SmartPGP is a free and open source implementation of the OpenPGP card 3.4 specification in JavaCard.
The main improvement introduced in OpenPGP card 3.x specification from previous version is the support of elliptic curve cryptography with several existing curves (NIST P-256, NIST P-384, NIST P-521, brainpool p256r1, brainpool p384r1 and brainpool p512r1).
The following features are implemented at the applet level, but some of them depend on underlying hardware support and available (non-)volatile memory resources:
-
RSA (>= 2048 bits modulus, 17 bits exponent) and ECC (NIST P-256, NIST P-384, NIST P-521, brainpool p256r1, brainpool p384r1 and brainpool p512r1) for signature, encryption and authentication;
-
On-board key generation and external private key import;
-
PIN codes (user, admin and resetting code) up to 127 characters;
-
Certificate up to 1 kB (DER encoded) for each key;
-
Login, URL, and private DOs up to 256 bytes;
-
Command and response chaining;
-
AES 128/256 bits deciphering primitive;
-
Secure messaging (see below).
The SmartPGP applet is configured with the following default values:
-
Admin PIN is 12345678;
-
User PIN is 123456;
-
No PUK (a.k.a. resetting code) is defined;
-
RSA 2048 bits for PGP keys;
-
NIST P-256 for the secure messaging key.
These values can be changed by modifying default values in the code (see the Constants class).
When the applet is installed, one can use the smartpgp-cli
utility
given in the bin
directory to change these values. Keep in mind that
when you change the algorithm attributes of a PGP key or of the secure
messaging key, the key and the corresponding certificate are
erased. Also note that hard coded default values will be restored upon
a factory reset.
The SmartPGP applet implements the complete OpenPGP card 3.4 specification, except the secure messaging related features:
-
Commands and responses protection is not implemented as described in the specification. Motivation and implementation details are explained in the secure messaging document;
-
A command protected by secure messaging is not granted admin rights. Secure messaging can thus be used to protect communications only, especially when the token is used contactless;
-
If and only if secure messaging static key and certificate have been provisioned, all commands containing sensitive data (e.g. PIN code, decrypted data, private key, ...) emitted through a contactless interface must be protected by secure messaging or they will be refused;
-
The
ACTIVATE FILE
with P1 = P2 = 0, as described in the specification, resets everything except the secure messaging static key and certificate. Complete reset, including these elements, can be performed withACTIVATE FILE
with P1 = 0 and P2 = 1.
Tokens following the OpenPGP card 3.4 specification are not yet fully supported by most PGP applications.
OpenPGP card 3.x is supported by GnuPG starting from version 2.1.16.
The specific secure messaging of the SmartPGP applet is not supported at is not part of the OpenPGP card specification.
OpenPGP card 3.x is supported by OpenKeychain starting from version 4.2.
The secure messaging of the SmartPGP applet is fully supported in OpenKeychain. See the section below for more information on the setup process.
The repository contains several directories:
-
bin
contains a Python library and command line tool calledsmartpgp-cli
to interact with an OpenPGP card 3.x but also to deal with the specific secure messaging feature of the SmartPGP applet; -
secure_messaging
contains documentation and example scripts to play with the secure messaging feature of SmartPGP; -
src
contains the JavaCard source code of the SmartPGP applet; -
videos
contains sample videos demonstrating smartcard interactions with OpenKeychain and K9 mail on Android Nexus 5.
-
JavaCard Development Kit 3.0.4 (or above) from Oracle website;
-
A device compliant with JavaCard 3.0.4 (or above) with enough available resources to hold the code (approximately 23 kB of non-volatile memory), persistent data (approximately 10 kB of non-volatile memory) and volatile data (approximately 2 kB of RAM).
The applet allocates all its data structures to their maximal size at installation to avoid as much as possible runtime errors caused by memory allocation failure. If your device does not have enough flash and/or RAM available, or if you plan not to use some features (e.g. stored certificates), you can adjust the applet to reduce its resource consumption by tweaking the following variables:
-
Constants.INTERNAL_BUFFER_MAX_LENGTH
: the size in bytes of the internal RAM buffer used for input/output chaining. Chaining is especially used in case of long commands and responses such as those involved in private key import and certificate import/export. -
Constants.EXTENDED_CAPABILITIES
, bytes 5 and 6: the maximal size in bytes of a certificate associated to a key. Following the OpenPGP card specification, a certificate can be stored for each of the three keys. In SmartPGP, a fourth certificate is stored for secure messaging.
-
Set path to the JavaCard Development Kit:
export JC_HOME="your/path/to/javacardkit"
-
(Optional) Edit the
build.xml
file and replace the0xAF:0xAF
bytes in theAPPLET_AID
with your own manufacturer identifier (see section 4.2.1 of OpenPGP card specification). Alternatively, set the right AID instance bytes during applet installation. -
Execute
ant
with no parameter will produce the CAP file inSmartPGPApplet.cap
.
-
Set path to the JavaCard Development Kit:
export JC_HOME="your/path/to/javacardkit"
-
Execute
gradle convertJavacard
. It will produce the CAP file inbuild/fr/anssi/smartpgp/javacard/smartpgp.cap
.
The CAP file installation depends on your device, so you have to refer to the instructions given by your device manufacturer. Most open cards relying on Global Platform with default keys are supported by GlobalPlatformPro.
Be careful to use a valid AID according to the OpenPGP card
specification (see section 4.2.1) for each card (-create <AID>
with
GlobalPlatformPro)
Without token authentication, you are not protected against man-in-the-middle attack as your device cannot ensure it is communicating directly with a trusted token. Nevertheless, the communications with the token are still protected in confidentiality against passive attacks (i.e. trafic capture).
If you want to test secure messaging without token authentication, you can use the following command to order the token to generate its secure messaging key on-board.
./smartpgp-cli -r X -I generate-sm-key -o pubkey.raw
In this case, you have to deactivate the certificate verification in OpenKeychain: go to "Parameters" > "Experimental features" and deactivate the option called "SmartPGP verify certificate".
The secure_messaging
directory contains a subdirectory called pki
which contains two sample scripts to generate a certificate
authority and token certificates.
The sample scripts are given only for test purposes of the secure
messaging feature with certificate verification. They require
openssl
to be installed on your system.
If you want to use your own PKI, you have to generate a specific intermediate certificate authority to sign the certificates of your token(s). Then, you have to provision the complete certificate chain from this new intermediate CA to your root CA in OpenKeychain because the certificate verification implemented in the given patch does not rely on the system keystore.
Change your current directory to the pki
directory and execute the
script ./generate_ca.sh
. It will produce a sample CA key in
PKI/private/ca.key.pem
and the corresponding certificate in
PKI/certs/ca.cert.pem
.
Change your current directory to the pki
directory and execute the
script
./generate_token.sh mycard1
where mycard1
is some unique identifier for the token. It will
produce a sample token key in PKI/private/mycard1.key.pem
and the
corresponding certificate in PKI/certs/mycard1.cert.pem
.
Change your current directory to the bin
directory and execute the
following commands after replacing the reader number X
by the number
of the reader that contains your token, and the path to the pki
directory used in previous sections.
The following command imports the token key in the token.
./smartpgp-cli -r X -I -i path_to_the_pki_dir/PKI/private/mycard1.key.der put-sm-key
The following command imports the token certificate in the token.
./smartpgp-cli -r X -I -i path_to_the_pki_dir/PKI/certs/mycard1.cert.der put-sm-certificate
These commands have to be executed in this order because the key import clears any previously stored certificate.
Once the token key is imported, you should remove the token private key from you system as there is no need to keep it outside of your token.
-
Upload the CA certificate
PKI/certs/ca.cert.pem
to your phone; -
Go to "Parameters" > "Experimental features" and activate the option called "SmartPGP verify certificate`;
-
Click on "SmartPGP trusted authorities", and then on "+" at the top left;
-
Set a name for this authority and select the file you uploaded.