1

I have a following scenario:

  1. project I work on is mostly a static library
  2. as this is an embedded project I also have linker scripts
  3. each linker script requires some preprocessing before it can be used
  4. static library, include paths, compiler flags and the linker flag to use preprocessed linker script are propagated to users via interface library.

This generally works fine, however there's only target-level dependency between user's application and preprocessed linker script (via interface library). There is no file-level dependency, so when I modify the source of the linker script, the preprocessed linker script gets regenerated, however user's application is not relinked.

Here's a test case

$ ls
CMakeLists.txt  dummy.c  linker-script.ld-source  main.c

$ cat CMakeLists.txt 
cmake_minimum_required(VERSION 3.1)
project(a_test)

add_custom_command(OUTPUT linker-script.ld
        COMMAND cmake -E copy ${CMAKE_CURRENT_SOURCE_DIR}/linker-script.ld-source linker-script.ld
        DEPENDS ${CMAKE_CURRENT_SOURCE_DIR}/linker-script.ld-source)
add_custom_target(linker-script DEPENDS linker-script.ld)

add_library(static-library STATIC
        dummy.c)

add_library(interface-library INTERFACE)
target_link_libraries(interface-library INTERFACE
        # -Tlinker-script.ld
        static-library)
add_dependencies(interface-library linker-script)

add_executable(application
        main.c)
target_link_libraries(application interface-library)

$ cat main.c 
int main(void)
{
    return 0;
}

dummy.c and linker-script.ld-source are just empty. Generated linker script is not actually used, but the commended fragment shows how I intend to use it. Let's run it:

$ mkdir output

$ cd output

$ cmake ..
-- The C compiler identification is GNU 8.1.0
-- The CXX compiler identification is GNU 8.1.0
-- Check for working C compiler: /usr/bin/cc
-- Check for working C compiler: /usr/bin/cc -- works
-- Detecting C compiler ABI info
-- Detecting C compiler ABI info - done
-- Detecting C compile features
-- Detecting C compile features - done
-- Check for working CXX compiler: /usr/bin/c++
-- Check for working CXX compiler: /usr/bin/c++ -- works
-- Detecting CXX compiler ABI info
-- Detecting CXX compiler ABI info - done
-- Detecting CXX compile features
-- Detecting CXX compile features - done
-- Configuring done
-- Generating done
-- Build files have been written to: /tmp/cmake/output

$ make
Scanning dependencies of target static-library
[ 20%] Building C object CMakeFiles/static-library.dir/dummy.c.o
[ 40%] Linking C static library libstatic-library.a
[ 40%] Built target static-library
Scanning dependencies of target linker-script
[ 60%] Generating linker-script.ld
[ 60%] Built target linker-script
Scanning dependencies of target application
[ 80%] Building C object CMakeFiles/application.dir/main.c.o
[100%] Linking C executable application
[100%] Built target application

OK, everything seems fine. Now let's say that source of linker script is updated:

$ touch ../linker-script.ld-source

$ make
[ 40%] Built target static-library
[ 60%] Generating linker-script.ld
[ 60%] Built target linker-script
[100%] Built target application

As you see, the application is not relinked and this is a problem here. Any ideas how such scenario could be solved?

  • I think CMAKE_EXE_LINKER_FLAGS is more suitable for linker's option -T<linker-script> than target_link_libraries command. In that case, dependency on linker script could be created with LINK_DEPENDS target property, like here. For add this property automatically, you may wrap add_executable into your macro/function. (Or you may define your add_executable macro/function, which calls original one). – Tsyvarev May 15 '18 at 22:34
  • @Tsyvarev - I would prefer (if possible) a solution which doesn't require any special behaviour from the users. If the user needs to do anything more than link my interface library, then I just don't need it at all and all the "modern CMake" cannot be applied to my scenario. If I have to provide my own wrapper for add_executable, then I can just use static library directly... – Freddie Chopin May 16 '18 at 6:52
0

The only proper solution (at least now) is to use LINK_DEPENDS target property. For that I've added my own helper-function which looks like this:

#
# Specifies linker script(s) used for linking `target`.
#
# `distortosTargetLinkerScripts(target [linker-script.ld ...])`
#
# Most common use will be with single linker script provided by distortos:
# `distortosTargetLinkerScripts(target $ENV{DISTORTOS_LINKER_SCRIPT})`
#
# Proper linker flag is added, as well as CMake dependency via LINK_DEPENDS target property.
#

function(distortosTargetLinkerScripts target)
    foreach(linkerScript IN LISTS ARGN)
        target_link_libraries(${target} PRIVATE
                -T"${linkerScript}")
        get_target_property(linkDepends ${target} LINK_DEPENDS)
        if(NOT linkDepends)
            unset(linkDepends)
        endif()
        list(APPEND linkDepends "${linkerScript}")
        set_target_properties(${target} PROPERTIES
                LINK_DEPENDS "${linkDepends}")
    endforeach()
endfunction()
0

Update: There seems to be additional support coming up by adding a new target property for interface targets in CMake 3.13 (INTERFACE_LINK_DEPENDS and updated doc for LINK_DEPENDS that mentions Ninja as a supported generator (Although, not sure when in which version of CMake was that feature was actually implemented).


Note: Not a complete answer, but just documenting my uses with Ninja as generator

Using LINK_DEPENDS does not work with non-Makefile generators, e.g. Ninja.

My usual approach, out of those found in this mailing list post, is to use a dummy file and modify its timestamp using

add_custom_command(OUTPUT linker-script.ld
  [...]
  COMMAND ${CMAKE_COMMAND} -E touch ${CMAKE_CURRENT_SOURCE_DIR}/dummy.c
  [...])

Still, this does not work great since in the first invocation it detects that the linker script is out of date, and thus performs its copy and "touches" the dummy source file. However, a second invocation is required to pick up the modification and rebuild all the dependent targets.

This is inconvenient, but I believe it is routed in Ninja's categorization of dependencies (implicit, explicit, order-only). Using the add_dependencies command, creates only an order-only Ninja dependency, since the linker script does not affect in CMake terms the build line of the binary target that you want to run it with.

As for an interface library, I don't see how it would help in this situation, as it doesn't even create build output; it mostly acts like a organizational placeholder.

  • "Using LINK_DEPENDS does not work with non-Makefile generators, e.g. Ninja." - it works perfectly fine for me with Ninja. I won't post a shell dump, as in comment it would be completely unintelligible, but if you want I could paste it somewhere and share a link. – Freddie Chopin Sep 6 '18 at 17:47
  • @FreddieChopin are you sure there's nothing else going on with the way you have set up your deps? Because this is also documented. – compor Sep 6 '18 at 18:37
  • 1
  • @FreddieChopin Ah, that's great. Thanks for that. I'll amend for that version of CMake once I try it. – compor Sep 6 '18 at 19:17

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