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/*
* Copyright (C) 2019 Intel Corporation. All rights reserved.
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#include "platform_api_vmcore.h"
#include "platform_api_extension.h"
/* clang-format off */
#define bh_assert(v) do { \
if (!(v)) { \
printf("\nASSERTION FAILED: %s, at %s, line %d\n", \
#v, __FILE__, __LINE__); \
aos_reboot(); \
while (1); \
} \
} while (0)
/* clang-format on */
struct os_thread_data;
typedef struct os_thread_wait_node {
aos_sem_t sem;
os_thread_wait_list next;
} os_thread_wait_node;
typedef struct os_thread_data {
/* Thread body */
aos_task_t thread;
/* Thread start routine */
thread_start_routine_t start_routine;
/* Thread start routine argument */
void *arg;
/* Thread local root */
void *tlr;
/* Wait node of current thread */
os_thread_wait_node wait_node;
/* Lock for waiting list */
aos_mutex_t wait_list_lock;
/* Waiting list of other threads who are joining this thread */
os_thread_wait_list thread_wait_list;
} os_thread_data;
static bool is_thread_sys_inited = false;
/* Thread data of supervisor thread */
static os_thread_data supervisor_thread_data;
/* Thread data key */
static aos_task_key_t thread_data_key;
/* Thread name index */
static int thread_name_index;
int
os_thread_sys_init()
{
if (is_thread_sys_inited)
return BHT_OK;
if (aos_task_key_create(&thread_data_key) != 0)
return BHT_ERROR;
/* Initialize supervisor thread data */
memset(&supervisor_thread_data, 0, sizeof(supervisor_thread_data));
if (aos_sem_new(&supervisor_thread_data.wait_node.sem, 1) != 0) {
aos_task_key_delete(thread_data_key);
return BHT_ERROR;
}
if (aos_task_setspecific(thread_data_key, &supervisor_thread_data)) {
aos_sem_free(&supervisor_thread_data.wait_node.sem);
aos_task_key_delete(thread_data_key);
return BHT_ERROR;
}
is_thread_sys_inited = true;
return BHT_OK;
}
void
os_thread_sys_destroy()
{
if (is_thread_sys_inited) {
aos_task_key_delete(thread_data_key);
aos_sem_free(&supervisor_thread_data.wait_node.sem);
is_thread_sys_inited = false;
}
}
static os_thread_data *
thread_data_current()
{
return aos_task_getspecific(thread_data_key);
}
static void
os_thread_cleanup(void)
{
os_thread_data *thread_data = thread_data_current();
os_thread_wait_list thread_wait_list;
aos_mutex_t *wait_list_lock;
aos_sem_t *wait_node_sem;
bh_assert(thread_data != NULL);
wait_list_lock = &thread_data->wait_list_lock;
thread_wait_list = thread_data->thread_wait_list;
wait_node_sem = &thread_data->wait_node.sem;
/* Free thread data firstly */
BH_FREE(thread_data);
aos_mutex_lock(wait_list_lock, AOS_WAIT_FOREVER);
if (thread_wait_list) {
/* Signal each joining thread */
os_thread_wait_list head = thread_wait_list;
while (head) {
os_thread_wait_list next = head->next;
aos_sem_signal(&head->sem);
head = next;
}
}
aos_mutex_unlock(wait_list_lock);
/* Free sem and lock */
aos_sem_free(wait_node_sem);
aos_mutex_free(wait_list_lock);
}
static void
os_thread_wrapper(void *arg)
{
os_thread_data *thread_data = arg;
/* Set thread custom data */
if (!aos_task_setspecific(thread_data_key, thread_data))
thread_data->start_routine(thread_data->arg);
os_thread_cleanup();
}
int
os_thread_create(korp_tid *p_tid, thread_start_routine_t start, void *arg,
unsigned int stack_size)
{
return os_thread_create_with_prio(p_tid, start, arg, stack_size,
BH_THREAD_DEFAULT_PRIORITY);
}
int
os_thread_create_with_prio(korp_tid *p_tid, thread_start_routine_t start,
void *arg, unsigned int stack_size, int prio)
{
os_thread_data *thread_data;
char thread_name[32];
if (!p_tid || !stack_size)
return BHT_ERROR;
/* Create and initialize thread data */
if (!(thread_data = BH_MALLOC(sizeof(os_thread_data))))
return BHT_ERROR;
memset(thread_data, 0, sizeof(os_thread_data));
thread_data->start_routine = start;
thread_data->arg = arg;
if (aos_sem_new(&thread_data->wait_node.sem, 1) != 0)
goto fail1;
if (aos_mutex_new(&thread_data->wait_list_lock))
goto fail2;
snprintf(thread_name, sizeof(thread_name), "%s%d", "wasm-thread-",
++thread_name_index);
/* Create the thread */
if (aos_task_new_ext((aos_task_t *)thread_data, thread_name,
os_thread_wrapper, thread_data, stack_size, prio))
goto fail3;
aos_msleep(10);
*p_tid = (korp_tid)thread_data;
return BHT_OK;
fail3:
aos_mutex_free(&thread_data->wait_list_lock);
fail2:
aos_sem_free(&thread_data->wait_node.sem);
fail1:
BH_FREE(thread_data);
return BHT_ERROR;
}
korp_tid
os_self_thread()
{
return (korp_tid)aos_task_getspecific(thread_data_key);
}
int
os_thread_join(korp_tid thread, void **value_ptr)
{
(void)value_ptr;
os_thread_data *thread_data, *curr_thread_data;
/* Get thread data of current thread */
curr_thread_data = thread_data_current();
curr_thread_data->wait_node.next = NULL;
/* Get thread data */
thread_data = (os_thread_data *)thread;
aos_mutex_lock(&thread_data->wait_list_lock, AOS_WAIT_FOREVER);
if (!thread_data->thread_wait_list)
thread_data->thread_wait_list = &curr_thread_data->wait_node;
else {
/* Add to end of waiting list */
os_thread_wait_node *p = thread_data->thread_wait_list;
while (p->next)
p = p->next;
p->next = &curr_thread_data->wait_node;
}
aos_mutex_unlock(&thread_data->wait_list_lock);
/* Wait the sem */
aos_sem_wait(&curr_thread_data->wait_node.sem, AOS_WAIT_FOREVER);
return BHT_OK;
}
int
os_mutex_init(korp_mutex *mutex)
{
return aos_mutex_new(mutex) == 0 ? BHT_OK : BHT_ERROR;
}
int
os_mutex_destroy(korp_mutex *mutex)
{
aos_mutex_free(mutex);
return BHT_OK;
}
int
os_mutex_lock(korp_mutex *mutex)
{
return aos_mutex_lock(mutex, AOS_WAIT_FOREVER);
}
int
os_mutex_unlock(korp_mutex *mutex)
{
return aos_mutex_unlock(mutex);
}
int
os_cond_init(korp_cond *cond)
{
if (aos_mutex_new(&cond->wait_list_lock) != 0)
return BHT_ERROR;
cond->thread_wait_list = NULL;
return BHT_OK;
}
int
os_cond_destroy(korp_cond *cond)
{
aos_mutex_free(&cond->wait_list_lock);
return BHT_OK;
}
static int
os_cond_wait_internal(korp_cond *cond, korp_mutex *mutex, bool timed,
uint32 mills)
{
os_thread_wait_node *node = &thread_data_current()->wait_node;
node->next = NULL;
aos_mutex_lock(&cond->wait_list_lock, AOS_WAIT_FOREVER);
if (!cond->thread_wait_list)
cond->thread_wait_list = node;
else {
/* Add to end of wait list */
os_thread_wait_node *p = cond->thread_wait_list;
while (p->next)
p = p->next;
p->next = node;
}
aos_mutex_unlock(&cond->wait_list_lock);
/* Unlock mutex, wait sem and lock mutex again */
aos_mutex_unlock(mutex);
aos_sem_wait(&node->sem, timed ? mills : AOS_WAIT_FOREVER);
aos_mutex_lock(mutex, AOS_WAIT_FOREVER);
/* Remove wait node from wait list */
aos_mutex_lock(&cond->wait_list_lock, AOS_WAIT_FOREVER);
if (cond->thread_wait_list == node)
cond->thread_wait_list = node->next;
else {
/* Remove from the wait list */
os_thread_wait_node *p = cond->thread_wait_list;
while (p->next != node)
p = p->next;
p->next = node->next;
}
aos_mutex_unlock(&cond->wait_list_lock);
return BHT_OK;
}
int
os_cond_wait(korp_cond *cond, korp_mutex *mutex)
{
return os_cond_wait_internal(cond, mutex, false, 0);
}
int
os_cond_reltimedwait(korp_cond *cond, korp_mutex *mutex, uint64 useconds)
{
if (useconds == BHT_WAIT_FOREVER) {
return os_cond_wait_internal(cond, mutex, false, 0);
}
else {
uint64 mills_64 = useconds / 1000;
uint32 mills;
if (mills_64 < (uint64)(UINT32_MAX - 1)) {
mills = (uint64)mills_64;
}
else {
mills = UINT32_MAX - 1;
os_printf("Warning: os_cond_reltimedwait exceeds limit, "
"set to max timeout instead\n");
}
return os_cond_wait_internal(cond, mutex, true, mills);
}
}
int
os_cond_signal(korp_cond *cond)
{
/* Signal the head wait node of wait list */
aos_mutex_lock(&cond->wait_list_lock, AOS_WAIT_FOREVER);
if (cond->thread_wait_list)
aos_sem_signal(&cond->thread_wait_list->sem);
aos_mutex_unlock(&cond->wait_list_lock);
return BHT_OK;
}
uint8 *
os_thread_get_stack_boundary()
{
/* TODO: get alios stack boundary */
return NULL;
}
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