msg.c
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/*
* Copyright (C) 2014 Freie Universität Berlin
*
* 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 core_msg
* @{
*
* @file
* @brief Kernel messaging implementation
*
* @author Kaspar Schleiser <kaspar@schleiser.de>
* @author Oliver Hahm <oliver.hahm@inria.fr>
* @author Kévin Roussel <Kevin.Roussel@inria.fr>
*
* @}
*/
#include <stddef.h>
#include <inttypes.h>
#include <assert.h>
#include "sched.h"
#include "msg.h"
#include "list.h"
#include "thread.h"
#include "irq.h"
#include "cib.h"
#define ENABLE_DEBUG (0)
#include "debug.h"
#include "thread.h"
#ifdef MODULE_CORE_MSG
static int _msg_receive(msg_t *m, int block);
static int _msg_send(msg_t *m, kernel_pid_t target_pid, bool block, unsigned state);
static int queue_msg(thread_t *target, const msg_t *m)
{
int n = cib_put(&(target->msg_queue));
if (n < 0) {
DEBUG("queue_msg(): message queue is full (or there is none)\n");
return 0;
}
DEBUG("queue_msg(): queuing message\n");
msg_t *dest = &target->msg_array[n];
*dest = *m;
return 1;
}
int msg_send(msg_t *m, kernel_pid_t target_pid)
{
if (irq_is_in()) {
return msg_send_int(m, target_pid);
}
if (sched_active_pid == target_pid) {
return msg_send_to_self(m);
}
return _msg_send(m, target_pid, true, irq_disable());
}
int msg_try_send(msg_t *m, kernel_pid_t target_pid)
{
if (irq_is_in()) {
return msg_send_int(m, target_pid);
}
if (sched_active_pid == target_pid) {
return msg_send_to_self(m);
}
return _msg_send(m, target_pid, false, irq_disable());
}
static int _msg_send(msg_t *m, kernel_pid_t target_pid, bool block, unsigned state)
{
#ifdef DEVELHELP
if (!pid_is_valid(target_pid)) {
DEBUG("msg_send(): target_pid is invalid, continuing anyways\n");
}
#endif /* DEVELHELP */
thread_t *target = (thread_t*) sched_threads[target_pid];
m->sender_pid = sched_active_pid;
if (target == NULL) {
DEBUG("msg_send(): target thread does not exist\n");
irq_restore(state);
return -1;
}
thread_t *me = (thread_t *) sched_active_thread;
DEBUG("msg_send() %s:%i: Sending from %" PRIkernel_pid " to %" PRIkernel_pid
". block=%i src->state=%i target->state=%i\n", RIOT_FILE_RELATIVE,
__LINE__, sched_active_pid, target_pid,
block, me->status, target->status);
if (target->status != STATUS_RECEIVE_BLOCKED) {
DEBUG("msg_send() %s:%i: Target %" PRIkernel_pid " is not RECEIVE_BLOCKED.\n",
RIOT_FILE_RELATIVE, __LINE__, target_pid);
if (queue_msg(target, m)) {
DEBUG("msg_send() %s:%i: Target %" PRIkernel_pid
" has a msg_queue. Queueing message.\n", RIOT_FILE_RELATIVE,
__LINE__, target_pid);
irq_restore(state);
if (me->status == STATUS_REPLY_BLOCKED) {
thread_yield_higher();
}
return 1;
}
if (!block) {
DEBUG("msg_send: %" PRIkernel_pid ": Receiver not waiting, block=%u\n",
me->pid, block);
irq_restore(state);
return 0;
}
DEBUG("msg_send: %" PRIkernel_pid ": going send blocked.\n",
me->pid);
me->wait_data = (void*) m;
int newstatus;
if (me->status == STATUS_REPLY_BLOCKED) {
newstatus = STATUS_REPLY_BLOCKED;
}
else {
newstatus = STATUS_SEND_BLOCKED;
}
sched_set_status((thread_t*) me, newstatus);
thread_add_to_list(&(target->msg_waiters), me);
irq_restore(state);
thread_yield_higher();
DEBUG("msg_send: %" PRIkernel_pid ": Back from send block.\n",
me->pid);
}
else {
DEBUG("msg_send: %" PRIkernel_pid ": Direct msg copy from %"
PRIkernel_pid " to %" PRIkernel_pid ".\n",
me->pid, thread_getpid(), target_pid);
/* copy msg to target */
msg_t *target_message = (msg_t*) target->wait_data;
*target_message = *m;
sched_set_status(target, STATUS_PENDING);
irq_restore(state);
thread_yield_higher();
}
return 1;
}
int msg_send_to_self(msg_t *m)
{
unsigned state = irq_disable();
m->sender_pid = sched_active_pid;
int res = queue_msg((thread_t *) sched_active_thread, m);
irq_restore(state);
return res;
}
int msg_send_int(msg_t *m, kernel_pid_t target_pid)
{
#ifdef DEVELHELP
if (!pid_is_valid(target_pid)) {
DEBUG("msg_send(): target_pid is invalid, continuing anyways\n");
}
#endif /* DEVELHELP */
thread_t *target = (thread_t *) sched_threads[target_pid];
if (target == NULL) {
DEBUG("msg_send_int(): target thread does not exist\n");
return -1;
}
m->sender_pid = KERNEL_PID_ISR;
if (target->status == STATUS_RECEIVE_BLOCKED) {
DEBUG("msg_send_int: Direct msg copy from %" PRIkernel_pid " to %"
PRIkernel_pid ".\n", thread_getpid(), target_pid);
/* copy msg to target */
msg_t *target_message = (msg_t*) target->wait_data;
*target_message = *m;
sched_set_status(target, STATUS_PENDING);
sched_context_switch_request = 1;
return 1;
}
else {
DEBUG("msg_send_int: Receiver not waiting.\n");
return (queue_msg(target, m));
}
}
int msg_send_receive(msg_t *m, msg_t *reply, kernel_pid_t target_pid)
{
assert(sched_active_pid != target_pid);
unsigned state = irq_disable();
thread_t *me = (thread_t*) sched_threads[sched_active_pid];
sched_set_status(me, STATUS_REPLY_BLOCKED);
me->wait_data = (void*) reply;
/* we re-use (abuse) reply for sending, because wait_data might be
* overwritten if the target is not in RECEIVE_BLOCKED */
*reply = *m;
/* msg_send blocks until reply received */
return _msg_send(reply, target_pid, true, state);
}
int msg_reply(msg_t *m, msg_t *reply)
{
unsigned state = irq_disable();
thread_t *target = (thread_t*) sched_threads[m->sender_pid];
assert(target != NULL);
if (target->status != STATUS_REPLY_BLOCKED) {
DEBUG("msg_reply(): %" PRIkernel_pid ": Target \"%" PRIkernel_pid
"\" not waiting for reply.", sched_active_thread->pid, target->pid);
irq_restore(state);
return -1;
}
DEBUG("msg_reply(): %" PRIkernel_pid ": Direct msg copy.\n",
sched_active_thread->pid);
/* copy msg to target */
msg_t *target_message = (msg_t*) target->wait_data;
*target_message = *reply;
sched_set_status(target, STATUS_PENDING);
uint16_t target_prio = target->priority;
irq_restore(state);
sched_switch(target_prio);
return 1;
}
int msg_reply_int(msg_t *m, msg_t *reply)
{
thread_t *target = (thread_t*) sched_threads[m->sender_pid];
if (target->status != STATUS_REPLY_BLOCKED) {
DEBUG("msg_reply_int(): %" PRIkernel_pid ": Target \"%" PRIkernel_pid
"\" not waiting for reply.", sched_active_thread->pid, target->pid);
return -1;
}
msg_t *target_message = (msg_t*) target->wait_data;
*target_message = *reply;
sched_set_status(target, STATUS_PENDING);
sched_context_switch_request = 1;
return 1;
}
int msg_try_receive(msg_t *m)
{
return _msg_receive(m, 0);
}
int msg_receive(msg_t *m)
{
return _msg_receive(m, 1);
}
static int _msg_receive(msg_t *m, int block)
{
unsigned state = irq_disable();
DEBUG("_msg_receive: %" PRIkernel_pid ": _msg_receive.\n",
sched_active_thread->pid);
thread_t *me = (thread_t*) sched_threads[sched_active_pid];
int queue_index = -1;
if (me->msg_array) {
queue_index = cib_get(&(me->msg_queue));
}
/* no message, fail */
if ((!block) && ((!me->msg_waiters.next) && (queue_index == -1))) {
irq_restore(state);
return -1;
}
if (queue_index >= 0) {
DEBUG("_msg_receive: %" PRIkernel_pid ": _msg_receive(): We've got a queued message.\n",
sched_active_thread->pid);
*m = me->msg_array[queue_index];
}
else {
me->wait_data = (void *) m;
}
list_node_t *next = list_remove_head(&me->msg_waiters);
if (next == NULL) {
DEBUG("_msg_receive: %" PRIkernel_pid ": _msg_receive(): No thread in waiting list.\n",
sched_active_thread->pid);
if (queue_index < 0) {
DEBUG("_msg_receive(): %" PRIkernel_pid ": No msg in queue. Going blocked.\n",
sched_active_thread->pid);
sched_set_status(me, STATUS_RECEIVE_BLOCKED);
irq_restore(state);
thread_yield_higher();
/* sender copied message */
}
else {
irq_restore(state);
}
return 1;
}
else {
DEBUG("_msg_receive: %" PRIkernel_pid ": _msg_receive(): Waking up waiting thread.\n",
sched_active_thread->pid);
thread_t *sender = container_of((clist_node_t*)next, thread_t, rq_entry);
if (queue_index >= 0) {
/* We've already got a message from the queue. As there is a
* waiter, take it's message into the just freed queue space.
*/
m = &(me->msg_array[cib_put(&(me->msg_queue))]);
}
/* copy msg */
msg_t *sender_msg = (msg_t*) sender->wait_data;
*m = *sender_msg;
/* remove sender from queue */
uint16_t sender_prio = THREAD_PRIORITY_IDLE;
if (sender->status != STATUS_REPLY_BLOCKED) {
sender->wait_data = NULL;
sched_set_status(sender, STATUS_PENDING);
sender_prio = sender->priority;
}
irq_restore(state);
if (sender_prio < THREAD_PRIORITY_IDLE) {
sched_switch(sender_prio);
}
return 1;
}
DEBUG("This should have never been reached!\n");
}
int msg_avail(void)
{
DEBUG("msg_available: %" PRIkernel_pid ": msg_available.\n",
sched_active_thread->pid);
thread_t *me = (thread_t*) sched_active_thread;
int queue_index = -1;
if (me->msg_array) {
queue_index = cib_avail(&(me->msg_queue));
}
return queue_index;
}
void msg_init_queue(msg_t *array, int num)
{
thread_t *me = (thread_t*) sched_active_thread;
me->msg_array = array;
cib_init(&(me->msg_queue), num);
}
void msg_queue_print(void)
{
unsigned state = irq_disable();
thread_t *thread =(thread_t *)sched_active_thread;
cib_t *msg_queue = &thread->msg_queue;
msg_t *msg_array = thread->msg_array;
unsigned int i = msg_queue->read_count & msg_queue->mask;
printf("Message queue of thread %" PRIkernel_pid "\n", thread->pid);
printf(" size: %u (avail: %d)\n", msg_queue->mask + 1,
cib_avail((cib_t *)msg_queue));
for (; i != (msg_queue->write_count & msg_queue->mask);
i = (i + 1) & msg_queue->mask) {
msg_t *m = &msg_array[i];
printf(" * %u: sender: %" PRIkernel_pid ", type: 0x%04" PRIu16
", content: %" PRIu32 " (%p)\n", i, m->sender_pid, m->type,
m->content.value, m->content.ptr);
}
irq_restore(state);
}
#endif /* MODULE_CORE_MSG */