git-annex/doc/design/caching_database.mdwn
2016-07-19 15:04:41 -04:00

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* [[metadata]] for views
* [direct mode mappings scale badly with thousands of identical files](/bugs/__34__Adding_4923_files__34___is_really_slow)
* [[bugs/incremental_fsck_should_not_use_sticky_bit]]
* [[todo/wishlist:_pack_metadata_in_direct_mode]]
* [[todo/cache_key_info]]
* [[bugs/indeterminite_preferred_content_state_for_duplicated_file]]
What do all these have in common? They could all be improved by
using some kind of database to locally store the information in an
efficient way.
The database should only function as a cache. It should be able to be
generated and updated by looking at the git repository.
* Metadata can be updated by looking at the git-annex branch,
either its current state, or the diff between the old and new versions
* Direct mode mappings can be updated by looking at the current branch,
to see which files map to which key. Or the diff between the old
and new versions of the branch.
* Incremental fsck information is not stored in git, but can be
"regenerated" by running fsck again.
(Perhaps doesn't quite fit, but let it slide..)
Store in the database the Ref of the branch that was used to construct it.
(Update in same transaction as cached data.)
## implementation plan
1. Store incremental fsck info in db, on a branch, with sqlite. **done**
2. Make sure that builds on all platforms, and works reliably. **done**
3. Use sqlite db for associated files cache. **done** (only for v6 unlocked
files)
4. Use associated files db when dropping files, to fix
[[bugs/indeterminite_preferred_content_state_for_duplicated_file]]
5. Also, use associated files db to construct views.
6. Use sqlite db for metadata cache.
7. Use sqlite db for list of keys present in local annex.
## sqlite or not?
sqllite seems like the most likely thing to work. But it does involve ugh,
SQL. And even if that's hidden by a layer like persistent, it's still going
to involve some technical debt (eg, database migrations).
It would be great if there were some haskell thing like acid-state
that I could use instead. But, acid-state needs to load the whole
DB into memory. In the comments of
[[bugs/incremental_fsck_should_not_use_sticky_bit]] I examined several
other haskell database-like things, and found them all wanting, except for
possibly TCache. (And TCache is backed by persistent/sqlite anyway.)
## one db or multiple?
Using a single database will use less space. Eg, each Key will only need to
appear in it once, with proper normalization.
OTOH, it's more complicated, and harder to recover from problems.
Currently leaning toward one database per purpose.
## case study: persistent with sqllite
Here's a non-normalized database schema in persistent's syntax.
<pre>
CachedKey
key Key
associatedFiles [FilePath]
lastFscked Int Maybe
KeyIndex key
CachedMetaData
key Key
metaDataField MetaDataField
metaDataValue MetaDataValue
</pre>
Using the above database schema and persistent with sqlite, I made
a database containing 30k Cache records. This took 5 seconds to create
and was 7 mb on disk. (Would be rather smaller, if a more packed Key
show/read instance were used.)
Running 1000 separate queries to get 1000 CachedKeys took 0.688s with warm
cache. This was more than halved when all 1000 queries were done inside the
same `runSqlite` call. (Which could be done using a separate thread and some
MVars.)
(Note that if the database is a cache, there is no need to perform migrations
when querying it. My benchmarks skip `runMigration`. Instead, if the query
fails, the database doesn't exist, or uses an incompatable schema, and the
cache can be rebuilt then. This avoids the problem that persistent's migrations
can sometimes fail.)
Doubling the db to 60k scaled linearly in disk and cpu and did not affect
query time.
----
Here's a normalized schema:
<pre>
CachedKey
key Key
KeyIndex key
deriving Show
AssociatedFiles
keyId CachedKeyId Eq
associatedFile FilePath
KeyIdIndex keyId associatedFile
deriving Show
CachedMetaField
field MetaField
FieldIndex field
CachedMetaData
keyId CachedKeyId Eq
fieldId CachedMetaFieldId Eq
metaValue String
LastFscked
keyId CachedKeyId Eq
localFscked Int Maybe
</pre>
With this, running 1000 joins to get the associated files of 1000
Keys took 5.6s with warm cache. (When done in the same `runSqlite` call.) Ouch!
Update: This performance was fixed by adding `KeyIdOutdex keyId associatedFile`,
which adds a uniqueness constraint on the tuple of key and associatedFile.
With this, 1000 queries takes 0.406s. Note that persistent is probably not
actually doing a join at the SQL level, so this could be sped up using
eg, esquelito.
Update2: Using esquelito to do a join got this down to 0.109s.
See `database` branch for code.
Update3: Converting to a single un-normalized table for AssociatedFiles
avoids the join, and increased lookup speed to 0.087s. Of course, when
a key has multiple associated files, this will use more disk space, due
to not normalizing the key.
Compare the above with 1000 calls to `associatedFiles`, which is approximately
as fast as just opening and reading 1000 files, so will take well under
0.05s with a **cold** cache.
So, we're looking at maybe 50% slowdown using sqlite and
persistent for associated files. OTOH, the normalized schema should
perform better when adding an associated file to a key that already has many.
For metadata, the story is much nicer. Querying for 30000 keys that all
have a particular tag in their metadata takes 0.65s. So fast enough to be
used in views.
Update4: Comparing git-annex fsck using the sticky bit to the final sqlite
implementation:
sticky bit: 4m30.787s
sqlite: 4m40.789s