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Message-ID: <CAK7LNASKaCcmyTJPV+PhNyNu2ogFMU4OzgM0UncLRSoZa64ejA@mail.gmail.com>
Date: Mon, 2 Sep 2024 16:26:48 +0900
From: Masahiro Yamada <masahiroy@...nel.org>
To: Kris Van Hees <kris.van.hees@...cle.com>
Cc: linux-kernel@...r.kernel.org, linux-kbuild@...r.kernel.org,
linux-modules@...r.kernel.org, linux-trace-kernel@...r.kernel.org,
Nick Alcock <nick.alcock@...cle.com>, Alan Maguire <alan.maguire@...cle.com>,
Steven Rostedt <rostedt@...dmis.org>, Luis Chamberlain <mcgrof@...nel.org>,
Masami Hiramatsu <mhiramat@...nel.org>, Nick Desaulniers <ndesaulniers@...gle.com>,
Jiri Olsa <olsajiri@...il.com>, Elena Zannoni <elena.zannoni@...cle.com>
Subject: Re: [PATCH v9 2/4] kbuild: generate offset range data for builtin modules
On Sat, Aug 24, 2024 at 12:38 PM Kris Van Hees <kris.van.hees@...cle.com> wrote:
>
> Create file module.builtin.ranges that can be used to find where
> built-in modules are located by their addresses. This will be useful for
> tracing tools to find what functions are for various built-in modules.
>
> The offset range data for builtin modules is generated using:
> - modules.builtin: associates object files with module names
> - vmlinux.map: provides load order of sections and offset of first member
> per section
> - vmlinux.o.map: provides offset of object file content per section
> - .*.cmd: build cmd file with KBUILD_MODFILE
>
> The generated data will look like:
>
> .text 00000000-00000000 = _text
> .text 0000baf0-0000cb10 amd_uncore
> .text 0009bd10-0009c8e0 iosf_mbi
> ...
> .text 00b9f080-00ba011a intel_skl_int3472_discrete
> .text 00ba0120-00ba03c0 intel_skl_int3472_discrete intel_skl_int3472_tps68470
> .text 00ba03c0-00ba08d6 intel_skl_int3472_tps68470
> ...
> .data 00000000-00000000 = _sdata
> .data 0000f020-0000f680 amd_uncore
>
> For each ELF section, it lists the offset of the first symbol. This can
> be used to determine the base address of the section at runtime.
>
> Next, it lists (in strict ascending order) offset ranges in that section
> that cover the symbols of one or more builtin modules. Multiple ranges
> can apply to a single module, and ranges can be shared between modules.
>
> The CONFIG_BUILTIN_MODULE_RANGES option controls whether offset range data
> is generated for kernel modules that are built into the kernel image.
>
> How it works:
>
> 1. The modules.builtin file is parsed to obtain a list of built-in
> module names and their associated object names (the .ko file that
> the module would be in if it were a loadable module, hereafter
> referred to as <kmodfile>). This object name can be used to
> identify objects in the kernel compile because any C or assembler
> code that ends up into a built-in module will have the option
> -DKBUILD_MODFILE=<kmodfile> present in its build command, and those
> can be found in the .<obj>.cmd file in the kernel build tree.
>
> If an object is part of multiple modules, they will all be listed
> in the KBUILD_MODFILE option argument.
>
> This allows us to conclusively determine whether an object in the
> kernel build belong to any modules, and which.
>
> 2. The vmlinux.map is parsed next to determine the base address of each
> top level section so that all addresses into the section can be
> turned into offsets. This makes it possible to handle sections
> getting loaded at different addresses at system boot.
>
> We also determine an 'anchor' symbol at the beginning of each
> section to make it possible to calculate the true base address of
> a section at runtime (i.e. symbol address - symbol offset).
>
> We collect start addresses of sections that are included in the top
> level section. This is used when vmlinux is linked using vmlinux.o,
> because in that case, we need to look at the vmlinux.o linker map to
> know what object a symbol is found in.
>
> And finally, we process each symbol that is listed in vmlinux.map
> (or vmlinux.o.map) based on the following structure:
>
> vmlinux linked from vmlinux.a:
>
> vmlinux.map:
> <top level section>
> <included section> -- might be same as top level section)
> <object> -- built-in association known
> <symbol> -- belongs to module(s) object belongs to
> ...
>
> vmlinux linked from vmlinux.o:
>
> vmlinux.map:
> <top level section>
> <included section> -- might be same as top level section)
> vmlinux.o -- need to use vmlinux.o.map
> <symbol> -- ignored
> ...
>
> vmlinux.o.map:
> <section>
> <object> -- built-in association known
> <symbol> -- belongs to module(s) object belongs to
> ...
>
> 3. As sections, objects, and symbols are processed, offset ranges are
> constructed in a straight-forward way:
>
> - If the symbol belongs to one or more built-in modules:
> - If we were working on the same module(s), extend the range
> to include this object
> - If we were working on another module(s), close that range,
> and start the new one
> - If the symbol does not belong to any built-in modules:
> - If we were working on a module(s) range, close that range
>
> Signed-off-by: Kris Van Hees <kris.van.hees@...cle.com>
> Reviewed-by: Nick Alcock <nick.alcock@...cle.com>
> Reviewed-by: Alan Maguire <alan.maguire@...cle.com>
> Reviewed-by: Steven Rostedt (Google) <rostedt@...dmis.org>
> ---
> Changes since v8:
> - Added support for built-in Rust modules.
> - Added optional 4th argument to specify kernel build directory.
When is the 4th parameter useful?
The map file knows all object paths.
The object file and its .*.cmd file exist in the same directory.
I did not find a use-case where the kdir prefix plays a role.
Did I miss something?
--
Best Regards
Masahiro Yamada
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