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VZTECH
prompt.cpp
- Committer:
- klauss
- Date:
- 2015-09-01
- Revision:
- 132:05cd37f7e007
- Parent:
- 131:938ab88facae
- Child:
- 133:3d136f5ffd66
File content as of revision 132:05cd37f7e007:
#include "prompt.h"
bool flood_silence = false;
bool delayed_flood = false;
int start_ext =0;
int end_ext = 0;
int ext_count = 0;
Timer tcp_timer;
bool tcp_alive = false;
bool serial_pc_pending = false;
volatile char b = 0;
uint8_t bufret = 0;
char __debug_buf__[ DEBUGBUFSIZE ];
char * debug_buf = __debug_buf__;
char last_cmd[ DEBUGBUFSIZE ];
char tmp_cmd[ DEBUGBUFSIZE ] = "help";
char last_debug_buf[ DEBUGBUFSIZE ] = "help";
char eth_buffer[ PROMPT_ETH_BUFFER_SIZE ];
char eth_udp_buffer[ PROMPT_ETH_BUFFER_SIZE ];
char gp_buff[ DEBUGBUFSIZE ];
uint8_t prompt_write_buffer [ CB_BUFFER_SIZE ];
uint16_t bufptr = 0;
uint16_t last_bufptr = 0;
Timer flood_timeout;
Timer flood_silence_timer;
uint8_t id_msg = 0x10;
char *
prompt_process ( char * msg_from_cb, int length )
{
char eth_buffer [ PROMPT_ETH_BUFFER_SIZE ];
if ( id_msg < 0x11 ) id_msg = 0x11;
if( flood_timeout.read() > 60 ) {
pflood = 0;
flood_timeout.stop();
flood_timeout.reset();
}
if( tcp_timer.read() >= TCP_IDLE_MAX_TIME ) {
tcp_alive = false;
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( udp_query ) {
if( msg_from_cb != NULL ) {
last_bufptr = bufptr;
if( ( length > 2 ) && ( msg_from_cb[ length - 2 ] == '\r' ) ) msg_from_cb[ length - 2 ] = 0;
if( ( length > 1 ) && ( msg_from_cb[ length - 1 ] == '\n' ) ) msg_from_cb[ length - 1 ] = 0;
if( ( length == 1 ) && msg_from_cb[ 0 ] == 0x0A ) strcpy( msg_from_cb, "\r" );
bufptr = strlen( msg_from_cb );
debug_buf = msg_from_cb;
from_eth = true;
bufret = 1;
}
} else {
if ( !tcp_server.accept ( tcp_client ) ) {
tcp_session = true;
tcp_timer.start ();
last_bufptr = bufptr;
for ( register int i = 0; i < PROMPT_ETH_BUFFER_SIZE; i++ ) eth_buffer [ i ] = 0;
}
if ( tcp_session && !udp_query ) {
tcp_client.set_blocking ( false, 0 );
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> " );
bufptr = strlen( eth_buffer );
debug_buf = eth_buffer;
from_eth = true;
bufret = 1;
if ( n > 2 )
{
char tmp[] = "> ";
while ( !( tcp_client.send_all ( tmp, strlen ( tmp ) ) ) );
}
if( !( strcmp( eth_buffer, "quit" ) ) ) {
tcp_timer.stop();
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 ) && ( !udp_query ) ) {
if( pc.readable() ) {
b = pc.getc();
if( b == 0x0D ) {
// enter
bufret = 1;
if ( debug_uart3 ) serial_pc_pending = true;
// formatação manual da saída
if ( bufptr > 0 ) serial_pc.printf ( "%s","\r\n> " );
} 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++;
}
last_bufptr = bufptr;
}
}
}
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, prompt_write_buffer ) );
vz_printf ("Silence sent to ext=%d port=%d", ext_count, port );
flood_silence_timer.reset();
// importante para o uso da funçao silence
if( ++ext_count > end_ext ) {
flood_silence = false;
flood_silence_timer.stop();
flood_silence_timer.reset();
if( debug_uart3 && !( from_eth ) ) pc.printf("\r\n> " );
if( tcp_session && !udp_query ) {
snprintf( eth_buffer, PROMPT_ETH_BUFFER_SIZE, "\r\n> " );
tcp_client.send_all( eth_buffer, strlen( eth_buffer ) );
} else if( udp_query ) {
snprintf( eth_buffer, PROMPT_ETH_BUFFER_SIZE, "\r\n> " );
udp_query_send_msg( eth_buffer );
}
}
}
}
if ( delayed_flood )
{
tflood.start();
tflood.reset();
floodcount =0;
pflood = 1;
flood_timeout.start();
delayed_flood = false;
if( debug_uart3 ) pc.printf("\n\rFlood ON\n\r" );
if( from_eth ) {
snprintf( debug_buf, PROMPT_ETH_BUFFER_SIZE, "Flood On\n\r" );
}
}
char * tmp_return = NULL;
if ( bufret == 1 )
{
tmp_return = command_process ( debug_buf, bufptr );
if( b == 0x0D || bufret == 1 || bufptr > DEBUGBUFSIZE ) {
bufret = 0;
if( debug_uart3 && !( from_eth ) ) pc.putc(0x0A);
if( debug_uart3 && !( from_eth ) ) pc.putc(0x0D);
if( debug_uart3 && !( from_eth ) ) pc.printf("> " );
if( from_eth ) {
if( strlen( debug_buf ) > 0 ) {
if( debug_buf[ strlen( debug_buf ) - 1 ] == '\r' || debug_buf[ strlen( debug_buf ) - 1 ] == '\n' ) {
strcpy( debug_buf, "> " );
} else {
strcpy( debug_buf, "\n\r> " );
}
} else {
}
if( tcp_session && !udp_query ) {
tcp_client.send_all( debug_buf, strlen( debug_buf ) );
} else if( udp_query ) {
udp_query_send_msg( debug_buf );
}
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;
last_bufptr = 0;
for( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
}
}
return ( tmp_return );
}
char *
command_process ( char * debug_buf, size_t bufptr )
{
bool miss_match = true;
{
static unsigned int promptcb_last_ext = 0;
static unsigned int promptcb_last_port = 0;
static char promptcb_last_cmd [ 300 ];
// removendo espacos em branco no inicio da string
uint16_t shift_blank_spaces = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) {
if ( debug_buf [ i ] == 0x20 ) shift_blank_spaces++;
if ( debug_buf [ i ] != 0x20 ) break;
}
debug_buf += shift_blank_spaces;
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 );
if( debug_uart3 ) pc.printf("\n\rFlood OFF\n\r" );
if( from_eth ) {
snprintf( debug_buf, PROMPT_ETH_BUFFER_SIZE, "Flood OFF\n\r" );
}
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 * ) "show_configs" ) ) {
miss_match = false;
if( debug_uart3 ) pc.printf("\n\r" );
files('s');
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "rx" ) ) {
miss_match = false;
show_last_rx = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "tx" ) ) {
miss_match = false;
show_last_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 * ) "rtp" ) ) {
miss_match = false;
dshow_rtp = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "callrtp" ) ) {
miss_match = false;
dcallshow_rtp = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "format" ) ) {
miss_match = false;
if( from_eth ) {
char msg[ 32 ];
snprintf( msg, 32, "Not Allowed\n\r" );
if( tcp_session && !udp_query ) {
tcp_client.send_all( msg, strlen( msg ) );
} else if( udp_query ) {
udp_query_send_msg( msg );
}
} else {
if ( debug_uart3 ) pc.printf("\n\rFormatando o sistema de arquivos... espere o sistema reiniciar\n\r" );
files('e');
files('w');
__disable_irq();
NVIC_SystemReset();
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "ipset ", 6 ) )
{
miss_match = false;
cm -> set_header_ip ( debug_buf + 6 );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "extset ", 7 ) )
{
miss_match = false;
cm -> set_header_ext ( atoi ( debug_buf + 7 ) );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "serextset ", 10 ) )
{
miss_match = false;
cm -> set_server_ext ( atoi ( debug_buf + 10 ) );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "shift_port ", 11 ) )
{
miss_match = false;
cm -> set_shift_port( atoi ( debug_buf + 11 ) );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "maskset ", 8 ) )
{
miss_match = false;
cm -> set_net_mask ( debug_buf + 8 );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "gatewayset ", 11 ) )
{
miss_match = false;
cm -> set_gateway ( debug_buf + 11 );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "msipport ",9 ) )
{
miss_match = false;
cm -> set_header_sip_port ( atoi ( debug_buf + 9 ) );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "serverip ",9 ) )
{
miss_match = false;
cm -> set_server_ip ( debug_buf + 9 );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "maxext ", 7 ) )
{
miss_match = false;
cm -> set_max_ext ( atoi ( debug_buf + 7 ) );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "minext ", 7 ) )
{
miss_match = false;
cm -> set_min_ext ( atoi ( debug_buf + 7 ) );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "ssport ", 7 ) )
{
miss_match = false;
cm -> set_server_port ( atoi ( debug_buf + 7 ) );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "fw_ip ", 6 ) )
{
miss_match = false;
cm -> set_fw_server_ip ( debug_buf + 6 );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "fw_port ", 8 ) )
{
miss_match = false;
cm -> set_fw_server_port ( atoi ( debug_buf + 8 ) );
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dconfig" ) )
{
miss_match = false;
cm -> restore_defaults_settings ();
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "reset" ) )
{
miss_match = false;
vz_printf ( "Job is done" );
__disable_irq();
NVIC_SystemReset();
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "test" ) )
{
miss_match = false;
char msg[] = "This is another test";
vz_printf ("-->%s<--", msg );
vz_printf ("-->%d<--", 28 );
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dog" ) )
{
miss_match = false;
vz_printf ( "MUUUUUUUuuuuUUUUUU - I'm not a dog!!!!\n\r" );
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "request_clock" ) )
{
miss_match = false;
request_clock_now = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "hello" ) )
{
miss_match = false;
show_hello_status = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "date" ) )
{
miss_match = false;
vz_printf (" %s %s", __DATE__, __TIME__ );
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "clock" ) )
{
miss_match = false;
show_current_time = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "overflow" ) )
{
miss_match = false;
vz_printf ( "Overflow messages :: %d", string_msg_overflow );
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dep" ) )
{
miss_match = false;
drop_entendi_pkg = !drop_entendi_pkg;
if ( drop_entendi_pkg ) {
vz_debug ("Entendi pkgs will be droped" );
} else {
vz_debug ("Entendi pkgs don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dita" ) )
{
miss_match = false;
drop_invite_to_ast_pkg = !drop_invite_to_ast_pkg;
if ( drop_invite_to_ast_pkg ) {
vz_debug ("Invite pkgs to ast will be droped" );
} else {
vz_debug ("Invite pkgs to ast don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "refresh_on" ) )
{
miss_match = false;
vz_printf ( "Refresh function :: Enable" );
do_not_refresh = false;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "refresh_off" ) )
{
miss_match = false;
vz_printf ( "Refresh function :: Disable" );
do_not_refresh = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dop" ) )
{
miss_match = false;
drop_ok_pkg = !drop_ok_pkg;
if ( drop_ok_pkg ) {
vz_debug ( "Ok pkgs will be droped" );
} else {
vz_debug ( "Ok pkgs don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dip" ) )
{
miss_match = false;
drop_invite_pkg = !drop_invite_pkg;
if ( drop_invite_pkg ) {
vz_debug ( "invite pkgs from cbx will be droped" );
} else {
vz_debug ( "invite pkgs from cbx don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drp" ) )
{
miss_match = false;
drop_registry_pkg = !drop_registry_pkg;
if ( drop_registry_pkg ) {
vz_debug ( "registrys pkgs from cbx will be droped" );
} else {
vz_debug ( "registrys pkgs from cbx don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "rafc" ) )
{
miss_match = false;
received_audio_from_cb = !received_audio_from_cb;
if ( received_audio_from_cb ) {
vz_debug ( "audio pkgs from cbx will printed" );
} else {
vz_debug ( "audio pkgs from cbx don't will printed" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dap" ) )
{
miss_match = false;
drop_ack_pkg = !drop_ack_pkg;
if ( drop_ack_pkg ) {
vz_debug ( "ack pkgs will be droped" );
} else {
vz_debug ( "ack pkgs don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drfa" ) )
{
miss_match = false;
drop_rtp_from_ast_pkg = !drop_rtp_from_ast_pkg;
if ( drop_rtp_from_ast_pkg ) {
vz_debug ( "rtp pkgs from ast will be droped" );
} else {
vz_debug ( "rtp pkgs from ast don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drfc" ) )
{
miss_match = false;
drop_rtp_from_cbx_pkg = !drop_rtp_from_cbx_pkg;
if ( drop_rtp_from_cbx_pkg ) {
vz_debug ( "rtp pkgs from cbx will be droped" );
} else {
vz_debug ( "rtp pkgs from cbx don't will be droped" );
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "uptime" ) )
{
miss_match = false;
uint32_t local_uptime = uptime;
uint16_t h = local_uptime / ( 60 * 60 );
uint16_t m = ( local_uptime - ( h * 60 * 60 ) ) / 60;
uint16_t s = ( local_uptime - ( ( h * 60 * 60 ) + m * 60 ) );
vz_printf ( "\r\n%ih%im%is", h, m, s );
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "wake" ) )
{
miss_match = false;
show_wake_all_up_status = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "wake_on" ) )
{
miss_match = false;
vz_printf ( "Function wake_all_up : Enable" );
wake_all = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "get_wdt_string" ) )
{
miss_match = false;
show_wdt_string = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "wake_off" ) )
{
miss_match = false;
vz_printf ("Function wake_all_up : Disable" );
wake_all = false;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "ifconfig" ) )
{
miss_match = false;
vz_printf ("Configs :: " );
char buffer[ 128 ];
cm -> get_header_ip ( buffer );
vz_printf ("Header IP :: %s", buffer );
vz_printf ("Header ext :: %u", cm -> get_ext () );
vz_printf ("Header port :: %u", cm -> get_port () );
cm -> get_server_ip ( buffer );
vz_printf ("Server IP :: %s", buffer );
vz_printf ("Server ext :: %u", cm -> get_server_ext () );
vz_printf ("Server port :: %u", cm -> get_server_port () );
cm -> get_net_mask ( buffer );
vz_printf ("Mascara de rede :: %s", buffer );
cm -> get_gateway ( buffer );
vz_printf ("Gateway IP :: %s", buffer );
vz_printf ("UDP Port :: %u", cm -> get_udp_port_listener () );
vz_printf ("TCP Port :: %u", cm -> get_tcp_port_listener () );
cm -> get_fw_server_ip ( buffer );
vz_printf ("FW Server IP :: %s", buffer );
vz_printf ("FW Server Port :: %u", cm -> get_fw_server_port () );
vz_printf ("Max Ext :: %u", cm -> get_max_ext () );
vz_printf ("Min Ext :: %u", cm -> get_min_ext () );
vz_printf ("Shift Port :: %u", cm -> get_shift_port () );
cm -> get_clock_server_ip ( buffer );
vz_printf ("Clock Server IP :: %s", buffer );
%: ifdef MODE_TEST
vz_printf ("on MODE_TEST" );
%: endif
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "sizes" ) )
{
miss_match = false;
sizes = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "ftq" ) )
{
miss_match = false;
vz_printf ( "FTQ On" );
big_bug_pkg = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "ktq" ) )
{
miss_match = false;
vz_printf ( "FTQ!!!" );
flood_bug_pkg = !flood_bug_pkg;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "wdt_pkg_cbx_disable" ) )
{
miss_match = false;
vz_printf ( "wdt_pkg_cbx status :: disable" );
disable_wdt_from_cbx = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "wdt_pkg_cbx_enable" ) )
{
miss_match = false;
vz_printf ( "wdt_pkg_cbx status :: enable" );
disable_wdt_from_cbx = false;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "wdt_pkg_cbx_status" ) )
{
miss_match = false;
vz_printf ( "wdt_pkg_cbx status :: %s", ( disable_wdt_from_cbx ) ? "disable" : "enable" );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "ls", 2 ) )
{
miss_match = false;
reverse_list = false;
list = true;
if ( strlen ( debug_buf ) != 2 )
{
if ( strstr ( ( debug_buf + 2 ), "r" ) )
{
reverse_list = true;
}
if ( strstr ( ( debug_buf + 2 ), "l" ) )
{
list = false;
long_list = true;
}
if ( strstr ( ( debug_buf + 2 ), "t" ) )
{
long_list = true;
list = false;
show_time = true;
}
if ( strstr ( ( debug_buf + 2 ), "i" ) )
{
long_list = true;
list = false;
show_invites = true;
}
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drtp ", 5 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Rtp Debug On" );
debug_rtp = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Rtp Debug Off" );
debug_rtp = false;
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "print_v_cb" ) )
{
miss_match = false;
print_v_cb = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "print_v_call" ) )
{
miss_match = false;
print_v_call = 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 * ) "registra" ) )
{
miss_match = false;
registra = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "registra4" ) )
{
miss_match = false;
registra4 = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "show_sip" ) )
{
miss_match = false;
show_sip = true;
}
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 * ) "wdt" ) )
{
miss_match = false;
debug_wdt = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "eth" ) )
{
miss_match = false;
debug_eth = true;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "deleted" ) )
{
miss_match = false;
vz_printf ( "::deleted_sip [ %5i ]::", deleted_sip );
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "types" ) )
{
miss_match = false;
vz_printf (
" hex :: dec :: Type \n\r"
"0x%02x :: %5i :: BOOT\n\r"
"0x%02x :: %5i :: REGISTRY\n\r"
"0x%02x :: %5i :: REGISTRY_ACK\n\r"
"0x%02x :: %5i :: INVITE\n\r"
"0x%02x :: %5i :: INVITE_ACK\n\r"
"0x%02x :: %5i :: AUDIO\n\r"
"0x%02x :: %5i :: TELEMETRY\n\r"
"0x%02x :: %5i :: BOOTLOADER_CBX\n\r"
"0x%02x :: %5i :: CB_BYE\n\r"
"0x%02x :: %5i :: CB_BYE_ACK\n\r"
"0x%02x :: %5i :: PROMPT\n\r"
"0x%02x :: %5i :: FLOOD\n\r"
"0x%02x :: %5i :: FW\n\r"
"0x%02x :: %5i :: FW1\n\r"
"0x%02x :: %5i :: FW2\n\r"
"0x%02x :: %5i :: FW3\n\r"
"0x%02x :: %5i :: FW4\n\r"
"0x%02x :: %5i :: FW5\n\r"
"0x%02x :: %5i :: FW6\n\r"
"0x%02x :: %5i :: CB_STATS\n\r"
"0x%02x :: %5i :: CB_STATS_ACK\n\r"
"0x%02x :: %5i :: DO_NOTHING\n\r\n\r"
"0x%02x :: %5i :: BROADCAST_EXT\n\r"
"NOTA - Os types TELEMETRY, CB_STATS, e FW1 ate FW6 sao repassados para o servidor como type FW\n\r",
BOOT, BOOT,
REGISTRY, REGISTRY,
REGISTRY_ACK, REGISTRY_ACK,
INVITE, INVITE,
INVITE_ACK, INVITE_ACK,
AUDIO, AUDIO,
TELEMETRY, TELEMETRY,
BOOTLOADER_CBX, BOOTLOADER_CBX,
CB_BYE, CB_BYE,
CB_BYE_ACK, CB_BYE_ACK,
PROMPT, PROMPT,
FLOOD, FLOOD,
FW, FW,
FW1, FW1,
FW2, FW2,
FW3, FW3,
FW4, FW4,
FW5, FW5,
FW6, FW6,
CB_STATS, CB_STATS,
CB_STATS_ACK, CB_STATS_ACK,
DO_NOTHING, DO_NOTHING,
BROADCAST_EXT, BROADCAST_EXT
);
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "protocol" ) )
{
miss_match = false;
vz_printf ( "| 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" );
}
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;
vz_printf ( "Flood On" );
tflood.start ();
tflood.reset ();
floodcount =0;
pflood = 1;
flood_timeout.start ();
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "more", 4 ) )
{
miss_match = false;
vz_printf ( "Flood On" );
tflood.start ();
tflood.reset ();
floodcount = 0;
pflood = 1;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Flood Off" );
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" ) ) ) {
vz_printf ( "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 {
vz_printf ( "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;
vz_printf ( "Debug ON" );
debug_alive = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 6), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Debug Off\n\r" );
debug_alive = false;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "show", 4 ) )
{
miss_match = false;
vz_printf ( "dsip \n\r"
"debug_alive \n\r"
"debug_prompt \n\r"
"debug_vector \n\r"
"debug_cb \n\r"
"debug_main \n\r"
"dcks \n\r"
"debug_cb_rx \n\r"
"debug_cb_tx* \n\r"
"debug_eth_rx* \n\r"
"debug_eth_tx* \n\r"
"debug_file"
);
}
}
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;
vz_printf ( "Sip Debug On" );
debug_sip = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Sip Debug Off" );
debug_sip = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "ddrefresh ", 10 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Don't Refresh Debug On" );
debug_dont_refresh = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Don't Refresh Debug Off" );
debug_dont_refresh = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drajada ", 8 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Debug Rajada on" );
debug_resend_invite = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Debug Rajada off" );
debug_resend_invite = false;
}
}
else if ( xmemmatch ( ( uint8_t * ) debug_buf, ( uint8_t * ) "dsqn ", 5 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Sequence Number Debug On" );
debug_sqn = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Sequence Number Debug Off" );
debug_sqn = false;
}
}
else if ( xmemmatch ( ( uint8_t * ) debug_buf, ( uint8_t * ) "test_ts ", 8 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "TS testing On" );
test_ts = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "TS testing Off" );
test_ts = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dhello ", 7 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Hello Debug On" );
debug_hello = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Hello Debug Off" );
debug_hello = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dmissedwdt ", 11 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 11 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Wdt missed Debug On" );
dmissed_wdt = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 11 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Wdt missed Debug Off" );
dmissed_wdt = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dclock ", 7 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf( "Clock Debug On" );
debug_clock = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf( "Clock Debug Off" );
debug_clock = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dprintclock ", 12 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 12 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Clock Debug <VZ PKG PRINT> On" );
debug_print_clock = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 12 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Clock Debug <VZ PKG PRINT> Off" );
debug_print_clock = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dlength ", 8 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "String length debug On" );
debug_string_length = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "String length debug Off" );
debug_string_length = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dbind ", 6 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "UDP Bind Debug On" );
debug_bind = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "UDP Bind Debug Off" );
debug_bind = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dresetrtp ", 10 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Reset RTP Debug On" );
debug_reset_rtp = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Reset RTP Debug Off" );
debug_reset_rtp = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "duart ", 6 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Enable UART3 usage" );
debug_uart3 = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Disable UART3 usage" );
debug_uart3 = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dprint ", 7 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Debug print On" );
print_values = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Debug print Off" );
print_values = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dmissed ", 8 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Debug Missed On" );
debug_missed = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Debug Missed Off" );
debug_missed = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dreconnect ", 11 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 11 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Reconnecet Debug On" );
debug_reconnect = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 11 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Reconnecet Debug Off" );
debug_reconnect = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dmatch ", 7 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Port Match Debug On" );
debug_port_match = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Port Match Debug Off" );
debug_port_match = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dmuted ", 7 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Muted Debug On" );
debug_muted = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Muted Debug Off" );
debug_muted = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dwdt ", 5 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Wdt Debug On" );
wdt_show = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Wdt Debug Off" );
wdt_show = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drefresh ", 9 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 9 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Refresh Debug On" );
debug_refresh= true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 9 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Refresh Debug Off" );
debug_refresh = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dping ", 6 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Ping Debug On" );
debug_ping = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Ping Debug Off" );
debug_ping= false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dwu ", 4 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Wake Up Debug On" );
debug_wake = true;
}
if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Wake Up Debug Off" );
debug_wake = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "tcp_alive ", 10 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "TCP don't drop mode on" );
tcp_alive = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "TCP don't drop mode off" );
tcp_alive = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "daging ",7 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Aging Debug On" );
debug_aging = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Aging Debug Off" );
debug_aging = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dcpld ", 6 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "DCPLD Debug On" );
debug_cpld = true;
debug_cb_rx = true;
debug_cb_tx = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "DCPLD Debug Off" );
debug_cpld = false;
debug_cb_rx = false;
debug_cb_tx = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dtxshow ", 8 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "DCPLD Show TX Debug On" );
debug_show_tx_cpld = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "DCPLD Show TX Debug Off" );
debug_show_tx_cpld = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dshowcpld ", 10 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "DCPLD Show Debug On" );
debug_show_tx_cpld = true;
debug_show_rx_cpld = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "DCPLD Show Debug Off" );
debug_show_tx_cpld = false;
debug_show_rx_cpld = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drxshow ", 8 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "DCPLD Show RX Debug On" );
debug_show_rx_cpld = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "DCPLD Show RX Debug Off" );
debug_show_rx_cpld = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dcks_err ", 9 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 9 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "CKS_ERR Debug On" );
debug_cks_err = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 9 ), ( uint8_t *) "off", 3 ) )
{
miss_match = false;
vz_printf ( "CKS_ERR Debug Off" );
debug_cks_err = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * )"dinvite ", 8 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Invite Debug ON" );
debug_invite = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 8 ), ( uint8_t * ) "off",3 ) )
{
miss_match = false;
vz_printf ( "Invite Debug ON" );
debug_invite = false;
}
}
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;
vz_printf ( "Parallel Write Debug On" );
dparallel = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 10 ), ( uint8_t *)"off", 3 ) )
{
miss_match = false;
vz_printf ( "Parallel Write Debug Off" );
dparallel = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dtelos ", 7 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Telemetry Debug On" );
debug_telemetry = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 7 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Telemetry Debug Off" );
debug_telemetry = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dcks ", 5 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "CKS Debug On" );
debug_cks = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * )"off",3 ) )
{
miss_match = false;
vz_printf ( "CKS Debug Off" );
debug_cks = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "cc ", 3 ) )
{
miss_match = false;
int ext,port;
char *split, *ref, *cmd;
ref = debug_buf;
strcat ( debug_buf, "\r" );
split = strtok ( debug_buf + 3, " " );
ext = atoi ( split );
port = ext;
split += strlen ( split ) + 1;
cmd = split;
promptcb_last_ext = ext;
promptcb_last_port = port;
strcpy ( promptcb_last_cmd, cmd );
for ( register int i = strlen ( cmd ); i < DEBUGBUFSIZE; i++ ) cmd [ i ] = 0;
send2callboxes( build_cb_package( ext, port, PROMPT, cmd, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%d port=%d cmd=%s\r\nComando enviado", ext, port, cmd );
debug_buf = ref;
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "bc ", 3 ) )
{
miss_match = false;
strcat ( debug_buf, "\r" );
char * cmd = debug_buf + 3;
for ( register int i = strlen( cmd ); i < DEBUGBUFSIZE; i++ ) cmd [ i ] = 0;
send2callboxes ( build_cb_package ( BROADCAST_EXT, BROADCAST_EXT, PROMPT, cmd, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%x port=%x cmd=%s\r\nComando enviado", BROADCAST_EXT, BROADCAST_EXT, cmd );
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "pcb ", 4 ) )
{
miss_match = false;
int ext,port;
char *split, *ref, *cmd;
ref = debug_buf;
strcat ( debug_buf, "\r" );
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;
strcpy ( promptcb_last_cmd, cmd );
for ( register int i = strlen ( cmd ); i < DEBUGBUFSIZE; i++ ) cmd [ i ] = 0;
send2callboxes( build_cb_package( ext, port, PROMPT, cmd, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%d port=%d cmd=%s\r\nComando enviado", ext, port, cmd );
debug_buf = ref;
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "pend_all" ) )
{
miss_match = false;
char cmd_msg [ CB_BUFFER_SIZE ] = "pend\r";
for ( register int i = strlen ( cmd_msg ); i < CB_BUFFER_SIZE; i++ ) cmd_msg [ i ] = 0;
send2callboxes ( build_cb_package ( BROADCAST_EXT, BROADCAST_EXT, PROMPT, cmd_msg, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%x port=%x cmd=%s\r\nComando enviado", BROADCAST_EXT, BROADCAST_EXT, cmd_msg );
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "bye ", 4 ) )
{
miss_match = false;
int ext,port;
char * ref;
ref = debug_buf;
strcat ( debug_buf, "\r" );
ext = atoi ( strtok ( debug_buf + 4, " " ) );
port = ext;
promptcb_last_ext = ext;
promptcb_last_port = port;
char msg [ CB_BUFFER_SIZE ] = "";
for ( register int i = 0; i < CB_BUFFER_SIZE; i ++ ) msg [ i ] = 0;
strcpy ( msg, "bye" );
send2callboxes ( build_cb_package ( ext, port, CB_BYE, msg, ( id_msg++ & ~BIT7 ), CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "Send BYE to ext=%d port=%d\r\nComando enviado", ext, port );
debug_buf = ref;
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "end_call ", 9 ) )
{
miss_match = false;
char * ref;
ref = debug_buf;
end_call_ext = atoi ( strtok ( debug_buf + 9, " " ) );
end_call = true;
debug_buf = ref;
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
vz_printf( "kill call :: %u\r\n> ", end_call_ext );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "msg", 3 ) )
{
miss_match = false;
char * ref = debug_buf;
if ( ( strlen ( debug_buf ) == strlen ( "msg" ) ) or ( strstr ( debug_buf + 4, "help" ) not_eq ( NULL ) ) )
{
vz_printf ("usage msg < ext> <msg_id> <type>" );
} else {
char * split = strtok ( debug_buf + 4, " " );
int ext = atoi ( split );
int port = ext;
// <msg_id>
split += strlen ( split ) + 1;
split = strtok( NULL, " " );
int seq_num = ( strncasecmp ( split, "0x", 2 ) ) ? atoi ( split ) : ( int ) strtol ( split + 2, NULL, 16 );
// <type>
split += strlen ( split ) + 1;
split = strtok ( NULL, " " );
uint8_t num_type = 0;
char type [ 16 ];
strncpy ( type, split, sizeof ( type ) - 1 );
if ( not ( strcasecmp ( type, "REGISTRY" ) ) ) num_type = REGISTRY;
else if ( not ( strcasecmp ( type, "INVITE" ) ) ) num_type = INVITE;
else if ( not ( strcasecmp ( type, "BOOT" ) ) ) num_type = BOOT;
else if ( not ( strcasecmp ( type, "TELEMETRY" ) ) ) num_type = TELEMETRY;
else if ( not ( strcasecmp ( type, "bye" ) ) ) num_type = CB_BYE;
else if ( not ( strcasecmp ( type, "PROMPT" ) ) ) num_type = PROMPT;
char cmd [ 32 ] = "";
if ( num_type not_eq PROMPT ) for( register int i = 0; i < 32; i++ ) cmd [ i ] = 0;
else strcpy ( cmd, "ping\r" );
send2callboxes( build_cb_package( ext, port, num_type, cmd, seq_num, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%d port=%d msg_id=%#x type=%#x", ext, port, seq_num, num_type );
}
debug_buf = ref;
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "pcc ", 4 ) )
{
miss_match = false;
int ext,port;
char *split, *ref, *cmd;
ref = debug_buf;
strcat ( debug_buf, "\r" );
split = strtok ( debug_buf + 4, " " );
ext = atoi ( split );
split += strlen ( split ) + 1;
split = strtok ( NULL, " " );
port = atoi ( split );
split += strlen ( split ) + 1;
cmd = split;
promptcb_last_ext = ext;
promptcb_last_port = port;
strcpy ( promptcb_last_cmd, cmd );
for ( register int i = strlen( cmd ); i < DEBUGBUFSIZE; i++ ) cmd [ i ] = 0;
send2callboxes ( build_cb_package( ext, port, PROMPT, cmd, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%d port=%d cmd=%s\r\nComando enviado", ext, port, cmd );
debug_buf = ref;
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "print_cb ", 9 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 9, " " );
if( 0 == ( strcasecmp( split, "all" ) ) )
{
print_cb_all = true;
} else {
print_cb_var = true;
print_this_cb = atoi ( split );
}
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drop_ack ", 9 ) )
{
miss_match = false;
char *split;
split = strtok( debug_buf + 9, " " );
drop_this_amount_of_ack_to_ast = atoi( split );
vz_printf ("Will be droped %d acks", drop_this_amount_of_ack_to_ast );
bufptr = 0;
for( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf[ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "frtp ", 5 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 5, " " );
frtp = true;
frtp_target = atoi ( split );
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "rrtp ", 5 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 5, " " );
rescue_rtp = true;
rescue_rtp_target = atoi ( split );
split += strlen ( split ) + 1;
split = strtok( NULL, " " );
rescue_rtp_value = atoi ( split );
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "print_hex_cb ", 13 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 13, " " );
if( 0 == ( strcasecmp ( split, "all" ) ) )
{
print_hex_cb_all = true;
} else {
print_hex_cb_var = true;
print_hex_this_cb = atoi ( split );
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * )"print_sip ", 10 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 10, " " );
if ( 0 == ( strcasecmp ( split, "all" ) ) )
{
print_sip_all = true;
} else {
print_sip_var = true;
print_this_sip = atoi ( split );
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * )"print_hex_sip ", 14 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 14, " " );
if ( 0 == ( strcasecmp ( split, "all" ) ) )
{
print_hex_sip_all = true;
} else {
print_hex_sip_var = true;
print_hex_this_sip = atoi ( split );
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * )"print_call ", 11 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 11, " " );
if ( 0 == ( strcasecmp ( split, "all" ) ) )
{
print_call_all = true;
} else {
print_call_var = true;
print_this_call = atoi ( split );
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t *)debug_buf, ( uint8_t * ) "print_hex_call ", 15 ) )
{
miss_match = false;
char *split;
split = strtok( debug_buf + 15, " " );
if ( 0 == ( strcasecmp ( split, "all" ) ) )
{
print_hex_call_all = true;
} else {
print_hex_call_var = true;
print_hex_this_call = atoi ( split );
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "print_rtp ", 10 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 10, " " );
if ( 0 == ( strcasecmp ( split, "all" ) ) )
{
print_rtp_all = true;
} else {
print_rtp_var = true;
print_this_rtp = atoi ( split );
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "print_hex_rtp ", 14 ) )
{
miss_match = false;
char *split;
split = strtok ( debug_buf + 14, " " );
if ( 0 == ( strcasecmp ( split, "all" ) ) )
{
print_hex_rtp_all = true;
} else {
print_hex_rtp_var = true;
print_hex_this_rtp = atoi ( split );
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "log ", 4 ) )
{
miss_match = false;
char * split = strtok ( debug_buf + 4, " " );
{
print_cb_var = true;
print_this_cb = atoi ( split );
print_sip_var = true;
print_this_sip = print_this_cb;
print_call_var = true;
print_this_call = print_this_cb;
print_rtp_var = true;
print_this_rtp = print_this_cb;
}
bufptr = 0;
for ( register uint16_t i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "rush ", 5 ) )
{
miss_match = false;
int ext,port;
char *split, *ref, cmd [ 32 ];
ref = debug_buf;
strcat ( debug_buf, "\r" );
split = strtok ( debug_buf + 5, " " );
ext = atoi ( split );
split += strlen ( split ) + 1;
split = strtok ( NULL, " " );
port = atoi ( split );
strcpy ( cmd, "ping\r\n" );
promptcb_last_ext = ext;
promptcb_last_port = port;
strcpy ( promptcb_last_cmd, cmd );
strcat ( cmd, "\r\r\r\n" );
for ( register uint8_t i = 0; i < 3; i++ )
{
send2callboxes ( build_cb_package ( ext, port, PROMPT, cmd, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%d port=%d cmd=%s\r\nComando enviado", ext, port, cmd );
}
debug_buf = ref;
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "_", 4 ) )
{
miss_match = false;
debug_buf [ bufptr++ ] = 0x0D;
debug_buf [ bufptr++ ] = 0x00;
send2callboxes ( build_cb_package( promptcb_last_ext, promptcb_last_port, PROMPT, debug_buf + 4, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%d port=%d\r\ncmd=%s\r\nComando enviado",promptcb_last_ext, promptcb_last_port, debug_buf + 4 );
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "cks",3 ) )
{
miss_match = false;
pcks_s = true;
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "showcb",6 ) )
{
miss_match = false;
pshowcb = true;
}
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;
vz_printf ( "Debug Main On" );
debug_main = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 11 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Debug Main Off" );
debug_main = 0;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dout ", 5 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Out Debug On" );
debug_out_of_range = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Out Debug Off" );
debug_out_of_range = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dboot ", 6 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Boot Debug On" );
debug_boot = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 6 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Boot Debug Off" );
debug_boot = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dbloader ", 9 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 9 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Bootloader Debug On" );
debug_bootloader = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 9 ), ( uint8_t * ) "off", 3 ) ) {
miss_match = false;
vz_printf ( "Bootloader Debug Off" );
debug_bootloader = false;
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dpower" ) )
{
miss_match = false;
if ( !power_source_status )
{
vz_printf ( "Main power is UP" );
} else {
vz_printf ( "Main power is DOWN" );
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dfw ", 4 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "FW Debug On" );
debug_fw = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "FW Debug Off" );
debug_fw = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dfwp ", 5 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ("FWPrint Debug On" );
debug_fw_print = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 5 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ("FWPrint Debug Off" );
debug_fw_print = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "drx ", 4 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Debug Cbx Rx On" );
debug_cb_rx = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Debug Cbx Rx Off" );
debug_cb_rx = false;
}
}
else if ( xmemmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "dtx ", 4 ) )
{
if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "on", 2 ) )
{
miss_match = false;
vz_printf ( "Debug Cbx Tx On" );
debug_cb_tx = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 4 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Debug Cbx Tx Off" );
debug_cb_tx = false;
}
}
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;
vz_printf ( "Debug File On" );
debug_file = true;
}
else if ( xmemmatch ( ( uint8_t * )( debug_buf + 11 ), ( uint8_t * ) "off", 3 ) )
{
miss_match = false;
vz_printf ( "Debug File Off" );
debug_file = false;
}
}
else if ( xstrmatch ( ( uint8_t * )debug_buf, ( uint8_t * ) "help" )) {
miss_match = false;
vz_printf ( "**************************** PROMPT HELP ****************************" );
vz_printf ( "ifconfig - mostra o arquivo de configuracao do sistema" );
vz_printf ( "dconfig - volta as configuracoes do sistema para o padrao de fabrica" );
vz_printf ( "callme [ramal porta] - envia o pedido de ligacao para o callbox com o ramal e porta indicada" );
vz_printf ( "pcb ramal comando - envia o <comando> para o cbx <ramal> e <porta = ramal sem a centane> executar" );
vz_printf ( "pcc ramal porta comando - envia o <comando> para o cbx <ramal> e <porta> executar" );
vz_printf ( "cc ramal comando - envia o <comando> para o cbx <ramal> e <porta = ramal> executar" );
serial_pc.printf("format - formata o sistema de arquivos" );
vz_printf ( "reset - resta o sistema" );
vz_printf ( "ipset [ip] - Configura o IP da cabeceira" );
vz_printf ( "extset [ext] - Configura a ext da cabeceira" );
vz_printf ( "msipport [port] - Configura a porta SIP da cabeceira" );
vz_printf ( "serverip [ip] - Configura o ip do servidor asterisk" );
vz_printf ( "serextset [ext] - Configura a server ext da cabeceira" );
vz_printf ( "ssport [port] - Configura a porta SIP do servidor asterisk" );
vz_printf ( "maskset [mask] - Configura a mascara da cabeceira" );
vz_printf ( "gatewayset [gateway] - Configura o gateway da cabeceira" );
vz_printf ( "fw_ip - Configura o IP do servidor de fw" );
vz_printf ( "fw_port - Configura a porta do servidor de fw" );
vz_printf ( "maxext - Configura o maior ramal possivel de ser registrado nesse ramo" );
vz_printf ( "minext - Configura o menor ramal possivel de ser registrado nesse ramo" );
vz_printf ( "showcb - lista os Cbx registrados na header" );
vz_printf ( "cks - exibe estatisticas de check sum" );
vz_printf ( "reset_cks - reseta estatisticas de check sum" );
vz_printf ( ". - executa o comando anterior novamente" );
vz_printf ( "debug [on|off|show] - seleciona debugs gerais | lista de debugs" );
vz_printf ( "{ flood [ on | off ] | [+|-] } - simula envio de pacotes de audio" );
vz_printf ( "silence <start_ext end_ext> - envia comando de flood off para os ramais no intervalo end_ext - start_ext" );
vz_printf ( "-- ext - Header flood off, ext flood off" );
vz_printf ( "++ ext - Header flood on, ext flood on" );
vz_printf ( "rx - Exibe ultimo pacote recebido dos CBx" );
vz_printf ( "tx - Exibe ultimo pacote enviado para os CBx" );
vz_printf ( "ls | status - Exibe uma lista ordenada por ext do CBx registrados na Header" );
vz_printf ( "types - Lista os types usados no protocolo de comunicacao Header -- CBx" );
vz_printf ( "protocol - Exibe formato do pacote seguindo o protocolo de comunicacao Header -- CBx" );
vz_printf ( "PROMPT VERSION: V%d -- %s - %s", PVERSION, __DATE__, __TIME__);
strcpy ( last_cmd, tmp_cmd );
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
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 );
send2callboxes( build_cb_package( ext, port, PROMPT, cmd, id_msg++, CB_BUFFER_SIZE - VZ_HEADER_OFFSET, prompt_write_buffer ) );
vz_printf ( "ext=%d port=%d\r\ncmd=%s\r\n\n\rComando enviado\n\r", ext, port, cmd );
bufptr = 0;
for ( register int i = 0; i < DEBUGBUFSIZE; i++ ) debug_buf [ i ] = 0;
}
if ( miss_match )
{
vz_printf ( "> %s: command not found", debug_buf );
} else {
if ( from_eth && strlen ( debug_buf ) > 2 ) strcpy ( last_cmd, tmp_cmd );
else if ( strlen ( debug_buf ) > 2 ) strcpy ( last_cmd, tmp_cmd );
}
}
return( NULL );
}