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EmulNet.cpp
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EmulNet.cpp
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/**********************************
* FILE NAME: EmulNet.cpp
*
* DESCRIPTION: Emulated Network classes definition
**********************************/
#include "EmulNet.h"
/**
* Constructor
*/
EmulNet::EmulNet(Params *p)
{
//trace.funcEntry("EmulNet::EmulNet");
int i,j;
par = p;
emulnet.setNextId(1);
emulnet.settCurrBuffSize(0);
enInited=0;
for ( i = 0; i < MAX_NODES; i++ ) {
for ( j = 0; j < MAX_TIME; j++ ) {
sent_msgs[i][j] = 0;
recv_msgs[i][j] = 0;
}
}
//trace.funcExit("EmulNet::EmulNet", SUCCESS);
}
/**
* Copy constructor
*/
EmulNet::EmulNet(EmulNet &anotherEmulNet) {
int i, j;
this->par = anotherEmulNet.par;
this->enInited = anotherEmulNet.enInited;
for ( i = 0; i < MAX_NODES; i++ ) {
for ( j = 0; j < MAX_TIME; j++ ) {
this->sent_msgs[i][j] = anotherEmulNet.sent_msgs[i][j];
this->recv_msgs[i][j] = anotherEmulNet.recv_msgs[i][j];
}
}
this->emulnet = anotherEmulNet.emulnet;
}
/**
* Assignment operator overloading
*/
EmulNet& EmulNet::operator =(EmulNet &anotherEmulNet) {
int i, j;
this->par = anotherEmulNet.par;
this->enInited = anotherEmulNet.enInited;
for ( i = 0; i < MAX_NODES; i++ ) {
for ( j = 0; j < MAX_TIME; j++ ) {
this->sent_msgs[i][j] = anotherEmulNet.sent_msgs[i][j];
this->recv_msgs[i][j] = anotherEmulNet.recv_msgs[i][j];
}
}
this->emulnet = anotherEmulNet.emulnet;
return *this;
}
/**
* Destructor
*/
EmulNet::~EmulNet() {}
/**
* FUNCTION NAME: ENinit
*
* DESCRIPTION: Init the emulnet for this node
*/
void *EmulNet::ENinit(Address *myaddr, short port) {
// Initialize data structures for this member
*(int *)(myaddr->addr) = emulnet.nextid++;
*(short *)(&myaddr->addr[4]) = 0;
return myaddr;
}
/**
* FUNCTION NAME: ENsend
*
* DESCRIPTION: EmulNet send function
*
* RETURNS:
* size
*/
int EmulNet::ENsend(Address *myaddr, Address *toaddr, char *data, int size) {
en_msg *em;
static char temp[2048];
int sendmsg = rand() % 100;
if( (emulnet.currbuffsize >= ENBUFFSIZE) || (size + (int)sizeof(en_msg) >= par->MAX_MSG_SIZE) || (par->dropmsg && sendmsg < (int) (par->MSG_DROP_PROB * 100)) ) {
return 0;
}
em = (en_msg *)malloc(sizeof(en_msg) + size);
em->size = size;
memcpy(&(em->from.addr), &(myaddr->addr), sizeof(em->from.addr));
memcpy(&(em->to.addr), &(toaddr->addr), sizeof(em->from.addr));
memcpy(em + 1, data, size);
emulnet.buff[emulnet.currbuffsize++] = em;
int src = *(int *)(myaddr->addr);
int time = par->getcurrtime();
assert(src <= MAX_NODES);
assert(time < MAX_TIME);
sent_msgs[src][time]++;
#ifdef DEBUGLOG
sprintf(temp, "Sending 4+%d B msg type %d to %d.%d.%d.%d:%d ", size-4, *(int *)data, toaddr->addr[0], toaddr->addr[1], toaddr->addr[2], toaddr->addr[3], *(short *)&toaddr->addr[4]);
#endif
return size;
}
/**
* FUNCTION NAME: ENsend
*
* DESCRIPTION: EmulNet send function
*
* RETURNS:
* size
*/
int EmulNet::ENsend(Address *myaddr, Address *toaddr, string data) {
char * str = (char *) malloc(data.length() * sizeof(char));
memcpy(str, data.c_str(), data.size());
int ret = this->ENsend(myaddr, toaddr, str, (data.length() * sizeof(char)));
free(str);
return ret;
}
/**
* FUNCTION NAME: ENrecv
*
* DESCRIPTION: EmulNet receive function
*
* RETURN:
* 0
*/
int EmulNet::ENrecv(Address *myaddr, int (* enq)(void *, char *, int), struct timeval *t, int times, void *queue){
// times is always assumed to be 1
int i;
char* tmp;
int sz;
en_msg *emsg;
for( i = emulnet.currbuffsize - 1; i >= 0; i-- ) {
emsg = emulnet.buff[i];
if ( 0 == strcmp(emsg->to.addr, myaddr->addr) ) {
sz = emsg->size;
tmp = (char *) malloc(sz * sizeof(char));
memcpy(tmp, (char *)(emsg+1), sz);
emulnet.buff[i] = emulnet.buff[emulnet.currbuffsize-1];
emulnet.currbuffsize--;
(*enq)(queue, (char *)tmp, sz);
free(emsg);
int dst = *(int *)(myaddr->addr);
int time = par->getcurrtime();
assert(dst <= MAX_NODES);
assert(time < MAX_TIME);
recv_msgs[dst][time]++;
}
}
return 0;
}
/**
* FUNCTION NAME: ENcleanup
*
* DESCRIPTION: Cleanup the EmulNet. Called exactly once at the end of the program.
*/
int EmulNet::ENcleanup() {
emulnet.nextid=0;
int i, j;
int sent_total, recv_total;
FILE* file = fopen("msgcount.log", "w+");
while(emulnet.currbuffsize > 0) {
free(emulnet.buff[--emulnet.currbuffsize]);
}
for ( i = 1; i <= par->EN_GPSZ; i++ ) {
fprintf(file, "node %3d ", i);
sent_total = 0;
recv_total = 0;
for (j = 0; j < par->getcurrtime(); j++) {
sent_total += sent_msgs[i][j];
recv_total += recv_msgs[i][j];
if (i != 67) {
fprintf(file, " (%4d, %4d)", sent_msgs[i][j], recv_msgs[i][j]);
if (j % 10 == 9) {
fprintf(file, "\n ");
}
}
else {
fprintf(file, "special %4d %4d %4d\n", j, sent_msgs[i][j], recv_msgs[i][j]);
}
}
fprintf(file, "\n");
fprintf(file, "node %3d sent_total %6u recv_total %6u\n\n", i, sent_total, recv_total);
}
fclose(file);
return 0;
}