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|
/* $OpenBSD: sys_pipe.c,v 1.87 2018/11/13 13:02:20 visa Exp $ */
/*
* Copyright (c) 1996 John S. Dyson
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice immediately at the beginning of the file, without modification,
* this list of conditions, and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Absolutely no warranty of function or purpose is made by the author
* John S. Dyson.
* 4. Modifications may be freely made to this file if the above conditions
* are met.
*/
/*
* This file contains a high-performance replacement for the socket-based
* pipes scheme originally used in FreeBSD/4.4Lite. It does not support
* all features of sockets, but does do everything that pipes normally
* do.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/fcntl.h>
#include <sys/file.h>
#include <sys/filedesc.h>
#include <sys/pool.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#include <sys/signalvar.h>
#include <sys/mount.h>
#include <sys/syscallargs.h>
#include <sys/event.h>
#include <sys/lock.h>
#include <sys/poll.h>
#ifdef KTRACE
#include <sys/ktrace.h>
#endif
#include <uvm/uvm_extern.h>
#include <sys/pipe.h>
/*
* interfaces to the outside world
*/
int pipe_read(struct file *, struct uio *, int);
int pipe_write(struct file *, struct uio *, int);
int pipe_close(struct file *, struct proc *);
int pipe_poll(struct file *, int events, struct proc *);
int pipe_kqfilter(struct file *fp, struct knote *kn);
int pipe_ioctl(struct file *, u_long, caddr_t, struct proc *);
int pipe_stat(struct file *fp, struct stat *ub, struct proc *p);
static struct fileops pipeops = {
.fo_read = pipe_read,
.fo_write = pipe_write,
.fo_ioctl = pipe_ioctl,
.fo_poll = pipe_poll,
.fo_kqfilter = pipe_kqfilter,
.fo_stat = pipe_stat,
.fo_close = pipe_close
};
void filt_pipedetach(struct knote *kn);
int filt_piperead(struct knote *kn, long hint);
int filt_pipewrite(struct knote *kn, long hint);
struct filterops pipe_rfiltops =
{ 1, NULL, filt_pipedetach, filt_piperead };
struct filterops pipe_wfiltops =
{ 1, NULL, filt_pipedetach, filt_pipewrite };
/*
* Default pipe buffer size(s), this can be kind-of large now because pipe
* space is pageable. The pipe code will try to maintain locality of
* reference for performance reasons, so small amounts of outstanding I/O
* will not wipe the cache.
*/
#define MINPIPESIZE (PIPE_SIZE/3)
/*
* Limit the number of "big" pipes
*/
#define LIMITBIGPIPES 32
unsigned int nbigpipe;
static unsigned int amountpipekva;
struct pool pipe_pool;
int dopipe(struct proc *, int *, int);
void pipeclose(struct pipe *);
void pipe_free_kmem(struct pipe *);
int pipe_create(struct pipe *);
int pipelock(struct pipe *);
void pipeunlock(struct pipe *);
void pipeselwakeup(struct pipe *);
int pipespace(struct pipe *, u_int);
/*
* The pipe system call for the DTYPE_PIPE type of pipes
*/
int
sys_pipe(struct proc *p, void *v, register_t *retval)
{
struct sys_pipe_args /* {
syscallarg(int *) fdp;
} */ *uap = v;
return (dopipe(p, SCARG(uap, fdp), 0));
}
int
sys_pipe2(struct proc *p, void *v, register_t *retval)
{
struct sys_pipe2_args /* {
syscallarg(int *) fdp;
syscallarg(int) flags;
} */ *uap = v;
if (SCARG(uap, flags) & ~(O_CLOEXEC | FNONBLOCK))
return (EINVAL);
return (dopipe(p, SCARG(uap, fdp), SCARG(uap, flags)));
}
int
dopipe(struct proc *p, int *ufds, int flags)
{
struct filedesc *fdp = p->p_fd;
struct file *rf, *wf;
struct pipe *rpipe, *wpipe = NULL;
int fds[2], cloexec, error;
cloexec = (flags & O_CLOEXEC) ? UF_EXCLOSE : 0;
rpipe = pool_get(&pipe_pool, PR_WAITOK);
error = pipe_create(rpipe);
if (error != 0)
goto free1;
wpipe = pool_get(&pipe_pool, PR_WAITOK);
error = pipe_create(wpipe);
if (error != 0)
goto free1;
fdplock(fdp);
error = falloc(p, &rf, &fds[0]);
if (error != 0)
goto free2;
rf->f_flag = FREAD | FWRITE | (flags & FNONBLOCK);
rf->f_type = DTYPE_PIPE;
rf->f_data = rpipe;
rf->f_ops = &pipeops;
error = falloc(p, &wf, &fds[1]);
if (error != 0)
goto free3;
wf->f_flag = FREAD | FWRITE | (flags & FNONBLOCK);
wf->f_type = DTYPE_PIPE;
wf->f_data = wpipe;
wf->f_ops = &pipeops;
rpipe->pipe_peer = wpipe;
wpipe->pipe_peer = rpipe;
fdinsert(fdp, fds[0], cloexec, rf);
fdinsert(fdp, fds[1], cloexec, wf);
error = copyout(fds, ufds, sizeof(fds));
if (error != 0) {
fdrelease(p, fds[0]);
fdrelease(p, fds[1]);
}
#ifdef KTRACE
else if (KTRPOINT(p, KTR_STRUCT))
ktrfds(p, fds, 2);
#endif
fdpunlock(fdp);
FRELE(rf, p);
FRELE(wf, p);
return (error);
free3:
fdremove(fdp, fds[0]);
closef(rf, p);
rpipe = NULL;
free2:
fdpunlock(fdp);
free1:
pipeclose(wpipe);
pipeclose(rpipe);
return (error);
}
/*
* Allocate kva for pipe circular buffer, the space is pageable.
* This routine will 'realloc' the size of a pipe safely, if it fails
* it will retain the old buffer.
* If it fails it will return ENOMEM.
*/
int
pipespace(struct pipe *cpipe, u_int size)
{
caddr_t buffer;
KERNEL_LOCK();
buffer = km_alloc(size, &kv_any, &kp_pageable, &kd_waitok);
KERNEL_UNLOCK();
if (buffer == NULL) {
return (ENOMEM);
}
/* free old resources if we are resizing */
pipe_free_kmem(cpipe);
cpipe->pipe_buffer.buffer = buffer;
cpipe->pipe_buffer.size = size;
cpipe->pipe_buffer.in = 0;
cpipe->pipe_buffer.out = 0;
cpipe->pipe_buffer.cnt = 0;
atomic_add_int(&amountpipekva, cpipe->pipe_buffer.size);
return (0);
}
/*
* initialize and allocate VM and memory for pipe
*/
int
pipe_create(struct pipe *cpipe)
{
int error;
/* so pipe_free_kmem() doesn't follow junk pointer */
cpipe->pipe_buffer.buffer = NULL;
/*
* protect so pipeclose() doesn't follow a junk pointer
* if pipespace() fails.
*/
memset(&cpipe->pipe_sel, 0, sizeof(cpipe->pipe_sel));
cpipe->pipe_state = 0;
cpipe->pipe_peer = NULL;
cpipe->pipe_busy = 0;
sigio_init(&cpipe->pipe_sigio);
error = pipespace(cpipe, PIPE_SIZE);
if (error != 0)
return (error);
getnanotime(&cpipe->pipe_ctime);
cpipe->pipe_atime = cpipe->pipe_ctime;
cpipe->pipe_mtime = cpipe->pipe_ctime;
return (0);
}
/*
* lock a pipe for I/O, blocking other access
*/
int
pipelock(struct pipe *cpipe)
{
int error;
while (cpipe->pipe_state & PIPE_LOCK) {
cpipe->pipe_state |= PIPE_LWANT;
if ((error = tsleep(cpipe, PRIBIO|PCATCH, "pipelk", 0)))
return error;
}
cpipe->pipe_state |= PIPE_LOCK;
return 0;
}
/*
* unlock a pipe I/O lock
*/
void
pipeunlock(struct pipe *cpipe)
{
cpipe->pipe_state &= ~PIPE_LOCK;
if (cpipe->pipe_state & PIPE_LWANT) {
cpipe->pipe_state &= ~PIPE_LWANT;
wakeup(cpipe);
}
}
void
pipeselwakeup(struct pipe *cpipe)
{
if (cpipe->pipe_state & PIPE_SEL) {
cpipe->pipe_state &= ~PIPE_SEL;
selwakeup(&cpipe->pipe_sel);
} else
KNOTE(&cpipe->pipe_sel.si_note, 0);
if (cpipe->pipe_state & PIPE_ASYNC)
pgsigio(&cpipe->pipe_sigio, SIGIO, 0);
}
int
pipe_read(struct file *fp, struct uio *uio, int fflags)
{
struct pipe *rpipe = fp->f_data;
int error;
size_t size, nread = 0;
error = pipelock(rpipe);
if (error)
return (error);
++rpipe->pipe_busy;
while (uio->uio_resid) {
/*
* normal pipe buffer receive
*/
if (rpipe->pipe_buffer.cnt > 0) {
size = rpipe->pipe_buffer.size - rpipe->pipe_buffer.out;
if (size > rpipe->pipe_buffer.cnt)
size = rpipe->pipe_buffer.cnt;
if (size > uio->uio_resid)
size = uio->uio_resid;
error = uiomove(&rpipe->pipe_buffer.buffer[rpipe->pipe_buffer.out],
size, uio);
if (error) {
break;
}
rpipe->pipe_buffer.out += size;
if (rpipe->pipe_buffer.out >= rpipe->pipe_buffer.size)
rpipe->pipe_buffer.out = 0;
rpipe->pipe_buffer.cnt -= size;
/*
* If there is no more to read in the pipe, reset
* its pointers to the beginning. This improves
* cache hit stats.
*/
if (rpipe->pipe_buffer.cnt == 0) {
rpipe->pipe_buffer.in = 0;
rpipe->pipe_buffer.out = 0;
}
nread += size;
} else {
/*
* detect EOF condition
* read returns 0 on EOF, no need to set error
*/
if (rpipe->pipe_state & PIPE_EOF)
break;
/*
* If the "write-side" has been blocked, wake it up now.
*/
if (rpipe->pipe_state & PIPE_WANTW) {
rpipe->pipe_state &= ~PIPE_WANTW;
wakeup(rpipe);
}
/*
* Break if some data was read.
*/
if (nread > 0)
break;
/*
* Unlock the pipe buffer for our remaining processing.
* We will either break out with an error or we will
* sleep and relock to loop.
*/
pipeunlock(rpipe);
/*
* Handle non-blocking mode operation or
* wait for more data.
*/
if (fp->f_flag & FNONBLOCK) {
error = EAGAIN;
} else {
rpipe->pipe_state |= PIPE_WANTR;
if ((error = tsleep(rpipe, PRIBIO|PCATCH, "piperd", 0)) == 0)
error = pipelock(rpipe);
}
if (error)
goto unlocked_error;
}
}
pipeunlock(rpipe);
if (error == 0)
getnanotime(&rpipe->pipe_atime);
unlocked_error:
--rpipe->pipe_busy;
/*
* PIPE_WANT processing only makes sense if pipe_busy is 0.
*/
if ((rpipe->pipe_busy == 0) && (rpipe->pipe_state & PIPE_WANT)) {
rpipe->pipe_state &= ~(PIPE_WANT|PIPE_WANTW);
wakeup(rpipe);
} else if (rpipe->pipe_buffer.cnt < MINPIPESIZE) {
/*
* Handle write blocking hysteresis.
*/
if (rpipe->pipe_state & PIPE_WANTW) {
rpipe->pipe_state &= ~PIPE_WANTW;
wakeup(rpipe);
}
}
if ((rpipe->pipe_buffer.size - rpipe->pipe_buffer.cnt) >= PIPE_BUF)
pipeselwakeup(rpipe);
return (error);
}
int
pipe_write(struct file *fp, struct uio *uio, int fflags)
{
int error = 0;
size_t orig_resid;
struct pipe *wpipe, *rpipe;
rpipe = fp->f_data;
wpipe = rpipe->pipe_peer;
/*
* detect loss of pipe read side, issue SIGPIPE if lost.
*/
if ((wpipe == NULL) || (wpipe->pipe_state & PIPE_EOF)) {
return (EPIPE);
}
++wpipe->pipe_busy;
/*
* If it is advantageous to resize the pipe buffer, do
* so.
*/
if ((uio->uio_resid > PIPE_SIZE) &&
(wpipe->pipe_buffer.size <= PIPE_SIZE) &&
(wpipe->pipe_buffer.cnt == 0)) {
unsigned int npipe;
npipe = atomic_inc_int_nv(&nbigpipe);
if ((npipe <= LIMITBIGPIPES) &&
(error = pipelock(wpipe)) == 0) {
if (pipespace(wpipe, BIG_PIPE_SIZE) != 0)
atomic_dec_int(&nbigpipe);
pipeunlock(wpipe);
} else
atomic_dec_int(&nbigpipe);
}
/*
* If an early error occurred unbusy and return, waking up any pending
* readers.
*/
if (error) {
--wpipe->pipe_busy;
if ((wpipe->pipe_busy == 0) &&
(wpipe->pipe_state & PIPE_WANT)) {
wpipe->pipe_state &= ~(PIPE_WANT | PIPE_WANTR);
wakeup(wpipe);
}
return (error);
}
orig_resid = uio->uio_resid;
while (uio->uio_resid) {
size_t space;
retrywrite:
if (wpipe->pipe_state & PIPE_EOF) {
error = EPIPE;
break;
}
space = wpipe->pipe_buffer.size - wpipe->pipe_buffer.cnt;
/* Writes of size <= PIPE_BUF must be atomic. */
if ((space < uio->uio_resid) && (orig_resid <= PIPE_BUF))
space = 0;
if (space > 0) {
if ((error = pipelock(wpipe)) == 0) {
size_t size; /* Transfer size */
size_t segsize; /* first segment to transfer */
/*
* If a process blocked in uiomove, our
* value for space might be bad.
*
* XXX will we be ok if the reader has gone
* away here?
*/
if (space > wpipe->pipe_buffer.size -
wpipe->pipe_buffer.cnt) {
pipeunlock(wpipe);
goto retrywrite;
}
/*
* Transfer size is minimum of uio transfer
* and free space in pipe buffer.
*/
if (space > uio->uio_resid)
size = uio->uio_resid;
else
size = space;
/*
* First segment to transfer is minimum of
* transfer size and contiguous space in
* pipe buffer. If first segment to transfer
* is less than the transfer size, we've got
* a wraparound in the buffer.
*/
segsize = wpipe->pipe_buffer.size -
wpipe->pipe_buffer.in;
if (segsize > size)
segsize = size;
/* Transfer first segment */
error = uiomove(&wpipe->pipe_buffer.buffer[wpipe->pipe_buffer.in],
segsize, uio);
if (error == 0 && segsize < size) {
/*
* Transfer remaining part now, to
* support atomic writes. Wraparound
* happened.
*/
#ifdef DIAGNOSTIC
if (wpipe->pipe_buffer.in + segsize !=
wpipe->pipe_buffer.size)
panic("Expected pipe buffer wraparound disappeared");
#endif
error = uiomove(&wpipe->pipe_buffer.buffer[0],
size - segsize, uio);
}
if (error == 0) {
wpipe->pipe_buffer.in += size;
if (wpipe->pipe_buffer.in >=
wpipe->pipe_buffer.size) {
#ifdef DIAGNOSTIC
if (wpipe->pipe_buffer.in != size - segsize + wpipe->pipe_buffer.size)
panic("Expected wraparound bad");
#endif
wpipe->pipe_buffer.in = size - segsize;
}
wpipe->pipe_buffer.cnt += size;
#ifdef DIAGNOSTIC
if (wpipe->pipe_buffer.cnt > wpipe->pipe_buffer.size)
panic("Pipe buffer overflow");
#endif
}
pipeunlock(wpipe);
}
if (error)
break;
} else {
/*
* If the "read-side" has been blocked, wake it up now.
*/
if (wpipe->pipe_state & PIPE_WANTR) {
wpipe->pipe_state &= ~PIPE_WANTR;
wakeup(wpipe);
}
/*
* don't block on non-blocking I/O
*/
if (fp->f_flag & FNONBLOCK) {
error = EAGAIN;
break;
}
/*
* We have no more space and have something to offer,
* wake up select/poll.
*/
pipeselwakeup(wpipe);
wpipe->pipe_state |= PIPE_WANTW;
error = tsleep(wpipe, (PRIBIO + 1)|PCATCH,
"pipewr", 0);
if (error)
break;
/*
* If read side wants to go away, we just issue a
* signal to ourselves.
*/
if (wpipe->pipe_state & PIPE_EOF) {
error = EPIPE;
break;
}
}
}
--wpipe->pipe_busy;
if ((wpipe->pipe_busy == 0) && (wpipe->pipe_state & PIPE_WANT)) {
wpipe->pipe_state &= ~(PIPE_WANT | PIPE_WANTR);
wakeup(wpipe);
} else if (wpipe->pipe_buffer.cnt > 0) {
/*
* If we have put any characters in the buffer, we wake up
* the reader.
*/
if (wpipe->pipe_state & PIPE_WANTR) {
wpipe->pipe_state &= ~PIPE_WANTR;
wakeup(wpipe);
}
}
/*
* Don't return EPIPE if I/O was successful
*/
if ((wpipe->pipe_buffer.cnt == 0) &&
(uio->uio_resid == 0) &&
(error == EPIPE)) {
error = 0;
}
if (error == 0)
getnanotime(&wpipe->pipe_mtime);
/*
* We have something to offer, wake up select/poll.
*/
if (wpipe->pipe_buffer.cnt)
pipeselwakeup(wpipe);
return (error);
}
/*
* we implement a very minimal set of ioctls for compatibility with sockets.
*/
int
pipe_ioctl(struct file *fp, u_long cmd, caddr_t data, struct proc *p)
{
struct pipe *mpipe = fp->f_data;
switch (cmd) {
case FIONBIO:
return (0);
case FIOASYNC:
if (*(int *)data) {
mpipe->pipe_state |= PIPE_ASYNC;
} else {
mpipe->pipe_state &= ~PIPE_ASYNC;
}
return (0);
case FIONREAD:
*(int *)data = mpipe->pipe_buffer.cnt;
return (0);
case TIOCSPGRP:
/* FALLTHROUGH */
case SIOCSPGRP:
return (sigio_setown(&mpipe->pipe_sigio, *(int *)data));
case SIOCGPGRP:
*(int *)data = sigio_getown(&mpipe->pipe_sigio);
return (0);
case TIOCGPGRP:
*(int *)data = -sigio_getown(&mpipe->pipe_sigio);
return (0);
}
return (ENOTTY);
}
int
pipe_poll(struct file *fp, int events, struct proc *p)
{
struct pipe *rpipe = fp->f_data;
struct pipe *wpipe;
int revents = 0;
wpipe = rpipe->pipe_peer;
if (events & (POLLIN | POLLRDNORM)) {
if ((rpipe->pipe_buffer.cnt > 0) ||
(rpipe->pipe_state & PIPE_EOF))
revents |= events & (POLLIN | POLLRDNORM);
}
/* NOTE: POLLHUP and POLLOUT/POLLWRNORM are mutually exclusive */
if ((rpipe->pipe_state & PIPE_EOF) ||
(wpipe == NULL) ||
(wpipe->pipe_state & PIPE_EOF))
revents |= POLLHUP;
else if (events & (POLLOUT | POLLWRNORM)) {
if ((wpipe->pipe_buffer.size - wpipe->pipe_buffer.cnt) >= PIPE_BUF)
revents |= events & (POLLOUT | POLLWRNORM);
}
if (revents == 0) {
if (events & (POLLIN | POLLRDNORM)) {
selrecord(p, &rpipe->pipe_sel);
rpipe->pipe_state |= PIPE_SEL;
}
if (events & (POLLOUT | POLLWRNORM)) {
selrecord(p, &wpipe->pipe_sel);
wpipe->pipe_state |= PIPE_SEL;
}
}
return (revents);
}
int
pipe_stat(struct file *fp, struct stat *ub, struct proc *p)
{
struct pipe *pipe = fp->f_data;
memset(ub, 0, sizeof(*ub));
ub->st_mode = S_IFIFO;
ub->st_blksize = pipe->pipe_buffer.size;
ub->st_size = pipe->pipe_buffer.cnt;
ub->st_blocks = (ub->st_size + ub->st_blksize - 1) / ub->st_blksize;
ub->st_atim.tv_sec = pipe->pipe_atime.tv_sec;
ub->st_atim.tv_nsec = pipe->pipe_atime.tv_nsec;
ub->st_mtim.tv_sec = pipe->pipe_mtime.tv_sec;
ub->st_mtim.tv_nsec = pipe->pipe_mtime.tv_nsec;
ub->st_ctim.tv_sec = pipe->pipe_ctime.tv_sec;
ub->st_ctim.tv_nsec = pipe->pipe_ctime.tv_nsec;
ub->st_uid = fp->f_cred->cr_uid;
ub->st_gid = fp->f_cred->cr_gid;
/*
* Left as 0: st_dev, st_ino, st_nlink, st_rdev, st_flags, st_gen.
* XXX (st_dev, st_ino) should be unique.
*/
return (0);
}
int
pipe_close(struct file *fp, struct proc *p)
{
struct pipe *cpipe = fp->f_data;
fp->f_ops = NULL;
fp->f_data = NULL;
KERNEL_LOCK();
pipeclose(cpipe);
KERNEL_UNLOCK();
return (0);
}
void
pipe_free_kmem(struct pipe *cpipe)
{
u_int size = cpipe->pipe_buffer.size;
if (cpipe->pipe_buffer.buffer != NULL) {
KERNEL_LOCK();
km_free(cpipe->pipe_buffer.buffer, size, &kv_any, &kp_pageable);
KERNEL_UNLOCK();
atomic_sub_int(&amountpipekva, size);
cpipe->pipe_buffer.buffer = NULL;
if (size > PIPE_SIZE)
atomic_dec_int(&nbigpipe);
}
}
/*
* shutdown the pipe
*/
void
pipeclose(struct pipe *cpipe)
{
struct pipe *ppipe;
if (cpipe) {
pipeselwakeup(cpipe);
sigio_free(&cpipe->pipe_sigio);
/*
* If the other side is blocked, wake it up saying that
* we want to close it down.
*/
cpipe->pipe_state |= PIPE_EOF;
while (cpipe->pipe_busy) {
wakeup(cpipe);
cpipe->pipe_state |= PIPE_WANT;
tsleep(cpipe, PRIBIO, "pipecl", 0);
}
/*
* Disconnect from peer
*/
if ((ppipe = cpipe->pipe_peer) != NULL) {
pipeselwakeup(ppipe);
ppipe->pipe_state |= PIPE_EOF;
wakeup(ppipe);
ppipe->pipe_peer = NULL;
}
/*
* free resources
*/
pipe_free_kmem(cpipe);
pool_put(&pipe_pool, cpipe);
}
}
int
pipe_kqfilter(struct file *fp, struct knote *kn)
{
struct pipe *rpipe = kn->kn_fp->f_data;
struct pipe *wpipe = rpipe->pipe_peer;
switch (kn->kn_filter) {
case EVFILT_READ:
kn->kn_fop = &pipe_rfiltops;
SLIST_INSERT_HEAD(&rpipe->pipe_sel.si_note, kn, kn_selnext);
break;
case EVFILT_WRITE:
if (wpipe == NULL) {
/* other end of pipe has been closed */
return (EPIPE);
}
kn->kn_fop = &pipe_wfiltops;
SLIST_INSERT_HEAD(&wpipe->pipe_sel.si_note, kn, kn_selnext);
break;
default:
return (EINVAL);
}
return (0);
}
void
filt_pipedetach(struct knote *kn)
{
struct pipe *rpipe = kn->kn_fp->f_data;
struct pipe *wpipe = rpipe->pipe_peer;
switch (kn->kn_filter) {
case EVFILT_READ:
SLIST_REMOVE(&rpipe->pipe_sel.si_note, kn, knote, kn_selnext);
break;
case EVFILT_WRITE:
if (wpipe == NULL)
return;
SLIST_REMOVE(&wpipe->pipe_sel.si_note, kn, knote, kn_selnext);
break;
}
}
int
filt_piperead(struct knote *kn, long hint)
{
struct pipe *rpipe = kn->kn_fp->f_data;
struct pipe *wpipe = rpipe->pipe_peer;
kn->kn_data = rpipe->pipe_buffer.cnt;
if ((rpipe->pipe_state & PIPE_EOF) ||
(wpipe == NULL) || (wpipe->pipe_state & PIPE_EOF)) {
kn->kn_flags |= EV_EOF;
return (1);
}
return (kn->kn_data > 0);
}
int
filt_pipewrite(struct knote *kn, long hint)
{
struct pipe *rpipe = kn->kn_fp->f_data;
struct pipe *wpipe = rpipe->pipe_peer;
if ((wpipe == NULL) || (wpipe->pipe_state & PIPE_EOF)) {
kn->kn_data = 0;
kn->kn_flags |= EV_EOF;
return (1);
}
kn->kn_data = wpipe->pipe_buffer.size - wpipe->pipe_buffer.cnt;
return (kn->kn_data >= PIPE_BUF);
}
void
pipe_init(void)
{
pool_init(&pipe_pool, sizeof(struct pipe), 0, IPL_MPFLOOR, PR_WAITOK,
"pipepl", NULL);
}
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