Difference between revisions of "Pthread"
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=Another example= | =Another example= | ||
− | The example below | + | The example below shows the use of pthread_cancel. The script in the end shows the PID - Process ID - of the process and TID - Thread ID - of the threads. |
+ | |||
<source lang=c> | <source lang=c> | ||
#include <stdio.h> | #include <stdio.h> | ||
Line 156: | Line 157: | ||
// Compile with: gcc thread3.c -o thread3 -pthread -lc | // Compile with: gcc thread3.c -o thread3 -pthread -lc | ||
− | // Note: \x1b[ - are vt100 escape | + | // Note: \x1b[ - are vt100 escape sequences. Google on it |
// Note: printf is reasonable treadsafe (see man page) | // Note: printf is reasonable treadsafe (see man page) | ||
Line 162: | Line 163: | ||
static unsigned int count=0; | static unsigned int count=0; | ||
− | |||
while(count < 200) { | while(count < 200) { | ||
Line 175: | Line 175: | ||
static unsigned int count=0; | static unsigned int count=0; | ||
− | |||
while(1) { | while(1) { | ||
Line 189: | Line 188: | ||
static unsigned int count=0; | static unsigned int count=0; | ||
− | |||
while(1) { | while(1) { | ||
Line 231: | Line 229: | ||
Run the following script in another terminal to see running threads | Run the following script in another terminal to see running threads | ||
<source lang=bash> | <source lang=bash> | ||
− | while :; do clear; ps -L xo pid,ppid,tid,cmd | grep -P '( | + | while :; do clear; ps -L xo pid,ppid,tid,cmd | grep -P '(thread3|CMD)'; sleep 0.5; done |
</source> | </source> | ||
Latest revision as of 10:05, 19 April 2024
Contents
Using pthreads
Single thread example
The example below shows the syntax of pthreads. The thread doesn't do anything useful.
- compile with: gcc pt1.c -o pt -pthread
1 #include <stdio.h>
2 #include <pthread.h>
3
4 long counter;
5 void * adder(void * data) {
6 for (int i=0; i < 1000000; i++)
7 counter++;
8 }
9
10 int main(void) {
11 int i;
12 pthread_t pt;
13
14 counter=0;
15 pthread_create(&pt, NULL, adder, NULL);
16 pthread_join(pt, NULL);
17 printf("Value of counter is %ld\n", counter);
18 return(0);
19 }
When creating a pthread with pthread_create() resources are allocated in the running process for the thread. pthread_join() waits for the thread to finish and releases its resources.
Using multiple threads
Using multiple threads simultaneously can give race conditions as the code below shows when running.
1 #include <stdio.h>
2 #include <pthread.h>
3
4 #define THREADS 2
5
6 long counter;
7 void * adder(void * data) {
8 for (int i=0; i < 100000000; i++)
9 counter++;
10 }
11
12 int main(void) {
13 int i;
14 pthread_t pt[THREADS];
15
16 counter=0;
17
18 for (i=0; i < THREADS; i++) {
19 pthread_create(&pt[i], NULL, adder, NULL);
20 printf("Created thread %d\n",i+1);
21 }
22
23 for (i=0; i < THREADS; i++) {
24 pthread_join(pt[i], NULL);
25 printf("Joined thread %d\n",i+1);
26 }
27
28 printf("Value of counter is %ld\n", counter);
29 return(0);
30 }
Running the code two times gave this output as example:
- Note: The two wrong counter values.
heth@emb3:~/bin$ pt2
Created thread 1
Created thread 2
Joined thread 1
Joined thread 2
Value of counter is 1032119
heth@emb3:~/bin$ pt2
Created thread 1
Created thread 2
Joined thread 1
Joined thread 2
Value of counter is 1081391
Using mutexes
A Mutex or Mutual exclusion is a lock that can be owned by only thread at a time. When unlocked another thread can lock it.
#include <stdio.h>
#include <pthread.h>
#define THREADS 2
long counter;
pthread_mutex_t mutex;
void * adder(void * data) {
for (int i=0; i < 1000000; i++) {
pthread_mutex_lock(&mutex) ;
counter++;
pthread_mutex_unlock(&mutex);
}
}
int main(void) {
int i;
pthread_t pt[THREADS];
counter=0;
if (pthread_mutex_init(&mutex, NULL) != 0)
printf("Mutex init failed\n");
for (i=0; i < THREADS; i++) {
pthread_create(&pt[i], NULL, adder, NULL);
printf("Created thread %d\n",i+1);
}
for (i=0; i < THREADS; i++) {
pthread_join(pt[i], NULL);
printf("Joined thread %d\n",i+1);
}
printf("Value of counter is %ld\n", counter);
return(0);
}
The output from this example is accurate:
heth@emb3:~/bin$ pt1_mutex
Created thread 1
Created thread 2
Joined thread 1
Joined thread 2
Value of counter is 2000000
Releasing resources used by a pthread
To release the resources - memory for stack and householding - it is necessary to call either pthread_detach or pthread_join. The resources are not released when the pthread exits without one of these calls.
- pthread_join is called by the process or another thread.
- pthread_detach is typically called by the thread itself to release the resources when the thread terminates
See threads of a running process
Using ps
To see the thread ids - TID - of a running process use ps -T or filter as below
heth@emb3:~/bin/process-and-thread/thread$ ps -L xo pid,ppid,tid,cmd | grep -P '(pt2|CMD)'
PID TID CMD
3516974 3516974 ./pt2_mutex
3516974 3516975 ./pt2_mutex
3516974 3516976 ./pt2_mutex
3522329 3522329 grep --color=auto -P (pt2|CMD)
- NOTE
- Some confusion about thread ID - TID and other abbreviations - in the man page for ps the value of TID can also appear as lwp or spid
Another example
The example below shows the use of pthread_cancel. The script in the end shows the PID - Process ID - of the process and TID - Thread ID - of the threads.
#include <stdio.h>
#include <pthread.h>
#include <unistd.h>
// Compile with: gcc thread3.c -o thread3 -pthread -lc
// Note: \x1b[ - are vt100 escape sequences. Google on it
// Note: printf is reasonable treadsafe (see man page)
void * thread_0(void * data) {
static unsigned int count=0;
while(count < 200) {
count++;
printf("\x1b[2;1HThread_0 count = %10d", count);
fflush(stdout);
usleep(100000);
}
}
void * thread_1(void * data) {
static unsigned int count=0;
while(1) {
count++;
printf("\x1b[3;1HThread_1 count = %10d", count);
fflush(stdout);
pthread_testcancel();
usleep(10000);
}
}
void * thread_2(void * data) {
static unsigned int count=0;
while(1) {
count++;
printf("\x1b[4;1HThread_2 count = %10d", count);
fflush(stdout);
pthread_testcancel();
usleep(1000000);
}
}
int main(void) {
int i;
pthread_t pt[3];
printf("\x1b[2J");
fflush(stdout);
pthread_create(&pt[0], NULL, thread_0, NULL);
pthread_create(&pt[1], NULL, thread_1, NULL);
pthread_create(&pt[2], NULL, thread_2, NULL);
pthread_join(pt[0], NULL);
printf("\x01b[8;1HJoined thread_0\n");
usleep(3000000);
pthread_cancel(pt[1]);
printf("\x01b[9;1HCancelled thread_1\n");
usleep(3000000);
pthread_cancel(pt[2]);
printf("\x01b[10;1HCancelled thread_2\n");
usleep(3000000);
printf("\x01b[11;1HExiting\n");
return(0);
}
Run the following script in another terminal to see running threads
while :; do clear; ps -L xo pid,ppid,tid,cmd | grep -P '(thread3|CMD)'; sleep 0.5; done