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I know how to generate a core dump on OS X when a process crashes, but what I really need to do is attach to a process, generate a core dump, then resume that process (without killing it).

A long time ago (maybe a year and a half ago) I had C code that would do this... It used the OS X kernel libraries to connect to a process, read all of its thread states and memory, and write that into a Mach-O file on disk. This worked great (and it's exactly what I'm looking for), but now I can't seem to find that code for the life of me. I seem to recall that code was related somewhat to the OS X system internals book, but that's just a vague recollection.

Does anyone know the code I'm talking about and could point me at it? If not does anyone know a good way of doing this preferably with some example code?

Edit: Here is the answer.


Program that will do it for you:

share|improve this question
up vote 6 down vote accepted

I believe you are looking for this information


/* UNIX Third Edition, circa early 1973 */
/* ken/sig.c */

int s, *ip;
extern schar;

/* u is the user area */
u.u_error = 0;          /* reset error code to "no error" */
u.u_dirp = "core";      /* file name to search for */
ip = namei(&schar, 1);  /* do search; schar means it's a kernel string */

if (ip == NULL) {       /* failed to find */
    if (u.u_error)      /* because of some error */
        return(0);      /* so bail out */
    ip = maknode(0666); /* didn't exist; so create it */

if (!access(ip, IWRITE)) { /* check "write" permission; 0 means OK */
    itrunc(ip);            /* truncate the core file */

    /* first we write the user area */
    u.u_offset[0] = 0;     /* offset for I/O */
    u.u_offset[1] = 0;     /* offset for I/O */
    u.u_base = &u;         /* base address for I/O (user area itself) */
    u.u_count = USIZE*64;  /* bytes remaining for I/O; USIZE=8 */
    u.u_segflg = 1;        /* specify kernel address space */
    writei(ip);            /* do the write */

     * u_procp points to the process structure
     * p_size is the size of the process's swappable image (x 64 bytes) */
    s = u.u_procp->p_size - USIZE; /* compute size left to write */

     * This sets up software prototype segmentation registers to implement
     * text(=0 here), data(=s here), and stack(=0 here) sizes specified.
    estabur(0, s, 0);

    u.u_base = 0;          /* base address for I/O (start of space) */
    u.u_count = s*64;      /* s is in units of 64 bytes, so adjust */
    u.u_segflg = 0;        /* specify user address space */
    writei(ip);            /* do the write */
iput(ip);                  /* decrement inode reference count */
return(u.u_error==0);      /* done */
share|improve this answer
The code above is what he's comparing the code in the linked gzip to, so that's not correct, but the link (and specifically the gcore gzip) is exactly what I was looking for. Thanks! – LCC Feb 1 '10 at 20:06
That'll teach me to copy and paste more carefully – mbarnett Feb 1 '10 at 20:10

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