0

I need to do some client-requests inside a server-callback and are not sure where to store the created capnp::EzRpcClient and CompareNetwork::Client comparer objects. That's because the clients go out of scope (I think - I just get a SEGFAULT, but that seems to be the reason). It's basically a master who forwards a loading request to it's slaves (slaves can register via a REG-request and their address is stored).
So - where/how should I store the client objects? Is there any "best-practice" with this? I think temporarily storing them in some class member variable is a little dirty, isn't it?

GroupMaster2.cpp:

kj::Promise<void> GroupMaster2::CompareMasterImpl::load(LoadContext context) {
    auto loadData = context.getParams().getIds();

    slaveListLock.lock();

    auto promList = kj::Vector<kj::Promise<std::pair<std::string, CompareNetwork::Status>>>();

    for(auto& slave : slaveList) {
        try {
            capnp::EzRpcClient client(slave.second->address);
            CompareNetwork::Client comparer = client.getMain<CompareNetwork>();
            auto request = comparer.loadRequest();
            std::string addrCopy(slave.first);
            request.setIds(loadData);
            auto loadPromise = request.send();
            promList.add(loadPromise.then([addrCopy](auto response) {
                return std::make_pair(addrCopy, response.getStatus());
            },
            [&, addrCopy](kj::Exception && exception) {
                slaveListLock.lock();
                slaveList.erase(addrCopy);//something failed, remove this slave!
                slaveListLock.unlock();
                std::cout << "ErrLoad0: " << std::string(exception.getDescription()) << std::endl;
                return std::make_pair(addrCopy, CompareNetwork::Status::ERROR);
            }));
        }
        catch(...) {
            std::cout << "Error sending load to: " << slave.first << std::endl;
        }
    }

    slaveListLock.unlock();

    auto retProm = kj::joinPromises(promList.releaseAsArray()).then([&, KJ_CPCAP(context)](kj::Array<std::pair<std::string, CompareNetwork::Status>> res) mutable {
        bool error = false;

        for(auto& loadRes : res) {
            switch(loadRes.second) {
                case CompareNetwork::Status::OK: {
                        std::cout << "LOAD OK: " << loadRes.first << std::endl;
                        break;
                    }

                case CompareNetwork::Status::ERROR: {
                        std::cout << "LOAD ERROR: " << loadRes.first << std::endl;
                        error = true;
                        break;
                    }
            }
        }
        if(!error)
            context.getResults().setStatus(CompareNetwork::Status::OK);
        else
            context.getResults().setStatus(CompareNetwork::Status::ERROR);
    }, [](kj::Exception && exception) {
        std::cout << __FILE__ << ":" << __LINE__ << std::string(exception.getDescription()) << std::endl;
    }).eagerlyEvaluate([](kj::Exception && exception) {
        std::cout << __FILE__ << ":" << __LINE__ << std::string(exception.getDescription()) << std::endl;
    });
    std::cout << "ReturnedLoad" << std::endl;
    return retProm;
}

GroupNetworkData.capnp:

interface CompareNetwork {
  compare @0 (jobs :JobPartList) -> (res :JobResList);
  load @1 (ids :WIDList) -> (status :Status);

  struct JobPartList {
    jobParts @0 :List(JobPart);

    struct JobPart {
      jobs @0 :List(Job);
      startID @1 :UInt32;

      struct Job {
        wid1 @0 :UInt32;
        wid2 @1 :UInt32;
      }
    }
  }

  struct JobResList {
    jobResults @0 :List(JobRes);
    struct JobRes {
      jobIndex @0 :UInt32;
      result @1 :Float64;
    }
  }

  struct WIDList {
    ids @0 :List(WID);
    struct WID {
      id @0 :UInt32;
    }
  }

  enum Status {
    ok @0;
    error @1;
  }
}

interface CompareMaster extends(CompareNetwork) {
  reg @0 (data :SlaveData) -> (status :CompareNetwork.Status);
  struct SlaveData {
    perfInd @0 :Float64;
    maxMem @1 :UInt32;
    address @2 :Text;
  }
}

Thanks in advance! dvs23

0

C++14 seems to have the answer:
How to capture a unique_ptr into a lambda expression?
Allocate both objects on heap with kj::heap and move the kj::Own to the callback lambda:

for(auto& slave : slaveList) {
    try {
        auto client = kj::heap<capnp::EzRpcClient>(slave.second->address);
        auto comparer = kj::heap<CompareNetwork::Client>(client->getMain<CompareNetwork>());
        auto request = comparer->loadRequest();
        std::string addrCopy(slave.first);
        request.setIds(loadData);
        auto loadPromise = request.send();
        promList.add(loadPromise.then([addrCopy, client = std::move(client), comparer = std::move(comparer)](auto response) {
            return std::make_pair(addrCopy, response.getStatus());
        },
        [&, addrCopy](kj::Exception && exception) {
            slaveListLock.lock();
            slaveList.erase(addrCopy);//something failed, remove this slave!
            slaveListLock.unlock();
            std::cout << "ErrLoad0: " << std::string(exception.getDescription()) << std::endl;
            return std::make_pair(addrCopy, CompareNetwork::Status::ERROR);
        }));
    }
    catch(...) {
        std::cout << "Error sending load to: " << slave.first << std::endl;
    }
}

Better ideas are welcome, but at the moment it seems to work pretty well :)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.