示例#1
0
/**
 * Diameter base protocol state-machine processing.
 * This function get's called for every event. It updates the states and can trigger
 * other events.
 * @param p - the peer for which the event happened
 * @param event - the event that happened
 * @param msg - if a Diameter message was received this is it, or NULL if not
 * @param peer_locked - if the peer lock is already aquired
 * @param sock - socket that this event happened on, or NULL if unrelated
 * @returns 1 on success, 0 on error. Also the peer states are updated
 */
int sm_process(peer *p,peer_event_t event,AAAMessage *msg,int peer_locked,int sock)
{
	int result_code;
	peer_event_t next_event;
	int msg_received=0;
		
	if (!peer_locked) lock_get(p->lock);
	LM_DBG("sm_process(): Peer %.*s \tState %s \tEvent %s\n",
		p->fqdn.len,p->fqdn.s,dp_states[p->state],dp_events[event-101]);

	switch (p->state){
		case Closed:
			switch (event){
				case Start:
					p->state = Wait_Conn_Ack;
					next_event = I_Snd_Conn_Req(p);
					if (next_event==I_Rcv_Conn_NAck)
						sm_process(p,next_event,0,1,p->I_sock);
					else{
						/* wait for fd to be transmitted to the respective receiver, in order to get a send pipe opened */						
					}
					break;	
				case R_Conn_CER:
					R_Accept(p,sock);
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->R_sock);
					msg=0;
					if (result_code>=2000 && result_code<3000)
						p->state = R_Open;
					else {
						R_Disc(p);
						p->state = Closed;
					}
					log_peer_list(L_INFO);
					break;
				case Stop:
					/* just ignore this state */
					p->state = Closed;
					break;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;		
		case Wait_Conn_Ack:
			switch(event){
				case I_Rcv_Conn_Ack:
					I_Snd_CER(p);
					p->state = Wait_I_CEA;
					break;	
				case I_Rcv_Conn_NAck:
					Cleanup(p,p->I_sock);
					p->state = Closed;
					break;
				case R_Conn_CER:
					if (p->r_cer) AAAFreeMessage(&(p->r_cer));
					R_Accept(p,sock);
					result_code = Process_CER(p,msg);
					if (result_code>=2000 && result_code<3000){
						p->state = Wait_Conn_Ack_Elect;
						p->r_cer = msg;
					}
					else {
						p->state = Closed;
						AAAFreeMessage(&msg);
						R_Disc(p);
						I_Disc(p);
					}
					break;
				case Timeout:
					Error(p,p->I_sock);
					p->state = Closed;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;
			
		case Wait_I_CEA:
			switch(event){
				case I_Rcv_CEA:
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open; 												
					else {
						Cleanup(p,p->I_sock);
						p->state = Closed;
					}
					log_peer_list(L_INFO);
					break;
				case R_Conn_CER:
					if (p->r_cer) AAAFreeMessage(&(p->r_cer));
					R_Accept(p,sock);
					result_code = Process_CER(p,msg);
					if (result_code>=2000 && result_code<3000){
						p->state = Wait_Returns;
						if (Elect(p,msg)){
							// won the election = > I_Disc(), R_Send_CEA()
							LM_INFO("sm_process():Wait_I_CEA Win Elect \n");
							sm_process(p,Win_Election,msg,1,sock);
						} else {
							// lost the election => wait for I_Recv_CEA, then R_Disc()
							LM_INFO("sm_process():Wait_I_CEA Lose Elect \n");
							p->r_cer = msg;
							sm_process(p,I_Peer_Disc,0,1,p->I_sock);
						}
					}
					else{
						Snd_CEA(p,msg,result_code,p->R_sock);
						R_Disc(p);
						I_Disc(p);
						p->state=Closed;
						break;
					}					
					break;
				case I_Peer_Disc:
					I_Disc(p);
					p->state = Closed;
					break;
				case I_Rcv_Non_CEA:
					Error(p,p->I_sock);
					p->state = Closed;
					break;
				case Timeout:
					Error(p,p->I_sock);
					p->state = Closed;
					break;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;	
			
		case Wait_Conn_Ack_Elect:
			switch(event){
				case I_Rcv_Conn_Ack:
					I_Snd_CER(p);
					if (p->r_cer){
						p->state = Wait_Returns;
						if (Elect(p,p->r_cer)){
							// won the election = > I_Disc(), R_Send_CEA()
							LM_INFO("sm_process():Wait_Conn_Ack_Elect Win Elect \n");
							sm_process(p,Win_Election,p->r_cer,1,sock);
							p->r_cer = 0;
						} else {
							// lost the election => wait for I_Recv_CEA, then R_Disc()
							LM_INFO("sm_process():Wait_Conn_Ack_Elect Lose Elect \n");
							AAAFreeMessage(&p->r_cer);
						}
					} else {
						LM_ERR("sm_process():Wait_Conn_Ack_Elect, I_Rcv_Conn_Ack, No R-CER ! \n");
						p->state = Wait_I_CEA;
					}
					break;
				case I_Rcv_Conn_NAck:
					Cleanup(p,p->I_sock);
					if (p->r_cer){
						result_code = Process_CER(p,p->r_cer);
						Snd_CEA(p,p->r_cer,result_code,p->R_sock);
						p->r_cer=0;
						if (result_code>=2000 && result_code<3000)
							p->state = R_Open;
						else {
							R_Disc(p);
							p->state = Closed;
						//	p->state = R_Open; /* Or maybe I should disconnect it?*/
						}
					}else{
						LM_ERR("sm_process():Wait_Conn_Ack_Elect, I_Rcv_Conn_NAck No R-CER ! \n");
					}
					break;
				case R_Peer_Disc:
					R_Disc(p);
					p->state = Wait_Conn_Ack;
					break;
				case R_Conn_CER:
					R_Reject(p,sock);
					AAAFreeMessage(&msg);
					p->state = Wait_Conn_Ack_Elect;
					break;
				case Timeout:
					if (p->I_sock>=0) Error(p,p->I_sock);
					if (p->R_sock>=0) Error(p,p->R_sock);
					p->state = Closed;
					break;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;
			
		case Wait_Returns:
			switch(event){
				case Win_Election:
					/* this is the Win Election -> I is dropped, R is kept */
					LM_INFO("sm_process():Wait_Returns Win Elect \n");
					I_Disc(p);
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->R_sock);
					if (result_code>=2000 && result_code<3000){
						p->state = R_Open;
					}else{
						R_Disc(p);
						p->state = Closed;
					}
					break;
				case I_Peer_Disc:
					I_Disc(p);
					if (p->r_cer){
						result_code = Process_CER(p,p->r_cer);
						Snd_CEA(p,p->r_cer,result_code,p->R_sock);
						p->r_cer=0;
						if (result_code>=2000 && result_code<3000){
							p->state = R_Open;
						}else{
							R_Disc(p);
							p->state = Closed;
						}
					}else {
						LM_ERR("sm_process():Wait_Returns, I_Peer_Disc No R-CER ! \n");						
					}
					break;
				case I_Rcv_CEA:
					/* this is the Lost Election -> I is kept, R dropped */
					LM_INFO("sm_process():Wait_Returns Lost Elect \n");
					R_Disc(p);
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open; 
					else {
						Cleanup(p,p->I_sock);
						p->state = Closed;
					}
					break;
				case R_Peer_Disc:
					R_Disc(p);
					p->state = Wait_I_CEA;
					break;
				case R_Conn_CER:
					R_Reject(p,p->R_sock);
					AAAFreeMessage(&msg);
					p->state = Wait_Returns;
					break;
				case Timeout:
					if (p->I_sock>=0) Error(p,p->I_sock);
					if (p->R_sock>=0) Error(p,p->R_sock);
					p->state = Closed;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;
		case R_Open:
			switch (event){
				case Send_Message:
					Snd_Message(p,msg);
					p->state = R_Open;
					break;
				case R_Rcv_Message:
					// delayed processing until out of the critical zone
					//Rcv_Process(p,msg);
					msg_received = 1;
					p->state = R_Open;
					break;
				case R_Rcv_DWR:
					result_code = Process_DWR(p,msg);
					Snd_DWA(p,msg,result_code,p->R_sock);
					p->state = R_Open;
					break;
				case R_Rcv_DWA:
					Process_DWA(p,msg);
					p->state = R_Open;
					break;
				case R_Conn_CER:
					R_Reject(p,sock);
					AAAFreeMessage(&msg);
					p->state = R_Open;
					break;
				case Stop:
					Snd_DPR(p);
					p->state = Closing;
					break;
				case R_Rcv_DPR:
					Snd_DPA(p,msg,AAA_SUCCESS,p->R_sock);
					R_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case R_Peer_Disc:
					R_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case R_Rcv_CER:
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->R_sock);
					if (result_code>=2000 && result_code<3000)
						p->state = R_Open;
					else {
						/*R_Disc(p);p.state = Closed;*/
						p->state = R_Open; /* Or maybe I should disconnect it?*/
					}
					break;
				case R_Rcv_CEA:
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = R_Open;
					else {
						/*R_Disc(p);p.state = Closed;*/
						p->state = R_Open; /* Or maybe I should disconnect it?*/
					}
					log_peer_list(L_INFO);
					break;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;			
		case I_Open:
			switch (event){
				case Send_Message:
					Snd_Message(p,msg);
					p->state = I_Open;
					break;
				case I_Rcv_Message:
					// delayed processing until out of the critical zone
					//Rcv_Process(p,msg);
					msg_received = 1;
					p->state = I_Open;
					break;
				case I_Rcv_DWR:
					result_code = Process_DWR(p,msg);
					Snd_DWA(p,msg,result_code,p->I_sock);						
					p->state =I_Open;
					break;
				case I_Rcv_DWA:
					Process_DWA(p,msg);
					p->state =I_Open;
					break;
				case R_Conn_CER:
					R_Reject(p,sock);
					AAAFreeMessage(&msg);
					p->state = I_Open;
					break;
				case Stop:
					Snd_DPR(p);
					p->state = Closing;
					break;
				case I_Rcv_DPR:
					Snd_DPA(p,msg,2001,p->I_sock);
					I_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case I_Peer_Disc:
					I_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case I_Rcv_CER:
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->I_sock);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open;
					else {
						/*I_Disc(p);p.state = Closed;*/
						p->state = I_Open; /* Or maybe I should disconnect it?*/
					}
					break;
				case I_Rcv_CEA:
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open;
					else {
						/*I_Disc(p);p.state = Closed;*/
						p->state = I_Open; /* Or maybe I should disconnect it?*/
					}
					break;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;				
		case Closing:
			switch(event){
				case I_Rcv_DPA:
					I_Disc(p);
					p->state = Closed;
					break;
				case R_Rcv_DPA:
					R_Disc(p);
					p->state = Closed;
					break;
				case Timeout:
					if (p->I_sock>=0) Error(p,p->I_sock);
					if (p->R_sock>=0) Error(p,p->R_sock);
					p->state = Closed;
					break;
				case I_Peer_Disc:
					I_Disc(p);
					p->state = Closed;
					break;
				case R_Peer_Disc:
					R_Disc(p);
					p->state = Closed;
					break;
				default:
					LM_ERR("sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;				
	}
	if (!peer_locked) lock_release(p->lock);
	
	if (msg_received)
		Rcv_Process(p,msg);
	
	return 1;	
error:
	if (!peer_locked) lock_release(p->lock);
	return 0;	
}
示例#2
0
/**
 * Diameter base protocol state-machine processing.
 * This function get's called for every event. It updates the states and can trigger
 * other events.
 * @param p - the peer for which the event happened
 * @param event - the event that happened
 * @param msg - if a Diameter message was received this is it, or NULL if not
 * @param peer_locked - if the peer lock is already aquired
 * @param sock - socket that this event happened on, or NULL if unrelated
 * @returns 1 on success, 0 on error. Also the peer states are updated
 */
int sm_process(peer *p,peer_event_t event,AAAMessage *msg,int peer_locked,int sock)
{
	int result_code;
	peer_event_t next_event;
	int msg_received=0;
		
	if (!peer_locked) lock_get(p->lock);
	LOG(L_INFO,"DBG:sm_process(): Peer %.*s \tState %s \tEvent %s\n",
		p->fqdn.len,p->fqdn.s,dp_states[p->state],dp_events[event-101]);

	switch (p->state){
		case Closed:
			switch (event){
				case Start:
					p->state = Wait_Conn_Ack;
					next_event = I_Snd_Conn_Req(p);
					sm_process(p,next_event,0,1,p->I_sock);
					break;	
				case R_Conn_CER:
					R_Accept(p,sock);
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->R_sock);
					if (result_code>=2000 && result_code<3000)
						p->state = R_Open;
					else {
						R_Disc(p);
						p->state = Closed;
					}
					log_peer_list(L_INFO);
					break;
				case Stop:
					/* just ignore this state */
					p->state = Closed;
					break;
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;		
		case Wait_Conn_Ack:
			switch(event){
				case I_Rcv_Conn_Ack:
					I_Snd_CER(p);
					p->state = Wait_I_CEA;
					break;	
				case I_Rcv_Conn_NAck:
					Cleanup(p,p->I_sock);
					p->state = Closed;
					break;
/* Commented as not reachable*/						
				case R_Conn_CER:
					R_Accept(p,sock);
					result_code = Process_CER(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = Wait_Conn_Ack_Elect;
					else {
						p->state = Wait_Conn_Ack;
						close(sock);
					}
					break;
				case Timeout:
					Error(p,p->I_sock);
					p->state = Closed;
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;
			
		case Wait_I_CEA:
			switch(event){
				case I_Rcv_CEA:
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open; 												
					else {
						Cleanup(p,p->I_sock);
						p->state = Closed;
					}
					log_peer_list(L_INFO);
					break;
				case R_Conn_CER:
					R_Accept(p,sock);
					result_code = Process_CER(p,msg);
					p->state = Wait_Returns;
					if (Elect(p,msg))
						sm_process(p,Win_Election,msg,1,sock);
					break;
				case I_Peer_Disc:
					I_Disc(p);
					p->state = Closed;
					break;
				case I_Rcv_Non_CEA:
					Error(p,p->I_sock);
					p->state = Closed;
					break;
				case Timeout:
					Error(p,p->I_sock);
					p->state = Closed;
					break;
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;	
/* commented as not reachable */
		case Wait_Conn_Ack_Elect:
			switch(event){
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;
		case Wait_Returns:
			switch(event){
				case Win_Election:
					I_Disc(p);
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->R_sock);
					if (result_code>=2000 && result_code<3000){
						p->state = R_Open;
					}else{
						R_Disc(p);
						p->state = Closed;
					}
					break;
				case I_Peer_Disc:
					I_Disc(p);
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->R_sock);
					if (result_code>=2000 && result_code<3000){
						p->state = R_Open;
					}else{
						R_Disc(p);
						p->state = Closed;
					}
					break;
				case I_Rcv_CEA:
					R_Disc(p);
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open; 
					else {
						Cleanup(p,p->I_sock);
						p->state = Closed;
					}
					break;
				case R_Peer_Disc:
					R_Disc(p);
					p->state = Wait_I_CEA;
					break;
				case R_Conn_CER:
					R_Reject(p,p->R_sock);
					p->state = Wait_Returns;
					break;
				case Timeout:
					if (p->I_sock>=0) Error(p,p->I_sock);
					if (p->R_sock>=0) Error(p,p->R_sock);
					p->state = Closed;
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;
		case R_Open:
			switch (event){
				case Send_Message:
					Snd_Message(p,msg);
					p->state = R_Open;
					break;
				case R_Rcv_Message:
					// delayed processing until out of the critical zone
					//Rcv_Process(p,msg);
					msg_received = 1;
					p->state = R_Open;
					break;
				case R_Rcv_DWR:
					result_code = Process_DWR(p,msg);
					Snd_DWA(p,msg,result_code,p->R_sock);
					p->state = R_Open;
					break;
				case R_Rcv_DWA:
					Process_DWA(p,msg);
					p->state = R_Open;
					break;
				case R_Conn_CER:
					R_Reject(p,sock);
					p->state = R_Open;
					break;
				case Stop:
					Snd_DPR(p);
					p->state = Closing;
					break;
				case R_Rcv_DPR:
					Snd_DPA(p,msg,AAA_SUCCESS,p->R_sock);
					R_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case R_Peer_Disc:
					R_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case R_Rcv_CER:
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->R_sock);
					if (result_code>=2000 && result_code<3000)
						p->state = R_Open;
					else {
						/*R_Disc(p);p.state = Closed;*/
						p->state = R_Open; /* Or maybe I should disconnect it?*/
					}
					break;
				case R_Rcv_CEA:
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = R_Open;
					else {
						/*R_Disc(p);p.state = Closed;*/
						p->state = R_Open; /* Or maybe I should disconnect it?*/
					}
					log_peer_list(L_INFO);
					break;
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;			
		case I_Open:
			switch (event){
				case Send_Message:
					Snd_Message(p,msg);
					p->state = I_Open;
					break;
				case I_Rcv_Message:
					// delayed processing until out of the critical zone
					//Rcv_Process(p,msg);
					msg_received = 1;
					p->state = I_Open;
					break;
				case I_Rcv_DWR:
					result_code = Process_DWR(p,msg);
					Snd_DWA(p,msg,result_code,p->I_sock);						
					p->state =I_Open;
					break;
				case I_Rcv_DWA:
					Process_DWA(p,msg);
					p->state =I_Open;
					break;
				case R_Conn_CER:
					R_Reject(p,sock);
					p->state = I_Open;
					break;
				case Stop:
					Snd_DPR(p);
					p->state = Closing;
					break;
				case I_Rcv_DPR:
					Snd_DPA(p,msg,2001,p->I_sock);
					R_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case I_Peer_Disc:
					I_Disc(p);
					p->state = Closed;
					log_peer_list(L_INFO);
					break;
				case I_Rcv_CER:
					result_code = Process_CER(p,msg);
					Snd_CEA(p,msg,result_code,p->I_sock);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open;
					else {
						/*I_Disc(p);p.state = Closed;*/
						p->state = I_Open; /* Or maybe I should disconnect it?*/
					}
					break;
				case I_Rcv_CEA:
					result_code = Process_CEA(p,msg);
					if (result_code>=2000 && result_code<3000)
						p->state = I_Open;
					else {
						/*I_Disc(p);p.state = Closed;*/
						p->state = I_Open; /* Or maybe I should disconnect it?*/
					}
					break;
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;				
		case Closing:
			switch(event){
				case I_Rcv_DPA:
					I_Disc(p);
					p->state = Closed;
					break;
				case R_Rcv_DPA:
					R_Disc(p);
					p->state = Closed;
					break;
				case Timeout:
					if (p->I_sock>=0) Error(p,p->I_sock);
					if (p->R_sock>=0) Error(p,p->R_sock);
					p->state = Closed;
					break;
				case I_Peer_Disc:
					I_Disc(p);
					p->state = Closed;
					break;
				case R_Peer_Disc:
					R_Disc(p);
					p->state = Closed;
					break;
				default:
					LOG(L_DBG,"DBG:sm_process(): In state %s invalid event %s\n",
						dp_states[p->state],dp_events[event-101]);
					goto error;
			}
			break;				
	}
	if (!peer_locked) lock_release(p->lock);
	
	if (msg_received)
		Rcv_Process(p,msg);
	
	return 1;	
error:
	if (!peer_locked) lock_release(p->lock);
	return 0;	
}