/****************************************************************************** * * Copyright (C) 2014 Google, Inc. * * Licensed 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. * ******************************************************************************/ #define LOG_TAG "osi_thread" #include #include #include #include #include #include #include #include "fixed_queue.h" #include "reactor.h" #include "semaphore.h" #include "thread.h" struct thread_t { pthread_t pthread; pid_t tid; char name[THREAD_NAME_MAX + 1]; reactor_t *reactor; fixed_queue_t *work_queue; }; struct start_arg { thread_t *thread; semaphore_t *start_sem; int error; }; typedef struct { thread_fn func; void *context; } work_item_t; static void *run_thread(void *start_arg); static void work_queue_read_cb(void *context); static const size_t WORK_QUEUE_CAPACITY = 128; thread_t *thread_new(const char *name) { assert(name != NULL); // Start is on the stack, but we use a semaphore, so it's safe thread_t *ret = calloc(1, sizeof(thread_t)); if (!ret) goto error; ret->reactor = reactor_new(); if (!ret->reactor) goto error; ret->work_queue = fixed_queue_new(WORK_QUEUE_CAPACITY); if (!ret->work_queue) goto error; struct start_arg start; start.start_sem = semaphore_new(0); if (!start.start_sem) goto error; strncpy(ret->name, name, THREAD_NAME_MAX); start.thread = ret; start.error = 0; pthread_create(&ret->pthread, NULL, run_thread, &start); semaphore_wait(start.start_sem); semaphore_free(start.start_sem); if (start.error) goto error; return ret; error:; if (ret) { fixed_queue_free(ret->work_queue, free); reactor_free(ret->reactor); } free(ret); return NULL; } void thread_free(thread_t *thread) { if (!thread) return; thread_stop(thread); pthread_join(thread->pthread, NULL); fixed_queue_free(thread->work_queue, free); reactor_free(thread->reactor); free(thread); } bool thread_post(thread_t *thread, thread_fn func, void *context) { assert(thread != NULL); assert(func != NULL); // TODO(sharvil): if the current thread == |thread| and we've run out // of queue space, we should abort this operation, otherwise we'll // deadlock. // Queue item is freed either when the queue itself is destroyed // or when the item is removed from the queue for dispatch. work_item_t *item = (work_item_t *)malloc(sizeof(work_item_t)); if (!item) { ALOGE("%s unable to allocate memory: %s", __func__, strerror(errno)); return false; } item->func = func; item->context = context; fixed_queue_enqueue(thread->work_queue, item); return true; } void thread_stop(thread_t *thread) { assert(thread != NULL); reactor_stop(thread->reactor); } const char *thread_name(const thread_t *thread) { assert(thread != NULL); return thread->name; } static void *run_thread(void *start_arg) { assert(start_arg != NULL); struct start_arg *start = start_arg; thread_t *thread = start->thread; assert(thread != NULL); if (prctl(PR_SET_NAME, (unsigned long)thread->name) == -1) { ALOGE("%s unable to set thread name: %s", __func__, strerror(errno)); start->error = errno; semaphore_post(start->start_sem); return NULL; } thread->tid = gettid(); semaphore_post(start->start_sem); reactor_object_t work_queue_object; work_queue_object.context = thread->work_queue; work_queue_object.fd = fixed_queue_get_dequeue_fd(thread->work_queue); work_queue_object.interest = REACTOR_INTEREST_READ; work_queue_object.read_ready = work_queue_read_cb; reactor_register(thread->reactor, &work_queue_object); reactor_start(thread->reactor); // Make sure we dispatch all queued work items before exiting the thread. // This allows a caller to safely tear down by enqueuing a teardown // work item and then joining the thread. size_t count = 0; work_item_t *item = fixed_queue_try_dequeue(thread->work_queue); while (item && count <= WORK_QUEUE_CAPACITY) { item->func(item->context); free(item); item = fixed_queue_try_dequeue(thread->work_queue); ++count; } if (count > WORK_QUEUE_CAPACITY) ALOGD("%s growing event queue on shutdown.", __func__); return NULL; } static void work_queue_read_cb(void *context) { assert(context != NULL); fixed_queue_t *queue = (fixed_queue_t *)context; work_item_t *item = fixed_queue_dequeue(queue); item->func(item->context); free(item); }