1 EPOLL(5) Standards, Environments, and Macros EPOLL(5) 2 3 4 5 NAME 6 epoll - Linux-compatible I/O event notification facility 7 8 SYNOPSIS 9 #include <sys/epoll.h> 10 11 12 DESCRIPTION 13 epoll is a facility for efficient event-oriented I/O that has a similar 14 model to poll(2), but does not necessitate rescanning a set of file 15 descriptors to wait for an event. epoll is of Linux origins, and this 16 facility is designed to be binary-compatible with the Linux facility, 17 including the following interfaces: 18 19 20 o epoll_create(3C) creates an epoll instance, returning a file 21 descriptor. It contains a size arugment which is meaningful 22 only in as much as it cannot be 0. 23 24 o epoll_create1(3C) also creates an epoll instance, but 25 eliminates the meaningless size argument -- replacing it 26 instead with a flags argument. 27 28 o epoll_ctl(3C) allows file descriptors to be added (via 29 EPOLL_CTL_ADD), deleted (via EPOLL_CTL_DEL) or modified (via 30 EPOLL_CTL_MOD) with respect to the epoll'd set of file 31 descriptors. 32 33 o epoll_wait(3C) fetches pending events for file descriptors 34 added via epoll_ctl(3C), blocking the caller if no such 35 events are pending. 36 37 o epoll_pwait(3C) opeates in a similar manner to 38 epoll_wait(3C), but allows the caller to specify a signal 39 mask to be set atomically with respect to waiting for 40 events. 41 42 43 44 NOTES 45 The epoll facility is implemented for purposes of offering 46 compatibility to and portability of Linux-borne applications; native 47 applications should continue to prefer using event ports via the 48 port_create(3C), port_associate(3C) and port_getn(3C) interfaces. In 49 particular, use of epoll in a multithreaded environment is fraught with 50 peril; even when using EPOLLONESHOT for one-shot events, there are race 51 conditions with respect to close(2) that are unresolvable. (For more 52 details, see the aborted effort in Linux to resolve this via the 53 proposed EPOLL_CTL_DISABLE operation.) The event port facility -- like 54 the BSD kqueue facility that inspired it -- is designed to deal with 55 such issues via explicit event source dissociation. 56 57 While a best effort has been made to mimic the Linux semantics, there 58 are some semantics that are too peculiar or ill-conceived to merit 59 accommodation. In particular, the Linux epoll facility will -- by 60 design -- continue to generate events for closed file descriptors 61 where/when the underlying file description remains open. For example, 62 if one were to fork(2) and subsequently close an actively epoll'd file 63 descriptor in the parent, any events generated in the child on the 64 implicitly duplicated file descriptor will continue to be delivered to 65 the parent -- despite the fact that the parent itself no longer has any 66 notion of the file description! This epoll facility refuses to honor 67 these semantics; closing the EPOLL_CTL_ADD'd file descriptor will 68 always result in no further events being generated for that event 69 description. 70 71 72 SEE ALSO 73 epoll_create(3C), epoll_create1(3C), epoll_ctl(3C), epoll_wait(3C), 74 epoll_pwait(3C), port_create(3C), port_associate(3C), 75 port_dissociate(3C), port_get(3C), pselect(3C) 76 77 78 79 April 17, 2014 EPOLL(5)