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EPOCH(9) FreeBSD Kernel Developer's Manual EPOCH(9)
NAME epoch, epoch_context, epoch_alloc, epoch_free, epoch_enter, epoch_exit, epoch_wait, epoch_enter_preempt, epoch_exit_preempt, epoch_wait_preempt, epoch_call, epoch_drain_callbacks, in_epoch, in_epoch_verbose - kernel epoch based reclamation
SYNOPSIS #include <sys/param.h> #include <sys/proc.h> #include <sys/epoch.h>
struct epoch; /* Opaque */ typedef struct epoch *epoch_t;
struct epoch_context { void *data[2]; }; typedef struct epoch_context *epoch_context_t; typedef void epoch_callback_t(epoch_context_t);
struct epoch_tracker; /* Opaque */ typedef struct epoch_tracker *epoch_tracker_t;
epoch_t epoch_alloc(const char *name, int flags);
void epoch_free(epoch_t epoch);
void epoch_enter(epoch_t epoch);
void epoch_exit(epoch_t epoch);
void epoch_wait(epoch_t epoch);
void epoch_enter_preempt(epoch_t epoch, epoch_tracker_t et);
void epoch_exit_preempt(epoch_t epoch, epoch_tracker_t et);
void epoch_wait_preempt(epoch_t epoch);
void epoch_call(epoch_t epoch, epoch_callback_t callback, epoch_context_t ctx);
void epoch_drain_callbacks(epoch_t epoch);
int in_epoch(epoch_t epoch);
epoch section will never block.
Epochs are allocated with epoch_alloc(). The name argument is used for debugging convenience when the EPOCH_TRACE kernel option is configured. By default, epochs do not allow preemption during sections. By default mutexes cannot be held across epoch_wait_preempt(). The flags specified are formed by OR'ing the following values:
EPOCH_LOCKED Permit holding mutexes across epoch_wait_preempt() (requires EPOCH_PREEMPT). When doing this one must be cautious of creating a situation where a deadlock is possible.
EPOCH_PREEMPT The epoch will allow preemption during sections. Only non- sleepable locks may be acquired during a preemptible epoch. The functions epoch_enter_preempt(), epoch_exit_preempt(), and epoch_wait_preempt() must be used in place of epoch_enter(), epoch_exit(), and epoch_wait(), respectively.
epochs are freed with epoch_free().
Threads indicate the start of an epoch critical section by calling epoch_enter() (or epoch_enter_preempt() for preemptible epochs). Threads call epoch_exit() (or epoch_exit_preempt() for preemptible epochs) to indicate the end of a critical section. struct epoch_trackers are stack objects whose pointers are passed to epoch_enter_preempt() and epoch_exit_preempt() (much like struct rm_priotracker).
Threads can defer work until a grace period has expired since any thread has entered the epoch either synchronously or asynchronously. epoch_call() defers work asynchronously by invoking the provided callback at a later time. epoch_wait() (or epoch_wait_preempt()) blocks the current thread until the grace period has expired and the work can be done safely.
Default, non-preemptible epoch wait (epoch_wait()) is guaranteed to have much shorter completion times relative to preemptible epoch wait (epoch_wait_preempt()). (In the default type, none of the threads in an epoch section will be preempted before completing its section.)
INVARIANTS can assert that a thread is in an epoch by using in_epoch(). in_epoch(epoch) is equivalent to invoking in_epoch_verbose(epoch, 0). If EPOCH_TRACE is enabled, in_epoch_verbose(epoch, 1) provides additional verbose debugging information.
The epoch API currently does not support sleeping in epoch_preempt sections. A caller should never call epoch_wait() in the middle of an epoch section for the same epoch as this will lead to a deadlock.
The epoch_drain_callbacks() function is used to drain all pending callbacks which have been invoked by prior epoch_call() function calls on the same epoch. This function is useful when there are shared memory structure(s) referred to by the epoch callback(s) which are not refcounted and are rarely freed. The typical place for calling this function is right before freeing or invalidating the shared resource(s) used by the epoch callback(s). This function can sleep and is not Async free example: Thread 1:
int in_pcbladdr(struct inpcb *inp, struct in_addr *faddr, struct in_laddr *laddr, struct ucred *cred) { /* ... */ epoch_enter(net_epoch); CK_STAILQ_FOREACH(ifa, &ifp->if_addrhead, ifa_link) { sa = ifa->ifa_addr; if (sa->sa_family != AF_INET) continue; sin = (struct sockaddr_in *)sa; if (prison_check_ip4(cred, &sin->sin_addr) == 0) { ia = (struct in_ifaddr *)ifa; break; } } epoch_exit(net_epoch); /* ... */ } Thread 2:
void ifa_free(struct ifaddr *ifa) {
if (refcount_release(&ifa->ifa_refcnt)) epoch_call(net_epoch, ifa_destroy, &ifa->ifa_epoch_ctx); }
void if_purgeaddrs(struct ifnet *ifp) {
/* .... * IF_ADDR_WLOCK(ifp); CK_STAILQ_REMOVE(&ifp->if_addrhead, ifa, ifaddr, ifa_link); IF_ADDR_WUNLOCK(ifp); ifa_free(ifa); }
Thread 1 traverses the ifaddr list in an epoch. Thread 2 unlinks with the corresponding epoch safe macro, marks as logically free, and then defers deletion. More general mutation or a synchronous free would have to follow a call to epoch_wait().
NOTES The epoch kernel programming interface is under development and is subject to change.
SEE ALSO callout(9), locking(9), mtx_pool(9), mutex(9), rwlock(9), sema(9), sleep(9), sx(9)
HISTORY The epoch framework first appeared in FreeBSD 11.0.
CAVEATS modifying a list referenced from an epoch section safe removal routines must be used and the caller can no longer modify a list entry in place. An item to be modified must be handled with copy on write and frees must be deferred until after a grace period has elapsed.
FreeBSD 14.0-RELEASE-p11 April 30, 2020 FreeBSD 14.0-RELEASE-p11