poll(7d) Devices poll(7d)NAMEpoll - driver for fast poll on many file descriptors
SYNOPSIS
#include <sys/devpoll.h>
int fd = open("/dev/poll", O_RDWR);
ssize_t n = write(int fd, struct pollfd buf[], int bufsize);
int n = ioctl(int fd, DP_POLL, struct dvpoll* arg);
int n = ioctl(int fd, DP_ISPOLLED, struct pollfd* pfd);
PARAMETERS
fd Open file descriptor that refers to the /dev/poll driver.
path /dev/poll
buf Array of pollfd structures.
bufsize Size of buf in bytes.
arg Pointer to pollcall structure.
pfd Pointer to pollfd structure.
DESCRIPTION
Note -
The /dev/poll device, associated driver and corresponding manpages
may be removed in a future Solaris release. For similar functionality
in the event ports framework, see port_create(3C).
The /dev/poll driver is a special driver that enables you to monitor
multiple sets of polled file descriptors. By using the /dev/poll
driver, you can efficiently poll large numbers of file descriptors.
Access to the /dev/poll driver is provided through open(2), write(2),
and ioctl(2) system calls.
Writing an array of pollfd struct to the /dev/poll driver has the
effect of adding these file descriptors to the monitored poll file
descriptor set represented by the fd. To monitor multiple file
descriptor sets, open the /dev/poll driver multiple times. Each fd cor‐
responds to one set. For each pollfd struct entry (defined in
sys/poll.h):
struct pollfd {
int fd;
short events;
short revents;
}
The fd field specifies the file descriptor being polled. The events
field indicates the interested poll events on the file descriptor. If a
pollfd array contains multiple pollfd entries with the same fd field,
the "events" field in each pollfd entry is OR'ed. A special POLLREMOVE
event in the events field of the pollfd structure removes the fd from
the monitored set. The revents field is not used. Write returns the
number of bytes written successfully or -1 when write fails.
The DP_POLL ioctl is used to retrieve returned poll events occured on
the polled file descriptors in the monitored set represented by fd.
arg is a pointer to the devpoll structures which are defined as fol‐
lows:
struct dvpoll {
struct pollfd* dp_fds;
int dp_nfds;
int dp_timeout;
}
The dp_fds points to a buffer that holds an array of returned pollfd
structures. The dp_nfds field specifies the size of the buffer in terms
of the number of pollfd entries it contains. The dp_nfds field also
indicates the maximum number of file descriptors from which poll infor‐
mation can be obtained. If there is no interested events on any of the
polled file descriptors, the DP_POLL ioctl call will wait dp_timeout
milliseconds before returning. If dp_timeout is 0, the ioctl call
returns immediately. If dp_timeout is -1, the call blocks until an
interested poll events is available or the call is interrupted. Upon
return, if the ioctl call has failed, -1 is returned. The memory con‐
tent pointed by dp_fds is not modified. A return value 0 means the
ioctl is timed out. In this case, the memory content pointed by dp_fds
is not modified. If the call is successful, it returns the number of
valid pollfd entries in the array pointed by dp_fds; the contents of
the rest of the buffer is undefined. For each valid pollfd entry, the
fd field indicates the file desciptor on which the polled events hap‐
pened. The events field is the user specified poll events. The revents
field contains the events occurred. -1 is returned if the call fails.
DP_ISPOLLED ioctl allows you to query if a file descriptor is already
in the monitored set represented by fd. The fd field of the pollfd
structure indicates the file descriptor of interest. The DP_ISPOLLED
ioctl returns 1 if the file descriptor is in the set. The events field
contains 0. The revents field contains the currently polled events.
The ioctl returns 0 if the file descriptor is not in the set. The
pollfd structure pointed by pfd is not modified. The ioctl returns a
-1 if the call fails.
EXAMPLES
The following example shows how /dev/poll may be used.
{
...
/*
* open the driver
*/
if ((wfd = open("/dev/poll", O_RDWR)) < 0) {
exit(-1);
}
pollfd = (struct pollfd* )malloc(sizeof(struct pollfd) * MAXBUF);
if (pollfd == NULL) {
close(wfd);
exit(-1);
}
/*
* initialize buffer
*/
for (i = 0; i < MAXBUF; i++) {
pollfd[i].fd = fds[i];
pollfd[i].events = POLLIN;
pollfd[i].revents = 0;
}
if (write(wfd, &pollfd[0], sizeof(struct pollfd) * MAXBUF) !=
sizeof(struct pollfd) * MAXBUF) {
perror("failed to write all pollfds");
close (wfd);
free(pollfd);
exit(-1);
}
/*
* read from the devpoll driver
*/
dopoll.dp_timeout = -1;
dopoll.dp_nfds = MAXBUF;
dopoll.dp_fds = pollfd;
result = ioctl(wfd, DP_POLL, &dopoll);
if (result < 0) {
perror("/dev/poll ioctl DP_POLL failed");
close (wfd);
free(pollfd);
exit(-1);
}
for (i = 0; i < result; i++) {
read(dopoll.dp_fds[i].fd, rbuf, STRLEN);
}
...
}
The following example is part of a test program which shows how
DP_ISPOLLED() ioctl may be used.
{
...
loopcnt = 0;
while (loopcnt < ITERATION) {
rn = random();
rn %= RANGE;
if (write(fds[rn], TESTSTRING, strlen(TESTSTRING)) !=
strlen(TESTSTRING)) {
perror("write to fifo failed.");
close (wfd);
free(pollfd);
error = 1;
goto out1;
}
dpfd.fd = fds[rn];
dpfd.events = 0;
dpfd.revents = 0;
result = ioctl(wfd, DP_ISPOLLED, &dpfd);
if (result < 0) {
perror("/dev/poll ioctl DP_ISPOLLED failed");
printf("errno = %d0, errno);
close (wfd);
free(pollfd);
error = 1;
goto out1;
}
if (result != 1) {
printf("DP_ISPOLLED returned incorrect result: %d.0,
result);
close (wfd);
free(pollfd);
error = 1;
goto out1;
}
if (dpfd.fd != fds[rn]) {
printf("DP_ISPOLLED returned wrong fd %d, expect %d0,
dpfd.fd, fds[rn]);
close (wfd);
free(pollfd);
error = 1;
goto out1;
}
if (dpfd.revents != POLLIN) {
printf("DP_ISPOLLED returned unexpected revents %d0,
dpfd.revents);
close (wfd);
free(pollfd);
error = 1;
goto out1;
}
if (read(dpfd.fd, rbuf, strlen(TESTSTRING)) !=
strlen(TESTSTRING)) {
perror("read from fifo failed");
close (wfd);
free(pollfd);
error = 1;
goto out1;
}
loopcnt++;
}
ERRORS
EACCES A process does not have permission to access the content
cached in /dev/poll.
EINTR A signal was caught during the execution of the ioctl(2)
function.
EFAULT The request argument requires a data transfer to or from a
buffer pointed to by arg, but arg points to an illegal
address.
EINVAL The request or arg parameter is not valid for this device,
or field of the dvpoll struct pointed by arg is not valid
(for example, when using write/pwrite dp_nfds is greater
than {OPEN_MAX}, or when using the DPPOLL ioctl dp_nfds is
greater than or equal to {OPEN_MAX}}.
ENXIO The O_NONBLOCK flag is set, the named file is a FIFO, the
O_WRONLY flag is set, and no process has the file open for
reading; or the named file is a character special or block
special file and the device associated with this special
file does not exist.
ATTRIBUTES
See attributes(5) for a description of the following attributes:
┌──────────────────────────────────────────────────────────────────┐
│ATTRIBUTE TYPE ATTRIBUTE VALUE │
│Architecture SPARC, x86 │
│Availability system/library/processor ( Solaris) │
│ SUNWcs, SUNWcs (Solaris on x86) │
│ SUNWhea (header files) │
│Interface Stability Obsolete │
│MT-Level Safe │
└──────────────────────────────────────────────────────────────────┘
SEE ALSOopen(2), poll(2), write(2), attributes(5)NOTES
The /dev/poll API is particularly beneficial to applications that poll
a large number of file descriptors repeatedly. Applications will
exhibit the best performance gain if the polled file descriptor list
rarely change.
When using the /dev/poll driver, you should remove a closed file
descriptor from a monitored poll set. Failure to do so may result in a
POLLNVAL revents being returned for the closed file descriptor. When a
file descriptor is closed but not removed from the monitored set, and
is reused in subsequent open of a different device, you will be polling
the device associated with the reused file descriptor. In a multi‐
threaded application, careful coordination among threads doing close
and DP_POLL ioctl is recommended for consistent results.
The /dev/poll driver caches a list of polled file descriptors, which
are specific to a process. Therefore, the /dev/poll file descriptor
of a process will be inherited by its child process, just like any
other file descriptors. But the child process will have very limited
access through this inherited /dev/poll file descriptor. Any attempt to
write or do ioctl by the child process will result in an EACCES error.
The child process should close the inherited /dev/poll file descriptor
and open its own if desired.
The /dev/poll driver does not yet support polling. Polling on a
/dev/poll file descriptor will result in POLLERR being returned in the
revents field of pollfd structure.
SunOS 5.11 28 Mar 2007 poll(7d)