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I need a class Router that receives IP packets, parses them and sends to clients (from class Client). Of course each Client must tell Router they want to receive packets for an specific port.

template <class T>
class Router
{
public:
    //Packets arrive from the world to a Client
    virtual bool onReceivePacket(Packet<T>::Ptr packet);
    //Packets arrive from a Client to the world
    virtual void onSendPacket(Packet<T>::Ptr packet);
protected:
    std::unordered_map<int, std::shared_ptr<Client>> tcpRoutingTable;
    std::unordered_map<int, std::shared_ptr<Client>> udpRoutingTable;
}

The interface for Router is pretty simple. Somebody will call onReceivePacket with a packet from the world and Router will extract the destination port of the packet and if it's TCP or UDP it'll simply route to the Client accordingly by calling onReceive on the client. Example:

auto client = tcpRoutingTable.at(packet->tcpDestination());
client->onReceive(packet);

However there are two things bothering me:

1) How to keep a relation between Router and Client? If I simply make a Client and subscribe it to the Router, then the Router also has to include a pointer to itself inside Client. This relation is very fragile as if the Client or Router go away it'll end in undefined behaviour. Also, by simply using shared_ptr on both Client and Router we get the problem of recursion of shared_ptrs that include each other and therefore never go away.

2) Is an unordered_map the best way to route packets? I see no fastest way than simply checking for an integer and sending to the specific client. However the answer for the first question migth change this model.

As you can see, Router is single threaded, because the thing that calls Router with packets from the world is also single threaded. But can I benefit from multiple threads?

  • "If I simply make a Client and subscribe it to the Router, then the Router also has to include a pointer to itself inside Client" - It is the Client's responsibility to keep track of which Routers it has registered with. That way it can register with multiple Routers if it wants to. Just as it is Router's responsibility to keep track of which Clients have registered with it. If you want to, then yes, Router can automatically add itself to any Client that registers with it. – Remy Lebeau Dec 3 at 23:44
  • "This relation is very fragile as if the Client or Router go away it'll end in undefined behaviour." - no, it won't. Just make sure that if the Client goes away first that it unregisters itself from all Routers it is actively registered with. And if the Router goes away first, make sure it notifies all Clients that are registered with it so they can unregister themselves, or at least make the Router remove itself from them. – Remy Lebeau Dec 3 at 23:44
  • Simple routing does not maintain state of the end-devices. That was the entire purpose of IP. Also a pure router knows nothing about the upper-layer protocols. Some transport protocols (TCP, UDP) use port numbers, but a router has no idea about that, and other transport protocols use something else or nothing at all for addressing. Routers simply route each packet independently, using the destination IP address, regardless of what came before. Routers do not know or care about any of the end-devices (they do not have clients, the client/server model is an application-layer concept). – Ron Maupin Dec 4 at 12:42
  • @RonMaupin you're rigth. I think my class name choice is bad. What I intended to do was a class where people could register their Clients to receive things on each port. But, don't a home router routes based on TCP/UDP source port? If a packet is sent from my home to the world the router associates the source port of the packet to the computer which sent it so he can give back the answer, isn't it? – Guerlando OCs Dec 4 at 16:48
  • "But, don't a home router routes based on TCP/UDP source port?" No, not really. Routing happens by destination IP address. What you mean is NAPT, where the network (IP) and transport (TCP, UDP) addresses are translated to other addresses. That really has nothing to do with routing, and it is very complex, requiring translation tables for each protocol. Your original premise of a simple router does not fit with that. Also, the end-device do not register with the router; each packet is handled on its own merit. – Ron Maupin Dec 4 at 17:00
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Following are technical answers considering that you know better your design goals and restrictions - you emphasize on simplisity .

  1. std::weak_ptr may be used to break reference cycles formed by objects managed by std::shared_ptr.

std::weak_ptr

Since you are considering concurrency keep in mind following: predecessor that implements weak_ptr (Boost library) directly says that weak_ptr provides a very limited subset of operations since accessing its stored pointer is often dangerous in multithreaded programs. Your std implementation may inherit the same difficulties - please investigate or ask in separate question.

  1. Internally, the elements in the unordered_map are organized into buckets depending on their hash values to allow for fast access to individual elements directly by their key values (with a constant average time complexity on average). Therefore usage of unordered_map is attractive from performance perspective.

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