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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 2010-2014. All Rights Reserved.
*
* The contents of this file are subject to the Erlang Public License,
* Version 1.1, (the "License"); you may not use this file except in
* compliance with the License. You should have received a copy of the
* Erlang Public License along with this software. If not, it can be
* retrieved online at http://www.erlang.org/.
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* %CopyrightEnd%
*/
/*
* Description: A Thread library for use in the ERTS and other OTP
* applications.
* Author: Rickard Green
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdio.h>
#define ETHR_INLINE_FUNC_NAME_(X) X ## __
#define ETHR_AUX_IMPL__
#include "ethread.h"
#include "ethr_internal.h"
#include <string.h>
#include <limits.h>
#ifndef __WIN32__
#include <unistd.h>
#endif
#define ERTS_TS_EV_ALLOC_DEFAULT_POOL_SIZE 2048
#define ERTS_TS_EV_ALLOC_POOL_SIZE 32
erts_cpu_info_t *ethr_cpu_info__;
int ethr_not_completely_inited__ = 1;
int ethr_not_inited__ = 1;
ethr_memory_allocators ethr_mem__ = ETHR_MEM_ALLOCS_DEF_INITER__;
void *(*ethr_thr_prepare_func__)(void) = NULL;
void (*ethr_thr_parent_func__)(void *) = NULL;
void (*ethr_thr_child_func__)(void *) = NULL;
typedef struct ethr_xhndl_list_ ethr_xhndl_list;
struct ethr_xhndl_list_ {
ethr_xhndl_list *next;
void (*funcp)(void);
};
size_t ethr_pagesize__;
size_t ethr_min_stack_size__; /* kilo words */
size_t ethr_max_stack_size__; /* kilo words */
ethr_rwmutex xhndl_rwmtx;
ethr_xhndl_list *xhndl_list;
static int main_threads;
static int init_ts_event_alloc(void);
ethr_runtime_t ethr_runtime__
#ifdef __GNUC__
__attribute__ ((aligned (ETHR_CACHE_LINE_SIZE)))
#endif
;
#if defined(ETHR_X86_RUNTIME_CONF__)
/*
* x86/x86_64 specifics shared between windows and
* pthread implementations.
*/
#define ETHR_IS_X86_VENDOR(V, B, C, D) \
(sizeof(V) == 13 && is_x86_vendor((V), (B), (C), (D)))
static ETHR_INLINE int
is_x86_vendor(char *str, int ebx, int ecx, int edx)
{
return (*((int *) &str[0]) == ebx
&& *((int *) &str[sizeof(int)]) == edx
&& *((int *) &str[sizeof(int)*2]) == ecx);
}
static void
x86_init(void)
{
int eax, ebx, ecx, edx;
eax = ebx = ecx = edx = 0;
ethr_x86_cpuid__(&eax, &ebx, &ecx, &edx);
if (eax > 0
&& (ETHR_IS_X86_VENDOR("GenuineIntel", ebx, ecx, edx)
|| ETHR_IS_X86_VENDOR("AuthenticAMD", ebx, ecx, edx))) {
eax = 1;
ethr_x86_cpuid__(&eax, &ebx, &ecx, &edx);
}
else {
/*
* The meaning of the feature flags for this
* vendor have not been verified.
*/
eax = ebx = ecx = edx = 0;
}
/*
* The feature flags tested below have only been verified
* for vendors checked above. Also note that only these
* feature flags have been verified to have these specific
* meanings. If another feature flag test is introduced,
* it has to be verified to have the same meaning for all
* vendors above.
*/
#if ETHR_SIZEOF_PTR == 8
/* bit 13 of ecx is set if we have cmpxchg16b */
ethr_runtime__.conf.have_dw_cmpxchg = (ecx & (1 << 13));
#elif ETHR_SIZEOF_PTR == 4
/* bit 8 of edx is set if we have cmpxchg8b */
ethr_runtime__.conf.have_dw_cmpxchg = (edx & (1 << 8));
#else
# error "Not supported"
#endif
/* bit 26 of edx is set if we have sse2 */
ethr_runtime__.conf.have_sse2 = (edx & (1 << 26));
}
#endif /* ETHR_X86_RUNTIME_CONF__ */
int
ethr_init_common__(ethr_init_data *id)
{
int res;
ethr_init_event__();
#if defined(ETHR_X86_RUNTIME_CONF__)
x86_init();
#endif
if (id) {
ethr_thr_prepare_func__ = id->thread_create_prepare_func;
ethr_thr_parent_func__ = id->thread_create_parent_func;
ethr_thr_child_func__ = id->thread_create_child_func;
}
ethr_cpu_info__ = erts_cpu_info_create();
if (!ethr_cpu_info__)
return ENOMEM;
#ifdef _SC_PAGESIZE
ethr_pagesize__ = (size_t) sysconf(_SC_PAGESIZE);
#elif defined(HAVE_GETPAGESIZE)
ethr_pagesize__ = (size_t) getpagesize();
#else
ethr_pagesize__ = (size_t) 4*1024; /* Guess 4 KB */
#endif
/* User needs at least 4 KB */
ethr_min_stack_size__ = 4*1024;
#if SIZEOF_VOID_P == 8
/* Double that on 64-bit archs */
ethr_min_stack_size__ *= 2;
#endif
/* On some systems as much as about 4 KB is used by the system */
ethr_min_stack_size__ += 4*1024;
/* There should be room for signal handlers */
#ifdef SIGSTKSZ
ethr_min_stack_size__ += SIGSTKSZ;
#else
ethr_min_stack_size__ += ethr_pagesize__;
#endif
/* The system may think that we need more stack */
#if defined(PTHREAD_STACK_MIN)
if (ethr_min_stack_size__ < PTHREAD_STACK_MIN)
ethr_min_stack_size__ = PTHREAD_STACK_MIN;
#elif defined(_SC_THREAD_STACK_MIN)
{
size_t thr_min_stk_sz = (size_t) sysconf(_SC_THREAD_STACK_MIN);
if (ethr_min_stack_size__ < thr_min_stk_sz)
ethr_min_stack_size__ = thr_min_stk_sz;
}
#endif
/* The guard is at least on some platforms included in the stack size
passed when creating threads */
#ifdef ETHR_STACK_GUARD_SIZE
ethr_min_stack_size__ += ETHR_STACK_GUARD_SIZE;
#endif
ethr_min_stack_size__ = ETHR_PAGE_ALIGN(ethr_min_stack_size__);
ethr_min_stack_size__ = ETHR_B2KW(ethr_min_stack_size__);
#ifdef __OSE__
/* For supervisor processes, OSE adds a number of bytes to the requested stack. With this
* addition, the resulting size must not exceed the largest available stack size. The number
* of bytes that will be added is configured in the monolith and can therefore not be
* specified here. We simply assume that it is less than 0x1000. The available stack sizes
* are configured in the .lmconf file and the largest one is usually 65536 bytes.
* Consequently, the requested stack size is limited to 0xF000.
*/
ethr_max_stack_size__ = 0xF000;
#else
ethr_max_stack_size__ = 32*1024*1024;
#endif
#if SIZEOF_VOID_P == 8
ethr_max_stack_size__ *= 2;
#endif
ethr_max_stack_size__ = ETHR_B2KW(ethr_max_stack_size__);
res = ethr_init_atomics();
if (res != 0)
return res;
res = ethr_mutex_lib_init(erts_get_cpu_configured(ethr_cpu_info__));
if (res != 0)
return res;
xhndl_list = NULL;
return 0;
}
int
ethr_late_init_common__(ethr_late_init_data *lid)
{
ethr_ts_event *tsep = NULL;
int reader_groups;
int res;
int i;
ethr_memory_allocator *m[] = {ðr_mem__.std,
ðr_mem__.sl,
ðr_mem__.ll};
if (lid)
ethr_mem__ = lid->mem;
if (!ethr_mem__.std.alloc
|| !ethr_mem__.std.realloc
|| !ethr_mem__.std.free) {
ethr_mem__.std.alloc = malloc;
ethr_mem__.std.realloc = realloc;
ethr_mem__.std.free = free;
}
for (i = 0; i < sizeof(m)/sizeof(m[0]); i++) {
if (!m[i]->alloc || !m[i]->realloc || !m[i]->free) {
m[i]->alloc = ethr_mem__.std.alloc;
m[i]->realloc = ethr_mem__.std.realloc;
m[i]->free = ethr_mem__.std.free;
}
}
res = init_ts_event_alloc();
if (res != 0)
return res;
res = ethr_make_ts_event__(&tsep);
if (res == 0)
tsep->iflgs |= ETHR_TS_EV_ETHREAD;
if (!lid) {
main_threads = 0;
reader_groups = 0;
}
else {
if (lid->main_threads < 0 || USHRT_MAX < lid->main_threads)
return res;
main_threads = lid->main_threads;
reader_groups = lid->reader_groups;
}
res = ethr_mutex_lib_late_init(reader_groups, main_threads);
if (res != 0)
return res;
ethr_not_completely_inited__ = 0; /* Need it for
rwmutex_init */
res = ethr_rwmutex_init(&xhndl_rwmtx);
ethr_not_completely_inited__ = 1;
if (res != 0)
return res;
return 0;
}
int
ethr_install_exit_handler(void (*funcp)(void))
{
ethr_xhndl_list *xhp;
#if ETHR_XCHK
if (ethr_not_completely_inited__) {
ETHR_ASSERT(0);
return EACCES;
}
#endif
if (!funcp)
return EINVAL;
xhp = (ethr_xhndl_list *) ethr_mem__.std.alloc(sizeof(ethr_xhndl_list));
if (!xhp)
return ENOMEM;
ethr_rwmutex_rwlock(&xhndl_rwmtx);
xhp->funcp = funcp;
xhp->next = xhndl_list;
xhndl_list = xhp;
ethr_rwmutex_rwunlock(&xhndl_rwmtx);
return 0;
}
void
ethr_run_exit_handlers__(void)
{
ethr_xhndl_list *xhp;
ethr_rwmutex_rlock(&xhndl_rwmtx);
xhp = xhndl_list;
ethr_rwmutex_runlock(&xhndl_rwmtx);
for (; xhp; xhp = xhp->next)
(*xhp->funcp)();
}
/*
* Thread specific event alloc, etc.
*
* Note that we don't know when it is safe to destroy an event, but
* we know when it is safe to reuse it. ts_event_free() therefore
* never destroys an event (but makes freed events available for
* reuse).
*
* We could easily keep track of the usage of events, and by this
* make it possible to destroy events. We would however suffer a
* performance penalty for this and save very little memory.
*/
typedef union {
ethr_ts_event ts_ev;
char align[ETHR_CACHE_LINE_ALIGN_SIZE(sizeof(ethr_ts_event))];
} ethr_aligned_ts_event;
static ethr_spinlock_t ts_ev_alloc_lock;
static ethr_ts_event *free_ts_ev;
static ethr_ts_event *ts_event_pool(int size, ethr_ts_event **endpp)
{
int i;
ethr_aligned_ts_event *atsev;
atsev = ethr_mem__.std.alloc(sizeof(ethr_aligned_ts_event) * size
+ ETHR_CACHE_LINE_SIZE - 1);
if (!atsev)
return NULL;
if ((((ethr_uint_t) atsev) & ETHR_CACHE_LINE_MASK) != 0)
atsev = ((ethr_aligned_ts_event *)
((((ethr_uint_t) atsev) & ~ETHR_CACHE_LINE_MASK)
+ ETHR_CACHE_LINE_SIZE));
for (i = 1; i < size; i++) {
atsev[i-1].ts_ev.next = &atsev[i].ts_ev;
ethr_atomic32_init(&atsev[i-1].ts_ev.uaflgs, 0);
atsev[i-1].ts_ev.iflgs = 0;
}
ethr_atomic32_init(&atsev[size-1].ts_ev.uaflgs, 0);
atsev[size-1].ts_ev.iflgs = 0;
atsev[size-1].ts_ev.next = NULL;
if (endpp)
*endpp = &atsev[size-1].ts_ev;
return &atsev[0].ts_ev;
}
static int init_ts_event_alloc(void)
{
free_ts_ev = ts_event_pool(ERTS_TS_EV_ALLOC_DEFAULT_POOL_SIZE,
NULL);
if (!free_ts_ev)
return ENOMEM;
return ethr_spinlock_init(&ts_ev_alloc_lock);
}
static ethr_ts_event *ts_event_alloc(void)
{
ethr_ts_event *ts_ev;
ethr_spin_lock(&ts_ev_alloc_lock);
if (free_ts_ev) {
ts_ev = free_ts_ev;
free_ts_ev = ts_ev->next;
ethr_spin_unlock(&ts_ev_alloc_lock);
}
else {
ethr_ts_event *ts_ev_pool_end;
ethr_spin_unlock(&ts_ev_alloc_lock);
ts_ev = ts_event_pool(ERTS_TS_EV_ALLOC_POOL_SIZE, &ts_ev_pool_end);
if (!ts_ev)
return NULL;
ethr_spin_lock(&ts_ev_alloc_lock);
ts_ev_pool_end->next = free_ts_ev;
free_ts_ev = ts_ev->next;
ethr_spin_unlock(&ts_ev_alloc_lock);
}
return ts_ev;
}
static void ts_event_free(ethr_ts_event *ts_ev)
{
ETHR_ASSERT(!ts_ev->udata);
ethr_spin_lock(&ts_ev_alloc_lock);
ts_ev->next = free_ts_ev;
free_ts_ev = ts_ev;
ethr_spin_unlock(&ts_ev_alloc_lock);
}
int ethr_make_ts_event__(ethr_ts_event **tsepp)
{
int res;
ethr_ts_event *tsep = *tsepp;
if (!tsep) {
tsep = ts_event_alloc();
if (!tsep)
return ENOMEM;
}
if ((tsep->iflgs & ETHR_TS_EV_INITED) == 0) {
res = ethr_event_init(&tsep->event);
if (res != 0) {
ts_event_free(tsep);
return res;
}
}
tsep->iflgs = ETHR_TS_EV_INITED;
tsep->udata = NULL;
tsep->rgix = 0;
tsep->mtix = 0;
res = ethr_set_tse__(tsep);
if (res != 0 && tsepp && *tsepp) {
ts_event_free(tsep);
return res;
}
if (tsepp)
*tsepp = tsep;
return 0;
}
int ethr_get_tmp_ts_event__(ethr_ts_event **tsepp)
{
int res;
ethr_ts_event *tsep = *tsepp;
if (!tsep) {
tsep = ts_event_alloc();
if (!tsep)
return ENOMEM;
}
if ((tsep->iflgs & ETHR_TS_EV_INITED) == 0) {
res = ethr_event_init(&tsep->event);
if (res != 0) {
ts_event_free(tsep);
return res;
}
}
tsep->iflgs = ETHR_TS_EV_INITED|ETHR_TS_EV_TMP;
tsep->udata = NULL;
if (tsepp)
*tsepp = tsep;
return 0;
}
int ethr_free_ts_event__(ethr_ts_event *tsep)
{
ts_event_free(tsep);
return 0;
}
void ethr_ts_event_destructor__(void *vtsep)
{
if (vtsep) {
ethr_ts_event *tsep = (ethr_ts_event *) vtsep;
ts_event_free(tsep);
ethr_set_tse__(NULL);
}
}
int ethr_set_main_thr_status(int on, int no)
{
ethr_ts_event *tsep = ethr_get_tse__();
if (!tsep)
return EINVAL;
if (on) {
if (no < 1 || main_threads < no)
return EINVAL;
tsep->mtix = (unsigned short) no;
tsep->iflgs |= ETHR_TS_EV_MAIN_THR;
}
else {
tsep->iflgs &= ~ETHR_TS_EV_MAIN_THR;
tsep->mtix = (unsigned short) 0;
}
return 0;
}
int ethr_get_main_thr_status(int *on)
{
ethr_ts_event *tsep = ethr_get_tse__();
if (!tsep)
*on = 0;
else {
if (tsep->iflgs & ETHR_TS_EV_MAIN_THR)
*on = 1;
else
*on = 0;
}
return 0;
}
/* Spinlocks and rwspinlocks */
int
ethr_spinlock_init(ethr_spinlock_t *lock)
{
#if ETHR_XCHK
if (!lock) {
ETHR_ASSERT(0);
return EINVAL;
}
#endif
return ethr_spinlock_init__(lock);
}
int
ethr_spinlock_destroy(ethr_spinlock_t *lock)
{
#if ETHR_XCHK
if (ethr_not_inited__) {
ETHR_ASSERT(0);
return EACCES;
}
if (!lock) {
ETHR_ASSERT(0);
return EINVAL;
}
#endif
return ethr_spinlock_destroy__(lock);
}
void
ethr_spin_unlock(ethr_spinlock_t *lock)
{
ETHR_ASSERT(!ethr_not_inited__);
ETHR_ASSERT(lock);
ethr_spin_unlock__(lock);
}
void
ethr_spin_lock(ethr_spinlock_t *lock)
{
ETHR_ASSERT(!ethr_not_inited__);
ETHR_ASSERT(lock);
ethr_spin_lock__(lock);
}
int
ethr_rwlock_init(ethr_rwlock_t *lock)
{
#if ETHR_XCHK
if (!lock) {
ETHR_ASSERT(0);
return EINVAL;
}
#endif
return ethr_rwlock_init__(lock);
}
int
ethr_rwlock_destroy(ethr_rwlock_t *lock)
{
#if ETHR_XCHK
if (ethr_not_inited__) {
ETHR_ASSERT(0);
return EACCES;
}
if (!lock) {
ETHR_ASSERT(0);
return EINVAL;
}
#endif
return ethr_rwlock_destroy__(lock);
}
void
ethr_read_unlock(ethr_rwlock_t *lock)
{
ETHR_ASSERT(!ethr_not_inited__);
ETHR_ASSERT(lock);
ethr_read_unlock__(lock);
}
void
ethr_read_lock(ethr_rwlock_t *lock)
{
ETHR_ASSERT(!ethr_not_inited__);
ETHR_ASSERT(lock);
ethr_read_lock__(lock);
}
void
ethr_write_unlock(ethr_rwlock_t *lock)
{
ETHR_ASSERT(!ethr_not_inited__);
ETHR_ASSERT(lock);
ethr_write_unlock__(lock);
}
void
ethr_write_lock(ethr_rwlock_t *lock)
{
ETHR_ASSERT(!ethr_not_inited__);
ETHR_ASSERT(lock);
ethr_write_lock__(lock);
}
ETHR_IMPL_NORETURN__ ethr_fatal_error__(const char *file,
int line,
const char *func,
int err)
{
char *errstr;
if (err == ENOTSUP)
errstr = "Operation not supported";
else {
errstr = strerror(err);
if (!errstr)
errstr = "Unknown error";
}
fprintf(stderr, "%s:%d: Fatal error in %s(): %s (%d)\n",
file, line, func, errstr, err);
ethr_abort__();
}
int ethr_assert_failed(const char *file, int line, const char *func, char *a)
{
fprintf(stderr, "%s:%d: %s(): Assertion failed: %s\n", file, line, func, a);
#ifdef __OSE__
ramlog_printf("%d: %s:%d: %s(): Assertion failed: %s\n",
current_process(),file, line, func, a);
#endif
ethr_abort__();
return 0;
}
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