE,
bdea1361Sscw	  .miisize	= IXP425_MAC_A_SIZE,
bdea1361Sscw	  .rx_qid	= 12,
bdea1361Sscw	  .rx_freeqid	= 28,
bdea1361Sscw	  .tx_qid	= 25,
bdea1361Sscw	  .tx_doneqid	= 31
bdea1361Sscw	},
bdea1361Sscw};
bdea1361Sscwstatic struct npe_softc *npes[NPE_MAX];	/* NB: indexed by npeid */
bdea1361Sscw
bdea1361Sscwstatic __inline uint32_t
bdea1361SscwRD4(struct npe_softc *sc, bus_size_t off)
bdea1361Sscw{
bdea1361Sscw	return bus_space_read_4(sc->sc_iot, sc->sc_ioh, off);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic __inline void
bdea1361SscwWR4(struct npe_softc *sc, bus_size_t off, uint32_t val)
bdea1361Sscw{
bdea1361Sscw	bus_space_write_4(sc->sc_iot, sc->sc_ioh, off, val);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic int	npe_activate(struct npe_softc *);
bdea1361Sscw#if 0
bdea1361Sscwstatic void	npe_deactivate(struct npe_softc *);
bdea1361Sscw#endif
bdea1361Sscwstatic void	npe_ifmedia_status(struct ifnet *ifp, struct ifmediareq *ifmr);
6bc0c582Smattstatic void	npe_setmac(struct npe_softc *sc, const u_char *eaddr);
3589a8fdSmsaitohstatic void	npe_getmac(struct npe_softc *sc);
bdea1361Sscwstatic void	npe_txdone(int qid, void *arg);
bdea1361Sscwstatic int	npe_rxbuf_init(struct npe_softc *, struct npebuf *,
bdea1361Sscw			struct mbuf *);
bdea1361Sscwstatic void	npe_rxdone(int qid, void *arg);
816cf5b8Smsaitohstatic void	npeinit_macreg(struct npe_softc *);
bdea1361Sscwstatic int	npeinit(struct ifnet *);
227ae4c9Smsaitohstatic void	npeinit_resetcb(void *);
816cf5b8Smsaitohstatic void	npeinit_locked(void *);
bdea1361Sscwstatic void	npestart(struct ifnet *);
bdea1361Sscwstatic void	npestop(struct ifnet *, int);
bdea1361Sscwstatic void	npewatchdog(struct ifnet *);
53524e44Schristosstatic int	npeioctl(struct ifnet * ifp, u_long, void *);
bdea1361Sscw
bdea1361Sscwstatic int	npe_setrxqosentry(struct npe_softc *, int classix,
bdea1361Sscw			int trafclass, int qid);
bdea1361Sscwstatic int	npe_updatestats(struct npe_softc *);
bdea1361Sscw#if 0
bdea1361Sscwstatic int	npe_getstats(struct npe_softc *);
bdea1361Sscwstatic uint32_t	npe_getimageid(struct npe_softc *);
bdea1361Sscwstatic int	npe_setloopback(struct npe_softc *, int ena);
bdea1361Sscw#endif
bdea1361Sscw
e20bd029Smattstatic int	npe_miibus_readreg(device_t, int, int);
e20bd029Smattstatic void	npe_miibus_writereg(device_t, int, int, int);
e20bd029Smattstatic void	npe_miibus_statchg(struct ifnet *);
bdea1361Sscw
bdea1361Sscwstatic int	npe_debug;
bdea1361Sscw#define DPRINTF(sc, fmt, ...) do {			\
bdea1361Sscw	if (npe_debug) printf(fmt, __VA_ARGS__);	\
bdea1361Sscw} while (0)
bdea1361Sscw#define DPRINTFn(n, sc, fmt, ...) do {			\
bdea1361Sscw	if (npe_debug >= n) printf(fmt, __VA_ARGS__);	\
bdea1361Sscw} while (0)
bdea1361Sscw
bdea1361Sscw#define	NPE_TXBUF	128
bdea1361Sscw#define	NPE_RXBUF	64
bdea1361Sscw
bdea1361Sscw#ifndef ETHER_ALIGN
bdea1361Sscw#define	ETHER_ALIGN	2	/* XXX: Ditch this */
bdea1361Sscw#endif
bdea1361Sscw
3589a8fdSmsaitoh#define MAC2UINT64(addr)	(((uint64_t)addr[0] << 40)	\
3589a8fdSmsaitoh				    + ((uint64_t)addr[1] << 32)	\
3589a8fdSmsaitoh				    + ((uint64_t)addr[2] << 24)	\
3589a8fdSmsaitoh				    + ((uint64_t)addr[3] << 16)	\
3589a8fdSmsaitoh				    + ((uint64_t)addr[4] << 8)	\
3589a8fdSmsaitoh				    + (uint64_t)addr[5])
3589a8fdSmsaitoh
bdea1361Sscw/* NB: all tx done processing goes through one queue */
bdea1361Sscwstatic int tx_doneqid = -1;
bdea1361Sscw
3589a8fdSmsaitohvoid (*npe_getmac_md)(int, uint8_t *);
3589a8fdSmsaitoh
e20bd029Smattstatic int npe_match(device_t, cfdata_t, void *);
e20bd029Smattstatic void npe_attach(device_t, device_t, void *);
bdea1361Sscw
e20bd029SmattCFATTACH_DECL_NEW(npe, sizeof(struct npe_softc),
bdea1361Sscw    npe_match, npe_attach, NULL, NULL);
bdea1361Sscw
bdea1361Sscwstatic int
e20bd029Smattnpe_match(device_t parent, cfdata_t cf, void *arg)
bdea1361Sscw{
bdea1361Sscw	struct ixpnpe_attach_args *na = arg;
bdea1361Sscw
bdea1361Sscw	return (na->na_unit == NPE_B || na->na_unit == NPE_C);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
e20bd029Smattnpe_attach(device_t parent, device_t self, void *arg)
bdea1361Sscw{
e20bd029Smatt	struct npe_softc *sc = device_private(self);
e20bd029Smatt	struct ixpnpe_softc *isc = device_private(parent);
bdea1361Sscw	struct ixpnpe_attach_args *na = arg;
bdea1361Sscw	struct ifnet *ifp;
bdea1361Sscw
bdea1361Sscw	aprint_naive("\n");
bdea1361Sscw	aprint_normal(": Ethernet co-processor\n");
bdea1361Sscw
e20bd029Smatt	sc->sc_dev = self;
bdea1361Sscw	sc->sc_iot = na->na_iot;
bdea1361Sscw	sc->sc_dt = na->na_dt;
bdea1361Sscw	sc->sc_npe = na->na_npe;
bdea1361Sscw	sc->sc_unit = (na->na_unit == NPE_B) ? 0 : 1;
bdea1361Sscw	sc->sc_phy = na->na_phy;
bdea1361Sscw
bdea1361Sscw	memset(&sc->sc_ethercom, 0, sizeof(sc->sc_ethercom));
bdea1361Sscw	memset(&sc->sc_mii, 0, sizeof(sc->sc_mii));
bdea1361Sscw
88ab7da9Sad	callout_init(&sc->sc_tick_ch, 0);
bdea1361Sscw
bdea1361Sscw	if (npe_activate(sc)) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "Failed to activate NPE (missing microcode?)\n");
bdea1361Sscw		return;
bdea1361Sscw	}
bdea1361Sscw
3589a8fdSmsaitoh	npe_getmac(sc);
b9c2a505Smsaitoh	npeinit_macreg(sc);
bdea1361Sscw
e20bd029Smatt	aprint_normal_dev(sc->sc_dev, "Ethernet address %s\n",
3589a8fdSmsaitoh	    ether_sprintf(sc->sc_enaddr));
bdea1361Sscw
bdea1361Sscw	ifp = &sc->sc_ethercom.ec_if;
bdea1361Sscw	sc->sc_mii.mii_ifp = ifp;
bdea1361Sscw	sc->sc_mii.mii_readreg = npe_miibus_readreg;
bdea1361Sscw	sc->sc_mii.mii_writereg = npe_miibus_writereg;
bdea1361Sscw	sc->sc_mii.mii_statchg = npe_miibus_statchg;
b480b622Sdyoung	sc->sc_ethercom.ec_mii = &sc->sc_mii;
bdea1361Sscw
273cfb27Smsaitoh	ifmedia_init(&sc->sc_mii.mii_media, IFM_IMASK, ether_mediachange,
273cfb27Smsaitoh	    npe_ifmedia_status);
273cfb27Smsaitoh
e20bd029Smatt	mii_attach(sc->sc_dev, &sc->sc_mii, 0xffffffff, MII_PHY_ANY,
273cfb27Smsaitoh		    MII_OFFSET_ANY, MIIF_DOPAUSE);
273cfb27Smsaitoh	if (LIST_FIRST(&sc->sc_mii.mii_phys) == NULL) {
273cfb27Smsaitoh		ifmedia_add(&sc->sc_mii.mii_media, IFM_ETHER|IFM_NONE, 0, NULL);
273cfb27Smsaitoh		ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER|IFM_NONE);
273cfb27Smsaitoh	} else
bdea1361Sscw		ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER|IFM_AUTO);
bdea1361Sscw
bdea1361Sscw	ifp->if_softc = sc;
e20bd029Smatt	strcpy(ifp->if_xname, device_xname(sc->sc_dev));
bdea1361Sscw	ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST;
bdea1361Sscw	ifp->if_start = npestart;
bdea1361Sscw	ifp->if_ioctl = npeioctl;
bdea1361Sscw	ifp->if_watchdog = npewatchdog;
bdea1361Sscw	ifp->if_init = npeinit;
bdea1361Sscw	ifp->if_stop = npestop;
bdea1361Sscw	IFQ_SET_READY(&ifp->if_snd);
bdea1361Sscw
8586a845Smsaitoh	/* VLAN capable */
8586a845Smsaitoh	sc->sc_ethercom.ec_capabilities |= ETHERCAP_VLAN_MTU;
8586a845Smsaitoh
bdea1361Sscw	if_attach(ifp);
e3a04365Snonaka	if_deferred_start_init(ifp, NULL);
3589a8fdSmsaitoh	ether_ifattach(ifp, sc->sc_enaddr);
e20bd029Smatt	rnd_attach_source(&sc->rnd_source, device_xname(sc->sc_dev),
a72ef114Stls	    RND_TYPE_NET, RND_FLAG_DEFAULT);
227ae4c9Smsaitoh
227ae4c9Smsaitoh	/* callback function to reset MAC */
227ae4c9Smsaitoh	isc->macresetcbfunc = npeinit_resetcb;
227ae4c9Smsaitoh	isc->macresetcbarg = sc;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Compute and install the multicast filter.
bdea1361Sscw */
bdea1361Sscwstatic void
bdea1361Sscwnpe_setmcast(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
bdea1361Sscw	uint8_t mask[ETHER_ADDR_LEN], addr[ETHER_ADDR_LEN];
3589a8fdSmsaitoh	uint32_t reg;
227ae4c9Smsaitoh	uint32_t msg[2];
bdea1361Sscw	int i;
bdea1361Sscw
3589a8fdSmsaitoh	/* Always use filter. Is here a correct position? */
3589a8fdSmsaitoh	reg = RD4(sc, NPE_MAC_RX_CNTRL1);
3589a8fdSmsaitoh	WR4(sc, NPE_MAC_RX_CNTRL1, reg | NPE_RX_CNTRL1_ADDR_FLTR_EN);
3589a8fdSmsaitoh
bdea1361Sscw	if (ifp->if_flags & IFF_PROMISC) {
bdea1361Sscw		memset(mask, 0, ETHER_ADDR_LEN);
bdea1361Sscw		memset(addr, 0, ETHER_ADDR_LEN);
bdea1361Sscw	} else if (ifp->if_flags & IFF_ALLMULTI) {
bdea1361Sscw		static const uint8_t allmulti[ETHER_ADDR_LEN] =
bdea1361Sscw		    { 0x01, 0x00, 0x00, 0x00, 0x00, 0x00 };
bdea1361Sscw all_multi:
bdea1361Sscw		memcpy(mask, allmulti, ETHER_ADDR_LEN);
bdea1361Sscw		memcpy(addr, allmulti, ETHER_ADDR_LEN);
bdea1361Sscw	} else {
bdea1361Sscw		uint8_t clr[ETHER_ADDR_LEN], set[ETHER_ADDR_LEN];
bdea1361Sscw		struct ether_multistep step;
bdea1361Sscw		struct ether_multi *enm;
bdea1361Sscw
bdea1361Sscw		memset(clr, 0, ETHER_ADDR_LEN);
bdea1361Sscw		memset(set, 0xff, ETHER_ADDR_LEN);
bdea1361Sscw
bdea1361Sscw		ETHER_FIRST_MULTI(step, &sc->sc_ethercom, enm);
bdea1361Sscw		while (enm != NULL) {
bdea1361Sscw			if (memcmp(enm->enm_addrlo, enm->enm_addrhi, ETHER_ADDR_LEN)) {
bdea1361Sscw				ifp->if_flags |= IFF_ALLMULTI;
bdea1361Sscw				goto all_multi;
bdea1361Sscw			}
bdea1361Sscw
bdea1361Sscw			for (i = 0; i < ETHER_ADDR_LEN; i++) {
bdea1361Sscw				clr[i] |= enm->enm_addrlo[i];
bdea1361Sscw				set[i] &= enm->enm_addrlo[i];
bdea1361Sscw			}
bdea1361Sscw
bdea1361Sscw			ETHER_NEXT_MULTI(step, enm);
bdea1361Sscw		}
bdea1361Sscw
bdea1361Sscw		for (i = 0; i < ETHER_ADDR_LEN; i++) {
bdea1361Sscw			mask[i] = set[i] | ~clr[i];
bdea1361Sscw			addr[i] = set[i];
bdea1361Sscw		}
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	/*
bdea1361Sscw	 * Write the mask and address registers.
bdea1361Sscw	 */
bdea1361Sscw	for (i = 0; i < ETHER_ADDR_LEN; i++) {
bdea1361Sscw		WR4(sc, NPE_MAC_ADDR_MASK(i), mask[i]);
bdea1361Sscw		WR4(sc, NPE_MAC_ADDR(i), addr[i]);
bdea1361Sscw	}
227ae4c9Smsaitoh
227ae4c9Smsaitoh	msg[0] = NPE_ADDRESSFILTERCONFIG << NPE_MAC_MSGID_SHL
227ae4c9Smsaitoh	    | (npeconfig[sc->sc_unit].macport << NPE_MAC_PORTID_SHL);
227ae4c9Smsaitoh	msg[1] = ((ifp->if_flags & IFF_PROMISC) ? 1 : 0) << 24
227ae4c9Smsaitoh	    | ((RD4(sc, NPE_MAC_UNI_ADDR_6) & 0xff) << 16)
227ae4c9Smsaitoh	    | (addr[5] << 8) | mask[5];
227ae4c9Smsaitoh	ixpnpe_sendandrecvmsg(sc->sc_npe, msg, msg);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic int
bdea1361Sscwnpe_dma_setup(struct npe_softc *sc, struct npedma *dma,
bdea1361Sscw	const char *name, int nbuf, int maxseg)
bdea1361Sscw{
bdea1361Sscw	bus_dma_segment_t seg;
bdea1361Sscw	int rseg, error, i;
53524e44Schristos	void *hwbuf;
bdea1361Sscw	size_t size;
bdea1361Sscw
8586a845Smsaitoh	memset(dma, 0, sizeof(*dma));
bdea1361Sscw
bdea1361Sscw	dma->name = name;
bdea1361Sscw	dma->nbuf = nbuf;
bdea1361Sscw
bdea1361Sscw	size = nbuf * sizeof(struct npehwbuf);
bdea1361Sscw
bdea1361Sscw	/* XXX COHERENT for now */
bdea1361Sscw	error = bus_dmamem_alloc(sc->sc_dt, size, sizeof(uint32_t), 0, &seg,
bdea1361Sscw	    1, &rseg, BUS_DMA_NOWAIT);
bdea1361Sscw	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s %s buffers, error %u\n",
e20bd029Smatt		    "allocate memory", dma->name, "h/w", error);
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	error = bus_dmamem_map(sc->sc_dt, &seg, 1, size, &hwbuf,
bdea1361Sscw	    BUS_DMA_NOWAIT | BUS_DMA_COHERENT | BUS_DMA_NOCACHE);
bdea1361Sscw	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s %s buffers, error %u\n",
e20bd029Smatt		    "map memory", dma->name, "h/w", error);
bdea1361Sscw free_dmamem:
bdea1361Sscw		bus_dmamem_free(sc->sc_dt, &seg, rseg);
bdea1361Sscw		return error;
bdea1361Sscw	}
bdea1361Sscw	dma->hwbuf = (void *)hwbuf;
bdea1361Sscw
bdea1361Sscw	error = bus_dmamap_create(sc->sc_dt, size, 1, size, 0,
bdea1361Sscw	    BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &dma->buf_map);
bdea1361Sscw	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s %s buffers, error %u\n",
e20bd029Smatt		    "create map", dma->name, "h/w", error);
bdea1361Sscw unmap_dmamem:
bdea1361Sscw		dma->hwbuf = NULL;
bdea1361Sscw		bus_dmamem_unmap(sc->sc_dt, hwbuf, size);
bdea1361Sscw		goto free_dmamem;
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	error = bus_dmamap_load(sc->sc_dt, dma->buf_map, hwbuf, size, NULL,
bdea1361Sscw	    BUS_DMA_NOWAIT);
bdea1361Sscw	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s %s buffers, error %u\n",
e20bd029Smatt		    "load map", dma->name, "h/w", error);
bdea1361Sscw destroy_dmamap:
bdea1361Sscw		bus_dmamap_destroy(sc->sc_dt, dma->buf_map);
bdea1361Sscw		goto unmap_dmamem;
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	/* XXX M_TEMP */
bdea1361Sscw	dma->buf = malloc(nbuf * sizeof(struct npebuf), M_TEMP, M_NOWAIT | M_ZERO);
bdea1361Sscw	if (dma->buf == NULL) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s %s buffers, error %u\n",
e20bd029Smatt		    "allocate memory", dma->name, "h/w", error);
bdea1361Sscw		bus_dmamap_unload(sc->sc_dt, dma->buf_map);
bdea1361Sscw		error = ENOMEM;
bdea1361Sscw		goto destroy_dmamap;
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	dma->buf_phys = dma->buf_map->dm_segs[0].ds_addr;
bdea1361Sscw	for (i = 0; i < dma->nbuf; i++) {
bdea1361Sscw		struct npebuf *npe = &dma->buf[i];
bdea1361Sscw		struct npehwbuf *hw = &dma->hwbuf[i];
bdea1361Sscw
bdea1361Sscw		/* calculate offset to shared area */
bdea1361Sscw		npe->ix_neaddr = dma->buf_phys +
bdea1361Sscw			((uintptr_t)hw - (uintptr_t)dma->hwbuf);
bdea1361Sscw		KASSERT((npe->ix_neaddr & 0x1f) == 0);
8586a845Smsaitoh		error = bus_dmamap_create(sc->sc_dt, MCLBYTES, maxseg,
bdea1361Sscw		    MCLBYTES, 0, 0, &npe->ix_map);
bdea1361Sscw		if (error != 0) {
e20bd029Smatt			aprint_error_dev(sc->sc_dev,
e20bd029Smatt			    "unable to %s for %s buffer %u, error %u\n",
e20bd029Smatt			    "create dmamap", dma->name, i, error);
bdea1361Sscw			/* XXXSCW: Free up maps... */
bdea1361Sscw			return error;
bdea1361Sscw		}
bdea1361Sscw		npe->ix_hw = hw;
bdea1361Sscw	}
bdea1361Sscw	bus_dmamap_sync(sc->sc_dt, dma->buf_map, 0, dma->buf_map->dm_mapsize,
bdea1361Sscw	    BUS_DMASYNC_PREWRITE);
bdea1361Sscw	return 0;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw#if 0
bdea1361Sscwstatic void
bdea1361Sscwnpe_dma_destroy(struct npe_softc *sc, struct npedma *dma)
bdea1361Sscw{
bdea1361Sscw	int i;
bdea1361Sscw
bdea1361Sscw/* XXXSCW: Clean this up */
bdea1361Sscw
bdea1361Sscw	if (dma->hwbuf != NULL) {
bdea1361Sscw		for (i = 0; i < dma->nbuf; i++) {
bdea1361Sscw			struct npebuf *npe = &dma->buf[i];
bdea1361Sscw			bus_dmamap_destroy(sc->sc_dt, npe->ix_map);
bdea1361Sscw		}
bdea1361Sscw		bus_dmamap_unload(sc->sc_dt, dma->buf_map);
53524e44Schristos		bus_dmamem_free(sc->sc_dt, (void *)dma->hwbuf, dma->buf_map);
bdea1361Sscw		bus_dmamap_destroy(sc->sc_dt, dma->buf_map);
bdea1361Sscw	}
bdea1361Sscw	if (dma->buf != NULL)
bdea1361Sscw		free(dma->buf, M_TEMP);
bdea1361Sscw	memset(dma, 0, sizeof(*dma));
bdea1361Sscw}
bdea1361Sscw#endif
bdea1361Sscw
bdea1361Sscwstatic int
bdea1361Sscwnpe_activate(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	bus_dma_segment_t seg;
bdea1361Sscw	int unit = sc->sc_unit;
bdea1361Sscw	int error, i, rseg;
53524e44Schristos	void *statbuf;
bdea1361Sscw
bdea1361Sscw	/* load NPE firmware and start it running */
bdea1361Sscw	error = ixpnpe_init(sc->sc_npe, "npe_fw", npeconfig[unit].imageid);
bdea1361Sscw	if (error != 0)
bdea1361Sscw		return error;
bdea1361Sscw
bdea1361Sscw	if (bus_space_map(sc->sc_iot, npeconfig[unit].regbase,
bdea1361Sscw	    npeconfig[unit].regsize, 0, &sc->sc_ioh)) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev, "Cannot map registers 0x%x:0x%x\n",
e20bd029Smatt		    npeconfig[unit].regbase, npeconfig[unit].regsize);
bdea1361Sscw		return ENOMEM;
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	if (npeconfig[unit].miibase != npeconfig[unit].regbase) {
bdea1361Sscw		/*
bdea1361Sscw		 * The PHY's are only accessible from one MAC (it appears)
bdea1361Sscw		 * so for other MAC's setup an additional mapping for
bdea1361Sscw		 * frobbing the PHY registers.
bdea1361Sscw		 */
bdea1361Sscw		if (bus_space_map(sc->sc_iot, npeconfig[unit].miibase,
bdea1361Sscw		    npeconfig[unit].miisize, 0, &sc->sc_miih)) {
e20bd029Smatt			aprint_error_dev(sc->sc_dev,
e20bd029Smatt			    "Cannot map MII registers 0x%x:0x%x\n",
e20bd029Smatt			    npeconfig[unit].miibase, npeconfig[unit].miisize);
bdea1361Sscw			return ENOMEM;
bdea1361Sscw		}
bdea1361Sscw	} else
bdea1361Sscw		sc->sc_miih = sc->sc_ioh;
bdea1361Sscw	error = npe_dma_setup(sc, &sc->txdma, "tx", NPE_TXBUF, NPE_MAXSEG);
bdea1361Sscw	if (error != 0)
bdea1361Sscw		return error;
bdea1361Sscw	error = npe_dma_setup(sc, &sc->rxdma, "rx", NPE_RXBUF, 1);
bdea1361Sscw	if (error != 0)
bdea1361Sscw		return error;
bdea1361Sscw
bdea1361Sscw	/* setup statistics block */
bdea1361Sscw	error = bus_dmamem_alloc(sc->sc_dt, sizeof(struct npestats),
bdea1361Sscw	    sizeof(uint32_t), 0, &seg, 1, &rseg, BUS_DMA_NOWAIT);
bdea1361Sscw	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s, error %u\n",
e20bd029Smatt		    "allocate memory", "stats block", error);
bdea1361Sscw		return error;
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	error = bus_dmamem_map(sc->sc_dt, &seg, 1, sizeof(struct npestats),
bdea1361Sscw	    &statbuf, BUS_DMA_NOWAIT);
bdea1361Sscw	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s, error %u\n",
e20bd029Smatt		    "map memory", "stats block", error);
bdea1361Sscw		return error;
bdea1361Sscw	}
bdea1361Sscw	sc->sc_stats = (void *)statbuf;
bdea1361Sscw
bdea1361Sscw	error = bus_dmamap_create(sc->sc_dt, sizeof(struct npestats), 1,
bdea1361Sscw	    sizeof(struct npestats), 0, BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW,
bdea1361Sscw	    &sc->sc_stats_map);
bdea1361Sscw	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s, error %u\n",
e20bd029Smatt		    "create map", "stats block", error);
bdea1361Sscw		return error;
bdea1361Sscw	}
bdea1361Sscw
46710031Smaxv	error = bus_dmamap_load(sc->sc_dt, sc->sc_stats_map, sc->sc_stats,
46710031Smaxv	    sizeof(struct npestats), NULL, BUS_DMA_NOWAIT);
46710031Smaxv	if (error) {
e20bd029Smatt		aprint_error_dev(sc->sc_dev,
e20bd029Smatt		    "unable to %s for %s, error %u\n",
e20bd029Smatt		    "load map", "stats block", error);
bdea1361Sscw		return error;
bdea1361Sscw	}
bdea1361Sscw	sc->sc_stats_phys = sc->sc_stats_map->dm_segs[0].ds_addr;
bdea1361Sscw
bdea1361Sscw	/* XXX disable half-bridge LEARNING+FILTERING feature */
bdea1361Sscw
bdea1361Sscw	/*
bdea1361Sscw	 * Setup h/w rx/tx queues.  There are four q's:
bdea1361Sscw	 *   rx		inbound q of rx'd frames
bdea1361Sscw	 *   rx_free	pool of ixpbuf's for receiving frames
bdea1361Sscw	 *   tx		outbound q of frames to send
bdea1361Sscw	 *   tx_done	q of tx frames that have been processed
bdea1361Sscw	 *
bdea1361Sscw	 * The NPE handles the actual tx/rx process and the q manager
bdea1361Sscw	 * handles the queues.  The driver just writes entries to the
bdea1361Sscw	 * q manager mailbox's and gets callbacks when there are rx'd
bdea1361Sscw	 * frames to process or tx'd frames to reap.  These callbacks
bdea1361Sscw	 * are controlled by the q configurations; e.g. we get a
bdea1361Sscw	 * callback when tx_done has 2 or more frames to process and
bdea1361Sscw	 * when the rx q has at least one frame.  These setings can
bdea1361Sscw	 * changed at the time the q is configured.
bdea1361Sscw	 */
bdea1361Sscw	sc->rx_qid = npeconfig[unit].rx_qid;
bdea1361Sscw	ixpqmgr_qconfig(sc->rx_qid, NPE_RXBUF, 0,  1,
bdea1361Sscw		IX_QMGR_Q_SOURCE_ID_NOT_E, npe_rxdone, sc);
bdea1361Sscw	sc->rx_freeqid = npeconfig[unit].rx_freeqid;
bdea1361Sscw	ixpqmgr_qconfig(sc->rx_freeqid,	NPE_RXBUF, 0, NPE_RXBUF/2, 0, NULL, sc);
bdea1361Sscw	/* tell the NPE to direct all traffic to rx_qid */
bdea1361Sscw#if 0
bdea1361Sscw	for (i = 0; i < 8; i++)
bdea1361Sscw#else
e20bd029Smattprintf("%s: remember to fix rx q setup\n", device_xname(sc->sc_dev));
bdea1361Sscw	for (i = 0; i < 4; i++)
bdea1361Sscw#endif
bdea1361Sscw		npe_setrxqosentry(sc, i, 0, sc->rx_qid);
bdea1361Sscw
bdea1361Sscw	sc->tx_qid = npeconfig[unit].tx_qid;
bdea1361Sscw	sc->tx_doneqid = npeconfig[unit].tx_doneqid;
bdea1361Sscw	ixpqmgr_qconfig(sc->tx_qid, NPE_TXBUF, 0, NPE_TXBUF, 0, NULL, sc);
bdea1361Sscw	if (tx_doneqid == -1) {
bdea1361Sscw		ixpqmgr_qconfig(sc->tx_doneqid,	NPE_TXBUF, 0,  2,
bdea1361Sscw			IX_QMGR_Q_SOURCE_ID_NOT_E, npe_txdone, sc);
bdea1361Sscw		tx_doneqid = sc->tx_doneqid;
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	KASSERT(npes[npeconfig[unit].npeid] == NULL);
bdea1361Sscw	npes[npeconfig[unit].npeid] = sc;
bdea1361Sscw
bdea1361Sscw	return 0;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw#if 0
bdea1361Sscwstatic void
bdea1361Sscwnpe_deactivate(struct npe_softc *sc);
bdea1361Sscw{
bdea1361Sscw	int unit = sc->sc_unit;
bdea1361Sscw
bdea1361Sscw	npes[npeconfig[unit].npeid] = NULL;
bdea1361Sscw
bdea1361Sscw	/* XXX disable q's */
bdea1361Sscw	if (sc->sc_npe != NULL)
bdea1361Sscw		ixpnpe_stop(sc->sc_npe);
bdea1361Sscw	if (sc->sc_stats != NULL) {
bdea1361Sscw		bus_dmamap_unload(sc->sc_stats_tag, sc->sc_stats_map);
bdea1361Sscw		bus_dmamem_free(sc->sc_stats_tag, sc->sc_stats,
bdea1361Sscw			sc->sc_stats_map);
bdea1361Sscw		bus_dmamap_destroy(sc->sc_stats_tag, sc->sc_stats_map);
bdea1361Sscw	}
bdea1361Sscw	if (sc->sc_stats_tag != NULL)
bdea1361Sscw		bus_dma_tag_destroy(sc->sc_stats_tag);
bdea1361Sscw	npe_dma_destroy(sc, &sc->txdma);
bdea1361Sscw	npe_dma_destroy(sc, &sc->rxdma);
bdea1361Sscw	bus_generic_detach(sc->sc_dev);
bdea1361Sscw	if (sc->sc_mii)
bdea1361Sscw		device_delete_child(sc->sc_dev, sc->sc_mii);
bdea1361Sscw#if 0
bdea1361Sscw	/* XXX sc_ioh and sc_miih */
bdea1361Sscw	if (sc->mem_res)
bdea1361Sscw		bus_release_resource(dev, SYS_RES_IOPORT,
bdea1361Sscw		    rman_get_rid(sc->mem_res), sc->mem_res);
bdea1361Sscw	sc->mem_res = 0;
bdea1361Sscw#endif
bdea1361Sscw}
bdea1361Sscw#endif
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Notify the world which media we're using.
bdea1361Sscw */
bdea1361Sscwstatic void
bdea1361Sscwnpe_ifmedia_status(struct ifnet *ifp, struct ifmediareq *ifmr)
bdea1361Sscw{
bdea1361Sscw	struct npe_softc *sc = ifp->if_softc;
bdea1361Sscw
bdea1361Sscw	mii_pollstat(&sc->sc_mii);
bdea1361Sscw
bdea1361Sscw	ifmr->ifm_active = sc->sc_mii.mii_media_active;
bdea1361Sscw	ifmr->ifm_status = sc->sc_mii.mii_media_status;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
bdea1361Sscwnpe_addstats(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
bdea1361Sscw	struct npestats *ns = sc->sc_stats;
bdea1361Sscw
bdea1361Sscw	ifp->if_oerrors +=
bdea1361Sscw		  be32toh(ns->dot3StatsInternalMacTransmitErrors)
bdea1361Sscw		+ be32toh(ns->dot3StatsCarrierSenseErrors)
bdea1361Sscw		+ be32toh(ns->TxVLANIdFilterDiscards)
bdea1361Sscw		;
bdea1361Sscw	ifp->if_ierrors += be32toh(ns->dot3StatsFCSErrors)
bdea1361Sscw		+ be32toh(ns->dot3StatsInternalMacReceiveErrors)
bdea1361Sscw		+ be32toh(ns->RxOverrunDiscards)
bdea1361Sscw		+ be32toh(ns->RxUnderflowEntryDiscards)
bdea1361Sscw		;
bdea1361Sscw	ifp->if_collisions +=
bdea1361Sscw		  be32toh(ns->dot3StatsSingleCollisionFrames)
bdea1361Sscw		+ be32toh(ns->dot3StatsMultipleCollisionFrames)
bdea1361Sscw		;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
bdea1361Sscwnpe_tick(void *xsc)
bdea1361Sscw{
bdea1361Sscw#define	ACK	(NPE_RESETSTATS << NPE_MAC_MSGID_SHL)
bdea1361Sscw	struct npe_softc *sc = xsc;
bdea1361Sscw	uint32_t msg[2];
bdea1361Sscw
bdea1361Sscw	/*
bdea1361Sscw	 * NB: to avoid sleeping with the softc lock held we
bdea1361Sscw	 * split the NPE msg processing into two parts.  The
bdea1361Sscw	 * request for statistics is sent w/o waiting for a
bdea1361Sscw	 * reply and then on the next tick we retrieve the
bdea1361Sscw	 * results.  This works because npe_tick is the only
bdea1361Sscw	 * code that talks via the mailbox's (except at setup).
bdea1361Sscw	 * This likely can be handled better.
bdea1361Sscw	 */
bdea1361Sscw	if (ixpnpe_recvmsg(sc->sc_npe, msg) == 0 && msg[0] == ACK) {
bdea1361Sscw		bus_dmamap_sync(sc->sc_dt, sc->sc_stats_map, 0,
bdea1361Sscw		    sizeof(struct npestats), BUS_DMASYNC_POSTREAD);
bdea1361Sscw		npe_addstats(sc);
bdea1361Sscw	}
bdea1361Sscw	npe_updatestats(sc);
bdea1361Sscw	mii_tick(&sc->sc_mii);
bdea1361Sscw
bdea1361Sscw	/* schedule next poll */
bdea1361Sscw	callout_reset(&sc->sc_tick_ch, hz, npe_tick, sc);
bdea1361Sscw#undef ACK
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
6bc0c582Smattnpe_setmac(struct npe_softc *sc, const u_char *eaddr)
bdea1361Sscw{
3589a8fdSmsaitoh
bdea1361Sscw	WR4(sc, NPE_MAC_UNI_ADDR_1, eaddr[0]);
bdea1361Sscw	WR4(sc, NPE_MAC_UNI_ADDR_2, eaddr[1]);
bdea1361Sscw	WR4(sc, NPE_MAC_UNI_ADDR_3, eaddr[2]);
bdea1361Sscw	WR4(sc, NPE_MAC_UNI_ADDR_4, eaddr[3]);
bdea1361Sscw	WR4(sc, NPE_MAC_UNI_ADDR_5, eaddr[4]);
bdea1361Sscw	WR4(sc, NPE_MAC_UNI_ADDR_6, eaddr[5]);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
3589a8fdSmsaitohnpe_getmac(struct npe_softc *sc)
bdea1361Sscw{
3589a8fdSmsaitoh	uint8_t *eaddr = sc->sc_enaddr;
3589a8fdSmsaitoh
3589a8fdSmsaitoh	if (npe_getmac_md != NULL) {
e20bd029Smatt		(*npe_getmac_md)(device_unit(sc->sc_dev), eaddr);
3589a8fdSmsaitoh	} else {
3589a8fdSmsaitoh		/*
3589a8fdSmsaitoh		 * Some system's unicast address appears to be loaded from
3589a8fdSmsaitoh		 * EEPROM on reset
3589a8fdSmsaitoh		 */
bdea1361Sscw		eaddr[0] = RD4(sc, NPE_MAC_UNI_ADDR_1) & 0xff;
bdea1361Sscw		eaddr[1] = RD4(sc, NPE_MAC_UNI_ADDR_2) & 0xff;
bdea1361Sscw		eaddr[2] = RD4(sc, NPE_MAC_UNI_ADDR_3) & 0xff;
bdea1361Sscw		eaddr[3] = RD4(sc, NPE_MAC_UNI_ADDR_4) & 0xff;
bdea1361Sscw		eaddr[4] = RD4(sc, NPE_MAC_UNI_ADDR_5) & 0xff;
bdea1361Sscw		eaddr[5] = RD4(sc, NPE_MAC_UNI_ADDR_6) & 0xff;
bdea1361Sscw	}
3589a8fdSmsaitoh}
bdea1361Sscw
bdea1361Sscwstruct txdone {
bdea1361Sscw	struct npebuf *head;
bdea1361Sscw	struct npebuf **tail;
bdea1361Sscw	int count;
bdea1361Sscw};
bdea1361Sscw
bdea1361Sscwstatic __inline void
bdea1361Sscwnpe_txdone_finish(struct npe_softc *sc, const struct txdone *td)
bdea1361Sscw{
bdea1361Sscw	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
bdea1361Sscw
bdea1361Sscw	*td->tail = sc->tx_free;
bdea1361Sscw	sc->tx_free = td->head;
bdea1361Sscw	/*
bdea1361Sscw	 * We're no longer busy, so clear the busy flag and call the
bdea1361Sscw	 * start routine to xmit more packets.
bdea1361Sscw	 */
bdea1361Sscw	ifp->if_opackets += td->count;
bdea1361Sscw	ifp->if_flags &= ~IFF_OACTIVE;
bdea1361Sscw	ifp->if_timer = 0;
e3a04365Snonaka	if_schedule_deferred_start(ifp);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Q manager callback on tx done queue.  Reap mbufs
bdea1361Sscw * and return tx buffers to the free list.  Finally
bdea1361Sscw * restart output.  Note the microcode has only one
bdea1361Sscw * txdone q wired into it so we must use the NPE ID
bdea1361Sscw * returned with each npehwbuf to decide where to
bdea1361Sscw * send buffers.
bdea1361Sscw */
bdea1361Sscwstatic void
bdea1361Sscwnpe_txdone(int qid, void *arg)
bdea1361Sscw{
bdea1361Sscw#define	P2V(a, dma) \
bdea1361Sscw	&(dma)->buf[((a) - (dma)->buf_phys) / sizeof(struct npehwbuf)]
bdea1361Sscw	struct npe_softc *sc;
bdea1361Sscw	struct npebuf *npe;
bdea1361Sscw	struct txdone *td, q[NPE_MAX];
bdea1361Sscw	uint32_t entry;
bdea1361Sscw
bdea1361Sscw	/* XXX no NPE-A support */
bdea1361Sscw	q[NPE_B].tail = &q[NPE_B].head; q[NPE_B].count = 0;
bdea1361Sscw	q[NPE_C].tail = &q[NPE_C].head; q[NPE_C].count = 0;
bdea1361Sscw	/* XXX max # at a time? */
bdea1361Sscw	while (ixpqmgr_qread(qid, &entry) == 0) {
bdea1361Sscw		sc = npes[NPE_QM_Q_NPE(entry)];
bdea1361Sscw		DPRINTF(sc, "%s: entry 0x%x NPE %u port %u\n",
bdea1361Sscw		    __func__, entry, NPE_QM_Q_NPE(entry), NPE_QM_Q_PORT(entry));
507aaf9eSmsaitoh		rnd_add_uint32(&sc->rnd_source, entry);
bdea1361Sscw
bdea1361Sscw		npe = P2V(NPE_QM_Q_ADDR(entry), &sc->txdma);
bdea1361Sscw		m_freem(npe->ix_m);
bdea1361Sscw		npe->ix_m = NULL;
bdea1361Sscw
bdea1361Sscw		td = &q[NPE_QM_Q_NPE(entry)];
bdea1361Sscw		*td->tail = npe;
bdea1361Sscw		td->tail = &npe->ix_next;
bdea1361Sscw		td->count++;
bdea1361Sscw	}
bdea1361Sscw
bdea1361Sscw	if (q[NPE_B].count)
bdea1361Sscw		npe_txdone_finish(npes[NPE_B], &q[NPE_B]);
bdea1361Sscw	if (q[NPE_C].count)
bdea1361Sscw		npe_txdone_finish(npes[NPE_C], &q[NPE_C]);
bdea1361Sscw#undef P2V
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic __inline struct mbuf *
bdea1361Sscwnpe_getcl(void)
bdea1361Sscw{
bdea1361Sscw	struct mbuf *m;
bdea1361Sscw
bdea1361Sscw	MGETHDR(m, M_DONTWAIT, MT_DATA);
bdea1361Sscw	if (m != NULL) {
bdea1361Sscw		MCLGET(m, M_DONTWAIT);
bdea1361Sscw		if ((m->m_flags & M_EXT) == 0) {
bdea1361Sscw			m_freem(m);
bdea1361Sscw			m = NULL;
bdea1361Sscw		}
bdea1361Sscw	}
bdea1361Sscw	return (m);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic int
bdea1361Sscwnpe_rxbuf_init(struct npe_softc *sc, struct npebuf *npe, struct mbuf *m)
bdea1361Sscw{
bdea1361Sscw	struct npehwbuf *hw;
bdea1361Sscw	int error;
bdea1361Sscw
bdea1361Sscw	if (m == NULL) {
bdea1361Sscw		m = npe_getcl();
bdea1361Sscw		if (m == NULL)
bdea1361Sscw			return ENOBUFS;
bdea1361Sscw	}
3589a8fdSmsaitoh	KASSERT(m->m_ext.ext_size >= (NPE_FRAME_SIZE_DEFAULT + ETHER_ALIGN));
3589a8fdSmsaitoh	m->m_pkthdr.len = m->m_len = NPE_FRAME_SIZE_DEFAULT;
bdea1361Sscw	/* backload payload and align ip hdr */
3589a8fdSmsaitoh	m->m_data = m->m_ext.ext_buf + (m->m_ext.ext_size
3589a8fdSmsaitoh	    - (NPE_FRAME_SIZE_DEFAULT + ETHER_ALIGN));
bdea1361Sscw	error = bus_dmamap_load_mbuf(sc->sc_dt, npe->ix_map, m,
bdea1361Sscw	    BUS_DMA_READ|BUS_DMA_NOWAIT);
bdea1361Sscw	if (error != 0) {
bdea1361Sscw		m_freem(m);
bdea1361Sscw		return error;
bdea1361Sscw	}
bdea1361Sscw	hw = npe->ix_hw;
bdea1361Sscw	hw->ix_ne[0].data = htobe32(npe->ix_map->dm_segs[0].ds_addr);
bdea1361Sscw	/* NB: NPE requires length be a multiple of 64 */
bdea1361Sscw	/* NB: buffer length is shifted in word */
bdea1361Sscw	hw->ix_ne[0].len = htobe32(npe->ix_map->dm_segs[0].ds_len << 16);
bdea1361Sscw	hw->ix_ne[0].next = 0;
bdea1361Sscw	npe->ix_m = m;
bdea1361Sscw	/* Flush the memory in the mbuf */
bdea1361Sscw	bus_dmamap_sync(sc->sc_dt, npe->ix_map, 0, npe->ix_map->dm_mapsize,
bdea1361Sscw	    BUS_DMASYNC_PREREAD);
bdea1361Sscw	return 0;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * RX q processing for a specific NPE.  Claim entries
bdea1361Sscw * from the hardware queue and pass the frames up the
bdea1361Sscw * stack. Pass the rx buffers to the free list.
bdea1361Sscw */
bdea1361Sscwstatic void
bdea1361Sscwnpe_rxdone(int qid, void *arg)
bdea1361Sscw{
bdea1361Sscw#define	P2V(a, dma) \
bdea1361Sscw	&(dma)->buf[((a) - (dma)->buf_phys) / sizeof(struct npehwbuf)]
bdea1361Sscw	struct npe_softc *sc = arg;
bdea1361Sscw	struct npedma *dma = &sc->rxdma;
bdea1361Sscw	uint32_t entry;
bdea1361Sscw
bdea1361Sscw	while (ixpqmgr_qread(qid, &entry) == 0) {
bdea1361Sscw		struct npebuf *npe = P2V(NPE_QM_Q_ADDR(entry), dma);
bdea1361Sscw		struct mbuf *m;
bdea1361Sscw
bdea1361Sscw		DPRINTF(sc, "%s: entry 0x%x neaddr 0x%x ne_len 0x%x\n",
bdea1361Sscw		    __func__, entry, npe->ix_neaddr, npe->ix_hw->ix_ne[0].len);
507aaf9eSmsaitoh		rnd_add_uint32(&sc->rnd_source, entry);
bdea1361Sscw		/*
bdea1361Sscw		 * Allocate a new mbuf to replenish the rx buffer.
bdea1361Sscw		 * If doing so fails we drop the rx'd frame so we
bdea1361Sscw		 * can reuse the previous mbuf.  When we're able to
bdea1361Sscw		 * allocate a new mbuf dispatch the mbuf w/ rx'd
bdea1361Sscw		 * data up the stack and replace it with the newly
bdea1361Sscw		 * allocated one.
bdea1361Sscw		 */
bdea1361Sscw		m = npe_getcl();
bdea1361Sscw		if (m != NULL) {
bdea1361Sscw			struct mbuf *mrx = npe->ix_m;
bdea1361Sscw			struct npehwbuf *hw = npe->ix_hw;
bdea1361Sscw			struct ifnet *ifp = &sc->sc_ethercom.ec_if;
bdea1361Sscw
bdea1361Sscw			/* Flush mbuf memory for rx'd data */
bdea1361Sscw			bus_dmamap_sync(sc->sc_dt, npe->ix_map, 0,
bdea1361Sscw			    npe->ix_map->dm_mapsize, BUS_DMASYNC_POSTREAD);
bdea1361Sscw
bdea1361Sscw			/* XXX flush hw buffer; works now 'cuz coherent */
bdea1361Sscw			/* set m_len etc. per rx frame size */
bdea1361Sscw			mrx->m_len = be32toh(hw->ix_ne[0].len) & 0xffff;
bdea1361Sscw			mrx->m_pkthdr.len = mrx->m_len;
758ba73eSozaki-r			m_set_rcvif(mrx, ifp);
3589a8fdSmsaitoh			/* Don't add M_HASFCS. See below */
3589a8fdSmsaitoh
3589a8fdSmsaitoh#if 1
3589a8fdSmsaitoh			if (mrx->m_pkthdr.len < sizeof(struct ether_header)) {
3589a8fdSmsaitoh				log(LOG_INFO, "%s: too short frame (len=%d)\n",
e20bd029Smatt				    device_xname(sc->sc_dev), mrx->m_pkthdr.len);
3589a8fdSmsaitoh				/* Back out "newly allocated" mbuf. */
3589a8fdSmsaitoh				m_freem(m);
3589a8fdSmsaitoh				ifp->if_ierrors++;
3589a8fdSmsaitoh				goto fail;
3589a8fdSmsaitoh			}
3589a8fdSmsaitoh			if ((ifp->if_flags & IFF_PROMISC) == 0) {
3589a8fdSmsaitoh				struct ether_header *eh;
3589a8fdSmsaitoh
3589a8fdSmsaitoh				/*
3589a8fdSmsaitoh				 * Workaround for "Non-Intel XScale Technology
3589a8fdSmsaitoh				 * Eratta" No. 29. AA:BB:CC:DD:EE:xF's packet
3589a8fdSmsaitoh				 * matches the filter (both unicast and
3589a8fdSmsaitoh				 * multicast).
3589a8fdSmsaitoh				 */
3589a8fdSmsaitoh				eh = mtod(mrx, struct ether_header *);
3589a8fdSmsaitoh				if (ETHER_IS_MULTICAST(eh->ether_dhost) == 0) {
3589a8fdSmsaitoh					/* unicast */
3589a8fdSmsaitoh
3589a8fdSmsaitoh					if (sc->sc_enaddr[5] != eh->ether_dhost[5]) {
3589a8fdSmsaitoh						/* discard it */
3589a8fdSmsaitoh#if 0
3589a8fdSmsaitoh						printf("discard it\n");
3589a8fdSmsaitoh#endif
3589a8fdSmsaitoh						/*
3589a8fdSmsaitoh						 * Back out "newly allocated"
3589a8fdSmsaitoh						 * mbuf.
3589a8fdSmsaitoh						 */
3589a8fdSmsaitoh						m_freem(m);
3589a8fdSmsaitoh						goto fail;
3589a8fdSmsaitoh					}
3589a8fdSmsaitoh				} else if (memcmp(eh->ether_dhost,
3589a8fdSmsaitoh					etherbroadcastaddr, 6) == 0) {
3589a8fdSmsaitoh					/* Always accept broadcast packet*/
3589a8fdSmsaitoh				} else {
3589a8fdSmsaitoh					struct ethercom *ec = &sc->sc_ethercom;
3589a8fdSmsaitoh					struct ether_multi *enm;
3589a8fdSmsaitoh					struct ether_multistep step;
3589a8fdSmsaitoh					int match = 0;
3589a8fdSmsaitoh
3589a8fdSmsaitoh					/* multicast */
3589a8fdSmsaitoh
3589a8fdSmsaitoh					ETHER_FIRST_MULTI(step, ec, enm);
3589a8fdSmsaitoh					while (enm != NULL) {
3589a8fdSmsaitoh						uint64_t lowint, highint, dest;
3589a8fdSmsaitoh
3589a8fdSmsaitoh						lowint = MAC2UINT64(enm->enm_addrlo);
3589a8fdSmsaitoh						highint = MAC2UINT64(enm->enm_addrhi);
3589a8fdSmsaitoh						dest = MAC2UINT64(eh->ether_dhost);
3589a8fdSmsaitoh#if 0
3589a8fdSmsaitoh						printf("%llx\n", lowint);
3589a8fdSmsaitoh						printf("%llx\n", dest);
3589a8fdSmsaitoh						printf("%llx\n", highint);
3589a8fdSmsaitoh#endif
3589a8fdSmsaitoh						if ((lowint <= dest) && (dest <= highint)) {
3589a8fdSmsaitoh							match = 1;
3589a8fdSmsaitoh							break;
3589a8fdSmsaitoh						}
3589a8fdSmsaitoh						ETHER_NEXT_MULTI(step, enm);
3589a8fdSmsaitoh					}
3589a8fdSmsaitoh					if (match == 0) {
3589a8fdSmsaitoh						/* discard it */
3589a8fdSmsaitoh#if 0
3589a8fdSmsaitoh						printf("discard it(M)\n");
3589a8fdSmsaitoh#endif
3589a8fdSmsaitoh						/*
3589a8fdSmsaitoh						 * Back out "newly allocated"
3589a8fdSmsaitoh						 * mbuf.
3589a8fdSmsaitoh						 */
3589a8fdSmsaitoh						m_freem(m);
3589a8fdSmsaitoh						goto fail;
3589a8fdSmsaitoh					}
3589a8fdSmsaitoh				}
3589a8fdSmsaitoh			}
3589a8fdSmsaitoh			if (mrx->m_pkthdr.len > NPE_FRAME_SIZE_DEFAULT) {
3589a8fdSmsaitoh				log(LOG_INFO, "%s: oversized frame (len=%d)\n",
e20bd029Smatt				    device_xname(sc->sc_dev), mrx->m_pkthdr.len);
3589a8fdSmsaitoh				/* Back out "newly allocated" mbuf. */
3589a8fdSmsaitoh				m_freem(m);
3589a8fdSmsaitoh				ifp->if_ierrors++;
3589a8fdSmsaitoh				goto fail;
3589a8fdSmsaitoh			}
3589a8fdSmsaitoh#endif
3589a8fdSmsaitoh
3589a8fdSmsaitoh			/*
3589a8fdSmsaitoh			 * Trim FCS!
3589a8fdSmsaitoh			 * NPE always adds the FCS by this driver's setting,
3589a8fdSmsaitoh			 * so we always trim it here and not add M_HASFCS.
3589a8fdSmsaitoh			 */
3589a8fdSmsaitoh			m_adj(mrx, -ETHER_CRC_LEN);
bdea1361Sscw
8586a845Smsaitoh			/*
8586a845Smsaitoh			 * Tap off here if there is a bpf listener.
8586a845Smsaitoh			 */
5a3149d8Sozaki-r
b8256fd8Sozaki-r			if_percpuq_enqueue(ifp->if_percpuq, mrx);
bdea1361Sscw		} else {
3589a8fdSmsaitohfail:
bdea1361Sscw			/* discard frame and re-use mbuf */
bdea1361Sscw			m = npe->ix_m;
bdea1361Sscw		}
bdea1361Sscw		if (npe_rxbuf_init(sc, npe, m) == 0) {
bdea1361Sscw			/* return npe buf to rx free list */
bdea1361Sscw			ixpqmgr_qwrite(sc->rx_freeqid, npe->ix_neaddr);
bdea1361Sscw		} else {
bdea1361Sscw			/* XXX should not happen */
bdea1361Sscw		}
bdea1361Sscw	}
bdea1361Sscw#undef P2V
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
bdea1361Sscwnpe_startxmit(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	struct npedma *dma = &sc->txdma;
bdea1361Sscw	int i;
bdea1361Sscw
bdea1361Sscw	sc->tx_free = NULL;
bdea1361Sscw	for (i = 0; i < dma->nbuf; i++) {
bdea1361Sscw		struct npebuf *npe = &dma->buf[i];
bdea1361Sscw		if (npe->ix_m != NULL) {
bdea1361Sscw			/* NB: should not happen */
bdea1361Sscw			printf("%s: %s: free mbuf at entry %u\n",
e20bd029Smatt			    device_xname(sc->sc_dev), __func__, i);
bdea1361Sscw			m_freem(npe->ix_m);
bdea1361Sscw		}
bdea1361Sscw		npe->ix_m = NULL;
bdea1361Sscw		npe->ix_next = sc->tx_free;
bdea1361Sscw		sc->tx_free = npe;
bdea1361Sscw	}
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
bdea1361Sscwnpe_startrecv(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	struct npedma *dma = &sc->rxdma;
bdea1361Sscw	struct npebuf *npe;
bdea1361Sscw	int i;
bdea1361Sscw
bdea1361Sscw	for (i = 0; i < dma->nbuf; i++) {
bdea1361Sscw		npe = &dma->buf[i];
bdea1361Sscw		npe_rxbuf_init(sc, npe, npe->ix_m);
bdea1361Sscw		/* set npe buf on rx free list */
bdea1361Sscw		ixpqmgr_qwrite(sc->rx_freeqid, npe->ix_neaddr);
bdea1361Sscw	}
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
816cf5b8Smsaitohnpeinit_macreg(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw
bdea1361Sscw	/*
bdea1361Sscw	 * Reset MAC core.
bdea1361Sscw	 */
bdea1361Sscw	WR4(sc, NPE_MAC_CORE_CNTRL, NPE_CORE_RESET);
bdea1361Sscw	DELAY(NPE_MAC_RESET_DELAY);
bdea1361Sscw	/* configure MAC to generate MDC clock */
bdea1361Sscw	WR4(sc, NPE_MAC_CORE_CNTRL, NPE_CORE_MDC_EN);
bdea1361Sscw
bdea1361Sscw	/* disable transmitter and reciver in the MAC */
bdea1361Sscw 	WR4(sc, NPE_MAC_RX_CNTRL1,
bdea1361Sscw	    RD4(sc, NPE_MAC_RX_CNTRL1) &~ NPE_RX_CNTRL1_RX_EN);
bdea1361Sscw 	WR4(sc, NPE_MAC_TX_CNTRL1,
bdea1361Sscw	    RD4(sc, NPE_MAC_TX_CNTRL1) &~ NPE_TX_CNTRL1_TX_EN);
bdea1361Sscw
bdea1361Sscw	/*
bdea1361Sscw	 * Set the MAC core registers.
bdea1361Sscw	 */
bdea1361Sscw	WR4(sc, NPE_MAC_INT_CLK_THRESH, 0x1);	/* clock ratio: for ipx4xx */
bdea1361Sscw	WR4(sc, NPE_MAC_TX_CNTRL2,	0xf);	/* max retries */
bdea1361Sscw	WR4(sc, NPE_MAC_RANDOM_SEED,	0x8);	/* LFSR back-off seed */
bdea1361Sscw	/* thresholds determined by NPE firmware FS */
bdea1361Sscw	WR4(sc, NPE_MAC_THRESH_P_EMPTY,	0x12);
bdea1361Sscw	WR4(sc, NPE_MAC_THRESH_P_FULL,	0x30);
a69b43feSmsaitoh	WR4(sc, NPE_MAC_BUF_SIZE_TX, NPE_MAC_BUF_SIZE_TX_DEFAULT);
a69b43feSmsaitoh						/* tx fifo threshold (bytes) */
bdea1361Sscw	WR4(sc, NPE_MAC_TX_DEFER,	0x15);	/* for single deferral */
bdea1361Sscw	WR4(sc, NPE_MAC_RX_DEFER,	0x16);	/* deferral on inter-frame gap*/
bdea1361Sscw	WR4(sc, NPE_MAC_TX_TWO_DEFER_1,	0x8);	/* for 2-part deferral */
bdea1361Sscw	WR4(sc, NPE_MAC_TX_TWO_DEFER_2,	0x7);	/* for 2-part deferral */
a69b43feSmsaitoh	WR4(sc, NPE_MAC_SLOT_TIME, NPE_MAC_SLOT_TIME_MII_DEFAULT);
a69b43feSmsaitoh						/* assumes MII mode */
bdea1361Sscw	WR4(sc, NPE_MAC_TX_CNTRL1,
bdea1361Sscw		  NPE_TX_CNTRL1_RETRY		/* retry failed xmits */
bdea1361Sscw		| NPE_TX_CNTRL1_FCS_EN		/* append FCS */
bdea1361Sscw		| NPE_TX_CNTRL1_2DEFER		/* 2-part deferal */
bdea1361Sscw		| NPE_TX_CNTRL1_PAD_EN);	/* pad runt frames */
bdea1361Sscw	/* XXX pad strip? */
bdea1361Sscw	WR4(sc, NPE_MAC_RX_CNTRL1,
bdea1361Sscw		  NPE_RX_CNTRL1_CRC_EN		/* include CRC/FCS */
bdea1361Sscw		| NPE_RX_CNTRL1_PAUSE_EN);	/* ena pause frame handling */
bdea1361Sscw	WR4(sc, NPE_MAC_RX_CNTRL2, 0);
816cf5b8Smsaitoh}
bdea1361Sscw
227ae4c9Smsaitohstatic void
227ae4c9Smsaitohnpeinit_resetcb(void *xsc)
227ae4c9Smsaitoh{
227ae4c9Smsaitoh	struct npe_softc *sc = xsc;
227ae4c9Smsaitoh	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
227ae4c9Smsaitoh	uint32_t msg[2];
227ae4c9Smsaitoh
227ae4c9Smsaitoh	ifp->if_oerrors++;
227ae4c9Smsaitoh	npeinit_locked(sc);
227ae4c9Smsaitoh
227ae4c9Smsaitoh	msg[0] = NPE_NOTIFYMACRECOVERYDONE << NPE_MAC_MSGID_SHL
227ae4c9Smsaitoh	    | (npeconfig[sc->sc_unit].macport << NPE_MAC_PORTID_SHL);
227ae4c9Smsaitoh	msg[1] = 0;
227ae4c9Smsaitoh	ixpnpe_sendandrecvmsg(sc->sc_npe, msg, msg);
227ae4c9Smsaitoh}
227ae4c9Smsaitoh
816cf5b8Smsaitoh/*
816cf5b8Smsaitoh * Reset and initialize the chip
816cf5b8Smsaitoh */
816cf5b8Smsaitohstatic void
816cf5b8Smsaitohnpeinit_locked(void *xsc)
816cf5b8Smsaitoh{
816cf5b8Smsaitoh	struct npe_softc *sc = xsc;
816cf5b8Smsaitoh	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
816cf5b8Smsaitoh
816cf5b8Smsaitoh	/* Cancel any pending I/O. */
816cf5b8Smsaitoh	npestop(ifp, 0);
816cf5b8Smsaitoh
816cf5b8Smsaitoh	/* Reset the chip to a known state. */
816cf5b8Smsaitoh	npeinit_macreg(sc);
6bc0c582Smatt	npe_setmac(sc, CLLADDR(ifp->if_sadl));
273cfb27Smsaitoh	ether_mediachange(ifp);
bdea1361Sscw	npe_setmcast(sc);
bdea1361Sscw
bdea1361Sscw	npe_startxmit(sc);
bdea1361Sscw	npe_startrecv(sc);
bdea1361Sscw
bdea1361Sscw	ifp->if_flags |= IFF_RUNNING;
bdea1361Sscw	ifp->if_flags &= ~IFF_OACTIVE;
bdea1361Sscw	ifp->if_timer = 0;		/* just in case */
bdea1361Sscw
bdea1361Sscw	/* enable transmitter and reciver in the MAC */
bdea1361Sscw 	WR4(sc, NPE_MAC_RX_CNTRL1,
bdea1361Sscw	    RD4(sc, NPE_MAC_RX_CNTRL1) | NPE_RX_CNTRL1_RX_EN);
bdea1361Sscw 	WR4(sc, NPE_MAC_TX_CNTRL1,
bdea1361Sscw	    RD4(sc, NPE_MAC_TX_CNTRL1) | NPE_TX_CNTRL1_TX_EN);
bdea1361Sscw
bdea1361Sscw	callout_reset(&sc->sc_tick_ch, hz, npe_tick, sc);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic int
bdea1361Sscwnpeinit(struct ifnet *ifp)
bdea1361Sscw{
bdea1361Sscw	struct npe_softc *sc = ifp->if_softc;
bdea1361Sscw	int s;
bdea1361Sscw
bdea1361Sscw	s = splnet();
bdea1361Sscw	npeinit_locked(sc);
bdea1361Sscw	splx(s);
bdea1361Sscw
bdea1361Sscw	return (0);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Defragment an mbuf chain, returning at most maxfrags separate
bdea1361Sscw * mbufs+clusters.  If this is not possible NULL is returned and
7d1220acSsnj * the original mbuf chain is left in its present (potentially
bdea1361Sscw * modified) state.  We use two techniques: collapsing consecutive
bdea1361Sscw * mbufs and replacing consecutive mbufs by a cluster.
bdea1361Sscw */
bdea1361Sscwstatic __inline struct mbuf *
bdea1361Sscwnpe_defrag(struct mbuf *m0)
bdea1361Sscw{
bdea1361Sscw	struct mbuf *m;
bdea1361Sscw
bdea1361Sscw	MGETHDR(m, M_DONTWAIT, MT_DATA);
bdea1361Sscw	if (m == NULL)
bdea1361Sscw		return (NULL);
*4f37cd5cSmaxv	m_copy_pkthdr(m, m0);
bdea1361Sscw
bdea1361Sscw	if ((m->m_len = m0->m_pkthdr.len) > MHLEN) {
bdea1361Sscw		MCLGET(m, M_DONTWAIT);
bdea1361Sscw		if ((m->m_flags & M_EXT) == 0) {
bdea1361Sscw			m_freem(m);
bdea1361Sscw			return (NULL);
bdea1361Sscw		}
bdea1361Sscw	}
bdea1361Sscw
53524e44Schristos	m_copydata(m0, 0, m0->m_pkthdr.len, mtod(m, void *));
bdea1361Sscw	m_freem(m0);
bdea1361Sscw
bdea1361Sscw	return (m);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Dequeue packets and place on the h/w transmit queue.
bdea1361Sscw */
bdea1361Sscwstatic void
bdea1361Sscwnpestart(struct ifnet *ifp)
bdea1361Sscw{
bdea1361Sscw	struct npe_softc *sc = ifp->if_softc;
bdea1361Sscw	struct npebuf *npe;
bdea1361Sscw	struct npehwbuf *hw;
bdea1361Sscw	struct mbuf *m, *n;
bdea1361Sscw	bus_dma_segment_t *segs;
bdea1361Sscw	int nseg, len, error, i;
bdea1361Sscw	uint32_t next;
bdea1361Sscw
816cf5b8Smsaitoh	if ((ifp->if_flags & (IFF_RUNNING|IFF_OACTIVE)) != IFF_RUNNING)
bdea1361Sscw		return;
bdea1361Sscw
bdea1361Sscw	while (sc->tx_free != NULL) {
bdea1361Sscw		IFQ_DEQUEUE(&ifp->if_snd, m);
816cf5b8Smsaitoh		if (m == NULL)
816cf5b8Smsaitoh			break;
bdea1361Sscw		npe = sc->tx_free;
bdea1361Sscw		error = bus_dmamap_load_mbuf(sc->sc_dt, npe->ix_map, m,
bdea1361Sscw		    BUS_DMA_WRITE|BUS_DMA_NOWAIT);
bdea1361Sscw		if (error == EFBIG) {
bdea1361Sscw			n = npe_defrag(m);
bdea1361Sscw			if (n == NULL) {
bdea1361Sscw				printf("%s: %s: too many fragments\n",
e20bd029Smatt				    device_xname(sc->sc_dev), __func__);
bdea1361Sscw				m_freem(m);
bdea1361Sscw				return;	/* XXX? */
bdea1361Sscw			}
bdea1361Sscw			m = n;
bdea1361Sscw			error = bus_dmamap_load_mbuf(sc->sc_dt, npe->ix_map,
bdea1361Sscw			    m, BUS_DMA_WRITE|BUS_DMA_NOWAIT);
bdea1361Sscw		}
bdea1361Sscw		if (error != 0) {
bdea1361Sscw			printf("%s: %s: error %u\n",
e20bd029Smatt			    device_xname(sc->sc_dev), __func__, error);
bdea1361Sscw			m_freem(m);
bdea1361Sscw			return;	/* XXX? */
bdea1361Sscw		}
bdea1361Sscw		sc->tx_free = npe->ix_next;
bdea1361Sscw
bdea1361Sscw		/*
bdea1361Sscw		 * Tap off here if there is a bpf listener.
bdea1361Sscw		 */
8517c9d1Smsaitoh		bpf_mtap(ifp, m, BPF_D_OUT);
bdea1361Sscw
bdea1361Sscw		bus_dmamap_sync(sc->sc_dt, npe->ix_map, 0,
bdea1361Sscw		    npe->ix_map->dm_mapsize, BUS_DMASYNC_PREWRITE);
bdea1361Sscw
bdea1361Sscw		npe->ix_m = m;
bdea1361Sscw		hw = npe->ix_hw;
bdea1361Sscw		len = m->m_pkthdr.len;
bdea1361Sscw		nseg = npe->ix_map->dm_nsegs;
bdea1361Sscw		segs = npe->ix_map->dm_segs;
bdea1361Sscw		next = npe->ix_neaddr + sizeof(hw->ix_ne[0]);
bdea1361Sscw		for (i = 0; i < nseg; i++) {
bdea1361Sscw			hw->ix_ne[i].data = htobe32(segs[i].ds_addr);
bdea1361Sscw			hw->ix_ne[i].len = htobe32((segs[i].ds_len<<16) | len);
bdea1361Sscw			hw->ix_ne[i].next = htobe32(next);
bdea1361Sscw
bdea1361Sscw			len = 0;		/* zero for segments > 1 */
bdea1361Sscw			next += sizeof(hw->ix_ne[0]);
bdea1361Sscw		}
bdea1361Sscw		hw->ix_ne[i-1].next = 0;	/* zero last in chain */
bdea1361Sscw		/* XXX flush descriptor instead of using uncached memory */
bdea1361Sscw
bdea1361Sscw		DPRINTF(sc, "%s: qwrite(%u, 0x%x) ne_data %x ne_len 0x%x\n",
bdea1361Sscw		    __func__, sc->tx_qid, npe->ix_neaddr,
bdea1361Sscw		    hw->ix_ne[0].data, hw->ix_ne[0].len);
bdea1361Sscw		/* stick it on the tx q */
bdea1361Sscw		/* XXX add vlan priority */
bdea1361Sscw		ixpqmgr_qwrite(sc->tx_qid, npe->ix_neaddr);
bdea1361Sscw
bdea1361Sscw		ifp->if_timer = 5;
bdea1361Sscw	}
bdea1361Sscw	if (sc->tx_free == NULL)
bdea1361Sscw		ifp->if_flags |= IFF_OACTIVE;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
bdea1361Sscwnpe_stopxmit(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	struct npedma *dma = &sc->txdma;
bdea1361Sscw	int i;
bdea1361Sscw
bdea1361Sscw	/* XXX qmgr */
bdea1361Sscw	for (i = 0; i < dma->nbuf; i++) {
bdea1361Sscw		struct npebuf *npe = &dma->buf[i];
bdea1361Sscw
bdea1361Sscw		if (npe->ix_m != NULL) {
bdea1361Sscw			bus_dmamap_unload(sc->sc_dt, npe->ix_map);
bdea1361Sscw			m_freem(npe->ix_m);
bdea1361Sscw			npe->ix_m = NULL;
bdea1361Sscw		}
bdea1361Sscw	}
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
bdea1361Sscwnpe_stoprecv(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	struct npedma *dma = &sc->rxdma;
bdea1361Sscw	int i;
bdea1361Sscw
bdea1361Sscw	/* XXX qmgr */
bdea1361Sscw	for (i = 0; i < dma->nbuf; i++) {
bdea1361Sscw		struct npebuf *npe = &dma->buf[i];
bdea1361Sscw
bdea1361Sscw		if (npe->ix_m != NULL) {
bdea1361Sscw			bus_dmamap_unload(sc->sc_dt, npe->ix_map);
bdea1361Sscw			m_freem(npe->ix_m);
bdea1361Sscw			npe->ix_m = NULL;
bdea1361Sscw		}
bdea1361Sscw	}
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Turn off interrupts, and stop the nic.
bdea1361Sscw */
bdea1361Sscwvoid
bdea1361Sscwnpestop(struct ifnet *ifp, int disable)
bdea1361Sscw{
bdea1361Sscw	struct npe_softc *sc = ifp->if_softc;
bdea1361Sscw
bdea1361Sscw	/*  disable transmitter and reciver in the MAC  */
bdea1361Sscw 	WR4(sc, NPE_MAC_RX_CNTRL1,
bdea1361Sscw	    RD4(sc, NPE_MAC_RX_CNTRL1) &~ NPE_RX_CNTRL1_RX_EN);
bdea1361Sscw 	WR4(sc, NPE_MAC_TX_CNTRL1,
bdea1361Sscw	    RD4(sc, NPE_MAC_TX_CNTRL1) &~ NPE_TX_CNTRL1_TX_EN);
bdea1361Sscw
bdea1361Sscw	callout_stop(&sc->sc_tick_ch);
bdea1361Sscw
bdea1361Sscw	npe_stopxmit(sc);
bdea1361Sscw	npe_stoprecv(sc);
bdea1361Sscw	/* XXX go into loopback & drain q's? */
bdea1361Sscw	/* XXX but beware of disabling tx above */
bdea1361Sscw
bdea1361Sscw	/*
bdea1361Sscw	 * The MAC core rx/tx disable may leave the MAC hardware in an
bdea1361Sscw	 * unpredictable state. A hw reset is executed before resetting
bdea1361Sscw	 * all the MAC parameters to a known value.
bdea1361Sscw	 */
bdea1361Sscw	WR4(sc, NPE_MAC_CORE_CNTRL, NPE_CORE_RESET);
bdea1361Sscw	DELAY(NPE_MAC_RESET_DELAY);
bdea1361Sscw	WR4(sc, NPE_MAC_INT_CLK_THRESH, NPE_MAC_INT_CLK_THRESH_DEFAULT);
bdea1361Sscw	WR4(sc, NPE_MAC_CORE_CNTRL, NPE_CORE_MDC_EN);
816cf5b8Smsaitoh
816cf5b8Smsaitoh	ifp->if_timer = 0;
816cf5b8Smsaitoh	ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwvoid
bdea1361Sscwnpewatchdog(struct ifnet *ifp)
bdea1361Sscw{
bdea1361Sscw	struct npe_softc *sc = ifp->if_softc;
bdea1361Sscw	int s;
bdea1361Sscw
e20bd029Smatt	aprint_error_dev(sc->sc_dev, "device timeout\n");
bdea1361Sscw	s = splnet();
bdea1361Sscw	ifp->if_oerrors++;
bdea1361Sscw	npeinit_locked(sc);
bdea1361Sscw	splx(s);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic int
53524e44Schristosnpeioctl(struct ifnet *ifp, u_long cmd, void *data)
bdea1361Sscw{
bdea1361Sscw	struct npe_softc *sc = ifp->if_softc;
816cf5b8Smsaitoh	struct ifreq *ifr = (struct ifreq *) data;
bdea1361Sscw	int s, error = 0;
bdea1361Sscw
bdea1361Sscw	s = splnet();
bdea1361Sscw
816cf5b8Smsaitoh	switch (cmd) {
816cf5b8Smsaitoh	case SIOCSIFMEDIA:
816cf5b8Smsaitoh	case SIOCGIFMEDIA:
816cf5b8Smsaitoh#if 0 /* not yet */
816cf5b8Smsaitoh		/* Flow control requires full-duplex mode. */
816cf5b8Smsaitoh		if (IFM_SUBTYPE(ifr->ifr_media) == IFM_AUTO ||
816cf5b8Smsaitoh		    (ifr->ifr_media & IFM_FDX) == 0)
816cf5b8Smsaitoh			ifr->ifr_media &= ~IFM_ETH_FMASK;
816cf5b8Smsaitoh		if (IFM_SUBTYPE(ifr->ifr_media) != IFM_AUTO) {
816cf5b8Smsaitoh			if ((ifr->ifr_media & IFM_ETH_FMASK) == IFM_FLOW) {
816cf5b8Smsaitoh				/* We can do both TXPAUSE and RXPAUSE. */
816cf5b8Smsaitoh				ifr->ifr_media |=
816cf5b8Smsaitoh				    IFM_ETH_TXPAUSE | IFM_ETH_RXPAUSE;
816cf5b8Smsaitoh			}
816cf5b8Smsaitoh			sc->sc_flowflags = ifr->ifr_media & IFM_ETH_FMASK;
816cf5b8Smsaitoh		}
816cf5b8Smsaitoh#endif
816cf5b8Smsaitoh		error = ifmedia_ioctl(ifp, ifr, &sc->sc_mii.mii_media, cmd);
816cf5b8Smsaitoh		break;
816cf5b8Smsaitoh	case SIOCSIFFLAGS:
816cf5b8Smsaitoh		if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) == IFF_RUNNING) {
816cf5b8Smsaitoh			/*
816cf5b8Smsaitoh			 * If interface is marked down and it is running,
816cf5b8Smsaitoh			 * then stop and disable it.
816cf5b8Smsaitoh			 */
816cf5b8Smsaitoh			(*ifp->if_stop)(ifp, 1);
816cf5b8Smsaitoh		} else if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) == IFF_UP) {
816cf5b8Smsaitoh			/*
816cf5b8Smsaitoh			 * If interface is marked up and it is stopped, then
816cf5b8Smsaitoh			 * start it.
816cf5b8Smsaitoh			 */
816cf5b8Smsaitoh			error = (*ifp->if_init)(ifp);
816cf5b8Smsaitoh		} else if ((ifp->if_flags & IFF_UP) != 0) {
816cf5b8Smsaitoh			int diff;
816cf5b8Smsaitoh
816cf5b8Smsaitoh			/* Up (AND RUNNING). */
816cf5b8Smsaitoh
816cf5b8Smsaitoh			diff = (ifp->if_flags ^ sc->sc_if_flags)
816cf5b8Smsaitoh			    & (IFF_PROMISC|IFF_ALLMULTI);
816cf5b8Smsaitoh			if ((diff & (IFF_PROMISC|IFF_ALLMULTI)) != 0) {
816cf5b8Smsaitoh				/*
816cf5b8Smsaitoh				 * If the difference bettween last flag and
816cf5b8Smsaitoh				 * new flag only IFF_PROMISC or IFF_ALLMULTI,
816cf5b8Smsaitoh				 * set multicast filter only (don't reset to
816cf5b8Smsaitoh				 * prevent link down).
816cf5b8Smsaitoh				 */
816cf5b8Smsaitoh				npe_setmcast(sc);
816cf5b8Smsaitoh			} else {
816cf5b8Smsaitoh				/*
816cf5b8Smsaitoh				 * Reset the interface to pick up changes in
816cf5b8Smsaitoh				 * any other flags that affect the hardware
816cf5b8Smsaitoh				 * state.
816cf5b8Smsaitoh				 */
816cf5b8Smsaitoh				error = (*ifp->if_init)(ifp);
816cf5b8Smsaitoh			}
816cf5b8Smsaitoh		}
816cf5b8Smsaitoh		sc->sc_if_flags = ifp->if_flags;
816cf5b8Smsaitoh		break;
816cf5b8Smsaitoh	default:
bdea1361Sscw		error = ether_ioctl(ifp, cmd, data);
bdea1361Sscw		if (error == ENETRESET) {
816cf5b8Smsaitoh			/*
816cf5b8Smsaitoh			 * Multicast list has changed; set the hardware filter
816cf5b8Smsaitoh			 * accordingly.
816cf5b8Smsaitoh			 */
816cf5b8Smsaitoh			npe_setmcast(sc);
bdea1361Sscw			error = 0;
bdea1361Sscw		}
816cf5b8Smsaitoh	}
bdea1361Sscw
bdea1361Sscw	npestart(ifp);
bdea1361Sscw
bdea1361Sscw	splx(s);
bdea1361Sscw	return error;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Setup a traffic class -> rx queue mapping.
bdea1361Sscw */
bdea1361Sscwstatic int
bdea1361Sscwnpe_setrxqosentry(struct npe_softc *sc, int classix, int trafclass, int qid)
bdea1361Sscw{
bdea1361Sscw	int npeid = npeconfig[sc->sc_unit].npeid;
bdea1361Sscw	uint32_t msg[2];
bdea1361Sscw
273cfb27Smsaitoh	msg[0] = (NPE_SETRXQOSENTRY << NPE_MAC_MSGID_SHL) | (npeid << 20)
273cfb27Smsaitoh	    | classix;
bdea1361Sscw	msg[1] = (trafclass << 24) | (1 << 23) | (qid << 16) | (qid << 4);
bdea1361Sscw	return ixpnpe_sendandrecvmsg(sc->sc_npe, msg, msg);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Update and reset the statistics in the NPE.
bdea1361Sscw */
bdea1361Sscwstatic int
bdea1361Sscwnpe_updatestats(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	uint32_t msg[2];
bdea1361Sscw
bdea1361Sscw	msg[0] = NPE_RESETSTATS << NPE_MAC_MSGID_SHL;
bdea1361Sscw	msg[1] = sc->sc_stats_phys;	/* physical address of stat block */
bdea1361Sscw	return ixpnpe_sendmsg(sc->sc_npe, msg);		/* NB: no recv */
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw#if 0
bdea1361Sscw/*
bdea1361Sscw * Get the current statistics block.
bdea1361Sscw */
bdea1361Sscwstatic int
bdea1361Sscwnpe_getstats(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	uint32_t msg[2];
bdea1361Sscw
bdea1361Sscw	msg[0] = NPE_GETSTATS << NPE_MAC_MSGID_SHL;
bdea1361Sscw	msg[1] = sc->sc_stats_phys;	/* physical address of stat block */
bdea1361Sscw	return ixpnpe_sendandrecvmsg(sc->sc_npe, msg, msg);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Query the image id of the loaded firmware.
bdea1361Sscw */
bdea1361Sscwstatic uint32_t
bdea1361Sscwnpe_getimageid(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw	uint32_t msg[2];
bdea1361Sscw
bdea1361Sscw	msg[0] = NPE_GETSTATUS << NPE_MAC_MSGID_SHL;
bdea1361Sscw	msg[1] = 0;
bdea1361Sscw	return ixpnpe_sendandrecvmsg(sc->sc_npe, msg, msg) == 0 ? msg[1] : 0;
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * Enable/disable loopback.
bdea1361Sscw */
bdea1361Sscwstatic int
bdea1361Sscwnpe_setloopback(struct npe_softc *sc, int ena)
bdea1361Sscw{
bdea1361Sscw	uint32_t msg[2];
bdea1361Sscw
bdea1361Sscw	msg[0] = (NPE_SETLOOPBACK << NPE_MAC_MSGID_SHL) | (ena != 0);
bdea1361Sscw	msg[1] = 0;
bdea1361Sscw	return ixpnpe_sendandrecvmsg(sc->sc_npe, msg, msg);
bdea1361Sscw}
bdea1361Sscw#endif
bdea1361Sscw
bdea1361Sscw/*
bdea1361Sscw * MII bus support routines.
bdea1361Sscw *
bdea1361Sscw * NB: ixp425 has one PHY per NPE
bdea1361Sscw */
bdea1361Sscwstatic uint32_t
bdea1361Sscwnpe_mii_mdio_read(struct npe_softc *sc, int reg)
bdea1361Sscw{
bdea1361Sscw#define	MII_RD4(sc, reg)	bus_space_read_4(sc->sc_iot, sc->sc_miih, reg)
bdea1361Sscw	uint32_t v;
bdea1361Sscw
bdea1361Sscw	/* NB: registers are known to be sequential */
bdea1361Sscw	v =  (MII_RD4(sc, reg+0) & 0xff) << 0;
bdea1361Sscw	v |= (MII_RD4(sc, reg+4) & 0xff) << 8;
bdea1361Sscw	v |= (MII_RD4(sc, reg+8) & 0xff) << 16;
bdea1361Sscw	v |= (MII_RD4(sc, reg+12) & 0xff) << 24;
bdea1361Sscw	return v;
bdea1361Sscw#undef MII_RD4
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
bdea1361Sscwnpe_mii_mdio_write(struct npe_softc *sc, int reg, uint32_t cmd)
bdea1361Sscw{
bdea1361Sscw#define	MII_WR4(sc, reg, v) \
bdea1361Sscw	bus_space_write_4(sc->sc_iot, sc->sc_miih, reg, v)
bdea1361Sscw
bdea1361Sscw	/* NB: registers are known to be sequential */
bdea1361Sscw	MII_WR4(sc, reg+0, cmd & 0xff);
bdea1361Sscw	MII_WR4(sc, reg+4, (cmd >> 8) & 0xff);
bdea1361Sscw	MII_WR4(sc, reg+8, (cmd >> 16) & 0xff);
bdea1361Sscw	MII_WR4(sc, reg+12, (cmd >> 24) & 0xff);
bdea1361Sscw#undef MII_WR4
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic int
bdea1361Sscwnpe_mii_mdio_wait(struct npe_softc *sc)
bdea1361Sscw{
bdea1361Sscw#define	MAXTRIES	100	/* XXX */
bdea1361Sscw	uint32_t v;
bdea1361Sscw	int i;
bdea1361Sscw
bdea1361Sscw	for (i = 0; i < MAXTRIES; i++) {
bdea1361Sscw		v = npe_mii_mdio_read(sc, NPE_MAC_MDIO_CMD);
bdea1361Sscw		if ((v & NPE_MII_GO) == 0)
bdea1361Sscw			return 1;
bdea1361Sscw	}
bdea1361Sscw	return 0;		/* NB: timeout */
bdea1361Sscw#undef MAXTRIES
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic int
e20bd029Smattnpe_miibus_readreg(device_t self, int phy, int reg)
bdea1361Sscw{
e20bd029Smatt	struct npe_softc *sc = device_private(self);
bdea1361Sscw	uint32_t v;
bdea1361Sscw
bdea1361Sscw	if (sc->sc_phy > IXPNPECF_PHY_DEFAULT && phy != sc->sc_phy)
bdea1361Sscw		return 0xffff;
bdea1361Sscw	v = (phy << NPE_MII_ADDR_SHL) | (reg << NPE_MII_REG_SHL)
bdea1361Sscw	  | NPE_MII_GO;
bdea1361Sscw	npe_mii_mdio_write(sc, NPE_MAC_MDIO_CMD, v);
92bdf645Sscw	if (npe_mii_mdio_wait(sc))
bdea1361Sscw		v = npe_mii_mdio_read(sc, NPE_MAC_MDIO_STS);
bdea1361Sscw	else
bdea1361Sscw		v = 0xffff | NPE_MII_READ_FAIL;
bdea1361Sscw	return (v & NPE_MII_READ_FAIL) ? 0xffff : (v & 0xffff);
bdea1361Sscw#undef MAXTRIES
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
e20bd029Smattnpe_miibus_writereg(device_t self, int phy, int reg, int data)
bdea1361Sscw{
e20bd029Smatt	struct npe_softc *sc = device_private(self);
bdea1361Sscw	uint32_t v;
bdea1361Sscw
bdea1361Sscw	if (sc->sc_phy > IXPNPECF_PHY_DEFAULT && phy != sc->sc_phy)
bdea1361Sscw		return;
bdea1361Sscw	v = (phy << NPE_MII_ADDR_SHL) | (reg << NPE_MII_REG_SHL)
bdea1361Sscw	  | data | NPE_MII_WRITE
bdea1361Sscw	  | NPE_MII_GO;
bdea1361Sscw	npe_mii_mdio_write(sc, NPE_MAC_MDIO_CMD, v);
bdea1361Sscw	/* XXX complain about timeout */
bdea1361Sscw	(void) npe_mii_mdio_wait(sc);
bdea1361Sscw}
bdea1361Sscw
bdea1361Sscwstatic void
e20bd029Smattnpe_miibus_statchg(struct ifnet *ifp)
bdea1361Sscw{
e20bd029Smatt	struct npe_softc *sc = ifp->if_softc;
bdea1361Sscw	uint32_t tx1, rx1;
227ae4c9Smsaitoh	uint32_t randoff;
bdea1361Sscw
bdea1361Sscw	/* sync MAC duplex state */
bdea1361Sscw	tx1 = RD4(sc, NPE_MAC_TX_CNTRL1);
bdea1361Sscw	rx1 = RD4(sc, NPE_MAC_RX_CNTRL1);
bdea1361Sscw	if (sc->sc_mii.mii_media_active & IFM_FDX) {
227ae4c9Smsaitoh		WR4(sc, NPE_MAC_SLOT_TIME, NPE_MAC_SLOT_TIME_MII_DEFAULT);
bdea1361Sscw		tx1 &= ~NPE_TX_CNTRL1_DUPLEX;
bdea1361Sscw		rx1 |= NPE_RX_CNTRL1_PAUSE_EN;
bdea1361Sscw	} else {
227ae4c9Smsaitoh		struct timeval now;
227ae4c9Smsaitoh		getmicrotime(&now);
227ae4c9Smsaitoh		randoff = (RD4(sc, NPE_MAC_UNI_ADDR_6) ^ now.tv_usec)
227ae4c9Smsaitoh		    & 0x7f;
227ae4c9Smsaitoh		WR4(sc, NPE_MAC_SLOT_TIME, NPE_MAC_SLOT_TIME_MII_DEFAULT
227ae4c9Smsaitoh		    + randoff);
bdea1361Sscw		tx1 |= NPE_TX_CNTRL1_DUPLEX;
bdea1361Sscw		rx1 &= ~NPE_RX_CNTRL1_PAUSE_EN;
bdea1361Sscw	}
bdea1361Sscw	WR4(sc, NPE_MAC_RX_CNTRL1, rx1);
bdea1361Sscw	WR4(sc, NPE_MAC_TX_CNTRL1, tx1);
bdea1361Sscw}