Messages in this thread |  | | Date | Wed, 17 Jan 2018 15:36:49 +0000 (GMT) | From | James Simmons <> | Subject | Re: [PATCH 19/19] staging: lustre: remove l_wait_event() and related code |
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> These macros are no longer used, so they can > be removed.
Reviewed-by: James Simmons <jsimmons@infradead.org>
> Signed-off-by: NeilBrown <neilb@suse.com> > --- > drivers/staging/lustre/lustre/include/lustre_lib.h | 249 -------------------- > 1 file changed, 249 deletions(-) > > diff --git a/drivers/staging/lustre/lustre/include/lustre_lib.h b/drivers/staging/lustre/lustre/include/lustre_lib.h > index ccc1a329e42b..1efd86f18c1f 100644 > --- a/drivers/staging/lustre/lustre/include/lustre_lib.h > +++ b/drivers/staging/lustre/lustre/include/lustre_lib.h > @@ -76,123 +76,6 @@ int do_set_info_async(struct obd_import *imp, > > void target_send_reply(struct ptlrpc_request *req, int rc, int fail_id); > > -/* > - * l_wait_event is a flexible sleeping function, permitting simple caller > - * configuration of interrupt and timeout sensitivity along with actions to > - * be performed in the event of either exception. > - * > - * The first form of usage looks like this: > - * > - * struct l_wait_info lwi = LWI_TIMEOUT_INTR(timeout, timeout_handler, > - * intr_handler, callback_data); > - * rc = l_wait_event(waitq, condition, &lwi); > - * > - * l_wait_event() makes the current process wait on 'waitq' until 'condition' > - * is TRUE or a "killable" signal (SIGTERM, SIKGILL, SIGINT) is pending. It > - * returns 0 to signify 'condition' is TRUE, but if a signal wakes it before > - * 'condition' becomes true, it optionally calls the specified 'intr_handler' > - * if not NULL, and returns -EINTR. > - * > - * If a non-zero timeout is specified, signals are ignored until the timeout > - * has expired. At this time, if 'timeout_handler' is not NULL it is called. > - * If it returns FALSE l_wait_event() continues to wait as described above with > - * signals enabled. Otherwise it returns -ETIMEDOUT. > - * > - * LWI_INTR(intr_handler, callback_data) is shorthand for > - * LWI_TIMEOUT_INTR(0, NULL, intr_handler, callback_data) > - * > - * The second form of usage looks like this: > - * > - * struct l_wait_info lwi = LWI_TIMEOUT(timeout, timeout_handler); > - * rc = l_wait_event(waitq, condition, &lwi); > - * > - * This form is the same as the first except that it COMPLETELY IGNORES > - * SIGNALS. The caller must therefore beware that if 'timeout' is zero, or if > - * 'timeout_handler' is not NULL and returns FALSE, then the ONLY thing that > - * can unblock the current process is 'condition' becoming TRUE. > - * > - * Another form of usage is: > - * struct l_wait_info lwi = LWI_TIMEOUT_INTERVAL(timeout, interval, > - * timeout_handler); > - * rc = l_wait_event(waitq, condition, &lwi); > - * This is the same as previous case, but condition is checked once every > - * 'interval' jiffies (if non-zero). > - * > - * Subtle synchronization point: this macro does *not* necessary takes > - * wait-queue spin-lock before returning, and, hence, following idiom is safe > - * ONLY when caller provides some external locking: > - * > - * Thread1 Thread2 > - * > - * l_wait_event(&obj->wq, ....); (1) > - * > - * wake_up(&obj->wq): (2) > - * spin_lock(&q->lock); (2.1) > - * __wake_up_common(q, ...); (2.2) > - * spin_unlock(&q->lock, flags); (2.3) > - * > - * kfree(obj); (3) > - * > - * As l_wait_event() may "short-cut" execution and return without taking > - * wait-queue spin-lock, some additional synchronization is necessary to > - * guarantee that step (3) can begin only after (2.3) finishes. > - * > - * XXX nikita: some ptlrpc daemon threads have races of that sort. > - * > - */ > - > -#define LWI_ON_SIGNAL_NOOP ((void (*)(void *))(-1)) > - > -struct l_wait_info { > - long lwi_timeout; > - long lwi_interval; > - int lwi_allow_intr; > - int (*lwi_on_timeout)(void *); > - void (*lwi_on_signal)(void *); > - void *lwi_cb_data; > -}; > - > -/* NB: LWI_TIMEOUT ignores signals completely */ > -#define LWI_TIMEOUT(time, cb, data) \ > -((struct l_wait_info) { \ > - .lwi_timeout = time, \ > - .lwi_on_timeout = cb, \ > - .lwi_cb_data = data, \ > - .lwi_interval = 0, \ > - .lwi_allow_intr = 0 \ > -}) > - > -#define LWI_TIMEOUT_INTERVAL(time, interval, cb, data) \ > -((struct l_wait_info) { \ > - .lwi_timeout = time, \ > - .lwi_on_timeout = cb, \ > - .lwi_cb_data = data, \ > - .lwi_interval = interval, \ > - .lwi_allow_intr = 0 \ > -}) > - > -#define LWI_TIMEOUT_INTR(time, time_cb, sig_cb, data) \ > -((struct l_wait_info) { \ > - .lwi_timeout = time, \ > - .lwi_on_timeout = time_cb, \ > - .lwi_on_signal = sig_cb, \ > - .lwi_cb_data = data, \ > - .lwi_interval = 0, \ > - .lwi_allow_intr = 0 \ > -}) > - > -#define LWI_TIMEOUT_INTR_ALL(time, time_cb, sig_cb, data) \ > -((struct l_wait_info) { \ > - .lwi_timeout = time, \ > - .lwi_on_timeout = time_cb, \ > - .lwi_on_signal = sig_cb, \ > - .lwi_cb_data = data, \ > - .lwi_interval = 0, \ > - .lwi_allow_intr = 1 \ > -}) > - > -#define LWI_INTR(cb, data) LWI_TIMEOUT_INTR(0, NULL, cb, data) > - > #define LUSTRE_FATAL_SIGS (sigmask(SIGKILL) | sigmask(SIGINT) | \ > sigmask(SIGTERM) | sigmask(SIGQUIT) | \ > sigmask(SIGALRM)) > @@ -201,138 +84,6 @@ static inline int l_fatal_signal_pending(struct task_struct *p) > return signal_pending(p) && sigtestsetmask(&p->pending.signal, LUSTRE_FATAL_SIGS); > } > > -/** > - * wait_queue_entry_t of Linux (version < 2.6.34) is a FIFO list for exclusively > - * waiting threads, which is not always desirable because all threads will > - * be waken up again and again, even user only needs a few of them to be > - * active most time. This is not good for performance because cache can > - * be polluted by different threads. > - * > - * LIFO list can resolve this problem because we always wakeup the most > - * recent active thread by default. > - * > - * NB: please don't call non-exclusive & exclusive wait on the same > - * waitq if add_wait_queue_exclusive_head is used. > - */ > -#define add_wait_queue_exclusive_head(waitq, link) \ > -{ \ > - unsigned long flags; \ > - \ > - spin_lock_irqsave(&((waitq)->lock), flags); \ > - __add_wait_queue_exclusive(waitq, link); \ > - spin_unlock_irqrestore(&((waitq)->lock), flags); \ > -} > - > -/* > - * wait for @condition to become true, but no longer than timeout, specified > - * by @info. > - */ > -#define __l_wait_event(wq, condition, info, ret, l_add_wait) \ > -do { \ > - wait_queue_entry_t __wait; \ > - long __timeout = info->lwi_timeout; \ > - sigset_t __blocked; \ > - int __allow_intr = info->lwi_allow_intr; \ > - \ > - ret = 0; \ > - if (condition) \ > - break; \ > - \ > - init_waitqueue_entry(&__wait, current); \ > - l_add_wait(&wq, &__wait); \ > - \ > - /* Block all signals (just the non-fatal ones if no timeout). */ \ > - if (info->lwi_on_signal && (__timeout == 0 || __allow_intr)) \ > - __blocked = cfs_block_sigsinv(LUSTRE_FATAL_SIGS); \ > - else \ > - __blocked = cfs_block_sigsinv(0); \ > - \ > - for (;;) { \ > - if (condition) \ > - break; \ > - \ > - set_current_state(TASK_INTERRUPTIBLE); \ > - \ > - if (__timeout == 0) { \ > - schedule(); \ > - } else { \ > - long interval = info->lwi_interval ? \ > - min_t(long, \ > - info->lwi_interval, __timeout) : \ > - __timeout; \ > - long remaining = schedule_timeout(interval);\ > - __timeout = cfs_time_sub(__timeout, \ > - cfs_time_sub(interval, remaining));\ > - if (__timeout == 0) { \ > - if (!info->lwi_on_timeout || \ > - info->lwi_on_timeout(info->lwi_cb_data)) { \ > - ret = -ETIMEDOUT; \ > - break; \ > - } \ > - /* Take signals after the timeout expires. */ \ > - if (info->lwi_on_signal) \ > - (void)cfs_block_sigsinv(LUSTRE_FATAL_SIGS);\ > - } \ > - } \ > - \ > - set_current_state(TASK_RUNNING); \ > - \ > - if (condition) \ > - break; \ > - if (signal_pending(current)) { \ > - if (info->lwi_on_signal && \ > - (__timeout == 0 || __allow_intr)) { \ > - if (info->lwi_on_signal != LWI_ON_SIGNAL_NOOP) \ > - info->lwi_on_signal(info->lwi_cb_data);\ > - ret = -EINTR; \ > - break; \ > - } \ > - /* We have to do this here because some signals */ \ > - /* are not blockable - ie from strace(1). */ \ > - /* In these cases we want to schedule_timeout() */ \ > - /* again, because we don't want that to return */ \ > - /* -EINTR when the RPC actually succeeded. */ \ > - /* the recalc_sigpending() below will deliver the */ \ > - /* signal properly. */ \ > - cfs_clear_sigpending(); \ > - } \ > - } \ > - \ > - cfs_restore_sigs(__blocked); \ > - \ > - remove_wait_queue(&wq, &__wait); \ > -} while (0) > - > -#define l_wait_event(wq, condition, info) \ > -({ \ > - int __ret; \ > - struct l_wait_info *__info = (info); \ > - \ > - __l_wait_event(wq, condition, __info, \ > - __ret, add_wait_queue); \ > - __ret; \ > -}) > - > -#define l_wait_event_exclusive(wq, condition, info) \ > -({ \ > - int __ret; \ > - struct l_wait_info *__info = (info); \ > - \ > - __l_wait_event(wq, condition, __info, \ > - __ret, add_wait_queue_exclusive); \ > - __ret; \ > -}) > - > -#define l_wait_event_exclusive_head(wq, condition, info) \ > -({ \ > - int __ret; \ > - struct l_wait_info *__info = (info); \ > - \ > - __l_wait_event(wq, condition, __info, \ > - __ret, add_wait_queue_exclusive_head); \ > - __ret; \ > -}) > - > /** @} lib */ > > > > >
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