/* * Copyright (c) 1989 Jan-Simon Pendry * Copyright (c) 1989 Imperial College of Science, Technology & Medicine * Copyright (c) 1989, 1993 * The Regents of the University of California. 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 the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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. * * from: @(#)fsi_util.c 8.1 (Berkeley) 6/6/93 * $Id: fsi_util.c,v 1.4 1995/05/21 16:59:39 mycroft Exp $ */ #include "../fsinfo/fsinfo.h" /* * Lots of ways of reporting errors... */ void error(s, s1, s2, s3, s4) char *s, *s1, *s2, *s3, *s4; { col_cleanup(0); fprintf(stderr, "%s: Error, ", progname); fprintf(stderr, s, s1, s2, s3, s4); fputc('\n', stderr); errors++; } void lerror(l, s, s1, s2, s3, s4) ioloc *l; char *s, *s1, *s2, *s3, *s4; { col_cleanup(0); fprintf(stderr, "%s:%d: ", l->i_file, l->i_line); fprintf(stderr, s, s1, s2, s3, s4); fputc('\n', stderr); errors++; } void lwarning(l, s, s1, s2, s3, s4) ioloc *l; char *s, *s1, *s2, *s3, *s4; { col_cleanup(0); fprintf(stderr, "%s:%d: ", l->i_file, l->i_line); fprintf(stderr, s, s1, s2, s3, s4); fputc('\n', stderr); } void fatal(s, s1, s2, s3, s4) char *s, *s1, *s2, *s3, *s4; { col_cleanup(1); fprintf(stderr, "%s: Fatal, ", progname); fprintf(stderr, s, s1, s2, s3, s4); fputc('\n', stderr); exit(1); } /* * Dup a string */ char *strdup(s) char *s; { int len = strlen(s); char *sp = (char *) xmalloc(len+1); bcopy(s, sp, len); sp[len] = 0; return sp; } /* * Debug log */ void log(s, s1, s2, s3, s4) char *s, *s1, *s2, *s3, *s4; { if (verbose > 0) { fputc('#', stdout); fprintf(stdout, "%s: ", progname); fprintf(stdout, s, s1, s2, s3, s4); putc('\n', stdout); } } void info_hdr(ef, info) FILE *ef; char *info; { fprintf(ef, "# *** NOTE: This file contains %s info\n", info); } void gen_hdr(ef, hn) FILE *ef; char *hn; { fprintf(ef, "# *** NOTE: Only for use on %s\n", hn); } static void make_banner(fp) FILE *fp; { time_t t = time((time_t*) 0); char *ctime(), *cp = ctime(&t); fprintf(fp, "\ # *** This file was automatically generated -- DO NOT EDIT HERE ***\n\ # \"%s\" run by %s@%s on %s\ #\n\ ", progname, username, hostname, cp); } static int show_range = 10; static int col = 0; static int total_shown = 0; static int total_mmm = 8; static int col_output(len) int len; { int wrapped = 0; col += len; if (col > 77) { fputc('\n', stdout); col = len; wrapped = 1; } return wrapped; } static void show_total() { if (total_mmm != -show_range+1) { char n[8]; int len; if (total_mmm < 0) fputc('*', stdout); sprintf(n, "%d", total_shown); len = strlen(n); if (col_output(len)) fputc(' ', stdout); fputs(n, stdout); fflush(stdout); total_mmm = -show_range; } } col_cleanup(eoj) int eoj; { if (verbose < 0) return; if (eoj) { show_total(); fputs(")]", stdout); } if (col) { fputc('\n', stdout); col = 0; } } void show_new(msg) char *msg; { if (verbose < 0) return; total_shown++; if (total_mmm > show_range) { show_total(); } else if (total_mmm == 0) { fputc('*', stdout); fflush(stdout); col += 1; } total_mmm++; } void show_area_being_processed(area, n) char *area; int n; { static char *last_area = 0; if (verbose < 0) return; if (last_area) { if (total_shown) show_total(); fputs(")", stdout); col += 1; } if (!last_area || strcmp(area, last_area) != 0) { if (last_area) { col_cleanup(0); total_shown = 0; total_mmm = show_range+1; } (void) col_output(strlen(area)+2); fprintf(stdout, "[%s", area); last_area = area; } fputs(" (", stdout); col += 2; show_range = n; total_mmm = n + 1; fflush(stdout); } /* * Open a file with the given prefix and name */ FILE *pref_open(pref, hn, hdr, arg) char *pref; char *hn; void (*hdr)(); char *arg; { char p[MAXPATHLEN]; FILE *ef; sprintf(p, "%s%s", pref, hn); log("Writing %s info for %s to %s", pref, hn, p); ef = fopen(p, "w"); if (ef) { (*hdr)(ef, arg); make_banner(ef, hn); } else { error("can't open %s for writing", p); } return ef; } int pref_close(fp) FILE *fp; { return fclose(fp) == 0; } /* * Determine where Amd would automount the host/volname pair */ void compute_automount_point(buf, hp, vn) char *buf; host *hp; char *vn; { #ifdef AMD_USES_HOSTPATH sprintf(buf, "%s/%s%s", autodir, hp->h_hostpath, vn); #else sprintf(buf, "%s/%s%s", autodir, hp->h_lochost, vn); #endif } char *xcalloc(i, s) int i; int s; { char *p = (char *) calloc(i, (unsigned) s); if (!p) fatal("Out of memory"); return p; } char *xmalloc(i) int i; { char *p = (char *) malloc(i); if (!p) fatal("Out of memory"); return p; } /* * Data constructors.. */ automount *new_automount(name) char *name; { automount *ap = ALLOC(automount); ap->a_ioloc = current_location(); ap->a_name = name; ap->a_volname = 0; ap->a_mount = 0; show_new("automount"); return ap; } auto_tree *new_auto_tree(def, ap) char *def; qelem *ap; { auto_tree *tp = ALLOC(auto_tree); tp->t_ioloc = current_location(); tp->t_defaults = def; tp->t_mount = ap; show_new("auto_tree"); return tp; } host *new_host() { host *hp = ALLOC(host); hp->h_ioloc = current_location(); hp->h_mask = 0; show_new("host"); return hp; } void set_host(hp, k, v) host *hp; int k; char *v; { int m = 1 << k; if (hp->h_mask & m) { yyerror("host field \"%s\" already set", host_strings[k]); return; } hp->h_mask |= m; switch (k) { case HF_HOST: { char *p = strdup(v); dict_ent *de = dict_locate(dict_of_hosts, v); if (de) yyerror("duplicate host %s!", v); else dict_add(dict_of_hosts, v, (char *) hp); hp->h_hostname = v; domain_strip(p, hostname); if (strchr(p, '.') != 0) free(p); else hp->h_lochost = p; } break; case HF_CONFIG: { qelem *q; qelem *vq = (qelem *) v; hp->h_mask &= ~m; if (hp->h_config) q = hp->h_config; else q = hp->h_config = new_que(); ins_que(vq, q->q_back); } break; case HF_ETHER: { qelem *q; qelem *vq = (qelem *) v; hp->h_mask &= ~m; if (hp->h_ether) q = hp->h_ether; else q = hp->h_ether = new_que(); ins_que(vq, q->q_back); } break; case HF_ARCH: hp->h_arch = v; break; case HF_OS: hp->h_os = v; break; case HF_CLUSTER: hp->h_cluster = v; break; default: abort(); break; } } ether_if *new_ether_if() { ether_if *ep = ALLOC(ether_if); ep->e_mask = 0; ep->e_ioloc = current_location(); show_new("ether_if"); return ep; } void set_ether_if(ep,k, v) ether_if *ep; int k; char *v; { int m = 1 << k; if (ep->e_mask & m) { yyerror("netif field \"%s\" already set", ether_if_strings[k]); return; } ep->e_mask |= m; switch (k) { case EF_INADDR: { if (inet_aton(v, &ep->e_inaddr) == 0) yyerror("malformed IP dotted quad: %s", v); free(v); } break; case EF_NETMASK: { u_long nm = 0; if ((sscanf(v, "0x%lx", &nm) == 1 || sscanf(v, "%lx", &nm) == 1) && nm != 0) ep->e_netmask = htonl(nm); else yyerror("malformed netmask: %s", v); free(v); } break; case EF_HWADDR: ep->e_hwaddr = v; break; default: abort(); break; } } void set_disk_fs(dp, k, v) disk_fs *dp; int k; char *v; { int m = 1 << k; if (dp->d_mask & m) { yyerror("fs field \"%s\" already set", disk_fs_strings[k]); return; } dp->d_mask |= m; switch (k) { case DF_FSTYPE: dp->d_fstype = v; break; case DF_OPTS: dp->d_opts = v; break; case DF_DUMPSET: dp->d_dumpset = v; break; case DF_LOG: dp->d_log = v; break; case DF_PASSNO: dp->d_passno = atoi(v); free(v); break; case DF_FREQ: dp->d_freq = atoi(v); free(v); break; case DF_MOUNT: dp->d_mount = &((mount *) v)->m_q; break; default: abort(); break; } } disk_fs *new_disk_fs() { disk_fs *dp = ALLOC(disk_fs); dp->d_ioloc = current_location(); show_new("disk_fs"); return dp; } void set_mount(mp, k, v) mount *mp; int k; char *v; { int m = 1 << k; if (mp->m_mask & m) { yyerror("mount tree field \"%s\" already set", mount_strings[k]); return; } mp->m_mask |= m; switch (k) { case DM_VOLNAME: dict_add(dict_of_volnames, v, (char *) mp); mp->m_volname = v; break; case DM_EXPORTFS: mp->m_exportfs = v; break; case DM_SEL: mp->m_sel = v; break; default: abort(); break; } } mount *new_mount() { mount *fp = ALLOC(mount); fp->m_ioloc = current_location(); show_new("mount"); return fp; } void set_fsmount(fp, k, v) fsmount *fp; int k; char *v; { int m = 1 << k; if (fp->f_mask & m) { yyerror("mount field \"%s\" already set", fsmount_strings[k]); return; } fp->f_mask |= m; switch (k) { case FM_LOCALNAME: fp->f_localname = v; break; case FM_VOLNAME: fp->f_volname = v; break; case FM_FSTYPE: fp->f_fstype = v; break; case FM_OPTS: fp->f_opts = v; break; case FM_FROM: fp->f_from = v; break; default: abort(); break; } } fsmount *new_fsmount() { fsmount *fp = ALLOC(fsmount); fp->f_ioloc = current_location(); show_new("fsmount"); return fp; } void init_que(q) qelem *q; { q->q_forw = q->q_back = q; } qelem *new_que() { qelem *q = ALLOC(qelem); init_que(q); return q; } void ins_que(elem, pred) qelem *elem, *pred; { qelem *p; p = pred->q_forw; elem->q_back = pred; elem->q_forw = p; pred->q_forw = elem; p->q_back = elem; } void rem_que(elem) qelem *elem; { qelem *p, *p2; p = elem->q_forw; p2 = elem->q_back; p2->q_forw = p; p->q_back = p2; }