/**
* \file
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*
* \brief Semaphore test.
*
* For testing priority inversion (avoidance) a set of processes
* interacting among each others by means of two semaphores are
* disturbed by an unrelated process, i.e., a process not using
* any semaphore at all.
*
* In case of priority inversion, high priority processes
* are affected (delayed!) by such process, even it has lower
* priority, because of semaphores. On the other hand, when priority
* inheritance is enabled, non interacting low priority processes
* can't affect the execution of high priority ones.
*
* It all can be seen looking at the finishing time of the various
* processes involved in sem_inv_test (logged).
*
* Notice that priority inheritance makes sense iff priorities
* exist, so the whole test depends on CONFIG_KERN_PRI.
*
* \author Daniele Basile <asterix@develer.com>
* \author Stefano Fedrigo <aleph@develer.com>
* \author Dario Faggioli <raistlin@linux.it>
*
* $test$: cp bertos/cfg/cfg_proc.h $cfgdir/
* $test$: echo "#undef CONFIG_KERN" >> $cfgdir/cfg_proc.h
* $test$: echo "#define CONFIG_KERN 1" >> $cfgdir/cfg_proc.h
* $test$: echo "#undef CONFIG_KERN_PRI" >> $cfgdir/cfg_proc.h
* $test$: echo "#define CONFIG_KERN_PRI 1" >> $cfgdir/cfg_proc.h
* $test$: echo "#undef CONFIG_KERN_PRI_INHERIT" >> $cfgdir/cfg_proc.h
* $test$: echo "#define CONFIG_KERN_PRI_INHERIT 1" >> $cfgdir/cfg_proc.h
* $test$: cp bertos/cfg/cfg_sem.h $cfgdir/
* $test$: echo "#undef CONFIG_KERN_SEMAPHORES" >> $cfgdir/cfg_sem.h
* $test$: echo "#define CONFIG_KERN_SEMAPHORES 1" >> $cfgdir/cfg_sem.h
*/
#include <cfg/debug.h>
#include <cfg/test.h>
#include <kern/sem.h>
#include <kern/proc.h>
#include <kern/irq.h>
#include <drv/timer.h>
// Global settings for the serialization test.
#define MAX_GLOBAL_COUNT 1024
#define TEST_TIME_OUT_MS 6000
#define DELAY 5
// Settings for the test processes (serialization test).
//Process 1
#define INC_PROC_T1 1
#define DELAY_PROC_T1 INC_PROC_T1*DELAY
//Process 2
#define INC_PROC_T2 3
#define DELAY_PROC_T2 INC_PROC_T2*DELAY
//Process 3
#define INC_PROC_T3 5
#define DELAY_PROC_T3 INC_PROC_T3*DELAY
//Process 4
#define INC_PROC_T4 7
#define DELAY_PROC_T4 INC_PROC_T4*DELAY
//Process 5
#define INC_PROC_T5 11
#define DELAY_PROC_T5 INC_PROC_T5*DELAY
//Process 6
#define INC_PROC_T6 13
#define DELAY_PROC_T6 INC_PROC_T6*DELAY
//Process 7
#define INC_PROC_T7 17
#define DELAY_PROC_T7 INC_PROC_T7*DELAY
//Process 8
#define INC_PROC_T8 19
#define DELAY_PROC_T8 INC_PROC_T8*DELAY
Semaphore sem;
unsigned int global_count = 0;
/*
* These macros generate the code needed to create the test process functions.
*/
#define PROC_TEST(num) static void proc_semTest##num(void) \
{ \
unsigned int local_count = 0; \
\
for (int i = 0; i < INC_PROC_T##num; ++i) \
{ \
sem_obtain(&sem); \
kprintf("> test%d: Obtain semaphore.\n", num); \
local_count = global_count; \
kprintf("> test%d: Read global count [%d]\n", num, local_count); \
timer_delay(DELAY_PROC_T##num); \
local_count += INC_PROC_T##num; \
global_count = local_count; \
kprintf("> test%d: Update count g[%d] l[%d]\n", num, global_count, local_count); \
sem_release(&sem); \
kprintf("> test%d: Relase semaphore.\n", num); \
} \
} \
#define PROC_TEST_STACK(num) PROC_DEFINE_STACK(proc_sem_test##num##_stack, KERN_MINSTACKSIZE * 2)
#define PROC_TEST_INIT(num) proc_new(proc_semTest##num, NULL, sizeof(proc_sem_test##num##_stack), proc_sem_test##num##_stack);
// Define processes for the serialization test.
PROC_TEST(1)
PROC_TEST(2)
PROC_TEST(3)
PROC_TEST(4)
PROC_TEST(5)
PROC_TEST(6)
PROC_TEST(7)
PROC_TEST(8)
#if CONFIG_KERN_PRI
// Global settings for the priority inversion test.
// 0.5 secs, enough for seeing the effects
#define BASETIME 500
Semaphore s1, s2;
unsigned int loops = 0; // For counting iterations
int finishing_time[8];
typedef enum ProcType {NONE, S1, S2, S1S2} ProcType;
/*
* Macros for the processes of the priority inversion test.
*/
#define PROC_INV_TEST(num) static void proc_semInvTest##num(void) \
{ \
ProcType p_type = (ProcType)((ssize_t) proc_currentUserData()); \
int mult = p_type == NONE ? 5 : 1; \
unsigned int i, local_count = 0; \
ticks_t start; \
\
kprintf("> test%d(%d): Start.\n", num, proc_current()->link.pri); \
finishing_time[num-1] = timer_clock(); \
\
if (p_type == S1 || p_type == S1S2) { \
kprintf("> test%d(prio=%d): Obtain %p..\n", num, \
proc_current()->link.pri, &s1); \
sem_obtain(&s1); \
kprintf("> test%d(prio=%d): Obtained %p.\n", num, \
proc_current()->link.pri, &s1); \
} \
if (p_type == S2 || p_type == S1S2) { \
kprintf("> test%d(prio=%d): Obtain %p..\n", num, \
proc_current()->link.pri, &s2); \
sem_obtain(&s2); \
kprintf("> test%d(prio=%d): Obtained %p.\n", num, \
proc_current()->link.pri, &s2); \
} \
\
start = timer_clock(); \
for (i = 0; i < loops * mult && (((unsigned)timer_clock()-start) <= loops*mult); i++) { \
local_count++; \
} \
\
sem_obtain(&sem); \
global_count += local_count; \
kprintf("> test%d(prio=%d): global_count=%u..\n", num, \
proc_current()->link.pri, global_count); \
sem_release(&sem); \
\
if (p_type == S2 || p_type == S1S2) { \
kprintf("> test%d(prio=%d): Release %p..\n", num, \
proc_current()->link.pri, &s2); \
sem_release(&s2); \
kprintf("> test%d(prio=%d): %p Released.\n", num, \
proc_current()->link.pri, &s2); \
} \
if (p_type == S1 || p_type == S1S2) { \
kprintf("> test%d(prio=%d): Release %p..\n", num, \
proc_current()->link.pri, &s1); \
sem_release(&s1); \
kprintf("> test%d(prio=%d): %p Released.\n", num, \
proc_current()->link.pri, &s1); \
} \
\
finishing_time[num-1] = timer_clock() - finishing_time[num-1]; \
kprintf("> test%d(prio=%d): Exit.\n", num, proc_current()->link.pri); \
} \
#define PROC_INV_TEST_INIT(num, pri, type) \
do { \
struct Process *p; \
\
timer_delay(10); \
p = proc_new(proc_semInvTest##num, \
((void*)type), sizeof(proc_sem_test##num##_stack), \
proc_sem_test##num##_stack); \
proc_setPri(p, pri); \
} while (0) \
// Define processes for the priority inversion test.
PROC_INV_TEST(1)
PROC_INV_TEST(2)
PROC_INV_TEST(3)
PROC_INV_TEST(4)
PROC_INV_TEST(5)
PROC_INV_TEST(6)
PROC_INV_TEST(7)
PROC_INV_TEST(8)
#endif /* CONFIG_KERN_PRI */
// Define process stacks for both of the tests.
PROC_TEST_STACK(1)
PROC_TEST_STACK(2)
PROC_TEST_STACK(3)
PROC_TEST_STACK(4)
PROC_TEST_STACK(5)
PROC_TEST_STACK(6)
PROC_TEST_STACK(7)
PROC_TEST_STACK(8)
static int sem_ser_test(void)
{
ticks_t start_time = timer_clock();
sem_init(&sem);
global_count = 0;
kprintf("Run semaphore serialization test..\n");
// Initialize the processes.
PROC_TEST_INIT(1)
PROC_TEST_INIT(2)
PROC_TEST_INIT(3)
PROC_TEST_INIT(4)
PROC_TEST_INIT(5)
PROC_TEST_INIT(6)
PROC_TEST_INIT(7)
PROC_TEST_INIT(8)
kputs("> Main: Processes created\n");
/*
* Wait until all processes exit, if something goes wrong we return an
* error after timeout_ms.
*/
while((timer_clock() - start_time) < ms_to_ticks(TEST_TIME_OUT_MS))
{
if (sem_attempt(&sem))
{
kputs("> Main: Check if test has finished..\n");
if(global_count == MAX_GLOBAL_COUNT)
{
kputs("> Main: Test Finished..Ok!\n");
return 0;
}
sem_release(&sem);
kputs("> Main: Test is still running..\n");
}
proc_yield();
}
kputs("Semaphore serialization test failed..\n");
return -1;
}
#if CONFIG_KERN_PRI
static int sem_inv_test(void)
{
int i, orig_pri = proc_current()->link.pri;
ticks_t fake, start_time;
sem_init(&sem);
global_count = 0;
loops = 0;
sem_init(&s1);
sem_init(&s2);
kputs("> Main: calibration for the busy wait cycle..\n");
proc_setPri(proc_current(), 10);
fake = start_time = timer_clock();
while ((fake - start_time) < ms_to_ticks(BASETIME)) {
fake = timer_clock();
loops++;
}
kprintf("> Main: calibration done, %dms equals to %u cycles!\n", BASETIME, loops);
kputs("> Main: Run Priority Inversion test...\n");
// Will take s2
PROC_INV_TEST_INIT(1, 2, S2);
// 2 will block on s2; 3 will take s2 and still block on s2
PROC_INV_TEST_INIT(2, 3, S2);
PROC_INV_TEST_INIT(3, 4, S1S2);
// Will block on s1, nothing happens..
PROC_INV_TEST_INIT(4, 5, S1);
// No semaphore, without PI this will delay everyone!
PROC_INV_TEST_INIT(5, 6, NONE);
// Will block on s1 and boost
PROC_INV_TEST_INIT(6, 7, S1);
PROC_INV_TEST_INIT(7, 8, S1);
PROC_INV_TEST_INIT(8, 9, S1);
// All processes created, let them run.
proc_setPri(proc_current(), orig_pri);
while ((timer_clock() - start_time) < ms_to_ticks(TEST_TIME_OUT_MS*2)) {
if (sem_attempt(&sem)) {
if (global_count >= loops*7 + loops*5) {
for (i = 0; i < 8; i++)
kprintf("> Main: I-O latency of %d = %ldms\n", i+1, (long) ms_to_ticks(finishing_time[i]));
kputs("> Main: Test Finished..Ok!\n");
return 0;
}
sem_release(&sem);
}
proc_yield();
}
kputs("> Main: Priority Inversion Test failed..\n");
return -1;
}
#else
void sem_inv_test(void)
{
}
#endif /* CONFIG_KERN_PRI */
/**
* Run semaphore test
*/
int sem_testRun(void)
{
/* Start tests */
sem_ser_test(); // Serialization
sem_inv_test(); // Priority Inversion
return 0;
}
int sem_testSetup(void)
{
kdbg_init();
kprintf("Init Timer..");
timer_init();
kprintf("Done.\n");
kprintf("Init Process..");
proc_init();
kprintf("Done.\n");
return 0;
}
int sem_testTearDown(void)
{
kputs("TearDown Semaphore test.\n");
return 0;
}
TEST_MAIN(sem);