KALLSYMS
NAME SYNOPSIS DESCRIPTION OPTIONS LINKER PASSES DATA FORMAT SEE ALSO HISTORY
kallsyms - Extract all kernel symbols for debugging
kallsyms [-Vh? kernel_filename
Kallsyms extracts all the non-stack symbols from a kernel and builds a data blob that can be linked into that kernel for use by debuggers.
A normal kernel only exports symbols that are used by modules. For debugging you may want a list of all the non-stack symbols, not just the exported ones. kallsyms extracts all sections and symbols from a kernel, constructs a list of the sections, symbols and their addresses and writes a relocatable object containing just the kallsyms section. After the kallsyms section is linked into the kernel and the kernel has been booted, any debugger can use the data in the __kallsyms section to get better symbol resolution.
For example, a debugger can use the __kallsyms data to resolve a kernel address to:
*
The owning kernel or module.
*
The section within the owning code.
*
The nearest symbol.
-h, --help
Display a summary of options and exit.
-V, --version
Display the version of kallsyms and exit.
To create a kernel containing an accurate __kallsyms section, you have to make four linker passes instead of the normal single link step. kallsyms and the linker are fast, the three extra steps take a few seconds on a P200.
1
The initial build of the kernel, without any kallsyms data. Run kallsyms__ against the output of this link, creating a relocatable object which contains all the sections and symbols in the raw kernel.
2
Link the kernel again, this time including the kallsyms output from step (1). Adding the kallsyms section changes the number of sections and many of the kernel symbol offsets so run kallsyms__ again against the second link, again saving the relocatable output.
3
Link the kernel again, this time including the kallsyms output from step (2). Run kallsyms against the latest version of the kernel. The size and position of the kallsyms section on this run is now stable, none of the kernel sections or symbols will change after this run. The kallsyms__ output contains the final values of the kernel symbols.
4
Link the final kernel, including the kallsyms output from step (3).
The __kallsyms section is a bit unusual. It deliberately has no relocatable data, all
/usr/include/sys/kallsyms.h contains the mappings for the __kallsyms data.
Header
*
Size of header.
*
Total size of the __kallsyms data, including strings.
*
Number of sections. This only included sections which are loaded into memory.
*
Offset to the first section entry from start of the __kallsyms header.
*
Size of each section entry, excluding the name string.
*
Number of symbols.
*
Offset to the first symbol entry from the start of the __kallsyms header.
*
Size of each symbol entry, excluding the name string.
*
Offset to the first string from the start of the __kallsyms header.
*
Start address of the first section[1?.
*
End address of the last section[1?.
Section entry
One entry per loaded section. Since kallsyms is a loaded section, if the input file contains a kallsyms section then it is included in this list.
*
Start of the section within the kernel[1?.
*
Size of section.
*
Offset to the name of section, from the start of the __kallsyms strings.
*
Section flags, from the original Elf section.
Symbol entry
One per symbol in the input file. Only symbols that fall within loaded sections are stored.
*
Offset to the kallsyms section entry that this symbol falls within. The offset is from the start of the kallsyms section entries.
*
Address of the symbol within the kernel[1?. The symbols are sorted in ascending order on this field.
*
Offset to the name of symbol, from the start of the __kallsyms strings.
Strings
A set of NUL terminated strings. Each name is referenced using an offset from the start of the __kallsyms string area.
Note [1?
These fields are exceptions to the
insmod(8).
Initial version by Keith Owens
One page links to kallsyms(8):