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netio.c
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netio.c
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/*
* netio.c -- network I/O support.
*
* Copyright (c) 2001-2006, NLnet Labs. All rights reserved.
*
* See LICENSE for the license.
*
*/
#include "config.h"
#include <assert.h>
#include <errno.h>
#include <sys/time.h>
#include <string.h>
#include <stdlib.h>
#include <poll.h>
#include "netio.h"
#include "util.h"
#define MAX_NETIO_FDS 1024
netio_type *
netio_create(region_type *region)
{
netio_type *result;
assert(region);
result = (netio_type *) region_alloc(region, sizeof(netio_type));
result->region = region;
result->handlers = NULL;
result->deallocated = NULL;
result->dispatch_next = NULL;
return result;
}
void
netio_add_handler(netio_type *netio, netio_handler_type *handler)
{
netio_handler_list_type *elt;
assert(netio);
assert(handler);
if (netio->deallocated) {
/*
* If we have deallocated handler list elements, reuse
* the first one.
*/
elt = netio->deallocated;
netio->deallocated = elt->next;
} else {
/*
* Allocate a new one.
*/
elt = (netio_handler_list_type *) region_alloc(
netio->region, sizeof(netio_handler_list_type));
}
elt->next = netio->handlers;
elt->handler = handler;
elt->handler->pfd = -1;
netio->handlers = elt;
}
void
netio_remove_handler(netio_type *netio, netio_handler_type *handler)
{
netio_handler_list_type **elt_ptr;
assert(netio);
assert(handler);
for (elt_ptr = &netio->handlers; *elt_ptr; elt_ptr = &(*elt_ptr)->next) {
if ((*elt_ptr)->handler == handler) {
netio_handler_list_type *next = (*elt_ptr)->next;
if ((*elt_ptr) == netio->dispatch_next)
netio->dispatch_next = next;
(*elt_ptr)->handler = NULL;
(*elt_ptr)->next = netio->deallocated;
netio->deallocated = *elt_ptr;
*elt_ptr = next;
break;
}
}
}
const struct timespec *
netio_current_time(netio_type *netio)
{
assert(netio);
if (!netio->have_current_time) {
struct timeval current_timeval;
if (gettimeofday(¤t_timeval, NULL) == -1) {
log_msg(LOG_ERR, "gettimeofday: %s, aborting.", strerror(errno));
abort();
}
timeval_to_timespec(&netio->cached_current_time, ¤t_timeval);
netio->have_current_time = 1;
}
return &netio->cached_current_time;
}
int
netio_dispatch(netio_type *netio, const struct timespec *timeout, const sigset_t *sigmask)
{
/* static arrays to avoid allocation */
static struct pollfd fds[MAX_NETIO_FDS];
int numfd;
int have_timeout = 0;
struct timespec minimum_timeout;
netio_handler_type *timeout_handler = NULL;
netio_handler_list_type *elt;
int rc;
int result = 0;
#ifndef HAVE_PPOLL
sigset_t origmask;
#endif
assert(netio);
/*
* Clear the cached current time.
*/
netio->have_current_time = 0;
/*
* Initialize the minimum timeout with the timeout parameter.
*/
if (timeout) {
have_timeout = 1;
memcpy(&minimum_timeout, timeout, sizeof(struct timespec));
}
/*
* Initialize the fd_sets and timeout based on the handler
* information.
*/
numfd = 0;
for (elt = netio->handlers; elt; elt = elt->next) {
netio_handler_type *handler = elt->handler;
if (handler->fd != -1 && numfd < MAX_NETIO_FDS) {
fds[numfd].fd = handler->fd;
fds[numfd].events = 0;
fds[numfd].revents = 0;
handler->pfd = numfd;
if (handler->event_types & NETIO_EVENT_READ) {
fds[numfd].events |= POLLIN;
}
if (handler->event_types & NETIO_EVENT_WRITE) {
fds[numfd].events |= POLLOUT;
}
numfd++;
} else {
handler->pfd = -1;
}
if (handler->timeout && (handler->event_types & NETIO_EVENT_TIMEOUT)) {
struct timespec relative;
relative.tv_sec = handler->timeout->tv_sec;
relative.tv_nsec = handler->timeout->tv_nsec;
timespec_subtract(&relative, netio_current_time(netio));
if (!have_timeout ||
timespec_compare(&relative, &minimum_timeout) < 0)
{
have_timeout = 1;
minimum_timeout.tv_sec = relative.tv_sec;
minimum_timeout.tv_nsec = relative.tv_nsec;
timeout_handler = handler;
}
}
}
if (have_timeout && minimum_timeout.tv_sec < 0) {
/*
* On negative timeout for a handler, immediately
* dispatch the timeout event without checking for
* other events.
*/
if (timeout_handler && (timeout_handler->event_types & NETIO_EVENT_TIMEOUT)) {
timeout_handler->event_handler(netio, timeout_handler, NETIO_EVENT_TIMEOUT);
}
return result;
}
/* Check for events. */
#ifdef HAVE_PPOLL
rc = ppoll(fds, numfd, (have_timeout?&minimum_timeout:NULL), sigmask);
#else
sigprocmask(SIG_SETMASK, sigmask, &origmask);
rc = poll(fds, numfd, (have_timeout?minimum_timeout.tv_sec*1000+
minimum_timeout.tv_nsec/1000000:-1));
sigprocmask(SIG_SETMASK, &origmask, NULL);
#endif /* HAVE_PPOLL */
if (rc == -1) {
if(errno == EINVAL || errno == EACCES || errno == EBADF) {
log_msg(LOG_ERR, "fatal error poll: %s.",
strerror(errno));
exit(1);
}
return -1;
}
/*
* Clear the cached current_time (pselect(2) may block for
* some time so the cached value is likely to be old).
*/
netio->have_current_time = 0;
if (rc == 0) {
/*
* No events before the minimum timeout expired.
* Dispatch to handler if interested.
*/
if (timeout_handler && (timeout_handler->event_types & NETIO_EVENT_TIMEOUT)) {
timeout_handler->event_handler(netio, timeout_handler, NETIO_EVENT_TIMEOUT);
}
} else {
/*
* Dispatch all the events to interested handlers
* based on the fd_sets. Note that a handler might
* deinstall itself, so store the next handler before
* calling the current handler!
*/
assert(netio->dispatch_next == NULL);
for (elt = netio->handlers; elt && rc; ) {
netio_handler_type *handler = elt->handler;
netio->dispatch_next = elt->next;
if (handler->fd != -1 && handler->pfd != -1) {
netio_event_types_type event_types
= NETIO_EVENT_NONE;
if ((fds[handler->pfd].revents & POLLIN)) {
event_types |= NETIO_EVENT_READ;
}
if ((fds[handler->pfd].revents & POLLOUT)) {
event_types |= NETIO_EVENT_WRITE;
}
if ((fds[handler->pfd].revents &
(POLLNVAL|POLLHUP|POLLERR))) {
/* closed/error: give a read event,
* or otherwise, a write event */
if((handler->event_types&NETIO_EVENT_READ))
event_types |= NETIO_EVENT_READ;
else if((handler->event_types&NETIO_EVENT_WRITE))
event_types |= NETIO_EVENT_WRITE;
}
if (event_types & handler->event_types) {
handler->event_handler(netio, handler, event_types & handler->event_types);
++result;
}
}
elt = netio->dispatch_next;
}
netio->dispatch_next = NULL;
}
return result;
}