pkcs11-tools is a toolkit containing a bunch of small utilities to perform key management tasks on cryptographic tokens implementing a PKCS#11 interface.
It features a number of commands similar to the unix CLI utilities, such as ls
, mv
, rm
, od
, and more
. It also has specific commands to generate keys, generate CSRs, import certificates and other files, in a fashion compatible with most implementations, including both IBM and Oracle JVMs.
Amongst other things, it is also able to interface with NSS libraries from mozilla.org
The toolkit has reached v2.0. It features several major changes:
- it supports (and requires) OpenSSL v1.1.1+
- signing commands (
p11mkcert
,p11req
andmasqreq
) implement OpenSSL algorithm methods. This will enable supporting more algorithms in the future. - major overhaul of the wrapping/unwrapping system: it is now possible to perform double wrapping (aka enveloppe wrapping) with a single command, in a secure fashion
p11keygen
can now generate a session key and wrap it under one or several wrapping keys- a new command,
p11rewrap
, allows to unwrap a key and immediately rewrap in under one or several wrapping keys, in a secure fashion.
To build the source code, simply execute (with appropriate privileges)
$ ./configure
$ make install
To list the methods available on a PKCS#11 token, use p11slotinfo
, that will return the list of available mechanisms, together with allowed APIs.
$ p11slotinfo -l /usr/local/opt/softhsm/lib/softhsm/libsofthsm2.so
PKCS#11 module slot list:
Slot index: 0
----------------
Description : SoftHSM slot ID 0x14a93125
Token Label : first token
Manufacturer: SoftHSM project
Enter slot index: 0
Slot[0]
-------------
Slot Number : 346632485
Description : SoftHSM slot ID 0x14a93125
Manufacturer: SoftHSM project
Slot Flags : [ CKF_TOKEN_PRESENT ]
Token
-------------
Label : first token
Manufacturer: SoftHSM project
Token Flags : [ CKF_RNG CKF_LOGIN_REQUIRED CKF_USER_PIN_INITIALIZED CKF_RESTORE_KEY_NOT_NEEDED CKF_TOKEN_INITIALIZED ]
Mechanisms:
-----------
CKM_MD5 --- --- hsh --- --- --- --- --- --- --- --- --- SW (00000210)
CKM_SHA_1 --- --- hsh --- --- --- --- --- --- --- --- --- SW (00000220)
CKM_SHA224 --- --- hsh --- --- --- --- --- --- --- --- --- SW (00000255)
CKM_SHA256 --- --- hsh --- --- --- --- --- --- --- --- --- SW (00000250)
CKM_SHA384 --- --- hsh --- --- --- --- --- --- --- --- --- SW (00000260)
CKM_SHA512 --- --- hsh --- --- --- --- --- --- --- --- --- SW (00000270)
CKM_MD5_HMAC --- --- --- sig --- vfy --- --- --- --- --- --- SW (00000211)
CKM_SHA_1_HMAC --- --- --- sig --- vfy --- --- --- --- --- --- SW (00000221)
CKM_SHA224_HMAC --- --- --- sig --- vfy --- --- --- --- --- --- SW (00000256)
CKM_SHA256_HMAC --- --- --- sig --- vfy --- --- --- --- --- --- SW (00000251)
CKM_SHA384_HMAC --- --- --- sig --- vfy --- --- --- --- --- --- SW (00000261)
CKM_SHA512_HMAC --- --- --- sig --- vfy --- --- --- --- --- --- SW (00000271)
CKM_RSA_PKCS_KEY_PAIR_GEN --- --- --- --- --- --- --- --- gkp --- --- --- SW (00000000)
CKM_RSA_PKCS enc dec --- sig --- vfy --- --- --- wra unw --- SW (00000001)
...
To list the objects sitting on the token at slot with index 0, use p11ls
. objects are listed together with their attributes;
$ p11ls -l /usr/local/opt/softhsm/lib/softhsm/libsofthsm2.so -s 0
Enter passphrase for token: ******
seck/des-double tok,prv,r/w,loc,enc,dec,sen,ase,nxt,des(128)
pubk/rsa tok,pub,r/w,loc,vfy,rsa(2048)
seck/des-simple tok,prv,r/w,loc,enc,dec,sen,ase,nxt,des(64)
seck/aes-wrapping tok,prv,r/w,imp,wra,unw,sen,NAS,WXT,aes
pubk/dh tok,pub,r/w,loc,enc,vre,wra,dh(2048)
pubk/rsa-wrapping tok,pub,r/w,loc,wra,rsa(2048)
prvk/rsa-disclosed tok,prv,r/w,loc,sig,NSE,NAS,XTR,WXT,rsa(2048)
prvk/rsa-wrapping tok,prv,r/w,loc,unw,sen,ase,nxt,rsa(2048)
seck/aes-128 tok,prv,r/w,loc,enc,dec,sen,ase,nxt,aes(128)
seck/aes-256 tok,prv,r/w,loc,wra,unw,sen,ase,nxt,aes(256)
prvk/rsa tok,prv,r/w,loc,sig,sen,ase,nxt,rsa(2048)
pubk/rsa-disclosed tok,pub,r/w,loc,vfy,rsa(2048)
prvk/dh tok,prv,r/w,loc,dec,sir,unw,sen,ase,nxt,dh(2048)
seck/des-triple tok,prv,r/w,loc,enc,dec,sen,ase,nxt,des(192)
prvk/dsa tok,prv,r/w,loc,dec,sig,sir,unw,sen,ase,nxt,dsa(2048)
pubk/dsa tok,pub,r/w,loc,enc,vfy,vre,wra,dsa(2048)
data/dsaparam tok,prv,
seck/hmac-256 tok,prv,r/w,loc,sig,vfy,sen,ase,nxt,generic
data/dhparam tok,prv,
To avoid specifying command line arguments, environment variables can be specified for the following items:
optional arg | description | environment variable |
---|---|---|
-l |
path to library | PKCS11LIB |
-m |
path to NSS keystore (for NSS only) | PKCS11NSSDIR |
-s |
slot index number | PKCS11SLOT |
-t |
token name | PKCS11TOKEN |
-p |
token password | PKCS11PASSWORD |
To extract the value of a non-sensitive object, use p11cat
:
$ p11cat pubk/rsa
-----BEGIN PUBLIC KEY-----
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA2zd+HKrd1u7TBMfvlpO2
1eT8uoY+aLw6/yT9treLk67czyA6XQ8NMtspacgxLXbC0XbaObGJDOswFN2o+zjA
hgKkBY6mEZKO3dzmqtQupQvxybyrj0pg0e+YoZe34rIjVvCdJ9T48etvCyrDZata
XYMw9pT2JvlJQG2ddPVjR83tGNayGYWmz5L0JwDLlb0NwJTJItIaabseIKHqQOzN
tSgeLsOmy08aqSq87WKEAilXrxcv8mWl/gbu18Chu4z7KJ76dWHnJfXzIMJCNNxf
HjhvKZx6bFMEi/gI9gCkUekO+6clrEjSxWzgnC8IDZCLGAvNBZ0pKBW9yEuayPiX
rQIDAQAB
-----END PUBLIC KEY-----
To see an object's value, use p11more
:
$ p11more cert/rootca
Certificate:
Data:
Version: 3 (0x2)
Serial Number: 2933735351 (0xaedd3fb7)
Signature Algorithm: sha256WithRSAEncryption
Issuer: C=BE, O=Dummy CA Inc., CN=Dummy Root CA G1
Validity
Not Before: Sep 28 08:10:48 2018 GMT
Not After : Sep 28 08:10:48 2028 GMT
Subject: C=BE, O=Dummy CA Inc., CN=Dummy Root CA G1
Subject Public Key Info:
Public Key Algorithm: rsaEncryption
Public-Key: (2048 bit)
Modulus:
00:a9:a6:a5:99:d0:3e:0e:00:c1:f7:df:9f:9c:92:
40:ac:67:d3:77:e0:d5:6d:eb:a0:5c:29:12:ad:57:
a3:23:9a:27:03:cb:dc:62:43:c3:04:a8:e8:a3:ab:
...
Moreover, p11od
can be used to extract all attribute values from an object:
$ p11od pubk/dh
pubk/dh:
CKA_CLASS:
0000 02 00 00 00 00 00 00 00 CKO_PUBLIC_KEY
CKA_TOKEN:
0000 01 CK_TRUE
CKA_PRIVATE:
0000 00 CK_FALSE
CKA_LABEL:
0000 64 68 dh
CKA_VALUE:
0000 7e cc a1 d2 c2 e7 90 b9 fa 68 fc ae 49 46 2e 0f ~........h..IF..
0010 62 1e 2c 69 2e 94 f2 eb 46 63 d7 fd 57 1f 5d 02 b.,i....Fc..W.].
0020 30 f4 3b 48 44 0c eb d7 7e 83 d5 26 7c 7a a3 f5 0.;HD...~..&|z..
...
Generating a key is easy: just use p11keygen
with the proper arguments.
$ p11keygen -k ec -q prime256v1 -i my-ec-key CKA_SIGN=true CKA_VERIFY=true
Generating, please wait...
key generation succeeded
Likewise, p11req
is used to generate a CSR.
$ p11req -i my-ec-key -d '/CN=my.site.org/O=My organization/C=BE' -e 'DNS:another-url-for-my.site.org' -v
Certificate Request:
Data:
Version: 0 (0x0)
Subject: C=BE, O=My organization, CN=my.site.org
Subject Public Key Info:
Public Key Algorithm: id-ecPublicKey
Public-Key: (256 bit)
pub:
04:3f:56:11:f8:38:c7:f0:c1:87:a4:75:1a:ca:2e:
46:38:9e:6a:79:3a:3e:a5:90:54:48:be:81:18:c6:
f3:1c:92:8b:72:35:cd:e3:32:8c:40:a4:d4:e7:33:
50:13:34:4a:87:e0:8c:17:77:39:ed:ef:de:d3:1a:
26:b3:11:87:13
ASN1 OID: prime256v1
NIST CURVE: P-256
Attributes:
Requested Extensions:
X509v3 Subject Alternative Name:
DNS:another-url-for-my.site.org
Signature Algorithm: ecdsa-with-SHA256
30:45:02:21:00:e8:b7:c0:49:bc:77:8d:94:29:18:66:8f:9d:
6a:62:cd:f0:84:46:89:73:93:11:d8:67:98:95:12:1c:53:f7:
5f:02:20:4a:b6:98:fd:66:be:7c:7f:d1:02:07:d0:5b:dc:8b:
fd:3f:89:f0:ed:03:ec:2e:a4:1c:72:a2:21:22:9f:a5:7d
-----BEGIN CERTIFICATE REQUEST-----
MIIBMTCB2AIBADA9MQswCQYDVQQGEwJCRTEYMBYGA1UECgwPTXkgb3JnYW5pemF0
aW9uMRQwEgYDVQQDDAtteS5zaXRlLm9yZzBZMBMGByqGSM49AgEGCCqGSM49AwEH
A0IABD9WEfg4x/DBh6R1GsouRjieank6PqWQVEi+gRjG8xySi3I1zeMyjECk1Ocz
UBM0SofgjBd3Oe3v3tMaJrMRhxOgOTA3BgkqhkiG9w0BCQ4xKjAoMCYGA1UdEQQf
MB2CG2Fub3RoZXItdXJsLWZvci1teS5zaXRlLm9yZzAKBggqhkjOPQQDAgNIADBF
AiEA6LfASbx3jZQpGGaPnWpizfCERolzkxHYZ5iVEhxT918CIEq2mP1mvnx/0QIH
0Fvci/0/ifDtA+wupBxyoiEin6V9
-----END CERTIFICATE REQUEST-----
Later, p11importcert
can be used to import the certificate back to the keystore. Public keys can be imported using p11importpubk
, and data files with p11importdata
.
If you need to wrap or unwrap a key, you can use the command p11wrap
:
$ p11wrap -w aes-wrapping -i rootca -a cbcpad >wrapped-key.wrap
key wrapping succeeded
The key can be unwrapped later, reusing the wrapped-key.wrap
file created earlier:
$ p11unwrap -f wrapped-key.wrap
key unwrapping succeeded
The project can compile on many platforms, including Linux, AIX, Solaris. Using cross-compilers, it is also possible to compile for the Windows platform. Compilation under MacOS requires brew. Please refer to docs/INSTALL.md for installation instructions.
Please refer to docs/MANUAL.md for instructions / how-to guide.
If you wish to contribute to this project, please refer to the rules in docs/CONTRIBUTING.md.
Eric Devolder (Mastercard, http://www.mastercard.com)
Except when specified differently in source files, the following license apply:
Copyright (c) 2018 Mastercard
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.