#ifndef _PTHREAD_IMPL_H
#define _PTHREAD_IMPL_H
#include <pthread.h>
#include <signal.h>
#include <errno.h>
#include <limits.h>
#include <sys/mman.h>
#include "libc.h"
#include "syscall.h"
#include "atomic.h"
#include "futex.h"
#include "pthread_arch.h"
#define pthread __pthread
struct pthread {
/* Part 1 -- these fields may be external or
* internal (accessed via asm) ABI. Do not change. */
struct pthread *self;
#ifndef TLS_ABOVE_TP
uintptr_t *dtv;
#endif
struct pthread *prev, *next; /* non-ABI */
uintptr_t sysinfo;
#ifndef TLS_ABOVE_TP
#ifdef CANARY_PAD
uintptr_t canary_pad;
#endif
uintptr_t canary;
#endif
/* Part 2 -- implementation details, non-ABI. */
int tid;
int errno_val;
volatile int detach_state;
volatile int cancel;
volatile unsigned char canceldisable, cancelasync;
unsigned char tsd_used:1;
unsigned char dlerror_flag:1;
unsigned char *map_base;
size_t map_size;
void *stack;
size_t stack_size;
size_t guard_size;
void *result;
struct __ptcb *cancelbuf;
void **tsd;
struct {
volatile void *volatile head;
long off;
volatile void *volatile pending;
} robust_list;
int h_errno_val;
volatile int timer_id;
locale_t locale;
volatile int killlock[1];
char *dlerror_buf;
void *stdio_locks;
/* Part 3 -- the positions of these fields relative to
* the end of the structure is external and internal ABI. */
#ifdef TLS_ABOVE_TP
uintptr_t canary;
uintptr_t *dtv;
#endif
};
enum {
DT_EXITED = 0,
DT_EXITING,
DT_JOINABLE,
DT_DETACHED,
};
#define __SU (sizeof(size_t)/sizeof(int))
#define _a_stacksize __u.__s[0]
#define _a_guardsize __u.__s[1]
#define _a_stackaddr __u.__s[2]
#define _a_detach __u.__i[3*__SU+0]
#define _a_sched __u.__i[3*__SU+1]
#define _a_policy __u.__i[3*__SU+2]
#define _a_prio __u.__i[3*__SU+3]
#define _m_type __u.__i[0]
#define _m_lock __u.__vi[1]
#define _m_waiters __u.__vi[2]
#define _m_prev __u.__p[3]
#define _m_next __u.__p[4]
#define _m_count __u.__i[5]
#define _c_shared __u.__p[0]
#define _c_seq __u.__vi[2]
#define _c_waiters __u.__vi[3]
#define _c_clock __u.__i[4]
#define _c_lock __u.__vi[8]
#define _c_head __u.__p[1]
#define _c_tail __u.__p[5]
#define _rw_lock __u.__vi[0]
#define _rw_waiters __u.__vi[1]
#define _rw_shared __u.__i[2]
#define _b_lock __u.__vi[0]
#define _b_waiters __u.__vi[1]
#define _b_limit __u.__i[2]
#define _b_count __u.__vi[3]
#define _b_waiters2 __u.__vi[4]
#define _b_inst __u.__p[3]
#ifndef TP_OFFSET
#define TP_OFFSET 0
#endif
#ifndef DTP_OFFSET
#define DTP_OFFSET 0
#endif
#ifdef TLS_ABOVE_TP
#define TP_ADJ(p) ((char *)(p) + sizeof(struct pthread) + TP_OFFSET)
#define __pthread_self() ((pthread_t)(__get_tp() - sizeof(struct __pthread) - TP_OFFSET))
#else
#define TP_ADJ(p) (p)
#define __pthread_self() ((pthread_t)__get_tp())
#endif
#ifndef tls_mod_off_t
#define tls_mod_off_t size_t
#endif
#define SIGTIMER 32
#define SIGCANCEL 33
#define SIGSYNCCALL 34
#define SIGALL_SET ((sigset_t *)(const unsigned long long [2]){ -1,-1 })
#define SIGPT_SET \
((sigset_t *)(const unsigned long [_NSIG/8/sizeof(long)]){ \
[sizeof(long)==4] = 3UL<<(32*(sizeof(long)>4)) })
#define SIGTIMER_SET \
((sigset_t *)(const unsigned long [_NSIG/8/sizeof(long)]){ \
0x80000000 })
void *__tls_get_addr(tls_mod_off_t *);
hidden int __init_tp(void *);
hidden void *__copy_tls(unsigned char *);
hidden void __reset_tls();
hidden void __membarrier_init(void);
hidden void __dl_thread_cleanup(void);
hidden void __testcancel();
hidden void __do_cleanup_push(struct __ptcb *);
hidden void __do_cleanup_pop(struct __ptcb *);
hidden void __pthread_tsd_run_dtors();
hidden void __pthread_key_delete_synccall(void (*)(void *), void *);
hidden int __pthread_key_delete_impl(pthread_key_t);
extern hidden volatile size_t __pthread_tsd_size;
extern hidden void *__pthread_tsd_main[];
extern hidden volatile int __eintr_valid_flag;
hidden int __clone(int (*)(void *), void *, int, void *, ...);
hidden int __set_thread_area(void *);
hidden int __libc_sigaction(int, const struct sigaction *, struct sigaction *);
hidden void __unmapself(void *, size_t);
hidden int __timedwait(volatile int *, int, clockid_t, const struct timespec *, int);
hidden int __timedwait_cp(volatile int *, int, clockid_t, const struct timespec *, int);
hidden void __wait(volatile int *, volatile int *, int, int);
static inline void __wake(volatile void *addr, int cnt, int priv)
{
if (priv) priv = FUTEX_PRIVATE;
if (cnt<0) cnt = INT_MAX;
__syscall(SYS_futex, addr, FUTEX_WAKE|priv, cnt) != -ENOSYS ||
__syscall(SYS_futex, addr, FUTEX_WAKE, cnt);
}
static inline void __futexwait(volatile void *addr, int val, int priv)
{
if (priv) priv = FUTEX_PRIVATE;
__syscall(SYS_futex, addr, FUTEX_WAIT|priv, val, 0) != -ENOSYS ||
__syscall(SYS_futex, addr, FUTEX_WAIT, val, 0);
}
hidden void __acquire_ptc(void);
hidden void __release_ptc(void);
hidden void __inhibit_ptc(void);
hidden void __tl_lock(void);
hidden void __tl_unlock(void);
hidden void __tl_sync(pthread_t);
extern hidden volatile int __thread_list_lock;
extern hidden volatile int __abort_lock[1];
extern hidden unsigned __default_stacksize;
extern hidden unsigned __default_guardsize;
#define DEFAULT_STACK_SIZE 131072
#define DEFAULT_GUARD_SIZE 8192
#define DEFAULT_STACK_MAX (8<<20)
#define DEFAULT_GUARD_MAX (1<<20)
#define __ATTRP_C11_THREAD ((void*)(uintptr_t)-1)
#endif