We cannot leave partially applied mutation behind when the write
fails. It may fail if memory allocation fails in the middle of
apply(). This for example would violate write atomicity, readers
should either see the whole write or none at all.
This fix makes apply() revert partially applied data upon failure, by
the means of ReversiblyMergeable concept. In a nut shell the idea is
to store old state in the source mutation as we apply it and swap back
in case of exception. At cell level this swapping is inexpensive, just
rewiring pointers. For this to work, the source mutation needs to be
brought into mutable form, so frozen mutations need to be unfrozen. In
practice this doesn't increase amount of cell allocations in the
memtable apply path because incoming data will usually be newer and we
will have to copy it into LSA anyway. There are extra allocations
though for the data structures which holds cells.
I didn't see significant change in performance of:
build/release/tests/perf/perf_simple_query -c1 -m1G --write --duration 13
The score fluctuates around ~77k ops/s.
Fixes#283.
Currently only "set" storage could store empty cells, but not the
"vector" one because there empty cell has the meaning of being
missing. To implement rolback, we need to be able to distinguish empty
cells from missing ones. Solve by making vector storage use a bitmap
for presence checking instead of emptiness. This adds 4 bytes to
vector storage.
The query result footprint for cassandra-stress mutation as reported
by tests/memory-footprint increased by 18% from 285 B to 337 B.
perf_simple_query shows slight regression in throughput (-8%):
build/release/tests/perf/perf_simple_query -c4 -m1G --partitions 100000
Before: ~433k tps
After: ~400k tps
Seems like boost::intrusive::set<>::comp() is not accessible on some
versions of boost. Replace by the equivalent
boost::intrusive::set<>::key_comp().
Fixes#858.
Message-Id: <1454326483-29780-1-git-send-email-avi@scylladb.com>
Schema is tracked in memtable and cache per-entry. Entries are
upgraded lazily on access. Incoming mutations are upgraded to table's
current schema on given shard.
Mutating nodes need to keep schema_ptr alive in case schema version is
requested by target node.
do_compact() wasn't removing an empty row that is covered by a
tombstone. As a result, an empty partition could be written to a
sstable. To solve this problem, let's make trim_rows remove a
row that is considered to be empty. A row is empty if it has no
tombstone, no marker and no cells.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
The default move assignment operator calls boost::intrusive::set's move
assignment operator, which leaks, because it does not believe it owns
the data.
Fix by providing a custom implementation.
"This series add code for computing mutation_partition difference.
For mutations A and B:
diffA = A.difference(B);
diffB = B.difference(A);
AB = A.apply(B);
diffA is the minimal mutation that when applied to B makes it equal
to AB and diffB is the minimal mutation that applied to A results in AB.
Fixes #430."
Instead of accepting a column resolver callable, accept a schema and
column_kind or column_selector. Makes the interface easier to use and
enables us to move implementation to .cc file.
