1PTHREAD_CREATE(3)          Linux Programmer's Manual         PTHREAD_CREATE(3)
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NAME

6       pthread_create - create a new thread
7

SYNOPSIS

9       #include <pthread.h>
10
11       int pthread_create(pthread_t *restrict thread,
12                          const pthread_attr_t *restrict attr,
13                          void *(*start_routine)(void *),
14                          void *restrict arg);
15
16       Compile and link with -pthread.
17

DESCRIPTION

19       The  pthread_create()  function  starts  a  new  thread  in the calling
20       process.  The new thread starts execution by invoking  start_routine();
21       arg is passed as the sole argument of start_routine().
22
23       The new thread terminates in one of the following ways:
24
25       * It  calls  pthread_exit(3),  specifying  an exit status value that is
26         available  to  another  thread  in  the  same  process   that   calls
27         pthread_join(3).
28
29       * It  returns  from  start_routine().   This  is  equivalent to calling
30         pthread_exit(3) with the value supplied in the return statement.
31
32       * It is canceled (see pthread_cancel(3)).
33
34       * Any of the threads in the process calls exit(3), or the  main  thread
35         performs  a  return  from main().  This causes the termination of all
36         threads in the process.
37
38       The attr argument points to a pthread_attr_t structure  whose  contents
39       are  used  at  thread creation time to determine attributes for the new
40       thread; this structure is initialized  using  pthread_attr_init(3)  and
41       related  functions.   If  attr is NULL, then the thread is created with
42       default attributes.
43
44       Before returning, a successful call to pthread_create() stores  the  ID
45       of  the  new thread in the buffer pointed to by thread; this identifier
46       is used to refer to the thread in subsequent calls  to  other  pthreads
47       functions.
48
49       The  new  thread  inherits  a copy of the creating thread's signal mask
50       (pthread_sigmask(3)).  The set of pending signals for the new thread is
51       empty  (sigpending(2)).   The  new thread does not inherit the creating
52       thread's alternate signal stack (sigaltstack(2)).
53
54       The new thread inherits the calling thread's floating-point environment
55       (fenv(3)).
56
57       The  initial  value  of  the  new  thread's  CPU-time  clock  is 0 (see
58       pthread_getcpuclockid(3)).
59
60   Linux-specific details
61       The new thread inherits copies of the calling thread's capability  sets
62       (see capabilities(7)) and CPU affinity mask (see sched_setaffinity(2)).
63

RETURN VALUE

65       On  success,  pthread_create() returns 0; on error, it returns an error
66       number, and the contents of *thread are undefined.
67

ERRORS

69       EAGAIN Insufficient resources to create another thread.
70
71       EAGAIN A system-imposed limit on the number of threads was encountered.
72              There  are  a  number of limits that may trigger this error: the
73              RLIMIT_NPROC soft resource limit (set via  setrlimit(2)),  which
74              limits  the  number of processes and threads for a real user ID,
75              was reached; the kernel's system-wide limit  on  the  number  of
76              processes and threads, /proc/sys/kernel/threads-max, was reached
77              (see proc(5)); or the maximum  number  of  PIDs,  /proc/sys/ker‐
78              nel/pid_max, was reached (see proc(5)).
79
80       EINVAL Invalid settings in attr.
81
82       EPERM  No permission to set the scheduling policy and parameters speci‐
83              fied in attr.
84

ATTRIBUTES

86       For an  explanation  of  the  terms  used  in  this  section,  see  at‐
87       tributes(7).
88
89       ┌────────────────────────────────────────────┬───────────────┬─────────┐
90Interface                                   Attribute     Value   
91       ├────────────────────────────────────────────┼───────────────┼─────────┤
92pthread_create()                            │ Thread safety │ MT-Safe │
93       └────────────────────────────────────────────┴───────────────┴─────────┘
94

CONFORMING TO

96       POSIX.1-2001, POSIX.1-2008.
97

NOTES

99       See  pthread_self(3)  for further information on the thread ID returned
100       in *thread by pthread_create().  Unless real-time  scheduling  policies
101       are  being employed, after a call to pthread_create(), it is indetermi‐
102       nate which thread—the caller or the new thread—will next execute.
103
104       A thread may either be joinable or detached.  If a thread is  joinable,
105       then  another thread can call pthread_join(3) to wait for the thread to
106       terminate and fetch its exit status.  Only when a  terminated  joinable
107       thread  has  been joined are the last of its resources released back to
108       the system.  When a detached thread terminates, its resources are auto‐
109       matically  released back to the system: it is not possible to join with
110       the thread in order to obtain its exit status.   Making  a  thread  de‐
111       tached is useful for some types of daemon threads whose exit status the
112       application does not need to care about.  By default, a new  thread  is
113       created  in  a joinable state, unless attr was set to create the thread
114       in a detached state (using pthread_attr_setdetachstate(3)).
115
116       Under the NPTL threading implementation, if the RLIMIT_STACK  soft  re‐
117       source  limit  at the time the program started has any value other than
118       "unlimited", then it determines the default stack size of new  threads.
119       Using pthread_attr_setstacksize(3), the stack size attribute can be ex‐
120       plicitly set in the attr argument used to create a thread, in order  to
121       obtain  a  stack  size other than the default.  If the RLIMIT_STACK re‐
122       source limit is set to "unlimited", a per-architecture  value  is  used
123       for the stack size.  Here is the value for a few architectures:
124
125              ┌─────────────┬────────────────────┐
126Architecture Default stack size 
127              ├─────────────┼────────────────────┤
128              │i386         │               2 MB │
129              ├─────────────┼────────────────────┤
130              │IA-64        │              32 MB │
131              ├─────────────┼────────────────────┤
132              │PowerPC      │               4 MB │
133              ├─────────────┼────────────────────┤
134              │S/390        │               2 MB │
135              ├─────────────┼────────────────────┤
136              │Sparc-32     │               2 MB │
137              ├─────────────┼────────────────────┤
138              │Sparc-64     │               4 MB │
139              ├─────────────┼────────────────────┤
140              │x86_64       │               2 MB │
141              └─────────────┴────────────────────┘

BUGS

143       In  the  obsolete LinuxThreads implementation, each of the threads in a
144       process has a different process ID.  This is in violation of the  POSIX
145       threads  specification, and is the source of many other nonconformances
146       to the standard; see pthreads(7).
147

EXAMPLES

149       The program below demonstrates the use of pthread_create(), as well  as
150       a number of other functions in the pthreads API.
151
152       In  the  following run, on a system providing the NPTL threading imple‐
153       mentation, the stack size defaults to the value  given  by  the  "stack
154       size" resource limit:
155
156           $ ulimit -s
157           8192            # The stack size limit is 8 MB (0x800000 bytes)
158           $ ./a.out hola salut servus
159           Thread 1: top of stack near 0xb7dd03b8; argv_string=hola
160           Thread 2: top of stack near 0xb75cf3b8; argv_string=salut
161           Thread 3: top of stack near 0xb6dce3b8; argv_string=servus
162           Joined with thread 1; returned value was HOLA
163           Joined with thread 2; returned value was SALUT
164           Joined with thread 3; returned value was SERVUS
165
166       In  the next run, the program explicitly sets a stack size of 1 MB (us‐
167       ing pthread_attr_setstacksize(3)) for the created threads:
168
169           $ ./a.out -s 0x100000 hola salut servus
170           Thread 1: top of stack near 0xb7d723b8; argv_string=hola
171           Thread 2: top of stack near 0xb7c713b8; argv_string=salut
172           Thread 3: top of stack near 0xb7b703b8; argv_string=servus
173           Joined with thread 1; returned value was HOLA
174           Joined with thread 2; returned value was SALUT
175           Joined with thread 3; returned value was SERVUS
176
177   Program source
178
179       #include <pthread.h>
180       #include <string.h>
181       #include <stdio.h>
182       #include <stdlib.h>
183       #include <unistd.h>
184       #include <errno.h>
185       #include <ctype.h>
186
187       #define handle_error_en(en, msg) \
188               do { errno = en; perror(msg); exit(EXIT_FAILURE); } while (0)
189
190       #define handle_error(msg) \
191               do { perror(msg); exit(EXIT_FAILURE); } while (0)
192
193       struct thread_info {    /* Used as argument to thread_start() */
194           pthread_t thread_id;        /* ID returned by pthread_create() */
195           int       thread_num;       /* Application-defined thread # */
196           char     *argv_string;      /* From command-line argument */
197       };
198
199       /* Thread start function: display address near top of our stack,
200          and return upper-cased copy of argv_string. */
201
202       static void *
203       thread_start(void *arg)
204       {
205           struct thread_info *tinfo = arg;
206           char *uargv;
207
208           printf("Thread %d: top of stack near %p; argv_string=%s\n",
209                   tinfo->thread_num, (void *) &tinfo, tinfo->argv_string);
210
211           uargv = strdup(tinfo->argv_string);
212           if (uargv == NULL)
213               handle_error("strdup");
214
215           for (char *p = uargv; *p != '\0'; p++)
216               *p = toupper(*p);
217
218           return uargv;
219       }
220
221       int
222       main(int argc, char *argv[])
223       {
224           int s, opt, num_threads;
225           pthread_attr_t attr;
226           ssize_t stack_size;
227           void *res;
228
229           /* The "-s" option specifies a stack size for our threads. */
230
231           stack_size = -1;
232           while ((opt = getopt(argc, argv, "s:")) != -1) {
233               switch (opt) {
234               case 's':
235                   stack_size = strtoul(optarg, NULL, 0);
236                   break;
237
238               default:
239                   fprintf(stderr, "Usage: %s [-s stack-size] arg...\n",
240                           argv[0]);
241                   exit(EXIT_FAILURE);
242               }
243           }
244
245           num_threads = argc - optind;
246
247           /* Initialize thread creation attributes. */
248
249           s = pthread_attr_init(&attr);
250           if (s != 0)
251               handle_error_en(s, "pthread_attr_init");
252
253           if (stack_size > 0) {
254               s = pthread_attr_setstacksize(&attr, stack_size);
255               if (s != 0)
256                   handle_error_en(s, "pthread_attr_setstacksize");
257           }
258
259           /* Allocate memory for pthread_create() arguments. */
260
261           struct thread_info *tinfo = calloc(num_threads, sizeof(*tinfo));
262           if (tinfo == NULL)
263               handle_error("calloc");
264
265           /* Create one thread for each command-line argument. */
266
267           for (int tnum = 0; tnum < num_threads; tnum++) {
268               tinfo[tnum].thread_num = tnum + 1;
269               tinfo[tnum].argv_string = argv[optind + tnum];
270
271               /* The pthread_create() call stores the thread ID into
272                  corresponding element of tinfo[]. */
273
274               s = pthread_create(&tinfo[tnum].thread_id, &attr,
275                                  &thread_start, &tinfo[tnum]);
276               if (s != 0)
277                   handle_error_en(s, "pthread_create");
278           }
279
280           /* Destroy the thread attributes object, since it is no
281              longer needed. */
282
283           s = pthread_attr_destroy(&attr);
284           if (s != 0)
285               handle_error_en(s, "pthread_attr_destroy");
286
287           /* Now join with each thread, and display its returned value. */
288
289           for (int tnum = 0; tnum < num_threads; tnum++) {
290               s = pthread_join(tinfo[tnum].thread_id, &res);
291               if (s != 0)
292                   handle_error_en(s, "pthread_join");
293
294               printf("Joined with thread %d; returned value was %s\n",
295                       tinfo[tnum].thread_num, (char *) res);
296               free(res);      /* Free memory allocated by thread */
297           }
298
299           free(tinfo);
300           exit(EXIT_SUCCESS);
301       }
302

SEE ALSO

304       getrlimit(2), pthread_attr_init(3), pthread_cancel(3),
305       pthread_detach(3), pthread_equal(3), pthread_exit(3),
306       pthread_getattr_np(3), pthread_join(3), pthread_self(3),
307       pthread_setattr_default_np(3), pthreads(7)
308

COLOPHON

310       This page is part of release 5.13 of the Linux man-pages project.  A
311       description of the project, information about reporting bugs, and the
312       latest version of this page, can be found at
313       https://www.kernel.org/doc/man-pages/.
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317Linux                             2021-03-22                 PTHREAD_CREATE(3)
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