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I'm trying to understand the glibc implementation of fseek. To do so, I downloaded the glibc source code and tried to understand its function execution order.

I found the fseek implementation in libio/fseek.c. Basically, it calls the function (or rather the macro) _IO_fseek() using the same parameters. This macro is implemented in libio/iolibio.h.

It is defined as _IO_seekoff_unlocked (__fp, __offset, __whence, _IOS_INPUT|_IOS_OUTPUT) (implemented in libio/ioseekoff.c). The next step in its execution is rather confusing for me:

_IO_seekoff_unlocked basically returns _IO_SEEKOFF (fp, offset, dir, mode);, which returns _IO_seekoff_unlocked (fp, offset, dir, mode);, which should create a call loop.

Also, when using strace on an example program (seek.c):

#include <stdio.h>

int main(void) {
    printf("[Fseek] Executing fseek\n");
    FILE *f = fopen("./seek.c", "rb");

    fseek(f, 0L, SEEK_END);
}

it shows that fseek will call the read system call, even though I could not find it in the glibc implementation.

...
write(1, "[Fseek] Executing fseek\n", 24[Fseek] Executing fseek
) = 24
openat(AT_FDCWD, "./seek.c", O_RDONLY)  = 3
fstat(3, {st_mode=S_IFREG|0644, st_size=146, ...}) = 0
fstat(3, {st_mode=S_IFREG|0644, st_size=146, ...}) = 0
lseek(3, 0, SEEK_SET)                   = 0
read(3, "#include <stdio.h>\n\nint main(voi"..., 146) = 146
exit_group(0)                           = ?
+++ exited with 0 +++

My goal is to understand how the read system call is used here. I have my own implementation of the read system call, which works well for other tests I wrote but will fail for some reason when it is called via fseek.

As an example, I use fseek in a function to get the size of a file:

long get_file_size(const char *name)
{
    FILE *temp_file = fopen(name, "rb");
    if (temp_file == NULL)
    {
        return -1;
    }

    fseek(temp_file, 0L, SEEK_END);
    long sz =  ftell(temp_file);
    fclose(temp_file);
    return sz;
}

This function will return the correct size with the "normal" read implementation but will fail with mine. So, if anybody can tell me how I can understand the use of read within fseek (which I could not find in the source), I would highly appreciate it.

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    May be a read is performed in order to reset the input buffer after a seek? Commented Nov 20, 2019 at 11:22
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    Also, strictly speaking your get_file_size() does not return the size of the file. Per 7.21.9.4 The ftell function, paragraph 2 of the C standard: "For a text stream, its file position indicator contains unspecified information, usable by the fseek function for returning the file position indicator for the stream to its position at the time of the ftell call; the difference between two such return values is not necessarily a meaningful measure of the number of characters written or read." Commented Nov 20, 2019 at 11:23
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    I would like to remove the part for the size function. That is not interesting, rather boring indeed. What is interesting is why there is a read in the fseek for text files. Commented Nov 20, 2019 at 11:25
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    Anyway, the get_size function question is boring and can't be fixed, except by "use stat". The "why there is read in seek" is interesting. The read has nothing to do with your code failing, it is just b0rken. Commented Nov 20, 2019 at 11:31
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    the cause for the read is this: code.woboq.org/userspace/glibc/libio/wfileops.c.html#887 - I'd really wanna remove the get_file_size and just have that one. Commented Nov 20, 2019 at 11:33

1 Answer 1

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_IO_seekoff_unlocked->_IO_SEEKOFF actually expands to JUMP3 (__seekoff, FP, OFF, DIR, MODE). JUMP3 is a macro that calls __seekoff from the FILE "jump" table/vtable.

fopen by default assigns _IO_file_jumps (or something like that, because the file can be mmap-ed etc. etc.) as the jump table for new FILEs. It is the implementation of the jump table/virtual table for a FILE.

So _IO_SEEKOFF calls _IO_file_jumps->__seekoff. It points to _IO_new_file_seekoff and finally inside that function a call is made to _IO_SYSREAD. _IO_SYSREAD calls _read from the jump table, which in turn calls _IO_file_read, which calls __read which finally executes SYSCALL_CANCEL (read).

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