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Implement crypto.Signer and crypto.Decrypter for HSM-protected keys via PKCS#11

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Crypto11

GoDoc Build Status

This is an implementation of the standard Golang crypto interfaces that uses PKCS#11 as a backend. The supported features are:

  • Generation and retrieval of RSA, DSA and ECDSA keys.
  • Importing and retrieval of x509 certificates
  • PKCS#1 v1.5 signing.
  • PKCS#1 PSS signing.
  • PKCS#1 v1.5 decryption
  • PKCS#1 OAEP decryption
  • ECDSA signing.
  • DSA signing.
  • Random number generation.
  • AES and DES3 encryption and decryption.
  • HMAC support.

Signing is done through the crypto.Signer interface and decryption through crypto.Decrypter.

To verify signatures or encrypt messages, retrieve the public key and do it in software.

See the documentation for details of various limitations, especially regarding symmetric crypto.

Installation

Since v1.0.0, crypto11 requires Go v1.11+. Install the library by running:

go get github.com/ThalesGroup/crypto11

The crypto11 library needs to be configured with information about your PKCS#11 installation. This is either done programmatically (see the Config struct in the documentation) or via a configuration file. The configuration file is a JSON representation of the Config struct.

A minimal configuration file looks like this:

{
  "Path": "/usr/lib/softhsm/libsofthsm2.so",
  "TokenLabel": "token1",
  "Pin": "password"
}
  • Path points to the library from your PKCS#11 vendor.
  • TokenLabel is the CKA_LABEL of the token you wish to use.
  • Pin is the password for the CKU_USER user.
  • UseGCMIVFromHSM generates the IV for GCM mechanism from the HSM

Build

This package is using CGo for cryptographic packages.
Enable CGo before building Crypto11 :

go env -w CGO_ENABLED=1
go build

Testing Guidance

Disabling tests

To disable specific tests, set the environment variable CRYPTO11_SKIP=<flags> where <flags> is a comma-separated list of the following options:

  • CERTS - disables certificate-related tests. Needed for AWS CloudHSM, which doesn't support certificates.
  • OAEP_LABEL - disables RSA OAEP encryption tests that use source data encoding parameter (also known as a 'label' in some crypto libraries). Needed for AWS CloudHSM.
  • DSA - disables DSA tests. Needed for AWS CloudHSM (and any other tokens not supporting DSA).

Unit test on one file

export DEPENDENCIES="rand.go attributes.go hmac.go block.go crypto11.go common.go keys.go blockmode_cmd.go rsa.go certificates.go ecdsa.go blockmode.go sessions.go aead.go dsa.go symmetric.go common_test.go"
go test block_test.go $DEPENDENCIES

Remote debug :

dlv test --headless --listen=:2345 --api-version=2 --accept-multiclient block_test.go $DEPENDENCIES

Testing with AWS CloudHSM

A minimal configuration file for CloudHSM will look like this:

{
  "Path": "/opt/cloudhsm/lib/libcloudhsm_pkcs11_standard.so",
  "TokenLabel": "cavium",
  "Pin": "username:password",
  "UseGCMIVFromHSM": true
}

To run the test suite you must skip unsupported tests:

CRYPTO11_SKIP=CERTS,OAEP_LABEL,DSA go test -v

Be sure to take note of the supported mechanisms, key types and other idiosyncrasies described at https://docs.aws.amazon.com/cloudhsm/latest/userguide/pkcs11-library.html. Here's a collection of things we noticed when testing with the v2.0.4 PKCS#11 library:

  • 1024-bit RSA keys don't appear to be supported, despite what C_GetMechanismInfo tells you.
  • The CKM_RSA_PKCS_OAEP mechanism doesn't support source data. I.e. when constructing a CK_RSA_PKCS_OAEP_PARAMS, one must set pSourceData to NULL and ulSourceDataLen to zero.
  • CloudHSM will generate it's own IV for GCM mode. This is described in their documentation, see footnote 4 on https://docs.aws.amazon.com/cloudhsm/latest/userguide/pkcs11-mechanisms.html.
  • It appears that CKA_ID values must be unique, otherwise you get a CKR_ATTRIBUTE_VALUE_INVALID error.
  • Very rapid session opening can trigger the following error:
    C_OpenSession failed with error CKR_ARGUMENTS_BAD : 0x00000007
    HSM error 8c: HSM Error: Already maximum number of sessions are issued
    

Testing with SoftHSM2

To set up a slot:

$ cat softhsm2.conf
directories.tokendir = /home/rjk/go/src/github.com/ThalesIgnite/crypto11/tokens
objectstore.backend = file
log.level = INFO
$ mkdir tokens
$ export SOFTHSM2_CONF=`pwd`/softhsm2.conf
$ softhsm2-util --init-token --slot 0 --label test
=== SO PIN (4-255 characters) ===
Please enter SO PIN: ********
Please reenter SO PIN: ********
=== User PIN (4-255 characters) ===
Please enter user PIN: ********
Please reenter user PIN: ********
The token has been initialized.

The configuration looks like this:

$ cat config
{
  "Path" : "/usr/lib/softhsm/libsofthsm2.so",
  "TokenLabel": "test",
  "Pin" : "password"
}

(At time of writing) OAEP is only partial and HMAC is unsupported, so expect test skips.

Testing with nCipher nShield

In all cases, it's worth enabling nShield PKCS#11 log output:

export CKNFAST_DEBUG=2

To protect keys with a 1/N operator cardset:

$ cat config
{
  "Path" : "/opt/nfast/toolkits/pkcs11/libcknfast.so",
  "TokenLabel": "rjk",
  "Pin" : "password"
}

You can also identify the token by serial number, which in this case means the first 16 hex digits of the operator cardset's token hash:

$ cat config
{
  "Path" : "/opt/nfast/toolkits/pkcs11/libcknfast.so",
  "TokenSerial": "1d42780caa22efd5",
  "Pin" : "password"
}

A card from the cardset must be in the slot when you run go test.

To protect keys with the module only, use the 'accelerator' token:

$ cat config
{
  "Path" : "/opt/nfast/toolkits/pkcs11/libcknfast.so",
  "TokenLabel": "accelerator",
  "Pin" : "password"
}

(At time of writing) GCM is not implemented, so expect test skips.

Testing with a TPM and PKCS11

You must know that tpm2-pkcs11 is much more limited than other libraries like softhsm2 for cryptographic operations.
The absence of the C_GenerateKey function in the tpm2-pkcs11 library is one example of the limitations.
However, some of the tests have been modified to support the tpm2-pkcs11 library's specificities.

To test with a TPM, you need to :

  • install a virtual TPM or use a TPM on your machine
  • install the libtpm2_pkcs11 library
  • create all the keys you need for the unit tests in the TPM (since C_Generate key is not supported)

Configure :

{
  "Path": "/usr/lib/x86_64-linux-gnu/libtpm2_pkcs11.so.1",
  "TokenLabel": "mylabel",
  "Pin": "mypin"
}

Fine tune the unit tests to use the keys you created in the previous step.
Beware that a lot of unit tests may fail otherwise. You must fine-tune your usecase for a TPM usage.

Limitations

  • The PKCS1v15DecryptOptions SessionKeyLen field is not implemented and an error is returned if it is nonzero. The reason for this is that it is not possible for crypto11 to guarantee the constant-time behavior in the specification. See issue #5 for further discussion.
  • Symmetric crypto support via cipher.Block is very slow. You can use the BlockModeCloser API (over 400 times as fast on my computer) but you must call the Close() interface (not found in cipher.BlockMode). See issue #6 for further discussion.
  • Unit tests may interfere between them. You should fine tune and select the Go test file you want to run, one at a time.

Contributions

Contributions are gratefully received. Before beginning work on sizeable changes, please open an issue first to discuss.

Here are some topics we'd like to cover:

  • Full test instructions for additional PKCS#11 implementations.

Vulnerability check

$ govulncheck ./...                                                                                                                       ─╯
Scanning your code and 112 packages across 5 dependent modules for known vulnerabilities...

No vulnerabilities found.

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Implement crypto.Signer and crypto.Decrypter for HSM-protected keys via PKCS#11

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