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Sign and encrypt engine in Identity Manager

This article includes updates for Smart ID 23.10.3.

This article describes the sign and encrypt engine in Smart ID Identity Manager. There are a number of use cases in Identity Manager that are based on encryption or signing, for example:

  • Encrypt and decrypt fields in the Identity Manager database

  • Sign and verify object history

  • Optional: Sign and validate config zip files

  • Optional: Sign and encrypt emails

  • Encrypt communication with Hermod devices

  • Authenticate Smart ID Self-Service users to the Identity Manager backend

The sign and encrypt engine provides a consistent configuration of certificates for both signing and encryption. You can define algorithms and parameters and reference keys from an HSM or from PKCS#12 files.

The issuers of the referenced keys should also be trusted, that is, their certificates must be in the configured truststore.

  • For docker:
    The certificates to be added to the truststore upon container creation must be provided in the docker/compose/cacerts folder.
    If needed, they may be created with a script located inside docker/compose/bootstrap.
    If Smart ID was deployed using the script init-smartid.sh, then the bootstrap script was called and new certificates were created. Those may be changed before running docker compose up.


  • For WAR file deployment:
    The default keystore location is <tomcat>/conf/prime.truststore. However a different location may be set in <tomcat>/webapps/<application>/WEB-INF/classes/system.properties under the key jksKeyStoreProvider.keyStorePath.

Important info for customer deployments

The supplied P12 files in Identity Manager, such as sign.p12, are merely examples and must be replaced for customer deployments.

You can also find useful information here: Change Encryption key of secret field store.

Configuration file engineSignEncryptConfig.xml

Example configuration file



Example: engineSignEncryptConfig.xml
<?xml version="1.0" encoding="UTF-8"?> <engineSignEncrypt> <descriptors> <descriptor name="EncryptedFields" version="1"> <type algorithm="AES/CBC/PKCS7Padding" size="256" result="NX02" key="encCert" asymCipher="RSA/None/OAEPWithSHA384AndMGF1Padding"/> </descriptor> <descriptor name="ConfigZipSigner" version="1"> <type algorithm="SHA-256" size="" result="" key="configZipSignerCert" /> </descriptor> <descriptor name="ObjectHistorySigner" version="2"> <type algorithm="SHA-256" size="" result="" key="objectHistorySignerCert" /> </descriptor> <descriptor name="ObjectHistorySigner" version="1"> <type algorithm="SHA-256" size="" result="" key="signCertExpired" /> </descriptor> <descriptor name="SignEmailDescriptor" version="1"> <type algorithm="SHA256withRSA" size="" result="" key="emailSigningCert" /> </descriptor> <descriptor name="hermodDeviceEnc" version="1"> <type algorithm="SHA256withRSA" size="" result="" key="serverCert" /> </descriptor> <descriptor name="SelfServiceJWTSigner" version="1"> <type algorithm="RSA" size="2048" result="" key="selfServiceJWTSignerCert" /> </descriptor> </descriptors> <keys> <key name="encCert"> <type name="pkcs12" locationValue="classpath:hybridEncKeypair.p12" pin="1234567"/> </key> <key name="configZipSignerCert"> <type name="pkcs12" locationValue="classpath:sign.p12" pin="1234"/> </key> <key name="objectHistorySignerCert"> <type name="pkcs12" locationValue="classpath:sign.p12" pin="1234"/> </key> <key name="selfServiceJWTSignerCert"> <type name="pkcs12" locationValue="classpath:sign.p12" pin="1234"/> </key> <key name="signCertExpired"> <type name="pkcs12" locationValue="classpath:sign_expired.p12" pin="1234"/> </key> <key name="emailSigningCert"> <type name="pkcs12" locationValue="classpath:emailSigning.p12" pin="1234"/> </key> <key name="serverCert"> <type name="pkcs12" locationValue="classpath:deviceEncCA.p12" pin="1234"/> </key> </keys> </engineSignEncrypt>



Predefined descriptors

The following descriptors are predefined in the default file:

  • For docker:
    docker/compose/identitymanager/config/signencrypt.xml


  • For WAR file deployment:
    engineSignEncryptConfig.xml

Descriptor name

Description of use

Configurable?

Descriptor name

Description of use

Configurable?

EncryptedFields

Encrypt secret fields in Identity Manager, for example PIN codes in data pool definitions. It is not possible to change the keys once encrypted fields have been stored in the database. Version must be "1".

Yes.

The descriptor can be changed during installation. After installation, it can only be changed using the Secret Fields Key Updater. See Change Encryption key of secret field store.

If it is changed without using the Secret Fields Key Updater, then already encrypted fields stored in the database will not be readable.

ConfigZipSigner

Sign the Identity Manager configuration archive. Verification of the configuration archive uses the certificate that was put in the archive during signing.

Yes.

Changes take effect after restart of Identity Manager. Versioning can be used as with the ObjectHistorySigner descriptor, but this may make the file more difficult to read.

ObjectHistorySigner

Sign and verify database history.

Yes.

Old descriptors and certificates must be kept by using versioning, in order to verify history entries signed with them. 



SignEmailDescriptor

Sign emails from Identity Manager.

Yes.

Changes take effect after restart of Identity Manager. Versioning can be used as with the SignEmailDescriptor descriptor, but this may make the file more difficult to read.

hermodDeviceEnc

Communication with new device via Smart ID Messaging (Hermod), for example with Smart ID Mobile App or Smart ID Desktop App



Yes.

Changes take effect after restart of Identity Manager. Versioning can be used as with the hermodDeviceEnc descriptor, but this may make the file more difficult to read (and is also completely pointless in this particular case - see note to the left).

SelfServiceJWTSigner

Authenticate Smart ID Self-Service users to the Identity Manager backend.

Yes.

Changes take effect after restart of Identity ManagerVersioning can be used as with the SelfServiceJWTSigner descriptor, but this may make the file more difficult to read.

att_ATTESTATION,

att_external-attestation-1,

att_external-attestation-2,

att_external-attestation-3,

att_external-attestation-4

Validation of keys generated with the Smart ID Mobile App and Smart ID Desktop App.

These keys are used for validating the CSR that the "Mobile App: Create Key", "Desktop App: Create Virtual Smart Card Key" and "Desktop App: Create Windows Cert Store Key" tasks generate. See Smart ID Messaging - Standard service tasks in Identity Manager and Smart ID Messaging - Standard service tasks in Identity Manager. In these tasks you can configure which key to use:

  • att_ATTESTATION is the default key that will be used in case no other key has been configured.

  • att_external_attestation-1 through att_external_attestation-4 are further keys that are available on the Mobile App only.

No, for the Smart ID Desktop App, as The Smart ID Desktop App currently does not support changing this key.

Yes, for Smart ID Mobile App.

The default keys that are shipped with Identity Manager are built into Smart ID Mobile App. In case the mobile app is provided with custom keys, you need to create PKCS#12 containers with these keys and configure them in the engine.

Changes take effect after restart of Identity Manager.



Descriptor

This is an example of a descriptor (taken from the file shown above in the example file engineSignEncryptConfig.xml or signencrypt.xml for docker deployment), see the tables below the example for more information.

Descriptor example
<descriptor name="ObjectHistorySigner" version="2"> <type algorithm="SHA-256" size="" result="" key="objectHistorySignerCert" /> </descriptor>



descriptor element attribute

Description

descriptor element attribute

Description

name

Used by Identity Manager to refer to this descriptor. There might be different descriptors with the same name but with different versions.

version

A numeric value that denotes the descriptor's version. This is only needed for the ObjectHistorySigner. A new version of a descriptor is needed, for example, when an old certificate needs to be replaced. The descriptor with the highest version number is used. Verification of Object History entries will automatically select the right descriptor version.



Attribute of the type element inside descriptor

Description

Attribute of the type element inside descriptor

Description

algorithm

For field encryption: a symmetric algorithm to be used, for example, AES/CBC/PKCS7Padding.

For JWT: an asymmetric algorithm, for example, RSA.

For signing: a signature or hashing algorithm to be used (for example, SHA256withRSA or SHA-256).

size

For field encryption: size of the symmetric key, for example, 256.

For JWT: size of the asymmetric key, for example, 2048.

result

For field encryption: Output format. Currently, the only possible value is

  • NX02 : Output the raw bytes and some metadata.

key

Refers to a key defined in the same document

asymCipher

For field encryption: specific cipher description, for example, RSA/None/OAEPWithSHA384AndMGF1Padding.

When used with an HSM, you need to adjust the cipher format to be compatible with the JCE provider used for HSM access. 
For example, instead of the above cipher description, specify RSA/ECB/OAEPWithSHA-384AndMGF1Padding (ECB instead of None and SHA-384 instead of SHA384).

initVector

If this is missing, a random generated IV will be used. This is the recommended behaviour.

For migrating SmartAct or ProAct it is necessary to set a fixed IV here.

Key

This is an example of a key (taken from the file shown above in the example file engineSignEncryptConfig.xml or signencrypt.xml for docker deployment), see the tables below the example for more information.

Key example
<key name="objectHistorySignerCert"> <type name="pkcs12" locationValue="classpath:sign.p12" pin="1234"/> </key>



key element attribute

Description

key element attribute

Description

name

Used by descriptors' key attribute to reference this key.



Attribute of the type element inside key

Description

Attribute of the type element inside key

Description

name

Type of storage. For example, pkcs12 and HSM are supported.

locationValue

  • For docker:

    For a software keystore: place the keystore under docker/compose/certs before creating the container with docker compose. Then set its location, prefixed with "classpath:", for example:

    locationValue="classpath:keystore.p12"

    Docker deployment does not yet support HSM.


  • For WAR file deployment: 

For a software keystore: place the keystore under web-inf/classes and set its location, prefixed with "classpath:", for example:

locationValue="classpath:keystore.p12"

For an HSM, use the filename of the PKCS11 library, without filename extension, for example,

locationValue="C:\Path\To\pkcs11_lib"

pin

PIN for the keystore or HSM.

To avoid having clear text PINs in this file, the pin should be scrambled. That can be achieved by setting it with

pin.encrypted="1234"

instead of

pin="1234"

See Scramble sensitive data in Identity Manager files for details.

Configure ObjectHistorySigner

Identity Manager needs access to the old descriptors and certificates in order to verify history entries signed with them. To make a change:

  1. Create a new descriptor with the same name but increase its version number.

  2. To use a new PKCS#12 container, create a new key entry with a unique name and reference it using the key attribute of the new descriptor.

Identity Manager will now use the new descriptor for signing future entries. Verification will automatically use the correct descriptor, that is, older entries will use the old descriptor(s) while new ones will use the new one.

This is an example where the PKCS#12 container is changed.

Example: version control

Additional information





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