/* $NetBSD: ofdev.c,v 1.31 2024/02/10 18:43:51 andvar Exp $ */ /* * Copyright (C) 1995, 1996 Wolfgang Solfrank. * Copyright (C) 1995, 1996 TooLs GmbH. * 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 TooLs GmbH. * 4. The name of TooLs GmbH may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY TOOLS GMBH ``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 TOOLS GMBH 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. */ /* * Device I/O routines using Open Firmware */ #include "ofdev.h" #include "openfirm.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "hfs.h" #include "net.h" #ifdef DEBUG # define DPRINTF printf #else # define DPRINTF while (0) printf #endif static int strategy(void *devdata, int rw, daddr_t blk, size_t size, void *buf, size_t *rsize) { struct of_dev *dev = devdata; u_quad_t pos; int n; if (rw != F_READ) return EPERM; if (dev->type != OFDEV_DISK) panic("strategy"); pos = (u_quad_t)(blk + dev->partoff) * dev->bsize; for (;;) { if (OF_seek(dev->handle, pos) < 0) break; n = OF_read(dev->handle, buf, size); if (n == -2) continue; if (n < 0) break; *rsize = n; return 0; } return EIO; } static int devopen_dummy(struct open_file *of, ...) { return -1; } static int devclose(struct open_file *of) { uint32_t cells[2]; struct of_dev *op = of->f_devdata; cells[0] = (uintptr_t)op->dmabuf; cells[1] = MAXPHYS; if (op->type == OFDEV_NET) net_close(op); OF_call_method("dma-free", op->handle, 2, 0, (int *)cells); OF_close(op->handle); op->handle = -1; return 0; } static struct devsw of_devsw[1] = { { "OpenFirmware", strategy, devopen_dummy, devclose, noioctl } }; int ndevs = sizeof of_devsw / sizeof of_devsw[0]; static struct fs_ops file_system_ffsv1 = FS_OPS(ffsv1); static struct fs_ops file_system_ffsv2 = FS_OPS(ffsv2); static struct fs_ops file_system_lfsv1 = FS_OPS(lfsv1); static struct fs_ops file_system_lfsv2 = FS_OPS(lfsv2); static struct fs_ops file_system_hfs = FS_OPS(hfs); static struct fs_ops file_system_ustarfs = FS_OPS(ustarfs); static struct fs_ops file_system_cd9660 = FS_OPS(cd9660); static struct fs_ops file_system_nfs = FS_OPS(nfs); static struct fs_ops file_system_dosfs = FS_OPS(dosfs); struct fs_ops file_system[9]; int nfsys; static struct of_dev ofdev = { -1, }; char opened_name[MAXBOOTPATHLEN]; /* * Check if this APM partition is a suitable root partition and return * its file system type or zero. */ static u_int8_t check_apm_root(struct part_map_entry *part, int *clust) { struct blockzeroblock *bzb; char typestr[32], *s; u_int8_t fstype; *clust = 0; /* may become 1 for A/UX partitions */ fstype = 0; bzb = (struct blockzeroblock *)(&part->pmBootArgs); /* convert partition type name to upper case */ strncpy(typestr, (char *)part->pmPartType, sizeof(typestr)); typestr[sizeof(typestr) - 1] = '\0'; for (s = typestr; *s; s++) if ((*s >= 'a') && (*s <= 'z')) *s = (*s - 'a' + 'A'); if (strcmp(PART_TYPE_NBSD_PPCBOOT, typestr) == 0) { if ((bzb->bzbMagic == BZB_MAGIC) && (bzb->bzbType < FSMAXTYPES)) fstype = bzb->bzbType; else fstype = FS_BSDFFS; } else if (strcmp(PART_TYPE_UNIX, typestr) == 0 && bzb->bzbMagic == BZB_MAGIC && (bzb->bzbFlags & BZB_ROOTFS)) { *clust = bzb->bzbCluster; fstype = FS_BSDFFS; } return fstype; } /* * Build a disklabel from APM partitions. * We will just look for a suitable root partition and insert it into * the 'a' slot. Should be sufficient to boot a kernel from it. */ static int search_mac_label(struct of_dev *devp, char *buf, struct disklabel *lp) { struct part_map_entry *pme; struct partition *a_part; size_t nread; int blkno, clust, lastblk, lastclust; u_int8_t fstype; pme = (struct part_map_entry *)buf; a_part = &lp->d_partitions[0]; /* disklabel 'a' partition */ lastclust = -1; for (blkno = lastblk = 1; blkno <= lastblk; blkno++) { if (strategy(devp, F_READ, blkno, DEV_BSIZE, pme, &nread) || nread != DEV_BSIZE) return ERDLAB; if (pme->pmSig != PART_ENTRY_MAGIC || pme->pmPartType[0] == '\0') break; lastblk = pme->pmMapBlkCnt; fstype = check_apm_root(pme, &clust); if (fstype && (lastclust == -1 || clust < lastclust)) { a_part->p_size = pme->pmPartBlkCnt; a_part->p_offset = pme->pmPyPartStart; a_part->p_fstype = fstype; if ((lastclust = clust) == 0) break; /* we won't find a better match */ } } if (lastclust < 0) return ERDLAB; /* no root partition found */ /* pretend we only have partitions 'a', 'b' and 'c' */ lp->d_npartitions = RAW_PART + 1; return 0; } static u_long get_long(const void *p) { const unsigned char *cp = p; return cp[0] | (cp[1] << 8) | (cp[2] << 16) | (cp[3] << 24); } /* * Find a valid disklabel from MBR partitions. */ static int search_dos_label(struct of_dev *devp, u_long off, char *buf, struct disklabel *lp, u_long off0) { size_t nread; struct mbr_partition *p; int i; u_long poff; static int recursion; if (strategy(devp, F_READ, off, DEV_BSIZE, buf, &nread) || nread != DEV_BSIZE) return ERDLAB; if (*(u_int16_t *)&buf[MBR_MAGIC_OFFSET] != sa_htole16(MBR_MAGIC)) return ERDLAB; if (recursion++ <= 1) off0 += off; for (p = (struct mbr_partition *)(buf + MBR_PART_OFFSET), i = 4; --i >= 0; p++) { if (p->mbrp_type == MBR_PTYPE_NETBSD #ifdef COMPAT_386BSD_MBRPART || (p->mbrp_type == MBR_PTYPE_386BSD && (printf("WARNING: old BSD partition ID!\n"), 1) /* XXX XXX - libsa printf() is void */ ) #endif ) { poff = get_long(&p->mbrp_start) + off0; if (strategy(devp, F_READ, poff + 1, DEV_BSIZE, buf, &nread) == 0 && nread == DEV_BSIZE) { if (!getdisklabel(buf, lp)) { recursion--; return 0; } } if (strategy(devp, F_READ, off, DEV_BSIZE, buf, &nread) || nread != DEV_BSIZE) { recursion--; return ERDLAB; } } else if (p->mbrp_type == MBR_PTYPE_EXT) { poff = get_long(&p->mbrp_start); if (!search_dos_label(devp, poff, buf, lp, off0)) { recursion--; return 0; } if (strategy(devp, F_READ, off, DEV_BSIZE, buf, &nread) || nread != DEV_BSIZE) { recursion--; return ERDLAB; } } } recursion--; return ERDLAB; } bool parsefilepath(const char *path, char *devname, char *fname, char *ppart) { char *cp, *lp; char savec; int dhandle; char str[MAXBOOTPATHLEN]; char devtype[16]; DPRINTF("%s: path = %s\n", __func__, path); devtype[0] = '\0'; if (devname != NULL) devname[0] = '\0'; if (fname != NULL) fname[0] = '\0'; if (ppart != NULL) *ppart = 0; strlcpy(str, path, sizeof(str)); lp = str; for (cp = str; *cp != '\0'; lp = cp) { /* For each component of the path name... */ while (*++cp != '\0' && *cp != '/') continue; savec = *cp; *cp = '\0'; /* ...look whether there is a device with this name */ dhandle = OF_finddevice(str); DPRINTF("%s: Checking %s: dhandle = %d\n", __func__, str, dhandle); *cp = savec; if (dhandle != -1) { /* * If it's a valid device, lp is a delimiter * in the OF device path. */ if (OF_getprop(dhandle, "device_type", devtype, sizeof devtype) < 0) devtype[0] = '\0'; continue; } /* * If not, lp is the delimiter between OF device path * and the specified filename. */ /* Check if the last component was a block device... */ if (strcmp(devtype, "block") == 0) { /* search for arguments */ for (cp = lp; --cp >= str && *cp != '/' && *cp != ':';) continue; if (cp >= str && *cp == ':') { /* found arguments */ for (cp = lp; *--cp != ':' && *cp != ',';) continue; if (*++cp >= 'a' && *cp <= 'a' + MAXPARTITIONS && ppart != NULL) *ppart = *cp; } } if (*lp != '\0') { /* set filename */ DPRINTF("%s: filename = %s\n", __func__, lp); if (fname != NULL) strcpy(fname, lp); if (str != lp) { /* set device path */ *lp = '\0'; DPRINTF("%s: device path = %s\n", __func__, str); if (devname != NULL) strcpy(devname, str); } } return true; } DPRINTF("%s: invalid path?\n", __func__); return false; } int devopen(struct open_file *of, const char *name, char **file) { char *cp; char partition; char devname[MAXBOOTPATHLEN]; char filename[MAXBOOTPATHLEN]; char buf[DEV_BSIZE]; struct disklabel label; int handle, part; size_t nread; int error = 0; uint32_t cells[2]; if (ofdev.handle != -1) panic("devopen"); if (of->f_flags != F_READ) return EPERM; if (!parsefilepath(name, devname, filename, &partition)) return ENOENT; if (filename[0] == '\0') /* no filename */ return ENOENT; if (devname[0] == '\0') /* no device, use default bootdev */ strlcpy(devname, bootdev, sizeof(devname)); DPRINTF("%s: devname = %s, filename = %s\n", __func__, devname, filename); strlcpy(opened_name, devname, sizeof(opened_name)); if (partition) { cp = opened_name + strlen(opened_name); *cp++ = ':'; *cp++ = partition; *cp = 0; } if (filename[0] != '/') strlcat(opened_name, "/", sizeof(opened_name)); strlcat(opened_name, filename, sizeof(opened_name)); DPRINTF("%s: opened_name = %s\n", __func__, opened_name); *file = opened_name + strlen(devname) + 1; if ((handle = OF_finddevice(devname)) == -1) return ENOENT; if (OF_getprop(handle, "device_type", buf, sizeof buf) < 0) return ENXIO; if (!strcmp(buf, "block") && strrchr(devname, ':') == NULL) /* indicate raw partition, when missing */ if (ofw_version >= 3) strlcat(devname, ":0", sizeof(devname)); if ((handle = OF_open(devname)) == -1) return ENXIO; memset(&ofdev, 0, sizeof ofdev); ofdev.handle = handle; ofdev.dmabuf = NULL; cells[0] = MAXPHYS; OF_call_method("dma-alloc", handle, 1, 1, (int *)cells); ofdev.dmabuf = (void*)(uintptr_t)cells[1]; if (!strcmp(buf, "block")) { ofdev.type = OFDEV_DISK; ofdev.bsize = DEV_BSIZE; /* First try to find a disklabel without partitions */ if (!floppyboot && (strategy(&ofdev, F_READ, LABELSECTOR, DEV_BSIZE, buf, &nread) != 0 || nread != DEV_BSIZE || getdisklabel(buf, &label))) { /* Else try APM or MBR partitions */ struct drvr_map *map = (struct drvr_map *)buf; if (map->sbSig == DRIVER_MAP_MAGIC) error = search_mac_label(&ofdev, buf, &label); else error = search_dos_label(&ofdev, 0, buf, &label, 0); if (error && error != ERDLAB) goto bad; } if (error == ERDLAB) { if (partition) /* * User specified a partition, * but there is none */ goto bad; /* No label, just use complete disk */ ofdev.partoff = 0; } else { part = partition ? partition - 'a' : 0; ofdev.partoff = label.d_partitions[part].p_offset; } of->f_dev = of_devsw; of->f_devdata = &ofdev; file_system[0] = file_system_ffsv1; file_system[1] = file_system_ffsv2; file_system[2] = file_system_lfsv1; file_system[3] = file_system_lfsv2; file_system[4] = file_system_ustarfs; file_system[5] = file_system_cd9660; file_system[6] = file_system_hfs; file_system[7] = file_system_dosfs; nfsys = 8; return 0; } if (!strcmp(buf, "network")) { ofdev.type = OFDEV_NET; of->f_dev = of_devsw; of->f_devdata = &ofdev; file_system[0] = file_system_nfs; nfsys = 1; if ((error = net_open(&ofdev))) goto bad; return 0; } error = EFTYPE; bad: OF_close(handle); ofdev.handle = -1; return error; }