The Yubico PIV tool is used for interacting with the Personal Identity Verification (PIV) application on a YubiKey.
With it you may generate keys on the device, importing keys and certificates, and create certificate requests, and other operations. A shared library and a command-line tool is included.
For information and examples on what you can do with a PIV enabled YubiKey, see https://developers.yubico.com/PIV/
In general the project is covered by the following BSD license. The file ykcs11/pkcs11.h has additional copyright and licensing information, please see it for more information.
Copyright (c) 2014-2020 Yubico AB All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Either clone from Git or download and unpackage the tarball, then make
sure you have the pre-requisites installed and build following the
steps below from the yubico-piv-tool
directory.
Please make sure to have recent versions of the following packages installed on your system.
cmake libtool libssl-dev pkg-config check libpcsclite-dev gengetopt help2man
Help2man is used to generate the manpages. Gengetopt version 2.22.6 or later is needed for command line parameter handling. The Vagrant VM has all these dependencies preinstalled.
$ mkdir build; cd build $ cmake .. $ make $ sudo make install
On macos, you might need to point out homebrew openssl version when running pkg-config.
$ PKG_CONFIG_PATH="/usr/local/opt/[email protected]/lib/pkgconfig" cmake ..
To statically link to OpenSSL (the libcrypto
library), use the cmake
option -DOPENSSL_STATIC_LINK=ON
Don’t forget you might need to be root for the last command. On Linux it might be needed to update your linked libraries after install
sudo ldconfig
The backend to use is decided at compile time, see the summary at the
end of the cmake
output. Use --with-backend=foo
to choose
backend, replacing foo
with the backend you want to use. The backends
available are "pcsc", "macscard" and "winscard" using the PCSC
interface, with slightly different shared library linkage and
header file names: "pcsc" is used under GNU-like systems, "macscard"
under Mac OS X, and "winscard" is used under Windows. In most
situations, running cmake
should automatically find the proper
backend to use.
Building on Windows requires MSBuild or Visual Studio and the MSVC compiler. It also requires building the binaries from the source release package and not from the source checked out from the repository on GitHub. This is because some files that are part of the command line shell are generated but they cannot, currently, be generated on Windows. Those files are, however, included in the source release package.
On Windows, getopt
is needed to read command line arguments. The easiest way to install getopt
is with the vcpkg
package manager. The
path to getopt
DLL library and include file need to be specified as a command line argument to cmake
.
Also the path to OpenSSL needs to be specified either as a command line argument to cmake
or by setting the environment variable OPENSSL_ROOT_DIR
The command line examples bellow are for PowerShell
and the prerequisites were installed from source (using vcpkg
).
$ env:OPENSSL_ROOT_DIR ="PATH/TO/OPENSSL_DIR" $ mkdir build; cd build $ cmake -A <ARCH> -DGETOPT_LIB_DIR="PATH/TO/GETOPT_DIR/lib" -DGETOPT_INCLUDE_DIR="PATH/TO/GETOPT_DIR/include .. $ cmake --build .
To run the tests, check
is used. The path to the check
directory needs to be
specified as a command line argument to cmake
. Also the path to check
binaries,
OpenSSL
binaries, libykpiv.dll
and libykcs11.dll
need to be in the PATH
$ env:OPENSSL_ROOT_DIR ="PATH/TO/OPENSSL_DIR" $ mkdir build; cd build $ cmake -A <ARCH> -DGETOPT_LIB_DIR="PATH/TO/GETOPT_DIR/lib" -DGETOPT_INCLUDE_DIR="PATH/TO/GETOPT_DIR/include -DCHECK_PATH="PATH/TO/CHECK_DIR" .. $ cmake --build . $ $env:Path +=";PATH/TO//CHECK_DIR/bin;PATH/TO/OPENSSL_DIR/bin;PATH/TO/build\lib\Debug;PATH/TO/build\ykcs11\Debug" $ ctest.exe -C Debug
For building on 32 bits system, use Win32
as ARCH. For building on 64 bits systems,
use x64
as ARCH.
Code coverage is provided courtesy of lcov and CMake-codecov. This currently only works with make
.
Enable coverage with
$ cmake -DENABLE_COVERAGE=1 ..
You can then build the project normally and run some executables (for example running the tests with make test
).
At this point coverage evaluation can be generated with gcov/lcov related targets. For example
$ make lcov
will generate a single HTML report in ./lcov/html/all_targets/index.html
The main development platform is Debian GNU/Linux. The project compiles on Windows using MSVC and the PCSC backend. It can also be built for Mac OS X, also using the PCSC backend.
For a list of all available options --help can be given. For more information on exactly what happens --verbose or --verbose=2 may be added.
Generate a new ECC-P256 key on device in slot 9a, will print the public key on stdout:
$ yubico-piv-tool -s9a -AECCP256 -agenerate
Generate a certificate request with public key from stdin, will print the resulting request on stdout:
$ yubico-piv-tool -s9a -S'/CN=foo/OU=test/O=example.com/' -averify -arequest
Generate a self-signed certificate with public key from stdin, will print the certificate, for later import, on stdout:
$ yubico-piv-tool -s9a -S'/CN=bar/OU=test/O=example.com/' -averify -aselfsign
Import a certificate from stdin:
$ yubico-piv-tool -s9a -aimport-certificate
Set a random chuid, import a key and import a certificate from a PKCS12 file, into slot 9c:
$ yubico-piv-tool -s9c -itest.pfx -KPKCS12 -aset-chuid -aimport-key \ -aimport-cert
Change the management key used for administrative authentication:
$ yubico-piv-tool -aset-mgm-key
Delete a certificate in slot 9a, with management key being asked for:
$ yubico-piv-tool -adelete-certificate -s9a -k
Show some information on certificates and other data:
$ yubico-piv-tool -astatus
Read out the certificate from a slot and then run a signature test:
$ yubico-piv-tool -aread-cert -s9a $ yubico-piv-tool -averify-pin -atest-signature -s9a
Import a key into slot 85 (only available on YubiKey 4 & 5) and set the touch policy (also only available on YubiKey 4 & 5):
$ yubico-piv-tool -aimport-key -s85 --touch-policy=always -ikey.pem