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Shawn O. Pearce d34ec12019 DHT: Change DhtReadher caches to be dynamic by workload 14 years ago
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src/org/eclipse/jgit/storage/dht DHT: Change DhtReadher caches to be dynamic by workload 14 years ago
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README

JGit Storage on DHT
-------------------

This implementation still has some pending issues:

* DhtInserter must skip existing objects

DirCache writes all trees to the ObjectInserter, letting the
inserter figure out which trees we already have, and which are new.
DhtInserter should buffer trees into a chunk, then before writing
the chunk to the DHT do a batch lookup to find the existing
ObjectInfo (if any). If any exist, the chunk should be compacted to
eliminate these objects, and if there is room in the chunk for more
objects, it should go back to the DhtInserter to be filled further
before flushing.

This implies the DhtInserter needs to work on multiple chunks at
once, and may need to combine chunks together when there is more
than one partial chunk.

* DhtPackParser must check for collisions

Because ChunkCache blindly assumes any copy of an object is an OK
copy of an object, DhtPackParser needs to validate all new objects
at the end of its importing phase, before it links the objects into
the ObjectIndexTable. Most objects won't already exist, but some
may, and those that do must either be removed from their chunk, or
have their content byte-for-byte validated.

Removal from a chunk just means deleting it from the chunk's local
index, and not writing it to the global ObjectIndexTable. This
creates a hole in the chunk which is wasted space, and that isn't
very useful. Fortunately objects that fit fully within one chunk
may be easy to inflate and double check, as they are small. Objects
that are big span multiple chunks, and the new chunks can simply be
deleted from the ChunkTable, leaving the original chunks.

Deltas can be checked quickly by inflating the delta and checking
only the insertion point text, comparing that to the existing data
in the repository. Unfortunately the repository is likely to use a
different delta representation, which means at least one of them
will need to be fully inflated to check the delta against.

* DhtPackParser should handle small-huge-small-huge

Multiple chunks need to be open at once, in case we get a bad
pattern of small-object, huge-object, small-object, huge-object. In
this case the small-objects should be put together into the same
chunk, to prevent having too many tiny chunks. This is tricky to do
with OFS_DELTA. A long OFS_DELTA requires all prior chunks to be
closed out so we know their lengths.

* RepresentationSelector performance bad on Cassandra

The 1.8 million batch lookups done for linux-2.6 kills Cassandra, it
cannot handle this read load.

* READ_REPAIR isn't fully accurate

There are a lot of places where the generic DHT code should be
helping to validate the local replica is consistent, and where it is
not, help the underlying storage system to heal the local replica by
reading from a remote replica and putting it back to the local one.
Most of this should be handled in the DHT SPI layer, but the generic
DHT code should be giving better hints during get() method calls.

* LOCAL / WORLD writes

Many writes should be done locally first, before they replicate to
the other replicas, as they might be backed out on an abort.

Likewise some writes must take place across sufficient replicas to
ensure the write is not lost... and this may include ensuring that
earlier local-only writes have actually been committed to all
replicas. This committing to replicas might be happening in the
background automatically after the local write (e.g. Cassandra will
start to send writes made by one node to other nodes, but doesn't
promise they finish). But parts of the code may need to force this
replication to complete before the higher level git operation ends.

* Forks/alternates

Forking is common, but we should avoid duplicating content into the
fork if the base repository has it. This requires some sort of
change to the key structure so that chunks are owned by an object
pool, and the object pool owns the repositories that use it. GC
proceeds at the object pool level, rather than the repository level,
but might want to take some of the reference namespace into account
to avoid placing forked less-common content near primary content.