Timer Library Complete

2026-04-19 17:52:26 +03:00 · 2024-06-01 10:49:19 +05:30
commit a2dc93136a
12 changed files with 959 additions and 0 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -0,0 +1,7 @@
 *vsidx
 *.opendb
 .vs
 out
 CMakePresets.json
--- a/Assignment/CMakeLists.txt
+++ b/Assignment/CMakeLists.txt
@@ -0,0 +1,13 @@
 set(RT_SRC  "rt.c")
 set(RT_MAIN	"rt_entry_expiration.c")
 set(RT_EXE rtManager)
 add_executable(${RT_EXE} ${RT_SRC}
 						 ${RT_MAIN})
 target_include_directories(${RT_EXE} PUBLIC
 								${HEADER_DIR})
 target_link_libraries(${RT_EXE} PUBLIC
 							${TIMER_LIB})
--- a/Assignment/rt.c
+++ b/Assignment/rt.c
@@ -0,0 +1,117 @@
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <memory.h>
 #include "rt.h"
 void
 rt_init_rt_table(rt_table_t* rt_table) {
    rt_table->head = NULL;
 }
 bool
 rt_add_new_rt_entry(rt_table_t* rt_table,
    char* dest,
    char mask,
    char* gw_ip,
    char* oif,
    void (*timer_cb)(Timer_t* , void* )) {
    rt_entry_t* head = NULL;
    rt_entry_t* rt_entry = NULL;
    rt_entry = calloc(1, sizeof(rt_entry_t));
    if (!rt_entry)
        return false;
    strncpy(rt_entry->rt_entry_keys.dest, dest, sizeof(rt_entry->rt_entry_keys.dest));
    rt_entry->rt_entry_keys.mask = mask;
    if (gw_ip)
        strncpy(rt_entry->gw_ip, gw_ip, sizeof(rt_entry->gw_ip));
    if (oif)
        strncpy(rt_entry->oif, oif, sizeof(rt_entry->oif));
    rt_entry->time_to_expire = RT_TABLE_EXP_TIME;
    rt_entry->timer = setup_timer((*timer_cb), RT_TABLE_EXP_TIME*1000, 0, 0, (void*)rt_entry, false);
    head = rt_table->head;
    rt_table->head = rt_entry;
    rt_entry->prev = 0;
    rt_entry->next = head;
    if (head)
        head->prev = rt_entry;
    start_timer(rt_entry->timer);
    return true;
 }
 bool
 rt_delete_rt_entry(rt_table_t* rt_table,
    char* dest, char mask) {
    rt_entry_t* rt_entry = NULL;
    ITERTAE_RT_TABLE_BEGIN(rt_table, rt_entry) {
        if (strncmp(rt_entry->rt_entry_keys.dest,
            dest, sizeof(rt_entry->rt_entry_keys.dest)) == 0 &&
            rt_entry->rt_entry_keys.mask == mask) {
            rt_entry_remove(rt_table, rt_entry);
            printf("deleting rt entry %p [%s:%d]\n",
                rt_entry, rt_entry->rt_entry_keys.dest,
                rt_entry->rt_entry_keys.mask);
            free(rt_entry);
            return true;
        }
    } ITERTAE_RT_TABLE_END(rt_table, curr);
    return false;
 }
 bool
 rt_update_rt_entry(rt_table_t* rt_table,
    char* dest,
    char mask,
    char* new_gw_ip,
    char* new_oif) {
    return true;
 }
 void
 rt_clear_rt_table(rt_table_t* rt_table) {
 }
 void
 rt_free_rt_table(rt_table_t* rt_table) {
 }
 void
 rt_dump_rt_table(rt_table_t* rt_table) {
    rt_entry_t* rt_entry = NULL;
    ITERTAE_RT_TABLE_BEGIN(rt_table, rt_entry) {
        unsigned long time_in_milli_sec = timer_get_time_remaining_in_milli_sec(rt_entry->timer);
        printf("%-20s %-4d %-20s %-12s %usec (%lu)\n",
            rt_entry->rt_entry_keys.dest,
            rt_entry->rt_entry_keys.mask,
            rt_entry->gw_ip,
            rt_entry->oif,
            rt_entry->time_to_expire,
            time_in_milli_sec);
    } ITERTAE_RT_TABLE_END(rt_tabl, rt_entry);
 }
--- a/Assignment/rt.h
+++ b/Assignment/rt.h
@@ -0,0 +1,97 @@
 #ifndef __RT__
 #define __RT__
 #include <stdint.h>
 #include <stdbool.h>
 #include <timerlib.h>
 #define RT_TABLE_EXP_TIME	30  /*  30 sec */
 typedef struct rt_entry_keys_ {
    char dest[16];
    char mask;
 } rt_entry_keys_t;
 typedef struct rt_entry_ {
    /* A Structure which represents only the keys of the
     * Routing Table.*/
    rt_entry_keys_t rt_entry_keys;
    char gw_ip[16];
    char oif[32];
    uint32_t time_to_expire; /* time left to delete the entry */
    Timer_t* timer;
    struct rt_entry_* prev;
    struct rt_entry_* next;
 } rt_entry_t;
 typedef struct rt_table_ {
    rt_entry_t* head;
 } rt_table_t;
 void
 rt_init_rt_table(rt_table_t* rt_table);
 bool
 rt_add_new_rt_entry(rt_table_t* rt_table,
    char* dest_ip, char mask, char* gw_ip, char* oif, void (*timer_cb)(Timer_t*, void*));
 bool
 rt_delete_rt_entry(rt_table_t* rt_table,
    char* dest_ip, char mask);
 bool
 rt_update_rt_entry(rt_table_t* rt_table,
    char* dest_ip, char mask,
    char* new_gw_ip, char* new_oif);
 void
 rt_clear_rt_table(rt_table_t* rt_table);
 void
 rt_free_rt_table(rt_table_t* rt_table);
 void
 rt_dump_rt_table(rt_table_t* rt_table);
 static inline void
 rt_entry_remove(rt_table_t* rt_table,
    rt_entry_t* rt_entry) {
    if (!rt_entry->prev) {
        if (rt_entry->next) {
            rt_entry->next->prev = 0;
            rt_table->head = rt_entry->next;
            rt_entry->next = 0;
            return;
        }
        rt_table->head = NULL;
        return;
    }
    if (!rt_entry->next) {
        rt_entry->prev->next = 0;
        rt_entry->prev = 0;
        return;
    }
    rt_entry->prev->next = rt_entry->next;
    rt_entry->next->prev = rt_entry->prev;
    rt_entry->prev = 0;
    rt_entry->next = 0;
 }
 #define ITERTAE_RT_TABLE_BEGIN(rt_table_ptr, rt_entry_ptr)                \
 {                                                                         \
    rt_entry_t *_next_rt_entry;                                           \
    for((rt_entry_ptr) = (rt_table_ptr)->head;                            \
            (rt_entry_ptr);                                               \
            (rt_entry_ptr) = _next_rt_entry) {                            \
        _next_rt_entry = (rt_entry_ptr)->next;
 #define ITERTAE_RT_TABLE_END(rt_table_ptr, rt_entry_ptr)  }}
 #endif /* __RT__ */
--- a/Assignment/rt_entry_expiration.c
+++ b/Assignment/rt_entry_expiration.c
@@ -0,0 +1,80 @@
 #include <stdio.h>
 #include <stdlib.h>
 #include <stdint.h>
 #include <timerlib.h>
 #include <assert.h>
 #include "rt.h"
 static rt_table_t rt;
 void rt_entry_delete_on_timer_expiry(Timer_t* timer, void* user_data) {
 	assert(timer != NULL);
 	assert(user_data != NULL);
 	rt_entry_t* rt_entry = (rt_entry_t*)user_data;
 	char dest_ip[16];
 	strncpy(dest_ip,rt_entry->rt_entry_keys.dest, sizeof(rt_entry->rt_entry_keys.dest));
 	char mask = rt_entry->rt_entry_keys.mask;
 	delete_timer(rt_entry->timer);
 	assert(rt_delete_rt_entry(&rt, dest_ip, mask));
 }
 int
 main(int argc, char** argv) {
 	rt_init_rt_table(&rt);
 	rt_add_new_rt_entry(&rt, "122.1.1.1", 32, "10.1.1.1", "eth0",rt_entry_delete_on_timer_expiry);
 	rt_add_new_rt_entry(&rt, "122.1.1.2", 32, "10.1.1.2", "eth1",rt_entry_delete_on_timer_expiry);
 	rt_add_new_rt_entry(&rt, "122.1.1.3", 32, "10.1.1.3", "eth2",rt_entry_delete_on_timer_expiry);
 	rt_add_new_rt_entry(&rt, "122.1.1.4", 32, "10.1.1.4", "eth3",rt_entry_delete_on_timer_expiry);
 	rt_add_new_rt_entry(&rt, "122.1.1.5", 32, "10.1.1.5", "eth4",rt_entry_delete_on_timer_expiry);
 	while (1) {
 		printf("1. Add rt table entry\n");
 		printf("2. Update rt table entry\n");
 		printf("3. Delete rt table entry\n");
 		printf("4. Dump rt table\n");
 		int choice;
 		printf("Enter Choice :");
 		scanf("%d", &choice);
 		fflush(stdin);
 		switch (choice) {
 		case 1:
 		{
 			char dest[16];
 			uint8_t mask;
 			char oif[32];
 			char gw[16];
 			printf("Enter Destination :");
 			scanf("%s", dest);
 			printf("Mask : ");
 			scanf("%hhd", &mask);
 			printf("Enter oif name :");
 			scanf("%s", oif);
 			printf("Enter Gateway IP :");
 			scanf("%s", gw);
 			if (!rt_add_new_rt_entry(&rt, dest, mask,
 				gw, oif, rt_entry_delete_on_timer_expiry)) {
 				printf("Error : Could not add an entry\n");
 			}
 		}
 		break;
 		case 2:
 			break;
 		case 3:
 			break;
 		case 4:
 			rt_dump_rt_table(&rt);
 		default:
 			;
 		}
 	}
 	return 0;
 }
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -0,0 +1,35 @@
 cmake_minimum_required(VERSION 3.22.1)
 project(Timer-Library VERSION 1.0.0 LANGUAGES C CXX)
 set(CMAKE_C_STANDARD          17)
 set(CMAKE_C_STANDARD_REQUIRED ON)
 set(CMAKE_C_EXTENSIONS        OFF)
 #Output file structure
 #Scheme 1
 set(CMAKE_RUNTIME_OUTPUT_DIRECTORY "${CMAKE_BINARY_DIR}/bin/$<CONFIG>")
 set(CMAKE_LIBRARY_OUTPUT_DIRECTORY "${CMAKE_BINARY_DIR}/lib/$<CONFIG>")
 set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_BINARY_DIR}/lib/$<CONFIG>")
 #Scheme 2
 #set(CMAKE_RUNTIME_OUTPUT_DIRECTORY "${CMAKE_BINARY_DIR}/$<CONFIG>/bin")
 #set(CMAKE_LIBRARY_OUTPUT_DIRECTORY "${CMAKE_BINARY_DIR}/$<CONFIG>/lib")
 #set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_BINARY_DIR}/$<CONFIG>/lib")
 #Library Name...
 set(TIMER_LIB timer)
 #Header file directory...
 set(HEADER_DIR ${CMAKE_SOURCE_DIR}/include)
 #Source file directory...
 set(SOURCE_DIR ${CMAKE_SOURCE_DIR}/src)
 #Adding Sub-directory having CMakeLists.txt...
 add_subdirectory(src)
 add_subdirectory(test)
 add_subdirectory(Assignment)
--- a/README.md
+++ b/README.md
@@ -0,0 +1 @@
 # Timer-Library
--- a/include/timerlib.h
+++ b/include/timerlib.h
@@ -0,0 +1,174 @@
 #ifndef __TIMER_WRAP__
 #define __TIMER_WRAP__
 //To use POSIX TIMER library
 #define __USE_POSIX199309 1
 #include <signal.h>
 #include <time.h>
 #include <unistd.h>
 #include <stdbool.h>
 #include <stdint.h>
 #include <stdlib.h>
 /*
 * Timer Data Structure, with attributes 
 * for controlling timer.
 */
 typedef enum {
 	TIMER_INIT,
 	TIMER_RUNNING,
 	TIMER_CANCELLED,
 	TIMER_DELETED,
 	TIMER_PAUSED,
 	TIMER_RESUMED
 } TIMER_STATE_T;
 typedef struct Timer_ {
 	/* Timer config */
 	timer_t* posix_timer;				//Handle to Posix timer
 	void* user_arg;						//Arg to passed to timer callback fun.
 	unsigned long exp_time;				//expiration or fire time after timer start
 	unsigned long sec_exp_time;			//expiration or fire time after first timer exp., used in periodic timer
 	uint32_t threshold;					//No. of times to invoke the timer callback
 	void (*cb)(struct Timer_*, void*);	//Function-pointer to timer callback
 	bool exponential_backoff;			//If the timer is exponential type
 	/*
 	* Dynamic Attributes of timer data structure:
 	* 
 	* Attributes which change dynamically with exec. of
 	* program.
 	* 
 	*/
 	unsigned long time_remaining;		//Time left for paused timer for next expiration/launch
 	uint32_t invocation_counter;		//No. of times callback is invoked( Useful in periodic/exponential type)
 	struct itimerspec ts;
 	unsigned long exp_back_off_time;
 	TIMER_STATE_T timer_state;			//State of the Timer object
 }Timer_t;
 /*
 * Assignment-1 functions.
 */
 unsigned long
 timespec_to_millisec(struct timespec* time);
 void
 timer_fill_itimerspec(struct timespec* ts,
 	unsigned long msec);
 /*
 * Assignment-1 functions.
 */
 /*
 * Assignment-2 functions
 */
 static inline void
 timer_delete_user_data(Timer_t* timer) {
 	if (timer->user_arg) {
 		free(timer->user_arg);
 		timer->user_arg = NULL;
 	}
 }
 static inline TIMER_STATE_T
 timer_get_current_state(Timer_t* timer) {
 	return timer->timer_state;
 }
 static inline void
 timer_set_state(Timer_t* timer, TIMER_STATE_T timer_state) {
 	timer->timer_state = timer_state;
 }
 /*
 * Assignment-2 functions
 */
 /*Return NULL in timer creation fails, else
 return a pointer to Timer object*/
 Timer_t*
 setup_timer(
 	/* Timer Callback with user data and user size */
 	void (*)(Timer_t*, void*),
 	/* First expiration timer interval in msec*/
 	unsigned long,
 	/*Subsequent expiration time interval in msec*/
 	unsigned long,
 	/*Max no of expiration, 0 for infinite */
 	uint32_t,
 	/* Arg to timer callback */
 	void*,
 	/* Is timer Exp back off */
 	bool
 );
 /*****APIs' to control timer******/
 void
 resurrect_timer(Timer_t* timer);
 void
 start_timer(Timer_t* timer);
 unsigned long
 timer_get_time_remaining_in_milli_sec(Timer_t* timer);
 void
 pause_timer(Timer_t* timer);
 void
 resume_timer(Timer_t* timer);
 int
 execute_timer(Timer_t* timer, TIMER_STATE_T action);
 void
 delete_timer(Timer_t* timer);
 void
 cancel_timer(Timer_t* timer);
 void
 restart_timer(Timer_t* timer);
 void
 reschedule_timer(Timer_t* timer,
 	unsigned long exp_ti,
 	unsigned long sec_exp_ti);
 void
 print_timer(Timer_t* timer);
 bool
 is_timer_running(Timer_t* timer);
 /*****APIs' to control timer******/
 #endif
--- a/src/CMakeLists.txt
+++ b/src/CMakeLists.txt
@@ -0,0 +1,23 @@
 #timerlib.c src file...
 set(TIMER_LIB_SRC "timerlib.c")
 #Library
 add_library(${TIMER_LIB} STATIC
 				${TIMER_LIB_SRC})
 #Including Header file dir...
 target_include_directories(${TIMER_LIB} PUBLIC
 								${HEADER_DIR})
 #Linking dependent library...
 if( NOT (CMAKE_SYSTEM_NAME STREQUAL "Linux") )
 	message(FATAL_ERROR "It's not a Unix-based system.\n \
 	POSIX TIMER Library will not compile in this project.\n")
 endif()
 set(POSIX_TIMER_LIB rt)
 target_link_libraries(${TIMER_LIB} PUBLIC
 							${POSIX_TIMER_LIB})
--- a/src/timerlib.c
+++ b/src/timerlib.c
@@ -0,0 +1,334 @@
 #include <stdio.h>
 #include <stdlib.h>
 #include <memory.h>
 #include <assert.h>
 #include <errno.h>
 #include "timerlib.h"
 unsigned long
 timespec_to_millisec(struct timespec* time) {
 	unsigned long res_time = 0;
 	res_time += (unsigned long)time->tv_sec * 1000; // For seconds to be in millisecond.
 	res_time += (unsigned long)time->tv_nsec / 1000000; // For nanosecond to millisecond.
 	return res_time;
 }
 void
 timer_fill_itimerspec(struct timespec* ts,
 	unsigned long msec) {
 	memset(ts, 0, sizeof(struct timespec));
 	if (!msec) return;
 	unsigned long sec = msec / 1000;
 	ts->tv_sec = sec;
 	unsigned long remaining_msec = msec % 1000;
 	ts->tv_nsec = remaining_msec * (1000000);
 }
 static void
 timer_callback_wrapper(union sigval arg) {
 	Timer_t* timer = (Timer_t*)(arg.sival_ptr);
 	timer->invocation_counter++;
 	if (timer->threshold &&
 		(timer->invocation_counter > timer->threshold)) {
 		cancel_timer(timer);
 		return;
 	}
 	if (timer->timer_state == TIMER_RESUMED) {
 		if (timer->sec_exp_time != 0) {
 			timer->timer_state = TIMER_RUNNING;
 		}
 	}
 	(timer->cb)(timer, timer->user_arg);
 	if (timer->exponential_backoff) {
 		assert(timer->exp_back_off_time);
 		reschedule_timer(timer,
 			timer->exp_back_off_time *= 2, 0);
 	}
 	else if (timer->timer_state == TIMER_RESUMED) {
 		reschedule_timer(timer,
 			timer->exp_time, timer->sec_exp_time);
 	}
 }
 /*Return NULL in timer creation fails, else
 return a pointer to Timer object*/
 Timer_t*
 setup_timer(
 	/* Timer Callback with user data and user size */
 	void (*timer_cb)(Timer_t*, void*),
 	/* First expiration timer interval in msec*/
 	unsigned long exp_timer,
 	/*Subsequent expiration time interval in msec*/
 	unsigned long sec_exp_timer,
 	/*Max no of expiration, 0 for infinite */
 	uint32_t threshold,
 	/* Arg to timer callback */
 	void* user_arg,
 	/* Is timer Exp back off */
 	bool exponential_backoff) {
 	Timer_t* timer = calloc(1, sizeof(Timer_t));
 	timer->posix_timer = calloc(1, sizeof(timer_t));
 	timer->user_arg = user_arg;
 	timer->exp_time = exp_timer;
 	timer->sec_exp_time = sec_exp_timer;
 	timer->cb = timer_cb;
 	timer->threshold = threshold;
 	timer_set_state(timer, TIMER_INIT);
 	timer->exponential_backoff = exponential_backoff;
 	/* Check for error */
 	assert(timer->cb);
 	struct sigevent evp;
 	memset(&evp, 0, sizeof(struct sigevent));
 	evp.sigev_value.sival_ptr = (void*)(timer);
 	evp.sigev_notify = SIGEV_THREAD;
 	evp.sigev_notify_function = timer_callback_wrapper;
 	int rc = timer_create(CLOCK_REALTIME,
 		&evp,
 		timer->posix_timer);
 	assert(rc >= 0);
 	timer_fill_itimerspec(&timer->ts.it_value, timer->exp_time);
 	if (!timer->exponential_backoff) {
 		timer_fill_itimerspec(&timer->ts.it_interval, timer->sec_exp_time);
 		timer->exp_back_off_time = 0;
 	}
 	else {
 		timer->exp_back_off_time = timespec_to_millisec(&timer->ts.it_value);
 		timer_fill_itimerspec(&timer->ts.it_interval, 0);
 	}
 	return timer;
 }
 /*****APIs' to control timer******/
 void
 resurrect_timer(Timer_t* timer) {
 	int rc;
 	rc = timer_settime(*(timer->posix_timer), 0, &timer->ts, NULL);
 	assert(rc >= 0);
 }
 void
 start_timer(Timer_t* timer) {
 	resurrect_timer(timer);
 	timer_set_state(timer, TIMER_RUNNING);
 }
 void
 delete_timer(Timer_t* timer) {
 	int rc;
 	rc = timer_delete(*(timer->posix_timer));
 	assert(rc >= 0);
 	timer->user_arg = NULL; /* User arg need to be freed by Appln */
 	timer_set_state(timer, TIMER_DELETED);
 	free(timer->posix_timer);
 	free(timer);
 }
 void
 cancel_timer(Timer_t* timer) {
 	TIMER_STATE_T timer_curr_state;
 	timer_curr_state = timer_get_current_state(timer);
 	if (timer_curr_state = TIMER_INIT ||
 		timer_curr_state == TIMER_DELETED) {
 		return; /* No operations */
 	}
 	/* Only Paused or running timer can be cancelled */
 	timer_fill_itimerspec(&timer->ts.it_value, 0);
 	timer_fill_itimerspec(&timer->ts.it_interval, 0);
 	timer->time_remaining = 0;
 	timer->invocation_counter = 0;
 	resurrect_timer(timer);
 	timer_set_state(timer, TIMER_CANCELLED);
 }
 void
 pause_timer(Timer_t* timer) {
 	if (timer_get_current_state(timer) == TIMER_PAUSED) {
 		return;
 	}
 	timer->time_remaining =
 		timer_get_time_remaining_in_milli_sec(timer);
 	timer_fill_itimerspec(&timer->ts.it_value, 0);
 	timer_fill_itimerspec(&timer->ts.it_interval, 0);
 	resurrect_timer(timer);
 	timer_set_state(timer, TIMER_PAUSED);
 }
 void
 resume_timer(Timer_t* timer) {
 	assert(timer_get_current_state(timer) == TIMER_PAUSED);
 	timer_fill_itimerspec(&timer->ts.it_value, timer->time_remaining);
 	timer_fill_itimerspec(&timer->ts.it_interval, timer->sec_exp_time);
 	timer->time_remaining = 0;
 	resurrect_timer(timer);
 	timer_set_state(timer, TIMER_RESUMED);
 }
 unsigned long
 timer_get_time_remaining_in_milli_sec(Timer_t* timer) {
 	struct itimerspec remaining_time;
 	switch (timer->timer_state) {
 	case TIMER_INIT:
 		break;
 	case TIMER_DELETED:
 		return ~0;
 	case TIMER_PAUSED:
 		break;
 	case TIMER_CANCELLED:
 		return ~0;
 	case TIMER_RUNNING:
 		break;
 	default:;
 	}
 	memset(&remaining_time, 0, sizeof(struct itimerspec));
 	timer_gettime(*timer->posix_timer, &remaining_time);
 	return timespec_to_millisec(&remaining_time.it_value);
 }
 void
 restart_timer(Timer_t* timer) {
 	assert(timer->timer_state != TIMER_DELETED);
 	cancel_timer(timer);
 	timer_fill_itimerspec(&timer->ts.it_value,
 		timer->exp_time);
 	if (!timer->exponential_backoff) {
 		timer_fill_itimerspec(&timer->ts.it_interval, timer->sec_exp_time);
 	}
 	else {
 		timer_fill_itimerspec(&timer->ts.it_interval, 0);
 	}
 	timer->invocation_counter = 0;
 	timer->time_remaining = 0;
 	timer->exp_back_off_time = timer->exp_time;
 	resurrect_timer(timer);
 	timer_set_state(timer, TIMER_RUNNING);
 }
 void
 reschedule_timer(Timer_t* timer,
 	unsigned long exp_ti,
 	unsigned long sec_exp_ti) {
 	uint32_t invocation_counter;
 	TIMER_STATE_T timer_state;
 	timer_state = timer_get_current_state(timer);
 	if (timer_state == TIMER_DELETED) assert(0);
 	invocation_counter = timer->invocation_counter;
 	if (timer_state != TIMER_CANCELLED) {
 		cancel_timer(timer);
 	}
 	timer->invocation_counter = invocation_counter;
 	timer_fill_itimerspec(&timer->ts.it_value, exp_ti);
 	if (!timer->exponential_backoff) {
 		timer_fill_itimerspec(&timer->ts.it_interval, sec_exp_ti);
 	}
 	else {
 		timer_fill_itimerspec(&timer->ts.it_interval, 0);
 		timer->exp_back_off_time = exp_ti;
 	}
 	timer->time_remaining = 0;
 	resurrect_timer(timer);
 	timer_set_state(timer, TIMER_RUNNING);
 }
 void
 print_timer(Timer_t* timer) {
 	printf("Counter = %u, time remaining = %lu, state = %d\n",
 		timer->invocation_counter,
 		timer_get_time_remaining_in_milli_sec(timer),
 		timer_get_current_state(timer));
 }
 bool
 is_timer_running(Timer_t* timer) {
 	TIMER_STATE_T timer_state;
 	timer_state = timer_get_current_state(timer);
 	if (timer_state == TIMER_RUNNING ||
 		timer_state == TIMER_RESUMED) {
 		return true;
 	}
 	return false;
 }
 /*****APIs' to control timer******/
--- a/test/CMakeLists.txt
+++ b/test/CMakeLists.txt
@@ -0,0 +1,12 @@
 set(TIMERLIB_TEST_EXE timerlib_test)
 set(TIMERLIB_TEST_SRC "timerlib_test.c")
 add_executable(${TIMERLIB_TEST_EXE} 
 					${TIMERLIB_TEST_SRC})
 target_link_libraries(${TIMERLIB_TEST_EXE} PUBLIC
 							${TIMER_LIB})
 target_include_directories(${TIMERLIB_TEST_EXE} PUBLIC
 									${HEADER_DIR})
--- a/test/timerlib_test.c
+++ b/test/timerlib_test.c
@@ -0,0 +1,66 @@
 #include <stdio.h>
 #include "timerlib.h"
 static void
 user_defined_app_cb(Timer_t* timer, void* user_data) {
 	printf("User data = %s\n", (char*)user_data);
 }
 int
 main(int argc, char* argv[]) {
 	char* name = "Junet";
 	Timer_t* timer = setup_timer(user_defined_app_cb, 1000, 1000, 0, name, false);
 	start_timer(timer);
 	printf("1. Pause Timer\n");
 	printf("2. Resume Timer\n");
 	printf("3. Restart timer\n");
 	printf("4. Reschedule timer\n");
 	printf("5. Delete timer\n");
 	printf("6. Cancel Timer\n");
 	printf("7. Get Remaining Time\n");
 	printf("8. Print Timer State\n");
 	int choice;
 	choice = 0;
 	while (1) {
 		scanf("%d", &choice);
 		switch (choice) {
 		case 1:
 			//pause_timer(timer);
 			break;
 		case 2:
 			//resume_timer(timer);
 			break;
 		case 3:
 			//restart_timer(timer);
 			break;
 		case 4:
 			/*reschedule_timer(timer,
 				timer->exp_time,
 				timer->sec_exp_time);*/
 			break;
 		case 5:
 			//delete_timer(timer);
 			break;
 		case 6:
 			//cancel_timer(timer);
 			break;
 		case 7:
 			//printf("Rem Time = %lu\n", timer_get_time_remaining_in_mill_sec(timer));
 			break;
 		case 8:
 			//print_timer(timer);
 			break;
 		default:;
 		}
 	}
 	return 0;
 }