/* * * ptdump: Program to dump the AFS protection server database * into an ascii file. * * Assumptions: We *cheat* here and read the datafile directly, ie. * not going through the ubik distributed data manager. * therefore the database must be quiescent for the * output of this program to be valid. */ #include #include #include #include #include #include #include #include #include #define UBIK_INTERNALS #include #include #include #include "ptint.h" #include "ptserver.h" #include "pterror.h" #define IDHash(x) (abs(x) % HASHSIZE) #define print_id(x) ( ((flags&DO_SYS)==0 && (x<-32767 || x>97536)) || \ ((flags&DO_OTR)==0 && (x>-32768 && x<97537))) extern char *optarg; extern int optind; extern int errno; extern char *sys_errlist[]; #define strerror(a) sys_errlist[a] int display_entry(); void add_group(); void display_groups(); void display_group(); void fix_pre(); char *checkin(); char *check_core(); char *id_to_name(); struct hash_entry { char h_name[PR_MAXNAMELEN]; int h_id; struct hash_entry *next; }; struct hash_entry *hat[HASHSIZE]; static struct contentry prco; static struct prentry pre; static struct prheader prh; static struct ubik_version uv; struct grp_list { struct grp_list *next; long groups[1024]; }; static struct grp_list *grp_head=0; static long grp_count=0; struct usr_list { struct usr_list *next; char name[PR_MAXNAMELEN]; long uid; }; static struct usr_list *usr_head=0; char buffer[1024]; int dbase_fd; FILE *dfp; #define FMT_BASE "%-10s %d/%d %d %d %d\n" #define FMT_MEM " %-8s %d\n" #define DO_USR 1 #define DO_GRP 2 #define DO_MEM 4 #define DO_SYS 8 #define DO_OTR 16 int nflag = 0; int wflag = 0; int flags = 0; main(argc, argv) int argc; char **argv; { register int i; register long code; long cc, upos, gpos; struct prentry uentry, gentry; struct ubik_hdr *uh; char *dfile = 0; char *pfile = "/usr/afs/db/prdb.DB0"; int need_gwrite = 0; while ((cc = getopt(argc, argv, "wugmxsnp:d:")) != EOF) { switch (cc) { case 'p': pfile = optarg; break; case 'd': dfile = optarg; break; case 'n': nflag++; break; case 'w': wflag++; break; case 'u': flags |= DO_USR; break; case 'm': flags |= (DO_GRP|DO_MEM); break; case 'g': flags |= DO_GRP; break; case 's': flags |= DO_SYS; break; case 'x': flags |= DO_OTR; break; default: fprintf(stderr, "Usage: ptdump [options] [-d data] [-p prdb]\n"); fputs(" Options:\n", stderr); fputs(" -w Update prdb with contents of data file\n", stderr); fputs(" -u Display users\n", stderr); fputs(" -g Display groups\n", stderr); fputs(" -m Display group members\n", stderr); fputs(" -n Follow name hash chains (not id hashes)\n", stderr); fputs(" -s Display only system (Moira) data\n", stderr); fputs(" -x Display extra users/groups\n", stderr); exit(1); } } if ((dbase_fd = open(pfile, wflag ? O_RDWR : O_RDONLY, 0600)) < 0) { fprintf(stderr, "ptdump: cannot open %s: %s\n", pfile, sys_errlist[errno]); exit (1); } if (read(dbase_fd, buffer, HDRSIZE) < 0) { fprintf(stderr, "ptdump: error reading %s: %s\n", pfile, sys_errlist[errno]); exit (1); } if (dfile) { if ((dfp = fopen(dfile, wflag ? "r" : "w")) == 0) { fprintf(stderr, "ptdump: error opening %s: %s\n", dfile, sys_errlist[errno]); exit(1); } } else dfp = (wflag ? stdin : stdout); uh = (struct ubik_hdr *)buffer; if (ntohl(uh->magic) != UBIK_MAGIC) fprintf(stderr, "ptdump: %s: Bad UBIK_MAGIC. Is %x should be %x\n", pfile, ntohl(uh->magic), UBIK_MAGIC); memcpy(&uv, &uh->version, sizeof(struct ubik_version)); fprintf(stderr, "Ubik Version is: %d.%d\n", ntohl(uv.epoch), ntohl(uv.counter)); if (read(dbase_fd, &prh, sizeof(struct prheader)) < 0) { fprintf(stderr, "ptdump: error reading %s: %s\n", pfile, sys_errlist[errno]); exit (1); } Initdb(); initialize_pt_error_table(); #define FLUSH_GROUP \ if (need_gwrite) { \ code = pr_WriteEntry(0,0,gpos,&gentry); \ if (code) \ fprintf(stderr, "Error while writing group %s: %s\n", \ gentry.name, error_message(code)); \ else need_write = 0; \ } if (wflag) { struct usr_list *u; while(fgets(buffer, sizeof(buffer), dfp)) { int id, oid, cid, flags, quota, uid; char name[PR_MAXNAMELEN], mem[PR_MAXNAMELEN]; if (isspace(*buffer)) { sscanf(buffer, "%s %d", mem, &uid); for (u=usr_head; u; u=u->next) if (u->uid && u->uid==uid) break; if (u) { /* Add user - deferred because it is probably foreign */ u->uid = 0; if (upos = FindByID(0, uid)) code = PRIDEXIST; else { if (!code && (flags&(PRGRP|PRQUOTA))==(PRGRP|PRQUOTA)){ gentry.ngroups++; code = pr_WriteEntry(0,0,gpos,&gentry); if (code) fprintf(stderr, "Error setting group count on %s: %s\n", name, error_message(code)); } code = CreateEntry (0, u->name, &uid, 1/*idflag*/, 1/*gflag*/, SYSADMINID/*oid*/, SYSADMINID/*cid*/); } if (code) fprintf(stderr, "Error while creating %s: %s\n", u->name, error_message(code)); continue; } /* Add user to group */ if (id==ANYUSERID || id==AUTHUSERID || uid==ANONYMOUSID) { code = PRPERM; } if (!code && !upos) { upos = FindByID(0,uid); if (upos) code = pr_ReadEntry(0,0,upos,&uentry); } if (!upos || !gpos) code = PRNOENT; /* Fast group update */ if (!code && (gentry.count < PRSIZE)) { gentry.count++; for (i=0; inext = usr_head; u->uid = id; strcpy(u->name, name); usr_head = u; } else if (code) { fprintf(stderr, "Error while creating %s: %s\n", name, error_message(code)); } code = pr_ReadEntry(0,0,gpos,&gentry); if (code) fprintf(stderr,"Error while reading group %s: %s\n", name, error_message(code)); else if ((flags&PRACCESS) || (flags&(PRGRP|PRQUOTA))==(PRGRP|PRQUOTA)) { gentry.flags = flags; gentry.ngroups = quota; need_gwrite = 1; if (code) fprintf(stderr, "Error while setting flags on %s: %s\n", name, error_message(code)); } } } FLUSH_GROUP; for (u=usr_head; u; u=u->next) if (u->uid) fprintf(stderr, "Error while creating %s: %s\n", u->name, error_message(PRBADNAM)); } else { for (i = 0; i < HASHSIZE; i++) { upos = nflag ? ntohl(prh.nameHash[i]) : ntohl(prh.idHash[i]); while (upos) upos = display_entry(upos); } if (flags & DO_GRP) display_groups(); } lseek (dbase_fd, 0, L_SET); /* rewind to beginning of file */ if (read(dbase_fd, buffer, HDRSIZE) < 0) { fprintf(stderr, "ptdump: error reading %s: %s\n", pfile, sys_errlist[errno]); exit (1); } uh = (struct ubik_hdr *)buffer; if ((uh->version.epoch != uv.epoch) || (uh->version.counter != uv.counter)) { fprintf(stderr, "ptdump: Ubik Version number changed during execution.\n"); fprintf(stderr, "Old Version = %d.%d, new version = %d.%d\n", ntohl(uv.epoch), ntohl(uv.counter), ntohl(uh->version.epoch), ntohl(uh->version.counter)); } close (dbase_fd); exit (0); } int display_entry (offset) int offset; { register int i; lseek (dbase_fd, offset+HDRSIZE, L_SET); read(dbase_fd, &pre, sizeof(struct prentry)); fix_pre(&pre); if ((pre.flags & PRFREE) == 0) { if (pre.flags & PRGRP) { if (flags & DO_GRP) add_group(pre.id); } else { if (print_id(pre.id) && (flags&DO_USR)) fprintf(dfp, FMT_BASE, pre.name, pre.flags, pre.ngroups, pre.id, pre.owner, pre.creator); checkin(&pre); } } return(nflag ? pre.nextName: pre.nextID); } void add_group(id) long id; { struct grp_list *g; register long i; i = grp_count++ % 1024; if (i == 0) { g = (struct grp_list *)malloc(sizeof(struct grp_list)); g->next = grp_head; grp_head = g; } g = grp_head; g->groups[i] = id; } void display_groups() { register int i, id; struct grp_list *g; g = grp_head; while (grp_count--) { i = grp_count%1024; id = g->groups[i]; display_group(id); if (i==0) { grp_head = g->next; free(g); g = grp_head; } } } void display_group(id) int id; { register int i, offset; int print_grp = 0; offset = ntohl(prh.idHash[IDHash(id)]); while (offset) { lseek(dbase_fd, offset+HDRSIZE, L_SET); if (read(dbase_fd, &pre, sizeof(struct prentry)) < 0) { fprintf(stderr, "ptdump: read i/o error: %s\n", strerror(errno)); exit (1); } fix_pre(&pre); if (pre.id == id) break; offset = pre.nextID; } if (print_id(id)) { fprintf(dfp, FMT_BASE, pre.name, pre.flags, pre.ngroups, pre.id, pre.owner, pre.creator); print_grp = 1; } if ((flags&DO_MEM) == 0) return; for (i=0; iflags = ntohl(pre->flags); pre->id = ntohl(pre->id); pre->cellid = ntohl(pre->cellid); pre->next = ntohl(pre->next); pre->nextID = ntohl(pre->nextID); pre->nextName = ntohl(pre->nextName); pre->owner = ntohl(pre->owner); pre->creator = ntohl(pre->creator); pre->ngroups = ntohl(pre->ngroups); pre->nusers = ntohl(pre->nusers); pre->count = ntohl(pre->count); pre->instance = ntohl(pre->instance); pre->owned = ntohl(pre->owned); pre->nextOwned = ntohl(pre->nextOwned); pre->parent = ntohl(pre->parent); pre->sibling = ntohl(pre->sibling); pre->child = ntohl(pre->child); for (i = 0; i < PRSIZE; i++) { pre->entries[i] = ntohl(pre->entries[i]); } } char *id_to_name(id) int id; { register int offset; static struct prentry pre; char *name; name = check_core(id); if (name) return(name); offset = ntohl(prh.idHash[IDHash(id)]); while (offset) { lseek(dbase_fd, offset+HDRSIZE, L_SET); if (read(dbase_fd, &pre, sizeof(struct prentry)) < 0) { fprintf(stderr, "ptdump: read i/o error: %s\n", sys_errlist[errno]); exit (1); } pre.id = ntohl(pre.id); if (pre.id == id) { name = checkin(&pre); return(name); } offset = ntohl(pre.nextID); } return 0; } char *checkin(pre) struct prentry *pre; { struct hash_entry *he, *last; register int id; id = pre->id; last = (struct hash_entry *)0; he = hat[IDHash(id)]; while (he) { if (id == he->h_id) return(he->h_name); last = he; he = he->next; } he = (struct hash_entry *)malloc(sizeof(struct hash_entry)); if (he == 0) { fprintf(stderr, "ptdump: No Memory for internal hash table.\n"); exit (1); } he->h_id = id; he->next = (struct hash_entry *)0; strncpy(he->h_name, pre->name, PR_MAXNAMELEN); if (last == (struct hash_entry *)0) hat[IDHash(id)] = he; else last->next = he; return(he->h_name); } char *check_core(id) register int id; { struct hash_entry *he; he = hat[IDHash(id)]; while (he) { if (id == he->h_id) return(he->h_name); he = he->next; } return 0; }