- Introduce a simpler substitute for `flat_mutation_reader`-resulting-from-a-downgrade that is adequate for the remaining uses but is _not_ a full-fledged reader (does not redirect all logic to an `::impl`, does not buffer, does not really have `::peek()`), so hopefully carries a smaller performance overhead. The name `mutation_fragment_v1_stream` is kind of a mouthful but it's the best I have
- (not tests) Use the above instead of `downgrade_to_v1()`
- Plug it in as another option in `mutation_source`, in and out
- (tests) Substitute deliberate uses of `downgrade_to_v1()` with `mutation_fragment_v1_stream()`
- (tests) Replace all the previously-overlooked occurrences of `mutation_source::make_reader()` with `mutation_source::make_reader_v2()`, or with `mutation_source::make_fragment_v1_stream()` where deliberate or still required (see below)
- (tests) This series still leaves some tests with `mutation_fragment_v1_stream` (i.e. at v1) where not called for by the test logic per se, because another missing piece of work is figuring out how to properly feed `mutation_fragment_v2` (i.e. range tombstone changes) to `mutation_partition`. While that is not done (and I think it's better to punt on it in this PR), we have to produce `mutation_fragment` instances in tests that `apply()` them to `mutation_partition`, thus we still use downgraded readers in those tests
- Remove the `flat_mutation_reader` class and things downstream of it
Fixes#10586Closes#10654
* github.com:scylladb/scylla:
fix "ninja dev-headers"
flat_mutation_reader ist tot
tests: downgrade_to_v1() -> mutation_fragment_v1_stream()
tests: flat_reader_assertions: refactor out match_compacted_mutation()
tests: ms.make_reader() -> ms.make_fragment_v1_stream()
repair/row_level: mutation_fragment_v1_stream() instead of downgrade_to_v1()
stream_transfer_task: mutation_fragment_v1_stream() instead of downgrade_to_v1()
sstables_loader: mutation_fragment_v1_stream() instead of downgrade_to_v1()
mutation_source: add ::make_fragment_v1_stream()
introduce mutation_fragment_v1_stream
tests: ms.make_reader() -> ms.make_reader_v2()
tests: remove test_downgrade_to_v1_clear_buffer()
mutation_source_test: fix indentation
tests: remove some redundant calls to downgrade_to_v1()
tests: remove some to-become-pointless ms.make_reader()-using tests
tests: remove some to-become-pointless reader downgrade tests
The change
- adds a test which exposes a problem of a peculiar setup of
tombstones that trigger a mutation fragment stream validation exception
- fixes the problem
Applying tombstones in the order:
range_tombstone_change pos(ck1), after_all_prefixed, tombstone_timestamp=1
range_tombstone_change pos(ck2), before_all_prefixed, tombstone=NONE
range_tombstone_change pos(NONE), after_all_prefixed, tombstone=NONE
Leads to swapping the order of mutations when written and read from
disk via sstable writer. This is caused by conversion of
range_tombstone_change (in memory representation) to range tombstone
marker (on disk representation) and back.
When this mutation stream is written to disk, the range tombstone
markers type is calculated based on the relationship between
range_tombstone_changes. The RTC series as above produces markers
(start, end, start). When the last marker is loaded from disk, it's kind
gets incorrectly loaded as before_all_prefixed instead of
after_all_prefixed. This leads to incorrect order of mutations.
The solution is to skip writing a new range_tombstone_change with empty
tombstone if the last range_tombstone_change already has empty
tombstone. This is redundant information and can be safely removed,
while the logic of encoding RTCs as markers doesn't handle such
redundancy well.
Closes#10643
Add column_index_auto_scale_threshold_in_kb to the configuration
(defaults to 10MB).
When the promoted index (serialized) size gets to this
threshold, it's halved by merging each two adjacent blocks
into one and doubling the desired_block_size.
Fixes#4217
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
In most files it was unused. We should move these to the patch which
moved out the last interesting reader from mutation_reader.hh (and added
the corresponding new header include) but its probably not worth the
effort.
Some other files still relied on mutation_reader.hh to provide reader
concurrency semaphore and some other misc reader related definitions.
Memtables are a replica-side entity, and so are moved to the
replica module and namespace.
Memtables are also used outside the replica, in two places:
- in some virtual tables; this is also in some way inside the replica,
(virtual readers are installed at the replica level, not the
cooordinator), so I don't consider it a layering violation
- in many sstable unit tests, as a convenient way to create sstables
with known input. This is a layering violation.
We could make memtables their own module, but I think this is wrong.
Memtables are deeply tied into replica memory management, and trying
to make them a low-level primitive (at a lower level than sstables) will
be difficult. Not least because memtables use sstables. Instead, we
should have a memtable-like thing that doesn't support merging and
doesn't have all other funky memtable stuff, and instead replace
the uses of memtables in sstable tests with some kind of
make_flat_mutation_reader_from_unsorted_mutations() that does
the sorting that is the reason for the use of memtables in tests (and
live with the layering violation meanwhile).
Test: unit (dev)
Closes#10120
Instead of lengthy blurbs, switch to single-line, machine-readable
standardized (https://spdx.dev) license identifiers. The Linux kernel
switched long ago, so there is strong precedent.
Three cases are handled: AGPL-only, Apache-only, and dual licensed.
For the latter case, I chose (AGPL-3.0-or-later and Apache-2.0),
reasoning that our changes are extensive enough to apply our license.
The changes we applied mechanically with a script, except to
licenses/README.md.
Closes#9937
The database, keyspace, and table classes represent the replica-only
part of the objects after which they are named. Reading from a table
doesn't give you the full data, just the replica's view, and it is not
consistent since reconciliation is applied on the coordinator.
As a first step in acknowledging this, move the related files to
a replica/ subdirectory.
There are already four of them. Those working with the mutation reader
can be folded into one with some default args.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
The same trick as in the previous patch, but the new helper
accepts a memtable instead of a mutation reader and makes the
reader from the memtable.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
The 2nd continuation of the previous patch fixes the places
with run_with_async() nested inside explicit seastar::async
calls.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
The SEASTAR_THREAD_TEST_CASE runs the provided lambda in async
context. The sstables::test_env::run_with_async does the same.
This (script-generated) patch makes all of the found cases be
SEASTAR_TEST_CASE and, respectively, return the async future
from the run_with_async().
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Currently all the code operates on the range_tombstone class.
and many of those places get the range tombstone in question
from the range_tombstone_list. Next patches will make that list
carry (and return) some new object called range_tombstone_entry,
so all the code that expects to see the former one there will
need to patched to get the range_tombstone from the _entry one.
This patch prepares the ground for that by introdusing the
range_tombstone& tombstone() { return *this; }
getter on the range_tombstone itself and patching all future
users of the _entry to call .tombstone() right now.
Next patch will remove those getters together with adding the new
range_tombstone_entry object thus automatically converting all
the patched places into using the entry in a proper way.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Rename the old version to `sstables::make_reader_v1()`, to have a
nicely searcheable eradication target.
Signed-off-by: Michael Livshin <michael.livshin@scylladb.com>
"
This series changes the behavior of the system when executing reads
annotated with "bypass cache" clause in CQL. Such reads will not
use nor populate the sstable partition index cache and sstable index page cache.
"
* 'bypass-cache-in-sstable-index-reads' of github.com:tgrabiec/scylla:
sstables: Do not populate page cache when searching in promoted index for "bypass cache" reads
sstables: Do not populate partition index cache for "bypass cache" reads
Patch the .row_tombstones() to return the range_tombstone_list
wrapped into the immutable_collection<> so that callers are
guaranteed not to touch the collection itself, but still can
modify the tombstones.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Patch the .clustered_rows() method to return the btree of rows
wrapped into the immutable_collection<> so that callers are
guaranteed not to touch the collection itself, but still can
modify the elements in it.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Index cursor for reads which bypass cache will use a private temporary
instance of the partition index cache.
Promoted index scanner (ka/la format) will not go through the page cache.
and use it instead of all_sstable_versions in tests that check
writting of sstables. Following patches remove LA/KA writer so we
want tests to be ready for that and not break by trying to write LA/KA
sstables.
Signed-off-by: Piotr Jastrzebski <piotr@scylladb.com>
Before this patch, the tests expected readers to emit range tombstones
which are outside clustering restrictions. Readers do not have to emit
range tombstones outside clustering restrictions, so fix tests to only
expect the part which overlaps with query ranges.
This is a preparatory patch before changing readers to trim range
tombstones to clustering ranges.
The purpose of the class in question is to start sharded storage
service to make its global instance alive. I don't know when exactly
it happened but no code that instantiates this wrapper really needs
the global storage service.
Ref: #2795
tests: unit(dev), perf_sstable(dev)
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Message-Id: <20210526170454.15795-1-xemul@scylladb.com>
`with_closeable` simplifies scoped use of
flat_mutation_reader, making sure to always close
the reader after use.
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
In order to maintain backward compatibility wrt. cluster features,
two boolean variables were kept in sstable writers:
- correctly_serialize_non_compound_range_tombstones
- correctly_serialize_static_compact_in_mc
Since these features are assumed to always be present now,
the above variables are no longer needed and can be purged.
If possible, test the highest sstable format version,
as it's the mostly used.
If there pre-written sstables we need to load from the
test directory from an older version, either specify their
version explicitly, or use the new test_env::reusable_sst
method that looks up the latest sstable version in the
given directory and generation.
Test: unit(release)
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
Message-Id: <20201210161822.2833510-1-bhalevy@scylladb.com>
The memory usage is now maintained and updated on each change to the
mutation fragment, so it needs not be recalculated on a call to
`memory_usage()`, hence the schema parameter is unused and can be
removed.
We want to start tracking the memory consumption of mutation fragments.
For this we need schema and permit during construction, and on each
modification, so the memory consumption can be recalculated and pass to
the permit.
In this patch we just add the new parameters and go through the insane
churn of updating all call sites. They will be used in the next patch.
Not used yet, this patch does all the churn of propagating a permit
to each impl.
In the next patch we will use it to track to track the memory
consumption of `_buffer`.
sstables_manager will soon be closed asynhronously, with a future-returning
close() function. To prepare for that, make the following changes
- replace test_sstables_manager with an sstables_manager obtained from test_env
- drop unneeded calls to await_background_jobs()
These changes allow lifetime management of the sstables_manager used
in the tests to be centralized in test_env.
A test_env contains an sstables_manager, which will soon have a close() method.
As such, it can no longer be a temporary. Switch to using test_env::do_with_async().
As a bonus, test_env::do_with_async() performs await_background_jobs() for us, so
we can drop it from the call sites.
This replaces a lot of make_lw_shared(schema(...)) with
make_shared_schema(...).
This makes it easier to drop a dependency on the differences between
seastar::make_shared and std::make_shared.
Signed-off-by: Rafael Ávila de Espíndola <espindola@scylladb.com>
All reader are soon going to require a valid permit, so make sure we
have a valid permit which we can pass to the delegate reader when
creating it. This means `memtable::make_flat_reader()` now also requires
a permit to be passed to it.
Internally the permit is stored in `scanning_reader`, which is used both
for flushes and normal reads. In the former case a permit is not
required.
