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ruby/ext/socket/init.c

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C
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/************************************************
init.c -
created at: Thu Mar 31 12:21:29 JST 1994
Copyright (C) 1993-2007 Yukihiro Matsumoto
************************************************/
#include "rubysocket.h"
VALUE rb_cBasicSocket;
VALUE rb_cIPSocket;
VALUE rb_cTCPSocket;
VALUE rb_cTCPServer;
VALUE rb_cUDPSocket;
#ifdef AF_UNIX
VALUE rb_cUNIXSocket;
VALUE rb_cUNIXServer;
#endif
VALUE rb_cSocket;
VALUE rb_cAddrinfo;
VALUE rb_eSocket;
#ifdef SOCKS
VALUE rb_cSOCKSSocket;
#endif
int rsock_do_not_reverse_lookup = 1;
static VALUE sym_wait_readable;
void
rsock_raise_socket_error(const char *reason, int error)
{
#ifdef EAI_SYSTEM
int e;
if (error == EAI_SYSTEM && (e = errno) != 0)
rb_syserr_fail(e, reason);
#endif
rb_raise(rb_eSocket, "%s: %s", reason, gai_strerror(error));
}
#ifdef _WIN32
#define is_socket(fd) rb_w32_is_socket(fd)
#else
static int
is_socket(int fd)
{
struct stat sbuf;
if (fstat(fd, &sbuf) < 0)
rb_sys_fail("fstat(2)");
return S_ISSOCK(sbuf.st_mode);
}
#endif
VALUE
rsock_init_sock(VALUE sock, int fd)
{
rb_io_t *fp;
if (!is_socket(fd) || rb_reserved_fd_p(fd)) {
rb_syserr_fail(EBADF, "not a socket file descriptor");
}
rb_update_max_fd(fd);
MakeOpenFile(sock, fp);
fp->fd = fd;
fp->mode = FMODE_READWRITE|FMODE_DUPLEX;
rb_io_ascii8bit_binmode(sock);
if (rsock_do_not_reverse_lookup) {
fp->mode |= FMODE_NOREVLOOKUP;
}
rb_io_synchronized(fp);
return sock;
}
VALUE
rsock_sendto_blocking(void *data)
{
struct rsock_send_arg *arg = data;
VALUE mesg = arg->mesg;
return (VALUE)sendto(arg->fd, RSTRING_PTR(mesg), RSTRING_LEN(mesg),
arg->flags, arg->to, arg->tolen);
}
VALUE
rsock_send_blocking(void *data)
{
struct rsock_send_arg *arg = data;
VALUE mesg = arg->mesg;
return (VALUE)send(arg->fd, RSTRING_PTR(mesg), RSTRING_LEN(mesg),
arg->flags);
}
struct recvfrom_arg {
int fd, flags;
VALUE str;
socklen_t alen;
union_sockaddr buf;
};
static VALUE
recvfrom_blocking(void *data)
{
struct recvfrom_arg *arg = data;
socklen_t len0 = arg->alen;
ssize_t ret;
ret = recvfrom(arg->fd, RSTRING_PTR(arg->str), RSTRING_LEN(arg->str),
arg->flags, &arg->buf.addr, &arg->alen);
if (ret != -1 && len0 < arg->alen)
arg->alen = len0;
return (VALUE)ret;
}
static VALUE
rsock_strbuf(VALUE str, long buflen)
{
long len;
if (NIL_P(str)) return rb_tainted_str_new(0, buflen);
StringValue(str);
len = RSTRING_LEN(str);
if (len >= buflen) {
rb_str_modify(str);
} else {
rb_str_modify_expand(str, buflen - len);
}
rb_str_set_len(str, buflen);
return str;
}
static VALUE
recvfrom_locktmp(VALUE v)
{
struct recvfrom_arg *arg = (struct recvfrom_arg *)v;
return rb_thread_io_blocking_region(recvfrom_blocking, arg, arg->fd);
}
VALUE
rsock_s_recvfrom(VALUE sock, int argc, VALUE *argv, enum sock_recv_type from)
{
rb_io_t *fptr;
VALUE str;
struct recvfrom_arg arg;
VALUE len, flg;
long buflen;
long slen;
rb_scan_args(argc, argv, "12", &len, &flg, &str);
if (flg == Qnil) arg.flags = 0;
else arg.flags = NUM2INT(flg);
buflen = NUM2INT(len);
str = rsock_strbuf(str, buflen);
GetOpenFile(sock, fptr);
if (rb_io_read_pending(fptr)) {
rb_raise(rb_eIOError, "recv for buffered IO");
}
arg.fd = fptr->fd;
arg.alen = (socklen_t)sizeof(arg.buf);
arg.str = str;
while (rb_io_check_closed(fptr),
rsock_maybe_wait_fd(arg.fd),
(slen = (long)rb_str_locktmp_ensure(str, recvfrom_locktmp,
(VALUE)&arg)) < 0) {
if (!rb_io_wait_readable(fptr->fd)) {
rb_sys_fail("recvfrom(2)");
}
}
if (slen != RSTRING_LEN(str)) {
rb_str_set_len(str, slen);
}
rb_obj_taint(str);
switch (from) {
case RECV_RECV:
return str;
case RECV_IP:
#if 0
if (arg.alen != sizeof(struct sockaddr_in)) {
rb_raise(rb_eTypeError, "sockaddr size differs - should not happen");
}
#endif
if (arg.alen && arg.alen != sizeof(arg.buf)) /* OSX doesn't return a from result for connection-oriented sockets */
return rb_assoc_new(str, rsock_ipaddr(&arg.buf.addr, arg.alen, fptr->mode & FMODE_NOREVLOOKUP));
else
return rb_assoc_new(str, Qnil);
#ifdef HAVE_SYS_UN_H
case RECV_UNIX:
return rb_assoc_new(str, rsock_unixaddr(&arg.buf.un, arg.alen));
#endif
case RECV_SOCKET:
return rb_assoc_new(str, rsock_io_socket_addrinfo(sock, &arg.buf.addr, arg.alen));
default:
rb_bug("rsock_s_recvfrom called with bad value");
}
}
VALUE
rsock_s_recvfrom_nonblock(VALUE sock, VALUE len, VALUE flg, VALUE str,
VALUE ex, enum sock_recv_type from)
{
rb_io_t *fptr;
union_sockaddr buf;
socklen_t alen = (socklen_t)sizeof buf;
long buflen;
long slen;
int fd, flags;
VALUE addr = Qnil;
socklen_t len0;
flags = NUM2INT(flg);
buflen = NUM2INT(len);
str = rsock_strbuf(str, buflen);
#ifdef MSG_DONTWAIT
/* MSG_DONTWAIT avoids the race condition between fcntl and recvfrom.
It is not portable, though. */
flags |= MSG_DONTWAIT;
#endif
GetOpenFile(sock, fptr);
if (rb_io_read_pending(fptr)) {
rb_raise(rb_eIOError, "recvfrom for buffered IO");
}
fd = fptr->fd;
rb_io_check_closed(fptr);
if (!MSG_DONTWAIT_RELIABLE)
rb_io_set_nonblock(fptr);
len0 = alen;
slen = recvfrom(fd, RSTRING_PTR(str), buflen, flags, &buf.addr, &alen);
if (slen != -1 && len0 < alen)
alen = len0;
if (slen < 0) {
int e = errno;
switch (e) {
case EAGAIN:
#if defined(EWOULDBLOCK) && EWOULDBLOCK != EAGAIN
case EWOULDBLOCK:
#endif
if (ex == Qfalse)
return sym_wait_readable;
rb_readwrite_syserr_fail(RB_IO_WAIT_READABLE, e, "recvfrom(2) would block");
}
rb_syserr_fail(e, "recvfrom(2)");
}
if (slen != RSTRING_LEN(str)) {
rb_str_set_len(str, slen);
}
rb_obj_taint(str);
switch (from) {
case RECV_RECV:
return str;
case RECV_IP:
if (alen && alen != sizeof(buf)) /* connection-oriented socket may not return a from result */
addr = rsock_ipaddr(&buf.addr, alen, fptr->mode & FMODE_NOREVLOOKUP);
break;
case RECV_SOCKET:
addr = rsock_io_socket_addrinfo(sock, &buf.addr, alen);
break;
default:
rb_bug("rsock_s_recvfrom_nonblock called with bad value");
}
return rb_assoc_new(str, addr);
}
/* returns true if SOCK_CLOEXEC is supported */
int rsock_detect_cloexec(int fd)
{
#ifdef SOCK_CLOEXEC
int flags = fcntl(fd, F_GETFD);
if (flags == -1)
rb_bug("rsock_detect_cloexec: fcntl(%d, F_GETFD) failed: %s", fd, strerror(errno));
if (flags & FD_CLOEXEC)
return 1;
#endif
return 0;
}
#ifdef SOCK_CLOEXEC
static int
rsock_socket0(int domain, int type, int proto)
{
int ret;
static int cloexec_state = -1; /* <0: unknown, 0: ignored, >0: working */
if (cloexec_state > 0) { /* common path, if SOCK_CLOEXEC is defined */
ret = socket(domain, type|SOCK_CLOEXEC, proto);
if (ret >= 0) {
if (ret <= 2)
goto fix_cloexec;
goto update_max_fd;
}
}
else if (cloexec_state < 0) { /* usually runs once only for detection */
ret = socket(domain, type|SOCK_CLOEXEC, proto);
if (ret >= 0) {
cloexec_state = rsock_detect_cloexec(ret);
if (cloexec_state == 0 || ret <= 2)
goto fix_cloexec;
goto update_max_fd;
}
else if (ret == -1 && errno == EINVAL) {
/* SOCK_CLOEXEC is available since Linux 2.6.27. Linux 2.6.18 fails with EINVAL */
ret = socket(domain, type, proto);
if (ret != -1) {
cloexec_state = 0;
/* fall through to fix_cloexec */
}
}
}
else { /* cloexec_state == 0 */
ret = socket(domain, type, proto);
}
if (ret == -1)
return -1;
fix_cloexec:
rb_maygvl_fd_fix_cloexec(ret);
update_max_fd:
rb_update_max_fd(ret);
return ret;
}
#else /* !SOCK_CLOEXEC */
static int
rsock_socket0(int domain, int type, int proto)
{
int ret = socket(domain, type, proto);
if (ret == -1)
return -1;
rb_fd_fix_cloexec(ret);
return ret;
}
#endif /* !SOCK_CLOEXEC */
int
rsock_socket(int domain, int type, int proto)
{
int fd;
fd = rsock_socket0(domain, type, proto);
if (fd < 0) {
if (rb_gc_for_fd(errno)) {
fd = rsock_socket0(domain, type, proto);
}
}
if (0 <= fd)
rb_update_max_fd(fd);
return fd;
}
/* emulate blocking connect behavior on EINTR or non-blocking socket */
static int
wait_connectable(int fd)
{
int sockerr, revents;
socklen_t sockerrlen;
/* only to clear pending error */
sockerrlen = (socklen_t)sizeof(sockerr);
if (getsockopt(fd, SOL_SOCKET, SO_ERROR, (void *)&sockerr, &sockerrlen) < 0)
return -1;
/*
* Stevens book says, successful finish turn on RB_WAITFD_OUT and
* failure finish turn on both RB_WAITFD_IN and RB_WAITFD_OUT.
* So it's enough to wait only RB_WAITFD_OUT and check the pending error
* by getsockopt().
*
* Note: rb_wait_for_single_fd already retries on EINTR/ERESTART
*/
revents = rb_wait_for_single_fd(fd, RB_WAITFD_IN|RB_WAITFD_OUT, NULL);
if (revents < 0)
return -1;
sockerrlen = (socklen_t)sizeof(sockerr);
if (getsockopt(fd, SOL_SOCKET, SO_ERROR, (void *)&sockerr, &sockerrlen) < 0)
return -1;
switch (sockerr) {
case 0:
/*
* be defensive in case some platforms set SO_ERROR on the original,
* interrupted connect()
*/
case EINTR:
#ifdef ERESTART
case ERESTART:
#endif
case EAGAIN:
#ifdef EINPROGRESS
case EINPROGRESS:
#endif
#ifdef EALREADY
case EALREADY:
#endif
#ifdef EISCONN
case EISCONN:
#endif
return 0; /* success */
default:
/* likely (but not limited to): ECONNREFUSED, ETIMEDOUT, EHOSTUNREACH */
errno = sockerr;
return -1;
}
return 0;
}
struct connect_arg {
int fd;
socklen_t len;
const struct sockaddr *sockaddr;
};
static VALUE
connect_blocking(void *data)
{
struct connect_arg *arg = data;
return (VALUE)connect(arg->fd, arg->sockaddr, arg->len);
}
#if defined(SOCKS) && !defined(SOCKS5)
static VALUE
socks_connect_blocking(void *data)
{
struct connect_arg *arg = data;
return (VALUE)Rconnect(arg->fd, arg->sockaddr, arg->len);
}
#endif
int
rsock_connect(int fd, const struct sockaddr *sockaddr, int len, int socks)
{
int status;
rb_blocking_function_t *func = connect_blocking;
struct connect_arg arg;
arg.fd = fd;
arg.sockaddr = sockaddr;
arg.len = len;
#if defined(SOCKS) && !defined(SOCKS5)
if (socks) func = socks_connect_blocking;
#endif
status = (int)BLOCKING_REGION_FD(func, &arg);
if (status < 0) {
switch (errno) {
case EINTR:
#ifdef ERESTART
case ERESTART:
#endif
case EAGAIN:
#ifdef EINPROGRESS
case EINPROGRESS:
#endif
return wait_connectable(fd);
}
}
return status;
}
static void
make_fd_nonblock(int fd)
{
int flags;
#ifdef F_GETFL
flags = fcntl(fd, F_GETFL);
if (flags == -1) {
rb_sys_fail("fnctl(2)");
}
#else
flags = 0;
#endif
flags |= O_NONBLOCK;
if (fcntl(fd, F_SETFL, flags) == -1) {
rb_sys_fail("fnctl(2)");
}
}
static int
cloexec_accept(int socket, struct sockaddr *address, socklen_t *address_len,
int nonblock)
{
int ret;
socklen_t len0 = 0;
#ifdef HAVE_ACCEPT4
static int try_accept4 = 1;
#endif
if (address_len) len0 = *address_len;
#ifdef HAVE_ACCEPT4
if (try_accept4) {
int flags = 0;
#ifdef SOCK_CLOEXEC
flags |= SOCK_CLOEXEC;
#endif
#ifdef SOCK_NONBLOCK
if (nonblock) {
flags |= SOCK_NONBLOCK;
}
#endif
ret = accept4(socket, address, address_len, flags);
/* accept4 is available since Linux 2.6.28, glibc 2.10. */
if (ret != -1) {
if (ret <= 2)
rb_maygvl_fd_fix_cloexec(ret);
#ifndef SOCK_NONBLOCK
if (nonblock) {
make_fd_nonblock(ret);
}
#endif
if (address_len && len0 < *address_len) *address_len = len0;
return ret;
}
if (errno != ENOSYS) {
return -1;
}
try_accept4 = 0;
}
#endif
ret = accept(socket, address, address_len);
if (ret == -1) return -1;
if (address_len && len0 < *address_len) *address_len = len0;
rb_maygvl_fd_fix_cloexec(ret);
if (nonblock) {
make_fd_nonblock(ret);
}
return ret;
}
VALUE
rsock_s_accept_nonblock(VALUE klass, VALUE ex, rb_io_t *fptr,
struct sockaddr *sockaddr, socklen_t *len)
{
int fd2;
rb_io_set_nonblock(fptr);
fd2 = cloexec_accept(fptr->fd, (struct sockaddr*)sockaddr, len, 1);
if (fd2 < 0) {
int e = errno;
switch (e) {
case EAGAIN:
#if defined(EWOULDBLOCK) && EWOULDBLOCK != EAGAIN
case EWOULDBLOCK:
#endif
case ECONNABORTED:
#if defined EPROTO
case EPROTO:
#endif
if (ex == Qfalse)
return sym_wait_readable;
rb_readwrite_syserr_fail(RB_IO_WAIT_READABLE, e, "accept(2) would block");
}
rb_syserr_fail(e, "accept(2)");
}
rb_update_max_fd(fd2);
return rsock_init_sock(rb_obj_alloc(klass), fd2);
}
struct accept_arg {
int fd;
struct sockaddr *sockaddr;
socklen_t *len;
};
static VALUE
accept_blocking(void *data)
{
struct accept_arg *arg = data;
return (VALUE)cloexec_accept(arg->fd, arg->sockaddr, arg->len, 0);
}
VALUE
rsock_s_accept(VALUE klass, int fd, struct sockaddr *sockaddr, socklen_t *len)
{
int fd2;
int retry = 0;
struct accept_arg arg;
arg.fd = fd;
arg.sockaddr = sockaddr;
arg.len = len;
retry:
rsock_maybe_wait_fd(fd);
fd2 = (int)BLOCKING_REGION_FD(accept_blocking, &arg);
if (fd2 < 0) {
int e = errno;
switch (e) {
case EMFILE:
case ENFILE:
case ENOMEM:
if (retry) break;
rb_gc();
retry = 1;
goto retry;
default:
if (!rb_io_wait_readable(fd)) break;
retry = 0;
goto retry;
}
rb_syserr_fail(e, "accept(2)");
}
rb_update_max_fd(fd2);
if (!klass) return INT2NUM(fd2);
return rsock_init_sock(rb_obj_alloc(klass), fd2);
}
int
rsock_getfamily(rb_io_t *fptr)
{
union_sockaddr ss;
socklen_t sslen = (socklen_t)sizeof(ss);
int cached = fptr->mode & FMODE_SOCK;
if (cached) {
switch (cached) {
#ifdef AF_UNIX
case FMODE_UNIX: return AF_UNIX;
#endif
case FMODE_INET: return AF_INET;
case FMODE_INET6: return AF_INET6;
}
}
ss.addr.sa_family = AF_UNSPEC;
if (getsockname(fptr->fd, &ss.addr, &sslen) < 0)
return AF_UNSPEC;
switch (ss.addr.sa_family) {
#ifdef AF_UNIX
case AF_UNIX: fptr->mode |= FMODE_UNIX; break;
#endif
case AF_INET: fptr->mode |= FMODE_INET; break;
case AF_INET6: fptr->mode |= FMODE_INET6; break;
}
return ss.addr.sa_family;
}
void
rsock_init_socket_init(void)
{
/*
* SocketError is the error class for socket.
*/
rb_eSocket = rb_define_class("SocketError", rb_eStandardError);
rsock_init_ipsocket();
rsock_init_tcpsocket();
rsock_init_tcpserver();
rsock_init_sockssocket();
rsock_init_udpsocket();
rsock_init_unixsocket();
rsock_init_unixserver();
rsock_init_sockopt();
rsock_init_ancdata();
rsock_init_addrinfo();
rsock_init_sockifaddr();
rsock_init_socket_constants();
#undef rb_intern
sym_wait_readable = ID2SYM(rb_intern("wait_readable"));
}
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