/* This file is part of the Project Athena Zephyr Notification System. * It contains functions for the Zephyr server class manager subsystem. * * Created by: John T. Kohl * * $Source: /mit/zephyr/repository/zephyr/server/class.c,v $ * $Author: ghudson $ * * Copyright (c) 1987 by the Massachusetts Institute of Technology. * For copying and distribution information, see the file * "mit-copyright.h". */ #include #include "zserver.h" /* includes zephyr/zephyr.h */ #include #if !defined (lint) && !defined (SABER) static const char rcsid_class_c[] = "$Id: class.c,v 1.27 1995/07/08 02:48:48 ghudson Exp $"; #endif /* * Class manager subsystem. * * * External functions are: * * Code_t triplet_register(client, subs) * * Code_t triplet_deregister(client, subs) * * Client *triplet_lookup(subs) * Client *client; * Destlist *subs; * * Acl *class_get_acl(class_name) * String *class_name; * * Code_t class_restrict(class_name, acl) * char *class_name; * Acl *acl; * * Code_t class_setup_restricted(class_name, acl) * char *class_name; * Acl *acl; * * and several Destination methods. */ /* * The data structure used for the class manager is an array of hash buckets * each containing a pointer to a doubly linked circular list (in the style * of insque/remque). Each element of this list contains a class.instance * name (which hashes into the bucket associated with this list) and a * doubly linked list of clients which are interested in this class. * The data pointed to by these clients is owned by other modules. Care * must be taken by the caller not to a free()'d client * structure. * * If any hash bucket is empty, the pointer is null. * * The first element in the hash bucket is a special header unused for * storing classes, and is used for finding the end of the list. * * If any list of interested clients is empty, the class name is garbage * collected, unless the class has been registered as restricted. */ /* Private variables */ #define EMPTY_CLASS 2000 #define ALLOC_OFFSET 8 /* Allocate 32 bytes less than a power of 2. */ #define ALLOC_INIT 8 /* Initial number of subscriptions. */ #define HASHSIZE 1023 #define HASHVAL(c, i, r) (((c)->hash_val ^ (i)->hash_val ^ (r)->hash_val) \ % HASHSIZE) #define DEST_HASHVAL(dest) HASHVAL((dest).classname, (dest).inst, (dest).recip) static Triplet *triplet_bucket[HASHSIZE]; /* the hash table of pointers */ static Code_t remove_client __P((Triplet *triplet, Client *client)); static Code_t insert_client __P((Triplet *triplet, Client *client)); static Triplet *triplet_alloc __P((String *classname, String *inst, String *recipient)); static void free_triplet __P((Triplet *)); /* public routines */ /* * Determine if two destination triplets are equal. Note the backup * case-insensitive recipient check in the third term. Recipients are * not downcased at subscription time (in order to preserve case for, * say, "zctl ret"), but traditional zephyr server behavior has not * been case-sensitive in the recipient string. In most cases, a * failed match will fail on the classname or instance, and a successful * match will succeed on the (d1->recip == d2->recip) check, so this * shouldn't affect performance. */ int ZDest_eq(d1, d2) Destination *d1, *d2; { return((d1->classname == d2->classname) && (d1->inst == d2->inst) && (d1->recip == d2->recip || strcasecmp(d1->recip->string, d2->recip->string) == 0)); } /* the client as interested in a triplet */ Code_t triplet_register(client, dest) Client *client; Destination *dest; { Triplet *triplet; unsigned long hashval; hashval = DEST_HASHVAL(*dest); for (triplet = triplet_bucket[hashval]; triplet; triplet = triplet->next) { if (ZDest_eq(&triplet->dest, dest)) return insert_client(triplet, client); } /* Triplet not present in hash table, insert it. */ triplet = triplet_alloc(dest->classname, dest->inst, dest->recip); LIST_INSERT(triplet_bucket[hashval], triplet); return insert_client(triplet, client); } /* dissociate client from the class, garbage collecting if appropriate */ Code_t triplet_deregister(client, dest) Client *client; Destination *dest; { Triplet *triplet; int retval; unsigned long hashval; #if 0 zdbug((LOG_DEBUG, "class_dereg: %s %s", dest->classname->string, dest->inst->string)); #endif hashval = DEST_HASHVAL(*dest); for (triplet = triplet_bucket[hashval]; triplet; triplet = triplet->next) { if (ZDest_eq(&triplet->dest, dest)) { retval = remove_client(triplet, client); if (retval != ZERR_NONE) return retval; if (*triplet->clients == NULL && !triplet->acl) { LIST_DELETE(triplet); free_triplet(triplet); } return ZERR_NONE; } } return(ZSRV_BADASSOC); } /* return a linked list of what clients are interested in this triplet */ Client ** triplet_lookup(dest) Destination *dest; { Triplet *triplet; unsigned long hashval; hashval = DEST_HASHVAL(*dest); for (triplet = triplet_bucket[hashval]; triplet; triplet = triplet->next) { if (ZDest_eq(&triplet->dest, dest)) return triplet->clients; } return NULL; } /* * return the acl structure associated with class, or NULL if there is * no such acl struct */ Acl * class_get_acl(class_name) String *class_name; { Triplet *triplet; unsigned long hashval; hashval = HASHVAL(class_name, empty, empty); for (triplet = triplet_bucket[hashval]; triplet; triplet = triplet->next) { if (triplet->dest.classname == class_name && triplet->dest.inst == empty && triplet->dest.recip == empty) return triplet->acl; } /* No acl found, not restricted. */ return NULL; } /* * restrict class by associating it with the acl structure acl. * return ZERR_NONE if no error, or ZSRV_NOCLASS if there is no such * class, or ZSRV_CLASSRESTRICTED if it is already restricted. */ Code_t class_restrict(class_name, acl) char *class_name; Acl *acl; { Triplet *triplet; String *d; unsigned long hashval; d = make_string(class_name,1); hashval = HASHVAL(d, empty, empty); for (triplet = triplet_bucket[hashval]; triplet; triplet = triplet->next) { if (triplet->dest.classname == d && triplet->dest.inst == empty && triplet->dest.recip == empty) { if (triplet->acl) return ZSRV_CLASSRESTRICTED; triplet->acl = acl; free_string(d); return ZERR_NONE; } } free_string(d); return ZSRV_NOCLASS; } /* * restrict class by registering it and associating it with the acl * structure acl. return ZERR_NONE if no error, or ZSRV_CLASSXISTS * if the class is already registered, or ENOMEM in case of malloc failure. */ Code_t class_setup_restricted(class_name, acl) char *class_name; Acl *acl; { Triplet *triplet; String *d; unsigned long hashval; d = make_string(class_name,1); hashval = HASHVAL(d, empty, empty); for (triplet = triplet_bucket[hashval]; triplet; triplet = triplet->next) { if (triplet->dest.classname == d && triplet->dest.inst == empty && triplet->dest.recip == d) { free_string(d); return ZSRV_CLASSXISTS; } } /* Triplet not present in hash table, insert it. */ triplet = triplet_alloc(d, empty, empty); free_string(d); if (!triplet) return ENOMEM; triplet->acl = acl; LIST_INSERT(triplet_bucket[hashval], triplet); return ZERR_NONE; } /* private routines */ /* allocate space for a class structure */ static Triplet * triplet_alloc(classname,inst,recipient) String *classname, *inst, *recipient; { Triplet *triplet; Client *clist; triplet = (Triplet *) malloc(sizeof(Triplet)); if (!triplet) return NULL; triplet->dest.classname = dup_string(classname); triplet->dest.inst = dup_string(inst); triplet->dest.recip = dup_string(recipient); triplet->clients = NULL; triplet->acl = NULL; return triplet; } /* insert a client into the list associated with the class *ptr */ static Code_t insert_client(triplet, client) Triplet *triplet; Client *client; { Client **clientp, **newclients; int new_size; if (triplet->clients) { /* Avoid duplication. */ for (clientp = triplet->clients; *clientp; clientp++) { if (*clientp == client) return ZSRV_CLASSXISTS; } if (clientp + 1 - triplet->clients >= triplet->clients_size) { new_size = triplet->clients_size * 2 + ALLOC_OFFSET; newclients = (Client **) realloc(triplet->clients, new_size * sizeof(Client *)); if (newclients == NULL) return ENOMEM; clientp = newclients + (clientp - triplet->clients); triplet->clients = newclients; triplet->clients_size = new_size; } } else { /* Allocate an initial list of client pointers. */ triplet->clients = (Client **) malloc(ALLOC_INIT * sizeof(Client *)); if (triplet->clients == NULL) return ENOMEM; triplet->clients_size = ALLOC_INIT; clientp = triplet->clients; } *clientp = client; clientp[1] = NULL; return ZERR_NONE; } /* * remove the client from the list associated with class *ptr, garbage * collecting if appropriate */ static Code_t remove_client(triplet, client) Triplet *triplet; Client *client; { Client **clientp; for (clientp = triplet->clients; *clientp; clientp++) { if (*clientp == client) { for (; *clientp; clientp++) *clientp = clientp[1]; return ZERR_NONE; } } return ZSRV_BADASSOC; } static void free_triplet(triplet) Triplet *triplet; { if (triplet->clients) free(triplet->clients); free_string(triplet->dest.classname); free_string(triplet->dest.inst); free_string(triplet->dest.recip); free(triplet); } void triplet_dump_subs(fp) FILE *fp; { int i; Triplet *triplet; Client **clientp; for (i = 0; i < HASHSIZE; i++) { for (triplet = triplet_bucket[i]; triplet; triplet = triplet->next) { fputs("Triplet '", fp); subscr_quote(triplet->dest.classname->string, fp); fputs("' '", fp); subscr_quote(triplet->dest.inst->string, fp); fputs("' '", fp); subscr_quote(triplet->dest.recip->string, fp); fputs("':\n", fp); if (triplet->clients) { for (clientp = triplet->clients; *clientp; clientp++) { fprintf(fp, "\t%s %d (%s)\n", inet_ntoa((*clientp)->addr.sin_addr), ntohs((*clientp)->addr.sin_port), (*clientp)->principal->string); } } } } }