只要接触过c/c++网路编程人都可能会知道select io 模式,网络书籍都说 fd_set {int num; SOCKET arr[64]} 有所限制,因为数组的长度只有64,那么超过64你就不能放,要么你就是用多线程分别实用select.。
一些书籍通过改定义宏 使数组的长度变长,但也不实用,不能动态的变化,我总不能定一个非常的长的长度,毕竟是在栈上。
我就在想那么select完全只能在客户端使用,而且套接字还不能超过64。那这不就是一个软肋吗??一直对这个有一个迷惑。。。。。
后来,自己看到了libevent的源代码发现他也用的是select。。看别人说这个库,轻轻松松处理上万个套接字,我就在想select不是有限制吗??他是怎么做到。。。。。。
看了源代码,我明白了。他只是用对上存放SOCKET的句柄。。我们看一下他的新定义结构体。
struct win_fd_set {
u_int fd_count;
SOCKET fd_array[1];
};
这个就是新定义结构体,跟原来稍微有点变化只是把64改为1,有些同学可能见多很多这样的写法,这种写法我也在一些项目使用了。这种写法可以fd_array动态变化。
win_fd_set * Set = (win_fd_set*)malloc(sizeof(win_fd_set) + sizoef(SCOEKT) * 10);
Set->fd_array 可以放11 个 SOCKET,因为我的内存大小足够放11个SOCKET。
请记住内存是没有数据格式,只要足够大小,随便你怎么放。数据格式只是方便我们管理和处理数据而已。
这样就解决64个大小限制。。我其实一直很好奇为什么中国书籍都是一样的,libevent已经出来好久了,但也没有看到有人说这一点,可能是高手们都不屑。
现在渐渐喜欢看开源的代码,不喜欢看书籍了,喜欢在代码中学习他们是怎么组织一个好项目。
有时候感慨:高手用c 写着漂亮的c++代码,而我等菜鸟却用c++ 写丑陋的c代码。。
我顺便把他整个定义结构和函数给大家贴出来,免大家还要自己去下libevent,不过推荐没有看过libevent同学,可以稍微看一下。
volatile double SIGFPE_REQ = 0.0f;
struct idx_info {
int read_pos_plus1;
int write_pos_plus1;
};
struct win32op {
unsigned num_fds_in_fd_sets;
int resize_out_sets;
struct win_fd_set *readset_in;
struct win_fd_set *writeset_in;
struct win_fd_set *readset_out;
struct win_fd_set *writeset_out;
struct win_fd_set *exset_out;
unsigned signals_are_broken : ;
};
static void *win32_init(struct event_base *);
static int win32_add(struct event_base *, evutil_socket_t, short old, short events, void *_idx);
static int win32_del(struct event_base *, evutil_socket_t, short old, short events, void *_idx);
static int win32_dispatch(struct event_base *base, struct timeval *);
static void win32_dealloc(struct event_base *);
struct eventop win32ops = {
"win32",
win32_init,
win32_add,
win32_del,
win32_dispatch,
win32_dealloc,
, /* doesn't need reinit */
, /* No features supported. */
sizeof(struct idx_info),
};
#define FD_SET_ALLOC_SIZE(n) ((sizeof(struct win_fd_set) + ((n)-1)*sizeof(SOCKET)))
static int
grow_fd_sets(struct win32op *op, unsigned new_num_fds)
{
size_t size;
EVUTIL_ASSERT(new_num_fds >= op->readset_in->fd_count &&
new_num_fds >= op->writeset_in->fd_count);
EVUTIL_ASSERT(new_num_fds >= );
size = FD_SET_ALLOC_SIZE(new_num_fds);
if (!(op->readset_in = mm_realloc(op->readset_in, size)))
return (-);
if (!(op->writeset_in = mm_realloc(op->writeset_in, size)))
return (-);
op->resize_out_sets = ;
op->num_fds_in_fd_sets = new_num_fds;
return ();
}
static int
do_fd_set(struct win32op *op, struct idx_info *ent, evutil_socket_t s, int read)
{
struct win_fd_set *set = read ? op->readset_in : op->writeset_in;
if (read) {
if (ent->read_pos_plus1 > )
return ();
} else {
if (ent->write_pos_plus1 > )
return ();
}
if (set->fd_count == op->num_fds_in_fd_sets) {
if (grow_fd_sets(op, op->num_fds_in_fd_sets*))
return (-);
/* set pointer will have changed and needs reiniting! */
set = read ? op->readset_in : op->writeset_in;
}
set->fd_array[set->fd_count] = s;
if (read)
ent->read_pos_plus1 = set->fd_count+;
else
ent->write_pos_plus1 = set->fd_count+;
return (set->fd_count++);
}
static int
do_fd_clear(struct event_base *base,
struct win32op *op, struct idx_info *ent, int read)
{
int i;
struct win_fd_set *set = read ? op->readset_in : op->writeset_in;
if (read) {
i = ent->read_pos_plus1 - ;
ent->read_pos_plus1 = ;
} else {
i = ent->write_pos_plus1 - ;
ent->write_pos_plus1 = ;
}
if (i < )
return ();
if (--set->fd_count != (unsigned)i) {
struct idx_info *ent2;
SOCKET s2;
s2 = set->fd_array[i] = set->fd_array[set->fd_count];
ent2 = evmap_io_get_fdinfo(&base->io, s2);
if (!ent2) /* This indicates a bug. */
return ();
if (read)
ent2->read_pos_plus1 = i+;
else
ent2->write_pos_plus1 = i+;
}
return ();
}
#define NEVENT 32
void *
win32_init(struct event_base *_base)
{
struct win32op *winop;
size_t size;
if (!(winop = mm_calloc(, sizeof(struct win32op))))
return NULL;
winop->num_fds_in_fd_sets = NEVENT;
size = FD_SET_ALLOC_SIZE(NEVENT);
if (!(winop->readset_in = mm_malloc(size)))
goto err;
if (!(winop->writeset_in = mm_malloc(size)))
goto err;
if (!(winop->readset_out = mm_malloc(size)))
goto err;
if (!(winop->writeset_out = mm_malloc(size)))
goto err;
if (!(winop->exset_out = mm_malloc(size)))
goto err;
winop->readset_in->fd_count = winop->writeset_in->fd_count = ;
winop->readset_out->fd_count = winop->writeset_out->fd_count
= winop->exset_out->fd_count = ;
if (evsig_init(_base) < )
winop->signals_are_broken = ;
return (winop);
err:
XFREE(winop->readset_in);
XFREE(winop->writeset_in);
XFREE(winop->readset_out);
XFREE(winop->writeset_out);
XFREE(winop->exset_out);
XFREE(winop);
return (NULL);
}
int
win32_add(struct event_base *base, evutil_socket_t fd,
short old, short events, void *_idx)
{
struct win32op *win32op = base->evbase;
struct idx_info *idx = _idx;
if ((events & EV_SIGNAL) && win32op->signals_are_broken)
return (-);
if (!(events & (EV_READ|EV_WRITE)))
return ();
event_debug(("%s: adding event for %d", __func__, (int)fd));
if (events & EV_READ) {
if (do_fd_set(win32op, idx, fd, )<)
return (-);
}
if (events & EV_WRITE) {
if (do_fd_set(win32op, idx, fd, )<)
return (-);
}
return ();
}
int
win32_del(struct event_base *base, evutil_socket_t fd, short old, short events,
void *_idx)
{
struct win32op *win32op = base->evbase;
struct idx_info *idx = _idx;
event_debug(("%s: Removing event for "EV_SOCK_FMT,
__func__, EV_SOCK_ARG(fd)));
if (events & EV_READ)
do_fd_clear(base, win32op, idx, );
if (events & EV_WRITE)
do_fd_clear(base, win32op, idx, );
return ;
}
static void
fd_set_copy(struct win_fd_set *out, const struct win_fd_set *in)
{
out->fd_count = in->fd_count;
memcpy(out->fd_array, in->fd_array, in->fd_count * (sizeof(SOCKET)));
}
/*
static void dump_fd_set(struct win_fd_set *s)
{
unsigned int i;
printf("[ ");
for(i=0;i<s->fd_count;++i)
printf("%d ",(int)s->fd_array[i]);
printf("]\n");
}
*/
int
win32_dispatch(struct event_base *base, struct timeval *tv)
{
struct win32op *win32op = base->evbase;
int res = ;
unsigned j, i;
int fd_count;
SOCKET s;
if (win32op->resize_out_sets) {
size_t size = FD_SET_ALLOC_SIZE(win32op->num_fds_in_fd_sets);
if (!(win32op->readset_out = mm_realloc(win32op->readset_out, size)))
return (-);
if (!(win32op->exset_out = mm_realloc(win32op->exset_out, size)))
return (-);
if (!(win32op->writeset_out = mm_realloc(win32op->writeset_out, size)))
return (-);
win32op->resize_out_sets = ;
}
fd_set_copy(win32op->readset_out, win32op->readset_in);
fd_set_copy(win32op->exset_out, win32op->writeset_in);
fd_set_copy(win32op->writeset_out, win32op->writeset_in);
fd_count =
(win32op->readset_out->fd_count > win32op->writeset_out->fd_count) ?
win32op->readset_out->fd_count : win32op->writeset_out->fd_count;
if (!fd_count) {
long msec = tv ? evutil_tv_to_msec(tv) : LONG_MAX;
/* Sleep's DWORD argument is unsigned long */
if (msec < )
msec = LONG_MAX;
/* Windows doesn't like you to call select() with no sockets */
Sleep(msec);
return ();
}
EVBASE_RELEASE_LOCK(base, th_base_lock);
res = select(fd_count,
(struct fd_set*)win32op->readset_out,
(struct fd_set*)win32op->writeset_out,
(struct fd_set*)win32op->exset_out, tv);
EVBASE_ACQUIRE_LOCK(base, th_base_lock);
event_debug(("%s: select returned %d", __func__, res));
if (res <= ) {
return res;
}
if (win32op->readset_out->fd_count) {
i = rand() % win32op->readset_out->fd_count;
for (j=; j<win32op->readset_out->fd_count; ++j) {
if (++i >= win32op->readset_out->fd_count)
i = ;
s = win32op->readset_out->fd_array[i];
evmap_io_active(base, s, EV_READ);
}
}
if (win32op->exset_out->fd_count) {
i = rand() % win32op->exset_out->fd_count;
for (j=; j<win32op->exset_out->fd_count; ++j) {
if (++i >= win32op->exset_out->fd_count)
i = ;
s = win32op->exset_out->fd_array[i];
evmap_io_active(base, s, EV_WRITE);
}
}
if (win32op->writeset_out->fd_count) {
SOCKET s;
i = rand() % win32op->writeset_out->fd_count;
for (j=; j<win32op->writeset_out->fd_count; ++j) {
if (++i >= win32op->writeset_out->fd_count)
i = ;
s = win32op->writeset_out->fd_array[i];
evmap_io_active(base, s, EV_WRITE);
}
}
return ();
}
void
win32_dealloc(struct event_base *_base)
{
struct win32op *win32op = _base->evbase;
evsig_dealloc(_base);
if (win32op->readset_in)
mm_free(win32op->readset_in);
if (win32op->writeset_in)
mm_free(win32op->writeset_in);
if (win32op->readset_out)
mm_free(win32op->readset_out);
if (win32op->writeset_out)
mm_free(win32op->writeset_out);
if (win32op->exset_out)
mm_free(win32op->exset_out);
/* XXXXX free the tree. */
memset(win32op, , sizeof(win32op));
mm_free(win32op);
}