This is a generic Certificate Management Protocol (CMP) client library with a high-level API for use with the C and C++ languages and associated CLI-based demo client, tests, and documentation.
The purpose of this software is to provide a high-level C-based API on top of the detailed CMP (and CRMF) API of the OpenSSL library since version 3.0.
Until using an OpenSSL version > 3.0 that provides all those new CMP(v3) features
needed for a given application, a further use case of this software may be
to provide early access to all features of CMP
as defined in CMP Updates
and the Lightweight CMP Profile (LCMPP).
To this end, it may be linked in addition to the intermediate CMP library
CMPforOpenSSL, called libcmp
below.
The high-level API is on the one hand convenient to use for application programmers and on the other hand complete and flexible enough to cover the major certificate management use cases. The library supports developing CMP clients that adhere to the Lightweight CMP Profile (LCMPP), which is geared towards simple and interoperable industrial use.
The software also provides a command-line interface (CLI) that is handy for interactive exploration of using CMP in a PKI.
Note: An OSS CMP client and registration authority (RA) implementation in Java is available in the form of a generic CMP RA and client component and the LightweightCmpRa, which is a demo CLI application using it.
The maintainers offer two levels of support.
- Community support is provided on a best-effort basis and can be requested via issues.
- Paid professional support and consulting can be ordered from Siemens by reaching out to the maintainers.
Contributions are appreciated in the form of pull requests.
This software provides all features of CMP version 3 as defined in CMP Updates according to the Lightweight CMP Profile (LCMPP), which has been defined for simple and interoperable industrial use of CMP.
Note: The successor of both RFC 4210 and CMP Updates, called RFC 4210bis, has been submitted to IESG for publication, as well as RFC 6712bis. As of end-2024, the main novelty of RFC 4210bis, which provides KEM support, is not yet implemented here.
The Generic CMP client API specification and CLI documentation
are available in the doc
folder.
The Doxygen documentation of the underlying Security Utilities library is available via a link in its README file.
This software should work with any flavor of Linux, including MacOS X, Cygwin, also on a virtual machine or the Windows Subsystem for Linux (WSL).
The following network and development tools are needed or recommended.
- Git (for getting the software, tested with versions 2.7.2, 2.11.0, 2.20, 2.30.2, 2.39.2)
- CMake (for using
CMakeLists.txt
, tested with versions 3.18.4, 3.26.3, 3.27.7) - GNU make (tested with versions 3.81, 4.1, 4.2.1, 4.3)
- GNU C compiler (gcc, tested with versions 5.4.0, 7.3.0, 8.3.0, 10.0.1, 10.2.1) or clang (tested with version 14.0.3 and 17.0.3)
- wget (for running the demo, tested with versions 1.17, 1.18, 1.20, 1.21)
- Perl (for running the tests, tested with versions 5.30.3 and 5.32.1)
The following OSS components are used.
- OpenSSL development edition; supported versions: 3.0, 3.1, 3.2, 3.3, 3.4
- Security Utilities (libsecutils)
- CMPforOpenSSL,
a CMP+CRMF+HTTP extension to OpenSSL, needed when using OpenSSL 1.x
or if the latest CMP features not yet available in OpenSSL are required,
which can be indicated by setting the environment variable
USE_LIBCMP
.
Hint: As long as your system provides at least OpenSSL 3.0 and
related development header files at a sufficiently new patch level,
better not manually install in addition a different OpenSSL version unless
you need newer CMP features without using the intermediate CMP library libcmp
.
Such a manual installation can interfere with the more or less implicit
references to the locations of OpenSSL header files and binary library files.
So unless you know exactly what you are doing, you may receive
version mismatch errors like the one mentioned below.
For instance, on a Debian or Ubuntu system the prerequisites may be installed simply as follows:
sudo apt install cmake libssl-dev libc-dev linux-libc-dev
while sudo apt install git make gcc wget
usually is not needed as far as these tools are pre-installed.
You might need to set the variable OPENSSL_DIR
first as described below, e.g.,
export OPENSSL_DIR=/usr/local
On a Mac OS X system the prerequisites may be installed by executing the following in a terminal:
brew install git make openssl cmake wget perl
When using gcc
(instead of clang
) and ccache
:
brew install gcc ccache
For making sure that OpenSSL version 3 is installed:
brew uninstall --ignore-dependencies openssl@3
brew install openssl@3
brew --prefix openssl@3
As a sanity check whether OpenSSL is usable for building the CMP client, you can execute in a shell on a Unix-like system:
git clone https://github.com/siemens/gencmpclient.git
cd genCMPClient
make -s -f OpenSSL_version.mk 2>/dev/null
This should output on the console something like
OpenSSL 3.0.13 30 Jan 2024 (0x300000d0)
When getting version mismatch errors like
OpenSSL runtime version 0x304000d0 does not match version 0x300000d0 used by compiler
make sure that the system-level configuration for finding header and library files
as well as the optional environment variables OPENSSL_DIR
and OPENSSL_LIB
described below are set up in a consistent way.
When having trouble building, which may be due to unsuitably set environment variables,
make -f OpenSSL_version.mk
can provides useful diagnostics.
For accessing the code repositories on GitHub you may need an SSH client with suitable credentials or an HTTP proxy set up, for instance:
export https_proxy=http://proxy.example.com:8080
You can clone the git repository and its submodules with
git clone https://github.com/siemens/gencmpclient.git
cd genCMPClient
make -f Makefile_v1 get_submodules
This will fetch also the underlying CMPforOpenSSL extension to OpenSSL if needed and the Security Utilities (libsecutils) library.
For using the project as a git submodule, do for instance the following in the directory where you want to integrate it:
git submodule add [email protected]:siemens/gencmpclient.git
When you later want to update your local copy of all relevant repositories it is sufficient to invoke
make update
When switching to a certain commit or version, e.g.
git checkout v2.0
then also execute
git submodule update
make -f Makefile_v1 clean
to bring the submodules in a state consistent with that and remove any previous possibly outdated artifacts.
The generic CMP client (as well as its underlying libraries)
assumes that OpenSSL is already installed,
including the C header files needed for development
(as provided by, e.g., the Debian/Ubuntu package libssl-dev
).
By default any OpenSSL installation available on the system is used.
Set the optional environment variable OPENSSL_DIR
to specify the
absolute (or relative to ../
) path of the OpenSSL installation to use.
This must point to the location in the file system from which include/openssl
is directly accessible with this relative path name.
In case its libraries are in a different location, set also OPENSSL_LIB
.
Here are examples for Linux:
export OPENSSL_DIR=/usr/local
export OPENSSL_LIB=/lib/x86_64-linux-gnu
The value for OPENSSL_LIB
may be obtained by
ldd `which openssl` | grep libcrypto.so | awk '{print $3}' | sed 's#/[^/]*$##'
On Mac OS X, these lines are suggested to add to ~/.zshrc
export LDFLAGS="-L$(brew --prefix openssl@3)/lib"
export CPPFLAGS="-I$(brew --prefix openssl@3)/include"
export OPENSSL_DIR=$(brew --prefix openssl@3)
export OPENSSL_LIB=$(brew --prefix openssl@3)/lib
After doing so, restart the terminal or copy&paste them there, too.
Define the environment variable USE_LIBCMP
for using the latest CMP features
and fixes, which implies use of the intermediate library libcmp
.
When using OpenSSL version 1.x, this is ensured automatically.
When using OpenSSL versions before 3.5 and USE_LIBCMP
is not defined,
not all of the CMP features newly defined in CMP Updates
and in the Lightweight CMP Profile (LCMPP) are supported.
From the underlying Security Utilities library the following environment variables are inherited.
- When
SECUTILS_USE_ICV
is set, configuration files are expected to be integrity protected with an Integrity Check Value (ICV), which may be produced usingutil/icvutil
. - Use of the UTA library can be enabled by setting
SECUTILS_USE_UTA
. - The TLS-related functions may be disabled by setting
SECUTILS_NO_TLS
.
Since genCMPClient version 2, it is recommended to use CMake
to produce the Makefile
, for instance as follows:
cmake .
When using CMake, cmake
must be (re-)run
after setting or unsetting environment variables.
By default, CMake builds are in Release mode.
This may also be enforced by defining the environment variable NDEBUG
.
For switching to Debug mode, use cmake
with -DCMAKE_BUILD_TYPE=Debug
.
The chosen mode is remembered in CMakeCache.txt
.
For backward compatibility it is also possible to use instead of CMake
pre-defined Makefile_v1
; to this end symlink it to Makefile
:
ln -s Makefile_v1 Makefile
or use for instance make -f Makefile_v1
.
By default, builds using Makefile_v1
are in Debug mode.
Release mode can be selected by defining the environment variable NDEBUG
.
By default Makefile_v1
behaves as if
OPENSSL_DIR=/usr
was given, such that the OpenSSL headers will be searched for in /usr/include
and its shared objects in /usr/lib
(or /usr/bin
for Cygwin).
When using Makefile_v1
, you may
specify via the environment variable OUT_DIR
where the produced libraries
(e.g., libgencmp.so*
, libcmp.so*
, and libsecutils.so*
) shall be placed.
It defaults to the base directory of the respective library.
If the environment variable BIN_DIR
is not empty, the
the CLI application cmpClient
will be built and placed in BIN_DIR
.
If the variable is unset, .
is used by default.
For all path variables, relative paths such as .
are interpreted
relative to the directory of the genCMPClient module.
The CC environment variable may be set as needed; it defaults to gcc
.
It is also possible to statically link with libcmp.a
, using STATIC_LIBCMP
.
For further details on optional environment variables,
see the Makefile_v1
and Makefile_src
.
Build the software with
make
The result is in, for instance, ./libgencmp.so.2.0
.
This also builds all required dependencies
(such as libsecutils/libsecutils.so.2.0
and cmpossl/libcmp.so.2.0
)
and an application (./cmpClient
) that is intended
for demonstration, test, and exploration purposes.
When getting the compiler error: 'openssl/openssl_backport.h' file not found
likely include/genericCMPClient_config.h
is outdated
and contains #define USE_LIBCMP
although the environment variable USE_LIBCMP
is not set.
In such situations, make -f Makefile_v1 clean
helps to reset it to a consistent state.
The software can be installed with, e.g.,
sudo make install
and uninstalled with
sudo make uninstall
The destination is /usr
, unless specified otherwise by DESTDIR
or ROOTFS
.
make clean
removes part of the artifacts, while
make clean_all
removes everything produced by make
and CMake
.
This repository can build the following binary and source packages.
libgencmp
- the shared librarylibgencmp-dev
- development headers and documentationcmpclient
- simple command-line application with its documentationlibgencmp*Source.tar.gz
-- source tarball
The recommended way is to use CPack with the files produced by CMake as follows:
make deb
which requires the file
utility.
Alternatively, Makefile_v1
may be used like this:
make -f Makefile_v1 deb
In this case, the resulting packages are placed in the parent directory (../
),
and requires the following Debian packages:
debhelper
(needed fordh
)devscripts
(needed fordebuild
)libssl-dev
The Debian packages may be installed for instance as follows:
sudo dpkg -i libgencmp*deb cmpclient_*.deb
The Command-Line Interface (CLI) of the CMP client is implemented in
src/cmpClient.c
.
It supports most of the features of the genCMPClient library.
The CLI use with the available options are documented in cmpClient.pod
.
For simple test invocations the Insta Certifier Demo CA server may be used, for instance as follows:
openssl ecparam -genkey -name prime256v1 -out test.key.pem
./cmpClient -config "" -server pki.certificate.fi:8700/pkix/ \
-recipient "/C=FI/O=Insta Demo/CN=Insta Demo CA" \
-secret pass:insta -ref 3078 \
-cmd cr -newkey test.key.pem -subject "/CN=test" -certout test.cert.pem
openssl x509 -noout -text -in test.cert.pem
As the CMP client interacts via HTTP with an external CMP server, depending
on your network you may need to set the environment variable http_proxy
.
A demo making use of all supported CMP commands can be executed with
make -f Makefile_v1 demo
The demo can be run using the online Insta Demo CA, which is the default, or using an included Docker instance of the EJBCA that can be launched locally:
make -f Makefile_v1 demo_EJBCA
or using the reference playground CA operated by Siemens over a test cloud CA:
make -f Makefile_v1 demo_CloudCA
Among others, successful execution should produce a new certificate at creds/operational.crt
.
You can view this certificate for instance by executing
openssl x509 -noout -text -in creds/operational.crt
CLI-based tests using the Insta Demo CA may be invoked using
make -f Makefile_v1 test_Insta
where the PROXY environment variable may be used to override the default in order to reach the Insta Demo CA.
In order to obtain a trace of the HTTP messages being sent and received,
build the genCMPClient with USE_LIBCMP=1
and
set the environment variable OPENSSL_TRACE
to contain the string "HTTP"
.
For instance:
OPENSSL_TRACE=HTTP ./cmpClient imprint -section Insta
To select a specific CMP profile on the CloudCA server, set the environment
variable CMP_PROFILE
to the profile name.
For instance:
CMP_PROFILE=Nested make -f Makefile_v1 demo_CloudCA
For building the library (and optionally the CLI application) as part of other builds, it is recommended to use Debian packages or CMake.
Another possibility is to use Makefile_v1
,
for instance as given in the example outer Makefile.mk
.
For compiling applications using the library,
you will need to #include
the header file genericCMPClient.h
and add the directories include
and
libsecutils/include
to your C headers path.
When the intermediate library libcmp
is used, you need to
add also the directory cmpossl/include/cmp
,
define the C macro USE_LIBCMP
, and
make sure that any OpenSSL header files included have the same version
as the one used to build libcmp
.
For linking you will need to
refer the linker to the CMP and Security Utilities libraries,
e.g., -lsecutils -lgencmp
.
When libcmp
is used, -lcmp
is needed additionally.
Add the directories (e.g., with the linker option -L
) where they can be found.
See also the environment variable OUT_DIR
.
Consider using also linker options like -Wl,-rpath,.
for helping the Linux loader find the libraries at run time.
Also make sure that the OpenSSL libraries
(typically referred to via -lssl -lcrypto
) are in your library path and
(the version of) the libraries found there by the linker
match the header files found by the compiler.
All this is already done for the CMP client application cmpClient
.
This software including associated documentation is provided ‘as is’. Effort has been spent on quality assurance, but there are no guarantees.
This work is licensed under the terms of the Apache Software License 2.0. See the LICENSE.txt file in the top-level directory.
SPDX-License-Identifier: Apache-2.0