123558Ssklower /* 223558Ssklower * Copyright (c) 1982 Regents of the University of California. 323558Ssklower * All rights reserved. The Berkeley software License Agreement 423558Ssklower * specifies the terms and conditions for redistribution. 523558Ssklower * 6*24227Ssklower * @(#)if_ec.c 6.11 (Berkeley) 08/09/85 723558Ssklower */ 86520Sfeldman 96520Sfeldman #include "ec.h" 106520Sfeldman 116520Sfeldman /* 126520Sfeldman * 3Com Ethernet Controller interface 136520Sfeldman */ 149795Ssam #include "../machine/pte.h" 156520Sfeldman 1617112Sbloom #include "param.h" 1717112Sbloom #include "systm.h" 1817112Sbloom #include "mbuf.h" 1917112Sbloom #include "buf.h" 2017112Sbloom #include "protosw.h" 2117112Sbloom #include "socket.h" 2217112Sbloom #include "vmmac.h" 2317112Sbloom #include "ioctl.h" 2417112Sbloom #include "errno.h" 258461Sroot 268461Sroot #include "../net/if.h" 278461Sroot #include "../net/netisr.h" 288461Sroot #include "../net/route.h" 2923558Ssklower 3023558Ssklower #ifdef INET 318417Swnj #include "../netinet/in.h" 328417Swnj #include "../netinet/in_systm.h" 3319863Skarels #include "../netinet/in_var.h" 348417Swnj #include "../netinet/ip.h" 358417Swnj #include "../netinet/ip_var.h" 3611574Ssam #include "../netinet/if_ether.h" 3723558Ssklower #endif 3823558Ssklower 3919951Sbloom #ifdef PUP 408417Swnj #include "../netpup/pup.h" 4123558Ssklower #endif PUP 4223558Ssklower 4323558Ssklower #ifdef NS 4423558Ssklower #include "../netns/ns.h" 4523558Ssklower #include "../netns/ns_if.h" 4619951Sbloom #endif 476520Sfeldman 488461Sroot #include "../vax/cpu.h" 498461Sroot #include "../vax/mtpr.h" 5017112Sbloom #include "if_ecreg.h" 5117112Sbloom #include "if_uba.h" 528461Sroot #include "../vaxuba/ubareg.h" 538461Sroot #include "../vaxuba/ubavar.h" 548461Sroot 5517995Skarels #if CLSIZE == 2 5617995Skarels #define ECBUFSIZE 32 /* on-board memory, clusters */ 5716749Sbloom #endif 5816749Sbloom 5917995Skarels int ecubamem(), ecprobe(), ecattach(), ecrint(), ecxint(), eccollide(); 606520Sfeldman struct uba_device *ecinfo[NEC]; 616520Sfeldman u_short ecstd[] = { 0 }; 626520Sfeldman struct uba_driver ecdriver = 6317995Skarels { ecprobe, 0, ecattach, 0, ecstd, "ec", ecinfo, 0, 0, 0, ecubamem }; 646520Sfeldman 6513055Ssam int ecinit(),ecioctl(),ecoutput(),ecreset(); 668773Sroot struct mbuf *ecget(); 676520Sfeldman 686545Sfeldman extern struct ifnet loif; 696545Sfeldman 706520Sfeldman /* 716520Sfeldman * Ethernet software status per interface. 726520Sfeldman * 736520Sfeldman * Each interface is referenced by a network interface structure, 746520Sfeldman * es_if, which the routing code uses to locate the interface. 756520Sfeldman * This structure contains the output queue for the interface, its address, ... 766520Sfeldman * We also have, for each interface, a UBA interface structure, which 776520Sfeldman * contains information about the UNIBUS resources held by the interface: 786520Sfeldman * map registers, buffered data paths, etc. Information is cached in this 796520Sfeldman * structure for use by the if_uba.c routines in running the interface 806520Sfeldman * efficiently. 816520Sfeldman */ 826520Sfeldman struct ec_softc { 8311574Ssam struct arpcom es_ac; /* common Ethernet structures */ 8411574Ssam #define es_if es_ac.ac_if /* network-visible interface */ 8511574Ssam #define es_addr es_ac.ac_enaddr /* hardware Ethernet address */ 866520Sfeldman struct ifuba es_ifuba; /* UNIBUS resources */ 876520Sfeldman short es_mask; /* mask for current output delay */ 886520Sfeldman short es_oactive; /* is output active? */ 898773Sroot u_char *es_buf[16]; /* virtual addresses of buffers */ 906520Sfeldman } ec_softc[NEC]; 916520Sfeldman 92*24227Ssklower #ifdef DEBUG 93*24227Ssklower ether_addr(s) 94*24227Ssklower char *s; 95*24227Ssklower { 96*24227Ssklower 97*24227Ssklower printf("%x:%x:%x:%x:%x:%x\n", 98*24227Ssklower s[0]&0xff, s[1]&0xff, s[2]&0xff, 99*24227Ssklower s[3]&0xff, s[4]&0xff, s[5]&0xff); 100*24227Ssklower } 101*24227Ssklower #endif 102*24227Ssklower 1036520Sfeldman /* 10417995Skarels * Configure on-board memory for an interface. 10517995Skarels * Called from autoconfig and after a uba reset. 10617995Skarels * The address of the memory on the uba is supplied in the device flags. 1076520Sfeldman */ 10817995Skarels ecubamem(ui, uban) 10917995Skarels register struct uba_device *ui; 1106520Sfeldman { 11117995Skarels register caddr_t ecbuf = (caddr_t) &umem[uban][ui->ui_flags]; 11217995Skarels register struct ecdevice *addr = (struct ecdevice *)ui->ui_addr; 1136520Sfeldman 11417995Skarels /* 11517995Skarels * Make sure csr is there (we run before ecprobe). 11617995Skarels */ 11717995Skarels if (badaddr((caddr_t)addr, 2)) 11817995Skarels return (-1); 11917995Skarels #if VAX780 12017995Skarels if (cpu == VAX_780 && uba_hd[uban].uh_uba->uba_sr) { 12117995Skarels uba_hd[uban].uh_uba->uba_sr = uba_hd[uban].uh_uba->uba_sr; 12217995Skarels return (-1); 12317995Skarels } 1246520Sfeldman #endif 1256520Sfeldman /* 1266637Sfeldman * Make sure memory is turned on 1276637Sfeldman */ 1286637Sfeldman addr->ec_rcr = EC_AROM; 1296637Sfeldman /* 13017995Skarels * Tell the system that the board has memory here, so it won't 13117995Skarels * attempt to allocate the addresses later. 1327470Sfeldman */ 13317995Skarels if (ubamem(uban, ui->ui_flags, ECBUFSIZE*CLSIZE, 1) == 0) { 13417995Skarels printf("ec%d: cannot reserve uba addresses\n", ui->ui_unit); 13517995Skarels addr->ec_rcr = EC_MDISAB; /* disable memory */ 13617995Skarels return (-1); 13717995Skarels } 1387470Sfeldman /* 1396520Sfeldman * Check for existence of buffers on Unibus. 1406520Sfeldman */ 1418773Sroot if (badaddr((caddr_t)ecbuf, 2)) { 14217995Skarels bad: 14317995Skarels printf("ec%d: buffer mem not found\n", ui->ui_unit); 14417995Skarels (void) ubamem(uban, ui->ui_flags, ECBUFSIZE*2, 0); 1457470Sfeldman addr->ec_rcr = EC_MDISAB; /* disable memory */ 14617995Skarels return (-1); 1476520Sfeldman } 1487470Sfeldman #if VAX780 14917995Skarels if (cpu == VAX_780 && uba_hd[uban].uh_uba->uba_sr) { 15017995Skarels uba_hd[uban].uh_uba->uba_sr = uba_hd[uban].uh_uba->uba_sr; 15117995Skarels goto bad; 1527470Sfeldman } 1537470Sfeldman #endif 15417995Skarels if (ui->ui_alive == 0) /* Only printf from autoconfig */ 15517995Skarels printf("ec%d: mem %x-%x\n", ui->ui_unit, 15617995Skarels ui->ui_flags, ui->ui_flags + ECBUFSIZE*CLBYTES - 1); 15717995Skarels ui->ui_type = 1; /* Memory on, allocated */ 15817995Skarels return (0); 15917995Skarels } 1606520Sfeldman 16117995Skarels /* 16217995Skarels * Do output DMA to determine interface presence and 16317995Skarels * interrupt vector. DMA is too short to disturb other hosts. 16417995Skarels */ 16517995Skarels ecprobe(reg, ui) 16617995Skarels caddr_t reg; 16717995Skarels struct uba_device *ui; 16817995Skarels { 16917995Skarels register int br, cvec; /* r11, r10 value-result */ 17017995Skarels register struct ecdevice *addr = (struct ecdevice *)reg; 17117995Skarels register caddr_t ecbuf = (caddr_t) &umem[ui->ui_ubanum][ui->ui_flags]; 17217995Skarels 17317995Skarels #ifdef lint 17417995Skarels br = 0; cvec = br; br = cvec; 17517995Skarels ecrint(0); ecxint(0); eccollide(0); 17617995Skarels #endif 17717995Skarels 1786520Sfeldman /* 17917995Skarels * Check that buffer memory was found and enabled. 1806520Sfeldman */ 18117995Skarels if (ui->ui_type == 0) 18217995Skarels return(0); 1836520Sfeldman /* 1846520Sfeldman * Make a one byte packet in what should be buffer #0. 18517995Skarels * Submit it for sending. This should cause an xmit interrupt. 1866520Sfeldman * The xmit interrupt vector is 8 bytes after the receive vector, 1876520Sfeldman * so adjust for this before returning. 1886520Sfeldman */ 1896520Sfeldman *(u_short *)ecbuf = (u_short) 03777; 1906520Sfeldman ecbuf[03777] = '\0'; 1916520Sfeldman addr->ec_xcr = EC_XINTEN|EC_XWBN; 1926520Sfeldman DELAY(100000); 1936520Sfeldman addr->ec_xcr = EC_XCLR; 1947216Ssam if (cvec > 0 && cvec != 0x200) { 1957470Sfeldman if (cvec & 04) { /* collision interrupt */ 1967470Sfeldman cvec -= 04; 1977470Sfeldman br += 1; /* rcv is collision + 1 */ 1987470Sfeldman } else { /* xmit interrupt */ 1997470Sfeldman cvec -= 010; 2007470Sfeldman br += 2; /* rcv is xmit + 2 */ 2017470Sfeldman } 2027216Ssam } 2036520Sfeldman return (1); 2046520Sfeldman } 2056520Sfeldman 2066520Sfeldman /* 2076520Sfeldman * Interface exists: make available by filling in network interface 2086520Sfeldman * record. System will initialize the interface when it is ready 2096520Sfeldman * to accept packets. 2106520Sfeldman */ 2116520Sfeldman ecattach(ui) 2126520Sfeldman struct uba_device *ui; 2136520Sfeldman { 2147216Ssam struct ec_softc *es = &ec_softc[ui->ui_unit]; 2157216Ssam register struct ifnet *ifp = &es->es_if; 2166520Sfeldman register struct ecdevice *addr = (struct ecdevice *)ui->ui_addr; 2177216Ssam int i, j; 2187216Ssam u_char *cp; 2196520Sfeldman 2207216Ssam ifp->if_unit = ui->ui_unit; 2217216Ssam ifp->if_name = "ec"; 2229745Ssam ifp->if_mtu = ETHERMTU; 2236520Sfeldman 2246520Sfeldman /* 2257216Ssam * Read the ethernet address off the board, one nibble at a time. 2266520Sfeldman */ 227*24227Ssklower addr->ec_xcr = EC_UECLR; /* zero address pointer */ 2286520Sfeldman addr->ec_rcr = EC_AROM; 22919863Skarels cp = es->es_addr; 2307216Ssam #define NEXTBIT addr->ec_rcr = EC_AROM|EC_ASTEP; addr->ec_rcr = EC_AROM 23116217Skarels for (i=0; i < sizeof (es->es_addr); i++) { 2326520Sfeldman *cp = 0; 2336520Sfeldman for (j=0; j<=4; j+=4) { 2346520Sfeldman *cp |= ((addr->ec_rcr >> 8) & 0xf) << j; 2357216Ssam NEXTBIT; NEXTBIT; NEXTBIT; NEXTBIT; 2366520Sfeldman } 2376520Sfeldman cp++; 2386520Sfeldman } 239*24227Ssklower #ifdef DEBUG 240*24227Ssklower printf("ecattach %d: addr=",ui->ui_unit); 241*24227Ssklower ether_addr(es->es_addr); 242*24227Ssklower #endif 2437216Ssam ifp->if_init = ecinit; 24413055Ssam ifp->if_ioctl = ecioctl; 2457216Ssam ifp->if_output = ecoutput; 2468977Sroot ifp->if_reset = ecreset; 24719863Skarels ifp->if_flags = IFF_BROADCAST; 2486520Sfeldman for (i=0; i<16; i++) 24916749Sbloom es->es_buf[i] 25017995Skarels = (u_char *)&umem[ui->ui_ubanum][ui->ui_flags + 2048*i]; 2517216Ssam if_attach(ifp); 2526520Sfeldman } 2536520Sfeldman 2546520Sfeldman /* 2556520Sfeldman * Reset of interface after UNIBUS reset. 2566520Sfeldman * If interface is on specified uba, reset its state. 2576520Sfeldman */ 2586520Sfeldman ecreset(unit, uban) 2596520Sfeldman int unit, uban; 2606520Sfeldman { 2616520Sfeldman register struct uba_device *ui; 2626520Sfeldman 2636520Sfeldman if (unit >= NEC || (ui = ecinfo[unit]) == 0 || ui->ui_alive == 0 || 2646520Sfeldman ui->ui_ubanum != uban) 2656520Sfeldman return; 2666520Sfeldman printf(" ec%d", unit); 26716207Skarels ec_softc[unit].es_if.if_flags &= ~IFF_RUNNING; 2686520Sfeldman ecinit(unit); 2696520Sfeldman } 2706520Sfeldman 2716520Sfeldman /* 2726520Sfeldman * Initialization of interface; clear recorded pending 2736520Sfeldman * operations, and reinitialize UNIBUS usage. 2746520Sfeldman */ 2756520Sfeldman ecinit(unit) 2766520Sfeldman int unit; 2776520Sfeldman { 2787216Ssam struct ec_softc *es = &ec_softc[unit]; 2797216Ssam struct ecdevice *addr; 28011574Ssam register struct ifnet *ifp = &es->es_if; 28113055Ssam int i, s; 2826520Sfeldman 28319863Skarels /* not yet, if address still unknown */ 28419863Skarels if (ifp->if_addrlist == (struct ifaddr *)0) 28511574Ssam return; 28611574Ssam 2876520Sfeldman /* 2887217Sfeldman * Hang receive buffers and start any pending writes. 2896637Sfeldman * Writing into the rcr also makes sure the memory 2906637Sfeldman * is turned on. 2916520Sfeldman */ 29219863Skarels if ((ifp->if_flags & IFF_RUNNING) == 0) { 29313055Ssam addr = (struct ecdevice *)ecinfo[unit]->ui_addr; 29413055Ssam s = splimp(); 295*24227Ssklower /* 296*24227Ssklower * write our ethernet address into the address recognition ROM 297*24227Ssklower * so we can always use the same EC_READ bits (referencing ROM), 298*24227Ssklower * in case we change the address sometime. 299*24227Ssklower * Note that this is safe here as the reciever is NOT armed. 300*24227Ssklower */ 301*24227Ssklower ec_setaddr(es->es_addr, unit); 302*24227Ssklower /* 303*24227Ssklower * Arm the reciever 304*24227Ssklower */ 30513055Ssam for (i = ECRHBF; i >= ECRLBF; i--) 30613055Ssam addr->ec_rcr = EC_READ | i; 30713055Ssam es->es_oactive = 0; 30813055Ssam es->es_mask = ~0; 30919863Skarels es->es_if.if_flags |= IFF_RUNNING; 31013055Ssam if (es->es_if.if_snd.ifq_head) 31113055Ssam ecstart(unit); 31213055Ssam splx(s); 31313055Ssam } 3146520Sfeldman } 3156520Sfeldman 3166520Sfeldman /* 3176520Sfeldman * Start or restart output on interface. 3186520Sfeldman * If interface is already active, then this is a retransmit 3196545Sfeldman * after a collision, and just restuff registers. 3206520Sfeldman * If interface is not already active, get another datagram 3216520Sfeldman * to send off of the interface queue, and map it to the interface 3226520Sfeldman * before starting the output. 3236520Sfeldman */ 32417995Skarels ecstart(unit) 3256520Sfeldman { 3267216Ssam struct ec_softc *es = &ec_softc[unit]; 3277216Ssam struct ecdevice *addr; 3286520Sfeldman struct mbuf *m; 3296520Sfeldman 3306520Sfeldman if (es->es_oactive) 3316520Sfeldman goto restart; 3326520Sfeldman 3336520Sfeldman IF_DEQUEUE(&es->es_if.if_snd, m); 3346520Sfeldman if (m == 0) { 3356520Sfeldman es->es_oactive = 0; 3366520Sfeldman return; 3376520Sfeldman } 3386520Sfeldman ecput(es->es_buf[ECTBF], m); 3396520Sfeldman 3406520Sfeldman restart: 3417216Ssam addr = (struct ecdevice *)ecinfo[unit]->ui_addr; 3426520Sfeldman addr->ec_xcr = EC_WRITE|ECTBF; 3436520Sfeldman es->es_oactive = 1; 3446520Sfeldman } 3456520Sfeldman 3466520Sfeldman /* 3476520Sfeldman * Ethernet interface transmitter interrupt. 3486520Sfeldman * Start another output if more data to send. 3496520Sfeldman */ 3506520Sfeldman ecxint(unit) 3516520Sfeldman int unit; 3526520Sfeldman { 3536520Sfeldman register struct ec_softc *es = &ec_softc[unit]; 3547216Ssam register struct ecdevice *addr = 3557216Ssam (struct ecdevice *)ecinfo[unit]->ui_addr; 3566520Sfeldman 3576520Sfeldman if (es->es_oactive == 0) 3586520Sfeldman return; 3597216Ssam if ((addr->ec_xcr&EC_XDONE) == 0 || (addr->ec_xcr&EC_XBN) != ECTBF) { 3607216Ssam printf("ec%d: stray xmit interrupt, xcr=%b\n", unit, 3617216Ssam addr->ec_xcr, EC_XBITS); 3627216Ssam es->es_oactive = 0; 3637216Ssam addr->ec_xcr = EC_XCLR; 3647216Ssam return; 3657216Ssam } 3666520Sfeldman es->es_if.if_opackets++; 3676520Sfeldman es->es_oactive = 0; 3686520Sfeldman es->es_mask = ~0; 3696520Sfeldman addr->ec_xcr = EC_XCLR; 3707216Ssam if (es->es_if.if_snd.ifq_head) 3717216Ssam ecstart(unit); 3726520Sfeldman } 3736520Sfeldman 3746520Sfeldman /* 3756520Sfeldman * Collision on ethernet interface. Do exponential 3766520Sfeldman * backoff, and retransmit. If have backed off all 3776520Sfeldman * the way print warning diagnostic, and drop packet. 3786520Sfeldman */ 3796520Sfeldman eccollide(unit) 3806520Sfeldman int unit; 3816520Sfeldman { 3826520Sfeldman struct ec_softc *es = &ec_softc[unit]; 3836520Sfeldman 3846520Sfeldman es->es_if.if_collisions++; 3857216Ssam if (es->es_oactive) 3867216Ssam ecdocoll(unit); 3876520Sfeldman } 3886520Sfeldman 3896520Sfeldman ecdocoll(unit) 3906520Sfeldman int unit; 3916520Sfeldman { 3926520Sfeldman register struct ec_softc *es = &ec_softc[unit]; 3936545Sfeldman register struct ecdevice *addr = 3946545Sfeldman (struct ecdevice *)ecinfo[unit]->ui_addr; 3956545Sfeldman register i; 3966545Sfeldman int delay; 3976520Sfeldman 3986520Sfeldman /* 3996520Sfeldman * Es_mask is a 16 bit number with n low zero bits, with 4006520Sfeldman * n the number of backoffs. When es_mask is 0 we have 4016520Sfeldman * backed off 16 times, and give up. 4026520Sfeldman */ 4036520Sfeldman if (es->es_mask == 0) { 4046545Sfeldman es->es_if.if_oerrors++; 4056520Sfeldman printf("ec%d: send error\n", unit); 4066520Sfeldman /* 4076545Sfeldman * Reset interface, then requeue rcv buffers. 4086545Sfeldman * Some incoming packets may be lost, but that 4096545Sfeldman * can't be helped. 4106520Sfeldman */ 4116545Sfeldman addr->ec_xcr = EC_UECLR; 4126545Sfeldman for (i=ECRHBF; i>=ECRLBF; i--) 4136545Sfeldman addr->ec_rcr = EC_READ|i; 4146545Sfeldman /* 4156545Sfeldman * Reset and transmit next packet (if any). 4166545Sfeldman */ 4176545Sfeldman es->es_oactive = 0; 4186545Sfeldman es->es_mask = ~0; 4196545Sfeldman if (es->es_if.if_snd.ifq_head) 4206545Sfeldman ecstart(unit); 4216520Sfeldman return; 4226520Sfeldman } 4236520Sfeldman /* 4246545Sfeldman * Do exponential backoff. Compute delay based on low bits 4256545Sfeldman * of the interval timer. Then delay for that number of 4266545Sfeldman * slot times. A slot time is 51.2 microseconds (rounded to 51). 4276545Sfeldman * This does not take into account the time already used to 4286545Sfeldman * process the interrupt. 4296520Sfeldman */ 4306520Sfeldman es->es_mask <<= 1; 4316545Sfeldman delay = mfpr(ICR) &~ es->es_mask; 4326545Sfeldman DELAY(delay * 51); 4336520Sfeldman /* 4346545Sfeldman * Clear the controller's collision flag, thus enabling retransmit. 4356520Sfeldman */ 4367470Sfeldman addr->ec_xcr = EC_CLEAR; 4376520Sfeldman } 4386520Sfeldman 4396520Sfeldman /* 4406520Sfeldman * Ethernet interface receiver interrupt. 4416520Sfeldman * If input error just drop packet. 442*24227Ssklower * Otherwise examine 4436520Sfeldman * packet to determine type. If can't determine length 4446520Sfeldman * from type, then have to drop packet. Othewise decapsulate 4456520Sfeldman * packet based on type and pass to type specific higher-level 4466520Sfeldman * input routine. 4476520Sfeldman */ 4486520Sfeldman ecrint(unit) 4496520Sfeldman int unit; 4506520Sfeldman { 4516520Sfeldman struct ecdevice *addr = (struct ecdevice *)ecinfo[unit]->ui_addr; 4526520Sfeldman 4536520Sfeldman while (addr->ec_rcr & EC_RDONE) 4546520Sfeldman ecread(unit); 4556520Sfeldman } 4566520Sfeldman 4576520Sfeldman ecread(unit) 4586520Sfeldman int unit; 4596520Sfeldman { 4606520Sfeldman register struct ec_softc *es = &ec_softc[unit]; 4616520Sfeldman struct ecdevice *addr = (struct ecdevice *)ecinfo[unit]->ui_addr; 4629745Ssam register struct ether_header *ec; 4636520Sfeldman struct mbuf *m; 4648773Sroot int len, off, resid, ecoff, rbuf; 4656520Sfeldman register struct ifqueue *inq; 4668773Sroot u_char *ecbuf; 4676520Sfeldman 4686520Sfeldman es->es_if.if_ipackets++; 4698773Sroot rbuf = addr->ec_rcr & EC_RBN; 4708773Sroot if (rbuf < ECRLBF || rbuf > ECRHBF) 4716520Sfeldman panic("ecrint"); 4728773Sroot ecbuf = es->es_buf[rbuf]; 4736520Sfeldman ecoff = *(short *)ecbuf; 4746545Sfeldman if (ecoff <= ECRDOFF || ecoff > 2046) { 4756520Sfeldman es->es_if.if_ierrors++; 4766520Sfeldman #ifdef notdef 4776520Sfeldman if (es->es_if.if_ierrors % 100 == 0) 4786520Sfeldman printf("ec%d: += 100 input errors\n", unit); 4796520Sfeldman #endif 4806520Sfeldman goto setup; 4816520Sfeldman } 4826520Sfeldman 4836520Sfeldman /* 4846520Sfeldman * Get input data length. 4856520Sfeldman * Get pointer to ethernet header (in input buffer). 48619863Skarels * Deal with trailer protocol: if type is trailer type 4876520Sfeldman * get true type from first 16-bit word past data. 4886520Sfeldman * Remember that type was trailer by setting off. 4896520Sfeldman */ 4909745Ssam len = ecoff - ECRDOFF - sizeof (struct ether_header); 4919745Ssam ec = (struct ether_header *)(ecbuf + ECRDOFF); 4929745Ssam ec->ether_type = ntohs((u_short)ec->ether_type); 4936520Sfeldman #define ecdataaddr(ec, off, type) ((type)(((caddr_t)((ec)+1)+(off)))) 49419863Skarels if (ec->ether_type >= ETHERTYPE_TRAIL && 49519863Skarels ec->ether_type < ETHERTYPE_TRAIL+ETHERTYPE_NTRAILER) { 49619863Skarels off = (ec->ether_type - ETHERTYPE_TRAIL) * 512; 4979745Ssam if (off >= ETHERMTU) 4986520Sfeldman goto setup; /* sanity */ 4999745Ssam ec->ether_type = ntohs(*ecdataaddr(ec, off, u_short *)); 5009745Ssam resid = ntohs(*(ecdataaddr(ec, off+2, u_short *))); 5016520Sfeldman if (off + resid > len) 5026520Sfeldman goto setup; /* sanity */ 5036520Sfeldman len = off + resid; 5046520Sfeldman } else 5056520Sfeldman off = 0; 5066520Sfeldman if (len == 0) 5076520Sfeldman goto setup; 5086520Sfeldman 5096520Sfeldman /* 5106520Sfeldman * Pull packet off interface. Off is nonzero if packet 5116520Sfeldman * has trailing header; ecget will then force this header 5126520Sfeldman * information to be at the front, but we still have to drop 5136520Sfeldman * the type and length which are at the front of any trailer data. 5146520Sfeldman */ 5156520Sfeldman m = ecget(ecbuf, len, off); 5166520Sfeldman if (m == 0) 5176520Sfeldman goto setup; 5186520Sfeldman if (off) { 5196520Sfeldman m->m_off += 2 * sizeof (u_short); 5206520Sfeldman m->m_len -= 2 * sizeof (u_short); 5216520Sfeldman } 5229745Ssam switch (ec->ether_type) { 5236520Sfeldman 5246520Sfeldman #ifdef INET 52519863Skarels case ETHERTYPE_IP: 5266520Sfeldman schednetisr(NETISR_IP); 5276520Sfeldman inq = &ipintrq; 5286520Sfeldman break; 52911574Ssam 53019863Skarels case ETHERTYPE_ARP: 53111574Ssam arpinput(&es->es_ac, m); 53213987Ssam goto setup; 5336520Sfeldman #endif 53423558Ssklower #ifdef NS 53523558Ssklower case ETHERTYPE_NS: 53623558Ssklower schednetisr(NETISR_NS); 53723558Ssklower inq = &nsintrq; 53823558Ssklower break; 53923558Ssklower 54023558Ssklower #endif 5416520Sfeldman default: 5426520Sfeldman m_freem(m); 5436520Sfeldman goto setup; 5446520Sfeldman } 5456520Sfeldman 5466520Sfeldman if (IF_QFULL(inq)) { 5476520Sfeldman IF_DROP(inq); 5486520Sfeldman m_freem(m); 5497216Ssam goto setup; 5507216Ssam } 5517216Ssam IF_ENQUEUE(inq, m); 5526520Sfeldman 5536520Sfeldman setup: 5546520Sfeldman /* 5556520Sfeldman * Reset for next packet. 5566520Sfeldman */ 5578773Sroot addr->ec_rcr = EC_READ|EC_RCLR|rbuf; 5586520Sfeldman } 5596520Sfeldman 5606520Sfeldman /* 5616520Sfeldman * Ethernet output routine. 5626520Sfeldman * Encapsulate a packet of type family for the local net. 5636520Sfeldman * Use trailer local net encapsulation if enough data in first 5646520Sfeldman * packet leaves a multiple of 512 bytes of data in remainder. 5656545Sfeldman * If destination is this address or broadcast, send packet to 5666545Sfeldman * loop device to kludge around the fact that 3com interfaces can't 5676545Sfeldman * talk to themselves. 5686520Sfeldman */ 5696520Sfeldman ecoutput(ifp, m0, dst) 5706520Sfeldman struct ifnet *ifp; 5716520Sfeldman struct mbuf *m0; 5726520Sfeldman struct sockaddr *dst; 5736520Sfeldman { 57411574Ssam int type, s, error; 57519863Skarels u_char edst[6]; 57611574Ssam struct in_addr idst; 5776520Sfeldman register struct ec_softc *es = &ec_softc[ifp->if_unit]; 5786520Sfeldman register struct mbuf *m = m0; 5799745Ssam register struct ether_header *ec; 58012771Ssam register int off; 58111574Ssam struct mbuf *mcopy = (struct mbuf *)0; 5826520Sfeldman 5836520Sfeldman switch (dst->sa_family) { 5846520Sfeldman 5856520Sfeldman #ifdef INET 5866520Sfeldman case AF_INET: 58711574Ssam idst = ((struct sockaddr_in *)dst)->sin_addr; 58819863Skarels if (!arpresolve(&es->es_ac, m, &idst, edst)) 58911574Ssam return (0); /* if not yet resolved */ 59019863Skarels if (!bcmp((caddr_t)edst, (caddr_t)etherbroadcastaddr, 59119863Skarels sizeof(edst))) 5928838Sroot mcopy = m_copy(m, 0, (int)M_COPYALL); 5936520Sfeldman off = ntohs((u_short)mtod(m, struct ip *)->ip_len) - m->m_len; 59413055Ssam /* need per host negotiation */ 59513055Ssam if ((ifp->if_flags & IFF_NOTRAILERS) == 0) 5966520Sfeldman if (off > 0 && (off & 0x1ff) == 0 && 5976520Sfeldman m->m_off >= MMINOFF + 2 * sizeof (u_short)) { 59819863Skarels type = ETHERTYPE_TRAIL + (off>>9); 5996520Sfeldman m->m_off -= 2 * sizeof (u_short); 6006520Sfeldman m->m_len += 2 * sizeof (u_short); 60119863Skarels *mtod(m, u_short *) = ntohs((u_short)ETHERTYPE_IP); 6029745Ssam *(mtod(m, u_short *) + 1) = ntohs((u_short)m->m_len); 6036520Sfeldman goto gottrailertype; 6046520Sfeldman } 60519863Skarels type = ETHERTYPE_IP; 6066520Sfeldman off = 0; 6076520Sfeldman goto gottype; 6086520Sfeldman #endif 60923558Ssklower #ifdef NS 61023558Ssklower case AF_NS: 61123558Ssklower bcopy((caddr_t)&(((struct sockaddr_ns *)dst)->sns_addr.x_host), 61223558Ssklower (caddr_t)edst, sizeof (edst)); 6136520Sfeldman 61423558Ssklower if (!bcmp((caddr_t)edst, (caddr_t)&ns_broadhost, 61523558Ssklower sizeof(edst))) { 61623558Ssklower 61723558Ssklower mcopy = m_copy(m, 0, (int)M_COPYALL); 61823558Ssklower } else if (!bcmp((caddr_t)edst, (caddr_t)&ns_thishost, 61923558Ssklower sizeof(edst))) { 62023558Ssklower 62123558Ssklower return(looutput(&loif, m, dst)); 62223558Ssklower } 62323558Ssklower type = ETHERTYPE_NS; 62423558Ssklower off = 0; 62523558Ssklower goto gottype; 62623558Ssklower #endif 62723558Ssklower 62811574Ssam case AF_UNSPEC: 62911574Ssam ec = (struct ether_header *)dst->sa_data; 63019863Skarels bcopy((caddr_t)ec->ether_dhost, (caddr_t)edst, sizeof (edst)); 63111574Ssam type = ec->ether_type; 63211574Ssam goto gottype; 63311574Ssam 6346520Sfeldman default: 6356520Sfeldman printf("ec%d: can't handle af%d\n", ifp->if_unit, 6366520Sfeldman dst->sa_family); 6376520Sfeldman error = EAFNOSUPPORT; 6386520Sfeldman goto bad; 6396520Sfeldman } 6406520Sfeldman 6416520Sfeldman gottrailertype: 6426520Sfeldman /* 6436520Sfeldman * Packet to be sent as trailer: move first packet 6446520Sfeldman * (control information) to end of chain. 6456520Sfeldman */ 6466520Sfeldman while (m->m_next) 6476520Sfeldman m = m->m_next; 6486520Sfeldman m->m_next = m0; 6496520Sfeldman m = m0->m_next; 6506520Sfeldman m0->m_next = 0; 6516520Sfeldman m0 = m; 6526520Sfeldman 6536520Sfeldman gottype: 6546520Sfeldman /* 6556520Sfeldman * Add local net header. If no space in first mbuf, 6566520Sfeldman * allocate another. 6576520Sfeldman */ 6586520Sfeldman if (m->m_off > MMAXOFF || 6599745Ssam MMINOFF + sizeof (struct ether_header) > m->m_off) { 6609648Ssam m = m_get(M_DONTWAIT, MT_HEADER); 6616520Sfeldman if (m == 0) { 6626520Sfeldman error = ENOBUFS; 6636520Sfeldman goto bad; 6646520Sfeldman } 6656520Sfeldman m->m_next = m0; 6666520Sfeldman m->m_off = MMINOFF; 6679745Ssam m->m_len = sizeof (struct ether_header); 6686520Sfeldman } else { 6699745Ssam m->m_off -= sizeof (struct ether_header); 6709745Ssam m->m_len += sizeof (struct ether_header); 6716520Sfeldman } 6729745Ssam ec = mtod(m, struct ether_header *); 67319863Skarels bcopy((caddr_t)edst, (caddr_t)ec->ether_dhost, sizeof (edst)); 67419863Skarels bcopy((caddr_t)es->es_addr, (caddr_t)ec->ether_shost, 67519863Skarels sizeof(ec->ether_shost)); 6769745Ssam ec->ether_type = htons((u_short)type); 6776520Sfeldman 6786520Sfeldman /* 6796520Sfeldman * Queue message on interface, and start output if interface 6806520Sfeldman * not yet active. 6816520Sfeldman */ 6826520Sfeldman s = splimp(); 6836520Sfeldman if (IF_QFULL(&ifp->if_snd)) { 6846520Sfeldman IF_DROP(&ifp->if_snd); 6856520Sfeldman error = ENOBUFS; 6866520Sfeldman goto qfull; 6876520Sfeldman } 6886520Sfeldman IF_ENQUEUE(&ifp->if_snd, m); 6896520Sfeldman if (es->es_oactive == 0) 6906520Sfeldman ecstart(ifp->if_unit); 6916520Sfeldman splx(s); 69212771Ssam return (mcopy ? looutput(&loif, mcopy, dst) : 0); 6937216Ssam 6946520Sfeldman qfull: 6956520Sfeldman m0 = m; 6966520Sfeldman splx(s); 6976520Sfeldman bad: 6986520Sfeldman m_freem(m0); 69916207Skarels if (mcopy) 70016207Skarels m_freem(mcopy); 70112771Ssam return (error); 7026520Sfeldman } 7036520Sfeldman 7046520Sfeldman /* 7059177Ssam * Routine to copy from mbuf chain to transmit 7067216Ssam * buffer in UNIBUS memory. 7079177Ssam * If packet size is less than the minimum legal size, 7089177Ssam * the buffer is expanded. We probably should zero out the extra 7099177Ssam * bytes for security, but that would slow things down. 7106520Sfeldman */ 7116520Sfeldman ecput(ecbuf, m) 7127216Ssam u_char *ecbuf; 7136520Sfeldman struct mbuf *m; 7146520Sfeldman { 7156520Sfeldman register struct mbuf *mp; 7167216Ssam register int off; 7177263Ssam u_char *bp; 7186520Sfeldman 7197216Ssam for (off = 2048, mp = m; mp; mp = mp->m_next) 7207216Ssam off -= mp->m_len; 7219745Ssam if (2048 - off < ETHERMIN + sizeof (struct ether_header)) 7229745Ssam off = 2048 - ETHERMIN - sizeof (struct ether_header); 7237216Ssam *(u_short *)ecbuf = off; 7247216Ssam bp = (u_char *)(ecbuf + off); 7257263Ssam for (mp = m; mp; mp = mp->m_next) { 7267263Ssam register unsigned len = mp->m_len; 7277263Ssam u_char *mcp; 7287216Ssam 7297216Ssam if (len == 0) 7307216Ssam continue; 7317216Ssam mcp = mtod(mp, u_char *); 7327216Ssam if ((unsigned)bp & 01) { 7337032Swnj *bp++ = *mcp++; 7347216Ssam len--; 7357032Swnj } 7367263Ssam if (off = (len >> 1)) { 7377263Ssam register u_short *to, *from; 7387263Ssam 7397263Ssam to = (u_short *)bp; 7407263Ssam from = (u_short *)mcp; 7417263Ssam do 7427263Ssam *to++ = *from++; 7437263Ssam while (--off > 0); 7447263Ssam bp = (u_char *)to, 7457263Ssam mcp = (u_char *)from; 7467032Swnj } 7477263Ssam if (len & 01) 7486520Sfeldman *bp++ = *mcp++; 7496520Sfeldman } 7507263Ssam m_freem(m); 7516520Sfeldman } 7526520Sfeldman 7536520Sfeldman /* 7546520Sfeldman * Routine to copy from UNIBUS memory into mbufs. 7556520Sfeldman * Similar in spirit to if_rubaget. 7567032Swnj * 7577032Swnj * Warning: This makes the fairly safe assumption that 7587032Swnj * mbufs have even lengths. 7596520Sfeldman */ 7606520Sfeldman struct mbuf * 7616520Sfeldman ecget(ecbuf, totlen, off0) 7627263Ssam u_char *ecbuf; 7636520Sfeldman int totlen, off0; 7646520Sfeldman { 7657263Ssam register struct mbuf *m; 7667263Ssam struct mbuf *top = 0, **mp = ⊤ 7677263Ssam register int off = off0, len; 7687263Ssam u_char *cp; 7696520Sfeldman 7709745Ssam cp = ecbuf + ECRDOFF + sizeof (struct ether_header); 7716520Sfeldman while (totlen > 0) { 7727263Ssam register int words; 7737263Ssam u_char *mcp; 7747263Ssam 7759648Ssam MGET(m, M_DONTWAIT, MT_DATA); 7766520Sfeldman if (m == 0) 7776520Sfeldman goto bad; 7786520Sfeldman if (off) { 7796520Sfeldman len = totlen - off; 7809745Ssam cp = ecbuf + ECRDOFF + 7819745Ssam sizeof (struct ether_header) + off; 7826520Sfeldman } else 7836520Sfeldman len = totlen; 7846520Sfeldman if (len >= CLBYTES) { 7856520Sfeldman struct mbuf *p; 7866520Sfeldman 7876520Sfeldman MCLGET(p, 1); 7886520Sfeldman if (p != 0) { 7896520Sfeldman m->m_len = len = CLBYTES; 7906520Sfeldman m->m_off = (int)p - (int)m; 7916520Sfeldman } else { 7926520Sfeldman m->m_len = len = MIN(MLEN, len); 7936520Sfeldman m->m_off = MMINOFF; 7946520Sfeldman } 7956520Sfeldman } else { 7966520Sfeldman m->m_len = len = MIN(MLEN, len); 7976520Sfeldman m->m_off = MMINOFF; 7986520Sfeldman } 7997263Ssam mcp = mtod(m, u_char *); 8007263Ssam if (words = (len >> 1)) { 8017263Ssam register u_short *to, *from; 8027263Ssam 8037263Ssam to = (u_short *)mcp; 8047263Ssam from = (u_short *)cp; 8057263Ssam do 8067263Ssam *to++ = *from++; 8077263Ssam while (--words > 0); 8087263Ssam mcp = (u_char *)to; 8097263Ssam cp = (u_char *)from; 8107032Swnj } 8117216Ssam if (len & 01) 8126520Sfeldman *mcp++ = *cp++; 8136520Sfeldman *mp = m; 8146520Sfeldman mp = &m->m_next; 8157263Ssam if (off == 0) { 8166520Sfeldman totlen -= len; 8177263Ssam continue; 8187263Ssam } 8197263Ssam off += len; 8207263Ssam if (off == totlen) { 8219745Ssam cp = ecbuf + ECRDOFF + sizeof (struct ether_header); 8227263Ssam off = 0; 8237263Ssam totlen = off0; 8247263Ssam } 8256520Sfeldman } 8266520Sfeldman return (top); 8276520Sfeldman bad: 8286520Sfeldman m_freem(top); 8296520Sfeldman return (0); 8306520Sfeldman } 83113055Ssam 83213055Ssam /* 83313055Ssam * Process an ioctl request. 83413055Ssam */ 83513055Ssam ecioctl(ifp, cmd, data) 83613055Ssam register struct ifnet *ifp; 83713055Ssam int cmd; 83813055Ssam caddr_t data; 83913055Ssam { 84019863Skarels register struct ifaddr *ifa = (struct ifaddr *)data; 84113055Ssam int s = splimp(), error = 0; 84213055Ssam 84313055Ssam switch (cmd) { 84413055Ssam 84513055Ssam case SIOCSIFADDR: 84619863Skarels ifp->if_flags |= IFF_UP; 84719863Skarels 84819863Skarels switch (ifa->ifa_addr.sa_family) { 84923558Ssklower #ifdef INET 85019863Skarels case AF_INET: 851*24227Ssklower ecinit(ifp->if_unit); /* before, so we can send the ARP packet */ 85219863Skarels ((struct arpcom *)ifp)->ac_ipaddr = 85319863Skarels IA_SIN(ifa)->sin_addr; 85419863Skarels arpwhohas((struct arpcom *)ifp, &IA_SIN(ifa)->sin_addr); 85519863Skarels break; 85623558Ssklower #endif 85723558Ssklower #ifdef NS 85823558Ssklower case AF_NS: 85923558Ssklower { 86023558Ssklower register struct ns_addr *ina = &(IA_SNS(ifa)->sns_addr); 86123558Ssklower 86223558Ssklower if (ns_nullhost(*ina)) { 86323558Ssklower ina->x_host = * (union ns_host *) 86423558Ssklower (ec_softc[ifp->if_unit].es_addr); 86523558Ssklower } else { 866*24227Ssklower /* 867*24227Ssklower * The manual says we can't change the address 868*24227Ssklower * while the reciever is armed so reset everything 869*24227Ssklower */ 870*24227Ssklower struct ec_softc *es = &ec_softc[ifp->if_unit]; 871*24227Ssklower struct uba_device *ui = ecinfo[ifp->if_unit]; 872*24227Ssklower struct ecdevice *addr = (struct ecdevice *)ui->ui_addr; 873*24227Ssklower 874*24227Ssklower es->es_if.if_flags &= ~IFF_RUNNING; 875*24227Ssklower bcopy(ina->x_host.c_host, es->es_addr, sizeof(es->es_addr)); 87623558Ssklower } 877*24227Ssklower ecinit(ifp->if_unit); /* does ec_setaddr() */ 87823558Ssklower break; 87923558Ssklower } 88023558Ssklower #endif 88119863Skarels } 88213055Ssam break; 88313055Ssam 88413055Ssam default: 88513055Ssam error = EINVAL; 88613055Ssam } 88713055Ssam splx(s); 88813055Ssam return (error); 88913055Ssam } 89023558Ssklower 89123558Ssklower ec_setaddr(physaddr,unit) 89223558Ssklower u_char *physaddr; 89323558Ssklower int unit; 89423558Ssklower { 89523558Ssklower struct ec_softc *es = &ec_softc[unit]; 89623558Ssklower struct uba_device *ui = ecinfo[unit]; 89723558Ssklower register struct ecdevice *addr = (struct ecdevice *)ui->ui_addr; 89823558Ssklower register char nibble; 89923558Ssklower register int i, j; 900*24227Ssklower char *cp; 90123558Ssklower /* 90223558Ssklower * Use the ethernet address supplied 903*24227Ssklower * NOte that we do a UECLR here, so the recieve buffers 904*24227Ssklower * must be requeued. 90523558Ssklower */ 90623558Ssklower 907*24227Ssklower #ifdef DEBUG 908*24227Ssklower printf("ec_setaddr: setting address for unit %d = ", 909*24227Ssklower unit); 910*24227Ssklower ether_addr(physaddr); 911*24227Ssklower #endif 912*24227Ssklower addr->ec_xcr = EC_UECLR; 91323558Ssklower addr->ec_rcr = 0; 914*24227Ssklower /* load requested address */ 91523558Ssklower for (i = 0; i < 6; i++) { /* 6 bytes of address */ 91623558Ssklower es->es_addr[i] = physaddr[i]; 91723558Ssklower nibble = physaddr[i] & 0xf; /* lower nibble */ 91823558Ssklower addr->ec_rcr = (nibble << 8); 919*24227Ssklower addr->ec_rcr = (nibble << 8) + EC_AWCLK; /* latch nibble */ 92023558Ssklower addr->ec_rcr = (nibble << 8); 92123558Ssklower for (j=0; j < 4; j++) { 92223558Ssklower addr->ec_rcr = 0; 92323558Ssklower addr->ec_rcr = EC_ASTEP; /* step counter */ 92423558Ssklower addr->ec_rcr = 0; 92523558Ssklower } 92623558Ssklower nibble = (physaddr[i] >> 4) & 0xf; /* upper nibble */ 92723558Ssklower addr->ec_rcr = (nibble << 8); 928*24227Ssklower addr->ec_rcr = (nibble << 8) + EC_AWCLK; /* latch nibble */ 92923558Ssklower addr->ec_rcr = (nibble << 8); 93023558Ssklower for (j=0; j < 4; j++) { 93123558Ssklower addr->ec_rcr = 0; 93223558Ssklower addr->ec_rcr = EC_ASTEP; /* step counter */ 93323558Ssklower addr->ec_rcr = 0; 93423558Ssklower } 93523558Ssklower } 936*24227Ssklower #ifdef DEBUG 937*24227Ssklower /* 938*24227Ssklower * Read the ethernet address off the board, one nibble at a time. 939*24227Ssklower */ 940*24227Ssklower addr->ec_xcr = EC_UECLR; 941*24227Ssklower addr->ec_rcr = 0; /* read RAM */ 942*24227Ssklower cp = es->es_addr; 943*24227Ssklower #undef NEXTBIT 944*24227Ssklower #define NEXTBIT addr->ec_rcr = EC_ASTEP; addr->ec_rcr = 0 945*24227Ssklower for (i=0; i < sizeof (es->es_addr); i++) { 946*24227Ssklower *cp = 0; 947*24227Ssklower for (j=0; j<=4; j+=4) { 948*24227Ssklower *cp |= ((addr->ec_rcr >> 8) & 0xf) << j; 949*24227Ssklower NEXTBIT; NEXTBIT; NEXTBIT; NEXTBIT; 950*24227Ssklower } 951*24227Ssklower cp++; 952*24227Ssklower } 953*24227Ssklower printf("ec_setaddr %d: ROM addr=",ui->ui_unit); 954*24227Ssklower ether_addr(es->es_addr); 955*24227Ssklower #endif 95623558Ssklower } 957