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Elliott Hughes8daa0922011-09-11 13:46:25 -07001/*
2 * Copyright (C) 2011 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
Brian Carlstromfc0e3212013-07-17 14:40:12 -070017#ifndef ART_RUNTIME_BASE_MUTEX_H_
18#define ART_RUNTIME_BASE_MUTEX_H_
Elliott Hughes8daa0922011-09-11 13:46:25 -070019
20#include <pthread.h>
Brian Carlstromcd74c4b2012-01-23 13:21:00 -080021#include <stdint.h>
Elliott Hughesffb465f2012-03-01 18:46:05 -080022
23#include <iosfwd>
Elliott Hughes8daa0922011-09-11 13:46:25 -070024#include <string>
25
Ian Rogersef7d42f2014-01-06 12:55:46 -080026#include "atomic.h"
Elliott Hughes07ed66b2012-12-12 18:34:25 -080027#include "base/logging.h"
Elliott Hughes76160052012-12-12 16:31:20 -080028#include "base/macros.h"
Ian Rogers00f7d0e2012-07-19 15:28:27 -070029#include "globals.h"
Ian Rogers81d425b2012-09-27 16:03:43 -070030
Ian Rogersab470162012-09-29 23:06:53 -070031#if defined(__APPLE__)
Ian Rogers81d425b2012-09-27 16:03:43 -070032#define ART_USE_FUTEXES 0
Ian Rogersab470162012-09-29 23:06:53 -070033#else
Chris Dearmanc0141782013-11-14 17:29:21 -080034#define ART_USE_FUTEXES 1
Ian Rogersab470162012-09-29 23:06:53 -070035#endif
Elliott Hughes8daa0922011-09-11 13:46:25 -070036
Ian Rogers66aee5c2012-08-15 17:17:47 -070037// Currently Darwin doesn't support locks with timeouts.
38#if !defined(__APPLE__)
39#define HAVE_TIMED_RWLOCK 1
40#else
41#define HAVE_TIMED_RWLOCK 0
42#endif
43
Elliott Hughes8daa0922011-09-11 13:46:25 -070044namespace art {
45
Ian Rogers719d1a32014-03-06 12:13:39 -080046class LOCKABLE ReaderWriterMutex;
Ian Rogers56edc432013-01-18 16:51:51 -080047class ScopedContentionRecorder;
Ian Rogers50b35e22012-10-04 10:09:15 -070048class Thread;
49
Ian Rogers719d1a32014-03-06 12:13:39 -080050// LockLevel is used to impose a lock hierarchy [1] where acquisition of a Mutex at a higher or
51// equal level to a lock a thread holds is invalid. The lock hierarchy achieves a cycle free
52// partial ordering and thereby cause deadlock situations to fail checks.
53//
54// [1] http://www.drdobbs.com/parallel/use-lock-hierarchies-to-avoid-deadlock/204801163
55enum LockLevel {
56 kLoggingLock = 0,
Hiroshi Yamauchi3eed93d2014-06-04 11:43:59 -070057 kMemMapsLock,
Raghu Gandham7de77dd2014-06-13 15:16:31 -070058 kSwapMutexesLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080059 kUnexpectedSignalLock,
60 kThreadSuspendCountLock,
61 kAbortLock,
62 kJdwpSocketLock,
Hiroshi Yamauchi2cd334a2015-01-09 14:03:35 -080063 kRegionSpaceRegionLock,
Mathieu Chartiera5a53ef2014-09-12 12:58:05 -070064 kReferenceQueueSoftReferencesLock,
65 kReferenceQueuePhantomReferencesLock,
66 kReferenceQueueFinalizerReferencesLock,
67 kReferenceQueueWeakReferencesLock,
68 kReferenceQueueClearedReferencesLock,
69 kReferenceProcessorLock,
Mathieu Chartiere5f13e52015-02-24 09:37:21 -080070 kJitCodeCacheLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080071 kRosAllocGlobalLock,
72 kRosAllocBracketLock,
73 kRosAllocBulkFreeLock,
74 kAllocSpaceLock,
Hiroshi Yamauchi2cd334a2015-01-09 14:03:35 -080075 kBumpPointerSpaceBlockLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080076 kDexFileMethodInlinerLock,
77 kDexFileToMethodInlinerMapLock,
78 kMarkSweepMarkStackLock,
79 kTransactionLogLock,
80 kInternTableLock,
Vladimir Marko3f5838d2014-08-07 18:07:18 +010081 kOatFileSecondaryLookupLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080082 kDefaultMutexLevel,
83 kMarkSweepLargeObjectLock,
84 kPinTableLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080085 kJdwpObjectRegistryLock,
Chao-ying Fu9e369312014-05-21 11:20:52 -070086 kModifyLdtLock,
87 kAllocatedThreadIdsLock,
Andreas Gampe74240812014-04-17 10:35:09 -070088 kMonitorPoolLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080089 kClassLinkerClassesLock,
90 kBreakpointLock,
91 kMonitorLock,
Mathieu Chartier440e4ce2014-03-31 16:36:35 -070092 kMonitorListLock,
Ian Rogers68d8b422014-07-17 11:09:10 -070093 kJniLoadLibraryLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080094 kThreadListLock,
95 kBreakpointInvokeLock,
Brian Carlstrom306db812014-09-05 13:01:41 -070096 kAllocTrackerLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080097 kDeoptimizationLock,
Ian Rogers719d1a32014-03-06 12:13:39 -080098 kProfilerLock,
99 kJdwpEventListLock,
100 kJdwpAttachLock,
101 kJdwpStartLock,
102 kRuntimeShutdownLock,
Jeff Hao69dbec62014-09-15 18:03:41 -0700103 kTraceLock,
Ian Rogers719d1a32014-03-06 12:13:39 -0800104 kHeapBitmapLock,
105 kMutatorLock,
Mathieu Chartier9ef78b52014-09-25 17:03:12 -0700106 kInstrumentEntrypointsLock,
Ian Rogers719d1a32014-03-06 12:13:39 -0800107 kZygoteCreationLock,
108
109 kLockLevelCount // Must come last.
110};
111std::ostream& operator<<(std::ostream& os, const LockLevel& rhs);
112
Brian Carlstrom2e250c82013-08-14 18:08:52 -0700113const bool kDebugLocking = kIsDebugBuild;
Ian Rogers25fd14b2012-09-05 10:56:38 -0700114
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700115// Record Log contention information, dumpable via SIGQUIT.
116#ifdef ART_USE_FUTEXES
Jeff Hao08f2e7b2013-09-09 16:44:02 -0700117// To enable lock contention logging, set this to true.
118const bool kLogLockContentions = false;
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700119#else
120// Keep this false as lock contention logging is supported only with
121// futex.
122const bool kLogLockContentions = false;
123#endif
Ian Rogersd9c4fc92013-10-01 19:45:43 -0700124const size_t kContentionLogSize = 4;
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700125const size_t kContentionLogDataSize = kLogLockContentions ? 1 : 0;
126const size_t kAllMutexDataSize = kLogLockContentions ? 1 : 0;
127
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700128// Base class for all Mutex implementations
129class BaseMutex {
130 public:
Ian Rogersbab74962013-04-19 10:04:10 -0700131 const char* GetName() const {
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700132 return name_;
133 }
134
135 virtual bool IsMutex() const { return false; }
136 virtual bool IsReaderWriterMutex() const { return false; }
137
Ian Rogers56edc432013-01-18 16:51:51 -0800138 virtual void Dump(std::ostream& os) const = 0;
139
140 static void DumpAll(std::ostream& os);
141
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700142 protected:
143 friend class ConditionVariable;
144
Ian Rogers81d425b2012-09-27 16:03:43 -0700145 BaseMutex(const char* name, LockLevel level);
Ian Rogers56edc432013-01-18 16:51:51 -0800146 virtual ~BaseMutex();
Ian Rogers81d425b2012-09-27 16:03:43 -0700147 void RegisterAsLocked(Thread* self);
148 void RegisterAsUnlocked(Thread* self);
149 void CheckSafeToWait(Thread* self);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700150
Ian Rogers56edc432013-01-18 16:51:51 -0800151 friend class ScopedContentionRecorder;
152
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700153 void RecordContention(uint64_t blocked_tid, uint64_t owner_tid, uint64_t nano_time_blocked);
Ian Rogers56edc432013-01-18 16:51:51 -0800154 void DumpContention(std::ostream& os) const;
155
Ian Rogers81d425b2012-09-27 16:03:43 -0700156 const LockLevel level_; // Support for lock hierarchy.
Ian Rogersbab74962013-04-19 10:04:10 -0700157 const char* const name_;
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700158
Ian Rogers56edc432013-01-18 16:51:51 -0800159 // A log entry that records contention but makes no guarantee that either tid will be held live.
160 struct ContentionLogEntry {
161 ContentionLogEntry() : blocked_tid(0), owner_tid(0) {}
162 uint64_t blocked_tid;
163 uint64_t owner_tid;
164 AtomicInteger count;
165 };
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700166 struct ContentionLogData {
167 ContentionLogEntry contention_log[kContentionLogSize];
168 // The next entry in the contention log to be updated. Value ranges from 0 to
169 // kContentionLogSize - 1.
170 AtomicInteger cur_content_log_entry;
171 // Number of times the Mutex has been contended.
172 AtomicInteger contention_count;
173 // Sum of time waited by all contenders in ns.
Ian Rogers37f3c962014-07-17 11:25:30 -0700174 Atomic<uint64_t> wait_time;
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700175 void AddToWaitTime(uint64_t value);
176 ContentionLogData() : wait_time(0) {}
177 };
Ian Rogers3e5cf302014-05-20 16:40:37 -0700178 ContentionLogData contention_log_data_[kContentionLogDataSize];
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700179
180 public:
181 bool HasEverContended() const {
182 if (kLogLockContentions) {
Ian Rogers3e5cf302014-05-20 16:40:37 -0700183 return contention_log_data_->contention_count.LoadSequentiallyConsistent() > 0;
Hiroshi Yamauchi1afde132013-08-06 17:09:30 -0700184 }
185 return false;
186 }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700187};
188
189// A Mutex is used to achieve mutual exclusion between threads. A Mutex can be used to gain
190// exclusive access to what it guards. A Mutex can be in one of two states:
191// - Free - not owned by any thread,
192// - Exclusive - owned by a single thread.
193//
194// The effect of locking and unlocking operations on the state is:
195// State | ExclusiveLock | ExclusiveUnlock
196// -------------------------------------------
197// Free | Exclusive | error
198// Exclusive | Block* | Free
199// * Mutex is not reentrant and so an attempt to ExclusiveLock on the same thread will result in
200// an error. Being non-reentrant simplifies Waiting on ConditionVariables.
Ian Rogers01ae5802012-09-28 16:14:01 -0700201std::ostream& operator<<(std::ostream& os, const Mutex& mu);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700202class LOCKABLE Mutex : public BaseMutex {
203 public:
Ian Rogers81d425b2012-09-27 16:03:43 -0700204 explicit Mutex(const char* name, LockLevel level = kDefaultMutexLevel, bool recursive = false);
Elliott Hughes8daa0922011-09-11 13:46:25 -0700205 ~Mutex();
206
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700207 virtual bool IsMutex() const { return true; }
Elliott Hughes8daa0922011-09-11 13:46:25 -0700208
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700209 // Block until mutex is free then acquire exclusive access.
Ian Rogers81d425b2012-09-27 16:03:43 -0700210 void ExclusiveLock(Thread* self) EXCLUSIVE_LOCK_FUNCTION();
211 void Lock(Thread* self) EXCLUSIVE_LOCK_FUNCTION() { ExclusiveLock(self); }
Elliott Hughes8daa0922011-09-11 13:46:25 -0700212
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700213 // Returns true if acquires exclusive access, false otherwise.
Ian Rogers81d425b2012-09-27 16:03:43 -0700214 bool ExclusiveTryLock(Thread* self) EXCLUSIVE_TRYLOCK_FUNCTION(true);
215 bool TryLock(Thread* self) EXCLUSIVE_TRYLOCK_FUNCTION(true) { return ExclusiveTryLock(self); }
Elliott Hughes8daa0922011-09-11 13:46:25 -0700216
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700217 // Release exclusive access.
Ian Rogers81d425b2012-09-27 16:03:43 -0700218 void ExclusiveUnlock(Thread* self) UNLOCK_FUNCTION();
219 void Unlock(Thread* self) UNLOCK_FUNCTION() { ExclusiveUnlock(self); }
Elliott Hughes8daa0922011-09-11 13:46:25 -0700220
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700221 // Is the current thread the exclusive holder of the Mutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700222 bool IsExclusiveHeld(const Thread* self) const;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700223
224 // Assert that the Mutex is exclusively held by the current thread.
Ian Rogers81d425b2012-09-27 16:03:43 -0700225 void AssertExclusiveHeld(const Thread* self) {
Nicolas Geoffraydb978712014-12-09 13:33:38 +0000226 if (kDebugLocking && (gAborting == 0)) {
Ian Rogers01ae5802012-09-28 16:14:01 -0700227 CHECK(IsExclusiveHeld(self)) << *this;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700228 }
229 }
Ian Rogers81d425b2012-09-27 16:03:43 -0700230 void AssertHeld(const Thread* self) { AssertExclusiveHeld(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700231
232 // Assert that the Mutex is not held by the current thread.
Ian Rogers81d425b2012-09-27 16:03:43 -0700233 void AssertNotHeldExclusive(const Thread* self) {
Nicolas Geoffraydb978712014-12-09 13:33:38 +0000234 if (kDebugLocking && (gAborting == 0)) {
Ian Rogers01ae5802012-09-28 16:14:01 -0700235 CHECK(!IsExclusiveHeld(self)) << *this;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700236 }
237 }
Ian Rogers81d425b2012-09-27 16:03:43 -0700238 void AssertNotHeld(const Thread* self) { AssertNotHeldExclusive(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700239
Ian Rogersc7190692014-07-08 23:50:26 -0700240 // Id associated with exclusive owner. No memory ordering semantics if called from a thread other
241 // than the owner.
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700242 uint64_t GetExclusiveOwnerTid() const;
243
244 // Returns how many times this Mutex has been locked, it is better to use AssertHeld/NotHeld.
245 unsigned int GetDepth() const {
246 return recursion_count_;
247 }
Elliott Hughesaccd83d2011-10-17 14:25:58 -0700248
Ian Rogers56edc432013-01-18 16:51:51 -0800249 virtual void Dump(std::ostream& os) const;
Ian Rogers01ae5802012-09-28 16:14:01 -0700250
Elliott Hughesaccd83d2011-10-17 14:25:58 -0700251 private:
Ian Rogersc604d732012-10-14 16:09:54 -0700252#if ART_USE_FUTEXES
253 // 0 is unheld, 1 is held.
Ian Rogersc7190692014-07-08 23:50:26 -0700254 AtomicInteger state_;
Ian Rogersc604d732012-10-14 16:09:54 -0700255 // Exclusive owner.
256 volatile uint64_t exclusive_owner_;
257 // Number of waiting contenders.
Ian Rogersb122a4b2013-11-19 18:00:50 -0800258 AtomicInteger num_contenders_;
Ian Rogersc604d732012-10-14 16:09:54 -0700259#else
Elliott Hughes8daa0922011-09-11 13:46:25 -0700260 pthread_mutex_t mutex_;
Ian Rogersc5f17732014-06-05 20:48:42 -0700261 volatile uint64_t exclusive_owner_; // Guarded by mutex_.
Ian Rogersc604d732012-10-14 16:09:54 -0700262#endif
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700263 const bool recursive_; // Can the lock be recursively held?
264 unsigned int recursion_count_;
Elliott Hughesf1498432012-03-28 19:34:27 -0700265 friend class ConditionVariable;
Elliott Hughes8daa0922011-09-11 13:46:25 -0700266 DISALLOW_COPY_AND_ASSIGN(Mutex);
267};
268
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700269// A ReaderWriterMutex is used to achieve mutual exclusion between threads, similar to a Mutex.
270// Unlike a Mutex a ReaderWriterMutex can be used to gain exclusive (writer) or shared (reader)
271// access to what it guards. A flaw in relation to a Mutex is that it cannot be used with a
272// condition variable. A ReaderWriterMutex can be in one of three states:
273// - Free - not owned by any thread,
274// - Exclusive - owned by a single thread,
275// - Shared(n) - shared amongst n threads.
276//
277// The effect of locking and unlocking operations on the state is:
278//
279// State | ExclusiveLock | ExclusiveUnlock | SharedLock | SharedUnlock
280// ----------------------------------------------------------------------------
281// Free | Exclusive | error | SharedLock(1) | error
282// Exclusive | Block | Free | Block | error
283// Shared(n) | Block | error | SharedLock(n+1)* | Shared(n-1) or Free
284// * for large values of n the SharedLock may block.
Ian Rogers01ae5802012-09-28 16:14:01 -0700285std::ostream& operator<<(std::ostream& os, const ReaderWriterMutex& mu);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700286class LOCKABLE ReaderWriterMutex : public BaseMutex {
Elliott Hughes8daa0922011-09-11 13:46:25 -0700287 public:
Ian Rogers81d425b2012-09-27 16:03:43 -0700288 explicit ReaderWriterMutex(const char* name, LockLevel level = kDefaultMutexLevel);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700289 ~ReaderWriterMutex();
290
291 virtual bool IsReaderWriterMutex() const { return true; }
292
293 // Block until ReaderWriterMutex is free then acquire exclusive access.
Ian Rogers81d425b2012-09-27 16:03:43 -0700294 void ExclusiveLock(Thread* self) EXCLUSIVE_LOCK_FUNCTION();
295 void WriterLock(Thread* self) EXCLUSIVE_LOCK_FUNCTION() { ExclusiveLock(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700296
297 // Release exclusive access.
Ian Rogers81d425b2012-09-27 16:03:43 -0700298 void ExclusiveUnlock(Thread* self) UNLOCK_FUNCTION();
299 void WriterUnlock(Thread* self) UNLOCK_FUNCTION() { ExclusiveUnlock(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700300
301 // Block until ReaderWriterMutex is free and acquire exclusive access. Returns true on success
302 // or false if timeout is reached.
Ian Rogers66aee5c2012-08-15 17:17:47 -0700303#if HAVE_TIMED_RWLOCK
Ian Rogersc604d732012-10-14 16:09:54 -0700304 bool ExclusiveLockWithTimeout(Thread* self, int64_t ms, int32_t ns)
Ian Rogers81d425b2012-09-27 16:03:43 -0700305 EXCLUSIVE_TRYLOCK_FUNCTION(true);
Ian Rogers66aee5c2012-08-15 17:17:47 -0700306#endif
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700307
308 // Block until ReaderWriterMutex is shared or free then acquire a share on the access.
Ian Rogers1ffa32f2013-02-05 18:29:08 -0800309 void SharedLock(Thread* self) SHARED_LOCK_FUNCTION() ALWAYS_INLINE;
Ian Rogers81d425b2012-09-27 16:03:43 -0700310 void ReaderLock(Thread* self) SHARED_LOCK_FUNCTION() { SharedLock(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700311
312 // Try to acquire share of ReaderWriterMutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700313 bool SharedTryLock(Thread* self) EXCLUSIVE_TRYLOCK_FUNCTION(true);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700314
315 // Release a share of the access.
Ian Rogers1ffa32f2013-02-05 18:29:08 -0800316 void SharedUnlock(Thread* self) UNLOCK_FUNCTION() ALWAYS_INLINE;
Ian Rogers81d425b2012-09-27 16:03:43 -0700317 void ReaderUnlock(Thread* self) UNLOCK_FUNCTION() { SharedUnlock(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700318
319 // Is the current thread the exclusive holder of the ReaderWriterMutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700320 bool IsExclusiveHeld(const Thread* self) const;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700321
322 // Assert the current thread has exclusive access to the ReaderWriterMutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700323 void AssertExclusiveHeld(const Thread* self) {
Nicolas Geoffraydb978712014-12-09 13:33:38 +0000324 if (kDebugLocking && (gAborting == 0)) {
Ian Rogers01ae5802012-09-28 16:14:01 -0700325 CHECK(IsExclusiveHeld(self)) << *this;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700326 }
327 }
Ian Rogers81d425b2012-09-27 16:03:43 -0700328 void AssertWriterHeld(const Thread* self) { AssertExclusiveHeld(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700329
330 // Assert the current thread doesn't have exclusive access to the ReaderWriterMutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700331 void AssertNotExclusiveHeld(const Thread* self) {
Nicolas Geoffraydb978712014-12-09 13:33:38 +0000332 if (kDebugLocking && (gAborting == 0)) {
Ian Rogerse3359f72013-06-11 15:14:11 -0700333 CHECK(!IsExclusiveHeld(self)) << *this;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700334 }
335 }
Ian Rogers81d425b2012-09-27 16:03:43 -0700336 void AssertNotWriterHeld(const Thread* self) { AssertNotExclusiveHeld(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700337
338 // Is the current thread a shared holder of the ReaderWriterMutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700339 bool IsSharedHeld(const Thread* self) const;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700340
341 // Assert the current thread has shared access to the ReaderWriterMutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700342 void AssertSharedHeld(const Thread* self) {
Nicolas Geoffraydb978712014-12-09 13:33:38 +0000343 if (kDebugLocking && (gAborting == 0)) {
Ian Rogers23055dc2013-04-18 16:29:16 -0700344 // TODO: we can only assert this well when self != NULL.
345 CHECK(IsSharedHeld(self) || self == NULL) << *this;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700346 }
347 }
Ian Rogers81d425b2012-09-27 16:03:43 -0700348 void AssertReaderHeld(const Thread* self) { AssertSharedHeld(self); }
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700349
350 // Assert the current thread doesn't hold this ReaderWriterMutex either in shared or exclusive
351 // mode.
Ian Rogers81d425b2012-09-27 16:03:43 -0700352 void AssertNotHeld(const Thread* self) {
Nicolas Geoffraydb978712014-12-09 13:33:38 +0000353 if (kDebugLocking && (gAborting == 0)) {
Ian Rogers01ae5802012-09-28 16:14:01 -0700354 CHECK(!IsSharedHeld(self)) << *this;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700355 }
Elliott Hughes8daa0922011-09-11 13:46:25 -0700356 }
357
Ian Rogersc7190692014-07-08 23:50:26 -0700358 // Id associated with exclusive owner. No memory ordering semantics if called from a thread other
359 // than the owner.
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700360 uint64_t GetExclusiveOwnerTid() const;
Elliott Hughes8daa0922011-09-11 13:46:25 -0700361
Ian Rogers56edc432013-01-18 16:51:51 -0800362 virtual void Dump(std::ostream& os) const;
Ian Rogers01ae5802012-09-28 16:14:01 -0700363
Ian Rogers81d425b2012-09-27 16:03:43 -0700364 private:
Ian Rogers51d212e2014-10-23 17:48:20 -0700365#if ART_USE_FUTEXES
Ian Rogerscf7f1912014-10-22 22:06:39 -0700366 // Out-of-inline path for handling contention for a SharedLock.
367 void HandleSharedLockContention(Thread* self, int32_t cur_state);
368
Ian Rogers81d425b2012-09-27 16:03:43 -0700369 // -1 implies held exclusive, +ve shared held by state_ many owners.
Ian Rogersc7190692014-07-08 23:50:26 -0700370 AtomicInteger state_;
371 // Exclusive owner. Modification guarded by this mutex.
Ian Rogers81d425b2012-09-27 16:03:43 -0700372 volatile uint64_t exclusive_owner_;
Ian Rogersc7190692014-07-08 23:50:26 -0700373 // Number of contenders waiting for a reader share.
374 AtomicInteger num_pending_readers_;
375 // Number of contenders waiting to be the writer.
Ian Rogersb122a4b2013-11-19 18:00:50 -0800376 AtomicInteger num_pending_writers_;
Ian Rogers81d425b2012-09-27 16:03:43 -0700377#else
378 pthread_rwlock_t rwlock_;
Ian Rogersc5f17732014-06-05 20:48:42 -0700379 volatile uint64_t exclusive_owner_; // Guarded by rwlock_.
Ian Rogers81d425b2012-09-27 16:03:43 -0700380#endif
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700381 DISALLOW_COPY_AND_ASSIGN(ReaderWriterMutex);
382};
383
384// ConditionVariables allow threads to queue and sleep. Threads may then be resumed individually
385// (Signal) or all at once (Broadcast).
Elliott Hughes5f791332011-09-15 17:45:30 -0700386class ConditionVariable {
387 public:
Ian Rogers23055dc2013-04-18 16:29:16 -0700388 explicit ConditionVariable(const char* name, Mutex& mutex);
Elliott Hughes5f791332011-09-15 17:45:30 -0700389 ~ConditionVariable();
390
Ian Rogersc604d732012-10-14 16:09:54 -0700391 void Broadcast(Thread* self);
392 void Signal(Thread* self);
393 // TODO: No thread safety analysis on Wait and TimedWait as they call mutex operations via their
394 // pointer copy, thereby defeating annotalysis.
395 void Wait(Thread* self) NO_THREAD_SAFETY_ANALYSIS;
Ian Rogers7b078e82014-09-10 14:44:24 -0700396 bool TimedWait(Thread* self, int64_t ms, int32_t ns) NO_THREAD_SAFETY_ANALYSIS;
Ian Rogers1d54e732013-05-02 21:10:01 -0700397 // Variant of Wait that should be used with caution. Doesn't validate that no mutexes are held
398 // when waiting.
399 // TODO: remove this.
400 void WaitHoldingLocks(Thread* self) NO_THREAD_SAFETY_ANALYSIS;
Elliott Hughes5f791332011-09-15 17:45:30 -0700401
402 private:
Ian Rogers23055dc2013-04-18 16:29:16 -0700403 const char* const name_;
Ian Rogersc604d732012-10-14 16:09:54 -0700404 // The Mutex being used by waiters. It is an error to mix condition variables between different
405 // Mutexes.
406 Mutex& guard_;
407#if ART_USE_FUTEXES
408 // A counter that is modified by signals and broadcasts. This ensures that when a waiter gives up
Ian Rogersd45f2012012-11-28 11:46:23 -0800409 // their Mutex and another thread takes it and signals, the waiting thread observes that sequence_
410 // changed and doesn't enter the wait. Modified while holding guard_, but is read by futex wait
411 // without guard_ held.
Ian Rogersb122a4b2013-11-19 18:00:50 -0800412 AtomicInteger sequence_;
Ian Rogersc604d732012-10-14 16:09:54 -0700413 // Number of threads that have come into to wait, not the length of the waiters on the futex as
Ian Rogers5bd97c42012-11-27 02:38:26 -0800414 // waiters may have been requeued onto guard_. Guarded by guard_.
Ian Rogersc604d732012-10-14 16:09:54 -0700415 volatile int32_t num_waiters_;
Ian Rogersc604d732012-10-14 16:09:54 -0700416#else
417 pthread_cond_t cond_;
418#endif
Elliott Hughes5f791332011-09-15 17:45:30 -0700419 DISALLOW_COPY_AND_ASSIGN(ConditionVariable);
420};
421
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700422// Scoped locker/unlocker for a regular Mutex that acquires mu upon construction and releases it
423// upon destruction.
424class SCOPED_LOCKABLE MutexLock {
425 public:
Ian Rogers81d425b2012-09-27 16:03:43 -0700426 explicit MutexLock(Thread* self, Mutex& mu) EXCLUSIVE_LOCK_FUNCTION(mu) : self_(self), mu_(mu) {
427 mu_.ExclusiveLock(self_);
428 }
429
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700430 ~MutexLock() UNLOCK_FUNCTION() {
Ian Rogers81d425b2012-09-27 16:03:43 -0700431 mu_.ExclusiveUnlock(self_);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700432 }
433
434 private:
Ian Rogers81d425b2012-09-27 16:03:43 -0700435 Thread* const self_;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700436 Mutex& mu_;
437 DISALLOW_COPY_AND_ASSIGN(MutexLock);
438};
439// Catch bug where variable name is omitted. "MutexLock (lock);" instead of "MutexLock mu(lock)".
Andreas Gampe575e78c2014-11-03 23:41:03 -0800440#define MutexLock(x) static_assert(0, "MutexLock declaration missing variable name")
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700441
442// Scoped locker/unlocker for a ReaderWriterMutex that acquires read access to mu upon
443// construction and releases it upon destruction.
444class SCOPED_LOCKABLE ReaderMutexLock {
445 public:
Ian Rogers81d425b2012-09-27 16:03:43 -0700446 explicit ReaderMutexLock(Thread* self, ReaderWriterMutex& mu) EXCLUSIVE_LOCK_FUNCTION(mu) :
447 self_(self), mu_(mu) {
448 mu_.SharedLock(self_);
449 }
450
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700451 ~ReaderMutexLock() UNLOCK_FUNCTION() {
Ian Rogers81d425b2012-09-27 16:03:43 -0700452 mu_.SharedUnlock(self_);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700453 }
454
455 private:
Ian Rogers81d425b2012-09-27 16:03:43 -0700456 Thread* const self_;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700457 ReaderWriterMutex& mu_;
458 DISALLOW_COPY_AND_ASSIGN(ReaderMutexLock);
459};
460// Catch bug where variable name is omitted. "ReaderMutexLock (lock);" instead of
461// "ReaderMutexLock mu(lock)".
Andreas Gampe575e78c2014-11-03 23:41:03 -0800462#define ReaderMutexLock(x) static_assert(0, "ReaderMutexLock declaration missing variable name")
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700463
464// Scoped locker/unlocker for a ReaderWriterMutex that acquires write access to mu upon
465// construction and releases it upon destruction.
466class SCOPED_LOCKABLE WriterMutexLock {
467 public:
Ian Rogers81d425b2012-09-27 16:03:43 -0700468 explicit WriterMutexLock(Thread* self, ReaderWriterMutex& mu) EXCLUSIVE_LOCK_FUNCTION(mu) :
469 self_(self), mu_(mu) {
470 mu_.ExclusiveLock(self_);
471 }
472
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700473 ~WriterMutexLock() UNLOCK_FUNCTION() {
Ian Rogers81d425b2012-09-27 16:03:43 -0700474 mu_.ExclusiveUnlock(self_);
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700475 }
476
477 private:
Ian Rogers50b35e22012-10-04 10:09:15 -0700478 Thread* const self_;
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700479 ReaderWriterMutex& mu_;
480 DISALLOW_COPY_AND_ASSIGN(WriterMutexLock);
481};
482// Catch bug where variable name is omitted. "WriterMutexLock (lock);" instead of
483// "WriterMutexLock mu(lock)".
Andreas Gampe575e78c2014-11-03 23:41:03 -0800484#define WriterMutexLock(x) static_assert(0, "WriterMutexLock declaration missing variable name")
Ian Rogers00f7d0e2012-07-19 15:28:27 -0700485
Ian Rogers719d1a32014-03-06 12:13:39 -0800486// Global mutexes corresponding to the levels above.
487class Locks {
488 public:
489 static void Init();
Mathieu Chartier91e56692015-03-03 13:51:04 -0800490 static void InitConditions() NO_THREAD_SAFETY_ANALYSIS; // Condition variables.
Mathieu Chartier9ef78b52014-09-25 17:03:12 -0700491 // Guards allocation entrypoint instrumenting.
Ian Rogers4ad5cd32014-11-11 23:08:07 -0800492 static Mutex* instrument_entrypoints_lock_;
Mathieu Chartier9ef78b52014-09-25 17:03:12 -0700493
Ian Rogers719d1a32014-03-06 12:13:39 -0800494 // The mutator_lock_ is used to allow mutators to execute in a shared (reader) mode or to block
495 // mutators by having an exclusive (writer) owner. In normal execution each mutator thread holds
496 // a share on the mutator_lock_. The garbage collector may also execute with shared access but
497 // at times requires exclusive access to the heap (not to be confused with the heap meta-data
498 // guarded by the heap_lock_ below). When the garbage collector requires exclusive access it asks
499 // the mutators to suspend themselves which also involves usage of the thread_suspend_count_lock_
500 // to cover weaknesses in using ReaderWriterMutexes with ConditionVariables. We use a condition
501 // variable to wait upon in the suspension logic as releasing and then re-acquiring a share on
502 // the mutator lock doesn't necessarily allow the exclusive user (e.g the garbage collector)
503 // chance to acquire the lock.
504 //
505 // Thread suspension:
506 // Shared users | Exclusive user
507 // (holding mutator lock and in kRunnable state) | .. running ..
508 // .. running .. | Request thread suspension by:
509 // .. running .. | - acquiring thread_suspend_count_lock_
510 // .. running .. | - incrementing Thread::suspend_count_ on
511 // .. running .. | all mutator threads
512 // .. running .. | - releasing thread_suspend_count_lock_
513 // .. running .. | Block trying to acquire exclusive mutator lock
514 // Poll Thread::suspend_count_ and enter full | .. blocked ..
515 // suspend code. | .. blocked ..
516 // Change state to kSuspended | .. blocked ..
517 // x: Release share on mutator_lock_ | Carry out exclusive access
518 // Acquire thread_suspend_count_lock_ | .. exclusive ..
519 // while Thread::suspend_count_ > 0 | .. exclusive ..
520 // - wait on Thread::resume_cond_ | .. exclusive ..
521 // (releases thread_suspend_count_lock_) | .. exclusive ..
522 // .. waiting .. | Release mutator_lock_
523 // .. waiting .. | Request thread resumption by:
524 // .. waiting .. | - acquiring thread_suspend_count_lock_
525 // .. waiting .. | - decrementing Thread::suspend_count_ on
526 // .. waiting .. | all mutator threads
527 // .. waiting .. | - notifying on Thread::resume_cond_
528 // - re-acquire thread_suspend_count_lock_ | - releasing thread_suspend_count_lock_
529 // Release thread_suspend_count_lock_ | .. running ..
530 // Acquire share on mutator_lock_ | .. running ..
531 // - This could block but the thread still | .. running ..
532 // has a state of kSuspended and so this | .. running ..
533 // isn't an issue. | .. running ..
534 // Acquire thread_suspend_count_lock_ | .. running ..
535 // - we poll here as we're transitioning into | .. running ..
536 // kRunnable and an individual thread suspend | .. running ..
537 // request (e.g for debugging) won't try | .. running ..
538 // to acquire the mutator lock (which would | .. running ..
539 // block as we hold the mutator lock). This | .. running ..
540 // poll ensures that if the suspender thought | .. running ..
541 // we were suspended by incrementing our | .. running ..
542 // Thread::suspend_count_ and then reading | .. running ..
543 // our state we go back to waiting on | .. running ..
544 // Thread::resume_cond_. | .. running ..
545 // can_go_runnable = Thread::suspend_count_ == 0 | .. running ..
546 // Release thread_suspend_count_lock_ | .. running ..
547 // if can_go_runnable | .. running ..
548 // Change state to kRunnable | .. running ..
549 // else | .. running ..
550 // Goto x | .. running ..
551 // .. running .. | .. running ..
Mathieu Chartier9ef78b52014-09-25 17:03:12 -0700552 static ReaderWriterMutex* mutator_lock_ ACQUIRED_AFTER(instrument_entrypoints_lock_);
Ian Rogers719d1a32014-03-06 12:13:39 -0800553
554 // Allow reader-writer mutual exclusion on the mark and live bitmaps of the heap.
555 static ReaderWriterMutex* heap_bitmap_lock_ ACQUIRED_AFTER(mutator_lock_);
556
557 // Guards shutdown of the runtime.
558 static Mutex* runtime_shutdown_lock_ ACQUIRED_AFTER(heap_bitmap_lock_);
559
Chao-ying Fu9e369312014-05-21 11:20:52 -0700560 // Guards background profiler global state.
561 static Mutex* profiler_lock_ ACQUIRED_AFTER(runtime_shutdown_lock_);
562
563 // Guards trace (ie traceview) requests.
564 static Mutex* trace_lock_ ACQUIRED_AFTER(profiler_lock_);
565
Brian Carlstrom306db812014-09-05 13:01:41 -0700566 // Guards debugger recent allocation records.
567 static Mutex* alloc_tracker_lock_ ACQUIRED_AFTER(trace_lock_);
568
569 // Guards updates to instrumentation to ensure mutual exclusion of
570 // events like deoptimization requests.
571 // TODO: improve name, perhaps instrumentation_update_lock_.
572 static Mutex* deoptimization_lock_ ACQUIRED_AFTER(alloc_tracker_lock_);
573
Ian Rogers719d1a32014-03-06 12:13:39 -0800574 // The thread_list_lock_ guards ThreadList::list_. It is also commonly held to stop threads
575 // attaching and detaching.
Brian Carlstrom306db812014-09-05 13:01:41 -0700576 static Mutex* thread_list_lock_ ACQUIRED_AFTER(deoptimization_lock_);
Ian Rogers719d1a32014-03-06 12:13:39 -0800577
Mathieu Chartier91e56692015-03-03 13:51:04 -0800578 // Signaled when threads terminate. Used to determine when all non-daemons have terminated.
579 static ConditionVariable* thread_exit_cond_ GUARDED_BY(Locks::thread_list_lock_);
580
Ian Rogers68d8b422014-07-17 11:09:10 -0700581 // Guards maintaining loading library data structures.
582 static Mutex* jni_libraries_lock_ ACQUIRED_AFTER(thread_list_lock_);
583
Ian Rogers719d1a32014-03-06 12:13:39 -0800584 // Guards breakpoints.
Sebastien Hertzed2be172014-08-19 15:33:43 +0200585 static ReaderWriterMutex* breakpoint_lock_ ACQUIRED_AFTER(jni_libraries_lock_);
Ian Rogers719d1a32014-03-06 12:13:39 -0800586
Ian Rogers719d1a32014-03-06 12:13:39 -0800587 // Guards lists of classes within the class linker.
Chao-ying Fu9e369312014-05-21 11:20:52 -0700588 static ReaderWriterMutex* classlinker_classes_lock_ ACQUIRED_AFTER(breakpoint_lock_);
Ian Rogers719d1a32014-03-06 12:13:39 -0800589
590 // When declaring any Mutex add DEFAULT_MUTEX_ACQUIRED_AFTER to use annotalysis to check the code
591 // doesn't try to hold a higher level Mutex.
592 #define DEFAULT_MUTEX_ACQUIRED_AFTER ACQUIRED_AFTER(Locks::classlinker_classes_lock_)
593
Andreas Gampe74240812014-04-17 10:35:09 -0700594 static Mutex* allocated_monitor_ids_lock_ ACQUIRED_AFTER(classlinker_classes_lock_);
595
Chao-ying Fu9e369312014-05-21 11:20:52 -0700596 // Guard the allocation/deallocation of thread ids.
Andreas Gampe74240812014-04-17 10:35:09 -0700597 static Mutex* allocated_thread_ids_lock_ ACQUIRED_AFTER(allocated_monitor_ids_lock_);
Chao-ying Fu9e369312014-05-21 11:20:52 -0700598
599 // Guards modification of the LDT on x86.
600 static Mutex* modify_ldt_lock_ ACQUIRED_AFTER(allocated_thread_ids_lock_);
601
Ian Rogers719d1a32014-03-06 12:13:39 -0800602 // Guards intern table.
Chao-ying Fu9e369312014-05-21 11:20:52 -0700603 static Mutex* intern_table_lock_ ACQUIRED_AFTER(modify_ldt_lock_);
Ian Rogers719d1a32014-03-06 12:13:39 -0800604
Mathieu Chartiera5a53ef2014-09-12 12:58:05 -0700605 // Guards reference processor.
606 static Mutex* reference_processor_lock_ ACQUIRED_AFTER(intern_table_lock_);
607
608 // Guards cleared references queue.
609 static Mutex* reference_queue_cleared_references_lock_ ACQUIRED_AFTER(reference_processor_lock_);
610
611 // Guards weak references queue.
612 static Mutex* reference_queue_weak_references_lock_ ACQUIRED_AFTER(reference_queue_cleared_references_lock_);
613
614 // Guards finalizer references queue.
615 static Mutex* reference_queue_finalizer_references_lock_ ACQUIRED_AFTER(reference_queue_weak_references_lock_);
616
617 // Guards phantom references queue.
618 static Mutex* reference_queue_phantom_references_lock_ ACQUIRED_AFTER(reference_queue_finalizer_references_lock_);
619
620 // Guards soft references queue.
621 static Mutex* reference_queue_soft_references_lock_ ACQUIRED_AFTER(reference_queue_phantom_references_lock_);
622
Ian Rogers719d1a32014-03-06 12:13:39 -0800623 // Have an exclusive aborting thread.
Mathieu Chartiera5a53ef2014-09-12 12:58:05 -0700624 static Mutex* abort_lock_ ACQUIRED_AFTER(reference_queue_soft_references_lock_);
Ian Rogers719d1a32014-03-06 12:13:39 -0800625
626 // Allow mutual exclusion when manipulating Thread::suspend_count_.
627 // TODO: Does the trade-off of a per-thread lock make sense?
628 static Mutex* thread_suspend_count_lock_ ACQUIRED_AFTER(abort_lock_);
629
630 // One unexpected signal at a time lock.
631 static Mutex* unexpected_signal_lock_ ACQUIRED_AFTER(thread_suspend_count_lock_);
632
Hiroshi Yamauchi3eed93d2014-06-04 11:43:59 -0700633 // Guards the maps in mem_map.
634 static Mutex* mem_maps_lock_ ACQUIRED_AFTER(unexpected_signal_lock_);
635
Ian Rogers719d1a32014-03-06 12:13:39 -0800636 // Have an exclusive logging thread.
637 static Mutex* logging_lock_ ACQUIRED_AFTER(unexpected_signal_lock_);
638};
639
Elliott Hughes8daa0922011-09-11 13:46:25 -0700640} // namespace art
641
Brian Carlstromfc0e3212013-07-17 14:40:12 -0700642#endif // ART_RUNTIME_BASE_MUTEX_H_