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io_wait_loop.h
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io_wait_loop.h
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/*
* Copyright (C) 2014-2015 OpenSIPS Solutions
* Copyright (C) 2005 iptelorg GmbH
*
* This file is part of opensips, a free SIP server.
*
* opensips is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version
*
* opensips is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* History:
* --------
* 2014-08-25 split from io_wait.h (bogdan)
*/
/*!
* \file
* \brief io wait looping and triggering functions
*/
#ifndef _io_wait_loop_h
#define _io_wait_loop_h
#include "io_wait.h"
#ifdef HANDLE_IO_INLINE
/*!\brief generic handle io routine
* this must be defined in the including file
* (faster then registering a callback pointer)
*
* \param fm pointer to a fd hash entry
* \param idx index in the fd_array (or -1 if not known)
* \return return: -1 on error
* 0 on EAGAIN or when by some other way it is known that no more
* io events are queued on the fd (the receive buffer is empty).
* Usefull to detect when there are no more io events queued for
* sigio_rt, epoll_et, kqueue.
* >0 on successful read from the fd (when there might be more io
* queued -- the receive buffer might still be non-empty)
*/
inline static int handle_io(struct fd_map* fm, int idx,int event_type);
#else
static int handle_io(struct fd_map* fm, int idx,int event_type) {
return 0;
}
#endif
/*! \brief io_wait_loop_x style function
* wait for io using poll()
* \param h io_wait handle
* \param t timeout in s
* \param repeat if !=0 handle_io will be called until it returns <=0
* \return number of IO events handled on success (can be 0), -1 on error
*/
inline static int io_wait_loop_poll(io_wait_h* h, int t, int repeat)
{
int n, r;
int ret;
struct fd_map *e;
unsigned int curr_time;
again:
ret=n=poll(h->fd_array, h->fd_no, t*1000);
if (n==-1){
if (errno==EINTR) goto again; /* signal, ignore it */
else{
LM_ERR("[%s] poll: %s [%d]\n",h->name, strerror(errno), errno);
goto error;
}
}
curr_time = get_ticks();
for (r=h->fd_no-1; (r>=0) ; r--){
if (h->fd_array[r].revents & POLLOUT) {
/* sanity checks */
if ((h->fd_array[r].fd >= h->max_fd_no)||
(h->fd_array[r].fd < 0)){
LM_CRIT("[%s] bad fd %d (no in the 0 - %d range)\n",
h->name, h->fd_array[r].fd, h->max_fd_no);
/* try to continue anyway */
h->fd_array[r].events=0; /* clear the events */
continue;
}
handle_io(get_fd_map(h, h->fd_array[r].fd),r,IO_WATCH_WRITE);
} else if (h->fd_array[r].revents & (POLLIN|POLLERR|POLLHUP)){
/* sanity checks */
if ((h->fd_array[r].fd >= h->max_fd_no)||
(h->fd_array[r].fd < 0)){
LM_CRIT("[%s] bad fd %d (no in the 0 - %d range)\n",
h->name,h->fd_array[r].fd, h->max_fd_no);
/* try to continue anyway */
h->fd_array[r].events=0; /* clear the events */
continue;
}
while((handle_io(get_fd_map(h, h->fd_array[r].fd), r,
IO_WATCH_READ) > 0)
&& repeat);
} else if ( (e=get_fd_map(h, h->fd_array[r].fd))!=NULL &&
e->timeout!=0 && e->timeout<=curr_time ) {
e->timeout = 0;
handle_io( e, r, IO_WATCH_TIMEOUT);
}
}
error:
return ret;
}
#ifdef HAVE_SELECT
/*! \brief wait for io using select */
inline static int io_wait_loop_select(io_wait_h* h, int t, int repeat)
{
fd_set sel_set;
int n, ret;
struct timeval timeout;
int r;
struct fd_map *e;
unsigned int curr_time;
again:
sel_set=h->master_set;
timeout.tv_sec=t;
timeout.tv_usec=0;
ret=n=select(h->max_fd_select+1, &sel_set, 0, 0, &timeout);
if (n<0){
if (errno==EINTR) goto again; /* just a signal */
LM_ERR("[%s] select: %s [%d]\n",h->name, strerror(errno), errno);
n=0;
/* continue */
}
curr_time = get_ticks();
/* use poll fd array */
for(r=h->fd_no-1; (r>=0) ; r--){
if (FD_ISSET(h->fd_array[r].fd, &sel_set)){
while( (handle_io( get_fd_map(h, h->fd_array[r].fd), r,
IO_WATCH_READ)>0) && repeat );
} else if ( (e=get_fd_map(h, h->fd_array[r].fd))!=NULL &&
e->timeout!=0 && e->timeout<=curr_time ) {
e->timeout = 0;
handle_io( e, r, IO_WATCH_TIMEOUT);
}
};
return ret;
}
#endif
#ifdef HAVE_EPOLL
inline static int io_wait_loop_epoll(io_wait_h* h, int t, int repeat)
{
int ret, n, r, i;
struct fd_map *e;
struct epoll_event ep_event;
int fd;
unsigned int curr_time;
again:
ret=n=epoll_wait(h->epfd, h->ep_array, h->fd_no, t*1000);
if (n==-1){
if (errno == EINTR) {
goto again; /* signal, ignore it */
} else if (h->fd_no == 0) {
sleep(t);
return 0;
} else {
LM_ERR("[%s] epoll_wait(%d, %p, %d, %d): %s [%d]\n",
h->name,h->epfd, h->ep_array, h->fd_no, t*1000,
strerror(errno), errno);
goto error;
}
}
curr_time = get_ticks();
for (r=0; r<n; r++) {
#if 0
LM_NOTICE("[%s] triggering fd %d, events %d, flags %d\n",
h->name, ((struct fd_map*)h->ep_array[r].data.ptr)->fd,
h->ep_array[r].events,
((struct fd_map*)h->ep_array[r].data.ptr)->flags);
#endif
/* do some sanity check over the triggered fd */
e = ((struct fd_map*)h->ep_array[r].data.ptr);
if (e->type==0 || e->fd<=0 ||
(e->flags&(IO_WATCH_READ|IO_WATCH_WRITE))==0 ) {
fd = e - h->fd_hash;
LM_ERR("[%s] unset/bogus map (idx=%d) triggered for %d by "
"epoll (fd=%d,type=%d,flags=%x,data=%p) -> removing "
"from epoll\n", h->name,
fd, h->ep_array[r].events,
e->fd, e->type, e->flags, e->data);
/* as the triggering fd has no corresponding in fd_map, better
* remove it from poll, to avoid un-managed reporting
* on this fd */
if (epoll_ctl(h->epfd, EPOLL_CTL_DEL, fd, &ep_event)<0) {
LM_ERR("failed to remove from epoll %s(%d)\n",
strerror(errno), errno);
}
close(fd);
continue;
}
/* anything containing EPOLLIN (like HUP or ERR) goes as a READ */
if (h->ep_array[r].events & EPOLLIN) {
if ((e->flags&IO_WATCH_READ)==0) {
LM_BUG("[%s] EPOLLIN triggered(%d) for non-read fd_map "
"(fd=%d,type=%d,flags=%x,data=%p)\n",h->name,
h->ep_array[r].events,
e->fd, e->type, e->flags, e->data);
}
if (h->ep_array[r].events&EPOLLHUP) {
LM_DBG("[%s] EPOLLHUP on IN ->"
"connection closed by the remote peer!\n",h->name);
}
((struct fd_map*)h->ep_array[r].data.ptr)->flags |=
IO_WATCH_PRV_TRIG_READ;
/* anything containing EPOLLOUT (like HUP or ERR) goes as a WRITE*/
} else if (h->ep_array[r].events & EPOLLOUT){
if ((e->flags&IO_WATCH_WRITE)==0) {
LM_BUG("[%s] EPOLLOUT triggered(%d) for non-read fd_map "
"(fd=%d,type=%d,flags=%x,data=%p)\n",h->name,
h->ep_array[r].events,
e->fd, e->type, e->flags, e->data);
}
if (h->ep_array[r].events&EPOLLHUP) {
LM_DBG("[%s] EPOLLHUP on OUT ->"
"connection closed by the remote peer!\n",h->name);
}
((struct fd_map*)h->ep_array[r].data.ptr)->flags |=
IO_WATCH_PRV_TRIG_WRITE;
/* ERR or HUP without IN or OUT triggering ?? */
} else if (h->ep_array[r].events & (EPOLLERR|EPOLLHUP) ) {
LM_DBG("[%s] non-op event %x, using flags %x\n",h->name,
h->ep_array[r].events,
((struct fd_map*)h->ep_array[r].data.ptr)->flags);
/* as the epoll did not provide any info on IN/OUT
* we look back the IO flags we set */
if ( ((struct fd_map*)h->ep_array[r].data.ptr)->flags & IO_WATCH_WRITE )
((struct fd_map*)h->ep_array[r].data.ptr)->flags |=
IO_WATCH_PRV_TRIG_WRITE;
else
((struct fd_map*)h->ep_array[r].data.ptr)->flags |=
IO_WATCH_PRV_TRIG_READ;
} else {
LM_ERR("[%s] unexpected event %x on %d/%d, data=%p\n",
h->name,h->ep_array[r].events, r+1, n,
h->ep_array[r].data.ptr);
}
}
/* now do the actual running of IO handlers */
for(r=h->fd_no-1; (r>=0) ; r--) {
e = get_fd_map(h, h->fd_array[r].fd);
/* test the sanity of the fd_map */
if (e->flags & (IO_WATCH_PRV_TRIG_READ|IO_WATCH_PRV_TRIG_WRITE)) {
/* the fd correlated to this fd_map was triggered by the
* reactor, so let's check if the fd_map payload is still
* valid */
if (e->fd==-1 || e->type==F_NONE) {
/* this is bogus!! */
LM_BUG("[%s] FD %d with map (%d,%d,%p) is out of sync,"
" removing it from reactor\n",
h->name, h->fd_array[r].fd, e->fd, e->type, e->data);
/* remove from epoll */
epoll_ctl(h->epfd, EPOLL_CTL_DEL, h->fd_array[r].fd,
&ep_event);
close(h->fd_array[r].fd);
/* remove from fd_array */
memmove(&h->fd_array[r], &h->fd_array[r+1],
(h->fd_no-(r+1))*sizeof(*(h->fd_array)));
for( i=0 ; i<h->max_prio && h->prio_idx[i]<=r ; i++ );
for( ; i<h->max_prio ; i++ ) h->prio_idx[i]-- ;
h->fd_no--;
/* no handler triggering for this FD */
continue;
}
}
if ( e->flags & IO_WATCH_PRV_TRIG_READ ) {
e->flags &= ~IO_WATCH_PRV_TRIG_READ;
while((handle_io( e, r, IO_WATCH_READ)>0) && repeat);
} else if ( e->flags & IO_WATCH_PRV_TRIG_WRITE ){
e->flags &= ~IO_WATCH_PRV_TRIG_WRITE;
handle_io( e, r, IO_WATCH_WRITE);
} else if ( e->timeout!=0 && e->timeout<=curr_time ) {
e->timeout = 0;
handle_io( e, r, IO_WATCH_TIMEOUT);
}
}
error:
return ret;
}
#endif
#ifdef HAVE_KQUEUE
inline static int io_wait_loop_kqueue(io_wait_h* h, int t, int repeat)
{
int ret, n, r;
struct timespec tspec;
struct fd_map *e;
unsigned int curr_time;
tspec.tv_sec=t;
tspec.tv_nsec=0;
again:
ret=n=kevent(h->kq_fd, h->kq_changes, h->kq_nchanges, h->kq_array,
h->fd_no, &tspec);
if (n==-1){
if (errno==EINTR) goto again; /* signal, ignore it */
else{
LM_ERR("[%s] kevent: %s [%d]\n", h->name,
strerror(errno), errno);
goto error;
}
}
curr_time = get_ticks();
h->kq_nchanges=0; /* reset changes array */
for (r=0; r<n; r++){
#ifdef EXTRA_DEBUG
LM_DBG("[%s] event %d/%d: fd=%d, udata=%lx, flags=0x%x\n",
h->name, r, n, h->kq_array[r].ident,
(long)h->kq_array[r].udata,
h->kq_array[r].flags);
#endif
if (h->kq_array[r].flags & EV_ERROR){
/* error in changes: we ignore it, it can be caused by
trying to remove an already closed fd: race between
adding smething to the changes array, close() and
applying the changes */
LM_INFO("[%s] kevent error on fd %u: %s [%ld]\n",
h->name, (unsigned int)h->kq_array[r].ident,
strerror(h->kq_array[r].data),
(long)h->kq_array[r].data);
}else /* READ/EOF */
((struct fd_map*)h->kq_array[r].udata)->flags |=
IO_WATCH_PRV_TRIG_READ;
}
/* now do the actual running of IO handlers */
for(r=h->fd_no-1; (r>=0) && n ; r--) {
e = get_fd_map(h, h->fd_array[r].fd);
if ( e->flags & IO_WATCH_PRV_TRIG_READ ) {
e->flags &= ~IO_WATCH_PRV_TRIG_READ;
while((handle_io( e, r, IO_WATCH_READ)>0) && repeat);
n--;
} else if ( e->timeout!=0 && e->timeout<=curr_time ) {
e->timeout = 0;
handle_io( e, r, IO_WATCH_TIMEOUT);
}
}
error:
return ret;
}
#endif
#ifdef HAVE_SIGIO_RT
/*! \brief sigio rt version has no repeat (it doesn't make sense)*/
inline static int io_wait_loop_sigio_rt(io_wait_h* h, int t)
{
int n;
int ret;
struct timespec ts;
siginfo_t siginfo;
int sigio_band;
int sigio_fd;
struct fd_map* fm;
ret=1; /* 1 event per call normally */
ts.tv_sec=t;
ts.tv_nsec=0;
if (!sigismember(&h->sset, h->signo) || !sigismember(&h->sset, SIGIO)){
LM_CRIT("[%s] the signal mask is not properly set!\n",h->name);
goto error;
}
again:
n=sigtimedwait(&h->sset, &siginfo, &ts);
if (n==-1){
if (errno==EINTR) goto again; /* some other signal, ignore it */
else if (errno==EAGAIN){ /* timeout */
ret=0;
goto end;
}else{
LM_ERR("[%s] sigtimed_wait %s [%d]\n",h->name,
strerror(errno), errno);
goto error;
}
}
if (n!=SIGIO){
#ifdef SIGINFO64_WORKARROUND
/* on linux siginfo.si_band is defined as long in userspace
* and as int kernel => on 64 bits things will break!
* (si_band will include si_fd, and si_fd will contain
* garbage)
* see /usr/src/linux/include/asm-generic/siginfo.h and
* /usr/include/bits/siginfo.h
* -- andrei */
if (sizeof(siginfo.si_band)>sizeof(int)){
sigio_band=*((int*)&siginfo.si_band);
sigio_fd=*(((int*)&siginfo.si_band)+1);
}else
#endif
{
sigio_band=siginfo.si_band;
sigio_fd=siginfo.si_fd;
}
if (siginfo.si_code==SI_SIGIO){
/* old style, we don't know the event (linux 2.2.?) */
LM_WARN("[%s] old style sigio interface\n",h->name);
fm=get_fd_map(h, sigio_fd);
/* we can have queued signals generated by fds not watched
* any more, or by fds in transition, to a child => ignore them*/
if (fm->type)
handle_io(fm, -1,IO_WATCH_READ);
}else{
#ifdef EXTRA_DEBUG
LM_DBG("[%s] siginfo: signal=%d (%d),"
" si_code=%d, si_band=0x%x,"
" si_fd=%d\n",
h->name,siginfo.si_signo, n, siginfo.si_code,
(unsigned)sigio_band,
sigio_fd);
#endif
/* on some errors (e.g. when receving TCP RST), sigio_band will
* be set to 0x08 (undocumented, no corresp. POLL_xx), so better
* catch all events --andrei */
if (sigio_band/*&(POLL_IN|POLL_ERR|POLL_HUP)*/){
fm=get_fd_map(h, sigio_fd);
/* we can have queued signals generated by fds not watched
* any more, or by fds in transition, to a child
* => ignore them */
if (fm->type)
handle_io(fm, -1,IO_WATCH_READ);
else
LM_ERR("[%s] ignoring event"
" %x on fd %d (fm->fd=%d, fm->data=%p)\n",
h->name,sigio_band, sigio_fd, fm->fd, fm->data);
}else{
LM_ERR("[%s] unexpected event on fd %d: %x\n",h->name, sigio_fd, sigio_band);
}
}
}else{
/* signal queue overflow
* TODO: increase signal queue size: 2.4x /proc/.., 2.6x -rlimits */
LM_WARN("[%s] signal queue overflowed- falling back to poll\n",h->name);
/* clear real-time signal queue
* both SIG_IGN and SIG_DFL are needed , it doesn't work
* only with SIG_DFL */
if (signal(h->signo, SIG_IGN)==SIG_ERR){
LM_CRIT("[%s] couldn't reset signal to IGN\n",h->name);
}
if (signal(h->signo, SIG_DFL)==SIG_ERR){
LM_CRIT("[%s] couldn't reset signal to DFL\n",h->name);
}
/* falling back to normal poll */
ret=io_wait_loop_poll(h, -1, 1);
}
end:
return ret;
error:
return -1;
}
#endif
#ifdef HAVE_DEVPOLL
inline static int io_wait_loop_devpoll(io_wait_h* h, int t, int repeat)
{
int n, r;
int ret;
struct dvpoll dpoll;
struct fd_map *e;
unsigned int curr_time;
dpoll.dp_timeout=t*1000;
dpoll.dp_nfds=h->fd_no;
dpoll.dp_fds=h->dp_changes;
again:
ret=n=ioctl(h->dpoll_fd, DP_POLL, &dpoll);
if (n==-1){
if (errno==EINTR) goto again; /* signal, ignore it */
else{
LM_ERR("[%s] ioctl: %s [%d]\n",h->name, strerror(errno), errno);
goto error;
}
}
curr_time = get_ticks();
for (r=0; r< n; r++){
if (h->dp_changes[r].revents & (POLLNVAL|POLLERR)){
LM_ERR("[%s] pollinval returned for fd %d, revents=%x\n",
h->name,h->fd_array[r].fd, h->fd_array[r].revents);
}
/* POLLIN|POLLHUP just go through */
(get_fd_map(h, h->dp_changes[r].fd))->flags |=
IO_WATCH_PRV_TRIG_READ;
}
/* now do the actual running of IO handlers */
for(r=h->fd_no-1; (r>=0) ; r--) {
e = get_fd_map(h, h->fd_array[r].fd);
if ( e->flags & IO_WATCH_PRV_TRIG_READ ) {
e->flags &= ~IO_WATCH_PRV_TRIG_READ;
while((handle_io( e, r, IO_WATCH_READ)>0) && repeat);
} else if ( e->timeout!=0 && e->timeout<=curr_time ) {
e->timeout = 0;
handle_io( e, r, IO_WATCH_TIMEOUT);
}
}
error:
return ret;
}
#endif
#endif