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bird/sysdep/unix/io.c

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/*
* BIRD Internet Routing Daemon -- Unix I/O
*
* (c) 1998--1999 Martin Mares <mj@ucw.cz>
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
#include <stdio.h>
#include <stdlib.h>
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#include <string.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/fcntl.h>
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#include <sys/un.h>
#include <unistd.h>
#include <errno.h>
#include "nest/bird.h"
#include "lib/lists.h"
#include "lib/resource.h"
#include "lib/timer.h"
#include "lib/socket.h"
#include "lib/event.h"
#include "lib/string.h"
#include "nest/iface.h"
#include "lib/unix.h"
#include "lib/sysio.h"
/*
* Random Numbers
*/
u32
random_u32(void)
{
long int rand_low, rand_high;
rand_low = random();
rand_high = random();
return (rand_low & 0xffff) | ((rand_high & 0xffff) << 16);
}
/*
* Tracked Files
*/
struct rfile {
resource r;
FILE *f;
};
static void
rf_free(resource *r)
{
struct rfile *a = (struct rfile *) r;
fclose(a->f);
}
static void
rf_dump(resource *r)
{
struct rfile *a = (struct rfile *) r;
debug("(FILE *%p)\n", a->f);
}
static struct resclass rf_class = {
"FILE",
sizeof(struct rfile),
rf_free,
rf_dump
};
void *
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tracked_fopen(pool *p, char *name, char *mode)
{
FILE *f = fopen(name, mode);
if (f)
{
struct rfile *r = ralloc(p, &rf_class);
r->f = f;
}
return f;
}
/*
* Timers
*/
#define NEAR_TIMER_LIMIT 4
static list near_timers, far_timers;
static bird_clock_t first_far_timer = TIME_INFINITY;
bird_clock_t now;
static void
tm_free(resource *r)
{
timer *t = (timer *) r;
tm_stop(t);
}
static void
tm_dump(resource *r)
{
timer *t = (timer *) r;
debug("(code %p, data %p, ", t->hook, t->data);
if (t->randomize)
debug("rand %d, ", t->randomize);
if (t->recurrent)
debug("recur %d, ", t->recurrent);
if (t->expires)
debug("expires in %d sec)\n", t->expires - now);
else
debug("inactive)\n");
}
static struct resclass tm_class = {
"Timer",
sizeof(timer),
tm_free,
tm_dump
};
timer *
tm_new(pool *p)
{
timer *t = ralloc(p, &tm_class);
t->hook = NULL;
t->data = NULL;
t->randomize = 0;
t->expires = 0;
return t;
}
static inline void
tm_insert_near(timer *t)
{
node *n = HEAD(near_timers);
while (n->next && (SKIP_BACK(timer, n, n)->expires < t->expires))
n = n->next;
insert_node(&t->n, n->prev);
}
void
tm_start(timer *t, unsigned after)
{
bird_clock_t when;
if (t->randomize)
after += random() % (t->randomize + 1);
when = now + after;
if (t->expires == when)
return;
if (t->expires)
rem_node(&t->n);
t->expires = when;
if (after <= NEAR_TIMER_LIMIT)
tm_insert_near(t);
else
{
if (!first_far_timer || first_far_timer > when)
first_far_timer = when;
add_tail(&far_timers, &t->n);
}
}
void
tm_stop(timer *t)
{
if (t->expires)
{
rem_node(&t->n);
t->expires = 0;
}
}
static void
tm_dump_them(char *name, list *l)
{
node *n;
timer *t;
debug("%s timers:\n", name);
WALK_LIST(n, *l)
{
t = SKIP_BACK(timer, n, n);
debug("%p ", t);
tm_dump(&t->r);
}
debug("\n");
}
void
tm_dump_all(void)
{
tm_dump_them("Near", &near_timers);
tm_dump_them("Far", &far_timers);
}
static inline time_t
tm_first_shot(void)
{
time_t x = first_far_timer;
if (!EMPTY_LIST(near_timers))
{
timer *t = SKIP_BACK(timer, n, HEAD(near_timers));
if (t->expires < x)
x = t->expires;
}
return x;
}
static void
tm_shot(void)
{
timer *t;
node *n, *m;
if (first_far_timer <= now)
{
bird_clock_t limit = now + NEAR_TIMER_LIMIT;
first_far_timer = TIME_INFINITY;
n = HEAD(far_timers);
while (m = n->next)
{
t = SKIP_BACK(timer, n, n);
if (t->expires <= limit)
{
rem_node(n);
tm_insert_near(t);
}
else if (t->expires < first_far_timer)
first_far_timer = t->expires;
n = m;
}
}
while ((n = HEAD(near_timers)) -> next)
{
int delay;
t = SKIP_BACK(timer, n, n);
if (t->expires > now)
break;
rem_node(n);
delay = t->expires - now;
t->expires = 0;
if (t->recurrent)
{
int i = t->recurrent - delay;
if (i < 0)
i = 0;
tm_start(t, i);
}
t->hook(t);
}
}
bird_clock_t
tm_parse_date(char *x)
{
struct tm tm;
int n;
time_t t;
if (sscanf(x, "%d-%d-%d%n", &tm.tm_mday, &tm.tm_mon, &tm.tm_year, &n) != 3 || x[n])
return 0;
tm.tm_mon--;
tm.tm_year -= 1900;
tm.tm_hour = tm.tm_min = tm.tm_sec = 0;
t = mktime(&tm);
if (t == (time_t) -1)
return 0;
return t;
}
void
tm_format_date(char *x, bird_clock_t t)
{
struct tm *tm;
tm = localtime(&t);
sprintf(x, "%02d-%02d-%04d", tm->tm_mday, tm->tm_mon+1, tm->tm_year+1900);
}
void
tm_format_reltime(char *x, bird_clock_t t)
{
struct tm *tm;
bird_clock_t delta = now - t;
static char *month_names[12] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" };
tm = localtime(&t);
if (delta < 0)
strcpy(x, "?fut?");
else if (delta < 20*3600)
bsprintf(x, "%02d:%02d", tm->tm_hour, tm->tm_min);
else if (delta < 360*86400)
bsprintf(x, "%s%02d", month_names[tm->tm_mon], tm->tm_mday);
else
bsprintf(x, "%d", tm->tm_year+1900);
}
/*
* Sockets
*/
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#ifndef SOL_IP
#define SOL_IP IPPROTO_IP
#endif
static list sock_list;
static void
sk_free(resource *r)
{
sock *s = (sock *) r;
if (s->fd >= 0)
rem_node(&s->n);
}
static void
sk_dump(resource *r)
{
sock *s = (sock *) r;
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static char *sk_type_names[] = { "TCP<", "TCP>", "TCP", "UDP", "UDP/MC", "IP", "IP/MC", "MAGIC", "UNIX<", "UNIX", "DEL!" };
debug("(%s, ud=%p, sa=%08x, sp=%d, da=%08x, dp=%d, tos=%d, ttl=%d, if=%s)\n",
sk_type_names[s->type],
s->data,
s->saddr,
s->sport,
s->daddr,
s->dport,
s->tos,
s->ttl,
s->iface ? s->iface->name : "none");
}
static struct resclass sk_class = {
"Socket",
sizeof(sock),
sk_free,
sk_dump
};
sock *
sk_new(pool *p)
{
sock *s = ralloc(p, &sk_class);
s->pool = p;
s->data = NULL;
s->saddr = s->daddr = IPA_NONE;
s->sport = s->dport = 0;
s->tos = s->ttl = -1;
s->iface = NULL;
s->rbuf = NULL;
s->rx_hook = NULL;
s->rbsize = 0;
s->tbuf = NULL;
s->tx_hook = NULL;
s->tbsize = 0;
s->err_hook = NULL;
s->fd = -1;
return s;
}
#define ERR(x) do { err = x; goto bad; } while(0)
#define WARN(x) log(L_WARN "sk_setup: %s: %m", x)
#ifdef IPV6
void
fill_in_sockaddr(sockaddr *sa, ip_addr a, unsigned port)
{
sa->sin6_family = AF_INET6;
sa->sin6_port = htons(port);
sa->sin6_flowinfo = 0;
set_inaddr(&sa->sin6_addr, a);
}
void
get_sockaddr(sockaddr *sa, ip_addr *a, unsigned *port)
{
if (sa->sin6_family != AF_INET6)
bug("get_sockaddr called for wrong address family");
if (port)
*port = ntohs(sa->sin6_port);
memcpy(a, &sa->sin6_addr, sizeof(*a));
ipa_ntoh(*a);
}
#else
void
fill_in_sockaddr(sockaddr *sa, ip_addr a, unsigned port)
{
sa->sin_family = AF_INET;
sa->sin_port = htons(port);
set_inaddr(&sa->sin_addr, a);
}
void
get_sockaddr(sockaddr *sa, ip_addr *a, unsigned *port)
{
if (sa->sin_family != AF_INET)
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bug("get_sockaddr called for wrong address family");
if (port)
*port = ntohs(sa->sin_port);
memcpy(a, &sa->sin_addr.s_addr, sizeof(*a));
ipa_ntoh(*a);
}
#endif
static char *
sk_setup(sock *s)
{
int fd = s->fd;
int one = 1;
char *err;
if (fcntl(fd, F_SETFL, O_NONBLOCK) < 0)
ERR("fcntl(O_NONBLOCK)");
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if (s->type == SK_UNIX)
return NULL;
#ifdef IPV6
if (s->ttl >= 0 && s->type != SK_UDP_MC && s->type != SK_IP_MC &&
setsockopt(fd, SOL_IPV6, IPV6_UNICAST_HOPS, &s->ttl, sizeof(s->ttl)) < 0)
ERR("IPV6_UNICAST_HOPS");
#else
if ((s->tos >= 0) && setsockopt(fd, SOL_IP, IP_TOS, &s->tos, sizeof(s->tos)) < 0)
WARN("IP_TOS");
if (s->ttl >= 0)
{
if (setsockopt(fd, SOL_IP, IP_TTL, &s->ttl, sizeof(s->ttl)) < 0)
ERR("IP_TTL");
if (setsockopt(fd, SOL_SOCKET, SO_DONTROUTE, &one, sizeof(one)) < 0)
ERR("SO_DONTROUTE");
}
#endif
/* FIXME: Set send/receive buffers? */
/* FIXME: Set keepalive for TCP connections? */
err = NULL;
bad:
return err;
}
static void
sk_alloc_bufs(sock *s)
{
if (!s->rbuf && s->rbsize)
s->rbuf = mb_alloc(s->pool, s->rbsize);
s->rpos = s->rbuf;
if (!s->tbuf && s->tbsize)
s->tbuf = mb_alloc(s->pool, s->tbsize);
s->tpos = s->ttx = s->tbuf;
}
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static void
sk_tcp_connected(sock *s)
{
s->rx_hook(s, 0);
s->type = SK_TCP;
sk_alloc_bufs(s);
}
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static int
sk_passive_connected(sock *s, struct sockaddr *sa, int al, int type)
{
int fd = accept(s->fd, sa, &al);
if (fd >= 0)
{
sock *t = sk_new(s->pool);
char *err;
t->type = type;
t->fd = fd;
add_tail(&sock_list, &t->n);
s->rx_hook(t, 0);
if (err = sk_setup(t))
{
log(L_ERR "Incoming connection: %s: %m", err);
s->err_hook(s, errno);
return 0;
}
sk_alloc_bufs(t);
return 1;
}
else if (errno != EINTR && errno != EAGAIN)
{
log(L_ERR "accept: %m");
s->err_hook(s, errno);
}
return 0;
}
int
sk_open(sock *s)
{
int fd, e;
sockaddr sa;
int one = 1;
int type = s->type;
int has_src = ipa_nonzero(s->saddr) || s->sport;
char *err;
switch (type)
{
case SK_TCP_ACTIVE:
case SK_TCP_PASSIVE:
fd = socket(BIRD_PF, SOCK_STREAM, IPPROTO_TCP);
break;
case SK_UDP:
case SK_UDP_MC:
fd = socket(BIRD_PF, SOCK_DGRAM, IPPROTO_UDP);
break;
case SK_IP:
case SK_IP_MC:
fd = socket(BIRD_PF, SOCK_RAW, s->dport);
break;
case SK_MAGIC:
fd = s->fd;
break;
default:
bug("sk_open() called for invalid sock type %d", type);
}
if (fd < 0)
die("sk_open: socket: %m");
s->fd = fd;
if (err = sk_setup(s))
goto bad;
switch (type)
{
case SK_UDP:
case SK_IP:
if (s->iface) /* It's a broadcast socket */
#ifdef IPV6
bug("IPv6 has no broadcasts");
#else
if (setsockopt(fd, SOL_SOCKET, SO_BROADCAST, &one, sizeof(one)) < 0)
ERR("SO_BROADCAST");
#endif
break;
case SK_UDP_MC:
case SK_IP_MC:
{
#ifdef IPV6
/* Fortunately, IPv6 socket interface is recent enough and therefore standardized */
ASSERT(s->iface && s->iface->addr);
if (ipa_nonzero(s->daddr))
{
int t = s->iface->index;
int zero = 0;
if (setsockopt(fd, SOL_IPV6, IPV6_MULTICAST_HOPS, &s->ttl, sizeof(s->ttl)) < 0)
ERR("IPV6_MULTICAST_HOPS");
if (setsockopt(fd, SOL_IPV6, IPV6_MULTICAST_LOOP, &zero, sizeof(zero)) < 0)
ERR("IPV6_MULTICAST_LOOP");
if (setsockopt(fd, SOL_IPV6, IPV6_MULTICAST_IF, &t, sizeof(t)) < 0)
ERR("IPV6_MULTICAST_IF");
}
if (has_src)
{
struct ipv6_mreq mreq;
set_inaddr(&mreq.ipv6mr_multiaddr, s->daddr);
mreq.ipv6mr_ifindex = s->iface->index;
if (setsockopt(fd, SOL_IPV6, IPV6_ADD_MEMBERSHIP, &mreq, sizeof(mreq)) < 0)
ERR("IPV6_ADD_MEMBERSHIP");
}
#else
/* With IPv4 there are zillions of different socket interface variants. Ugh. */
ASSERT(s->iface && s->iface->addr);
if (err = sysio_mcast_join(s))
goto bad;
#endif
break;
}
}
if (has_src)
{
int port;
if (type == SK_IP || type == SK_IP_MC)
port = 0;
else
{
port = s->sport;
if (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &one, sizeof(one)) < 0)
ERR("SO_REUSEADDR");
}
fill_in_sockaddr(&sa, s->saddr, port);
if (bind(fd, (struct sockaddr *) &sa, sizeof(sa)) < 0)
ERR("bind");
}
fill_in_sockaddr(&sa, s->daddr, s->dport);
switch (type)
{
case SK_TCP_ACTIVE:
if (connect(fd, (struct sockaddr *) &sa, sizeof(sa)) >= 0)
sk_tcp_connected(s);
else if (errno != EINTR && errno != EAGAIN)
ERR("connect");
break;
case SK_TCP_PASSIVE:
if (listen(fd, 8))
ERR("listen");
break;
case SK_MAGIC:
break;
default:
#ifdef IPV6
#ifdef IPV6_MTU_DISCOVER
{
int dont = IPV6_PMTUDISC_DONT;
if (setsockopt(fd, SOL_IPV6, IPV6_MTU_DISCOVER, &dont, sizeof(dont)) < 0)
ERR("IPV6_MTU_DISCOVER");
}
#endif
#else
#ifdef IP_PMTUDISC
{
int dont = IP_PMTUDISC_DONT;
if (setsockopt(fd, SOL_IP, IP_PMTUDISC, &dont, sizeof(dont)) < 0)
ERR("IP_PMTUDISC");
}
#endif
#endif
}
sk_alloc_bufs(s);
add_tail(&sock_list, &s->n);
return 0;
bad:
log(L_ERR "sk_open: %s: %m", err);
close(fd);
s->fd = -1;
return -1;
}
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int
sk_open_unix(sock *s, char *name)
{
int fd;
struct sockaddr_un sa;
char *err;
fd = socket(AF_UNIX, SOCK_STREAM, 0);
if (fd < 0)
die("sk_open_unix: socket: %m");
s->fd = fd;
if (err = sk_setup(s))
goto bad;
unlink(name);
sa.sun_family = AF_UNIX;
strcpy(sa.sun_path, name);
if (bind(fd, (struct sockaddr *) &sa, sizeof(sa)) < 0)
ERR("bind");
if (listen(fd, 8))
ERR("listen");
sk_alloc_bufs(s);
add_tail(&sock_list, &s->n);
return 0;
bad:
log(L_ERR "sk_open_unix: %s: %m", err);
close(fd);
s->fd = -1;
return -1;
}
static int
sk_maybe_write(sock *s)
{
int e;
switch (s->type)
{
case SK_TCP:
case SK_MAGIC:
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case SK_UNIX:
while (s->ttx != s->tpos)
{
e = write(s->fd, s->ttx, s->tpos - s->ttx);
if (e < 0)
{
if (errno != EINTR && errno != EAGAIN)
{
log(L_ERR "write: %m");
s->err_hook(s, errno);
return -1;
}
return 0;
}
s->ttx += e;
}
s->ttx = s->tpos = s->tbuf;
return 1;
case SK_UDP:
case SK_UDP_MC:
case SK_IP:
case SK_IP_MC:
{
sockaddr sa;
if (s->tbuf == s->tpos)
return 1;
fill_in_sockaddr(&sa, s->faddr, s->fport);
e = sendto(s->fd, s->tbuf, s->tpos - s->tbuf, 0, (struct sockaddr *) &sa, sizeof(sa));
if (e < 0)
{
if (errno != EINTR && errno != EAGAIN)
{
log(L_ERR "sendto: %m");
s->err_hook(s, errno);
return -1;
}
return 0;
}
s->tpos = s->tbuf;
return 1;
}
default:
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bug("sk_maybe_write: unknown socket type %d", s->type);
}
}
int
sk_send(sock *s, unsigned len)
{
s->faddr = s->daddr;
s->fport = s->dport;
s->ttx = s->tbuf;
s->tpos = s->tbuf + len;
return sk_maybe_write(s);
}
int
sk_send_to(sock *s, unsigned len, ip_addr addr, unsigned port)
{
s->faddr = addr;
s->fport = port;
s->ttx = s->tbuf;
s->tpos = s->tbuf + len;
return sk_maybe_write(s);
}
static int
sk_read(sock *s)
{
switch (s->type)
{
case SK_TCP_ACTIVE:
{
sockaddr sa;
fill_in_sockaddr(&sa, s->daddr, s->dport);
if (connect(s->fd, (struct sockaddr *) &sa, sizeof(sa)) >= 0)
sk_tcp_connected(s);
else if (errno != EINTR && errno != EAGAIN)
{
log(L_ERR "connect: %m");
s->err_hook(s, errno);
}
return 0;
}
case SK_TCP_PASSIVE:
{
sockaddr sa;
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return sk_passive_connected(s, (struct sockaddr *) &sa, sizeof(sa), SK_TCP);
}
case SK_UNIX_PASSIVE:
{
struct sockaddr_un sa;
return sk_passive_connected(s, (struct sockaddr *) &sa, sizeof(sa), SK_UNIX);
}
case SK_TCP:
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case SK_UNIX:
{
int c = read(s->fd, s->rpos, s->rbuf + s->rbsize - s->rpos);
if (c < 0)
{
if (errno != EINTR && errno != EAGAIN)
{
log(L_ERR "read: %m");
s->err_hook(s, errno);
}
}
else if (!c)
s->err_hook(s, 0);
else
{
s->rpos += c;
if (s->rx_hook(s, s->rpos - s->rbuf))
s->rpos = s->rbuf;
return 1;
}
return 0;
}
case SK_MAGIC:
return s->rx_hook(s, 0);
default:
{
sockaddr sa;
int al = sizeof(sa);
int e = recvfrom(s->fd, s->rbuf, s->rbsize, 0, (struct sockaddr *) &sa, &al);
if (e < 0)
{
if (errno != EINTR && errno != EAGAIN)
{
log(L_ERR "recvfrom: %m");
s->err_hook(s, errno);
}
return 0;
}
s->rpos = s->rbuf + e;
get_sockaddr(&sa, &s->faddr, &s->fport);
s->rx_hook(s, e);
return 1;
}
}
}
static void
sk_write(sock *s)
{
while (s->ttx != s->tbuf && sk_maybe_write(s) > 0)
s->tx_hook(s);
}
void
sk_dump_all(void)
{
node *n;
sock *s;
debug("Open sockets:\n");
WALK_LIST(n, sock_list)
{
s = SKIP_BACK(sock, n, n);
debug("%p ", s);
sk_dump(&s->r);
}
debug("\n");
}
#undef ERR
#undef WARN
/*
* Main I/O Loop
*/
volatile int async_config_flag; /* Asynchronous reconfiguration/dump scheduled */
volatile int async_dump_flag;
void
io_init(void)
{
init_list(&near_timers);
init_list(&far_timers);
init_list(&sock_list);
init_list(&global_event_list);
krt_io_init();
now = time(NULL);
srandom((int) now);
}
void
io_loop(void)
{
fd_set rd, wr;
struct timeval timo;
time_t tout;
int hi, events;
sock *s;
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node *n, *p;
/* FIXME: Use poll() if available */
FD_ZERO(&rd);
FD_ZERO(&wr);
for(;;)
{
events = ev_run_list(&global_event_list);
now = time(NULL);
tout = tm_first_shot();
if (tout <= now)
{
tm_shot();
continue;
}
timo.tv_sec = events ? 0 : tout - now;
timo.tv_usec = 0;
hi = 0;
WALK_LIST(n, sock_list)
{
s = SKIP_BACK(sock, n, n);
if (s->rx_hook)
{
FD_SET(s->fd, &rd);
if (s->fd > hi)
hi = s->fd;
}
if (s->tx_hook && s->ttx != s->tpos)
{
FD_SET(s->fd, &wr);
if (s->fd > hi)
hi = s->fd;
}
}
/*
* Yes, this is racy. But even if the signal comes before this test
* and entering select(), it gets caught on the next timer tick.
*/
if (async_config_flag)
{
async_config();
async_config_flag = 0;
continue;
}
if (async_dump_flag)
{
async_dump();
async_dump_flag = 0;
continue;
}
if (async_shutdown_flag)
{
async_shutdown();
async_shutdown_flag = 0;
continue;
}
/* And finally enter select() to find active sockets */
hi = select(hi+1, &rd, &wr, NULL, &timo);
if (hi < 0)
{
if (errno == EINTR || errno == EAGAIN)
continue;
die("select: %m");
}
if (hi)
{
1999-10-29 12:09:29 +00:00
WALK_LIST_DELSAFE(n, p, sock_list)
{
s = SKIP_BACK(sock, n, n);
if (FD_ISSET(s->fd, &rd))
{
FD_CLR(s->fd, &rd);
while (sk_read(s))
;
}
1999-10-29 12:09:29 +00:00
if (s->type != SK_DELETED && FD_ISSET(s->fd, &wr))
{
FD_CLR(s->fd, &wr);
sk_write(s);
}
1999-10-29 12:09:29 +00:00
if (s->type == SK_DELETED)
rfree(s);
}
}
}
}