/* $OpenBSD: ukcutil.c,v 1.9 2002/03/23 13:30:24 espie Exp $ */ /* * Copyright (c) 1999-2001 Mats O Jansson. 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 Mats O Jansson. * 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. */ #ifndef LINT static char rcsid[] = "$OpenBSD: ukcutil.c,v 1.9 2002/03/23 13:30:24 espie Exp $"; #endif #include #include #include #include #include #include #include #include #include "cmd.h" #include "exec.h" #include "ukc.h" #include "misc.h" extern int ukc_mod_kernel; struct cfdata * get_cfdata(idx) int idx; { return((struct cfdata *)(adjust((caddr_t)nl[P_CFDATA].n_value) + idx*sizeof(struct cfdata))); } short * get_locnamp(idx) int idx; { return((short *)(adjust((caddr_t)nl[S_LOCNAMP].n_value) + idx*sizeof(short))); } caddr_t * get_locnames(idx) int idx; { return((caddr_t *)(adjust((caddr_t)nl[P_LOCNAMES].n_value) + idx*sizeof(caddr_t))); } int * get_extraloc(idx) int idx; { return((int *)(adjust((caddr_t)nl[IA_EXTRALOC].n_value) + idx*sizeof(int))); } char * get_pdevnames(idx) int idx; { caddr_t *p; p = (caddr_t *)adjust((caddr_t)nl[P_PDEVNAMES].n_value + idx*sizeof(caddr_t)); return(char *)adjust((caddr_t)*p); } struct pdevinit * get_pdevinit(idx) int idx; { return((struct pdevinit *)(adjust((caddr_t)nl[S_PDEVINIT].n_value) + idx*sizeof(struct pdevinit))); } int more() { int quit = 0; cmd_t cmd; if (cnt != -1) { if (cnt == lines) { printf("--- more ---"); fflush(stdout); ask_cmd(&cmd); cnt = 0; if (cmd.cmd[0] == 'q' || cmd.cmd[0] == 'Q') quit = 1; } cnt++; } return (quit); } void pnum(val) int val; { if (val > -2 && val < 16) { printf("%d", val); return; } switch (base) { case 8: printf("0%o", val); break; case 10: printf("%d", val); break; case 16: default: printf("0x%x", val); break; } } void pdevnam(devno) short devno; { struct cfdata *cd; struct cfdriver *cdrv; cd = get_cfdata(devno); cdrv = (struct cfdriver *)adjust((caddr_t)cd->cf_driver); #if defined(OLDSCSIBUS) if (strlen(adjust((caddr_t)cdrv->cd_name)) == 0) printf("oldscsibus"); #endif printf("%s", adjust((caddr_t)cdrv->cd_name)); switch (cd->cf_fstate) { case FSTATE_NOTFOUND: case FSTATE_DNOTFOUND: printf("%d", cd->cf_unit); break; case FSTATE_FOUND: printf("*FOUND*"); break; case FSTATE_STAR: case FSTATE_DSTAR: printf("*"); break; default: printf("*UNKNOWN*"); break; } } void pdev(devno) short devno; { struct cfdata *cd; short *s, *ln; int *i; caddr_t *p; char c; struct pdevinit *pi; if (nopdev == 0) { if (devno > maxdev && devno <= totdev) { printf("%3d free slot (for add)\n", devno); return; } if (devno > totdev && devno <= totdev + maxpseudo) { pi = get_pdevinit(devno - totdev -1); printf("%3d %s count %d (pseudo device)\n", devno, get_pdevnames(devno - totdev - 1), pi->pdev_count); return; } } if (devno > maxdev) { printf("Unknown devno (max is %d)\n", maxdev); return; } cd = get_cfdata(devno); printf("%3d ", devno); pdevnam(devno); printf(" at"); c = ' '; s = (short *)adjust((caddr_t)cd->cf_parents); if (*s == -1) printf(" root"); while (*s != -1) { printf("%c", c); pdevnam(*s); c = '|'; s++; } switch (cd->cf_fstate) { case FSTATE_NOTFOUND: case FSTATE_FOUND: case FSTATE_STAR: break; case FSTATE_DNOTFOUND: case FSTATE_DSTAR: printf(" disable"); break; default: printf(" ???"); break; } i = (int *)adjust((caddr_t)cd->cf_loc); ln = get_locnamp(cd->cf_locnames); while (*ln != -1) { p = get_locnames(*ln); printf(" %s ", adjust((caddr_t)*p)); ln++; pnum(*i); i++; } printf(" flags 0x%x\n", cd->cf_flags); } int number(c, val) const char *c; int *val; { u_int num = 0; int neg = 0; int base = 10; if (*c == '-') { neg = 1; c++; } if (*c == '0') { base = 8; c++; if (*c == 'x' || *c == 'X') { base = 16; c++; } } while (*c != '\n' && *c != '\t' && *c != ' ' && *c != '\0') { u_char cc = *c; if (cc >= '0' && cc <= '9') cc = cc - '0'; else if (cc >= 'a' && cc <= 'f') cc = cc - 'a' + 10; else if (cc >= 'A' && cc <= 'F') cc = cc - 'A' + 10; else return (-1); if (cc > base) return (-1); num = num * base + cc; c++; } if (neg && num > INT_MAX) /* overflow */ return (1); *val = neg ? - num : num; return (0); } int device(cmd, len, unit, state) char *cmd; int *len; short *unit, *state; { short u = 0, s = FSTATE_FOUND; int l = 0; char *c; c = cmd; while (*c >= 'a' && *c <= 'z') { l++; c++; } if (*c == '*') { s = FSTATE_STAR; c++; } else { while (*c >= '0' && *c <= '9') { s = FSTATE_NOTFOUND; u = u*10 + *c - '0'; c++; } } while (*c == ' ' || *c == '\t' || *c == '\n') c++; if (*c == '\0') { *len = l; *unit = u; *state = s; return(0); } return(-1); } int attr(cmd, val) char *cmd; int *val; { char *c; caddr_t *p; short attr = -1, i = 0, l = 0; c = cmd; while (*c != ' ' && *c != '\t' && *c != '\n' && *c != '\0') { c++; l++; } p = get_locnames(0); while (i <= maxlocnames) { if (strlen((char *)adjust((caddr_t)*p)) == l) { if (strncasecmp(cmd, adjust((caddr_t)*p), l) == 0) attr = i; } p++; i++; } if (attr == -1) return (-1); *val = attr; return(0); } void modify(item, val) char *item; int *val; { cmd_t cmd; int a; ukc_mod_kernel = 1; while (1) { printf("%s [", item); pnum(*val); printf("] ? "); fflush(stdout); ask_cmd(&cmd); if (strlen(cmd.cmd) != 0) { if (strlen(cmd.args) == 0) { if (number(cmd.cmd, &a) == 0) { *val = a; break; } else printf("Unknown argument\n"); } else printf("Too many arguments\n"); } else break; } } void change(devno) int devno; { struct cfdata *cd, *c; caddr_t *p; struct pdevinit *pi; int i, share = 0, *j = NULL, *k = NULL, *l; short *ln, *lk; ukc_mod_kernel = 1; if (devno <= maxdev) { pdev(devno); if (ask_yn("change")) { cd = get_cfdata(devno); /* * Search for some other driver sharing this * locator table. if one does, we may need to * replace the locators with a new copy. */ c = get_cfdata(0); for (i = 0; c->cf_driver; i++) { if (i != devno && c->cf_loc == cd->cf_loc) share = 1; c++; } ln = get_locnamp(cd->cf_locnames); l = (int *)adjust((caddr_t)cd->cf_loc); if (share) { if (oldkernel) { printf("Can't do that on this kernel\n"); return; } lk = ln; i = 0; while (*lk != -1) { lk++; i++; } lk = ln; j = (int *)adjust((caddr_t)nl[I_NEXTRALOC].n_value); k = (int *)adjust((caddr_t)nl[I_UEXTRALOC].n_value); if ((i + *k) > *j) { printf("Not enough space to change device.\n"); return; } j = l = get_extraloc(*k); bcopy(adjust((caddr_t)cd->cf_loc), l, sizeof(int) * i); } while (*ln != -1) { p = get_locnames(*ln); modify((char *)adjust(*p), l); ln++; l++; } modify("flags", &cd->cf_flags); if (share) { if (bcmp(adjust((caddr_t)cd->cf_loc), j, sizeof(int) * i)) { cd->cf_loc = (int *)readjust((caddr_t)j); *k = *k + i; } } printf("%3d ", devno); pdevnam(devno); printf(" changed\n"); pdev(devno); } return; } if (nopdev == 0) { if (devno > maxdev && devno <= totdev) { printf("%3d can't change free slot\n", devno); return; } if (devno > totdev && devno <= totdev + maxpseudo) { pdev(devno); if (ask_yn("change")) { pi = get_pdevinit(devno-totdev-1); modify("count", &pi->pdev_count); printf("%3d %s changed\n", devno, get_pdevnames(devno - totdev - 1)); pdev(devno); } return; } } printf("Unknown devno (max is %d)\n", totdev+maxpseudo); } void change_history(devno, str) int devno; char *str; { int i, share = 0, *j = NULL, *k = NULL, *l; struct cfdata *cd, *c; struct pdevinit *pi; short *ln, *lk; caddr_t *p; ukc_mod_kernel = 1; if (devno <= maxdev) { pdev(devno); cd = get_cfdata(devno); /* * Search for some other driver sharing this * locator table. if one does, we may need to * replace the locators with a new copy. */ c = get_cfdata(0); for (i = 0; c->cf_driver; i++) { if (i != devno && c->cf_loc == cd->cf_loc) share = 1; c++; } ln = get_locnamp(cd->cf_locnames); l = (int *)adjust((caddr_t)cd->cf_loc); if (share) { if (oldkernel) { printf("Can't do that on this kernel\n"); return; } lk = ln; i = 0; while (*lk != -1) { lk++; i++; } lk = ln; j = (int *)adjust((caddr_t)nl[I_NEXTRALOC].n_value); k = (int *)adjust((caddr_t)nl[I_UEXTRALOC].n_value); if ((i + *k) > *j) { printf("Not enough space to change device.\n"); return; } j = l = get_extraloc(*k); bcopy(adjust((caddr_t)cd->cf_loc), l, sizeof(int) * i); } while (*ln != -1) { p = get_locnames(*ln); *l = atoi(str); if (*str == '-') str++; while (*str >= '0' && *str <= '9') str++; if (*str == ' ') str++; ln++; l++; } if (*str) { cd->cf_flags = atoi(str); if (*str == '-') str++; while (*str >= '0' && *str <= '9') str++; if (*str == ' ') str++; } if (share) { if (bcmp(adjust((caddr_t)cd->cf_loc), j, sizeof(int) * i)) { cd->cf_loc = (int *)readjust((caddr_t)j); *k = *k + i; } } printf("%3d ", devno); pdevnam(devno); printf(" changed\n"); pdev(devno); return; } if (nopdev == 0) { if (devno > maxdev && devno <= totdev) { printf("%3d can't change free slot\n", devno); return; } if (devno > totdev && devno <= totdev + maxpseudo) { pdev(devno); pi = get_pdevinit(devno-totdev-1); if (*str) { pi->pdev_count = atoi(str); if (*str == '-') str++; while (*str >= '0' && *str <= '9') str++; if (*str == ' ') str++; } printf("%3d %s changed\n", devno, get_pdevnames(devno - totdev - 1)); pdev(devno); return; } } printf("Unknown devno (max is %d)\n", totdev + maxpseudo); } void disable(devno) int devno; { struct cfdata *cd; int done = 0; ukc_mod_kernel = 1; if (devno <= maxdev) { cd = get_cfdata(devno); switch (cd->cf_fstate) { case FSTATE_NOTFOUND: cd->cf_fstate = FSTATE_DNOTFOUND; break; case FSTATE_STAR: cd->cf_fstate = FSTATE_DSTAR; break; case FSTATE_DNOTFOUND: case FSTATE_DSTAR: done = 1; break; default: printf("Error unknown state\n"); break; } printf("%3d ", devno); pdevnam(devno); if (done) printf(" already"); printf(" disabled\n"); return; } if (nopdev == 0) { if (devno > maxdev && devno <= totdev) { printf("%3d can't disable free slot\n", devno); return; } if (devno > totdev && devno <= totdev + maxpseudo) { printf("%3d %s can't disable pseudo device\n", devno, get_pdevnames(devno - totdev - 1)); return; } } printf("Unknown devno (max is %d)\n", totdev+maxpseudo); } void enable(devno) int devno; { struct cfdata *cd; int done = 0; ukc_mod_kernel = 1; if (devno <= maxdev) { cd = get_cfdata(devno); switch (cd->cf_fstate) { case FSTATE_DNOTFOUND: cd->cf_fstate = FSTATE_NOTFOUND; break; case FSTATE_DSTAR: cd->cf_fstate = FSTATE_STAR; break; case FSTATE_NOTFOUND: case FSTATE_STAR: done = 1; break; default: printf("Error unknown state\n"); break; } printf("%3d ", devno); pdevnam(devno); if (done) printf(" already"); printf(" enabled\n"); return; } if (nopdev == 0) { if (devno > maxdev && devno <= totdev) { printf("%3d can't enable free slot\n", devno); return; } if (devno > totdev && devno <= totdev + maxpseudo) { printf("%3d %s can't enable pseudo device\n", devno, get_pdevnames(devno - totdev - 1)); return; } } printf("Unknown devno (max is %d)\n", totdev+maxpseudo); } void show() { caddr_t *p; int i = 0; cnt = 0; p = get_locnames(0); while (i <= maxlocnames) { if (more()) break; printf("%s\n", (char *)adjust(*p)); p++; i++; } cnt = -1; } void common_attr_val(attr, val, routine) short attr; int *val; char routine; { int i = 0; struct cfdata *cd; int *l; short *ln; int quit = 0; cnt = 0; cd = get_cfdata(0); while (cd->cf_attach != 0) { l = (int *)adjust((caddr_t)cd->cf_loc); ln = get_locnamp(cd->cf_locnames); while (*ln != -1) { if (*ln == attr) { if (val == NULL) { quit = more(); pdev(i); } else { if (*val == *l) { quit = more(); switch (routine) { case UC_ENABLE: enable(i); break; case UC_DISABLE: disable(i); break; case UC_SHOW: pdev(i); break; default: printf("Unknown routine /%c/\n", routine); break; } } } } if (quit) break; ln++; l++; } if (quit) break; i++; cd++; } cnt = -1; } void show_attr(cmd) char *cmd; { char *c; caddr_t *p; short attr = -1, i = 0, l = 0; int a; c = cmd; while (*c != ' ' && *c != '\t' && *c != '\n' && *c != '\0') { c++; l++; } while (*c == ' ' || *c == '\t' || *c == '\n') { c++; } p = get_locnames(0); while (i <= maxlocnames) { if (strlen((char *)adjust(*p)) == l) { if (strncasecmp(cmd, adjust(*p), l) == 0) attr = i; } p++; i++; } if (attr == -1) { printf("Unknown attribute\n"); return; } if (*c == '\0') { common_attr_val(attr, NULL, UC_SHOW); } else { if (number(c, &a) == 0) { common_attr_val(attr, &a, UC_SHOW); } else { printf("Unknown argument\n"); } } } void common_dev(dev, len, unit, state, routine) char *dev; int len; short unit, state; char routine; { struct cfdata *cd; struct cfdriver *cdrv; int i = 0; switch (routine) { case UC_CHANGE: break; default: cnt = 0; break; } cnt = 0; cd = get_cfdata(0); while (cd->cf_attach != 0) { cdrv = (struct cfdriver *)adjust((caddr_t)cd->cf_driver); if (strlen((char *)adjust(cdrv->cd_name)) == len) { /* * Ok, if device name is correct * If state == FSTATE_FOUND, look for "dev" * If state == FSTATE_STAR, look for "dev*" * If state == FSTATE_NOTFOUND, look for "dev0" */ if (!strncasecmp(dev,(char *)adjust(cdrv->cd_name), len) && (state == FSTATE_FOUND || (state == FSTATE_STAR && (cd->cf_fstate == FSTATE_STAR || cd->cf_fstate == FSTATE_DSTAR)) || (state == FSTATE_NOTFOUND && cd->cf_unit == unit && (cd->cf_fstate == FSTATE_NOTFOUND || cd->cf_fstate == FSTATE_DNOTFOUND)))) { if (more()) break; switch (routine) { case UC_CHANGE: change(i); break; case UC_ENABLE: enable(i); break; case UC_DISABLE: disable(i); break; case UC_FIND: pdev(i); break; default: printf("Unknown routine /%c/\n", routine); break; } } } i++; cd++; } if (nopdev == 0) { for (i = 0; i < maxpseudo; i++) { if (!strncasecmp(dev, (char *)get_pdevnames(i), len) && state == FSTATE_FOUND) { switch (routine) { case UC_CHANGE: change(totdev+1+i); break; case UC_ENABLE: enable(totdev+1+i); break; case UC_DISABLE: disable(totdev+1+i); break; case UC_FIND: pdev(totdev+1+i); break; default: printf("Unknown pseudo routine /%c/\n", routine); break; } } } } switch (routine) { case UC_CHANGE: break; default: cnt = -1; break; } } void common_attr(cmd, attr, routine) char *cmd; int attr; char routine; { char *c; short l = 0; int a; c = cmd; while (*c != ' ' && *c != '\t' && *c != '\n' && *c != '\0') { c++; l++; } while (*c == ' ' || *c == '\t' || *c == '\n') { c++; } if (*c == '\0') { printf("Value missing for attribute\n"); return; } if (number(c, &a) == 0) { common_attr_val(attr, &a, routine); } else { printf("Unknown argument\n"); } } void add_read(prompt, field, dev, len, val) char *prompt; char field; char *dev; int len; int *val; { int ok = 0; int a; cmd_t cmd; struct cfdata *cd; struct cfdriver *cdrv; *val = -1; while (!ok) { printf("%s ? ", prompt); fflush(stdout); ask_cmd(&cmd); if (strlen(cmd.cmd) != 0) { if (number(cmd.cmd, &a) == 0) { if (a > maxdev) { printf("Unknown devno (max is %d)\n", maxdev); } else { cd = get_cfdata(a); cdrv = (struct cfdriver *) adjust((caddr_t)cd->cf_driver); if (strncasecmp(dev, (char *)adjust(cdrv->cd_name), len) != 0 && field == 'a') { printf("Not same device type\n"); } else { *val = a; ok = 1; } } } else if (cmd.cmd[0] == '?') { common_dev(dev, len, 0, FSTATE_FOUND, UC_FIND); } else if (cmd.cmd[0] == 'q' || cmd.cmd[0] == 'Q') { ok = 1; } else { printf("Unknown argument\n"); } } else { ok = 1; } } } void add(dev, len, unit, state) char *dev; int len; short unit, state; { int i = 0, found = 0, *p; short *pv; struct cfdata new, *cd, *cdp; struct cfdriver *cdrv; int val, max_unit; ukc_mod_kernel = 1; bzero(&new, sizeof(struct cfdata)); if (maxdev == totdev) { printf("No more space for new devices.\n"); return; } if (state == FSTATE_FOUND) { printf("Device not complete number or * is missing\n"); return; } cd = get_cfdata(0); while (cd->cf_attach != 0) { cdrv = (struct cfdriver *)adjust((caddr_t)cd->cf_driver); if (strlen((char *)adjust(cdrv->cd_name)) == len && strncasecmp(dev, (char *)adjust(cdrv->cd_name), len) == 0) found = 1; cd++; } if (!found) { printf("No device of this type exists.\n"); return; } add_read("Clone Device (DevNo, 'q' or '?')", 'a', dev, len, &val); if (val != -1) { cd = get_cfdata(val); new = *cd; new.cf_unit = unit; new.cf_fstate = state; add_read("Insert before Device (DevNo, 'q' or '?')", 'i', dev, len, &val); } if (val != -1) { /* Insert the new record */ cdp = cd = get_cfdata(maxdev+1); cdp--; for (i = maxdev; val <= i; i--) { *cd-- = *cdp--; } cd = get_cfdata(val); *cd = new; /* Fix indexs in pv */ p = (int *)adjust((caddr_t)nl[I_PV_SIZE].n_value); pv = (short *)adjust((caddr_t)nl[SA_PV].n_value); for (i = 0; i < *p; i++) { if (*pv != 1 && *pv >= val) *pv = *pv + 1; pv++; } /* Fix indexs in cfroots */ p = (int *)adjust((caddr_t)nl[I_CFROOTS_SIZE].n_value); pv = (short *)adjust((caddr_t)nl[SA_CFROOTS].n_value); for (i = 0; i < *p; i++) { if (*pv != 1 && *pv >= val) *pv = *pv + 1; pv++; } maxdev++; max_unit = -1; /* Find max unit number of the device type */ cd = get_cfdata(0); while (cd->cf_attach != 0) { cdrv = (struct cfdriver *) adjust((caddr_t)cd->cf_driver); if (strlen((char *)adjust(cdrv->cd_name)) == len && strncasecmp(dev, (char *)adjust(cdrv->cd_name), len) == 0) { switch (cd->cf_fstate) { case FSTATE_NOTFOUND: case FSTATE_DNOTFOUND: if (cd->cf_unit > max_unit) max_unit = cd->cf_unit; break; default: break; } } cd++; } /* For all * entries set unit number to max+1 */ max_unit++; cd = get_cfdata(0); while (cd->cf_attach != 0) { cdrv = (struct cfdriver *) adjust((caddr_t)cd->cf_driver); if (strlen((char *)adjust(cdrv->cd_name)) == len && strncasecmp(dev, (char *)adjust(cdrv->cd_name), len) == 0) { switch (cd->cf_fstate) { case FSTATE_STAR: case FSTATE_DSTAR: cd->cf_unit = max_unit; break; default: break; } } cd++; } pdev(val); } /* cf_attach, cf_driver, cf_unit, cf_state, cf_loc, cf_flags, cf_parents, cf_locnames, cf_locnames and cf_ivstubs */ } void add_history(devno, unit, state, newno) int devno, newno; short unit, state; { int i = 0, *p; short *pv; struct cfdata new, *cd, *cdp; struct cfdriver *cdrv; int val, max_unit; int len; char *dev; ukc_mod_kernel = 1; bzero(&new, sizeof(struct cfdata)); cd = get_cfdata(devno); new = *cd; new.cf_unit = unit; new.cf_fstate = state; val = newno; cdrv = (struct cfdriver *) adjust((caddr_t)cd->cf_driver); dev = adjust((caddr_t)cdrv->cd_name); len = strlen(dev); /* Insert the new record */ cdp = cd = get_cfdata(maxdev+1); cdp--; for (i = maxdev; val <= i; i--) *cd-- = *cdp--; cd = get_cfdata(val); *cd = new; /* Fix indexs in pv */ p = (int *)adjust((caddr_t)nl[I_PV_SIZE].n_value); pv = (short *)adjust((caddr_t)nl[SA_PV].n_value); for (i = 0; i < *p; i++) { if (*pv != 1 && *pv >= val) *pv = *pv + 1; pv++; } /* Fix indexs in cfroots */ p = (int *)adjust((caddr_t)nl[I_CFROOTS_SIZE].n_value); pv = (short *)adjust((caddr_t)nl[SA_CFROOTS].n_value); for (i = 0; i < *p; i++) { if (*pv != 1 && *pv >= val) *pv = *pv + 1; pv++; } maxdev++; max_unit = -1; /* Find max unit number of the device type */ cd = get_cfdata(0); while (cd->cf_attach != 0) { cdrv = (struct cfdriver *) adjust((caddr_t)cd->cf_driver); if (strlen((char *)adjust(cdrv->cd_name)) == len && strncasecmp(dev, (char *)adjust(cdrv->cd_name), len) == 0) { switch (cd->cf_fstate) { case FSTATE_NOTFOUND: case FSTATE_DNOTFOUND: if (cd->cf_unit > max_unit) max_unit = cd->cf_unit; break; default: break; } } cd++; } /* For all * entries set unit number to max+1 */ max_unit++; cd = get_cfdata(0); while (cd->cf_attach != 0) { cdrv = (struct cfdriver *) adjust((caddr_t)cd->cf_driver); if (strlen((char *)adjust(cdrv->cd_name)) == len && strncasecmp(dev, (char *)adjust(cdrv->cd_name), len) == 0) { switch (cd->cf_fstate) { case FSTATE_STAR: case FSTATE_DSTAR: cd->cf_unit = max_unit; break; default: break; } } cd++; } printf("%3d ", newno); pdevnam(newno); printf(" added\n"); pdev(val); } int config() { cmd_t cmd; int i, st; /* Set up command table pointer */ cmd.table = cmd_table; printf("Enter 'help' for information\n"); /* Edit cycle */ do { again: printf("ukc> "); fflush(stdout); ask_cmd(&cmd); if (cmd.cmd[0] == '\0') goto again; for (i = 0; cmd_table[i].cmd != NULL; i++) if (strstr(cmd_table[i].cmd, cmd.cmd) == cmd_table[i].cmd) break; /* Quick hack to put in '?' == 'help' */ if (!strcmp(cmd.cmd, "?")) i = 0; /* Check for valid command */ if (cmd_table[i].cmd == NULL) { printf("Invalid command '%s'. Try 'help'.\n", cmd.cmd); continue; } else strcpy(cmd.cmd, cmd_table[i].cmd); /* Call function */ st = cmd_table[i].fcn(&cmd); /* Update status */ if (st == CMD_EXIT) break; if (st == CMD_SAVE) break; } while (1); return (st == CMD_SAVE); } void process_history(len, buf) int len; char *buf; { char *c; int devno, newno; short unit, state; struct timezone *tz; if (len == 0) { printf("History is empty\n"); return; } printf("Processing history...\n"); buf[len] = 0; c = buf; while (*c != NULL) { switch (*c) { case 'a': c++; c++; devno = atoi(c); while (*c >= '0' && *c <= '9') c++; c++; unit = atoi(c); if (*c == '-') c++; while (*c >= '0' && *c <= '9') c++; c++; state = atoi(c); if (*c == '-') c++; while (*c >= '0' && *c <= '9') c++; c++; newno = atoi(c); while (*c >= '0' && *c <= '9') c++; add_history(devno, unit, state, newno); while (*c != '\n') c++; c++; break; case 'c': c++; c++; devno = atoi(c); while (*c >= '0' && *c <= '9') c++; if (*c == ' ') c++; if (*c != '\n') change_history(devno, c); while (*c != '\n') c++; c++; break; case 'd': c++; devno = atoi(c); disable(devno); while (*c != '\n') c++; c++; break; case 'e': c++; devno = atoi(c); enable(devno); while (*c != '\n') c++; c++; break; case 't': c++; c++; tz = (struct timezone *)adjust((caddr_t)nl[TZ_TZ]. n_value); tz->tz_minuteswest = atoi(c); while (*c != ' ') c++; c++; tz->tz_dsttime = atoi(c); while (*c != '\n') c++; c++; ukc_mod_kernel = 1; break; case 'q': while (*c != NULL) c++; break; default: printf("unknown command %c\n", *c); while (*c != NULL && *c != '\n') c++; break; } } }