/* * Copyright (c) 1995 Ugen J.S.Antsilevich * * Redistribution and use in source forms, with and without modification, * are permitted provided that this entire comment appears intact. * * Redistribution in binary form may occur without any restrictions. * Obviously, it would be nice if you gave credit where credit is due * but requiring it would be too onerous. * * This software is provided ``AS IS'' without any warranties of any kind. * * Device configuration to kernel image saving utility. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "i386/isa/isa_device.h" #define TRUE 1 #define FALSE 0 extern int errno; struct nlist nl[] = { #define N_TABTTY 0 {"_isa_devtab_tty"}, #define N_TABBIO 1 {"_isa_devtab_bio"}, #define N_TABNET 2 {"_isa_devtab_net"}, #define N_TABNULL 3 {"_isa_devtab_null"}, "", }; #define N_TABLAST N_TABNULL struct nlist nlk[] = { {"_isa_devlist"}, "", }; int quiet = FALSE; void fatal(name, str) char *name, *str; { if (quiet) exit(1); if (str) fprintf(stderr, "%s : %s\n", name, str); else perror(name); exit(1); } void error(name, str) char *name, *str; { if (quiet) return; if (str) fprintf(stderr, "%s : %s\n", name, str); else perror(name); } void usage(char *title) { fprintf(stderr, "usage: %s [-qtv]\n", title); } main(ac, av) int ac; char **av; { int f, res, s; int modified,dev_found; int sym; u_long pos, entry, pos1, pos_t; u_long flags; struct isa_device buf, buf1; struct isa_driver dbuf; char nbuf[5]; struct stat fst; struct exec es; kvm_t *kd; static char errb[_POSIX2_LINE_MAX]; const char *kernel; extern char *optarg; char ch; int testonly = FALSE; int verbose = FALSE; while ((ch = getopt(ac, av, "qtv")) != EOF) switch (ch) { case 'q': quiet = TRUE; break; case 't': testonly = TRUE; /* In test mode we want to be verbose */ case 'v': verbose = TRUE; break; case '?': default: usage(av[0]); exit(1); } kernel = getbootfile(); if (verbose) printf("Boot image: %s\n", kernel); if (!(kd = kvm_open(NULL, NULL, NULL, O_RDONLY, errb))) fatal("kvm_open", NULL); if (kvm_nlist(kd, nlk) != 0) fatal("kvm_nlist", NULL); if (nlk[0].n_type == 0) fatal("kvm_nlist", "bad symbol type"); if (nlist(kernel, nl) != 0) fatal("nlist", NULL); if (nl[0].n_type == 0) fatal("nlist", "bad symbol type"); if (stat(kernel, &fst) < 0) fatal("stat", NULL); flags = fst.st_flags; if (chflags(kernel, (u_long) 0) < 0) fatal("chflags", NULL); if ((f = open(kernel, O_RDWR)) <= 0) fatal("open", NULL); if (read(f, &es, sizeof(struct exec)) <= 0) fatal("read header", NULL); entry = es.a_entry; for (sym = 0; sym <= N_TABLAST; sym++) { if (verbose) printf("\nTable: %s\n", nl[sym].n_name); pos = nl[sym].n_value + NBPG - entry; pos1 = nlk[0].n_value; if (lseek(f, pos, SEEK_SET) != pos) fatal("seek", NULL); if (verbose) printf("----------------------------------------------------\n"); do { if ((res = read(f, (char *) &buf, sizeof(struct isa_device))) <= 0) fatal("read", NULL); if (kvm_read(kd, pos1, &pos_t, sizeof(u_long)) < 0) fatal("kvmread", NULL); dev_found = 0; while(pos_t!=NULL) { if (kvm_read(kd, pos_t, &buf1, sizeof(struct isa_device)) < 0) fatal("kvmread", NULL); if (buf1.id_id != buf.id_id) { pos_t = (u_long)(buf1.id_next); continue; } else dev_found=1; if (buf1.id_driver) if (kvm_read(kd, (u_long) buf1.id_driver, &dbuf, sizeof(struct isa_driver)) < 0) { error("kvm_read", "no driver"); } else { if (kvm_read(kd, (u_long) dbuf.name, nbuf, sizeof(nbuf)) < 0) { error("kvm_read", NULL); } else { nbuf[sizeof(nbuf) - 1] = 0; if (verbose) printf("Device: %s%d\n", nbuf, buf1.id_unit); } } else error("kvm_read", "no driver"); break; }; if (!dev_found) continue; if (buf1.id_id != 0) if (verbose) printf( "kernel: id=%u io=%X irq=%d drq=%d maddr=%X msize=%d flags=%X enabled=%X \n", buf1.id_id, buf1.id_iobase, buf1.id_irq, buf1.id_drq, buf1.id_maddr, buf1.id_msize, buf1.id_flags, buf1.id_enabled); if (buf.id_id != 0) if (verbose) printf( "file: id=%u io=%X irq=%d drq=%d maddr=%X msize=%d flags=%X enabled=%X \n", buf.id_id, buf.id_iobase, buf.id_irq, buf.id_drq, buf.id_maddr, buf.id_msize, buf.id_flags, buf.id_enabled); /* * OK,now we'd compare values and set'em from kernel. */ modified = FALSE; if (buf.id_iobase != -1 && buf.id_iobase != buf1.id_iobase) { if (verbose) printf("Setting IO addr\n"); buf.id_iobase = buf1.id_iobase; modified = TRUE; } if (buf.id_irq != (u_short)-1 && buf.id_irq != buf1.id_irq) { if (verbose) printf("Setting IRQ\n"); buf.id_irq = buf1.id_irq; modified = TRUE; } if (buf.id_drq != -1 && buf.id_drq != buf1.id_drq) { if (verbose) printf("Setting DRQ\n"); buf.id_drq = buf1.id_drq; modified = TRUE; } if (buf.id_maddr != (caddr_t)-1 && buf.id_maddr != buf1.id_maddr) { if (verbose) printf("Setting memory addres\n"); buf.id_maddr = buf1.id_maddr; modified = TRUE; } if (buf.id_msize != buf1.id_msize) { if (verbose) printf("Setting msize\n"); buf.id_msize = buf1.id_msize; modified = TRUE; } if (buf.id_flags != buf1.id_flags) { if (verbose) printf("Setting flags\n"); buf.id_flags = buf1.id_flags; modified = TRUE; } if (buf.id_enabled != buf1.id_enabled) { if (verbose) printf("Setting device enable/disable\n"); buf.id_enabled = buf1.id_enabled; modified = TRUE; } if (verbose) printf("----------------------------------------------------\n"); if (modified && !testonly) { res = lseek(f, -(off_t) sizeof(struct isa_device), SEEK_CUR); if (write(f, &buf, sizeof(struct isa_device)) <= 0) fatal("write", NULL); } } while (buf.id_id != 0 && buf1.id_id != 0); } if (chflags(kernel, flags) < 0) fatal("chflags restore", NULL); kvm_close(kd); close(f); }