When i'm developing a linux driver, i've read about how to write linux kbuild makefile through this document

I know kbuild system use makefile variables such as obj-y obj-m to determine what to build and how to build.

But what i'm confused about is where does kbuild system really execute build process.In a word, if i have obj-m = a.o, then where does kbuild system parse obj-m and execute gcc a.c ?

  • The answer is that make does all the work. The main kernel build makefile presumably has rules that use the obj-m and obj-y variables in appropriate places to hook those files up to appropriate build rules. (Posting as a comment because I don't know kbuild at all and so this is just based on general make behavior.) Mar 24, 2015 at 12:27

1 Answer 1


Kbuild's Makefiles aren't the easiest to read, but here's a high-level untangling (using the 4.0-rc3 kernel):

  1. The top-level Makefile does

    include $(srctree)/scripts/Kbuild.include

    , where $(srctree) is the top-level kernel directory.

  2. Kbuild.include defines various common stuff and helpers. Among these is build:

    # Shorthand for $(Q)$(MAKE) -f scripts/Makefile.build obj=
    # Usage:
    # $(Q)$(MAKE) $(build)=dir
    build := -f $(srctree)/scripts/Makefile.build obj

    build is used with a command like $(MAKE) $(build)=dir to perform the build for the directory dir. It makes use of scripts/Makefile.build.

  3. Returning to the top-level Makefile, there's the following:

    $(vmlinux-dirs): prepare scripts
            $(Q)$(MAKE) $(build)=$@

    vmlinux-dirs contains a list of subdirectories to build (init, usr, kernel, etc.). $(Q)$(MAKE) $(build)=<subdirectory> will be run for each subdirectory.

    The rule above compiles object files for both the kernel image and modules. Further down in the top-level Makefile, there's some additional module-specific stuff:

    modules: $(vmlinux-dirs) $(if $(KBUILD_BUILTIN),vmlinux) modules.builtin
            # Do additional module-specific stuff using
            # scripts/Makefile.modpost among other things
            # (my comment).
    endif # CONFIG_MODULES
  4. Looking into scripts/Makefile.build (the Makefile used by $(build)) now, it begins by initializing the obj-* lists and various other lists:

    # Init all relevant variables used in kbuild files so
    # 1) they have correct type
    # 2) they do not inherit any value from the environment
    obj-y :=
    obj-m :=
    lib-y :=
    lib-m :=

    A bit further down, it loads in the Kbuild file where obj-y, obj-m, etc., are set:

    include $(kbuild-file)

    Further down is the default rule, which has the $(obj-y) and $(obj-m) lists as prerequisites:

    __build: $(if $(KBUILD_BUILTIN),$(builtin-target) $(lib-target) $(extra-y)) \
             $(if $(KBUILD_MODULES),$(obj-m) $(modorder-target)) \
             $(subdir-ym) $(always)

    The $(obj-y) prerequisites come from $(builtin-target), which is defined as follows:

    builtin-target := $(obj)/built-in.o
    $(builtin-target): $(obj-y) FORCE
            $(call if_changed,link_o_target)

    The actual building seems to be performed by the following rule:

    # Built-in and composite module parts
    $(obj)/%.o: $(src)/%.c $(recordmcount_source) FORCE
            $(call cmd,force_checksrc)
            $(call if_changed_rule,cc_o_c)

    if_changed_rule is from Kbuild.include. The rule ends up running the following commands in Makefile.build:

    define rule_cc_o_c
            $(call echo-cmd,checksrc) $(cmd_checksrc)                         \
            $(call echo-cmd,cc_o_c) $(cmd_cc_o_c);                            \

    $(cmd_cc_o_c) seems to be the actual compilation command. The usual definition (there are two possibilities in Makefile.build, AFAICS) seems to be the following:

    cmd_cc_o_c = $(CC) $(c_flags) -c -o $@ $<

    Unless set explicitly using e.g. make CC=clang, CC defaults to gcc, as can be seen here in the top-level Makefile:

    ifneq ($(CC),)
    ifeq ($(shell $(CC) -v 2>&1 | grep -c "clang version"), 1)
    COMPILER := clang
    COMPILER := gcc
    export COMPILER

The way I untangled this was by doing a CTRL-C during a kernel build and seeing where make reported the error. Another handy make debugging technique is to use $(warning $(variable)) to print the value of variable.

  • This is cool debug method. Since` $(obj-y)` is only a list of XXX.o, how does make know where to find this XXX.c ? How does make actually get the path info?
    – demonguy
    Mar 25, 2015 at 2:29
  • @demonguy: The pattern rule $(obj)/%.o: $(src)/%.c takes care of it. $(obj) is the directory where the compiled object files will be placed, and $(src) is the directory where the sources are. The rule says that a file on the form $(obj)/<name>.o depends on a file on the form $(src)/<name>.c (where <name> is the same in both cases), and that you make the .o file from the .c file by running the recipe of the rule (the commands it contains).
    – Ulfalizer
    Mar 25, 2015 at 2:51
  • but there are many different paths, for example makefile in test1/1.c contain obj-y += 1.o and makefile in test2/2.c contain obj-y += 2.o, then finally obj-y should be 1.o 2.o. then how does $(src) handle different paths?
    – demonguy
    Mar 25, 2015 at 2:55
  • @demonguy: I haven't looked into it closely, but within each Kbuild file you're usually only dealing with a single directory I think. build spawns a separate make instance to run Makefile.build for each directory. (Calling make from within makefiles is called recursive make by the way.)
    – Ulfalizer
    Mar 25, 2015 at 2:59

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