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#include <cpu.h>
//#include <drivers/uart.h>
#include <globals.h>
#include <graphics/lfb.h>
#include <lib/kmem.h>
#include <sys/core.h>
#include <sys/schedule.h>
#include <util/lock.h>
#include <util/mutex.h>
#include <util/status.h>
extern void atest(void);
void qualitative_tests(void);
void nooptest(void) {}
void mutex_contention_helper(struct Mutex* m)
{
lock_mutex(m);
sys0(SYS_YIELD);
unlock_mutex(m);
}
static int x = 0;
static int y = 13;
#define TEST_STR_CLR " "
#define TEST_RESULT_WIDTH 15
#define TEST_COUNT 4096
#define TEST_BIN_COUNT 32
void test_entry(void)
{
x = 0;
draw_hex32(0, y-1, nextpid);
draw_string(0, y+4, "Starting tests");
unsigned long long ti, tf, dt=0,len;
unsigned int tidx = 0;
unsigned long bins[TEST_BIN_COUNT];
for (int i = 0; i < TEST_BIN_COUNT; i++) {
bins[i] = 0;
}
// Test 1: Trace Time
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sys0_64(SYS_TIME, &ti);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 2: Yield Time
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sys0_64(SYS_TIME, &ti);
sys0(SYS_YIELD);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 3: Add Thread, Lower Priority
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sys0_64(SYS_TIME, &ti);
add_thread(nooptest, 0, 3);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 4: Add Thread, Higher Priority
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sys0_64(SYS_TIME, &ti);
add_thread(nooptest, 0, 0);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 5: Create Mutex
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sys0_64(SYS_TIME, &ti);
struct Mutex* m = create_mutex(0);
sys0_64(SYS_TIME, &tf);
delete_mutex(m);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 6: Delete Mutex
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
struct Mutex* m = create_mutex(0);
sys0_64(SYS_TIME, &ti);
delete_mutex(m);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 7: Lock Mutex
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
struct Mutex* m = create_mutex(0);
sys0_64(SYS_TIME, &ti);
lock_mutex(m);
sys0_64(SYS_TIME, &tf);
delete_mutex(m);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 7a: Lock Contended Mutex
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
struct Mutex* m = create_mutex(0);
add_thread(mutex_contention_helper, m, 2);
sys0(SYS_YIELD);
sys0_64(SYS_TIME, &ti);
lock_mutex(m);
sys0_64(SYS_TIME, &tf);
delete_mutex(m);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 8: Unlock Mutex
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
struct Mutex* m = create_mutex(0);
lock_mutex(m);
sys0_64(SYS_TIME, &ti);
unlock_mutex(m);
sys0_64(SYS_TIME, &tf);
delete_mutex(m);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Semaphore
static unsigned long sem = 0;
// Test 9: Semaphore Decrease
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sem = 1;
sys0_64(SYS_TIME, &ti);
sys1(SYS_SEMAPHORE_P, &sem);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 10: Semaphore Increase
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sem = 0;
sys0_64(SYS_TIME, &ti);
sys1(SYS_SEMAPHORE_V, &sem);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// Test 10a: Semaphore Increase - No Schedule
dt = 0;
for(int i = 0; i < TEST_COUNT; i++) {
sem = 1;
sys0_64(SYS_TIME, &ti);
sys1(SYS_SEMAPHORE_V, &sem);
sys0_64(SYS_TIME, &tf);
dt += tf - ti;
if ((tf-ti) < TEST_BIN_COUNT)
bins[(tf-ti)]++;
}
for (int i = 0; i < TEST_BIN_COUNT; i++) {
draw_hex32(tidx, y+6+i, i);
draw_string(tidx+9, y+6+i, TEST_STR_CLR);
draw_u10(tidx+9, y+6+i, bins[i]);
bins[i] = 0;
}
draw_string(tidx, y+5, " ");
len = draw_u10(tidx, y+5, dt/TEST_COUNT);
draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
tidx += TEST_RESULT_WIDTH;
draw_hex32(0, y-1, nextpid);
// // Test 7: Tick Latency
//#define DELAY_TIME 512000
// unsigned long center = 0;
// sys0_64(SYS_TIME, &ti);
// delay(DELAY_TIME);
// sys0_64(SYS_TIME, &tf);
// center = (tf - ti - 10);
// if (10 > (tf-ti))
// center = 0;
// dt = 0;
// unsigned long j = 0;
// for(int i = 0; i < TEST_COUNT; i++) {
// sys0_64(SYS_TIME, &ti);
// delay(DELAY_TIME);
// sys0_64(SYS_TIME, &tf);
// dt += tf - ti;
// if ((tf-ti-center) < TEST_BIN_COUNT)
// bins[(tf-ti)-center]++;
// else
// j++;
// }
// for (int i = 0; i < TEST_BIN_COUNT; i++) {
// draw_hex32(tidx, y+6+i, i);
// draw_string(tidx+9, y+6+i, TEST_STR_CLR);
// draw_u10(tidx+9, y+6+i, bins[i]);
// bins[i] = 0;
// }
// draw_hex32(tidx, y+4, j);
// draw_string(tidx, y+5, " ");
// len = draw_u10(tidx, y+5, dt/TEST_COUNT);
// draw_u10(tidx+len+1, y+5, dt%TEST_COUNT);
// tidx += TEST_RESULT_WIDTH;
// draw_hex32(0, y-1, nextpid);
add_thread(qualitative_tests, 0, 4);
}
//static struct Mutex testm = {.addr = 0, .pid = 0};
static struct Lock testm = {.pid = 0};
void priority_inversion_test1(void);
void priority_inversion_test2(void);
void priority_inversion_test3(void);
void priority_inversion_test4(void);
void priority_inversion_test1(void)
{
draw_cletter(x++, y+2, 'S', 0xFF0000);
// Try Lock
draw_cletter(x++, y+2, 'T', 0xFF0000);
lock(&testm);
// Lock Acquired
draw_cletter(x++, y+2, 'L', 0xFF0000);
// Add Thread to Assist with Priority Inversion
// Check
// - Show that this thread gets temporarily
// promoted
add_thread(priority_inversion_test3, 0, 2);
// Unlock
draw_cletter(x++, y+2, 'U', 0xFF0000);
unlock(&testm);
draw_cletter(x++, y+2, 'F', 0xFF0000);
}
void priority_inversion_test2(void)
{
draw_cletter(x++, y+0, 'S', 0x0000FF);
// Add Thread to Assist with Priority Inversion
// Check
// - Show that Thread 1 is Prepended To Queue
add_thread(priority_inversion_test4, 0, 3);
// Try Lock
draw_cletter(x++, y+0, 'T', 0x0000FF);
lock(&testm);
// Lock Acquired
draw_cletter(x++, y+0, 'L', 0x0000FF);
// Unlock
draw_cletter(x++, y+0, 'U', 0x0000FF);
unlock(&testm);
draw_cletter(x++, y+0, 'F', 0x0000FF);
}
void priority_inversion_test3(void)
{
draw_cletter(x++, y+1, 'S', 0x00FF00);
// Add thread to Assist with Priority Inversion
// Check
// - Add high priority thread that will try
// to lock the mutex
add_thread(priority_inversion_test2, 0, 1);
draw_cletter(x++, y+1, 'F', 0x00FF00);
}
void priority_inversion_test4(void)
{
draw_cletter(x++, y+2, 'S', 0xAFAF00);
// Do nothing,
// just show that this is executed last
draw_cletter(x++, y+2, 'F', 0xAFAF00);
}
static unsigned long test_semaphore = 0;
void semaphore_test1(void)
{
draw_cletter(x++, y+1, ' ', 0xFF0000);
draw_cletter(x++, y+1, 'S', 0xFF0000);
// Try to decrement semaphore
draw_cletter(x++, y+1, 'T', 0xFF0000);
sys1(SYS_SEMAPHORE_P, &test_semaphore);
// Semaphore decremented
draw_cletter(x++, y+1, 'P', 0xFF0000);
draw_cletter(x++, y+1, 'V', 0xFF0000);
sys1(SYS_SEMAPHORE_V, &test_semaphore);
draw_cletter(x++, y+1, 'V', 0xFF0000);
sys1(SYS_SEMAPHORE_V, &test_semaphore);
draw_cletter(x++, y+1, 'V', 0xFF0000);
sys1(SYS_SEMAPHORE_V, &test_semaphore);
// Try to decrement semaphore
draw_cletter(x++, y+1, 'T', 0xFF0000);
sys1(SYS_SEMAPHORE_P, &test_semaphore);
// Semaphore decremented
draw_cletter(x++, y+1, 'P', 0xFF0000);
// Try to decrement semaphore
draw_cletter(x++, y+1, 'T', 0xFF0000);
sys1(SYS_SEMAPHORE_P, &test_semaphore);
// Semaphore decremented
draw_cletter(x++, y+1, 'P', 0xFF0000);
// Try to decrement semaphore
draw_cletter(x++, y+1, 'T', 0xFF0000);
sys1(SYS_SEMAPHORE_P, &test_semaphore);
// Semaphore decremented
draw_cletter(x++, y+1, 'P', 0xFF0000);
// Try to decrement semaphore
draw_cletter(x++, y+1, 'T', 0xFF0000);
sys1(SYS_SEMAPHORE_P, &test_semaphore);
// Semaphore decremented
draw_cletter(x++, y+1, 'P', 0xFF0000);
draw_cletter(x++, y+1, 'F', 0xFF0000);
}
void semaphore_test2(void)
{
draw_cletter(x++, y+2, 'S', 0xFF00);
// Increment semaphore
draw_cletter(x++, y+2, 'V', 0xFF00);
sys1(SYS_SEMAPHORE_V, &test_semaphore);
// Increment semaphore
draw_cletter(x++, y+2, 'V', 0xFF00);
sys1(SYS_SEMAPHORE_V, &test_semaphore);
draw_cletter(x++, y+2, 'F', 0xFF00);
}
static struct Mutex* dead1 = 0;
static struct Mutex* dead2 = 0;
void deadlock_test2(void)
{
draw_cletter(x++, y+1, 'S', 0xFF0000);
// Try Lock 1
draw_cletter(x++, y+1, 'T', 0xFF0000);
lock_mutex(dead1);
// Lock 1 Acquired
draw_cletter(x++, y+1, 'L', 0xFF0000);
// Try Lock 2
draw_cletter(x++, y+1, 't', 0xFF0000);
lock_mutex(dead2);
// Lock 2 Acquired
draw_cletter(x++, y+1, 'l', 0xFF0000);
// Unlock Locks
draw_cletter(x++, y+1, 'u', 0xFF0000);
unlock_mutex(dead2);
draw_cletter(x++, y+1, 'U', 0xFF0000);
unlock_mutex(dead1);
draw_cletter(x++, y+1, 'F', 0xFF0000);
}
void deadlock_test1(void)
{
draw_cletter(x++, y+2, ' ', 0xFF00);
draw_cletter(x++, y+2, 'S', 0xFF00);
dead1 = create_mutex((void*)0xDEADBEEF);
dead2 = create_mutex((void*)0x12345678);
// Try Lock 2
draw_cletter(x++, y+2, 't', 0xFF00);
lock_mutex(dead2);
// Lock 2 Acquired
draw_cletter(x++, y+2, 'l', 0xFF00);
// Create Higher priority thread to
// check deadlock condition
draw_cletter(x++, y+2, 'A', 0xFF00);
add_thread(deadlock_test2, 0, 4);
// Try Lock 1 - This would deadlock
// if no mechanism is in place to
// prevent it
draw_cletter(x++, y+2, 'T', 0xFF00);
lock_mutex(dead1);
// Lock 1 Acquired - Deadlock condition
// properly handled
draw_cletter(x++, y+2, 'L', 0xFF00);
// Unlock Locks
draw_cletter(x++, y+2, 'u', 0xFF00);
unlock_mutex(dead2);
draw_cletter(x++, y+2, 'U', 0xFF00);
unlock_mutex(dead1);
delete_mutex(dead1);
delete_mutex(dead2);
draw_cletter(x++, y+2, 'F', 0xFF00);
}
void qualitative_tests(void)
{
draw_string(0, y+0, " ");
draw_string(0, y+1, " ");
draw_string(0, y+2, " ");
draw_string(0, y+3, " ");
x = 0;
add_thread(atest, 0, 0);
add_thread(priority_inversion_test1, 0, 3);
add_thread(deadlock_test1, 0, 5);
add_thread(semaphore_test1, 0, 6);
add_thread(semaphore_test2, 0, 7);
add_thread(time_status, 0, 8);
}
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