To build and install OpenSSL GOST Engine, you will need
- OpenSSL 3.0 development version
- an ANSI C compiler
- CMake (3.0 or newer, 3.18 recommended)
Here is a quick build guide:
$ mkdir build
$ cd build
$ cmake -DCMAKE_BUILD_TYPE=Release ..
$ cmake --build . --config Release
Instead of Release
you can use Debug
, RelWithDebInfo
or MinSizeRel
configuration.
See cmake docs for details.
You will find built binaries in ../bin
directory.
If you want to build against a specific OpenSSL instance (you will need it if
you have more than one OpenSSL instance for example), you can use the cmake
variable OPENSSL_ROOT_DIR
to specify absolute path of the desirable OpenSSL
instance:
$ cmake -DOPENSSL_ROOT_DIR=/PATH/TO/OPENSSL/ ..
Building against OpenSSL 3.0 requires openssl detection module (FindOpenSSL.cmake) from CMake 3.18 or higher. More earlier versions may have problems with it.
If you use Visual Studio, you can also set CMAKE_INSTALL_PREFIX
variable
to set install path, like this:
> cmake -G "Visual Studio 15 Win64" -DCMAKE_PREFIX_PATH=c:\OpenSSL\vc-win64a\ -DCMAKE_INSTALL_PREFIX=c:\OpenSSL\vc-win64a\ ..
Also instead of cmake --build
tool you can just open gost-engine.sln
in Visual Studio, select configuration and call Build Solution
manually.
Instructions how to build OpenSSL 1.1.0 with Microsoft Visual Studio you can find there.
To install GOST Engine you can call:
# cmake --build . --target install --config Release
or old plain and Unix only:
# make install
The engine library gost.so
should be installed into OpenSSL engine directory.
To ensure that it is installed propery call:
$ openssl version -e
ENGINESDIR: "/usr/lib/i386-linux-gnu/engines-1.1"
Then check that gost.so
there
# ls /usr/lib/i386-linux-gnu/engines-1.1
Finally, to start using GOST Engine through OpenSSL, you should edit
openssl.cnf
configuration file as specified below.
The very minimal example of the configuration file is provided in this
distribution and named example.conf
.
Configuration file should include following statement in the global section, i.e. before first bracketed section header (see config(5) for details)
openssl_conf = openssl_def
where openssl_def
is name of the section in configuration file which
describes global defaults.
This section should contain following statement:
[openssl_def]
engines = engine_section
which points to the section which describes list of the engines to be loaded. This section should contain:
[engine_section]
gost = gost_section
And section which describes configuration of the engine should contain
[gost_section]
engine_id = gost
dynamic_path = /usr/lib/ssl/engines/libgost.so
default_algorithms = ALL
Various cryptoproviders (e.g. BouncyCastle) has some problems with private key parsing from PrivateKeyInfo, so if you want to use old private key representation format, which supported by BC, you will have to add:
GOST_PK_FORMAT = LEGACY_PK_WRAP
to [gost_section]
.
Where engine_id
parameter specifies name of engine (should be gost
).
dynamic_path is
a location of the loadable shared library implementing the
engine. If the engine is compiled statically or is located in the OpenSSL
engines directory, this line can be omitted.
default_algorithms
parameter specifies that all algorithms, provided by
engine, should be used.
The CRYPT_PARAMS
parameter is engine-specific. It allows the user to choose
between different parameter sets of symmetric cipher algorithm. RFC 4357
specifies several parameters for the GOST 28147-89 algorithm, but OpenSSL
doesn't provide user interface to choose one when encrypting. So use engine
configuration parameter instead. It SHOULD NOT be used nowadays because all
the parameters except the default one are deprecated now.
Value of this parameter can be either short name, defined in OpenSSL
obj_dat.h
header file or numeric representation of OID, defined in
RFC 4357.