*/
#include <afsconfig.h>
-#include "../afs/param.h"
+#include "afs/param.h"
-RCSID("$Header$");
+RCSID
+ ("$Header$");
-#include "../afs/sysincludes.h" /* Standard vendor system headers */
-#include "../afs/afsincludes.h" /* Afs-based standard headers */
-#include "../afs/afs_stats.h" /* afs statistics */
+#include "afs/sysincludes.h" /* Standard vendor system headers */
+#include "afsincludes.h" /* Afs-based standard headers */
+#include "afs/afs_stats.h" /* afs statistics */
+#if defined(FREEZER_H_EXISTS)
+#include <linux/freezer.h>
+#endif
static int osi_TimedSleep(char *event, afs_int32 ams, int aintok);
-void afs_osi_Wakeup(char *event);
-void afs_osi_Sleep(char *event);
static char waitV, dummyV;
-
-void afs_osi_InitWaitHandle(struct afs_osi_WaitHandle *achandle)
+void
+afs_osi_InitWaitHandle(struct afs_osi_WaitHandle *achandle)
{
AFS_STATCNT(osi_InitWaitHandle);
achandle->proc = (caddr_t) 0;
}
/* cancel osi_Wait */
-void afs_osi_CancelWait(struct afs_osi_WaitHandle *achandle)
+void
+afs_osi_CancelWait(struct afs_osi_WaitHandle *achandle)
{
caddr_t proc;
AFS_STATCNT(osi_CancelWait);
proc = achandle->proc;
- if (proc == 0) return;
- achandle->proc = (caddr_t) 0; /* so dude can figure out he was signalled */
+ if (proc == 0)
+ return;
+ achandle->proc = (caddr_t) 0; /* so dude can figure out he was signalled */
afs_osi_Wakeup(&waitV);
}
* Waits for data on ahandle, or ams ms later. ahandle may be null.
* Returns 0 if timeout and EINTR if signalled.
*/
-int afs_osi_Wait(afs_int32 ams, struct afs_osi_WaitHandle *ahandle, int aintok)
+int
+afs_osi_Wait(afs_int32 ams, struct afs_osi_WaitHandle *ahandle, int aintok)
{
+ afs_int32 endTime;
int code;
- afs_int32 endTime, tid;
- struct timer_list *timer = NULL;
AFS_STATCNT(osi_Wait);
- endTime = osi_Time() + (ams/1000);
+ endTime = osi_Time() + (ams / 1000);
if (ahandle)
ahandle->proc = (caddr_t) current;
do {
- AFS_ASSERT_GLOCK();
- code = 0;
- code = osi_TimedSleep(&waitV, ams, aintok);
-
- if (code) break;
+ AFS_ASSERT_GLOCK();
+ code = osi_TimedSleep(&waitV, ams, 1);
+ if (code)
+ break;
if (ahandle && (ahandle->proc == (caddr_t) 0)) {
/* we've been signalled */
break;
char *event; /* lwp event: an address */
int refcount; /* Is it in use? */
int seq; /* Sequence number: this is incremented
- by wakeup calls; wait will not return until
- it changes */
+ * by wakeup calls; wait will not return until
+ * it changes */
#if defined(AFS_LINUX24_ENV)
wait_queue_head_t cond;
#else
} afs_event_t;
#define HASHSIZE 128
-afs_event_t *afs_evhasht[HASHSIZE];/* Hash table for events */
+afs_event_t *afs_evhasht[HASHSIZE]; /* Hash table for events */
#define afs_evhash(event) (afs_uint32) ((((long)event)>>2) & (HASHSIZE-1));
int afs_evhashcnt = 0;
/* Get and initialize event structure corresponding to lwp event (i.e. address)
* */
-static afs_event_t *afs_getevent(char *event)
+static afs_event_t *
+afs_getevent(char *event)
{
afs_event_t *evp, *newp = 0;
int hashcode;
* a deadlock).
*/
-static void afs_addevent(char *event)
+static void
+afs_addevent(char *event)
{
int hashcode;
afs_event_t *newp;
-
+
AFS_ASSERT_GLOCK();
hashcode = afs_evhash(event);
- newp = osi_AllocSmallSpace(sizeof(afs_event_t));
+ newp = osi_linux_alloc(sizeof(afs_event_t), 0);
afs_evhashcnt++;
newp->next = afs_evhasht[hashcode];
afs_evhasht[hashcode] = newp;
init_waitqueue(&newp->cond);
#endif
newp->seq = 0;
- newp->event = &dummyV; /* Dummy address for new events */
+ newp->event = &dummyV; /* Dummy address for new events */
newp->refcount = 0;
}
* Waits for an event to be notified, returning early if a signal
* is received. Returns EINTR if signaled, and 0 otherwise.
*/
-int afs_osi_SleepSig(char *event)
+int
+afs_osi_SleepSig(void *event)
{
struct afs_event *evp;
int seq, retval;
evp = afs_getevent(event);
if (!evp) {
- afs_addevent(event);
- evp = afs_getevent(event);
+ afs_addevent(event);
+ evp = afs_getevent(event);
}
seq = evp->seq;
add_wait_queue(&evp->cond, &wait);
while (seq == evp->seq) {
- set_current_state(TASK_INTERRUPTIBLE);
+ set_current_state(TASK_INTERRUPTIBLE);
AFS_ASSERT_GLOCK();
AFS_GUNLOCK();
schedule();
+#ifdef AFS_LINUX26_ENV
+#ifdef CONFIG_PM
+ if (
+#ifdef PF_FREEZE
+ current->flags & PF_FREEZE
+#else
+#if defined(STRUCT_TASK_STRUCT_HAS_TODO)
+ !current->todo
+#else
+#if defined(STRUCT_TASK_STRUCT_HAS_THREAD_INFO)
+ test_ti_thread_flag(current->thread_info, TIF_FREEZE)
+#else
+ test_ti_thread_flag(task_thread_info(current), TIF_FREEZE)
+#endif
+#endif
+#endif
+ )
+#ifdef LINUX_REFRIGERATOR_TAKES_PF_FREEZE
+ refrigerator(PF_FREEZE);
+#else
+ refrigerator();
+#endif
+#endif
+#endif
AFS_GLOCK();
if (signal_pending(current)) {
retval = EINTR;
* caller that the wait has been interrupted and the stack should be cleaned
* up preparatory to signal delivery
*/
-void afs_osi_Sleep(char *event)
+void
+afs_osi_Sleep(void *event)
{
sigset_t saved_set;
- spin_lock_irq(¤t->sigmask_lock);
+ SIG_LOCK(current);
saved_set = current->blocked;
sigfillset(¤t->blocked);
- recalc_sigpending(current);
- spin_unlock_irq(¤t->sigmask_lock);
+ RECALC_SIGPENDING(current);
+ SIG_UNLOCK(current);
afs_osi_SleepSig(event);
- spin_lock_irq(¤t->sigmask_lock);
+ SIG_LOCK(current);
current->blocked = saved_set;
- recalc_sigpending(current);
- spin_unlock_irq(¤t->sigmask_lock);
+ RECALC_SIGPENDING(current);
+ SIG_UNLOCK(current);
}
/* osi_TimedSleep
* Returns 0 if timeout, EINTR if signalled, and EGAIN if it might
* have raced.
*/
-static int osi_TimedSleep(char *event, afs_int32 ams, int aintok)
+static int
+osi_TimedSleep(char *event, afs_int32 ams, int aintok)
{
int code = 0;
long ticks = (ams * HZ / 1000) + 1;
evp = afs_getevent(event);
if (!evp) {
- afs_addevent(event);
+ afs_addevent(event);
evp = afs_getevent(event);
}
add_wait_queue(&evp->cond, &wait);
set_current_state(TASK_INTERRUPTIBLE);
- /* always sleep TASK_INTERRUPTIBLE to keep load average
- from artifically increasing. */
+ /* always sleep TASK_INTERRUPTIBLE to keep load average
+ * from artifically increasing. */
AFS_GUNLOCK();
if (aintok) {
- if (schedule_timeout(ticks))
- code = EINTR;
+ if (schedule_timeout(ticks))
+ code = EINTR;
} else
- schedule_timeout(ticks);
+ schedule_timeout(ticks);
+#ifdef AFS_LINUX26_ENV
+#ifdef CONFIG_PM
+ if (
+#ifdef PF_FREEZE
+ current->flags & PF_FREEZE
+#else
+#if defined(STRUCT_TASK_STRUCT_HAS_TODO)
+ !current->todo
+#else
+#if defined(STRUCT_TASK_STRUCT_HAS_THREAD_INFO)
+ test_ti_thread_flag(current->thread_info, TIF_FREEZE)
+#else
+ test_ti_thread_flag(task_thread_info(current), TIF_FREEZE)
+#endif
+#endif
+#endif
+ )
+#ifdef LINUX_REFRIGERATOR_TAKES_PF_FREEZE
+ refrigerator(PF_FREEZE);
+#else
+ refrigerator();
+#endif
+#endif
+#endif
AFS_GLOCK();
remove_wait_queue(&evp->cond, &wait);
}
-void afs_osi_Wakeup(char *event)
+int
+afs_osi_Wakeup(void *event)
{
+ int ret = 2;
struct afs_event *evp;
evp = afs_getevent(event);
- if (!evp) /* No sleepers */
- return;
+ if (!evp) /* No sleepers */
+ return 1;
if (evp->refcount > 1) {
- evp->seq++;
+ evp->seq++;
wake_up(&evp->cond);
+ ret = 0;
}
relevent(evp);
+ return ret;
}