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Modularizando o src
Dependencies: EALib EthernetInterface_vz mbed-rtos mbed
Fork of header_main_colinas_V0-20-09-14 by
call.cpp
- Committer:
- klauss
- Date:
- 2015-04-30
- Revision:
- 119:ee6a53069455
- Parent:
- 117:e9facba9db27
- Child:
- 121:ee02790d00b7
File content as of revision 119:ee6a53069455:
#include "call.h" VZ_call::VZ_call( int cb_ext, int cb_port, int rtp_server_ext, int rtp_server_port ){ this->cb_ext = cb_ext; this->cb_port = cb_port; this->rtp_server_ext = rtp_server_ext; this->rtp_server_port = rtp_server_port; this->rtp_server.set_address( SERVER_IP, rtp_server_port ); rtp_sock.set_blocking( false, 0 ); this->rtp_sock.bind( cb_port ); // rtp port this->rtp_sock.init(); this->rtp = new RTP( this->cb_ext ); if( rtp == NULL ) { memory_is_over = true; if( debug_memory ) debug_msg("[%d] Call_Box cb allocation fail", this->cb_ext ); } t.start(); finish.start(); rtpbuf_clear( &( this->rtpbuf ) ); call_new_counter++; } VZ_call::~VZ_call(){ rtp_sock.close(); delete( this->rtp ); call_delete_counter++; } char * VZ_call::get_eth_message( int * length ){ uint8_t * pkg; Endpoint rtp_from; *length = rtp_sock.receiveFrom( rtp_server, server2cb, sizeof( server2cb ) ); t.reset(); rtpbuf_next( &rtpbuf ); if( *length > 0 ){ rtpbuf_put( &rtpbuf, *length - ( __RTP_HEADER_SIZE__ + ( server2cb[ 0 ] & 0xf ) ), ( uint8_t * )server2cb + ( __RTP_HEADER_OFFSET__ + ( server2cb[ 0 ] & 0xf ) ) ); } pkg = rtpbuf_get( &rtpbuf ); if (pkg != NULL) { *length = 240; return (char *) pkg; } *length = 0; return NULL; } int VZ_call::send_message ( char * buffer ) { this->t.reset(); int send = this->rtp_sock.sendTo( this->rtp_server, buffer, CB_AUDIO_DATA_SIZE + this->rtp->header_size() ); if( send != CB_AUDIO_DATA_SIZE + this->rtp->header_size() ) { if( debug_reconnect ) { send_msg("[%d] Reconnect RTP", this->cb_ext ); miss_ftp_udp_send_pkg++; } reconnect(); } return( send ); } char * VZ_call::build_eth_package( uint8_t * buffer ){ return this->rtp->build_eth_package( ( char * )buffer ); } int VZ_call::get_cb_ext () { return this->cb_ext; } int VZ_call::get_cb_port () { return this->cb_port; } int VZ_call::get_rtp_server_ext(){ return rtp_server_ext; } int VZ_call::get_rtp_server_port(){ return rtp_server_port; } uint8_t * VZ_call::get_cb2server_buffer(){ return cb2server; } char * VZ_call::get_server2cb_buffer(){ return server2cb; } inline uint8_t * VZ_call::get_buffer(){ return buffer; } bool VZ_call::is_timeout( void ){ return ( t.read() > __CALL_MAX_IDLE_TIME__ ) ? true : false; } bool VZ_call::is_timetofinish( void ){ return ( finish.read() > __MAX_CALL_TIME__ ) ? true : false; } uint16_t VZ_call::get_elapsed_time( void ){ return ( finish.read_ms() ); } void VZ_call::cbx_pkg_idle_timer_reset( void ){ cbx_pkg_idle_timer.reset(); } bool VZ_call::cbx_pkg_is_idle( void ){ return ( cbx_pkg_idle_timer.read() > CBX_PKG_IDLE_MAX_TIME ) ? true : false; } void VZ_call::init_cbx_pkg_idle_timer(){ cbx_pkg_idle_timer.start(); } int VZ_call::print_yourself ( void ) { send_msg("t :: %d", ( int ) t.read () ); send_msg("finish :: %d", ( int ) finish.read () ); send_msg("cbx_pkg_idle_timer :: %d", ( int ) cbx_pkg_idle_timer.read () ); send_msg("cb_port :: %d", cb_port ); send_msg("cb2server :: %p", ( void * ) cb2server ); send_msg("server2cb :: %p", ( void * ) server2cb ); send_msg("buffer :: %p", ( void * ) buffer ); send_msg("rtp_sock :: %p", ( void * )&rtp_sock ); send_msg("rtp_server_ext :: %d", rtp_server_ext ); send_msg("rtp_server_port :: %d", rtp_server_port ); send_msg("rtp_server :: %p", &rtp_server ); send_msg("rtp :: %p", ( void * ) rtp ); send_msg("rtpbuf :: %p", ( void * ) &rtpbuf ); return ( sizeof( VZ_call ) ); } void * VZ_call::check_rtp ( void ) { return rtp; } int VZ_call::rtp_print_yourself ( void ) { return rtp -> print_yourself (); } void VZ_call::reconnect ( void ) { this->rtp_sock.close(); this->rtp_sock.set_blocking( false, 0 ); this->rtp_sock.bind( cb_port ); }