/* * Copyright (C) 2014 Hamburg University of Applied Sciences (HAW) * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @ingroup pthread * @{ * @file * @brief RIOT POSIX thread local storage * @author Martin Landsmann * @author René Kijewski * @} */ #include "pthread.h" #ifdef HAVE_MALLOC_H #include #endif #define ENABLE_DEBUG (0) #include "debug.h" typedef struct __pthread_tls_datum { pthread_key_t key; struct __pthread_tls_datum *next; void *value; } tls_data_t; struct __pthread_tls_key { void (*destructor)(void *); }; /** * @brief Used while manipulating the TLS of a pthread. */ static mutex_t tls_mutex; /** * @brief Find a thread-specific datum. * @param[in] tls Pointer to the list of the thread-specific datums. * @param[in] key The key to look up. * @param[out] prev The datum before the result. `NULL` if the result is the first key. Spurious if the key was not found. * @returns The datum or `NULL`. */ static tls_data_t *find_specific(tls_data_t **tls, pthread_key_t key, tls_data_t **prev) { tls_data_t *specific = *tls; *prev = NULL; while (specific) { if (specific->key == key) { return specific; } *prev = specific; specific = specific->next; } return 0; } /** * @brief Find or allocate a thread specific datum. * @details The `key` must be initialized. * The result will be the head of the thread-specific datums afterwards. * @param[in] key The key to lookup. * @returns The datum. `NULL` on ENOMEM or if the caller is not a pthread. */ static tls_data_t *get_specific(pthread_key_t key) { pthread_t self_id = pthread_self(); if (self_id == 0) { DEBUG("ERROR called pthread_self() returned 0 in \"%s\"!\n", __func__); return NULL; } tls_data_t **tls = __pthread_get_tls_head(self_id); tls_data_t *prev, *specific = find_specific(tls, key, &prev); /* Did the datum already exist? */ if (specific) { if (prev) { /* Move the datum to the front for a faster next lookup. */ /* Let's pretend that we have a totally degenerated splay tree. ;-) */ prev->next = specific->next; specific->next = *tls; *tls = specific; } return specific; } /* Allocate new datum. */ specific = malloc(sizeof (*specific)); if (specific) { specific->key = key; specific->next = *tls; specific->value = NULL; *tls = specific; } else { DEBUG("ERROR out of memory in %s!\n", __func__); } return specific; } int pthread_key_create(pthread_key_t *key, void (*destructor)(void *)) { *key = malloc(sizeof (**key)); if (!*key) { return ENOMEM; } (*key)->destructor = destructor; return 0; } int pthread_key_delete(pthread_key_t key) { if (!key) { return EINVAL; } mutex_lock(&tls_mutex); for (unsigned i = 1; i <= MAXTHREADS; ++i) { tls_data_t **tls = __pthread_get_tls_head(i); if (!tls) { continue; } tls_data_t *prev, *specific = find_specific(tls, key, &prev); if (specific) { if (prev) { prev->next = specific->next; } else { *tls = specific->next; } free(specific); } } mutex_unlock(&tls_mutex); return 0; } void *pthread_getspecific(pthread_key_t key) { if (!key) { return NULL; } mutex_lock(&tls_mutex); tls_data_t *specific = get_specific(key); void *result = specific ? specific->value : NULL; mutex_unlock(&tls_mutex); return result; } int pthread_setspecific(pthread_key_t key, const void *value) { if (!key) { return EINVAL; } mutex_lock(&tls_mutex); tls_data_t *specific = get_specific(key); if (specific) { specific->value = (void *) value; } mutex_unlock(&tls_mutex); return specific ? 0 : ENOMEM; } void __pthread_keys_exit(int self_id) { tls_data_t **tls = __pthread_get_tls_head(self_id); /* Calling the dtor could cause another pthread_exit(), so we dehead and free defore calling it. */ mutex_lock(&tls_mutex); for (tls_data_t *specific; (specific = *tls); ) { *tls = specific->next; void *value = specific->value; void (*destructor)(void *) = specific->key->destructor; free(specific); if (value && destructor) { mutex_unlock(&tls_mutex); destructor(value); mutex_lock(&tls_mutex); } } mutex_unlock(&tls_mutex); }