module Epoll:sig
..end
See the man pages for a full description of the epoll facility.
module Flags:sig
..end
type
t
Epoll.t
maintains a map from File_descr.t
to Flags.t
, where the domain is
the set of file descriptors that one is interested in, and the flags associated with
each file descriptor specify the types of events one is interested in being notified
about for that file descriptor. Our implementation maintains a user-level table
equivalent to the kernel epoll set, so that sexp_of_t
produces useful
human-readable information, and so that we can present our standard table
interface.
An Epoll.t
also has a buffer that is used to store the set of ready fds returned
by calling wait
.
val invariant : t -> unit
val create : (num_file_descrs:int -> max_ready_events:int -> t)
Core_kernel.Std.Or_error.t
create ~num_file_descrs
creates a new epoll set able to watch file descriptors in
[0, num_file_descrs). Additionally, the set allocates space for reading the ready
events when wait
returns, allowing for up to max_ready_events
to be returned in
a single call to wait
.val close : t -> unit
val find : t -> Unix.File_descr.t -> Flags.t option
val find_exn : t -> Unix.File_descr.t -> Flags.t
val set : t ->
Unix.File_descr.t -> Flags.t -> unit
val remove : t -> Unix.File_descr.t -> unit
val iter : t ->
f:(Unix.File_descr.t -> Flags.t -> unit) -> unit
val wait : t ->
timeout:[ `After of Span.t | `Immediately | `Never ] -> [ `Ok | `Timeout ]
wait t ~timeout
blocks until at least one file descriptor in t
is ready for one
of the events it is being watched for, or timeout
passes. wait
side effects t
by storing the ready set in it. One can subsequently access the ready set by
calling iter_ready
or fold_ready
.
The timeout
has a granularity of one millisecond. wait
rounds up the timeout
to the next millisecond. E.g. a timeout
of one microsecond will be rounded up
to one millisecond.
Note that this method should not be considered thread safe. There is mutable state
in t that will be changed by invocations to wait that cannot be prevented by mutexes
around wait
.
val iter_ready : t ->
f:(Unix.File_descr.t -> Flags.t -> unit) -> unit
iter_ready
and fold_ready
iterate over the ready set computed by the last
call to wait
.val fold_ready : t ->
init:'a ->
f:('a -> Unix.File_descr.t -> Flags.t -> 'a) -> 'a
val sexp_of_t : t -> Sexplib.Sexp.t
create ~num_file_descrs
creates a new epoll set able to watch file descriptors in
[0, num_file_descrs). Additionally, the set allocates space for reading the ready
events when wait
returns, allowing for up to max_ready_events
to be returned in
a single call to wait
.wait t ~timeout
blocks until at least one file descriptor in t
is ready for one
of the events it is being watched for, or timeout
passes. wait
side effects t
by storing the ready set in it. One can subsequently access the ready set by
calling iter_ready
or fold_ready
.
The timeout
has a granularity of one millisecond. wait
rounds up the timeout
to the next millisecond. E.g. a timeout
of one microsecond will be rounded up
to one millisecond.
Note that this method should not be considered thread safe. There is mutable state
in t that will be changed by invocations to wait that cannot be prevented by mutexes
around wait
.
iter_ready
and fold_ready
iterate over the ready set computed by the last
call to wait
.