/*
rpc registerApplicationMaster (RegisterApplicationMasterRequestProto) returns (RegisterApplicationMasterResponseProto);
message RegisterApplicationMasterRequestProto {
optional string host = 1;
optional int32 rpc_port = 2;
optional string tracking_url = 3;
}
message RegisterApplicationMasterResponseProto {
optional ResourceProto maximumCapability = 1;
optional bytes client_to_am_token_master_key = 2;
repeated ApplicationACLMapProto application_ACLs = 3;
}
*/
RegisterApplicationMasterResponse ApplicationMaster::registerApplicationMaster(
string &amHost, int32_t amPort, string &am_tracking_url) {
RegisterApplicationMasterRequest request;
request.setHost(amHost);
request.setRpcPort(amPort);
request.setTrackingUrl(am_tracking_url);
ApplicationMasterProtocol* rmClientAlias = (ApplicationMasterProtocol*) rmClient;
return rmClientAlias->registerApplicationMaster(request);
}
/*
rpc registerApplicationMaster (RegisterApplicationMasterRequestProto) returns (RegisterApplicationMasterResponseProto);
message RegisterApplicationMasterRequestProto {
optional string host = 1;
optional int32 rpc_port = 2;
optional string tracking_url = 3;
}
message RegisterApplicationMasterResponseProto {
optional ResourceProto maximumCapability = 1;
optional bytes client_to_am_token_master_key = 2;
repeated ApplicationACLMapProto application_ACLs = 3;
}
*/
RegisterApplicationMasterResponse ApplicationMaster::registerApplicationMaster(
string &amHost, int32_t amPort, string &am_tracking_url) {
RegisterApplicationMasterRequest request;
RegisterApplicationMasterResponse response;
request.setHost(amHost);
request.setRpcPort(amPort);
request.setTrackingUrl(am_tracking_url);
RESOURCEMANAGER_SCHEDULER_HA_RETRY_BEGIN();
response = appMasterProto->registerApplicationMaster(request);
RESOURCEMANAGER_SCHEDULER_HA_RETRY_END();
return response;
}