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authorAllen Byrne <50328838+byrnHDF@users.noreply.github.com>2023-03-29 14:37:52 (GMT)
committerGitHub <noreply@github.com>2023-03-29 14:37:52 (GMT)
commitab1af79798985b57401596677f7db8eb186f55a1 (patch)
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parentf8993b81deea0537344474606d71234526d1c215 (diff)
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Update cross compile checks and files #2497 (#2565)
Diffstat (limited to 'release_docs')
-rw-r--r--release_docs/INSTALL_CMake.txt81
1 files changed, 81 insertions, 0 deletions
diff --git a/release_docs/INSTALL_CMake.txt b/release_docs/INSTALL_CMake.txt
index 9113af7..66bd732 100644
--- a/release_docs/INSTALL_CMake.txt
+++ b/release_docs/INSTALL_CMake.txt
@@ -13,6 +13,7 @@ Section V: Options for building HDF5 Libraries with CMake command line
Section VI: CMake option defaults for HDF5
Section VII: User Defined Options for HDF5 Libraries with CMake
Section VIII: User Defined Compile Flags for HDF5 Libraries with CMake
+Section IX: Considerations for cross-compiling
************************************************************************
@@ -940,6 +941,86 @@ to CMAKE_C_FLAGS.
========================================================================
+IX: Considerations for cross-compiling
+========================================================================
+
+Cross-compiling has several consequences for CMake:
+ CMake cannot automatically detect the target platform.
+ CMake cannot find libraries and headers in the default system directories.
+ Executables built during cross compiling cannot be executed.
+
+Cross-compiling support means that CMake separates information about the
+build platform and target platform and gives the user mechanisms to solve
+cross-compiling issues without additional requirements such as running
+virtual machines, etc.
+
+CMake uses a toolchain of utilities to compile, link libraries and create
+archives, and other tasks to drive the build. The toolchain utilities
+available are determined by the languages enabled.
+
+CMake stores info about the current toolchain in the following variables:
+ CMAKE_C_COMPILER,
+ CMAKE_CXX_COMPILER.
+They contain paths to the C and C++ compilers respectively. This is usually
+enough on desktop platforms. In the case of embedded systems, a custom
+linker and assembler setting may be needed. In more complex projects
+you may need to additionally specify binaries to other parts of the toolchain
+(size, ranlib, objcopy…). All these tools should be set in the corresponding
+variables:
+ CMAKE_AR,
+ CMAKE_ASM_COMPILER,
+ CMAKE_LINKER,
+ CMAKE_OBJCOPY,
+ CMAKE_RANLIB
+
+As for the host and target operating systems, CMake stores their names in the
+following variables:
+ CMAKE_HOST_SYSTEM_NAME – name of the platform, on which CMake is running (host platform).
+ On major operating systems this is set to the Linux, Windows or
+ Darwin (MacOS) value.
+ CMAKE_SYSTEM_NAME – name of the platform, for which we are building (target platform).
+ By default, this value is the same as CMAKE_HOST_SYSTEM_NAME, which
+ means that we are building for the local platform (no cross-compilation).
+
+Put the toolchain variables into a separate file (e.g. <toolchain_name>.cmake)
+and set CMAKE_TOOLCHAIN_FILE variable to the path of that file.
+If cmake is invoked with the command line parameter:
+ --toolchain path/to/file
+or
+ -DCMAKE_TOOLCHAIN_FILE=path/to/file
+the file will be loaded early to set values for the compilers. The
+CMAKE_CROSSCOMPILING variable is set to true when CMake is cross-compiling.
+
+Structure of the toolchain file
+-------------------------------
+In fact, the toolchain file doesn’t have any structure. You can put anything you
+want there. But the best practice is to define at least these settings:
+path to the toolchain binaries (C compiler, C++ compiler, linker, etc.)
+name of the target platform (and optionally target processor architecture)
+required compilation and linking flags on that particular platform
+toolchain sysroot settings
+
+It is recommended that you set the CMAKE_FIND_ROOT_PATH variable to a path where
+you have an exact copy of the root filesystem you have on your target device (with
+libraries and binaries pre-compiled for the target processor).
+
+References:
+ https://cmake.org/cmake/help/latest/manual/cmake-toolchains.7.html
+ https://gitlab.com/embeddedlinux/libs/platform
+ https://discourse.cmake.org/t/cross-compile-for-aarch64-on-ubuntu/2161/10
+ https://stackoverflow.com/questions/54539682/how-to-set-up-cmake-to-cross-compile-with-clang-for-arm-embedded-on-windows?rq=1
+ https://developer.android.com/ndk/guides/cmake
+
+Predefine H5Tinit.c file
+-------------------------------
+The one file that needs to be pre-generated is the H5Tinit.c file. The variables
+indicated in the error log (see above) are the variables that need to match the target system.
+
+The HDF5 CMake variables;
+ HDF5_USE_PREGEN: set this to true
+ HDF5_USE_PREGEN_DIR: set this path to the preset H5Tinit.c file
+
+========================================================================
For further assistance, send email to help@hdfgroup.org
========================================================================