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Location: CSY/reowolf/examples/interop_3_connector/main.c - annotation
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more optimization-stage benchmarking examples
673882671c9a 673882671c9a 673882671c9a 673882671c9a 673882671c9a a9fb2e3e41d9 a9fb2e3e41d9 8df425c3752e a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 18a1548e4a31 18a1548e4a31 18a1548e4a31 18a1548e4a31 18a1548e4a31 18a1548e4a31 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 18a1548e4a31 18a1548e4a31 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 a9fb2e3e41d9 8df425c3752e | /* This example demonstrates:
- connector API can create UDP mediator components, each given a BIND and CONNECT socket address,
which communicates via a returned putter and getter port pair.
- messages passed to the UDP mediator are forwarded as UDP datagrams into the network.
*/
#include <stdio.h>
#include <string.h>
#include "../../reowolf.h"
int main(int argc, char** argv) {
// --- setup ---
Arc_ProtocolDescription * pd = protocol_description_parse("", 0);
Connector * c = connector_new(pd);
PortId putter_a, putter_b;
FfiSocketAddr addresses[4] = {
{{127, 0, 0, 1}, 8000},
{{127, 0, 0, 1}, 8001},
{{127, 0, 0, 1}, 8002},
{{127, 0, 0, 1}, 8003},
};
// putter_a to UDP mediator (getter id discarded)
// with local addresses[0] and peer addresses[1]
connector_add_udp_mediator_component(c, &putter_a, NULL, addresses[1], addresses[0]);
connector_add_udp_mediator_component(c, &putter_b, NULL, addresses[3], addresses[2]);
connector_connect(c, -1);
// --- communication ---
connector_put_bytes(c, putter_a, "hello, socket!", 14);
connector_put_bytes(c, putter_b, "hello, pseudo-socket!", 21);
connector_sync(c, -1);
// --- cleanup ---
protocol_description_destroy(pd);
connector_destroy(c);
return 0;
}
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