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KMIP Server-to-server: use-cases and status

Marko Vukolic mvu@zurich.ibm.com , Robert Haas rha@zurich.ibm.com. contributors HP - Stan Feather stan.feather@hp.com (Dec 2, 2010). KMIP Server-to-server: use-cases and status. Server to server (s2s): Focal use cases. Propagating key material closer to endpoints, e.g.,

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KMIP Server-to-server: use-cases and status

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  1. Marko Vukolic mvu@zurich.ibm.com, Robert Haas rha@zurich.ibm.com contributors HP - Stan Feather stan.feather@hp.com (Dec 2, 2010) KMIP Server-to-server: use-cases and status

  2. Server to server (s2s): Focal use cases • Propagating key material closer to endpoints, e.g., • Example 1 (retail store) • A retail store operation with each store relying on encrypted storage • Network connectivity with the central key management server (CKMS) not reliable • Small subset of the keys needed to be served locally, but the management is at CKMS • Keys at local key-management servers could be read-only, with pre-allocated usage or lease time • The local server needs to communicate with the CKMS • Example 2 (e-commerce websites) • Multiple e-commerce websites centrally managed (CKMS) • Some keys need to be pushed down from CKMS (readable locally), i.e., with CKMS exporting the keys • Propagating key material updates towards the central key manager • A large multinational bank needs the information about cryptographic material from distributed Location B in central Location A (but not vice versa) • Business-partner data exchange • Propagation of keys between KMIP servers to facilitate business partner data exchange • Example 3 (Collaborative development with offline key exchange) • Company A creates data to be processed by Company B. • Both companies have KMIP servers, behind separate firewalls • Company A stores the data (eg, encrypted tapes) and delivers the data to Company B • Company A transmits wrapped keys to Company B. • Exported attributes may be more restrictive than for the local keys • Company B registers the keys and attributes on their server. • Company B uses keys. • B’s server enforces restrictions set by Company A • Example 4 (Collaboration, with direct key exchange) • Similar to example 3, but servers have network access across firewalls (potentially temporary) • Rather than Company B registering the keys, Server A uses Put to transfer keys to Server B

  3. Server to server (s2s): Focal use cases (continued) • Partitioning • A KMIP server needs to be partitioned into more servers • KMIP server acting as the gateway/proxy • A less capable KMIP server may need to proxy client’s request to the more capable KMIP server (e.g., to interact with a PKI)

  4. Server to server (s2s): Deferred and excluded use cases • Deferred use cases: • Replication (fault-tolerance) • Exchange of different server policies and their enforcement • M&A • A company acquires another and cryptographic objects from different KMIP servers need to be merged • Excluded use cases (to be handled via mechansims outside KMIP): • Backup, Data Loss Prevention • Load balancing/Delegation

  5. KMIP Implications of s2s: Summary • Useful operations are optional (Notify, Put) • KMIPv2: make Notify and Put mandatory for a s2s compliant KMIP server • KMIPv2:More attributes are needed • e.g., Master, Slaves • Other issues (KMIPv2) • UUID, Name collisions across different servers. • Locate does not return an indication to the client whether there are more objects matching the query, nor the means to “resume” such a Locate (KMIPv2) • Bulk export/import can be only partially emulated (using batched operations) • support for “Get All Attributes” (fixed in KMIPv1.0) • The behavior of Put when Replaced Unique Identifier ruuid is specified, but the object with ruuid does not exist on the remote end needs to be specified (fixed in KMIPv1.0) • Notify does not support notification about deleted attributes (fixed in KMIPv1.0) • Other issues (fixed in KMIPv1.0) • Cannot Locate all • Locate supports wildcards only for Name and Object group

  6. Next steps summary • Write up detailed scenarios around focal use-cases • Address server representation/registration (cf. client registration) • “Entity” to represent servers as well, incl. contact info (IP address) to facilitate communication • Define additional attributes • Master/Slave • Interact with AC (e.g., Slave permissions). Can a Slave perform read-only, or pre-allocated usage, or … • Say something about UUID, Name collisions across servers • Provide means to continue/resume a Locate

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