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I am beginner in this area.

I have studied fork(), vfork(), clone() and pthreads.

I have noticed that pthread_create() will create a thread, which is less overhead than creating a new process with fork(). Additionally the thread will share file descriptors, memory, etc with parent process.

But when is fork() and clone() better than pthreads? Can you please explain it to me by giving real world example?

Thanks in Advance.

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You are comparing 2 different things. None is better. Its just, which is applicable where. –  Vinayak Garg Jul 26 '12 at 5:38
    
Ohkk.. Gottaa We want separate execution then fork() is better and when we want some execution on same address space by different thread then pthread is cool. is it so? –  Brijesh Valera Jul 26 '12 at 5:46
    
pthread_create() calls clone() –  Zaffy Dec 15 '12 at 15:08

4 Answers 4

up vote 10 down vote accepted

The strength and weakness of fork (and company) is that they create a new process that's a clone of the existing process.

This is a weakness because, as you pointed out, creating a new process has a fair amount of overhead. It also means communication between the processes has to be done via some "approved" channel (pipes, sockets, files, shared-memory region, etc.)

This is a strength because it provides (much) greater isolation between the parent and the child. If, for example, a child process crashes, you can kill it and start another fairly easily. By contrast, if a child thread dies, killing it is problematic at best -- it's impossible to be certain what resources that thread held exclusively, so you can't clean up after it. Likewise, since all the threads in a process share a common address space, one thread that ran into a problem could overwrite data being used by all the other threads, so just killing that one thread wouldn't necessarily be enough to clean up the mess.

In other words, using threads is a little bit of a gamble. As long as your code is all clean, you can gain some efficiency by using multiple threads in a single process. Using multiple processes adds a bit of overhead, but can make your code quite a bit more robust, because it limits the damage a single problem can cause, and makes it much easy to shut down and replace a process if it does run into a major problem.

As far as concrete examples go, Apache might be a pretty good one. It will use multiple threads per process, but to limit the damage in case of problems (among other things), it limits the number of threads per process, and can/will spawn several separate processes running concurrently as well. On a decent server you might have, for example, 8 processes with 8 threads each. The large number of threads helps it service a large number of clients in a mostly I/O bound task, and breaking it up into processes means if a problem does arise, it doesn't suddenly become completely un-responsive, and can shut down and restart a process without losing a lot.

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+1 for your apache example. –  ki4jnq Sep 26 at 13:50

clone(2) is a Linux specific syscall mostly used to implement threads (in particular, it is used for pthread_create). With various arguments, clone can also have a fork(2)-like behavior. Very few people use directly clone, using the pthread library is more portable. You probably need to call directly clone(2) syscall only if you are implementing your own thread library - competitor to Posix-threads - and this is very tricky (in particular because locking may require using futex(2) syscall in machine-tuned assembly-coded routines, see futex(7)). You don't want to use directly clone or futex because the pthreads are much simpler to use.

(The other pthread functions require some book-keeping to be done internally in libpthread.so after a clone during a pthread_create)

As Jonathon answered, processes have their own address space and file descriptor set. And a process can execute a new executable program with the execve syscall which basically initialize the address space, the stack and registers for starting a new program (but the file descriptors may be kept, unless using close-on-exec flag, e.g. thru O_CLOEXEC for open).

On Unix-like systems, all processes (except the very first process, usuallyinit, of pid 1) are created by fork (or variants like vfork; you could, but don't want to, use clone in such way as it behaves like fork).

(technically, on Linux, there are some few weird exceptions which you can ignore, notably kernel processes or threads and some rare kernel-initiated starting of processes like /sbin/hotplug ....)

The fork and execve syscalls are central to Unix process creation (with waitpid and related syscalls).

A multi-threaded process has several threads (usually created by pthread_create) all sharing the same address space and file descriptors. You use threads when you want to work in parallel on the same data within the same address space, but then you should care about synchronization and locking. Read some pthread tutorial for more.

I suggest you to read a good Unix programming book like Advanced Unix Programming

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These are totally different things. fork() creates a new process. pthread_create() creates a new thread, which runs under the context of the same process.

Thread share the same virtual address space, memory (for good or for bad), set of open file descriptors, among other things.

Processes are (essentially) totally separate from each other and cannot modify each other.

You should read this question:


As for an example, if I am your shell (eg. bash), when you enter a command like ls, I am going to fork() a new process, and then exec() the ls executable. (And then I wait() on the child process, but that's getting out of scope.) This happens in an entire different address space, and if ls blows up, I don't care, because I am still executing in my own process.

On the other hand, say I am a math program, and I have been asked to multiply two 100x100 matrices. We know that matrix multiplication is an Embarrassingly Parallel problem. So, I have the matrices in memory. I spawn of N threads, who each operate on the same source matrices, putting their results in the appropriate location in the result matrix. Remember, these operate in the context of the same process, so I need to make sure they are not stamping on each other's data. If N is 8 and I have an eight-core CPU, I can effectively calculate each part of the matrix simultaneously.

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so fork() is only used when we want that execution must be going on separate space which will not affect the calling process. is it the only thing? –  Brijesh Valera Jul 26 '12 at 5:41
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No, fork (with its variant vfork) is the only way to create a process (unless you use the Linux-specific clone syscall in such ways that it exactly duplicates the behavior of fork). All application processes are created by forkexcept the very first process init (and some weird Linux-specific exceptions). –  Basile Starynkevitch Jul 26 '12 at 10:36

Process creation mechanism on unix using fork() (and family) is very efficient. Morever , most unix system doesnot support kernel level threads i.e thread is not entity recognized by kernel. Hence thread on such system cannot get benefit of CPU scheduling at kernel level. pthread library does that which is not kerenl rather some process itself. Also on such system pthreads are implemented using vfork() and as light weight process only. So using threading has no point except portability on such system.

As per my understanding Sun-solaris and windows has kernel level thread and linux family doesn't support kernel threads.

with processes pipes and unix doamin sockets are very efficient IPC without synchronization issues. I hope it clears why and when thread should be used practically.

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