-/* Copyright (c) 2013-2018. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2013-2021. 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. */
* host0 host1 host2
* \endverbatim
- * So, a communication from an host A to an host B goes through the following links (if they exist):
+ * So, a communication from a host A to a host B goes through the following links (if they exist):
* <tt>limiter(A)_UP, private(A)_UP, backbone, private(B)_DOWN, limiter(B)_DOWN.</tt>
* link_UP and link_DOWN usually share the exact same characteristics, but their
* performance are not shared, to model the fact that TCP links are full-duplex.
* A cluster is connected to the outer world through a router that is connected
* directly to the cluster's backbone (no private link).
*
- * A communication from an host A to the outer world goes through the following links:
+ * A communication from a host A to the outer world goes through the following links:
* <tt>limiter(A)_UP, private(A)_UP, backbone</tt>
* (because the private router is directly connected to the cluster core).
*/
class ClusterZone : public NetZoneImpl {
-public:
- explicit ClusterZone(NetZoneImpl* father, std::string name, resource::NetworkModel* netmodel);
+ /* We use a map instead of a std::vector here because that's a sparse vector. Some values may not exist */
+ /* The pair is {link_up, link_down} */
+ std::unordered_map<unsigned int, std::pair<resource::LinkImpl*, resource::LinkImpl*>> private_links_;
+ std::unordered_map<unsigned int, NetPoint*> gateways_; //!< list of gateways for leafs (if they're netzones)
+ resource::LinkImpl* backbone_ = nullptr;
+ NetPoint* router_ = nullptr;
+ bool has_limiter_ = false;
+ bool has_loopback_ = false;
+ unsigned int num_links_per_node_ = 1; /* may be 1 (if only a private link), 2 or 3 (if limiter and loopback) */
- void get_local_route(NetPoint* src, NetPoint* dst, RouteCreationArgs* into, double* latency) override;
- void get_graph(xbt_graph_t graph, std::map<std::string, xbt_node_t>* nodes,
- std::map<std::string, xbt_edge_t>* edges) override;
+protected:
+ void set_num_links_per_node(unsigned int num) { num_links_per_node_ = num; }
+ resource::LinkImpl* get_uplink_from(unsigned int position) const { return private_links_.at(position).first; }
+ resource::LinkImpl* get_downlink_to(unsigned int position) const { return private_links_.at(position).second; }
+
+public:
+ explicit ClusterZone(const std::string& name);
- virtual void create_links_for_node(ClusterCreationArgs* cluster, int id, int rank, unsigned int position);
- virtual void parse_specific_arguments(ClusterCreationArgs* cluster)
+ void set_loopback();
+ bool has_loopback() const { return has_loopback_; }
+ void set_limiter();
+ bool has_limiter() const { return has_limiter_; }
+ void set_backbone(resource::LinkImpl* bb) { backbone_ = bb; }
+ bool has_backbone() const { return backbone_ != nullptr; }
+ void set_router(NetPoint* router) { router_ = router; }
+ /** @brief Sets gateway for the leaf */
+ void set_gateway(unsigned int position, NetPoint* gateway);
+ /** @brief Gets gateway for the leaf or nullptr */
+ NetPoint* get_gateway(unsigned int position);
+ void add_private_link_at(unsigned int position, std::pair<resource::LinkImpl*, resource::LinkImpl*> link);
+ bool private_link_exists_at(unsigned int position) const
{
- /* this routing method does not require any specific argument */
+ return private_links_.find(position) != private_links_.end();
}
- /* We use a map instead of a std::vector here because that's a sparse vector. Some values may not exist */
- /* The pair is {link_up, link_down} */
- std::unordered_map<unsigned int, std::pair<kernel::resource::LinkImpl*, kernel::resource::LinkImpl*>> private_links_;
+ void get_local_route(NetPoint* src, NetPoint* dst, RouteCreationArgs* into, double* latency) override;
+ void get_graph(const s_xbt_graph_t* graph, std::map<std::string, xbt_node_t, std::less<>>* nodes,
+ std::map<std::string, xbt_edge_t, std::less<>>* edges) override;
- unsigned int node_pos(int id) { return id * num_links_per_node_; }
- unsigned int node_pos_with_loopback(int id) { return node_pos(id) + (has_loopback_ ? 1 : 0); }
- unsigned int node_pos_with_loopback_limiter(int id) { return node_pos_with_loopback(id) + (has_limiter_ ? 1 : 0); }
+ void create_links_for_node(const ClusterCreationArgs* cluster, int id, int rank, unsigned int position);
- void* loopback_ = nullptr;
- kernel::resource::LinkImpl* backbone_ = nullptr;
- NetPoint* router_ = nullptr;
- bool has_limiter_ = false;
- bool has_loopback_ = false;
- unsigned int num_links_per_node_ = 1; /* may be 1 (if only a private link), 2 or 3 (if limiter and loopback) */
+ unsigned int node_pos(int id) const { return id * num_links_per_node_; }
+ unsigned int node_pos_with_loopback(int id) const { return node_pos(id) + (has_loopback_ ? 1 : 0); }
+ unsigned int node_pos_with_loopback_limiter(int id) const
+ {
+ return node_pos_with_loopback(id) + (has_limiter_ ? 1 : 0);
+ }
+ /** Fill the leaf retriving netpoint from a user's callback */
+ void fill_leaf_from_cb(unsigned int position, const std::vector<unsigned int>& dimensions,
+ const s4u::ClusterCallbacks& set_callbacks, NetPoint** node_netpoint, s4u::Link** lb_link,
+ s4u::Link** limiter_link);
};
} // namespace routing
} // namespace kernel