/**
* Called by tcp_close() to send a segment including FIN flag but not data.
*
* @param pcb the tcp_pcb over which to send a segment
* @return ERR_OK if sent, another err_t otherwise
*/
err_t
tcp_send_fin(struct tcp_pcb *pcb) {
/* first, try to add the fin to the last unsent segment */
if (pcb->unsent != NULL) {
struct tcp_seg *last_unsent;
for (last_unsent = pcb->unsent; last_unsent->next != NULL;
last_unsent = last_unsent->next);
if ((TCPH_FLAGS(last_unsent->tcphdr) & (TCP_SYN | TCP_FIN | TCP_RST)) == 0) {
/* no SYN/FIN/RST flag in the header, we can add the FIN flag */
TCPH_SET_FLAG(last_unsent->tcphdr, TCP_FIN);
return ERR_OK;
}
}
/* no data, no length, flags, copy=1, no optdata */
return tcp_enqueue_flags(pcb, TCP_FIN);
}
/**
* Connects to another host. The function given as the "connected"
* argument will be called when the connection has been established.
*
* @param pcb the tcp_pcb used to establish the connection
* @param ipaddr the remote ip address to connect to
* @param port the remote tcp port to connect to
* @param connected callback function to call when connected (or on error)
* @return ERR_VAL if invalid arguments are given
* ERR_OK if connect request has been sent
* other err_t values if connect request couldn't be sent
*/
err_t
tcp_connect(struct tcp_pcb *pcb, ip_addr_t *ipaddr, u16_t port,
tcp_connected_fn connected)
{
err_t ret;
u32_t iss;
u16_t old_local_port;
LWIP_ERROR("tcp_connect: can only connect from state CLOSED", pcb->state == CLOSED, return ERR_ISCONN);
LWIP_DEBUGF(TCP_DEBUG, ("tcp_connect to port %"U16_F"\n", port));
if (ipaddr != NULL) {
pcb->remote_ip = *ipaddr;
} else {
return ERR_VAL;
}
pcb->remote_port = port;
/* check if we have a route to the remote host */
if (ip_addr_isany(&(pcb->local_ip))) {
/* no local IP address set, yet. */
struct netif *netif = ip_route(&(pcb->remote_ip));
if (netif == NULL) {
/* Don't even try to send a SYN packet if we have no route
since that will fail. */
return ERR_RTE;
}
/* Use the netif's IP address as local address. */
ip_addr_copy(pcb->local_ip, netif->ip_addr);
}
old_local_port = pcb->local_port;
if (pcb->local_port == 0) {
pcb->local_port = tcp_new_port();
}
#if SO_REUSE
if ((pcb->so_options & SOF_REUSEADDR) != 0) {
/* Since SOF_REUSEADDR allows reusing a local address, we have to make sure
now that the 5-tuple is unique. */
struct tcp_pcb *cpcb;
int i;
/* Don't check listen- and bound-PCBs, check active- and TIME-WAIT PCBs. */
for (i = 2; i < NUM_TCP_PCB_LISTS; i++) {
for(cpcb = *tcp_pcb_lists[i]; cpcb != NULL; cpcb = cpcb->next) {
if ((cpcb->local_port == pcb->local_port) &&
(cpcb->remote_port == port) &&
ip_addr_cmp(&cpcb->local_ip, &pcb->local_ip) &&
ip_addr_cmp(&cpcb->remote_ip, ipaddr)) {
/* linux returns EISCONN here, but ERR_USE should be OK for us */
return ERR_USE;
}
}
}
}
#endif /* SO_REUSE */
iss = tcp_next_iss();
pcb->rcv_nxt = 0;
pcb->snd_nxt = iss;
pcb->lastack = iss - 1;
pcb->snd_lbb = iss - 1;
pcb->rcv_wnd = TCP_WND;
pcb->rcv_ann_wnd = TCP_WND;
pcb->rcv_ann_right_edge = pcb->rcv_nxt;
pcb->snd_wnd = TCP_WND;
/* As initial send MSS, we use TCP_MSS but limit it to 536.
The send MSS is updated when an MSS option is received. */
pcb->mss = (TCP_MSS > 536) ? 536 : TCP_MSS;
#if TCP_CALCULATE_EFF_SEND_MSS
pcb->mss = tcp_eff_send_mss(pcb->mss, ipaddr);
#endif /* TCP_CALCULATE_EFF_SEND_MSS */
pcb->cwnd = 1;
pcb->ssthresh = pcb->mss * 10;
#if LWIP_CALLBACK_API
pcb->connected = connected;
#else /* LWIP_CALLBACK_API */
LWIP_UNUSED_ARG(connected);
#endif /* LWIP_CALLBACK_API */
/* Send a SYN together with the MSS option. */
ret = tcp_enqueue_flags(pcb, TCP_SYN);
if (ret == ERR_OK) {
/* SYN segment was enqueued, changed the pcbs state now */
pcb->state = SYN_SENT;
if (old_local_port != 0) {
TCP_RMV(&tcp_bound_pcbs, pcb);
}
TCP_REG(&tcp_active_pcbs, pcb);
snmp_inc_tcpactiveopens();
tcp_output(pcb);
}
return ret;
}
