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478 lines
14 KiB
C

#include "io_internal.h"
#ifdef HAVE_EPOLL
#define _XOPEN_SOURCE
#endif
#ifdef HAVE_SIGIO
#define _GNU_SOURCE
#include <signal.h>
#endif
#include <unistd.h>
#include <sys/time.h>
#ifdef __MINGW32__
#include <windows.h>
#include <stdio.h>
#else
#include <poll.h>
#endif
#include <errno.h>
#ifdef HAVE_KQUEUE
#include <sys/event.h>
#endif
#ifdef HAVE_EPOLL
#include <inttypes.h>
#include <sys/epoll.h>
#endif
#ifdef HAVE_DEVPOLL
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/devpoll.h>
#endif
#ifdef __dietlibc__
#include "fmt.h"
#include <write12.h>
#endif
#ifdef DEBUG
#include <stdio.h>
#endif
#ifndef EPOLLRDNORM
#define EPOLLRDNORM 0
#endif
#ifndef EPOLLRDBAND
#define EPOLLRDNORM 0
#endif
#if 0
static void handleevent(int fd,int readable,int writable,int error) {
io_entry* e=array_get(&io_fds,sizeof(io_entry),fd);
if (e) {
int curevents=0,newevents;
if (e->kernelwantread) curevents |= POLLIN;
if (e->kernelwantwrite) curevents |= POLLOUT;
#ifdef DEBUG
if (readable && !e->kernelwantread)
printf("got unexpected read event on fd #%d\n",fd);
if (writable && !e->kernelwantwrite)
printf("got unexpected write event on fd #%d\n",fd);
#endif
if (error) {
/* signal whatever app is looking for */
if (e->wantread) readable=1;
if (e->wantwrite) writable=1;
}
if (readable && !e->canread) {
e->canread=1;
if (e->wantread) {
e->next_read=first_readable;
first_readable=y[i].data.fd;
}
}
if (writable && !e->canwrite) {
e->canwrite=1;
if (e->wantwrite) {
e->next_write=first_writeable;
first_writeable=y[i].data.fd;
}
}
/* TODO: wie kommuniziere ich nach außen, was der Caller tun soll?
* Bitfeld-Integer? */
newevents=0;
if (!e->canread || e->wantread) {
newevents|=EPOLLIN;
e->kernelwantread=1;
} else
e->kernelwantread=0;
if (!e->canwrite || e->wantwrite) {
newevents|=EPOLLOUT;
e->kernelwantwrite=1;
} else
e->kernelwantwrite=0;
if (newevents != curevents) {
#if 0
printf("canread %d, wantread %d, kernelwantread %d, canwrite %d, wantwrite %d, kernelwantwrite %d\n",
e->canread,e->wantread,e->kernelwantread,e->canwrite,e->wantwrite,e->kernelwantwrite);
printf("newevents: read %d write %d\n",!!(newevents&EPOLLIN),!!(newevents&EPOLLOUT));
#endif
y[i].events=newevents;
if (newevents) {
epoll_ctl(io_master,EPOLL_CTL_MOD,y[i].data.fd,y+i);
} else {
epoll_ctl(io_master,EPOLL_CTL_DEL,y[i].data.fd,y+i);
--io_wanted_fds;
}
}
} else {
epoll_ctl(io_master,EPOLL_CTL_DEL,y[i].data.fd,y+i);
}
}
#endif
int64 io_waituntil2(int64 milliseconds) {
#ifndef __MINGW32__
struct pollfd* p;
#endif
long i,j,r;
if (!io_wanted_fds) return 0;
#ifdef HAVE_EPOLL
if (io_waitmode==EPOLL) {
int n;
struct epoll_event y[100];
if ((n=epoll_wait(io_master,y,100,milliseconds))==-1) return -1;
for (i=0; i<n; ++i) {
io_entry* e=iarray_get(&io_fds,y[i].data.fd);
if (e) {
int curevents=0,newevents;
if (e->kernelwantread) curevents |= EPOLLIN;
if (e->kernelwantwrite) curevents |= EPOLLOUT;
#ifdef DEBUG
if ((y[i].events&(EPOLLIN|EPOLLPRI|EPOLLRDNORM|EPOLLRDBAND)) && !e->kernelwantread)
printf("got unexpected read event on fd #%d\n",y[i].data.fd);
if ((y[i].events&EPOLLOUT) && !e->kernelwantwrite)
printf("got unexpected write event on fd #%d\n",y[i].data.fd);
#endif
if (y[i].events&(POLLERR|POLLHUP)) {
/* error; signal whatever app is looking for */
if (e->wantread) y[i].events|=POLLIN;
if (e->wantwrite) y[i].events|=POLLOUT;
}
newevents=0;
if (!e->canread || e->wantread) {
newevents|=EPOLLIN;
e->kernelwantread=1;
} else
e->kernelwantread=0;
if (!e->canwrite || e->wantwrite) {
newevents|=EPOLLOUT;
e->kernelwantwrite=1;
} else
e->kernelwantwrite=0;
/* if we think we can not read, but the kernel tells us that we
* can, put this fd in the relevant data structures */
if (!e->canread && (y[i].events&(EPOLLIN|EPOLLPRI|EPOLLRDNORM|EPOLLRDBAND))) {
if (e->canread) {
newevents &= ~EPOLLIN;
} else {
e->canread=1;
if (e->wantread) {
e->next_read=first_readable;
first_readable=y[i].data.fd;
}
}
}
/* if the kernel says the fd is writable, ... */
if (y[i].events&EPOLLOUT) {
/* Usually, if the kernel says a descriptor is writable, we
* note it and do not tell the kernel not to tell us again.
* The idea is that once we notify the caller that the fd is
* writable, and the caller handles the event, the caller will
* just ask to be notified of future write events again. We
* are trying to save the superfluous epoll_ctl syscalls.
* If e->canwrite is set, then this gamble did not work out.
* We told the caller, yet after the caller is done we still
* got another write event. Clearly the user is implementing
* some kind of throttling and we can tell the kernel to leave
* us alone for now. */
if (e->canwrite) {
newevents &= ~EPOLLOUT;
e->kernelwantwrite=0;
} else {
/* If !e->wantwrite: The laziness optimization in
* io_dontwantwrite hit. We did not tell the kernel that we
* are no longer interested in writing to save the syscall.
* Now we know we could write if we wanted; remember that
* and then go on. */
e->canwrite=1;
if (e->wantwrite) {
e->next_write=first_writeable;
first_writeable=y[i].data.fd;
}
}
}
if (newevents != curevents) {
#if 0
printf("canread %d, wantread %d, kernelwantread %d, canwrite %d, wantwrite %d, kernelwantwrite %d\n",
e->canread,e->wantread,e->kernelwantread,e->canwrite,e->wantwrite,e->kernelwantwrite);
printf("newevents: read %d write %d\n",!!(newevents&EPOLLIN),!!(newevents&EPOLLOUT));
#endif
y[i].events=newevents;
if (newevents) {
epoll_ctl(io_master,EPOLL_CTL_MOD,y[i].data.fd,y+i);
} else {
epoll_ctl(io_master,EPOLL_CTL_DEL,y[i].data.fd,y+i);
--io_wanted_fds;
}
}
} else {
#if 0
#ifdef __dietlibc__
char buf[FMT_ULONG];
buf[fmt_ulong(buf,y[i].data.fd)]=0;
__write2("got epoll event on invalid fd ");
__write2(buf);
__write2("!\n");
#endif
#endif
epoll_ctl(io_master,EPOLL_CTL_DEL,y[i].data.fd,y+i);
}
}
return n;
}
#endif
#ifdef HAVE_KQUEUE
if (io_waitmode==KQUEUE) {
struct kevent y[100];
int n;
struct timespec ts;
ts.tv_sec=milliseconds/1000; ts.tv_nsec=(milliseconds%1000)*1000000;
21 years ago
if ((n=kevent(io_master,0,0,y,100,milliseconds!=-1?&ts:0))==-1) return -1;
22 years ago
for (i=n-1; i>=0; --i) {
io_entry* e=iarray_get(&io_fds,y[--n].ident);
if (e) {
21 years ago
if (y[n].flags&EV_ERROR) {
/* error; signal whatever app is looking for */
if (e->wantread) y[n].filter=EVFILT_READ; else
21 years ago
if (e->wantwrite) y[n].filter=EVFILT_WRITE;
21 years ago
}
if (!e->canread && (y[n].filter==EVFILT_READ)) {
e->canread=1;
e->next_read=first_readable;
first_readable=y[n].ident;
}
if (!e->canwrite && (y[n].filter==EVFILT_WRITE)) {
e->canwrite=1;
e->next_write=first_writeable;
first_writeable=y[i].ident;
}
#ifdef DEBUG
} else {
fprintf(stderr,"got kevent on fd#%d, which is not in array!\n",y[n].ident);
#endif
}
}
22 years ago
return n;
}
#endif
#ifdef HAVE_DEVPOLL
if (io_waitmode==DEVPOLL) {
dvpoll_t timeout;
struct pollfd y[100];
int n;
timeout.dp_timeout=milliseconds;
timeout.dp_nfds=100;
timeout.dp_fds=y;
if ((n=ioctl(io_master,DP_POLL,&timeout))==-1) return -1;
for (i=n-1; i>=0; --i) {
io_entry* e=iarray_get(&io_fds,y[--n].fd);
if (e) {
if (y[n].revents&(POLLERR|POLLHUP|POLLNVAL)) {
/* error; signal whatever app is looking for */
if (e->wantread) y[n].revents=POLLIN;
if (e->wantwrite) y[n].revents=POLLOUT;
}
21 years ago
if (!e->canread && (y[n].revents&POLLIN)) {
e->canread=1;
if (e->next_read==-1) {
e->next_read=first_readable;
first_readable=y[n].fd;
}
}
21 years ago
if (!e->canwrite && (y[n].revents&POLLOUT)) {
e->canwrite=1;
if (e->next_write==-1) {
e->next_write=first_writeable;
first_writeable=y[i].fd;
}
}
#ifdef DEBUG
} else {
fprintf(stderr,"got kevent on fd#%d, which is not in array!\n",y[n].fd);
#endif
}
}
return n;
}
#endif
#ifdef HAVE_SIGIO
if (io_waitmode==_SIGIO) {
siginfo_t info;
struct timespec ts;
int r;
io_entry* e;
if (alt_firstread>=0 && (e=iarray_get(&io_fds,alt_firstread)) && e->canread) return 1;
if (alt_firstwrite>=0 && (e=iarray_get(&io_fds,alt_firstwrite)) && e->canwrite) return 1;
if (milliseconds==-1)
r=sigwaitinfo(&io_ss,&info);
else {
ts.tv_sec=milliseconds/1000; ts.tv_nsec=(milliseconds%1000)*1000000;
r=sigtimedwait(&io_ss,&info,&ts);
}
switch (r) {
case SIGIO:
/* signal queue overflow */
signal(io_signum,SIG_DFL);
goto dopoll;
default:
if (r==io_signum) {
io_entry* e=iarray_get(&io_fds,info.si_fd);
if (e) {
if (info.si_band&(POLLERR|POLLHUP)) {
/* error; signal whatever app is looking for */
if (e->wantread) info.si_band|=POLLIN;
if (e->wantwrite) info.si_band|=POLLOUT;
}
if (info.si_band&POLLIN && !e->canread) {
debug_printf(("io_waituntil2: enqueueing %ld in normal read queue before %ld\n",info.si_fd,first_readable));
e->canread=1;
e->next_read=first_readable;
first_readable=info.si_fd;
}
if (info.si_band&POLLOUT && !e->canwrite) {
debug_printf(("io_waituntil2: enqueueing %ld in normal write queue before %ld\n",info.si_fd,first_writeable));
e->canwrite=1;
e->next_write=first_writeable;
first_writeable=info.si_fd;
}
#ifdef DEBUG
} else {
fprintf(stderr,"got kevent on fd#%d, which is not in array!\n",info.si_fd);
#endif
}
}
}
return 1;
}
dopoll:
#endif
#ifdef __MINGW32__
DWORD numberofbytes;
ULONG_PTR x;
LPOVERLAPPED o;
if (first_readable!=-1 || first_writeable!=-1) {
fprintf(stderr,"io_waituntil2() returning immediately because first_readable(%p) or first_writeable(%p) are set\n",first_readable,first_writeable);
return;
}
fprintf(stderr,"Calling GetQueuedCompletionStatus %p...",io_comport);
16 years ago
if (GetQueuedCompletionStatus(io_comport,&numberofbytes,&x,&o,milliseconds==-1?INFINITE:milliseconds)) {
io_entry* e=iarray_get(&io_fds,x);
fprintf(stderr," OK. Got %x, e=%p\n",x,e);
if (!e) return 0;
e->errorcode=0;
fprintf(stderr,"o=%p, e->or=%p, e->ow=%p, e->os=%p\n",o,&e->or,&e->ow,&e->os);
fprintf(stderr,"e->readqueued=%d, e->writequeued=%d, e->acceptqueued=%d, e->connectqueued=%d, e->sendfilequeued=%d\n",
e->readqueued,e->writequeued,e->acceptqueued,e->connectqueued,e->sendfilequeued);
if (o==&e->or && e->readqueued==1) {
e->readqueued=2;
e->canread=1;
e->bytes_read=numberofbytes;
e->next_read=first_readable;
first_readable=x;
// printf("read %lu bytes on fd %lu: %p\n",numberofbytes,x,e);
} else if (o==&e->ow && e->writequeued==1) {
e->writequeued=2;
e->canwrite=1;
e->bytes_written=numberofbytes;
e->next_write=first_writeable;
first_writeable=x;
} else if (o==&e->or && e->acceptqueued==1) {
e->acceptqueued=2;
e->canread=1;
e->next_read=first_readable;
first_readable=x;
} else if (o==&e->ow && e->connectqueued==1) {
e->connectqueued=2;
e->canwrite=1;
e->next_write=first_writeable;
first_writeable=x;
} else if (o==&e->os && e->sendfilequeued==1) {
e->sendfilequeued=2;
e->canwrite=1;
e->bytes_written=numberofbytes;
e->next_write=first_writeable;
first_writeable=x;
}
return 1;
} else {
/* either the overlapped I/O request failed or we timed out */
DWORD err;
io_entry* e;
fprintf(stderr," failure, o=%p.\n",o);
if (!o) return 0; /* timeout */
/* we got a completion packet for a failed I/O operation */
err=GetLastError();
if (err==WAIT_TIMEOUT) return 0; /* or maybe not */
e=iarray_get(&io_fds,x);
if (!e) return 0; /* WTF?! */
e->errorcode=err;
if (o==&e->or && (e->readqueued || e->acceptqueued)) {
if (e->readqueued) e->readqueued=2; else
if (e->acceptqueued) e->acceptqueued=2;
e->canread=1;
e->bytes_read=-1;
e->next_read=first_readable;
first_readable=x;
} else if ((o==&e->ow || o==&e->os) &&
(e->writequeued || e->connectqueued || e->sendfilequeued)) {
if (o==&e->ow) {
if (e->writequeued) e->writequeued=2; else
if (e->connectqueued) e->connectqueued=2;
} else if (o==&e->os) e->sendfilequeued=2;
e->canwrite=1;
e->bytes_written=-1;
e->next_write=first_writeable;
first_writeable=x;
}
return 1;
}
#else
for (i=r=0; (size_t)i<iarray_length(&io_fds); ++i) {
io_entry* e=iarray_get(&io_fds,i);
if (!e) return -1;
e->canread=e->canwrite=0;
if (e->wantread || e->wantwrite) {
struct pollfd* p;
if ((p=array_allocate(&io_pollfds,sizeof(struct pollfd),r))) {
p->fd=i;
p->events=(e->wantread?POLLIN:0) + (e->wantwrite?POLLOUT:0);
++r;
} else
return -1;
}
}
p=array_start(&io_pollfds);
if ((i=poll(array_start(&io_pollfds),r,milliseconds))<1) return -1;
for (j=r-1; j>=0; --j) {
io_entry* e=iarray_get(&io_fds,p->fd);
if (p->revents&(POLLERR|POLLHUP|POLLNVAL)) {
/* error; signal whatever app is looking for */
if (e->wantread) p->revents|=POLLIN;
if (e->wantwrite) p->revents|=POLLOUT;
}
if (!e->canread && (p->revents&POLLIN)) {
e->canread=1;
e->next_read=first_readable;
first_readable=p->fd;
}
if (!e->canwrite && (p->revents&POLLOUT)) {
e->canwrite=1;
e->next_write=first_writeable;
first_writeable=p->fd;
}
p++;
}
return i;
#endif
}