VZTECH
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Dependencies: EALib EthernetInterface_vz mbed-rtos mbed
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header_main_colinas_V0-20-09-14
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VZTECH
prompt.cpp
- Committer:
- klauss
- Date:
- 2014-11-24
- Revision:
- 74:81c47fff88a5
- Parent:
- 72:895ca792c647
- Child:
- 75:bd3c647b860b
File content as of revision 74:81c47fff88a5:
#include "prompt.h"
bool flood_silence = false;
bool delayed_flood = false;
#define PVERSION 5 // Sempre atualizar a versao do prompt
char __debug_buf__[ DEBUGBUFSIZE ];
char * debug_buf = __debug_buf__;
char last_cmd[ DEBUGBUFSIZE ];
char tmp_cmd[ DEBUGBUFSIZE ] = "help";
char last_debug_buf[ DEBUGBUFSIZE ] = "help";
FILE *fip, *fmask, *fgate, *fport, *fsip, *fsport, *fext, *fserext, *fudpport, *ftcpport, *ftip, *ftport;
uint8_t debug_prompt = 0;
uint8_t bufptr = 0;
uint8_t last_bufptr = 0;
uint8_t xmemmatch(const uint8_t * s1, const uint8_t * s2, uint16_t size) {
while (size--) {
if (*s1++ != *s2++) return 0; /* does not match */
}
return 1; /* matches */
}
uint8_t xstrmatch(const uint8_t * s1, const uint8_t * s2) {
while (*s1) {
if (*s1++ != *s2++) return 0; /* does not match */
}
if ( *s2 == 0 )
return 1; /* matches */
else
return 0; /* does not match */
}
void xmemcpy(uint8_t * dest, const uint8_t * src, uint16_t size){
while (size--) *dest++ = *src++;
}
int str2uint ( char * s, unsigned int * val ){
int i = 0;
unsigned int ret = 0;
for (;;) {
if (s[i] < '0') {
*val = ret;
return i;
}
ret *= 10;
ret += s[i] - '0';
i++;
}
}
// Print the content of a given file
void cat(const char* fname){
char buff[513];
int num;
FILE *fp = fopen(fname, "r");
if (fp == NULL) {
if( debug_file ) pc.printf( "Failed to open %s", fname);
return;
}
while( ( num = fread( buff, 1, 512, fp ) ) > 0 ){
buff[ num ] = '\0';
pc.printf( buff );
if( from_eth ){
if( tcp_session ) tcp_client.send_all( buff, strlen( buff ) );
else if( udp_request ){
udp_server.sendTo( udp_client, buff, strlen( buff ) );
}
}
}
fclose(fp);
}
// operantion with the system config files
void files( const char type ){
// show files
if (type == 's' ){
//pc.printf("\n\rHeader IP " );
pc.printf("Header IP " );
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rHeader IP " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Header IP " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/myip.txt");
//pc.printf("\n\rHeader ext ");
pc.printf("Header ext ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rHeader ext " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Header ext " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/myext.txt");
//pc.printf("\n\rHeader port ");
pc.printf("Header port ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rHeader port " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Header port " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/mysipport.txt");
//pc.printf("\n\rServer IP ");
pc.printf("Server IP ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rServer IP " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Server IP " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/serverip.txt");
//pc.printf("\n\rServer ext ");
pc.printf("Server ext ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rServer ext " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Server ext " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/peerext.txt");
//pc.printf("\n\rServer port ");
pc.printf("Server port ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rServer port " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Server port " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/serverport.txt");
//pc.printf("\n\rMascara de rede ");
pc.printf("Mascara de rede ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rMascara de rede " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Mascara de rede " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/mymask.txt");
//pc.printf("\n\rGateway IP ");
pc.printf("Gateway IP ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rGateway IP " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Gateway IP " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/mygate.txt");
//pc.printf("\n\rUDP Port ");
pc.printf("UDP Port ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rUDP Port " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "UDP Port " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/udpport.txt");
//pc.printf("\n\rTCP Port ");
pc.printf("TCP Port ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rTCP Port " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "TCP Port " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/tcpport.txt");
//pc.printf("\n\rTelemetry Server IP ");
pc.printf("Telemetry Server IP ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rTelemetry Server IP " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Telemetry Server IP " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/telemetry_ip.txt");
//pc.printf("\n\rTelemetry Server Port ");
pc.printf("Telemetry Server Port ");
if( from_eth ){
//snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rTelemetry Server Port " );
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Telemetry Server Port " );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
cat("/qspi/telemetry_port.txt");
strcpy( last_cmd, tmp_cmd );
//debug_buf[ 0 ] = 0;
//bufptr = 0;
bufptr = 0;
for( uint8_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
if( tcp_session ) tcp_client.send_all( "\n\r> " , strlen( "\n\r> " ) );
else if( udp_request ){
udp_server.sendTo( udp_client, "\n\r> ", strlen( "\n\r> " ) );
}
}
if (type == 'c' ){
// close all files
fclose( fip );
fclose( fmask );
fclose( fgate );
fclose( fport );
fclose( fsip );
fclose( fsport );
fclose( fext );
fclose( fserext );
fclose( fudpport );
fclose( ftcpport );
}
if (type == 'i' ){
// Check if files exist, if not create the files
bool exists = true;
fip = fopen("/qspi/myip.txt", "r");
if( fip == NULL){
set_ip( __MY_IP__ );
exists = false;
}
fserext = fopen("/qspi/myext.txt", "r");
if( fserext == NULL ){
set_header_ext( __MY_EXT__ );
exists = false;
}
fport = fopen("/qspi/mysipport.txt", "r");
if (fport == NULL){
set_header_sip_port( __MY_PORT__ );
exists = false;
}
fsip = fopen("/qspi/serverip.txt", "r");
if (fsip == NULL){
set_server_ip( __SERVER_IP__ );
exists = false;
}
fext = fopen("/qspi/peerext.txt", "r");
if ( fext == NULL ){
set_server_ext( __PEER_EXT__ );
exists = false;
}
fsport = fopen("/qspi/serverport.txt", "r");
if (fsport == NULL){
set_server_port( __SERVER_PORT__ );
exists = false;
}
fmask = fopen("/qspi/mymask.txt", "r");
if (fmask == NULL){
set_mask( __MY_MSK__ );
exists = false;
}
fgate = fopen("/qspi/mygateway.txt", "r");
if (fgate == NULL){
set_gateway( __MY_GTW__ );
exists = false;
}
fudpport = fopen("/qspi/udpport.txt", "r" );
if( fudpport == NULL ){
set_udp_port_listener( UDP_PORT_LISTENER );
exists = false;
}
ftcpport = fopen("/qspi/tcpport.txt", "r" );
if( ftcpport == NULL ){
set_tcp_port_listener( TCP_PORT_LISTENER );
exists = false;
}
ftip = fopen("/qspi/telemetry_ip.txt", "r" );
if( ftip == NULL ){
set_telemetry_ip( __TELEMETRY_SERVER_IP__ );
exists = false;
}
ftport = fopen("/qspi/telemetry_port.txt", "r" );
if( ftport == NULL ){
set_telemetry_port( __TELEMETRY_SERVER_PORT__ );
exists = false;
}
if( !exists ){
pc.printf("\n\rDefault configurations set!\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Default configurations set!\n\r");
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
if( tcp_session ){
tcp_client.send_all( debug_buf, strlen( debug_buf ) );
//debug_buf[ 0 ] = 0;
//bufptr = 0;
bufptr = 0;
for( uint8_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
}
}
}
if (type == 'r' ){
// Just open for read
fip = fopen("/qspi/myip.txt", "r");
fmask = fopen("/qspi/mymask.txt", "r");
fgate = fopen("/qspi/mygateway.txt", "r");
fport = fopen("/qspi/mysipport.txt", "r");
fsip = fopen("/qspi/serverip.txt", "r");
fsport = fopen("/qspi/serverport.txt", "r");
fext = fopen( "/qspi/myext.txt", "r" );
fserext = fopen( "/qspi/peerext.txt", "r" );
fudpport = fopen( "/qspi/udpport.txt", "r" );
ftcpport = fopen( "/qspi/tcpport.txt", "r" );
ftip = fopen("/qspi/telemetry_ip.txt", "r" );
ftport = fopen("/qspi/telemetry_port.txt", "r" );
}
if( type == 'w'){
// Create and write the default configs
set_ip( __MY_IP__ );
set_header_sip_port( __MY_PORT__ );
set_header_ext( __MY_EXT__ );
set_server_ip( __SERVER_IP__ );
set_server_ext( __PEER_EXT__ );
set_server_port( __SERVER_PORT__ );
set_mask( __MY_MSK__ );
set_gateway( __MY_GTW__ );
set_udp_port_listener( UDP_PORT_LISTENER );
set_tcp_port_listener( TCP_PORT_LISTENER );
set_telemetry_ip( __TELEMETRY_SERVER_IP__ );
set_telemetry_port( __TELEMETRY_SERVER_PORT__ );
strcpy( last_cmd, tmp_cmd );
pc.printf("\n\rDefault configurations set!\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rDefault configurations set!\n\r");
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
if( tcp_session ){
tcp_client.send_all( debug_buf, strlen( debug_buf ) );
}else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
//debug_buf[ 0 ] = 0;
//bufptr = 0;
bufptr = 0;
for( uint8_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
}
if (type == 'e'){
//Erase configs
fip = fopen("/qspi/myip.txt", "w");
fmask = fopen("/qspi/mymask.txt", "w");
fgate = fopen("/qspi/mygateway.txt", "w");
fport = fopen("/qspi/mysipport.txt", "w");
fsip = fopen("/qspi/serverip.txt", "w");
fsport = fopen("/qspi/serverport.txt", "w");
fext = fopen( "/qspi/myext.txt", "w" );
fserext = fopen( "/qspi/peerext.txt", "w" );
fudpport = fopen( "/qspi/udpport.txt", "w" );
ftcpport = fopen( "/qspi/tcpport.txt", "w" );
ftip = fopen("/qspi/telemetry_ip.txt", "w" );
ftport = fopen("/qspi/telemetry_port.txt", "w" );
//FIXME verificar se deveria colocar tudo para %s
fprintf( fip, "%s\n\r", "" );
fprintf( fport, "%i\n\r", 0 );
fprintf( fext, "%i\n\r", 0 );
fprintf( fsip, "%s\n\r", "" );
fprintf( fserext, "%i\n\r", 0 );
fprintf( fsport, "%i\n\r", 0 );
fprintf( fmask, "%s\n\r","" );
fprintf( fgate, "%s\n\r", "" );
fprintf( fudpport, "%i\n\r", 0 );
fprintf( ftcpport, "%i\n\r", 0 );
fprintf( ftip, "%s\n\r","" );
fprintf( ftport, "%i\n\r",0 );
files('c');
pc.printf("\n\rErased configurations set!\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rErased configurations set!\n\r");
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
if( tcp_session ){
tcp_client.send_all( debug_buf, strlen( debug_buf ) );
}else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
//debug_buf[ 0 ] = 0;
//bufptr = 0;
bufptr = 0;
for( uint8_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
}
}
void init_fsystem(){
// init file system and check if files exist
if (!qspifs.isformatted()) {
qspifs.format();
pc.printf("\n\rFile system configured!!\n\r");
}
files('i'); // check if the files are created
files('c');
pc.printf("\n\r*******File System Ready*******\n\r");
}
void init_prompt(){
tcp_server.bind( TCP_PORT_LISTENER );
tcp_server.listen();
//tcp_timer.start();
tcp_server.set_blocking( false, 1 );
udp_server.set_blocking( false, 2 );
udp_server.bind( UDP_PORT_LISTENER );
pc.printf("*******Prompt eth Ready*******\n\r");
}
// main prompt process
char * prompt_process( char * msg_from_cb ){
//FIXME dar flush na serial
volatile char b = 0;
static uint8_t bufret = 0;
static Timer flood_timeout;
static Timer flood_silence_timer;
static uint8_t id_msg = 0x10;
static int start_ext, end_ext, ext_count;
bool miss_match = true;
char eth_buffer[ __PROMPT_ETH_BUFFER_SIZE__ ];
uint8_t write_buffer[ __CB_BUFFER_SIZE__ ];
if( flood_timeout.read() > 60 ){
pflood = 0;
flood_timeout.stop();
flood_timeout.reset();
}
if( tcp_timer.read() >= TCP_IDLE_MAX_TIME ){
tcp_timer.stop();
tcp_timer.reset();
tcp_session = false;
debug_buf = __debug_buf__;
bufptr = last_bufptr;
bufret = 0;
from_eth = false;
tcp_client.close();
return( NULL );
}
if( !tcp_server.accept( tcp_client ) ){
tcp_session = true;
tcp_timer.start();
last_bufptr = bufptr;
eth_buffer[ 0 ] = 0;
bufret = 0;
}
wdt.kick();
if( tcp_session ){
//if( !( (int)tcp_timer.read_ms() % 100 ) ){
tcp_client.set_blocking( false, 1 );
int n = tcp_client.receive( eth_buffer, sizeof( eth_buffer ) - 1 );
if( n > 0 ){
tcp_timer.reset();
if( ( n > 2 ) && ( eth_buffer[ n - 2 ] == '\r' ) ) eth_buffer[ n - 2 ] = 0;
if( ( n > 1 ) && ( eth_buffer[ n - 1 ] == '\n' ) ) eth_buffer[ n - 1 ] = 0;
if( ( n == 1 ) && eth_buffer[ 0 ] == 0x0A ) strcpy( eth_buffer, "\r" );
//if( eth_buffer[ 0 ] == '\r' || eth_buffer[ 1 ] == '\n' || eth_buffer[ 2 ] == 'r' || eth_buffer[ 2 ] == '\n' ) strcpy( eth_buffer, "\r" );
bufptr = strlen( eth_buffer );
debug_buf = eth_buffer;
from_eth = true;
bufret = 1;
if( !( strcmp( eth_buffer, "quit" ) ) ){
tcp_timer.reset();
debug_buf = __debug_buf__;
bufptr = last_bufptr;
from_eth = false;
tcp_session = false;
tcp_client.close();
bufret = 0;
return( NULL );
}
}else{
debug_buf = __debug_buf__;
bufptr = last_bufptr;
from_eth = false;
}
//}
}
if( !from_eth ){
if( pc.readable() ){
// imput do teclado
b = pc.getc();
if( b == 0x0D ){ // enter
bufret = 1;
}else{
pc.putc( b );
if( b == 0x08 || b == 0x7F ){ // BS | DEL
if( bufptr > 0 ) debug_buf[ --bufptr ] = 0;
}else if( b == 0x09 ){
// ignore tab
}else{
debug_buf[bufptr] = b;
bufptr++;
}
}
}
}
if( msg_from_cb ){
if( tcp_session ){
tcp_client.send_all( msg_from_cb, strlen( msg_from_cb ) );
}else if( udp_request ){
udp_server.sendTo( udp_client, msg_from_cb, strlen( msg_from_cb ) );
}
pc.printf( "\n\r%s\n\r", msg_from_cb );
}
if( flood_silence ){
if( flood_silence_timer.read_ms() > 250 ){
char cmd[ 16 ] = "flood off";
int str_end = strlen( cmd );
cmd[ str_end ] = 0x0D;
cmd[ str_end + 1 ] = 0x00;
int port = convert_ext_to_port( ext_count );
send2callboxes( __build_cb_package__( ext_count, port, __PROMPT__, cmd, id_msg++, __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
pc.printf("\r\nSilence sent to ext=%d port=%d", ext_count, port );
if( tcp_session ){
snprintf( eth_buffer, __PROMPT_ETH_BUFFER_SIZE__, "\r\nSilence sent to ext=%d port=%d", ext_count, port );
//eth_buffer[ strlen( eth_buffer ) - 1 ] = '\0';
tcp_client.send_all( eth_buffer, strlen( eth_buffer ) );
}else if( udp_request ){
snprintf( eth_buffer, __PROMPT_ETH_BUFFER_SIZE__, "\r\nSilence sent to ext=%d port=%d", ext_count, port );
//eth_buffer[ strlen( eth_buffer ) - 1 ] = '\0';
udp_server.sendTo( udp_client, eth_buffer, strlen( eth_buffer ) );
}
flood_silence_timer.reset();
if( ++ext_count > end_ext ){
flood_silence = false;
flood_silence_timer.stop();
flood_silence_timer.reset();
pc.printf("\r\n> " );
if( tcp_session ){
snprintf( eth_buffer, __PROMPT_ETH_BUFFER_SIZE__, "\r\n> " );
tcp_client.send_all( eth_buffer, strlen( eth_buffer ) );
}else if( udp_request ){
snprintf( eth_buffer, __PROMPT_ETH_BUFFER_SIZE__, "\r\n> " );
udp_server.sendTo( udp_client, eth_buffer, strlen( eth_buffer ) );
}
}
}
}
if( delayed_flood ){
tflood.start();
tflood.reset();
floodcount =0;
pflood = 1;
flood_timeout.start();
delayed_flood = false;
pc.printf("\n\rFlood ON\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Flood On\n\r" );
//debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
}
// Prompt commands here
if ( bufret == 1 ) {
static unsigned int promptcb_last_ext = 0;
static unsigned int promptcb_last_port = 0;
static char promptcb_last_cmd[ 300 ];
strcpy( tmp_cmd, debug_buf );
if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "." ) ){
miss_match = false;
strcpy( debug_buf, last_cmd );
strcpy( tmp_cmd, debug_buf );
}else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "+" ) ){
miss_match = false;
strcpy( debug_buf, "flood on" );
strcpy( tmp_cmd, debug_buf );
}else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "-" ) ){
miss_match = false;
strcpy( debug_buf, "flood off" );
strcpy( tmp_cmd, debug_buf );
}else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "++ ", 3 ) ){
miss_match = false;
delayed_flood = true;
int ext = atoi( debug_buf + 3 );
sprintf( debug_buf, "pcb %i flood on", ext );
}else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "-- ", 3 ) ){
miss_match = false;
int ext = atoi( debug_buf + 3 );
pc.printf("\n\rFlood OFF\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Flood OFF\n\r" );
//debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
pflood = 0;
tflood.stop();
flood_timeout.reset();
sprintf( debug_buf, "pcb %i flood off", ext );
}
//tratamento dos enters
if( !bufptr ){
miss_match = false;
}else if( bufptr == 1 ) {
if( debug_buf[ 0 ] == 0x0D || debug_buf[ 0 ] == 0x0D ) miss_match = false;
}
if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "ifconfig" ) ){
miss_match = false;
pc.printf("\n\r");
files('s');
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "rx" ) ){
miss_match = false;
rx = true;
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "tx" ) ){
miss_match = false;
tx = true;
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "stats" ) ){
miss_match = false;
stats = true;
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "reset_stats" ) ){
miss_match = false;
r_stats = true;
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "format" ) ){
miss_match = false;
pc.printf("\n\rFormatando o sistema de arquivos... espere o sistema reiniciar\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Not Allowed\n\r");
}else{
files('e');
files('w');
__disable_irq();
NVIC_SystemReset();
}
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "ipset ", 6 )) {
miss_match = false;
set_ip( debug_buf + 6 );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "extset ", 7 ) ){
miss_match = false;
set_header_ext( atoi( debug_buf + 7 ) );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "serextset ", 10 ) ){
miss_match = false;
set_server_ext( atoi( debug_buf + 10 ) );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "maskset ",8 ) ){
miss_match = false;
set_mask( debug_buf + 8 );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "gatewayset ",11 ) ){
miss_match = false;
set_gateway( debug_buf + 11 );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "msipport ",9 ) ){
miss_match = false;
set_header_sip_port( atoi( debug_buf + 9 ) );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "serverip ",9 ) ){
miss_match = false;
set_server_ip( debug_buf + 9 );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "ssport ",7 ) ){
miss_match = false;
set_server_port( atoi( debug_buf + 7 ) );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "telemetry_ip ", 13 ) ){
miss_match = false;
set_telemetry_ip( debug_buf + 13 );
files('s');
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "telemetry_port ", 15 ) ){
miss_match = false;
set_telemetry_port( atoi( debug_buf + 15 ) );
files('s');
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "dconfig" ) ){
miss_match = false;
files('e');
files('w');
files('s');
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "reset" ) ){
miss_match = false;
pc.printf("\n\rJob is done\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Job is done\n\r");
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
if( tcp_session ){
tcp_client.send_all( debug_buf, strlen( debug_buf ) );
tcp_client.close();
}else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
__disable_irq();
NVIC_SystemReset();
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "dog" ) ){
miss_match = false;
pc.printf("\n\r MUUUUUUUuuuuUUUUUU - I'm not a dog!!!! \n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "MUUUUUUUuuuuUUUUUU - I'm not a dog!!!!\n\r");
//debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "ls" ) ){
miss_match = false;
list = true;
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "tt" ) ){
miss_match = false;
main_test = !main_test;
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "reset_cks" ) ){
miss_match = false;
reset_cks = true;
}
//replaced by ls
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "status" ) ){
miss_match = false;
list = true;
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "types" ) ){
miss_match = false;
pc.printf( "\n\rhex :: dec :: Type \n\r0x00 :: 0 :: boot \n\r0x02 :: 2 :: registry \n\r0x04 :: 4 :: invite \n\r0x08 :: 8 :: audio \n\r0x10 :: 16 :: telemetry \n\r0x20 :: 32 :: cb_bye \n\r0x01 :: 1 :: prompt \n\r0x40 :: 64 :: flood \n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rhex :: dec :: Type \n\r0x00 :: 0 :: boot \n\r0x02 :: 2 :: registry \n\r0x04 :: 4 :: invite \n\r0x08 :: 8 :: audio \n\r0x10 :: 16 :: telemetry \n\r0x20 :: 32 :: cb_bye \n\r0x01 :: 1 :: prompt \n\r0x40 :: 64 :: flood \n\r" );
//debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "protocol" ) ){
miss_match = false;
pc.printf( "\n\r| E | E | P | P | C | C | T | [ Seq_num | Audio ] | 14[ Clock | Audio ] | [ TS | Audio ] | ... |\n\r \n\rE = Ext = Ramal\n\r \n\rP = Port = Porta\n\r \n\rC = Checksum\n\r \n\rT = Type = Tipo\n\r \n\rSeq_num = Sequence Number = Numero de sequencia\n\r \n\rClock = 14 bytes to sync\n\r \n\r... = demais __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__ bytes\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\r| E | E | P | P | C | C | T | [ Seq_num | Audio ] | 14[ Clock | Audio ] | [ TS | Audio ] | ... |\n\r \n\rE = Ext = Ramal\n\r \n\rP = Port = Porta\n\r \n\rC = Checksum\n\r \n\rT = Type = Tipo\n\r \n\rSeq_num = Sequence Number = Numero de sequencia\n\r \n\rClock = 14 bytes to sync\n\r \n\r... = demais __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__ bytes\n\r" );
//debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "flood ", 6 ) ){
if (xmemmatch( (uint8_t*)(debug_buf+6), (uint8_t*) "on", 2 ) ){
miss_match = false;
pc.printf("\n\rFlood ON\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Flood On\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
tflood.start();
tflood.reset();
floodcount =0;
pflood = 1;
flood_timeout.start();
}
if (xmemmatch( (uint8_t*)(debug_buf+6), (uint8_t*) "more", 4 ) ){
miss_match = false;
pc.printf("\n\rFlood ON\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Flood On\n\r" );
//debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
tflood.start();
tflood.reset();
floodcount = 0;
pflood = 1;
}
if (xmemmatch( (uint8_t*)(debug_buf+6), (uint8_t*) "off", 3 )) {
miss_match = false;
pc.printf("\n\rFlood OFF\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Flood Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
pflood = 0;
tflood.stop();
flood_timeout.reset();
}
}else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "silence ", 8 ) ){
miss_match = false;
char *ref, *split;
strcpy( promptcb_last_cmd, debug_buf );
if( !( strcmp( debug_buf + 8, "-h" ) && strcmp( debug_buf + 8, "--help" ) ) ){
pc.printf("\n\rUsage :: silence start_ext end_ext | start_ext must be greater than end_ext\n\rObs : ( end_ext - start_ext ) < 50 ");
if( tcp_session ){
snprintf( eth_buffer, __PROMPT_ETH_BUFFER_SIZE__, "Usage :: silence start_ext end_ext | start_ext must be greater than end_ext\n\rObs : ( end_ext - start_ext ) < 50 " );
}
}else{
ref = debug_buf;
split = strtok( debug_buf + 8, " " );
start_ext = atoi( split );
split += strlen( split ) + 1;
end_ext = atoi( split );
debug_buf = ref;
if( start_ext < end_ext && ( end_ext - start_ext ) < 50 ){
if( start_ext % 2 ) start_ext--;
if( !( end_ext % 2 ) ) end_ext++;
ext_count = start_ext;
flood_silence_timer.start();
}else{
pc.printf("\n\rUsage Error :: silence start_ext end_ext | start_ext must be greater than end_ext\n\rObs : ( end_ext - start_ext ) < 50 ");
if( tcp_session ){
snprintf( eth_buffer, __PROMPT_ETH_BUFFER_SIZE__, "Usage Error :: silence start_ext end_ext | start_ext must be greater than end_ext\n\rObs : ( end_ext - start_ext ) < 50 " );
}
}
flood_silence = true;
}
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "debug ",6 ) ){
if( xmemmatch( (uint8_t*)(debug_buf+6), (uint8_t*) "on",2 )) {
miss_match = false;
pc.printf("\n\rDebug ON\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug On\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_alive = 1;
}
if( xmemmatch( (uint8_t*)(debug_buf+6), (uint8_t*) "off",3 )) {
miss_match = false;
pc.printf("\n\rDebug OFF\n\r");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_alive = 0;
}
if( xmemmatch( (uint8_t*)(debug_buf+6), (uint8_t*) "show",4 ) ){
miss_match = false;
pc.printf("\n\rdsip");
pc.printf("\n\rdebug_alive");
pc.printf("\n\rdebug_prompt");
pc.printf("\n\rdebug_vector");
pc.printf("\n\rdebug_cb");
pc.printf("\n\rdebug_main");
pc.printf("\n\rdebug_cks");
pc.printf("\n\rdebug_cb_rx");
pc.printf("\n\rdebug_cb_tx*");
pc.printf("\n\rdebug_eth_rx*");
pc.printf("\n\rdebug_eth_tx*");
pc.printf("\n\rdebug_file");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rdsip \n\rdebug_alive \n\rdebug_prompt \n\rdebug_vector \n\rdebug_cb \n\rdebug_main \n\rdebug_cks \n\rdebug_cb_rx \n\rdebug_cb_tx* \n\rdebug_eth_rx* \n\rdebug_eth_tx* \n\rdebug_file\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
}
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "dsip ",5 ) ){
if (xmemmatch( (uint8_t*)(debug_buf + 5 ), (uint8_t*) "on",2 ) ){
miss_match = false;
pc.printf( "\n\rSip Debug ON\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Sip Debug On\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_sip = 1;
}
if (xmemmatch( (uint8_t*)(debug_buf + 5 ), (uint8_t*) "off",3 )) {
miss_match = false;
pc.printf( "\n\rSip Debug OFF\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Sip Debug Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_sip = 0;
}
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "dparallel ", 10 ) ){
if( xmemmatch( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * )"on", 2 ) ){
miss_match = false;
pc.printf( "\n\rParallel Write Debug ON\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rParallel Write Debug ON\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
dparallel = true;
}
if( xmemmatch( ( uint8_t * )( debug_buf + 10 ), ( uint8_t *)"off", 3 )) {
miss_match = false;
pc.printf( "\n\rParallel Write Debug OFF\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "\n\rParallel Write Debug OFF\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
dparallel = false;
}
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "dtelemetry ", 11 ) ){
if (xmemmatch( (uint8_t*)(debug_buf + 11 ), (uint8_t*) "on",2 ) ){
miss_match = false;
pc.printf( "\n\rTelemetry Debug ON\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "rTelemetry Debug On\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_telemetry = true;
}
if (xmemmatch( (uint8_t*)(debug_buf + 11 ), (uint8_t*) "off",3 )) {
miss_match = false;
pc.printf( "\n\rrTelemetry Debug OFF\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "rTelemetry Debug Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_telemetry = false;
}
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "debug_cks ", 10 )) {
if (xmemmatch( (uint8_t*)(debug_buf + 5 ), (uint8_t*) "on",2 )) {
miss_match = false;
pc.printf( "\n\rCKS Debug ON\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "CKS Debug On\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_cks = 1;
}
if (xmemmatch( (uint8_t*)(debug_buf + 5 ), (uint8_t*) "off",3 )) {
miss_match = false;
pc.printf( "\n\rCKS Debug OFF\n\r" );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "CKS Debug Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_cks = 0;
}
}
//promptcb ramal porta comando
//FIXME colocar a parte eth de novo
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "pcb ", 4 )) {
miss_match = false;
int ext,port;
char *split, *ref, *cmd;
ref = debug_buf;
//debug_buf[ strlen( debug_buf ) ] = 0x0D;
strcat( debug_buf, "\r" );
//debug_buf[ strlen( debug_buf ) + 1 ] = 0x00;
split = strtok( debug_buf + 4, " " );
ext = atoi( split );
port = convert_ext_to_port( ext );
split += strlen( split ) + 1;
cmd = split;
promptcb_last_ext = ext;
promptcb_last_port = port;
//int tmp = strlen( cmd );
//cmd[ tmp ] = 0x0D;
//cmd[ tmp + 1 ] = 0x00;
strcpy( promptcb_last_cmd, cmd );
//strcat( cmd, "\r\r\r" );
pc.printf("\r\next=%d port=%d\r\ncmd=%s\r\n", ext, port, cmd );
send2callboxes( __build_cb_package__( ext, port, __PROMPT__, cmd, id_msg++, __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
pc.printf("\n\rComando enviado\n\r");
if( from_eth ){
char eth_msg[ 512 ];
snprintf( eth_msg, 512 - 1, "\r\next=%d port=%d\r\ncmd=%s\r\n\n\rComando enviado\n\r", ext, port, cmd );
if( tcp_session ){
tcp_client.send_all( eth_msg, strlen( eth_msg ) );
}else if( udp_request ){
udp_server.sendTo( udp_client, eth_msg, strlen( eth_msg ) );
}
}
debug_buf = ref;
//bufptr = 0;
//debug_buf[ 0 ] = 0;
bufptr = 0;
for( uint8_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "_pcb",4 )) {
miss_match = false;
debug_buf[ bufptr++ ] = 0x0D;
debug_buf[ bufptr++ ] = 0x00;
pc.printf("\r\next=%d port=%d\r\ncmd=%s\r\n",promptcb_last_ext, promptcb_last_port, debug_buf + 4 );
send2callboxes( __build_cb_package__( promptcb_last_ext, promptcb_last_port, __PROMPT__, debug_buf + 4, id_msg++, __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
pc.printf("\n\rComando enviado\n\r");
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "cks",3 )) {
miss_match = false;
pcks_s = 1;
}
else if (xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "showcb",6 )) {
miss_match = false;
pshowcb = 1;
}
else if (xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "debug_main ", 11 )) {
if (xmemmatch( (uint8_t*)( debug_buf + 11 ), (uint8_t*) "on",2 )) {
miss_match = false;
pc.printf("\r\nDebug Main ON");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug Main On\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_main = 1;
}
if (xmemmatch( (uint8_t*)( debug_buf + 11 ), (uint8_t*) "off",3 )) {
miss_match = false;
pc.printf("\r\nDebug Main OFF");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug Main Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_main = 0;
}
}
else if (xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "debug_cb_rx ", 12 )) {
if (xmemmatch( (uint8_t*)( debug_buf + 12 ), (uint8_t*) "on",2 )) {
miss_match = false;
pc.printf("\tDebug Cbx Rx ON");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug Cbx On Rx on\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_cb_rx = 1;
}
if (xmemmatch( (uint8_t*)( debug_buf + 12 ), (uint8_t*) "off",3 )) {
miss_match = false;
pc.printf("Debug Cbx Rx OFF");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug Cbx Rx Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_cb_rx = 0;
}
}
else if (xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "debug_file ", 11 )) {
if (xmemmatch( (uint8_t*)( debug_buf + 11 ), (uint8_t*) "on",2 )) {
miss_match = false;
pc.printf("\tDebug File ON");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug File On\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_cb_rx = 1;
}
if (xmemmatch( (uint8_t*)( debug_buf + 11 ), (uint8_t*) "off",3 )) {
miss_match = false;
pc.printf("Debug File OFF");
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "Debug File Off\n\r" );
debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
debug_cb_rx = 0;
}
}
else if( xstrmatch( (uint8_t*)debug_buf, (uint8_t*) "help" )) {
miss_match = false;
pc.printf("\n\r****************************PROMPT HELP******************\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "\n\r****************************PROMPT HELP******************\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("ifconfig - mostra o arquivo de configuracao do sistema\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "ifconfig - mostra o arquivo de configuracao do sistema\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("dconfig - volta as configuracoes do sistema para o padrao de fabrica\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "dconfig - volta as configuracoes do sistema para o padrao de fabrica\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("callme [ramal porta] - envia o pedido de ligacao para o callbox com o ramal e porta indicada\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "callme [ramal porta] - envia o pedido de ligacao para o callbox com o ramal e porta indicada\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("pcb porta comando - envia o <comando> para o cbx <ramal> e <porta> executar\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "promptcb ramal porta comando - envia o <comando> para o cbx <ramal> e <porta> executar\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("format - formata o sistema de arquivos\n\r");
//desabilitado via eth
/*
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "format - formata o sistema de arquivos\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
*/
pc.printf("reset - resta o sistema\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "reset - resta o sistema\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("ipset [ip] - Configura o IP da cabeceira\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "ipset [ip] - Configura o IP da cabeceira\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("extset [ext] - Configura a ext da cabeceira\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "extset [ext] - Configura a ext da cabeceira\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("msipport [port] - Configura a porta SIP da cabeceira\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "msipport [port] - Configura a porta SIP da cabeceira\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("serverip [ip] - Configura o ip do servidor asterisk\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "serverip [ip] - Configura o ip do servidor asterisk\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("serextset [ext] - Configura a server ext da cabeceira\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "serextset [ext] - Configura a server ext da cabeceira\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("ssport [port] - Configura a porta SIP do servidor asterisk\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "ssport [port] - Configura a porta SIP do servidor asterisk\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("maskset [mask] - Configura a mascara da cabeceira\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "maskset [mask] - Configura a mascara da cabeceira\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("gatewayset [gateway] - Configura o gateway da cabeceira\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "gatewayset [gateway] - Configura o gateway da cabeceira\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("telemetry_ip - Configura o IP do servidor de telemetria\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "telemetry_ip - Configura o IP do servidor de telemetria\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("telemetry_port - Configura a port do servidor de telemetria\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "telemetry_port - Configura a port do servidor de telemetria\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("showcb - lista os Cbx registrados na header\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "showcb - lista os Cbx registrados na header\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
/*
pc.printf("status - lista resumida de cbx registrados na header\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "showcb - lista resumida de cbx registrados na header\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
*/
pc.printf("cks - exibe estatisticas de check sum\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "cks - exibe estatisticas de check sum\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("reset_cks - reseta estatisticas de check sum\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "reset_cks - reseta estatisticas de check sum\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf(". - executa o comando anterior novamente\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, ". - executa o comando anterior novamente\n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("debug [on|off|show] - seleciona debugs gerais | lista de debugs \n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "debug [on|off|show] - seleciona debugs gerais | lista de debugs \n\r" );
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("{ flood [ on | off ] | [+|-] } - simula envio de pacotes de audio\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "{ flood [ on | off ] | [+|-] } - simula envio de pacotes de audio\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("silence <start_ext end_ext> - envia comando de flood off para os ramais no intervalo end_ext - start_ext\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "silence <start_ext end_ext> - envia comando de flood off para os ramais no intervalo end_ext - start_ext\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("++ ext - Header flood on, ext flood on\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "++ ext - Header flood on, ext flood on\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("-- ext - Header flood off, ext flood off\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "++ ext - Header flood on, ext flood on\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("rx - Exibe ultimo pacote recebido dos CBx\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "rx - Exibe ultimo pacote recebido dos CBx\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("tx - Exibe ultimo pacote enviado para os CBx\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "tx - Exibe ultimo pacote enviado para os CBx\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("ls | status - Exibe uma lista ordenada por ext do CBx registrados na Header\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "ls | status - Exibe uma lista ordenada por ext do CBx registrados na Header\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("types - Lista os types usados no protocolo de comunicacao Header -- CBx\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "types - Lista os types usados no protocolo de comunicacao Header -- CBx\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("protocol - Exibe formato do pacote seguindo o protocolo de comunicacao Header -- CBx\n\r");
if( from_eth ){
snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "protocol - Exibe formato do pacote seguindo o protocolo de comunicacao Header -- CBx\n\r");
if( tcp_session ) tcp_client.send_all( debug_buf, strlen( debug_buf ) );
else if( udp_request ){
udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
}
}
pc.printf("PROMPT VERSION: V%d\n\r",PVERSION);
//Obs :: a ultima linha nao mandamos direto pro tcp porque ela eh enviada fora desse escopo
if( from_eth ) snprintf( debug_buf,__PROMPT_ETH_BUFFER_SIZE__, "PROMPT VERSION: V%d\n\r",PVERSION);
}
else if( xmemmatch( (uint8_t*)debug_buf, (uint8_t*) "callme ", 7 )){
miss_match = false;
int ext,port;
char cmd[ 16 ];
ext = atoi( debug_buf + 7 );
port = convert_ext_to_port( ext );
strcpy( cmd, ( ext % 2 ) ? "call init B" : "call init A" );
if( ext % 2 ) ext--;
promptcb_last_ext = ext;
promptcb_last_port = port;
int tmp = strlen( cmd );
cmd[ tmp ] = 0x0D;
cmd[ tmp + 1 ] = 0x00;
strcpy( promptcb_last_cmd, cmd );
pc.printf("\r\next=%d port=%d\r\ncmd=%s\r\n", ext, port, cmd );
pc.printf("\n\r--------------------------------------------------------\n\r");
for( uint16_t i = 0; i < strlen( cmd ) ; i++ ) pc.printf( "%02x ", cmd[ i ] );
send2callboxes( __build_cb_package__( ext, port, __PROMPT__, cmd, id_msg++, __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__, write_buffer ) );
pc.printf("\n\r--------------------------------------------------------\n\r");
for( uint16_t i = 0; i < 300 ; i++ ){
pc.printf( "%02x ", write_buffer[ i ] );
if( i != 0 && !( ( i + 1 ) % 30 ) ) pc.printf("\n\r");
}
pc.printf("\n\rComando enviado\n\r");
if( from_eth ){
char eth_msg[ 512 ];
snprintf( eth_msg, 512 - 1, "\r\next=%d port=%d\r\ncmd=%s\r\n\n\rComando enviado\n\r", ext, port, cmd );
if( tcp_session ){
tcp_client.send_all( eth_msg, strlen( eth_msg ) );
}else if( udp_request ){
udp_server.sendTo( udp_client, eth_msg, strlen( eth_msg ) );
}
}
bufptr = 0;
for( uint8_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
if( miss_match ){
pc.printf("\n\r> %s: command not found\n\r", debug_buf );
if( from_eth ){
snprintf( debug_buf, __PROMPT_ETH_BUFFER_SIZE__, "> %s: command not found\n ", debug_buf );
//debug_buf[ strlen( debug_buf ) - 1 ] = '\0';
}
}
else{
if( from_eth && strlen( debug_buf ) > 2 ) strcpy( last_cmd, tmp_cmd );
else if( strlen( debug_buf ) > 2 ) strcpy( last_cmd, tmp_cmd );
}
}
if( b == 0x0D || bufret == 1 || bufptr > DEBUGBUFSIZE ){
bufret = 0;
if( from_eth ){
from_eth = false;
if( debug_buf[ strlen( debug_buf ) - 1 ] == '\r' || debug_buf[ strlen( debug_buf ) - 1 ] == '\n' ) strcat( debug_buf, "> " );
else strcat( debug_buf, "\n\r> " );
if( tcp_session ){
tcp_client.send_all( debug_buf, strlen( debug_buf ) );
}else if( udp_request ){
int sent = udp_server.sendTo( udp_client, debug_buf, strlen( debug_buf ) );
udp_request = false;
}
for( register uint16_t i = 0; i < __PROMPT_ETH_BUFFER_SIZE__; i++ ) eth_buffer[ i ] = 0;
debug_buf = __debug_buf__;
bufptr = last_bufptr;
}else{
bufptr = 0;
for( uint8_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
pc.putc(0x0A);
pc.putc(0x0D);
pc.printf("> ");
}
return( NULL );
}
void set_ip( char * new_header_ip ){
fip = fopen("/qspi/myip.txt", "w");
fprintf( fip, "%s\n\r", new_header_ip );
fclose( fip );
}
void set_header_ext( int new_header_ext ){
fext = fopen( "/qspi/myext.txt", "w" );
fprintf( fext, "%i\n\r", new_header_ext );
fclose( fext );
}
void set_header_sip_port( int new_header_sip_port ){
fport = fopen("/qspi/mysipport.txt", "w");
fprintf( fport,"%i\n\r", new_header_sip_port );
fclose( fport );
}
void set_server_ip( char * new_server_ip ){
fsip = fopen("/qspi/serverip.txt", "w");
fprintf( fsip,"%s\n\r", new_server_ip );
fclose( fsip );
}
void set_server_ext( int new_server_ext ){
fserext = fopen("/qspi/peerext.txt", "w");
fprintf( fserext , "%i\n\r", new_server_ext );
fclose( fserext );
}
void set_server_port( int new_server_port ){
fsport = fopen("/qspi/serverport.txt", "w");
fprintf(fsport,"%i\n\r", new_server_port );
fclose( fsport );
}
void set_mask( char * new_mask ){
fmask = fopen("/qspi/mymask.txt", "w");
fprintf(fmask,"%s\n\r",new_mask );
fclose( fmask );
}
void set_gateway( char * new_gateway ){
fgate = fopen("/qspi/mygate.txt", "w");
fprintf(fgate,"%s\n\r", new_gateway );
fclose( fgate );
}
void set_udp_port_listener( int new_udp_port_listener ){
fudpport = fopen( "/qspi/udpport.txt", "w" );
fprintf( fudpport, "%i\n\r",new_udp_port_listener );
fclose( fudpport );
}
void set_tcp_port_listener( int new_tcp_port_listener ){
ftcpport = fopen( "/qspi/tcpport.txt", "w" );
fprintf( ftcpport, "%i\n\r",new_tcp_port_listener );
fclose( ftcpport );
}
void set_telemetry_ip( char * new_telemetry_ip ){
ftip = fopen("/qspi/telemetry_ip.txt", "w" );
fprintf(ftip,"%s\n\r", new_telemetry_ip );
fclose( ftip );
}
void set_telemetry_port( int new_telemetry_port ){
ftport = fopen("/qspi/telemetry_port.txt", "w" );
fprintf(ftport,"%i\n\r", new_telemetry_port );
fclose( ftport );
}