dev/ic/i82596.c

1.11.4.1   rpaulo /* $NetBSD: i82596.c,v 1.11.4.1 2006/09/09 02:50:02 rpaulo Exp $ */
     1.1    jkunz
     1.1    jkunz /*
     1.1    jkunz  * Copyright (c) 2003 Jochen Kunz.
     1.1    jkunz  * All rights reserved.
     1.1    jkunz  *
     1.1    jkunz  * Redistribution and use in source and binary forms, with or without
     1.1    jkunz  * modification, are permitted provided that the following conditions
     1.1    jkunz  * are met:
     1.1    jkunz  * 1. Redistributions of source code must retain the above copyright
     1.1    jkunz  *    notice, this list of conditions and the following disclaimer.
     1.1    jkunz  * 2. Redistributions in binary form must reproduce the above copyright
     1.1    jkunz  *    notice, this list of conditions and the following disclaimer in the
     1.1    jkunz  *    documentation and/or other materials provided with the distribution.
     1.1    jkunz  * 3. The name of Jochen Kunz may not be used to endorse or promote
     1.1    jkunz  *    products derived from this software without specific prior
     1.1    jkunz  *    written permission.
     1.1    jkunz  *
     1.1    jkunz  * THIS SOFTWARE IS PROVIDED BY JOCHEN KUNZ
     1.1    jkunz  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     1.1    jkunz  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     1.1    jkunz  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL JOCHEN KUNZ
     1.1    jkunz  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     1.1    jkunz  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     1.1    jkunz  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     1.1    jkunz  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     1.1    jkunz  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     1.1    jkunz  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     1.1    jkunz  * POSSIBILITY OF SUCH DAMAGE.
     1.1    jkunz  */
     1.1    jkunz
     1.1    jkunz /*
1.11.4.1   rpaulo  * Driver for the Intel i82596CA and i82596DX/SX 10MBit/s Ethernet chips.
1.11.4.1   rpaulo  *
     1.1    jkunz  * It operates the i82596 in 32-Bit Linear Mode, opposed to the old i82586
     1.8    perry  * ie(4) driver (src/sys/dev/ic/i82586.c), that degrades the i82596 to
     1.1    jkunz  * i82586 compatibility mode.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * Documentation about these chips can be found at
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  *	http://developer.intel.com/design/network/datashts/290218.htm
1.11.4.1   rpaulo  *	http://developer.intel.com/design/network/datashts/290219.htm
     1.1    jkunz  */
     1.1    jkunz
     1.1    jkunz #include <sys/cdefs.h>
1.11.4.1   rpaulo __KERNEL_RCSID(0, "$NetBSD: i82596.c,v 1.11.4.1 2006/09/09 02:50:02 rpaulo Exp $");
     1.1    jkunz
     1.1    jkunz /* autoconfig and device stuff */
     1.1    jkunz #include <sys/param.h>
     1.1    jkunz #include <sys/device.h>
     1.1    jkunz #include <sys/conf.h>
     1.1    jkunz #include "locators.h"
     1.1    jkunz #include "ioconf.h"
     1.1    jkunz
     1.1    jkunz /* bus_space / bus_dma etc. */
     1.1    jkunz #include <machine/bus.h>
     1.1    jkunz #include <machine/intr.h>
     1.1    jkunz
     1.1    jkunz /* general system data and functions */
     1.1    jkunz #include <sys/systm.h>
     1.1    jkunz #include <sys/ioctl.h>
     1.1    jkunz
     1.1    jkunz /* tsleep / sleep / wakeup */
     1.1    jkunz #include <sys/proc.h>
     1.1    jkunz /* hz for above */
     1.1    jkunz #include <sys/kernel.h>
     1.1    jkunz
     1.1    jkunz /* network stuff */
     1.1    jkunz #include <net/if.h>
     1.1    jkunz #include <net/if_dl.h>
     1.1    jkunz #include <net/if_media.h>
     1.1    jkunz #include <net/if_ether.h>
     1.1    jkunz #include <sys/socket.h>
     1.1    jkunz #include <sys/mbuf.h>
     1.1    jkunz
     1.1    jkunz #include "bpfilter.h"
     1.8    perry #if NBPFILTER > 0
     1.1    jkunz #include <net/bpf.h>
     1.8    perry #endif
     1.1    jkunz
     1.1    jkunz #include <dev/ic/i82596reg.h>
     1.1    jkunz #include <dev/ic/i82596var.h>
     1.1    jkunz
     1.1    jkunz /* Supported chip variants */
    1.10    skrll const char *i82596_typenames[] = { "unknown", "DX/SX", "CA" };
     1.1    jkunz
     1.1    jkunz /* media change and status callback */
     1.1    jkunz static int iee_mediachange(struct ifnet *);
     1.1    jkunz static void iee_mediastatus(struct ifnet *, struct ifmediareq *);
     1.1    jkunz
     1.1    jkunz /* interface routines to upper protocols */
     1.1    jkunz static void iee_start(struct ifnet *);			/* initiate output */
     1.1    jkunz static int iee_ioctl(struct ifnet *, u_long, caddr_t);	/* ioctl routine */
     1.1    jkunz static int iee_init(struct ifnet *);			/* init routine */
     1.1    jkunz static void iee_stop(struct ifnet *, int);		/* stop routine */
     1.1    jkunz static void iee_watchdog(struct ifnet *);		/* timer routine */
     1.1    jkunz static void iee_drain(struct ifnet *);			/* release resources */
     1.1    jkunz
     1.1    jkunz /* internal helper functions */
     1.7  tsutsui static void iee_cb_setup(struct iee_softc *, uint32_t);
     1.1    jkunz
     1.1    jkunz /*
1.11.4.1   rpaulo  * Things a MD frontend has to provide:
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * The functions via function pointers in the softc:
1.11.4.1   rpaulo  *	int (*sc_iee_cmd)(struct iee_softc *sc, uint32_t cmd);
1.11.4.1   rpaulo  *	int (*sc_iee_reset)(struct iee_softc *sc);
1.11.4.1   rpaulo  *	void (*sc_mediastatus)(struct ifnet *, struct ifmediareq *);
1.11.4.1   rpaulo  *	int (*sc_mediachange)(struct ifnet *);
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * sc_iee_cmd(): send a command to the i82596 by writing the cmd parameter
1.11.4.1   rpaulo  *	to the SCP cmd word and issuing a Channel Attention.
1.11.4.1   rpaulo  * sc_iee_reset(): initiate a reset, supply the address of the SCP to the
1.11.4.1   rpaulo  *	chip, wait for the chip to initialize and ACK interrupts that
1.11.4.1   rpaulo  *	this may have caused by calling (sc->sc_iee_cmd)(sc, IEE_SCB_ACK);
1.11.4.1   rpaulo  * This functions must carefully bus_dmamap_sync() all data they have touched!
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * sc_mediastatus() and sc_mediachange() are just MD hooks to the according
1.11.4.1   rpaulo  * MI functions. The MD frontend may set this pointers to NULL when they
1.11.4.1   rpaulo  * are not needed.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * sc->sc_type has to be set to I82596_UNKNOWN or I82596_DX or I82596_CA.
1.11.4.1   rpaulo  * This is for printing out the correct chip type at attach time only. The
1.11.4.1   rpaulo  * MI backend doesn't distinguish different chip types when programming
1.11.4.1   rpaulo  * the chip.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * sc->sc_flags has to be set to 0 on little endian hardware and to
1.11.4.1   rpaulo  * IEE_NEED_SWAP on big endian hardware, when endianess conversion is not
1.11.4.1   rpaulo  * done by the bus attachment. Usually you need to set IEE_NEED_SWAP
1.11.4.1   rpaulo  * when IEE_SYSBUS_BE is set in the sysbus byte.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * sc->sc_cl_align must be set to 1 or to the cache line size. When set to
1.11.4.1   rpaulo  * 1 no special alignment of DMA descriptors is done. If sc->sc_cl_align != 1
1.11.4.1   rpaulo  * it forces alignment of the data structures in the shared memory to a multiple
1.11.4.1   rpaulo  * of sc->sc_cl_align. This is needed on archs like hp700 that have non DMA
1.11.4.1   rpaulo  * I/O coherent caches and are unable to map the shared memory uncachable.
1.11.4.1   rpaulo  * (At least pre PA7100LC CPUs are unable to map memory uncachable.)
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * sc->sc_cl_align MUST BE INITIALIZED BEFORE THE FOLLOWING MACROS ARE USED:
1.11.4.1   rpaulo  * SC_* IEE_*_SZ IEE_*_OFF IEE_SHMEM_MAX (shell style glob(3) pattern)
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * The MD frontend has to allocate a piece of DMA memory at least of
1.11.4.1   rpaulo  * IEE_SHMEM_MAX bytes size. All communication with the chip is done via
1.11.4.1   rpaulo  * this shared memory. If possible map this memory non-cachable on
1.11.4.1   rpaulo  * archs with non DMA I/O coherent caches. The base of the memory needs
1.11.4.1   rpaulo  * to be aligned to an even address if sc->sc_cl_align == 1 and aligned
1.11.4.1   rpaulo  * to a cache line if sc->sc_cl_align != 1.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * An interrupt with iee_intr() as handler must be established.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * Call void iee_attach(struct iee_softc *sc, uint8_t *ether_address,
1.11.4.1   rpaulo  * int *media, int nmedia, int defmedia); when everything is set up. First
1.11.4.1   rpaulo  * parameter is a pointer to the MI softc, ether_address is an array that
1.11.4.1   rpaulo  * contains the ethernet address. media is an array of the media types
1.11.4.1   rpaulo  * provided by the hardware. The members of this array are supplied to
1.11.4.1   rpaulo  * ifmedia_add() in sequence. nmedia is the count of elements in media.
1.11.4.1   rpaulo  * defmedia is the default media that is set via ifmedia_set().
1.11.4.1   rpaulo  * nmedia and defmedia are ignored when media == NULL.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * The MD backend may call iee_detach() to detach the device.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * See sys/arch/hp700/gsc/if_iee_gsc.c for an example.
1.11.4.1   rpaulo  */
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /*
1.11.4.1   rpaulo  * How frame reception is done:
1.11.4.1   rpaulo  * Each Receive Frame Descriptor has one associated Receive Buffer Descriptor.
1.11.4.1   rpaulo  * Each RBD points to the data area of an mbuf cluster. The RFDs are linked
1.11.4.1   rpaulo  * together in a circular list. sc->sc_rx_done is the count of RFDs in the
1.11.4.1   rpaulo  * list already processed / the number of the RFD that has to be checked for
1.11.4.1   rpaulo  * a new frame first at the next RX interrupt. Upon successful reception of
1.11.4.1   rpaulo  * a frame the mbuf cluster is handled to upper protocol layers, a new mbuf
1.11.4.1   rpaulo  * cluster is allocated and the RFD / RBD are reinitialized accordingly.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * When a RFD list overrun occurred the whole RFD and RBD lists are reinitialized
1.11.4.1   rpaulo  * and frame reception is started again.
1.11.4.1   rpaulo  */
     1.1    jkunz int
     1.1    jkunz iee_intr(void *intarg)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = intarg;
     1.1    jkunz 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
     1.1    jkunz 	struct iee_rfd *rfd;
     1.1    jkunz 	struct iee_rbd *rbd;
     1.1    jkunz 	bus_dmamap_t rx_map;
     1.1    jkunz 	struct mbuf *rx_mbuf;
     1.1    jkunz 	struct mbuf *new_mbuf;
     1.1    jkunz 	int scb_status;
     1.1    jkunz 	int scb_cmd;
     1.6  tsutsui 	int n, col;
     1.1    jkunz
     1.1    jkunz 	if ((ifp->if_flags & IFF_RUNNING) == 0) {
     1.1    jkunz 		(sc->sc_iee_cmd)(sc, IEE_SCB_ACK);
     1.1    jkunz 		return(1);
     1.1    jkunz 	}
     1.1    jkunz 	bus_dmamap_sync(sc->sc_dmat, sc->sc_shmem_map, 0, IEE_SHMEM_MAX,
     1.1    jkunz 	    BUS_DMASYNC_POSTREAD);
     1.1    jkunz 	scb_status = SC_SCB->scb_status;
     1.1    jkunz 	scb_cmd = SC_SCB->scb_cmd;
     1.1    jkunz 	rfd = SC_RFD(sc->sc_rx_done);
     1.2    jkunz 	while ((rfd->rfd_status & IEE_RFD_C) != 0) {
     1.1    jkunz 		/* At least one packet was received. */
     1.1    jkunz 		rbd = SC_RBD(sc->sc_rx_done);
     1.1    jkunz 		rx_map = sc->sc_rx_map[sc->sc_rx_done];
     1.1    jkunz 		rx_mbuf = sc->sc_rx_mbuf[sc->sc_rx_done];
     1.1    jkunz 		SC_RBD((sc->sc_rx_done + IEE_NRFD - 1) % IEE_NRFD)->rbd_size
     1.1    jkunz 		    &= ~IEE_RBD_EL;
     1.1    jkunz 		if ((rfd->rfd_status & IEE_RFD_OK) == 0
     1.1    jkunz 		    || (rbd->rbd_count & IEE_RBD_EOF) == 0
     1.1    jkunz 		    || (rbd->rbd_count & IEE_RBD_F) == 0){
     1.1    jkunz 			/* Receive error, skip frame and reuse buffer. */
     1.1    jkunz 			rfd->rfd_status = 0;
     1.1    jkunz 			rbd->rbd_count = 0;
     1.1    jkunz 			rbd->rbd_size = IEE_RBD_EL | rx_map->dm_segs[0].ds_len;
     1.1    jkunz 			printf("%s: iee_intr: receive error %d, rfd_status="
     1.8    perry 			    "0x%.4x, rfd_count=0x%.4x\n", sc->sc_dev.dv_xname,
     1.1    jkunz 			    ++sc->sc_rx_err, rfd->rfd_status, rbd->rbd_count);
     1.1    jkunz 			sc->sc_rx_done = (sc->sc_rx_done + 1) % IEE_NRFD;
     1.1    jkunz 			continue;
     1.1    jkunz 		}
     1.1    jkunz 		rfd->rfd_status = 0;
     1.1    jkunz 		bus_dmamap_sync(sc->sc_dmat, rx_map, 0, rx_mbuf->m_ext.ext_size,
     1.1    jkunz 		    BUS_DMASYNC_POSTREAD);
     1.8    perry 		rx_mbuf->m_pkthdr.len = rx_mbuf->m_len =
     1.1    jkunz 		    rbd->rbd_count & IEE_RBD_COUNT;
     1.1    jkunz 		rx_mbuf->m_pkthdr.rcvif = ifp;
     1.1    jkunz 		MGETHDR(new_mbuf, M_DONTWAIT, MT_DATA);
     1.1    jkunz 		if (new_mbuf == NULL) {
     1.1    jkunz 			printf("%s: iee_intr: can't allocate mbuf\n",
     1.1    jkunz 			    sc->sc_dev.dv_xname);
     1.1    jkunz 			break;
     1.1    jkunz 		}
     1.1    jkunz 		MCLAIM(new_mbuf, &sc->sc_ethercom.ec_rx_mowner);
     1.1    jkunz 		MCLGET(new_mbuf, M_DONTWAIT);
     1.1    jkunz 		if ((new_mbuf->m_flags & M_EXT) == 0) {
     1.8    perry 			printf("%s: iee_intr: can't alloc mbuf cluster\n",
     1.1    jkunz 			    sc->sc_dev.dv_xname);
     1.1    jkunz 			m_freem(new_mbuf);
     1.1    jkunz 			break;
     1.1    jkunz 		}
     1.1    jkunz 		bus_dmamap_unload(sc->sc_dmat, rx_map);
     1.8    perry 		if (bus_dmamap_load(sc->sc_dmat, rx_map,
     1.8    perry 		    new_mbuf->m_ext.ext_buf, new_mbuf->m_ext.ext_size,
     1.1    jkunz 		    NULL, BUS_DMA_READ | BUS_DMA_NOWAIT) != 0)
     1.1    jkunz 			panic("%s: iee_intr: can't load RX DMA map\n",
     1.1    jkunz 			    sc->sc_dev.dv_xname);
     1.1    jkunz 		bus_dmamap_sync(sc->sc_dmat, rx_map, 0,
     1.1    jkunz 		    new_mbuf->m_ext.ext_size, BUS_DMASYNC_PREREAD);
     1.1    jkunz #if NBPFILTER > 0
     1.1    jkunz 		if (ifp->if_bpf != 0)
     1.1    jkunz 			bpf_mtap(ifp->if_bpf, rx_mbuf);
     1.1    jkunz #endif /* NBPFILTER > 0 */
     1.1    jkunz 		(*ifp->if_input)(ifp, rx_mbuf);
     1.1    jkunz 		ifp->if_ipackets++;
     1.1    jkunz 		sc->sc_rx_mbuf[sc->sc_rx_done] = new_mbuf;
     1.1    jkunz 		rbd->rbd_count = 0;
     1.1    jkunz 		rbd->rbd_size = IEE_RBD_EL | rx_map->dm_segs[0].ds_len;
     1.1    jkunz 		rbd->rbd_rb_addr = rx_map->dm_segs[0].ds_addr;
     1.1    jkunz 		sc->sc_rx_done = (sc->sc_rx_done + 1) % IEE_NRFD;
     1.1    jkunz 		rfd = SC_RFD(sc->sc_rx_done);
     1.1    jkunz 	}
     1.1    jkunz 	if ((scb_status & IEE_SCB_RUS) == IEE_SCB_RUS_NR1
     1.1    jkunz 	    || (scb_status & IEE_SCB_RUS) == IEE_SCB_RUS_NR2
     1.1    jkunz 	    || (scb_status & IEE_SCB_RUS) == IEE_SCB_RUS_NR3) {
     1.1    jkunz 		/* Receive Overrun, reinit receive ring buffer. */
     1.1    jkunz 		for (n = 0 ; n < IEE_NRFD ; n++) {
     1.1    jkunz 			SC_RFD(n)->rfd_cmd = IEE_RFD_SF;
     1.1    jkunz 			SC_RFD(n)->rfd_link_addr = IEE_PHYS_SHMEM(IEE_RFD_OFF
     1.1    jkunz 			    + IEE_RFD_SZ * ((n + 1) % IEE_NRFD));
     1.8    perry 			SC_RBD(n)->rbd_next_rbd = IEE_PHYS_SHMEM(IEE_RBD_OFF
     1.1    jkunz 			    + IEE_RBD_SZ * ((n + 1) % IEE_NRFD));
     1.8    perry 			SC_RBD(n)->rbd_size = IEE_RBD_EL |
     1.1    jkunz 			    sc->sc_rx_map[n]->dm_segs[0].ds_len;
     1.8    perry 			SC_RBD(n)->rbd_rb_addr =
     1.1    jkunz 			    sc->sc_rx_map[n]->dm_segs[0].ds_addr;
     1.1    jkunz 		}
     1.1    jkunz 		SC_RFD(0)->rfd_rbd_addr = IEE_PHYS_SHMEM(IEE_RBD_OFF);
     1.1    jkunz 		sc->sc_rx_done = 0;
     1.8    perry 		bus_dmamap_sync(sc->sc_dmat, sc->sc_shmem_map, IEE_RFD_OFF,
     1.1    jkunz 		    IEE_RFD_LIST_SZ + IEE_RBD_LIST_SZ, BUS_DMASYNC_PREWRITE);
     1.1    jkunz 		(sc->sc_iee_cmd)(sc, IEE_SCB_RUC_ST);
     1.8    perry 		printf("%s: iee_intr: receive ring buffer overrun\n",
     1.1    jkunz 		    sc->sc_dev.dv_xname);
     1.2    jkunz 	}
     1.1    jkunz
     1.8    perry 	if (sc->sc_next_cb != 0
     1.2    jkunz 	    && (SC_CB(sc->sc_next_cb - 1)->cb_status & IEE_CB_C) != 0) {
     1.1    jkunz 		/* CMD list finished */
     1.1    jkunz 		ifp->if_timer = 0;
     1.1    jkunz 		if (sc->sc_next_tbd != 0) {
1.11.4.1   rpaulo 			/* A TX CMD list finished, cleanup */
     1.1    jkunz 			for (n = 0 ; n < sc->sc_next_cb ; n++) {
     1.1    jkunz 				m_freem(sc->sc_tx_mbuf[n]);
     1.1    jkunz 				sc->sc_tx_mbuf[n] = NULL;
     1.1    jkunz 				bus_dmamap_unload(sc->sc_dmat,sc->sc_tx_map[n]);
     1.8    perry 				if ((SC_CB(n)->cb_status & IEE_CB_COL) != 0 &&
     1.1    jkunz 				    (SC_CB(n)->cb_status & IEE_CB_MAXCOL) == 0)
     1.6  tsutsui 					col = 16;
     1.1    jkunz 				else
     1.8    perry 					col = SC_CB(n)->cb_status
     1.1    jkunz 					    & IEE_CB_MAXCOL;
     1.6  tsutsui 				sc->sc_tx_col += col;
     1.6  tsutsui 				if ((SC_CB(n)->cb_status & IEE_CB_OK) != 0) {
     1.6  tsutsui 					ifp->if_opackets++;
     1.6  tsutsui 					ifp->if_collisions += col;
     1.6  tsutsui 				}
     1.1    jkunz 			}
     1.1    jkunz 			sc->sc_next_tbd = 0;
     1.1    jkunz 			ifp->if_flags &= ~IFF_OACTIVE;
     1.1    jkunz 		}
     1.1    jkunz 		for (n = 0 ; n < sc->sc_next_cb ; n++) {
     1.1    jkunz 			/* Check if a CMD failed, but ignore TX errors. */
     1.1    jkunz 			if ((SC_CB(n)->cb_cmd & IEE_CB_CMD) != IEE_CB_CMD_TR
     1.2    jkunz 			    && ((SC_CB(n)->cb_status & IEE_CB_OK) == 0))
     1.8    perry 				printf("%s: iee_intr: scb_status=0x%x "
     1.1    jkunz 				    "scb_cmd=0x%x failed command %d: "
     1.8    perry 				    "cb_status[%d]=0x%.4x cb_cmd[%d]=0x%.4x\n",
     1.8    perry 				    sc->sc_dev.dv_xname, scb_status, scb_cmd,
     1.1    jkunz 				    ++sc->sc_cmd_err, n, SC_CB(n)->cb_status,
     1.1    jkunz 				    n, SC_CB(n)->cb_cmd);
     1.1    jkunz 		}
     1.1    jkunz 		sc->sc_next_cb = 0;
     1.1    jkunz 		if ((sc->sc_flags & IEE_WANT_MCAST) != 0) {
     1.8    perry 			iee_cb_setup(sc, IEE_CB_CMD_MCS | IEE_CB_S | IEE_CB_EL
     1.1    jkunz 			    | IEE_CB_I);
     1.1    jkunz 			(sc->sc_iee_cmd)(sc, IEE_SCB_CUC_EXE);
     1.1    jkunz 		} else
1.11.4.1   rpaulo 			/* Try to get deferred packets going. */
     1.1    jkunz 			iee_start(ifp);
     1.1    jkunz 	}
     1.1    jkunz 	if (IEE_SWAP(SC_SCB->scb_crc_err) != sc->sc_crc_err) {
     1.1    jkunz 		sc->sc_crc_err = IEE_SWAP(SC_SCB->scb_crc_err);
     1.8    perry 		printf("%s: iee_intr: crc_err=%d\n", sc->sc_dev.dv_xname,
     1.1    jkunz 		    sc->sc_crc_err);
     1.1    jkunz 	}
     1.1    jkunz 	if (IEE_SWAP(SC_SCB->scb_align_err) != sc->sc_align_err) {
     1.1    jkunz 		sc->sc_align_err = IEE_SWAP(SC_SCB->scb_align_err);
     1.8    perry 		printf("%s: iee_intr: align_err=%d\n", sc->sc_dev.dv_xname,
     1.1    jkunz 		    sc->sc_align_err);
     1.1    jkunz 	}
     1.1    jkunz 	if (IEE_SWAP(SC_SCB->scb_resource_err) != sc->sc_resource_err) {
     1.1    jkunz 		sc->sc_resource_err = IEE_SWAP(SC_SCB->scb_resource_err);
     1.8    perry 		printf("%s: iee_intr: resource_err=%d\n", sc->sc_dev.dv_xname,
     1.1    jkunz 		    sc->sc_resource_err);
     1.1    jkunz 	}
     1.1    jkunz 	if (IEE_SWAP(SC_SCB->scb_overrun_err) != sc->sc_overrun_err) {
     1.1    jkunz 		sc->sc_overrun_err = IEE_SWAP(SC_SCB->scb_overrun_err);
     1.8    perry 		printf("%s: iee_intr: overrun_err=%d\n", sc->sc_dev.dv_xname,
     1.1    jkunz 		    sc->sc_overrun_err);
     1.1    jkunz 	}
     1.1    jkunz 	if (IEE_SWAP(SC_SCB->scb_rcvcdt_err) != sc->sc_rcvcdt_err) {
     1.1    jkunz 		sc->sc_rcvcdt_err = IEE_SWAP(SC_SCB->scb_rcvcdt_err);
     1.8    perry 		printf("%s: iee_intr: rcvcdt_err=%d\n", sc->sc_dev.dv_xname,
     1.1    jkunz 		    sc->sc_rcvcdt_err);
     1.1    jkunz 	}
     1.1    jkunz 	if (IEE_SWAP(SC_SCB->scb_short_fr_err) != sc->sc_short_fr_err) {
     1.1    jkunz 		sc->sc_short_fr_err = IEE_SWAP(SC_SCB->scb_short_fr_err);
     1.8    perry 		printf("%s: iee_intr: short_fr_err=%d\n", sc->sc_dev.dv_xname,
     1.1    jkunz 		    sc->sc_short_fr_err);
     1.1    jkunz 	}
     1.8    perry 	bus_dmamap_sync(sc->sc_dmat, sc->sc_shmem_map, 0, IEE_SHMEM_MAX,
     1.2    jkunz 	    BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
     1.1    jkunz 	(sc->sc_iee_cmd)(sc, IEE_SCB_ACK);
     1.1    jkunz 	return(1);
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /*
1.11.4.1   rpaulo  * How Command Block List Processing is done.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * A running CBL is never manipulated. If there is a CBL already running,
1.11.4.1   rpaulo  * further CMDs are deferred until the current list is done. A new list is
1.11.4.1   rpaulo  * setup when the old one has finished.
1.11.4.1   rpaulo  * This eases programming. To manipulate a running CBL it is necessary to
1.11.4.1   rpaulo  * suspend the Command Unit to avoid race conditions. After a suspend
1.11.4.1   rpaulo  * is sent we have to wait for an interrupt that ACKs the suspend. Then
1.11.4.1   rpaulo  * we can manipulate the CBL and resume operation. I am not sure that this
1.11.4.1   rpaulo  * is more effective then the current, much simpler approach. => KISS
1.11.4.1   rpaulo  * See i82596CA data sheet page 26.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * A CBL is running or on the way to be set up when (sc->sc_next_cb != 0).
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * A CBL may consist of TX CMDs, and _only_ TX CMDs.
1.11.4.1   rpaulo  * A TX CBL is running or on the way to be set up when
1.11.4.1   rpaulo  * ((sc->sc_next_cb != 0) && (sc->sc_next_tbd != 0)).
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * A CBL may consist of other non-TX CMDs like IAS or CONF, and _only_
1.11.4.1   rpaulo  * non-TX CMDs.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * This comes mostly through the way how an Ethernet driver works and
1.11.4.1   rpaulo  * because running CBLs are not manipulated when they are on the way. If
1.11.4.1   rpaulo  * if_start() is called there will be TX CMDs enqueued so we have a running
1.11.4.1   rpaulo  * CBL and other CMDs from e.g. if_ioctl() will be deferred and vice versa.
1.11.4.1   rpaulo  *
1.11.4.1   rpaulo  * The Multicast Setup Command is special. A MCS needs more space than
1.11.4.1   rpaulo  * a single CB has. Actual space requirement depends on the length of the
1.11.4.1   rpaulo  * multicast list. So we always defer MCS until other CBLs are finished,
1.11.4.1   rpaulo  * then we setup a CONF CMD in the first CB. The CONF CMD is needed to
1.11.4.1   rpaulo  * turn ALLMULTI on the hardware on or off. The MCS is the 2nd CB and may
1.11.4.1   rpaulo  * use all the remaining space in the CBL and the Transmit Buffer Descriptor
1.11.4.1   rpaulo  * List. (Therefore CBL and TBDL must be continuous in physical and virtual
1.11.4.1   rpaulo  * memory. This is guaranteed through the definitions of the list offsets
1.11.4.1   rpaulo  * in i82596reg.h and because it is only a single DMA segment used for all
1.11.4.1   rpaulo  * lists.) When ALLMULTI is enabled via the CONF CMD, the MCS is run with
1.11.4.1   rpaulo  * a multicast list length of 0, thus disabling the multicast filter.
1.11.4.1   rpaulo  * A deferred MCS is signaled via ((sc->sc_flags & IEE_WANT_MCAST) != 0)
1.11.4.1   rpaulo  */
     1.1    jkunz void
     1.7  tsutsui iee_cb_setup(struct iee_softc *sc, uint32_t cmd)
     1.1    jkunz {
     1.1    jkunz 	struct iee_cb *cb = SC_CB(sc->sc_next_cb);
     1.1    jkunz 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
     1.1    jkunz 	struct ether_multistep step;
     1.1    jkunz 	struct ether_multi *enm;
     1.1    jkunz
     1.1    jkunz 	memset(cb, 0, IEE_CB_SZ);
     1.1    jkunz 	cb->cb_cmd = cmd;
     1.1    jkunz 	switch(cmd & IEE_CB_CMD) {
     1.1    jkunz 	case IEE_CB_CMD_NOP:	/* NOP CMD */
     1.1    jkunz 		break;
     1.1    jkunz 	case IEE_CB_CMD_IAS:	/* Individual Address Setup */
     1.9       he 		memcpy(__UNVOLATILE(cb->cb_ind_addr), LLADDR(ifp->if_sadl),
     1.1    jkunz 		    ETHER_ADDR_LEN);
     1.1    jkunz 		break;
     1.1    jkunz 	case IEE_CB_CMD_CONF:	/* Configure */
     1.9       he 		memcpy(__UNVOLATILE(cb->cb_cf), sc->sc_cf, sc->sc_cf[0]
     1.1    jkunz 		    & IEE_CF_0_CNT_M);
     1.1    jkunz 		break;
     1.1    jkunz 	case IEE_CB_CMD_MCS:	/* Multicast Setup */
     1.1    jkunz 		if (sc->sc_next_cb != 0) {
     1.1    jkunz 			sc->sc_flags |= IEE_WANT_MCAST;
     1.1    jkunz 			return;
     1.1    jkunz 		}
     1.1    jkunz 		sc->sc_flags &= ~IEE_WANT_MCAST;
     1.1    jkunz 		if ((sc->sc_cf[8] & IEE_CF_8_PRM) != 0) {
     1.1    jkunz 			/* Need no multicast filter in promisc mode. */
     1.8    perry 			iee_cb_setup(sc, IEE_CB_CMD_CONF | IEE_CB_S | IEE_CB_EL
     1.1    jkunz 			    | IEE_CB_I);
     1.1    jkunz 			return;
     1.1    jkunz 		}
     1.1    jkunz 		/* Leave room for a CONF CMD to en/dis-able ALLMULTI mode */
     1.1    jkunz 		cb = SC_CB(sc->sc_next_cb + 1);
     1.1    jkunz 		cb->cb_cmd = cmd;
     1.1    jkunz 		cb->cb_mcast.mc_size = 0;
     1.1    jkunz 		ETHER_FIRST_MULTI(step, &sc->sc_ethercom, enm);
     1.1    jkunz 		while (enm != NULL) {
     1.8    perry 			if (memcmp(enm->enm_addrlo, enm->enm_addrhi,
     1.8    perry 			    ETHER_ADDR_LEN) != 0 || cb->cb_mcast.mc_size
     1.1    jkunz 			    * ETHER_ADDR_LEN + 2 * IEE_CB_SZ
     1.1    jkunz 			    > IEE_CB_LIST_SZ + IEE_TBD_LIST_SZ) {
     1.1    jkunz 				cb->cb_mcast.mc_size = 0;
     1.1    jkunz 				break;
     1.1    jkunz 			}
     1.9       he 			memcpy(__UNVOLATILE(&cb->cb_mcast.mc_addrs[
     1.9       he 			    cb->cb_mcast.mc_size * ETHER_ADDR_LEN]),
     1.1    jkunz 			    enm->enm_addrlo, ETHER_ADDR_LEN);
     1.1    jkunz 			ETHER_NEXT_MULTI(step, enm);
     1.1    jkunz 			cb->cb_mcast.mc_size++;
     1.1    jkunz 		}
     1.1    jkunz 		if (cb->cb_mcast.mc_size == 0) {
     1.1    jkunz 			/* Can't do exact mcast filtering, do ALLMULTI mode. */
     1.1    jkunz 			ifp->if_flags |= IFF_ALLMULTI;
     1.1    jkunz 			sc->sc_cf[11] &= ~IEE_CF_11_MCALL;
     1.1    jkunz 		} else {
     1.1    jkunz 			/* disable ALLMULTI and load mcast list */
     1.1    jkunz 			ifp->if_flags &= ~IFF_ALLMULTI;
     1.1    jkunz 			sc->sc_cf[11] |= IEE_CF_11_MCALL;
     1.1    jkunz 			/* Mcast setup may need more then IEE_CB_SZ bytes. */
     1.8    perry 			bus_dmamap_sync(sc->sc_dmat, sc->sc_shmem_map,
     1.8    perry 			    IEE_CB_OFF, IEE_CB_LIST_SZ + IEE_TBD_LIST_SZ,
     1.1    jkunz 			    BUS_DMASYNC_PREWRITE);
     1.1    jkunz 		}
     1.1    jkunz 		iee_cb_setup(sc, IEE_CB_CMD_CONF);
     1.1    jkunz 		break;
     1.1    jkunz 	case IEE_CB_CMD_TR:	/* Transmit */
     1.1    jkunz 		cb->cb_transmit.tx_tbd_addr = IEE_PHYS_SHMEM(IEE_TBD_OFF
     1.1    jkunz 		    + IEE_TBD_SZ * sc->sc_next_tbd);
1.11.4.1   rpaulo 		cb->cb_cmd |= IEE_CB_SF; /* Always use Flexible Mode. */
     1.1    jkunz 		break;
     1.1    jkunz 	case IEE_CB_CMD_TDR:	/* Time Domain Reflectometry */
     1.1    jkunz 		break;
     1.1    jkunz 	case IEE_CB_CMD_DUMP:	/* Dump */
     1.1    jkunz 		break;
     1.1    jkunz 	case IEE_CB_CMD_DIAG:	/* Diagnose */
     1.1    jkunz 		break;
     1.1    jkunz 	default:
     1.1    jkunz 		/* can't happen */
     1.1    jkunz 		break;
     1.1    jkunz 	}
     1.8    perry 	cb->cb_link_addr = IEE_PHYS_SHMEM(IEE_CB_OFF + IEE_CB_SZ *
     1.1    jkunz 	    (sc->sc_next_cb + 1));
     1.8    perry 	bus_dmamap_sync(sc->sc_dmat, sc->sc_shmem_map, IEE_CB_OFF
     1.1    jkunz 	    + IEE_CB_SZ * sc->sc_next_cb, IEE_CB_SZ, BUS_DMASYNC_PREWRITE);
     1.1    jkunz 	sc->sc_next_cb++;
     1.1    jkunz 	ifp->if_timer = 5;
     1.1    jkunz 	return;
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz void
     1.8    perry iee_attach(struct iee_softc *sc, uint8_t *eth_addr, int *media, int nmedia,
     1.1    jkunz     int defmedia)
     1.1    jkunz {
     1.1    jkunz 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
     1.1    jkunz 	int n;
     1.1    jkunz
     1.1    jkunz 	/* Set pointer to Intermediate System Configuration Pointer. */
     1.1    jkunz 	/* Phys. addr. in big endian order. (Big endian as defined by Intel.) */
     1.1    jkunz 	SC_SCP->scp_iscp_addr = IEE_SWAP(IEE_PHYS_SHMEM(IEE_ISCP_OFF));
     1.1    jkunz 	/* Set pointer to System Control Block. */
     1.1    jkunz 	/* Phys. addr. in big endian order. (Big endian as defined by Intel.) */
     1.1    jkunz 	SC_ISCP->iscp_scb_addr = IEE_SWAP(IEE_PHYS_SHMEM(IEE_SCB_OFF));
     1.1    jkunz 	/* Set pointer to Receive Frame Area. (physical address) */
     1.1    jkunz 	SC_SCB->scb_rfa_addr = IEE_PHYS_SHMEM(IEE_RFD_OFF);
     1.1    jkunz 	/* Set pointer to Command Block. (physical address) */
     1.1    jkunz 	SC_SCB->scb_cmd_blk_addr = IEE_PHYS_SHMEM(IEE_CB_OFF);
     1.1    jkunz
     1.1    jkunz 	ifmedia_init(&sc->sc_ifmedia, 0, iee_mediachange, iee_mediastatus);
     1.1    jkunz 	if (media != NULL) {
     1.1    jkunz 		for (n = 0 ; n < nmedia ; n++)
     1.1    jkunz 			ifmedia_add(&sc->sc_ifmedia, media[n], 0, NULL);
     1.1    jkunz 		ifmedia_set(&sc->sc_ifmedia, defmedia);
     1.1    jkunz 	} else {
     1.1    jkunz 		ifmedia_add(&sc->sc_ifmedia, IFM_ETHER | IFM_NONE, 0, NULL);
     1.1    jkunz 		ifmedia_set(&sc->sc_ifmedia, IFM_ETHER | IFM_NONE);
     1.1    jkunz 	}
     1.1    jkunz
     1.1    jkunz 	ifp->if_softc = sc;
     1.1    jkunz 	strcpy(ifp->if_xname, sc->sc_dev.dv_xname);
     1.1    jkunz 	ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST;
     1.1    jkunz 	ifp->if_start = iee_start;	/* initiate output routine */
     1.1    jkunz 	ifp->if_ioctl = iee_ioctl;	/* ioctl routine */
     1.1    jkunz 	ifp->if_init = iee_init;	/* init routine */
     1.1    jkunz 	ifp->if_stop = iee_stop;	/* stop routine */
     1.1    jkunz 	ifp->if_watchdog = iee_watchdog;	/* timer routine */
     1.1    jkunz 	ifp->if_drain = iee_drain;	/* routine to release resources */
     1.1    jkunz 	IFQ_SET_READY(&ifp->if_snd);
     1.1    jkunz 	/* iee supports IEEE 802.1Q Virtual LANs, see vlan(4). */
     1.1    jkunz 	sc->sc_ethercom.ec_capabilities |= ETHERCAP_VLAN_MTU;
     1.1    jkunz
     1.1    jkunz 	if_attach(ifp);
     1.1    jkunz 	ether_ifattach(ifp, eth_addr);
     1.1    jkunz
     1.1    jkunz 	aprint_normal(": Intel 82596%s address %s\n",
     1.1    jkunz 	    i82596_typenames[ sc->sc_type], ether_sprintf(eth_addr));
     1.1    jkunz
     1.1    jkunz 	for (n = 0 ; n < IEE_NCB ; n++)
     1.1    jkunz 		sc->sc_tx_map[n] = NULL;
     1.1    jkunz 	for (n = 0 ; n < IEE_NRFD ; n++) {
     1.1    jkunz 		sc->sc_rx_mbuf[n] = NULL;
     1.1    jkunz 		sc->sc_rx_map[n] = NULL;
     1.1    jkunz 	}
     1.1    jkunz 	sc->sc_tx_timeout = 0;
     1.1    jkunz 	sc->sc_setup_timeout = 0;
     1.1    jkunz 	(sc->sc_iee_reset)(sc);
     1.1    jkunz 	return;
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz void
     1.1    jkunz iee_detach(struct iee_softc *sc, int flags)
     1.1    jkunz {
     1.1    jkunz 	struct ifnet *ifp = &sc->sc_ethercom.ec_if;
     1.1    jkunz
     1.1    jkunz 	if ((ifp->if_flags & IFF_RUNNING) != 0)
     1.1    jkunz 		iee_stop(ifp, 1);
     1.1    jkunz 	ether_ifdetach(ifp);
     1.1    jkunz 	if_detach(ifp);
     1.1    jkunz 	return;
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /* media change and status callback */
     1.1    jkunz int
     1.1    jkunz iee_mediachange(struct ifnet *ifp)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = ifp->if_softc;
     1.8    perry
     1.1    jkunz 	if (sc->sc_mediachange != NULL)
     1.1    jkunz 		return ((sc->sc_mediachange)(ifp));
     1.1    jkunz 	return(0);
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz void
     1.1    jkunz iee_mediastatus(struct ifnet *ifp, struct ifmediareq *ifmreq)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = ifp->if_softc;
     1.1    jkunz
     1.1    jkunz 	if (sc->sc_mediastatus != NULL)
     1.1    jkunz 		return ((sc->sc_mediastatus)(ifp, ifmreq));
     1.1    jkunz 	return;
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /* initiate output routine */
     1.1    jkunz void
     1.1    jkunz iee_start(struct ifnet *ifp)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = ifp->if_softc;
     1.1    jkunz 	struct mbuf *m = NULL;
     1.1    jkunz 	int t;
     1.1    jkunz 	int n;
     1.1    jkunz
     1.1    jkunz 	if (sc->sc_next_cb != 0)
1.11.4.1   rpaulo 		/* There is already a CMD running. Defer packet enqueuing. */
     1.1    jkunz 		return;
     1.1    jkunz 	for (t = 0 ; t < IEE_NCB ; t++) {
     1.1    jkunz 		IFQ_DEQUEUE(&ifp->if_snd, sc->sc_tx_mbuf[t]);
     1.1    jkunz 		if (sc->sc_tx_mbuf[t] == NULL)
     1.1    jkunz 			break;
     1.1    jkunz 		if (bus_dmamap_load_mbuf(sc->sc_dmat, sc->sc_tx_map[t],
     1.1    jkunz 		    sc->sc_tx_mbuf[t], BUS_DMA_WRITE | BUS_DMA_NOWAIT) != 0) {
     1.1    jkunz 			/*
     1.8    perry 			 * The packet needs more TBD then we support.
     1.8    perry 			 * Copy the packet into a mbuf cluster to get it out.
     1.1    jkunz 			 */
     1.8    perry 			printf("%s: iee_start: failed to load DMA map\n",
     1.1    jkunz 			    sc->sc_dev.dv_xname);
     1.1    jkunz 			MGETHDR(m, M_DONTWAIT, MT_DATA);
     1.1    jkunz 			if (m == NULL) {
     1.1    jkunz 				printf("%s: iee_start: can't allocate mbuf\n",
     1.1    jkunz 				    sc->sc_dev.dv_xname);
     1.1    jkunz 				m_freem(sc->sc_tx_mbuf[t]);
     1.1    jkunz 				t--;
     1.1    jkunz 				continue;
     1.1    jkunz 			}
     1.1    jkunz 			MCLAIM(m, &sc->sc_ethercom.ec_rx_mowner);
     1.1    jkunz 			MCLGET(m, M_DONTWAIT);
     1.1    jkunz 			if ((m->m_flags & M_EXT) == 0) {
     1.1    jkunz 				printf("%s: iee_start: can't allocate mbuf "
     1.1    jkunz 				    "cluster\n", sc->sc_dev.dv_xname);
     1.1    jkunz 				m_freem(sc->sc_tx_mbuf[t]);
     1.1    jkunz 				m_freem(m);
     1.1    jkunz 				t--;
     1.1    jkunz 				continue;
     1.1    jkunz 			}
     1.8    perry 			m_copydata(sc->sc_tx_mbuf[t], 0,
     1.1    jkunz 			    sc->sc_tx_mbuf[t]->m_pkthdr.len, mtod(m, caddr_t));
     1.1    jkunz 			m->m_pkthdr.len = sc->sc_tx_mbuf[t]->m_pkthdr.len;
     1.1    jkunz 			m->m_len = sc->sc_tx_mbuf[t]->m_pkthdr.len;
     1.1    jkunz 			m_freem(sc->sc_tx_mbuf[t]);
     1.1    jkunz 			sc->sc_tx_mbuf[t] = m;
     1.1    jkunz 			if(bus_dmamap_load_mbuf(sc->sc_dmat, sc->sc_tx_map[t],
     1.1    jkunz 		    	    m, BUS_DMA_WRITE | BUS_DMA_NOWAIT) != 0) {
     1.1    jkunz 				printf("%s: iee_start: can't load TX DMA map\n",
     1.1    jkunz 				    sc->sc_dev.dv_xname);
     1.1    jkunz 				m_freem(sc->sc_tx_mbuf[t]);
     1.1    jkunz 				t--;
     1.1    jkunz 				continue;
     1.1    jkunz 			}
     1.1    jkunz 		}
     1.1    jkunz 		for (n = 0 ; n < sc->sc_tx_map[t]->dm_nsegs ; n++) {
     1.1    jkunz 			SC_TBD(sc->sc_next_tbd + n)->tbd_tb_addr =
     1.1    jkunz 			    sc->sc_tx_map[t]->dm_segs[n].ds_addr;
     1.1    jkunz 			SC_TBD(sc->sc_next_tbd + n)->tbd_size =
     1.1    jkunz 			    sc->sc_tx_map[t]->dm_segs[n].ds_len;
     1.1    jkunz 			SC_TBD(sc->sc_next_tbd + n)->tbd_link_addr =
     1.8    perry 			    IEE_PHYS_SHMEM(IEE_TBD_OFF + IEE_TBD_SZ
     1.1    jkunz 			    * (sc->sc_next_tbd + n + 1));
     1.1    jkunz 		}
     1.1    jkunz 		SC_TBD(sc->sc_next_tbd + n - 1)->tbd_size |= IEE_CB_EL;
     1.1    jkunz 		bus_dmamap_sync(sc->sc_dmat, sc->sc_tx_map[t], 0,
     1.1    jkunz 		    sc->sc_tx_map[t]->dm_mapsize, BUS_DMASYNC_PREWRITE);
     1.1    jkunz 		IFQ_POLL(&ifp->if_snd, m);
     1.1    jkunz 		if (m == NULL)
     1.1    jkunz 			iee_cb_setup(sc, IEE_CB_CMD_TR | IEE_CB_S | IEE_CB_EL
     1.1    jkunz 			    | IEE_CB_I);
     1.1    jkunz 		else
     1.1    jkunz 			iee_cb_setup(sc, IEE_CB_CMD_TR);
     1.1    jkunz 		sc->sc_next_tbd += n;
     1.1    jkunz #if NBPFILTER > 0
     1.1    jkunz 		/* Pass packet to bpf if someone listens. */
     1.1    jkunz 		if (ifp->if_bpf)
     1.1    jkunz 			bpf_mtap(ifp->if_bpf, sc->sc_tx_mbuf[t]);
     1.1    jkunz #endif
     1.1    jkunz 	}
     1.1    jkunz 	if (t == 0)
     1.1    jkunz 		/* No packets got set up for TX. */
     1.1    jkunz 		return;
     1.1    jkunz 	if (t == IEE_NCB)
     1.1    jkunz 		ifp->if_flags |= IFF_OACTIVE;
     1.1    jkunz 	bus_dmamap_sync(sc->sc_dmat, sc->sc_shmem_map, IEE_CB_SZ,
     1.1    jkunz 	    IEE_CB_LIST_SZ + IEE_TBD_LIST_SZ, BUS_DMASYNC_PREWRITE);
     1.1    jkunz 	(sc->sc_iee_cmd)(sc, IEE_SCB_CUC_EXE);
     1.1    jkunz 	return;
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /* ioctl routine */
     1.1    jkunz int
     1.1    jkunz iee_ioctl(struct ifnet *ifp, u_long cmd, caddr_t data)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = ifp->if_softc;
     1.1    jkunz 	int s;
     1.1    jkunz 	int err;
     1.1    jkunz
     1.1    jkunz 	s = splnet();
     1.4  thorpej 	switch (cmd) {
     1.4  thorpej 	case SIOCSIFMEDIA:
     1.4  thorpej 	case SIOCGIFMEDIA:
     1.4  thorpej 		err = ifmedia_ioctl(ifp, (struct ifreq *) data,
     1.4  thorpej 		    &sc->sc_ifmedia, cmd);
     1.4  thorpej 		break;
     1.4  thorpej
     1.4  thorpej 	default:
     1.1    jkunz 		err = ether_ioctl(ifp, cmd, data);
     1.4  thorpej 		if (err == ENETRESET) {
     1.4  thorpej 			/*
     1.4  thorpej 			 * Multicast list as changed; set the hardware filter
     1.4  thorpej 			 * accordingly.
     1.4  thorpej 			 */
     1.4  thorpej 			if (ifp->if_flags & IFF_RUNNING) {
     1.4  thorpej 				iee_cb_setup(sc, IEE_CB_CMD_MCS | IEE_CB_S |
     1.4  thorpej 				    IEE_CB_EL | IEE_CB_I);
     1.4  thorpej 				if ((sc->sc_flags & IEE_WANT_MCAST) == 0)
     1.4  thorpej 					(*sc->sc_iee_cmd)(sc, IEE_SCB_CUC_EXE);
     1.4  thorpej 			}
     1.3  thorpej 			err = 0;
     1.4  thorpej 		}
     1.4  thorpej 		break;
     1.1    jkunz 	}
     1.1    jkunz 	splx(s);
     1.1    jkunz 	return(err);
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /* init routine */
     1.1    jkunz int
     1.1    jkunz iee_init(struct ifnet *ifp)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = ifp->if_softc;
     1.1    jkunz 	int r;
     1.1    jkunz 	int t;
     1.1    jkunz 	int n;
     1.1    jkunz 	int err;
     1.1    jkunz
     1.1    jkunz 	sc->sc_next_cb = 0;
     1.1    jkunz 	sc->sc_next_tbd = 0;
     1.1    jkunz 	sc->sc_flags &= ~IEE_WANT_MCAST;
     1.1    jkunz 	sc->sc_rx_done = 0;
     1.1    jkunz 	SC_SCB->scb_crc_err = 0;
     1.1    jkunz 	SC_SCB->scb_align_err = 0;
     1.1    jkunz 	SC_SCB->scb_resource_err = 0;
     1.1    jkunz 	SC_SCB->scb_overrun_err = 0;
     1.1    jkunz 	SC_SCB->scb_rcvcdt_err = 0;
     1.1    jkunz 	SC_SCB->scb_short_fr_err = 0;
     1.1    jkunz 	sc->sc_crc_err = 0;
     1.1    jkunz 	sc->sc_align_err = 0;
     1.1    jkunz 	sc->sc_resource_err = 0;
     1.1    jkunz 	sc->sc_overrun_err = 0;
     1.1    jkunz 	sc->sc_rcvcdt_err = 0;
     1.1    jkunz 	sc->sc_short_fr_err = 0;
     1.1    jkunz 	sc->sc_tx_col = 0;
     1.1    jkunz 	sc->sc_rx_err = 0;
     1.1    jkunz 	sc->sc_cmd_err = 0;
     1.1    jkunz 	/* Create Transmit DMA maps. */
     1.1    jkunz 	for (t = 0 ; t < IEE_NCB ; t++) {
     1.1    jkunz 		if (sc->sc_tx_map[t] == NULL && bus_dmamap_create(sc->sc_dmat,
     1.8    perry 		    MCLBYTES, IEE_NTBD, MCLBYTES, 0, BUS_DMA_NOWAIT,
     1.1    jkunz 		    &sc->sc_tx_map[t]) != 0) {
     1.8    perry 			printf("%s: iee_init: can't create TX DMA map\n",
     1.1    jkunz 			    sc->sc_dev.dv_xname);
     1.1    jkunz 			for (n = 0 ; n < t ; n++)
     1.8    perry 				bus_dmamap_destroy(sc->sc_dmat,
     1.1    jkunz 				    sc->sc_tx_map[n]);
     1.1    jkunz 			return(ENOBUFS);
     1.1    jkunz 		}
     1.1    jkunz 	}
     1.1    jkunz 	/* Initialize Receive Frame and Receive Buffer Descriptors */
     1.1    jkunz 	err = 0;
     1.1    jkunz 	memset(SC_RFD(0), 0, IEE_RFD_LIST_SZ);
     1.1    jkunz 	memset(SC_RBD(0), 0, IEE_RBD_LIST_SZ);
     1.1    jkunz 	for (r = 0 ; r < IEE_NRFD ; r++) {
     1.1    jkunz 		SC_RFD(r)->rfd_cmd = IEE_RFD_SF;
     1.1    jkunz 		SC_RFD(r)->rfd_link_addr = IEE_PHYS_SHMEM(IEE_RFD_OFF
     1.1    jkunz 		    + IEE_RFD_SZ * ((r + 1) % IEE_NRFD));
     1.1    jkunz
     1.8    perry 		SC_RBD(r)->rbd_next_rbd = IEE_PHYS_SHMEM(IEE_RBD_OFF
     1.1    jkunz 		    + IEE_RBD_SZ * ((r + 1) % IEE_NRFD));
     1.1    jkunz 		if (sc->sc_rx_mbuf[r] == NULL) {
     1.1    jkunz 			MGETHDR(sc->sc_rx_mbuf[r], M_DONTWAIT, MT_DATA);
     1.1    jkunz 			if (sc->sc_rx_mbuf[r] == NULL) {
     1.8    perry 				printf("%s: iee_init: can't allocate mbuf\n",
     1.1    jkunz 				    sc->sc_dev.dv_xname);
     1.1    jkunz 				err = 1;
     1.1    jkunz 				break;
     1.1    jkunz 			}
     1.1    jkunz 			MCLAIM(sc->sc_rx_mbuf[r],&sc->sc_ethercom.ec_rx_mowner);
     1.1    jkunz 			MCLGET(sc->sc_rx_mbuf[r], M_DONTWAIT);
     1.1    jkunz 			if ((sc->sc_rx_mbuf[r]->m_flags & M_EXT) == 0) {
     1.1    jkunz 				printf("%s: iee_init: can't allocate mbuf"
     1.1    jkunz 				    " cluster\n", sc->sc_dev.dv_xname);
     1.1    jkunz 				m_freem(sc->sc_rx_mbuf[r]);
     1.1    jkunz 				err = 1;
     1.1    jkunz 				break;
     1.1    jkunz 			}
     1.1    jkunz 		}
     1.1    jkunz 		if (sc->sc_rx_map[r] == NULL && bus_dmamap_create(sc->sc_dmat,
     1.8    perry 		    MCLBYTES, 1, MCLBYTES , 0, BUS_DMA_NOWAIT,
     1.1    jkunz 		    &sc->sc_rx_map[r]) != 0) {
     1.1    jkunz 				printf("%s: iee_init: can't create RX "
     1.1    jkunz 				    "DMA map\n", sc->sc_dev.dv_xname);
     1.1    jkunz 				m_freem(sc->sc_rx_mbuf[r]);
     1.1    jkunz 				err = 1;
     1.1    jkunz 				break;
     1.1    jkunz 			}
     1.1    jkunz 		if (bus_dmamap_load(sc->sc_dmat, sc->sc_rx_map[r],
     1.8    perry 		    sc->sc_rx_mbuf[r]->m_ext.ext_buf,
     1.1    jkunz 		    sc->sc_rx_mbuf[r]->m_ext.ext_size, NULL,
     1.1    jkunz 		    BUS_DMA_READ | BUS_DMA_NOWAIT) != 0) {
     1.1    jkunz 			printf("%s: iee_init: can't load RX DMA map\n",
     1.1    jkunz 			    sc->sc_dev.dv_xname);
     1.1    jkunz 			bus_dmamap_destroy(sc->sc_dmat, sc->sc_rx_map[r]);
     1.1    jkunz 			m_freem(sc->sc_rx_mbuf[r]);
     1.1    jkunz 			err = 1;
     1.1    jkunz 			break;
     1.1    jkunz 		}
     1.1    jkunz 		bus_dmamap_sync(sc->sc_dmat, sc->sc_rx_map[r], 0,
     1.1    jkunz 		    sc->sc_rx_mbuf[r]->m_ext.ext_size, BUS_DMASYNC_PREREAD);
     1.1    jkunz 		SC_RBD(r)->rbd_size = sc->sc_rx_map[r]->dm_segs[0].ds_len;
     1.1    jkunz 		SC_RBD(r)->rbd_rb_addr= sc->sc_rx_map[r]->dm_segs[0].ds_addr;
     1.1    jkunz 	}
     1.1    jkunz 	SC_RFD(0)->rfd_rbd_addr = IEE_PHYS_SHMEM(IEE_RBD_OFF);
     1.1    jkunz 	if (err != 0) {
     1.1    jkunz 		for (n = 0 ; n < r; n++) {
     1.1    jkunz 			m_freem(sc->sc_rx_mbuf[n]);
     1.1    jkunz 			sc->sc_rx_mbuf[n] = NULL;
     1.1    jkunz 			bus_dmamap_unload(sc->sc_dmat, sc->sc_rx_map[n]);
     1.1    jkunz 			bus_dmamap_destroy(sc->sc_dmat, sc->sc_rx_map[n]);
     1.1    jkunz 			sc->sc_rx_map[n] = NULL;
     1.1    jkunz 		}
     1.1    jkunz 		for (n = 0 ; n < t ; n++) {
     1.1    jkunz 			bus_dmamap_destroy(sc->sc_dmat, sc->sc_tx_map[n]);
     1.1    jkunz 			sc->sc_tx_map[n] = NULL;
     1.1    jkunz 		}
     1.1    jkunz 		return(ENOBUFS);
     1.1    jkunz 	}
     1.1    jkunz
     1.1    jkunz 	(sc->sc_iee_reset)(sc);
     1.1    jkunz 	iee_cb_setup(sc, IEE_CB_CMD_IAS);
     1.1    jkunz 	sc->sc_cf[0] = IEE_CF_0_DEF | IEE_CF_0_PREF;
     1.1    jkunz 	sc->sc_cf[1] = IEE_CF_1_DEF;
     1.1    jkunz 	sc->sc_cf[2] = IEE_CF_2_DEF;
     1.8    perry 	sc->sc_cf[3] = IEE_CF_3_ADDRLEN_DEF | IEE_CF_3_NSAI
     1.1    jkunz 	    | IEE_CF_3_PREAMLEN_DEF;
     1.1    jkunz 	sc->sc_cf[4] = IEE_CF_4_DEF;
     1.1    jkunz 	sc->sc_cf[5] = IEE_CF_5_DEF;
     1.1    jkunz 	sc->sc_cf[6] = IEE_CF_6_DEF;
     1.1    jkunz 	sc->sc_cf[7] = IEE_CF_7_DEF;
     1.1    jkunz 	sc->sc_cf[8] = IEE_CF_8_DEF;
     1.1    jkunz 	sc->sc_cf[9] = IEE_CF_9_DEF;
     1.1    jkunz 	sc->sc_cf[10] = IEE_CF_10_DEF;
     1.1    jkunz 	sc->sc_cf[11] = IEE_CF_11_DEF & ~IEE_CF_11_LNGFLD;
     1.1    jkunz 	sc->sc_cf[12] = IEE_CF_12_DEF;
     1.1    jkunz 	sc->sc_cf[13] = IEE_CF_13_DEF;
     1.1    jkunz 	iee_cb_setup(sc, IEE_CB_CMD_CONF | IEE_CB_S | IEE_CB_EL);
     1.1    jkunz 	SC_SCB->scb_rfa_addr = IEE_PHYS_SHMEM(IEE_RFD_OFF);
     1.1    jkunz 	bus_dmamap_sync(sc->sc_dmat, sc->sc_shmem_map, 0, IEE_SHMEM_MAX,
     1.1    jkunz 	    BUS_DMASYNC_PREWRITE);
     1.1    jkunz 	(sc->sc_iee_cmd)(sc, IEE_SCB_CUC_EXE | IEE_SCB_RUC_ST);
     1.1    jkunz 	/* Issue a Channel Attention to ACK interrupts we may have caused. */
     1.1    jkunz 	(sc->sc_iee_cmd)(sc, IEE_SCB_ACK);
     1.1    jkunz
     1.1    jkunz 	/* Mark the interface as running and ready to RX/TX packets. */
     1.1    jkunz 	ifp->if_flags |= IFF_RUNNING;
     1.1    jkunz 	ifp->if_flags &= ~IFF_OACTIVE;
     1.1    jkunz 	return(0);
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /* stop routine */
     1.1    jkunz void
     1.1    jkunz iee_stop(struct ifnet *ifp, int disable)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = ifp->if_softc;
     1.1    jkunz 	int n;
     1.1    jkunz
     1.1    jkunz 	ifp->if_flags &= ~IFF_RUNNING;
     1.1    jkunz 	ifp->if_flags |= IFF_OACTIVE;
     1.1    jkunz 	ifp->if_timer = 0;
     1.1    jkunz 	/* Reset the chip to get it quiet. */
     1.1    jkunz 	(sc->sc_iee_reset)(ifp->if_softc);
     1.1    jkunz 	/* Issue a Channel Attention to ACK interrupts we may have caused. */
     1.1    jkunz 	(sc->sc_iee_cmd)(ifp->if_softc, IEE_SCB_ACK);
1.11.4.1   rpaulo 	/* Release any dynamically allocated resources. */
     1.1    jkunz 	for (n = 0 ; n < IEE_NCB ; n++) {
     1.1    jkunz 		if (sc->sc_tx_map[n] != NULL)
     1.1    jkunz 			bus_dmamap_destroy(sc->sc_dmat, sc->sc_tx_map[n]);
     1.1    jkunz 		sc->sc_tx_map[n] = NULL;
     1.1    jkunz 	}
     1.1    jkunz 	for (n = 0 ; n < IEE_NRFD ; n++) {
     1.1    jkunz 		if (sc->sc_rx_mbuf[n] != NULL)
     1.1    jkunz 			m_freem(sc->sc_rx_mbuf[n]);
     1.1    jkunz 		sc->sc_rx_mbuf[n] = NULL;
     1.1    jkunz 		if (sc->sc_rx_map[n] != NULL) {
     1.1    jkunz 			bus_dmamap_unload(sc->sc_dmat, sc->sc_rx_map[n]);
     1.1    jkunz 			bus_dmamap_destroy(sc->sc_dmat, sc->sc_rx_map[n]);
     1.1    jkunz 		}
     1.1    jkunz 		sc->sc_rx_map[n] = NULL;
     1.1    jkunz 	}
     1.1    jkunz 	return;
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /* timer routine */
     1.1    jkunz void
     1.1    jkunz iee_watchdog(struct ifnet *ifp)
     1.1    jkunz {
     1.1    jkunz 	struct iee_softc *sc = ifp->if_softc;
     1.1    jkunz
     1.1    jkunz 	(sc->sc_iee_reset)(sc);
     1.1    jkunz 	if (sc->sc_next_tbd != 0)
     1.8    perry 		printf("%s: iee_watchdog: transmit timeout %d\n",
     1.1    jkunz 		    sc->sc_dev.dv_xname, ++sc->sc_tx_timeout);
     1.1    jkunz 	else
     1.8    perry 		printf("%s: iee_watchdog: setup timeout %d\n",
     1.1    jkunz 		    sc->sc_dev.dv_xname, ++sc->sc_setup_timeout);
     1.1    jkunz 	iee_init(ifp);
     1.1    jkunz 	return;
     1.1    jkunz }
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz
     1.1    jkunz /* routine to release res. */
     1.1    jkunz void
     1.1    jkunz iee_drain(struct ifnet *ifp)
     1.1    jkunz {
     1.1    jkunz 	iee_stop(ifp, 0);
     1.1    jkunz 	return;
     1.1    jkunz }