NetBSD/sys/ufs/lfs/TODO

130 lines
6.0 KiB
Plaintext
Raw Normal View History

# $NetBSD: TODO,v 1.4 2000/11/17 19:14:41 perseant Exp $
- If we put an LFS onto a striped disk, we want to be able to specify
the segment size to be equal to the stripe size, regardless of whether
this is a power of two; also, the first segment should just eat the
label pad, like the segments eat the superblocks. Then, we could
neatly lay out the segments along stripe boundaries. [v2]
- Working fsck_lfs. (Have something that will verify, need something
that will fix too. Really, need a general-purpose external
partial-segment writer.)
- Roll-forward agent, *at least* to verify the newer superblock's
checkpoint (easy) but also to create a valid checkpoint for
post-checkpoint writes (requires an external partial-segment writer).
- Inode blocks are currently the same size as the fs block size; but all
the ones I've seen are mostly empty, and this will be especially true
if atime information is kept in the ifile instead of the inode. Could
we shrink the inode block size to 512? Or parametrize it at fs
creation time?
- Get rid of DEV_BSIZE, pay attention to the media block size at mount time.
- More fs ops need to call lfs_imtime. Which ones? (Blackwell et al., 1995)
- lfs_vunref_head exists so that vnodes loaded solely for cleaning can
be put back on the *head* of the vnode free list. Make sure we
actually do this, since we now take IN_CLEANING off during segment write.
- Investigate the "unlocked access" in lfs_bmapv, see if we could wait
there most of the time? Are we getting inconsistent data?
- Change the free_lock to be fs-specific, and change the dirvcount to be
subsystem-wide.
- The cleaner could be enhanced to be controlled from other processes,
and possibly perform additional tasks:
- Backups. At a minimum, turn the cleaner off and on to allow
effective live backups. More aggressively, the cleaner itself could
be the backup agent, and dump_lfs would merely be a controller.
- Cleaning time policies. Be able to tweak the cleaner's thresholds
to allow more thorough cleaning during policy-determined idle
periods (regardless of actual idleness) or put off until later
during short, intensive write periods.
- File coalescing and placement. During periods we expect to be idle,
coalesce fragmented files into one place on disk for better read
performance. Ideally, move files that have not been accessed in a
while to the extremes of the disk, thereby shortening seek times for
files that are accessed more frequently (though how the cleaner
should communicate "please put this near the beginning or end of the
disk" to the kernel is a very good question; flags to lfs_markv?).
- Versioning. When it cleans a segment it could write data for files
that were less than n versions old to tape or elsewhere. Perhaps it
could even write them back onto the disk, although that requires
more thought (and kernel mods).
- Move lfs_countlocked() into vfs_bio.c, to replace count_locked_queue;
perhaps keep the name, replace the function. Could it count referenced
vnodes as well, if it was in vfs_subr.c instead?
- Why not delete the lfs_bmapv call, just mark everything dirty that
isn't deleted/truncated? Get some numbers about what percentage of
the stuff that the cleaner thinks might be live is live. If it's
high, get rid of lfs_bmapv.
- There is a nasty problem in that it may take *more* room to write the
data to clean a segment than is returned by the new segment because of
indirect blocks in segment 2 being dirtied by the data being copied
into the log from segment 1. The suggested solution at this point is
to detect it when we have no space left on the filesystem, write the
extra data into the last segment (leaving no clean ones), make it a
checkpoint and shut down the file system for fixing by a utility
reading the raw partition. Argument is that this should never happen
and is practically impossible to fix since the cleaner would have to
theoretically build a model of the entire filesystem in memory to
detect the condition occurring. A file coalescing cleaner will help
avoid the problem, and one that reads/writes from the raw disk could
fix it.
- Overlap the version and nextfree fields in the IFILE
- Change so that only search one sector of inode block file for the
inode by using sector addresses in the ifile instead of
logical disk addresses.
- Fix the use of the ifile version field to use the generation number instead.
- Need to keep vnode v_numoutput up to date for pending writes?
- If delete a file that's being executed, the version number isn't
updated, and fsck_lfs has to figure this out; case is the same as if
have an inode that no directory references, so the file should be
reattached into lost+found.
- Investigate: should the access time be part of the IFILE:
pro: theoretically, saves disk writes
con: cacheing inodes should obviate this advantage
the IFILE is already humongous
- Currently there's no notion of write error checking.
+ Failed data/inode writes should be rescheduled (kernel level bad blocking).
+ Failed superblock writes should cause selection of new superblock
for checkpointing.
- Future fantasies:
- unrm, versioning
- transactions
- extended cleaner policies (hot/cold data, data placement)
- Problem with the concept of multiple buffer headers referencing the segment:
Positives:
Don't lock down 1 segment per file system of physical memory.
Don't copy from buffers to segment memory.
Don't tie down the bus to transfer 1M.
Works on controllers supporting less than large transfers.
Disk can start writing immediately instead of waiting 1/2 rotation
and the full transfer.
Negatives:
Have to do segment write then segment summary write, since the latter
is what verifies that the segment is okay. (Is there another way
to do this?)
- The algorithm for selecting the disk addresses of the super-blocks
has to be available to the user program which checks the file system.