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1/*
2 * Copyright (C) 2005, 2008 Apple Inc. All rights reserved.
3 *
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Library General Public
6 * License as published by the Free Software Foundation; either
7 * version 2 of the License, or (at your option) any later version.
8 *
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the NU
12 * Library General Public License for more details.
13 *
14 * You should have received a copy of the GNU Library General Public License
15 * along with this library; see the file COPYING.LIB. If not, write to
16 * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
17 * Boston, MA 02110-1301, USA
18 *
19 */
20
21#include "config.h"
22#include "JSLock.h"
23
24#include "Collector.h"
25#include "CallFrame.h"
26
27#if ENABLE(JSC_MULTIPLE_THREADS)
28#include <pthread.h>
29#endif
30
31namespace JSC {
32
33#if ENABLE(JSC_MULTIPLE_THREADS)
34
35// Acquire this mutex before accessing lock-related data.
36static pthread_mutex_t JSMutex = PTHREAD_MUTEX_INITIALIZER;
37
38// Thread-specific key that tells whether a thread holds the JSMutex, and how many times it was taken recursively.
39pthread_key_t JSLockCount;
40
41static void createJSLockCount()
42{
43 pthread_key_create(&JSLockCount, 0);
44}
45
46pthread_once_t createJSLockCountOnce = PTHREAD_ONCE_INIT;
47
48// Lock nesting count.
49intptr_t JSLock::lockCount()
50{
51 pthread_once(&createJSLockCountOnce, createJSLockCount);
52
53 return reinterpret_cast<intptr_t>(pthread_getspecific(JSLockCount));
54}
55
56static void setLockCount(intptr_t count)
57{
58 ASSERT(count >= 0);
59 pthread_setspecific(JSLockCount, reinterpret_cast<void*>(count));
60}
61
62JSLock::JSLock(ExecState* exec)
63 : m_lockBehavior(exec->globalData().isSharedInstance ? LockForReal : SilenceAssertionsOnly)
64{
65 lock(m_lockBehavior);
66}
67
68void JSLock::lock(JSLockBehavior lockBehavior)
69{
70#ifdef NDEBUG
71 // Locking "not for real" is a debug-only feature.
72 if (lockBehavior == SilenceAssertionsOnly)
73 return;
74#endif
75
76 pthread_once(&createJSLockCountOnce, createJSLockCount);
77
78 intptr_t currentLockCount = lockCount();
79 if (!currentLockCount && lockBehavior == LockForReal) {
80 int result;
81 result = pthread_mutex_lock(&JSMutex);
82 ASSERT(!result);
83 }
84 setLockCount(currentLockCount + 1);
85}
86
87void JSLock::unlock(JSLockBehavior lockBehavior)
88{
89 ASSERT(lockCount());
90
91#ifdef NDEBUG
92 // Locking "not for real" is a debug-only feature.
93 if (lockBehavior == SilenceAssertionsOnly)
94 return;
95#endif
96
97 intptr_t newLockCount = lockCount() - 1;
98 setLockCount(newLockCount);
99 if (!newLockCount && lockBehavior == LockForReal) {
100 int result;
101 result = pthread_mutex_unlock(&JSMutex);
102 ASSERT(!result);
103 }
104}
105
106void JSLock::lock(ExecState* exec)
107{
108 lock(exec->globalData().isSharedInstance ? LockForReal : SilenceAssertionsOnly);
109}
110
111void JSLock::unlock(ExecState* exec)
112{
113 unlock(exec->globalData().isSharedInstance ? LockForReal : SilenceAssertionsOnly);
114}
115
116bool JSLock::currentThreadIsHoldingLock()
117{
118 pthread_once(&createJSLockCountOnce, createJSLockCount);
119 return !!pthread_getspecific(JSLockCount);
120}
121
122// This is fairly nasty. We allow multiple threads to run on the same
123// context, and we do not require any locking semantics in doing so -
124// clients of the API may simply use the context from multiple threads
125// concurently, and assume this will work. In order to make this work,
126// We lock the context when a thread enters, and unlock it when it leaves.
127// However we do not only unlock when the thread returns from its
128// entry point (evaluate script or call function), we also unlock the
129// context if the thread leaves JSC by making a call out to an external
130// function through a callback.
131//
132// All threads using the context share the same JS stack (the RegisterFile).
133// Whenever a thread calls into JSC it starts using the RegisterFile from the
134// previous 'high water mark' - the maximum point the stack has ever grown to
135// (returned by RegisterFile::end()). So if a first thread calls out to a
136// callback, and a second thread enters JSC, then also exits by calling out
137// to a callback, we can be left with stackframes from both threads in the
138// RegisterFile. As such, a problem may occur should the first thread's
139// callback complete first, and attempt to return to JSC. Were we to allow
140// this to happen, and were its stack to grow further, then it may potentially
141// write over the second thread's call frames.
142//
143// In avoid JS stack corruption we enforce a policy of only ever allowing two
144// threads to use a JS context concurrently, and only allowing the second of
145// these threads to execute until it has completed and fully returned from its
146// outermost call into JSC. We enforce this policy using 'lockDropDepth'. The
147// first time a thread exits it will call DropAllLocks - which will do as expected
148// and drop locks allowing another thread to enter. Should another thread, or the
149// same thread again, enter JSC (through evaluate script or call function), and exit
150// again through a callback, then the locks will not be dropped when DropAllLocks
151// is called (since lockDropDepth is non-zero). Since this thread is still holding
152// the locks, only it will re able to re-enter JSC (either be returning from the
153// callback, or by re-entering through another call to evaulate script or call
154// function).
155//
156// This policy is slightly more restricive than it needs to be for correctness -
157// we could validly allow futher entries into JSC from other threads, we only
158// need ensure that callbacks return in the reverse chronological order of the
159// order in which they were made - though implementing the less restrictive policy
160// would likely increase complexity and overhead.
161//
162static unsigned lockDropDepth = 0;
163
164JSLock::DropAllLocks::DropAllLocks(ExecState* exec)
165 : m_lockBehavior(exec->globalData().isSharedInstance ? LockForReal : SilenceAssertionsOnly)
166{
167 pthread_once(&createJSLockCountOnce, createJSLockCount);
168
169 if (lockDropDepth++) {
170 m_lockCount = 0;
171 return;
172 }
173
174 m_lockCount = JSLock::lockCount();
175 for (intptr_t i = 0; i < m_lockCount; i++)
176 JSLock::unlock(m_lockBehavior);
177}
178
179JSLock::DropAllLocks::DropAllLocks(JSLockBehavior JSLockBehavior)
180 : m_lockBehavior(JSLockBehavior)
181{
182 pthread_once(&createJSLockCountOnce, createJSLockCount);
183
184 if (lockDropDepth++) {
185 m_lockCount = 0;
186 return;
187 }
188
189 // It is necessary to drop even "unreal" locks, because having a non-zero lock count
190 // will prevent a real lock from being taken.
191
192 m_lockCount = JSLock::lockCount();
193 for (intptr_t i = 0; i < m_lockCount; i++)
194 JSLock::unlock(m_lockBehavior);
195}
196
197JSLock::DropAllLocks::~DropAllLocks()
198{
199 for (intptr_t i = 0; i < m_lockCount; i++)
200 JSLock::lock(m_lockBehavior);
201
202 --lockDropDepth;
203}
204
205#else
206
207JSLock::JSLock(ExecState*)
208 : m_lockBehavior(SilenceAssertionsOnly)
209{
210}
211
212// If threading support is off, set the lock count to a constant value of 1 so ssertions
213// that the lock is held don't fail
214intptr_t JSLock::lockCount()
215{
216 return 1;
217}
218
219bool JSLock::currentThreadIsHoldingLock()
220{
221 return true;
222}
223
224void JSLock::lock(JSLockBehavior)
225{
226}
227
228void JSLock::unlock(JSLockBehavior)
229{
230}
231
232void JSLock::lock(ExecState*)
233{
234}
235
236void JSLock::unlock(ExecState*)
237{
238}
239
240JSLock::DropAllLocks::DropAllLocks(ExecState*)
241{
242}
243
244JSLock::DropAllLocks::DropAllLocks(JSLockBehavior)
245{
246}
247
248JSLock::DropAllLocks::~DropAllLocks()
249{
250}
251
252#endif // USE(MULTIPLE_THREADS)
253
254} // namespace JSC