/**************************************************************************** * sched/pthread/pthread_create.c * * SPDX-License-Identifier: Apache-2.0 * * 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "task/task.h" #include "sched/sched.h" #include "group/group.h" #include "clock/clock.h" #include "pthread/pthread.h" #include "tls/tls.h" /**************************************************************************** * Public Data ****************************************************************************/ /* Default pthread attributes (see include/nuttx/pthread.h). When configured * to build separate kernel- and user-address spaces, this global is * duplicated in each address spaced. This copy can only be shared within * the kernel address space. */ const pthread_attr_t g_default_pthread_attr = PTHREAD_ATTR_INITIALIZER; /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: pthread_tcb_setup * * Description: * This function sets up parameters in the Task Control Block (TCB) in * preparation for starting a new thread. * * pthread_tcb_setup() is called from nxtask_init() and nxtask_start() to * create a new task (with arguments cloned via strdup) or pthread_create() * which has one argument passed by value (distinguished by the pthread * boolean argument). * * Input Parameters: * tcb - Address of the new task's TCB * trampoline - User space pthread startup function * arg - The argument to provide to the pthread on startup. * * Returned Value: * None * ****************************************************************************/ static inline void pthread_tcb_setup(FAR struct pthread_tcb_s *ptcb, FAR struct tcb_s *parent, pthread_trampoline_t trampoline, pthread_addr_t arg) { #if CONFIG_TASK_NAME_SIZE > 0 /* Copy the pthread name into the TCB */ strlcpy(ptcb->cmn.name, parent->name, CONFIG_TASK_NAME_SIZE); #endif /* CONFIG_TASK_NAME_SIZE */ /* For pthreads, args are strictly pass-by-value; that actual * type wrapped by pthread_addr_t is unknown. */ ptcb->trampoline = trampoline; ptcb->arg = arg; } /**************************************************************************** * Name: pthread_start * * Description: * This function is the low level entry point into the pthread * * Input Parameters: * None * ****************************************************************************/ static void pthread_start(void) { FAR struct pthread_tcb_s *ptcb = (FAR struct pthread_tcb_s *)this_task(); /* The priority of this thread may have been boosted to avoid priority * inversion problems. If that is the case, then drop to the correct * execution priority. */ if (ptcb->cmn.sched_priority > ptcb->cmn.init_priority) { DEBUGVERIFY(nxsched_set_priority(&ptcb->cmn, ptcb->cmn.init_priority)); } /* Pass control to the thread entry point. In the kernel build this has to * be handled differently if we are starting a user-space pthread; we have * to switch to user-mode before calling into the pthread. */ DEBUGASSERT(ptcb->trampoline != NULL && ptcb->cmn.entry.pthread != NULL); #ifdef CONFIG_BUILD_FLAT ptcb->trampoline(ptcb->cmn.entry.pthread, ptcb->arg); #else up_pthread_start(ptcb->trampoline, ptcb->cmn.entry.pthread, ptcb->arg); #endif /* The thread has returned (should never happen) */ DEBUGPANIC(); pthread_exit(NULL); } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: nx_pthread_create * * Description: * This function creates and activates a new thread with specified * attributes. * * Input Parameters: * trampoline - The user space startup function * thread - The pthread handle to be used * attr - It points to a pthread_attr_t structure whose contents are * used at thread creation time to determine attributes * for the new thread * entry - The new thread starts execution by invoking entry * arg - It is passed as the sole argument of entry * * Returned Value: * OK (0) on success; a (non-negated) errno value on failure. The errno * variable is not set. * ****************************************************************************/ int nx_pthread_create(pthread_trampoline_t trampoline, FAR pthread_t *thread, FAR const pthread_attr_t *attr, pthread_startroutine_t entry, pthread_addr_t arg) { pthread_attr_t default_attr = g_default_pthread_attr; FAR struct pthread_tcb_s *ptcb; struct sched_param param; FAR struct tcb_s *parent; int policy; int errcode; int ret; DEBUGASSERT(trampoline != NULL); parent = this_task(); DEBUGASSERT(parent != NULL); /* If attributes were not supplied, use the default attributes */ if (!attr) { /* Inherit parent priority by default. except idle */ if (!is_idle_task(parent)) { default_attr.priority = parent->sched_priority; } attr = &default_attr; } /* Allocate a TCB for the new task. */ ptcb = kmm_zalloc(sizeof(struct pthread_tcb_s)); if (!ptcb) { serr("ERROR: Failed to allocate TCB\n"); return ENOMEM; } ptcb->cmn.flags |= TCB_FLAG_FREE_TCB; /* Initialize the task join */ nxtask_joininit(&ptcb->cmn); /* Bind the parent's group to the new TCB (we have not yet joined the * group). */ group_bind(ptcb); #ifdef CONFIG_ARCH_ADDRENV /* Share the address environment of the parent task group. */ ret = addrenv_join(this_task(), (FAR struct tcb_s *)ptcb); if (ret < 0) { errcode = -ret; goto errout_with_tcb; } #endif if (attr->detachstate == PTHREAD_CREATE_DETACHED) { ptcb->cmn.flags |= TCB_FLAG_DETACHED; } if (attr->stackaddr) { /* Use pre-allocated stack */ ret = up_use_stack((FAR struct tcb_s *)ptcb, attr->stackaddr, attr->stacksize); } else { /* Allocate the stack for the TCB */ ret = up_create_stack((FAR struct tcb_s *)ptcb, attr->stacksize, TCB_FLAG_TTYPE_PTHREAD); } if (ret != OK) { errcode = ENOMEM; goto errout_with_tcb; } #if defined(CONFIG_ARCH_ADDRENV) && \ defined(CONFIG_BUILD_KERNEL) && defined(CONFIG_ARCH_KERNEL_STACK) /* Allocate the kernel stack */ ret = up_addrenv_kstackalloc(&ptcb->cmn); if (ret < 0) { errcode = ENOMEM; goto errout_with_tcb; } #endif /* Initialize thread local storage */ ret = tls_init_info(&ptcb->cmn); if (ret != OK) { errcode = -ret; goto errout_with_tcb; } /* Should we use the priority and scheduler specified in the pthread * attributes? Or should we use the current thread's priority and * scheduler? */ if (attr->inheritsched == PTHREAD_INHERIT_SCHED) { /* Get the priority (and any other scheduling parameters) for this * thread. */ ret = nxsched_get_param(0, ¶m); if (ret < 0) { errcode = -ret; goto errout_with_tcb; } /* Get the scheduler policy for this thread */ policy = nxsched_get_scheduler(0); if (policy < 0) { errcode = -policy; goto errout_with_tcb; } } else { /* Use the scheduler policy and policy the attributes */ policy = attr->policy; param.sched_priority = attr->priority; #ifdef CONFIG_SCHED_SPORADIC param.sched_ss_low_priority = attr->low_priority; param.sched_ss_max_repl = attr->max_repl; param.sched_ss_repl_period.tv_sec = attr->repl_period.tv_sec; param.sched_ss_repl_period.tv_nsec = attr->repl_period.tv_nsec; param.sched_ss_init_budget.tv_sec = attr->budget.tv_sec; param.sched_ss_init_budget.tv_nsec = attr->budget.tv_nsec; #endif } #ifdef CONFIG_SCHED_SPORADIC if (policy == SCHED_SPORADIC) { FAR struct sporadic_s *sporadic; sclock_t repl_ticks; sclock_t budget_ticks; /* Convert timespec values to system clock ticks */ repl_ticks = clock_time2ticks(¶m.sched_ss_repl_period); budget_ticks = clock_time2ticks(¶m.sched_ss_init_budget); /* The replenishment period must be greater than or equal to the * budget period. */ if (repl_ticks < budget_ticks) { errcode = EINVAL; goto errout_with_tcb; } /* Initialize the sporadic policy */ ret = nxsched_initialize_sporadic(&ptcb->cmn); if (ret >= 0) { sporadic = ptcb->cmn.sporadic; DEBUGASSERT(sporadic != NULL); /* Save the sporadic scheduling parameters */ sporadic->hi_priority = param.sched_priority; sporadic->low_priority = param.sched_ss_low_priority; sporadic->max_repl = param.sched_ss_max_repl; sporadic->repl_period = repl_ticks; sporadic->budget = budget_ticks; /* And start the first replenishment interval */ ret = nxsched_start_sporadic(&ptcb->cmn); } /* Handle any failures */ if (ret < 0) { errcode = -ret; goto errout_with_tcb; } } #endif /* Initialize the task control block */ ret = pthread_setup_scheduler(ptcb, param.sched_priority, pthread_start, entry); if (ret != OK) { errcode = EBUSY; goto errout_with_tcb; } #ifdef CONFIG_SMP /* pthread_setup_scheduler() will set the affinity mask by inheriting the * setting from the parent task. We need to override this setting * with the value from the pthread attributes unless that value is * zero: Zero is the default value and simply means to inherit the * parent thread's affinity mask. */ if (attr->affinity != 0) { ptcb->cmn.affinity = attr->affinity; } #endif /* Configure the TCB for a pthread receiving on parameter * passed by value */ pthread_tcb_setup(ptcb, parent, trampoline, arg); /* Join the parent's task group */ group_join(ptcb); /* Set the appropriate scheduling policy in the TCB */ ptcb->cmn.flags &= ~TCB_FLAG_POLICY_MASK; switch (policy) { default: case SCHED_FIFO: ptcb->cmn.flags |= TCB_FLAG_SCHED_FIFO; break; #if CONFIG_RR_INTERVAL > 0 case SCHED_OTHER: case SCHED_RR: ptcb->cmn.flags |= TCB_FLAG_SCHED_RR; ptcb->cmn.timeslice = MSEC2TICK(CONFIG_RR_INTERVAL); break; #endif #ifdef CONFIG_SCHED_SPORADIC case SCHED_SPORADIC: ptcb->cmn.flags |= TCB_FLAG_SCHED_SPORADIC; break; #endif } /* Then activate the task */ sched_lock(); nxtask_activate((FAR struct tcb_s *)ptcb); /* Return the thread information to the caller */ if (thread != NULL) { *thread = (pthread_t)ptcb->cmn.pid; } sched_unlock(); return OK; errout_with_tcb: /* Since we do not join the group, assign group to NULL to clear binding */ ptcb->cmn.group = NULL; nxsched_release_tcb((FAR struct tcb_s *)ptcb, TCB_FLAG_TTYPE_PTHREAD); return errcode; }