1 /* Copyright (c) 2016-2022. The SimGrid Team. All rights reserved. */
3 /* This program is free software; you can redistribute it and/or modify it
4 * under the terms of the license (GNU LGPL) which comes with this package. */
6 #ifndef SIMGRID_ROUTING_NETZONEIMPL_HPP
7 #define SIMGRID_ROUTING_NETZONEIMPL_HPP
9 #include <simgrid/forward.h>
10 #include <simgrid/s4u/Link.hpp>
11 #include <simgrid/s4u/NetZone.hpp>
12 #include <xbt/PropertyHolder.hpp>
13 #include <xbt/graph.h>
16 #include <unordered_set>
26 explicit Route(NetPoint* src, NetPoint* dst, NetPoint* gwSrc, NetPoint* gwDst)
27 : src_(src), dst_(dst), gw_src_(gwSrc), gw_dst_(gwDst)
30 NetPoint* src_ = nullptr;
31 NetPoint* dst_ = nullptr;
32 NetPoint* gw_src_ = nullptr;
33 NetPoint* gw_dst_ = nullptr;
34 std::vector<resource::StandardLinkImpl*> link_list_;
39 explicit BypassRoute(NetPoint* gwSrc, NetPoint* gwDst) : gw_src(gwSrc), gw_dst(gwDst) {}
42 std::vector<resource::StandardLinkImpl*> links;
45 /** @ingroup ROUTING_API
46 * @brief Private implementation of the Networking Zones
48 * A netzone is a network container, in charge of routing information between elements (hosts and sub-netzones)
49 * and to the nearby netzones. In SimGrid, there is a hierarchy of netzones, ie a tree with a unique root
50 * NetZone, that you can retrieve with simgrid::s4u::Engine::netRoot().
52 * The purpose of the kernel::routing module is to retrieve the routing path between two points in a time- and
53 * space-efficient manner. This is done by NetZoneImpl::getGlobalRoute(), called when creating a communication to
54 * retrieve both the list of links that the create communication will use, and the summed latency that these
57 * The network model could recompute the latency by itself from the list, but it would require an additional
58 * traversal of the link set. This operation being on the critical path of SimGrid, the routing computes the
59 * latency on the behalf of the network while constructing the link set.
61 * Finding the path between two nodes is rather complex because we navigate a hierarchy of netzones, each of them
62 * being a full network. In addition, the routing can declare shortcuts (called bypasses), either within a NetZone
63 * at the route level or directly between NetZones. Also, each NetZone can use a differing routing algorithm, depending
64 * on its class. @ref FullZone have a full matrix giving explicitly the path between any pair of their
65 * contained nodes, while @ref DijkstraZone or @ref FloydZone rely on a shortest path algorithm. @ref VivaldiZone
66 * does not even have any link but only use only coordinate information to compute the latency.
68 * So NetZoneImpl::getGlobalRoute builds the path recursively asking its specific information to each traversed NetZone
69 * with NetZoneImpl::getLocalRoute, that is redefined in each sub-class.
70 * The algorithm for that is explained in http://hal.inria.fr/hal-00650233/ (but for historical reasons, NetZones are
71 * called Autonomous Systems in this article).
74 class XBT_PUBLIC NetZoneImpl : public xbt::PropertyHolder {
75 friend EngineImpl; // it destroys netRoot_
78 // our content, as known to our graph routing algorithm (maps vertex_id -> vertex)
79 std::vector<kernel::routing::NetPoint*> vertices_;
82 void operator()(resource::StandardLinkImpl* link);
84 std::map<std::string, std::unique_ptr<resource::StandardLinkImpl, LinkDeleter>, std::less<>> links_;
85 /* save split-duplex links separately, keep links_ with only LinkImpl* seen by the user
86 * members of a split-duplex are saved in the links_ */
87 std::map<std::string, std::unique_ptr<resource::SplitDuplexLinkImpl>, std::less<>> split_duplex_links_;
89 NetZoneImpl* parent_ = nullptr;
90 std::vector<NetZoneImpl*> children_; // sub-netzones
92 bool sealed_ = false; // We cannot add more content when sealed
94 std::map<std::pair<const NetPoint*, const NetPoint*>, BypassRoute*> bypass_routes_; // src x dst -> route
95 routing::NetPoint* netpoint_ = nullptr; // Our representative in the parent NetZone
98 explicit NetZoneImpl(const std::string& name);
99 NetZoneImpl(const NetZoneImpl&) = delete;
100 NetZoneImpl& operator=(const NetZoneImpl&) = delete;
101 virtual ~NetZoneImpl();
104 * @brief Probe the routing path between two points that are local to the called NetZone.
106 * @param src where from
107 * @param dst where to
108 * @param into Container into which the traversed links and gateway information should be pushed
109 * @param latency Accumulator in which the latencies should be added (caller must set it to 0)
111 virtual void get_local_route(const NetPoint* src, const NetPoint* dst, Route* into, double* latency) = 0;
112 /** @brief retrieves the list of all routes of size 1 (of type src x dst x Link) */
113 /* returns whether we found a bypass path */
114 bool get_bypass_route(const routing::NetPoint* src, const routing::NetPoint* dst,
115 /* OUT */ std::vector<resource::StandardLinkImpl*>& links, double* latency,
116 std::unordered_set<NetZoneImpl*>& netzones);
118 /** @brief Get the NetZone that is represented by the netpoint */
119 const NetZoneImpl* get_netzone_recursive(const NetPoint* netpoint) const;
121 /** @brief Get the list of LinkImpl* to add in a route, considering split-duplex links and the direction */
122 std::vector<resource::StandardLinkImpl*> get_link_list_impl(const std::vector<s4u::LinkInRoute>& link_list,
123 bool backroute) const;
126 enum class RoutingMode {
127 base, /**< Base case: use simple link lists for routing */
128 recursive /**< Recursive case: also return gateway information */
131 /** @brief Retrieves the network model associated to this NetZone */
132 const std::shared_ptr<resource::NetworkModel>& get_network_model() const { return network_model_; }
133 /** @brief Retrieves the CPU model for virtual machines associated to this NetZone */
134 const std::shared_ptr<resource::CpuModel>& get_cpu_vm_model() const { return cpu_model_vm_; }
135 /** @brief Retrieves the CPU model for physical machines associated to this NetZone */
136 const std::shared_ptr<resource::CpuModel>& get_cpu_pm_model() const { return cpu_model_pm_; }
137 /** @brief Retrieves the disk model associated to this NetZone */
138 const std::shared_ptr<resource::DiskModel>& get_disk_model() const { return disk_model_; }
139 /** @brief Retrieves the host model associated to this NetZone */
140 const std::shared_ptr<resource::HostModel>& get_host_model() const { return host_model_; }
142 const s4u::NetZone* get_iface() const { return &piface_; }
143 s4u::NetZone* get_iface() { return &piface_; }
144 unsigned int get_table_size() const { return vertices_.size(); }
145 std::vector<kernel::routing::NetPoint*> get_vertices() const { return vertices_; }
146 NetZoneImpl* get_parent() const { return parent_; }
147 /** @brief Returns the list of direct children (no grand-children). This returns the internal data, no copy.
148 * Don't mess with it.*/
149 const std::vector<NetZoneImpl*>& get_children() const { return children_; }
150 /** @brief Get current netzone hierarchy */
151 RoutingMode get_hierarchy() const { return hierarchy_; }
153 /** @brief Retrieves the name of that netzone as a C++ string */
154 const std::string& get_name() const { return name_; }
155 /** @brief Retrieves the name of that netzone as a C string */
156 const char* get_cname() const { return name_.c_str(); };
158 /** @brief Gets the netpoint associated to this netzone */
159 kernel::routing::NetPoint* get_netpoint() const { return netpoint_; }
161 std::vector<s4u::Host*> get_all_hosts() const;
162 size_t get_host_count() const;
164 std::vector<s4u::Link*> get_all_links() const;
165 std::vector<s4u::Link*> get_filtered_links(const std::function<bool(s4u::Link*)>& filter) const;
166 size_t get_link_count() const;
169 * @brief Searches by the link by its name inside this netzone.
170 * Recursively searches in child netzones
172 * @param name Link name
173 * @return Link object or nullptr if not found
175 resource::StandardLinkImpl* get_link_by_name_or_null(const std::string& name) const;
178 * @brief Searches for split-duplex links by its name inside this netzone.
179 * Recursively searches in child netzones
181 * @param name Split-duplex Link name
182 * @return Link object or nullptr if not found
184 resource::SplitDuplexLinkImpl* get_split_duplex_link_by_name_or_null(const std::string& name) const;
186 /** @brief Make a host within that NetZone */
187 s4u::Host* create_host(const std::string& name, const std::vector<double>& speed_per_pstate);
188 /** @brief Create a disk with the disk model from this NetZone */
189 s4u::Disk* create_disk(const std::string& name, double read_bandwidth, double write_bandwidth);
190 /** @brief Make a link within that NetZone */
191 s4u::Link* create_link(const std::string& name, const std::vector<double>& bandwidths);
192 s4u::SplitDuplexLink* create_split_duplex_link(const std::string& name, const std::vector<double>& bandwidths);
193 /** @brief Make a router within that NetZone */
194 NetPoint* create_router(const std::string& name);
195 /** @brief Creates a new route in this NetZone */
196 virtual void add_bypass_route(NetPoint* src, NetPoint* dst, NetPoint* gw_src, NetPoint* gw_dst,
197 const std::vector<s4u::LinkInRoute>& link_list);
199 /** @brief Seal your netzone once you're done adding content, and before routing stuff through it */
201 /** @brief Check if netpoint is a member of this NetZone or some of the childrens */
202 bool is_component_recursive(const NetPoint* netpoint) const;
203 virtual unsigned long add_component(NetPoint* elm); /* A host, a router or a netzone, whatever */
204 virtual void add_route(NetPoint* src, NetPoint* dst, NetPoint* gw_src, NetPoint* gw_dst,
205 const std::vector<s4u::LinkInRoute>& link_list, bool symmetrical);
206 /** @brief Set parent of this Netzone */
207 void set_parent(NetZoneImpl* parent);
208 /** @brief Set network model for this Netzone */
209 void set_network_model(std::shared_ptr<resource::NetworkModel> netmodel);
210 void set_cpu_vm_model(std::shared_ptr<resource::CpuModel> cpu_model);
211 void set_cpu_pm_model(std::shared_ptr<resource::CpuModel> cpu_model);
212 void set_disk_model(std::shared_ptr<resource::DiskModel> disk_model);
213 void set_host_model(std::shared_ptr<resource::HostModel> host_model);
215 /** @brief get the route between two nodes in the full platform
217 * @param src where from
218 * @param dst where to
219 * @param links Accumulator in which all traversed links should be pushed (caller must empty it)
220 * @param latency Accumulator in which the latencies should be added (caller must set it to 0)
222 static void get_global_route(const NetPoint* src, const NetPoint* dst,
223 /* OUT */ std::vector<resource::StandardLinkImpl*>& links, double* latency);
225 /** @brief Similar to get_global_route but get the NetZones traversed by route */
226 static void get_global_route_with_netzones(const NetPoint* src, const NetPoint* dst,
227 /* OUT */ std::vector<resource::StandardLinkImpl*>& links, double* latency,
228 std::unordered_set<NetZoneImpl*>& netzones);
230 virtual void get_graph(const s_xbt_graph_t* graph, std::map<std::string, xbt_node_t, std::less<>>* nodes,
231 std::map<std::string, xbt_edge_t, std::less<>>* edges) = 0;
233 /*** Called on each newly created regular route (not on bypass routes) */
234 static xbt::signal<void(bool symmetrical, NetPoint* src, NetPoint* dst, NetPoint* gw_src, NetPoint* gw_dst,
235 std::vector<resource::StandardLinkImpl*> const& link_list)>
236 on_route_creation; // XBT_ATTRIB_DEPRECATED_v332 : should be an internal signal used by NS3.. if necessary,
237 // callback shouldn't use LinkImpl*
240 RoutingMode hierarchy_ = RoutingMode::base;
241 std::shared_ptr<resource::NetworkModel> network_model_;
242 std::shared_ptr<resource::CpuModel> cpu_model_vm_;
243 std::shared_ptr<resource::CpuModel> cpu_model_pm_;
244 std::shared_ptr<resource::DiskModel> disk_model_;
245 std::shared_ptr<resource::HostModel> host_model_;
246 /** @brief Perform sealing procedure for derived classes, if necessary */
247 virtual void do_seal()
248 { /* obviously nothing to do by default */
250 /** @brief Allows subclasses (wi-fi) to have their own create link method, but keep links_ updated */
251 virtual resource::StandardLinkImpl* do_create_link(const std::string& name, const std::vector<double>& bandwidths);
252 void add_child(NetZoneImpl* new_zone);
254 } // namespace routing
255 } // namespace kernel
256 } // namespace simgrid
258 #endif /* SIMGRID_ROUTING_NETZONEIMPL_HPP */