static void
setlport(Conv *c)
{
if(c->restricted == 0 && c->lport == 0)
return;
so_bind(c->sfd, c->restricted, c->lport);
}
/*
* pick a local port and set it
*/
static void
setlport(Conv *c)
{
uchar laddr[IPaddrlen];
ushort p;
so_bind(c->sfd, c->restricted, c->laddr, c->lport);
if(c->lport == 0 || ipcmp(c->laddr, IPnoaddr) == 0){
so_getsockname(c->sfd, laddr, &p);
if(c->lport == 0)
c->lport = p;
if(ipcmp(c->laddr, IPnoaddr) == 0)
memmove(c->laddr, laddr, sizeof laddr);
}
}
static void test_tcp_server(void)
{
int re;
int sd;
int reader = 0;
char buf[5];
struct sockaddr_in sa;
struct sockaddr_in sa2;
socklen_t sa_len;
printf("[tcp(server)] start\n");
sd = so_socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
if ( sd < 0 ) {
goto error;
}
DEBUG_PRINT(("server_task: so_socket = %d(%d, %d)\n", sd, MERCD(sd), SERCD(sd)));
bzero(&sa, sizeof sa);
sa.sin_family = AF_INET;
sa.sin_addr.s_addr = htonl(INADDR_ANY);
sa.sin_port = htons(12345);
re = so_bind(sd, (struct sockaddr*)&sa, sizeof sa);
DEBUG_PRINT(("server_task: so_bind = %d(%d, %d)\n", re, MERCD(re), SERCD(re)));
if ( re < 0 ) {
goto error;
}
re = so_listen(sd, 5);
DEBUG_PRINT(("server_task: so_listen = %d(%d, %d)\n", re, MERCD(re), SERCD(re)));
if ( re < 0 ) {
goto error;
}
tk_sig_sem(semid, 1);
DEBUG_PRINT(("server_task: server semaphore signaled 1\n"));
reader = so_accept(sd, (struct sockaddr*)&sa2, &sa_len);
DEBUG_PRINT(("server_task: so_accept = %d(%d, %d)\n", reader, MERCD(reader), SERCD(reader)));
if ( reader < 0 ) {
goto error;
}
wait_data(reader);
bzero(buf, sizeof buf);
re = so_sockatmark(reader);
DEBUG_PRINT(("server_task: so_sockatmark = %d(%d, %d)\n", re, MERCD(re), SERCD(re)));
if ( re < 0 ) {
goto error;
}
re = so_read(reader, buf, 4);
DEBUG_PRINT(("server_task: so_read = %d(%d, %d), buf = %s\n", re, MERCD(re), SERCD(re), buf));
if ( re < 0 || memcmp(buf, "1234", 4) != 0 ) {
goto error;
}
wait_data(reader);
bzero(buf, sizeof buf);
re = so_sockatmark(reader);
DEBUG_PRINT(("server_task: so_sockatmark = %d(%d, %d)\n", re, MERCD(re), SERCD(re)));
if ( re < 0 ) {
goto error;
}
re = so_recv(reader, buf, 4, MSG_OOB);
DEBUG_PRINT(("server_task: so_recv = %d(%d, %d), buf = %s\n", re, MERCD(re), SERCD(re), buf));
if ( re < 0 || buf[0] != 'a' ) {
goto error;
}
tk_sig_sem(semid2, 1);
DEBUG_PRINT(("server_task: server semaphore for break signaled 2\n"));
DEBUG_PRINT(("server_task: pre-accept for break\n"));
re = so_accept(sd, (struct sockaddr*)&sa2, &sa_len);
DEBUG_PRINT(("server_task: so_accept = %d(%d, %d)\n", re, MERCD(re), SERCD(re)));
if ( re != EX_INTR ) {
goto error;
}
so_close(reader);
so_close(sd);
printf("[tcp(server)] OK\n");
return;
error:
printf("[tcp(server)] FAILED\n");
if ( sd > 0 ) {
so_close(sd);
}
if ( reader > 0 ) {
so_close(reader);
}
tk_del_sem(semid2);
return;
}
BOOL cg_socket_bind(CgSocket *sock, int bindPort, char *bindAddr, BOOL bindFlag, BOOL reuseFlag)
{
#if defined(BTRON) || defined(TENGINE)
struct sockaddr_in sockaddr;
ERR ret;
#elif defined(ITRON)
T_UDP_CCEP udpccep = { 0, { IPV4_ADDRANY, UDP_PORTANY }, (FP)cg_socket_udp_callback };
T_TCP_CREP tcpcrep = { 0, { IPV4_ADDRANY, 0 } };
T_TCP_CCEP tcpccep = { 0, sock->sendWinBuf, CG_NET_SOCKET_WINDOW_BUFSIZE, sock->recvWinBuf, CG_NET_SOCKET_WINDOW_BUFSIZE, (FP)cg_socket_tcp_callback };
#else
struct addrinfo *addrInfo;
int ret;
#endif
cg_log_debug_l4("Entering...\n");
if (bindPort <= 0 /* || bindAddr == NULL*/)
return FALSE;
#if defined(BTRON) || (defined(TENGINE) && !defined(CG_TENGINE_NET_KASAGO))
if (cg_socket_tosockaddrin(bindAddr, bindPort, &sockaddr, bindFlag) == FALSE)
return FALSE;
cg_socket_setid(sock, so_socket(PF_INET, cg_socket_getrawtype(sock), 0));
if (sock->id < 0)
return FALSE;
if (reuseFlag == TRUE) {
if (cg_socket_setreuseaddress(sock, TRUE) == FALSE) {
cg_socket_close(sock);
return FALSE;
}
}
ret = so_bind(sock->id, (SOCKADDR *)&sockaddr, sizeof(struct sockaddr_in));
if (ret < 0) {
cg_socket_close(sock);
return FALSE;
}
#elif defined(TENGINE) && defined(CG_TENGINE_NET_KASAGO)
if (cg_socket_tosockaddrin(bindAddr, bindPort, &sockaddr, bindFlag) == FALSE)
return FALSE;
cg_socket_setid(sock, ka_socket( PF_INET, cg_socket_getrawtype(sock), cg_socket_getprototype(sock)));
if (sock->id < 0)
return FALSE;
/*
if (cg_socket_setmulticastinterface(sock, bindAddr) == FALSE)
return FALSE;
*/
if (reuseFlag == TRUE) {
if (cg_socket_setreuseaddress(sock, TRUE) == FALSE) {
cg_socket_close(sock);
return FALSE;
}
}
ret = ka_bind(sock->id, (struct sockaddr *)&sockaddr, sizeof(struct sockaddr_in));
if (ret < 0) {
cg_socket_close(sock);
return FALSE;
}
#elif defined(ITRON)
cg_socket_setid(sock, cg_socket_getavailableid(cg_socket_issocketstream(sock)));
if (sock->id < 0)
return FALSE;
if (cg_socket_issocketstream(sock) == TRUE) {
if (bindAddr != NULL)
tcpcrep.myaddr.ipaddr = ascii_to_ipaddr(bindAddr);
tcpcrep.myaddr.ipaddr = htons(bindPort);
if (tcp_cre_rep(sock->id, &tcpcrep) != E_OK) {
cg_socket_close(sock);
return FALSE;
}
if (tcp_cre_cep(sock->id, &tcpccep) != E_OK) {
cg_socket_close(sock);
return FALSE;
}
}
else {
if (bindAddr != NULL)
udpccep.myaddr.ipaddr = ascii_to_ipaddr(bindAddr);
udpccep.myaddr.ipaddr = htons(bindPort);
if (udp_cre_cep(sock->id, &udpccep) != E_OK) {
cg_socket_close(sock);
return FALSE;
}
}
#else
if (cg_socket_tosockaddrinfo(cg_socket_getrawtype(sock), bindAddr, bindPort, &addrInfo, bindFlag) == FALSE)
return FALSE;
cg_socket_setid(sock, socket(addrInfo->ai_family, addrInfo->ai_socktype, 0));
if (sock->id== -1) {
cg_socket_close(sock);
return FALSE;
}
if (reuseFlag == TRUE) {
if (cg_socket_setreuseaddress(sock, TRUE) == FALSE) {
cg_socket_close(sock);
return FALSE;
}
}
ret = bind(sock->id, addrInfo->ai_addr, addrInfo->ai_addrlen);
freeaddrinfo(addrInfo);
#endif
#if !defined(ITRON)
if (ret != 0)
return FALSE;
#endif
cg_socket_setdirection(sock, CG_NET_SOCKET_SERVER);
cg_socket_setaddress(sock, bindAddr);
cg_socket_setport(sock, bindPort);
cg_log_debug_l4("Leaving...\n");
return TRUE;
}
