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The manual for pcntl_fork() says:

The pcntl_fork() function creates a child process that differs from the parent process only in its PID and PPID.

However, running this simple test surprised me:

class Foo
    public function bar()
        if (pcntl_fork()) {
            echo spl_object_hash($this), PHP_EOL;
        } else {
            echo spl_object_hash($this), PHP_EOL;

(new Foo)->bar();

The result looks like:


From what the documentation says, I would have expected the parent and the child to share the same variables, and in particular, when fork()ed from within an object, I would have expected the reference to the object to be the same in both processes. But the example above shows they're not.

Interesting to note, there is no cloning happening here, it looks like the object is just copied. If I add a __clone() function, I can see it's not called during the forking.

Any reason why the variables/objects are not shared by both processes, or any good reading on the subject folks?

share|improve this question
Well, the fork2() man page, which is suggested reading according to the PHP docs, goes into somewhat more details, including "The entire virtual address space of the parent is replicated in the child", as you encountered, "replicated in the child" is NOT the same as "shared with the child". PHP isn't built with applications that need that in mind, and although you can make your own elaborate mechanisms, something like Java or possibly asynchronous node.js seems more what you're after. – Wrikken Apr 2 '13 at 17:41
I guess you're right, this explanation is similar to @hek2mgl's answer, and I've been misled by the fact that resources (that can obviously not be copied) are shared, I assumed that all variables etc. were shared as well. – Benjamin Apr 2 '13 at 18:00
Depends on the resource I believe: open file-descriptors: yes, but not all 'resources' would be either shared or copied, it depends on their implementation in the php source. – Wrikken Apr 2 '13 at 18:03
Thanks for the precision! – Benjamin Apr 2 '13 at 18:14
up vote 1 down vote accepted

The object hash will not being calculated when the object is created (as one could think). The object hash will be calculated when spl_object_hash() is called the first time for the object. This is after fork in your example.

Further note that for the calculation of the hash some randomness is used, therefore the different hashes.

share|improve this answer
But if the objects were the same, it does not matter when spl_object_hash() is called, right? The hashes should be identical, as far as I understand it. – Benjamin Apr 2 '13 at 17:39
Why are hashes random? Hashes shouldn't be random... – LtWorf Apr 2 '13 at 17:39
Note that fork creates two separate processes after fork all variables and memory is duplicated – hek2mgl Apr 2 '13 at 17:39
@LtWorf Have a look at the php source code. File: ext/spl/php_spl.c Line: 722 – hek2mgl Apr 2 '13 at 17:42
If you called spl_object_hash before the fork, the random number it uses and generates on first call would be fixed and the same for both processes, and the output for the two objects would be the same value. But even then there is no sharing involved, the two processes have entirely separate memory spaces. – andyhassall Apr 2 '13 at 17:44

The reference to the object is the same in the forked process, because the memory location of the object in the child process's memory space is the same.

The hash is calculated as the object address XOR a random mask (which is generated only once) , as you can read in the PHP source code, ext/spl/php_spl.c:

PHPAPI void php_spl_object_hash(zval *obj, char *result TSRMLS_DC) /* {{{*/
    intptr_t hash_handle, hash_handlers;
    char *hex;

    if (!SPL_G(hash_mask_init)) {
        if (!BG(mt_rand_is_seeded)) {
            php_mt_srand(GENERATE_SEED() TSRMLS_CC);

        SPL_G(hash_mask_handle)   = (intptr_t)(php_mt_rand(TSRMLS_C) >> 1);
        SPL_G(hash_mask_handlers) = (intptr_t)(php_mt_rand(TSRMLS_C) >> 1);
        SPL_G(hash_mask_init) = 1; 

    hash_handle   = SPL_G(hash_mask_handle)^(intptr_t)Z_OBJ_HANDLE_P(obj);
    hash_handlers = SPL_G(hash_mask_handlers)^(intptr_t)Z_OBJ_HT_P(obj);

    spprintf(&hex, 32, "%016x%016x", hash_handle, hash_handlers);

    strlcpy(result, hex, 33); 
/* }}} */

If the random number generator was seeded before the function was called you would get the exact same output for both the child and the parent process. But in this case it isn't, and each process calculates it own seed. The code for GENERATE_SEED goes:

#ifdef PHP_WIN32
#define GENERATE_SEED() (((long) (time(0) * GetCurrentProcessId())) ^ ((long) (1000000.0 * php_combined_lcg(TSRMLS_C))))
#define GENERATE_SEED() (((long) (time(0) * getpid())) ^ ((long) (1000000.0 * php_combined_lcg(TSRMLS_C))))

As you can see, the seed depends on the process ID, which is of course different for the parent and the child.

So, different random number generator seed, different random mask, different hash.

share|improve this answer
Thanks for the extra information. I've now understood why the hashes are different. However, it looks like you're wrong regarding the two address spaces, which are different: if I fork in an object, make the parent assign a variable, and read it from the child, I don't get this value. Or maybe did I misunderstand your point? – Benjamin Apr 2 '13 at 18:16
My point is that the address space of the child is an exact copy of the address space of the parent: all objects are at exactly the same addresses. Otherwise fork() would either break pointers or would have to rewrite them. – Joni Apr 2 '13 at 18:22
Gotcha. Good point! – Benjamin Apr 2 '13 at 18:49

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