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lock

lock 4.6 KB
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  1. .TH LOCK 2
    2. 

  2. .SH NAME
    3. 

  3. lock, canlock, unlock,
    4. 

  4. qlock, canqlock, qunlock,
    5. 

  5. rlock, canrlock, runlock,
    6. 

  6. wlock, canwlock, wunlock,
    7. 

  7. rsleep, rwakeup, rwakeupall
    8. 

  8. incref, decref
    9. 

  9. \- spin locks, queueing rendezvous locks, reader-writer locks, rendezvous points, and reference counts
    10. 

  10. .SH SYNOPSIS
    11. 

  11. .ft L
    12. 

  12. .nf
    13. 

  13. #include <u.h>
    14. 

  14. #include <libc.h>
    15. 

  15. .PP
    16. 

  16. .ft L
    17. 

  17. .nf
    18. 

  18. void	lock(Lock *l)
    19. 

  19. int	canlock(Lock *l)
    20. 

  20. void	unlock(Lock *l)
    21. 

  21. .PP
    22. 

  22. .ft L
    23. 

  23. .nf
    24. 

  24. void	qlock(QLock *l)
    25. 

  25. int	canqlock(QLock *l)
    26. 

  26. void	qunlock(QLock *l)
    27. 

  27. .PP
    28. 

  28. .ft L
    29. 

  29. .nf
    30. 

  30. void	rlock(RWLock *l)
    31. 

  31. int	canrlock(RWLock *l)
    32. 

  32. void	runlock(RWLock *l)
    33. 

  33. .PP
    34. 

  34. .ft L
    35. 

  35. .nf
    36. 

  36. void	wlock(RWLock *l)
    37. 

  37. int	canwlock(RWLock *l)
    38. 

  38. void	wunlock(RWLock *l)
    39. 

  39. .PP
    40. 

  40. .ft L
    41. 

  41. .nf
    42. 

  42. typedef struct Rendez {
    43. 

  43. 	QLock *l;
    44. 

  44. 	\fI...\fP
    45. 

  45. } Rendez;
    46. 

  46. .PP
    47. 

  47. .ft L
    48. 

  48. .nf
    49. 

  49. void	rsleep(Rendez *r)
    50. 

  50. int	rwakeup(Rendez *r)
    51. 

  51. int	rwakeupall(Rendez *r)
    52. 

  52. .PP
    53. 

  53. .ft L
    54. 

  54. #include <thread.h>
    55. 

  55. .PP
    56. 

  56. .ft L
    57. 

  57. .nf
    58. 

  58. typedef struct Ref {
    59. 

  59. 	long ref;
    60. 

  60. } Ref;
    61. 

  61. .PP
    62. 

  62. .ft L
    63. 

  63. .nf
    64. 

  64. void incref(Ref*)
    65. 

  65. long decref(Ref*)
    66. 

  66. .fi
    67. 

  67. .SH DESCRIPTION
    68. 

  68. These routines are used  to synchronize processes sharing memory.
    69. 

  69. .PP
    70. 

  70. .B Locks
    71. 

  71. are spin locks,
    72. 

  72. .B QLocks
    73. 

  73. and
    74. 

  74. .B RWLocks
    75. 

  75. are different types of queueing rendezvous locks,
    76. 

  76. and
    77. 

  77. .B Rendezes
    78. 

  78. are rendezvous points.
    79. 

  79. .PP
    80. 

  80. Locks and rendezvous points work in regular programs as
    81. 

  81. well as programs that use the thread library
    82. 

  82. (see
    83. 

  83. .IR thread (2)).
    84. 

  84. The thread library replaces the
    85. 

  85. .IR rendezvous (2)
    86. 

  86. system call
    87. 

  87. with its own implementation,
    88. 

  88. .IR threadrendezvous ,
    89. 

  89. so that threads as well as processes may be synchronized by locking calls
    90. 

  90. in threaded programs.
    91. 

  91. .PP
    92. 

  92. Used carelessly, spin locks can be expensive and can easily generate deadlocks.
    93. 

  93. Their use is discouraged, especially in programs that use the
    94. 

  94. thread library because they prevent context switches between threads.
    95. 

  95. .PP
    96. 

  96. .I Lock
    97. 

  97. blocks until the lock has been obtained.
    98. 

  98. .I Canlock
    99. 

  99. is non-blocking.
    100. 

  100. It tries to obtain a lock and returns a non-zero value if it
    101. 

  101. was successful, 0 otherwise.
    102. 

  102. .I Unlock
    103. 

  103. releases a lock.
    104. 

  104. .PP
    105. 

  105. .B QLocks
    106. 

  106. have the same interface but are not spin locks; instead if the lock is taken
    107. 

  107. .I qlock
    108. 

  108. will suspend execution of the calling task until it is released.
    109. 

  109. .PP
    110. 

  110. Although
    111. 

  111. .B Locks
    112. 

  112. are the more primitive lock, they have limitations; for example,
    113. 

  113. they cannot synchronize between tasks in the same
    114. 

  114. .IR proc .
    115. 

  115. Use
    116. 

  116. .B QLocks
    117. 

  117. instead.
    118. 

  118. .PP
    119. 

  119. .B RWLocks
    120. 

  120. manage access to a data structure that has distinct readers and writers.
    121. 

  121. .I Rlock
    122. 

  122. grants read access;
    123. 

  123. .I runlock
    124. 

  124. releases it.
    125. 

  125. .I Wlock
    126. 

  126. grants write access;
    127. 

  127. .I wunlock
    128. 

  128. releases it.
    129. 

  129. .I Canrlock
    130. 

  130. and
    131. 

  131. .I canwlock
    132. 

  132. are the non-blocking versions.
    133. 

  133. There may be any number of simultaneous readers,
    134. 

  134. but only one writer.
    135. 

  135. Moreover,
    136. 

  136. if write access is granted no one may have
    137. 

  137. read access until write access is released.
    138. 

  138. .PP
    139. 

  139. All types of lock should be initialized to all zeros before use; this
    140. 

  140. puts them in the unlocked state.
    141. 

  141. .PP
    142. 

  142. .B Rendezes
    143. 

  143. are rendezvous points.  Each
    144. 

  144. .B Rendez
    145. 

  145. .I r
    146. 

  146. is protected by a
    147. 

  147. .B QLock
    148. 

  148. .IB r -> l \fR,
    149. 

  149. which must be held by the callers of
    150. 

  150. .IR rsleep ,
    151. 

  151. .IR rwakeup ,
    152. 

  152. and
    153. 

  153. .IR rwakeupall .
    154. 

  154. .I Rsleep
    155. 

  155. atomically releases
    156. 

  156. .IB r -> l
    157. 

  157. and suspends execution of the calling task.
    158. 

  158. After resuming execution,
    159. 

  159. .I rsleep
    160. 

  160. will reacquire
    161. 

  161. .IB r -> l
    162. 

  162. before returning.
    163. 

  163. If any processes are sleeping on
    164. 

  164. .IR r ,
    165. 

  165. .I rwakeup
    166. 

  166. wakes one of them.
    167. 

  167. it returns 1 if a process was awakened, 0 if not.
    168. 

  168. .I Rwakeupall
    169. 

  169. wakes all processes sleeping on
    170. 

  170. .IR r ,
    171. 

  171. returning the number of processes awakened.
    172. 

  172. .I Rwakeup
    173. 

  173. and
    174. 

  174. .I rwakeupall
    175. 

  175. do not release
    176. 

  176. .IB r -> l
    177. 

  177. and do not suspend execution of the current task.
    178. 

  178. .PP
    179. 

  179. Before use,
    180. 

  180. .B Rendezes
    181. 

  181. should be initialized to all zeros except for
    182. 

  182. .IB r -> l
    183. 

  183. pointer, which should point at the
    184. 

  184. .B QLock
    185. 

  185. that will guard
    186. 

  186. .IR r .
    187. 

  187. .PP
    188. 

  188. A
    189. 

  189. .B Ref
    190. 

  190. contains a
    191. 

  191. .B long
    192. 

  192. that can be incremented and decremented atomically:
    193. 

  193. .I Incref
    194. 

  194. increments the
    195. 

  195. .I Ref
    196. 

  196. in one atomic operation.
    197. 

  197. .I Decref
    198. 

  198. atomically decrements the
    199. 

  199. .B Ref
    200. 

  200. and returns zero if the resulting value is zero, non-zero otherwise.
    201. 

  201. .SH SOURCE
    202. 

  202. .B /sys/src/libc/port/lock.c
    203. 

  203. .br
    204. 

  204. .B /sys/src/libc/9sys/qlock.c
    205. 

  205. .br
    206. 

  206. .B /sys/src/libthread/ref.c
    207. 

  207. .SH SEE ALSO
    208. 

  208. .I rfork
    209. 

  209. in
    210. 

  210. .IR fork (2)
    211. 

  211. .SH BUGS
    212. 

  212. .B Locks
    213. 

  213. are not strictly spin locks.
    214. 

  214. After each unsuccessful attempt,
    215. 

  215. .I lock
    216. 

  216. calls
    217. 

  217. .B sleep(0)
    218. 

  218. to yield the CPU; this handles the common case
    219. 

  219. where some other process holds the lock.
    220. 

  220. After a thousand unsuccessful attempts,
    221. 

  221. .I lock
    222. 

  222. sleeps for 100ms between attempts.
    223. 

  223. Another another thousand unsuccessful attempts,
    224. 

  224. .I lock
    225. 

  225. sleeps for a full second between attempts.
    226. 

  226. .B Locks
    227. 

  227. are not intended to be held for long periods of time.
    228. 

  228. The 100ms and full second sleeps are only heuristics to
    229. 

  229. avoid tying up the CPU when a process deadlocks.
    230. 

  230. As discussed above,
    231. 

  231. if a lock is to be held for much more than a few instructions,
    232. 

  232. the queueing lock types should be almost always be used.
    233.