KQUEUE(2) BSD System Calls Manual KQUEUE(2)
NAME
kqueue, kevent, and kevent64 -- kernel event notification mechanism
LIBRARY
Standard C Library (libc, -lc)
SYNOPSIS
#include <sys/types.h>
#include <sys/event.h>
#include <sys/time.h>
int
kqueue(void);
int
kevent(int kq, const struct kevent *changelist, int nchanges, struct kevent *eventlist, int nevents, const struct timespec *timeout);
int
kevent64(int kq, const struct kevent64_s *changelist, int nchanges, struct kevent64_s *eventlist, int nevents, unsigned int flags,
const struct timespec *timeout);
EV_SET(&kev, ident, filter, flags, fflags, data, udata);
EV_SET64(&kev, ident, filter, flags, fflags, data, udata, ext[0], ext[1]);
DESCRIPTION
The kqueue() system call provides a generic method of notifying the user when a kernel event (kevent) happens or a condition holds, based on
the results of small pieces of kernel code termed filters. A kevent is identified by an (ident, filter) pair and specifies the interesting
conditions to be notified about for that pair. An (ident, filter) pair can only appear once in a given kqueue. Subsequent attempts to reg-
ister the same pair for a given kqueue will result in the replacement of the conditions being watched, not an addition.
The filter identified in a kevent is executed upon the initial registration of that event in order to detect whether a preexisting condition
is present, and is also executed whenever an event is passed to the filter for evaluation. If the filter determines that the condition
should be reported, then the kevent is placed on the kqueue for the user to retrieve.
The filter is also run when the user attempts to retrieve the kevent from the kqueue. If the filter indicates that the condition that trig-
gered the event no longer holds, the kevent is removed from the kqueue and is not returned.
Multiple events which trigger the filter do not result in multiple kevents being placed on the kqueue; instead, the filter will aggregate the
events into a single struct kevent. Calling close() on a file descriptor will remove any kevents that reference the descriptor.
The kqueue() system call creates a new kernel event queue and returns a descriptor. The queue is not inherited by a child created with
fork(2).
The kevent() and kevent64() system calls are used to register events with the queue, and return any pending events to the user. The
changelist argument is a pointer to an array of kevent or kevent64_s structures, as defined in <sys/event.h>. All changes contained in the
changelist are applied before any pending events are read from the queue. The nchanges argument gives the size of changelist. The eventlist
argument is a pointer to an array of kevent or kevent64_s structures. The nevents argument determines the size of eventlist. If timeout is
a non-NULL pointer, it specifies a maximum interval to wait for an event, which will be interpreted as a struct timespec. If timeout is a
NULL pointer, both kevent() and kevent64() wait indefinitely. To effect a poll, the timeout argument should be non-NULL, pointing to a zero-
valued timespec structure. The same array may be used for the changelist and eventlist.
The EV_SET() macro is provided for ease of initializing a kevent structure. Similarly, EV_SET64() initializes a kevent64_s structure.
The kevent and kevent64_s structures are defined as:
struct kevent {
uintptr_t ident; /* identifier for this event */
int16_t filter; /* filter for event */
uint16_t flags; /* general flags */
uint32_t fflags; /* filter-specific flags */
intptr_t data; /* filter-specific data */
void *udata; /* opaque user data identifier */
};
struct kevent64_s {
uint64_t ident; /* identifier for this event */
int16_t filter; /* filter for event */
uint16_t flags; /* general flags */
uint32_t fflags; /* filter-specific flags */
int64_t data; /* filter-specific data */
uint64_t udata; /* opaque user data identifier */
uint64_t ext[2]; /* filter-specific extensions */
};
----
The fields of struct kevent and struct kevent64_s are:
ident Value used to identify this event. The exact interpretation is determined by the attached filter, but often is a file descriptor.
filter Identifies the kernel filter used to process this event. The pre-defined system filters are described below.
flags Actions to perform on the event.
fflags Filter-specific flags.
data Filter-specific data value.
udata Opaque user-defined value passed through the kernel unchanged.
In addition, struct kevent64_s contains:
ext[2] This field stores extensions for the event's filter. What type of extension depends on what type of filter is being used.
----
The flags field can contain the following values:
EV_ADD Adds the event to the kqueue. Re-adding an existing event will modify the parameters of the original event, and not result in
a duplicate entry. Adding an event automatically enables it, unless overridden by the EV_DISABLE flag.
EV_ENABLE Permit kevent() and kevent64() to return the event if it is triggered.
EV_DISABLE Disable the event so kevent() and kevent64() will not return it. The filter itself is not disabled.
EV_DELETE Removes the event from the kqueue. Events which are attached to file descriptors are automatically deleted on the last close
of the descriptor.
EV_RECEIPT This flag is useful for making bulk changes to a kqueue without draining any pending events. When passed as input, it forces
EV_ERROR to always be returned. When a filter is successfully added, the data field will be zero.
EV_ONESHOT Causes the event to return only the first occurrence of the filter being triggered. After the user retrieves the event from
the kqueue, it is deleted.
EV_CLEAR After the event is retrieved by the user, its state is reset. This is useful for filters which report state transitions
instead of the current state. Note that some filters may automatically set this flag internally.
EV_EOF Filters may set this flag to indicate filter-specific EOF condition.
EV_ERROR See RETURN VALUES below.
----
The predefined system filters are listed below. Arguments may be passed to and from the filter via the fflags and data fields in the kevent
or kevent64_s structure.
EVFILT_READ Takes a file descriptor as the identifier, and returns whenever there is data available to read. The behavior of the filter
is slightly different depending on the descriptor type.
Sockets
Sockets which have previously been passed to listen() return when there is an incoming connection pending. data con-
tains the size of the listen backlog.
Other socket descriptors return when there is data to be read, subject to the SO_RCVLOWAT value of the socket buffer.
This may be overridden with a per-filter low water mark at the time the filter is added by setting the NOTE_LOWAT flag
in fflags, and specifying the new low water mark in data. On return, data contains the number of bytes of protocol data
available to read.
If the read direction of the socket has shutdown, then the filter also sets EV_EOF in flags, and returns the socket
error (if any) in fflags. It is possible for EOF to be returned (indicating the connection is gone) while there is
still data pending in the socket buffer.
Vnodes
Returns when the file pointer is not at the end of file. data contains the offset from current position to end of file,
and may be negative.
Fifos, Pipes
Returns when the there is data to read; data contains the number of bytes available.
When the last writer disconnects, the filter will set EV_EOF in flags. This may be cleared by passing in EV_CLEAR, at
which point the filter will resume waiting for data to become available before returning.
EVFILT_WRITE Takes a file descriptor as the identifier, and returns whenever it is possible to write to the descriptor. For sockets,
pipes and fifos, data will contain the amount of space remaining in the write buffer. The filter will set EV_EOF when the
reader disconnects, and for the fifo case, this may be cleared by use of EV_CLEAR. Note that this filter is not supported
for vnodes.
For sockets, the low water mark and socket error handling is identical to the EVFILT_READ case.
EVFILT_AIO This filter is currently unsupported.
EVFILT_VNODE Takes a file descriptor as the identifier and the events to watch for in fflags, and returns when one or more of the
requested events occurs on the descriptor. The events to monitor are:
NOTE_DELETE The unlink() system call was called on the file referenced by the descriptor.
NOTE_WRITE A write occurred on the file referenced by the descriptor.
NOTE_EXTEND The file referenced by the descriptor was extended.
NOTE_ATTRIB The file referenced by the descriptor had its attributes changed.
NOTE_LINK The link count on the file changed.
NOTE_RENAME The file referenced by the descriptor was renamed.
NOTE_REVOKE Access to the file was revoked via revoke(2) or the underlying fileystem was unmounted.
On return, fflags contains the events which triggered the filter.
EVFILT_PROC Takes the process ID to monitor as the identifier and the events to watch for in fflags, and returns when the process per-
forms one or more of the requested events. If a process can normally see another process, it can attach an event to it.
The events to monitor are:
NOTE_EXIT The process has exited.
NOTE_EXITSTATUS
The process has exited and its exit status is in filter specific data. Valid only on child processes and to be
used along with NOTE_EXIT.
NOTE_FORK The process created a child process via fork(2) or similar call.
NOTE_EXEC The process executed a new process via execve(2) or similar call.
NOTE_SIGNAL The process was sent a signal. Status can be checked via waitpid(2) or similar call.
NOTE_REAP The process was reaped by the parent via wait(2) or similar call. Deprecated, use NOTE_EXIT.
On return, fflags contains the events which triggered the filter.
EVFILT_SIGNAL Takes the signal number to monitor as the identifier and returns when the given signal is generated for the process. This
coexists with the signal() and sigaction() facilities, and has a lower precedence. Only signals sent to the process, not to
a particular thread, will trigger the filter. The filter will record all attempts to deliver a signal to a process, even if
the signal has been marked as SIG_IGN. Event notification happens before normal signal delivery processing. data returns
the number of times the signal has been generated since the last call to kevent(). This filter automatically sets the
EV_CLEAR flag internally.
EVFILT_MACHPORT Takes the name of a mach port, or port set, in ident and waits until a message is received on the port or port set. When a
message is recieved, the size of the message is returned in data and if fflags is set to MACH_RCV_MSG, a pointer to the mes-
sage is returned in ext[0].
EVFILT_TIMER Establishes an interval timer with the data timer identified by ident. When adding a timer, data specifies the timeout
period and fflags can be set to one of the following:
NOTE_SECONDS data is in seconds
NOTE_USECONDS data is in microseconds
NOTE_NSECONDS data is in nanoseconds
NOTE_ABSOLUTE data is an absolute timeout
NOTE_CRITICAL system makes a best effort to fire this timer as scheduled.
NOTE_BACKGROUND
system has extra leeway to coalesce this timer.
NOTE_LEEWAY ext[1] holds user-supplied slop in deadline for timer coalescing.
If fflags is not set, the default is milliseconds. The timer will be periodic unless EV_ONESHOT is specified. On return,
data contains the number of times the timeout has expired since the last call to kevent() or kevent64(). This filter auto-
matically sets the EV_CLEAR flag internally.
----
In the ext[2] field of the kevent64_s struture, ext[0] is only used with the EVFILT_MACHPORT filter. With other filters, ext[0] is passed
through kevent64() much like udata. ext[1] can always be used like udata. For the use of ext[0], see the EVFILT_MACHPORT filter above.
RETURN VALUES
The kqueue() system call creates a new kernel event queue and returns a file descriptor. If there was an error creating the kernel event
queue, a value of -1 is returned and errno set.
The kevent() and kevent64() system calls return the number of events placed in the eventlist, up to the value given by nevents. If an error
occurs while processing an element of the changelist and there is enough room in the eventlist, then the event will be placed in the
eventlist with EV_ERROR set in flags and the system error in data. Otherwise, -1 will be returned, and errno will be set to indicate the
error condition. If the time limit expires, then kevent() and kevent64() return 0.
ERRORS
The kqueue() system call fails if:
[ENOMEM] The kernel failed to allocate enough memory for the kernel queue.
[EMFILE] The per-process descriptor table is full.
[ENFILE] The system file table is full.
The kevent() and kevent64() system calls fail if:
[EACCES] The process does not have permission to register a filter.
[EFAULT] There was an error reading or writing the kevent or kevent64_s structure.
[EBADF] The specified descriptor is invalid.
[EINTR] A signal was delivered before the timeout expired and before any events were placed on the kqueue for return.
[EINVAL] The specified time limit or filter is invalid.
[ENOENT] The event could not be found to be modified or deleted.
[ENOMEM] No memory was available to register the event.
[ESRCH] The specified process to attach to does not exist.
SEE ALSO
aio_error(2), aio_read(2), aio_return(2), read(2), select(2), sigaction(2), write(2), signal(3)
HISTORY
The kqueue() and kevent() system calls first appeared in FreeBSD 4.1.
AUTHORS
The kqueue() system and this manual page were written by Jonathan Lemon <jlemon@FreeBSD.org>.
BUGS
Not all filesystem types support kqueue-style notifications. And even some that do, like some remote filesystems, may only support a subset
of the notification semantics described here.
BSD
October 21, 2008 BSD