nuttx/sched/pthread/pthread_create.c

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/****************************************************************************
* sched/pthread/pthread_create.c
*
* 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 <nuttx/config.h>
#include <sys/types.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include <pthread.h>
#include <sched.h>
#include <debug.h>
#include <assert.h>
#include <errno.h>
#include <queue.h>
#include <nuttx/sched.h>
#include <nuttx/arch.h>
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#include <nuttx/semaphore.h>
#include <nuttx/kmalloc.h>
#include <nuttx/pthread.h>
#include "sched/sched.h"
#include "group/group.h"
#include "clock/clock.h"
#include "pthread/pthread.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_argsetup
*
* Description:
* This functions sets up parameters in the Task Control Block (TCB) in
* preparation for starting a new thread.
*
* pthread_argsetup() 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
* arg - The argument to provide to the pthread on startup.
*
* Returned Value:
* None
*
****************************************************************************/
static inline void pthread_argsetup(FAR struct pthread_tcb_s *tcb,
pthread_addr_t arg)
{
#if CONFIG_TASK_NAME_SIZE > 0
/* Copy the pthread name into the TCB */
snprintf(tcb->cmn.name, CONFIG_TASK_NAME_SIZE,
"pt-%p", tcb->cmn.entry.pthread);
#endif /* CONFIG_TASK_NAME_SIZE */
/* For pthreads, args are strictly pass-by-value; that actual
* type wrapped by pthread_addr_t is unknown.
*/
tcb->arg = arg;
}
/****************************************************************************
* Name: pthread_addjoininfo
*
* Description:
* Add a join structure to the local data set.
*
* Input Parameters:
* pjoin
*
* Returned Value:
* None
*
* Assumptions:
* The caller has provided protection from re-entrancy.
*
****************************************************************************/
static inline void pthread_addjoininfo(FAR struct task_group_s *group,
FAR struct join_s *pjoin)
{
pjoin->next = NULL;
if (!group->tg_jointail)
{
group->tg_joinhead = pjoin;
}
else
{
group->tg_jointail->next = pjoin;
}
group->tg_jointail = pjoin;
}
/****************************************************************************
* 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();
FAR struct task_group_s *group = ptcb->cmn.group;
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FAR struct join_s *pjoin = (FAR struct join_s *)ptcb->joininfo;
pthread_addr_t exit_status;
DEBUGASSERT(group && pjoin);
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/* Successfully spawned, add the pjoin to our data set. */
pthread_sem_take(&group->tg_joinsem, NULL, false);
pthread_addjoininfo(group, pjoin);
pthread_sem_give(&group->tg_joinsem);
/* Report to the spawner that we successfully started. */
pjoin->started = true;
pthread_sem_give(&pjoin->data_sem);
/* 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.
*/
#ifdef CONFIG_BUILD_FLAT
exit_status = (*ptcb->cmn.entry.pthread)(ptcb->arg);
#else
up_pthread_start(ptcb->cmn.entry.pthread, ptcb->arg);
exit_status = NULL;
#endif
/* The thread has returned (should never happen in the kernel mode case) */
pthread_exit(exit_status);
}
/****************************************************************************
* Public Functions
****************************************************************************/
/****************************************************************************
* Name: pthread_create
*
* Description:
* This function creates and activates a new thread with a specified
* attributes.
*
* Input Parameters:
* thread
* attr
* start_routine
* arg
*
* Returned Value:
* OK (0) on success; a (non-negated) errno value on failure. The errno
* variable is not set.
*
****************************************************************************/
int pthread_create(FAR pthread_t *thread, FAR const pthread_attr_t *attr,
pthread_startroutine_t start_routine, pthread_addr_t arg)
{
FAR struct pthread_tcb_s *ptcb;
FAR struct join_s *pjoin;
struct sched_param param;
int policy;
int errcode;
pid_t pid;
int ret;
bool group_joined = false;
/* If attributes were not supplied, use the default attributes */
if (!attr)
{
attr = &g_default_pthread_attr;
}
/* Allocate a TCB for the new task. */
ptcb = (FAR struct pthread_tcb_s *)
kmm_zalloc(sizeof(struct pthread_tcb_s));
if (!ptcb)
{
serr("ERROR: Failed to allocate TCB\n");
return ENOMEM;
}
/* Bind the parent's group to the new TCB (we have not yet joined the
* group).
*/
ret = group_bind(ptcb);
if (ret < 0)
{
errcode = ENOMEM;
goto errout_with_tcb;
}
#ifdef CONFIG_ARCH_ADDRENV
/* Share the address environment of the parent task group. */
ret = up_addrenv_attach(ptcb->cmn.group, this_task());
if (ret < 0)
{
errcode = -ret;
goto errout_with_tcb;
}
#endif
/* Allocate a detachable structure to support pthread_join logic */
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pjoin = (FAR struct join_s *)kmm_zalloc(sizeof(struct join_s));
if (!pjoin)
{
serr("ERROR: Failed to allocate join\n");
errcode = ENOMEM;
goto errout_with_tcb;
}
if (attr->detachstate == PTHREAD_CREATE_DETACHED)
{
pjoin->detached = true;
}
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_join;
}
#ifndef CONFIG_BUILD_KERNEL
/* Save the allocated task data in TLS */
tls_set_taskdata(&ptcb->cmn);
#endif
/* 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, &param);
if (ret < 0)
{
errcode = -ret;
goto errout_with_join;
}
/* Get the scheduler policy for this thread */
policy = nxsched_get_scheduler(0);
if (policy < 0)
{
errcode = -policy;
goto errout_with_join;
}
}
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 */
clock_time2ticks(&param.sched_ss_repl_period, &repl_ticks);
clock_time2ticks(&param.sched_ss_init_budget, &budget_ticks);
/* The replenishment period must be greater than or equal to the
* budget period.
*/
if (repl_ticks < budget_ticks)
{
errcode = EINVAL;
goto errout_with_join;
}
/* 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_join;
}
}
#endif
/* Initialize the task control block */
ret = pthread_setup_scheduler(ptcb, param.sched_priority, pthread_start,
start_routine);
if (ret != OK)
{
errcode = EBUSY;
goto errout_with_join;
}
#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.
*/
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if (attr->affinity != 0)
{
ptcb->cmn.affinity = attr->affinity;
}
#endif
/* Configure the TCB for a pthread receiving on parameter
* passed by value
*/
pthread_argsetup(ptcb, arg);
/* Join the parent's task group */
ret = group_join(ptcb);
if (ret < 0)
{
errcode = ENOMEM;
goto errout_with_join;
}
group_joined = true;
/* Attach the join info to the TCB. */
ptcb->joininfo = (FAR void *)pjoin;
/* Set the appropriate scheduling policy in the TCB */
ptcb->cmn.flags &= ~TCB_FLAG_POLICY_MASK;
switch (policy)
{
default:
DEBUGPANIC();
case SCHED_FIFO:
ptcb->cmn.flags |= TCB_FLAG_SCHED_FIFO;
break;
#if CONFIG_RR_INTERVAL > 0
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
#if 0 /* Not supported */
case SCHED_OTHER:
ptcb->cmn.flags |= TCB_FLAG_SCHED_OTHER;
break;
#endif
}
#ifdef CONFIG_CANCELLATION_POINTS
/* Set the deferred cancellation type */
ptcb->cmn.flags |= TCB_FLAG_CANCEL_DEFERRED;
#endif
/* Get the assigned pid before we start the task (who knows what
* could happen to ptcb after this!). Copy this ID into the join structure
* as well.
*/
pid = (int)ptcb->cmn.pid;
pjoin->thread = (pthread_t)pid;
/* Initialize the semaphores in the join structure to zero. */
ret = nxsem_init(&pjoin->data_sem, 0, 0);
if (ret == OK)
{
ret = nxsem_init(&pjoin->exit_sem, 0, 0);
}
if (ret < 0)
{
ret = -ret;
}
/* Thse semaphores are used for signaling and, hence, should not have
* priority inheritance enabled.
*/
if (ret == OK)
{
ret = nxsem_set_protocol(&pjoin->data_sem, SEM_PRIO_NONE);
if (ret == OK)
{
ret = nxsem_set_protocol(&pjoin->exit_sem, SEM_PRIO_NONE);
}
if (ret < 0)
{
ret = -ret;
}
}
/* If the priority of the new pthread is lower than the priority of the
* parent thread, then starting the pthread could result in both the
* parent and the pthread to be blocked. This is a recipe for priority
* inversion issues.
*
* We avoid this here by boosting the priority of the (inactive) pthread
* so it has the same priority as the parent thread.
*/
if (ret == OK)
{
FAR struct tcb_s *parent = this_task();
DEBUGASSERT(parent != NULL);
if (ptcb->cmn.sched_priority < parent->sched_priority)
{
ret = nxsched_set_priority(&ptcb->cmn, parent->sched_priority);
if (ret < 0)
{
ret = -ret;
}
}
}
/* Then activate the task */
sched_lock();
if (ret == OK)
{
nxtask_activate((FAR struct tcb_s *)ptcb);
/* Wait for the task to actually get running and to register
* its join structure.
*/
pthread_sem_take(&pjoin->data_sem, NULL, false);
/* Return the thread information to the caller */
if (thread)
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{
*thread = (pthread_t)pid;
}
if (!pjoin->started)
{
ret = EINVAL;
}
sched_unlock();
nxsem_destroy(&pjoin->data_sem);
}
else
{
sched_unlock();
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dq_rem((FAR dq_entry_t *)ptcb, (FAR dq_queue_t *)&g_inactivetasks);
nxsem_destroy(&pjoin->data_sem);
nxsem_destroy(&pjoin->exit_sem);
errcode = EIO;
goto errout_with_join;
}
return ret;
errout_with_join:
kmm_free(pjoin);
ptcb->joininfo = NULL;
errout_with_tcb:
/* Clear group binding */
if (ptcb && !group_joined)
{
ptcb->cmn.group = NULL;
}
nxsched_release_tcb((FAR struct tcb_s *)ptcb, TCB_FLAG_TTYPE_PTHREAD);
return errcode;
}