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- .. _building:
- Building open62541
- ==================
- open62541 uses CMake to build the library and binaries. The library version is automatically
- detected using ``git describe``. This command returns a valid version string based on the current tag.
- If you did not directly clone the sources, but use the tar or zip package from a release, you need
- to manually specify the version. In that case use e.g. ``cmake -DOPEN62541_VERSION=v1.0.3``.
- Building the Library
- --------------------
- Building with CMake on Ubuntu or Debian
- ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
- .. code-block:: bash
- sudo apt-get install git build-essential gcc pkg-config cmake python
- # enable additional features
- sudo apt-get install cmake-curses-gui # for the ccmake graphical interface
- sudo apt-get install libmbedtls-dev # for encryption support
- sudo apt-get install check libsubunit-dev # for unit tests
- sudo apt-get install python-sphinx graphviz # for documentation generation
- sudo apt-get install python-sphinx-rtd-theme # documentation style
- cd open62541
- mkdir build
- cd build
- cmake ..
- make
- # select additional features
- ccmake ..
- make
- # build documentation
- make doc # html documentation
- make doc_pdf # pdf documentation (requires LaTeX)
- Building with CMake on Windows
- ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
- Here we explain the build process for Visual Studio (2013 or newer). To build
- with MinGW, just replace the compiler selection in the call to CMake.
- - Download and install
- - Python 2.7.x (Python 3.x works as well): https://python.org/downloads
- - CMake: http://www.cmake.org/cmake/resources/software.html
- - Microsoft Visual Studio: https://www.visualstudio.com/products/visual-studio-community-vs
- - Download the open62541 sources (using git or as a zipfile from github)
- - Open a command shell (cmd) and run
- .. code-block:: bat
- cd <path-to>\open62541
- mkdir build
- cd build
- <path-to>\cmake.exe .. -G "Visual Studio 14 2015"
- :: You can use use cmake-gui for a graphical user-interface to select features
- - Then open :file:`build\open62541.sln` in Visual Studio 2015 and build as usual
- Building on OS X
- ^^^^^^^^^^^^^^^^
- - Download and install
- - Xcode: https://itunes.apple.com/us/app/xcode/id497799835?ls=1&mt=12
- - Homebrew: http://brew.sh/
- - Pip (a package manager for python, may be preinstalled): ``sudo easy_install pip``
- - Run the following in a shell
- .. code-block:: bash
- brew install cmake
- pip install sphinx # for documentation generation
- pip install sphinx_rtd_theme # documentation style
- brew install graphviz # for graphics in the documentation
- brew install check # for unit tests
- Follow Ubuntu instructions without the ``apt-get`` commands as these are taken care of by the above packages.
- Building on OpenBSD
- ^^^^^^^^^^^^^^^^^^^
- The procedure below works on OpenBSD 5.8 with gcc version 4.8.4, cmake version 3.2.3 and Python version 2.7.10.
- - Install a recent gcc, python and cmake:
- .. code-block:: bash
-
- pkg_add gcc python cmake
- - Tell the system to actually use the recent gcc (it gets installed as egcc on OpenBSD):
- .. code-block:: bash
-
- export CC=egcc CXX=eg++
- - Now procede as described for Ubuntu/Debian:
- .. code-block:: bash
- cd open62541
- mkdir build
- cd build
- cmake ..
- make
- .. _build_options:
- Build Options
- -------------
- The open62541 project uses CMake to manage the build options, for code
- generation and to generate build projects for the different systems and IDEs.
- The tools *ccmake* or *cmake-gui* can be used to graphically set the build
- options.
- Most options can be changed manually in :file:`ua_config.h` (:file:`open62541.h`
- for the single-file release) after the code generation. But usually there is no
- need to adjust them.
- Main Build Options
- ^^^^^^^^^^^^^^^^^^
- **CMAKE_BUILD_TYPE**
- - ``RelWithDebInfo`` -O2 optimization with debug symbols
- - ``Release`` -O2 optimization without debug symbols
- - ``Debug`` -O0 optimization with debug symbols
- - ``MinSizeRel`` -Os optimization without debug symbols
- **UA_LOGLEVEL**
- The SDK logs events of the level defined in ``UA_LOGLEVEL`` and above only.
- The logging event levels are as follows:
- - 600: Fatal
- - 500: Error
- - 400: Warning
- - 300: Info
- - 200: Debug
- - 100: Trace
- **UA_MULTITHREADING**
- Level of multi-threading support. The supported levels are currently as follows:
- - 0-199: Multithreading support disabled.
- - 100-199: API functions marked with the UA_THREADSAFE-macro are protected internally with mutexes.
- Multiple threads are allowed to call these functions of the SDK at the same time without causing race conditions.
- Furthermore, this level support the handling of asynchronous method calls from external worker threads.
- - >=200: Work is distributed to a number of internal worker threads. Those worker threads are created within the SDK.
- (EXPERIMENTAL FEATURE! Expect bugs.)
- Select build artefacts
- ^^^^^^^^^^^^^^^^^^^^^^
- By default only the main library shared object libopen62541.so (open62541.dll)
- or static linking archive open62541.a (open62541.lib) is built. Additional
- artifacts can be specified by the following options:
- **UA_BUILD_EXAMPLES**
- Compile example servers and clients from :file:`examples/*.c`.
- **UA_BUILD_UNIT_TESTS**
- Compile unit tests. The tests can be executed with ``make test``
- **UA_BUILD_SELFSIGNED_CERTIFICATE**
- Generate a self-signed certificate for the server (openSSL required)
- Detailed SDK Features
- ^^^^^^^^^^^^^^^^^^^^^
- **UA_ENABLE_SUBSCRIPTIONS**
- Enable subscriptions
- **UA_ENABLE_SUBSCRIPTIONS_EVENTS (EXPERIMENTAL)**
- Enable the use of events for subscriptions. This is a new feature and currently marked as EXPERIMENTAL.
- **UA_ENABLE_METHODCALLS**
- Enable the Method service set
- **UA_ENABLE_NODEMANAGEMENT**
- Enable dynamic addition and removal of nodes at runtime
- **UA_ENABLE_AMALGAMATION**
- Compile a single-file release into the files :file:`open62541.c` and :file:`open62541.h`. Not recommended for installation.
- **UA_ENABLE_IMMUTABLE_NODES**
- Nodes in the information model are not edited but copied and replaced. The
- replacement is done with atomic operations so that the information model is
- always consistent and can be accessed from an interrupt or parallel thread
- (depends on the node storage plugin implementation). This feature is a
- prerequisite for ``UA_MULTITHREADING``.
- **UA_ENABLE_COVERAGE**
- Measure the coverage of unit tests
- **UA_ENABLE_DISCOVERY**
- Enable Discovery Service (LDS)
- **UA_ENABLE_DISCOVERY_MULTICAST**
- Enable Discovery Service with multicast support (LDS-ME)
- **UA_ENABLE_DISCOVERY_SEMAPHORE**
- Enable Discovery Semaphore support
- **UA_NAMESPACE_ZERO**
- Namespace zero contains the standard-defined nodes. The full namespace zero
- may not be required for all applications. The selectable options are as follows:
- - ``MINIMAL``: A barebones namespace zero that is compatible with most
- clients. But this namespace 0 is so small that it does not pass the CTT
- (Conformance Testing Tools of the OPC Foundation).
- - ``REDUCED``: Small namespace zero that passes the CTT.
- - ``FULL``: Full namespace zero generated from the official XML definitions.
- The advanced build option ``UA_FILE_NS0`` can be used to override the XML
- file used for namespace zero generation.
- Some options are marked as advanced. The advanced options need to be toggled to
- be visible in the cmake GUIs.
- **UA_ENABLE_TYPEDESCRIPTION**
- Add the type and member names to the UA_DataType structure. Enabled by default.
- **UA_ENABLE_STATUSCODE_DESCRIPTIONS**
- Compile the human-readable name of the StatusCodes into the binary. Enabled by default.
- **UA_ENABLE_FULL_NS0**
- Use the full NS0 instead of a minimal Namespace 0 nodeset
- ``UA_FILE_NS0`` is used to specify the file for NS0 generation from namespace0 folder. Default value is ``Opc.Ua.NodeSet2.xml``
- Debug Build Options
- ^^^^^^^^^^^^^^^^^^^
- This group contains build options mainly useful for development of the library itself.
- **UA_DEBUG**
- Enable assertions and additional definitions not intended for production builds
- **UA_DEBUG_DUMP_PKGS**
- Dump every package received by the server as hexdump format
- Building a shared library
- ^^^^^^^^^^^^^^^^^^^^^^^^^
- open62541 is small enough that most users will want to statically link the
- library into their programs. If a shared library (.dll, .so) is required, this
- can be enabled in CMake with the ``BUILD_SHARED_LIBS`` option. Note that this
- option modifies the :file:`ua_config.h` file that is also included in
- :file:`open62541.h` for the single-file distribution.
- Minimizing the binary size
- ^^^^^^^^^^^^^^^^^^^^^^^^^^
- The size of the generated binary can be reduced considerably by adjusting the
- build configuration. With open2541, it is possible to configure minimal servers
- that require less than 100kB of RAM and ROM.
- The following options influence the ROM requirements:
- First, in CMake, the build type can be set to ``CMAKE_BUILD_TYPE=MinSizeRel``.
- This sets the compiler flags to minimize the binary size. The build type also
- strips out debug information. Second, the binary size can be reduced by removing
- features via the build-flags described above.
- Second, setting ``UA_NAMESPACE_ZERO`` to ``MINIMAL`` reduces the size of the
- builtin information model. Setting this option can reduce the binary size by
- half in some cases.
- Third, some features might not be needed and can be disabled to reduce the
- binary footprint. Examples for this are Subscriptions or encrypted
- communication.
- Last, logging messages take up a lot of space in the binary and might not be
- needed in embedded scenarios. Setting ``UA_LOGLEVEL`` to a value above 600
- (``FATAL``) disables all logging. In addition, the feature-flags
- ``UA_ENABLE_TYPEDESCRIPTION`` and ``UA_ENABLE_STATUSCODE_DESCRIPTIONS`` add static
- information to the binary that is only used for human-readable logging and
- debugging.
- The RAM requirements of a server are mostly due to the following settings:
- - The size of the information model
- - The number of connected clients
- - The configured maximum message size that is preallocated
- Building the Examples
- ---------------------
- Make sure that you can build the shared library as explained in the previous steps. Even easier way
- to build the examples is to install open62541 in your operating system (see :ref:`installing`).
- Then the compiler should automatically find the includes and the shared library.
- .. code-block:: bash
- cp /path-to/examples/tutorial_server_firststeps.c . # copy the example server
- gcc -std=c99 -o server tutorial_server_firststeps.c -lopen62541
- .. include:: building_arch.rst
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