CM 8.11.x - Requirements and interoperability
This article includes updates for Certificate Manager 8.11.
This article provides a list of supported platforms, formats, and third party products, for use with Smart ID Certificate Manager (CM). All listed hardware and software can be used in supported configurations of the product.
Requirements
Operating systems
Key Generation System, KGS
Windows Server 2012 R2, 2016, 2019, 2022
Windows 7, 8.1, 10
CM Clients
Windows 10
Windows Server 2016, 2019, 2022
Red Hat Enterprise Linux 8, 9
Rocky Linux 8, 9
CM Server
Windows Server 2016, 2019, 2022
Red Hat Enterprise Linux 8, 9
SUSE Linux Enterprise Server 15.4
Rocky Linux 8, 9
Podman
The default Java 17 OpenJDK implementation provided in the repos is missing implementation for some Elliptic curves. Eclipse Temurin OpenJDK distribution from Adoptium is recommended (Latest Releases | Adoptium).
The installation will fail if the operating system is unsupported.
Database versions
Microsoft SQL Server Express and Enterprise editions:
2016, 2017, 2019, 2022
Oracle Express and Enterprise editions:
19c
PostgreSQL:
13, 14, 15, 16
MySQL
8.0
Azure SQL Database
MariaDB
10.5 - 10.10
Java Virtual Machine
CM Server
Oracle Java SE JRE 17, OpenJDK 17. (64 bit).
On Windows platforms with Oracle Java installed, the newest Java is used by default, even if multiple Java versions are installed.
On Windows platforms with OpenJDK Java installed, the Java to be used has to be manually specified, see Install Certificate Manager server components on Windows, heading "Java version".
CM Clients
Oracle Java SE JRE 17, OpenJDK 17. (32/64 bit)
For Linux, 64-bit Java is required in order to use Personal Desktop Client.
For Windows with OpenJDK Java installed, the Java to be used has to be manually specified, see Launch Certificate Manager clients, heading "Specify JRE".
CM SDKÂ
Oracle Java SE JRE 17, OpenJDK 17, JRE 8. (32/64 bit.)
Web application server
CM Web Services and Protocol Gateway servlets require a servlet engine supporting the Java API for Servlets v3.1. Apache Tomcat version 10.1 is the recommended engine.
Personal Desktop Client
Nexus Personal Desktop Client is a middleware for use on CM clients, for officer smart card authentication and personalization of smart cards.
Use these versions of Personal Desktop Client, they are included in the CM delivery.
For operating systems:
5.15 for Windows
5.11 for RedHat and Rocky Linux (deprecated)
Interoperability
Formats and standards
Certificate formats
X.509/RFC 3280/RFC 5280/RFC 6818 certificates, configurable profiles.
X.509/RFC 5755 attribute certificates.
Common PKI (alias ISISMTT) v2.0 private extensions, private attributes and optional SigG-Profile.
Card Verifiable Certificates (CVC). CV certificates must be issued over CM SDK. The following types are supported:
according to Gematik specification Electronic Health Card, Part 1, v2.0.0 (Dec. 2007). Generations G0, G1 and G2. CPI types: 3, 4, 21, 22 and 70.
according to the BSI Technical Guideline TR-03110, Advanced Security Mechanisms for Machine Readable Travel Documents and eIDAS Token. CPI type: 0.
Smart Tachograph certificates. Generation 1 and Generation 2.
Certificate Transparency Precertificate, RFC 6962
IEEE 1609.2 certificates for CAs, sub CAs and end-entities in V2X PKI's.
PKIX and ETSI Qualified Certificates.
OpenPGP V4 keys and certificates, RFC 4880.
Extended Validation certificates.
Swedish eID certificate profile as defined by the Swedish e-identification board.
PSD2 Qualified Certificates, as specified in ETSI TS 119Â 495.
Certificate Revocation List (CRL) formats
X.509/RFC3280/RFC5280 CRL.
Full and delta CRL.
Direct and indirect CRL.
Partitioning according to revocation reasons.
Immediate CRL issuing option: besides the regular issuing, a CRL can be generated immediately at revocation of a certificate.
Certificate Issuance List
A Nexus proprietary format used by CM to inform the Nexus OCSP Responder about issued or activated certificates to enable the non-issued concept of RFC 6960 and for activation of user certificates. The CIL format is similar to CRL in structure and is signed alike by the CA.
The following types of CILs are provided:
Complete CIL
Size segmented CILs
Delta CIL
Certificate Transparency
Support for precertificates according to RFC 6962, Certificate Transparency, with version 1 Signed Certificate Timestamps (SCTs) and Log servers.
Algorithms and key types
CA signatures RSA, RSASSA-PSS, DSA. Key lengths as supported by HSM (e.g. RSA 1024 - 16384 bit). Algorithms: SHA-1, SHA-224, SHA-256, SHA-384, SHA-512, SHA3-224, SHA3-256, SHA3-384, SHA3-512, RipeMD-160.
CA signatures EC: Prime field based ECDSA algorithms with named curves as supported by HSM, hash functions as above.
CA signatures EdDSA: Ed25519PH, Ed25519, Ed448PH and Ed448.
End user keys RSA when using the CM RA client: 1024-8192 bits (soft tokens and on smart card/token type). Longer key lengths can be used with other enrollment API's and with CM SDK based clients.
End user keys EC: Prime field based ECDSA algorithms with arbitrary curve parameters (only on smart cards). Certificates for ECDSA keys can be requested only via CM SDK.
End user keys Edwards: Ed25519PH, Ed25519, Ed448, Ed448PH, X25519 and X448 keys.
Certificate enrollment protocols
This article describes which certificate enrollment protocols can be used with Smart ID Certificate Manager (CM). Third party devices, clients, servers, and software components with built-in support for standards-based certificate enrollment protocols can benefit from the corresponding server-side support in Certificate Manager.
These are the supported standard-based protocols:
ACME- Automatic Certificate Management Environment, RFC 8555
CMP- Certificate Management Protocol, RFC 4210, RFC 4211
CMC- Certificate Management over CMS, RFC 5273
EST- Enrollment over Secure Transport, RFC 7030
EST-coaps- Enrollment over Secure Transport with the Secure Constrained Application Protocol, RFC 9148
SCEP- Simple Certificate Enrollment Protocol, draft-nourse-scep-23
WinEP- Windows certificate auto enrollment using Windows certificate templates
In addition to the standards-based protocols, listed above, CM provides protocols that offers additional features for customized clients, web front-ends, etc:
CM SDK- CM Software Development Kit, a Java API.
CM REST API- CM RESTful API.
C2X REST API- RESTful API for V2X certificate enrollment.
CM WS- SOAP Web Services
For more information, see Certificate Manager interfaces.
Monitoring
Operational logs and signed audit logs
Ping-request for system health checks
SNMP v3
Syslog
Metrics
Software token formats
PKCS#12 v1.1, according to RFC 7292
PGP, OpenPGP V4 keys and certificates. RFC 4880.
Smart cards
Smart card support as provided in middleware used by card personalization software, for example CM clients, Smart ID Identity Manager, and SmartAct.
By default, Certificate Manager uses Nexus Personal Desktop to communicate with smart cards.Â
The following smart cards are supported for personalization:
Atos CardOS 4.4, 5.0, 5.3
Gemalto IDClassic 340
Gemalto IDPrime MD 840 Nexus Profile. Gemalto product name: ENT_Nexus_IDPrime MD 840_PPR. PDM-Customer Item: C1105591 A.
CardOS smart cards must be prepared with the card profiles delivered with CM, in accordance with ISO/IEC 7816-15:2004.
Third-party software
X.500 directories
Certificate Manager supports directory servers compliant with LDAPv3 and X.500 for retrieving user data, publication of certificates and CRLs.
Certificate Manager is tested and commonly used with, but not limited to, the following directory servers:
Atos DirX Directory
ApacheDS
Microsoft Active Directory
OpenLDAP
Mobile Device Management solutions
MDM software that supports SCEP can request certificates for registered devices.
Nexus has explicitly verified the following software:
Microsoft Intune
MobileIron
VMware AirWatch
Samsung Knox Manage
Microsoft Enroll on behalf of (EOBO)
WinEP has been confirmed with the following software:
Windows (CMC)
See Verify Enroll on behalf of for Windows for more information.Citrix FAS
See https://docs.citrix.com/en-us/federated-authentication-service for support and help with configuration of Citrix FAS.
Third-party hardware
Firewalls and routers
Certificate enrolment for firewalls and network equipment using SCEP is based on version: draft-nourse-scep-23.
The following devices are explicitly verified:
Cisco – current SCEP compatible IOS and ASA versions
Fortinet FortiGate firewall series with up-to-date firmware
Hardware Security Modules
A PKCS#11 compliant device can be used for handling of CA key pairs, system keys, protection of archived keys, and for key generation.
For functional specifications, known issues and limitations related to current PKCS#11 drivers, see each HSM vendor’s web site.Â
The following devices are explicitly verified for Certificate Manager and for Nexus OCSP Responder:
AEP Systems Sureware Keyper, FIPS 140-1 level 4
Atos Bull Trustway Proteccio NetHSM
Has not been verified with the KAR functionality.
DocuSign ARX PrivateServer
Fortanix DSM
Gemalto SafeNet ProtectServer Internal - Express 2
Gemalto SafeNet ProtectServer External 2
Thales Luna CA3, FIPS 140-1 lvl 3
Thales Luna CA4, FIPS 140-2 lvl 3
Thales Luna SA 4.4, FIPS 140-2 lvl 3
When used with CM, since Thales Luna disallow key export when in FIPS mode, enable non-FIPS mode for use with CM KAR, Key Archiving and Recovery.
Thales Luna SA 5.0, FIPS 140-2 lvl 3
When used with CM, since Thales Luna disallow key export when in FIPS mode, enable non-FIPS mode for use with CM KAR, Key Archiving and Recovery.
Thales Luna G5
Thales Luna HSM 6
Thales Luna Network HSM 7
Thales Luna PCIe HSM 7
IBM 4758, FIPS 140-1 level 3 and 4
Nitrokey HSM 2
Entrust nShield Connect+, FIPS 140-2 level 3
Entrust nShield Solo+, FIPS 140-2 level 3
Entrust nShield Edge
Utimaco CryptoServer Security Server CS 10/50 LAN/PCI, FIPS 140-2 level 3 (level 4 for physical)
Utimaco CryptoServer CP5
Utimaco CryptoServer Security Server Se 12/52/420/1200 LAN/PCI, FIPS 140-2 level 3
Yubico YubiHSM 2
Card stackers
Stackers used for smart card handling with KGS.
Fischer Electronicsysteme GmbH
Zeitcontrol MKW Professional.
Card printers
Mass production of cards with card printers is enabled in Registration Authority and Batch Explorer clients by using Nexus Card SDK. Card SDK enables card printing and feeding of cards, while Nexus Personal Desktop Client handles chip personalization.
Printer models as supported by the Nexus Card SDK. The printer must be equipped with a smart card chip coupler that can be accessed over USB from the client computer. A PC/SC driver has to be installed on the client.
A license for Nexus Card SDK must be purchased separately.
PIN letter printers
Printers using a vendor provided driver is expected to work with CM Secure Printer for PIN letters. Dot matrix printers, capable of printing on 3-layer PIN envelopes, which have been explicitly tested:
Tally T2340/24
EPSON LQ-300, 300+II
Laser printers can be used for printing PIN letters equipped with a removable PIN protection label.
Smart card readers
Readers for personalization of cards and for using smart card based CM officers with the CM clients.
PC/SC compliant card readers.
PC/SC 2.01 Part 10 compliant PIN-pad readers
HID/Omnikey 6121 Mobile USB smart card reader (to be used with smart cards in SIM format).
LTE Devices
This article describes which LTE (long-term evolution) and 5G devices can be used with Smart ID Certificate Manager (CM).Â
LTE equipment that supports SCEP or CMP can request certificates after being registered in CM.Â
The following devices are explicitly verified:
Airspan AirHarmony 1000 ENB (CMP)
Airvana/Commscope OneCell (CMP)
Alcatel Lucent 9412 (CMP)
CISCO 7600 Series Routers with SAMI (CMP)
Ericsson RBS6000 (SCEP)
Ericsson RBS6201 (CMP)
Fortinet Fortigate Next Generation Firewall (SCEP, CMPv2)
Huawei ENB (CMP)
Huawei Femtocell BTS3202H, 3202E (CMP)
Juniper SRX (SCEP)
NEC eNB.
Nokia Networks ENB (CMP)
Nokia Networks Flexi Zone micro (CMP)
XipLink, XS-SCPS TCP accelerator, XO-VPN
High availability solutions
Different types of high availability techniques can be used with the CM core components Certificate Factory (CF) and Certificate Issuing System (CIS):
Active/passive dual-node hardware cluster using clustering software supported by the OS: Microsoft Windows Server Failover Clustering and Red Hat Cluster High Availability.
Active/active, unlimited number of active nodes behind a load balancer. This alternative provides performance scalability in addition to HA.
High Availability functionality as provided in virtualization software solutions, for example, VMware vSphere HA.
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