xref: /titanic_41/usr/src/lib/libc/README (revision bdfc6d18da790deeec2e0eb09c625902defe2498)
1#
2# CDDL HEADER START
3#
4# The contents of this file are subject to the terms of the
5# Common Development and Distribution License, Version 1.0 only
6# (the "License").  You may not use this file except in compliance
7# with the License.
8#
9# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10# or http://www.opensolaris.org/os/licensing.
11# See the License for the specific language governing permissions
12# and limitations under the License.
13#
14# When distributing Covered Code, include this CDDL HEADER in each
15# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16# If applicable, add the following below this CDDL HEADER, with the
17# fields enclosed by brackets "[]" replaced with your own identifying
18# information: Portions Copyright [yyyy] [name of copyright owner]
19#
20# CDDL HEADER END
21#
22#
23# Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24# Use is subject to license terms.
25#
26# ident	"%Z%%M%	%I%	%E% SMI"
27#
28
29The Solaris Process Model Unification project:
30	PSARC/2002/117 Solaris Process Model Unification
31	4470917 Solaris Process Model Unification
32folded libthread into libc and has led to some fundamental changes
33in the rules by which code in libc must be developed and maintained.
34
35All code in libc must be both MT-Safe and Fork-Safe
36and where possible (almost everywhere), Async-Signal-Safe.
37
38To this end, the following rules should be followed:
39
40Almost all internal libc locks (mutexes and read-write locks)
41should be acquired and released via these interfaces:
42
43	mutex_t some_lock = DEFAULTMUTEX;
44
45	lmutex_lock(&some_lock);
46	... do something critical ...
47	lmutex_unlock(&some_lock);
48
49	rwlock_t some_rw_lock = DEFAULTRWLOCK;
50
51	lrw_rdlock(&some_rw_lock);
52	... multiple threads can do something ...
53	lrw_unlock(&some_rw_lock);
54
55	lrw_wrlock(&some_rw_lock);
56	... only one thread can do something ...
57	lrw_unlock(&some_rw_lock);
58
59The above l* versions of the mutex and rwlock interfaces do more
60than the ordinary interfaces:  They define critical regions in
61which the calling thread cannot be suspended (making the region
62fork-safe) and in which the calling thread has all signals deferred
63(making the region async-signal-safe).
64
65However, certain rules apply to the code within these critical regions:
66
67	- The code must be of guaranteed short duration; no
68	  calls to interfaces that might block indefinitely are
69	  allowed.  This means no calls into stdio or syslog().
70
71	- The code cannot call any non-l* synchronization
72	  primitives (mutex_lock(), _private_mutex_lock(),
73	  rw_wrlock(), rw_rdlock(), sema_wait(), etc.)
74
75	- The code cannot call any functions outside of libc,
76	  including application callbacks and functions from
77	  dlopen()ed objects, such as those in the I18N code.
78
79	- Because malloc(), calloc(), realloc(), and free()
80	  are designed to be interposed upon, they fall into
81	  the previous case of prohibition.  None of these can
82	  be called by a thread while in a critical region.
83
84There is a private memory allocator for use internally to libc.
85It cannot be interposed upon and it is safe to use while in
86a critical region (or for that matter while not in a critical
87region; it is async-signal-safe and fork-safe):
88
89	void *lmalloc(size_t);
90	void lfree(void *, size_t);
91
92	void *libc_malloc(size_t);
93	void *libc_realloc(void *, size_t);
94	char *libc_strdup(const char *);
95	void libc_free(void *);
96
97lmalloc() and lfree() are the basic interfaces.  The libc_*()
98variants are built on top of lmalloc()/lfree() but they have
99the same interface signatures as the corresponding functions
100without the 'libc_' prefix.  lmalloc() and libc_malloc()
101return zeroed memory blocks.  Note that lmalloc()/lfree()
102require the caller to remember the size parameter passed
103to lmalloc() and to pass the same value to lfree().
104
105Memory allocated by lmalloc() can only be freed by lfree().
106Memory allocated by libc_malloc(), libc_realloc(), or libc_strdup()
107can only be freed by libc_free().  Never pass such allocated
108memory out of libc if the caller of libc is expected to free it.
109
110lmalloc()/lfree() is a small and simple power of two allocator.
111Do not use it as a general-purpose allocator.  Be kind to it.
112
113There is a special mutual exclusion interface that exists for
114cases, like code in the I18N interfaces, where mutual exclusion
115is required but the above rules cannot be followed:
116
117	int fork_lock_enter(const char *);
118	void fork_lock_exit(void);
119
120fork_lock_enter() does triple-duty.  Not only does it serialize
121calls to fork() and forkall(), but it also serializes calls to
122thr_suspend() (fork() and forkall() also suspend other threads),
123and furthermore it serializes I18N calls to functions in other
124dlopen()ed L10N objects that might be calling malloc()/free().
125Use it in general like this:
126
127	(void) fork_lock_enter(NULL);
128	... serialized; do something that might call malloc ...
129	fork_lock_exit();
130
131The 'const char *' argument to fork_lock_enter() should always
132be NULL except for two special cases:
133	- When called from fork() or forkall()
134	- When called from pthread_atfork()
135This enforces the prohibition against calling fork() or pthread_atfork()
136from a pthread_atfork()-registered fork handler function while a fork()
137prologue or epilogue is in progress.  If _THREAD_ERROR_DETECTION is set
138to 1 or 2 in the environment, such cases will draw a nasty message and
139will dump core if _THREAD_ERROR_DETECTION=2.  fork_lock_enter() returns
140non-zero only if it is called from a fork handler.  This is of interest
141only to callers that have to do something about this condition; the
142return value should be ignored in all other cases (fork_lock_enter()
143never actually fails).
144
145It is an error to call fork_lock_enter() while in a critical region
146(that is, while holding any internal libc lock).
147
148On return from fork_lock_enter(), no internal libc locks are held
149but a flag has been set to cause other callers of fork_lock_enter()
150to delay (via _cond_wait()) until fork_lock_exit() is called.
151
152These are the rules to follow for memory allocation:
153
154  - If a function acquires an internal libc lock or is called while
155    an internal libc lock is held:
156
157	* The malloc family cannot be used.
158
159	* lmalloc or libc_malloc should be used.  The memory must
160	  be released by lfree or libc_free, respectively.
161
162	* lfree takes an argument to tell the size of the releasing
163	  memory.  If the function does not know the size at the
164	  releasing point, libc_malloc and libc_free should be used.
165
166	* As the memory allocated by lmalloc or libc_malloc needs
167	  to be released by lfree or libc_free and these are internal
168	  to libc, they cannot be used to allocate memory that might
169	  be released by application code outside libc.
170
171	* If the memory allocation by malloc() cannot be avoided and
172	  the scalability of the function does not matter much, the
173	  function can be serialized with fork_lock_enter() instead
174	  of lmutex_lock().
175
176	* If the memory allocation by malloc() cannot be avoided and
177	  the scalability of the function does matter, another
178	  implementation of the function will be necessary.
179
180In a DEBUG build of libc:
181	make THREAD_DEBUG=-DTHREAD_DEBUG install
182many of these rules are enforced by ASSERT() statements scattered about
183in the libc sources.  This is the default mode for building libc when
184a DEBUG nightly build is performed.
185
186-----
187
188Some i18n code cannot be distributed as open source.  To enable the rest of
189libc to be distributed as open source, those i18n files now live in a
190separate libc_i18n directory.  Those source files are position-independently
191compiled and are archived into the libc_i18n.a library.  The libc_i18n.a
192archive library is installed into the $(ROOTFS_LIBDIR) and
193$(ROOTFS_LIBDIR64) directories.  During link phase, libc.so.1 links with
194libc_i18n.a in the proto area.  Therefore, the build of the libc_i18n tree
195needs to be done before the build of the libc tree.  Also the compilation
196conditions such as the setting of CFLAGS and CPPFLAGS for the libc_i18n
197stuff need to be compatible with the ones for the libc stuff.  Whenever
198changes that affect the compilation conditions of libc occur, the changes
199should be propagated to libc_i18n.
200