/* vim: set expandtab ts=4 sw=4: */ /* * You may redistribute this program and/or modify it under the terms of * the GNU General Public License as published by the Free Software Foundation, * either version 3 of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef Node_H #define Node_H #include "dht/Address.h" #include "switch/EncodingScheme.h" #include "memory/Allocator.h" #include "util/Identity.h" #include "util/Linker.h" Linker_require("dht/dhtcore/Node.c") struct Node_Link; struct Node_Two { /** * The reach of the node (how big/fast/close it is). * Since reach is a fraction, the reach number represents a percentage where 0xFFFFFFFF = 100% * DO NOT ALTER THIS OUTSIDE OF NODESTORE */ uint32_t reach_pvt; /** This is used to mark/sweep nodes in getWorstNode(), it's meaningless otherwise. */ int marked; /** The address of the node. */ struct Address address; /** The encoding method used by this node. */ struct EncodingScheme* encodingScheme; /** * Peers of this node for which we know the forward direction. * Use RB_NFIND(PeerRBTree, node->peerTree, struct type* elm) */ struct PeerRBTree { struct Node_Link* rbh_root; } peerTree; /** Used for freeing the links associated with this node. */ struct Node_Link* reversePeers; /** The best link for getting to this node. */ struct Node_Link* bestParent_pvt; /** Used by nodeStore's RBTree of nodes by address. */ struct { struct Node_Two* rbe_left; struct Node_Two* rbe_right; struct Node_Two* rbe_parent; int rbe_color; } nodeTree; struct Allocator* alloc; Identity }; /** * A link represents a link between two nodes. * Links are unidirectional because deriving the inverse of a route is non-trivial. * (it cannot be calculated) */ struct Node_Link { /** Used by the parent's RBTree of links. */ struct { struct Node_Link* rbe_left; struct Node_Link* rbe_right; struct Node_Link* rbe_parent; int rbe_color; } peerTree; /** * The Encoding Form number which is used to represent the first director in the path from * child to parent. */ int inverseLinkEncodingFormNumber; /** * The quality of the link between parent and child, * between 0xFFFFFFFF (perfect) and 0 (intolerable). */ uint32_t linkState; /** The parent of this peer, this is where the root of the RBTree is. */ struct Node_Two* parent; /** The child of this link. */ struct Node_Two* child; /** * The next link which points to the same child. * For each child there are many links pointing to it, * they are represented here as a linked list. */ struct Node_Link* nextPeer; /** Used internally by NodeStore for creating a list used for splitting links. */ struct Node_Link* nextInSplitList; /** * The label which would be used to reach the child from the parent. * This label is in a cannonical state and must be altered so that the first Director uses * at least as many bits as are required to reach the grandparent from the parent * in the reverse direction. */ uint64_t cannonicalLabel; /** The path which the incoming packet followed when this node was discovered. */ uint64_t discoveredPath; Identity }; static inline uint32_t Node_getReach(struct Node_Two* node) { return node->reach_pvt; } void Node_setReach(struct Node_Two* node, uint32_t newReach); static inline struct Node_Link* Node_getBestParent(struct Node_Two* node) { return node->bestParent_pvt; } void Node_setParentReachAndPath(struct Node_Two* node, struct Node_Link* bestParent, uint32_t reach, uint64_t path); bool Node_isOneHopLink(struct Node_Link* link); #endif