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For a more complete Documentation, refer to http://esft-stor.readthedocs.io/en/latest/

Note: Pull requests not accepted until February 2018, as this is part of my MSc thesis project.


esft::stor

C++ serverless NoSQL document-store

Platforms:

  • Windows - (tested with MinGW)
  • OSX
  • Linux - (tested on Ubuntu 1x.xx)

Tool Dependencies:

  • Cmake (version >=3.6)
  • On Windows, we used GCC/G++. The compilation/linking tools used are those provided by TDM-GCC 64bit (http://tdm-gcc.tdragon.net/). You may use what you prefer but know that this is what we used.
  • (Optional - for Windows). Some of the commands issued during building may require unix-tools. The usage of a compatible shell environment (we use the one provided by https://git-for-windows.github.io/) should suffice to build from command line. Alternatively (or in conjuction with the above), we use UnxUtils (http://unxutils.sourceforge.net/) + cmd.exe or PowerShell.
  • (Optional) CLion IDE integrates seamlessly with CMake. CodeBlocks should as well.

Library Dependencies:

All dependencies licenses can be found on the links above or in the "license" folder in the respective folder under dependencies/.

Note:

  • All dependencies are already provided (for convenience and for self-contained testing) in the dependencies/ folder for the respective platforms. Building scripts called during CMake-builds automatically take care of building the respective 64-bit libraries for you. You are free to manage the dependencies the way you like, just make sure you modify the CmakeLists.txt accordingly.

  • Boost UUID dependencies, extracted with the bcp utility (http://www.boost.org/doc/libs/1_64_0/tools/bcp/doc/html/index.html) are also included. If you already have Boost headers on the PATH g++ looks into for headers, then you may remove it from the dependencies/build.py and remove boost_uuid_ROOT_DIR from CmakeLists.txt.

  • When building with STOR_CRYPTO on Windows, building OpenSSL is the major source of problems, as the build files depend on various subsystems. Perl is a dependency, so make sure it's on the PATH (this should be the case by default if using MSYS or https://git-for-windows.github.io/). Build commands also make use of Unix tools, so having UnxUtils on the path if using Cmd.exe is also required. With this, following the Installation instructions should be enough. If you still experience failures, build OpenSSL directly from the source:

    ./store/core/dependencies/mingw/openssl/source
    

    The build commands we use are:

    perl Configure mingw64 no-shared no-asm
    mingw32-make.exe build_libs
    

    to obtain static libraries libssl.a and libcrypto.a. Copy these libraries in:

    ./store/core/dependencies/mingw/openssl/bin
    

    and copy the include headers generated in source in

    ./store/core/dependencies/mingw/openssl/include
    

    You can add this file to make the build system believe everything is ready for use:

    ./store/core/dependencies/mingw/openssl/.built
    

Tip: When linking libstor.a to your own executable, you may want to take note of the dependencies linked with the stor_test target for each platform and replicate the linking for your own executable.

Install:

esft::stor uses Cmake. To build the library, make an out of source directory

mkdir stor_build

Then setup the project Cmake cache and relative files that will be used during the build

chdir stor_build cmake [OPT] ../stor/core

Note:

 OPT refers to the various CMake options you can use, such as `-G "Unix Makefiles`. This is the place
 where to use `-DSTOR_CRYPTO` if you plan on using the encrypting facilities of the database.

Then build the desired target

cmake --build . --target stor

And run the tests:

cmake --build . --target stor_test ./stor_test

CSTOR

CSTOR is the C binding of esft::stor

The sources are located in bindings/c

CSTOR uses Cmake like esft::stor so installation follows the same guideline

The test target is cstor_test and the shared library target is cstor

Note:
As with esft::stor, you can specify -DSTOR_CRYPTO if desired. 

PYSTOR

PYSTOR is the Python binding of esft::stor

The sources are located in bindings/python

Install:

Pystor uses CSTOR as the interface to esft::stor via ctypes (https://docs.python.org/2/library/ctypes.html) so the shared library libcstor has to be built.

To build libcstor, proceed with setting up cmake as noted above (again, -DSTOR_CRYPTO can be specified) and then invoke the cmake target pystor_setup Alternatively, the script bindinds/python/build.py may be invoked.

After having setup pystor, the shared library libcstor will be placed in the python package and you can proceed with invoking the following command

python setup.py install

to complete the installation.