In a Makefile this would be done with something like:
g++ -DGIT_SHA1="`git log -1 | head -n 1`" ...
This is very useful, because the binary knows exact commit SHA1 so it can dump it in case of segfault.
How can I achieve the same with CMake?
I've made some CMake modules that peer into a git repo for versioning and similar purposes - they're all in my repository at https://github.com/rpavlik/cmake-modules
The good thing about these functions is, they will force a re-configure (a rerun of cmake) before a build every time the HEAD commit changes. Unlike doing something just once with execute_process, you don't need to remember to re-cmake to update the hash definition.
For this specific purpose, you'd need at least the GetGitRevisionDescription.cmake
and GetGitRevisionDescription.cmake.in
files. Then, in your main CMakeLists.txt
file, you'd have something like this
list(APPEND CMAKE_MODULE_PATH "${CMAKE_CURRENT_SOURCE_DIR}/whereYouPutMyModules/")
include(GetGitRevisionDescription)
get_git_head_revision(GIT_REFSPEC GIT_SHA1)
Then, you could either add it as a system-wide definition (which unfortunately would cause lots of rebuilding)
add_definitions("-DGIT_SHA1=${GIT_SHA1}")
or, my suggested alternative: Make a generated source file. Create these two files in your source:
GitSHA1.cpp.in:
#define GIT_SHA1 "@GIT_SHA1@"
const char g_GIT_SHA1[] = GIT_SHA1;
GitSHA1.h:
extern const char g_GIT_SHA1[];
Add this to your CMakeLists.txt
(assuming you have a list of source files in SOURCES):
configure_file("${CMAKE_CURRENT_SOURCE_DIR}/GitSHA1.cpp.in" "${CMAKE_CURRENT_BINARY_DIR}/GitSHA1.cpp" @ONLY)
list(APPEND SOURCES "${CMAKE_CURRENT_BINARY_DIR}/GitSHA1.cpp" GitSHA1.h)
Then, you have a global variable containing your SHA string - the header with the extern doesn't change when the SHA does, so you can just include that any place you want to refer to the string, and then only the generated CPP needs to be recompiled on every commit to give you access to the SHA everywhere.
#include "GitSHA1.h"
in GitSHA1.cpp.in to properly export the global variable into a static library.
Commented
Aug 14, 2014 at 8:26
I did this in such as way as to generate:
const std::string Version::GIT_SHA1 = "e7fb69fb8ee93ac66f006406781138562d0250fb";
const std::string Version::GIT_DATE = "Thu Jan 9 14:17:56 2014";
const std::string Version::GIT_COMMIT_SUBJECT = "Fix all the bugs";
If the workspace that performed the build had pending, uncommitted changes, the above SHA1 string will be suffixed with -dirty
.
In CMakeLists.txt
:
# the commit's SHA1, and whether the building workspace was dirty or not
execute_process(COMMAND
"${GIT_EXECUTABLE}" describe --match=NeVeRmAtCh --always --abbrev=40 --dirty
WORKING_DIRECTORY "${CMAKE_SOURCE_DIR}"
OUTPUT_VARIABLE GIT_SHA1
ERROR_QUIET OUTPUT_STRIP_TRAILING_WHITESPACE)
# the date of the commit
execute_process(COMMAND
"${GIT_EXECUTABLE}" log -1 --format=%ad --date=local
WORKING_DIRECTORY "${CMAKE_SOURCE_DIR}"
OUTPUT_VARIABLE GIT_DATE
ERROR_QUIET OUTPUT_STRIP_TRAILING_WHITESPACE)
# the subject of the commit
execute_process(COMMAND
"${GIT_EXECUTABLE}" log -1 --format=%s
WORKING_DIRECTORY "${CMAKE_SOURCE_DIR}"
OUTPUT_VARIABLE GIT_COMMIT_SUBJECT
ERROR_QUIET OUTPUT_STRIP_TRAILING_WHITESPACE)
# generate version.cc
configure_file("${CMAKE_CURRENT_SOURCE_DIR}/version.cc.in" "${CMAKE_CURRENT_BINARY_DIR}/version.cc" @ONLY)
list(APPEND SOURCES "${CMAKE_CURRENT_BINARY_DIR}/version.cc" version.hh)
This requires version.cc.in
:
#include "version.hh"
using namespace my_app;
const std::string Version::GIT_SHA1 = "@GIT_SHA1@";
const std::string Version::GIT_DATE = "@GIT_DATE@";
const std::string Version::GIT_COMMIT_SUBJECT = "@GIT_COMMIT_SUBJECT@";
And version.hh
:
#pragma once
#include <string>
namespace my_app
{
struct Version
{
static const std::string GIT_SHA1;
static const std::string GIT_DATE;
static const std::string GIT_COMMIT_SUBJECT;
};
}
Then in code I can write:
cout << "Build SHA1: " << Version::GIT_SHA1 << endl;
It would be nice to have a solution that catches changes to the repository (from git describe --dirty
), but only triggers recompilation if something about the git information has changed.
Some of the existing solutions:
execute_process
. This only gets the git information at configure time, and can miss changes to the repository..git/logs/HEAD
. This only triggers recompilation when something in the repo changes, but misses the changes to get the -dirty
state.-dirty
state, but triggers a recompilation all the time (based on the updated timestamp of the version information file)One fix to the third solution is to use the CMake copy_if_different
command, so the timestamp on the version information file only changes if the contents change.
The steps in the custom command are:
copy_if_different
to copy the temporary file to the real filemake
The code (borrowing heavily from kralyk's solution):
# The 'real' git information file
SET(GITREV_BARE_FILE git-rev.h)
# The temporary git information file
SET(GITREV_BARE_TMP git-rev-tmp.h)
SET(GITREV_FILE ${CMAKE_BINARY_DIR}/${GITREV_BARE_FILE})
SET(GITREV_TMP ${CMAKE_BINARY_DIR}/${GITREV_BARE_TMP})
ADD_CUSTOM_COMMAND(
OUTPUT ${GITREV_TMP}
COMMAND ${CMAKE_COMMAND} -E echo_append "#define GIT_BRANCH_RAW " > ${GITREV_TMP}
COMMAND ${GIT_EXECUTABLE} rev-parse --abbrev-ref HEAD >> ${GITREV_TMP}
COMMAND ${CMAKE_COMMAND} -E echo_append "#define GIT_HASH_RAW " >> ${GITREV_TMP}
COMMAND ${GIT_EXECUTABLE} describe --always --dirty --abbrev=40 --match="NoTagWithThisName" >> ${GITREV_TMP}
COMMAND ${CMAKE_COMMAND} -E copy_if_different ${GITREV_TMP} ${GITREV_FILE}
COMMAND ${CMAKE_COMMAND} -E remove ${GITREV_TMP}
WORKING_DIRECTORY ${CMAKE_SOURCE_DIR}
VERBATIM
)
# Finally, the temporary file should be added as a dependency to the target
ADD_EXECUTABLE(test source.cpp ${GITREV_FILE})
(Edit: update GITREV_TMP to GITREV_FILE in ADD_EXECUTABLE)
${GITREV_FILE}
in ADD_EXECUTABLE
. This solution is nice, however the only drawback is ${GITREV_FILE}
will not be deleted when make clean
.
Commented
Mar 4, 2021 at 13:27
${GITREV_FILE}
as BYPRODUCT
but that only works with Ninja generator. Otherwise either still get perpetual rebuilds, or non-guaranteed rebuilds.
Commented
Nov 3, 2021 at 14:38
Simply adding some code to only 2 files: CMakeList.txt
and main.cpp
.
# git commit hash macro
execute_process(
COMMAND git log -1 --format=%h
WORKING_DIRECTORY ${CMAKE_SOURCE_DIR}
OUTPUT_VARIABLE GIT_COMMIT_HASH
OUTPUT_STRIP_TRAILING_WHITESPACE
)
add_definitions("-DGIT_COMMIT_HASH=\"${GIT_COMMIT_HASH}\"")
inline void LogGitCommitHash() {
#ifndef GIT_COMMIT_HASH
#define GIT_COMMIT_HASH "0000000" // 0000000 means uninitialized
#endif
std::cout << "GIT_COMMIT_HASH[" << GIT_COMMIT_HASH << "]"; // 4f34ee8
}
In CMakeList.txt
, the CMake commandexecute_process()
is used to call command git log -1 --format=%h
that give you the short and unique abbreviation for your SHA-1 values in string like 4f34ee8
. This string is assigned to CMake variable called GIT_COMMIT_HASH
. The CMake command add_definitions()
defines the macro GIT_COMMIT_HASH
to the value of 4f34ee8
just before gcc compilation. The hash value is used to replace the macro in C++ code by preprocessor, and hence exists in the object file main.o
and in the compiled binaries a.out
.
Another way to achieve is to use CMake command called configure_file()
, but I don't like to use it because the file does not exist before CMake is run.
I'd use something like this in my CMakeLists.txt:
execute_process(
COMMAND git describe
WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}
OUTPUT_VARIABLE VERSION )
string( REGEX MATCH "-g.*$" VERSION_SHA1 ${VERSION} )
string( REGEX REPLACE "[-g]" "" VERSION_SHA1 ${VERSION_SHA1} )
add_definitions( -DGIT_SHA1="${VERSION_SHA1}" )
exec_program
is deprecated. Instead, you can use the simpler execute_process
, e.g. for this case: execute_process( COMMAND git describe WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR} OUTPUT_VARIABLE VERSION )
(It looks busy as a single line, which is what I can produce in a comment, but is quite a bit cleaner when properly line-wrapped and indented.)
Commented
Sep 11, 2018 at 8:50
The following solution is based on the observation that Git updates the HEAD log whenever you pull
or commit
something. Note that e.g. Drew's suggestion above will update the Git information only if you rebuild the CMake cache manually after every commit
.
I use a CMake "custom command" that generates a one-line header file ${SRCDIR}/gitrevision.hh
where ${SRCDIR}
is the root of your source tree. It will be re-made only when a new commit is made. Here is the necessary CMake magic with some comments:
# Generate gitrevision.hh if Git is available
# and the .git directory is present
# this is the case when the software is checked out from a Git repo
find_program(GIT_SCM git DOC "Git version control")
mark_as_advanced(GIT_SCM)
find_file(GITDIR NAMES .git PATHS ${CMAKE_SOURCE_DIR} NO_DEFAULT_PATH)
if (GIT_SCM AND GITDIR)
# Create gitrevision.hh
# that depends on the Git HEAD log
add_custom_command(OUTPUT ${SRCDIR}/gitrevision.hh
COMMAND ${CMAKE_COMMAND} -E echo_append "#define GITREVISION " > ${SRCDIR}/gitrevision.hh
COMMAND ${GIT_SCM} log -1 "--pretty=format:%h %ai" >> ${SRCDIR}/gitrevision.hh
DEPENDS ${GITDIR}/logs/HEAD
VERBATIM
)
else()
# No version control
# e.g. when the software is built from a source tarball
# and gitrevision.hh is packaged with it but no Git is available
message(STATUS "Will not remake ${SRCDIR}/gitrevision.hh")
endif()
The contents of gitrevision.hh
will look like this:
#define GITREVISION cb93d53 2014-03-13 11:08:15 +0100
If you want to change this then edit the --pretty=format:
specification accordingly. E.g. using %H
instead of %h
will print the full SHA1 digest. See the Git manual for details.
Making gitrevision.hh
a fully-fledged C++ header file with include guards etc. is left as an exercise to the reader :-)
Here's my solution, which I think is reasonably short yet effective ;-)
First, a file is needed in the source tree (I name it git-rev.h.in
), it should looks something like this:
#define STR_EXPAND(x) #x
#define STR(x) STR_EXPAND(x)
#define GIT_REV STR(GIT_REV_)
#define GIT_REV_ \
(Please never mind those macros, that's a little bit insane trick to make a string out of a raw value.) It is essential that this file has exactly one empty newline at the end so that value can be appended.
And now this code goes in respective CMakeLists.txt
file:
# --- Git revision ---
add_dependencies(your_awesome_target gitrev) #put name of your target here
include_directories(${CMAKE_CURRENT_BINARY_DIR}) #so that the include file is found
set(gitrev_in git-rev.h.in) #just filenames, feel free to change them...
set(gitrev git-rev.h)
add_custom_target(gitrev
${CMAKE_COMMAND} -E remove -f ${CMAKE_CURRENT_BINARY_DIR}/${gitrev}
COMMAND ${CMAKE_COMMAND} -E copy ${CMAKE_CURRENT_SOURCE_DIR}/${gitrev_in} ${CMAKE_CURRENT_BINARY_DIR}/${gitrev}
COMMAND git rev-parse HEAD >> ${CMAKE_CURRENT_BINARY_DIR}/${gitrev}
WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR} #very important, otherwise git repo might not be found in shadow build
VERBATIM #portability wanted
)
This command ensuers that the git-rev.h.in
is copied in the build tree as git-rev.h
and git revision is appended at its end.
So all you need to do next is include git-rev.h
in one of your files and do whatever you want with the GIT_REV
macro, which yields current git revision hash as a string value.
The nice thing about this solution is that the git-rev.h
is recreated each time you build the associated target, so you don't have to run cmake
over and over again.
It also should be pretty portable - no non-portable external tools were used and even the bloody stupid windows cmd supports the >
and >>
operators ;-)
I can't help you with the CMake side, but with respect to Git side I would recommend taking a look how Linux kernel and Git project itself does it, via GIT-VERSION-GEN script, or how tig does it in its Makefile, by using git describe
if there is git repository present, falling back to "version
" / "VERSION
" / "GIT-VERSION-FILE
" generated and present in tarballs, finally falling back to default value hardcoded in script (or Makefile).
The first part (using git describe
) requires that you tag releases using annotated (and possibly GPG signed) tags. Or use git describe --tags
to use also lightweight tags.
If CMake doesn't have a built-in capability to do this substitution, then you could write a wrapper shell script that reads a template file, substitutes the SHA1 hash as above in the correct location (using sed
, for example), creates the real CMake build file, and then calls CMake to build your project.
A slightly different approach might be to make the SHA1 substitution optional. You would create the CMake file with a dummy hash value such as "NO_OFFICIAL_SHA1_HASH"
. When developers build their own builds from their working directories, the built code would not include a SHA1 hash value (only the dummy value) because the code from the working directory doesn't even have a corresponding SHA1 hash value yet.
On the other hand, when an official build is made by your build server, from sources pulled from a central repository, then you know the SHA1 hash value for the source code. At that point, you can substitute the hash value in the CMake file and then run CMake.
For a quick and dirty, possibly not portable way to get the git SHA-1 into a C or C++ project using CMake, I use this in CMakeLists.txt:
add_custom_target(git_revision.h
git log -1 "--format=format:#define GIT_REVISION \"%H\"%n" HEAD > git_revision.h
WORKING_DIRECTORY ${CMAKE_SOURCE_DIR} VERBATIM)
It assumes that CMAKE_SOURCE_DIR
is part of a git repository, and that git is available on the system, and that an output redirection will be properly parsed by the shell.
You can then make this target a dependency of any other target using
add_dependencies(your_program git_revision.h)
Each time your_program
is built, the Makefile (or other build system, if this works on other build systems) will recreate git_revision.h in the source directory, with the contents
#define GIT_REVISION "<SHA-1 of the current git revision>"
So you can #include git_revision.h
from some source code file and use it that way. Note that the header is created at literally every build, i.e. even if every other object file is up to date, it will still run this command to recreate git_revision.h. I figure that shouldn't be a huge problem because usually you don't rebuild the same git revision over and over again, but it's something to be aware of, and if it is a problem for you, then don't use this. (It's probably possible to hack up a workaround using add_custom_command
but I haven't needed it so far.)
git describe
(producing output such as 'v1.6.5-rc1-17-g059f3d9') orgit rev-parse -q HEAD
(producing full SHA-1) instead of yourgit log -1 | head -n 1
pipeline.