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Experimental partial C11 threads support

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This commit is contained in:
fincs 2018-07-11 14:46:10 +02:00
parent 314050065a
commit d255fe730b
2 changed files with 340 additions and 0 deletions
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32
nx/include/machine/_threads.h Normal file
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#pragma once
#include "../switch/types.h"
#include "../switch/result.h"
#include "../switch/kernel/mutex.h"
#include "../switch/kernel/thread.h"
#define TSS_DTOR_ITERATIONS 1
typedef struct {
Thread thr;
int rc;
} __thrd_t;
typedef u32 cnd_t;
typedef __thrd_t* thrd_t;
typedef u32 tss_t;
#define _MTX_INITIALIZER_NP {mtx_plain, {0}}
typedef struct mtx_t {
int type;
union {
Mutex mutex;
RMutex rmutex;
};
} mtx_t;
#define ONCE_FLAG_INIT {0,_MTX_INITIALIZER_NP,0}
typedef struct once_flag_t {
int status;
mtx_t mutex;
cnd_t cond;
} once_flag;

308
nx/source/runtime/c11-threads.c Normal file
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#include <stdlib.h>
#include <threads.h>
#include "kernel/svc.h"
#include "../internal.h"
static inline u64 impl_timespec2nsec(const struct timespec *__restrict ts)
{
return (u64)ts->tv_sec * 1000000000 + ts->tv_nsec;
}
void call_once(once_flag *flag, void (*func)(void))
{
mtx_lock(&flag->mutex);
if (flag->status == 0) {
flag->status = 1;
mtx_unlock(&flag->mutex);
func();
mtx_lock(&flag->mutex);
flag->status = 2;
cnd_broadcast(&flag->cond);
} else {
while (flag->status == 1)
cnd_wait(&flag->cond, &flag->mutex);
}
mtx_unlock(&flag->mutex);
}
int cnd_broadcast(cnd_t *cond)
{
if (!cond)
return thrd_error;
Result rc = svcSignalProcessWideKey(cond, -1);
return R_SUCCEEDED(rc) ? thrd_success : thrd_error;
}
void cnd_destroy(cnd_t *cond)
{
// Nothing
}
int cnd_init(cnd_t *cond)
{
if (!cond)
return thrd_error;
*cond = 0;
return thrd_success;
}
int cnd_signal(cnd_t *cond)
{
if (!cond)
return thrd_error;
Result rc = svcSignalProcessWideKey(cond, 1);
return R_SUCCEEDED(rc) ? thrd_success : thrd_error;
}
static int __cnd_timedwait(cnd_t *__restrict cond, mtx_t *__restrict mtx, u64 timeout)
{
if (!cond || !mtx || mtx->type != mtx_plain)
return thrd_error;
Result rc = svcWaitProcessWideKeyAtomic((u32*)&mtx->mutex, cond, getThreadVars()->handle, timeout);
// On timeout, we need to acquire it manually.
if (rc == 0xEA01) {
mutexLock(&mtx->mutex);
return thrd_busy;
}
return R_SUCCEEDED(rc) ? thrd_success : thrd_error;
}
int cnd_timedwait(cnd_t *__restrict cond, mtx_t *__restrict mtx, const struct timespec *__restrict abs_time)
{
if (!abs_time)
return thrd_error;
return __cnd_timedwait(cond, mtx, impl_timespec2nsec(abs_time));
}
int cnd_wait(cnd_t *cond, mtx_t *mtx)
{
return __cnd_timedwait(cond, mtx, U64_MAX);
}
void mtx_destroy(mtx_t *mtx)
{
// Nothing needs to be done here
}
int mtx_init(mtx_t *mtx, int type)
{
if (!mtx || (type != mtx_plain && type != mtx_recursive))
return thrd_error;
mtx->type = type;
switch (type) {
case mtx_plain:
mutexInit(&mtx->mutex);
break;
case mtx_recursive:
rmutexInit(&mtx->rmutex);
break;
}
return thrd_success;
}
int mtx_lock(mtx_t *mtx)
{
if (!mtx)
return thrd_error;
switch (mtx->type) {
case mtx_plain:
mutexLock(&mtx->mutex);
break;
case mtx_recursive:
rmutexLock(&mtx->rmutex);
break;
}
return thrd_success;
}
/*
int mtx_timedlock(mtx_t *__restrict mtx, const struct timespec *__restrict ts)
{
}
*/
int mtx_trylock(mtx_t *mtx)
{
if (!mtx)
return thrd_error;
bool res = false;
switch (mtx->type) {
case mtx_plain:
res = mutexTryLock(&mtx->mutex);
break;
case mtx_recursive:
res = rmutexTryLock(&mtx->rmutex);
break;
}
return res ? thrd_success : thrd_error;
}
int mtx_unlock(mtx_t *mtx)
{
if (!mtx)
return thrd_error;
switch (mtx->type) {
case mtx_plain:
mutexUnlock(&mtx->mutex);
break;
case mtx_recursive:
rmutexUnlock(&mtx->rmutex);
break;
}
return thrd_success;
}
typedef struct
{
thrd_start_t func;
void* arg;
bool thread_started;
mtx_t mutex;
cnd_t cond;
} __thrd_start_info;
static void __thrd_entry(void* __arg)
{
__thrd_start_info* info = (__thrd_start_info*)__arg;
thrd_start_t func = info->func;
void* arg = info->arg;
mtx_lock(&info->mutex);
info->thread_started = true;
cnd_signal(&info->cond);
mtx_unlock(&info->mutex);
int rc = func(arg);
thrd_exit(rc);
}
int thrd_create(thrd_t *thr, thrd_start_t func, void *arg)
{
if (!thr || !func)
return thrd_error;
Result rc;
*thr = NULL;
__thrd_t* t = (__thrd_t*)malloc(sizeof(__thrd_t));
if (!t)
return thrd_nomem;
__thrd_start_info info;
info.func = func;
info.arg = arg;
info.thread_started = false;
mtx_init(&info.mutex, mtx_plain);
cnd_init(&info.cond);
rc = threadCreate(&t->thr, __thrd_entry, &info, 128*1024, 0x2C, -2);
if (R_FAILED(rc)) {
free(t);
return thrd_error;
}
rc = threadStart(&t->thr);
if (R_FAILED(rc)) {
threadClose(&t->thr);
free(t);
return thrd_error;
}
mtx_lock(&info.mutex);
while (!info.thread_started)
cnd_wait(&info.cond, &info.mutex);
mtx_unlock(&info.mutex);
*thr = t;
return thrd_success;
}
thrd_t thrd_current(void)
{
return (thrd_t)getThreadVars()->thread_ptr;
}
/*
int thrd_detach(thrd_t thr)
{
}
*/
int thrd_equal(thrd_t thr1, thrd_t thr2)
{
return thr1 && thr2 && thr1->thr.handle == thr2->thr.handle;
}
void thrd_exit(int res)
{
thrd_t t = thrd_current();
t->rc = res;
svcExitThread();
}
int thrd_join(thrd_t thr, int *res)
{
Result rc;
rc = threadWaitForExit(&thr->thr);
if (R_FAILED(rc))
return thrd_error;
*res = thr->rc;
rc = threadClose(&thr->thr);
free(thr);
return R_SUCCEEDED(rc) ? thrd_success : thrd_error;
}
int thrd_sleep(const struct timespec *duration, struct timespec *remaining)
{
if (!duration)
return -1;
svcSleepThread(impl_timespec2nsec(duration));
if (remaining) {
remaining->tv_nsec = 0;
remaining->tv_sec = 0;
}
return 0;
}
void thrd_yield(void)
{
// This is trash.
svcSleepThread(10000);
}
/*
int tss_create(tss_t *key, tss_dtor_t dtor)
{
}
void tss_delete(tss_t key)
{
}
void * tss_get(tss_t key)
{
}
int tss_set(tss_t key, void *val)
{
}
*/