$NetBSD: system,v 1.8 2009/11/17 21:09:54 agc Exp $ NetBSD System Roadmap ===================== This is a small roadmap document, and deals with the main system aspects of the operating system. The following projects are already in NetBSD-current and will appear in NetBSD 6.0: 1. 64-bit time values supported 2. Better Kernel Modules support 5. namei() tactical changes 10. emap (ephemeral mapping) support for i386 and amd64 11. support for mDNSResponder The following projects are expected to be included in NetBSD 6.0 3. Full kernel preemption for real-time threads 4. POSIX shared memory 6. Better resource controls 7. Improved observability: online crashdumps, remote debugging 8. Processor and cache topology aware scheduler 9. namei() strategic changes We currently expect to branch 6.0 in the March 2010 timeframe, with a view to a 6.0 release later in 2010. We'll continue to update this roadmap as features and dates get firmed up. Some explanations ================= 1. 64-bit time_t support ------------------------- The Unix 32-bit time_t value will overflow in 2037 - any mortgage calculations which use a time_t value are in danger of overflowing at the present time - and to address this, 64-bit time_t values will be used to contain the number of seconds since 1970. This was completed in 5.99.7 by Christos (with no libc major bump - kudos and respect), and will be in 6.0. Responsible: christos 2. Better Kernel Module Support ------------------------------- Starting with 5.99.2, the kernel support for modules was enhanced by ad, and GENERIC was switched over to be a MODULAR kernel. Support from booting from modules, like ffs, was introduced at the same time. Some work has been done by Luke Mewburn in this area to define module locations and paths so that effective kernel development can be done using modules. Kernel modules have been moved out of base.tgz and a new modules.tgz has been created. Responsible: ad, lukem 3. Full kernel preemption for real-time threads on non-x86 ---------------------------------------------------------- With the revamp of the kernel concurrency model, much of the kernel is fully multi-threaded and can therefore be preempted at any time. In support of lower context switch and dispatch times for real-time threads, full kernel preemption is being implemented. This has been implemented already for i386 and x86_64 (and is in 5.0), but needs to be extended to support the ARM, MIPS and SuperH ports. Responsible: rmind 4. POSIX shared memory ---------------------- Implement POSIX shared memory facilities, which can be used to create the shared memory objects and add the memory locations to the address space of a process. Responsible: rmind 5. Incremental namei improvements, Phase 1 ------------------------------------------ In NetBSD 5.99.15, some changes were made to split the namei() routine up into logical parts, so that changes can be made to the constituent parts in a less intrusive way. This is in the repository now, and will be in 6.0. Responsible: dholland 6. Better resource controls --------------------------- A resource provisioning and control framework that extends beyond the traditional Unix process limits. 7. Improved observability: online crashdumps, remote debugging -------------------------------------------------------------- XXX crashdumps while the system is running XXX firewire support in libkvm 8. Processor and cache topology aware scheduler ----------------------------------------------- Implement the detection of the topology of the processors and caches. Improve the scheduler to make decisions about thread migration according to the topology, to get better thread affinity and less cache thrashing, and thus improve overall performance in modern SMP systems. Responsible: rmind 9. Incremental namei improvements, Phase 2 ------------------------------------------ Building on the namei() split which was introduced in 5.99.15 (see (5) above), further changes will be introduced: see the changes to namei outlined in Message-ID: <20080319053709.GB3951@netbsd.org> for more information. This will simplify the locking and behavior of namei() calls within the kernel to resolve path names within file systems. Responsible: dholland 10. Ephemeral Mapping --------------------- Responsible: rmind 11. Multicast DNS and DNS Service Discovery ------------------------------------------- mDNSResponder (also known as mdnsd on some systems) is a daemon invoked at boot time to implement Multicast DNS and DNS Service Discovery. On Mac OS X 10.6 (Snow Leopard), mDNSResponder is also the system-wide Unicast DNS Resolver. Ty Sarna added support for mdnsd to NetBSD-current, and it will appear in NetBSD 6.0. Alistair Crooks Thu Nov 5 07:47:34 PST 2009