Commit 4c99ee7f authored by ikumar's avatar ikumar

This version has my algorithm implemented and works correctly with all kinds...

This version has my algorithm implemented and works correctly with all kinds of topology. It generates the nam file with LAN topology too !!
                  - Indrajeet
parent 945c0520
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......@@ -18,13 +18,17 @@
*
* ---------------------------
*
* $Id: cli.c,v 1.5 2001-07-19 19:55:57 ikumar Exp $
* $Id: cli.c,v 1.7 2001-08-02 21:21:05 ikumar Exp $
*/
#include "discvr.h"
#include "packet.h"
#include "util.h"
extern u_char *mac_list[MAX_NODES];
extern int num_nodes;
u_char *
find_nodeID(void)
{
......@@ -63,7 +67,6 @@ find_nodeID(void)
* compiled out eventually. -lkw
*/
// Why max is being talken ?! -ik
if ( ifi->ifi_hlen > 0) {
myNodeIDtmp = max_haddr(myNodeIDtmp, ifi->ifi_haddr);
}
......@@ -119,11 +122,13 @@ cli(int sockfd, const struct sockaddr *pservaddr, socklen_t servlen,
printf("sending query to server:\n");
sendto(sockfd, &ti, TOPD_INQ_SIZ, 0, pservaddr, servlen);
//print_tdinq((char *)&ti);
print_tdinq((char *)&ti);
n = recvfrom(sockfd, recvline, MAXLINE, 0, NULL, NULL);
fflush(stdin);
//printf("Receiving in client:==>\n");
//print_tdreply(recvline, n);
printf("Receiving in client:==>\n");
print_tdreply(recvline, n);
gen_nam_file(recvline, n,"td1.nam");
printf("Done!\n");
}
/*
......@@ -149,7 +154,7 @@ main(int argc, char **argv)
sockfd = socket(AF_INET, SOCK_DGRAM, 0);
printf("calling client\n");
//printf("calling client\n");
cli(sockfd, (struct sockaddr *) &servaddr, sizeof(servaddr), atoi(argv[2]), atoi(argv[3]));
exit(0);
......
Client:
=======
Initiate Topology Discovery by sending Query to the server on
the same machine. The Query packet format is:
1) Unique ID: Basically its the value returned by "gettimeofday()"
which serves two purpose:
a) Query initiated by different clients running simulatenously
b) Identifying that its the query packet which was already
seen earlier and processed.
2) TTL: In a sense its the estimate of the diameter of the network.
3) Factor: "TTL * Factor" is the time till any node waits for its
neighbors to respond.
4) SourceNodeID: The greatest of the MAC Addresses of the machine
from where the query was initiated.
5) ImmediateSenderID: Its the ID of the immediate sender of the query.
After sending this query the client waits for the server to respond.
Server:
=======
In an "infinite loop" the server does the following:
1. Listen to any query packet on the SERV_PORT
2. We can determine if the latest query packet was already processed earlier
or not based on a list of query that we maintain. We keep adding every new
query that we encounter in this "Query List".
(a)If the "query packet" was already processed (as by above) and it is now sent
by this server then we discard the packet. We can determine who has sent this
packet by the information returned by "recvfrom" function for UDP receive.
(b)If the "query packet" was already processed earlier and it is now sent
by some other node (neighbors) then the server replies them with its interface
list. (No neighbor information was supplied in the reply). The fact that the
packet has come back again tells the possibility of a cycle in the network so
just telling this node's information is enough to make the cycle complete.
3. If the "query packet is a NEW packet then the server needs to gather its
neighbors' information and will have to send this back to the node which has
sent the query.
To gather this neighbors' information the server broadcasts this query to all
its interfaces after decrementing the TTL using the broadcast addresses.
Then the server goes in "select mode" to listen for all replies. It opens sockets
corresponding to each interface and binds to temperory ports.
Based on the replies from all the different interfaces the server makes a list
of replies (ReplyList).
The server cann't wait for replies for ever! So, it has a time limit
after that it stops listening to any reply and sends the current ReplyList back
to the node which as sent the Query. The "time limit" is determined by "ttl *
factor" in the query packet. From this it can be understood that TTL is in
sense corresponds to the diameter of the network. Factor helps in getting a
reasonable time out value.
4. After the ReplyList was formed send this to the node which had sent the query.
5. Jump to step 1.
Problems removed from Kristine's Code to follow the above algorithm:
--------------------------------------------------------------------
1. TTL was not decremented before forwarding the Query
2. Duplicate Query was not checked in the code correctly
- TTL was also compared to be equal
3. Before doing select "fd_set" was not saved so it was
modified after select
4. ResponseList was not returned by the forw_requests funstion
5. It was forwarding the Query on one interface and was blocking
till it receives the response. Because of this
(i) Timeout was occuring by listening on just one
interface
(ii) It resulted in deadlock in case of cycles.
6. Caculation of the size of reply list was wrong
(i) There were memory problems because size of Query
structure was not decremented from the received
response before forming the ResponseList
7. Other small small problems like server was not listening on
the specific ports where neighbors were sending the response
But apart from this, the algo has an inherent problem:
The server listens to query only after it has received all the replies from the
neighbors. Because of this the algorithm results in a lock when two nodes are each
waiting for the other to reply and they both time out simulatenously resulting in
missing links. This situation occurs in a cycle of 5 nodes as was discovered while
experimentation.
New Server Algo:
================
This algorithm is slight modification of the above server algorithm. The main
difference is in the fact that we listen to the query as well as the replies
at the same point in the algorithm. We do the select on Query socket as well as
the Response socket and process each of them depending on which socket the packet
was received.
After receiving a new query the server sets a timeout for the select. After
the timeout occurs server stops waiting for response and then it sends its own
response back to the node which sent the query.
The algorithm is very similar to the above except the fact that we are doing
select on the query socket too.
Set timeout= 0. This blocks the select to listen for the queries.
Run the following steps infinitely:
1. select on socket corresponding to SERV_PORT for listening to any query as well
as any socket open for listening to responses from the neighbors.
2. If there is any query packet on the query socket then process it as done in
step 2 of the above algorithm. In case of a new query set "timeout" to
"ttl*factor" and goto select statement again.
3. If there are any response packets then make a list of it. Goto select again.
4. If there is "timeout" in select then send the response back and set "timeout"
to 0 again so that it can wait infinitely for any query.
So, as clear from the algorithm the server can respond to any query also while
waiting for replies. This was the drawback in the above algorithm which went in
lock in this scenario.
PS: I have avoided minute details in the algorithm for high level understanding of
the algorithm. Feel free to raise any problem in the above algorithm.
......@@ -8,7 +8,7 @@ error_exit(char *fmt, ...)
char *msg;
va_start(ap, fmt);
printf(
printf();
perror("Unable to get time-of-day.");
exit(1);
}
/*$Id: discvr.h,v 1.6 2001-07-19 19:55:57 ikumar Exp $*/
/*$Id: discvr.h,v 1.8 2001-08-02 21:21:05 ikumar Exp $*/
#ifndef _TOPD_DISCVR_H_
#define _TOPD_DISCVR_H_
......@@ -29,6 +29,10 @@
* needed until true packets are generated. -lkw
*/
#define Q_LISTEN 1
#define QR_LISTEN 2
#define print_nodeID(x) println_haddr((x), ETHADDRSIZ)
#define INCR_ALIGN(x,y) ((x) += (y); ALIGN(x);)
......@@ -57,14 +61,25 @@ struct ifi_info {
int sock; /* socket associated with this interface */
};
#define MAX_INTERFACES 5
#define MAC_ADDR_LEN 20
typedef struct db_elem
{
char *hostname;
char addrs[MAX_INTERFACES][MAC_ADDR_LEN];
}db_type;
#define MAX_NODES 100
/* Prototypes */
void
serv_listen(int sockfd, struct sockaddr *pcliaddr, socklen_t clilen);
struct ifi_info *
int *
forward_request(struct ifi_info *ifi, const struct in_pktinfo *pktinfo,
const char *mesg, const int mesglen);
const char *mesg, const int mesglen, int *ptrSockNum);
struct ifi_info *
get_ifi_info(int, int);
......@@ -88,7 +103,8 @@ void
get_rtaddrs(int, struct sockaddr *, struct sockaddr **);
u_int32_t
compose_reply(struct ifi_info *ifi, char *mesg, const int mesglen, int sendnbors);
compose_reply(struct ifi_info *ifi, char *mesg, const int mesglen, int sendnbors,
u_char [], u_char []);
int
is_my_packet(struct sockaddr *pcliaddr, struct ifi_info *ifihead) ;
......@@ -100,7 +116,13 @@ void
addMyID(char* mesg, int size);
void
get_recvIFADDR(char *name,struct ifi_info * ifihead);
get_recvIFADDR(u_char* recvIF,char *name,struct ifi_info * ifihead);
double
tod(void);
void
gen_nam_file(const char *mesg, size_t nbytes, char *);
#endif /* _TOPD_DISCVR_H_ */
This diff is collapsed.
#include "discvr.h"
#include "packet.h"
#include "util.h"
#include "generate_namfile.h"
u_char *mac_list[MAX_NODES];
int num_nodes=0;
db_type mac_db[40];
link_type *links_list;
void
read_mac_db()
{
FILE *dbfptr=NULL;
char hostname[HOSTNAME_LEN];
char if_addr[20];
int if_num=0,i=0;
if((dbfptr = fopen("MAC_DB","r")) == NULL)
{
perror("MAC_DB file not found\n");
exit(1);
}
i=0;
while(i<40)
{
if(fscanf(dbfptr,"%s\t%d\t%s\n",hostname,&if_num,if_addr)==0)
break;
//printf("values read: \"%s\" \"%d\" \"%s\"\n",hostname,if_num,if_addr);
mac_db[i].hostname = (char*)malloc(sizeof(char)*strlen(hostname));
strcpy(mac_db[i].hostname,hostname);
strcpy(mac_db[i].addrs[if_num],if_addr);
fscanf(dbfptr,"%s\t%d\t%s\n",hostname,&if_num,if_addr);
strcpy(mac_db[i].addrs[if_num],if_addr);
fscanf(dbfptr,"%s\t%d\t%s\n",hostname,&if_num,if_addr);
strcpy(mac_db[i].addrs[if_num],if_addr);
fscanf(dbfptr,"%s\t%d\t%s\n",hostname,&if_num,if_addr);
strcpy(mac_db[i].addrs[if_num],if_addr);
fscanf(dbfptr,"%s\t%d\t%s\n",hostname,&if_num,if_addr);
strcpy(mac_db[i].addrs[if_num],if_addr);
i++;
}
fclose(dbfptr);
}
void
get_hostname(char *addr,char *hostname)
{
int i=0,j=0;
for(i=0;i<40;i++)
{
for(j=0;j<5;j++)
{
if(strcmp(addr,mac_db[i].addrs[j])==0)
{
strcpy(hostname,mac_db[i].hostname);
return;
}
}
}
printf("Error:Couldnt find the mac_address in the db\n");
strcpy(hostname,"dontknow");
}
/* Will need to change this function. Change the data structure to have the link
* as a hash key. Two nodes may have multiple links between them.
*/
void
gen_nam_file(const char *mesg, size_t nbytes,char *file_name)
{
struct topd_nbor *p;
FILE *fptr=NULL;
char addr[MAC_ADDR_STR_LEN];
char hostname[HOSTNAME_LEN];
int lan_count=MAX_NODES;
int node_count=0;
link_type * temp_ptr;
lan_node_type *temp_ptr2;
/* Read the MAC address and Hostname mapping from the "MAC_DB" file into
* mac_db array.
*/
read_mac_db();
/* Open the output nam file for writing the topology informantion
*/
if((fptr = fopen(file_name,"w")) == NULL)
perror("Error:fopen");
fprintf(fptr,"V -t * -v 1.0a5 -a 0\n");
p = (struct topd_nbor *) (mesg + sizeof(topd_inqid_t));
num_nodes=0;
/* Go through the list of links received by the client as reply to its query
* one by one.
*/
while((char *)p < mesg + nbytes )
{
add_link(p);
print_links_list();
/* Check that this node's node_id is not there in the
* mac_list already. If its already there in the list then don't add to the
* list again.
*/
if(not_in_node_list(p->tdnbor_pnode))
{
mac_list[num_nodes]=(u_char*)malloc(sizeof(u_char)*ETHADDRSIZ);
memcpy(mac_list[num_nodes],p->tdnbor_pnode, ETHADDRSIZ);
/* Get the MAC address as a string. Convert the MAC address in the
* hexadecimal format to string format
*/
get_mac_addr(p->tdnbor_pnode,ETHADDRSIZ, addr);
/* Use the mac_db to convert the mac address to host name
*/
get_hostname(addr,hostname);
fprintf(fptr, "n -t * -s %d -v circle -c black -e red -l %s\n",num_nodes, hostname);
num_nodes++;
}
//ptr_link_struct =
p++;
}
/* Set the version number of nam file
*/
for(temp_ptr = links_list; temp_ptr!=NULL;temp_ptr = temp_ptr->next)
{
if(temp_ptr->lan_if_list==NULL)
fprintf(fptr,"l -t * -s %d -d %d -c blue\n",
get_id(temp_ptr->pointA),get_id(temp_ptr->pointB));
}
lan_count = num_nodes;
for(temp_ptr = links_list; temp_ptr!=NULL;temp_ptr = temp_ptr->next)
{
if(temp_ptr->lan_if_list!=NULL)
{
fprintf(fptr,"X -t * -n %d -o left\n",lan_count);
fprintf(fptr,"L -t * -s %d -d %d -o up\n",
lan_count,get_id(temp_ptr->pointA));
for(node_count=0,temp_ptr2=temp_ptr->lan_if_list;temp_ptr2!=NULL;
temp_ptr2=temp_ptr2->next,node_count++)
{
fprintf(fptr,"L -t * -s %d -d %d ",
lan_count,get_id(temp_ptr2->node));
if(node_count%2==0)
fprintf(fptr,"-o down\n");
else
fprintf(fptr,"-o up\n");
}
lan_count++;
}
}
fprintf(fptr,"\n");
fclose(fptr);
}
int
get_id(u_char *mac_addr)
{
int i=0;
char str_mac_addr[MAC_ADDR_STR_LEN],str_mac_addr2[MAC_ADDR_STR_LEN];
char hostname[HOSTNAME_LEN], hostname2[HOSTNAME_LEN];
get_mac_addr(mac_addr,ETHADDRSIZ, str_mac_addr);
get_hostname(str_mac_addr,hostname);
for(i=0;i<num_nodes;i++)
{
get_mac_addr(mac_list[i],ETHADDRSIZ, str_mac_addr2);
get_hostname(str_mac_addr2,hostname2);
if(strcmp(hostname,hostname2)==0)
return i;
}
printf("Error: Could not find \"%s\" mac address in the list\n", mac_addr);
return MAX_NODES;
}
int
not_in_node_list(u_char *mac_addr)
{
int i=0;
for(i=0;i<num_nodes;i++)
{
if(memcmp(mac_addr,mac_list[i],ETHADDRSIZ)==0)
return 0;
}
return 1;
}
void
add_link(struct topd_nbor *p)
{
link_type * temp_ptr;
lan_node_type *temp_ptr_lan;
int w,x,y,z;
u_char zero_mac[ETHADDRSIZ];
bzero(zero_mac,ETHADDRSIZ);
if(memcmp(zero_mac,p->tdnbor_dnode,ETHADDRSIZ)==0)
return;
printf("adding...\n");
for(temp_ptr = links_list;temp_ptr!=NULL;temp_ptr = temp_ptr->next)
{
w = memcmp(temp_ptr->pointA,p->tdnbor_dnode,ETHADDRSIZ);
x = memcmp(temp_ptr->pointA,p->tdnbor_dif,ETHADDRSIZ);
if(temp_ptr->pointB != NULL)
{
y = memcmp(temp_ptr->pointB,p->tdnbor_dnode,ETHADDRSIZ);
z = memcmp(temp_ptr->pointB,p->tdnbor_dif,ETHADDRSIZ);
}
else
{
y=1;z=1;
}
if((w==0 && z==0) || (x==0 && y==0))
{
printf("Link already there in the list\n");
return;
}
else if((w==0 && z!=0) || (w!=0 && z==0) || (x==0 && y!=0) || (x!=0 && y==0))
{
printf("lan link found\n");
if(temp_ptr->lan_if_list==NULL)
{
/* Store the common interface in pointA, copy interface in pointB
* to a lan_node and set pointB to NULL
*/
if(y==0 || z==0)
{
temp_ptr->lan_if_list =
(lan_node_type*)malloc(sizeof(lan_node_type));
memcpy(temp_ptr->lan_if_list->node,temp_ptr->pointA,ETHADDRSIZ);
memcpy(temp_ptr->pointA,temp_ptr->pointB,ETHADDRSIZ);
free(temp_ptr->pointB);
temp_ptr->pointB=NULL;
}
else
{
temp_ptr->lan_if_list =
(lan_node_type*)malloc(sizeof(lan_node_type));
memcpy(temp_ptr->lan_if_list->node,temp_ptr->pointB,ETHADDRSIZ);
free(temp_ptr->pointB);
temp_ptr->pointB=NULL;
}
}
temp_ptr_lan = temp_ptr->lan_if_list;
temp_ptr->lan_if_list = (lan_node_type*)malloc(sizeof(lan_node_type));
if(x==0 || z==0)
memcpy(temp_ptr->lan_if_list->node,p->tdnbor_dnode,ETHADDRSIZ);
else if(w==0 || y==0)
memcpy(temp_ptr->lan_if_list->node,p->tdnbor_dif,ETHADDRSIZ);
temp_ptr->lan_if_list->next = temp_ptr_lan;
/*
for(temp_ptr2=temp_ptr->lan_if_list;temp_ptr2!=NULL;
temp_ptr2 = temp_ptr2->next);
temp_ptr2=(lan_node_type*)malloc(sizeof(lan_node_type));
memcpy(temp_ptr2->pointA,p->tdnbor_dnode,ETHADDRSIZ);
memcpy(temp_ptr2->pointB,p->tdnbor_dif,ETHADDRSIZ);
temp_ptr2->lan_if_list = NULL;
temp_ptr2->next = NULL;
*/
return;
}
}
temp_ptr = links_list;
links_list=(link_type*)malloc(sizeof(link_type));
links_list->pointA = (u_char*)malloc(ETHADDRSIZ*sizeof(u_char));
links_list->pointB = (u_char*)malloc(ETHADDRSIZ*sizeof(u_char));
printf("copying:A->");
print_haddr(p->tdnbor_dnode,ETHADDRSIZ);
printf(" # B->");
print_haddr(p->tdnbor_dif,ETHADDRSIZ);
printf("\n");
memcpy(links_list->pointA,p->tdnbor_dnode,ETHADDRSIZ);
memcpy(links_list->pointB,p->tdnbor_dif,ETHADDRSIZ);
printf("copied:A->");
print_haddr(links_list->pointA,ETHADDRSIZ);
printf(" # B->");
print_haddr(links_list->pointB,ETHADDRSIZ);
printf("\n");
links_list->lan_if_list = NULL;
links_list->next = temp_ptr;
}
void
print_links_list()
{
link_type *temp_ptr;
lan_node_type *temp_ptr2;
printf("Links collected:\n");
printf("---------------------------------------------------\n");
for(temp_ptr = links_list; temp_ptr!=NULL;temp_ptr = temp_ptr->next)
{
if(temp_ptr->lan_if_list==NULL)
{
printf("[");