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author | Mathieu Desnoyers <mathieu.desnoyers@polymtl.ca> | 2008-02-07 00:16:07 -0800 |
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committer | Linus Torvalds <torvalds@woody.linux-foundation.org> | 2008-02-07 08:42:30 -0800 |
commit | 068fbad288a2c18b75b0425fb56d241f018a1cb5 (patch) | |
tree | 441674bb0658208fbc5f6eab96b8641ab7345caf /include/asm-generic/cmpxchg-local.h | |
parent | 6e16d89bcd668a95eb22add24c02d80890232b66 (diff) | |
download | linux-068fbad288a2c18b75b0425fb56d241f018a1cb5.tar.gz linux-068fbad288a2c18b75b0425fb56d241f018a1cb5.tar.bz2 linux-068fbad288a2c18b75b0425fb56d241f018a1cb5.zip |
Add cmpxchg_local to asm-generic for per cpu atomic operations
Emulates the cmpxchg_local by disabling interrupts around variable modification.
This is not reentrant wrt NMIs and MCEs. It is only protected against normal
interrupts, but this is enough for architectures without such interrupt sources
or if used in a context where the data is not shared with such handlers.
It can be used as a fallback for architectures lacking a real cmpxchg
instruction.
For architectures that have a real cmpxchg but does not have NMIs or MCE,
testing which of the generic vs architecture specific cmpxchg is the fastest
should be done.
asm-generic/cmpxchg.h defines a cmpxchg that uses cmpxchg_local. It is meant to
be used as a cmpxchg fallback for architectures that do not support SMP.
* Patch series comments
Using cmpxchg_local shows a performance improvements of the fast path goes from
a 66% speedup on a Pentium 4 to a 14% speedup on AMD64.
In detail:
Tested-by: Mathieu Desnoyers <mathieu.desnoyers@polymtl.ca>
Measurements on a Pentium4, 3GHz, Hyperthread.
SLUB Performance testing
========================
1. Kmalloc: Repeatedly allocate then free test
* slub HEAD, test 1
kmalloc(8) = 201 cycles kfree = 351 cycles
kmalloc(16) = 198 cycles kfree = 359 cycles
kmalloc(32) = 200 cycles kfree = 381 cycles
kmalloc(64) = 224 cycles kfree = 394 cycles
kmalloc(128) = 285 cycles kfree = 424 cycles
kmalloc(256) = 411 cycles kfree = 546 cycles
kmalloc(512) = 480 cycles kfree = 619 cycles
kmalloc(1024) = 623 cycles kfree = 750 cycles
kmalloc(2048) = 686 cycles kfree = 811 cycles
kmalloc(4096) = 482 cycles kfree = 538 cycles
kmalloc(8192) = 680 cycles kfree = 734 cycles
kmalloc(16384) = 713 cycles kfree = 843 cycles
* Slub HEAD, test 2
kmalloc(8) = 190 cycles kfree = 351 cycles
kmalloc(16) = 195 cycles kfree = 360 cycles
kmalloc(32) = 201 cycles kfree = 370 cycles
kmalloc(64) = 245 cycles kfree = 389 cycles
kmalloc(128) = 283 cycles kfree = 413 cycles
kmalloc(256) = 409 cycles kfree = 547 cycles
kmalloc(512) = 476 cycles kfree = 616 cycles
kmalloc(1024) = 628 cycles kfree = 753 cycles
kmalloc(2048) = 684 cycles kfree = 811 cycles
kmalloc(4096) = 480 cycles kfree = 539 cycles
kmalloc(8192) = 661 cycles kfree = 746 cycles
kmalloc(16384) = 741 cycles kfree = 856 cycles
* cmpxchg_local Slub test
kmalloc(8) = 83 cycles kfree = 363 cycles
kmalloc(16) = 85 cycles kfree = 372 cycles
kmalloc(32) = 92 cycles kfree = 377 cycles
kmalloc(64) = 115 cycles kfree = 397 cycles
kmalloc(128) = 179 cycles kfree = 438 cycles
kmalloc(256) = 314 cycles kfree = 564 cycles
kmalloc(512) = 398 cycles kfree = 615 cycles
kmalloc(1024) = 573 cycles kfree = 745 cycles
kmalloc(2048) = 629 cycles kfree = 816 cycles
kmalloc(4096) = 473 cycles kfree = 548 cycles
kmalloc(8192) = 659 cycles kfree = 745 cycles
kmalloc(16384) = 724 cycles kfree = 843 cycles
2. Kmalloc: alloc/free test
* slub HEAD, test 1
kmalloc(8)/kfree = 322 cycles
kmalloc(16)/kfree = 318 cycles
kmalloc(32)/kfree = 318 cycles
kmalloc(64)/kfree = 325 cycles
kmalloc(128)/kfree = 318 cycles
kmalloc(256)/kfree = 328 cycles
kmalloc(512)/kfree = 328 cycles
kmalloc(1024)/kfree = 328 cycles
kmalloc(2048)/kfree = 328 cycles
kmalloc(4096)/kfree = 678 cycles
kmalloc(8192)/kfree = 1013 cycles
kmalloc(16384)/kfree = 1157 cycles
* Slub HEAD, test 2
kmalloc(8)/kfree = 323 cycles
kmalloc(16)/kfree = 318 cycles
kmalloc(32)/kfree = 318 cycles
kmalloc(64)/kfree = 318 cycles
kmalloc(128)/kfree = 318 cycles
kmalloc(256)/kfree = 328 cycles
kmalloc(512)/kfree = 328 cycles
kmalloc(1024)/kfree = 328 cycles
kmalloc(2048)/kfree = 328 cycles
kmalloc(4096)/kfree = 648 cycles
kmalloc(8192)/kfree = 1009 cycles
kmalloc(16384)/kfree = 1105 cycles
* cmpxchg_local Slub test
kmalloc(8)/kfree = 112 cycles
kmalloc(16)/kfree = 103 cycles
kmalloc(32)/kfree = 103 cycles
kmalloc(64)/kfree = 103 cycles
kmalloc(128)/kfree = 112 cycles
kmalloc(256)/kfree = 111 cycles
kmalloc(512)/kfree = 111 cycles
kmalloc(1024)/kfree = 111 cycles
kmalloc(2048)/kfree = 121 cycles
kmalloc(4096)/kfree = 650 cycles
kmalloc(8192)/kfree = 1042 cycles
kmalloc(16384)/kfree = 1149 cycles
Tested-by: Mathieu Desnoyers <mathieu.desnoyers@polymtl.ca>
Measurements on a AMD64 2.0 GHz dual-core
In this test, we seem to remove 10 cycles from the kmalloc fast path.
On small allocations, it gives a 14% performance increase. kfree fast
path also seems to have a 10 cycles improvement.
1. Kmalloc: Repeatedly allocate then free test
* cmpxchg_local slub
kmalloc(8) = 63 cycles kfree = 126 cycles
kmalloc(16) = 66 cycles kfree = 129 cycles
kmalloc(32) = 76 cycles kfree = 138 cycles
kmalloc(64) = 100 cycles kfree = 288 cycles
kmalloc(128) = 128 cycles kfree = 309 cycles
kmalloc(256) = 170 cycles kfree = 315 cycles
kmalloc(512) = 221 cycles kfree = 357 cycles
kmalloc(1024) = 324 cycles kfree = 393 cycles
kmalloc(2048) = 354 cycles kfree = 440 cycles
kmalloc(4096) = 394 cycles kfree = 330 cycles
kmalloc(8192) = 523 cycles kfree = 481 cycles
kmalloc(16384) = 643 cycles kfree = 649 cycles
* Base
kmalloc(8) = 74 cycles kfree = 113 cycles
kmalloc(16) = 76 cycles kfree = 116 cycles
kmalloc(32) = 85 cycles kfree = 133 cycles
kmalloc(64) = 111 cycles kfree = 279 cycles
kmalloc(128) = 138 cycles kfree = 294 cycles
kmalloc(256) = 181 cycles kfree = 304 cycles
kmalloc(512) = 237 cycles kfree = 327 cycles
kmalloc(1024) = 340 cycles kfree = 379 cycles
kmalloc(2048) = 378 cycles kfree = 433 cycles
kmalloc(4096) = 399 cycles kfree = 329 cycles
kmalloc(8192) = 528 cycles kfree = 624 cycles
kmalloc(16384) = 651 cycles kfree = 737 cycles
2. Kmalloc: alloc/free test
* cmpxchg_local slub
kmalloc(8)/kfree = 96 cycles
kmalloc(16)/kfree = 97 cycles
kmalloc(32)/kfree = 97 cycles
kmalloc(64)/kfree = 97 cycles
kmalloc(128)/kfree = 97 cycles
kmalloc(256)/kfree = 105 cycles
kmalloc(512)/kfree = 108 cycles
kmalloc(1024)/kfree = 105 cycles
kmalloc(2048)/kfree = 107 cycles
kmalloc(4096)/kfree = 390 cycles
kmalloc(8192)/kfree = 626 cycles
kmalloc(16384)/kfree = 662 cycles
* Base
kmalloc(8)/kfree = 116 cycles
kmalloc(16)/kfree = 116 cycles
kmalloc(32)/kfree = 116 cycles
kmalloc(64)/kfree = 116 cycles
kmalloc(128)/kfree = 116 cycles
kmalloc(256)/kfree = 126 cycles
kmalloc(512)/kfree = 126 cycles
kmalloc(1024)/kfree = 126 cycles
kmalloc(2048)/kfree = 126 cycles
kmalloc(4096)/kfree = 384 cycles
kmalloc(8192)/kfree = 749 cycles
kmalloc(16384)/kfree = 786 cycles
Tested-by: Christoph Lameter <clameter@sgi.com>
I can confirm Mathieus' measurement now:
Athlon64:
regular NUMA/discontig
1. Kmalloc: Repeatedly allocate then free test
10000 times kmalloc(8) -> 79 cycles kfree -> 92 cycles
10000 times kmalloc(16) -> 79 cycles kfree -> 93 cycles
10000 times kmalloc(32) -> 88 cycles kfree -> 95 cycles
10000 times kmalloc(64) -> 124 cycles kfree -> 132 cycles
10000 times kmalloc(128) -> 157 cycles kfree -> 247 cycles
10000 times kmalloc(256) -> 200 cycles kfree -> 257 cycles
10000 times kmalloc(512) -> 250 cycles kfree -> 277 cycles
10000 times kmalloc(1024) -> 337 cycles kfree -> 314 cycles
10000 times kmalloc(2048) -> 365 cycles kfree -> 330 cycles
10000 times kmalloc(4096) -> 352 cycles kfree -> 240 cycles
10000 times kmalloc(8192) -> 456 cycles kfree -> 340 cycles
10000 times kmalloc(16384) -> 646 cycles kfree -> 471 cycles
2. Kmalloc: alloc/free test
10000 times kmalloc(8)/kfree -> 124 cycles
10000 times kmalloc(16)/kfree -> 124 cycles
10000 times kmalloc(32)/kfree -> 124 cycles
10000 times kmalloc(64)/kfree -> 124 cycles
10000 times kmalloc(128)/kfree -> 124 cycles
10000 times kmalloc(256)/kfree -> 132 cycles
10000 times kmalloc(512)/kfree -> 132 cycles
10000 times kmalloc(1024)/kfree -> 132 cycles
10000 times kmalloc(2048)/kfree -> 132 cycles
10000 times kmalloc(4096)/kfree -> 319 cycles
10000 times kmalloc(8192)/kfree -> 486 cycles
10000 times kmalloc(16384)/kfree -> 539 cycles
cmpxchg_local NUMA/discontig
1. Kmalloc: Repeatedly allocate then free test
10000 times kmalloc(8) -> 55 cycles kfree -> 90 cycles
10000 times kmalloc(16) -> 55 cycles kfree -> 92 cycles
10000 times kmalloc(32) -> 70 cycles kfree -> 91 cycles
10000 times kmalloc(64) -> 100 cycles kfree -> 141 cycles
10000 times kmalloc(128) -> 128 cycles kfree -> 233 cycles
10000 times kmalloc(256) -> 172 cycles kfree -> 251 cycles
10000 times kmalloc(512) -> 225 cycles kfree -> 275 cycles
10000 times kmalloc(1024) -> 325 cycles kfree -> 311 cycles
10000 times kmalloc(2048) -> 346 cycles kfree -> 330 cycles
10000 times kmalloc(4096) -> 351 cycles kfree -> 238 cycles
10000 times kmalloc(8192) -> 450 cycles kfree -> 342 cycles
10000 times kmalloc(16384) -> 630 cycles kfree -> 546 cycles
2. Kmalloc: alloc/free test
10000 times kmalloc(8)/kfree -> 81 cycles
10000 times kmalloc(16)/kfree -> 81 cycles
10000 times kmalloc(32)/kfree -> 81 cycles
10000 times kmalloc(64)/kfree -> 81 cycles
10000 times kmalloc(128)/kfree -> 81 cycles
10000 times kmalloc(256)/kfree -> 91 cycles
10000 times kmalloc(512)/kfree -> 90 cycles
10000 times kmalloc(1024)/kfree -> 91 cycles
10000 times kmalloc(2048)/kfree -> 90 cycles
10000 times kmalloc(4096)/kfree -> 318 cycles
10000 times kmalloc(8192)/kfree -> 483 cycles
10000 times kmalloc(16384)/kfree -> 536 cycles
Changelog:
- Ran though checkpatch.
Signed-off-by: Mathieu Desnoyers <mathieu.desnoyers@polymtl.ca>
Cc: <linux-arch@vger.kernel.org>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Diffstat (limited to 'include/asm-generic/cmpxchg-local.h')
-rw-r--r-- | include/asm-generic/cmpxchg-local.h | 65 |
1 files changed, 65 insertions, 0 deletions
diff --git a/include/asm-generic/cmpxchg-local.h b/include/asm-generic/cmpxchg-local.h new file mode 100644 index 000000000000..b2ba2fc8829a --- /dev/null +++ b/include/asm-generic/cmpxchg-local.h @@ -0,0 +1,65 @@ +#ifndef __ASM_GENERIC_CMPXCHG_LOCAL_H +#define __ASM_GENERIC_CMPXCHG_LOCAL_H + +#include <linux/types.h> + +extern unsigned long wrong_size_cmpxchg(volatile void *ptr); + +/* + * Generic version of __cmpxchg_local (disables interrupts). Takes an unsigned + * long parameter, supporting various types of architectures. + */ +static inline unsigned long __cmpxchg_local_generic(volatile void *ptr, + unsigned long old, unsigned long new, int size) +{ + unsigned long flags, prev; + + /* + * Sanity checking, compile-time. + */ + if (size == 8 && sizeof(unsigned long) != 8) + wrong_size_cmpxchg(ptr); + + local_irq_save(flags); + switch (size) { + case 1: prev = *(u8 *)ptr; + if (prev == old) + *(u8 *)ptr = (u8)new; + break; + case 2: prev = *(u16 *)ptr; + if (prev == old) + *(u16 *)ptr = (u16)new; + break; + case 4: prev = *(u32 *)ptr; + if (prev == old) + *(u32 *)ptr = (u32)new; + break; + case 8: prev = *(u64 *)ptr; + if (prev == old) + *(u64 *)ptr = (u64)new; + break; + default: + wrong_size_cmpxchg(ptr); + } + local_irq_restore(flags); + return prev; +} + +/* + * Generic version of __cmpxchg64_local. Takes an u64 parameter. + */ +static inline u64 __cmpxchg64_local_generic(volatile void *ptr, + u64 old, u64 new) +{ + u64 prev; + unsigned long flags; + + local_irq_save(flags); + prev = *(u64 *)ptr; + if (prev == old) + *(u64 *)ptr = new; + local_irq_restore(flags); + return prev; +} + +#endif |