#include "transport_peer.hpp" #include "transport.hpp" // namespace ariba::transport namespace ariba { namespace transport { using namespace ariba::addressing; transport_peer::transport_peer( endpoint_set& local_set ) : local(local_set) { // setup tcp transports tcp = NULL; cout << "#tcpip_transports = " << local.tcp.size() << endl; if (local.tcp.size()==1) { tcp = new tcpip(local.tcp.begin()->value()); cout << "Started tcpip_transport on port " << local.tcp.begin()->value() << endl; } // setup rfcomm transports rfc = NULL; cout << "#rfcomm_transports = " << local.rfcomm.size() << endl; if ( local.rfcomm.size() == 1 ) { rfc = new rfcomm( local.rfcomm.begin()->value() ); cout << "Started rfcomm_transport on port " << local.rfcomm.begin()->value() << endl; } } transport_peer::~transport_peer() { if (tcp !=NULL ) delete tcp; if (rfc !=NULL ) delete rfc; } void transport_peer::start() { if (tcp!=NULL) tcp->start(); if (rfc!=NULL) rfc->start(); } void transport_peer::stop() { if (tcp!=NULL) tcp->stop(); if (rfc!=NULL) rfc->stop(); } void transport_peer::send( const address_v* remote, const uint8_t* data, size_t size ) { if (remote->instanceof() && tcp!=NULL) { tcp->send(remote,data,size); } else if (remote->instanceof() && rfc!=NULL) { rfc->send(remote,data,size); } else cerr << "Could not send message to " << remote->to_string() << endl; } void transport_peer::send( const endpoint_set& endpoints, const uint8_t* data, size_t size ) { if (tcp!=NULL) tcp->send(endpoints,data,size); if (rfc!=NULL) rfc->send(endpoints,data,size); } void transport_peer::terminate( const address_v* local, const address_v* remote ) { if (remote->instanceof() && tcp!=NULL) tcp->terminate(local,remote); if (remote->instanceof() && rfc!=NULL) rfc->terminate(local,remote); } void transport_peer::register_listener( transport_listener* listener ) { if (tcp!=NULL) tcp->register_listener(listener); if (rfc!=NULL) rfc->register_listener(listener); } }} // namespace ariba::transport