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On Windows I can call:

_time32(__time32_t); // to get 32bit time_t
_time64(__time64_t); // to get 64bit time_t

(both in 32 and 64 bit programs)

Is there any way do this in Linux (compiling with GCC)?

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@Benoit That question is not a duplicate, it's completely different. –  interjay Jan 16 '13 at 15:40
1  
Not really...on 32-bit Linux, time_t is a traditional 32-bit signed quantity, with only 25 years of useful life left in it. On 64-bit Unix systems, it is already a 64-bit quantity. If you want a portable type, you'll have to define your own that maps appropriately, or just use time_t carefully. The other question referenced has relevant information (but I agree it is not a duplicate). –  Jonathan Leffler Jan 16 '13 at 15:56
    
see also 64-bit UNIX Timestamp Conversion –  Janus Troelsen Mar 13 at 19:46

3 Answers 3

up vote 7 down vote accepted

Apparently, no it's not possible. For starters, there is only one time() function in Linux, no time32() or time64().

After searching for a while, I can see that it's not libc's fault, but the culprit is actually the kernel.

In order for libc to fetch the current time, it need to execute a system call for it: (Source)

time_t time (t) time_t *t;
{
    // ...
    INTERNAL_SYSCALL_DECL (err);
    time_t res = INTERNAL_SYSCALL (time, err, 1, NULL);
    // ...
    return res;
}

The system call is defined as: (Source)

SYSCALL_DEFINE1(time, time_t __user *, tloc)
{
    time_t i = get_seconds();
    // ...
    return i;
}

The function get_seconds() returns an unsigned long, like so: (Source)

unsigned long get_seconds(void)
{
    struct timekeeper *tk = &timekeeper;

    return tk->xtime_sec;
}

And timekeeper.xtime_sec is actually 64-bit: (Source)

struct timekeeper {
    // ...
    /* Current CLOCK_REALTIME time in seconds */
    u64                     xtime_sec;
    // ...
}

Now, if you know your C, you know that the size of unsigned long is actually implementation-dependant. On my 64-bit machine here, it's 64-bit; but on my 32-bit machine here, it's 32-bit. It possibly could be 64-bit on some 32-bit implementation, but there's no guarantee.

On the other hand, u64 is always 64-bit, so at the very base, the kernel keeps track of the time in a 64-bit type. Why it then proceeds to return this as an unsigned long, which is not guaranteed to be 64-bit long, is beyond me.

In the end, even if libc's would force time_t to hold a 64-bit value, it wouldn't change a thing.

You could tie your application deeply into the kernel, but I don't think it's even worth it.

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So, write a patch and post it. Both for libc (typedef long long int time_t) and the kernel long long int get_seconds(void) –  user877329 May 12 at 9:57

No time64()/time32() function are included into standard libraries.

No time32_t/time64_t defines are contemplated in standard headers.

time_t is defined into time.h as typedef __time_t time_t;

Following a long chain of redefines, you'll discover that __time_t is defined as 32 bit on 32 bit machines and 64bit on 64 bit machines.

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If you really need this, why not roll your own?

typedef int32_t my_time32;
typedef int64_t my_time64;


my_time32 get_mytime32() {
    if (sizeof(time_t) == sizeof(my_time32))
        return time(NULL);
    else {
        /* Check for overflow etc. here... */
        return (my_time32)(time(NULL));
    }
}

And similarly for get_mytime64().

If you do not care about overflow, a simple return time(NULL); would work for both functions thanks to C's implicit numeric conversions.

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