/* * support/export/client.c * * Maintain list of nfsd clients. * * Copyright (C) 1995, 1996 Olaf Kirch */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include "xmalloc.h" #include "misc.h" #include "nfslib.h" #include "exportfs.h" /* netgroup stuff never seems to be defined in any header file. Linux is * not alone in this. */ #if !defined(__GLIBC__) || __GLIBC__ < 2 extern int innetgr(char *netgr, char *host, char *, char *); #endif static void client_init(nfs_client *clp, const char *hname, struct hostent *hp); static int client_checkaddr(nfs_client *clp, struct in_addr addr); nfs_client *clientlist[MCL_MAXTYPES] = { NULL, }; /* if canonical is set, then we *know* this is already a canonical name * so hostname lookup is avoided. * This is used when reading /proc/fs/nfs/exports */ nfs_client * client_lookup(char *hname, int canonical) { nfs_client *clp = NULL; int htype; struct hostent *hp = NULL; htype = client_gettype(hname); if (htype == MCL_FQDN && !canonical) { struct hostent *hp2; hp = gethostbyname(hname); if (hp == NULL || hp->h_addrtype != AF_INET) { xlog(L_ERROR, "%s has non-inet addr", hname); return NULL; } /* make sure we have canonical name */ hp2 = hostent_dup(hp); hp = gethostbyaddr(hp2->h_addr, hp2->h_length, hp2->h_addrtype); if (hp) { hp = hostent_dup(hp); /* but now we might not have all addresses... */ if (hp2->h_addr_list[1]) { struct hostent *hp3 = gethostbyname(hp->h_name); if (hp3) { free(hp); hp = hostent_dup(hp3); } } free(hp2); } else hp = hp2; hname = (char *) hp->h_name; for (clp = clientlist[htype]; clp; clp = clp->m_next) { if (client_check(clp, hp)) break; } } else { for (clp = clientlist[htype]; clp; clp = clp->m_next) { if (strcasecmp(hname, clp->m_hostname)==0) break; } } if (!clp) { clp = (nfs_client *) xmalloc(sizeof(*clp)); memset(clp, 0, sizeof(*clp)); clp->m_type = htype; client_init(clp, hname, NULL); client_add(clp); } if (htype == MCL_FQDN && clp->m_naddr == 0 && hp != NULL) { char **ap = hp->h_addr_list; int i; for (i = 0; *ap && i < NFSCLNT_ADDRMAX; i++, ap++) clp->m_addrlist[i] = *(struct in_addr *)*ap; clp->m_naddr = i; } if (hp) free (hp); return clp; } nfs_client * client_dup(nfs_client *clp, struct hostent *hp) { nfs_client *new; new = (nfs_client *) xmalloc(sizeof(*new)); memcpy(new, clp, sizeof(*new)); new->m_type = MCL_FQDN; new->m_hostname = NULL; client_init(new, (char *) hp->h_name, hp); client_add(new); return new; } static void client_init(nfs_client *clp, const char *hname, struct hostent *hp) { xfree(clp->m_hostname); if (hp) clp->m_hostname = xstrdup(hp->h_name); else clp->m_hostname = xstrdup(hname); clp->m_exported = 0; clp->m_count = 0; if (clp->m_type == MCL_SUBNETWORK) { char *cp = strchr(clp->m_hostname, '/'); static char slash32[] = "/32"; if(!cp) cp = slash32; *cp = '\0'; clp->m_addrlist[0].s_addr = inet_addr(clp->m_hostname); if (strchr(cp + 1, '.')) { clp->m_addrlist[1].s_addr = inet_addr(cp+1); } else { int netmask = atoi(cp + 1); if (0 < netmask && netmask <= 32) { clp->m_addrlist[1].s_addr = htonl ((uint32_t) ~0 << (32 - netmask)); } else { xlog(L_FATAL, "invalid netmask `%s' for %s", cp + 1, clp->m_hostname); } } *cp = '/'; clp->m_naddr = 0; } else if (!hp) { clp->m_naddr = 0; } else { char **ap = hp->h_addr_list; int i; for (i = 0; *ap && i < NFSCLNT_ADDRMAX; i++, ap++) { clp->m_addrlist[i] = *(struct in_addr *)*ap; } clp->m_naddr = i; } } void client_add(nfs_client *clp) { nfs_client **cpp; if (clp->m_type < 0 || clp->m_type >= MCL_MAXTYPES) xlog(L_FATAL, "unknown client type in client_add"); cpp = clientlist + clp->m_type; while (*cpp) cpp = &((*cpp)->m_next); clp->m_next = NULL; *cpp = clp; } void client_release(nfs_client *clp) { if (clp->m_count <= 0) xlog(L_FATAL, "client_free: m_count <= 0!"); clp->m_count--; } void client_freeall(void) { nfs_client *clp, **head; int i; for (i = 0; i < MCL_MAXTYPES; i++) { head = clientlist + i; while (*head) { *head = (clp = *head)->m_next; xfree(clp->m_hostname); xfree(clp); } } } nfs_client * client_find(struct hostent *hp) { nfs_client *clp; int i; for (i = 0; i < MCL_MAXTYPES; i++) { for (clp = clientlist[i]; clp; clp = clp->m_next) { if (!client_check(clp, hp)) continue; #ifdef notdef if (clp->m_type == MCL_FQDN) return clp; return client_dup(clp, hp); #else return clp; #endif } } return NULL; } struct hostent * client_resolve(struct in_addr addr) { struct hostent *he = NULL; if (clientlist[MCL_WILDCARD] || clientlist[MCL_NETGROUP]) he = get_reliable_hostbyaddr((const char*)&addr, sizeof(addr), AF_INET); if (he == NULL) he = get_hostent((const char*)&addr, sizeof(addr), AF_INET); return he; } /* * Find client name given an IP address * This is found by gathering all known names that match that IP address, * sorting them and joining them with '+' * */ static char *add_name(char *old, char *add); char * client_compose(struct hostent *he) { char *name = NULL; int i; for (i = 0 ; i < MCL_MAXTYPES; i++) { nfs_client *clp; for (clp = clientlist[i]; clp ; clp = clp->m_next) { if (!client_check(clp, he)) continue; name = add_name(name, clp->m_hostname); } } return name; } int client_member(char *client, char *name) { /* check if "client" (a ',' separated list of names) * contains 'name' as a member */ int l = strlen(name); while (*client) { if (strncmp(client, name, l) == 0 && (client[l] == ',' || client[l] == '\0')) return 1; client = strchr(client, ','); if (client == NULL) return 0; client++; } return 0; } int name_cmp(char *a, char *b) { /* compare strings a and b, but only upto ',' in a */ while (*a && *b && *a != ',' && *a == *b) a++, b++; if (!*b && (!*a || !a == ',') ) return 0; if (!*b) return 1; if (!*a || *a == ',') return -1; return *a - *b; } static char * add_name(char *old, char *add) { int len = strlen(add)+2; char *new; char *cp; if (old) len += strlen(old); new = malloc(len); if (!new) { free(old); return NULL; } cp = old; while (cp && *cp && name_cmp(cp, add) < 0) { /* step cp forward over a name */ char *e = strchr(cp, ','); if (e) cp = e+1; else cp = cp + strlen(cp); } strncpy(new, old, cp-old); new[cp-old] = 0; if (cp != old && !*cp) strcat(new, ","); strcat(new, add); if (cp && *cp) { strcat(new, ","); strcat(new, cp); } free(old); return new; } /* * Match a host (given its hostent record) to a client record. This * is usually called from mountd. */ int client_check(nfs_client *clp, struct hostent *hp) { char *hname = (char *) hp->h_name; char *cname = clp->m_hostname; char **ap; switch (clp->m_type) { case MCL_FQDN: case MCL_SUBNETWORK: for (ap = hp->h_addr_list; *ap; ap++) { if (client_checkaddr(clp, *(struct in_addr *) *ap)) return 1; } return 0; case MCL_WILDCARD: if (wildmat(hname, cname)) return 1; else { for (ap = hp->h_aliases; *ap; ap++) if (wildmat(*ap, cname)) return 1; } return 0; case MCL_NETGROUP: #ifdef HAVE_INNETGR { char *dot; int match, i; struct hostent *nhp = NULL; struct sockaddr_in addr; /* First, try to match the hostname without * splitting off the domain */ if (innetgr(cname+1, hname, NULL, NULL)) return 1; /* try the aliases as well */ for (i = 0; hp->h_aliases[i]; i++) { if (innetgr(cname+1, hp->h_aliases[i], NULL, NULL)) return 1; } /* If hname is ip address convert to FQDN */ if (inet_aton(hname, &addr.sin_addr) && (nhp = gethostbyaddr((const char *)&(addr.sin_addr), sizeof(addr.sin_addr), AF_INET))) { hname = (char *)nhp->h_name; if (innetgr(cname+1, hname, NULL, NULL)) return 1; } /* Okay, strip off the domain (if we have one) */ if ((dot = strchr(hname, '.')) == NULL) return 0; *dot = '\0'; match = innetgr(cname+1, hname, NULL, NULL); *dot = '.'; return match; } #else return 0; #endif case MCL_ANONYMOUS: return 1; case MCL_GSS: return 0; default: xlog(L_FATAL, "internal: bad client type %d", clp->m_type); } return 0; } static int client_checkaddr(nfs_client *clp, struct in_addr addr) { int i; switch (clp->m_type) { case MCL_FQDN: for (i = 0; i < clp->m_naddr; i++) { if (clp->m_addrlist[i].s_addr == addr.s_addr) return 1; } return 0; case MCL_SUBNETWORK: return !((clp->m_addrlist[0].s_addr ^ addr.s_addr) & clp->m_addrlist[1].s_addr); } return 0; } int client_gettype(char *ident) { char *sp; if (ident[0] == '\0' || strcmp(ident, "*")==0) return MCL_ANONYMOUS; if (strncmp(ident, "gss/", 4) == 0) return MCL_GSS; if (ident[0] == '@') { #ifndef HAVE_INNETGR xlog(L_WARNING, "netgroup support not compiled in"); #endif return MCL_NETGROUP; } for (sp = ident; *sp; sp++) { if (*sp == '*' || *sp == '?' || *sp == '[') return MCL_WILDCARD; if (*sp == '/') return MCL_SUBNETWORK; if (*sp == '\\' && sp[1]) sp++; } /* check for N.N.N.N */ sp = ident; if(!isdigit(*sp) || strtoul(sp, &sp, 10) > 255 || *sp != '.') return MCL_FQDN; sp++; if(!isdigit(*sp) || strtoul(sp, &sp, 10) > 255 || *sp != '.') return MCL_FQDN; sp++; if(!isdigit(*sp) || strtoul(sp, &sp, 10) > 255 || *sp != '.') return MCL_FQDN; sp++; if(!isdigit(*sp) || strtoul(sp, &sp, 10) > 255 || *sp != '\0') return MCL_FQDN; /* we lie here a bit. but technically N.N.N.N == N.N.N.N/32 :) */ return MCL_SUBNETWORK; }