SANCruiser SAN and Security Management System
CipherMax’s graphical SANCruiser secure storage management software has a powerful, feature-rich set of tools that enable easy management of all system, SAN and security functions throughout an enterprise storage environment. SANCruiser’s ability to support remote administration allows for deployment of storage security into remote locations with minimal management resource overhead. Discrete management interfaces and user roles enable the enforced separation of duties between storage and security administrators.
SANCruiser features and capabilities include:
- Global security administration of all CipherMax devices and LTO-4 drives attached to the SAN
- Single-pane-of-glass management for setting SAN and security parameters
- Automatic discovery of 3rd -party SAN components such as switches, tape drives, disk controllers, and disk volumes
- Automatic discovery of pre-set zones and optional support for LUN masking and re-mapping
- List and topology network views for ease of management
KeyCruiser Key Lifecycle Management
CipherMax’s KeyCruiser key lifecycle management system provides enterprise users with secure, manageable and accessible administration of their data encryption keys at all times. From random key generation to secure key handling, storage and recovery, KeyCruiser enables the flexible implementation of automated key control processes designed to mitigate the possibility of lost or exposed keys. KeyCruiser provides redundant offsite storage of encryption keys, security policies and system configurations to ensure system and data recoverability, along with the ability to replicate a complete system in the case of a catastrophic event using the "M of N" quorum recovery model.
KeyCruiser features and capabilities include:
- Provision of a centralized, redundant, long-term key repository
- Secure backup of keys for all CM systems and LTO-4 encrypting drives
- Key sharing between authorized security domains
- Data and system recovery in disaster situations
- N-way clustering for geographically distributed redundancy
