/* Copyright (c) 1998 Free Software Foundation, Inc. This file is part of the GNU C Library. Contributed by Thorsten Kukuk , 1998. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with the GNU C Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include #include #include #include "dbg_log.h" #include "nscd.h" static unsigned long modulo = 211; static unsigned long postimeout = 3600; static unsigned long negtimeout = 60; static unsigned long poshit = 0; static unsigned long posmiss = 0; static unsigned long neghit = 0; static unsigned long negmiss = 0; struct grphash { time_t create; struct grphash *next; struct group *grp; }; typedef struct grphash grphash; struct gidhash { struct gidhash *next; struct group *grptr; }; typedef struct gidhash gidhash; struct neghash { time_t create; struct neghash *next; char *key; }; typedef struct neghash neghash; static grphash *grptbl; static gidhash *gidtbl; static neghash *negtbl; static pthread_rwlock_t grplock = PTHREAD_RWLOCK_INITIALIZER; static pthread_rwlock_t neglock = PTHREAD_RWLOCK_INITIALIZER; static void *grptable_update (void *); static void *negtable_update (void *); void get_gr_stat (stat_response_header *stat) { stat->gr_poshit = poshit; stat->gr_posmiss = posmiss; stat->gr_neghit = neghit; stat->gr_negmiss = negmiss; stat->gr_size = modulo; stat->gr_posttl = postimeout; stat->gr_negttl = negtimeout; } void set_grp_modulo (unsigned long mod) { modulo = mod; } void set_pos_grp_ttl (unsigned long ttl) { postimeout = ttl; } void set_neg_grp_ttl (unsigned long ttl) { negtimeout = ttl; } int cache_grpinit () { pthread_attr_t attr; pthread_t thread; grptbl = calloc (modulo, sizeof (grphash)); if (grptbl == NULL) return -1; gidtbl = calloc (modulo, sizeof (grphash)); if (gidtbl == NULL) return -1; negtbl = calloc (modulo, sizeof (neghash)); if (negtbl == NULL) return -1; pthread_attr_init (&attr); pthread_attr_setdetachstate (&attr, PTHREAD_CREATE_DETACHED); pthread_create (&thread, NULL, grptable_update, &attr); pthread_create (&thread, NULL, negtable_update, &attr); pthread_attr_destroy (&attr); return 0; } static struct group * save_grp (struct group *src) { struct group *dest; unsigned long int l; size_t tlen; size_t name_len = strlen (src->gr_name) + 1; size_t passwd_len = strlen (src->gr_passwd) + 1; char *cp; /* How many members does this group have? */ l = tlen = 0; while (src->gr_mem[l] != NULL) tlen += strlen (src->gr_mem[l++]) + 1; dest = malloc (sizeof (struct group) + (l + 1) * sizeof (char *) + name_len + passwd_len + tlen); if (dest == NULL) return NULL; dest->gr_mem = (char **) (dest + 1); cp = (char *) (dest->gr_mem + l + 1); dest->gr_name = cp; cp = mempcpy (cp, src->gr_name, name_len); dest->gr_passwd = cp; cp = mempcpy (cp, src->gr_passwd, passwd_len); dest->gr_gid = src->gr_gid; l = 0; while (src->gr_mem[l] != NULL) { dest->gr_mem[l] = cp; cp = stpcpy (cp, src->gr_mem[l]) + 1; ++l; } dest->gr_mem[l] = NULL; return dest; } static void free_grp (struct group *src) { free (src); } static int add_cache (struct group *grp) { grphash *work; gidhash *gidwork; unsigned long int hash = __nis_hash (grp->gr_name, strlen (grp->gr_name)) % modulo; if (debug_flag) dbg_log (_("grp_add_cache (%s)"), grp->gr_name); work = &grptbl[hash]; if (grptbl[hash].grp == NULL) grptbl[hash].grp = save_grp (grp); else { while (work->next != NULL) work = work->next; work->next = calloc (1, sizeof (grphash)); work->next->grp = save_grp (grp); work = work->next; } time (&work->create); gidwork = &gidtbl[grp->gr_gid % modulo]; if (gidwork->grptr == NULL) gidwork->grptr = work->grp; else { while (gidwork->next != NULL) gidwork = gidwork->next; gidwork->next = calloc (1, sizeof (gidhash)); gidwork->next->grptr = work->grp; } return 0; } static struct group * cache_search_name (const char *name) { grphash *work; unsigned long int hash = __nis_hash (name, strlen(name)) % modulo; work = &grptbl[hash]; while (work->grp != NULL) { if (strcmp (work->grp->gr_name, name) == 0) return work->grp; if (work->next != NULL) work = work->next; else return NULL; } return NULL; } static struct group * cache_search_gid (gid_t gid) { gidhash *work; work = &gidtbl[gid % modulo]; while (work->grptr != NULL) { if (work->grptr->gr_gid == gid) return work->grptr; if (work->next != NULL) work = work->next; else return NULL; } return NULL; } static int add_negcache (char *key) { neghash *work; unsigned long int hash = __nis_hash (key, strlen (key)) % modulo; if (debug_flag) dbg_log (_("grp_add_netgache (%s|%ld)"), key, hash); work = &negtbl[hash]; if (negtbl[hash].key == NULL) { negtbl[hash].key = strdup (key); negtbl[hash].next = NULL; } else { while (work->next != NULL) work = work->next; work->next = calloc (1, sizeof (neghash)); work->next->key = strdup (key); work = work->next; } time (&work->create); return 0; } static int cache_search_neg (const char *key) { neghash *work; unsigned long int hash = __nis_hash (key, strlen (key)) % modulo; if (debug_flag) dbg_log (_("grp_cache_search_neg (%s|%ld)"), key, hash); work = &negtbl[hash]; while (work->key != NULL) { if (strcmp (work->key, key) == 0) return 1; if (work->next != NULL) work = work->next; else return 0; } return 0; } void * cache_getgrnam (void *v_param) { param_t *param = (param_t *)v_param; struct group *grp; pthread_rwlock_rdlock (&grplock); grp = cache_search_name (param->key); /* I don't like it to hold the read only lock longer, but it is necessary to avoid to much malloc/free/strcpy. */ if (grp != NULL) { if (debug_flag) dbg_log (_("Found \"%s\" in cache !"), param->key); ++poshit; gr_send_answer (param->conn, grp); close_socket (param->conn); pthread_rwlock_unlock (&grplock); } else { int status; int buflen = 1024; char *buffer = calloc (1, buflen); struct group resultbuf; if (debug_flag) dbg_log (_("Doesn't found \"%s\" in cache !"), param->key); pthread_rwlock_unlock (&grplock); pthread_rwlock_rdlock (&neglock); status = cache_search_neg (param->key); pthread_rwlock_unlock (&neglock); if (status == 0) { while (buffer != NULL && (getgrnam_r (param->key, &resultbuf, buffer, buflen, &grp) != 0) && errno == ERANGE) { errno = 0; buflen += 1024; buffer = realloc (buffer, buflen); } if (buffer != NULL && grp != NULL) { struct group *tmp; ++poshit; pthread_rwlock_wrlock (&grplock); /* While we are waiting on the lock, somebody else could add this entry. */ tmp = cache_search_name (param->key); if (tmp == NULL) add_cache (grp); pthread_rwlock_unlock (&grplock); } else { pthread_rwlock_wrlock (&neglock); add_negcache (param->key); ++negmiss; pthread_rwlock_unlock (&neglock); } } else ++neghit; gr_send_answer (param->conn, grp); close_socket (param->conn); if (buffer != NULL) free (buffer); } free (param->key); free (param); return NULL; } void * cache_gr_disabled (void *v_param) { param_t *param = (param_t *)v_param; if (debug_flag) dbg_log (_("\tgroup cache is disabled\n")); gr_send_disabled (param->conn); return NULL; } void * cache_getgrgid (void *v_param) { param_t *param = (param_t *)v_param; struct group *grp, resultbuf; gid_t gid = strtol (param->key, NULL, 10); pthread_rwlock_rdlock (&grplock); grp = cache_search_gid (gid); /* I don't like it to hold the read only lock longer, but it is necessary to avoid to much malloc/free/strcpy. */ if (grp != NULL) { if (debug_flag) dbg_log (_("Found \"%d\" in cache !"), gid); ++poshit; gr_send_answer (param->conn, grp); close_socket (param->conn); pthread_rwlock_unlock (&grplock); } else { int buflen = 1024; char *buffer = malloc (buflen); int status; if (debug_flag) dbg_log (_("Doesn't found \"%d\" in cache !"), gid); pthread_rwlock_unlock (&grplock); pthread_rwlock_rdlock (&neglock); status = cache_search_neg (param->key); pthread_rwlock_unlock (&neglock); if (status == 0) { while (buffer != NULL && (getgrgid_r (gid, &resultbuf, buffer, buflen, &grp) != 0) && errno == ERANGE) { errno = 0; buflen += 1024; buffer = realloc (buffer, buflen); } if (buffer != NULL && grp != NULL) { struct group *tmp; ++posmiss; pthread_rwlock_wrlock (&grplock); /* While we are waiting on the lock, somebody else could add this entry. */ tmp = cache_search_gid (gid); if (tmp == NULL) add_cache (grp); pthread_rwlock_unlock (&grplock); } else { ++negmiss; pthread_rwlock_wrlock (&neglock); add_negcache (param->key); pthread_rwlock_unlock (&neglock); } } else ++neghit; gr_send_answer (param->conn, grp); close_socket (param->conn); if (buffer != NULL) free (buffer); } free (param->key); free (param); return NULL; } static void * grptable_update (void *v) { time_t now; int i; sleep (20); while (!do_shutdown) { if (debug_flag > 2) dbg_log (_("(grptable_update) Wait for write lock!")); pthread_rwlock_wrlock (&grplock); if (debug_flag > 2) dbg_log (_("(grptable_update) Have write lock")); time (&now); for (i = 0; i < modulo; ++i) { grphash *work = &grptbl[i]; while (work && work->grp) { if ((now - work->create) >= postimeout) { gidhash *uh = &gidtbl[work->grp->gr_gid % modulo]; if (debug_flag) dbg_log (_("Give \"%s\" free"), work->grp->gr_name); while (uh && uh->grptr) { if (uh->grptr->gr_gid == work->grp->gr_gid) { if (debug_flag > 3) dbg_log (_("Give gid for \"%s\" free"), work->grp->gr_name); if (uh->next != NULL) { gidhash *tmp = uh->next; uh->grptr = tmp->grptr; uh->next = tmp->next; free (tmp); } else uh->grptr = NULL; } uh = uh->next; } free_grp (work->grp); if (work->next != NULL) { grphash *tmp = work->next; work->create = tmp->create; work->next = tmp->next; work->grp = tmp->grp; free (tmp); } else work->grp = NULL; } work = work->next; } } if (debug_flag > 2) dbg_log (_("(grptable_update) Release wait lock")); pthread_rwlock_unlock (&grplock); sleep (20); } return NULL; } static void * negtable_update (void *v) { time_t now; int i; sleep (30); while (!do_shutdown) { if (debug_flag > 2) dbg_log (_("(neggrptable_update) Wait for write lock!")); pthread_rwlock_wrlock (&neglock); if (debug_flag > 2) dbg_log (_("(neggrptable_update) Have write lock")); time (&now); for (i = 0; i < modulo; ++i) { neghash *work = &negtbl[i]; while (work && work->key) { if ((now - work->create) >= negtimeout) { if (debug_flag) dbg_log (_("Give \"%s\" free"), work->key); free (work->key); if (work->next != NULL) { neghash *tmp = work->next; work->create = tmp->create; work->next = tmp->next; work->key = tmp->key; free (tmp); } else work->key = NULL; } work = work->next; } } if (debug_flag > 2) dbg_log (_("(neggrptable_update) Release wait lock")); pthread_rwlock_unlock (&neglock); sleep (10); } return NULL; }