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466 lines
18 KiB
Plaintext
466 lines
18 KiB
Plaintext
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Building The Library
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=================================
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This document describes how to build Botan on Unix/POSIX and MS
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Windows systems. The POSIX oriented descriptions should apply to most
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common Unix systems (including MacOS X), along with POSIX-ish systems
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like BeOS, QNX, and Plan 9. Currently, systems other than Windows and
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POSIX (such as VMS, MacOS 9, OS/390, OS/400, ...) are not supported by
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the build system, primarily due to lack of access. Please contact the
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maintainer if you would like to build Botan on such a system.
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Botan's build is controlled by configure.py, which is a `Python
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<http://www.python.org>`_ script. Python 2.5 or later is required.
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For the impatient, this works for most systems::
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$ ./configure.py [--prefix=/some/directory]
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$ make
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$ make check
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$ make install
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Or using ``nmake``, if you're compiling on Windows with Visual C++. On
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platforms that do not understand the '#!' convention for beginning
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script files, or that have Python installed in an unusual spot, you
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might need to prefix the ``configure.py`` command with ``python`` or
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``/path/to/python``::
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$ python ./configure.py [arguments]
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Configuring the Build
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---------------------------------
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The first step is to run ``configure.py``, which is a Python script
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that creates various directories, config files, and a Makefile for
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building everything. The script requires at least Python 2.5; any
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later version of Python 2.x should also work. Python 3.1 will also
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work but requires an extra step; see :ref:`configure_with_python3` for
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details.
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The script will attempt to guess what kind of system you are trying to
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compile for (and will print messages telling you what it guessed).
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You can override this process by passing the options ``--cc``,
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``--os``, and ``--cpu``.
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You can pass basically anything reasonable with ``--cpu``: the script
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knows about a large number of different architectures, their
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sub-models, and common aliases for them. You should only select the
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64-bit version of a CPU (such as "sparc64" or "mips64") if your
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operating system knows how to handle 64-bit object code - a 32-bit
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kernel on a 64-bit CPU will generally not like 64-bit code.
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By default the script tries to figure out what will work on your
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system, and use that. It will print a display at the end showing which
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algorithms have and have not been enabled. For instance on one system
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we might see lines like::
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INFO: Skipping, by request only - bzip2 gnump openssl qt_mutex zlib
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INFO: Skipping, incompatible CPU - aes_intel aes_ssse3 asm_x86_64 mp_asm64 mp_x86_64 sha1_x86_64
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INFO: Skipping, incompatible OS - beos_stats cryptoapi_rng win32_crit_section win32_stats
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INFO: Skipping, incompatible compiler - mp_msvc64 mp_x86_32_msvc
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The ones that are skipped because they are 'by request only' have to
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be explicitly asked for, because they rely on third party libraries
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which your system might not have or that you might not want the
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resulting binary to depend on. For instance to enable zlib support,
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add ``--with-zlib`` to your invocation of ``configure.py``.
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You can control which algorithms and modules are built using the
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options ``--enable-modules=MODS`` and ``--disable-modules=MODS``, for
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instance ``--enable-modules=zlib`` and ``--disable-modules=rc5,idea``.
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Modules not listed on the command line will simply be loaded if needed
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or if configured to load by default. If you use ``--no-autoload``,
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only the most core modules will be included; you can then explicitly
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enable things that you want to use with ``--enable-modules``. This is
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useful for creating a minimal build targeting to a specific
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application, especially in conjunction with the amalgamation option;
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see :ref:`amalgamation`.
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For instance::
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$ ./configure.py --no-autoload --enable-modules=rsa,ecdsa,eme1,emsa1,emsa4
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will set up a build that only includes RSA, ECDSA, and some padding
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modes, along with their dependencies. A small subset of core features,
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including AES, SHA-2, HMAC, and the multiple precision integer
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library, are always loaded.
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The script tries to guess what kind of makefile to generate, and it
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almost always guesses correctly (basically, Visual C++ uses NMAKE with
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Windows commands, and everything else uses Unix make with POSIX
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commands). Just in case, you can override it with
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``--make-style=somestyle``. The styles Botan currently knows about are
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'unix' (normal Unix makefiles), and 'nmake', the make variant commonly
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used by Windows compilers. To add a new variant (eg, a build script
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for VMS), you will need to create a new template file in
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``src/build-data/makefile``.
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On Unix
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The basic build procedure on Unix and Unix-like systems is::
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$ ./configure.py [--enable-modules=<list>] [--cc=CC]
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$ make
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# You may need to set your LD_LIBRARY_PATH or equivalent for ./check to run
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$ make check # optional, but a good idea
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$ make install
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On Unix systems the script will default to using GCC; use
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``--cc`` if you want something else. For instance use
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``--cc=icc`` for Intel C++ and ``--cc=clang`` for Clang.
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The ``make install`` target has a default directory in which it
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will install Botan (typically ``/usr/local``). You can override
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this by using the ``--prefix`` argument to
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``configure.py``, like so:
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``./configure.py --prefix=/opt <other arguments>``
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On some systems shared libraries might not be immediately visible to
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the runtime linker. For example, on Linux you may have to edit
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``/etc/ld.so.conf`` and run ``ldconfig`` (as root) in
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order for new shared libraries to be picked up by the linker. An
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alternative is to set your ``LD_LIBRARY_PATH`` shell variable
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to include the directory that the Botan libraries were installed into.
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On Mac OS X
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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In general the Unix instructions above should apply, however OS X does
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not support ``LD_LIBRARY_PATH``. Thomas Keller suggests instead
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running ``install_name_tool`` between building and running the
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self-test program::
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$ VERSION=1.10.0 # or whatever the current version is
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$ install_name_tool -change $(otool -X -D libbotan-$VERSION.dylib) \
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$PWD/libbotan-$VERSION.dylib check
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Building Universal Binaries
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&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
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To build a universal binary for OS X, some simple modifications are
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required. First, create a CPU type for the target universalbinary,
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one that doesn't specify any special handlers. This is done by
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creating an empty file in src/build-data/arch::
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$ touch src/build-data/arch/universalbinary.txt
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and then adding a special target for it in gcc, by adding the line::
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universalbinary -> "-force_cpusubtype_ALL -mmacosx-version-min=10.4 -arch i386 -arch ppc"
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in the section marked `<mach_abi_linking>` in
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`src/build-data/cc/gcc.txt`. Then configure with::
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$ ./configure.py --cpu=universalbinary [other options here]
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On MS Windows
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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If you don't want to deal with building botan on Windows, check the
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website; commonly prebuilt Windows binaries with installers are
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available, especially for stable versions.
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You need to have a copy of Python installed, and have both Python and
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your chosen compiler in your path. Open a command shell (or the SDK
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shell), and run::
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> python configure.py --cc=msvc (or --cc=gcc for MinGW) [--cpu=CPU]
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> nmake
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> nmake check # optional, but recommended
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> nmake install
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For Win95 pre OSR2, the ``cryptoapi_rng`` module will not work,
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because CryptoAPI didn't exist. And all versions of NT4 lack the
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ToolHelp32 interface, which is how ``win32_stats`` does its slow
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polls, so a version of the library built with that module will not
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load under NT4. Later versions of Windows support both methods, so
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this shouldn't be much of an issue anymore.
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By default the install target will be ``C:\botan``; you can modify
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this with the ``--prefix`` option.
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When building your applications, all you have to do is tell the
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compiler to look for both include files and library files in
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``C:\botan``, and it will find both. Or you can move them to a
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place where they will be in the default compiler search paths (consult
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your documentation and/or local expert for details).
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Other Build-Related Tasks
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----------------------------------------
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.. _building_docs:
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Building The Documentation
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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There are two documentation options available, Sphinx and Doxygen.
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Sphinx will be used if ``sphinx-build`` is detected in the PATH, or if
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``--with-sphinx`` is used at configure time. Doxygen is only enabled
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if ``--with-doxygen`` is used. Both are generated by the makefile
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target ``docs``.
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.. _amalgamation:
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The Amalgamation Build
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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You can also configure Botan to be built using only a single source
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file; this is quite convenient if you plan to embed the library into
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another application. To do so, run ``configure.py`` with whatever
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arguments you would ordinarily use, along with the option
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``--gen-amalgamation``. This will create two (rather large) files,
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``botan_all.h`` and ``botan_all.cpp``.
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Whenever you would have included a botan header, you can then include
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``botan_all.h``, and include ``botan_all.cpp`` along with the rest of
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the source files in your build. If you want to be able to easily
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switch between amalgamated and non-amalgamated versions (for instance
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to take advantage of prepackaged versions of botan on operating
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systems that support it), you can instead ignore ``botan_all.h`` and
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use the headers from ``build/include`` as normal.
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You can also build the library as normal but using the amalgamation
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instead of the individual source files using ``--via-amalgamation``.
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This is essentially a very simple form of link time optimization;
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because the entire library source is visible to the compiler, it has
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more opportunities for interprocedural optimizations.
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Modules Relying on Third Party Libraries
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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There are a fairly large number of modules included with Botan. Some
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of these are extremely useful, while others are only necessary in very
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unusual circumstances. Most are loaded (or not) automatically as
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necessary, but some require external libraries are thus must be
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enabled at build time; these include:
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- ``--with-bzip2`` enables the filters providing bzip2 compression
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and decompression. Requires the bzip2 development libraries to be
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installed.
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- ``--with-zlib`` enables the filters providing zlib compression
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and decompression. Requires the zlib development libraries to be
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installed.
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- ``--with-gnump`` adds an alternative engine for public key
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cryptography that uses the GNU MP library. GNU MP 4.1 or later is
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required.
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- ``--with-openssl`` adds an engine that uses OpenSSL for some public
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key operations and ciphers/hashes. OpenSSL 0.9.7 or later is
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required. Note that OpenSSL's versions are not always faster than
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the versions built into botan.
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Multiple Builds
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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It may be useful to run multiple builds with different
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configurations. Specify ``--build-dir=<dir>`` to set up a build
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environment in a different directory.
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.. _configure_with_python3:
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Configuring the Build With Python 3.1
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The versions of Python beginning with 3 are (intentionally)
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incompatible with the (currently more common) 2.x series. If you want
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to use Python 3.1 to set up the build, you'll have to use the
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``2to3`` program (included in the Python distribution) on the
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script; this will convert the script to the Python 3.x dialect::
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$ python ./configure.py
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File "configure.py", line 860
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except KeyError, e:
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^
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SyntaxError: invalid syntax
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$ # incompatible python version, let's fix it
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$ 2to3 -w configure.py
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[...]
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RefactoringTool: Files that were modified:
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RefactoringTool: configure.py
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$ python ./configure.py
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[...]
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Setting Distribution Info
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The build allows you to set some information about what distribution
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this build of the library comes from. It is particularly relevant to
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people packaging the library for wider distribution, to signify what
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distribution this build is from. Applications can test this value by
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checking the string value of the macro ``BOTAN_DISTRIBUTION_INFO``. It
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can be set using the ``--distribution-info`` flag to ``configure.py``,
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and otherwise defaults to "unspecified". For instance, a `Gentoo
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<http://www.gentoo.org>`_ ebuild might set it with
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``--distribution-info="Gentoo ${PVR}"`` where ``${PVR}`` is an ebuild
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variable automatically set to a combination of the library and ebuild
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versions.
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Local Configuration Settings
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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You may want to do something peculiar with the configuration; to
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support this there is a flag to ``configure.py`` called
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``--with-local-config=<file>``. The contents of the file are
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inserted into ``build/build.h`` which is (indirectly) included
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into every Botan header and source file.
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Configuration Parameters
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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There are some configuration parameters which you may want to tweak
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before building the library. These can be found in ``config.h``. This
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file is overwritten every time the configure script is run (and does
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not exist until after you run the script for the first time).
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Also included in ``build/build.h`` are macros which let applications
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check which features are included in the current version of the
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library. All of them begin with ``BOTAN_HAS_``. For example, if
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``BOTAN_HAS_BLOWFISH`` is defined, then an application can include
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``<botan/blowfish.h>`` and use the Blowfish class.
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``BOTAN_MP_WORD_BITS``: This macro controls the size of the words used
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for calculations with the MPI implementation in Botan. You can choose
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8, 16, 32, or 64. Normally this defaults to either 32 or 64, depending
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on the processor. Unless you are building for a 8 or 16-bit CPU, this
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isn't worth messing with.
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``BOTAN_VECTOR_OVER_ALLOCATE``: The memory container ``SecureVector``
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will over-allocate requests by this amount (in elements). In several
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areas of the library, we grow a vector fairly often. By
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over-allocating by a small amount, we don't have to do allocations as
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often (which is good, because the allocators can be quite slow). If
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you *really* want to reduce memory usage, set it to 0. Otherwise, the
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default should be perfectly fine.
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``BOTAN_DEFAULT_BUFFER_SIZE``: This constant is used as the size of
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buffers throughout Botan. A good rule of thumb would be to use the
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page size of your machine. The default should be fine for most
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purposes.
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Building Applications
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----------------------------------------
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Unix
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Botan usually links in several different system libraries (such as
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``librt`` and ``libz``), depending on which modules are
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configured at compile time. In many environments, particularly ones
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using static libraries, an application has to link against the same
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libraries as Botan for the linking step to succeed. But how does it
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figure out what libraries it *is* linked against?
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The answer is to ask the ``botan-config`` script. This
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basically solves the same problem all the other ``*-config``
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scripts solve, and in basically the same manner.
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There are 4 options:
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``--prefix[=DIR]``: If no argument, print the prefix where Botan
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is installed (such as ``/opt`` or ``/usr/local``). If an
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argument is specified, other options given with the same command will
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execute as if Botan as actually installed at ``DIR`` and not
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where it really is; or at least where ``botan-config`` thinks
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it really is. I should mention that it
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``--version``: Print the Botan version number.
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``--cflags``: Print options that should be passed to the compiler
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whenever a C++ file is compiled. Typically this is used for setting
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include paths.
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``--libs``: Print options for which libraries to link to (this includes
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``-lbotan``).
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Your ``Makefile`` can run ``botan-config`` and get the
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options necessary for getting your application to compile and link,
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regardless of whatever crazy libraries Botan might be linked against.
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Botan also by default installs a file for ``pkg-config``,
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namespaced by the major and minor versions. So it can be used,
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for instance, as::
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$ pkg-config botan-1.10 --modversion
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1.10.0
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$ pkg-config botan-1.10 --cflags
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-I/usr/local/include
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$ pkg-config botan-1.10 --libs
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-L/usr/local/lib -lbotan -lm -lbz2 -lpthread -lrt
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MS Windows
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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No special help exists for building applications on Windows. However,
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given that typically Windows software is distributed as binaries, this
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is less of a problem - only the developer needs to worry about it. As
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long as they can remember where they installed Botan, they just have
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to set the appropriate flags in their Makefile/project file.
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Language Wrappers
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----------------------------------------
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Building the Python wrappers
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The Python wrappers for Botan use Boost.Python, so you must have Boost
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installed. To build the wrappers, pass the flag
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``--with-boost-python`` to ``configure.py``. This will create a second
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makefile, ``Makefile.python``, with instructions for building the
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Python module. After building the library, execute::
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$ make -f Makefile.python
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to build the module. Currently only Unix systems are supported, and
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the Makefile assumes that the version of Python you want to build
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against is the same one you used to run ``configure.py``.
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To install the module, use the ``install`` target.
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See :doc:`Python Bindings <python>` for more information about the
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binding.
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Building the Perl XS wrappers
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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To build the Perl XS wrappers, change your directory to
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``src/wrap/perl-xs`` and run ``perl Makefile.PL``, then run
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``make`` to build the module and ``make test`` to run the test
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suite::
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$ perl Makefile.PL
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Checking if your kit is complete...
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Looks good
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Writing Makefile for Botan
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$ make
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cp Botan.pm blib/lib/Botan.pm
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AutoSplitting blib/lib/Botan.pm (blib/lib/auto/Botan)
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/usr/bin/perl5.8.8 /usr/lib64/perl5/5.8.8/ExtUtils/xsubpp [...]
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g++ -c -Wno-write-strings -fexceptions -g [...]
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Running Mkbootstrap for Botan ()
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chmod 644 Botan.bs
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rm -f blib/arch/auto/Botan/Botan.so
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g++ -shared Botan.o -o blib/arch/auto/Botan/Botan.so \
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-lbotan -lbz2 -lpthread -lrt -lz \
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chmod 755 blib/arch/auto/Botan/Botan.so
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cp Botan.bs blib/arch/auto/Botan/Botan.bs
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chmod 644 blib/arch/auto/Botan/Botan.bs
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Manifying blib/man3/Botan.3pm
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$ make test
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PERL_DL_NONLAZY=1 /usr/bin/perl5.8.8 [...]
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t/base64......ok
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t/filt........ok
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t/hex.........ok
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t/oid.........ok
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t/pipe........ok
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t/x509cert....ok
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All tests successful.
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Files=6, Tests=83, 0 wallclock secs ( 0.08 cusr + 0.02 csys = 0.10 CPU)
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