buck@siswat.UUCP (A. Lester Buck) (10/10/90)
> This is a summary of the responses I received from an earlier posting. > With a plea for help in adding an allocate function to future releases of Unix. [ needs to allocate all blocks of a file "instantly" ] > What I am doing is recording several channels of CD/DAT quality sound > simultaniously on generic SCSI disks attached to a computer using a > special SCSI disk controller. The SCSI disk controller sits between the > SCSI bus on the CPU and the disks (it has 2 SCSI ports). It is operating > system and file system independent and therefore works on Unix (assuming > SCSI disks). BUT it expects that a file is fully allocated by the > operating system prior to recording (so it knows where on disk to put > the data) which takes a fraction of a second on VMS, MS-DOS, and MAC/OS > but takes several minutes on Unix. This is because I have to write out > each block of the file for it to be "fully" allocated. After the file > is allocated then I mearly write to the SCSI disk controller the files > logical block mapping and it then can record the sound. Playing or Uh, you have a serious contradiction here. "Operating and file system independent" software doesn't require writing out filesystem logical block mappings to the disk controller. > This is a very significant problem since for the typical example of a > Unix based 16 track recording studio, recording a song 2 minutes long > would take 16 minutes to allocate the files (using the write each block > method). > SUMMARY OF RESPONSES: > - Many people suggested forgetting the Unix file system and writing my own. > --> Ruins the beauty of using existing Unix tools and file system <--- I suggested you use the raw device in email the first time around. A simple flat filesystem (you are talking very large files here) is pretty easy to do. [some suggestions deleted] I will assume your SCSI controller stripes to its disks, something like RAID. Since you have to download your logical mapping of allocated space, I assume it does its own remapping to make the data contiguous for performance, then fakes out the OS. Of course, this is hardly OS independent. Here is the solution to your problem. I presume you are using a well documented filesystem, such as System V or BSD Fast File System. (This was also posted to the AIX group, but all bets are off if you are using TCF and the Locus distributed filesystem!) Unmount the target filesystem and _allocate the space yourself_. This is not nearly as hard as it might sound, if you have read and understood the relevant section in Bach and played with fsdb on a floppy filesystem. Or rag on your vendor to supply the same program. This would be reasonably portable among the System V versions - not sure sure about BSD variants. The kernel is hardly doing anything magic - just grungy. BTW, I can't find an MS-DOS system call to return the file allocation. Why is is okay to directly read out the FAT on MS-DOS, but you expect not to have to directly access the inodes, etc., on Unix? > How do I get the Unix software design engineers and standards community to > consider modifying future releases of Unix of all flavors to allocate files? > With computer based audio recording studios and compressed video to disk > hitting the streets, isn't it a good idea for Unix to be there too? I see this > as a critical issue and easy to fix short comming of the Unix file system. > Is there anyone out there who grasps the importance of such a modification > to data base and real time users of Unix and who sees that such a modification > would not be a hinderance to Unix but an enhancement??? The POSIX.4 Realtime Extensions draft includes a chapter on Realtime Files. These lay out a complete set of functions for specifying various properties of files, including contiguous, pre-allocation, extension, direct I/O, cache usage, aligned transfers, and transfer granularity. Specifically, pre-allocation makes the distinction between reservation and allocation. Reservation deals with guaranteed access to resources, while allocation removes the filesystem overhead during I/O. This is a complicated chapter, but a quick scan does not reveal any way of getting the actual logical blocks allocated to a file on a filesystem. After all, what would this mean for a POSIX implementation on, say, MVS? In general, there is no portable, operating system independent way to get the logical layout of a file on a medium, and certainly not in Unix. So even if some future version of Unix supplies a pre-allocation function, I doubt it will ever support feeding the low level details of logical block allocation back to the user, and I don't think it should. You want to do extremely system dependent, non-portable things, so you get to do extra work. Just look at all those different architectures that VMS, MS-DOS, and Mac OS run on. (Uhhh..., forget I said that. I don't want to start _that_ thread in c.u.aix all over again. :-) ) -- A. Lester Buck buck@siswat.lonestar.org ...!texbell!moray!siswat!buck