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-rw-r--r--ipc/sem.c322
1 files changed, 234 insertions, 88 deletions
diff --git a/ipc/sem.c b/ipc/sem.c
index dbef95b..506c849 100644
--- a/ipc/sem.c
+++ b/ipc/sem.c
@@ -3,56 +3,6 @@
* Copyright (C) 1992 Krishna Balasubramanian
* Copyright (C) 1995 Eric Schenk, Bruno Haible
*
- * IMPLEMENTATION NOTES ON CODE REWRITE (Eric Schenk, January 1995):
- * This code underwent a massive rewrite in order to solve some problems
- * with the original code. In particular the original code failed to
- * wake up processes that were waiting for semval to go to 0 if the
- * value went to 0 and was then incremented rapidly enough. In solving
- * this problem I have also modified the implementation so that it
- * processes pending operations in a FIFO manner, thus give a guarantee
- * that processes waiting for a lock on the semaphore won't starve
- * unless another locking process fails to unlock.
- * In addition the following two changes in behavior have been introduced:
- * - The original implementation of semop returned the value
- * last semaphore element examined on success. This does not
- * match the manual page specifications, and effectively
- * allows the user to read the semaphore even if they do not
- * have read permissions. The implementation now returns 0
- * on success as stated in the manual page.
- * - There is some confusion over whether the set of undo adjustments
- * to be performed at exit should be done in an atomic manner.
- * That is, if we are attempting to decrement the semval should we queue
- * up and wait until we can do so legally?
- * The original implementation attempted to do this.
- * The current implementation does not do so. This is because I don't
- * think it is the right thing (TM) to do, and because I couldn't
- * see a clean way to get the old behavior with the new design.
- * The POSIX standard and SVID should be consulted to determine
- * what behavior is mandated.
- *
- * Further notes on refinement (Christoph Rohland, December 1998):
- * - The POSIX standard says, that the undo adjustments simply should
- * redo. So the current implementation is o.K.
- * - The previous code had two flaws:
- * 1) It actively gave the semaphore to the next waiting process
- * sleeping on the semaphore. Since this process did not have the
- * cpu this led to many unnecessary context switches and bad
- * performance. Now we only check which process should be able to
- * get the semaphore and if this process wants to reduce some
- * semaphore value we simply wake it up without doing the
- * operation. So it has to try to get it later. Thus e.g. the
- * running process may reacquire the semaphore during the current
- * time slice. If it only waits for zero or increases the semaphore,
- * we do the operation in advance and wake it up.
- * 2) It did not wake up all zero waiting processes. We try to do
- * better but only get the semops right which only wait for zero or
- * increase. If there are decrement operations in the operations
- * array we do the same as before.
- *
- * With the incarnation of O(1) scheduler, it becomes unnecessary to perform
- * check/retry algorithm for waking up blocked processes as the new scheduler
- * is better at handling thread switch than the old one.
- *
* /proc/sysvipc/sem support (c) 1999 Dragos Acostachioaie <dragos@iname.com>
*
* SMP-threaded, sysctl's added
@@ -61,6 +11,8 @@
* (c) 2001 Red Hat Inc
* Lockless wakeup
* (c) 2003 Manfred Spraul <manfred@colorfullife.com>
+ * Further wakeup optimizations, documentation
+ * (c) 2010 Manfred Spraul <manfred@colorfullife.com>
*
* support for audit of ipc object properties and permission changes
* Dustin Kirkland <dustin.kirkland@us.ibm.com>
@@ -68,6 +20,57 @@
* namespaces support
* OpenVZ, SWsoft Inc.
* Pavel Emelianov <xemul@openvz.org>
+ *
+ * Implementation notes: (May 2010)
+ * This file implements System V semaphores.
+ *
+ * User space visible behavior:
+ * - FIFO ordering for semop() operations (just FIFO, not starvation
+ * protection)
+ * - multiple semaphore operations that alter the same semaphore in
+ * one semop() are handled.
+ * - sem_ctime (time of last semctl()) is updated in the IPC_SET, SETVAL and
+ * SETALL calls.
+ * - two Linux specific semctl() commands: SEM_STAT, SEM_INFO.
+ * - undo adjustments at process exit are limited to 0..SEMVMX.
+ * - namespace are supported.
+ * - SEMMSL, SEMMNS, SEMOPM and SEMMNI can be configured at runtine by writing
+ * to /proc/sys/kernel/sem.
+ * - statistics about the usage are reported in /proc/sysvipc/sem.
+ *
+ * Internals:
+ * - scalability:
+ * - all global variables are read-mostly.
+ * - semop() calls and semctl(RMID) are synchronized by RCU.
+ * - most operations do write operations (actually: spin_lock calls) to
+ * the per-semaphore array structure.
+ * Thus: Perfect SMP scaling between independent semaphore arrays.
+ * If multiple semaphores in one array are used, then cache line
+ * trashing on the semaphore array spinlock will limit the scaling.
+ * - semncnt and semzcnt are calculated on demand in count_semncnt() and
+ * count_semzcnt()
+ * - the task that performs a successful semop() scans the list of all
+ * sleeping tasks and completes any pending operations that can be fulfilled.
+ * Semaphores are actively given to waiting tasks (necessary for FIFO).
+ * (see update_queue())
+ * - To improve the scalability, the actual wake-up calls are performed after
+ * dropping all locks. (see wake_up_sem_queue_prepare(),
+ * wake_up_sem_queue_do())
+ * - All work is done by the waker, the woken up task does not have to do
+ * anything - not even acquiring a lock or dropping a refcount.
+ * - A woken up task may not even touch the semaphore array anymore, it may
+ * have been destroyed already by a semctl(RMID).
+ * - The synchronizations between wake-ups due to a timeout/signal and a
+ * wake-up due to a completed semaphore operation is achieved by using an
+ * intermediate state (IN_WAKEUP).
+ * - UNDO values are stored in an array (one per process and per
+ * semaphore array, lazily allocated). For backwards compatibility, multiple
+ * modes for the UNDO variables are supported (per process, per thread)
+ * (see copy_semundo, CLONE_SYSVSEM)
+ * - There are two lists of the pending operations: a per-array list
+ * and per-semaphore list (stored in the array). This allows to achieve FIFO
+ * ordering without always scanning all pending operations.
+ * The worst-case behavior is nevertheless O(N^2) for N wakeups.
*/
#include <linux/slab.h>
@@ -381,7 +384,6 @@ static int try_atomic_semop (struct sem_array * sma, struct sembuf * sops,
sop--;
}
- sma->sem_otime = get_seconds();
return 0;
out_of_range:
@@ -404,25 +406,51 @@ undo:
return result;
}
-/*
- * Wake up a process waiting on the sem queue with a given error.
- * The queue is invalid (may not be accessed) after the function returns.
+/** wake_up_sem_queue_prepare(q, error): Prepare wake-up
+ * @q: queue entry that must be signaled
+ * @error: Error value for the signal
+ *
+ * Prepare the wake-up of the queue entry q.
*/
-static void wake_up_sem_queue(struct sem_queue *q, int error)
+static void wake_up_sem_queue_prepare(struct list_head *pt,
+ struct sem_queue *q, int error)
{
- /*
- * Hold preempt off so that we don't get preempted and have the
- * wakee busy-wait until we're scheduled back on. We're holding
- * locks here so it may not strictly be needed, however if the
- * locks become preemptible then this prevents such a problem.
- */
- preempt_disable();
+ if (list_empty(pt)) {
+ /*
+ * Hold preempt off so that we don't get preempted and have the
+ * wakee busy-wait until we're scheduled back on.
+ */
+ preempt_disable();
+ }
q->status = IN_WAKEUP;
- wake_up_process(q->sleeper);
- /* hands-off: q can disappear immediately after writing q->status. */
- smp_wmb();
- q->status = error;
- preempt_enable();
+ q->pid = error;
+
+ list_add_tail(&q->simple_list, pt);
+}
+
+/**
+ * wake_up_sem_queue_do(pt) - do the actual wake-up
+ * @pt: list of tasks to be woken up
+ *
+ * Do the actual wake-up.
+ * The function is called without any locks held, thus the semaphore array
+ * could be destroyed already and the tasks can disappear as soon as the
+ * status is set to the actual return code.
+ */
+static void wake_up_sem_queue_do(struct list_head *pt)
+{
+ struct sem_queue *q, *t;
+ int did_something;
+
+ did_something = !list_empty(pt);
+ list_for_each_entry_safe(q, t, pt, simple_list) {
+ wake_up_process(q->sleeper);
+ /* q can disappear immediately after writing q->status. */
+ smp_wmb();
+ q->status = q->pid;
+ }
+ if (did_something)
+ preempt_enable();
}
static void unlink_queue(struct sem_array *sma, struct sem_queue *q)
@@ -434,22 +462,90 @@ static void unlink_queue(struct sem_array *sma, struct sem_queue *q)
sma->complex_count--;
}
+/** check_restart(sma, q)
+ * @sma: semaphore array
+ * @q: the operation that just completed
+ *
+ * update_queue is O(N^2) when it restarts scanning the whole queue of
+ * waiting operations. Therefore this function checks if the restart is
+ * really necessary. It is called after a previously waiting operation
+ * was completed.
+ */
+static int check_restart(struct sem_array *sma, struct sem_queue *q)
+{
+ struct sem *curr;
+ struct sem_queue *h;
+
+ /* if the operation didn't modify the array, then no restart */
+ if (q->alter == 0)
+ return 0;
+
+ /* pending complex operations are too difficult to analyse */
+ if (sma->complex_count)
+ return 1;
+
+ /* we were a sleeping complex operation. Too difficult */
+ if (q->nsops > 1)
+ return 1;
+
+ curr = sma->sem_base + q->sops[0].sem_num;
+
+ /* No-one waits on this queue */
+ if (list_empty(&curr->sem_pending))
+ return 0;
+
+ /* the new semaphore value */
+ if (curr->semval) {
+ /* It is impossible that someone waits for the new value:
+ * - q is a previously sleeping simple operation that
+ * altered the array. It must be a decrement, because
+ * simple increments never sleep.
+ * - The value is not 0, thus wait-for-zero won't proceed.
+ * - If there are older (higher priority) decrements
+ * in the queue, then they have observed the original
+ * semval value and couldn't proceed. The operation
+ * decremented to value - thus they won't proceed either.
+ */
+ BUG_ON(q->sops[0].sem_op >= 0);
+ return 0;
+ }
+ /*
+ * semval is 0. Check if there are wait-for-zero semops.
+ * They must be the first entries in the per-semaphore simple queue
+ */
+ h = list_first_entry(&curr->sem_pending, struct sem_queue, simple_list);
+ BUG_ON(h->nsops != 1);
+ BUG_ON(h->sops[0].sem_num != q->sops[0].sem_num);
+
+ /* Yes, there is a wait-for-zero semop. Restart */
+ if (h->sops[0].sem_op == 0)
+ return 1;
+
+ /* Again - no-one is waiting for the new value. */
+ return 0;
+}
+
/**
* update_queue(sma, semnum): Look for tasks that can be completed.
* @sma: semaphore array.
* @semnum: semaphore that was modified.
+ * @pt: list head for the tasks that must be woken up.
*
* update_queue must be called after a semaphore in a semaphore array
* was modified. If multiple semaphore were modified, then @semnum
* must be set to -1.
+ * The tasks that must be woken up are added to @pt. The return code
+ * is stored in q->pid.
+ * The function return 1 if at least one semop was completed successfully.
*/
-static void update_queue(struct sem_array *sma, int semnum)
+static int update_queue(struct sem_array *sma, int semnum, struct list_head *pt)
{
struct sem_queue *q;
struct list_head *walk;
struct list_head *pending_list;
int offset;
+ int semop_completed = 0;
/* if there are complex operations around, then knowing the semaphore
* that was modified doesn't help us. Assume that multiple semaphores
@@ -469,7 +565,7 @@ static void update_queue(struct sem_array *sma, int semnum)
again:
walk = pending_list->next;
while (walk != pending_list) {
- int error, alter;
+ int error, restart;
q = (struct sem_queue *)((char *)walk - offset);
walk = walk->next;
@@ -494,22 +590,58 @@ again:
unlink_queue(sma, q);
- /*
- * The next operation that must be checked depends on the type
- * of the completed operation:
- * - if the operation modified the array, then restart from the
- * head of the queue and check for threads that might be
- * waiting for the new semaphore values.
- * - if the operation didn't modify the array, then just
- * continue.
- */
- alter = q->alter;
- wake_up_sem_queue(q, error);
- if (alter && !error)
+ if (error) {
+ restart = 0;
+ } else {
+ semop_completed = 1;
+ restart = check_restart(sma, q);
+ }
+
+ wake_up_sem_queue_prepare(pt, q, error);
+ if (restart)
goto again;
}
+ return semop_completed;
+}
+
+/**
+ * do_smart_update(sma, sops, nsops, otime, pt) - optimized update_queue
+ * @sma: semaphore array
+ * @sops: operations that were performed
+ * @nsops: number of operations
+ * @otime: force setting otime
+ * @pt: list head of the tasks that must be woken up.
+ *
+ * do_smart_update() does the required called to update_queue, based on the
+ * actual changes that were performed on the semaphore array.
+ * Note that the function does not do the actual wake-up: the caller is
+ * responsible for calling wake_up_sem_queue_do(@pt).
+ * It is safe to perform this call after dropping all locks.
+ */
+static void do_smart_update(struct sem_array *sma, struct sembuf *sops, int nsops,
+ int otime, struct list_head *pt)
+{
+ int i;
+
+ if (sma->complex_count || sops == NULL) {
+ if (update_queue(sma, -1, pt))
+ otime = 1;
+ goto done;
+ }
+
+ for (i = 0; i < nsops; i++) {
+ if (sops[i].sem_op > 0 ||
+ (sops[i].sem_op < 0 &&
+ sma->sem_base[sops[i].sem_num].semval == 0))
+ if (update_queue(sma, sops[i].sem_num, pt))
+ otime = 1;
+ }
+done:
+ if (otime)
+ sma->sem_otime = get_seconds();
}
+
/* The following counts are associated to each semaphore:
* semncnt number of tasks waiting on semval being nonzero
* semzcnt number of tasks waiting on semval being zero
@@ -572,6 +704,7 @@ static void freeary(struct ipc_namespace *ns, struct kern_ipc_perm *ipcp)
struct sem_undo *un, *tu;
struct sem_queue *q, *tq;
struct sem_array *sma = container_of(ipcp, struct sem_array, sem_perm);
+ struct list_head tasks;
/* Free the existing undo structures for this semaphore set. */
assert_spin_locked(&sma->sem_perm.lock);
@@ -585,15 +718,17 @@ static void freeary(struct ipc_namespace *ns, struct kern_ipc_perm *ipcp)
}
/* Wake up all pending processes and let them fail with EIDRM. */
+ INIT_LIST_HEAD(&tasks);
list_for_each_entry_safe(q, tq, &sma->sem_pending, list) {
unlink_queue(sma, q);
- wake_up_sem_queue(q, -EIDRM);
+ wake_up_sem_queue_prepare(&tasks, q, -EIDRM);
}
/* Remove the semaphore set from the IDR */
sem_rmid(ns, sma);
sem_unlock(sma);
+ wake_up_sem_queue_do(&tasks);
ns->used_sems -= sma->sem_nsems;
security_sem_free(sma);
ipc_rcu_putref(sma);
@@ -715,11 +850,13 @@ static int semctl_main(struct ipc_namespace *ns, int semid, int semnum,
ushort fast_sem_io[SEMMSL_FAST];
ushort* sem_io = fast_sem_io;
int nsems;
+ struct list_head tasks;
sma = sem_lock_check(ns, semid);
if (IS_ERR(sma))
return PTR_ERR(sma);
+ INIT_LIST_HEAD(&tasks);
nsems = sma->sem_nsems;
err = -EACCES;
@@ -807,7 +944,7 @@ static int semctl_main(struct ipc_namespace *ns, int semid, int semnum,
}
sma->sem_ctime = get_seconds();
/* maybe some queued-up processes were waiting for this */
- update_queue(sma, -1);
+ do_smart_update(sma, NULL, 0, 0, &tasks);
err = 0;
goto out_unlock;
}
@@ -849,13 +986,15 @@ static int semctl_main(struct ipc_namespace *ns, int semid, int semnum,
curr->sempid = task_tgid_vnr(current);
sma->sem_ctime = get_seconds();
/* maybe some queued-up processes were waiting for this */
- update_queue(sma, semnum);
+ do_smart_update(sma, NULL, 0, 0, &tasks);
err = 0;
goto out_unlock;
}
}
out_unlock:
sem_unlock(sma);
+ wake_up_sem_queue_do(&tasks);
+
out_free:
if(sem_io != fast_sem_io)
ipc_free(sem_io, sizeof(ushort)*nsems);
@@ -1069,7 +1208,7 @@ static struct sem_undo *find_alloc_undo(struct ipc_namespace *ns, int semid)
/* step 1: figure out the size of the semaphore array */
sma = sem_lock_check(ns, semid);
if (IS_ERR(sma))
- return ERR_PTR(PTR_ERR(sma));
+ return ERR_CAST(sma);
nsems = sma->sem_nsems;
sem_getref_and_unlock(sma);
@@ -1129,6 +1268,7 @@ SYSCALL_DEFINE4(semtimedop, int, semid, struct sembuf __user *, tsops,
struct sem_queue queue;
unsigned long jiffies_left = 0;
struct ipc_namespace *ns;
+ struct list_head tasks;
ns = current->nsproxy->ipc_ns;
@@ -1177,6 +1317,8 @@ SYSCALL_DEFINE4(semtimedop, int, semid, struct sembuf __user *, tsops,
} else
un = NULL;
+ INIT_LIST_HEAD(&tasks);
+
sma = sem_lock_check(ns, semid);
if (IS_ERR(sma)) {
if (un)
@@ -1225,7 +1367,7 @@ SYSCALL_DEFINE4(semtimedop, int, semid, struct sembuf __user *, tsops,
error = try_atomic_semop (sma, sops, nsops, un, task_tgid_vnr(current));
if (error <= 0) {
if (alter && error == 0)
- update_queue(sma, (nsops == 1) ? sops[0].sem_num : -1);
+ do_smart_update(sma, sops, nsops, 1, &tasks);
goto out_unlock_free;
}
@@ -1302,6 +1444,8 @@ SYSCALL_DEFINE4(semtimedop, int, semid, struct sembuf __user *, tsops,
out_unlock_free:
sem_unlock(sma);
+
+ wake_up_sem_queue_do(&tasks);
out_free:
if(sops != fast_sops)
kfree(sops);
@@ -1362,6 +1506,7 @@ void exit_sem(struct task_struct *tsk)
for (;;) {
struct sem_array *sma;
struct sem_undo *un;
+ struct list_head tasks;
int semid;
int i;
@@ -1425,10 +1570,11 @@ void exit_sem(struct task_struct *tsk)
semaphore->sempid = task_tgid_vnr(current);
}
}
- sma->sem_otime = get_seconds();
/* maybe some queued-up processes were waiting for this */
- update_queue(sma, -1);
+ INIT_LIST_HEAD(&tasks);
+ do_smart_update(sma, NULL, 0, 1, &tasks);
sem_unlock(sma);
+ wake_up_sem_queue_do(&tasks);
call_rcu(&un->rcu, free_un);
}
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