VZTECH
voltando a versao de n aberturas e fechamentos de sockets data 19/09
Dependencies: EthernetInterface NTPClient mbed-rtos mbed EALib
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VZTECH
main.cpp
- Committer:
- klauss
- Date:
- 2014-09-09
- Revision:
- 0:4d17cd9c8f9d
- Child:
- 1:a1758104fa1d
File content as of revision 0:4d17cd9c8f9d:
#include "bits.h"
#include "utils.h"
#include "configs.h"
#include "UART3Interrupt.h"
#include "parallelcpld.h"
#include "debug.h"
#include "utils.h"
// for aditional debugs
#define on_work
/*
#define set_status(a,b) _set_status(a,b)
#define _set_status(a,b) { \
a = b; \
sprintf( debug_msg, "-- State == %d -- Line %d", a, __LINE__ ); \
debug.sendTo( debug_server, debug_msg, strlen( debug_msg ) ); \
}
#define whereami() _whereami()
#define _whereami() { \
sprintf( debug_msg, "-- whereami %d", __LINE__ ); \
debug.sendTo( debug_server, debug_msg, strlen( debug_msg ) ); \
}
*/
volatile uint8_t status = 0x00;
bool debug_bool = true;
int main(){
start_cpld();
config_lpc();
/* referencia e inicio da conexao com a ethernet */
EthernetInterface eth;
__init_eth__( ð );
/* debugs */
debug_server.set_address( "192.168.120.144", 9897 );
debug.bind( 72133 );
debug.init();
Timer t;
Timer reboot;
t.start();
/* representa ramal do call box */
int ext = 0;
/* representa porta do call box */
int port = 0;
/* buffer para onde se copia os dados vindos do cb para tratameno interno */
uint8_t buffer[ __CB_BUFFER_SIZE__ ];
/* buffer de escrita do pacote de saida que sera enviado pro cb / servidor */
uint8_t write_buffer[ __CB_BUFFER_SIZE__ ];
/* ponteiro que aponta para os dados vindo do CPLD */
uint8_t * buffer_from_cb_ptr = ( uint8_t * )RXBuffer;
/* referencia para os dados contidos no pacote, sem o header */
uint8_t * data = NULL;
/* gerencia o tipo do pacote para providenciar tratamento adequado */
volatile uint8_t type = __DO_NOTHING__;
/* representa a lista dos Call Boxes atualmente reconhecidos pela cabeceira */
Vector * v_cb = new Vector();
/* representa a lista de ligacoes ativas na cabeceira */
Vector * v_call = new Vector();
/* gerencia a distribuicao de timeslice para os call boxes */
Timeslice * ts = new Timeslice();
/* tenta instanciar o vetor de call boxes, acende o led 1 antes de encerrar o programa */
reset_leds();
if( v_cb == NULL ){
led1 = 0;
while( v_cb == NULL ){
Vector * v_cb = new Vector();
led1 = led1;
if( t.read() > 5 ){
debug_msg("Erro ao alocar o vetor de CBx");
t.reset();
}
}
}else if( v_call == NULL ){
led2 = 0;
led1 = 1;
while( v_call == NULL ){
Vector * v_call = new Vector();
led1 = led1;
if( t.read() > 5 ){
debug_msg("Erro ao alocar o vetor de Calls");
t.reset();
}
}
}
reset_leds();
reboot.start();
debug_msg( " Ready " );
char test_buffer[400];
UDPSocket test_sock;
Endpoint test_server;
test_server.set_address( "192.168.120.144" , 12345 );
test_sock.set_blocking( false, 1 );
test_sock.bind( 78965 );
test_sock.init();
int n = 0;
strcpy( test_buffer, "a");
test_sock.sendTo( test_server, test_buffer, sizeof( test_buffer ) );
Timer reconnect;
reconnect.start();
while( true ){
n = test_sock.receiveFrom( test_server, test_buffer, sizeof( test_buffer ) );
if( n > 0 ){
test_sock.sendTo( test_server, test_buffer, n );
reconnect.reset();
}else if( reconnect.read() > 1 ){
test_sock.close();
test_sock.bind( 78965 );
test_sock.init();
reconnect.reset();
test_sock.sendTo( test_server, test_buffer, n );
led4 = !led4;
}
if( status != __WAITING__ ){
__read_cb_buffer__( buffer, buffer_from_cb_ptr );
status = __WAITING__;
data = __parse_cb_buffer__( &ext, &port, &type, buffer );
if( data != NULL ){
if( type == __CB_BYE__ ){
debug_msg("--> %s <--", buffer);
}
if( type != __AUDIO__ ){
Call_Box * cb = __find_CB__( v_cb, ext );
if( cb != NULL ){
if( ( data[ 0 ] ^ cb->get_msg_id() ) == BIT7 ){
// some pkg reply
if( ( data[ 0 ] | BIT7 ) == cb->get_msg_id() ){
if( type == __BOOT__ ) type = __REGISTRY__;
__send_to_cb__( __build_cb_package__( ext, port, type,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
type = __DO_NOTHING__;
debug_msg("-- Renviado ultimo pkg --");
}else if( data[ 0 ] == ( cb->get_msg_id() | BIT7 ) ){
// ack from CBx
type = __DO_NOTHING__;
debug_msg("-- ACK do meu pkg --");
}
}
}
}
}else type = __DO_NOTHING__;
/*
if( data == NULL ) type = __DO_NOTHING__;
*/
}
//----------------------
if( t.read() > 5 ){
for( register uint8_t i = 0; i < v_cb->size(); i++ ){
Call_Box * cb = ( Call_Box * )v_cb->get_element( i );
debug_msg(" Type :: %d -- Ext :: %d -- TimeSlice :: %d -- remain_timeslices :: %d :: v_call->size() :: %d :: Status :: %d :: SIP Status %d", type , cb->get_ext(), cb->get_timeslice(), ts->remain_timeslices(), v_call->size(), cb->status, cb->sip->status );
}
t.reset();
led3 = !led3;
}
if( reboot.read() > 180 ){
for( register uint8_t i = 0; i < v_cb->size(); i++ ){
Call_Box * cb = ( Call_Box * )v_cb->get_element( i );
cb->set_timeslice( 0x00 );
set_status(cb->status,cb_idle);
set_status( cb->sip->status, sip_idle );
debug_msg( "Erased >> Type :: %d -- Ext :: %d -- TimeSlice :: %d -- remain_timeslices :: %d :: v_call->size() :: %d :: Status :: %d", type , cb->get_ext(), cb->get_timeslice(), ts->remain_timeslices(), v_call->size(), cb->status );
}
for( register uint8_t i = 0; i < v_call->size(); i++ ){
VZ_call * call = ( VZ_call * )v_call->get_element( i );
v_call->remove_element( i );
delete( call );
}
reboot.reset();
led4 = !led4;
}
//----------------------
switch( type ){
case __DO_NOTHING__ :{}
break;
case __CB_BYE__ : {
Call_Box * cb = __find_CB__( v_cb, ext );
if( cb != NULL ){
data[ 0 ] |= BIT7;
cb->set_msg_id( data[ 0 ] );
debug_msg( " Request bye from CBx " );
for( register uint8_t i = 0; i < v_call->size(); i++ ){
VZ_call * call = (VZ_call *)v_call->get_element( i );
if( call->get_cb_ext() == ext ){
ts->return_timeslice( cb->get_timeslice() );
cb->set_timeslice( 0x00 );
set_status( cb->status, cb_idle );
v_call->remove_element( i );
cb->send_bye();
set_status( cb->sip->status, sip_idle);
data[ __TIMESLICE_PLACE__ ] = 0x00;
__send_to_cb__( __build_cb_package__( ext, port, __CB_BYE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
set_status( cb->sip->status, sip_idle );
}
}
}
}break;
case __INVITE__ : {
#ifndef on_work
// invite de uma ligacao em andamento ?
Call_Box * cb = __find_CB__( v_cb, ext );
if( cb != NULL ){
cb->reset_elapsed_time();
if( cb->status == cb_on_call ){
VZ_call * vz = __find_Call__( v_call, cb->get_ext() );
if( vz != NULL ) break;
ts->return_timeslice( cb->get_timeslice() );
cb->set_timeslice( 0x00 );
set_status(cb->status,cb_idle);
}
}else{
cb = new Call_Box( ext, port );
v_cb->add( cb );
}
if( cb->status != cb_on_call ) set_status(cb->status,cb_ringing);
if( data[ __TIMESLICE_PLACE__ ] == __CB_BYE__ ){
if( cb->status == cb_on_call ){
for( register uint8_t i = 0; i < v_call->size(); i++ ){
if( ( (VZ_call *)v_call->get_element( i ) )->get_cb_ext() == ext ){
v_call->remove_element( i );
ts->return_timeslice( cb->get_timeslice() );
cb->set_timeslice( 0x00 );
set_status(cb->status,cb_idle);
cb->send_bye();
break;
}
}
}
}
if( cb->status == cb_ringing ){
data[ 0 ] |= BIT7;
cb->set_msg_id( data[ 0 ] );
cb->set_timeslice( ts->get_timeslice() );
if( cb->get_timeslice() == 0x00 ){
set_status(cb->status,cb_idle);
data[ __CLOCK_SYNC_SIZE__ ] = 0x00;
__send_to_cb__( __build_cb_package__( ext, port, __INVITE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
break;
}
if( cb->status == cb_ringing ){
data[ __CLOCK_SYNC_SIZE__ ] = cb->get_timeslice();
__send_to_cb__( __build_cb_package__( ext, port, __INVITE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
VZ_call * call = cb->invite();
if( call != NULL ){
v_call->add( call );
set_status(cb->status,cb_on_call);
data[ __CLOCK_SYNC_SIZE__ ] = cb->get_timeslice();
__send_to_cb__( __build_cb_package__( ext, port, __INVITE__,
( char * )data, cb->get_msg_id()+1, __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
}else{
set_status(cb->status,cb_idle);
ts->return_timeslice( cb->get_timeslice() );
data[ __CLOCK_SYNC_SIZE__ ] = 0x00;
__send_to_cb__( __build_cb_package__( ext, port, __INVITE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
}
}
}
}break;
#endif
#ifdef on_work
Call_Box * cb = __find_CB__( v_cb, ext );
if( cb == NULL ){
cb = new Call_Box( ext, port );
v_cb->add( cb );
set_status( cb->status, cb_idle );
cb->registry();
}
cb->reset_elapsed_time();
set_status( cb->status, cb_trying );
debug_msg(" Ok temos um cbx encontrado com status :: %d", cb->status );
switch( cb->status ){
case cb_on_call : {
// a priori, nao fazer nada
//data[ __TIMESLICE_PLACE__ ] = 0x00;
//__send_to_cb__( __build_cb_package__( ext, port, __BYE__,
// ( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
}break;
case cb_ringing : {
// tratar sip 2
}break;
case cb_trying : {
data[ 0 ] |= BIT7;
cb->set_msg_id( data[ 0 ] );
cb->set_timeslice( ts->get_timeslice() );
if( cb->get_timeslice() == 0x00 ){
//sem timeslice pra tratar com o *
set_status(cb->status,cb_idle);
data[ __TIMESLICE_PLACE__ ] = 0x00;
__send_to_cb__( __build_cb_package__( ext, port, __INVITE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
set_status( cb->sip->status, sip_idle);
debug_msg( "-- Trying -- Sem TS -- %s ", write_buffer );
}else{
set_status(cb->status,cb_busy);
data[ __TIMESLICE_PLACE__ ] = cb->get_timeslice();
__send_to_cb__( __build_cb_package__( ext, port, __INVITE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
debug_msg(" -- %d on %d -- ", cb->get_ext(), data[ __TIMESLICE_PLACE__ ] );
cb->set_msg_id( ( ( cb->get_msg_id() ) + 1 ) & ( BIT7 ^ 0xff ) );
VZ_call * call = cb->invite();
if( call != NULL ){
v_call->add( call );
set_status(cb->status,cb_on_call);
debug_msg(" -- %d on %d -- ", cb->get_ext(), data[ __TIMESLICE_PLACE__ ] );
__send_to_cb__( __build_cb_package__( ext, port, __INVITE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
debug_msg( "-- Trying -- aceitando pedido de invite -- %s ", write_buffer );
//debug_pkg( 300, write_buffer );
}else{
set_status(cb->status,cb_idle);
ts->return_timeslice( cb->get_timeslice() );
cb->set_timeslice( 0x00 );
data[ __TIMESLICE_PLACE__ ] = 0x00;
debug_msg(" -- %d on %d -- ", cb->get_ext(), data[ __TIMESLICE_PLACE__ ] );
__send_to_cb__( __build_cb_package__( ext, port, __CB_BYE__,
( char * )data, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
debug_msg( "-- Trying -- Negando pedido de invite -- %s ", write_buffer );
set_status( cb->sip->status, sip_idle);
}
}
}break;
case cb_busy : {
// tratar sip
}break;
}
}break;
#endif
case __REGISTRY__ :
{
Call_Box * cb;
data[ 0 ] |= BIT7;
cb = __find_CB__( v_cb, ext );
if( cb != NULL ){
cb->reset_elapsed_time();
}else{
cb = new Call_Box( ext, port );
v_cb->add( cb );
}
cb->registry();
}break;
case __BOOT__ :
__send_to_cb__( __build_cb_package__( ext, port, __REGISTRY__,
( char * )data, data[ 0 ], __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
break;
case __TELEMETRY__ :
debug_msg("Leitura da bateria :: ( Id : %x, MSB : %x, LSB : %x )", data[ 0 ], data[ 1 ], data[ 2 ] );
break;
case __AUDIO__ : {
Call_Box * cb;
VZ_call * call = NULL;
cb = NULL;
call = __find_Call__( v_call, ext );
if( call != NULL ){
//debug_( 240, data );
//debug_pkg( 242, data );
//char * pkg = call->build_eth_package( oitocentos );
//char * pkg = call->build_eth_package( data );
char * pkg = call->build_eth_package( data + 2 );
call->send_message( pkg );
cb = __find_CB__( v_cb, ext );
if( cb != NULL ) cb->reset_elapsed_time();
}
}break;
}// fim switch
for( register int i = 0; i < v_call->size(); i++ ){
VZ_call * call = ( VZ_call * )v_call->get_element( i );
int length = 0;
char * tmp = call->get_eth_message( &length );
if( tmp != NULL ){
Call_Box * cb = NULL;
int cb_port = 0xffff;
cb = __find_CB__( v_cb, call->get_cb_ext() );
if( cb != NULL ) cb_port = cb->get_port();
uint8_t * pkg2cb = __build_cb_package__( call->get_cb_ext(), cb_port, __AUDIO__,
tmp, __AUDIO__, length, write_buffer );
__send_to_cb__( pkg2cb );
}
}
//nessa funcao eu deveria me registar a cada 2 min por exemplo
registry_aging( v_cb, data, write_buffer );
int ret = sip_manager( v_cb, v_call, write_buffer );
if( ret > 0x00 ){
Call_Box * cb = __find_CB__( v_cb, ret );
if( cb->status == cb_on_call ){
ts->return_timeslice( cb->get_timeslice() );
cb->set_timeslice( 0x00 );
set_status(cb->status,cb_idle);
buffer[ __TIMESLICE_PLACE__ ] = 0x00;
cb->set_msg_id( ( ( cb->get_msg_id() ) + 1 ) & ( BIT7 ^ 0xff ) );
for( register uint8_t i = 0; i < v_call->size(); i++ ){
VZ_call * call = ( VZ_call * )v_call->get_element( i );
v_call->remove_element( i );
}
__send_to_cb__( __build_cb_package__( ext, port, __CB_BYE__,
( char * )buffer, cb->get_msg_id(), __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
set_status( cb->sip->status, sip_idle );
}
}
call_manager( v_call, v_cb, data, write_buffer, ts );
static uint8_t flag = 0;
if( v_call->size() == 0 ){
if (flag == 0) { flag = 1; }
ts->reset();
}else {
if (flag == 1) { flag = 0; }
}
/* eu deveria tirar ts que nao constam em chamadas aqui */
for( register uint8_t i = 0; i < v_cb->size(); i++ ){
Call_Box * cb = ( Call_Box * )v_cb->get_element( i );
if( cb->get_timeslice() != 0x00 ){
VZ_call * call = __find_Call__( v_call, cb->get_ext() );
if( call == NULL ){
ts->return_timeslice( cb->get_timeslice() );
cb->set_timeslice( 0x00 );
set_status(cb->status,cb_idle);
}
}
}
type = __DO_NOTHING__;
}
}