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|
/* $OpenBSD: pthread_private.h,v 1.51 2004/01/15 22:22:11 marc Exp $ */
/*
* Copyright (c) 1995-1998 John Birrell <jb@cimlogic.com.au>.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by John Birrell.
* 4. Neither the name of the author nor the names of any co-contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY JOHN BIRRELL AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* Private thread definitions for the uthread kernel.
*
* $FreeBSD: pthread_private.h,v 1.27 1999/09/29 15:18:38 marcel Exp $
*/
#ifndef _PTHREAD_PRIVATE_H
#define _PTHREAD_PRIVATE_H
/*
* Evaluate the storage class specifier.
*/
#ifdef GLOBAL_PTHREAD_PRIVATE
#define SCLASS
#else
#define SCLASS extern
#endif
/*
* Include files.
*/
#include <signal.h>
#include <stdio.h>
#include <sys/queue.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sched.h>
#include <spinlock.h>
#include <pthread_np.h>
#include "thread_private.h"
#include "uthread_machdep.h"
/*
* Workaround until we have ENOTSUP in errno.h
*/
#define ENOTSUP EOPNOTSUPP
/*
* Kernel fatal error handler macro.
*/
#define PANIC(string) _thread_exit(__FILE__,__LINE__,string)
/* Output debug messages like this: */
#define stdout_debug(_x) _thread_sys_write(1,_x,strlen(_x));
#define stderr_debug(_x) _thread_sys_write(2,_x,strlen(_x));
/*
* Priority queue manipulation macros (using pqe link):
*/
#define PTHREAD_PRIOQ_INSERT_HEAD(thrd) _pq_insert_head(&_readyq,thrd)
#define PTHREAD_PRIOQ_INSERT_TAIL(thrd) _pq_insert_tail(&_readyq,thrd)
#define PTHREAD_PRIOQ_REMOVE(thrd) _pq_remove(&_readyq,thrd)
#define PTHREAD_PRIOQ_FIRST() _pq_first(&_readyq)
/*
* Waiting queue manipulation macros (using pqe link):
*/
#define PTHREAD_WAITQ_REMOVE(thrd) _waitq_remove(thrd)
#define PTHREAD_WAITQ_INSERT(thrd) _waitq_insert(thrd)
#if defined(_PTHREADS_INVARIANTS)
#define PTHREAD_WAITQ_CLEARACTIVE() _waitq_clearactive()
#define PTHREAD_WAITQ_SETACTIVE() _waitq_setactive()
#else
#define PTHREAD_WAITQ_CLEARACTIVE()
#define PTHREAD_WAITQ_SETACTIVE()
#endif
/*
* Work queue manipulation macros (using qe link):
*/
#define PTHREAD_WORKQ_INSERT(thrd) do { \
TAILQ_INSERT_TAIL(&_workq,thrd,qe); \
(thrd)->flags |= PTHREAD_FLAGS_IN_WORKQ; \
} while (0)
#define PTHREAD_WORKQ_REMOVE(thrd) do { \
TAILQ_REMOVE(&_workq,thrd,qe); \
(thrd)->flags &= ~PTHREAD_FLAGS_IN_WORKQ; \
} while (0)
/*
* State change macro without scheduling queue change:
*/
#define PTHREAD_SET_STATE(thrd, newstate) do { \
(thrd)->state = newstate; \
(thrd)->fname = __FILE__; \
(thrd)->lineno = __LINE__; \
} while (0)
/*
* State change macro with scheduling queue change - This must be
* called with preemption deferred (see thread_kern_sched_[un]defer).
*/
#if defined(_PTHREADS_INVARIANTS)
#include <assert.h>
#define PTHREAD_ASSERT(cond, msg) do { \
if (!(cond)) \
PANIC(msg); \
} while (0)
#define PTHREAD_ASSERT_NOT_IN_SYNCQ(thrd) \
PTHREAD_ASSERT((((thrd)->flags & PTHREAD_FLAGS_IN_SYNCQ) == 0), \
"Illegal call from signal handler");
#define PTHREAD_NEW_STATE(thrd, newstate) do { \
if (_thread_kern_new_state != 0) \
PANIC("Recursive PTHREAD_NEW_STATE"); \
_thread_kern_new_state = 1; \
if ((thrd)->state != newstate) { \
if ((thrd)->state == PS_RUNNING) { \
PTHREAD_PRIOQ_REMOVE(thrd); \
PTHREAD_WAITQ_INSERT(thrd); \
} else if (newstate == PS_RUNNING) { \
PTHREAD_WAITQ_REMOVE(thrd); \
PTHREAD_PRIOQ_INSERT_TAIL(thrd); \
} \
} \
_thread_kern_new_state = 0; \
PTHREAD_SET_STATE(thrd, newstate); \
} while (0)
#else
#define PTHREAD_ASSERT(cond, msg)
#define PTHREAD_ASSERT_NOT_IN_SYNCQ(thrd)
#define PTHREAD_NEW_STATE(thrd, newstate) do { \
if ((thrd)->state != newstate) { \
if ((thrd)->state == PS_RUNNING) { \
PTHREAD_PRIOQ_REMOVE(thrd); \
PTHREAD_WAITQ_INSERT(thrd); \
} else if (newstate == PS_RUNNING) { \
PTHREAD_WAITQ_REMOVE(thrd); \
PTHREAD_PRIOQ_INSERT_TAIL(thrd); \
} \
} \
PTHREAD_SET_STATE(thrd, newstate); \
} while (0)
#endif
/*
* Define the signals to be used for scheduling.
*/
#if defined(_PTHREADS_COMPAT_SCHED) || defined(PROF)
#define _ITIMER_SCHED_TIMER ITIMER_VIRTUAL
#define _SCHED_SIGNAL SIGVTALRM
#else
#define _ITIMER_SCHED_TIMER ITIMER_PROF
#define _SCHED_SIGNAL SIGPROF
#endif
/* Lists with volatile elements */
#define V_TAILQ_HEAD(name, type) \
volatile struct name { \
struct type * tqh_first; \
struct type * volatile * tqh_last; \
}
#define V_TAILQ_ENTRY(type) \
volatile struct { \
struct type * tqe_next; \
struct type * volatile * tqe_prev; \
}
/* List of all threads: */
typedef V_TAILQ_HEAD(, pthread) _thread_list_t;
/*
* Priority queues.
*
* XXX It'd be nice if these were contained in uthread_priority_queue.[ch].
*/
typedef struct pq_list {
_thread_list_t pl_head; /* list of threads at this priority */
TAILQ_ENTRY(pq_list) pl_link; /* link for queue of priority lists */
int pl_prio; /* the priority of this list */
int pl_queued; /* is this in the priority queue */
} pq_list_t;
typedef struct pq_queue {
TAILQ_HEAD(, pq_list) pq_queue; /* queue of priority lists */
pq_list_t *pq_lists; /* array of all priority lists */
int pq_size; /* number of priority lists */
} pq_queue_t;
/*
* TailQ initialization values.
*/
#define TAILQ_INITIALIZER { NULL, NULL }
/*
* Mutex definitions.
*/
union pthread_mutex_data {
void *m_ptr;
int m_count;
};
struct pthread_mutex {
enum pthread_mutextype m_type;
int m_protocol;
V_TAILQ_HEAD(mutex_head, pthread) m_queue;
struct pthread *m_owner;
union pthread_mutex_data m_data;
long m_flags;
int m_refcount;
/*
* Used for priority inheritence and protection.
*
* m_prio - For priority inheritence, the highest active
* priority (threads locking the mutex inherit
* this priority). For priority protection, the
* ceiling priority of this mutex.
* m_saved_prio - mutex owners inherited priority before
* taking the mutex, restored when the owner
* unlocks the mutex.
*/
int m_prio;
int m_saved_prio;
/*
* Link for list of all mutexes a thread currently owns.
*/
V_TAILQ_ENTRY(pthread_mutex volatile) m_qe;
/*
* Lock for accesses to this structure.
*/
spinlock_t lock;
};
/*
* Flags for mutexes.
*/
#define MUTEX_FLAGS_PRIVATE 0x01
#define MUTEX_FLAGS_INITED 0x02
#define MUTEX_FLAGS_BUSY 0x04
/*
* Static mutex initialization values.
*/
#define PTHREAD_MUTEX_STATIC_INITIALIZER \
{ PTHREAD_MUTEX_DEFAULT, PTHREAD_PRIO_NONE, TAILQ_INITIALIZER, \
NULL, { NULL }, MUTEX_FLAGS_PRIVATE, 0, 0, 0, TAILQ_INITIALIZER, \
_SPINLOCK_INITIALIZER }
struct pthread_mutex_attr {
enum pthread_mutextype m_type;
int m_protocol;
int m_ceiling;
long m_flags;
};
#define PTHREAD_MUTEXATTR_STATIC_INITIALIZER \
{ PTHREAD_MUTEX_DEFAULT, PTHREAD_PRIO_NONE, 0, MUTEX_FLAGS_PRIVATE }
/*
* Condition variable definitions.
*/
enum pthread_cond_type {
COND_TYPE_FAST,
COND_TYPE_MAX
};
struct pthread_cond {
enum pthread_cond_type c_type;
V_TAILQ_HEAD(cond_head, pthread) c_queue;
pthread_mutex_t c_mutex;
long c_flags;
int c_seqno;
/*
* Lock for accesses to this structure.
*/
spinlock_t lock;
};
struct pthread_cond_attr {
enum pthread_cond_type c_type;
long c_flags;
};
/*
* Flags for condition variables.
*/
#define COND_FLAGS_PRIVATE 0x01
#define COND_FLAGS_INITED 0x02
#define COND_FLAGS_BUSY 0x04
/*
* Static cond initialization values.
*/
#define PTHREAD_COND_STATIC_INITIALIZER \
{ COND_TYPE_FAST, TAILQ_INITIALIZER, NULL, NULL, \
0, 0, _SPINLOCK_INITIALIZER }
/*
* Semaphore definitions.
*/
struct sem {
#define SEM_MAGIC ((u_int32_t) 0x09fa4012)
u_int32_t magic;
pthread_mutex_t lock;
pthread_cond_t gtzero;
u_int32_t count;
u_int32_t nwaiters;
};
/*
* Cleanup definitions.
*/
struct pthread_cleanup {
struct pthread_cleanup *next;
void (*routine)(void*);
void *routine_arg;
};
struct pthread_attr {
int sched_policy;
int sched_inherit;
int sched_interval;
int prio;
int suspend;
int flags;
void *arg_attr;
void (*cleanup_attr)(void*);
void *stackaddr_attr;
size_t stacksize_attr;
size_t guardsize_attr;
};
/*
* Thread creation state attributes.
*/
#define PTHREAD_CREATE_RUNNING 0
#define PTHREAD_CREATE_SUSPENDED 1
/*
* Additional state for a thread suspended with pthread_suspend_np().
*/
enum pthread_susp {
SUSP_NO, /* Not suspended. */
SUSP_YES, /* Suspended. */
SUSP_JOIN, /* Suspended, joining. */
SUSP_NOWAIT, /* Suspended, was in a mutex or condition queue. */
SUSP_MUTEX_WAIT,/* Suspended, still in a mutex queue. */
SUSP_COND_WAIT /* Suspended, still in a condition queue. */
};
/*
* Miscellaneous definitions.
*/
#define PTHREAD_STACK_DEFAULT 65536
/*
* Maximum size of initial thread's stack. This perhaps deserves to be larger
* than the stacks of other threads, since many applications are likely to run
* almost entirely on this stack.
*/
#define PTHREAD_STACK_INITIAL 0x100000
/* Address immediately beyond the beginning of the initial thread stack. */
#define _POSIX_THREAD_ATTR_STACKSIZE
/*
* Define the different priority ranges. All applications have thread
* priorities constrained within 0-31. The threads library raises the
* priority when delivering signals in order to ensure that signal
* delivery happens (from the POSIX spec) "as soon as possible".
* In the future, the threads library will also be able to map specific
* threads into real-time (cooperating) processes or kernel threads.
* The RT and SIGNAL priorities will be used internally and added to
* thread base priorities so that the scheduling queue can handle both
* normal and RT priority threads with and without signal handling.
*
* The approach taken is that, within each class, signal delivery
* always has priority over thread execution.
*/
#define PTHREAD_DEFAULT_PRIORITY 15
#define PTHREAD_MIN_PRIORITY 0
#define PTHREAD_MAX_PRIORITY 31 /* 0x1F */
#define PTHREAD_SIGNAL_PRIORITY 32 /* 0x20 */
#define PTHREAD_RT_PRIORITY 64 /* 0x40 */
#define PTHREAD_FIRST_PRIORITY PTHREAD_MIN_PRIORITY
#define PTHREAD_LAST_PRIORITY \
(PTHREAD_MAX_PRIORITY + PTHREAD_SIGNAL_PRIORITY + PTHREAD_RT_PRIORITY)
#define PTHREAD_BASE_PRIORITY(prio) ((prio) & PTHREAD_MAX_PRIORITY)
/*
* Clock resolution in microseconds.
*/
#define CLOCK_RES_USEC 10000
#define CLOCK_RES_USEC_MIN 1000
/*
* Time slice period in microseconds.
*/
#define TIMESLICE_USEC 20000
/*
* Define a thread-safe macro to get the current time of day
* which is updated at regular intervals by the scheduling signal
* handler.
*/
#define GET_CURRENT_TOD(tv) \
do { \
tv.tv_sec = _sched_tod.tv_sec; \
tv.tv_usec = _sched_tod.tv_usec; \
} while (tv.tv_sec != _sched_tod.tv_sec)
struct pthread_key {
spinlock_t lock;
volatile int allocated;
volatile int count;
void (*destructor)(void*);
};
struct pthread_rwlockattr {
int pshared;
};
struct pthread_rwlock {
pthread_mutex_t lock; /* monitor lock */
int state; /* 0 = idle >0 = # of readers -1 = writer */
pthread_cond_t read_signal;
pthread_cond_t write_signal;
int blocked_writers;
};
/*
* Thread states.
*/
enum pthread_state {
PS_RUNNING,
PS_SIGTHREAD,
PS_MUTEX_WAIT,
PS_COND_WAIT,
PS_FDLR_WAIT,
PS_FDLW_WAIT,
PS_FDR_WAIT,
PS_FDW_WAIT,
PS_FILE_WAIT,
PS_POLL_WAIT,
PS_SELECT_WAIT,
PS_SLEEP_WAIT,
PS_WAIT_WAIT,
PS_SIGSUSPEND,
PS_SIGWAIT,
PS_SPINBLOCK,
PS_JOIN,
PS_SUSPENDED,
PS_DEAD,
PS_DEADLOCK,
PS_STATE_MAX
};
/*
* File descriptor locking definitions are defined in "thread_private.h"
*/
/*
* File descriptor table structure.
*/
struct fd_table_entry {
/*
* Lock for accesses to this file descriptor table
* entry. This is passed to _spinlock() to provide atomic
* access to this structure. It does *not* represent the
* state of the lock on the file descriptor.
*/
spinlock_t lock;
_thread_list_t r_queue; /* Read queue. */
_thread_list_t w_queue; /* Write queue. */
struct pthread *r_owner; /* thread owning read lock. */
struct pthread *w_owner; /* thread owning write lock. */
const char *r_fname; /* read lock source file name */
int r_lineno; /* Read lock source line no. */
const char *w_fname; /* write lock src file name */
int w_lineno; /* Write lock src line no. */
int r_lockcount; /* Count for FILE read locks. */
int w_lockcount; /* Count for FILE write locks.*/
int flags; /* Flags used in open. */
int refcnt; /* how many fds use this entry*/
};
struct pthread_poll_data {
int nfds;
struct pollfd *fds;
};
union pthread_wait_data {
pthread_mutex_t mutex;
pthread_cond_t cond;
const sigset_t *sigwait; /* Waiting on a signal in sigwait */
struct {
short fd; /* Used when thread waiting on fd */
short branch; /* Line number, for debugging. */
const char *fname; /* Source file name for debugging.*/
} fd;
FILE *fp;
struct pthread_poll_data *poll_data;
spinlock_t *spinlock;
struct pthread *thread;
};
/* Spare thread stack. */
struct stack {
SLIST_ENTRY(stack) qe; /* Queue entry for this stack. */
void *base; /* Bottom of useful stack */
size_t size; /* Size of useful stack */
void *redzone; /* Red zone location */
void *storage; /* allocated storage */
};
/*
* Define a continuation routine that can be used to perform a
* transfer of control:
*/
typedef void (*thread_continuation_t) (void *);
typedef V_TAILQ_ENTRY(pthread) pthread_entry_t;
struct join_status {
struct pthread *thread;
void *ret;
int error;
};
/*
* Thread structure.
*/
struct pthread {
/*
* Magic value to help recognize a valid thread structure
* from an invalid one:
*/
#define PTHREAD_MAGIC ((u_int32_t) 0xd09ba115)
u_int32_t magic;
char *name;
/*
* Lock for accesses to this thread structure.
*/
spinlock_t lock;
/* Queue entry for list of all threads: */
pthread_entry_t tle;
/* Queue entry for list of dead threads: */
pthread_entry_t dle;
/*
* Thread start routine, argument, stack pointer and thread
* attributes.
*/
void *(*start_routine)(void *);
void *arg;
struct stack *stack;
struct pthread_attr attr;
/*
* Saved signal context used in call to sigreturn by
* _thread_kern_sched if sig_saved is TRUE.
*/
struct sigcontext saved_sigcontext;
/*
* Machine-dependent context, valid if sig_saved is FALSE.
*/
struct _machdep_state _machdep;
/*
* TRUE if the last state saved was a signal context. FALSE if the
* last state saved was a jump buffer.
*/
int sig_saved;
/*
* Cancelability flags - the lower 2 bits are used by cancel
* definitions in pthread.h
*/
#define PTHREAD_AT_CANCEL_POINT 0x0004
#define PTHREAD_CANCELLING 0x0008
#define PTHREAD_CANCEL_NEEDED 0x0010
int cancelflags;
enum pthread_susp suspended;
thread_continuation_t continuation;
/*
* Current signal mask and pending signals.
*/
sigset_t sigmask;
sigset_t sigpend;
/* Thread state: */
enum pthread_state state;
/* Scheduling clock when this thread was last made active. */
long last_active;
/* Scheduling clock when this thread was last made inactive. */
long last_inactive;
/*
* Number of microseconds accumulated by this thread when
* time slicing is active.
*/
long slice_usec;
/*
* Time to wake up thread. This is used for sleeping threads and
* for any operation which may time out (such as select).
*/
struct timespec wakeup_time;
/* TRUE if operation has timed out. */
int timeout;
/*
* Error variable used instead of errno. The function __error()
* returns a pointer to this.
*/
int error;
/*
* The joiner is the thread that is joining to this thread. The
* join status keeps track of a join operation to another thread.
*/
struct pthread *joiner;
struct join_status join_status;
/*
* The current thread can belong to only one scheduling queue at
* a time (ready or waiting queue). It can also belong to:
*
* o A queue of threads waiting for a mutex
* o A queue of threads waiting for a condition variable
* o A queue of threads waiting for a file descriptor lock
* o A queue of threads needing work done by the kernel thread
* (waiting for a spinlock or file I/O)
*
* A thread can also be joining a thread (the joiner field above).
*
* It must not be possible for a thread to belong to any of the
* above queues while it is handling a signal. Signal handlers
* may longjmp back to previous stack frames circumventing normal
* control flow. This could corrupt queue integrity if the thread
* retains membership in the queue. Therefore, if a thread is a
* member of one of these queues when a signal handler is invoked,
* it must remove itself from the queue before calling the signal
* handler and reinsert itself after normal return of the handler.
*
* Use pqe for the scheduling queue link (both ready and waiting),
* sqe for synchronization (mutex and condition variable) queue
* links, and qe for all other links.
*/
pthread_entry_t pqe; /* priority queue link */
pthread_entry_t sqe; /* synchronization queue link */
pthread_entry_t qe; /* all other queues link */
/* Wait data. */
union pthread_wait_data data;
/*
* Allocated for converting select into poll.
*/
struct pthread_poll_data poll_data;
/*
* Set to TRUE if a blocking operation was
* interrupted by a signal:
*/
int interrupted;
/* Signal number when in state PS_SIGWAIT: */
int signo;
/*
* Set to non-zero when this thread has deferred signals.
* We allow for recursive deferral.
*/
int sig_defer_count;
/*
* Set to TRUE if this thread should yield after undeferring
* signals.
*/
int yield_on_sig_undefer;
/* Miscellaneous flags; only set with signals deferred. */
int flags;
#define PTHREAD_FLAGS_PRIVATE 0x0001
#define PTHREAD_EXITING 0x0002
#define PTHREAD_FLAGS_IN_WAITQ 0x0004 /* in waiting queue using pqe link */
#define PTHREAD_FLAGS_IN_PRIOQ 0x0008 /* in priority queue using pqe link */
#define PTHREAD_FLAGS_IN_WORKQ 0x0010 /* in work queue using qe link */
#define PTHREAD_FLAGS_IN_FILEQ 0x0020 /* in file lock queue using qe link */
#define PTHREAD_FLAGS_IN_FDQ 0x0040 /* in fd lock queue using qe link */
#define PTHREAD_FLAGS_IN_CONDQ 0x0080 /* in condition queue using sqe link */
#define PTHREAD_FLAGS_IN_MUTEXQ 0x0100 /* in mutex queue using sqe link */
#define PTHREAD_FLAGS_TRACE 0x0200 /* for debugging purposes */
#define PTHREAD_FLAGS_IN_SYNCQ \
(PTHREAD_FLAGS_IN_CONDQ | PTHREAD_FLAGS_IN_MUTEXQ)
/*
* Base priority is the user setable and retrievable priority
* of the thread. It is only affected by explicit calls to
* set thread priority and upon thread creation via a thread
* attribute or default priority.
*/
char base_priority;
/*
* Inherited priority is the priority a thread inherits by
* taking a priority inheritence or protection mutex. It
* is not affected by base priority changes. Inherited
* priority defaults to and remains 0 until a mutex is taken
* that is being waited on by any other thread whose priority
* is non-zero.
*/
char inherited_priority;
/*
* Active priority is always the maximum of the threads base
* priority and inherited priority. When there is a change
* in either the base or inherited priority, the active
* priority must be recalculated.
*/
char active_priority;
/* Number of priority ceiling or protection mutexes owned. */
int priority_mutex_count;
/*
* Queue of currently owned mutexes.
*/
V_TAILQ_HEAD(, pthread_mutex volatile) mutexq;
void *ret;
const void **specific_data;
int specific_data_count;
/* Cleanup handlers Link List */
struct pthread_cleanup *cleanup;
const char *fname; /* Ptr to source file name */
int lineno; /* Source line number. */
};
/*
* Flags and prototypes for the machine dependent layer
*/
void _thread_machdep_switch(struct _machdep_state *newstate,
struct _machdep_state *savestate);
void _thread_machdep_init(struct _machdep_state *state, void *stackbase,
int stacksize, void (*entry)(void));
void _thread_machdep_save_float_state(struct _machdep_state* statep);
void _thread_machdep_restore_float_state(struct _machdep_state* statep);
/*
* Global variables for the uthread kernel.
*/
/* Kernel thread structure used when there are no running threads: */
SCLASS struct pthread _thread_kern_thread;
/* Ptr to the thread structure for the running thread: */
SCLASS struct pthread * volatile _thread_run
#ifdef GLOBAL_PTHREAD_PRIVATE
= &_thread_kern_thread;
#else
;
#endif
/* Ptr to the thread structure for the last user thread to run: */
SCLASS struct pthread * volatile _last_user_thread
#ifdef GLOBAL_PTHREAD_PRIVATE
= &_thread_kern_thread;
#else
;
#endif
/*
* Ptr to the thread running in single-threaded mode or NULL if
* running multi-threaded (default POSIX behaviour).
*/
SCLASS struct pthread * volatile _thread_single
#ifdef GLOBAL_PTHREAD_PRIVATE
= NULL;
#else
;
#endif
SCLASS _thread_list_t _thread_list
#ifdef GLOBAL_PTHREAD_PRIVATE
= TAILQ_HEAD_INITIALIZER(_thread_list);
#else
;
#endif
/*
* Array of kernel pipe file descriptors that are used to ensure that
* no signals are missed in calls to _select.
*/
SCLASS int _thread_kern_pipe[2]
#ifdef GLOBAL_PTHREAD_PRIVATE
= {
-1,
-1
};
#else
;
#endif
SCLASS int volatile _queue_signals
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0;
#else
;
#endif
SCLASS int volatile _thread_kern_in_sched
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0;
#else
;
#endif
SCLASS int _sig_in_handler
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0;
#else
;
#endif
/* Time of day at last scheduling timer signal: */
SCLASS struct timeval volatile _sched_tod
#ifdef GLOBAL_PTHREAD_PRIVATE
= { 0, 0 };
#else
;
#endif
/*
* Current scheduling timer ticks; used as resource usage.
*/
SCLASS unsigned int volatile _sched_ticks
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0;
#else
;
#endif
/* Dead threads: */
SCLASS _thread_list_t _dead_list
#ifdef GLOBAL_PTHREAD_PRIVATE
= TAILQ_HEAD_INITIALIZER(_dead_list);
#else
;
#endif
/* Initial thread: */
SCLASS struct pthread *_thread_initial
#ifdef GLOBAL_PTHREAD_PRIVATE
= NULL;
#else
;
#endif
/* Default thread attributes: */
SCLASS struct pthread_attr pthread_attr_default
#ifdef GLOBAL_PTHREAD_PRIVATE
= { SCHED_RR, 0, TIMESLICE_USEC, PTHREAD_DEFAULT_PRIORITY,
PTHREAD_CREATE_RUNNING, PTHREAD_CREATE_JOINABLE, NULL, NULL, NULL,
PTHREAD_STACK_DEFAULT };
#else
;
#endif
/* Default mutex attributes: */
SCLASS struct pthread_mutex_attr pthread_mutexattr_default
#ifdef GLOBAL_PTHREAD_PRIVATE
= { PTHREAD_MUTEX_DEFAULT, PTHREAD_PRIO_NONE, 0, 0 };
#else
;
#endif
/* Default condition variable attributes: */
SCLASS struct pthread_cond_attr pthread_condattr_default
#ifdef GLOBAL_PTHREAD_PRIVATE
= { COND_TYPE_FAST, 0 };
#else
;
#endif
/* File table information: */
SCLASS struct fd_table_entry **_thread_fd_table
#ifdef GLOBAL_PTHREAD_PRIVATE
= NULL;
#else
;
#endif
/* Table for polling file descriptors: */
SCLASS struct pollfd *_thread_pfd_table
#ifdef GLOBAL_PTHREAD_PRIVATE
= NULL;
#else
;
#endif
SCLASS const int dtablecount
#ifdef GLOBAL_PTHREAD_PRIVATE
= 4096/sizeof(struct fd_table_entry);
#else
;
#endif
SCLASS int _thread_dtablesize /* Descriptor table size. */
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0;
#else
;
#endif
SCLASS int _clock_res_usec /* Clock resolution in usec. */
#ifdef GLOBAL_PTHREAD_PRIVATE
= CLOCK_RES_USEC;
#else
;
#endif
/* Garbage collector mutex and condition variable. */
SCLASS pthread_mutex_t _gc_mutex
#ifdef GLOBAL_PTHREAD_PRIVATE
= NULL
#endif
;
SCLASS pthread_cond_t _gc_cond
#ifdef GLOBAL_PTHREAD_PRIVATE
= NULL
#endif
;
/*
* Array of signal actions for this process.
*/
SCLASS struct sigaction _thread_sigact[NSIG];
/*
* Array of counts of dummy handlers for SIG_DFL signals. This is used to
* assure that there is always a dummy signal handler installed while there is a
* thread sigwait()ing on the corresponding signal.
*/
SCLASS int _thread_dfl_count[NSIG];
/*
* Pending signals and mask for this process:
*/
SCLASS sigset_t _process_sigpending;
SCLASS sigset_t _process_sigmask
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0
#endif
;
/*
* Scheduling queues:
*/
SCLASS pq_queue_t _readyq;
SCLASS _thread_list_t _waitingq;
/*
* Work queue:
*/
SCLASS _thread_list_t _workq;
/* Tracks the number of threads blocked while waiting for a spinlock. */
SCLASS volatile int _spinblock_count
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0
#endif
;
/* Used to maintain pending and active signals: */
struct sigstatus {
spinlock_t lock; /* structure access lock */
int pending; /* Is this a pending signal? */
siginfo_t siginfo; /* arg 2 to signal handler */
};
SCLASS struct sigstatus _thread_sigq[NSIG];
/* Indicates that the signal queue needs to be checked. */
SCLASS volatile int _sigq_check_reqd
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0
#endif
;
/* The signal stack. */
SCLASS struct sigaltstack _thread_sigstack;
/* Thread switch hook. */
SCLASS pthread_switch_routine_t _sched_switch_hook
#ifdef GLOBAL_PTHREAD_PRIVATE
= NULL
#endif
;
/*
* Spare stack queue. Stacks of default size are cached in order to reduce
* thread creation time. Spare stacks are used in LIFO order to increase cache
* locality.
*/
typedef SLIST_HEAD(, stack) _stack_list_t;
extern _stack_list_t _stackq;
/* Used for _PTHREADS_INVARIANTS checking. */
SCLASS int _thread_kern_new_state
#ifdef GLOBAL_PTHREAD_PRIVATE
= 0;
#else
;
#endif
/* Undefine the storage class specifier: */
#undef SCLASS
/*
* Function prototype definitions.
*/
__BEGIN_DECLS
int *__error(void);
int _find_thread(pthread_t);
struct pthread *_get_curthread(void);
void _set_curthread(struct pthread *);
int _thread_create(pthread_t *, const pthread_attr_t *,
void *(*start_routine)(void *), void *,pthread_t);
void _dispatch_signal(int, struct sigcontext *);
void _dispatch_signals(struct sigcontext *);
void _thread_signal(pthread_t, int);
int _mutex_cv_lock(pthread_mutex_t *);
int _mutex_cv_unlock(pthread_mutex_t *);
int _mutex_reinit(pthread_mutex_t *);
void _mutex_notify_priochange(struct pthread *);
int _cond_reinit(pthread_cond_t *);
int _pq_alloc(struct pq_queue *, int, int);
int _pq_init(struct pq_queue *);
void _pq_remove(struct pq_queue *pq, struct pthread *);
void _pq_insert_head(struct pq_queue *pq, struct pthread *);
void _pq_insert_tail(struct pq_queue *pq, struct pthread *);
struct pthread *_pq_first(struct pq_queue *pq);
void _waitq_insert(pthread_t pthread);
void _waitq_remove(pthread_t pthread);
#if defined(_PTHREADS_INVARIANTS)
void _waitq_setactive(void);
void _waitq_clearactive(void);
#endif
__dead void _thread_exit(const char *, int, const char *) __attribute__((__noreturn__));
void *_thread_cleanup(pthread_t);
void _thread_cleanupspecific(void);
void _thread_clear_pending(int, pthread_t);
void _thread_dump_data(const void *, int);
void _thread_dump_info(void);
void _thread_init(void);
void _thread_kern_lock(int);
void _thread_kern_sched(struct sigcontext *);
void _thread_kern_sched_state(enum pthread_state, const char *, int);
void _thread_kern_sched_state_unlock(enum pthread_state, spinlock_t *,
const char *, int);
void _thread_kern_set_timeout(const struct timespec *);
void _thread_kern_sig_defer(void);
void _thread_kern_sig_undefer(void);
void _thread_kill_siginfo(int);
void _thread_sig_handler(int, siginfo_t *, struct sigcontext *);
int _thread_sig_handle(int, struct sigcontext *);
void _thread_sig_init(void);
void _thread_start(void);
void _thread_start_sig_handler(void);
void _thread_seterrno(pthread_t,int);
void _thread_fd_init(void);
int _thread_fd_table_init(int);
int _thread_fd_table_dup(int, int);
void _thread_fd_table_remove(int);
void _thread_fd_unlock_owned(pthread_t);
void _thread_fd_unlock_thread(struct pthread *, int, int, const char *, int);
pthread_addr_t _thread_gc(pthread_addr_t);
void _thread_enter_cancellation_point(void);
void _thread_leave_cancellation_point(void);
void _thread_cancellation_point(void);
int _thread_slow_atomic_lock(volatile _spinlock_lock_t *);
int _thread_slow_atomic_is_locked(volatile _spinlock_lock_t *);
struct stack * _thread_stack_alloc(void *, size_t);
void _thread_stack_free(struct stack *);
/* #include <signal.h> */
#ifdef _USER_SIGNAL_H
int _thread_sys_kill(pid_t, int);
int _thread_sys_sigaction(int, const struct sigaction *, struct sigaction *);
int _thread_sys_sigblock(int);
int _thread_sys_sigsetmask(int);
int _thread_sys_sigpending(sigset_t *);
int _thread_sys_sigprocmask(int, const sigset_t *, sigset_t *);
int _thread_sys_sigsuspend(const sigset_t *);
int _thread_sys_siginterrupt(int, int);
int _thread_sys_sigpause(int);
int _thread_sys_sigreturn(struct sigcontext *);
int _thread_sys_sigaltstack(const struct sigaltstack *, struct sigaltstack *);
int _thread_sys_sigvec(int, struct sigvec *, struct sigvec *);
void _thread_sys_psignal(unsigned int, const char *);
void (*_thread_sys_signal(int, void (*)(int)))(int);
#endif
/* #include <sys/stat.h> */
#ifdef _SYS_STAT_H_
int _thread_sys_fchmod(int, mode_t);
int _thread_sys_fstat(int, struct stat *);
int _thread_sys_fchflags(int, unsigned int);
#endif
/* #include <sys/mount.h> */
#ifdef _SYS_MOUNT_H_
int _thread_sys_fstatfs(int, struct statfs *);
#endif
int _thread_sys_pipe(int *);
/* #include <sys/socket.h> */
#ifdef _SYS_SOCKET_H_
int _thread_sys_accept(int, struct sockaddr *, socklen_t *);
int _thread_sys_bind(int, const struct sockaddr *, socklen_t);
int _thread_sys_connect(int, const struct sockaddr *, socklen_t);
int _thread_sys_getpeername(int, struct sockaddr *, socklen_t *);
int _thread_sys_getsockname(int, struct sockaddr *, socklen_t *);
int _thread_sys_getsockopt(int, int, int, void *, socklen_t *);
int _thread_sys_listen(int, int);
int _thread_sys_setsockopt(int, int, int, const void *, socklen_t);
int _thread_sys_shutdown(int, int);
int _thread_sys_socket(int, int, int);
int _thread_sys_socketpair(int, int, int, int *);
ssize_t _thread_sys_recv(int, void *, size_t, int);
ssize_t _thread_sys_recvfrom(int, void *, size_t, int, struct sockaddr *, socklen_t *);
ssize_t _thread_sys_recvmsg(int, struct msghdr *, int);
ssize_t _thread_sys_send(int, const void *, size_t, int);
ssize_t _thread_sys_sendmsg(int, const struct msghdr *, int);
ssize_t _thread_sys_sendto(int, const void *,size_t, int, const struct sockaddr *, socklen_t);
#endif
/* #include <stdio.h> */
#ifdef _STDIO_H_
FILE *_thread_sys_fdopen(int, const char *);
FILE *_thread_sys_fopen(const char *, const char *);
FILE *_thread_sys_freopen(const char *, const char *, FILE *);
FILE *_thread_sys_popen(const char *, const char *);
FILE *_thread_sys_tmpfile(void);
char *_thread_sys_ctermid(char *);
char *_thread_sys_cuserid(char *);
char *_thread_sys_fgetln(FILE *, size_t *);
char *_thread_sys_fgets(char *, int, FILE *);
char *_thread_sys_gets(char *);
char *_thread_sys_tempnam(const char *, const char *);
char *_thread_sys_tmpnam(char *);
int _thread_sys_fclose(FILE *);
int _thread_sys_feof(FILE *);
int _thread_sys_ferror(FILE *);
int _thread_sys_fflush(FILE *);
int _thread_sys_fgetc(FILE *);
int _thread_sys_fgetpos(FILE *, fpos_t *);
int _thread_sys_fileno(FILE *);
int _thread_sys_fprintf(FILE *, const char *, ...);
int _thread_sys_fpurge(FILE *);
int _thread_sys_fputc(int, FILE *);
int _thread_sys_fputs(const char *, FILE *);
int _thread_sys_fscanf(FILE *, const char *, ...);
int _thread_sys_fseek(FILE *, long, int);
int _thread_sys_fsetpos(FILE *, const fpos_t *);
int _thread_sys_getc(FILE *);
int _thread_sys_getchar(void);
int _thread_sys_getw(FILE *);
int _thread_sys_pclose(FILE *);
int _thread_sys_printf(const char *, ...);
int _thread_sys_putc(int, FILE *);
int _thread_sys_putchar(int);
int _thread_sys_puts(const char *);
int _thread_sys_putw(int, FILE *);
int _thread_sys_remove(const char *);
int _thread_sys_rename (const char *, const char *);
int _thread_sys_scanf(const char *, ...);
int _thread_sys_setlinebuf(FILE *);
int _thread_sys_setvbuf(FILE *, char *, int, size_t);
int _thread_sys_snprintf(char *, size_t, const char *, ...);
int _thread_sys_sprintf(char *, const char *, ...);
int _thread_sys_sscanf(const char *, const char *, ...);
int _thread_sys_ungetc(int, FILE *);
int _thread_sys_vfprintf(FILE *, const char *, _BSD_VA_LIST_);
int _thread_sys_vprintf(const char *, _BSD_VA_LIST_);
int _thread_sys_vscanf(const char *, _BSD_VA_LIST_);
int _thread_sys_vsnprintf(char *, size_t, const char *, _BSD_VA_LIST_);
int _thread_sys_vsprintf(char *, const char *, _BSD_VA_LIST_);
int _thread_sys_vsscanf(const char *, const char *, _BSD_VA_LIST_);
long _thread_sys_ftell(FILE *);
size_t _thread_sys_fread(void *, size_t, size_t, FILE *);
size_t _thread_sys_fwrite(const void *, size_t, size_t, FILE *);
void _thread_sys_clearerr(FILE *);
void _thread_sys_perror(const char *);
void _thread_sys_rewind(FILE *);
void _thread_sys_setbuf(FILE *, char *);
void _thread_sys_setbuffer(FILE *, char *, int);
#endif
/* #include <unistd.h> */
#ifdef _UNISTD_H_
char *_thread_sys_ttyname(int);
int _thread_sys_close(int);
int _thread_sys_closefrom(int);
int _thread_sys_dup(int);
int _thread_sys_dup2(int, int);
int _thread_sys_exect(const char *, char * const *, char * const *);
int _thread_sys_execve(const char *, char * const *, char * const *);
int _thread_sys_fchdir(int);
int _thread_sys_fchown(int, uid_t, gid_t);
int _thread_sys_fsync(int);
int _thread_sys_ftruncate(int, off_t);
long _thread_sys_fpathconf(int, int);
pid_t _thread_sys_getpid(void);
int _thread_sys_pipe(int *);
int _thread_sys_select(int, fd_set *, fd_set *, fd_set *, struct timeval *);
off_t _thread_sys_lseek(int, off_t, int);
pid_t _thread_sys_fork(void);
pid_t _thread_sys_tcgetpgrp(int);
ssize_t _thread_sys_read(int, void *, size_t);
ssize_t _thread_sys_write(int, const void *, size_t);
__dead void _thread_sys__exit(int) __attribute__((__noreturn__));
#endif
/* #include <fcntl.h> */
#ifdef _SYS_FCNTL_H_
int _thread_sys_creat(const char *, mode_t);
int _thread_sys_fcntl(int, int, ...);
int _thread_sys_flock(int, int);
int _thread_sys_open(const char *, int, ...);
#endif
/* #include <sys/ioctl.h> */
#ifdef _SYS_IOCTL_H_
int _thread_sys_ioctl(int, unsigned long, ...);
#endif
/* #include <dirent.h> */
#ifdef _DIRENT_H_
DIR *___thread_sys_opendir2(const char *, int);
DIR *_thread_sys_opendir(const char *);
int _thread_sys_alphasort(const void *, const void *);
int _thread_sys_scandir(const char *, struct dirent ***,
int (*)(struct dirent *), int (*)(const void *, const void *));
int _thread_sys_closedir(DIR *);
int _thread_sys_getdirentries(int, char *, int, long *);
long _thread_sys_telldir(const DIR *);
struct dirent *_thread_sys_readdir(DIR *);
void _thread_sys_rewinddir(DIR *);
void _thread_sys_seekdir(DIR *, long);
#endif
/* #include <sys/uio.h> */
#ifdef _SYS_UIO_H_
ssize_t _thread_sys_readv(int, const struct iovec *, int);
ssize_t _thread_sys_writev(int, const struct iovec *, int);
#endif
/* #include <sys/wait.h> */
#ifdef _SYS_WAIT_H_
pid_t _thread_sys_wait(int *);
pid_t _thread_sys_waitpid(pid_t, int *, int);
pid_t _thread_sys_wait3(int *, int, struct rusage *);
pid_t _thread_sys_wait4(pid_t, int *, int, struct rusage *);
#endif
/* #include <poll.h> */
#ifdef _SYS_POLL_H_
int _thread_sys_poll(struct pollfd *, unsigned, int);
#endif
/* #include <sys/event.h> */
#ifdef _SYS_EVENT_H_
int _thread_sys_kqueue(void);
int _thread_sys_kevent(int, const struct kevent *, int, struct kevent *,
int, const struct timespec *);
#endif
/* #include <sys/mman.h> */
int _thread_sys_msync(void *, size_t, int);
__END_DECLS
#endif /* !_PTHREAD_PRIVATE_H */
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