docs/INSTALL.rst - ndn-cxx - Gitiles

 .. _Getting Started with ndn-cxx:

 Getting started with ndn-cxx
 ============================

 Supported platforms
 -------------------

 ndn-cxx uses continuous integration and has been tested on the following
 platforms:

 -  Ubuntu 16.04 (amd64, armhf, i386)
 -  Ubuntu 18.04 (amd64)
 -  macOS 10.12
 -  macOS 10.13
 -  macOS 10.14

 ndn-cxx is known to work on the following platforms, although they are not officially
 supported:

 -  Debian >= 9
 -  Fedora >= 24
 -  Gentoo Linux
 -  Raspbian >= 2017-08-16
 -  OS X 10.11
 -  FreeBSD 11.2


 Prerequisites
 -------------

 Required:
 ~~~~~~~~~

 -  GCC >= 5.3, or clang >= 3.6
 -  ``python2`` >= 2.7, or ``python3`` >= 3.4
 -  Boost libraries >= 1.58
 -  ``pkg-config``
 -  SQLite 3.x
 -  OpenSSL >= 1.0.2
 -  Apple Security framework (on macOS only)

 Following are the detailed steps for each platform to install the compiler, all necessary
 development tools and libraries, and ndn-cxx prerequisites.

 - macOS

     * Install Xcode from the App Store, or at least the Command Line Tools
       (``xcode-select --install``)

     * If using Homebrew (recommended), enter the following in a terminal::

         brew install boost openssl pkg-config

       .. note::

         If a major OS upgrade is performed after installing the dependencies
         with Homebrew, remember to reinstall all packages.

 - Ubuntu

     In a terminal, enter::

         sudo apt install build-essential libsqlite3-dev libboost-all-dev libssl-dev

 - Fedora

     In a terminal, enter::

         sudo yum install gcc-g++ sqlite-devel boost-devel openssl-devel

 - FreeBSD

     In a terminal, enter::

         sudo pkg install python pkgconf sqlite3 boost-libs

 Optional:
 ~~~~~~~~~

 To build tutorials, manpages, and API documentation the following
 dependencies need to be installed:

 -  ``doxygen``
 -  ``graphviz``
 -  ``python-sphinx``
 -  ``sphinxcontrib-doxylink``

 The following lists steps for common platforms to install these prerequisites:

 - On macOS with Homebrew and pip::

     brew install doxygen graphviz
     sudo pip install sphinx sphinxcontrib-doxylink

 - On Ubuntu::

     sudo apt install doxygen graphviz python3-pip
     sudo pip3 install sphinx sphinxcontrib-doxylink

 - On Fedora::

     sudo yum install doxygen graphviz python-sphinx
     sudo pip install sphinxcontrib-doxylink

 - On FreeBSD::

     sudo pkg install doxygen graphviz py27-sphinx


 .. _build:

 Build
 -----

 .. note::
   These are instructions for regular builds of ndn-cxx (release mode).
   To do development of ndn-cxx code itself, see "Development build" below.

 To build in a terminal, change directory to the ndn-cxx root, then enter::

     ./waf configure
     ./waf
     sudo ./waf install

 By default, only the shared version of ndn-cxx library is built.  To build the static library,
 use ``--enable-static`` option for ``./waf configure`` command::

     ./waf configure --enable-static

 To disable build of the shared library and build only the static library, use additional
 ``--disable-shared`` option.  Note that at least one version of the library needs to be
 enabled.

 ::

     ./waf configure --enable-static --disable-shared

 After the shared library is installed, on Linux it is also necessary to run::

     sudo ldconfig

 .. note::
   When the library is installed in a non-standard path (in general: not in ``/usr/lib``
   or ``/usr/local/lib``; on some Linux distros including Fedora: not in ``/usr/lib``),
   additional actions may be necessary.

   The installation path should be added to ``/etc/ld.so.conf`` (or in
   ``/etc/ld.so.conf.d``) **before** running ``sudo ldconfig``. For example::

       echo /usr/local/lib | sudo tee /etc/ld.so.conf.d/ndn-cxx.conf

   Alternatively, the ``LD_LIBRARY_PATH`` environment variable can be set to point to
   the installation directory of the shared library::

       export LD_LIBRARY_PATH=/usr/local/lib

 The ``./waf install`` command installs the following files:

 -  ``<LIBPATH>/libndn-cxx.a``: static NDN C++ library (if enabled).
 -  ``<LIBPATH>/libndn-cxx.so``, ``<LIBPATH>/libndn-cxx.so.<VERSION>`` (on Linux),
    ``<LIBPATH>/libndn-cxx.dylib``, ``<LIBPATH>/libndn-cxx.<VERSION>.dylib`` (on macOS):
    shared NDN C++ library (if enabled).
 -  ``<LIBPATH>/pkgconfig/libndn-cxx.pc``: pkgconfig file storing all
    neccessary flags to build against the library. For example, if
    pkg-config or pkgconf package is installed and ``PKG_CONFIG_PATH`` is
    configured properly (or ``<LIBPATH>/pkgconfig`` is a default path),
    ``pkgconfig --libs --clflags libndn-cxx`` will return all necessary
    compile and link flags for the library.
 -  ``<BINPATH>/ndnsec``: tool to manage NDN keys and certificates.
 -  ``<BINPATH>/ndnsec-*``: convenience aliases for ``ndnsec`` tools.

 If configured with tests (``./waf configure --with-tests``), the above
 commands will also produce:

 -  ``build/unit-tests``: a unit test binary for the library.

 1.5GB available memory per CPU core is necessary for efficient compilation.
 On a multi-core machine with less than 1.5GB available memory per CPU core,
 limit the objects being compiled in parallel with ``./waf -jN`` where N is the amount
 of available memory divided by 1.5GB (eg. ``./waf -j1`` for 1.5GB memory),
 which should usually avoid memory thrashing and result in faster compilation.

 Build with examples
 -------------------

 By default, examples in ``examples/`` are not built.  To enable them, use the
 ``--with-examples`` configure option::

     ./waf configure --with-examples
     ./waf
     sudo ./waf install
     sudo ldconfig # (on Linux only)

 To run examples::

     # trivial producer app
     ./build/examples/producer

     # trivial consumer app
     ./build/examples/consumer

     # trivial consumer app with timers
     ./build/examples/consumer-with-timer

 If you want to test out a sample application, just create a ``.cpp`` file in ``examples/``
 folder and it will be compiled on the next run on ``./waf``.  For example::

     cp examples/consumer.cpp examples/my-new-consumer-app.cpp
     ./waf
     sudo ./waf install
     sudo ldconfig # (on Linux only)
     ./build/examples/my-new-consumer-app

 Debug symbols
 ~~~~~~~~~~~~~

 The default compiler flags enable debug symbols to be included in binaries (i.e., ``-g``
 flag for ``./waf configure`` and ``-g3`` for ``./waf configure --debug``).  This
 potentially allows more meaningful debugging information if your application crashes.

 The default build flags can easily be overridden::

     CXXFLAGS="-O2" ./waf configure --prefix=/usr --sysconfdir=/etc
     ./waf
     sudo ./waf install


 Documentation
 -------------

 ndn-cxx tutorials and API documentation can be built using the following
 commands::

     # Full set of documentation (tutorials + API) in build/docs
     ./waf docs

     # Only tutorials in `build/docs`
     ./waf sphinx

     # Only API docs in `build/docs/doxygen`
     ./waf doxygen

 Manpages are automatically created and installed during the normal build
 process (e.g., during ``./waf`` and ``./waf install``), if
 ``python-sphinx`` module is detected during ``./waf configure`` stage.
 By default, manpages are installed into ``${PREFIX}/share/man`` (where
 default value for ``PREFIX`` is ``/usr/local``). This location can be
 changed during ``./waf configure`` stage using ``--prefix``,
 ``--datarootdir``, or ``--mandir`` options.

 For more details, refer to ``./waf --help``.


 Development build
 -----------------

 The following is the suggested configure command for development builds::

     ./waf configure --debug --with-tests
     ./waf
     sudo ./waf install
     sudo ldconfig # (on Linux only)

 In the development build most compiler optimizations are disabled by
 default and all warnings are treated as errors. The default behavior can
 be overridden by setting ``CXXFLAGS`` environment variable before
 running ``./waf configure``::

     CXXFLAGS="-O1 -g3" ./waf configure --debug --with-tests
     ...


 Customizing the compiler
 ------------------------

 To choose a custom C++ compiler for building ndn-cxx, set the ``CXX`` environment
 variable to point to the compiler binary. For example, to build with clang on
 Linux, use the following::

     CXX=clang++ ./waf configure
	.. _Getting Started with ndn-cxx:

	Getting started with ndn-cxx
	============================

	Supported platforms
	-------------------

	ndn-cxx uses continuous integration and has been tested on the following
	platforms:

	- Ubuntu 16.04 (amd64, armhf, i386)
	- Ubuntu 18.04 (amd64)
	- macOS 10.12
	- macOS 10.13
	- macOS 10.14

	ndn-cxx is known to work on the following platforms, although they are not officially
	supported:

	- Debian >= 9
	- Fedora >= 24
	- Gentoo Linux
	- Raspbian >= 2017-08-16
	- OS X 10.11
	- FreeBSD 11.2


	Prerequisites
	-------------

	Required:
	~~~~~~~~~

	- GCC >= 5.3, or clang >= 3.6
	- ``python2`` >= 2.7, or ``python3`` >= 3.4
	- Boost libraries >= 1.58
	- ``pkg-config``
	- SQLite 3.x
	- OpenSSL >= 1.0.2
	- Apple Security framework (on macOS only)

	Following are the detailed steps for each platform to install the compiler, all necessary
	development tools and libraries, and ndn-cxx prerequisites.

	- macOS

	* Install Xcode from the App Store, or at least the Command Line Tools
	(``xcode-select --install``)

	* If using Homebrew (recommended), enter the following in a terminal::

	brew install boost openssl pkg-config

	.. note::

	If a major OS upgrade is performed after installing the dependencies
	with Homebrew, remember to reinstall all packages.

	- Ubuntu

	In a terminal, enter::

	sudo apt install build-essential libsqlite3-dev libboost-all-dev libssl-dev

	- Fedora

	In a terminal, enter::

	sudo yum install gcc-g++ sqlite-devel boost-devel openssl-devel

	- FreeBSD

	In a terminal, enter::

	sudo pkg install python pkgconf sqlite3 boost-libs

	Optional:
	~~~~~~~~~

	To build tutorials, manpages, and API documentation the following
	dependencies need to be installed:

	- ``doxygen``
	- ``graphviz``
	- ``python-sphinx``
	- ``sphinxcontrib-doxylink``

	The following lists steps for common platforms to install these prerequisites:

	- On macOS with Homebrew and pip::

	brew install doxygen graphviz
	sudo pip install sphinx sphinxcontrib-doxylink

	- On Ubuntu::

	sudo apt install doxygen graphviz python3-pip
	sudo pip3 install sphinx sphinxcontrib-doxylink

	- On Fedora::

	sudo yum install doxygen graphviz python-sphinx
	sudo pip install sphinxcontrib-doxylink

	- On FreeBSD::

	sudo pkg install doxygen graphviz py27-sphinx


	.. _build:

	Build
	-----

	.. note::
	These are instructions for regular builds of ndn-cxx (release mode).
	To do development of ndn-cxx code itself, see "Development build" below.

	To build in a terminal, change directory to the ndn-cxx root, then enter::

	./waf configure
	./waf
	sudo ./waf install

	By default, only the shared version of ndn-cxx library is built. To build the static library,
	use ``--enable-static`` option for ``./waf configure`` command::

	./waf configure --enable-static

	To disable build of the shared library and build only the static library, use additional
	``--disable-shared`` option. Note that at least one version of the library needs to be
	enabled.

	::

	./waf configure --enable-static --disable-shared

	After the shared library is installed, on Linux it is also necessary to run::

	sudo ldconfig

	.. note::
	When the library is installed in a non-standard path (in general: not in ``/usr/lib``
	or ``/usr/local/lib``; on some Linux distros including Fedora: not in ``/usr/lib``),
	additional actions may be necessary.

	The installation path should be added to ``/etc/ld.so.conf`` (or in
	``/etc/ld.so.conf.d``) before running ``sudo ldconfig``. For example::

	echo /usr/local/lib \| sudo tee /etc/ld.so.conf.d/ndn-cxx.conf

	Alternatively, the ``LD_LIBRARY_PATH`` environment variable can be set to point to
	the installation directory of the shared library::

	export LD_LIBRARY_PATH=/usr/local/lib

	The ``./waf install`` command installs the following files:

	- ``<LIBPATH>/libndn-cxx.a``: static NDN C++ library (if enabled).
	- ``<LIBPATH>/libndn-cxx.so``, ``<LIBPATH>/libndn-cxx.so.<VERSION>`` (on Linux),
	``<LIBPATH>/libndn-cxx.dylib``, ``<LIBPATH>/libndn-cxx.<VERSION>.dylib`` (on macOS):
	shared NDN C++ library (if enabled).
	- ``<LIBPATH>/pkgconfig/libndn-cxx.pc``: pkgconfig file storing all
	neccessary flags to build against the library. For example, if
	pkg-config or pkgconf package is installed and ``PKG_CONFIG_PATH`` is
	configured properly (or ``<LIBPATH>/pkgconfig`` is a default path),
	``pkgconfig --libs --clflags libndn-cxx`` will return all necessary
	compile and link flags for the library.
	- ``<BINPATH>/ndnsec``: tool to manage NDN keys and certificates.
	- ``<BINPATH>/ndnsec-*``: convenience aliases for ``ndnsec`` tools.

	If configured with tests (``./waf configure --with-tests``), the above
	commands will also produce:

	- ``build/unit-tests``: a unit test binary for the library.

	1.5GB available memory per CPU core is necessary for efficient compilation.
	On a multi-core machine with less than 1.5GB available memory per CPU core,
	limit the objects being compiled in parallel with ``./waf -jN`` where N is the amount
	of available memory divided by 1.5GB (eg. ``./waf -j1`` for 1.5GB memory),
	which should usually avoid memory thrashing and result in faster compilation.

	Build with examples
	-------------------

	By default, examples in ``examples/`` are not built. To enable them, use the
	``--with-examples`` configure option::

	./waf configure --with-examples
	./waf
	sudo ./waf install
	sudo ldconfig # (on Linux only)

	To run examples::

	# trivial producer app
	./build/examples/producer

	# trivial consumer app
	./build/examples/consumer

	# trivial consumer app with timers
	./build/examples/consumer-with-timer

	If you want to test out a sample application, just create a ``.cpp`` file in ``examples/``
	folder and it will be compiled on the next run on ``./waf``. For example::

	cp examples/consumer.cpp examples/my-new-consumer-app.cpp
	./waf
	sudo ./waf install
	sudo ldconfig # (on Linux only)
	./build/examples/my-new-consumer-app

	Debug symbols
	~~~~~~~~~~~~~

	The default compiler flags enable debug symbols to be included in binaries (i.e., ``-g``
	flag for ``./waf configure`` and ``-g3`` for ``./waf configure --debug``). This
	potentially allows more meaningful debugging information if your application crashes.

	The default build flags can easily be overridden::

	CXXFLAGS="-O2" ./waf configure --prefix=/usr --sysconfdir=/etc
	./waf
	sudo ./waf install


	Documentation
	-------------

	ndn-cxx tutorials and API documentation can be built using the following
	commands::

	# Full set of documentation (tutorials + API) in build/docs
	./waf docs

	# Only tutorials in `build/docs`
	./waf sphinx

	# Only API docs in `build/docs/doxygen`
	./waf doxygen

	Manpages are automatically created and installed during the normal build
	process (e.g., during ``./waf`` and ``./waf install``), if
	``python-sphinx`` module is detected during ``./waf configure`` stage.
	By default, manpages are installed into ``${PREFIX}/share/man`` (where
	default value for ``PREFIX`` is ``/usr/local``). This location can be
	changed during ``./waf configure`` stage using ``--prefix``,
	``--datarootdir``, or ``--mandir`` options.

	For more details, refer to ``./waf --help``.


	Development build
	-----------------

	The following is the suggested configure command for development builds::

	./waf configure --debug --with-tests
	./waf
	sudo ./waf install
	sudo ldconfig # (on Linux only)

	In the development build most compiler optimizations are disabled by
	default and all warnings are treated as errors. The default behavior can
	be overridden by setting ``CXXFLAGS`` environment variable before
	running ``./waf configure``::

	CXXFLAGS="-O1 -g3" ./waf configure --debug --with-tests
	...


	Customizing the compiler
	------------------------

	To choose a custom C++ compiler for building ndn-cxx, set the ``CXX`` environment
	variable to point to the compiler binary. For example, to build with clang on
	Linux, use the following::

	CXX=clang++ ./waf configure