Roadmap
From K5Wiki
This is the outline of the development roadmap for MIT Kerberos. A more comprehensive list of projects is also available; some individual projects have links below.
Timeline
Target 6 to 12 month cycle. (9 months plus/minus 3)
- krb5-1.8
- Branch Jan. 2009
- Release early Mar. 2010
- krb5-1.9
- Branch Sep. 2010
- Release Dec. 2010
- krb5-1.10
- Branch Jul. 2011
- Release Sep. 2011
Guiding principles
- Code quality
- Developer experience (including modularity)
- End-user experience
- Administrator experience
- Performance
- Protocol evolution
Current roadmap items
Code quality
- Move toward test-driven development
- Python-based test framework (1.9)
- Increase conformance to coding style
- Selective refactoring
- KDC (1.9)
- Continue formatting cleanup
- Selective refactoring
Developer experience
- Support readily building subsets
- "Lite" client
- "Lite" server
- GSS-API: separate context establishment from message protection functions, e.g. Solaris user/kernel space split
- KDC Database modularity (long-term)
- SQLite back end
- Does the existing DAL make sense?
- Make data model less "blobby"
- Track IETF data model work
- Plugin support improvements
- PRNG
- GSS-API mechanism glue
- DNS / host-to-realm mapping
- Profile / configuration
- Secure co-processor ("would be nice")
- Crypto modularity -- make sure PKCS#11 etc. work well
- NSS back end (1.9)
End-user experience
- Localization
- Credential management
- KIM API (done)
- Cross-platform CCAPI
- Done for Mac & Windows
- UNIX implementation
Administrator Experience
- Improve IPv6 support
- Improve key rollover
- Application service keys
- Add interface to purge old keys (1.8 patch?)
- Add interface to delete keys of specific enctypes (1.8 patch?)
- Decrease DNS-related fragility
- Trace logging for easier troubleshooting (1.9)
- Plugins for password quality checks (1.9)
- Plugins for login failure lockout
- Plugins for audit support
- Plugins for password synchronization
- Printing enctypes using the "input form" string
- Friendlier smart card support
Performance
- Decrease DNS traffic
- Replay cache ("rcache")
- Disable on KDC
- Avoids known false-positive issues
- Improve implementation
- Support disabling by service type name
- Disable on KDC
- Enhancements to improve concurrency
- Explicit state
- Reduce mutex contention
- Support asynchronous APIs and frameworks such as Apple's Grand Central Dispatch; begin refactoring code to make this easier
Protocol evolution
- International strings in protocol (need IETF feedback)
- Principal names
- Error strings, etc. (need language tag negotiation)
- Timestamp-independence
- Replay-proofing protocols
- Encryption algorithm updates (SHA-2, SHA-3, CCM, GCM)
- Camellia (1.9)
- S4U2Self/S4U2Proxy
- IAKERB (1.9)
- PKU2U
- One time password support
Completed roadmap items
Code quality
- Remove krb4 (1.7)
- Move applications to separate distribution (1.8)
- Use safer library functions
- Avoids false positives
- Avoids need to (probably manually) evaluate "unsafe" calls
- Stop using strcpy, strcat, sprintf, etc.
- Mostly done
- New internal APIs for complex operations
- Reduce commitment to "difficult" platforms
- See supported platforms
- Focuses resources more effectively
Developer experience
- GSS-API mechglue changes to enable NTLM support (1.7)
- Crypto modularity (1.8)
- Native (accelerated) crypto API support
- Performance optimizations (caching, etc.)
- New API design for encryption performance (1.8)
- "The Great Reindent" (1.8)
End-user experience
- Referrals (1.7)
Administrator experience
- Incremental propagation (1.7)
- Master key rollover (1.7)
- Auditing support (log all ticket requests) (1.7)
- Disable DES by default (1.8)
- Add more versatile facilities for configuring cryptosystems
- Lockout for repeated login failures (1.8)
- Implement LHA/Apple proposal to store config information in ccache to signal when a realm supports referrals and thus the future capability to eschew reverse DNS resolution
Performance
- New crypto API (1.8) facilitates optimizations
- Replay cache ("rcache")
- Collision avoidance (1.7)
Protocol evolution
- Encryption algorithm negotiation (1.7)
- Microsoft Kerberos extensions (1.7)
- Improved PKINIT support (1.7)
- Anonymous PKINIT (1.8)
- FAST (done in 1.7 for a subset; IETF)