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Short of digging through GDB source, where can I find documentation about the format used to create core files?

The ELF specification leaves the core file format open, so I guess this should be part of the GDB specifications! Sadly, I did not find any help in this regard from GNU's gdb documentation.

Here's what I am trying to do: Map virtual addresses to function names in executable/libraries that comprised the running process. To do that, I would first like to figure out, from the core file, the map from virtual address space to the name of the executable file/libraries, and then dig into the relevant file to get the symbolic information.

Now 'readelf -a core' tells me that nearly all the segments in the core file are of the type 'load' -- I'd guess these are the .text and .bss/.data segments from all the participating files, plus a stack segment. Barring these load segments, there is one note segment, but that does not seem to contain the map. So how is the information about which file a segment corresponds to, stored in the core file? Are those 'load' segments format in a particular way to include the file information?

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  • Can you elaborate a bit on what you mean by 'core file format'? Are you referring to the object code format that gcc produces or the format of the final executable, in which case that would be ELF, or something else? – greatwolf May 13 '11 at 1:41
  • 1
    A newer answer for this question is here. – evaitl Jul 19 '16 at 20:25
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Not so much gdb as the bfd library used by gdb, binutils, etc.

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The core dump file format is using the ELF format but is not described in the ELF standard. AFAIK, there is no authoritative reference on this.

so how is the information about which file a segment corresponds to, stored in the core file?

A lot of extra information is contained within the ELF notes. You can use readelf -n to see them.

The CORE/NT_FILE note defines the association between memory address range and file (+ offset):

Page size: 1
             Start                 End         Page Offset
0x0000000000400000  0x000000000049d000  0x0000000000000000
    /usr/bin/xchat
0x000000000069c000  0x00000000006a0000  0x000000000009c000
    /usr/bin/xchat
0x00007f2490885000  0x00007f24908a1000  0x0000000000000000
    /usr/share/icons/gnome/icon-theme.cache
0x00007f24908a1000  0x00007f24908bd000  0x0000000000000000
    /usr/share/icons/gnome/icon-theme.cache
0x00007f24908bd000  0x00007f2490eb0000  0x0000000000000000
    /usr/share/fonts/opentype/ipafont-gothic/ipag.ttf
[...]

For each thread, you should have a CORE/NT_PRSTATUS note which gives you the registers of the thread (including the stack pointer). You might be able to infer the position of the stacks from this.

More information about format of ELF core files:

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A core dump is the in-memory image of the process when it crashed. It includes the program segments, the stack, the heap and other data. You'll still need the original program in order to make sense of the contents: the symbol tables and other data make the raw addresses and structures in the memory image meaningful.

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Additional information about the process that generated the core file is stored in an ELF note section, albeit in an operating system specific manner. For example, see the core(5) manual page for NetBSD.

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A simpler solution to your problem may be to parse text from /proc/$pid/maps to determine what file a given virtual address maps to. You could then parse the corresponding file.

Kenshoto's open source VDB (debugger) uses this approach, if you can read python it is a good example.

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