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Modest/source/mycore/thread_queue.c
lexborisov 3228a2df9e Fixed problem with thread infiniti wait
2017-03-13 23:49:49 +03:00

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/*
Copyright (C) 2015-2017 Alexander Borisov
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Author: lex.borisov@gmail.com (Alexander Borisov)
*/
#include "mycore/thread_queue.h"
mythread_queue_t * mythread_queue_create(void)
{
return mycore_calloc(1, sizeof(mythread_queue_t));
}
mystatus_t mythread_queue_init(mythread_queue_t* queue, size_t size)
{
if(size < 32)
size = 32;
queue->nodes_pos_size = 512;
queue->nodes_size = size;
queue->nodes = (mythread_queue_node_t**)mycore_calloc(queue->nodes_pos_size, sizeof(mythread_queue_node_t*));
if(queue->nodes == NULL)
return MyCORE_STATUS_THREAD_ERROR_QUEUE_NODES_MALLOC;
queue->nodes[queue->nodes_pos] = (mythread_queue_node_t*)mycore_malloc(sizeof(mythread_queue_node_t) * queue->nodes_size);
if(queue->nodes[queue->nodes_pos] == NULL) {
queue->nodes = mycore_free(queue->nodes);
return MyCORE_STATUS_THREAD_ERROR_QUEUE_NODE_MALLOC;
}
return MyCORE_STATUS_OK;
}
void mythread_queue_clean(mythread_queue_t* queue)
{
queue->nodes_length = 0;
queue->nodes_pos = 0;
queue->nodes_root = 0;
queue->nodes_uses = 0;
}
mythread_queue_t * mythread_queue_destroy(mythread_queue_t* queue)
{
if(queue == NULL)
return NULL;
if(queue->nodes) {
/* '<=' it is normal */
for (size_t i = 0; i <= queue->nodes_pos; i++) {
mycore_free(queue->nodes[i]);
}
mycore_free(queue->nodes);
}
mycore_free(queue);
return NULL;
}
void mythread_queue_node_clean(mythread_queue_node_t* qnode)
{
memset(qnode, 0, sizeof(mythread_queue_node_t));
}
mythread_queue_node_t * mythread_queue_get_prev_node(mythread_queue_node_t* qnode)
{
return qnode->prev;
}
mythread_queue_node_t * mythread_queue_get_current_node(mythread_queue_t* queue)
{
return &queue->nodes[queue->nodes_pos][queue->nodes_length];
}
mythread_queue_node_t * mythread_queue_get_first_node(mythread_queue_t* queue)
{
return &queue->nodes[0][0];
}
size_t mythread_queue_count_used_node(mythread_queue_t* queue)
{
return queue->nodes_uses;
}
mythread_queue_node_t * mythread_queue_node_malloc(mythread_t *mythread, mythread_queue_t* queue, mystatus_t *status)
{
queue->nodes_length++;
if(queue->nodes_length >= queue->nodes_size)
{
queue->nodes_pos++;
if(queue->nodes_pos >= queue->nodes_pos_size)
{
#ifndef MyCORE_BUILD_WITHOUT_THREADS
if(mythread)
mythread_queue_list_wait_for_done(mythread, mythread->context);
#endif
size_t new_size = queue->nodes_pos_size + 512;
mythread_queue_node_t** tmp = mycore_realloc(queue->nodes, sizeof(mythread_queue_node_t*) * new_size);
if(tmp) {
memset(&tmp[queue->nodes_pos], 0, sizeof(mythread_queue_node_t*) * (new_size - queue->nodes_pos));
queue->nodes = tmp;
queue->nodes_pos_size = new_size;
}
else {
if(status)
*status = MyCORE_STATUS_THREAD_ERROR_QUEUE_NODES_MALLOC;
return NULL;
}
}
if(queue->nodes[queue->nodes_pos] == NULL) {
queue->nodes[queue->nodes_pos] = (mythread_queue_node_t*)mycore_malloc(sizeof(mythread_queue_node_t) * queue->nodes_size);
if(queue->nodes[queue->nodes_pos] == NULL) {
if(status)
*status = MyCORE_STATUS_THREAD_ERROR_QUEUE_NODE_MALLOC;
return NULL;
}
}
queue->nodes_length = 0;
}
queue->nodes_uses++;
return &queue->nodes[queue->nodes_pos][queue->nodes_length];
}
mythread_queue_node_t * mythread_queue_node_malloc_limit(mythread_t *mythread, mythread_queue_t* queue, size_t limit, mystatus_t *status)
{
queue->nodes_length++;
if(queue->nodes_uses >= limit) {
queue->nodes_uses++;
#ifndef MyCORE_BUILD_WITHOUT_THREADS
if(mythread)
mythread_queue_list_wait_for_done(mythread, mythread->context);
#endif
queue->nodes_length = 0;
queue->nodes_pos = 0;
queue->nodes_root = 0;
queue->nodes_uses = 0;
}
else if(queue->nodes_length >= queue->nodes_size)
{
queue->nodes_pos++;
if(queue->nodes_pos >= queue->nodes_pos_size)
{
#ifndef MyCORE_BUILD_WITHOUT_THREADS
if(mythread)
mythread_queue_list_wait_for_done(mythread, mythread->context);
#endif
size_t new_size = queue->nodes_pos_size + 512;
mythread_queue_node_t** tmp = mycore_realloc(queue->nodes, sizeof(mythread_queue_node_t*) * new_size);
if(tmp) {
memset(&tmp[queue->nodes_pos], 0, sizeof(mythread_queue_node_t*) * (new_size - queue->nodes_pos));
queue->nodes = tmp;
queue->nodes_pos_size = new_size;
}
else {
if(status)
*status = MyCORE_STATUS_THREAD_ERROR_QUEUE_NODES_MALLOC;
return NULL;
}
}
if(queue->nodes[queue->nodes_pos] == NULL) {
queue->nodes[queue->nodes_pos] = (mythread_queue_node_t*)mycore_malloc(sizeof(mythread_queue_node_t) * queue->nodes_size);
if(queue->nodes[queue->nodes_pos] == NULL) {
if(status)
*status = MyCORE_STATUS_THREAD_ERROR_QUEUE_NODE_MALLOC;
return NULL;
}
}
queue->nodes_length = 0;
}
queue->nodes_uses++;
return &queue->nodes[queue->nodes_pos][queue->nodes_length];
}
#ifndef MyCORE_BUILD_WITHOUT_THREADS
mythread_queue_node_t * mythread_queue_node_malloc_round(mythread_t *mythread, mythread_queue_list_entry_t *entry, mystatus_t *status)
{
mythread_queue_t* queue = entry->queue;
queue->nodes_length++;
if(queue->nodes_length >= queue->nodes_size) {
queue->nodes_uses++;
#ifndef MyCORE_BUILD_WITHOUT_THREADS
if(mythread)
mythread_queue_list_entry_wait_for_done(mythread, entry);
#endif
mythread_queue_list_entry_clean(entry);
}
else
queue->nodes_uses++;
return &queue->nodes[queue->nodes_pos][queue->nodes_length];
}
#endif
#ifndef MyCORE_BUILD_WITHOUT_THREADS
/*
* Queue List
*/
mythread_queue_list_t * mythread_queue_list_create(mystatus_t *status)
{
return (mythread_queue_list_t*)mycore_calloc(1, sizeof(mythread_queue_list_t));
}
void mythread_queue_list_destroy(mythread_queue_list_t* queue_list)
{
if(queue_list == NULL)
return;
mycore_free(queue_list);
}
size_t mythread_queue_list_get_count(mythread_queue_list_t* queue_list)
{
return queue_list->count;
}
void mythread_queue_list_wait_for_done(mythread_t* mythread, mythread_queue_list_t* queue_list)
{
if(queue_list == NULL)
return;
mythread_queue_list_entry_t *entry = queue_list->first;
while(entry)
{
for (size_t i = 0; i < mythread->entries_length; i++) {
while(entry->thread_param[i].use < entry->queue->nodes_uses)
mythread_nanosleep_sleep(mythread->timespec);
}
entry = entry->next;
}
}
bool mythread_queue_list_see_for_done(mythread_t* mythread, mythread_queue_list_t* queue_list)
{
if(queue_list == NULL)
return true;
mythread_queue_list_entry_t *entry = queue_list->first;
while(entry)
{
for (size_t i = 0; i < mythread->entries_length; i++) {
if(entry->thread_param[i].use < entry->queue->nodes_uses)
return false;
}
entry = entry->next;
}
return true;
}
bool mythread_queue_list_see_for_done_by_thread(mythread_t* mythread, mythread_queue_list_t* queue_list, mythread_id_t thread_id)
{
if(queue_list == NULL)
return true;
mythread_queue_list_entry_t *entry = queue_list->first;
while(entry)
{
if(entry->thread_param[thread_id].use < entry->queue->nodes_uses)
return false;
entry = entry->next;
}
return true;
}
/*
* Queue List Entry
*/
mythread_queue_list_entry_t * mythread_queue_list_entry_push(mythread_t** mythread_list, size_t list_size, mythread_queue_list_t* queue_list,
mythread_queue_t* queue, size_t thread_param_size, mystatus_t* status)
{
if(status)
*status = MyCORE_STATUS_OK;
/* create new entry */
mythread_queue_list_entry_t* entry = (mythread_queue_list_entry_t*)mycore_calloc(1, sizeof(mythread_queue_list_entry_t));
if(entry == NULL) {
if(status)
*status = MyCORE_STATUS_THREAD_ERROR_QUEUE_MALLOC;
return NULL;
}
/* create thread params */
entry->thread_param_size = thread_param_size;
if(thread_param_size) {
entry->thread_param = (mythread_queue_thread_param_t*)mycore_calloc(thread_param_size, sizeof(mythread_queue_thread_param_t));
if(entry->thread_param == NULL) {
mycore_free(entry);
if(status)
*status = MyCORE_STATUS_THREAD_ERROR_QUEUE_MALLOC;
return NULL;
}
}
else
entry->thread_param = NULL;
entry->queue = queue;
for(size_t i = 0; i < list_size; i++) {
if(mythread_list[i]->type == MyTHREAD_TYPE_BATCH) {
mythread_queue_list_entry_make_batch(mythread_list[i], entry, mythread_list[i]->id_increase, mythread_list[i]->entries_length);
}
if(mythread_list[i])
mythread_suspend(mythread_list[i]);
}
if(queue_list->first) {
queue_list->last->next = entry;
entry->prev = queue_list->last;
queue_list->last = entry;
}
else {
queue_list->first = entry;
queue_list->last = entry;
}
queue_list->count++;
for(size_t i = 0; i < list_size; i++)
if(mythread_list[i])
mythread_resume(mythread_list[i], MyTHREAD_OPT_UNDEF);
return entry;
}
mythread_queue_list_entry_t * mythread_queue_list_entry_delete(mythread_t** mythread_list, size_t list_size, mythread_queue_list_t *queue_list, mythread_queue_list_entry_t *entry, bool destroy_queue)
{
for(size_t i = 0; i < list_size; i++)
if(mythread_list[i])
mythread_suspend(mythread_list[i]);
mythread_queue_list_entry_t *next = entry->next;
mythread_queue_list_entry_t *prev = entry->prev;
if(prev)
prev->next = next;
if(next)
next->prev = prev;
if(queue_list->first == entry)
queue_list->first = next;
if(queue_list->last == entry)
queue_list->last = prev;
queue_list->count--;
for(size_t i = 0; i < list_size; i++)
if(mythread_list[i])
mythread_resume(mythread_list[i], MyTHREAD_OPT_UNDEF);
if(destroy_queue && entry->queue)
mythread_queue_destroy(entry->queue);
if(entry->thread_param)
mycore_free(entry->thread_param);
mycore_free(entry);
return NULL;
}
void mythread_queue_list_entry_clean(mythread_queue_list_entry_t *entry)
{
if(entry == NULL)
return;
mythread_queue_clean(entry->queue);
for (size_t i = 0; i < entry->thread_param_size; i++) {
memset(&entry->thread_param[i], 0, sizeof(mythread_queue_thread_param_t));
}
}
void mythread_queue_list_entry_wait_for_done(mythread_t* mythread, mythread_queue_list_entry_t *entry)
{
if(entry == NULL)
return;
for(size_t i = 0; i < entry->thread_param_size; i++) {
while(entry->thread_param[i].use < entry->queue->nodes_uses)
mythread_nanosleep_sleep(mythread->timespec);
}
}
bool mythread_queue_list_entry_see_for_done(mythread_queue_list_entry_t *entry)
{
if(entry == NULL)
return true;
for(size_t i = 0; i < entry->thread_param_size; i++) {
if(entry->thread_param[i].use < entry->queue->nodes_uses)
return false;
}
return true;
}
void mythread_queue_list_entry_make_batch(mythread_t* mythread, mythread_queue_list_entry_t* entry, size_t from, size_t count)
{
size_t i = 0;
while(from <= count) {
entry->thread_param[from].use = i;
i++; from++;
}
}
/*
* Thread Process Functions
*/
bool mythread_function_see_opt(mythread_context_t *ctx, volatile mythread_thread_opt_t opt, mythread_id_t thread_id, size_t done_count, void* timeout)
{
mythread_t *mythread = ctx->mythread;
mythread_queue_list_t *queue_list = (mythread_queue_list_t*)mythread->context;
if(done_count != queue_list->count)
return false;
if(opt & MyTHREAD_OPT_STOP)
{
if(mythread_queue_list_see_for_done_by_thread(mythread, queue_list, thread_id))
{
ctx->opt = MyTHREAD_OPT_STOP;
mythread_mutex_wait(mythread, ctx->mutex);
ctx->opt = MyTHREAD_OPT_UNDEF;
return false;
}
}
else if(opt & MyTHREAD_OPT_QUIT)
{
if(mythread_queue_list_see_for_done_by_thread(mythread, queue_list, thread_id))
{
mythread_mutex_close(mythread, ctx->mutex);
mythread_nanosleep_destroy(ctx->timespec);
ctx->opt = MyTHREAD_OPT_QUIT;
return true;
}
}
mythread_nanosleep_sleep(timeout);
return false;
}
void * mythread_function_queue_batch(void *arg)
{
mythread_context_t *ctx = (mythread_context_t*)arg;
mythread_t *mythread = ctx->mythread;
mythread_queue_list_t *queue_list = (mythread_queue_list_t*)mythread->context;
mythread_id_t thread_id = myhread_increase_id_by_entry_id(mythread, ctx->id);
mythread_mutex_wait(mythread, ctx->mutex);
do {
if(mythread->opt & MyTHREAD_OPT_WAIT) {
ctx->opt = MyTHREAD_OPT_WAIT;
while (mythread->opt & MyTHREAD_OPT_WAIT)
mythread_nanosleep_sleep(ctx->timespec);
ctx->opt = MyTHREAD_OPT_UNDEF;
}
mythread_queue_list_entry_t *entry = queue_list->first;
size_t done_count = 0;
while(entry)
{
mythread_queue_thread_param_t *thread_param = &entry->thread_param[ thread_id ];
if(thread_param->use < entry->queue->nodes_uses)
{
size_t pos = thread_param->use / entry->queue->nodes_size;
size_t len = thread_param->use % entry->queue->nodes_size;
mythread_queue_node_t *qnode = &entry->queue->nodes[pos][len];
//if((qnode->tree->flags & MyCORE_TREE_FLAGS_SINGLE_MODE) == 0)
ctx->func(ctx->id, (void*)qnode);
thread_param->use += mythread->entries_length;
}
else
done_count++;
entry = entry->next;
}
if(done_count == queue_list->count &&
mythread_function_see_opt(ctx, mythread->opt, thread_id, done_count, ctx->timespec))
{
break;
}
}
while (1);
return NULL;
}
void * mythread_function_queue_stream(void *arg)
{
mythread_context_t *ctx = (mythread_context_t*)arg;
mythread_t * mythread = ctx->mythread;
mythread_queue_list_t *queue_list = (mythread_queue_list_t*)mythread->context;
mythread_id_t thread_id = myhread_increase_id_by_entry_id(mythread, ctx->id);
mythread_mutex_wait(mythread, ctx->mutex);
do {
if(mythread->opt & MyTHREAD_OPT_WAIT) {
ctx->opt = MyTHREAD_OPT_WAIT;
while (mythread->opt & MyTHREAD_OPT_WAIT) {
mythread_nanosleep_sleep(ctx->timespec);
}
ctx->opt = MyTHREAD_OPT_UNDEF;
}
mythread_queue_list_entry_t *entry = queue_list->first;
size_t done_count = 0;
while(entry)
{
mythread_queue_thread_param_t *thread_param = &entry->thread_param[ thread_id ];
if(thread_param->use < entry->queue->nodes_uses)
{
size_t pos = thread_param->use / entry->queue->nodes_size;
size_t len = thread_param->use % entry->queue->nodes_size;
mythread_queue_node_t *qnode = &entry->queue->nodes[pos][len];
//if((qnode->tree->flags & MyCORE_TREE_FLAGS_SINGLE_MODE) == 0)
ctx->func(ctx->id, (void*)qnode);
thread_param->use++;
}
else
done_count++;
entry = entry->next;
}
if(done_count == queue_list->count &&
mythread_function_see_opt(ctx, mythread->opt, thread_id, done_count, ctx->timespec))
{
break;
}
}
while(1);
return NULL;
}
void * mythread_function(void *arg)
{
mythread_context_t *ctx = (mythread_context_t*)arg;
mythread_t * mythread = ctx->mythread;
mythread_mutex_wait(mythread, ctx->mutex);
do {
ctx->func(ctx->id, ctx);
ctx->opt |= MyTHREAD_OPT_DONE;
if(ctx->opt & MyTHREAD_OPT_WAIT) {
while (ctx->opt & MyTHREAD_OPT_WAIT) {
mythread_nanosleep_sleep(ctx->timespec);
}
}
else {
ctx->opt |= MyTHREAD_OPT_STOP;
mythread_mutex_wait(mythread, ctx->mutex);
}
if(mythread->opt & MyTHREAD_OPT_QUIT || ctx->opt & MyTHREAD_OPT_QUIT)
{
mythread_mutex_close(mythread, ctx->mutex);
mythread_nanosleep_destroy(ctx->timespec);
ctx->opt = MyTHREAD_OPT_QUIT;
break;
}
ctx->opt = MyTHREAD_OPT_UNDEF;
}
while(1);
return NULL;
}
#endif
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