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[chromium-blink-merge.git] / third_party / tcmalloc / chromium / src / base / simple_mutex.h
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1 // Copyright (c) 2007, Google Inc.
2 // All rights reserved.
3 //
4 // Redistribution and use in source and binary forms, with or without
5 // modification, are permitted provided that the following conditions are
6 // met:
7 //
8 // * Redistributions of source code must retain the above copyright
9 // notice, this list of conditions and the following disclaimer.
10 // * Redistributions in binary form must reproduce the above
11 // copyright notice, this list of conditions and the following disclaimer
12 // in the documentation and/or other materials provided with the
13 // distribution.
14 // * Neither the name of Google Inc. nor the names of its
15 // contributors may be used to endorse or promote products derived from
16 // this software without specific prior written permission.
17 //
18 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
22 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
23 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
24 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
25 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
26 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
27 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
28 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 //
30 // ---
31 // Author: Craig Silverstein.
33 // A simple mutex wrapper, supporting locks and read-write locks.
34 // You should assume the locks are *not* re-entrant.
36 // To use: you should define the following macros in your configure.ac:
37 // ACX_PTHREAD
38 // AC_RWLOCK
39 // The latter is defined in ../autoconf.
41 // This class is meant to be internal-only and should be wrapped by an
42 // internal namespace. Before you use this module, please give the
43 // name of your internal namespace for this module. Or, if you want
44 // to expose it, you'll want to move it to the Google namespace. We
45 // cannot put this class in global namespace because there can be some
46 // problems when we have multiple versions of Mutex in each shared object.
48 // NOTE: TryLock() is broken for NO_THREADS mode, at least in NDEBUG
49 // mode.
51 // CYGWIN NOTE: Cygwin support for rwlock seems to be buggy:
52 // http://www.cygwin.com/ml/cygwin/2008-12/msg00017.html
53 // Because of that, we might as well use windows locks for
54 // cygwin. They seem to be more reliable than the cygwin pthreads layer.
56 // TRICKY IMPLEMENTATION NOTE:
57 // This class is designed to be safe to use during
58 // dynamic-initialization -- that is, by global constructors that are
59 // run before main() starts. The issue in this case is that
60 // dynamic-initialization happens in an unpredictable order, and it
61 // could be that someone else's dynamic initializer could call a
62 // function that tries to acquire this mutex -- but that all happens
63 // before this mutex's constructor has run. (This can happen even if
64 // the mutex and the function that uses the mutex are in the same .cc
65 // file.) Basically, because Mutex does non-trivial work in its
66 // constructor, it's not, in the naive implementation, safe to use
67 // before dynamic initialization has run on it.
69 // The solution used here is to pair the actual mutex primitive with a
70 // bool that is set to true when the mutex is dynamically initialized.
71 // (Before that it's false.) Then we modify all mutex routines to
72 // look at the bool, and not try to lock/unlock until the bool makes
73 // it to true (which happens after the Mutex constructor has run.)
75 // This works because before main() starts -- particularly, during
76 // dynamic initialization -- there are no threads, so a) it's ok that
77 // the mutex operations are a no-op, since we don't need locking then
78 // anyway; and b) we can be quite confident our bool won't change
79 // state between a call to Lock() and a call to Unlock() (that would
80 // require a global constructor in one translation unit to call Lock()
81 // and another global constructor in another translation unit to call
82 // Unlock() later, which is pretty perverse).
84 // That said, it's tricky, and can conceivably fail; it's safest to
85 // avoid trying to acquire a mutex in a global constructor, if you
86 // can. One way it can fail is that a really smart compiler might
87 // initialize the bool to true at static-initialization time (too
88 // early) rather than at dynamic-initialization time. To discourage
89 // that, we set is_safe_ to true in code (not the constructor
90 // colon-initializer) and set it to true via a function that always
91 // evaluates to true, but that the compiler can't know always
92 // evaluates to true. This should be good enough.
94 // A related issue is code that could try to access the mutex
95 // after it's been destroyed in the global destructors (because
96 // the Mutex global destructor runs before some other global
97 // destructor, that tries to acquire the mutex). The way we
98 // deal with this is by taking a constructor arg that global
99 // mutexes should pass in, that causes the destructor to do no
100 // work. We still depend on the compiler not doing anything
101 // weird to a Mutex's memory after it is destroyed, but for a
102 // static global variable, that's pretty safe.
104 #ifndef GOOGLE_MUTEX_H_
105 #define GOOGLE_MUTEX_H_
107 #include <config.h>
109 #if defined(NO_THREADS)
110 typedef int MutexType; // to keep a lock-count
111 #elif defined(_WIN32) || defined(__CYGWIN__) || defined(__CYGWIN32__)
112 # ifndef WIN32_LEAN_AND_MEAN
113 # define WIN32_LEAN_AND_MEAN // We only need minimal includes
114 # endif
115 // We need Windows NT or later for TryEnterCriticalSection(). If you
116 // don't need that functionality, you can remove these _WIN32_WINNT
117 // lines, and change TryLock() to assert(0) or something.
118 # ifndef _WIN32_WINNT
119 # define _WIN32_WINNT 0x0400
120 # endif
121 # include <windows.h>
122 typedef CRITICAL_SECTION MutexType;
123 #elif defined(HAVE_PTHREAD) && defined(HAVE_RWLOCK)
124 // Needed for pthread_rwlock_*. If it causes problems, you could take it
125 // out, but then you'd have to unset HAVE_RWLOCK (at least on linux -- it
126 // *does* cause problems for FreeBSD, or MacOSX, but isn't needed
127 // for locking there.)
128 # ifdef __linux__
129 # define _XOPEN_SOURCE 500 // may be needed to get the rwlock calls
130 # endif
131 # include <pthread.h>
132 typedef pthread_rwlock_t MutexType;
133 #elif defined(HAVE_PTHREAD)
134 # include <pthread.h>
135 typedef pthread_mutex_t MutexType;
136 #else
137 # error Need to implement mutex.h for your architecture, or #define NO_THREADS
138 #endif
140 #include <assert.h>
141 #include "base/abort.h"
143 #define MUTEX_NAMESPACE perftools_mutex_namespace
145 namespace MUTEX_NAMESPACE {
147 class Mutex {
148 public:
149 // This is used for the single-arg constructor
150 enum LinkerInitialized { LINKER_INITIALIZED };
152 // Create a Mutex that is not held by anybody. This constructor is
153 // typically used for Mutexes allocated on the heap or the stack.
154 inline Mutex();
155 // This constructor should be used for global, static Mutex objects.
156 // It inhibits work being done by the destructor, which makes it
157 // safer for code that tries to acqiure this mutex in their global
158 // destructor.
159 inline Mutex(LinkerInitialized);
161 // Destructor
162 inline ~Mutex();
164 inline void Lock(); // Block if needed until free then acquire exclusively
165 inline void Unlock(); // Release a lock acquired via Lock()
166 inline bool TryLock(); // If free, Lock() and return true, else return false
167 // Note that on systems that don't support read-write locks, these may
168 // be implemented as synonyms to Lock() and Unlock(). So you can use
169 // these for efficiency, but don't use them anyplace where being able
170 // to do shared reads is necessary to avoid deadlock.
171 inline void ReaderLock(); // Block until free or shared then acquire a share
172 inline void ReaderUnlock(); // Release a read share of this Mutex
173 inline void WriterLock() { Lock(); } // Acquire an exclusive lock
174 inline void WriterUnlock() { Unlock(); } // Release a lock from WriterLock()
176 private:
177 MutexType mutex_;
178 // We want to make sure that the compiler sets is_safe_ to true only
179 // when we tell it to, and never makes assumptions is_safe_ is
180 // always true. volatile is the most reliable way to do that.
181 volatile bool is_safe_;
182 // This indicates which constructor was called.
183 bool destroy_;
185 inline void SetIsSafe() { is_safe_ = true; }
187 // Catch the error of writing Mutex when intending MutexLock.
188 Mutex(Mutex* /*ignored*/) {}
189 // Disallow "evil" constructors
190 Mutex(const Mutex&);
191 void operator=(const Mutex&);
194 // Now the implementation of Mutex for various systems
195 #if defined(NO_THREADS)
197 // When we don't have threads, we can be either reading or writing,
198 // but not both. We can have lots of readers at once (in no-threads
199 // mode, that's most likely to happen in recursive function calls),
200 // but only one writer. We represent this by having mutex_ be -1 when
201 // writing and a number > 0 when reading (and 0 when no lock is held).
203 // In debug mode, we assert these invariants, while in non-debug mode
204 // we do nothing, for efficiency. That's why everything is in an
205 // assert.
207 Mutex::Mutex() : mutex_(0) { }
208 Mutex::Mutex(Mutex::LinkerInitialized) : mutex_(0) { }
209 Mutex::~Mutex() { assert(mutex_ == 0); }
210 void Mutex::Lock() { assert(--mutex_ == -1); }
211 void Mutex::Unlock() { assert(mutex_++ == -1); }
212 bool Mutex::TryLock() { if (mutex_) return false; Lock(); return true; }
213 void Mutex::ReaderLock() { assert(++mutex_ > 0); }
214 void Mutex::ReaderUnlock() { assert(mutex_-- > 0); }
216 #elif defined(_WIN32) || defined(__CYGWIN__) || defined(__CYGWIN32__)
218 Mutex::Mutex() : destroy_(true) {
219 InitializeCriticalSection(&mutex_);
220 SetIsSafe();
222 Mutex::Mutex(LinkerInitialized) : destroy_(false) {
223 InitializeCriticalSection(&mutex_);
224 SetIsSafe();
226 Mutex::~Mutex() { if (destroy_) DeleteCriticalSection(&mutex_); }
227 void Mutex::Lock() { if (is_safe_) EnterCriticalSection(&mutex_); }
228 void Mutex::Unlock() { if (is_safe_) LeaveCriticalSection(&mutex_); }
229 bool Mutex::TryLock() { return is_safe_ ?
230 TryEnterCriticalSection(&mutex_) != 0 : true; }
231 void Mutex::ReaderLock() { Lock(); } // we don't have read-write locks
232 void Mutex::ReaderUnlock() { Unlock(); }
234 #elif defined(HAVE_PTHREAD) && defined(HAVE_RWLOCK)
236 #define SAFE_PTHREAD(fncall) do { /* run fncall if is_safe_ is true */ \
237 if (is_safe_ && fncall(&mutex_) != 0) tcmalloc::Abort(); \
238 } while (0)
240 Mutex::Mutex() : destroy_(true) {
241 SetIsSafe();
242 if (is_safe_ && pthread_rwlock_init(&mutex_, NULL) != 0) tcmalloc::Abort();
244 Mutex::Mutex(Mutex::LinkerInitialized) : destroy_(false) {
245 SetIsSafe();
246 if (is_safe_ && pthread_rwlock_init(&mutex_, NULL) != 0) tcmalloc::Abort();
248 Mutex::~Mutex() { if (destroy_) SAFE_PTHREAD(pthread_rwlock_destroy); }
249 void Mutex::Lock() { SAFE_PTHREAD(pthread_rwlock_wrlock); }
250 void Mutex::Unlock() { SAFE_PTHREAD(pthread_rwlock_unlock); }
251 bool Mutex::TryLock() { return is_safe_ ?
252 pthread_rwlock_trywrlock(&mutex_) == 0 : true; }
253 void Mutex::ReaderLock() { SAFE_PTHREAD(pthread_rwlock_rdlock); }
254 void Mutex::ReaderUnlock() { SAFE_PTHREAD(pthread_rwlock_unlock); }
255 #undef SAFE_PTHREAD
257 #elif defined(HAVE_PTHREAD)
259 #define SAFE_PTHREAD(fncall) do { /* run fncall if is_safe_ is true */ \
260 if (is_safe_ && fncall(&mutex_) != 0) tcmalloc::Abort(); \
261 } while (0)
263 Mutex::Mutex() : destroy_(true) {
264 SetIsSafe();
265 if (is_safe_ && pthread_mutex_init(&mutex_, NULL) != 0) tcmalloc::Abort();
267 Mutex::Mutex(Mutex::LinkerInitialized) : destroy_(false) {
268 SetIsSafe();
269 if (is_safe_ && pthread_mutex_init(&mutex_, NULL) != 0) tcmalloc::Abort();
271 Mutex::~Mutex() { if (destroy_) SAFE_PTHREAD(pthread_mutex_destroy); }
272 void Mutex::Lock() { SAFE_PTHREAD(pthread_mutex_lock); }
273 void Mutex::Unlock() { SAFE_PTHREAD(pthread_mutex_unlock); }
274 bool Mutex::TryLock() { return is_safe_ ?
275 pthread_mutex_trylock(&mutex_) == 0 : true; }
276 void Mutex::ReaderLock() { Lock(); }
277 void Mutex::ReaderUnlock() { Unlock(); }
278 #undef SAFE_PTHREAD
280 #endif
282 // --------------------------------------------------------------------------
283 // Some helper classes
285 // MutexLock(mu) acquires mu when constructed and releases it when destroyed.
286 class MutexLock {
287 public:
288 explicit MutexLock(Mutex *mu) : mu_(mu) { mu_->Lock(); }
289 ~MutexLock() { mu_->Unlock(); }
290 private:
291 Mutex * const mu_;
292 // Disallow "evil" constructors
293 MutexLock(const MutexLock&);
294 void operator=(const MutexLock&);
297 // ReaderMutexLock and WriterMutexLock do the same, for rwlocks
298 class ReaderMutexLock {
299 public:
300 explicit ReaderMutexLock(Mutex *mu) : mu_(mu) { mu_->ReaderLock(); }
301 ~ReaderMutexLock() { mu_->ReaderUnlock(); }
302 private:
303 Mutex * const mu_;
304 // Disallow "evil" constructors
305 ReaderMutexLock(const ReaderMutexLock&);
306 void operator=(const ReaderMutexLock&);
309 class WriterMutexLock {
310 public:
311 explicit WriterMutexLock(Mutex *mu) : mu_(mu) { mu_->WriterLock(); }
312 ~WriterMutexLock() { mu_->WriterUnlock(); }
313 private:
314 Mutex * const mu_;
315 // Disallow "evil" constructors
316 WriterMutexLock(const WriterMutexLock&);
317 void operator=(const WriterMutexLock&);
320 // Catch bug where variable name is omitted, e.g. MutexLock (&mu);
321 #define MutexLock(x) COMPILE_ASSERT(0, mutex_lock_decl_missing_var_name)
322 #define ReaderMutexLock(x) COMPILE_ASSERT(0, rmutex_lock_decl_missing_var_name)
323 #define WriterMutexLock(x) COMPILE_ASSERT(0, wmutex_lock_decl_missing_var_name)
325 } // namespace MUTEX_NAMESPACE
327 using namespace MUTEX_NAMESPACE;
329 #undef MUTEX_NAMESPACE
331 #endif /* #define GOOGLE_SIMPLE_MUTEX_H_ */