/* Copyright (c) 2008 The NetBSD Foundation, Inc. * 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. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ #include "atf-c/detail/map.h" #include #include #include #include "atf-c/detail/sanity.h" #include "atf-c/error.h" #include "atf-c/utils.h" /* --------------------------------------------------------------------- * Auxiliary functions. * --------------------------------------------------------------------- */ struct map_entry { char *m_key; void *m_value; bool m_managed; }; static struct map_entry * new_entry(const char *key, void *value, bool managed) { struct map_entry *me; me = (struct map_entry *)malloc(sizeof(*me)); if (me != NULL) { me->m_key = strdup(key); if (me->m_key == NULL) { free(me); me = NULL; } else { me->m_value = value; me->m_managed = managed; } } return me; } /* --------------------------------------------------------------------- * The "atf_map_citer" type. * --------------------------------------------------------------------- */ /* * Getters. */ const char * atf_map_citer_key(const atf_map_citer_t citer) { const struct map_entry *me = citer.m_entry; PRE(me != NULL); return me->m_key; } const void * atf_map_citer_data(const atf_map_citer_t citer) { const struct map_entry *me = citer.m_entry; PRE(me != NULL); return me->m_value; } atf_map_citer_t atf_map_citer_next(const atf_map_citer_t citer) { atf_map_citer_t newciter; newciter = citer; newciter.m_listiter = atf_list_citer_next(citer.m_listiter); newciter.m_entry = ((const struct map_entry *) atf_list_citer_data(newciter.m_listiter)); return newciter; } bool atf_equal_map_citer_map_citer(const atf_map_citer_t i1, const atf_map_citer_t i2) { return i1.m_map == i2.m_map && i1.m_entry == i2.m_entry; } /* --------------------------------------------------------------------- * The "atf_map_iter" type. * --------------------------------------------------------------------- */ /* * Getters. */ const char * atf_map_iter_key(const atf_map_iter_t iter) { const struct map_entry *me = iter.m_entry; PRE(me != NULL); return me->m_key; } void * atf_map_iter_data(const atf_map_iter_t iter) { const struct map_entry *me = iter.m_entry; PRE(me != NULL); return me->m_value; } atf_map_iter_t atf_map_iter_next(const atf_map_iter_t iter) { atf_map_iter_t newiter; newiter = iter; newiter.m_listiter = atf_list_iter_next(iter.m_listiter); newiter.m_entry = ((struct map_entry *) atf_list_iter_data(newiter.m_listiter)); return newiter; } bool atf_equal_map_iter_map_iter(const atf_map_iter_t i1, const atf_map_iter_t i2) { return i1.m_map == i2.m_map && i1.m_entry == i2.m_entry; } /* --------------------------------------------------------------------- * The "atf_map" type. * --------------------------------------------------------------------- */ /* * Constructors and destructors. */ atf_error_t atf_map_init(atf_map_t *m) { return atf_list_init(&m->m_list); } atf_error_t atf_map_init_charpp(atf_map_t *m, const char *const *array) { atf_error_t err; const char *const *ptr = array; err = atf_map_init(m); if (array != NULL) { while (!atf_is_error(err) && *ptr != NULL) { const char *key, *value; key = *ptr; INV(key != NULL); ptr++; if ((value = *ptr) == NULL) { err = atf_libc_error(EINVAL, "List too short; no value for " "key '%s' provided", key); /* XXX: Not really libc_error */ break; } ptr++; err = atf_map_insert(m, key, strdup(value), true); } } if (atf_is_error(err)) atf_map_fini(m); return err; } void atf_map_fini(atf_map_t *m) { atf_list_iter_t iter; atf_list_for_each(iter, &m->m_list) { struct map_entry *me = atf_list_iter_data(iter); if (me->m_managed) free(me->m_value); free(me->m_key); free(me); } atf_list_fini(&m->m_list); } /* * Getters. */ atf_map_iter_t atf_map_begin(atf_map_t *m) { atf_map_iter_t iter; iter.m_map = m; iter.m_listiter = atf_list_begin(&m->m_list); iter.m_entry = atf_list_iter_data(iter.m_listiter); return iter; } atf_map_citer_t atf_map_begin_c(const atf_map_t *m) { atf_map_citer_t citer; citer.m_map = m; citer.m_listiter = atf_list_begin_c(&m->m_list); citer.m_entry = atf_list_citer_data(citer.m_listiter); return citer; } atf_map_iter_t atf_map_end(atf_map_t *m) { atf_map_iter_t iter; iter.m_map = m; iter.m_entry = NULL; iter.m_listiter = atf_list_end(&m->m_list); return iter; } atf_map_citer_t atf_map_end_c(const atf_map_t *m) { atf_map_citer_t iter; iter.m_map = m; iter.m_entry = NULL; iter.m_listiter = atf_list_end_c(&m->m_list); return iter; } atf_map_iter_t atf_map_find(atf_map_t *m, const char *key) { atf_list_iter_t iter; atf_list_for_each(iter, &m->m_list) { struct map_entry *me = atf_list_iter_data(iter); if (strcmp(me->m_key, key) == 0) { atf_map_iter_t i; i.m_map = m; i.m_entry = me; i.m_listiter = iter; return i; } } return atf_map_end(m); } atf_map_citer_t atf_map_find_c(const atf_map_t *m, const char *key) { atf_list_citer_t iter; atf_list_for_each_c(iter, &m->m_list) { const struct map_entry *me = atf_list_citer_data(iter); if (strcmp(me->m_key, key) == 0) { atf_map_citer_t i; i.m_map = m; i.m_entry = me; i.m_listiter = iter; return i; } } return atf_map_end_c(m); } size_t atf_map_size(const atf_map_t *m) { return atf_list_size(&m->m_list); } char ** atf_map_to_charpp(const atf_map_t *l) { char **array; atf_map_citer_t iter; size_t i; array = malloc(sizeof(char *) * (atf_map_size(l) * 2 + 1)); if (array == NULL) goto out; i = 0; atf_map_for_each_c(iter, l) { array[i] = strdup(atf_map_citer_key(iter)); if (array[i] == NULL) { atf_utils_free_charpp(array); array = NULL; goto out; } array[i + 1] = strdup((const char *)atf_map_citer_data(iter)); if (array[i + 1] == NULL) { atf_utils_free_charpp(array); array = NULL; goto out; } i += 2; } array[i] = NULL; out: return array; } /* * Modifiers. */ atf_error_t atf_map_insert(atf_map_t *m, const char *key, void *value, bool managed) { struct map_entry *me; atf_error_t err; atf_map_iter_t iter; iter = atf_map_find(m, key); if (atf_equal_map_iter_map_iter(iter, atf_map_end(m))) { me = new_entry(key, value, managed); if (me == NULL) err = atf_no_memory_error(); else { err = atf_list_append(&m->m_list, me, false); if (atf_is_error(err)) { if (managed) free(value); free(me->m_key); free(me); } } } else { me = iter.m_entry; if (me->m_managed) free(me->m_value); INV(strcmp(me->m_key, key) == 0); me->m_value = value; me->m_managed = managed; err = atf_no_error(); } return err; }