1 | /** @file
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2 | *
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3 | * AutoWriteLock/AutoReadLock: smart R/W semaphore wrappers
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4 | */
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5 |
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6 | /*
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7 | * Copyright (C) 2006-2008 Sun Microsystems, Inc.
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8 | *
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9 | * This file is part of VirtualBox Open Source Edition (OSE), as
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10 | * available from http://www.virtualbox.org. This file is free software;
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11 | * you can redistribute it and/or modify it under the terms of the GNU
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12 | * General Public License (GPL) as published by the Free Software
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13 | * Foundation, in version 2 as it comes in the "COPYING" file of the
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14 | * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
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15 | * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
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16 | *
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17 | * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
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18 | * Clara, CA 95054 USA or visit http://www.sun.com if you need
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19 | * additional information or have any questions.
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20 | */
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21 |
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22 | #ifndef ____H_AUTOLOCK
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23 | #define ____H_AUTOLOCK
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24 |
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25 | #include <iprt/cdefs.h>
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26 | #include <iprt/types.h>
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27 | #include <iprt/critsect.h>
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28 | #include <iprt/thread.h>
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29 | #include <iprt/semaphore.h>
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30 |
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31 | #include <iprt/err.h>
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32 | #include <iprt/assert.h>
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33 |
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34 | #if defined(DEBUG)
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35 | # include <iprt/asm.h> // for ASMReturnAddress
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36 | #endif
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37 |
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38 | #include <iprt/semaphore.h>
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39 |
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40 | namespace util
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41 | {
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42 |
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43 | /**
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44 | * Abstract lock operations. See LockHandle and AutoWriteLock for details.
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45 | */
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46 | class LockOps
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47 | {
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48 | public:
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49 |
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50 | virtual ~LockOps() {}
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51 |
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52 | virtual void lock() = 0;
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53 | virtual void unlock() = 0;
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54 | };
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55 |
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56 | /**
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57 | * Read lock operations. See LockHandle and AutoWriteLock for details.
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58 | */
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59 | class ReadLockOps : public LockOps
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60 | {
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61 | public:
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62 |
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63 | /**
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64 | * Requests a read (shared) lock.
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65 | */
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66 | virtual void lockRead() = 0;
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67 |
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68 | /**
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69 | * Releases a read (shared) lock ackquired by lockRead().
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70 | */
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71 | virtual void unlockRead() = 0;
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72 |
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73 | // LockOps interface
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74 | void lock() { lockRead(); }
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75 | void unlock() { unlockRead(); }
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76 | };
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77 |
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78 | /**
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79 | * Write lock operations. See LockHandle and AutoWriteLock for details.
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80 | */
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81 | class WriteLockOps : public LockOps
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82 | {
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83 | public:
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84 |
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85 | /**
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86 | * Requests a write (exclusive) lock.
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87 | */
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88 | virtual void lockWrite() = 0;
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89 |
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90 | /**
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91 | * Releases a write (exclusive) lock ackquired by lockWrite().
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92 | */
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93 | virtual void unlockWrite() = 0;
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94 |
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95 | // LockOps interface
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96 | void lock() { lockWrite(); }
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97 | void unlock() { unlockWrite(); }
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98 | };
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99 |
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100 | /**
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101 | * Abstract read/write semaphore handle.
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102 | *
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103 | * This is a base class to implement semaphores that provide read/write locking.
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104 | * Subclasses must implement all pure virtual methods of this class together
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105 | * with pure methods of ReadLockOps and WriteLockOps classes.
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106 | *
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107 | * See the AutoWriteLock class documentation for the detailed description of
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108 | * read and write locks.
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109 | */
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110 | class LockHandle : protected ReadLockOps, protected WriteLockOps
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111 | {
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112 | public:
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113 |
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114 | LockHandle() {}
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115 | virtual ~LockHandle() {}
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116 |
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117 | /**
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118 | * Returns @c true if the current thread holds a write lock on this
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119 | * read/write semaphore. Intended for debugging only.
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120 | */
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121 | virtual bool isWriteLockOnCurrentThread() const = 0;
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122 |
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123 | /**
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124 | * Returns the current write lock level of this semaphore. The lock level
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125 | * determines the number of nested #lock() calls on the given semaphore
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126 | * handle.
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127 | *
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128 | * Note that this call is valid only when the current thread owns a write
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129 | * lock on the given semaphore handle and will assert otherwise.
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130 | */
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131 | virtual uint32_t writeLockLevel() const = 0;
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132 |
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133 | /**
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134 | * Returns an interface to read lock operations of this semaphore.
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135 | * Used by constructors of AutoMultiLockN classes.
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136 | */
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137 | LockOps *rlock() { return (ReadLockOps *) this; }
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138 |
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139 | /**
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140 | * Returns an interface to write lock operations of this semaphore.
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141 | * Used by constructors of AutoMultiLockN classes.
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142 | */
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143 | LockOps *wlock() { return (WriteLockOps *) this; }
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144 |
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145 | private:
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146 |
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147 | DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (LockHandle)
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148 |
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149 | friend class AutoWriteLock;
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150 | friend class AutoReadLock;
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151 | };
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152 |
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153 | /**
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154 | * Full-featured read/write semaphore handle implementation.
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155 | *
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156 | * This is an auxiliary base class for classes that need full-featured
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157 | * read/write locking as described in the AutoWriteLock class documentation.
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158 | * Instances of classes inherited from this class can be passed as arguments to
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159 | * the AutoWriteLock and AutoReadLock constructors.
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160 | */
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161 | class RWLockHandle : public LockHandle
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162 | {
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163 | public:
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164 |
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165 | RWLockHandle();
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166 | virtual ~RWLockHandle();
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167 |
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168 | bool isWriteLockOnCurrentThread() const;
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169 |
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170 | private:
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171 |
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172 | DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (RWLockHandle)
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173 |
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174 | void lockWrite();
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175 | void unlockWrite();
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176 | void lockRead();
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177 | void unlockRead();
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178 |
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179 | uint32_t writeLockLevel() const;
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180 |
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181 | RTSEMRW mSemRW;
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182 | };
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183 |
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184 | /**
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185 | * Write-only semaphore handle implementation.
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186 | *
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187 | * This is an auxiliary base class for classes that need write-only (exclusive)
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188 | * locking and do not need read (shared) locking. This implementation uses a
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189 | * cheap and fast critical section for both lockWrite() and lockRead() methods
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190 | * which makes a lockRead() call fully equivalent to the lockWrite() call and
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191 | * therefore makes it pointless to use instahces of this class with
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192 | * AutoReadLock instances -- shared locking will not be possible anyway and
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193 | * any call to lock() will block if there are lock owners on other threads.
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194 | *
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195 | * Use with care only when absolutely sure that shared locks are not necessary.
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196 | */
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197 | class WriteLockHandle : public LockHandle
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198 | {
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199 | public:
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200 |
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201 | WriteLockHandle()
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202 | {
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203 | RTCritSectInit (&mCritSect);
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204 | }
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205 |
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206 | virtual ~WriteLockHandle()
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207 | {
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208 | RTCritSectDelete (&mCritSect);
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209 | }
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210 |
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211 | bool isWriteLockOnCurrentThread() const
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212 | {
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213 | return RTCritSectIsOwner (&mCritSect);
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214 | }
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215 |
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216 | private:
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217 |
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218 | DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (WriteLockHandle)
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219 |
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220 | void lockWrite()
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221 | {
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222 | #if defined(DEBUG)
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223 | RTCritSectEnterDebug (&mCritSect,
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224 | "WriteLockHandle::lockWrite() return address >>>",
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225 | 0, (RTUINTPTR) ASMReturnAddress());
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226 | #else
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227 | RTCritSectEnter (&mCritSect);
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228 | #endif
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229 | }
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230 |
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231 | void unlockWrite()
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232 | {
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233 | RTCritSectLeave (&mCritSect);
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234 | }
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235 |
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236 | void lockRead() { lockWrite(); }
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237 | void unlockRead() { unlockWrite(); }
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238 |
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239 | uint32_t writeLockLevel() const
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240 | {
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241 | return RTCritSectGetRecursion (&mCritSect);
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242 | }
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243 |
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244 | mutable RTCRITSECT mCritSect;
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245 | };
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246 |
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247 | /**
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248 | * Lockable interface.
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249 | *
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250 | * This is an abstract base for classes that need read/write locking. Unlike
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251 | * RWLockHandle and other classes that makes the read/write semaphore a part of
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252 | * class data, this class allows subclasses to decide which semaphore handle to
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253 | * use.
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254 | */
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255 | class Lockable
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256 | {
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257 | public:
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258 |
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259 | /**
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260 | * Returns a pointer to a LockHandle used by AutoWriteLock/AutoReadLock
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261 | * for locking. Subclasses are allowed to return @c NULL -- in this case,
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262 | * the AutoWriteLock/AutoReadLock object constructed using an instance of
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263 | * such subclass will simply turn into no-op.
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264 | */
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265 | virtual LockHandle *lockHandle() const = 0;
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266 |
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267 | /**
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268 | * Equivalent to <tt>#lockHandle()->isWriteLockOnCurrentThread()</tt>.
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269 | * Returns @c false if lockHandle() returns @c NULL.
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270 | */
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271 | bool isWriteLockOnCurrentThread()
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272 | {
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273 | LockHandle *h = lockHandle();
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274 | return h ? h->isWriteLockOnCurrentThread() : false;
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275 | }
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276 |
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277 | /**
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278 | * Equivalent to <tt>#lockHandle()->rlock()</tt>.
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279 | * Returns @c NULL false if lockHandle() returns @c NULL.
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280 | */
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281 | LockOps *rlock()
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282 | {
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283 | LockHandle *h = lockHandle();
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284 | return h ? h->rlock() : NULL;
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285 | }
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286 |
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287 | /**
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288 | * Equivalent to <tt>#lockHandle()->wlock()</tt>. Returns @c NULL false if
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289 | * lockHandle() returns @c NULL.
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290 | */
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291 | LockOps *wlock()
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292 | {
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293 | LockHandle *h = lockHandle();
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294 | return h ? h->wlock() : NULL;
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295 | }
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296 | };
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297 |
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298 | /**
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299 | * Provides safe management of read/write semaphores in write mode.
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300 | *
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301 | * A read/write semaphore is represented by the LockHandle class. This semaphore
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302 | * can be requested ("locked") in two different modes: for reading and for
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303 | * writing. A write lock is exclusive and acts like a mutex: only one thread can
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304 | * acquire a write lock on the given semaphore at a time; all other threads
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305 | * trying to request a write lock or a read lock (see below) on the same
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306 | * semaphore will be indefinitely blocked until the owning thread releases the
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307 | * write lock.
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308 | *
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309 | * A read lock is shared. This means that several threads can acquire a read
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310 | * lock on the same semaphore at the same time provided that there is no thread
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311 | * that holds a write lock on that semaphore. Note that when there are one or
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312 | * more threads holding read locks, a request for a write lock on another thread
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313 | * will be indefinitely blocked until all threads holding read locks release
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314 | * them.
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315 | *
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316 | * Note that write locks can be nested -- the same thread can request a write
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317 | * lock on the same semaphore several times. In this case, the corresponding
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318 | * number of release calls must be done in order to completely release all
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319 | * nested write locks and make the semaphore available for locking by other
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320 | * threads.
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321 | *
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322 | * Read locks can be nested too in which case the same rule of the equal number
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323 | * of the release calls applies. Read locks can be also nested into write
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324 | * locks which means that the same thread can successfully request a read lock
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325 | * if it already holds a write lock. However, please note that the opposite is
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326 | * <b>not possible</b>: if a thread tries to request a write lock on the same
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327 | * semaphore it is already holding a read lock, it will definitely produce a
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328 | * <b>deadlock</b> (i.e. it will block forever waiting for itself).
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329 | *
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330 | * Note that instances of the AutoWriteLock class manage write locks of
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331 | * read/write semaphores only. In order to manage read locks, please use the
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332 | * AutoReadLock class.
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333 | *
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334 | * Safe semaphore management consists of the following:
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335 | * <ul>
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336 | * <li>When an instance of the AutoWriteLock class is constructed given a
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337 | * valid semaphore handle, it will automatically request a write lock on that
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338 | * semaphore.
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339 | * </li>
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340 | * <li>When an instance of the AutoWriteLock class constructed given a valid
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341 | * semaphore handle is destroyed (e.g. goes out of scope), it will
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342 | * automatically release the write lock that was requested upon construction
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343 | * and also all nested write locks requested later using the #lock() call
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344 | * (note that the latter is considered to be a program logic error, see the
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345 | * #~AutoWriteLock() description for details).
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346 | * </li>
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347 | * </ul>
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348 | *
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349 | * Note that the LockHandle class taken by AutoWriteLock constructors is an
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350 | * abstract base of the read/write semaphore. You should choose one of the
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351 | * existing subclasses of this abstract class or create your own subclass that
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352 | * implements necessary read and write lock semantics. The most suitable choice
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353 | * is the RWLockHandle class which provides full support for both read and write
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354 | * locks as describerd above. Alternatively, you can use the WriteLockHandle
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355 | * class if you only need write (exclusive) locking (WriteLockHandle requires
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356 | * less system resources and works faster).
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357 | *
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358 | * A typical usage pattern of the AutoWriteLock class is as follows:
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359 | * <code>
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360 | * struct Struct : public RWLockHandle
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361 | * {
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362 | * ...
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363 | * };
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364 | *
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365 | * void foo (Struct &aStruct)
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366 | * {
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367 | * {
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368 | * // acquire a write lock of aStruct
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369 | * AutoWriteLock alock (aStruct);
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370 | *
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371 | * // now we can modify aStruct in a thread-safe manner
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372 | * aStruct.foo = ...;
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373 | *
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374 | * // note that the write lock will be automatically released upon
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375 | * // execution of the return statement below
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376 | * if (!aStruct.bar)
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377 | * return;
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378 | *
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379 | * ...
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380 | * }
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381 | *
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382 | * // note that the write lock is automatically released here
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383 | * }
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384 | * </code>
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385 | *
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386 | * <b>Locking policy</b>
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387 | *
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388 | * When there are multiple threads and multiple objects to lock, there is always
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389 | * a potential possibility to produce a deadlock if the lock order is mixed up.
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390 | * Here is a classical example of a deadlock when two threads need to lock the
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391 | * same two objects in a row but do it in different order:
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392 | * <code>
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393 | * Thread 1:
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394 | * #1: AutoWriteLock (mFoo);
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395 | * ...
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396 | * #2: AutoWriteLock (mBar);
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397 | * ...
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398 | * Thread 2:
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399 | * #3: AutoWriteLock (mBar);
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400 | * ...
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401 | * #4: AutoWriteLock (mFoo);
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402 | * ...
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403 | * </code>
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404 | *
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405 | * If the threads happen to be scheduled so that #3 completes after #1 has
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406 | * completed but before #2 got control, the threads will hit a deadlock: Thread
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407 | * 2 will be holding mBar and waiting for mFoo at #4 forever because Thread 1 is
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408 | * holding mFoo and won't release it until it acquires mBar at #2 that will
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409 | * never happen because mBar is held by Thread 2.
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410 | *
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411 | * One of ways to avoid the described behavior is to never lock more than one
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412 | * obhect in a row. While it is definitely a good and safe practice, it's not
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413 | * always possible: the application logic may require several simultaneous locks
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414 | * in order to provide data integrity.
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415 | *
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416 | * One of the possibilities to solve the deadlock problem is to make sure that
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417 | * the locking order is always the same across the application. In the above
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418 | * example, it would mean that <b>both</b> threads should first requiest a lock
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419 | * of mFoo and then mBar (or vice versa). One of the methods to guarantee the
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420 | * locking order consistent is to introduce a set of locking rules. The
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421 | * advantage of this method is that it doesn't require any special semaphore
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422 | * implementation or additional control structures. The disadvantage is that
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423 | * it's the programmer who must make sure these rules are obeyed across the
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424 | * whole application so the human factor applies. Taking the simplicity of this
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425 | * method into account, it is chosen to solve potential deadlock problems when
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426 | * using AutoWriteLock and AutoReadLock classes. Here are the locking rules
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427 | * that must be obeyed by <b>all</b> users of these classes. Note that if more
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428 | * than one rule matches the given group of objects to lock, all of these rules
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429 | * must be met:
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430 | * <ol>
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431 | * <li>If there is a parent-child (or master-slave) relationship between the
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432 | * locked objects, parent (master) objects must be locked before child
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433 | * (slave) objects.
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434 | * </li>
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435 | * <li>When a group of equal objects (in terms of parent-child or
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436 | * master-slave relationsip) needs to be locked in a raw, the lock order
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437 | * must match the sort order (which must be consistent for the given group).
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438 | * </ol>
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439 | * Note that if there is no pragrammatically expressed sort order (e.g.
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440 | * the objects are not part of the sorted vector or list but instead are
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441 | * separate data members of a class), object class names sorted in alphabetical
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442 | * order must be used to determine the lock order. If there is more than one
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443 | * object of the given class, the object variable names' alphabetical order must
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444 | * be used as a lock order. When objects are not represented as individual
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445 | * variables, as in case of unsorted arrays/lists, the list of alphabetically
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446 | * sorted object UUIDs must be used to determine the sort order.
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447 | *
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448 | * All non-standard locking order must be avoided by all means, but when
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449 | * absolutely necessary, it must be clearly documented at relevant places so it
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450 | * is well seen by other developers. For example, if a set of instances of some
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451 | * class needs to be locked but these instances are not part of the sorted list
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452 | * and don't have UUIDs, then the class description must state what to use to
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453 | * determine the lock order (maybe some property that returns an unique value
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454 | * per every object).
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455 | */
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456 | class AutoWriteLock
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457 | {
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458 | public:
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459 |
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460 | /**
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461 | * Constructs a null instance that does not manage any read/write
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462 | * semaphore.
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463 | *
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464 | * Note that all method calls on a null instance are no-ops. This allows to
|
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465 | * have the code where lock protection can be selected (or omitted) at
|
---|
466 | * runtime.
|
---|
467 | */
|
---|
468 | AutoWriteLock() : mHandle (NULL), mLockLevel (0), mGlobalLockLevel (0) {}
|
---|
469 |
|
---|
470 | /**
|
---|
471 | * Constructs a new instance that will start managing the given read/write
|
---|
472 | * semaphore by requesting a write lock.
|
---|
473 | */
|
---|
474 | AutoWriteLock (LockHandle *aHandle)
|
---|
475 | : mHandle (aHandle), mLockLevel (0), mGlobalLockLevel (0)
|
---|
476 | { lock(); }
|
---|
477 |
|
---|
478 | /**
|
---|
479 | * Constructs a new instance that will start managing the given read/write
|
---|
480 | * semaphore by requesting a write lock.
|
---|
481 | */
|
---|
482 | AutoWriteLock (LockHandle &aHandle)
|
---|
483 | : mHandle (&aHandle), mLockLevel (0), mGlobalLockLevel (0)
|
---|
484 | { lock(); }
|
---|
485 |
|
---|
486 | /**
|
---|
487 | * Constructs a new instance that will start managing the given read/write
|
---|
488 | * semaphore by requesting a write lock.
|
---|
489 | */
|
---|
490 | AutoWriteLock (const Lockable &aLockable)
|
---|
491 | : mHandle (aLockable.lockHandle()), mLockLevel (0), mGlobalLockLevel (0)
|
---|
492 | { lock(); }
|
---|
493 |
|
---|
494 | /**
|
---|
495 | * Constructs a new instance that will start managing the given read/write
|
---|
496 | * semaphore by requesting a write lock.
|
---|
497 | */
|
---|
498 | AutoWriteLock (const Lockable *aLockable)
|
---|
499 | : mHandle (aLockable ? aLockable->lockHandle() : NULL)
|
---|
500 | , mLockLevel (0), mGlobalLockLevel (0)
|
---|
501 | { lock(); }
|
---|
502 |
|
---|
503 | /**
|
---|
504 | * Release all write locks acquired by this instance through the #lock()
|
---|
505 | * call and destroys the instance.
|
---|
506 | *
|
---|
507 | * Note that if there there are nested #lock() calls without the
|
---|
508 | * corresponding number of #unlock() calls when the destructor is called, it
|
---|
509 | * will assert. This is because having an unbalanced number of nested locks
|
---|
510 | * is a program logic error which must be fixed.
|
---|
511 | */
|
---|
512 | ~AutoWriteLock()
|
---|
513 | {
|
---|
514 | if (mHandle)
|
---|
515 | {
|
---|
516 | if (mGlobalLockLevel)
|
---|
517 | {
|
---|
518 | mGlobalLockLevel -= mLockLevel;
|
---|
519 | mLockLevel = 0;
|
---|
520 | for (; mGlobalLockLevel; -- mGlobalLockLevel)
|
---|
521 | mHandle->lockWrite();
|
---|
522 | }
|
---|
523 |
|
---|
524 | AssertMsg (mLockLevel <= 1, ("Lock level > 1: %d\n", mLockLevel));
|
---|
525 | for (; mLockLevel; -- mLockLevel)
|
---|
526 | mHandle->unlockWrite();
|
---|
527 | }
|
---|
528 | }
|
---|
529 |
|
---|
530 | /**
|
---|
531 | * Requests a write (exclusive) lock. If a write lock is already owned by
|
---|
532 | * this thread, increases the lock level (allowing for nested write locks on
|
---|
533 | * the same thread). Blocks indefinitely if a write lock or a read lock is
|
---|
534 | * already owned by another thread until that tread releases the locks,
|
---|
535 | * otherwise returns immediately.
|
---|
536 | */
|
---|
537 | void lock()
|
---|
538 | {
|
---|
539 | if (mHandle)
|
---|
540 | {
|
---|
541 | mHandle->lockWrite();
|
---|
542 | ++ mLockLevel;
|
---|
543 | Assert (mLockLevel != 0 /* overflow? */);
|
---|
544 | }
|
---|
545 | }
|
---|
546 |
|
---|
547 | /**
|
---|
548 | * Decreases the write lock level increased by #lock(). If the level drops
|
---|
549 | * to zero (e.g. the number of nested #unlock() calls matches the number of
|
---|
550 | * nested #lock() calls), releases the lock making the managed semaphore
|
---|
551 | * available for locking by other threads.
|
---|
552 | */
|
---|
553 | void unlock()
|
---|
554 | {
|
---|
555 | if (mHandle)
|
---|
556 | {
|
---|
557 | AssertReturnVoid (mLockLevel != 0 /* unlock() w/o preceding lock()? */);
|
---|
558 | mHandle->unlockWrite();
|
---|
559 | -- mLockLevel;
|
---|
560 | }
|
---|
561 | }
|
---|
562 |
|
---|
563 | /**
|
---|
564 | * Causes the current thread to completely release the write lock to make
|
---|
565 | * the managed semaphore immediately available for locking by other threads.
|
---|
566 | *
|
---|
567 | * This implies that all nested write locks on the semaphore will be
|
---|
568 | * released, even those that were acquired through the calls to #lock()
|
---|
569 | * methods of all other AutoWriteLock/AutoReadLock instances managing the
|
---|
570 | * <b>same</b> read/write semaphore.
|
---|
571 | *
|
---|
572 | * After calling this method, the only method you are allowed to call is
|
---|
573 | * #enter(). It will acquire the write lock again and restore the same
|
---|
574 | * level of nesting as it had before calling #leave().
|
---|
575 | *
|
---|
576 | * If this instance is destroyed without calling #enter(), the destructor
|
---|
577 | * will try to restore the write lock level that existed when #leave() was
|
---|
578 | * called minus the number of nested #lock() calls made on this instance
|
---|
579 | * itself. This is done to preserve lock levels of other
|
---|
580 | * AutoWriteLock/AutoReadLock instances managing the same semaphore (if
|
---|
581 | * any). Tiis also means that the destructor may indefinitely block if a
|
---|
582 | * write or a read lock is owned by some other thread by that time.
|
---|
583 | */
|
---|
584 | void leave()
|
---|
585 | {
|
---|
586 | if (mHandle)
|
---|
587 | {
|
---|
588 | AssertReturnVoid (mLockLevel != 0 /* leave() w/o preceding lock()? */);
|
---|
589 | AssertReturnVoid (mGlobalLockLevel == 0 /* second leave() in a row? */);
|
---|
590 |
|
---|
591 | mGlobalLockLevel = mHandle->writeLockLevel();
|
---|
592 | AssertReturnVoid (mGlobalLockLevel >= mLockLevel /* logic error! */);
|
---|
593 |
|
---|
594 | for (uint32_t left = mGlobalLockLevel; left; -- left)
|
---|
595 | mHandle->unlockWrite();
|
---|
596 | }
|
---|
597 | }
|
---|
598 |
|
---|
599 | /**
|
---|
600 | * Same as #leave() but checks if the current thread actally owns the lock
|
---|
601 | * and only proceeds in this case. As a result, as opposed to #leave(),
|
---|
602 | * doesn't assert when called with no lock being held.
|
---|
603 | */
|
---|
604 | void maybeLeave()
|
---|
605 | {
|
---|
606 | if (isWriteLockOnCurrentThread())
|
---|
607 | leave();
|
---|
608 | }
|
---|
609 |
|
---|
610 | /**
|
---|
611 | * Same as #enter() but checks if the current thread actally owns the lock
|
---|
612 | * and only proceeds if not. As a result, as opposed to #enter(), doesn't
|
---|
613 | * assert when called with the lock already being held.
|
---|
614 | */
|
---|
615 | void maybeEnter()
|
---|
616 | {
|
---|
617 | if (!isWriteLockOnCurrentThread())
|
---|
618 | enter();
|
---|
619 | }
|
---|
620 |
|
---|
621 | /**
|
---|
622 | * Causes the current thread to restore the write lock level after the
|
---|
623 | * #leave() call. This call will indefinitely block if another thread has
|
---|
624 | * successfully acquired a write or a read lock on the same semaphore in
|
---|
625 | * between.
|
---|
626 | */
|
---|
627 | void enter()
|
---|
628 | {
|
---|
629 | if (mHandle)
|
---|
630 | {
|
---|
631 | AssertReturnVoid (mLockLevel != 0 /* enter() w/o preceding lock()+leave()? */);
|
---|
632 | AssertReturnVoid (mGlobalLockLevel != 0 /* enter() w/o preceding leave()? */);
|
---|
633 |
|
---|
634 | for (; mGlobalLockLevel; -- mGlobalLockLevel)
|
---|
635 | mHandle->lockWrite();
|
---|
636 | }
|
---|
637 | }
|
---|
638 |
|
---|
639 | /**
|
---|
640 | * Attaches another handle to this auto lock instance.
|
---|
641 | *
|
---|
642 | * The previous object's lock is completely released before the new one is
|
---|
643 | * acquired. The lock level of the new handle will be the same. This
|
---|
644 | * also means that if the lock was not acquired at all before #attach(), it
|
---|
645 | * will not be acquired on the new handle too.
|
---|
646 | *
|
---|
647 | * @param aHandle New handle to attach.
|
---|
648 | */
|
---|
649 | void attach (LockHandle *aHandle)
|
---|
650 | {
|
---|
651 | /* detect simple self-reattachment */
|
---|
652 | if (mHandle != aHandle)
|
---|
653 | {
|
---|
654 | uint32_t lockLevel = mLockLevel;
|
---|
655 |
|
---|
656 | /* perform the destructor part */
|
---|
657 | if (mHandle)
|
---|
658 | {
|
---|
659 | if (mGlobalLockLevel)
|
---|
660 | {
|
---|
661 | mGlobalLockLevel -= mLockLevel;
|
---|
662 | mLockLevel = 0;
|
---|
663 | for (; mGlobalLockLevel; -- mGlobalLockLevel)
|
---|
664 | mHandle->lockWrite();
|
---|
665 | }
|
---|
666 |
|
---|
667 | AssertMsg (mLockLevel <= 1, ("Lock level > 1: %d\n", mLockLevel));
|
---|
668 | for (; mLockLevel; -- mLockLevel)
|
---|
669 | mHandle->unlockWrite();
|
---|
670 | }
|
---|
671 |
|
---|
672 | mHandle = aHandle;
|
---|
673 | mLockLevel = lockLevel;
|
---|
674 |
|
---|
675 | if (mHandle)
|
---|
676 | for (; lockLevel; -- lockLevel)
|
---|
677 | mHandle->lockWrite();
|
---|
678 | }
|
---|
679 | }
|
---|
680 |
|
---|
681 | /** @see attach (LockHandle *) */
|
---|
682 | void attach (LockHandle &aHandle) { attach (&aHandle); }
|
---|
683 |
|
---|
684 | /** @see attach (LockHandle *) */
|
---|
685 | void attach (const Lockable &aLockable) { attach (aLockable.lockHandle()); }
|
---|
686 |
|
---|
687 | /** @see attach (LockHandle *) */
|
---|
688 | void attach (const Lockable *aLockable)
|
---|
689 | { attach (aLockable ? aLockable->lockHandle() : NULL); }
|
---|
690 |
|
---|
691 | /** Verbose equivalent to <tt>attach (NULL)</tt>. */
|
---|
692 | void detach() { attach ((LockHandle *) NULL); }
|
---|
693 |
|
---|
694 | /** Returns @c true if this instance manages a null semaphore handle. */
|
---|
695 | bool isNull() const { return mHandle == NULL; }
|
---|
696 | bool operator !() const { return isNull(); }
|
---|
697 |
|
---|
698 | /**
|
---|
699 | * Returns @c true if the current thread holds a write lock on the managed
|
---|
700 | * read/write semaphore. Returns @c false if the managed semaphore is @c
|
---|
701 | * NULL.
|
---|
702 | *
|
---|
703 | * @note Intended for debugging only.
|
---|
704 | */
|
---|
705 | bool isWriteLockOnCurrentThread() const
|
---|
706 | {
|
---|
707 | return mHandle ? mHandle->isWriteLockOnCurrentThread() : false;
|
---|
708 | }
|
---|
709 |
|
---|
710 | /**
|
---|
711 | * Returns the current write lock level of the managed smaphore. The lock
|
---|
712 | * level determines the number of nested #lock() calls on the given
|
---|
713 | * semaphore handle. Returns @c 0 if the managed semaphore is @c
|
---|
714 | * NULL.
|
---|
715 | *
|
---|
716 | * Note that this call is valid only when the current thread owns a write
|
---|
717 | * lock on the given semaphore handle and will assert otherwise.
|
---|
718 | *
|
---|
719 | * @note Intended for debugging only.
|
---|
720 | */
|
---|
721 | uint32_t writeLockLevel() const
|
---|
722 | {
|
---|
723 | return mHandle ? mHandle->writeLockLevel() : 0;
|
---|
724 | }
|
---|
725 |
|
---|
726 | /**
|
---|
727 | * Returns @c true if this instance manages the given semaphore handle.
|
---|
728 | *
|
---|
729 | * @note Intended for debugging only.
|
---|
730 | */
|
---|
731 | bool belongsTo (const LockHandle &aHandle) const { return mHandle == &aHandle; }
|
---|
732 |
|
---|
733 | /**
|
---|
734 | * Returns @c true if this instance manages the given semaphore handle.
|
---|
735 | *
|
---|
736 | * @note Intended for debugging only.
|
---|
737 | */
|
---|
738 | bool belongsTo (const LockHandle *aHandle) const { return mHandle == aHandle; }
|
---|
739 |
|
---|
740 | /**
|
---|
741 | * Returns @c true if this instance manages the given lockable object.
|
---|
742 | *
|
---|
743 | * @note Intended for debugging only.
|
---|
744 | */
|
---|
745 | bool belongsTo (const Lockable &aLockable)
|
---|
746 | {
|
---|
747 | return belongsTo (aLockable.lockHandle());
|
---|
748 | }
|
---|
749 |
|
---|
750 | /**
|
---|
751 | * Returns @c true if this instance manages the given lockable object.
|
---|
752 | *
|
---|
753 | * @note Intended for debugging only.
|
---|
754 | */
|
---|
755 | bool belongsTo (const Lockable *aLockable)
|
---|
756 | {
|
---|
757 | return aLockable && belongsTo (aLockable->lockHandle());
|
---|
758 | }
|
---|
759 |
|
---|
760 | private:
|
---|
761 |
|
---|
762 | DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoWriteLock)
|
---|
763 | DECLARE_CLS_NEW_DELETE_NOOP (AutoWriteLock)
|
---|
764 |
|
---|
765 | LockHandle *mHandle;
|
---|
766 | uint32_t mLockLevel;
|
---|
767 | uint32_t mGlobalLockLevel;
|
---|
768 |
|
---|
769 | template <size_t> friend class AutoMultiWriteLockBase;
|
---|
770 | };
|
---|
771 |
|
---|
772 | ////////////////////////////////////////////////////////////////////////////////
|
---|
773 |
|
---|
774 | /**
|
---|
775 | * Provides safe management of read/write semaphores in read mode.
|
---|
776 | *
|
---|
777 | * This class differs from the AutoWriteLock class is so that it's #lock() and
|
---|
778 | * #unlock() methods requests and release read (shared) locks on the managed
|
---|
779 | * read/write semaphore instead of write (exclusive) locks. See the
|
---|
780 | * AutoWriteLock class description for more information about read and write
|
---|
781 | * locks.
|
---|
782 | *
|
---|
783 | * Safe semaphore management consists of the following:
|
---|
784 | * <ul>
|
---|
785 | * <li>When an instance of the AutoReadLock class is constructed given a
|
---|
786 | * valid semaphore handle, it will automatically request a read lock on that
|
---|
787 | * semaphore.
|
---|
788 | * </li>
|
---|
789 | * <li>When an instance of the AutoReadLock class constructed given a valid
|
---|
790 | * semaphore handle is destroyed (e.g. goes out of scope), it will
|
---|
791 | * automatically release the read lock that was requested upon construction
|
---|
792 | * and also all nested read locks requested later using the #lock() call (note
|
---|
793 | * that the latter is considered to be a program logic error, see the
|
---|
794 | * #~AutoReadLock() description for details).
|
---|
795 | * </li>
|
---|
796 | * </ul>
|
---|
797 | *
|
---|
798 | * Note that the LockHandle class taken by AutoReadLock constructors is an
|
---|
799 | * abstract base of the read/write semaphore. You should choose one of the
|
---|
800 | * existing subclasses of this abstract class or create your own subclass that
|
---|
801 | * implements necessary read and write lock semantics. The most suitable choice
|
---|
802 | * is the RWLockHandle class which provides full support for both read and write
|
---|
803 | * locks as describerd in AutoWriteLock docs. Alternatively, you can use the
|
---|
804 | * WriteLockHandle class if you only need write (exclusive) locking
|
---|
805 | * (WriteLockHandle requires less system resources and works faster).
|
---|
806 | *
|
---|
807 | * However, please note that it absolutely does not make sense to manage
|
---|
808 | * WriteLockHandle semaphores with AutoReadLock instances because
|
---|
809 | * AutoReadLock instances will behave like AutoWriteLock instances in this
|
---|
810 | * case since WriteLockHandle provides only exclusive write locking. You have
|
---|
811 | * been warned.
|
---|
812 |
|
---|
813 | * A typical usage pattern of the AutoReadLock class is as follows:
|
---|
814 | * <code>
|
---|
815 | * struct Struct : public RWLockHandle
|
---|
816 | * {
|
---|
817 | * ...
|
---|
818 | * };
|
---|
819 | *
|
---|
820 | * void foo (Struct &aStruct)
|
---|
821 | * {
|
---|
822 | * {
|
---|
823 | * // acquire a read lock of aStruct (note that two foo() calls may be
|
---|
824 | * executed on separate threads simultaneously w/o blocking each other)
|
---|
825 | * AutoReadLock alock (aStruct);
|
---|
826 | *
|
---|
827 | * // now we can read aStruct in a thread-safe manner
|
---|
828 | * if (aStruct.foo)
|
---|
829 | * ...;
|
---|
830 | *
|
---|
831 | * // note that the read lock will be automatically released upon
|
---|
832 | * // execution of the return statement below
|
---|
833 | * if (!aStruct.bar)
|
---|
834 | * return;
|
---|
835 | *
|
---|
836 | * ...
|
---|
837 | * }
|
---|
838 | *
|
---|
839 | * // note that the read lock is automatically released here
|
---|
840 | * }
|
---|
841 | * </code>
|
---|
842 | */
|
---|
843 | class AutoReadLock
|
---|
844 | {
|
---|
845 | public:
|
---|
846 |
|
---|
847 | /**
|
---|
848 | * Constructs a null instance that does not manage any read/write
|
---|
849 | * semaphore.
|
---|
850 | *
|
---|
851 | * Note that all method calls on a null instance are no-ops. This allows to
|
---|
852 | * have the code where lock protection can be selected (or omitted) at
|
---|
853 | * runtime.
|
---|
854 | */
|
---|
855 | AutoReadLock() : mHandle (NULL), mLockLevel (0) {}
|
---|
856 |
|
---|
857 | /**
|
---|
858 | * Constructs a new instance that will start managing the given read/write
|
---|
859 | * semaphore by requesting a read lock.
|
---|
860 | */
|
---|
861 | AutoReadLock (LockHandle *aHandle)
|
---|
862 | : mHandle (aHandle), mLockLevel (0)
|
---|
863 | { lock(); }
|
---|
864 |
|
---|
865 | /**
|
---|
866 | * Constructs a new instance that will start managing the given read/write
|
---|
867 | * semaphore by requesting a read lock.
|
---|
868 | */
|
---|
869 | AutoReadLock (LockHandle &aHandle)
|
---|
870 | : mHandle (&aHandle), mLockLevel (0)
|
---|
871 | { lock(); }
|
---|
872 |
|
---|
873 | /**
|
---|
874 | * Constructs a new instance that will start managing the given read/write
|
---|
875 | * semaphore by requesting a read lock.
|
---|
876 | */
|
---|
877 | AutoReadLock (const Lockable &aLockable)
|
---|
878 | : mHandle (aLockable.lockHandle()), mLockLevel (0)
|
---|
879 | { lock(); }
|
---|
880 |
|
---|
881 | /**
|
---|
882 | * Constructs a new instance that will start managing the given read/write
|
---|
883 | * semaphore by requesting a read lock.
|
---|
884 | */
|
---|
885 | AutoReadLock (const Lockable *aLockable)
|
---|
886 | : mHandle (aLockable ? aLockable->lockHandle() : NULL)
|
---|
887 | , mLockLevel (0)
|
---|
888 | { lock(); }
|
---|
889 |
|
---|
890 | /**
|
---|
891 | * Release all read locks acquired by this instance through the #lock()
|
---|
892 | * call and destroys the instance.
|
---|
893 | *
|
---|
894 | * Note that if there there are nested #lock() calls without the
|
---|
895 | * corresponding number of #unlock() calls when the destructor is called, it
|
---|
896 | * will assert. This is because having an unbalanced number of nested locks
|
---|
897 | * is a program logic error which must be fixed.
|
---|
898 | */
|
---|
899 | ~AutoReadLock()
|
---|
900 | {
|
---|
901 | if (mHandle)
|
---|
902 | {
|
---|
903 | AssertMsg (mLockLevel <= 1, ("Lock level > 1: %d\n", mLockLevel));
|
---|
904 | for (; mLockLevel; -- mLockLevel)
|
---|
905 | mHandle->unlockRead();
|
---|
906 | }
|
---|
907 | }
|
---|
908 |
|
---|
909 | /**
|
---|
910 | * Requests a read (shared) lock. If a read lock is already owned by
|
---|
911 | * this thread, increases the lock level (allowing for nested read locks on
|
---|
912 | * the same thread). Blocks indefinitely if a write lock is already owned by
|
---|
913 | * another thread until that tread releases the write lock, otherwise
|
---|
914 | * returns immediately.
|
---|
915 | *
|
---|
916 | * Note that this method returns immediately even if any number of other
|
---|
917 | * threads owns read locks on the same semaphore. Also returns immediately
|
---|
918 | * if a write lock on this semaphore is owned by the current thread which
|
---|
919 | * allows for read locks nested into write locks on the same thread.
|
---|
920 | */
|
---|
921 | void lock()
|
---|
922 | {
|
---|
923 | if (mHandle)
|
---|
924 | {
|
---|
925 | mHandle->lockRead();
|
---|
926 | ++ mLockLevel;
|
---|
927 | Assert (mLockLevel != 0 /* overflow? */);
|
---|
928 | }
|
---|
929 | }
|
---|
930 |
|
---|
931 | /**
|
---|
932 | * Decreases the read lock level increased by #lock(). If the level drops to
|
---|
933 | * zero (e.g. the number of nested #unlock() calls matches the number of
|
---|
934 | * nested #lock() calls), releases the lock making the managed semaphore
|
---|
935 | * available for locking by other threads.
|
---|
936 | */
|
---|
937 | void unlock()
|
---|
938 | {
|
---|
939 | if (mHandle)
|
---|
940 | {
|
---|
941 | AssertReturnVoid (mLockLevel != 0 /* unlock() w/o preceding lock()? */);
|
---|
942 | mHandle->unlockRead();
|
---|
943 | -- mLockLevel;
|
---|
944 | }
|
---|
945 | }
|
---|
946 |
|
---|
947 | /**
|
---|
948 | * Attaches another handle to this auto lock instance.
|
---|
949 | *
|
---|
950 | * The previous object's lock is completely released before the new one is
|
---|
951 | * acquired. The lock level of the new handle will be the same. This also
|
---|
952 | * means that if the lock was not acquired at all before #attach(), it will
|
---|
953 | * not be acquired on the new handle too.
|
---|
954 | *
|
---|
955 | * @param aHandle New handle to attach.
|
---|
956 | */
|
---|
957 | void attach (LockHandle *aHandle)
|
---|
958 | {
|
---|
959 | /* detect simple self-reattachment */
|
---|
960 | if (mHandle != aHandle)
|
---|
961 | {
|
---|
962 | uint32_t lockLevel = mLockLevel;
|
---|
963 | if (mHandle)
|
---|
964 | for (; mLockLevel; -- mLockLevel)
|
---|
965 | mHandle->unlockRead();
|
---|
966 | mHandle = aHandle;
|
---|
967 | mLockLevel = lockLevel;
|
---|
968 | if (mHandle)
|
---|
969 | for (; lockLevel; -- lockLevel)
|
---|
970 | mHandle->lockRead();
|
---|
971 | }
|
---|
972 | }
|
---|
973 |
|
---|
974 | /** @see attach (LockHandle *) */
|
---|
975 | void attach (LockHandle &aHandle) { attach (&aHandle); }
|
---|
976 |
|
---|
977 | /** @see attach (LockHandle *) */
|
---|
978 | void attach (const Lockable &aLockable) { attach (aLockable.lockHandle()); }
|
---|
979 |
|
---|
980 | /** @see attach (LockHandle *) */
|
---|
981 | void attach (const Lockable *aLockable)
|
---|
982 | { attach (aLockable ? aLockable->lockHandle() : NULL); }
|
---|
983 |
|
---|
984 | /** Verbose equivalent to <tt>attach (NULL)</tt>. */
|
---|
985 | void detach() { attach ((LockHandle *) NULL); }
|
---|
986 |
|
---|
987 | /** Returns @c true if this instance manages a null semaphore handle. */
|
---|
988 | bool isNull() const { return mHandle == NULL; }
|
---|
989 | bool operator !() const { return isNull(); }
|
---|
990 |
|
---|
991 | /**
|
---|
992 | * Returns @c true if this instance manages the given semaphore handle.
|
---|
993 | *
|
---|
994 | * @note Intended for debugging only.
|
---|
995 | */
|
---|
996 | bool belongsTo (const LockHandle &aHandle) const { return mHandle == &aHandle; }
|
---|
997 |
|
---|
998 | /**
|
---|
999 | * Returns @c true if this instance manages the given semaphore handle.
|
---|
1000 | *
|
---|
1001 | * @note Intended for debugging only.
|
---|
1002 | */
|
---|
1003 | bool belongsTo (const LockHandle *aHandle) const { return mHandle == aHandle; }
|
---|
1004 |
|
---|
1005 | /**
|
---|
1006 | * Returns @c true if this instance manages the given lockable object.
|
---|
1007 | *
|
---|
1008 | * @note Intended for debugging only.
|
---|
1009 | */
|
---|
1010 | bool belongsTo (const Lockable &aLockable)
|
---|
1011 | {
|
---|
1012 | return belongsTo (aLockable.lockHandle());
|
---|
1013 | }
|
---|
1014 |
|
---|
1015 | /**
|
---|
1016 | * Returns @c true if this instance manages the given lockable object.
|
---|
1017 | *
|
---|
1018 | * @note Intended for debugging only.
|
---|
1019 | */
|
---|
1020 | bool belongsTo (const Lockable *aLockable)
|
---|
1021 | {
|
---|
1022 | return aLockable && belongsTo (aLockable->lockHandle());
|
---|
1023 | }
|
---|
1024 |
|
---|
1025 | private:
|
---|
1026 |
|
---|
1027 | DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoReadLock)
|
---|
1028 | DECLARE_CLS_NEW_DELETE_NOOP (AutoReadLock)
|
---|
1029 |
|
---|
1030 | LockHandle *mHandle;
|
---|
1031 | uint32_t mLockLevel;
|
---|
1032 | };
|
---|
1033 |
|
---|
1034 | ////////////////////////////////////////////////////////////////////////////////
|
---|
1035 |
|
---|
1036 | /**
|
---|
1037 | * Helper template class for AutoMultiLockN classes.
|
---|
1038 | *
|
---|
1039 | * @param Cnt number of read/write semaphores to manage.
|
---|
1040 | */
|
---|
1041 | template <size_t Cnt>
|
---|
1042 | class AutoMultiLockBase
|
---|
1043 | {
|
---|
1044 | public:
|
---|
1045 |
|
---|
1046 | /**
|
---|
1047 | * Releases all locks if not yet released by #unlock() and destroys the
|
---|
1048 | * instance.
|
---|
1049 | */
|
---|
1050 | ~AutoMultiLockBase()
|
---|
1051 | {
|
---|
1052 | if (mIsLocked)
|
---|
1053 | unlock();
|
---|
1054 | }
|
---|
1055 |
|
---|
1056 | /**
|
---|
1057 | * Calls LockOps::lock() methods of all managed semaphore handles
|
---|
1058 | * in order they were passed to the constructor.
|
---|
1059 | *
|
---|
1060 | * Note that as opposed to LockHandle::lock(), this call cannot be nested
|
---|
1061 | * and will assert if so.
|
---|
1062 | */
|
---|
1063 | void lock()
|
---|
1064 | {
|
---|
1065 | AssertReturnVoid (!mIsLocked);
|
---|
1066 |
|
---|
1067 | size_t i = 0;
|
---|
1068 | while (i < RT_ELEMENTS (mOps))
|
---|
1069 | if (mOps [i])
|
---|
1070 | mOps [i ++]->lock();
|
---|
1071 | mIsLocked = true;
|
---|
1072 | }
|
---|
1073 |
|
---|
1074 | /**
|
---|
1075 | * Calls LockOps::unlock() methods of all managed semaphore handles in
|
---|
1076 | * reverse to the order they were passed to the constructor.
|
---|
1077 | *
|
---|
1078 | * Note that as opposed to LockHandle::unlock(), this call cannot be nested
|
---|
1079 | * and will assert if so.
|
---|
1080 | */
|
---|
1081 | void unlock()
|
---|
1082 | {
|
---|
1083 | AssertReturnVoid (mIsLocked);
|
---|
1084 |
|
---|
1085 | AssertReturnVoid (RT_ELEMENTS (mOps) > 0);
|
---|
1086 | size_t i = RT_ELEMENTS (mOps);
|
---|
1087 | do
|
---|
1088 | if (mOps [-- i])
|
---|
1089 | mOps [i]->unlock();
|
---|
1090 | while (i != 0);
|
---|
1091 | mIsLocked = false;
|
---|
1092 | }
|
---|
1093 |
|
---|
1094 | protected:
|
---|
1095 |
|
---|
1096 | AutoMultiLockBase() : mIsLocked (false) {}
|
---|
1097 |
|
---|
1098 | LockOps *mOps [Cnt];
|
---|
1099 | bool mIsLocked;
|
---|
1100 |
|
---|
1101 | private:
|
---|
1102 |
|
---|
1103 | DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoMultiLockBase)
|
---|
1104 | DECLARE_CLS_NEW_DELETE_NOOP (AutoMultiLockBase)
|
---|
1105 | };
|
---|
1106 |
|
---|
1107 | /** AutoMultiLockBase <0> is meaningless and forbidden. */
|
---|
1108 | template<>
|
---|
1109 | class AutoMultiLockBase <0> { private : AutoMultiLockBase(); };
|
---|
1110 |
|
---|
1111 | /** AutoMultiLockBase <1> is meaningless and forbidden. */
|
---|
1112 | template<>
|
---|
1113 | class AutoMultiLockBase <1> { private : AutoMultiLockBase(); };
|
---|
1114 |
|
---|
1115 | ////////////////////////////////////////////////////////////////////////////////
|
---|
1116 |
|
---|
1117 | /* AutoMultiLockN class definitions */
|
---|
1118 |
|
---|
1119 | #define A(n) LockOps *l##n
|
---|
1120 | #define B(n) mOps [n] = l##n
|
---|
1121 |
|
---|
1122 | /**
|
---|
1123 | * AutoMultiLock for 2 locks.
|
---|
1124 | *
|
---|
1125 | * The AutoMultiLockN family of classes provides a possibility to manage several
|
---|
1126 | * read/write semaphores at once. This is handy if all managed semaphores need
|
---|
1127 | * to be locked and unlocked synchronously and will also help to avoid locking
|
---|
1128 | * order errors.
|
---|
1129 | *
|
---|
1130 | * Instances of AutoMultiLockN classes are constructed from a list of LockOps
|
---|
1131 | * arguments. The AutoMultiLockBase::lock() method will make sure that the given
|
---|
1132 | * list of semaphores represented by LockOps pointers will be locked in order
|
---|
1133 | * they are passed to the constructor. The AutoMultiLockBase::unlock() method
|
---|
1134 | * will make sure that they will be unlocked in reverse order.
|
---|
1135 | *
|
---|
1136 | * The type of the lock to request is specified for each semaphore individually
|
---|
1137 | * using the corresponding LockOps getter of a LockHandle or Lockable object:
|
---|
1138 | * LockHandle::wlock() in order to request a write lock or LockHandle::rlock()
|
---|
1139 | * in order to request a read lock.
|
---|
1140 | *
|
---|
1141 | * Here is a typical usage pattern:
|
---|
1142 | * <code>
|
---|
1143 | * ...
|
---|
1144 | * LockHandle data1, data2;
|
---|
1145 | * ...
|
---|
1146 | * {
|
---|
1147 | * AutoMultiLock2 multiLock (data1.wlock(), data2.rlock());
|
---|
1148 | * // both locks are held here:
|
---|
1149 | * // - data1 is locked in write mode (like AutoWriteLock)
|
---|
1150 | * // - data2 is locked in read mode (like AutoReadLock)
|
---|
1151 | * }
|
---|
1152 | * // both locks are released here
|
---|
1153 | * </code>
|
---|
1154 | */
|
---|
1155 | class AutoMultiLock2 : public AutoMultiLockBase <2>
|
---|
1156 | {
|
---|
1157 | public:
|
---|
1158 | AutoMultiLock2 (A(0), A(1))
|
---|
1159 | { B(0); B(1); lock(); }
|
---|
1160 | };
|
---|
1161 |
|
---|
1162 | /** AutoMultiLock for 3 locks. See AutoMultiLock2 for more information. */
|
---|
1163 | class AutoMultiLock3 : public AutoMultiLockBase <3>
|
---|
1164 | {
|
---|
1165 | public:
|
---|
1166 | AutoMultiLock3 (A(0), A(1), A(2))
|
---|
1167 | { B(0); B(1); B(2); lock(); }
|
---|
1168 | };
|
---|
1169 |
|
---|
1170 | /** AutoMultiLock for 4 locks. See AutoMultiLock2 for more information. */
|
---|
1171 | class AutoMultiLock4 : public AutoMultiLockBase <4>
|
---|
1172 | {
|
---|
1173 | public:
|
---|
1174 | AutoMultiLock4 (A(0), A(1), A(2), A(3))
|
---|
1175 | { B(0); B(1); B(2); B(3); lock(); }
|
---|
1176 | };
|
---|
1177 |
|
---|
1178 | #undef B
|
---|
1179 | #undef A
|
---|
1180 |
|
---|
1181 | ////////////////////////////////////////////////////////////////////////////////
|
---|
1182 |
|
---|
1183 | /**
|
---|
1184 | * Helper template class for AutoMultiWriteLockN classes.
|
---|
1185 | *
|
---|
1186 | * @param Cnt number of write semaphores to manage.
|
---|
1187 | */
|
---|
1188 | template <size_t Cnt>
|
---|
1189 | class AutoMultiWriteLockBase
|
---|
1190 | {
|
---|
1191 | public:
|
---|
1192 |
|
---|
1193 | /**
|
---|
1194 | * Calls AutoWriteLock::lock() methods for all managed semaphore handles in
|
---|
1195 | * order they were passed to the constructor.
|
---|
1196 | */
|
---|
1197 | void lock()
|
---|
1198 | {
|
---|
1199 | size_t i = 0;
|
---|
1200 | while (i < RT_ELEMENTS (mLocks))
|
---|
1201 | mLocks [i ++].lock();
|
---|
1202 | }
|
---|
1203 |
|
---|
1204 | /**
|
---|
1205 | * Calls AutoWriteLock::unlock() methods for all managed semaphore handles
|
---|
1206 | * in reverse to the order they were passed to the constructor.
|
---|
1207 | */
|
---|
1208 | void unlock()
|
---|
1209 | {
|
---|
1210 | AssertReturnVoid (RT_ELEMENTS (mLocks) > 0);
|
---|
1211 | size_t i = RT_ELEMENTS (mLocks);
|
---|
1212 | do
|
---|
1213 | mLocks [-- i].unlock();
|
---|
1214 | while (i != 0);
|
---|
1215 | }
|
---|
1216 |
|
---|
1217 | /**
|
---|
1218 | * Calls AutoWriteLock::leave() methods for all managed semaphore handles in
|
---|
1219 | * reverse to the order they were passed to the constructor.
|
---|
1220 | */
|
---|
1221 | void leave()
|
---|
1222 | {
|
---|
1223 | AssertReturnVoid (RT_ELEMENTS (mLocks) > 0);
|
---|
1224 | size_t i = RT_ELEMENTS (mLocks);
|
---|
1225 | do
|
---|
1226 | mLocks [-- i].leave();
|
---|
1227 | while (i != 0);
|
---|
1228 | }
|
---|
1229 |
|
---|
1230 | /**
|
---|
1231 | * Calls AutoWriteLock::maybeLeave() methods for all managed semaphore
|
---|
1232 | * handles in reverse to the order they were passed to the constructor.
|
---|
1233 | */
|
---|
1234 | void maybeLeave()
|
---|
1235 | {
|
---|
1236 | AssertReturnVoid (RT_ELEMENTS (mLocks) > 0);
|
---|
1237 | size_t i = RT_ELEMENTS (mLocks);
|
---|
1238 | do
|
---|
1239 | mLocks [-- i].maybeLeave();
|
---|
1240 | while (i != 0);
|
---|
1241 | }
|
---|
1242 |
|
---|
1243 | /**
|
---|
1244 | * Calls AutoWriteLock::maybeEnter() methods for all managed semaphore
|
---|
1245 | * handles in order they were passed to the constructor.
|
---|
1246 | */
|
---|
1247 | void maybeEnter()
|
---|
1248 | {
|
---|
1249 | size_t i = 0;
|
---|
1250 | while (i < RT_ELEMENTS (mLocks))
|
---|
1251 | mLocks [i ++].maybeEnter();
|
---|
1252 | }
|
---|
1253 |
|
---|
1254 | /**
|
---|
1255 | * Calls AutoWriteLock::enter() methods for all managed semaphore handles in
|
---|
1256 | * order they were passed to the constructor.
|
---|
1257 | */
|
---|
1258 | void enter()
|
---|
1259 | {
|
---|
1260 | size_t i = 0;
|
---|
1261 | while (i < RT_ELEMENTS (mLocks))
|
---|
1262 | mLocks [i ++].enter();
|
---|
1263 | }
|
---|
1264 |
|
---|
1265 | protected:
|
---|
1266 |
|
---|
1267 | AutoMultiWriteLockBase() {}
|
---|
1268 |
|
---|
1269 | void setLockHandle (size_t aIdx, LockHandle *aHandle)
|
---|
1270 | { mLocks [aIdx].mHandle = aHandle; }
|
---|
1271 |
|
---|
1272 | private:
|
---|
1273 |
|
---|
1274 | AutoWriteLock mLocks [Cnt];
|
---|
1275 |
|
---|
1276 | DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoMultiWriteLockBase)
|
---|
1277 | DECLARE_CLS_NEW_DELETE_NOOP (AutoMultiWriteLockBase)
|
---|
1278 | };
|
---|
1279 |
|
---|
1280 | /** AutoMultiWriteLockBase <0> is meaningless and forbidden. */
|
---|
1281 | template<>
|
---|
1282 | class AutoMultiWriteLockBase <0> { private : AutoMultiWriteLockBase(); };
|
---|
1283 |
|
---|
1284 | /** AutoMultiWriteLockBase <1> is meaningless and forbidden. */
|
---|
1285 | template<>
|
---|
1286 | class AutoMultiWriteLockBase <1> { private : AutoMultiWriteLockBase(); };
|
---|
1287 |
|
---|
1288 | ////////////////////////////////////////////////////////////////////////////////
|
---|
1289 |
|
---|
1290 | /* AutoMultiLockN class definitions */
|
---|
1291 |
|
---|
1292 | #define A(n) LockHandle *l##n
|
---|
1293 | #define B(n) setLockHandle (n, l##n)
|
---|
1294 |
|
---|
1295 | #define C(n) Lockable *l##n
|
---|
1296 | #define D(n) setLockHandle (n, l##n ? l##n->lockHandle() : NULL)
|
---|
1297 |
|
---|
1298 | /**
|
---|
1299 | * AutoMultiWriteLock for 2 locks.
|
---|
1300 | *
|
---|
1301 | * The AutoMultiWriteLockN family of classes provides a possibility to manage
|
---|
1302 | * several read/write semaphores at once. This is handy if all managed
|
---|
1303 | * semaphores need to be locked and unlocked synchronously and will also help to
|
---|
1304 | * avoid locking order errors.
|
---|
1305 | *
|
---|
1306 | * The functionality of the AutoMultiWriteLockN class family is similar to the
|
---|
1307 | * functionality of the AutoMultiLockN class family (see the AutoMultiLock2
|
---|
1308 | * class for details) with two important differences:
|
---|
1309 | * <ol>
|
---|
1310 | * <li>Instances of AutoMultiWriteLockN classes are constructed from a list
|
---|
1311 | * of LockHandle or Lockable arguments directly instead of getting
|
---|
1312 | * intermediate LockOps interface pointers.
|
---|
1313 | * </li>
|
---|
1314 | * <li>All locks are requested in <b>write</b> mode.
|
---|
1315 | * </li>
|
---|
1316 | * <li>Since all locks are requested in write mode, bulk
|
---|
1317 | * AutoMultiWriteLockBase::leave() and AutoMultiWriteLockBase::enter()
|
---|
1318 | * operations are also available, that will leave and enter all managed
|
---|
1319 | * semaphores at once in the proper order (similarly to
|
---|
1320 | * AutoMultiWriteLockBase::lock() and AutoMultiWriteLockBase::unlock()).
|
---|
1321 | * </li>
|
---|
1322 | * </ol>
|
---|
1323 | *
|
---|
1324 | * Here is a typical usage pattern:
|
---|
1325 | * <code>
|
---|
1326 | * ...
|
---|
1327 | * LockHandle data1, data2;
|
---|
1328 | * ...
|
---|
1329 | * {
|
---|
1330 | * AutoMultiWriteLock2 multiLock (&data1, &data2);
|
---|
1331 | * // both locks are held in write mode here
|
---|
1332 | * }
|
---|
1333 | * // both locks are released here
|
---|
1334 | * </code>
|
---|
1335 | */
|
---|
1336 | class AutoMultiWriteLock2 : public AutoMultiWriteLockBase <2>
|
---|
1337 | {
|
---|
1338 | public:
|
---|
1339 | AutoMultiWriteLock2 (A(0), A(1))
|
---|
1340 | { B(0); B(1); lock(); }
|
---|
1341 | AutoMultiWriteLock2 (C(0), C(1))
|
---|
1342 | { D(0); D(1); lock(); }
|
---|
1343 | };
|
---|
1344 |
|
---|
1345 | /** AutoMultiWriteLock for 3 locks. See AutoMultiWriteLock2 for more details. */
|
---|
1346 | class AutoMultiWriteLock3 : public AutoMultiWriteLockBase <3>
|
---|
1347 | {
|
---|
1348 | public:
|
---|
1349 | AutoMultiWriteLock3 (A(0), A(1), A(2))
|
---|
1350 | { B(0); B(1); B(2); lock(); }
|
---|
1351 | AutoMultiWriteLock3 (C(0), C(1), C(2))
|
---|
1352 | { D(0); D(1); D(2); lock(); }
|
---|
1353 | };
|
---|
1354 |
|
---|
1355 | /** AutoMultiWriteLock for 4 locks. See AutoMultiWriteLock2 for more details. */
|
---|
1356 | class AutoMultiWriteLock4 : public AutoMultiWriteLockBase <4>
|
---|
1357 | {
|
---|
1358 | public:
|
---|
1359 | AutoMultiWriteLock4 (A(0), A(1), A(2), A(3))
|
---|
1360 | { B(0); B(1); B(2); B(3); lock(); }
|
---|
1361 | AutoMultiWriteLock4 (C(0), C(1), C(2), C(3))
|
---|
1362 | { D(0); D(1); D(2); D(3); lock(); }
|
---|
1363 | };
|
---|
1364 |
|
---|
1365 | #undef D
|
---|
1366 | #undef C
|
---|
1367 | #undef B
|
---|
1368 | #undef A
|
---|
1369 |
|
---|
1370 | } /* namespace util */
|
---|
1371 |
|
---|
1372 | #endif // ____H_AUTOLOCK
|
---|
1373 |
|
---|
1374 | /* vi: set tabstop=4 shiftwidth=4 expandtab: */
|
---|