VZTECH
voltando a versao de n aberturas e fechamentos de sockets data 19/09
Dependencies: EthernetInterface NTPClient mbed-rtos mbed EALib
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header_main_publish
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VZTECH
Diff: vz_protocol.cpp
- Revision:
- 0:4d17cd9c8f9d
- Child:
- 4:de46f0d9b14d
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/vz_protocol.cpp Tue Sep 09 20:01:24 2014 +0000
@@ -0,0 +1,175 @@
+#include "vz_protocol.h"
+
+extern DigitalOut led2;
+extern DigitalOut led3;
+
+uint8_t * __parse_cb_buffer__( int * ext, int * port, volatile uint8_t * type, uint8_t * cb_buffer ){
+ /**
+ * parse and split vz package,
+ * | E | E | P | P | C | C | T | [ Seq_num | Audio ] | 14[ Clock | Audio ] | [ TS | Audio ] | ... |
+ * E = Ext = Ramal
+ * P = Port = Porta
+ * C = Checksum
+ * T = Type = Tipo
+ * Seq_num = Sequence Number = Numero de sequencia
+ * Clock = 14 bytes to sync
+ * ... = demais __CB_BUFFER_SIZE__ - __VZ_HEADER_OFFSET__ bytes
+ */
+ uint8_t p_lsb, p_msb;
+ uint8_t e_lsb, e_msb;
+
+ if( cb_buffer == NULL ) return( NULL );
+
+ uint16_t cc = ( uint16_t )cb_buffer[ 4 ] << 8 | cb_buffer[ 5 ];
+
+ /*
+ UDPSocket debug;
+ Endpoint debug_server;
+ char debug_msg[ 1024 ];
+
+ debug_server.set_address( "192.168.120.180", 9897 );
+ debug.bind( 8182 );
+ debug.init();
+
+ //if( cc != __checksum__( cb_buffer + __CHECKSUM_OFFSET__,
+ // __CB_BUFFER_SIZE__ - __CHECKSUM_OFFSET__ ) ){
+
+ sprintf( debug_msg, " -- cc :: %x :: __checksum %x -- bit[4] %x :: bit[5] %x", cc, __checksum__( cb_buffer, __CB_BUFFER_SIZE__ ), cb_buffer[ 4 ], cb_buffer[ 5 ] );
+ debug.sendTo( debug_server, debug_msg, strlen( debug_msg ) );
+ debug.sendTo( debug_server, debug_msg, strlen( debug_msg ) );
+ */
+ if( cc != __checksum__( cb_buffer, __CB_BUFFER_SIZE__ ) ){
+ return( NULL );
+ }else{
+ e_msb = cb_buffer[ 0 ];
+ e_lsb = cb_buffer[ 1 ];
+ *ext = e_msb << 8 | e_lsb;
+
+ p_msb = cb_buffer[ 2 ];
+ p_lsb = cb_buffer[ 3 ];
+ *port = p_msb << 8 | p_lsb;
+
+ *type = cb_buffer[ 6 ];
+
+ return( cb_buffer + __VZ_HEADER_OFFSET__ );
+ }
+}
+uint8_t * __build_cb_package__( int ext, int port, uint8_t type, char * cb_buffer, uint8_t seq_num, int length, uint8_t * pkg ){
+ pkg[ 0 ] = ( uint8_t )( ( ext & 0xFF00 ) >> 8 );
+ pkg[ 1 ] = ( uint8_t )( ext & 0x00FF );
+ pkg[ 2 ] = ( uint8_t )( ( port & 0xFF00 ) >> 8 );
+ pkg[ 3 ] = ( uint8_t )( port & 0x00FF );
+
+ pkg[ 6 ] = type;
+
+ size_t fill = 0x00;
+
+ if( type == __AUDIO__ ){
+ for( register int i = __VZ_HEADER_OFFSET__; i < length + __VZ_HEADER_OFFSET__; i++ )
+ pkg[ i ] = ( uint8_t )cb_buffer[ i - __VZ_HEADER_OFFSET__ ];
+ fill = length + __VZ_HEADER_OFFSET__;
+ }else if( type == __INVITE__ ){
+ pkg[ 7 ] = seq_num;
+ //__print_clock__( pkg + 8 );
+ pkg[ __TIMESLICE_PLACE__ ] = cb_buffer[ __TIMESLICE_PLACE__ ];
+ fill = __TIMESLICE_PLACE__ + 1;
+ }else if( type == __REGISTRY__ || type == __BOOT__ ){
+ pkg[ 7 ] = seq_num;
+ __print_clock__( pkg + 8 );
+ fill = __VZ_HEADER_OFFSET__ + __CLOCK_SYNC_SIZE__ + __SEQ_NUM_SIZE__;
+ }if( type == __CB_BYE__ ){
+ pkg[ 7 ] = seq_num;
+ //__print_clock__( pkg + 8 );
+ pkg[ __TIMESLICE_PLACE__ ] = cb_buffer[ __TIMESLICE_PLACE__ ];
+ fill = __TIMESLICE_PLACE__ + 1;
+ }
+
+ for( register int i = fill; i < __CB_BUFFER_SIZE__; i++ ) pkg[ i ] = 0x00;
+ led2 = !led2;
+
+ uint16_t cc = __checksum__( pkg, 300 );
+ pkg[ 4 ] =( uint8_t )( ( cc & 0xFF00 ) >> 8) ;
+ pkg[ 5 ] =( uint8_t )( cc & 0x00FF );
+
+ return pkg;
+}
+
+char * __build_eth__package__( void ){
+ return( NULL );
+}
+
+uint8_t * __read_cb_buffer__( uint8_t * dest, uint8_t * src ){
+ for( register int i = 0; i < __CB_BUFFER_SIZE__; i++ ) *dest++ = *src++;
+ return( dest );
+}
+
+uint8_t * __read_eth_buffer__( uint8_t * dest, uint8_t * src ){
+
+ for( register int i = 0; i < __ETH_BUFFER_SIZE__; i++ ) *dest++ = *src++;
+
+ return( dest );
+}
+
+uint8_t * __write_cb_buffer__( uint8_t * dest, uint8_t * src ){
+ for( register int i = 0; i < __CB_BUFFER_SIZE__; i++ ) *dest++ = *src++;
+ return( dest );
+}
+
+uint8_t * __write_eth_buffer__( uint8_t * dest, uint8_t * src ){
+
+ for( register int i = 0; i < __ETH_BUFFER_SIZE__; i++ ) *dest++ = *src++;
+
+ return( dest );
+}
+
+uint16_t __checksum__( uint8_t * buffer, size_t length ){
+ uint16_t cc = 0x00;
+ buffer[ 4 ] = buffer[ 5 ] = 0x5a;
+ for( register int i = 0; i < length; i++ ){
+ cc += buffer[ i ];
+ if( cc & BIT15 ){
+ cc <<= 1;
+ cc |= BIT0;
+ }else{ cc <<= BIT0; }
+ }
+ cc ^= 0xffff;
+ return cc;
+}
+
+void __print_clock__( uint8_t * buffer ){
+ NTPClient ntp;
+ ntp.setTime( "200.192.232.8", 123, 3 );
+ time_t seconds;
+ // seconds = time(NULL);
+ struct tm ts;
+ time( &seconds );
+ ts = *localtime( &seconds );
+
+ int ano = ts.tm_year + 1900;
+ int mes = ts.tm_mon + 1;
+ int dia = ts.tm_mday;
+ int hora = ts.tm_hour - 3;
+ int min = ts.tm_min;
+ int sec = ts.tm_sec;
+
+ buffer[ 0 ] = ano / 1000;
+ ano -= buffer[ 0 ] * 1000;
+ buffer[ 1 ] = ano / 100;
+ ano -= buffer[ 1 ]* 100;
+ buffer[ 2 ] = ano / 10;
+ ano -= buffer[ 2 ] * 10;
+ buffer[ 3 ] = ano;
+ buffer[ 4 ] = mes / 10;
+ buffer[ 5 ] = mes % 10;
+ buffer[ 6 ] = dia / 10;
+ buffer[ 7 ] = dia % 10;
+ buffer[ 8 ] = hora / 10;
+ buffer[ 9 ] = hora % 10;
+ buffer[ 10 ] = min / 10;
+ buffer[ 11 ] = min % 10;
+ buffer[ 12 ] = sec / 10;
+ buffer[ 13 ] = sec % 10;
+
+ /* convertendo pro ascii do nro */
+ for( register int i = 0; i < 14; i++ ) buffer[ i ] += 0x30;
+}
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