xref: /freebsd/lib/libthr/libthr.3 (revision acc1a9ef8333c798c210fa94be6af4d5fe2dd794)
1.\" Copyright (c) 2005 Robert N. M. Watson
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30.\" $FreeBSD$
31.\"
32.Dd February 12, 2015
33.Dt LIBTHR 3
34.Os
35.Sh NAME
36.Nm libthr
37.Nd "1:1 POSIX threads library"
38.Sh LIBRARY
39.Lb libthr
40.Sh SYNOPSIS
41.In pthread.h
42.Sh DESCRIPTION
43The
44.Nm
45library provides a 1:1 implementation of the
46.Xr pthread 3
47library interfaces for application threading.
48It
49has been optimized for use by applications expecting system scope thread
50semantics, and can provide significant performance improvements
51compared to
52.Lb libkse .
53.Pp
54The library is tightly integrated with the run-time link editor
55.Xr ld-elf.so.1 1
56and
57.Lb libc ;
58all three components must be built from the same source tree.
59Mixing
60.Li libc
61and
62.Nm
63libraries from different versions of
64.Fx
65is not supported.
66The run-time linker
67.Xr ld-elf.so.1 1
68has some code to ensure backward-compatibility with older versions of
69.Nm .
70.Pp
71The man page documents the quirks and tunables of the
72.Nm .
73When linking with
74.Li -lpthread ,
75the run-time dependency
76.Li libthr.so.3
77is recorded in the produced object.
78.Sh MUTEX ACQUISITION
79A locked mutex (see
80.Xr pthread_mutex_lock 3 )
81is represented by a volatile variable of type
82.Dv lwpid_t ,
83which records the global system identifier of the thread
84owning the lock.
85.Nm
86performs a contested mutex acquisition in three stages, each of which
87is more resource-consuming than the previous.
88The first two stages are only applied for a mutex of
89.Dv PTHREAD_MUTEX_ADAPTIVE_NP
90type and
91.Dv PTHREAD_PRIO_NONE
92protocol (see
93.Xr pthread_mutexattr 3 ) .
94.Pp
95First, on SMP systems, a spin loop
96is performed, where the library attempts to acquire the lock by
97.Xr atomic 9
98operations.
99The loop count is controlled by the
100.Ev LIBPTHREAD_SPINLOOPS
101environment variable, with a default value of 2000.
102.Pp
103If the spin loop
104was unable to acquire the mutex, a yield loop
105is executed, performing the same
106.Xr atomic 9
107acquisition attempts as the spin loop,
108but each attempt is followed by a yield of the CPU time
109of the thread using the
110.Xr sched_yield 2
111syscall.
112By default, the yield loop
113is not executed.
114This is controlled by the
115.Ev LIBPTHREAD_YIELDLOOPS
116environment variable.
117.Pp
118If both the spin and yield loops
119failed to acquire the lock, the thread is taken off the CPU and
120put to sleep in the kernel with the
121.Xr umtx 2
122syscall.
123The kernel wakes up a thread and hands the ownership of the lock to
124the woken thread when the lock becomes available.
125.Sh THREAD STACKS
126Each thread is provided with a private user-mode stack area
127used by the C runtime.
128The size of the main (initial) thread stack is set by the kernel, and is
129controlled by the
130.Dv RLIMIT_STACK
131process resource limit (see
132.Xr getrlimit 2 ) .
133.Pp
134By default, the main thread's stack size is equal to the value of
135.Dv RLIMIT_STACK
136for the process.
137If the
138.Ev LIBPTHREAD_SPLITSTACK_MAIN
139environment variable is present in the process environment
140(its value does not matter),
141the main thread's stack is reduced to 4MB on 64bit architectures, and to
1422MB on 32bit architectures, when the threading library is initialized.
143The rest of the address space area which has been reserved by the
144kernel for the initial process stack is used for non-initial thread stacks
145in this case.
146The presence of the
147.Ev LIBPTHREAD_BIGSTACK_MAIN
148environment variable overrides
149.Ev LIBPTHREAD_SPLITSTACK_MAIN ;
150it is kept for backward-compatibility.
151.Pp
152The size of stacks for threads created by the process at run-time
153with the
154.Xr pthread_create 3
155call is controlled by thread attributes: see
156.Xr pthread_attr 3 ,
157in particular, the
158.Xr pthread_attr_setstacksize 3 ,
159.Xr pthread_attr_setguardsize 3
160and
161.Xr pthread_attr_setstackaddr 3
162functions.
163If no attributes for the thread stack size are specified, the default
164non-initial thread stack size is 2MB for 64bit architectures, and 1MB
165for 32bit architectures.
166.Sh RUN-TIME SETTINGS
167The following environment variables are recognized by
168.Nm
169and adjust the operation of the library at run-time:
170.Bl -tag -width LIBPTHREAD_SPLITSTACK_MAIN
171.It Ev LIBPTHREAD_BIGSTACK_MAIN
172Disables the reduction of the initial thread stack enabled by
173.Ev LIBPTHREAD_SPLITSTACK_MAIN .
174.It Ev LIBPTHREAD_SPLITSTACK_MAIN
175Causes a reduction of the initial thread stack, as described in the
176section
177.Sx THREAD STACKS .
178This was the default behaviour of
179.Nm
180before
181.Fx 11.0 .
182.It Ev LIBPTHREAD_SPINLOOPS
183The integer value of the variable overrides the default count of
184iterations in the
185.Li spin loop
186of the mutex acquisition.
187The default count is 2000, set by the
188.Dv MUTEX_ADAPTIVE_SPINS
189constant in the
190.Nm
191sources.
192.It Ev LIBPTHREAD_YIELDLOOPS
193A non-zero integer value enables the yield loop
194in the process of the mutex acquisition.
195The value is the count of loop operations.
196.It Ev LIBPTHREAD_QUEUE_FIFO
197The integer value of the variable specifies how often blocked
198threads are inserted at the head of the sleep queue, instead of its tail.
199Bigger values reduce the frequency of the FIFO discipline.
200The value must be between 0 and 255.
201.El
202.Sh INTERACTION WITH RUN-TIME LINKER
203On load,
204.Nm
205installs interposing handlers into the hooks exported by
206.Li libc .
207The interposers provide real locking implementation instead of the
208stubs for single-threaded processes in
209.Li ,
210cancellation support and some modifications to the signal operations.
211.Pp
212.Nm
213cannot be unloaded; the
214.Xr dlclose 3
215function does not perform any action when called with a handle for
216.Nm .
217One of the reasons is that the internal interposing of
218.Li libc
219functions cannot be undone.
220.Sh SIGNALS
221The implementation interposes the user-installed
222.Xr signal 3
223handlers.
224This interposing is done to postpone signal delivery to threads which
225entered (libthr-internal) critical sections, where the calling
226of the user-provided signal handler is unsafe.
227An example of such a situation is owning the internal library lock.
228When a signal is delivered while the signal handler cannot be safely
229called, the call is postponed and performed until after the exit from
230the critical section.
231This should be taken into account when interpreting
232.Xr ktrace 1
233logs.
234.Sh SEE ALSO
235.Xr ktrace 1 ,
236.Xr ld-elf.so.1 1 ,
237.Xr getrlimit 2 ,
238.Xr errno 2 ,
239.Xr umtx 2 ,
240.Xr dlclose 3 ,
241.Xr dlopen 3 ,
242.Xr getenv 3 ,
243.Xr pthread_attr 3 ,
244.Xr pthread_attr_setstacksize 3 ,
245.Xr pthread_create 3 ,
246.Xr signal 3 ,
247.Xr atomic 9
248.Sh AUTHORS
249.An -nosplit
250The
251.Nm
252library
253was originally created by
254.An Jeff Roberson Aq Mt jeff@FreeBSD.org ,
255and enhanced by
256.An Jonathan Mini Aq Mt mini@FreeBSD.org
257and
258.An Mike Makonnen Aq Mt mtm@FreeBSD.org .
259It has been substantially rewritten and optimized by
260.An David Xu Aq Mt davidxu@FreeBSD.org .
261