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Application.cpp
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Application.cpp
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/**********************************
* FILE NAME: Application.cpp
*
* DESCRIPTION: Application layer class function definitions
**********************************/
#include "Application.h"
void handler(int sig) {
void *array[10];
size_t size;
// get void*'s for all entries on the stack
size = backtrace(array, 10);
// print out all the frames to stderr
fprintf(stderr, "Error: signal %d:\n", sig);
backtrace_symbols_fd(array, size, STDERR_FILENO);
exit(1);
}
/**********************************
* FUNCTION NAME: main
*
* DESCRIPTION: main function. Start from here
**********************************/
int main(int argc, char *argv[]) {
//signal(SIGSEGV, handler);
if ( argc != ARGS_COUNT ) {
cout<<"Configuration (i.e., *.conf) file File Required"<<endl;
return FAILURE;
}
// Create a new application object
Application *app = new Application(argv[1]);
// Call the run function
app->run();
// When done delete the application object
delete(app);
return SUCCESS;
}
/**
* Constructor of the Application class
*/
Application::Application(char *infile) {
int i;
par = new Params();
srand (time(NULL));
par->setparams(infile);
log = new Log(par);
en = new EmulNet(par);
mp1 = (MP1Node **) malloc(par->EN_GPSZ * sizeof(MP1Node *));
/*
* Init all nodes
*/
for( i = 0; i < par->EN_GPSZ; i++ ) {
Member *memberNode = new Member;
memberNode->inited = false;
Address *addressOfMemberNode = new Address();
Address joinaddr;
joinaddr = getjoinaddr();
addressOfMemberNode = (Address *) en->ENinit(addressOfMemberNode, par->PORTNUM);
mp1[i] = new MP1Node(memberNode, par, en, log, addressOfMemberNode);
log->LOG(&(mp1[i]->getMemberNode()->addr), "APP");
delete addressOfMemberNode;
}
}
/**
* Destructor
*/
Application::~Application() {
delete log;
delete en;
for ( int i = 0; i < par->EN_GPSZ; i++ ) {
delete mp1[i];
}
free(mp1);
delete par;
}
/**
* FUNCTION NAME: run
*
* DESCRIPTION: Main driver function of the Application layer
*/
int Application::run()
{
int i;
int timeWhenAllNodesHaveJoined = 0;
// boolean indicating if all nodes have joined
bool allNodesJoined = false;
srand(time(NULL));
// As time runs along
for( par->globaltime = 0; par->globaltime < TOTAL_RUNNING_TIME; ++par->globaltime ) {
// Run the membership protocol
mp1Run();
// Fail some nodes
fail();
}
// Clean up
en->ENcleanup();
for(i=0;i<=par->EN_GPSZ-1;i++) {
mp1[i]->finishUpThisNode();
}
return SUCCESS;
}
/**
* FUNCTION NAME: mp1Run
*
* DESCRIPTION: This function performs all the membership protocol functionalities
*/
void Application::mp1Run() {
int i;
// For all the nodes in the system
for( i = 0; i <= par->EN_GPSZ-1; i++) {
/*
* Receive messages from the network and queue them in the membership protocol queue
*/
if( par->getcurrtime() > (int)(par->STEP_RATE*i) && !(mp1[i]->getMemberNode()->bFailed) ) {
// Receive messages from the network and queue them
mp1[i]->recvLoop();
}
}
// For all the nodes in the system
for( i = par->EN_GPSZ - 1; i >= 0; i-- ) {
/*
* Introduce nodes into the distributed system
*/
if( par->getcurrtime() == (int)(par->STEP_RATE*i) ) {
// introduce the ith node into the system at time STEPRATE*i
mp1[i]->nodeStart(JOINADDR, par->PORTNUM);
cout<<i<<"-th introduced node is assigned with the address: "<<mp1[i]->getMemberNode()->addr.getAddress() << endl;
nodeCount += i;
}
/*
* Handle all the messages in your queue and send heartbeats
*/
else if( par->getcurrtime() > (int)(par->STEP_RATE*i) && !(mp1[i]->getMemberNode()->bFailed) ) {
// handle messages and send heartbeats
mp1[i]->nodeLoop();
#ifdef DEBUGLOG
if( (i == 0) && (par->globaltime % 500 == 0) ) {
log->LOG(&mp1[i]->getMemberNode()->addr, "@@time=%d", par->getcurrtime());
}
#endif
}
}
}
/**
* FUNCTION NAME: fail
*
* DESCRIPTION: This function controls the failure of nodes
*
* Note: this is used only by MP1
*/
void Application::fail() {
int i, removed;
// fail half the members at time t=400
if( par->DROP_MSG && par->getcurrtime() == 50 ) {
par->dropmsg = 1;
}
if( par->SINGLE_FAILURE && par->getcurrtime() == 100 ) {
removed = (rand() % par->EN_GPSZ);
#ifdef DEBUGLOG
log->LOG(&mp1[removed]->getMemberNode()->addr, "Node failed at time=%d", par->getcurrtime());
#endif
mp1[removed]->getMemberNode()->bFailed = true;
}
else if( par->getcurrtime() == 100 ) {
removed = rand() % par->EN_GPSZ/2;
for ( i = removed; i < removed + par->EN_GPSZ/2; i++ ) {
#ifdef DEBUGLOG
log->LOG(&mp1[i]->getMemberNode()->addr, "Node failed at time = %d", par->getcurrtime());
#endif
mp1[i]->getMemberNode()->bFailed = true;
}
}
if( par->DROP_MSG && par->getcurrtime() == 300) {
par->dropmsg=0;
}
}
/**
* FUNCTION NAME: getjoinaddr
*
* DESCRIPTION: This function returns the address of the coordinator
*/
Address Application::getjoinaddr(void){
//trace.funcEntry("Application::getjoinaddr");
Address joinaddr;
joinaddr.init();
*(int *)(&(joinaddr.addr))=1;
*(short *)(&(joinaddr.addr[4]))=0;
//trace.funcExit("Application::getjoinaddr", SUCCESS);
return joinaddr;
}