xref: /freebsd/share/man/man9/epoch.9 (revision 7739f6e5ad31a5018e05775101dc1ebddff5c7c0)
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29*7739f6e5SEd Schouten.Dd June 25, 2018
3033346ed6SMatt Macy.Dt EPOCH 9
3133346ed6SMatt Macy.Os
3233346ed6SMatt Macy.Sh NAME
3333346ed6SMatt Macy.Nm epoch ,
3433346ed6SMatt Macy.Nm epoch_context ,
3533346ed6SMatt Macy.Nm epoch_alloc ,
3633346ed6SMatt Macy.Nm epoch_free ,
3733346ed6SMatt Macy.Nm epoch_enter ,
3833346ed6SMatt Macy.Nm epoch_exit ,
3933346ed6SMatt Macy.Nm epoch_wait ,
4033346ed6SMatt Macy.Nm epoch_call ,
4133346ed6SMatt Macy.Nm in_epoch ,
42*7739f6e5SEd Schouten.Nd kernel epoch based reclamation
4333346ed6SMatt Macy.Sh SYNOPSIS
4433346ed6SMatt Macy.In sys/param.h
4533346ed6SMatt Macy.In sys/proc.h
4633346ed6SMatt Macy.In sys/epoch.h
4733346ed6SMatt Macy.Ft epoch_t
486e36248fSMatt Macy.Fn epoch_alloc "int flags"
4933346ed6SMatt Macy.Ft void
5033346ed6SMatt Macy.Fn epoch_enter "epoch_t epoch"
5133346ed6SMatt Macy.Ft void
5270398c2fSMatt Macy.Fn epoch_enter_preempt "epoch_t epoch"
536e36248fSMatt Macy.Ft void
5433346ed6SMatt Macy.Fn epoch_exit "epoch_t epoch"
5533346ed6SMatt Macy.Ft void
5670398c2fSMatt Macy.Fn epoch_exit_preempt "epoch_t epoch"
576e36248fSMatt Macy.Ft void
5833346ed6SMatt Macy.Fn epoch_wait "epoch_t epoch"
5933346ed6SMatt Macy.Ft void
6070398c2fSMatt Macy.Fn epoch_wait_preempt "epoch_t epoch"
616e36248fSMatt Macy.Ft void
6233346ed6SMatt Macy.Fn epoch_call "epoch_t epoch" "epoch_context_t ctx" "void (*callback) (epoch_context_t)"
6333346ed6SMatt Macy.Ft int
6433346ed6SMatt Macy.Fn in_epoch "void"
6533346ed6SMatt Macy.Sh DESCRIPTION
6633346ed6SMatt MacyEpochs are used to guarantee liveness and immutability of data by
6733346ed6SMatt Macydeferring reclamation and mutation until a grace period has elapsed.
687d9389b0SEitan AdlerEpochs do not have any lock ordering issues.
697d9389b0SEitan AdlerEntering and leaving an epoch section will never block.
7033346ed6SMatt Macy.Pp
7133346ed6SMatt MacyEpochs are allocated with
7233346ed6SMatt Macy.Fn epoch_alloc
7333346ed6SMatt Macyand freed with
7433346ed6SMatt Macy.Fn epoch_free .
756e36248fSMatt MacyThe flags passed to epoch_alloc determine whether preemption is
767d9389b0SEitan Adlerallowed during a section or not (the default), as specified by
7770398c2fSMatt MacyEPOCH_PREEMPT.
7833346ed6SMatt MacyThreads indicate the start of an epoch critical section by calling
7933346ed6SMatt Macy.Fn epoch_enter .
8033346ed6SMatt MacyThe end of a critical section is indicated by calling
8133346ed6SMatt Macy.Fn epoch_exit .
8270398c2fSMatt MacyThe _preempt variants can be used around code which requires preemption.
8333346ed6SMatt MacyA thread can wait until a grace period has elapsed
8433346ed6SMatt Macysince any threads have entered
8533346ed6SMatt Macythe epoch by calling
8670398c2fSMatt Macy.Fn epoch_wait
8770398c2fSMatt Macyor
8870398c2fSMatt Macy.Fn epoch_wait_preempt ,
8970398c2fSMatt Macydepending on the epoch_type.
9070398c2fSMatt MacyThe use of a default epoch type allows one to use
9170398c2fSMatt Macy.Fn epoch_wait
926e36248fSMatt Macywhich is guaranteed to have much shorter completion times since
936e36248fSMatt Macywe know that none of the threads in an epoch section will be preempted
946e36248fSMatt Macybefore completing its section.
9533346ed6SMatt MacyIf the thread can't sleep or is otherwise in a performance sensitive
9633346ed6SMatt Macypath it can ensure that a grace period has elapsed by calling
9733346ed6SMatt Macy.Fn epoch_call
9833346ed6SMatt Macywith a callback with any work that needs to wait for an epoch to elapse.
9933346ed6SMatt MacyOnly non-sleepable locks can be acquired during a section protected by
10070398c2fSMatt Macy.Fn epoch_enter_preempt
10133346ed6SMatt Macyand
10270398c2fSMatt Macy.Fn epoch_exit_preempt .
10333346ed6SMatt MacyINVARIANTS can assert that a thread is in an epoch by using
10433346ed6SMatt Macy.Fn in_epoch .
10533346ed6SMatt Macy.Pp
10670398c2fSMatt MacyThe epoch API currently does not support sleeping in epoch_preempt sections.
1077d9389b0SEitan AdlerA caller cannot do epoch_enter recursively on different preemptible epochs.
1087d9389b0SEitan AdlerA caller should never call
10933346ed6SMatt Macy.Fn epoch_wait
11033346ed6SMatt Macyin the middle of an epoch section as this will lead to a deadlock.
11133346ed6SMatt Macy.Pp
1127d9389b0SEitan AdlerNote that epochs are not a straight replacement for read locks.
1137d9389b0SEitan AdlerCallers must use safe list and tailq traversal routines in an epoch (see ck_queue).
11433346ed6SMatt MacyWhen modifying a list referenced from an epoch section safe removal
11533346ed6SMatt Macyroutines must be used and the caller can no longer modify a list entry
1167d9389b0SEitan Adlerin place.
1177d9389b0SEitan AdlerAn item to be modified must be handled with copy on write
11833346ed6SMatt Macyand frees must be deferred until after a grace period has elapsed.
11933346ed6SMatt Macy.Sh RETURN VALUES
12033346ed6SMatt Macy.Fn in_epoch
12133346ed6SMatt Macywill return 1 if curthread is in an epoch, 0 otherwise.
12270398c2fSMatt Macy.Sh CAVEATS
12370398c2fSMatt MacyOne must be cautious when using
12470398c2fSMatt Macy.Fn epoch_wait_preempt
12570398c2fSMatt Macythreads are pinned during epoch sections so if a thread in a section is then
12670398c2fSMatt Macypreempted by a higher priority compute bound thread on that CPU it can be
1277d9389b0SEitan Adlerprevented from leaving the section.
1287d9389b0SEitan AdlerThus the wait time for the waiter is
12970398c2fSMatt Macypotentially unbounded.
13033346ed6SMatt Macy.Sh EXAMPLES
13133346ed6SMatt MacyAsync free example:
13233346ed6SMatt MacyThread 1:
13333346ed6SMatt Macy.Bd -literal
1346e36248fSMatt Macyint
1356e36248fSMatt Macyin_pcbladdr(struct inpcb *inp, struct in_addr *faddr, struct in_laddr *laddr,
1366e36248fSMatt Macy    struct ucred *cred)
13733346ed6SMatt Macy{
1386e36248fSMatt Macy   /* ... */
13933346ed6SMatt Macy   epoch_enter(net_epoch);
14033346ed6SMatt Macy    CK_STAILQ_FOREACH(ifa, &ifp->if_addrhead, ifa_link) {
14133346ed6SMatt Macy        sa = ifa->ifa_addr;
14233346ed6SMatt Macy	if (sa->sa_family != AF_INET)
14333346ed6SMatt Macy	    continue;
14433346ed6SMatt Macy	sin = (struct sockaddr_in *)sa;
14533346ed6SMatt Macy	if (prison_check_ip4(cred, &sin->sin_addr) == 0) {
14633346ed6SMatt Macy	     ia = (struct in_ifaddr *)ifa;
14733346ed6SMatt Macy	     break;
14833346ed6SMatt Macy	}
14933346ed6SMatt Macy    }
15033346ed6SMatt Macy    epoch_exit(net_epoch);
1516e36248fSMatt Macy   /* ... */
15233346ed6SMatt Macy}
15333346ed6SMatt Macy.Ed
15433346ed6SMatt MacyThread 2:
15533346ed6SMatt Macy.Bd -literal
15633346ed6SMatt Macyvoid
15733346ed6SMatt Macyifa_free(struct ifaddr *ifa)
15833346ed6SMatt Macy{
15933346ed6SMatt Macy
16033346ed6SMatt Macy    if (refcount_release(&ifa->ifa_refcnt))
16133346ed6SMatt Macy        epoch_call(net_epoch, &ifa->ifa_epoch_ctx, ifa_destroy);
16233346ed6SMatt Macy}
16333346ed6SMatt Macy
1646e36248fSMatt Macyvoid
1656e36248fSMatt Macyif_purgeaddrs(struct ifnet *ifp)
16633346ed6SMatt Macy{
16733346ed6SMatt Macy
1687d9389b0SEitan Adler    /* .... *
16933346ed6SMatt Macy    IF_ADDR_WLOCK(ifp);
17033346ed6SMatt Macy    CK_STAILQ_REMOVE(&ifp->if_addrhead, ifa, ifaddr, ifa_link);
17133346ed6SMatt Macy    IF_ADDR_WUNLOCK(ifp);
17233346ed6SMatt Macy    ifa_free(ifa);
17333346ed6SMatt Macy}
17433346ed6SMatt Macy.Ed
17533346ed6SMatt Macy.Pp
1767d9389b0SEitan AdlerThread 1 traverses the ifaddr list in an epoch.
1777d9389b0SEitan AdlerThread 2 unlinks with the corresponding epoch safe macro, marks as logically free,
1787d9389b0SEitan Adlerand then defers deletion.
1797d9389b0SEitan AdlerMore general mutation or a synchronous
1807d9389b0SEitan Adlerfree would have to follow a call to
18133346ed6SMatt Macy.Fn epoch_wait .
18233346ed6SMatt Macy.Sh ERRORS
18333346ed6SMatt MacyNone.
18433346ed6SMatt Macy.El
18533346ed6SMatt Macy.Sh SEE ALSO
18633346ed6SMatt Macy.Xr locking 9 ,
18733346ed6SMatt Macy.Xr mtx_pool 9 ,
18833346ed6SMatt Macy.Xr mutex 9 ,
18933346ed6SMatt Macy.Xr rwlock 9 ,
19033346ed6SMatt Macy.Xr sema 9 ,
19133346ed6SMatt Macy.Xr sleep 9 ,
19233346ed6SMatt Macy.Xr sx 9 ,
19333346ed6SMatt Macy.Xr timeout 9
194