1*28927Skarels /* @(#)if_qe.c 6.2 (Berkeley) 05/31/86 */ 227477Skjd 327915Skarels /* from @(#)if_qe.c 1.15 (ULTRIX) 4/16/86 */ 427477Skjd 527477Skjd 627477Skjd /**************************************************************** 727477Skjd * * 827477Skjd * Licensed from Digital Equipment Corporation * 927477Skjd * Copyright (c) * 1027477Skjd * Digital Equipment Corporation * 1127477Skjd * Maynard, Massachusetts * 1227477Skjd * 1985, 1986 * 1327477Skjd * All rights reserved. * 1427477Skjd * * 1527477Skjd * The Information in this software is subject to change * 1627477Skjd * without notice and should not be construed as a commitment * 1727477Skjd * by Digital Equipment Corporation. Digital makes no * 1827477Skjd * representations about the suitability of this software for * 1927477Skjd * any purpose. It is supplied "As Is" without expressed or * 2027477Skjd * implied warranty. * 2127477Skjd * * 2227477Skjd * If the Regents of the University of California or its * 2327477Skjd * licensees modify the software in a manner creating * 2427915Skarels * derivative copyright rights, appropriate copyright * 2527915Skarels * legends may be placed on the derivative work in addition * 2627477Skjd * to that set forth above. * 2727477Skjd * * 2827477Skjd ****************************************************************/ 2927477Skjd /* --------------------------------------------------------------------- 3027477Skjd * Modification History 3127477Skjd * 3227477Skjd * 15-Apr-86 -- afd 3327477Skjd * Rename "unused_multi" to "qunused_multi" for extending Generic 3427477Skjd * kernel to MicroVAXen. 3527477Skjd * 3627477Skjd * 18-mar-86 -- jaw br/cvec changed to NOT use registers. 3727477Skjd * 3827477Skjd * 12 March 86 -- Jeff Chase 3927477Skjd * Modified to handle the new MCLGET macro 4027477Skjd * Changed if_qe_data.c to use more receive buffers 4127477Skjd * Added a flag to poke with adb to log qe_restarts on console 4227477Skjd * 4327477Skjd * 19 Oct 85 -- rjl 4427477Skjd * Changed the watch dog timer from 30 seconds to 3. VMS is using 4527477Skjd * less than 1 second in their's. Also turned the printf into an 4627477Skjd * mprintf. 4727477Skjd * 4827477Skjd * 09/16/85 -- Larry Cohen 4927477Skjd * Add 43bsd alpha tape changes for subnet routing 5027477Skjd * 5127477Skjd * 1 Aug 85 -- rjl 5227477Skjd * Panic on a non-existent memory interrupt and the case where a packet 5327477Skjd * was chained. The first should never happen because non-existant 5427477Skjd * memory interrupts cause a bus reset. The second should never happen 5527477Skjd * because we hang 2k input buffers on the device. 5627477Skjd * 5727477Skjd * 1 Aug 85 -- rich 5827477Skjd * Fixed the broadcast loopback code to handle Clusters without 5927477Skjd * wedging the system. 6027477Skjd * 6127477Skjd * 27 Feb. 85 -- ejf 6227477Skjd * Return default hardware address on ioctl request. 6327477Skjd * 6427477Skjd * 12 Feb. 85 -- ejf 6527477Skjd * Added internal extended loopback capability. 6627477Skjd * 6727477Skjd * 27 Dec. 84 -- rjl 6827477Skjd * Fixed bug that caused every other transmit descriptor to be used 6927477Skjd * instead of every descriptor. 7027477Skjd * 7127477Skjd * 21 Dec. 84 -- rjl 7227477Skjd * Added watchdog timer to mask hardware bug that causes device lockup. 7327477Skjd * 7427477Skjd * 18 Dec. 84 -- rjl 7527477Skjd * Reworked driver to use q-bus mapping routines. MicroVAX-I now does 7627477Skjd * copying instead of m-buf shuffleing. 7727477Skjd * A number of deficencies in the hardware/firmware were compensated 7827477Skjd * for. See comments in qestart and qerint. 7927477Skjd * 8027477Skjd * 14 Nov. 84 -- jf 8127477Skjd * Added usage counts for multicast addresses. 8227477Skjd * Updated general protocol support to allow access to the Ethernet 8327477Skjd * header. 8427477Skjd * 8527477Skjd * 04 Oct. 84 -- jf 8627477Skjd * Added support for new ioctls to add and delete multicast addresses 8727477Skjd * and set the physical address. 8827477Skjd * Add support for general protocols. 8927477Skjd * 9027477Skjd * 14 Aug. 84 -- rjl 9127477Skjd * Integrated Shannon changes. (allow arp above 1024 and ? ) 9227477Skjd * 9327477Skjd * 13 Feb. 84 -- rjl 9427477Skjd * 9527477Skjd * Initial version of driver. derived from IL driver. 9627477Skjd * 9727477Skjd * --------------------------------------------------------------------- 9827477Skjd */ 9927477Skjd 10027477Skjd #include "qe.h" 10127915Skarels #if NQE > 0 10227477Skjd /* 10327477Skjd * Digital Q-BUS to NI Adapter 10427477Skjd */ 10527915Skarels #include "../machine/pte.h" 10627915Skarels 10727915Skarels #include "param.h" 10827915Skarels #include "systm.h" 10927915Skarels #include "mbuf.h" 11027915Skarels #include "buf.h" 11127915Skarels #include "protosw.h" 11227915Skarels #include "socket.h" 11327915Skarels #include "vmmac.h" 11427915Skarels #include "ioctl.h" 11527915Skarels #include "errno.h" 11627915Skarels #include "syslog.h" 11727915Skarels #include "time.h" 11827915Skarels #include "kernel.h" 11927915Skarels 12027915Skarels #include "../net/if.h" 12127915Skarels #include "../net/netisr.h" 12227915Skarels #include "../net/route.h" 12327915Skarels 12427915Skarels #ifdef INET 12527915Skarels #include "../netinet/in.h" 12627915Skarels #include "../netinet/in_systm.h" 12727915Skarels #include "../netinet/in_var.h" 12827915Skarels #include "../netinet/ip.h" 12927915Skarels #include "../netinet/if_ether.h" 13027915Skarels #endif 13127915Skarels 13227915Skarels #ifdef NS 13327915Skarels #include "../netns/ns.h" 13427915Skarels #include "../netns/ns_if.h" 13527915Skarels #endif 13627915Skarels 13727915Skarels #include "../vax/cpu.h" 13827915Skarels #include "../vax/mtpr.h" 13927915Skarels #include "if_qereg.h" 14027915Skarels #include "if_uba.h" 14127915Skarels #include "../vaxuba/ubareg.h" 14227915Skarels #include "../vaxuba/ubavar.h" 14327477Skjd 14427915Skarels #define NRCV 25 /* Receive descriptors */ 14527915Skarels #define NXMT 5 /* Transmit descriptors */ 14627915Skarels #define NTOT (NXMT + NRCV) 14727915Skarels 14827915Skarels /* 14927915Skarels * This constant should really be 60 because the qna adds 4 bytes of crc. 15027915Skarels * However when set to 60 our packets are ignored by deuna's , 3coms are 15127915Skarels * okay ?????????????????????????????????????????? 15227915Skarels */ 15327915Skarels #define MINDATA 64 15427915Skarels 15527915Skarels /* 15627915Skarels * Ethernet software status per interface. 15727915Skarels * 15827915Skarels * Each interface is referenced by a network interface structure, 15927915Skarels * is_if, which the routing code uses to locate the interface. 16027915Skarels * This structure contains the output queue for the interface, its address, ... 16127915Skarels */ 16227915Skarels struct qe_softc { 16327915Skarels struct arpcom is_ac; /* Ethernet common part */ 16427915Skarels #define is_if is_ac.ac_if /* network-visible interface */ 16527915Skarels #define is_addr is_ac.ac_enaddr /* hardware Ethernet address */ 16627915Skarels struct ifubinfo qe_uba; /* Q-bus resources */ 16727915Skarels struct ifrw qe_ifr[NRCV]; /* for receive buffers; */ 16827915Skarels struct ifxmt qe_ifw[NXMT]; /* for xmit buffers; */ 16927915Skarels int qe_flags; /* software state */ 17027915Skarels #define QEF_RUNNING 0x01 17127915Skarels #define QEF_SETADDR 0x02 17227915Skarels int setupaddr; /* mapping info for setup pkts */ 17327915Skarels struct qe_ring *rringaddr; /* mapping info for rings */ 17427915Skarels struct qe_ring *tringaddr; /* "" */ 17527915Skarels struct qe_ring rring[NRCV+1]; /* Receive ring descriptors */ 17627915Skarels struct qe_ring tring[NXMT+1]; /* Transmit ring descriptors */ 17727915Skarels u_char setup_pkt[16][8]; /* Setup packet */ 17827915Skarels int rindex; /* Receive index */ 17927915Skarels int tindex; /* Transmit index */ 18027915Skarels int otindex; /* Old transmit index */ 18127915Skarels int qe_intvec; /* Interrupt vector */ 18227915Skarels struct qedevice *addr; /* device addr */ 18327915Skarels int setupqueued; /* setup packet queued */ 18427915Skarels int nxmit; /* Transmits in progress */ 18527915Skarels int timeout; /* watchdog */ 18627915Skarels int qe_restarts; /* timeouts */ 18727915Skarels } qe_softc[NQE]; 18827915Skarels 18927915Skarels struct uba_device *qeinfo[NQE]; 19027915Skarels 19127477Skjd extern struct timeval time; 19227477Skjd extern timeout(); 19327477Skjd 19427477Skjd int qeprobe(), qeattach(), qeint(), qewatch(); 19527477Skjd int qeinit(),qeoutput(),qeioctl(),qereset(),qewatch(); 19627477Skjd 19727477Skjd u_short qestd[] = { 0 }; 19827477Skjd struct uba_driver qedriver = 19927477Skjd { qeprobe, 0, qeattach, 0, qestd, "qe", qeinfo }; 20027477Skjd 20127477Skjd #define QE_TIMEO (15) 20227477Skjd #define QEUNIT(x) minor(x) 20327477Skjd static int mask = 0x3ffff; /* address mask */ 20427477Skjd int qewatchrun = 0; /* watchdog running */ 20527477Skjd /* 20627915Skarels * The deqna shouldn't receive more than ETHERMTU + sizeof(struct ether_header) 20727477Skjd * but will actually take in up to 2048 bytes. To guard against the receiver 20827477Skjd * chaining buffers (which we aren't prepared to handle) we allocate 2kb 20927477Skjd * size buffers. 21027477Skjd */ 21127477Skjd #define MAXPACKETSIZE 2048 /* Should really be ETHERMTU */ 21227477Skjd /* 21327477Skjd * Probe the QNA to see if it's there 21427477Skjd */ 21527477Skjd qeprobe(reg) 21627477Skjd caddr_t reg; 21727477Skjd { 21827915Skarels register int br, cvec; /* r11, r10 value-result */ 21927477Skjd register struct qedevice *addr = (struct qedevice *)reg; 22027477Skjd register struct qe_ring *rp; 22127477Skjd register struct qe_ring *prp; /* physical rp */ 222*28927Skarels register int i, j; 22327477Skjd static int next=0; /* softc index */ 22427477Skjd register struct qe_softc *sc = &qe_softc[next++]; 22527477Skjd 226*28927Skarels #ifdef lint 227*28927Skarels br = 0; cvec = br; br = cvec; 228*28927Skarels qeintr(i); 229*28927Skarels #endif 23027477Skjd /* 23127477Skjd * Set the address mask for the particular cpu 23227477Skjd */ 23327915Skarels mask = 0x3ffff; 23427477Skjd 23527477Skjd /* 23627477Skjd * The QNA interrupts on i/o operations. To do an I/O operation 23727477Skjd * we have to setup the interface by transmitting a setup packet. 23827477Skjd */ 23927477Skjd addr->qe_csr = QE_RESET; 24027477Skjd addr->qe_vector = (uba_hd[numuba].uh_lastiv -= 4); 24127477Skjd 24227477Skjd /* 24327477Skjd * Map the communications area and the setup packet. 24427477Skjd */ 24527477Skjd sc->setupaddr = 24627477Skjd uballoc(0, sc->setup_pkt, sizeof(sc->setup_pkt), 0); 24727477Skjd sc->rringaddr = (struct qe_ring *) 24827915Skarels uballoc(0, sc->rring, sizeof(struct qe_ring) * (NTOT+2), 0); 24927477Skjd prp = (struct qe_ring *)((int)sc->rringaddr & mask); 25027477Skjd 25127477Skjd /* 25227477Skjd * The QNA will loop the setup packet back to the receive ring 25327477Skjd * for verification, therefore we initialize the first 25427477Skjd * receive & transmit ring descriptors and link the setup packet 25527477Skjd * to them. 25627477Skjd */ 25727477Skjd qeinitdesc( sc->tring, sc->setupaddr & mask, sizeof(sc->setup_pkt)); 25827477Skjd qeinitdesc( sc->rring, sc->setupaddr & mask, sizeof(sc->setup_pkt)); 25927477Skjd 26027477Skjd rp = (struct qe_ring *)sc->tring; 26127477Skjd rp->qe_setup = 1; 26227477Skjd rp->qe_eomsg = 1; 26327477Skjd rp->qe_flag = rp->qe_status1 = QE_NOTYET; 26427477Skjd rp->qe_valid = 1; 26527477Skjd 26627477Skjd rp = (struct qe_ring *)sc->rring; 26727477Skjd rp->qe_flag = rp->qe_status1 = QE_NOTYET; 26827477Skjd rp->qe_valid = 1; 26927477Skjd 27027477Skjd /* 27127477Skjd * Get the addr off of the interface and place it into the setup 27227477Skjd * packet. This code looks strange due to the fact that the address 27327477Skjd * is placed in the setup packet in col. major order. 27427477Skjd */ 27527477Skjd for( i = 0 ; i < 6 ; i++ ) 27627477Skjd sc->setup_pkt[i][1] = addr->qe_sta_addr[i]; 27727477Skjd 27827477Skjd qesetup( sc ); 27927477Skjd /* 28027477Skjd * Start the interface and wait for the packet. 28127477Skjd */ 28227477Skjd j = cvec; 28327477Skjd addr->qe_csr = QE_INT_ENABLE | QE_XMIT_INT | QE_RCV_INT; 28427477Skjd addr->qe_rcvlist_lo = (short)prp; 28527477Skjd addr->qe_rcvlist_hi = (short)((int)prp >> 16); 28627915Skarels prp += NRCV+1; 28727477Skjd addr->qe_xmtlist_lo = (short)prp; 28827477Skjd addr->qe_xmtlist_hi = (short)((int)prp >> 16); 28927477Skjd DELAY(10000); 29027477Skjd /* 29127915Skarels * All done with the bus resources. 29227477Skjd */ 29327915Skarels ubarelse(0, &sc->setupaddr); 29427915Skarels ubarelse(0, &sc->rringaddr); 29527477Skjd if( cvec == j ) 29627477Skjd return 0; /* didn't interrupt */ 29727477Skjd 29827477Skjd return( sizeof(struct qedevice) ); 29927477Skjd } 30027477Skjd 30127477Skjd /* 30227477Skjd * Interface exists: make available by filling in network interface 30327477Skjd * record. System will initialize the interface when it is ready 30427477Skjd * to accept packets. 30527477Skjd */ 30627477Skjd qeattach(ui) 30727477Skjd struct uba_device *ui; 30827477Skjd { 30927477Skjd register struct qe_softc *sc = &qe_softc[ui->ui_unit]; 31027477Skjd register struct ifnet *ifp = &sc->is_if; 31127477Skjd register struct qedevice *addr = (struct qedevice *)ui->ui_addr; 31227477Skjd register int i; 31327477Skjd 31427477Skjd ifp->if_unit = ui->ui_unit; 31527477Skjd ifp->if_name = "qe"; 31627477Skjd ifp->if_mtu = ETHERMTU; 31727915Skarels ifp->if_flags = IFF_BROADCAST; 31827477Skjd 31927477Skjd /* 32027477Skjd * Read the address from the prom and save it. 32127477Skjd */ 32227477Skjd for( i=0 ; i<6 ; i++ ) 32327477Skjd sc->setup_pkt[i][1] = sc->is_addr[i] = addr->qe_sta_addr[i] & 0xff; 32427477Skjd 32527477Skjd /* 32627477Skjd * Save the vector for initialization at reset time. 32727477Skjd */ 32827477Skjd sc->qe_intvec = addr->qe_vector; 32927477Skjd 33027477Skjd ifp->if_init = qeinit; 33127477Skjd ifp->if_output = qeoutput; 33227477Skjd ifp->if_ioctl = qeioctl; 33327477Skjd ifp->if_reset = qereset; 33427915Skarels sc->qe_uba.iff_flags = UBA_CANTWAIT; 33527477Skjd if_attach(ifp); 33627477Skjd } 33727477Skjd 33827477Skjd /* 33927477Skjd * Reset of interface after UNIBUS reset. 34027477Skjd * If interface is on specified uba, reset its state. 34127477Skjd */ 34227477Skjd qereset(unit, uban) 34327477Skjd int unit, uban; 34427477Skjd { 34527477Skjd register struct uba_device *ui; 34627477Skjd 34727915Skarels if (unit >= NQE || (ui = qeinfo[unit]) == 0 || ui->ui_alive == 0 || 34827477Skjd ui->ui_ubanum != uban) 34927477Skjd return; 35027477Skjd printf(" qe%d", unit); 35127915Skarels qe_softc[unit].is_if.if_flags &= ~IFF_RUNNING; 35227477Skjd qeinit(unit); 35327477Skjd } 35427477Skjd 35527477Skjd /* 35627477Skjd * Initialization of interface. 35727477Skjd */ 35827477Skjd qeinit(unit) 35927477Skjd int unit; 36027477Skjd { 36127477Skjd register struct qe_softc *sc = &qe_softc[unit]; 36227477Skjd register struct uba_device *ui = qeinfo[unit]; 36327477Skjd register struct qedevice *addr = (struct qedevice *)ui->ui_addr; 36427477Skjd register struct ifnet *ifp = &sc->is_if; 36527477Skjd register i; 36627477Skjd int s; 36727477Skjd 36827477Skjd /* address not known */ 36927477Skjd if (ifp->if_addrlist == (struct ifaddr *)0) 37027477Skjd return; 37127915Skarels if (sc->qe_flags & QEF_RUNNING) 37227477Skjd return; 37327477Skjd 37427915Skarels if ((ifp->if_flags & IFF_RUNNING) == 0) { 37527915Skarels /* 37627915Skarels * map the communications area onto the device 37727915Skarels */ 37827915Skarels sc->rringaddr = (struct qe_ring *)((int)uballoc(0, sc->rring, 37927915Skarels sizeof(struct qe_ring) * (NTOT+2), 0) & mask); 38027915Skarels sc->tringaddr = sc->rringaddr + NRCV + 1; 38127915Skarels sc->setupaddr = uballoc(0, sc->setup_pkt, 38227915Skarels sizeof(sc->setup_pkt), 0) & mask; 38327915Skarels /* 38427915Skarels * init buffers and maps 38527915Skarels */ 38627915Skarels if (if_ubaminit(&sc->qe_uba, ui->ui_ubanum, 38727915Skarels sizeof (struct ether_header), (int)btoc(MAXPACKETSIZE), 38827915Skarels sc->qe_ifr, NRCV, sc->qe_ifw, NXMT) == 0) { 38927915Skarels printf("qe%d: can't initialize\n", unit); 39027915Skarels sc->is_if.if_flags &= ~IFF_UP; 39127915Skarels return; 39227915Skarels } 39327477Skjd } 39427477Skjd /* 39527477Skjd * Init the buffer descriptors and indexes for each of the lists and 39627477Skjd * loop them back to form a ring. 39727477Skjd */ 39827915Skarels for (i = 0; i < NRCV; i++) { 39927477Skjd qeinitdesc( &sc->rring[i], 40027915Skarels sc->qe_ifr[i].ifrw_info & mask, MAXPACKETSIZE); 40127477Skjd sc->rring[i].qe_flag = sc->rring[i].qe_status1 = QE_NOTYET; 40227477Skjd sc->rring[i].qe_valid = 1; 40327477Skjd } 40427477Skjd qeinitdesc( &sc->rring[i], NULL, 0 ); 40527477Skjd 40627477Skjd sc->rring[i].qe_addr_lo = (short)sc->rringaddr; 40727477Skjd sc->rring[i].qe_addr_hi = (short)((int)sc->rringaddr >> 16); 40827477Skjd sc->rring[i].qe_chain = 1; 40927477Skjd sc->rring[i].qe_flag = sc->rring[i].qe_status1 = QE_NOTYET; 41027477Skjd sc->rring[i].qe_valid = 1; 41127477Skjd 41227915Skarels for( i = 0 ; i <= NXMT ; i++ ) 41327477Skjd qeinitdesc( &sc->tring[i], NULL, 0 ); 41427477Skjd i--; 41527477Skjd 41627477Skjd sc->tring[i].qe_addr_lo = (short)sc->tringaddr; 41727477Skjd sc->tring[i].qe_addr_hi = (short)((int)sc->tringaddr >> 16); 41827477Skjd sc->tring[i].qe_chain = 1; 41927477Skjd sc->tring[i].qe_flag = sc->tring[i].qe_status1 = QE_NOTYET; 42027477Skjd sc->tring[i].qe_valid = 1; 42127477Skjd 42227477Skjd sc->nxmit = sc->otindex = sc->tindex = sc->rindex = 0; 42327477Skjd 42427477Skjd /* 42527477Skjd * Take the interface out of reset, program the vector, 42627477Skjd * enable interrupts, and tell the world we are up. 42727477Skjd */ 42827477Skjd s = splimp(); 42927477Skjd addr->qe_vector = sc->qe_intvec; 43027477Skjd sc->addr = addr; 43127915Skarels addr->qe_csr = QE_RCV_ENABLE | QE_INT_ENABLE | QE_XMIT_INT | 43227915Skarels QE_RCV_INT | QE_ILOOP; 43327477Skjd addr->qe_rcvlist_lo = (short)sc->rringaddr; 43427477Skjd addr->qe_rcvlist_hi = (short)((int)sc->rringaddr >> 16); 43527477Skjd ifp->if_flags |= IFF_UP | IFF_RUNNING; 43627915Skarels sc->qe_flags |= QEF_RUNNING; 43727477Skjd qesetup( sc ); 43827477Skjd qestart( unit ); 43927477Skjd splx( s ); 44027477Skjd 44127477Skjd } 44227477Skjd 44327477Skjd /* 44427477Skjd * Start output on interface. 44527477Skjd * 44627477Skjd */ 44727477Skjd qestart(dev) 44827477Skjd dev_t dev; 44927477Skjd { 45027477Skjd int unit = QEUNIT(dev); 45127477Skjd struct uba_device *ui = qeinfo[unit]; 45227477Skjd register struct qe_softc *sc = &qe_softc[unit]; 45327477Skjd register struct qedevice *addr; 45427477Skjd register struct qe_ring *rp; 45527477Skjd register index; 456*28927Skarels struct mbuf *m; 457*28927Skarels int buf_addr, len, s; 45827477Skjd 45927477Skjd 46027477Skjd s = splimp(); 46127477Skjd addr = (struct qedevice *)ui->ui_addr; 46227477Skjd /* 46327477Skjd * The deqna doesn't look at anything but the valid bit 46427477Skjd * to determine if it should transmit this packet. If you have 46527477Skjd * a ring and fill it the device will loop indefinately on the 46627477Skjd * packet and continue to flood the net with packets until you 46727477Skjd * break the ring. For this reason we never queue more than n-1 46827477Skjd * packets in the transmit ring. 46927477Skjd * 47027477Skjd * The microcoders should have obeyed their own defination of the 47127477Skjd * flag and status words, but instead we have to compensate. 47227477Skjd */ 47327477Skjd for( index = sc->tindex; 47427915Skarels sc->tring[index].qe_valid == 0 && sc->nxmit < (NXMT-1) ; 47527915Skarels sc->tindex = index = ++index % NXMT){ 47627477Skjd rp = &sc->tring[index]; 47727477Skjd if( sc->setupqueued ) { 47827477Skjd buf_addr = sc->setupaddr; 47927477Skjd len = 128; 48027477Skjd rp->qe_setup = 1; 48127477Skjd sc->setupqueued = 0; 48227477Skjd } else { 48327477Skjd IF_DEQUEUE(&sc->is_if.if_snd, m); 48427477Skjd if( m == 0 ){ 48527477Skjd splx(s); 48627477Skjd return; 48727477Skjd } 48827915Skarels buf_addr = sc->qe_ifw[index].ifw_info; 48927915Skarels len = if_ubaput(&sc->qe_uba, &sc->qe_ifw[index], m); 49027477Skjd } 49127477Skjd /* 49227477Skjd * Does buffer end on odd byte ? 49327477Skjd */ 49427477Skjd if( len & 1 ) { 49527477Skjd len++; 49627477Skjd rp->qe_odd_end = 1; 49727477Skjd } 49827477Skjd if( len < MINDATA ) 49927477Skjd len = MINDATA; 50027477Skjd rp->qe_buf_len = -(len/2); 50127477Skjd buf_addr &= mask; 50227477Skjd rp->qe_flag = rp->qe_status1 = QE_NOTYET; 50327477Skjd rp->qe_addr_lo = (short)buf_addr; 50427477Skjd rp->qe_addr_hi = (short)(buf_addr >> 16); 50527477Skjd rp->qe_eomsg = 1; 50627477Skjd rp->qe_flag = rp->qe_status1 = QE_NOTYET; 50727477Skjd rp->qe_valid = 1; 50827477Skjd sc->nxmit++; 50927477Skjd /* 51027477Skjd * If the watchdog time isn't running kick it. 51127477Skjd */ 51227477Skjd sc->timeout=1; 51327477Skjd if( !qewatchrun++ ) 51427477Skjd timeout(qewatch,0,QE_TIMEO); 51527477Skjd 51627477Skjd /* 51727477Skjd * See if the xmit list is invalid. 51827477Skjd */ 51927477Skjd if( addr->qe_csr & QE_XL_INVALID ) { 52027477Skjd buf_addr = (int)(sc->tringaddr+index); 52127477Skjd addr->qe_xmtlist_lo = (short)buf_addr; 52227477Skjd addr->qe_xmtlist_hi = (short)(buf_addr >> 16); 52327477Skjd } 52427477Skjd } 52527477Skjd splx( s ); 52627477Skjd } 52727477Skjd 52827477Skjd /* 52927477Skjd * Ethernet interface interrupt processor 53027477Skjd */ 53127477Skjd qeintr(unit) 53227477Skjd int unit; 53327477Skjd { 53427477Skjd register struct qe_softc *sc = &qe_softc[unit]; 53527477Skjd struct qedevice *addr = (struct qedevice *)qeinfo[unit]->ui_addr; 53627477Skjd int s, buf_addr, csr; 53727477Skjd 53827477Skjd s = splimp(); 53927477Skjd csr = addr->qe_csr; 54027915Skarels addr->qe_csr = QE_RCV_ENABLE | QE_INT_ENABLE | QE_XMIT_INT | QE_RCV_INT | QE_ILOOP; 54127477Skjd if( csr & QE_RCV_INT ) 54227477Skjd qerint( unit ); 54327477Skjd if( csr & QE_XMIT_INT ) 54427477Skjd qetint( unit ); 54527477Skjd if( csr & QE_NEX_MEM_INT ) 54627477Skjd panic("qe: Non existant memory interrupt"); 54727477Skjd 54827477Skjd if( addr->qe_csr & QE_RL_INVALID && sc->rring[sc->rindex].qe_status1 == QE_NOTYET ) { 54927477Skjd buf_addr = (int)&sc->rringaddr[sc->rindex]; 55027477Skjd addr->qe_rcvlist_lo = (short)buf_addr; 55127477Skjd addr->qe_rcvlist_hi = (short)(buf_addr >> 16); 55227477Skjd } 55327477Skjd splx( s ); 55427477Skjd } 55527477Skjd 55627477Skjd /* 55727477Skjd * Ethernet interface transmit interrupt. 55827477Skjd */ 55927477Skjd 56027477Skjd qetint(unit) 56127477Skjd int unit; 56227477Skjd { 56327477Skjd register struct qe_softc *sc = &qe_softc[unit]; 56427477Skjd register struct qe_ring *rp; 56527477Skjd register struct ifxmt *ifxp; 566*28927Skarels int status1, setupflag; 56727477Skjd short len; 56827477Skjd 56927477Skjd 57027477Skjd while( sc->otindex != sc->tindex && sc->tring[sc->otindex].qe_status1 != QE_NOTYET && sc->nxmit > 0 ) { 57127477Skjd /* 57227477Skjd * Save the status words from the descriptor so that it can 57327477Skjd * be released. 57427477Skjd */ 57527477Skjd rp = &sc->tring[sc->otindex]; 57627477Skjd status1 = rp->qe_status1; 57727477Skjd status2 = rp->qe_status2; 57827477Skjd setupflag = rp->qe_setup; 57927477Skjd len = (-rp->qe_buf_len) * 2; 58027477Skjd if( rp->qe_odd_end ) 58127477Skjd len++; 58227477Skjd /* 58327477Skjd * Init the buffer descriptor 58427477Skjd */ 58527477Skjd bzero( rp, sizeof(struct qe_ring)); 58627477Skjd if( --sc->nxmit == 0 ) 58727477Skjd sc->timeout = 0; 58827477Skjd if( !setupflag ) { 58927477Skjd /* 59027477Skjd * Do some statistics. 59127477Skjd */ 59227477Skjd sc->is_if.if_opackets++; 59327477Skjd sc->is_if.if_collisions += ( status1 & QE_CCNT ) >> 4; 59427915Skarels if (status1 & QE_ERROR) 59527477Skjd sc->is_if.if_oerrors++; 59627477Skjd /* 59727477Skjd * If this was a broadcast packet loop it 59827915Skarels * back because the hardware can't hear its own 59927915Skarels * transmits. 60027477Skjd */ 60127915Skarels ifxp = &sc->qe_ifw[sc->otindex]; 60227915Skarels if (bcmp((caddr_t)ifxp->ifw_addr, 60327915Skarels (caddr_t)etherbroadcastaddr, 60427915Skarels sizeof(etherbroadcastaddr)) == 0) 60527915Skarels qeread(sc, &ifxp->ifrw, len); 60627915Skarels if (ifxp->ifw_xtofree) { 60727915Skarels m_freem(ifxp->ifw_xtofree); 60827915Skarels ifxp->ifw_xtofree = 0; 60927477Skjd } 61027477Skjd } 61127915Skarels sc->otindex = ++sc->otindex % NXMT; 61227477Skjd } 61327477Skjd qestart( unit ); 61427477Skjd } 61527477Skjd 61627477Skjd /* 61727477Skjd * Ethernet interface receiver interrupt. 61827477Skjd * If can't determine length from type, then have to drop packet. 61927477Skjd * Othewise decapsulate packet based on type and pass to type specific 62027477Skjd * higher-level input routine. 62127477Skjd */ 62227477Skjd qerint(unit) 62327477Skjd int unit; 62427477Skjd { 62527477Skjd register struct qe_softc *sc = &qe_softc[unit]; 62627477Skjd register struct qe_ring *rp; 62727477Skjd int len, status1, status2; 62827477Skjd int bufaddr; 62927477Skjd 63027477Skjd /* 63127477Skjd * Traverse the receive ring looking for packets to pass back. 63227477Skjd * The search is complete when we find a descriptor not in use. 63327477Skjd * 63427477Skjd * As in the transmit case the deqna doesn't honor it's own protocols 63527477Skjd * so there exists the possibility that the device can beat us around 63627477Skjd * the ring. The proper way to guard against this is to insure that 63727477Skjd * there is always at least one invalid descriptor. We chose instead 63827477Skjd * to make the ring large enough to minimize the problem. With a ring 63927477Skjd * size of 4 we haven't been able to see the problem. To be safe we 64027477Skjd * doubled that to 8. 64127477Skjd * 64227477Skjd */ 64327915Skarels for( ; sc->rring[sc->rindex].qe_status1 != QE_NOTYET ; sc->rindex = ++sc->rindex % NRCV ){ 64427477Skjd rp = &sc->rring[sc->rindex]; 64527477Skjd status1 = rp->qe_status1; 64627477Skjd status2 = rp->qe_status2; 64727477Skjd bzero( rp, sizeof(struct qe_ring)); 64827477Skjd if( (status1 & QE_MASK) == QE_MASK ) 64927477Skjd panic("qe: chained packet"); 65027915Skarels len = ((status1 & QE_RBL_HI) | (status2 & QE_RBL_LO)) + 60; 65127477Skjd sc->is_if.if_ipackets++; 65227477Skjd 65327915Skarels if (status1 & QE_ERROR) 65427915Skarels sc->is_if.if_ierrors++; 65527915Skarels else { 65627915Skarels /* 65727915Skarels * We don't process setup packets. 65827915Skarels */ 65927915Skarels if( !(status1 & QE_ESETUP) ) 66027915Skarels qeread(sc, &sc->qe_ifr[sc->rindex], 66127915Skarels len - sizeof(struct ether_header)); 66227477Skjd } 66327477Skjd /* 66427477Skjd * Return the buffer to the ring 66527477Skjd */ 66627915Skarels bufaddr = (int)sc->qe_ifr[sc->rindex].ifrw_info & mask; 66727477Skjd rp->qe_buf_len = -((MAXPACKETSIZE)/2); 66827477Skjd rp->qe_addr_lo = (short)bufaddr; 66927477Skjd rp->qe_addr_hi = (short)((int)bufaddr >> 16); 67027477Skjd rp->qe_flag = rp->qe_status1 = QE_NOTYET; 67127477Skjd rp->qe_valid = 1; 67227477Skjd } 67327477Skjd } 67427477Skjd /* 67527477Skjd * Ethernet output routine. 67627477Skjd * Encapsulate a packet of type family for the local net. 67727477Skjd * Use trailer local net encapsulation if enough data in first 67827477Skjd * packet leaves a multiple of 512 bytes of data in remainder. 67927477Skjd */ 68027477Skjd qeoutput(ifp, m0, dst) 68127477Skjd struct ifnet *ifp; 68227477Skjd struct mbuf *m0; 68327477Skjd struct sockaddr *dst; 68427477Skjd { 68527477Skjd int type, s, error; 68627477Skjd u_char edst[6]; 68727477Skjd struct in_addr idst; 68827477Skjd register struct qe_softc *is = &qe_softc[ifp->if_unit]; 68927477Skjd register struct mbuf *m = m0; 69027477Skjd register struct ether_header *eh; 69127477Skjd register int off; 69227915Skarels int usetrailers; 69327477Skjd 69427915Skarels if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) { 69527915Skarels error = ENETDOWN; 69627915Skarels goto bad; 69727915Skarels } 69827915Skarels 69927477Skjd switch (dst->sa_family) { 70027477Skjd 70127477Skjd #ifdef INET 70227477Skjd case AF_INET: 70327477Skjd idst = ((struct sockaddr_in *)dst)->sin_addr; 70427915Skarels if (!arpresolve(&is->is_ac, m, &idst, edst, &usetrailers)) 70527477Skjd return (0); /* if not yet resolved */ 70627477Skjd off = ntohs((u_short)mtod(m, struct ip *)->ip_len) - m->m_len; 70727915Skarels if (usetrailers && off > 0 && (off & 0x1ff) == 0 && 70827915Skarels m->m_off >= MMINOFF + 2 * sizeof (u_short)) { 70927477Skjd type = ETHERTYPE_TRAIL + (off>>9); 71027477Skjd m->m_off -= 2 * sizeof (u_short); 71127477Skjd m->m_len += 2 * sizeof (u_short); 71227477Skjd *mtod(m, u_short *) = htons((u_short)ETHERTYPE_IP); 71327477Skjd *(mtod(m, u_short *) + 1) = htons((u_short)m->m_len); 71427915Skarels goto gottrailertype; 71527477Skjd } 71627477Skjd type = ETHERTYPE_IP; 71727477Skjd off = 0; 71827477Skjd goto gottype; 71927477Skjd #endif 72027915Skarels #ifdef NS 72127915Skarels case AF_NS: 72227915Skarels type = ETHERTYPE_NS; 72327915Skarels bcopy((caddr_t)&(((struct sockaddr_ns *)dst)->sns_addr.x_host), 72427915Skarels (caddr_t)edst, sizeof (edst)); 72527915Skarels off = 0; 72627915Skarels goto gottype; 72727915Skarels #endif 72827915Skarels 72927477Skjd 73027477Skjd case AF_UNSPEC: 73127477Skjd eh = (struct ether_header *)dst->sa_data; 73227477Skjd bcopy((caddr_t)eh->ether_dhost, (caddr_t)edst, sizeof (edst)); 73327477Skjd type = eh->ether_type; 73427477Skjd goto gottype; 73527477Skjd 73627477Skjd default: 73727915Skarels printf("qe%d: can't handle af%d\n", ifp->if_unit, 73827915Skarels dst->sa_family); 73927915Skarels error = EAFNOSUPPORT; 74027915Skarels goto bad; 74127477Skjd } 74227477Skjd 74327915Skarels gottrailertype: 74427477Skjd /* 74527477Skjd * Packet to be sent as trailer: move first packet 74627477Skjd * (control information) to end of chain. 74727477Skjd */ 74827477Skjd while (m->m_next) 74927477Skjd m = m->m_next; 75027477Skjd m->m_next = m0; 75127477Skjd m = m0->m_next; 75227477Skjd m0->m_next = 0; 75327477Skjd m0 = m; 75427477Skjd 75527477Skjd gottype: 75627477Skjd /* 75727477Skjd * Add local net header. If no space in first mbuf, 75827477Skjd * allocate another. 75927477Skjd */ 76027915Skarels if (m->m_off > MMAXOFF || 76127915Skarels MMINOFF + sizeof (struct ether_header) > m->m_off) { 76227477Skjd m = m_get(M_DONTWAIT, MT_HEADER); 76327477Skjd if (m == 0) { 76427477Skjd error = ENOBUFS; 76527477Skjd goto bad; 76627477Skjd } 76727477Skjd m->m_next = m0; 76827477Skjd m->m_off = MMINOFF; 76927477Skjd m->m_len = sizeof (struct ether_header); 77027477Skjd } else { 77127477Skjd m->m_off -= sizeof (struct ether_header); 77227477Skjd m->m_len += sizeof (struct ether_header); 77327477Skjd } 77427477Skjd eh = mtod(m, struct ether_header *); 77527477Skjd eh->ether_type = htons((u_short)type); 77627477Skjd bcopy((caddr_t)edst, (caddr_t)eh->ether_dhost, sizeof (edst)); 77727477Skjd bcopy((caddr_t)is->is_addr, (caddr_t)eh->ether_shost, sizeof (is->is_addr)); 77827477Skjd 77927477Skjd /* 78027477Skjd * Queue message on interface, and start output if interface 78127477Skjd * not yet active. 78227477Skjd */ 78327477Skjd s = splimp(); 78427477Skjd if (IF_QFULL(&ifp->if_snd)) { 78527477Skjd IF_DROP(&ifp->if_snd); 78627477Skjd splx(s); 78727477Skjd m_freem(m); 78827477Skjd return (ENOBUFS); 78927477Skjd } 79027477Skjd IF_ENQUEUE(&ifp->if_snd, m); 79127477Skjd qestart(ifp->if_unit); 79227477Skjd splx(s); 79327477Skjd return (0); 79427477Skjd 79527477Skjd bad: 79627477Skjd m_freem(m0); 79727477Skjd return (error); 79827477Skjd } 79927477Skjd 80027477Skjd 80127477Skjd /* 80227477Skjd * Process an ioctl request. 80327477Skjd */ 80427477Skjd qeioctl(ifp, cmd, data) 80527477Skjd register struct ifnet *ifp; 80627477Skjd int cmd; 80727477Skjd caddr_t data; 80827477Skjd { 80927477Skjd struct qe_softc *sc = &qe_softc[ifp->if_unit]; 81027477Skjd struct ifaddr *ifa = (struct ifaddr *)data; 811*28927Skarels int s = splimp(), error = 0; 81227477Skjd 81327477Skjd switch (cmd) { 81427477Skjd 81527477Skjd case SIOCSIFADDR: 81627477Skjd ifp->if_flags |= IFF_UP; 81727477Skjd qeinit(ifp->if_unit); 81827477Skjd switch(ifa->ifa_addr.sa_family) { 81927477Skjd #ifdef INET 82027477Skjd case AF_INET: 82127477Skjd ((struct arpcom *)ifp)->ac_ipaddr = 82227477Skjd IA_SIN(ifa)->sin_addr; 82327477Skjd arpwhohas((struct arpcom *)ifp, &IA_SIN(ifa)->sin_addr); 82427477Skjd break; 82527477Skjd #endif 82627915Skarels #ifdef NS 82727915Skarels case AF_NS: 82827915Skarels { 82927915Skarels register struct ns_addr *ina = &(IA_SNS(ifa)->sns_addr); 83027915Skarels 83127915Skarels if (ns_nullhost(*ina)) 83227915Skarels ina->x_host = *(union ns_host *)(sc->is_addr); 83327915Skarels else 83427915Skarels qe_setaddr(ina->x_host.c_host, ifp->if_unit); 83527477Skjd break; 83627915Skarels } 83727915Skarels #endif 83827477Skjd } 83927477Skjd break; 84027915Skarels 84127915Skarels case SIOCSIFFLAGS: 84227915Skarels if ((ifp->if_flags & IFF_UP) == 0 && 84327915Skarels sc->qe_flags & QEF_RUNNING) { 84427915Skarels ((struct qedevice *) 84527915Skarels (qeinfo[ifp->if_unit]->ui_addr))->qe_csr = QE_RESET; 84627915Skarels sc->qe_flags &= ~QEF_RUNNING; 84727915Skarels } else if (ifp->if_flags & IFF_UP && 84827915Skarels (sc->qe_flags & QEF_RUNNING) == 0) 84927915Skarels qerestart(ifp->if_unit); 85027915Skarels break; 85127915Skarels 85227477Skjd default: 85327477Skjd error = EINVAL; 85427477Skjd 85527477Skjd } 856*28927Skarels splx(s); 85727477Skjd return (error); 85827477Skjd } 85927477Skjd 86027915Skarels /* 86127915Skarels * set ethernet address for unit 86227915Skarels */ 86327915Skarels qe_setaddr(physaddr, unit) 86427915Skarels u_char *physaddr; 86527915Skarels int unit; 86627915Skarels { 86727915Skarels register struct qe_softc *sc = &qe_softc[unit]; 86827915Skarels struct uba_device *ui = qeinfo[unit]; 86927915Skarels struct qedevice *addr = (struct qedevice *)ui->ui_addr; 87027915Skarels register int i; 87127915Skarels 87227915Skarels for (i = 0; i < 6; i++) 87327915Skarels sc->setup_pkt[i][1] = sc->is_addr[i] = physaddr[i]; 87427915Skarels sc->qe_flags |= QEF_SETADDR; 87527915Skarels if (sc->is_if.if_flags & IFF_RUNNING) 87627915Skarels qesetup(sc); 87727915Skarels qeinit(unit); 87827915Skarels } 87927477Skjd 88027477Skjd 88127477Skjd /* 88227477Skjd * Initialize a ring descriptor with mbuf allocation side effects 88327477Skjd */ 88427477Skjd qeinitdesc( rp, buf, len ) 88527477Skjd register struct qe_ring *rp; 886*28927Skarels char *addr; /* mapped address */ 88727477Skjd int len; 88827477Skjd { 88927477Skjd /* 89027477Skjd * clear the entire descriptor 89127477Skjd */ 89227477Skjd bzero( rp, sizeof(struct qe_ring)); 89327477Skjd 89427477Skjd if( len ) { 89527477Skjd rp->qe_buf_len = -(len/2); 896*28927Skarels rp->qe_addr_lo = (short)addr; 897*28927Skarels rp->qe_addr_hi = (short)((int)addr >> 16); 89827477Skjd } 89927477Skjd } 90027477Skjd /* 90127477Skjd * Build a setup packet - the physical address will already be present 90227477Skjd * in first column. 90327477Skjd */ 90427477Skjd qesetup( sc ) 90527477Skjd struct qe_softc *sc; 90627477Skjd { 907*28927Skarels register i, j; 90827477Skjd 90927477Skjd /* 91027477Skjd * Copy the target address to the rest of the entries in this row. 91127477Skjd */ 91227477Skjd for ( j = 0; j < 6 ; j++ ) 91327477Skjd for ( i = 2 ; i < 8 ; i++ ) 91427477Skjd sc->setup_pkt[j][i] = sc->setup_pkt[j][1]; 91527477Skjd /* 91627477Skjd * Duplicate the first half. 91727477Skjd */ 91827477Skjd bcopy(sc->setup_pkt, sc->setup_pkt[8], 64); 91927477Skjd /* 92027477Skjd * Fill in the broadcast address. 92127477Skjd */ 92227477Skjd for ( i = 0; i < 6 ; i++ ) 92327477Skjd sc->setup_pkt[i][2] = 0xff; 92427477Skjd sc->setupqueued++; 92527477Skjd } 92627915Skarels 92727477Skjd /* 92827477Skjd * Pass a packet to the higher levels. 92927477Skjd * We deal with the trailer protocol here. 93027477Skjd */ 93127915Skarels qeread(sc, ifrw, len) 93227477Skjd register struct qe_softc *sc; 93327477Skjd struct ifrw *ifrw; 93427477Skjd int len; 93527477Skjd { 936*28927Skarels struct ether_header *eh; 937*28927Skarels struct mbuf *m; 93827477Skjd int off, resid; 93927477Skjd struct ifqueue *inq; 94027477Skjd 94127477Skjd /* 94227477Skjd * Deal with trailer protocol: if type is INET trailer 94327477Skjd * get true type from first 16-bit word past data. 94427477Skjd * Remember that type was trailer by setting off. 94527477Skjd */ 94627477Skjd 94727477Skjd eh = (struct ether_header *)ifrw->ifrw_addr; 94827477Skjd eh->ether_type = ntohs((u_short)eh->ether_type); 94927477Skjd #define qedataaddr(eh, off, type) ((type)(((caddr_t)((eh)+1)+(off)))) 95027477Skjd if (eh->ether_type >= ETHERTYPE_TRAIL && 95127477Skjd eh->ether_type < ETHERTYPE_TRAIL+ETHERTYPE_NTRAILER) { 95227477Skjd off = (eh->ether_type - ETHERTYPE_TRAIL) * 512; 95327477Skjd if (off >= ETHERMTU) 95427477Skjd return; /* sanity */ 95527915Skarels eh->ether_type = ntohs(*qedataaddr(eh,off, u_short *)); 95627915Skarels resid = ntohs(*(qedataaddr(eh, off+2, u_short *))); 95727915Skarels if (off + resid > len) 95827915Skarels return; /* sanity */ 95927915Skarels len = off + resid; 96027915Skarels } else 96127477Skjd off = 0; 96227477Skjd if (len == 0) 96327477Skjd return; 96427477Skjd 96527477Skjd /* 96627477Skjd * Pull packet off interface. Off is nonzero if packet 96727477Skjd * has trailing header; qeget will then force this header 96827477Skjd * information to be at the front, but we still have to drop 96927477Skjd * the type and length which are at the front of any trailer data. 97027477Skjd */ 97127915Skarels m = if_ubaget(&sc->qe_uba, ifrw, len, off, &sc->is_if); 97227477Skjd 97327477Skjd if (m == 0) 97427477Skjd return; 97527477Skjd 97627477Skjd if (off) { 97727915Skarels struct ifnet *ifp; 97827915Skarels 97927915Skarels ifp = *(mtod(m, struct ifnet **)); 98027477Skjd m->m_off += 2 * sizeof (u_short); 98127477Skjd m->m_len -= 2 * sizeof (u_short); 98227915Skarels *(mtod(m, struct ifnet **)) = ifp; 98327477Skjd } 98427477Skjd switch (eh->ether_type) { 98527915Skarels 98627477Skjd #ifdef INET 98727477Skjd case ETHERTYPE_IP: 98827477Skjd schednetisr(NETISR_IP); 98927477Skjd inq = &ipintrq; 99027477Skjd break; 99127915Skarels 99227477Skjd case ETHERTYPE_ARP: 99327477Skjd arpinput(&sc->is_ac, m); 99427477Skjd return; 99527477Skjd #endif 99627915Skarels #ifdef NS 99727915Skarels case ETHERTYPE_NS: 99827915Skarels schednetisr(NETISR_NS); 99927915Skarels inq = &nsintrq; 100027915Skarels break; 100127915Skarels 100227915Skarels #endif 100327915Skarels 100427477Skjd default: 100527915Skarels m_freem(m); 100627915Skarels return; 100727477Skjd } 100827477Skjd 100927477Skjd if (IF_QFULL(inq)) { 101027477Skjd IF_DROP(inq); 101127477Skjd m_freem(m); 101227477Skjd return; 101327477Skjd } 101427477Skjd IF_ENQUEUE(inq, m); 101527477Skjd } 101627915Skarels 101727477Skjd /* 101827477Skjd * Watchdog timer routine. There is a condition in the hardware that 101927477Skjd * causes the board to lock up under heavy load. This routine detects 102027477Skjd * the hang up and restarts the device. 102127477Skjd */ 102227477Skjd qewatch() 102327477Skjd { 102427477Skjd register struct qe_softc *sc; 102527477Skjd register int i; 102627477Skjd int inprogress=0; 102727477Skjd 102827915Skarels for (i = 0; i < NQE; i++) { 102927477Skjd sc = &qe_softc[i]; 103027915Skarels if (sc->timeout) 103127915Skarels if (++sc->timeout > 3 ) { 103227915Skarels log(LOG_ERR, 103327915Skarels "qerestart: restarted qe%d %d\n", 103427915Skarels i, ++sc->qe_restarts); 103527915Skarels qerestart(sc); 103627915Skarels } else 103727477Skjd inprogress++; 103827477Skjd } 103927477Skjd if( inprogress ){ 104027477Skjd timeout(qewatch, 0, QE_TIMEO); 104127477Skjd qewatchrun++; 104227477Skjd } else 104327477Skjd qewatchrun=0; 104427477Skjd } 104527477Skjd /* 104627477Skjd * Restart for board lockup problem. 104727477Skjd */ 104827915Skarels qerestart(sc) 104927477Skjd register struct qe_softc *sc; 105027477Skjd { 105127477Skjd register struct ifnet *ifp = &sc->is_if; 105227477Skjd register struct qedevice *addr = sc->addr; 105327477Skjd register struct qe_ring *rp; 105427477Skjd register i; 105527477Skjd 105627477Skjd addr->qe_csr = QE_RESET; 105727477Skjd sc->timeout = 0; 105827477Skjd qesetup( sc ); 105927915Skarels for (i = 0, rp = sc->tring; i < NXMT; rp++, i++) { 106027477Skjd rp->qe_flag = rp->qe_status1 = QE_NOTYET; 106127477Skjd rp->qe_valid = 0; 106227477Skjd } 106327477Skjd sc->nxmit = sc->otindex = sc->tindex = sc->rindex = 0; 106427915Skarels addr->qe_csr = QE_RCV_ENABLE | QE_INT_ENABLE | QE_XMIT_INT | 106527915Skarels QE_RCV_INT | QE_ILOOP; 106627477Skjd addr->qe_rcvlist_lo = (short)sc->rringaddr; 106727477Skjd addr->qe_rcvlist_hi = (short)((int)sc->rringaddr >> 16); 106827915Skarels sc->qe_flags |= QEF_RUNNING; 106927915Skarels qestart(ifp->if_unit); 107027477Skjd } 107127477Skjd #endif 1072