/* $NetBSD: en.c,v 1.18 2015/01/23 03:36:58 chs Exp $ */ /* * Copyright (c) 1996 Rolf Grossmann * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Rolf Grossmann. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include "enreg.h" #include "dmareg.h" #include #include #include #include #include extern char *mg; #define MON(type, off) (*(type *)((u_int) (mg) + off)) #define PRINTF(x) printf x; #ifdef EN_DEBUG #define DPRINTF(x) printf x; #else #define DPRINTF(x) #endif #define EN_TIMEOUT 2000000 #define EN_RETRIES 10 int en_match(struct netif *, void *); int en_probe(struct netif *, void *); void en_init(struct iodesc *, void *); int en_get(struct iodesc *, void *, size_t, saseconds_t); int en_put(struct iodesc *, void *, size_t); void en_end(struct netif *); static int en_wait_for_intr(int); struct netif_stats en_stats; struct netif_dif en_ifs[] = { /* dif_unit dif_nsel dif_stats dif_private */ { 0, 1, &en_stats, NULL, }, }; struct netif_driver en_driver = { "en", en_match, en_probe, en_init, en_get, en_put, en_end, en_ifs, sizeof(en_ifs) / sizeof(en_ifs[0]) }; extern int turbo; /* ### int netdev_sock; static int open_count; */ char dma_buffer1[MAX_DMASIZE+DMA_ENDALIGNMENT], dma_buffer2[MAX_DMASIZE+DMA_ENDALIGNMENT], *dma_buffers[2]; int next_dma_buffer; int en_match(struct netif *nif, void *machdep_hint) { /* we always match, because every NeXT has an ethernet interface * and we've checked the unit numbers before we even started this * search. * ### now that open is generic, we should check the params! */ return 1; } int en_probe(struct netif *nif, void *machdep_hint) { /* we also always probe ok, see en_match. */ return 0; } void en_init(struct iodesc *desc, void *machdep_hint) { volatile struct en_regs *er; volatile u_int *bmap_chip; int i; DPRINTF(("en_init\n")); er = (struct en_regs *)P_ENET; bmap_chip = (u_int *)P_BMAP; dma_buffers[0] = DMA_ALIGN(char *, dma_buffer1); dma_buffers[1] = DMA_ALIGN(char *, dma_buffer2); er->reset = EN_RST_RESET; /* if (turbo) */ /* er->reset = 0; */ er->txmask = 0; er->txstat = 0xff; if (turbo) er->txmode = 0 | EN_TMD_COLLSHIFT; else er->txmode = EN_TMD_LB_DISABLE; /* setup for bnc/tp */ if (!turbo) { DPRINTF (("en_media: %s\n", (bmap_chip[13] & 0x20000000) ? "BNC" : "TP")); if (!(bmap_chip[13] & 0x20000000)) { bmap_chip[12] |= 0x90000000; bmap_chip[13] |= (0x80000000|0x10000000); /* TP */ } } /* if (turbo) { */ /* er->txmode |= EN_TMD_COLLSHIFT; */ /* } else { */ /* er->txmode &= ~EN_TMD_LB_DISABLE; /\* ZZZ *\/ */ /* } */ er->rxmask = 0; er->rxstat = 0xff; if (turbo) er->rxmode = EN_RMD_TEST | EN_RMD_RECV_NORMAL; else er->rxmode = EN_RMD_RECV_NORMAL; for (i=0; i<6; i++) er->addr[i] = desc->myea[i] = MON(char *,MG_clientetheraddr)[i]; DPRINTF(("ethernet addr (%x:%x:%x:%x:%x:%x)\n", desc->myea[0],desc->myea[1],desc->myea[2], desc->myea[3],desc->myea[4],desc->myea[5])); /* if (!turbo) */ er->reset = 0; } #if 0 /* ### remove this when things work! */ #define XCHR(x) hexdigits[(x) & 0xf] void dump_pkt(unsigned char *pkt, size_t len) { size_t i, j; printf("0000: "); for(i=0; i>4), XCHR(pkt[i])); if ((i+1) % 16 == 0) { printf(" %c", '"'); for(j=0; j<16; j++) printf("%c", pkt[i-15+j]>=32 && pkt[i-15+j]<127?pkt[i-15+j]:'.'); printf("%c\n%c%c%c%c: ", '"', XCHR((i+1)>>12), XCHR((i+1)>>8), XCHR((i+1)>>4), XCHR(i+1)); } } printf("\n"); } #endif int en_put(struct iodesc *desc, void *pkt, size_t len) { volatile struct en_regs *er; volatile struct dma_dev *txdma; int state, txs; int retries; DPRINTF(("en_put: %d bytes at 0x%lx\n", len, (unsigned long)pkt)); #if 0 dump_pkt(pkt,len); #endif er = (struct en_regs *)P_ENET; txdma = (struct dma_dev *)P_ENETX_CSR; DPRINTF(("en_put: txdma->dd_csr = %x\n",txdma->dd_csr)); if (len > 1600) { errno = EINVAL; return -1; } if (!turbo) { while ((er->txstat & EN_TXS_READY) == 0) printf("en: tx not ready\n"); } for (retries = 0; retries < EN_RETRIES; retries++) { er->txstat = 0xff; memcpy(dma_buffers[0], pkt, len); txdma->dd_csr = (turbo ? DMACSR_INITBUFTURBO : DMACSR_INITBUF) | DMACSR_RESET | DMACSR_WRITE; txdma->dd_csr = 0; txdma->dd_next/* _initbuf */ = dma_buffers[0]; txdma->dd_start = (turbo ? dma_buffers[0] : 0); txdma->dd_limit = ENDMA_ENDALIGN(char *, dma_buffers[0]+len); txdma->dd_stop = 0; txdma->dd_csr = DMACSR_SETENABLE; if (turbo) er->txmode |= 0x80; while (1) { if (en_wait_for_intr(ENETX_DMA_INTR)) { printf("en_put: timed out\n"); errno = EIO; return -1; } state = txdma->dd_csr & (DMACSR_BUSEXC | DMACSR_COMPLETE | DMACSR_SUPDATE | DMACSR_ENABLE); #if 01 DPRINTF(("en_put: DMA state = 0x%x.\n", state)); #endif if (state & (DMACSR_COMPLETE|DMACSR_BUSEXC)) txdma->dd_csr = DMACSR_RESET | DMACSR_CLRCOMPLETE; break; } txs = er->txstat; #if 01 DPRINTF(("en_put: done txstat=%x.\n", txs)); #endif #define EN_TXS_ERROR (EN_TXS_SHORTED | EN_TXS_UNDERFLOW | EN_TXS_PARERR) if ((state & DMACSR_COMPLETE) == 0 || (txs & EN_TXS_ERROR) != 0) { errno = EIO; return -1; } if ((txs & EN_TXS_COLLERR) == 0) return len; /* success */ } errno = EIO; /* too many retries */ return -1; } int en_get(struct iodesc *desc, void *pkt, size_t len, saseconds_t timeout) { volatile struct en_regs *er; volatile struct dma_dev *rxdma; #if 0 volatile struct dma_dev *txdma; #endif int state, rxs; size_t rlen; char *gotpkt; rxdma = (struct dma_dev *)P_ENETR_CSR; #if 0 txdma = (struct dma_dev *)P_ENETX_CSR; #endif er = (struct en_regs *)P_ENET; DPRINTF(("en_get: rxdma->dd_csr = %x\n",rxdma->dd_csr)); er->rxstat = 0xff; /* this is mouse's code now ... still doesn't work :( */ /* The previous comment is now a lie, this does work * Darrin B Jewell Sat Jan 24 21:44:56 1998 */ rxdma->dd_csr = 0; rxdma->dd_csr = (turbo ? DMACSR_INITBUFTURBO : DMACSR_INITBUF) | DMACSR_READ | DMACSR_RESET; if (!turbo) { rxdma->dd_saved_next = 0; rxdma->dd_saved_limit = 0; rxdma->dd_saved_start = 0; rxdma->dd_saved_stop = 0; } else { rxdma->dd_saved_next = dma_buffers[0]; } rxdma->dd_next = dma_buffers[0]; rxdma->dd_limit = DMA_ENDALIGN(char *, dma_buffers[0]+MAX_DMASIZE); #if 0 if (turbo) { /* !!! not a typo: txdma */ txdma->dd_stop = dma_buffers[0]; } #endif rxdma->dd_start = 0; rxdma->dd_stop = 0; rxdma->dd_csr = DMACSR_SETENABLE | DMACSR_READ; if (turbo) er->rxmode = EN_RMD_TEST | EN_RMD_RECV_NORMAL; else er->rxmode = EN_RMD_RECV_NORMAL; #if 01 DPRINTF(("en_get: blocking on rcv DMA\n")); #endif while (1) { if (en_wait_for_intr(ENETR_DMA_INTR)) /* ### use timeout? */ return 0; state = rxdma->dd_csr & (DMACSR_BUSEXC | DMACSR_COMPLETE | DMACSR_SUPDATE | DMACSR_ENABLE); DPRINTF(("en_get: DMA state = 0x%x.\n", state)); if ((state & DMACSR_ENABLE) == 0) { rxdma->dd_csr = DMACSR_RESET | DMACSR_CLRCOMPLETE; break; } if (state & DMACSR_COMPLETE) { PRINTF(("en_get: ending DMA sequence\n")); rxdma->dd_csr = DMACSR_CLRCOMPLETE; } } rxs = er->rxstat; if ((state & DMACSR_COMPLETE) == 0 || (rxs & EN_RX_OK) == 0) { errno = EIO; return -1; /* receive failed */ } if (turbo) { gotpkt = rxdma->dd_saved_next; rlen = rxdma->dd_next - rxdma->dd_saved_next; } else { gotpkt = rxdma->dd_saved_next; rlen = rxdma->dd_next - rxdma->dd_saved_next; } if (gotpkt != dma_buffers[0]) { printf("Unexpected received packet location\n"); printf("DEBUG: rxstat=%x.\n", rxs); printf("DEBUG: gotpkt = 0x%lx, rlen = %d, len = %d\n",(u_long)gotpkt,rlen,len); printf("DEBUG: rxdma->dd_csr = 0x%lx\n",(u_long)rxdma->dd_csr); printf("DEBUG: rxdma->dd_saved_next = 0x%lx\n",(u_long)rxdma->dd_saved_next); printf("DEBUG: rxdma->dd_saved_limit = 0x%lx\n",(u_long)rxdma->dd_saved_limit); printf("DEBUG: rxdma->dd_saved_start = 0x%lx\n",(u_long)rxdma->dd_saved_start); printf("DEBUG: rxdma->dd_saved_stop = 0x%lx\n",(u_long)rxdma->dd_saved_stop); printf("DEBUG: rxdma->dd_next = 0x%lx\n",(u_long)rxdma->dd_next); printf("DEBUG: rxdma->dd_limit = 0x%lx\n",(u_long)rxdma->dd_limit); printf("DEBUG: rxdma->dd_start = 0x%lx\n",(u_long)rxdma->dd_start); printf("DEBUG: rxdma->dd_stop = 0x%lx\n",(u_long)rxdma->dd_stop); printf("DEBUG: rxdma->dd_next_initbuf = 0x%lx\n",(u_long)rxdma->dd_next_initbuf); } #if 0 dump_pkt(gotpkt, rlen < 255 ? rlen : 128); #endif DPRINTF(("en_get: done rxstat=%x.\n", rxs)); if (rlen > len) { DPRINTF(("en_get: buffer too small. want %d, got %d\n", len, rlen)); rlen = len; } memcpy(pkt, gotpkt, rlen); #if 0 printf("DEBUG: gotpkt = 0x%lx, pkt = 0x%lx, rlen = %d\n", (u_long)gotpkt,(u_long)pkt,rlen); dump_pkt(gotpkt, rlen < 255 ? rlen : 128); dump_pkt(pkt, rlen < 255 ? rlen : 128); #endif return rlen; } void en_end(struct netif *a) { DPRINTF(("en_end: WARNING not doing anything\n")); } #if 0 #define MKPANIC(ret,name,args) \ ret name args { panic(#name ## ": not implemented.\n"); } MKPANIC(void, en_end, (struct netif *a)); /* device functions */ int enopen(struct open_file *f, char count, char lun, char part) { int error; DPRINTF(("open: en(%d,%d,%d)\n", count, lun, part)); if (count != 0 || lun != 0 || part != 0) return EUNIT; /* there can be exactly one ethernet */ if (open_count == 0) { /* Find network interface. */ if ((netdev_sock = netif_open(NULL)) < 0) return errno; if ((error = mountroot(netdev_sock)) != 0) { if (open_count == 0) netif_close(netdev_sock); return error; } } open_count++; f->f_devdata = NULL; /* ### nfs_root_node ?! */ return 0; } int enclose(struct open_file *f) { if (open_count > 0) if (--open_count == 0) netif_close(netdev_sock); f->f_devdata = NULL; return 0; } int enstrategy(void *devdata, int rw, daddr_t dblk, size_t size, void *buf, size_t *rsize) { return ENXIO; /* wrong access method */ } /* private function */ static int mountroot(int sock) { /* Mount the root directory from a boot server */ #if 0 struct in_addr in = { 0xc2793418 }; u_char *res; res = arpwhohas(socktodesc(sock), in); panic("arpwhohas returned %s", res); #endif /* 1. use bootp. This does most of the work for us. */ bootp(sock); if (myip.s_addr == 0 || rootip.s_addr == 0 || rootpath[0] == '\0') return ETIMEDOUT; printf("Using IP address: %s\n", inet_ntoa(myip)); printf("root addr=%s path=%s\n", inet_ntoa(rootip), rootpath); /* 2. mount. */ if (nfs_mount(sock, rootip, rootpath) < 0) return errno; return 0; } #endif static int en_wait_for_intr(int flag) { volatile int *intrstat = MON(volatile int *, MG_intrstat); int count; for (count = 0; count < EN_TIMEOUT; count++) if (*intrstat & flag) return 0; return -1; }