int main() {
int i;
initPcbs();
addokbuf("Initialized Process Control Blocks \n");
/* Check allocPcb */
for (i = 0; i < MAXPROC; i++) {
if ((procp[i] = allocPcb()) == NULL)
adderrbuf("allocPcb(): unexpected NULL ");
}
if (allocPcb() != NULL) {
adderrbuf(" ERROR: allocPcb(): allocated more than MAXPROC entries ");
}
addokbuf(" allocPcb test OK \n");
/* Return the last 10 entries back to free list */
for (i = 10; i < MAXPROC; i++)
freePcb(procp[i]);
addokbuf(" Added 10 entries to the free PCB list \n");
/* Create a 10-element process queue */
INIT_LIST_HEAD(&qa);
if (!emptyProcQ(&qa)) adderrbuf("ERROR: emptyProcQ(qa): unexpected FALSE ");
addokbuf("Testing insertProcQ ... \n");
for (i = 0; i < 10; i++) {
if ((q = allocPcb()) == NULL)
adderrbuf("ERROR: allocPcb(): unexpected NULL while insert ");
switch (i) {
case 3:
q->priority=DEFAULT_PCB_PRIORITY;
proc = q;
break;
case 4:
q->priority=MAX_PCB_PRIORITY;
maxproc = q;
break;
case 5:
q->priority=MIN_PCB_PRIORITY;
minproc=q;
break;
default:
q->priority=DEFAULT_PCB_PRIORITY;
break;
}
insertProcQ(&qa, q);
}
addokbuf("Test insertProcQ: OK. Inserted 10 elements \n");
if (emptyProcQ(&qa)) adderrbuf("ERROR: emptyProcQ(qa): unexpected TRUE" );
/* Check outProcQ and headProcQ */
if (headProcQ(&qa) != maxproc)
adderrbuf("ERROR: headProcQ(qa) failed ");
/* Removing an element from ProcQ */
q = outProcQ(&qa, proc);
if ((q == NULL) || (q != proc))
adderrbuf("ERROR: outProcQ(&qa, proc) failed to remove the entry ");
freePcb(q);
/* Removing the first element from ProcQ */
q = removeProcQ(&qa);
if (q == NULL || q != maxproc)
adderrbuf("ERROR: removeProcQ(&qa, midproc) failed to remove the elements in the right order ");
freePcb(q);
/* Removing other 7 elements */
addokbuf(" Testing removeProcQ ... \n");
for (i = 0; i < 7; i++) {
if ((q = removeProcQ(&qa)) == NULL)
adderrbuf("removeProcQ(&qa): unexpected NULL ");
freePcb(q);
}
// Removing the last element
q=removeProcQ(&qa);
if (q != minproc)
adderrbuf("ERROR: removeProcQ(): failed on last entry ");
freePcb(q);
if (removeProcQ(&qa) != NULL)
adderrbuf("ERROR: removeProcQ(&qa): removes too many entries ");
if (!emptyProcQ(&qa))
adderrbuf("ERROR: emptyProcQ(qa): unexpected FALSE ");
addokbuf(" Test insertProcQ(), removeProcQ() and emptyProcQ(): OK \n");
addokbuf(" Test process queues module: OK \n");
addokbuf(" Testing process trees...\n");
if (!emptyChild(procp[2]))
adderrbuf("ERROR: emptyChild: unexpected FALSE ");
/* make procp[1],procp[2],procp[3], procp[7] children of procp[0] */
addokbuf("Inserting... \n");
insertChild(procp[0], procp[1]);
insertChild(procp[0], procp[2]);
insertChild(procp[0], procp[3]);
insertChild(procp[0], procp[7]);
addokbuf("Inserted 2 children of pcb0 \n");
/* make procp[8],procp[9] children of procp[7] */
insertChild(procp[7], procp[8]);
insertChild(procp[7], procp[9]);
addokbuf("Inserted 2 children of pcb7 \n");
if (emptyChild(procp[0]))
adderrbuf("ERROR: emptyChild(procp[0]): unexpected TRUE ");
if (emptyChild(procp[7]))
adderrbuf("ERROR: emptyChild(procp[0]): unexpected TRUE ");
/* Check outChild */
q = outChild(procp[1]);
if (q == NULL || q != procp[1])
adderrbuf("ERROR: outChild(procp[1]) failed ");
q = outChild(procp[8]);
if (q == NULL || q != procp[8])
adderrbuf("ERROR: outChild(procp[8]) failed ");
/* Check removeChild */
q = removeChild(procp[0]);
if (q == NULL || q != procp[2])
adderrbuf("ERROR: removeChild(procp[0]) failed ");
q = removeChild(procp[7]);
if (q == NULL || q != procp[9])
adderrbuf("ERROR: removeChild(procp[7]) failed ");
q = removeChild(procp[0]);
if (q == NULL || q != procp[3])
adderrbuf("ERROR: removeChild(procp[0]) failed ");
q = removeChild(procp[0]);
if (q == NULL || q != procp[7])
adderrbuf("ERROR: removeChild(procp[0]) failed ");
if (removeChild(procp[0]) != NULL)
adderrbuf("ERROR: removeChild(): removes too many children ");
if (!emptyChild(procp[0]))
adderrbuf("ERROR: emptyChild(procp[0]): unexpected FALSE ");
addokbuf("Test: insertChild(), removeChild() and emptyChild() OK \n");
addokbuf("Testing process tree module OK \n");
freePcb(procp[0]);
freePcb(procp[1]);
freePcb(procp[2]);
freePcb(procp[3]);
freePcb(procp[4]);
freePcb(procp[5]);
freePcb(procp[6]);
freePcb(procp[7]);
freePcb(procp[8]);
freePcb(procp[9]);
/* check ASL */
initASL();
addokbuf("Initializing active semaphore list \n");
/* check removeBlocked and insertBlocked */
addokbuf(" Test insertBlocked(): test #1 started \n");
for (i = 10; i < MAXPROC; i++) {
procp[i] = allocPcb();
if (insertBlocked(i, procp[i]))
adderrbuf("ERROR: insertBlocked() test#1: unexpected TRUE ");
}
addokbuf("Test insertBlocked(): test #2 started \n");
for (i = 0; i < 10; i++) {
procp[i] = allocPcb();
if (insertBlocked(i, procp[i]))
adderrbuf("ERROR:insertBlocked() test #2: unexpected TRUE ");
}
/* check if semaphore descriptors are returned to the free list */
p = removeBlocked(11);
if (insertBlocked(11,p))
adderrbuf("ERROR: removeBlocked(): fails to return to free list ");
if (insertBlocked(MAXPROC+1, procp[9]) == FALSE)
adderrbuf("ERROR: insertBlocked(): inserted more than MAXPROC ");
addokbuf("Test removeBlocked(): test started \n");
for (i = 10; i< MAXPROC; i++) {
q = removeBlocked(i);
if (q == NULL)
adderrbuf("ERROR: removeBlocked(): wouldn't remove ");
if (q != procp[i])
adderrbuf("ERROR: removeBlocked(): removed wrong element ");
}
if (removeBlocked(11) != NULL)
adderrbuf("ERROR: removeBlocked(): removed nonexistent blocked proc ");
addokbuf("Test: insertBlocked() and removeBlocked() ok \n");
if (headBlocked(11) != NULL)
adderrbuf("ERROR: headBlocked(): nonNULL for a nonexistent queue ");
if ((q = headBlocked(9)) == NULL)
adderrbuf("ERROR: headBlocked(1): NULL for an existent queue ");
if (q != procp[9])
adderrbuf("ERROR: headBlocked(1): wrong process returned ");
p = outBlocked(q);
if (p != q)
adderrbuf("ERROR: outBlocked(1): couldn't remove from valid queue ");
/* Creating a 2-layer tree */
insertChild(procp[0], procp[1]);
insertChild(procp[0], procp[2]);
insertChild(procp[0], procp[3]);
insertChild(procp[3], procp[4]);
/* Testing outChildBlocked */
outChildBlocked(procp[0]);
if (headBlocked(0) != NULL)
adderrbuf("ERROR: outChildBlocked(): nonNULL for a nonexistent queue (0) ");
if (headBlocked(1) != NULL)
adderrbuf("ERROR: outChildBlocked(): nonNULL for a nonexistent queue (1) ");
if (headBlocked(2) != NULL)
adderrbuf("ERROR: outChildBlocked(): nonNULL for a nonexistent queue (2) ");
if (headBlocked(3) != NULL)
adderrbuf("ERROR: outChildBlocked(): nonNULL for a nonexistent queue (3) ");
if (headBlocked(4) != NULL)
adderrbuf("ERROR: outChildBlocked(): nonNULL for a nonexistent queue (4) ");
if (headBlocked(5) == NULL)
adderrbuf("ERROR: outChildBlocked(): NULL for an existent queue (5) ");
addokbuf("Test headBlocked() and outBlocked(): OK \n");
addokbuf("ASL module OK \n");
addokbuf("So Long and Thanks for All the Fish\n");
return 0;
}
int main() {
int i;
initPcbs();
addokbuf("Initialized process control blocks \n");
/* Check allocPcb */
for (i = 0; i < MAXPROC; i++) {
if ((procp[i] = allocPcb()) == NULL)
adderrbuf("allocPcb(): unexpected NULL ");
}
if (allocPcb() != NULL) {
adderrbuf("allocPcb(): allocated more than MAXPROC entries ");
}
addokbuf("allocPcb ok \n");
/* return the last 10 entries back to free list */
for (i = 10; i < MAXPROC; i++)
freePcb(procp[i]);
addokbuf("freed 10 entries \n");
/* create a 10-element process queue */
qa = mkEmptyProcQ();
if (!emptyProcQ(qa)) adderrbuf("emptyProcQ(qa): unexpected FALSE ");
addokbuf("Inserting... \n");
for (i = 0; i < 10; i++) {
if ((q = allocPcb()) == NULL)
adderrbuf("allocPcb(): unexpected NULL while insert ");
switch (i) {
case 0:
firstproc = q;
break;
case 5:
midproc = q;
break;
case 9:
lastproc = q;
break;
default:
break;
}
insertProcQ(&qa, q);
}
addokbuf("inserted 10 elements \n");
if (emptyProcQ(qa)) adderrbuf("emptyProcQ(qa): unexpected TRUE" );
/* Check outProcQ and headProcQ */
if (headProcQ(qa) != firstproc)
adderrbuf("headProcQ(qa) failed ");
q = outProcQ(&qa, firstproc);
if ((q == NULL) || (q != firstproc))
adderrbuf("outProcQ(&qa, firstproc) failed on first entry ");
freePcb(q);
q = outProcQ(&qa, midproc);
if (q == NULL || q != midproc)
adderrbuf("outProcQ(&qa, midproc) failed on middle entry ");
freePcb(q);
if (outProcQ(&qa, procp[0]) != NULL)
adderrbuf("outProcQ(&qa, procp[0]) failed on nonexistent entry ");
addokbuf("outProcQ() ok \n");
/* Check if removeProc and insertProc remove in the correct order */
addokbuf("Removing... \n");
for (i = 0; i < 8; i++) {
if ((q = removeProcQ(&qa)) == NULL)
adderrbuf("removeProcQ(&qa): unexpected NULL ");
freePcb(q);
}
if (q != lastproc)
adderrbuf("removeProcQ(): failed on last entry ");
if (removeProcQ(&qa) != NULL)
adderrbuf("removeProcQ(&qa): removes too many entries ");
if (!emptyProcQ(qa))
adderrbuf("emptyProcQ(qa): unexpected FALSE ");
addokbuf("insertProcQ(), removeProcQ() and emptyProcQ() ok \n");
addokbuf("process queues module ok \n");
addokbuf("checking process trees...\n");
if (!emptyChild(procp[2]))
adderrbuf("emptyChild: unexpected FALSE ");
/* make procp[1] through procp[9] children of procp[0] */
addokbuf("Inserting... \n");
for (i = 1; i < 10; i++) {
insertChild(procp[0], procp[i]);
}
addokbuf("Inserted 9 children \n");
if (emptyChild(procp[0]))
adderrbuf("emptyChild(procp[0]): unexpected TRUE ");
/* Check outChild */
q = outChild(procp[1]);
if (q == NULL || q != procp[1])
adderrbuf("outChild(procp[1]) failed on first child ");
q = outChild(procp[4]);
if (q == NULL || q != procp[4])
adderrbuf("outChild(procp[4]) failed on middle child ");
if (outChild(procp[0]) != NULL)
adderrbuf("outChild(procp[0]) failed on nonexistent child ");
addokbuf("outChild ok \n");
/* Check removeChild */
addokbuf("Removing... \n");
for (i = 0; i < 7; i++) {
if ((q = removeChild(procp[0])) == NULL)
adderrbuf("removeChild(procp[0]): unexpected NULL ");
}
if (removeChild(procp[0]) != NULL)
adderrbuf("removeChild(): removes too many children ");
if (!emptyChild(procp[0]))
adderrbuf("emptyChild(procp[0]): unexpected FALSE ");
addokbuf("insertChild(), removeChild() and emptyChild() ok \n");
addokbuf("process tree module ok \n");
for (i = 0; i < 10; i++)
freePcb(procp[i]);
/* check ASL */
initASL();
addokbuf("Initialized active semaphore list \n");
/* check removeBlocked and insertBlocked */
addokbuf("insertBlocked() test #1 started \n");
for (i = 10; i < MAXPROC; i++) {
procp[i] = allocPcb();
if (insertBlocked(&sem[i], procp[i]))
adderrbuf("insertBlocked() test#1: unexpected TRUE ");
}
addokbuf("insertBlocked() test #2 started \n");
for (i = 0; i < 10; i++) {
procp[i] = allocPcb();
if (insertBlocked(&sem[i], procp[i]))
adderrbuf("insertBlocked() test #2: unexpected TRUE ");
}
/* check if semaphore descriptors are returned to free list */
p = removeBlocked(&sem[11]);
if (insertBlocked(&sem[11],p))
adderrbuf("removeBlocked(): fails to return to free list ");
if (insertBlocked(&onesem, procp[9]) == FALSE)
adderrbuf("insertBlocked(): inserted more than MAXPROC ");
addokbuf("removeBlocked() test started \n");
for (i = 10; i< MAXPROC; i++) {
q = removeBlocked(&sem[i]);
if (q == NULL)
adderrbuf("removeBlocked(): wouldn't remove ");
if (q != procp[i])
adderrbuf("removeBlocked(): removed wrong element ");
if (insertBlocked(&sem[i-10], q))
adderrbuf("insertBlocked(3): unexpected TRUE ");
}
if (removeBlocked(&sem[11]) != NULL)
adderrbuf("removeBlocked(): removed nonexistent blocked proc ");
addokbuf("insertBlocked() and removeBlocked() ok \n");
if (headBlocked(&sem[11]) != NULL)
adderrbuf("headBlocked(): nonNULL for a nonexistent queue ");
if ((q = headBlocked(&sem[9])) == NULL)
adderrbuf("headBlocked(1): NULL for an existent queue ");
if (q != procp[9])
adderrbuf("headBlocked(1): wrong process returned ");
p = outBlocked(q);
if (p != q)
adderrbuf("outBlocked(1): couldn't remove from valid queue ");
q = headBlocked(&sem[9]);
if (q == NULL)
adderrbuf("headBlocked(2): NULL for an existent queue ");
if (q != procp[19])
adderrbuf("headBlocked(2): wrong process returned ");
p = outBlocked(q);
if (p != q)
adderrbuf("outBlocked(2): couldn't remove from valid queue ");
p = outBlocked(q);
if(c = p)
addokbuf("saaaaaas \n");
if (p != NULL)
adderrbuf("outBlocked(): removed same process twice.");
if (headBlocked(&sem[9]) != NULL)
adderrbuf("out/headBlocked: unexpected nonempty queue ");
addokbuf("headBlocked() and outBlocked() ok \n");
addokbuf("ASL module ok \n");
addokbuf("So Long and Thanks for All the Fish\n");
return 0;
}
int main() {
int i;
initTcbs();
addokbuf("Initialized thread control blocks \n");
/* Check allocTcb */
for (i = 0; i < MAXPROC; i++) {
if ((threadp[i] = allocTcb()) == NULL)
adderrbuf("allocTcb(): unexpected NULL ");
}
if (allocTcb() != NULL) {
adderrbuf("allocTcb(): allocated more than MAXPROC entries ");
}
addokbuf("allocTcb ok \n");
/* return the last 10 entries back to free list */
for (i = 10; i < MAXPROC; i++)
freeTcb(threadp[i]);
addokbuf("freed 10 entries \n");
/* create a 10-element thread queue */
qa = mkEmptyThreadQ();
if (!emptyThreadQ(qa)) adderrbuf("emptyThreadQ(qa): unexpected FALSE ");
addokbuf("Inserting... \n");
for (i = 0; i < 10; i++) {
if ((q = allocTcb()) == NULL)
adderrbuf("allocTcb(): unexpected NULL while insert ");
switch (i) {
case 0:
firstthread = q;
break;
case 5:
midthread = q;
break;
case 9:
lastthread = q;
break;
default:
break;
}
insertBackThreadQ(&qa, q);
}
addokbuf("inserted 10 elements \n");
if (emptyThreadQ(qa)) adderrbuf("emptyThreadQ(qa): unexpected TRUE" );
/* Check outThreadQ and headThreadQ */
if (headThreadQ(qa) != firstthread)
adderrbuf("headThreadQ(qa) failed ");
q = outThreadQ(&qa, firstthread);
if ((q == NULL) || (q != firstthread))
adderrbuf("outThreadQ(&qa, firstthread) failed on first entry ");
freeTcb(q);
q = outThreadQ(&qa, midthread);
if (q == NULL || q != midthread)
adderrbuf("outThreadQ(&qa, midthread) failed on middle entry ");
freeTcb(q);
if (outThreadQ(&qa, threadp[0]) != NULL)
adderrbuf("outThreadQ(&qa, threadp[0]) failed on nonexistent entry ");
addokbuf("outThreadQ() ok \n");
/* Check if removeThread and insertThread remove in the correct order */
addokbuf("Removing... \n");
for (i = 0; i < 8; i++) {
if ((q = removeThreadQ(&qa)) == NULL)
adderrbuf("removeThreadQ(&qa): unexpected NULL ");
freeTcb(q);
}
if (q != lastthread)
adderrbuf("removeThreadQ(): failed on last entry ");
if (removeThreadQ(&qa) != NULL)
adderrbuf("removeThreadQ(&qa): removes too many entries ");
if (!emptyThreadQ(qa))
adderrbuf("emptyThreadQ(qa): unexpected FALSE ");
addokbuf("insertThreadQ(), removeThreadQ() and emptyThreadQ() ok \n");
addokbuf("thread queues module ok \n");
addokbuf("After all, tomorrow is another day!\n");
return 0;
}
