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1da177e4 LT |
1 | #ifndef __LINUX_PERCPU_H |
2 | #define __LINUX_PERCPU_H | |
7ff6f082 | 3 | |
0a3021f4 | 4 | #include <linux/preempt.h> |
1da177e4 LT |
5 | #include <linux/slab.h> /* For kmalloc() */ |
6 | #include <linux/smp.h> | |
7ff6f082 | 7 | #include <linux/cpumask.h> |
6a242909 | 8 | #include <linux/pfn.h> |
7ff6f082 | 9 | |
1da177e4 LT |
10 | #include <asm/percpu.h> |
11 | ||
6a242909 | 12 | /* enough to cover all DEFINE_PER_CPUs in modules */ |
b00742d3 | 13 | #ifdef CONFIG_MODULES |
6a242909 | 14 | #define PERCPU_MODULE_RESERVE (8 << 10) |
b00742d3 | 15 | #else |
6a242909 | 16 | #define PERCPU_MODULE_RESERVE 0 |
1da177e4 LT |
17 | #endif |
18 | ||
6a242909 | 19 | #ifndef PERCPU_ENOUGH_ROOM |
b00742d3 | 20 | #define PERCPU_ENOUGH_ROOM \ |
6a242909 TH |
21 | (ALIGN(__per_cpu_end - __per_cpu_start, SMP_CACHE_BYTES) + \ |
22 | PERCPU_MODULE_RESERVE) | |
23 | #endif | |
b00742d3 | 24 | |
632bbfee JB |
25 | /* |
26 | * Must be an lvalue. Since @var must be a simple identifier, | |
27 | * we force a syntax error here if it isn't. | |
28 | */ | |
29 | #define get_cpu_var(var) (*({ \ | |
a666ecfb | 30 | extern int simple_identifier_##var(void); \ |
632bbfee JB |
31 | preempt_disable(); \ |
32 | &__get_cpu_var(var); })) | |
1da177e4 LT |
33 | #define put_cpu_var(var) preempt_enable() |
34 | ||
35 | #ifdef CONFIG_SMP | |
36 | ||
8d408b4b | 37 | /* minimum unit size, also is the maximum supported allocation size */ |
6a242909 | 38 | #define PCPU_MIN_UNIT_SIZE PFN_ALIGN(64 << 10) |
8d408b4b TH |
39 | |
40 | /* | |
41 | * PERCPU_DYNAMIC_RESERVE indicates the amount of free area to piggy | |
6b19b0c2 TH |
42 | * back on the first chunk for dynamic percpu allocation if arch is |
43 | * manually allocating and mapping it for faster access (as a part of | |
44 | * large page mapping for example). | |
8d408b4b | 45 | * |
6b19b0c2 TH |
46 | * The following values give between one and two pages of free space |
47 | * after typical minimal boot (2-way SMP, single disk and NIC) with | |
48 | * both defconfig and a distro config on x86_64 and 32. More | |
49 | * intelligent way to determine this would be nice. | |
8d408b4b | 50 | */ |
6b19b0c2 TH |
51 | #if BITS_PER_LONG > 32 |
52 | #define PERCPU_DYNAMIC_RESERVE (20 << 10) | |
53 | #else | |
54 | #define PERCPU_DYNAMIC_RESERVE (12 << 10) | |
55 | #endif | |
8d408b4b | 56 | |
fbf59bc9 | 57 | extern void *pcpu_base_addr; |
fb435d52 | 58 | extern const unsigned long *pcpu_unit_offsets; |
1da177e4 | 59 | |
fd1e8a1f TH |
60 | struct pcpu_group_info { |
61 | int nr_units; /* aligned # of units */ | |
62 | unsigned long base_offset; /* base address offset */ | |
63 | unsigned int *cpu_map; /* unit->cpu map, empty | |
64 | * entries contain NR_CPUS */ | |
65 | }; | |
66 | ||
67 | struct pcpu_alloc_info { | |
68 | size_t static_size; | |
69 | size_t reserved_size; | |
70 | size_t dyn_size; | |
71 | size_t unit_size; | |
72 | size_t atom_size; | |
73 | size_t alloc_size; | |
74 | size_t __ai_size; /* internal, don't use */ | |
75 | int nr_groups; /* 0 if grouping unnecessary */ | |
76 | struct pcpu_group_info groups[]; | |
77 | }; | |
78 | ||
f58dc01b TH |
79 | enum pcpu_fc { |
80 | PCPU_FC_AUTO, | |
81 | PCPU_FC_EMBED, | |
82 | PCPU_FC_PAGE, | |
f58dc01b TH |
83 | |
84 | PCPU_FC_NR, | |
85 | }; | |
86 | extern const char *pcpu_fc_names[PCPU_FC_NR]; | |
87 | ||
88 | extern enum pcpu_fc pcpu_chosen_fc; | |
89 | ||
3cbc8565 TH |
90 | typedef void * (*pcpu_fc_alloc_fn_t)(unsigned int cpu, size_t size, |
91 | size_t align); | |
d4b95f80 TH |
92 | typedef void (*pcpu_fc_free_fn_t)(void *ptr, size_t size); |
93 | typedef void (*pcpu_fc_populate_pte_fn_t)(unsigned long addr); | |
a530b795 | 94 | typedef int (pcpu_fc_cpu_distance_fn_t)(unsigned int from, unsigned int to); |
fbf59bc9 | 95 | |
fd1e8a1f TH |
96 | extern struct pcpu_alloc_info * __init pcpu_alloc_alloc_info(int nr_groups, |
97 | int nr_units); | |
98 | extern void __init pcpu_free_alloc_info(struct pcpu_alloc_info *ai); | |
99 | ||
100 | extern struct pcpu_alloc_info * __init pcpu_build_alloc_info( | |
101 | size_t reserved_size, ssize_t dyn_size, | |
102 | size_t atom_size, | |
033e48fb | 103 | pcpu_fc_cpu_distance_fn_t cpu_distance_fn); |
033e48fb | 104 | |
fb435d52 TH |
105 | extern int __init pcpu_setup_first_chunk(const struct pcpu_alloc_info *ai, |
106 | void *base_addr); | |
8d408b4b | 107 | |
08fc4580 | 108 | #ifdef CONFIG_NEED_PER_CPU_EMBED_FIRST_CHUNK |
c8826dd5 TH |
109 | extern int __init pcpu_embed_first_chunk(size_t reserved_size, ssize_t dyn_size, |
110 | size_t atom_size, | |
111 | pcpu_fc_cpu_distance_fn_t cpu_distance_fn, | |
112 | pcpu_fc_alloc_fn_t alloc_fn, | |
113 | pcpu_fc_free_fn_t free_fn); | |
08fc4580 | 114 | #endif |
66c3a757 | 115 | |
08fc4580 | 116 | #ifdef CONFIG_NEED_PER_CPU_PAGE_FIRST_CHUNK |
fb435d52 | 117 | extern int __init pcpu_page_first_chunk(size_t reserved_size, |
d4b95f80 TH |
118 | pcpu_fc_alloc_fn_t alloc_fn, |
119 | pcpu_fc_free_fn_t free_fn, | |
120 | pcpu_fc_populate_pte_fn_t populate_pte_fn); | |
08fc4580 | 121 | #endif |
d4b95f80 | 122 | |
f2a8205c TH |
123 | /* |
124 | * Use this to get to a cpu's version of the per-cpu object | |
125 | * dynamically allocated. Non-atomic access to the current CPU's | |
126 | * version should probably be combined with get_cpu()/put_cpu(). | |
127 | */ | |
fbf59bc9 TH |
128 | #define per_cpu_ptr(ptr, cpu) SHIFT_PERCPU_PTR((ptr), per_cpu_offset((cpu))) |
129 | ||
edcb4639 | 130 | extern void *__alloc_reserved_percpu(size_t size, size_t align); |
f2a8205c TH |
131 | extern void *__alloc_percpu(size_t size, size_t align); |
132 | extern void free_percpu(void *__pdata); | |
3b034b0d | 133 | extern phys_addr_t per_cpu_ptr_to_phys(void *addr); |
1da177e4 | 134 | |
e74e3962 TH |
135 | #ifndef CONFIG_HAVE_SETUP_PER_CPU_AREA |
136 | extern void __init setup_per_cpu_areas(void); | |
137 | #endif | |
138 | ||
1da177e4 LT |
139 | #else /* CONFIG_SMP */ |
140 | ||
b36128c8 | 141 | #define per_cpu_ptr(ptr, cpu) ({ (void)(cpu); (ptr); }) |
7ff6f082 | 142 | |
f2a8205c | 143 | static inline void *__alloc_percpu(size_t size, size_t align) |
7ff6f082 | 144 | { |
f2a8205c TH |
145 | /* |
146 | * Can't easily make larger alignment work with kmalloc. WARN | |
147 | * on it. Larger alignment should only be used for module | |
148 | * percpu sections on SMP for which this path isn't used. | |
149 | */ | |
e3176036 | 150 | WARN_ON_ONCE(align > SMP_CACHE_BYTES); |
d2b02615 | 151 | return kzalloc(size, GFP_KERNEL); |
7ff6f082 MP |
152 | } |
153 | ||
f2a8205c | 154 | static inline void free_percpu(void *p) |
7ff6f082 | 155 | { |
f2a8205c | 156 | kfree(p); |
1da177e4 LT |
157 | } |
158 | ||
ee0a6efc TH |
159 | static inline phys_addr_t per_cpu_ptr_to_phys(void *addr) |
160 | { | |
161 | return __pa(addr); | |
162 | } | |
163 | ||
e74e3962 TH |
164 | static inline void __init setup_per_cpu_areas(void) { } |
165 | ||
a76761b6 TH |
166 | static inline void *pcpu_lpage_remapped(void *kaddr) |
167 | { | |
168 | return NULL; | |
169 | } | |
170 | ||
1da177e4 LT |
171 | #endif /* CONFIG_SMP */ |
172 | ||
64ef291f TH |
173 | #define alloc_percpu(type) \ |
174 | (typeof(type) *)__alloc_percpu(sizeof(type), __alignof__(type)) | |
1da177e4 | 175 | |
066123a5 TH |
176 | /* |
177 | * Optional methods for optimized non-lvalue per-cpu variable access. | |
178 | * | |
179 | * @var can be a percpu variable or a field of it and its size should | |
180 | * equal char, int or long. percpu_read() evaluates to a lvalue and | |
181 | * all others to void. | |
182 | * | |
183 | * These operations are guaranteed to be atomic w.r.t. preemption. | |
184 | * The generic versions use plain get/put_cpu_var(). Archs are | |
185 | * encouraged to implement single-instruction alternatives which don't | |
186 | * require preemption protection. | |
187 | */ | |
188 | #ifndef percpu_read | |
189 | # define percpu_read(var) \ | |
190 | ({ \ | |
191 | typeof(per_cpu_var(var)) __tmp_var__; \ | |
192 | __tmp_var__ = get_cpu_var(var); \ | |
193 | put_cpu_var(var); \ | |
194 | __tmp_var__; \ | |
195 | }) | |
196 | #endif | |
197 | ||
198 | #define __percpu_generic_to_op(var, val, op) \ | |
199 | do { \ | |
200 | get_cpu_var(var) op val; \ | |
201 | put_cpu_var(var); \ | |
202 | } while (0) | |
203 | ||
204 | #ifndef percpu_write | |
205 | # define percpu_write(var, val) __percpu_generic_to_op(var, (val), =) | |
206 | #endif | |
207 | ||
208 | #ifndef percpu_add | |
209 | # define percpu_add(var, val) __percpu_generic_to_op(var, (val), +=) | |
210 | #endif | |
211 | ||
212 | #ifndef percpu_sub | |
213 | # define percpu_sub(var, val) __percpu_generic_to_op(var, (val), -=) | |
214 | #endif | |
215 | ||
216 | #ifndef percpu_and | |
217 | # define percpu_and(var, val) __percpu_generic_to_op(var, (val), &=) | |
218 | #endif | |
219 | ||
220 | #ifndef percpu_or | |
221 | # define percpu_or(var, val) __percpu_generic_to_op(var, (val), |=) | |
222 | #endif | |
223 | ||
224 | #ifndef percpu_xor | |
225 | # define percpu_xor(var, val) __percpu_generic_to_op(var, (val), ^=) | |
226 | #endif | |
227 | ||
7340a0b1 CL |
228 | /* |
229 | * Branching function to split up a function into a set of functions that | |
230 | * are called for different scalar sizes of the objects handled. | |
231 | */ | |
232 | ||
233 | extern void __bad_size_call_parameter(void); | |
234 | ||
0f5e4816 TH |
235 | #define __pcpu_size_call_return(stem, variable) \ |
236 | ({ typeof(variable) pscr_ret__; \ | |
7340a0b1 | 237 | switch(sizeof(variable)) { \ |
0f5e4816 TH |
238 | case 1: pscr_ret__ = stem##1(variable);break; \ |
239 | case 2: pscr_ret__ = stem##2(variable);break; \ | |
240 | case 4: pscr_ret__ = stem##4(variable);break; \ | |
241 | case 8: pscr_ret__ = stem##8(variable);break; \ | |
7340a0b1 CL |
242 | default: \ |
243 | __bad_size_call_parameter();break; \ | |
244 | } \ | |
0f5e4816 | 245 | pscr_ret__; \ |
7340a0b1 CL |
246 | }) |
247 | ||
0f5e4816 | 248 | #define __pcpu_size_call(stem, variable, ...) \ |
7340a0b1 CL |
249 | do { \ |
250 | switch(sizeof(variable)) { \ | |
251 | case 1: stem##1(variable, __VA_ARGS__);break; \ | |
252 | case 2: stem##2(variable, __VA_ARGS__);break; \ | |
253 | case 4: stem##4(variable, __VA_ARGS__);break; \ | |
254 | case 8: stem##8(variable, __VA_ARGS__);break; \ | |
255 | default: \ | |
256 | __bad_size_call_parameter();break; \ | |
257 | } \ | |
258 | } while (0) | |
259 | ||
260 | /* | |
261 | * Optimized manipulation for memory allocated through the per cpu | |
262 | * allocator or for addresses of per cpu variables (can be determined | |
263 | * using per_cpu_var(xx). | |
264 | * | |
265 | * These operation guarantee exclusivity of access for other operations | |
266 | * on the *same* processor. The assumption is that per cpu data is only | |
267 | * accessed by a single processor instance (the current one). | |
268 | * | |
269 | * The first group is used for accesses that must be done in a | |
270 | * preemption safe way since we know that the context is not preempt | |
271 | * safe. Interrupts may occur. If the interrupt modifies the variable | |
272 | * too then RMW actions will not be reliable. | |
273 | * | |
274 | * The arch code can provide optimized functions in two ways: | |
275 | * | |
276 | * 1. Override the function completely. F.e. define this_cpu_add(). | |
277 | * The arch must then ensure that the various scalar format passed | |
278 | * are handled correctly. | |
279 | * | |
280 | * 2. Provide functions for certain scalar sizes. F.e. provide | |
281 | * this_cpu_add_2() to provide per cpu atomic operations for 2 byte | |
282 | * sized RMW actions. If arch code does not provide operations for | |
283 | * a scalar size then the fallback in the generic code will be | |
284 | * used. | |
285 | */ | |
286 | ||
287 | #define _this_cpu_generic_read(pcp) \ | |
288 | ({ typeof(pcp) ret__; \ | |
289 | preempt_disable(); \ | |
290 | ret__ = *this_cpu_ptr(&(pcp)); \ | |
291 | preempt_enable(); \ | |
292 | ret__; \ | |
293 | }) | |
294 | ||
295 | #ifndef this_cpu_read | |
296 | # ifndef this_cpu_read_1 | |
297 | # define this_cpu_read_1(pcp) _this_cpu_generic_read(pcp) | |
298 | # endif | |
299 | # ifndef this_cpu_read_2 | |
300 | # define this_cpu_read_2(pcp) _this_cpu_generic_read(pcp) | |
301 | # endif | |
302 | # ifndef this_cpu_read_4 | |
303 | # define this_cpu_read_4(pcp) _this_cpu_generic_read(pcp) | |
304 | # endif | |
305 | # ifndef this_cpu_read_8 | |
306 | # define this_cpu_read_8(pcp) _this_cpu_generic_read(pcp) | |
307 | # endif | |
0f5e4816 | 308 | # define this_cpu_read(pcp) __pcpu_size_call_return(this_cpu_read_, (pcp)) |
7340a0b1 CL |
309 | #endif |
310 | ||
311 | #define _this_cpu_generic_to_op(pcp, val, op) \ | |
312 | do { \ | |
313 | preempt_disable(); \ | |
314 | *__this_cpu_ptr(&pcp) op val; \ | |
315 | preempt_enable(); \ | |
316 | } while (0) | |
317 | ||
318 | #ifndef this_cpu_write | |
319 | # ifndef this_cpu_write_1 | |
320 | # define this_cpu_write_1(pcp, val) _this_cpu_generic_to_op((pcp), (val), =) | |
321 | # endif | |
322 | # ifndef this_cpu_write_2 | |
323 | # define this_cpu_write_2(pcp, val) _this_cpu_generic_to_op((pcp), (val), =) | |
324 | # endif | |
325 | # ifndef this_cpu_write_4 | |
326 | # define this_cpu_write_4(pcp, val) _this_cpu_generic_to_op((pcp), (val), =) | |
327 | # endif | |
328 | # ifndef this_cpu_write_8 | |
329 | # define this_cpu_write_8(pcp, val) _this_cpu_generic_to_op((pcp), (val), =) | |
330 | # endif | |
0f5e4816 | 331 | # define this_cpu_write(pcp, val) __pcpu_size_call(this_cpu_write_, (pcp), (val)) |
7340a0b1 CL |
332 | #endif |
333 | ||
334 | #ifndef this_cpu_add | |
335 | # ifndef this_cpu_add_1 | |
336 | # define this_cpu_add_1(pcp, val) _this_cpu_generic_to_op((pcp), (val), +=) | |
337 | # endif | |
338 | # ifndef this_cpu_add_2 | |
339 | # define this_cpu_add_2(pcp, val) _this_cpu_generic_to_op((pcp), (val), +=) | |
340 | # endif | |
341 | # ifndef this_cpu_add_4 | |
342 | # define this_cpu_add_4(pcp, val) _this_cpu_generic_to_op((pcp), (val), +=) | |
343 | # endif | |
344 | # ifndef this_cpu_add_8 | |
345 | # define this_cpu_add_8(pcp, val) _this_cpu_generic_to_op((pcp), (val), +=) | |
346 | # endif | |
0f5e4816 | 347 | # define this_cpu_add(pcp, val) __pcpu_size_call(this_cpu_add_, (pcp), (val)) |
7340a0b1 CL |
348 | #endif |
349 | ||
350 | #ifndef this_cpu_sub | |
351 | # define this_cpu_sub(pcp, val) this_cpu_add((pcp), -(val)) | |
352 | #endif | |
353 | ||
354 | #ifndef this_cpu_inc | |
355 | # define this_cpu_inc(pcp) this_cpu_add((pcp), 1) | |
356 | #endif | |
357 | ||
358 | #ifndef this_cpu_dec | |
359 | # define this_cpu_dec(pcp) this_cpu_sub((pcp), 1) | |
360 | #endif | |
361 | ||
362 | #ifndef this_cpu_and | |
363 | # ifndef this_cpu_and_1 | |
364 | # define this_cpu_and_1(pcp, val) _this_cpu_generic_to_op((pcp), (val), &=) | |
365 | # endif | |
366 | # ifndef this_cpu_and_2 | |
367 | # define this_cpu_and_2(pcp, val) _this_cpu_generic_to_op((pcp), (val), &=) | |
368 | # endif | |
369 | # ifndef this_cpu_and_4 | |
370 | # define this_cpu_and_4(pcp, val) _this_cpu_generic_to_op((pcp), (val), &=) | |
371 | # endif | |
372 | # ifndef this_cpu_and_8 | |
373 | # define this_cpu_and_8(pcp, val) _this_cpu_generic_to_op((pcp), (val), &=) | |
374 | # endif | |
0f5e4816 | 375 | # define this_cpu_and(pcp, val) __pcpu_size_call(this_cpu_and_, (pcp), (val)) |
7340a0b1 CL |
376 | #endif |
377 | ||
378 | #ifndef this_cpu_or | |
379 | # ifndef this_cpu_or_1 | |
380 | # define this_cpu_or_1(pcp, val) _this_cpu_generic_to_op((pcp), (val), |=) | |
381 | # endif | |
382 | # ifndef this_cpu_or_2 | |
383 | # define this_cpu_or_2(pcp, val) _this_cpu_generic_to_op((pcp), (val), |=) | |
384 | # endif | |
385 | # ifndef this_cpu_or_4 | |
386 | # define this_cpu_or_4(pcp, val) _this_cpu_generic_to_op((pcp), (val), |=) | |
387 | # endif | |
388 | # ifndef this_cpu_or_8 | |
389 | # define this_cpu_or_8(pcp, val) _this_cpu_generic_to_op((pcp), (val), |=) | |
390 | # endif | |
0f5e4816 | 391 | # define this_cpu_or(pcp, val) __pcpu_size_call(this_cpu_or_, (pcp), (val)) |
7340a0b1 CL |
392 | #endif |
393 | ||
394 | #ifndef this_cpu_xor | |
395 | # ifndef this_cpu_xor_1 | |
396 | # define this_cpu_xor_1(pcp, val) _this_cpu_generic_to_op((pcp), (val), ^=) | |
397 | # endif | |
398 | # ifndef this_cpu_xor_2 | |
399 | # define this_cpu_xor_2(pcp, val) _this_cpu_generic_to_op((pcp), (val), ^=) | |
400 | # endif | |
401 | # ifndef this_cpu_xor_4 | |
402 | # define this_cpu_xor_4(pcp, val) _this_cpu_generic_to_op((pcp), (val), ^=) | |
403 | # endif | |
404 | # ifndef this_cpu_xor_8 | |
405 | # define this_cpu_xor_8(pcp, val) _this_cpu_generic_to_op((pcp), (val), ^=) | |
406 | # endif | |
0f5e4816 | 407 | # define this_cpu_xor(pcp, val) __pcpu_size_call(this_cpu_or_, (pcp), (val)) |
7340a0b1 CL |
408 | #endif |
409 | ||
410 | /* | |
411 | * Generic percpu operations that do not require preemption handling. | |
412 | * Either we do not care about races or the caller has the | |
413 | * responsibility of handling preemptions issues. Arch code can still | |
414 | * override these instructions since the arch per cpu code may be more | |
415 | * efficient and may actually get race freeness for free (that is the | |
416 | * case for x86 for example). | |
417 | * | |
418 | * If there is no other protection through preempt disable and/or | |
419 | * disabling interupts then one of these RMW operations can show unexpected | |
420 | * behavior because the execution thread was rescheduled on another processor | |
421 | * or an interrupt occurred and the same percpu variable was modified from | |
422 | * the interrupt context. | |
423 | */ | |
424 | #ifndef __this_cpu_read | |
425 | # ifndef __this_cpu_read_1 | |
426 | # define __this_cpu_read_1(pcp) (*__this_cpu_ptr(&(pcp))) | |
427 | # endif | |
428 | # ifndef __this_cpu_read_2 | |
429 | # define __this_cpu_read_2(pcp) (*__this_cpu_ptr(&(pcp))) | |
430 | # endif | |
431 | # ifndef __this_cpu_read_4 | |
432 | # define __this_cpu_read_4(pcp) (*__this_cpu_ptr(&(pcp))) | |
433 | # endif | |
434 | # ifndef __this_cpu_read_8 | |
435 | # define __this_cpu_read_8(pcp) (*__this_cpu_ptr(&(pcp))) | |
436 | # endif | |
0f5e4816 | 437 | # define __this_cpu_read(pcp) __pcpu_size_call_return(__this_cpu_read_, (pcp)) |
7340a0b1 CL |
438 | #endif |
439 | ||
440 | #define __this_cpu_generic_to_op(pcp, val, op) \ | |
441 | do { \ | |
442 | *__this_cpu_ptr(&(pcp)) op val; \ | |
443 | } while (0) | |
444 | ||
445 | #ifndef __this_cpu_write | |
446 | # ifndef __this_cpu_write_1 | |
447 | # define __this_cpu_write_1(pcp, val) __this_cpu_generic_to_op((pcp), (val), =) | |
448 | # endif | |
449 | # ifndef __this_cpu_write_2 | |
450 | # define __this_cpu_write_2(pcp, val) __this_cpu_generic_to_op((pcp), (val), =) | |
451 | # endif | |
452 | # ifndef __this_cpu_write_4 | |
453 | # define __this_cpu_write_4(pcp, val) __this_cpu_generic_to_op((pcp), (val), =) | |
454 | # endif | |
455 | # ifndef __this_cpu_write_8 | |
456 | # define __this_cpu_write_8(pcp, val) __this_cpu_generic_to_op((pcp), (val), =) | |
457 | # endif | |
0f5e4816 | 458 | # define __this_cpu_write(pcp, val) __pcpu_size_call(__this_cpu_write_, (pcp), (val)) |
7340a0b1 CL |
459 | #endif |
460 | ||
461 | #ifndef __this_cpu_add | |
462 | # ifndef __this_cpu_add_1 | |
463 | # define __this_cpu_add_1(pcp, val) __this_cpu_generic_to_op((pcp), (val), +=) | |
464 | # endif | |
465 | # ifndef __this_cpu_add_2 | |
466 | # define __this_cpu_add_2(pcp, val) __this_cpu_generic_to_op((pcp), (val), +=) | |
467 | # endif | |
468 | # ifndef __this_cpu_add_4 | |
469 | # define __this_cpu_add_4(pcp, val) __this_cpu_generic_to_op((pcp), (val), +=) | |
470 | # endif | |
471 | # ifndef __this_cpu_add_8 | |
472 | # define __this_cpu_add_8(pcp, val) __this_cpu_generic_to_op((pcp), (val), +=) | |
473 | # endif | |
0f5e4816 | 474 | # define __this_cpu_add(pcp, val) __pcpu_size_call(__this_cpu_add_, (pcp), (val)) |
7340a0b1 CL |
475 | #endif |
476 | ||
477 | #ifndef __this_cpu_sub | |
478 | # define __this_cpu_sub(pcp, val) __this_cpu_add((pcp), -(val)) | |
479 | #endif | |
480 | ||
481 | #ifndef __this_cpu_inc | |
482 | # define __this_cpu_inc(pcp) __this_cpu_add((pcp), 1) | |
483 | #endif | |
484 | ||
485 | #ifndef __this_cpu_dec | |
486 | # define __this_cpu_dec(pcp) __this_cpu_sub((pcp), 1) | |
487 | #endif | |
488 | ||
489 | #ifndef __this_cpu_and | |
490 | # ifndef __this_cpu_and_1 | |
491 | # define __this_cpu_and_1(pcp, val) __this_cpu_generic_to_op((pcp), (val), &=) | |
492 | # endif | |
493 | # ifndef __this_cpu_and_2 | |
494 | # define __this_cpu_and_2(pcp, val) __this_cpu_generic_to_op((pcp), (val), &=) | |
495 | # endif | |
496 | # ifndef __this_cpu_and_4 | |
497 | # define __this_cpu_and_4(pcp, val) __this_cpu_generic_to_op((pcp), (val), &=) | |
498 | # endif | |
499 | # ifndef __this_cpu_and_8 | |
500 | # define __this_cpu_and_8(pcp, val) __this_cpu_generic_to_op((pcp), (val), &=) | |
501 | # endif | |
0f5e4816 | 502 | # define __this_cpu_and(pcp, val) __pcpu_size_call(__this_cpu_and_, (pcp), (val)) |
7340a0b1 CL |
503 | #endif |
504 | ||
505 | #ifndef __this_cpu_or | |
506 | # ifndef __this_cpu_or_1 | |
507 | # define __this_cpu_or_1(pcp, val) __this_cpu_generic_to_op((pcp), (val), |=) | |
508 | # endif | |
509 | # ifndef __this_cpu_or_2 | |
510 | # define __this_cpu_or_2(pcp, val) __this_cpu_generic_to_op((pcp), (val), |=) | |
511 | # endif | |
512 | # ifndef __this_cpu_or_4 | |
513 | # define __this_cpu_or_4(pcp, val) __this_cpu_generic_to_op((pcp), (val), |=) | |
514 | # endif | |
515 | # ifndef __this_cpu_or_8 | |
516 | # define __this_cpu_or_8(pcp, val) __this_cpu_generic_to_op((pcp), (val), |=) | |
517 | # endif | |
0f5e4816 | 518 | # define __this_cpu_or(pcp, val) __pcpu_size_call(__this_cpu_or_, (pcp), (val)) |
7340a0b1 CL |
519 | #endif |
520 | ||
521 | #ifndef __this_cpu_xor | |
522 | # ifndef __this_cpu_xor_1 | |
523 | # define __this_cpu_xor_1(pcp, val) __this_cpu_generic_to_op((pcp), (val), ^=) | |
524 | # endif | |
525 | # ifndef __this_cpu_xor_2 | |
526 | # define __this_cpu_xor_2(pcp, val) __this_cpu_generic_to_op((pcp), (val), ^=) | |
527 | # endif | |
528 | # ifndef __this_cpu_xor_4 | |
529 | # define __this_cpu_xor_4(pcp, val) __this_cpu_generic_to_op((pcp), (val), ^=) | |
530 | # endif | |
531 | # ifndef __this_cpu_xor_8 | |
532 | # define __this_cpu_xor_8(pcp, val) __this_cpu_generic_to_op((pcp), (val), ^=) | |
533 | # endif | |
0f5e4816 | 534 | # define __this_cpu_xor(pcp, val) __pcpu_size_call(__this_cpu_xor_, (pcp), (val)) |
7340a0b1 CL |
535 | #endif |
536 | ||
537 | /* | |
538 | * IRQ safe versions of the per cpu RMW operations. Note that these operations | |
539 | * are *not* safe against modification of the same variable from another | |
540 | * processors (which one gets when using regular atomic operations) | |
541 | . They are guaranteed to be atomic vs. local interrupts and | |
542 | * preemption only. | |
543 | */ | |
544 | #define irqsafe_cpu_generic_to_op(pcp, val, op) \ | |
545 | do { \ | |
546 | unsigned long flags; \ | |
547 | local_irq_save(flags); \ | |
548 | *__this_cpu_ptr(&(pcp)) op val; \ | |
549 | local_irq_restore(flags); \ | |
550 | } while (0) | |
551 | ||
552 | #ifndef irqsafe_cpu_add | |
553 | # ifndef irqsafe_cpu_add_1 | |
554 | # define irqsafe_cpu_add_1(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), +=) | |
555 | # endif | |
556 | # ifndef irqsafe_cpu_add_2 | |
557 | # define irqsafe_cpu_add_2(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), +=) | |
558 | # endif | |
559 | # ifndef irqsafe_cpu_add_4 | |
560 | # define irqsafe_cpu_add_4(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), +=) | |
561 | # endif | |
562 | # ifndef irqsafe_cpu_add_8 | |
563 | # define irqsafe_cpu_add_8(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), +=) | |
564 | # endif | |
0f5e4816 | 565 | # define irqsafe_cpu_add(pcp, val) __pcpu_size_call(irqsafe_cpu_add_, (pcp), (val)) |
7340a0b1 CL |
566 | #endif |
567 | ||
568 | #ifndef irqsafe_cpu_sub | |
569 | # define irqsafe_cpu_sub(pcp, val) irqsafe_cpu_add((pcp), -(val)) | |
570 | #endif | |
571 | ||
572 | #ifndef irqsafe_cpu_inc | |
573 | # define irqsafe_cpu_inc(pcp) irqsafe_cpu_add((pcp), 1) | |
574 | #endif | |
575 | ||
576 | #ifndef irqsafe_cpu_dec | |
577 | # define irqsafe_cpu_dec(pcp) irqsafe_cpu_sub((pcp), 1) | |
578 | #endif | |
579 | ||
580 | #ifndef irqsafe_cpu_and | |
581 | # ifndef irqsafe_cpu_and_1 | |
582 | # define irqsafe_cpu_and_1(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), &=) | |
583 | # endif | |
584 | # ifndef irqsafe_cpu_and_2 | |
585 | # define irqsafe_cpu_and_2(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), &=) | |
586 | # endif | |
587 | # ifndef irqsafe_cpu_and_4 | |
588 | # define irqsafe_cpu_and_4(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), &=) | |
589 | # endif | |
590 | # ifndef irqsafe_cpu_and_8 | |
591 | # define irqsafe_cpu_and_8(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), &=) | |
592 | # endif | |
0f5e4816 | 593 | # define irqsafe_cpu_and(pcp, val) __pcpu_size_call(irqsafe_cpu_and_, (val)) |
7340a0b1 CL |
594 | #endif |
595 | ||
596 | #ifndef irqsafe_cpu_or | |
597 | # ifndef irqsafe_cpu_or_1 | |
598 | # define irqsafe_cpu_or_1(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), |=) | |
599 | # endif | |
600 | # ifndef irqsafe_cpu_or_2 | |
601 | # define irqsafe_cpu_or_2(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), |=) | |
602 | # endif | |
603 | # ifndef irqsafe_cpu_or_4 | |
604 | # define irqsafe_cpu_or_4(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), |=) | |
605 | # endif | |
606 | # ifndef irqsafe_cpu_or_8 | |
607 | # define irqsafe_cpu_or_8(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), |=) | |
608 | # endif | |
0f5e4816 | 609 | # define irqsafe_cpu_or(pcp, val) __pcpu_size_call(irqsafe_cpu_or_, (val)) |
7340a0b1 CL |
610 | #endif |
611 | ||
612 | #ifndef irqsafe_cpu_xor | |
613 | # ifndef irqsafe_cpu_xor_1 | |
614 | # define irqsafe_cpu_xor_1(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), ^=) | |
615 | # endif | |
616 | # ifndef irqsafe_cpu_xor_2 | |
617 | # define irqsafe_cpu_xor_2(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), ^=) | |
618 | # endif | |
619 | # ifndef irqsafe_cpu_xor_4 | |
620 | # define irqsafe_cpu_xor_4(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), ^=) | |
621 | # endif | |
622 | # ifndef irqsafe_cpu_xor_8 | |
623 | # define irqsafe_cpu_xor_8(pcp, val) irqsafe_cpu_generic_to_op((pcp), (val), ^=) | |
624 | # endif | |
0f5e4816 | 625 | # define irqsafe_cpu_xor(pcp, val) __pcpu_size_call(irqsafe_cpu_xor_, (val)) |
7340a0b1 CL |
626 | #endif |
627 | ||
1da177e4 | 628 | #endif /* __LINUX_PERCPU_H */ |