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Linux/Documentation/locking/seqlock.rst

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Diff markup

Differences between /Documentation/locking/seqlock.rst (Architecture sparc) and /Documentation/locking/seqlock.rst (Architecture sparc64)


  1 ======================================              1 ======================================
  2 Sequence counters and sequential locks              2 Sequence counters and sequential locks
  3 ======================================              3 ======================================
  4                                                     4 
  5 Introduction                                        5 Introduction
  6 ============                                        6 ============
  7                                                     7 
  8 Sequence counters are a reader-writer consiste      8 Sequence counters are a reader-writer consistency mechanism with
  9 lockless readers (read-only retry loops), and       9 lockless readers (read-only retry loops), and no writer starvation. They
 10 are used for data that's rarely written to (e.     10 are used for data that's rarely written to (e.g. system time), where the
 11 reader wants a consistent set of information a     11 reader wants a consistent set of information and is willing to retry if
 12 that information changes.                          12 that information changes.
 13                                                    13 
 14 A data set is consistent when the sequence cou     14 A data set is consistent when the sequence count at the beginning of the
 15 read side critical section is even and the sam     15 read side critical section is even and the same sequence count value is
 16 read again at the end of the critical section.     16 read again at the end of the critical section. The data in the set must
 17 be copied out inside the read side critical se     17 be copied out inside the read side critical section. If the sequence
 18 count has changed between the start and the en     18 count has changed between the start and the end of the critical section,
 19 the reader must retry.                             19 the reader must retry.
 20                                                    20 
 21 Writers increment the sequence count at the st     21 Writers increment the sequence count at the start and the end of their
 22 critical section. After starting the critical      22 critical section. After starting the critical section the sequence count
 23 is odd and indicates to the readers that an up     23 is odd and indicates to the readers that an update is in progress. At
 24 the end of the write side critical section the     24 the end of the write side critical section the sequence count becomes
 25 even again which lets readers make progress.       25 even again which lets readers make progress.
 26                                                    26 
 27 A sequence counter write side critical section     27 A sequence counter write side critical section must never be preempted
 28 or interrupted by read side sections. Otherwis     28 or interrupted by read side sections. Otherwise the reader will spin for
 29 the entire scheduler tick due to the odd seque     29 the entire scheduler tick due to the odd sequence count value and the
 30 interrupted writer. If that reader belongs to      30 interrupted writer. If that reader belongs to a real-time scheduling
 31 class, it can spin forever and the kernel will     31 class, it can spin forever and the kernel will livelock.
 32                                                    32 
 33 This mechanism cannot be used if the protected     33 This mechanism cannot be used if the protected data contains pointers,
 34 as the writer can invalidate a pointer that th     34 as the writer can invalidate a pointer that the reader is following.
 35                                                    35 
 36                                                    36 
 37 .. _seqcount_t:                                    37 .. _seqcount_t:
 38                                                    38 
 39 Sequence counters (``seqcount_t``)                 39 Sequence counters (``seqcount_t``)
 40 ==================================                 40 ==================================
 41                                                    41 
 42 This is the raw counting mechanism, which does     42 This is the raw counting mechanism, which does not protect against
 43 multiple writers.  Write side critical section     43 multiple writers.  Write side critical sections must thus be serialized
 44 by an external lock.                               44 by an external lock.
 45                                                    45 
 46 If the write serialization primitive is not im     46 If the write serialization primitive is not implicitly disabling
 47 preemption, preemption must be explicitly disa     47 preemption, preemption must be explicitly disabled before entering the
 48 write side section. If the read section can be     48 write side section. If the read section can be invoked from hardirq or
 49 softirq contexts, interrupts or bottom halves      49 softirq contexts, interrupts or bottom halves must also be respectively
 50 disabled before entering the write section.        50 disabled before entering the write section.
 51                                                    51 
 52 If it's desired to automatically handle the se     52 If it's desired to automatically handle the sequence counter
 53 requirements of writer serialization and non-p     53 requirements of writer serialization and non-preemptibility, use
 54 :ref:`seqlock_t` instead.                          54 :ref:`seqlock_t` instead.
 55                                                    55 
 56 Initialization::                                   56 Initialization::
 57                                                    57 
 58         /* dynamic */                              58         /* dynamic */
 59         seqcount_t foo_seqcount;                   59         seqcount_t foo_seqcount;
 60         seqcount_init(&foo_seqcount);              60         seqcount_init(&foo_seqcount);
 61                                                    61 
 62         /* static */                               62         /* static */
 63         static seqcount_t foo_seqcount = SEQCN     63         static seqcount_t foo_seqcount = SEQCNT_ZERO(foo_seqcount);
 64                                                    64 
 65         /* C99 struct init */                      65         /* C99 struct init */
 66         struct {                                   66         struct {
 67                 .seq   = SEQCNT_ZERO(foo.seq),     67                 .seq   = SEQCNT_ZERO(foo.seq),
 68         } foo;                                     68         } foo;
 69                                                    69 
 70 Write path::                                       70 Write path::
 71                                                    71 
 72         /* Serialized context with disabled pr     72         /* Serialized context with disabled preemption */
 73                                                    73 
 74         write_seqcount_begin(&foo_seqcount);       74         write_seqcount_begin(&foo_seqcount);
 75                                                    75 
 76         /* ... [[write-side critical section]]     76         /* ... [[write-side critical section]] ... */
 77                                                    77 
 78         write_seqcount_end(&foo_seqcount);         78         write_seqcount_end(&foo_seqcount);
 79                                                    79 
 80 Read path::                                        80 Read path::
 81                                                    81 
 82         do {                                       82         do {
 83                 seq = read_seqcount_begin(&foo     83                 seq = read_seqcount_begin(&foo_seqcount);
 84                                                    84 
 85                 /* ... [[read-side critical se     85                 /* ... [[read-side critical section]] ... */
 86                                                    86 
 87         } while (read_seqcount_retry(&foo_seqc     87         } while (read_seqcount_retry(&foo_seqcount, seq));
 88                                                    88 
 89                                                    89 
 90 .. _seqcount_locktype_t:                           90 .. _seqcount_locktype_t:
 91                                                    91 
 92 Sequence counters with associated locks (``seq     92 Sequence counters with associated locks (``seqcount_LOCKNAME_t``)
 93 ----------------------------------------------     93 -----------------------------------------------------------------
 94                                                    94 
 95 As discussed at :ref:`seqcount_t`, sequence co     95 As discussed at :ref:`seqcount_t`, sequence count write side critical
 96 sections must be serialized and non-preemptibl     96 sections must be serialized and non-preemptible. This variant of
 97 sequence counters associate the lock used for      97 sequence counters associate the lock used for writer serialization at
 98 initialization time, which enables lockdep to      98 initialization time, which enables lockdep to validate that the write
 99 side critical sections are properly serialized     99 side critical sections are properly serialized.
100                                                   100 
101 This lock association is a NOOP if lockdep is     101 This lock association is a NOOP if lockdep is disabled and has neither
102 storage nor runtime overhead. If lockdep is en    102 storage nor runtime overhead. If lockdep is enabled, the lock pointer is
103 stored in struct seqcount and lockdep's "lock     103 stored in struct seqcount and lockdep's "lock is held" assertions are
104 injected at the beginning of the write side cr    104 injected at the beginning of the write side critical section to validate
105 that it is properly protected.                    105 that it is properly protected.
106                                                   106 
107 For lock types which do not implicitly disable    107 For lock types which do not implicitly disable preemption, preemption
108 protection is enforced in the write side funct    108 protection is enforced in the write side function.
109                                                   109 
110 The following sequence counters with associate    110 The following sequence counters with associated locks are defined:
111                                                   111 
112   - ``seqcount_spinlock_t``                       112   - ``seqcount_spinlock_t``
113   - ``seqcount_raw_spinlock_t``                   113   - ``seqcount_raw_spinlock_t``
114   - ``seqcount_rwlock_t``                         114   - ``seqcount_rwlock_t``
115   - ``seqcount_mutex_t``                          115   - ``seqcount_mutex_t``
116   - ``seqcount_ww_mutex_t``                       116   - ``seqcount_ww_mutex_t``
117                                                   117 
118 The sequence counter read and write APIs can t    118 The sequence counter read and write APIs can take either a plain
119 seqcount_t or any of the seqcount_LOCKNAME_t v    119 seqcount_t or any of the seqcount_LOCKNAME_t variants above.
120                                                   120 
121 Initialization (replace "LOCKNAME" with one of    121 Initialization (replace "LOCKNAME" with one of the supported locks)::
122                                                   122 
123         /* dynamic */                             123         /* dynamic */
124         seqcount_LOCKNAME_t foo_seqcount;         124         seqcount_LOCKNAME_t foo_seqcount;
125         seqcount_LOCKNAME_init(&foo_seqcount,     125         seqcount_LOCKNAME_init(&foo_seqcount, &lock);
126                                                   126 
127         /* static */                              127         /* static */
128         static seqcount_LOCKNAME_t foo_seqcoun    128         static seqcount_LOCKNAME_t foo_seqcount =
129                 SEQCNT_LOCKNAME_ZERO(foo_seqco    129                 SEQCNT_LOCKNAME_ZERO(foo_seqcount, &lock);
130                                                   130 
131         /* C99 struct init */                     131         /* C99 struct init */
132         struct {                                  132         struct {
133                 .seq   = SEQCNT_LOCKNAME_ZERO(    133                 .seq   = SEQCNT_LOCKNAME_ZERO(foo.seq, &lock),
134         } foo;                                    134         } foo;
135                                                   135 
136 Write path: same as in :ref:`seqcount_t`, whil    136 Write path: same as in :ref:`seqcount_t`, while running from a context
137 with the associated write serialization lock a    137 with the associated write serialization lock acquired.
138                                                   138 
139 Read path: same as in :ref:`seqcount_t`.          139 Read path: same as in :ref:`seqcount_t`.
140                                                   140 
141                                                   141 
142 .. _seqcount_latch_t:                             142 .. _seqcount_latch_t:
143                                                   143 
144 Latch sequence counters (``seqcount_latch_t``)    144 Latch sequence counters (``seqcount_latch_t``)
145 ----------------------------------------------    145 ----------------------------------------------
146                                                   146 
147 Latch sequence counters are a multiversion con    147 Latch sequence counters are a multiversion concurrency control mechanism
148 where the embedded seqcount_t counter even/odd    148 where the embedded seqcount_t counter even/odd value is used to switch
149 between two copies of protected data. This all    149 between two copies of protected data. This allows the sequence counter
150 read path to safely interrupt its own write si    150 read path to safely interrupt its own write side critical section.
151                                                   151 
152 Use seqcount_latch_t when the write side secti    152 Use seqcount_latch_t when the write side sections cannot be protected
153 from interruption by readers. This is typicall    153 from interruption by readers. This is typically the case when the read
154 side can be invoked from NMI handlers.            154 side can be invoked from NMI handlers.
155                                                   155 
156 Check `raw_write_seqcount_latch()` for more in    156 Check `raw_write_seqcount_latch()` for more information.
157                                                   157 
158                                                   158 
159 .. _seqlock_t:                                    159 .. _seqlock_t:
160                                                   160 
161 Sequential locks (``seqlock_t``)                  161 Sequential locks (``seqlock_t``)
162 ================================                  162 ================================
163                                                   163 
164 This contains the :ref:`seqcount_t` mechanism     164 This contains the :ref:`seqcount_t` mechanism earlier discussed, plus an
165 embedded spinlock for writer serialization and    165 embedded spinlock for writer serialization and non-preemptibility.
166                                                   166 
167 If the read side section can be invoked from h    167 If the read side section can be invoked from hardirq or softirq context,
168 use the write side function variants which dis    168 use the write side function variants which disable interrupts or bottom
169 halves respectively.                              169 halves respectively.
170                                                   170 
171 Initialization::                                  171 Initialization::
172                                                   172 
173         /* dynamic */                             173         /* dynamic */
174         seqlock_t foo_seqlock;                    174         seqlock_t foo_seqlock;
175         seqlock_init(&foo_seqlock);               175         seqlock_init(&foo_seqlock);
176                                                   176 
177         /* static */                              177         /* static */
178         static DEFINE_SEQLOCK(foo_seqlock);       178         static DEFINE_SEQLOCK(foo_seqlock);
179                                                   179 
180         /* C99 struct init */                     180         /* C99 struct init */
181         struct {                                  181         struct {
182                 .seql   = __SEQLOCK_UNLOCKED(f    182                 .seql   = __SEQLOCK_UNLOCKED(foo.seql)
183         } foo;                                    183         } foo;
184                                                   184 
185 Write path::                                      185 Write path::
186                                                   186 
187         write_seqlock(&foo_seqlock);              187         write_seqlock(&foo_seqlock);
188                                                   188 
189         /* ... [[write-side critical section]]    189         /* ... [[write-side critical section]] ... */
190                                                   190 
191         write_sequnlock(&foo_seqlock);            191         write_sequnlock(&foo_seqlock);
192                                                   192 
193 Read path, three categories:                      193 Read path, three categories:
194                                                   194 
195 1. Normal Sequence readers which never block a    195 1. Normal Sequence readers which never block a writer but they must
196    retry if a writer is in progress by detecti    196    retry if a writer is in progress by detecting change in the sequence
197    number.  Writers do not wait for a sequence    197    number.  Writers do not wait for a sequence reader::
198                                                   198 
199         do {                                      199         do {
200                 seq = read_seqbegin(&foo_seqlo    200                 seq = read_seqbegin(&foo_seqlock);
201                                                   201 
202                 /* ... [[read-side critical se    202                 /* ... [[read-side critical section]] ... */
203                                                   203 
204         } while (read_seqretry(&foo_seqlock, s    204         } while (read_seqretry(&foo_seqlock, seq));
205                                                   205 
206 2. Locking readers which will wait if a writer    206 2. Locking readers which will wait if a writer or another locking reader
207    is in progress. A locking reader in progres    207    is in progress. A locking reader in progress will also block a writer
208    from entering its critical section. This re    208    from entering its critical section. This read lock is
209    exclusive. Unlike rwlock_t, only one lockin    209    exclusive. Unlike rwlock_t, only one locking reader can acquire it::
210                                                   210 
211         read_seqlock_excl(&foo_seqlock);          211         read_seqlock_excl(&foo_seqlock);
212                                                   212 
213         /* ... [[read-side critical section]]     213         /* ... [[read-side critical section]] ... */
214                                                   214 
215         read_sequnlock_excl(&foo_seqlock);        215         read_sequnlock_excl(&foo_seqlock);
216                                                   216 
217 3. Conditional lockless reader (as in 1), or l    217 3. Conditional lockless reader (as in 1), or locking reader (as in 2),
218    according to a passed marker. This is used     218    according to a passed marker. This is used to avoid lockless readers
219    starvation (too much retry loops) in case o    219    starvation (too much retry loops) in case of a sharp spike in write
220    activity. First, a lockless read is tried (    220    activity. First, a lockless read is tried (even marker passed). If
221    that trial fails (odd sequence counter is r    221    that trial fails (odd sequence counter is returned, which is used as
222    the next iteration marker), the lockless re    222    the next iteration marker), the lockless read is transformed to a
223    full locking read and no retry loop is nece    223    full locking read and no retry loop is necessary::
224                                                   224 
225         /* marker; even initialization */         225         /* marker; even initialization */
226         int seq = 0;                              226         int seq = 0;
227         do {                                      227         do {
228                 read_seqbegin_or_lock(&foo_seq    228                 read_seqbegin_or_lock(&foo_seqlock, &seq);
229                                                   229 
230                 /* ... [[read-side critical se    230                 /* ... [[read-side critical section]] ... */
231                                                   231 
232         } while (need_seqretry(&foo_seqlock, s    232         } while (need_seqretry(&foo_seqlock, seq));
233         done_seqretry(&foo_seqlock, seq);         233         done_seqretry(&foo_seqlock, seq);
234                                                   234 
235                                                   235 
236 API documentation                                 236 API documentation
237 =================                                 237 =================
238                                                   238 
239 .. kernel-doc:: include/linux/seqlock.h           239 .. kernel-doc:: include/linux/seqlock.h
                                                      

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