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260 lines
6.7 KiB
ReStructuredText
260 lines
6.7 KiB
ReStructuredText
Building
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========
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.. note::
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If you just want to use the latest Release version of Cutter, please note
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that we provide pre-compiled binaries for Windows, Linux and macOS on
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our `release page. <https://github.com/radareorg/cutter/releases/latest>`_
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Building on Linux
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-----------------
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Requirements
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~~~~~~~~~~~~
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On Linux, you will need:
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* build-essential
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* git
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* cmake
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* meson
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* libzip-dev
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* libzlib-dev
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* qt5
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* qt5-svg
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* pkgconf
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On some Linux distributions, all of those packages can be installed with this single command:
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::
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sudo apt install git build-essential cmake meson libzip-dev zlib1g-dev qt5-default libqt5svg5-dev
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Building steps
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~~~~~~~~~~~~~~
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The official way to build Cutter on Linux is by using CMake.
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First clone the repository with its dependencies:
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.. code-block:: sh
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git clone --recurse-submodules https://github.com/radareorg/cutter
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Then just use CMake to build Cutter and its dependency radare2.
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.. code:: sh
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cd cutter/src
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mkdir build
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cmake -B build -DCUTTER_USE_BUNDLED_RADARE2=ON
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cmake --build build
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If you are interested in building Cutter with support for Python plugins,
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Syntax Highlighting, Crash Reporting and more,
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please look at the full list of `CMake Building Options`_.
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After the build process is complete, you should be provided with Cutter executable
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that you can start like this:
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.. code:: sh
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./build/Cutter
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Building on Windows
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-------------------
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Requirements
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~~~~~~~~~~~~
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Cutter works on Windows starting from Windows 7 up to Windows 10.
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To compile Cutter it is necessary to have installed:
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* A version of Visual Studio (2015, 2017 and 2019 are supported)
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* CMake
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* Qt
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Default way
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~~~~~~~~~~~
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To build Cutter on Windows machines using CMake,
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you will have to make sure that the executables are available
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in your `%PATH%` environment variable.
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Note that the paths below may vary depending on your version of Qt and Visual Studio.
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.. code:: batch
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set CMAKE_PREFIX_PATH=c:\Qt\qt-5.6.2-msvc2013-x86\5.6\msvc2013\lib\cmake
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cd src
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mkdir build
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cd build
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cmake-gui ..
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Click ``Configure`` and select your version of Visual Studio from the list,
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for example ``Visual Studio 14 2015``.
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After configuration is done, click ``Generate`` and you can open
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``Cutter.sln`` to compile the code as usual.
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Building with Meson
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~~~~~~~~~~~~~~~~~~~
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There is another way to compile Cutter on Windows, if the one above does
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not work or does not suit your needs.
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Additional requirements:
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- Ninja build system
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- Meson build system
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Download and unpack
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`Ninja <https://github.com/ninja-build/ninja/releases>`__ to the Cutter
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source root directory.
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Note that in the below steps, the paths may vary depending on your version of Qt and Visual Studio.
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Environment settings (example for x64 version):
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.. code:: batch
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:: Export MSVC variables
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CALL "C:\Program Files (x86)\Microsoft Visual Studio 14.0\VC\vcvarsall.bat" x64
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:: Add qmake to PATH
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SET "PATH=C:\Qt\5.10.1\msvc2015_64\bin;%PATH%"
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:: Add Python to PATH
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SET "PATH=C:\Program Files\Python36;%PATH%"
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Install Meson:
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.. code:: batch
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python -m pip install meson
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To compile Cutter run:
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.. code:: batch
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CALL prepare_r2.bat
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CALL build.bat
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--------------
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Building with Qmake
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-------------------
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Using QtCreator
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~~~~~~~~~~~~~~~
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One standard way is to simply load the project inside QtCreator.
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To do so, open QtCreator and on the welcome screen click on "Open Project",
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and finally select the ``cutter/src/Cutter.pro`` file.
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QtCreator will then allow you to directly edit the source code and build the project.
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.. note::
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For the `.pro` file to be compiled successfully, it is required
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to run `prepare_r2.bat` beforehand.
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Compiling on Linux / macOS
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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The easiest way, but not the one we recommend, is to simply run ``./build.sh`` from the root directory,
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and let the magic happen. The script will use qmake to build Cutter.
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The ``build.sh`` script is meant to be deprecated and will be deleted in the future.
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If you want to manually use qmake, follow these steps:
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.. code:: sh
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mkdir build; cd build
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qmake ../src/Cutter.pro
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make
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cd ..
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Additional steps for macOS
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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On macOS you will also have to copy the launcher bash script:
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.. code:: sh
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mv Cutter.app/Contents/MacOS/Cutter Cutter.app/Contents/MacOS/Cutter.bin
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cp ../src/macos/Cutter Cutter.app/Contents/MacOS/Cutter && chmod +x Cutter.app/Contents/MacOS/Cutter
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--------------
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CMake Building Options
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----------------------
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Note that there are some major building options available:
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* ``CUTTER_USE_BUNDLED_RADARE2`` automatically compile Radare2 from submodule.
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* ``CUTTER_ENABLE_PYTHON`` compile with Python support.
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* ``CUTTER_ENABLE_PYTHON_BINDINGS`` automatically generate Python Bindings with Shiboken2, required for Python plugins!
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* ``CUTTER_ENABLE_KSYNTAXHIGHLIGHTING`` use KSyntaxHighlighting for code highlighting.
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* ``CUTTER_ENABLE_GRAPHVIZ`` enable Graphviz for graph layouts.
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* ``CUTTER_ENABLE_CRASH_REPORTS`` is used to compile Cutter with crash handling system enabled (Breakpad).
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These options can be enabled or disabled from the command line arguments passed to CMake.
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For example, in order to build Cutter with support for Python plugins, you can run this command:
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::
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cmake -B build -DCUTTER_ENABLE_PYTHON=ON -DCUTTER_ENABLE_PYTHON_BINDINGS=ON
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Or if one wants to explicitely disable an option:
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::
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cmake -B build -DCUTTER_ENABLE_PYTHON=OFF
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--------------
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Compiling Cutter with Breakpad support
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--------------------------------------
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If you want to build Cutter with crash handling system, you want prepare Breakpad before.
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For this simply run one of the scripts (according to your OS) from root Cutter directory:
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.. code:: sh
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source scripts/prepare_breakpad_linux.sh # Linux
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source scripts/prepare_breakpad_macos.sh # MacOS
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scripts/prepare_breakpad.bat # Windows
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Then if you are building on Linux you want to change ``PKG_CONFIG_PATH`` environment variable
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so it contains ``$CUSTOM_BREAKPAD_PREFIX/lib/pkgconfig``. For this simply run
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.. code:: sh
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export PKG_CONFIG_PATH="$CUSTOM_BREAKPAD_PREFIX/lib/pkgconfig:$PKG_CONFIG_PATH"
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--------------
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Troubleshooting
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---------------
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Cmake: qt development package not found
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Depending on how Qt installed (Distribution packages or using the Qt
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installer application), CMake may not be able to find it by itself if it
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is not in a common place. If that is the case, double check that the
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correct Qt version is installed. Locate its prefix (a directory
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containing bin/, lib/, include/, etc.) and specify it to CMake using
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``CMAKE_PREFIX_PATH`` in the above process, e.g.:
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::
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rm CMakeCache.txt # the cache may be polluted with unwanted libraries found before
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cmake -DCMAKE_PREFIX_PATH=/opt/Qt/5.9.1/gcc_64 ..
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