It meets all requirements for an internal enterprise TSA or to power world-class commercial TSA services to multiple third parties. It has been implemented fully in Java EE for multi-platform support, performance and high-availability. ADSS TSA Server is the marketing name for ADSS Server when licensed for TSA services only.The following highlights just some of its main features.
Set-up multiple virtual TSA servers all from the same physical machine with easy central management console, and lower total cost of ownership when compared to having separate TSA servers with dedicated hardware and software costs. Each TSA profile can use different TSA policies, perhaps with different time accuracies and TSA signing keys.
ADSS TSA Server is certified to meet the CWA 14167-1 requirements for trustworthy systems making it suitable for use by Qualified Certificate Service Providers (CSPs). Various HSMs are supported that meet Common Criteria EAL4 and FIPS 140-2 levels 2, 3 and 4.
RFC 3161 is the definitive standard for secure cryptographic timestamping. ADSS TSA Server has been independently tested for compliance against this specification. It has been widely tested with a range of 3rd party timestamp client applications.
Supports the Microsoft Authenticode specific approach for the timestamping of software code signatures, thus allowing software applications to be trusted in the long-term.
The ADSS TSA Server access control module allows operators to restrict client access based on TLS/SSL client certificates, request signing and/or using IP address filtering. Multiple rules can be set up to detect specific client certificate fields and range of IP addresses to accept/reject.
The popularity, reliability and trustworthiness of ADSS TSA Server is attested by the number of organisations that use it for its timestamping services. Customers who rely on ADSS TSA Server range from governments, to qualified CA service providers, major banks, telcos and global enterprises.
ADSS Server is built using Java EE architecture to provide high performance and scalability. It supports virtualised environments, where CPU and memory can be increased for performance gains. Even on a single server ADSS OCSP Server can provide several hundred OCSP transactions per second, furthermore the use of a hardware load-balancer with multiple ADSS OCSP Server instances can satisfy any demanding performance requirements.
Multiple ADSS Servers can be used in load-balanced mode to maximise availability across one or more live sites (also use DB replication/clustering and HSM replication for complete infrastructure resilience).
ADSS TSA Service comes with its own management reporting module. This provides the ability to create graphic and tabular reporting on all service requests within a particular date period. The management reports show the number of transactions processed, their results, who the main TSA clients are, which TSA profiles were used the most etc. Reports can be exported in PDF and CSV format.
All TSA request/response transactions are securely logged in the ADSS TSA Server database. To support administrator’s review of these transactions, viewers are provided which automatically convert the TSA binary transactions into human-readable form, thus allowing easy analysis of reported trust issues or interoperability checking.
FIPS and Common Criteria certified HSMs from SafeNet, Thales and Utimaco can be used to stored and protect all cryptographic keys. Support for other PKCS#11 compliant HSMs can also be provided if required. HSMs can be network, PCIe or USB connected. One or more HSMs, smart cards or USB tokens can be connected to ADSS Server. Another key feature of ADSS Server is the sophisticated auto-reconnect feature that prevents a network issue requiring operator intervention to reconnect a network HSM!
Support for the common cryptographic algorithms is provided including SHA1, SHA-2 (SHA-256, SHA-384, SHA-512), RSA keys up to 4096 bits and ECDSA up to 521 bits.
ADSS Server operators are authenticated using certificates over a mutually authenticated TLS/SSL sessions. The operator’s private key and certificates can be on a hardware token for strong multi-factor authentication. ADSS Server performs full certificate validation, including revocation checking, before allowing operators to login to the console.
ADSS Server enables multiple operator roles to be defined. Each operator registered within the system is assigned a role. The role-based access control system enables very fine control over specific service modules that an operator can see and whether they have read, write, edit or delete capability for specific areas of functionality.
ADSS Server implements dual control in a flexible and practical way, i.e. dual control can be applied selectively to the important aspects of functionality that are considered most sensitive (such as key generation, policy change etc). When used, an operator’s actions are queued for a Security Officer role-holder to review and then approve or reject the action.
Business applications are authenticated using TLS/SSL client certificates that are pre-registered in ADSS Server. The application’s access to specific profiles and/or keys is checked as part of the ADSS Server authorisation process when service requests are received.
Cryptographic tamper-resistant logs are provided for all service transaction logs that contain details of requests and responses, all operator activity logs and all system event logs. Advanced reporting, reviewing including searching and filtering of log records is provided. All database log records are cryptographically protected to prevent record modification, deletions or additions.
All ADSS Server configurations and settings held in the database are cryptographically protected to prevent record modification, deletion or addition. The system automatically checks these records at pre-defined intervals or on demand to ensure system integrity. A detailed report is produced for any issues that are found.
Selected system operators can be alerted when certain event conditions occur using email or SMS messages. Management systems can be alerted using SNMP messages or via Syslog (log4j) messages.
ADSS Server is feature rich to minimise IT operations time. The simple installation wizard, the automatic checking of system integrity and auto-archiving and alerting ensure the system runs without daily operator involvement. The detailed transaction logs and detailed request/response viewers reduce support desk time in resolving operational issues. ADSS CA Server is also able to run an automatic upgrade process for its settings and data to run the latest version of software.
To prevent database bloating ADSS Server can be configured to automatically archive database log records. As the archive log files are created and written to disk, they are digitally signed to provide authentication and integrity. The archived files can later be imported, verified and viewed within the transaction log viewer.
ADSS Server features an optional NTP Time Monitor service that regularly checks the operating system time and compares this with one or more configured NTP time servers to detect unacceptable time drift or IT operational errors. Configured time thresholds allow ADSS Server operators to be alerted to time issues and ultimately all trust services can also be stopped automatically.