aodv.zip_NS2 aodv

/* Copyright (c) 1997, 1998 Carnegie Mellon University. All Rights Reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. The AODV code developed by the CMU/MONARCH group was optimized and tuned by Samir Das and Mahesh Marina, University of Cincinnati. The work was partially done in Sun Microsystems. */ #ifndef __aodv_h__ #define __aodv_h__ //#include <agent.h> //#include <packet.h> //#include <sys/types.h> //#include <cmu/list.h> //#include <scheduler.h> #include <cmu-trace.h> #include <priqueue.h> #include <aodv/aodv_rtable.h> #include <aodv/aodv_rqueue.h> #include <classifier/classifier-port.h> /* Allows local repair of routes */ #define AODV_LOCAL_REPAIR /* Allows AODV to use link-layer (802.11) feedback in determining when links are up/down. */ #define AODV_LINK_LAYER_DETECTION /* Causes AODV to apply a "smoothing" function to the link layer feedback that is generated by 802.11. In essence, it requires that RT_MAX_ERROR errors occurs within a window of RT_MAX_ERROR_TIME before the link is considered bad. */ #define AODV_USE_LL_METRIC /* Only applies if AODV_USE_LL_METRIC is defined. Causes AODV to apply omniscient knowledge to the feedback received from 802.11. This may be flawed, because it does not account for congestion. */ //#define AODV_USE_GOD_FEEDBACK class AODV; #define MY_ROUTE_TIMEOUT 10 // 100 seconds #define ACTIVE_ROUTE_TIMEOUT 10 // 50 seconds #define REV_ROUTE_LIFE 6 // 5 seconds #define BCAST_ID_SAVE 6 // 3 seconds // No. of times to do network-wide search before timing out for // MAX_RREQ_TIMEOUT sec. #define RREQ_RETRIES 3 // timeout after doing network-wide search RREQ_RETRIES times #define MAX_RREQ_TIMEOUT 10.0 //sec /* Various constants used for the expanding ring search */ #define TTL_START 5 #define TTL_THRESHOLD 7 #define TTL_INCREMENT 2 // This should be somewhat related to arp timeout #define NODE_TRAVERSAL_TIME 0.03 // 30 ms #define LOCAL_REPAIR_WAIT_TIME 0.15 //sec // Should be set by the user using best guess (conservative) #define NETWORK_DIAMETER 30 // 30 hops // Must be larger than the time difference between a node propagates a route // request and gets the route reply back. //#define RREP_WAIT_TIME (3 * NODE_TRAVERSAL_TIME * NETWORK_DIAMETER) // ms //#define RREP_WAIT_TIME (2 * REV_ROUTE_LIFE) // seconds #define RREP_WAIT_TIME 1.0 // sec #define ID_NOT_FOUND 0x00 #define ID_FOUND 0x01 //#define INFINITY 0xff // The followings are used for the forward() function. Controls pacing. #define DELAY 1.0 // random delay #define NO_DELAY -1.0 // no delay // think it should be 30 ms #define ARP_DELAY 0.01 // fixed delay to keep arp happy #define HELLO_INTERVAL 1 // 1000 ms #define ALLOWED_HELLO_LOSS 3 // packets #define BAD_LINK_LIFETIME 3 // 3000 ms #define MaxHelloInterval (1.25 * HELLO_INTERVAL) #define MinHelloInterval (0.75 * HELLO_INTERVAL) /* Timers (Broadcast ID, Hello, Neighbor Cache, Route Cache) */ class BroadcastTimer : public Handler { public: BroadcastTimer(AODV* a) : agent(a) {} void handle(Event*); private: AODV *agent; Event intr; }; class HelloTimer : public Handler { public: HelloTimer(AODV* a) : agent(a) {} void handle(Event*); private: AODV *agent; Event intr; }; class NeighborTimer : public Handler { public: NeighborTimer(AODV* a) : agent(a) {} void handle(Event*); private: AODV *agent; Event intr; }; class RouteCacheTimer : public Handler { public: RouteCacheTimer(AODV* a) : agent(a) {} void handle(Event*); private: AODV *agent; Event intr; }; class LocalRepairTimer : public Handler { public: LocalRepairTimer(AODV* a) : agent(a) {} void handle(Event*); private: AODV *agent; Event intr; }; /* Broadcast ID Cache */ class BroadcastID { friend class AODV; public: BroadcastID(nsaddr_t i, u_int32_t b) { src = i; id = b; } protected: LIST_ENTRY(BroadcastID) link; nsaddr_t src; u_int32_t id; double expire; // now + BCAST_ID_SAVE s }; LIST_HEAD(aodv_bcache, BroadcastID); /* The Routing Agent */ class AODV: public Agent { /* * make some friends first */ friend class aodv_rt_entry; friend class BroadcastTimer; friend class HelloTimer; friend class NeighborTimer; friend class RouteCacheTimer; friend class LocalRepairTimer; public: AODV(nsaddr_t id); void recv(Packet *p, Handler *); protected: int command(int, const char *const *); int initialized() { return 1 && target_; } /* * Route Table Management */ void rt_resolve(Packet *p); void rt_update(aodv_rt_entry *rt, u_int32_t seqnum, u_int16_t metric, nsaddr_t nexthop, double expire_time); void rt_down(aodv_rt_entry *rt); void local_rt_repair(aodv_rt_entry *rt, Packet *p); public: void rt_ll_failed(Packet *p); void handle_link_failure(nsaddr_t id); protected: void rt_purge(void); void enque(aodv_rt_entry *rt, Packet *p); Packet* deque(aodv_rt_entry *rt); /* * Neighbor Management */ void nb_insert(nsaddr_t id); AODV_Neighbor* nb_lookup(nsaddr_t id); void nb_delete(nsaddr_t id); void nb_purge(void); /* * Broadcast ID Management */ void id_insert(nsaddr_t id, u_int32_t bid); bool id_lookup(nsaddr_t id, u_int32_t bid); void id_purge(void); /* * Packet TX Routines */ void forward(aodv_rt_entry *rt, Packet *p, double delay); void sendHello(void); void sendRequest(nsaddr_t dst); void sendReply(nsaddr_t ipdst, u_int32_t hop_count, nsaddr_t rpdst, u_int32_t rpseq, u_int32_t lifetime, double timestamp); void sendError(Packet *p, bool jitter = true); /* * Packet RX Routines */ void recvAODV(Packet *p);