Re: [PATCH v9 0/4] Generate address range data for built-in modules

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



On Fri, Sep 6, 2024 at 11:45 PM Kris Van Hees <kris.van.hees@xxxxxxxxxx> wrote:
>
> At build time, create the file modules.builtin.ranges that will hold
> address range data of the built-in modules that can be used by tracers.
>
> Especially for tracing applications, it is convenient to be able to
> refer to a symbol using a <module name, symbol name> pair and to be able
> to translate an address into a <nodule mname, symbol name> pair.  But
> that does not work if the module is built into the kernel because the
> object files that comprise the built-in module implementation are simply
> linked into the kernel image along with all other kernel object files.
>
> This is especially visible when providing tracing scripts for support
> purposes, where the developer of the script targets a particular kernel
> version, but does not have control over whether the target system has
> a particular module as loadable module or built-in module.  When tracing
> symbols within a module, referring them by <module name, symbol name>
> pairs is both convenient and aids symbol lookup.  But that naming will
> not work if the module name information is lost if the module is built
> into the kernel on the target system.
>
> Earlier work addressing this loss of information for built-in modules
> involved adding module name information to the kallsyms data, but that
> required more invasive code in the kernel proper.  This work never did
> get merged into the kernel tree.
>
> All that is really needed is knowing whether a given address belongs to
> a particular module (or multiple modules if they share an object file).
> Or in other words, whether that address falls within an address range
> that is associated with one or more modules.
>
> Objects can be identified as belonging to a particular module (or
> modules) based on defines that are passed as flags to their respective
> compilation commands.  The data found in modules.builtin is used to
> determine what modules are built into the kernel proper.  Then,
> vmlinux.o.map and vmlinux.map can be parsed in a single pass to generate
> a modules.buitin.ranges file with offset range information (relative to
> the base address of the associated section) for built-in modules.  This
> file gets installed along with the other modules.builtin.* files.
>
> The impact on the kernel build is minimal because everything is done
> using a single-pass AWK script.  The generated data size is minimal as
> well, (depending on the exact kernel configuration) usually in the range
> of 500-700 lines, with a file size of 20-40KB (if all modules are built
> in, the file contains about 8000 lines, with a file size of about 285KB).
>
> Changes since v9:
>  - Reverted support for optional 4th arg to generator script.
>  - Reverted support for optional 6th arg to verifier script.
>  - Added modules.builtin.ranges ad vmlinux.o.map to CLEAN_FILES.
>  - Fixed support for sparc64.
>  - Fixed support for LLVM's lld linker map format.
>  - Updated error message when .*.cmd.o cannot be read by verifier script.
>  - Added syntax output for verifier script when not enough args are given.
>  - Return 1 from verifier if verification fails.


Applied to linux-kbuild.
Thanks!

-- 
Best Regards
Masahiro Yamada





[Index of Archives]     [Linux&nblp;USB Development]     [Linux Media]     [Video for Linux]     [Linux Audio Users]     [Yosemite Secrets]     [Linux Kernel]     [Linux SCSI]

  Powered by Linux