/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "fspr.h" #include "fspr_portable.h" #include "fspr_arch_threadproc.h" #if APR_HAS_THREADS #if APR_HAVE_PTHREAD_H /* Destroy the threadattr object */ static fspr_status_t threadattr_cleanup(void *data) { fspr_threadattr_t *attr = data; fspr_status_t rv; rv = pthread_attr_destroy(&attr->attr); #ifdef PTHREAD_SETS_ERRNO if (rv) { rv = errno; } #endif return rv; } APR_DECLARE(fspr_status_t) fspr_threadattr_create(fspr_threadattr_t **new, fspr_pool_t *pool) { fspr_status_t stat; (*new) = fspr_palloc(pool, sizeof(fspr_threadattr_t)); (*new)->pool = pool; stat = pthread_attr_init(&(*new)->attr); if (stat == 0) { fspr_pool_cleanup_register(pool, *new, threadattr_cleanup, fspr_pool_cleanup_null); return APR_SUCCESS; } #ifdef PTHREAD_SETS_ERRNO stat = errno; #endif return stat; } #define DETACH_ARG(v) ((v) ? PTHREAD_CREATE_DETACHED : PTHREAD_CREATE_JOINABLE) APR_DECLARE(fspr_status_t) fspr_threadattr_detach_set(fspr_threadattr_t *attr, fspr_int32_t on) { fspr_status_t stat; #ifdef PTHREAD_ATTR_SETDETACHSTATE_ARG2_ADDR int arg = DETACH_ARG(v); if ((stat = pthread_attr_setdetachstate(&attr->attr, &arg)) == 0) { #else if ((stat = pthread_attr_setdetachstate(&attr->attr, DETACH_ARG(on))) == 0) { #endif return APR_SUCCESS; } else { #ifdef PTHREAD_SETS_ERRNO stat = errno; #endif return stat; } } APR_DECLARE(fspr_status_t) fspr_threadattr_detach_get(fspr_threadattr_t *attr) { int state; #ifdef PTHREAD_ATTR_GETDETACHSTATE_TAKES_ONE_ARG state = pthread_attr_getdetachstate(&attr->attr); #else pthread_attr_getdetachstate(&attr->attr, &state); #endif if (state == 1) return APR_DETACH; return APR_NOTDETACH; } APR_DECLARE(fspr_status_t) fspr_threadattr_stacksize_set(fspr_threadattr_t *attr, fspr_size_t stacksize) { int stat; stat = pthread_attr_setstacksize(&attr->attr, stacksize); if (stat == 0) { return APR_SUCCESS; } #ifdef PTHREAD_SETS_ERRNO stat = errno; #endif return stat; } APR_DECLARE(fspr_status_t) fspr_threadattr_guardsize_set(fspr_threadattr_t *attr, fspr_size_t size) { #ifdef HAVE_PTHREAD_ATTR_SETGUARDSIZE fspr_status_t rv; rv = pthread_attr_setguardsize(&attr->attr, size); if (rv == 0) { return APR_SUCCESS; } #ifdef PTHREAD_SETS_ERRNO rv = errno; #endif return rv; #else return APR_ENOTIMPL; #endif } static void *dummy_worker(void *opaque) { fspr_thread_t *thread = (fspr_thread_t*)opaque; #ifdef HAVE_PTHREAD_SETSCHEDPARAM if (thread->priority) { int policy; struct sched_param param = { 0 }; pthread_t tt = pthread_self(); pthread_getschedparam(tt, &policy, ¶m); param.sched_priority = thread->priority; pthread_setschedparam(tt, policy, ¶m); } #endif return thread->func(thread, thread->data); } APR_DECLARE(fspr_status_t) fspr_thread_create(fspr_thread_t **new, fspr_threadattr_t *attr, fspr_thread_start_t func, void *data, fspr_pool_t *pool) { fspr_status_t stat; pthread_attr_t *temp; pthread_t tt; (*new) = (fspr_thread_t *)fspr_pcalloc(pool, sizeof(fspr_thread_t)); if ((*new) == NULL) { return APR_ENOMEM; } (*new)->td = (pthread_t *)fspr_pcalloc(pool, sizeof(pthread_t)); if ((*new)->td == NULL) { return APR_ENOMEM; } (*new)->pool = pool; (*new)->data = data; (*new)->func = func; if (attr) temp = &attr->attr; else temp = NULL; stat = fspr_pool_create(&(*new)->pool, pool); if (stat != APR_SUCCESS) { return stat; } if (attr && attr->priority) { (*new)->priority = attr->priority; } if ((stat = pthread_create(&tt, temp, dummy_worker, (*new))) == 0) { *(*new)->td = tt; return APR_SUCCESS; } else { #ifdef PTHREAD_SETS_ERRNO stat = errno; #endif return stat; } } APR_DECLARE(fspr_os_thread_t) fspr_os_thread_current(void) { return pthread_self(); } APR_DECLARE(int) fspr_os_thread_equal(fspr_os_thread_t tid1, fspr_os_thread_t tid2) { return pthread_equal(tid1, tid2); } APR_DECLARE(fspr_status_t) fspr_thread_exit(fspr_thread_t *thd, fspr_status_t retval) { thd->exitval = retval; fspr_pool_destroy(thd->pool); pthread_exit(NULL); return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_thread_join(fspr_status_t *retval, fspr_thread_t *thd) { fspr_status_t stat; fspr_status_t *thread_stat; if ((stat = pthread_join(*thd->td,(void *)&thread_stat)) == 0) { *retval = thd->exitval; return APR_SUCCESS; } else { #ifdef PTHREAD_SETS_ERRNO stat = errno; #endif return stat; } } APR_DECLARE(fspr_status_t) fspr_thread_detach(fspr_thread_t *thd) { fspr_status_t stat; #ifdef PTHREAD_DETACH_ARG1_ADDR if ((stat = pthread_detach(thd->td)) == 0) { #else if ((stat = pthread_detach(*thd->td)) == 0) { #endif return APR_SUCCESS; } else { #ifdef PTHREAD_SETS_ERRNO stat = errno; #endif return stat; } } void fspr_thread_yield() { } APR_DECLARE(fspr_status_t) fspr_thread_data_get(void **data, const char *key, fspr_thread_t *thread) { return fspr_pool_userdata_get(data, key, thread->pool); } APR_DECLARE(fspr_status_t) fspr_thread_data_set(void *data, const char *key, fspr_status_t (*cleanup)(void *), fspr_thread_t *thread) { return fspr_pool_userdata_set(data, key, cleanup, thread->pool); } APR_DECLARE(fspr_status_t) fspr_os_thread_get(fspr_os_thread_t **thethd, fspr_thread_t *thd) { *thethd = thd->td; return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_os_thread_put(fspr_thread_t **thd, fspr_os_thread_t *thethd, fspr_pool_t *pool) { if (pool == NULL) { return APR_ENOPOOL; } if ((*thd) == NULL) { (*thd) = (fspr_thread_t *)fspr_pcalloc(pool, sizeof(fspr_thread_t)); (*thd)->pool = pool; } (*thd)->td = thethd; return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_thread_once_init(fspr_thread_once_t **control, fspr_pool_t *p) { static const pthread_once_t once_init = PTHREAD_ONCE_INIT; *control = fspr_palloc(p, sizeof(**control)); (*control)->once = once_init; return APR_SUCCESS; } APR_DECLARE(fspr_status_t) fspr_thread_once(fspr_thread_once_t *control, void (*func)(void)) { return pthread_once(&control->once, func); } APR_POOL_IMPLEMENT_ACCESSOR(thread) #endif /* HAVE_PTHREAD_H */ #endif /* APR_HAS_THREADS */ #if !APR_HAS_THREADS /* avoid warning for no prototype */ APR_DECLARE(fspr_status_t) fspr_os_thread_get(void); APR_DECLARE(fspr_status_t) fspr_os_thread_get(void) { return APR_ENOTIMPL; } #endif