[simgrid.git] / src / kernel / routing / AsImpl.hpp

/* Copyright (c) 2016. The SimGrid Team. All rights reserved.               */

/* This program is free software; you can redistribute it and/or modify it
 * under the terms of the license (GNU LGPL) which comes with this package. */

#ifndef SIMGRID_SURF_AS_HPP
#define SIMGRID_SURF_AS_HPP

#include "xbt/graph.h"

#include "simgrid/s4u/forward.hpp"
#include "simgrid/s4u/As.hpp"

#include "src/surf/xml/platf_private.hpp" // FIXME: kill sg_platf_route_cbarg_t to remove that UGLY include

namespace simgrid {
namespace kernel {
namespace routing {
  class RoutingPlatf; // FIXME: KILLME

/** @brief Autonomous Systems
 *
 * An AS is a network container, in charge of routing information between elements (hosts) and to the nearby ASes.
 * In SimGrid, there is a hierarchy of ASes, with a unique root AS (that you can retrieve from the s4u::Engine).
 */
XBT_PUBLIC_CLASS AsImpl : public s4u::As {
  friend simgrid::kernel::routing::RoutingPlatf;
protected:
  explicit AsImpl(const char *name);
  ~AsImpl() override;
  
public:
  /**
   * @brief Probe the routing path between two points
   *
   * The networking model uses this function when creating a communication
   * to retrieve both the list of links that the create communication will use,
   * and the summed latency that these links represent.
   *
   * The network could recompute the latency by itself from the list, but it would
   * require an additional link set traversal. This operation being on the critical
   * path of SimGrid, the routing computes the latency in behalf of the network.
   *
   * Things are rather complex here because we have to find the path from ASes to ASes, and within each.
   * In addition, the different ASes may use differing routing models.
   * Some ASes may be routed in full, others may have only some connection information and use a shortest path on top of that, and so on.
   * Some ASes may even not have any predefined links and use only coordinate information to compute the latency.
   *
   * So, the path is constructed recursively, with each traversed AS adding its information to the set.
   * The algorithm for that is explained in http://hal.inria.fr/hal-00650233/
   *
   * @param src Initial point of the routing path
   * @param dst Final point of the routing path
   * @param into Container into which the traversed links should be pushed
   * @param latency Accumulator in which the latencies should be added (caller must set it to 0)
   */
  virtual void getRouteAndLatency(NetCard *src, NetCard *dst, sg_platf_route_cbarg_t into, double *latency)=0;
  /** @brief retrieves the list of all routes of size 1 (of type src x dst x Link) */
  virtual xbt_dynar_t getOneLinkRoutes();
  std::vector<surf::Link*> *getBypassRoute(routing::NetCard *src, routing::NetCard *dst);

  virtual void getGraph(xbt_graph_t graph, xbt_dict_t nodes, xbt_dict_t edges)=0;
  static void getRouteRecursive(routing::NetCard *src, routing::NetCard *dst, /* OUT */ std::vector<surf::Link*> * links, double *latency);


  enum class RoutingMode {
    unset = 0,  /**< Undefined type                                   */
    base,       /**< Base case: use simple link lists for routing     */
    recursive   /**< Recursive case: also return gateway information  */
  };
  /* FIXME: protect the following fields once the construction madness is sorted out */
  RoutingMode hierarchy_ = RoutingMode::unset;
  routing::NetCard *netcard_ = nullptr; // Our representative in the father AS
};

}}}; // Namespace simgrid::kernel::routing

#endif /* SIMGRID_SURF_AS_HPP */