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PTHREADS(7)                                                             Linux Programmer's Manual                                                            PTHREADS(7)

NAME
       pthreads - POSIX threads

DESCRIPTION
       POSIX.1 specifies a set of interfaces (functions, header files) for threaded programming commonly known as POSIX threads, or Pthreads.  A single process can con‐
       tain multiple threads, all of which are executing the same program.  These threads share the same global memory (data and heap segments), but each thread has its
       own stack (automatic variables).

       POSIX.1 also requires that threads share a range of other attributes (i.e., these attributes are process-wide rather than per-thread):

       -  process ID

       -  parent process ID

       -  process group ID and session ID

       -  controlling terminal

       -  user and group IDs

       -  open file descriptors

       -  record locks (see fcntl(2))

       -  signal dispositions

       -  file mode creation mask (umask(2))

       -  current directory (chdir(2)) and root directory (chroot(2))

       -  interval timers (setitimer(2)) and POSIX timers (timer_create(2))

       -  nice value (setpriority(2))

       -  resource limits (setrlimit(2))

       -  measurements of the consumption of CPU time (times(2)) and resources (getrusage(2))

       As well as the stack, POSIX.1 specifies that various other attributes are distinct for each thread, including:

       -  thread ID (the pthread_t data type)

       -  signal mask (pthread_sigmask(3))

       -  the errno variable

       -  alternate signal stack (sigaltstack(2))

       -  real-time scheduling policy and priority (sched(7))

       The following Linux-specific features are also per-thread:

       -  capabilities (see capabilities(7))

       -  CPU affinity (sched_setaffinity(2))

   Pthreads function return values
       Most  pthreads  functions return 0 on success, and an error number on failure.  The error numbers that can be returned have the same meaning as the error numbers
       returned in errno by conventional system calls and C library functions.  Note that the pthreads functions do not set errno.  For each of the  pthreads  functions
       that can return an error, POSIX.1-2001 specifies that the function can never fail with the error EINTR.

   Thread IDs
       Each  of the threads in a process has a unique thread identifier (stored in the type pthread_t).  This identifier is returned to the caller of pthread_create(3),
       and a thread can obtain its own thread identifier using pthread_self(3).

       Thread IDs are guaranteed to be unique only within a process.  (In all pthreads functions that accept a thread ID as an argument, that ID by definition refers to
       a thread in the same process as the caller.)

       The  system may reuse a thread ID after a terminated thread has been joined, or a detached thread has terminated.  POSIX says: "If an application attempts to use
       a thread ID whose lifetime has ended, the behavior is undefined."

   Thread-safe functions
       A thread-safe function is one that can be safely (i.e., it will deliver the same results regardless of whether it is) called from multiple threads  at  the  same
       time.

       POSIX.1-2001 and POSIX.1-2008 require that all functions specified in the standard shall be thread-safe, except for the following functions:

           asctime()
           basename()
           catgets()
           crypt()
           ctermid() if passed a non-NULL argument
           ctime()
           dbm_clearerr()
           dbm_close()
           dbm_delete()
           dbm_error()
           dbm_fetch()
           dbm_firstkey()
           dbm_nextkey()
           dbm_open()
           dbm_store()
           dirname()
           dlerror()
           drand48()
           ecvt() [POSIX.1-2001 only (function removed in POSIX.1-2008)]
           encrypt()
           endgrent()
           endpwent()
           endutxent()
           fcvt() [POSIX.1-2001 only (function removed in POSIX.1-2008)]
           ftw()
           gcvt() [POSIX.1-2001 only (function removed in POSIX.1-2008)]
           getc_unlocked()
           getchar_unlocked()
           getdate()
           getenv()
           getgrent()
           getgrgid()
           getgrnam()
           gethostbyaddr() [POSIX.1-2001 only (function removed in
                            POSIX.1-2008)]
           gethostbyname() [POSIX.1-2001 only (function removed in
                            POSIX.1-2008)]
           gethostent()
           getlogin()
           getnetbyaddr()
           getnetbyname()
           getnetent()
           getopt()
           getprotobyname()
           getprotobynumber()
           getprotoent()
           getpwent()
           getpwnam()
           getpwuid()
           getservbyname()
           getservbyport()
           getservent()
           getutxent()
           getutxid()
           getutxline()
           gmtime()
           hcreate()
           hdestroy()
           hsearch()
           inet_ntoa()
           l64a()
           lgamma()
           lgammaf()
           lgammal()
           localeconv()
           localtime()
           lrand48()
           mrand48()
           nftw()
           nl_langinfo()
           ptsname()
           putc_unlocked()
           putchar_unlocked()
           putenv()
           pututxline()
           rand()
           readdir()
           setenv()
           setgrent()
           setkey()
           setpwent()
           setutxent()
           strerror()
           strsignal() [Added in POSIX.1-2008]
           strtok()
           system() [Added in POSIX.1-2008]
           tmpnam() if passed a non-NULL argument
           ttyname()
           unsetenv()
           wcrtomb() if its final argument is NULL
           wcsrtombs() if its final argument is NULL
           wcstombs()
           wctomb()

   Async-cancel-safe functions
       An async-cancel-safe function is one that can be safely called in an application where asynchronous cancelability is enabled (see pthread_setcancelstate(3)).

       Only the following functions are required to be async-cancel-safe by POSIX.1-2001 and POSIX.1-2008:

           pthread_cancel()
           pthread_setcancelstate()
           pthread_setcanceltype()

   Cancellation points
       POSIX.1 specifies that certain functions must, and certain other functions may, be cancellation points.  If a thread is cancelable, its cancelability type is de‐
       ferred, and a cancellation request is pending for the thread, then the thread is canceled when it calls a function that is a cancellation point.

       The following functions are required to be cancellation points by POSIX.1-2001 and/or POSIX.1-2008:

           accept()
           aio_suspend()
           clock_nanosleep()
           close()
           connect()
           creat()
           fcntl() F_SETLKW
           fdatasync()
           fsync()
           getmsg()
           getpmsg()
           lockf() F_LOCK
           mq_receive()
           mq_send()
           mq_timedreceive()
           mq_timedsend()
           msgrcv()
           msgsnd()
           msync()
           nanosleep()
           open()
           openat() [Added in POSIX.1-2008]
           pause()
           poll()
           pread()
           pselect()
           pthread_cond_timedwait()
           pthread_cond_wait()
           pthread_join()
           pthread_testcancel()
           putmsg()
           putpmsg()
           pwrite()
           read()
           readv()
           recv()
           recvfrom()
           recvmsg()
           select()
           sem_timedwait()
           sem_wait()
           send()
           sendmsg()
           sendto()
           sigpause() [POSIX.1-2001 only (moves to "may" list in POSIX.1-2008)]
           sigsuspend()
           sigtimedwait()
           sigwait()
           sigwaitinfo()
           sleep()
           system()
           tcdrain()
           usleep() [POSIX.1-2001 only (function removed in POSIX.1-2008)]
           wait()
           waitid()
           waitpid()
           write()
           writev()

       The following functions may be cancellation points according to POSIX.1-2001 and/or POSIX.1-2008:

           access()
           asctime()
           asctime_r()
           catclose()
           catgets()
           catopen()
           chmod() [Added in POSIX.1-2008]
           chown() [Added in POSIX.1-2008]
           closedir()
           closelog()
           ctermid()
           ctime()
           ctime_r()
           dbm_close()
           dbm_delete()
           dbm_fetch()
           dbm_nextkey()
           dbm_open()
           dbm_store()
           dlclose()
           dlopen()
           dprintf() [Added in POSIX.1-2008]
           endgrent()
           endhostent()
           endnetent()
           endprotoent()
           endpwent()
           endservent()
           endutxent()
           faccessat() [Added in POSIX.1-2008]
           fchmod() [Added in POSIX.1-2008]
           fchmodat() [Added in POSIX.1-2008]
           fchown() [Added in POSIX.1-2008]
           fchownat() [Added in POSIX.1-2008]
           fclose()
           fcntl() (for any value of cmd argument)
           fflush()
           fgetc()
           fgetpos()
           fgets()
           fgetwc()
           fgetws()
           fmtmsg()
           fopen()
           fpathconf()
           fprintf()
           fputc()
           fputs()
           fputwc()
           fputws()
           fread()
           freopen()
           fscanf()
           fseek()
           fseeko()
           fsetpos()
           fstat()
           fstatat() [Added in POSIX.1-2008]
           ftell()
           ftello()
           ftw()
           futimens() [Added in POSIX.1-2008]
           fwprintf()
           fwrite()
           fwscanf()
           getaddrinfo()
           getc()
           getc_unlocked()
           getchar()
           getchar_unlocked()
           getcwd()
           getdate()
           getdelim() [Added in POSIX.1-2008]
           getgrent()
           getgrgid()
           getgrgid_r()
           getgrnam()
           getgrnam_r()
           gethostbyaddr() [POSIX.1-2001 only (function removed in
                            POSIX.1-2008)]
           gethostbyname() [POSIX.1-2001 only (function removed in
                            POSIX.1-2008)]
           gethostent()
           gethostid()
           gethostname()
           getline() [Added in POSIX.1-2008]
           getlogin()
           getlogin_r()
           getnameinfo()
           getnetbyaddr()
           getnetbyname()
           getnetent()
           getopt() (if opterr is nonzero)
           getprotobyname()
           getprotobynumber()
           getprotoent()
           getpwent()
           getpwnam()
           getpwnam_r()
           getpwuid()
           getpwuid_r()
           gets()
           getservbyname()
           getservbyport()
           getservent()
           getutxent()
           getutxid()
           getutxline()
           getwc()
           getwchar()
           getwd() [POSIX.1-2001 only (function removed in POSIX.1-2008)]
           glob()
           iconv_close()
           iconv_open()
           ioctl()
           link()
           linkat() [Added in POSIX.1-2008]
           lio_listio() [Added in POSIX.1-2008]
           localtime()
           localtime_r()
           lockf() [Added in POSIX.1-2008]
           lseek()
           lstat()
           mkdir() [Added in POSIX.1-2008]
           mkdirat() [Added in POSIX.1-2008]
           mkdtemp() [Added in POSIX.1-2008]
           mkfifo() [Added in POSIX.1-2008]
           mkfifoat() [Added in POSIX.1-2008]
           mknod() [Added in POSIX.1-2008]
           mknodat() [Added in POSIX.1-2008]
           mkstemp()
           mktime()
           nftw()
           opendir()
           openlog()
           pathconf()
           pclose()
           perror()
           popen()
           posix_fadvise()
           posix_fallocate()
           posix_madvise()
           posix_openpt()
           posix_spawn()
           posix_spawnp()
           posix_trace_clear()
           posix_trace_close()
           posix_trace_create()
           posix_trace_create_withlog()
           posix_trace_eventtypelist_getnext_id()
           posix_trace_eventtypelist_rewind()
           posix_trace_flush()
           posix_trace_get_attr()
           posix_trace_get_filter()
           posix_trace_get_status()
           posix_trace_getnext_event()
           posix_trace_open()
           posix_trace_rewind()
           posix_trace_set_filter()
           posix_trace_shutdown()
           posix_trace_timedgetnext_event()
           posix_typed_mem_open()
           printf()
           psiginfo() [Added in POSIX.1-2008]
           psignal() [Added in POSIX.1-2008]
           pthread_rwlock_rdlock()
           pthread_rwlock_timedrdlock()
           pthread_rwlock_timedwrlock()
           pthread_rwlock_wrlock()
           putc()
           putc_unlocked()
           putchar()
           putchar_unlocked()
           puts()
           pututxline()
           putwc()
           putwchar()
           readdir()
           readdir_r()
           readlink() [Added in POSIX.1-2008]
           readlinkat() [Added in POSIX.1-2008]
           remove()
           rename()
           renameat() [Added in POSIX.1-2008]
           rewind()
           rewinddir()
           scandir() [Added in POSIX.1-2008]
           scanf()
           seekdir()
           semop()
           setgrent()
           sethostent()
           setnetent()
           setprotoent()
           setpwent()
           setservent()
           setutxent()
           sigpause() [Added in POSIX.1-2008]
           stat()
           strerror()
           strerror_r()
           strftime()
           symlink()
           symlinkat() [Added in POSIX.1-2008]
           sync()
           syslog()
           tmpfile()
           tmpnam()
           ttyname()
           ttyname_r()
           tzset()
           ungetc()
           ungetwc()
           unlink()
           unlinkat() [Added in POSIX.1-2008]
           utime() [Added in POSIX.1-2008]
           utimensat() [Added in POSIX.1-2008]
           utimes() [Added in POSIX.1-2008]
           vdprintf() [Added in POSIX.1-2008]
           vfprintf()
           vfwprintf()
           vprintf()
           vwprintf()
           wcsftime()
           wordexp()
           wprintf()
           wscanf()

       An implementation may also mark other functions not specified in the standard as cancellation points.  In particular, an implementation is  likely  to  mark  any
       nonstandard function that may block as a cancellation point.  (This includes most functions that can touch files.)

       It  should  be  noted that even if an application is not using asynchronous cancellation, that calling a function from the above list from an asynchronous signal
       handler may cause the equivalent of asynchronous cancellation.  The underlying user code may not expect asynchronous cancellation and the state of the user  data
       may become inconsistent.  Therefore signals should be used with caution when entering a region of deferred cancellation.

   Compiling on Linux
       On Linux, programs that use the Pthreads API should be compiled using cc -pthread.

   Linux implementations of POSIX threads
       Over time, two threading implementations have been provided by the GNU C library on Linux:

       LinuxThreads
              This is the original Pthreads implementation.  Since glibc 2.4, this implementation is no longer supported.

       NPTL (Native POSIX Threads Library)
              This is the modern Pthreads implementation.  By comparison with LinuxThreads, NPTL provides closer conformance to the requirements of the POSIX.1 specifi‐
              cation and better performance when creating large numbers of threads.  NPTL is available since glibc 2.3.2, and requires features that are present in  the
              Linux 2.6 kernel.

       Both  of  these  are so-called 1:1 implementations, meaning that each thread maps to a kernel scheduling entity.  Both threading implementations employ the Linux
       clone(2) system call.  In NPTL, thread synchronization primitives (mutexes, thread joining, and so on) are implemented using the Linux futex(2) system call.

   LinuxThreads
       The notable features of this implementation are the following:

       -  In addition to the main (initial) thread, and the threads that the program creates using pthread_create(3), the implementation  creates  a  "manager"  thread.
          This thread handles thread creation and termination.  (Problems can result if this thread is inadvertently killed.)

       -  Signals  are  used internally by the implementation.  On Linux 2.2 and later, the first three real-time signals are used (see also signal(7)).  On older Linux
          kernels, SIGUSR1 and SIGUSR2 are used.  Applications must avoid the use of whichever set of signals is employed by the implementation.

       -  Threads do not share process IDs.  (In effect, LinuxThreads threads are implemented as processes which share more information than usual,  but  which  do  not
          share a common process ID.)  LinuxThreads threads (including the manager thread) are visible as separate processes using ps(1).

       The LinuxThreads implementation deviates from the POSIX.1 specification in a number of ways, including the following:

       -  Calls to getpid(2) return a different value in each thread.

       -  Calls  to  getppid(2) in threads other than the main thread return the process ID of the manager thread; instead getppid(2) in these threads should return the
          same value as getppid(2) in the main thread.

       -  When one thread creates a new child process using fork(2), any thread should be able to wait(2) on the child.  However, the  implementation  allows  only  the
          thread that created the child to wait(2) on it.

       -  When  a thread calls execve(2), all other threads are terminated (as required by POSIX.1).  However, the resulting process has the same PID as the thread that
          called execve(2): it should have the same PID as the main thread.

       -  Threads do not share user and group IDs.  This can cause complications with set-user-ID programs and can cause failures in Pthreads functions if  an  applica‐
          tion changes its credentials using seteuid(2) or similar.

       -  Threads do not share a common session ID and process group ID.

       -  Threads do not share record locks created using fcntl(2).

       -  The information returned by times(2) and getrusage(2) is per-thread rather than process-wide.

       -  Threads do not share semaphore undo values (see semop(2)).

       -  Threads do not share interval timers.

       -  Threads do not share a common nice value.

       -  POSIX.1  distinguishes  the  notions of signals that are directed to the process as a whole and signals that are directed to individual threads.  According to
          POSIX.1, a process-directed signal (sent using kill(2), for example) should be handled by a single, arbitrarily selected thread within  the  process.   Linux‐
          Threads does not support the notion of process-directed signals: signals may be sent only to specific threads.

       -  Threads have distinct alternate signal stack settings.  However, a new thread's alternate signal stack settings are copied from the thread that created it, so
          that the threads initially share an alternate signal stack.  (A new thread should start with no alternate signal stack defined.  If two threads handle signals
          on their shared alternate signal stack at the same time, unpredictable program failures are likely to occur.)

   NPTL
       With NPTL, all of the threads in a process are placed in the same thread group; all members of a thread group share the same PID.  NPTL does not employ a manager
       thread.

       NPTL makes internal use of the first two real-time signals; these signals cannot be used in applications.  See nptl(7) for further details.

       NPTL still has at least one nonconformance with POSIX.1:

       -  Threads do not share a common nice value.

       Some NPTL nonconformances occur only with older kernels:

       -  The information returned by times(2) and getrusage(2) is per-thread rather than process-wide (fixed in kernel 2.6.9).

       -  Threads do not share resource limits (fixed in kernel 2.6.10).

       -  Threads do not share interval timers (fixed in kernel 2.6.12).

       -  Only the main thread is permitted to start a new session using setsid(2) (fixed in kernel 2.6.16).

       -  Only the main thread is permitted to make the process into a process group leader using setpgid(2) (fixed in kernel 2.6.16).

       -  Threads have distinct alternate signal stack settings.  However, a new thread's alternate signal stack settings are copied from the thread that created it, so
          that the threads initially share an alternate signal stack (fixed in kernel 2.6.16).

       Note the following further points about the NPTL implementation:

       -  If  the  stack  size soft resource limit (see the description of RLIMIT_STACK in setrlimit(2)) is set to a value other than unlimited, then this value defines
          the default stack size for new threads.  To be effective, this limit must be set before the program is executed, perhaps using the ulimit  -s  shell  built-in
          command (limit stacksize in the C shell).

   Determining the threading implementation
       Since glibc 2.3.2, the getconf(1) command can be used to determine the system's threading implementation, for example:

           bash$ getconf GNU_LIBPTHREAD_VERSION
           NPTL 2.3.4

       With older glibc versions, a command such as the following should be sufficient to determine the default threading implementation:

           bash$ $( ldd /bin/ls | grep libc.so | awk '{print $3}' ) | \
                           egrep -i 'threads|nptl'
                   Native POSIX Threads Library by Ulrich Drepper et al

   Selecting the threading implementation: LD_ASSUME_KERNEL
       On  systems  with a glibc that supports both LinuxThreads and NPTL (i.e., glibc 2.3.x), the LD_ASSUME_KERNEL environment variable can be used to override the dy‐
       namic linker's default choice of threading implementation.  This variable tells the dynamic linker to assume that it is running on top  of  a  particular  kernel
       version.   By  specifying a kernel version that does not provide the support required by NPTL, we can force the use of LinuxThreads.  (The most likely reason for
       doing this is to run a (broken) application that depends on some nonconformant behavior in LinuxThreads.)  For example:

           bash$ $( LD_ASSUME_KERNEL=2.2.5 ldd /bin/ls | grep libc.so | \
                           awk '{print $3}' ) | egrep -i 'threads|nptl'
                   linuxthreads-0.10 by Xavier Leroy

SEE ALSO
       clone(2), fork(2), futex(2), gettid(2), proc(5), attributes(7), futex(7), nptl(7), sigevent(7), signal(7)

       Various Pthreads manual pages, for example: pthread_atfork(3), pthread_attr_init(3), pthread_cancel(3), pthread_cleanup_push(3), pthread_cond_signal(3),
       pthread_cond_wait(3), pthread_create(3), pthread_detach(3), pthread_equal(3), pthread_exit(3), pthread_key_create(3), pthread_kill(3), pthread_mutex_lock(3),
       pthread_mutex_unlock(3), pthread_mutexattr_destroy(3), pthread_mutexattr_init(3), pthread_once(3), pthread_spin_init(3), pthread_spin_lock(3),
       pthread_rwlockattr_setkind_np(3), pthread_setcancelstate(3), pthread_setcanceltype(3), pthread_setspecific(3), pthread_sigmask(3), pthread_sigqueue(3), and
       pthread_testcancel(3)

Linux                                                                          2021-03-22                                                                    PTHREADS(7)