__NOTOC__
Note: New build instructions are available. It is recommended to start with the new instructions if learning how to
build edk2 for the first time. This page is retained for reference.
New instructions: Build Instructions
These instructions assume you have installed Linux packages required for an EDK II build environment, including git (example: 16.04/16.10). The following instructions are common to the majority of Linux environments.
bash$ mkdir ~/src
bash$ cd ~/src
bash$ git clone https://github.com/tianocore/edk2
Note: the ‘git clone’ command above pulls the latest code from edk2. If you want to work from a stable release, specify a release tag when cloning. Example:
bash$ git clone https://github.com/tianocore/edk2.git vUDK2017
bash$ git submodule update --init
bash$ cd ~/src/edk2
bash$ make -C BaseTools
bash$ . edksetup.sh
When the above steps are done, you can work in the edk2 directory for code development.
bash$ make -C edk2/BaseTools
bash$ cd ~/src/edk2
bash$ export EDK_TOOLS_PATH=$HOME/src/edk2/BaseTools
bash$ . edksetup.sh BaseTools
Running edksetup.sh populates the edk2/Conf directory with default
configuration files. You will need to edit the Conf/target.txt file to
set the build platform, target architecture, tool chain, and
multi-threading options. The example below is based on building the
MdeModulePkg using GCC5.
For the Conf/target.txt file, find the following lines:
ACTIVE_PLATFORM = Nt32Pkg/Nt32Pkg.dsc
TOOL_CHAIN_TAG = MYTOOLS
And change the corresponding lines to match these:
ACTIVE_PLATFORM = MdeModulePkg/MdeModulePkg.dsc
TOOL_CHAIN_TAG = GCC5
Note: The gcc --version command can be used to find out your GCC
version. Use the GCC45 toolchain for gcc 4.5.* and the GCC46
toolchain for gcc 4.6.*.
Note: for GCC5 please install the gcc-5 package. Example for Ubuntu:
sudo apt-get install gcc-5
Locate the TARGET_ARCH setting:
TARGET_ARCH = IA32
Change this reflect the build architecture for the final UEFI binary.
Example: X64, IA32 X64 (which will build both architectures).
Optional: enable multi-threaded build. The default value for
MAX_CONCURRENT_THREAD_NUMBER is 1, which disables multi-threaded
build. Change this value based on your system’s multi-threading
capabilities. The formula is ‘1 + (2 x processor threads)’.
Example: for an Intel Core i5 (two processor cores w/ hyperthreading),
the value is 9.
Now you should be able to simply run the build command to compile
MdeModulePkg.
bash$ build
One result of the build is that you should have the HelloWorld UEFI application:
bash$ ls Build/MdeModule/DEBUG_*/*/HelloWorld.efi
Once your build environment is set up you might be interested in building the OVMF platform which is included in the main EDK II source tree. Since OVMF builds a full system firmware image, this may be of interest to UEFI system firmware developers.