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authorKeith Owens <kaos@sgi.com>2006-01-05 18:36:06 -0500
committerTony Luck <tony.luck@intel.com>2006-01-13 17:22:35 -0500
commite026cca0f2c09c4c28c902db6384fd8a412671d6 (patch)
tree56c7803066b2ec1833ae669f909513f3b3483d60 /arch
parent15029285dc977a392e74eacb7625984b71d4f605 (diff)
[IA64] Add hotplug cpu to salinfo.c, replace semaphore with mutex
Add hotplug cpu support to salinfo.c. The cpu_event field is a cpumask so use the cpu_* macros consistently, replacing the existing mixture of cpu_* and *_bit macros. Instead of counting the number of outstanding events in a semaphore and trying to track that count over user space context, interrupt context, non-maskable interrupt context and cpu hotplug, replace the semaphore with a test for "any bits set" combined with a mutex. Modify the locking to make the test for "work to do" an atomic operation. Signed-off-by: Keith Owens <kaos@sgi.com> Signed-off-by: Tony Luck <tony.luck@intel.com>
Diffstat (limited to 'arch')
-rw-r--r--arch/ia64/kernel/salinfo.c170
1 files changed, 119 insertions, 51 deletions
diff --git a/arch/ia64/kernel/salinfo.c b/arch/ia64/kernel/salinfo.c
index a87a162a3086..9d5a823479a3 100644
--- a/arch/ia64/kernel/salinfo.c
+++ b/arch/ia64/kernel/salinfo.c
@@ -3,7 +3,7 @@
3 * 3 *
4 * Creates entries in /proc/sal for various system features. 4 * Creates entries in /proc/sal for various system features.
5 * 5 *
6 * Copyright (c) 2003 Silicon Graphics, Inc. All rights reserved. 6 * Copyright (c) 2003, 2006 Silicon Graphics, Inc. All rights reserved.
7 * Copyright (c) 2003 Hewlett-Packard Co 7 * Copyright (c) 2003 Hewlett-Packard Co
8 * Bjorn Helgaas <bjorn.helgaas@hp.com> 8 * Bjorn Helgaas <bjorn.helgaas@hp.com>
9 * 9 *
@@ -27,9 +27,17 @@
27 * mca.c may not pass a buffer, a NULL buffer just indicates that a new 27 * mca.c may not pass a buffer, a NULL buffer just indicates that a new
28 * record is available in SAL. 28 * record is available in SAL.
29 * Replace some NR_CPUS by cpus_online, for hotplug cpu. 29 * Replace some NR_CPUS by cpus_online, for hotplug cpu.
30 *
31 * Jan 5 2006 kaos@sgi.com
32 * Handle hotplug cpus coming online.
33 * Handle hotplug cpus going offline while they still have outstanding records.
34 * Use the cpu_* macros consistently.
35 * Replace the counting semaphore with a mutex and a test if the cpumask is non-empty.
36 * Modify the locking to make the test for "work to do" an atomic operation.
30 */ 37 */
31 38
32#include <linux/capability.h> 39#include <linux/capability.h>
40#include <linux/cpu.h>
33#include <linux/types.h> 41#include <linux/types.h>
34#include <linux/proc_fs.h> 42#include <linux/proc_fs.h>
35#include <linux/module.h> 43#include <linux/module.h>
@@ -132,8 +140,8 @@ enum salinfo_state {
132}; 140};
133 141
134struct salinfo_data { 142struct salinfo_data {
135 volatile cpumask_t cpu_event; /* which cpus have outstanding events */ 143 cpumask_t cpu_event; /* which cpus have outstanding events */
136 struct semaphore sem; /* count of cpus with outstanding events (bits set in cpu_event) */ 144 struct semaphore mutex;
137 u8 *log_buffer; 145 u8 *log_buffer;
138 u64 log_size; 146 u64 log_size;
139 u8 *oemdata; /* decoded oem data */ 147 u8 *oemdata; /* decoded oem data */
@@ -174,6 +182,21 @@ struct salinfo_platform_oemdata_parms {
174 int ret; 182 int ret;
175}; 183};
176 184
185/* Kick the mutex that tells user space that there is work to do. Instead of
186 * trying to track the state of the mutex across multiple cpus, in user
187 * context, interrupt context, non-maskable interrupt context and hotplug cpu,
188 * it is far easier just to grab the mutex if it is free then release it.
189 *
190 * This routine must be called with data_saved_lock held, to make the down/up
191 * operation atomic.
192 */
193static void
194salinfo_work_to_do(struct salinfo_data *data)
195{
196 down_trylock(&data->mutex);
197 up(&data->mutex);
198}
199
177static void 200static void
178salinfo_platform_oemdata_cpu(void *context) 201salinfo_platform_oemdata_cpu(void *context)
179{ 202{
@@ -212,9 +235,9 @@ salinfo_log_wakeup(int type, u8 *buffer, u64 size, int irqsafe)
212 235
213 BUG_ON(type >= ARRAY_SIZE(salinfo_log_name)); 236 BUG_ON(type >= ARRAY_SIZE(salinfo_log_name));
214 237
238 if (irqsafe)
239 spin_lock_irqsave(&data_saved_lock, flags);
215 if (buffer) { 240 if (buffer) {
216 if (irqsafe)
217 spin_lock_irqsave(&data_saved_lock, flags);
218 for (i = 0, data_saved = data->data_saved; i < saved_size; ++i, ++data_saved) { 241 for (i = 0, data_saved = data->data_saved; i < saved_size; ++i, ++data_saved) {
219 if (!data_saved->buffer) 242 if (!data_saved->buffer)
220 break; 243 break;
@@ -232,13 +255,11 @@ salinfo_log_wakeup(int type, u8 *buffer, u64 size, int irqsafe)
232 data_saved->size = size; 255 data_saved->size = size;
233 data_saved->buffer = buffer; 256 data_saved->buffer = buffer;
234 } 257 }
235 if (irqsafe)
236 spin_unlock_irqrestore(&data_saved_lock, flags);
237 } 258 }
238 259 cpu_set(smp_processor_id(), data->cpu_event);
239 if (!test_and_set_bit(smp_processor_id(), &data->cpu_event)) { 260 if (irqsafe) {
240 if (irqsafe) 261 salinfo_work_to_do(data);
241 up(&data->sem); 262 spin_unlock_irqrestore(&data_saved_lock, flags);
242 } 263 }
243} 264}
244 265
@@ -249,20 +270,17 @@ static struct timer_list salinfo_timer;
249static void 270static void
250salinfo_timeout_check(struct salinfo_data *data) 271salinfo_timeout_check(struct salinfo_data *data)
251{ 272{
252 int i; 273 unsigned long flags;
253 if (!data->open) 274 if (!data->open)
254 return; 275 return;
255 for_each_online_cpu(i) { 276 if (!cpus_empty(data->cpu_event)) {
256 if (test_bit(i, &data->cpu_event)) { 277 spin_lock_irqsave(&data_saved_lock, flags);
257 /* double up() is not a problem, user space will see no 278 salinfo_work_to_do(data);
258 * records for the additional "events". 279 spin_unlock_irqrestore(&data_saved_lock, flags);
259 */
260 up(&data->sem);
261 }
262 } 280 }
263} 281}
264 282
265static void 283static void
266salinfo_timeout (unsigned long arg) 284salinfo_timeout (unsigned long arg)
267{ 285{
268 salinfo_timeout_check(salinfo_data + SAL_INFO_TYPE_MCA); 286 salinfo_timeout_check(salinfo_data + SAL_INFO_TYPE_MCA);
@@ -290,16 +308,20 @@ salinfo_event_read(struct file *file, char __user *buffer, size_t count, loff_t
290 int i, n, cpu = -1; 308 int i, n, cpu = -1;
291 309
292retry: 310retry:
293 if (down_trylock(&data->sem)) { 311 if (cpus_empty(data->cpu_event) && down_trylock(&data->mutex)) {
294 if (file->f_flags & O_NONBLOCK) 312 if (file->f_flags & O_NONBLOCK)
295 return -EAGAIN; 313 return -EAGAIN;
296 if (down_interruptible(&data->sem)) 314 if (down_interruptible(&data->mutex))
297 return -EINTR; 315 return -EINTR;
298 } 316 }
299 317
300 n = data->cpu_check; 318 n = data->cpu_check;
301 for (i = 0; i < NR_CPUS; i++) { 319 for (i = 0; i < NR_CPUS; i++) {
302 if (test_bit(n, &data->cpu_event) && cpu_online(n)) { 320 if (cpu_isset(n, data->cpu_event)) {
321 if (!cpu_online(n)) {
322 cpu_clear(n, data->cpu_event);
323 continue;
324 }
303 cpu = n; 325 cpu = n;
304 break; 326 break;
305 } 327 }
@@ -310,9 +332,6 @@ retry:
310 if (cpu == -1) 332 if (cpu == -1)
311 goto retry; 333 goto retry;
312 334
313 /* events are sticky until the user says "clear" */
314 up(&data->sem);
315
316 /* for next read, start checking at next CPU */ 335 /* for next read, start checking at next CPU */
317 data->cpu_check = cpu; 336 data->cpu_check = cpu;
318 if (++data->cpu_check == NR_CPUS) 337 if (++data->cpu_check == NR_CPUS)
@@ -381,10 +400,8 @@ salinfo_log_release(struct inode *inode, struct file *file)
381static void 400static void
382call_on_cpu(int cpu, void (*fn)(void *), void *arg) 401call_on_cpu(int cpu, void (*fn)(void *), void *arg)
383{ 402{
384 cpumask_t save_cpus_allowed, new_cpus_allowed; 403 cpumask_t save_cpus_allowed = current->cpus_allowed;
385 memcpy(&save_cpus_allowed, &current->cpus_allowed, sizeof(save_cpus_allowed)); 404 cpumask_t new_cpus_allowed = cpumask_of_cpu(cpu);
386 memset(&new_cpus_allowed, 0, sizeof(new_cpus_allowed));
387 set_bit(cpu, &new_cpus_allowed);
388 set_cpus_allowed(current, new_cpus_allowed); 405 set_cpus_allowed(current, new_cpus_allowed);
389 (*fn)(arg); 406 (*fn)(arg);
390 set_cpus_allowed(current, save_cpus_allowed); 407 set_cpus_allowed(current, save_cpus_allowed);
@@ -433,10 +450,10 @@ retry:
433 if (!data->saved_num) 450 if (!data->saved_num)
434 call_on_cpu(cpu, salinfo_log_read_cpu, data); 451 call_on_cpu(cpu, salinfo_log_read_cpu, data);
435 if (!data->log_size) { 452 if (!data->log_size) {
436 data->state = STATE_NO_DATA; 453 data->state = STATE_NO_DATA;
437 clear_bit(cpu, &data->cpu_event); 454 cpu_clear(cpu, data->cpu_event);
438 } else { 455 } else {
439 data->state = STATE_LOG_RECORD; 456 data->state = STATE_LOG_RECORD;
440 } 457 }
441} 458}
442 459
@@ -473,27 +490,31 @@ static int
473salinfo_log_clear(struct salinfo_data *data, int cpu) 490salinfo_log_clear(struct salinfo_data *data, int cpu)
474{ 491{
475 sal_log_record_header_t *rh; 492 sal_log_record_header_t *rh;
493 unsigned long flags;
494 spin_lock_irqsave(&data_saved_lock, flags);
476 data->state = STATE_NO_DATA; 495 data->state = STATE_NO_DATA;
477 if (!test_bit(cpu, &data->cpu_event)) 496 if (!cpu_isset(cpu, data->cpu_event)) {
497 spin_unlock_irqrestore(&data_saved_lock, flags);
478 return 0; 498 return 0;
479 down(&data->sem); 499 }
480 clear_bit(cpu, &data->cpu_event); 500 cpu_clear(cpu, data->cpu_event);
481 if (data->saved_num) { 501 if (data->saved_num) {
482 unsigned long flags; 502 shift1_data_saved(data, data->saved_num - 1);
483 spin_lock_irqsave(&data_saved_lock, flags);
484 shift1_data_saved(data, data->saved_num - 1 );
485 data->saved_num = 0; 503 data->saved_num = 0;
486 spin_unlock_irqrestore(&data_saved_lock, flags);
487 } 504 }
505 spin_unlock_irqrestore(&data_saved_lock, flags);
488 rh = (sal_log_record_header_t *)(data->log_buffer); 506 rh = (sal_log_record_header_t *)(data->log_buffer);
489 /* Corrected errors have already been cleared from SAL */ 507 /* Corrected errors have already been cleared from SAL */
490 if (rh->severity != sal_log_severity_corrected) 508 if (rh->severity != sal_log_severity_corrected)
491 call_on_cpu(cpu, salinfo_log_clear_cpu, data); 509 call_on_cpu(cpu, salinfo_log_clear_cpu, data);
492 /* clearing a record may make a new record visible */ 510 /* clearing a record may make a new record visible */
493 salinfo_log_new_read(cpu, data); 511 salinfo_log_new_read(cpu, data);
494 if (data->state == STATE_LOG_RECORD && 512 if (data->state == STATE_LOG_RECORD) {
495 !test_and_set_bit(cpu, &data->cpu_event)) 513 spin_lock_irqsave(&data_saved_lock, flags);
496 up(&data->sem); 514 cpu_set(cpu, data->cpu_event);
515 salinfo_work_to_do(data);
516 spin_unlock_irqrestore(&data_saved_lock, flags);
517 }
497 return 0; 518 return 0;
498} 519}
499 520
@@ -550,6 +571,53 @@ static struct file_operations salinfo_data_fops = {
550 .write = salinfo_log_write, 571 .write = salinfo_log_write,
551}; 572};
552 573
574#ifdef CONFIG_HOTPLUG_CPU
575static int __devinit
576salinfo_cpu_callback(struct notifier_block *nb, unsigned long action, void *hcpu)
577{
578 unsigned int i, cpu = (unsigned long)hcpu;
579 unsigned long flags;
580 struct salinfo_data *data;
581 switch (action) {
582 case CPU_ONLINE:
583 spin_lock_irqsave(&data_saved_lock, flags);
584 for (i = 0, data = salinfo_data;
585 i < ARRAY_SIZE(salinfo_data);
586 ++i, ++data) {
587 cpu_set(cpu, data->cpu_event);
588 salinfo_work_to_do(data);
589 }
590 spin_unlock_irqrestore(&data_saved_lock, flags);
591 break;
592 case CPU_DEAD:
593 spin_lock_irqsave(&data_saved_lock, flags);
594 for (i = 0, data = salinfo_data;
595 i < ARRAY_SIZE(salinfo_data);
596 ++i, ++data) {
597 struct salinfo_data_saved *data_saved;
598 int j;
599 for (j = ARRAY_SIZE(data->data_saved) - 1, data_saved = data->data_saved + j;
600 j >= 0;
601 --j, --data_saved) {
602 if (data_saved->buffer && data_saved->cpu == cpu) {
603 shift1_data_saved(data, j);
604 }
605 }
606 cpu_clear(cpu, data->cpu_event);
607 }
608 spin_unlock_irqrestore(&data_saved_lock, flags);
609 break;
610 }
611 return NOTIFY_OK;
612}
613
614static struct notifier_block salinfo_cpu_notifier =
615{
616 .notifier_call = salinfo_cpu_callback,
617 .priority = 0,
618};
619#endif /* CONFIG_HOTPLUG_CPU */
620
553static int __init 621static int __init
554salinfo_init(void) 622salinfo_init(void)
555{ 623{
@@ -557,7 +625,7 @@ salinfo_init(void)
557 struct proc_dir_entry **sdir = salinfo_proc_entries; /* keeps track of every entry */ 625 struct proc_dir_entry **sdir = salinfo_proc_entries; /* keeps track of every entry */
558 struct proc_dir_entry *dir, *entry; 626 struct proc_dir_entry *dir, *entry;
559 struct salinfo_data *data; 627 struct salinfo_data *data;
560 int i, j, online; 628 int i, j;
561 629
562 salinfo_dir = proc_mkdir("sal", NULL); 630 salinfo_dir = proc_mkdir("sal", NULL);
563 if (!salinfo_dir) 631 if (!salinfo_dir)
@@ -572,7 +640,7 @@ salinfo_init(void)
572 for (i = 0; i < ARRAY_SIZE(salinfo_log_name); i++) { 640 for (i = 0; i < ARRAY_SIZE(salinfo_log_name); i++) {
573 data = salinfo_data + i; 641 data = salinfo_data + i;
574 data->type = i; 642 data->type = i;
575 sema_init(&data->sem, 0); 643 init_MUTEX(&data->mutex);
576 dir = proc_mkdir(salinfo_log_name[i], salinfo_dir); 644 dir = proc_mkdir(salinfo_log_name[i], salinfo_dir);
577 if (!dir) 645 if (!dir)
578 continue; 646 continue;
@@ -592,12 +660,8 @@ salinfo_init(void)
592 *sdir++ = entry; 660 *sdir++ = entry;
593 661
594 /* we missed any events before now */ 662 /* we missed any events before now */
595 online = 0; 663 for_each_online_cpu(j)
596 for_each_online_cpu(j) { 664 cpu_set(j, data->cpu_event);
597 set_bit(j, &data->cpu_event);
598 ++online;
599 }
600 sema_init(&data->sem, online);
601 665
602 *sdir++ = dir; 666 *sdir++ = dir;
603 } 667 }
@@ -609,6 +673,10 @@ salinfo_init(void)
609 salinfo_timer.function = &salinfo_timeout; 673 salinfo_timer.function = &salinfo_timeout;
610 add_timer(&salinfo_timer); 674 add_timer(&salinfo_timer);
611 675
676#ifdef CONFIG_HOTPLUG_CPU
677 register_cpu_notifier(&salinfo_cpu_notifier);
678#endif
679
612 return 0; 680 return 0;
613} 681}
614 682