/* $NetBSD: promdev.c,v 1.14.2.1 1995/10/13 19:53:55 pk Exp $ */ /* * Copyright (c) 1993 Paul Kranenburg * Copyright (c) 1995 Gordon W. Ross * 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 Paul Kranenburg. * 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. */ /* * Note: the `#ifndef BOOTXX' in here serve to queeze the code size * of the 1st-stage boot program. */ #include #include #include #include #include #include #include "promdev.h" int obp_close __P((struct open_file *)); int obp_strategy __P((void *, int, daddr_t, size_t, void *, size_t *)); ssize_t obp_xmit __P((struct promdata *, void *, size_t)); ssize_t obp_recv __P((struct promdata *, void *, size_t)); int prom0_close __P((struct open_file *)); int prom0_strategy __P((void *, int, daddr_t, size_t, void *, size_t *)); void prom0_iclose __P((struct saioreq *)); int prom0_iopen __P((struct promdata *)); ssize_t prom0_xmit __P((struct promdata *, void *, size_t)); ssize_t prom0_recv __P((struct promdata *, void *, size_t)); static char *prom_mapin __P((u_long, int, int)); int getdevtype __P((int, char *)); int getprop __P((int, char *, void *, int)); char *getpropstring __P((int, char *)); static void prom0_fake __P((void)); extern struct filesystem file_system_nfs[]; extern struct filesystem file_system_ufs[]; int prom_open __P((struct open_file *f, ...)) { return 0; } int prom_ioctl __P((struct open_file *f, u_long c, void *d)) { return EIO; } struct devsw devsw[] = { { "prom0", prom0_strategy, prom_open, prom0_close, prom_ioctl }, { "prom", obp_strategy, prom_open, obp_close, prom_ioctl } }; int ndevs = (sizeof(devsw)/sizeof(devsw[0])); char *prom_bootdevice; char *prom_bootfile; int prom_boothow; struct promvec *promvec; static int saveecho; void prom_init() { register char *ap, *cp, *dp; if (cputyp == CPU_SUN4) prom0_fake(); if (promvec->pv_romvec_vers >= 2) { static char filestore[16]; prom_bootdevice = *promvec->pv_v2bootargs.v2_bootpath; #ifndef BOOTXX cp = *promvec->pv_v2bootargs.v2_bootargs; dp = prom_bootfile = filestore; while (*cp && *cp != '-') *dp++ = *cp++; while (dp > prom_bootfile && *--dp == ' '); *++dp = '\0'; ap = cp; #endif } else { static char bootstore[16]; dp = prom_bootdevice = bootstore; cp = (*promvec->pv_v0bootargs)->ba_argv[0]; while (*cp) { *dp++ = *cp; if (*cp++ == ')') break; } *dp = '\0'; #ifndef BOOTXX prom_bootfile = (*promvec->pv_v0bootargs)->ba_kernel; ap = (*promvec->pv_v0bootargs)->ba_argv[1]; #endif } #ifndef BOOTXX if (ap == NULL || *ap != '-') return; while (*ap) { switch (*ap++) { case 'a': prom_boothow |= RB_ASKNAME; break; case 's': prom_boothow |= RB_SINGLE; break; case 'd': prom_boothow |= RB_KDB; debug = 1; break; } } #endif } int devopen(f, fname, file) struct open_file *f; const char *fname; char **file; { int error = 0, fd; struct promdata *pd; pd = (struct promdata *)alloc(sizeof *pd); if (cputyp == CPU_SUN4) { error = prom0_iopen(pd); #ifndef BOOTXX pd->xmit = prom0_xmit; pd->recv = prom0_recv; #endif } else { fd = (promvec->pv_romvec_vers >= 2) ? (*promvec->pv_v2devops.v2_open)(prom_bootdevice) : (*promvec->pv_v0devops.v0_open)(prom_bootdevice); if (fd == 0) { error = ENXIO; } else { pd->fd = fd; #ifndef BOOTXX pd->xmit = obp_xmit; pd->recv = obp_recv; #endif } } if (error) { printf("Can't open device `%s'\n", prom_bootdevice); return (error); } #ifdef BOOTXX pd->devtype = DT_BLOCK; #else /* BOOTXX */ pd->devtype = getdevtype(fd, prom_bootdevice); /* Assume type BYTE is a raw device */ if (pd->devtype != DT_BYTE) *file = (char *)fname; if (pd->devtype == DT_NET) { bcopy(file_system_nfs, file_system, sizeof(struct fs_ops)); if ((error = net_open(pd)) != 0) { printf("Can't open network device `%s'\n", prom_bootdevice); return error; } } else bcopy(file_system_ufs, file_system, sizeof(struct fs_ops)); #endif /* BOOTXX */ f->f_dev = &devsw[cputyp == CPU_SUN4 ? 0 : 1]; f->f_devdata = (void *)pd; return 0; } int obp_strategy(devdata, flag, dblk, size, buf, rsize) void *devdata; int flag; daddr_t dblk; size_t size; void *buf; size_t *rsize; { int error = 0; struct promdata *pd = (struct promdata *)devdata; int fd = pd->fd; #ifdef DEBUG_PROM printf("promstrategy: size=%d dblk=%d\n", size, dblk); #endif if (promvec->pv_romvec_vers >= 2) { if (pd->devtype == DT_BLOCK) (*promvec->pv_v2devops.v2_seek)(fd, 0, dbtob(dblk)); *rsize = (*((flag == F_READ) ? (u_int (*)())promvec->pv_v2devops.v2_read : (u_int (*)())promvec->pv_v2devops.v2_write ))(fd, buf, size); } else { int n = (*((flag == F_READ) ? (u_int (*)())promvec->pv_v0devops.v0_rbdev : (u_int (*)())promvec->pv_v0devops.v0_wbdev ))(fd, btodb(size), dblk, buf); *rsize = dbtob(n); } #ifdef DEBUG_PROM printf("rsize = %x\n", *rsize); #endif return error; } /* * On old-monitor machines, things work differently. */ int prom0_strategy(devdata, flag, dblk, size, buf, rsize) void *devdata; int flag; daddr_t dblk; size_t size; void *buf; size_t *rsize; { struct promdata *pd = devdata; struct saioreq *si; struct om_boottable *ops; char *dmabuf; int si_flag; size_t xcnt; si = pd->si; ops = si->si_boottab; #ifdef DEBUG_PROM printf("prom_strategy: size=%d dblk=%d\n", size, dblk); #endif dmabuf = dvma_mapin(buf, size); si->si_bn = dblk; si->si_ma = dmabuf; si->si_cc = size; si_flag = (flag == F_READ) ? SAIO_F_READ : SAIO_F_WRITE; xcnt = (*ops->b_strategy)(si, si_flag); dvma_mapout(dmabuf, size); #ifdef DEBUG_PROM printf("disk_strategy: xcnt = %x\n", xcnt); #endif if (xcnt <= 0) return (EIO); *rsize = xcnt; return (0); } int obp_close(f) struct open_file *f; { struct promdata *pd = f->f_devdata; register int fd = pd->fd; #ifndef BOOTXX if (pd->devtype == DT_NET) net_close(pd); #endif if (promvec->pv_romvec_vers >= 2) (void)(*promvec->pv_v2devops.v2_close)(fd); else (void)(*promvec->pv_v0devops.v0_close)(fd); return 0; } int prom0_close(f) struct open_file *f; { struct promdata *pd = f->f_devdata; #ifndef BOOTXX if (pd->devtype == DT_NET) net_close(pd); #endif prom0_iclose(pd->si); pd->si = NULL; *romp->echo = saveecho; /* Hmm, probably must go somewhere else */ return 0; } #ifndef BOOTXX ssize_t obp_xmit(pd, buf, len) struct promdata *pd; void *buf; size_t len; { return (promvec->pv_romvec_vers >= 2 ? (*promvec->pv_v2devops.v2_write)(pd->fd, buf, len) : (*promvec->pv_v0devops.v0_wnet)(pd->fd, len, buf)); } ssize_t obp_recv(pd, buf, len) struct promdata *pd; void *buf; size_t len; { int n; n = (promvec->pv_romvec_vers >= 2 ? (*promvec->pv_v2devops.v2_read)(pd->fd, buf, len) : (*promvec->pv_v0devops.v0_rnet)(pd->fd, len, buf)); return (n == -2 ? 0 : n); } ssize_t prom0_xmit(pd, buf, len) struct promdata *pd; void *buf; size_t len; { struct saioreq *si; struct saif *sif; char *dmabuf; int rv; si = pd->si; sif = si->si_sif; if (sif == NULL) { printf("xmit: not a network device\n"); return (-1); } dmabuf = dvma_mapin(buf, len); rv = sif->sif_xmit(si->si_devdata, dmabuf, len); dvma_mapout(dmabuf, len); return (ssize_t)(rv ? -1 : len); } ssize_t prom0_recv(pd, buf, len) struct promdata *pd; void *buf; size_t len; { struct saioreq *si; struct saif *sif; char *dmabuf; int rv; si = pd->si; sif = si->si_sif; dmabuf = dvma_mapin(buf, len); rv = sif->sif_poll(si->si_devdata, dmabuf); dvma_mapout(dmabuf, len); return (ssize_t)rv; } int getchar() { char c; register int n; if (promvec->pv_romvec_vers > 2) while ((n = (*promvec->pv_v2devops.v2_read) (*promvec->pv_v2bootargs.v2_fd0, (caddr_t)&c, 1)) != 1); else c = (*promvec->pv_getchar)(); if (c == '\r') c = '\n'; return (c); } int peekchar() { char c; register int n; if (promvec->pv_romvec_vers > 2) { n = (*promvec->pv_v2devops.v2_read) (*promvec->pv_v2bootargs.v2_fd0, (caddr_t)&c, 1); if (n < 0) return -1; } else c = (*promvec->pv_nbgetchar)(); if (c == '\r') c = '\n'; return (c); } #endif static void pv_putchar(c) int c; { char c0 = c; if (promvec->pv_romvec_vers > 2) (*promvec->pv_v2devops.v2_write) (*promvec->pv_v2bootargs.v2_fd1, &c0, 1); else (*promvec->pv_putchar)(c); } void putchar(c) int c; { if (c == '\n') pv_putchar('\r'); pv_putchar(c); } void _rtt() { promvec->pv_halt(); } #ifndef BOOTXX int hz = 1000; time_t getsecs() { register int ticks = getticks(); return ((time_t)(ticks / hz)); } int getticks() { if (promvec->pv_romvec_vers >= 2) { char c; (void)(*promvec->pv_v2devops.v2_read) (*promvec->pv_v2bootargs.v2_fd0, (caddr_t)&c, 0); } else { (void)(*promvec->pv_nbgetchar)(); } return *(promvec->pv_ticks); } void prom_getether(fd, ea) u_char *ea; { if (cputyp == CPU_SUN4) { static struct idprom sun4_idprom; u_char *src, *dst; int len, x; if (sun4_idprom.id_format == 0) { dst = (char*)&sun4_idprom; src = (char*)AC_IDPROM; len = sizeof(struct idprom); do { x = lduba(src++, ASI_CONTROL); *dst++ = x; } while (--len > 0); } bcopy(sun4_idprom.id_ether, ea, 6); } else if (promvec->pv_romvec_vers < 2) { (void)(*promvec->pv_enaddr)(fd, (char *)ea); } else { char buf[64]; sprintf(buf, "%x mac-address drop swap 6 cmove", ea); promvec->pv_fortheval.v2_eval(buf); } } /* * A number of well-known devices on sun4s. */ static struct dtab { char *name; int type; } dtab[] = { { "sd", DT_BLOCK }, { "st", DT_BLOCK }, { "xd", DT_BLOCK }, { "xy", DT_BLOCK }, { "fd", DT_BLOCK }, { "le", DT_NET }, { "ie", DT_NET }, { NULL, 0 } }; int getdevtype(fd, name) int fd; char *name; { if (promvec->pv_romvec_vers >= 2) { int node = (*promvec->pv_v2devops.v2_fd_phandle)(fd); char *cp = getpropstring(node, "device_type"); if (strcmp(cp, "block") == 0) return DT_BLOCK; else if (strcmp(cp, "network") == 0) return DT_NET; else if (strcmp(cp, "byte") == 0) return DT_BYTE; } else { struct dtab *dp; for (dp = dtab; dp->name; dp++) { if (name[0] == dp->name[0] && name[1] == dp->name[1]) return dp->type; } } return 0; } /* * OpenPROM nodes & property routines (from ). */ int getprop(node, name, buf, bufsiz) int node; char *name; void *buf; register int bufsiz; { register struct nodeops *no; register int len; no = promvec->pv_nodeops; len = no->no_proplen(node, name); if (len > bufsiz) { printf("node %x property %s length %d > %d\n", node, name, len, bufsiz); return (0); } no->no_getprop(node, name, buf); return (len); } /* * Return a string property. There is a (small) limit on the length; * the string is fetched into a static buffer which is overwritten on * subsequent calls. */ char * getpropstring(node, name) int node; char *name; { register int len; static char stringbuf[64]; len = getprop(node, name, (void *)stringbuf, sizeof stringbuf - 1); if (len == -1) len = 0; stringbuf[len] = '\0'; /* usually unnecessary */ return (stringbuf); } #endif /* BOOTXX */ /* * Old monitor routines */ #include struct saioreq prom_si; static int promdev_inuse; int prom0_iopen(pd) struct promdata *pd; { struct om_bootparam *bp; struct om_boottable *ops; struct devinfo *dip; struct saioreq *si; int error; if (promdev_inuse) return(EMFILE); bp = *romp->bootParam; ops = bp->bootTable; dip = ops->b_devinfo; #ifdef DEBUG_PROM printf("Boot device type: %s\n", ops->b_desc); printf("d_devbytes=%d\n", dip->d_devbytes); printf("d_dmabytes=%d\n", dip->d_dmabytes); printf("d_localbytes=%d\n", dip->d_localbytes); printf("d_stdcount=%d\n", dip->d_stdcount); printf("d_stdaddrs[%d]=%x\n", bp->ctlrNum, dip->d_stdaddrs[bp->ctlrNum]); printf("d_devtype=%d\n", dip->d_devtype); printf("d_maxiobytes=%d\n", dip->d_maxiobytes); #endif dvma_init(); si = &prom_si; bzero((caddr_t)si, sizeof(*si)); si->si_boottab = ops; si->si_ctlr = bp->ctlrNum; si->si_unit = bp->unitNum; si->si_boff = bp->partNum; if (si->si_ctlr > dip->d_stdcount) { printf("Invalid controller number\n"); return(ENXIO); } if (dip->d_devbytes) { si->si_devaddr = prom_mapin(dip->d_stdaddrs[si->si_ctlr], dip->d_devbytes, dip->d_devtype); #ifdef DEBUG_PROM printf("prom_iopen: devaddr=0x%x pte=0x%x\n", si->si_devaddr, getpte((u_long)si->si_devaddr & ~PGOFSET)); #endif } if (dip->d_dmabytes) { si->si_dmaaddr = dvma_alloc(dip->d_dmabytes); #ifdef DEBUG_PROM printf("prom_iopen: dmaaddr=0x%x\n", si->si_dmaaddr); #endif } if (dip->d_localbytes) { si->si_devdata = alloc(dip->d_localbytes); #ifdef DEBUG_PROM printf("prom_iopen: devdata=0x%x\n", si->si_devdata); #endif } /* OK, call the PROM device open routine. */ error = (*ops->b_open)(si); if (error != 0) { printf("prom_iopen: \"%s\" error=%d\n", ops->b_desc, error); return (ENXIO); } #ifdef DEBUG_PROM printf("prom_iopen: succeeded, error=%d\n", error); #endif pd->si = si; promdev_inuse++; return (0); } void prom0_iclose(si) struct saioreq *si; { struct om_boottable *ops; struct devinfo *dip; if (promdev_inuse == 0) return; ops = si->si_boottab; dip = ops->b_devinfo; (*ops->b_close)(si); if (si->si_dmaaddr) { dvma_free(si->si_dmaaddr, dip->d_dmabytes); si->si_dmaaddr = NULL; } promdev_inuse = 0; } static struct mapinfo { int maptype; int pgtype; int base; } prom_mapinfo[] = { { MAP_MAINMEM, PG_OBMEM, 0 }, { MAP_OBIO, PG_OBIO, 0 }, { MAP_MBMEM, PG_VME16, 0xFF000000 }, { MAP_MBIO, PG_VME16, 0xFFFF0000 }, { MAP_VME16A16D, PG_VME16, 0xFFFF0000 }, { MAP_VME16A32D, PG_VME32, 0xFFFF0000 }, { MAP_VME24A16D, PG_VME16, 0xFF000000 }, { MAP_VME24A32D, PG_VME32, 0xFF000000 }, { MAP_VME32A16D, PG_VME16, 0 }, { MAP_VME32A32D, PG_VME32, 0 }, }; static prom_mapinfo_cnt = sizeof(prom_mapinfo) / sizeof(prom_mapinfo[0]); /* The virtual address we will use for PROM device mappings. */ static u_long prom_devmap = MONSHORTSEG; static char * prom_mapin(physaddr, length, maptype) u_long physaddr; int length, maptype; { int i, pa, pte, va; if (length > (4*NBPG)) panic("prom_mapin: length=%d\n", length); for (i = 0; i < prom_mapinfo_cnt; i++) if (prom_mapinfo[i].maptype == maptype) goto found; panic("prom_mapin: invalid maptype %d\n", maptype); found: pte = prom_mapinfo[i].pgtype; pte |= (PG_V|PG_W|PG_S|PG_NC); pa = prom_mapinfo[i].base; pa += physaddr; pte |= ((pa >> PGSHIFT) & PG_PFNUM); va = prom_devmap; do { setpte(va, pte); va += NBPG; pte += 1; length -= NBPG; } while (length > 0); return ((char*)(prom_devmap | (pa & PGOFSET))); } void prom0_fake() { static struct promvec promvecstore; promvec = &promvecstore; promvec->pv_stdin = romp->inSource; promvec->pv_stdout = romp->outSink; promvec->pv_putchar = romp->putChar; promvec->pv_putstr = romp->fbWriteStr; promvec->pv_nbgetchar = romp->mayGet; promvec->pv_getchar = romp->getChar; promvec->pv_romvec_vers = 0; /* eek! */ promvec->pv_reboot = romp->reBoot; promvec->pv_abort = romp->abortEntry; promvec->pv_setctxt = romp->setcxsegmap; promvec->pv_v0bootargs = (struct v0bootargs **)(romp->bootParam); promvec->pv_halt = romp->exitToMon; promvec->pv_ticks = romp->nmiClock; saveecho = *romp->echo; *romp->echo = 0; }