The current condition that consults the compaction manager
state for awaiting `_stop_future` works since _stop_future
is assigned after the state is set to `stopped`, but it is
incidental. What matters is that `_stop_future` is engaged.
While at it, exchange _stop_future with a ready future
so that stop() can be safely called multiple times.
And dropped the superfluous co_return.
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit 6cce67bec8)
stop_ongoing_compactions now ignores any errors returned
by tasks, and it should leave no task left behind.
Assert that here, before the compaction_manager is destroyed.
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit a7a55298ea)
stop() methods, like destructors must always succeed,
and returning errors from them is futile as there is
nothing else we can do with them but continue with shutdown.
Leaked errors on the stop path may cause termination
on shutdown, when called in a deferred action destructor.
Fixesscylladb/scylladb#21298
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit c08ba8af68)
Stopped tasks currently linger in _tasks until the fiber that created
the task is scheduled again and unlinks the task. This window between
stop and remove prevents reliable checks for empty _tasks list after all
tasks are stopped.
Unlink the task early so really_do_stop() can safely check for an empty
_tasks list (next patch).
(cherry picked from commit d8500472b3)
_tasks is currently std::list<shared_ptr<compaction_task_executor>>, but
it has no role in keeping the instances alive, this is done by the
fibers which create the task (and pin a shared ptr instance).
This lends itself to an intrusive list, avoiding that extra
allocation upon push_back().
Using an intrusive list also makes it simpler and much cheaper (O(1) vs.
O(N)) to remove tasks from the _tasks list. This will be made use of in
the next patch.
Code using _task has to be updated because the value_type changes from
shared_ptr<compaction_task_executor> to compaction_task_executor&.
(cherry picked from commit e942c074f2)
When a compaction_group is removed via `compaction_manager::remove`,
it is erase from `_compaction_state`, and therefore compaction
is definitely not enabled on it.
This triggers an internal error if tablets are cleaned up
during drop/truncate, which checks that compaction is disabled
in all compaction groups.
Note that the callers of `compaction_disabled` aren't really
interested in compaction being actively disabled on the
compaction_group, but rather if it's enabled or not.
A follow-up patch can be consider to reverse the logic
and expose `compaction_enabled` rather than `compaction_disabled`.
Fixesscylladb/scylladb#20060
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit 78ceaeabca)
Closesscylladb/scylladb#21405
During split prepare phase, there will be more than 1 compaction group with
overlapping token range for a given replica.
Assume tablet 1 has sstable A containing deleted data, and sstable B containing
a tombstone that shadows data in A.
Then split starts:
sstable B is split first, and moved from main (unsplit) group to a
split-ready group
now compaction runs in split-ready group before sstable A is split
tombstone GC logic today only looks at underlying group, so compaction is step
2 will discard the deleted data in A, since it belongs to another group (the
unsplit one), and so the tombstone can be purged incorrectly.
To fix it, compaction will now work with all uncompacting sstables that belong
to the same replica, since tombstone GC requires all sstables that possibly
contain shadowed data to be available for correct decision to be made.
Fixes https://github.com/scylladb/scylladb/issues/20044.
Please replace this line with justification for the backport/* labels added to this PR
Branches 6.0, 6.1 and 6.2 are vulnerable, so backport is needed.
(cherry picked from commit bcd358595f)
(cherry picked from commit 93815e0649)
Refs https://github.com/scylladb/scylladb/pull/20939Closesscylladb/scylladb#21205
* github.com:scylladb/scylladb:
replica: Fix tombstone GC during tablet split preparation
service: Improve error handling for split
During split prepare phase, there will be more than 1 compaction group with
overlapping token range for a given replica.
Assume tablet 1 has sstable A containing deleted data, and sstable B containing
a tombstone that shadows data in A.
Then split starts:
1) sstable B is split first, and moved from main (unsplit) group to a
split-ready group
2) now compaction runs in split-ready group before sstable A is split
tombstone GC logic today only looks at underlying group, so compaction is step
2 will discard the deleted data in A, since it belongs to another group (the
unsplit one), and so the tombstone can be purged incorrectly.
To fix it, compaction will now work with all uncompacting sstables that belong
to the same replica, since tombstone GC requires all sstables that possibly
contain shadowed data to be available for correct decision to be made.
Fixes#20044.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
(cherry picked from commit 93815e0649)
To fix a race between split and repair here c1de4859d8, a new sstable
generated during streaming can be split before being attached to the sstable
set. That's to prevent an unsplit sstable from reaching the set after the
tablet map is resized.
So we can think this split is an extension of the sstable writer. A failure
during split means the new sstable won't be added. Also, the duration of split
is also adding to the time erm is held. For example, repair writer will only
release its erm once the split sstable is added into the set.
This single-sstable split is going through run_custom_job(), which serializes
with other maintenance tasks. That was a terrible decision, since the split may
have to wait for ongoing maintenance task to finish, which means holding erm
for longer. Additionally, if split monitor decides to run split on the entire
compaction group, it can cause single-sstable split to be aborted since the
former wants to select all sstables, propagating a failure to the streaming
writer.
That results in new sstable being leaked and may cause problems on restart,
since the underlying tablet may have moved elsewhere or multiple splits may
have happened. We have some fragility today in cleaning up leaked sstables on
streaming failure, but this single-sstable split made it worse since the
failure can happen during normal operation, when there's e.g. no I/O error.
It makes sense to kill run_custom_job() usage, since the single-sstable split
is offline and an extension of sstable writing, therefore it makes no sense to
serialize with maintenance tasks. It must also inherit the sched group of the
process writing the new sstable. The inheritance happens today, but is fragile.
Fixes#20626.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
(cherry picked from commit 38ce2c605d)
Currently the function calls boost::partial_sort with a middle
iterator that might be out of bound and cause undefined behavior.
Check the vector size, and do a partial sort only if its longer
than `max_sstables`, otherwise sort the whole vector.
Fixesscylladb/scylladb#20608
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit 39ce358d82)
Closesscylladb/scylladb#20663
Consider the following:
```
T
0 split prepare starts
1 repair starts
2 split prepare finishes
3 repair adds unsplit sstables
4 repair ends
5 split executes
```
If repair produces sstable after split prepare phase, the replica will not split that sstable later, as prepare phase is considered completed already. That causes split execution to fail as replicas weren't really prepared. This also can be triggered with load-and-stream which shares the same write (consumer) path.
The approach to fix this is the same employed to prevent a race between split and migration. If migration happens during prepare phase, it can happen source misses the split request, but the tablet will still be split on the destination (if needed). Similarly, the repair writer becomes responsible for splitting the data if underlying table is in split mode. That's implemented in replica::table for correctness, so if node crashes, the new sstable missing split is still split before added to the set.
Fixes https://github.com/scylladb/scylladb/issues/19378.
Fixes https://github.com/scylladb/scylladb/issues/19416.
Please replace this line with justification for the backport/* labels added to this PR
(cherry picked from commit 239344ab55)
(cherry picked from commit 74612ad358)
Refs https://github.com/scylladb/scylladb/pull/19427Closesscylladb/scylladb#20595
* github.com:scylladb/scylladb:
tablets: Fix race between repair and split
compaction: Allow "offline" sstable to be split
To prevent stalls due to large number of tokens.
For example, large cluster with say 70 nodes can have
more than 16K tokens.
Fixes#19757
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit 686a8f2939)
Prepare for making the function async.
Then, it will need to hold on to the erm while getting
the token_ranges asynchronously.
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit 2bbbe2a8bc)
It is used only here and can be simplified by
checking if the keyspace replication strategy
is per table by the caller.
Prepare for making get_keyspace_local_ranges async.
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
(cherry picked from commit ea5a0cca10)
In order to fix the race between split and repair, we must introduce
the ability to split an "offline" sstable, one that wasn't added
to any of the table's sstable set yet.
It's not safe to split a sstable after adding it to the set, because
a failure to split can result in unsplit data left in the set, causing
split to fail down the road, since the coordinator thinks this replica
has only split data in the set.
Refs #19378.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
(cherry picked from commit 239344ab55)
rwlock was added to protect iterations against concurrent updates to the map.
the updates can happen when allocating a new tablet replica or removing an old one (tablet cleanup).
the rwlock is very problematic because it can result in topology changes blocked, as updating
token metadata takes the exclusive lock, which is serialized with table wide ops like
split / major / explicit flush (and those can take a long time).
to get rid of the lock, we can copy the storage group map and guard individual groups with a gate
(not a problem since map is expected to have a maximum of ~100 elements).
so cleanup can close that gate (carefully closed after stopping individual groups such that
migrations aren't blocked by long-running ops like major), and ongoing iterations (e.g. triggered
by nodetool flush) can skip a group that was closed, as such a group is being migrated out.
Check documentation added to compaction_group.hh to understand how
concurrent iterations and updates to the map work without the rwlock.
Yielding variants that iterate over groups are no longer returning group
id since id stability can no longer be guaranteed without serializing split
finalization and iteration.
Fixes#18821.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
C++23 made std::unique_ptr constexpr. A side effect of this (presumably)
is that the compiler compiles it more eagerly, requiring the full definition
of the class in std::make_unique, while it previously was content with
finding the definition later.
One victim of this change is compaction_manager::strategy_control; define
it earlier to build with C++23.
flat_mutation_reader_v2 was introduced in a pair of commits in 2021:
e3309322c3 "Clone flat_mutation_reader related classes into v2 variants"
08b5773c12 "Adapt flat_mutation_reader_v2 to the new version of the API"
as a replacement for flat_mutation_reader, using range_tombstone_change
instead of range_tombstone to represent represent range tombstones. See
those commits for more information.
The transition was incremental; the last use of the original
flat_mutation_reader was removed in 2022 in commit
026f8cc1e7 "db: Use mutation_partition_v2 in mvcc"
In turn, flat_mutation_reader was introduced in 2017 in commit
748205ca75 "Introduce flat_mutation_reader"
To transition from a mutation_reader that nested rows within
a partition in a separate stream, to a flat reader that streamed
partitions and rows in the same stream.
Here, we reclaim the original name and rename the awkward
flat_mutation_reader_v2 to mutation_reader.
Note that mutation_fragment_v2 remains since we still use the original
for compatibilty, sometimes.
Some notes about the transition:
- files were also renamed. In one case (flat_mutation_reader_test.cc), the
rename target already existed, so we rename to
mutation_reader_another_test.cc.
- a namespace 'mutation_reader' with two definitions existed (in
mutation_reader_fwd.hh). Its contents was folded into the mutation_reader
class. As a result, a few #includes had to be adjusted.
Closesscylladb/scylladb#19356
Normally, the space overhead for TWCS is 1/N, where is number of windows. But during off-strategy, the overhead is 100% because input sstables cannot be released earlier.
Reshaping a TWCS table that takes ~50% of available space can result in system running out of space.
That's fixed by restricting every TWCS off-strategy job to 10% of free space in disk. Tables that aren't big will not be penalized with increased write amplification, as all input (disjoint) sstables can still be compacted in a single round.
Fixes#16514.
Closesscylladb/scylladb#18137
* github.com:scylladb/scylladb:
compaction: Reduce twcs off-strategy space overhead to 10% of free space
compaction: wire storage free space into reshape procedure
sstables: Allow to get free space from underlying storage
replica: don't expose compaction_group to reshape task
Currently if task_manager::task::impl::abort preempts before children
are recursively aborted and then the task gets unregistered, we hit
use after free since abort uses children vector which is no
longer alive.
Modify abort method so that it goes over all tasks in task manager
and aborts those with the given parent.
Fixes: #19304.
TWCS off-strategy suffers with 100% space overhead, so a big TWCS table
can cause scylla to run out of disk space during node ops.
To not penalize TWCS tables, that take a small percentage of disk,
with increased write ampl, TWCS off-strategy will be restricted to
10% of free disk space. Then small tables can still compact all
disjoint sstables in a single round.
Fixes#16514.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
compaction_group sits in replica layer and compaction layer is
supposed to talk to it through compaction::table_state only.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
Pass compaction group id to
shard_reshaping_compaction_task_impl::reshape_compaction_group.
Modify table::as_table_state to return table_state of the given
compaction group.
When a compaction strategy uses garbage collected sstables to track
expired tombstones, do not use complete partition estimates for them,
instead, use a fraction of it based on the droppable tombstone ratio
estimate.
Fixes#18283
Signed-off-by: Lakshmi Narayanan Sreethar <lakshmi.sreethar@scylladb.com>
Closesscylladb/scylladb#18465
std::optional formatting changed while moving from the home-grown formatter to
the fmt provided formatter; don't rely on it for user visible messages.
Here, the optional formatted is known to be engaged, so just print it.
Closesscylladb/scylladb#18533
base timestamps are feeded into the sstable writer for calculating
delta, used by varints. given that expired ssts are bypassed, we
don't have to account them. so if we compacting fully expired and
new sstable together, we can save a bit by having a base ts closer
to the data actually written into output. also I wanted to move
the calculation into the loop in setup(), to avoid two iterations
over input set that can have even more than 1k elements.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
Closesscylladb/scylladb#18504
before this change, we rely on the default-generated fmt::formatter created from operator<<, but fmt v10 dropped the default-generated formatter.
in this change, we include `fmt/ranges.h` and/or `fmt/std.h` for formatting the container types, like vector, map optional and variant using {fmt} instead of the homebrew formatter based on operator<<.
with this change, the changes adding fmt::formatter and the changes using ostream formatter explicitly, we are allowed to drop `FMT_DEPRECATED_OSTREAM` macro.
Refs scylladb#13245
Closesscylladb/scylladb#17968
* github.com:scylladb/scylladb:
treewide: do not define FMT_DEPRECATED_OSTREAM
treewide: include fmt/ranges.h and/or fmt/std.h
utils/managed_bytes: add support for fmt::to_string() to bytes and friends
since we do not rely on FMT_DEPRECATED_OSTREAM to define the
fmt::formatter for us anymore, let's stop defining `FMT_DEPRECATED_OSTREAM`.
in this change,
* utils: drop the range formatters in to_string.hh and to_string.c, as
we don't use them anymore. and the tests for them in
test/boost/string_format_test.cc are removed accordingly.
* utils: use fmt to print chunk_vector and small_vector. as
we are not able to print the elements using operator<< anymore
after switching to {fmt} formatters.
* test/boost: specialize fmt::details::is_std_string_like<bytes>
due to a bug in {fmt} v9, {fmt} fails to format a range whose
element type is `basic_sstring<uint8_t>`, as it considers it
as a string-like type, but `basic_sstring<uint8_t>`'s char type
is signed char, not char. this issue does not exist in {fmt} v10,
so, in this change, we add a workaround to explicitly specialize
the type trait to assure that {fmt} format this type using its
`fmt::formatter` specialization instead of trying to format it
as a string. also, {fmt}'s generic ranges formatter calls the
pair formatter's `set_brackets()` and `set_separator()` methods
when printing the range, but operator<< based formatter does not
provide these method, we have to include this change in the change
switching to {fmt}, otherwise the change specializing
`fmt::details::is_std_string_like<bytes>` won't compile.
* test/boost: in tests, we use `BOOST_REQUIRE_EQUAL()` and its friends
for comparing values. but without the operator<< based formatters,
Boost.Test would not be able to print them. after removing
the homebrew formatters, we need to use the generic
`boost_test_print_type()` helper to do this job. so we are
including `test_utils.hh` in tests so that we can print
the formattable types.
* treewide: add "#include "utils/to_string.hh" where
`fmt::formatter<optional<>>` is used.
* configure.py: do not define FMT_DEPRECATED_OSTREAM
* cmake: do not define FMT_DEPRECATED_OSTREAM
Refs #13245
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
before this change, we rely on the default-generated fmt::formatter
created from operator<<, but fmt v10 dropped the default-generated
formatter.
in this change, we include `fmt/ranges.h` and/or `fmt/std.h`
for formatting the container types, like vector, map
optional and variant using {fmt} instead of the homebrew
formatter based on operator<<.
with this change, the changes adding fmt::formatter and
the changes using ostream formatter explicitly, we are
allowed to drop `FMT_DEPRECATED_OSTREAM` macro.
Refs scylladb#13245
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
This hourly reevaluation is there to help tablets that have very low
write activity, which can go a long time without flushing a memtable,
and it's important to reevaluate compaction as data can get expired.
Today it can happen that we reevaluate a table that is being compacted
actively, which is waste of cpu as the reevaluation will happen anyway
when there are changes to sstable set. This waste can be amplified with
a significant tablet count in a given shard.
Eventually, we could make the revaluation time per table based on
expiration histogram, but until we get there, let's avoid this waste
by only reevaluating tables that are compaction idle for more than 1h.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
Closesscylladb/scylladb#18280
in in {fmt} before v10, it provides the specialization of `fmt::formatter<..>`
for `std::string_view` as well as the specialization of `fmt::formatter<..>`
for `fmt::string_view` which is an implementation builtin in {fmt} for
compatibility of pre-C++17. and this type is used even if the code is
compiled with C++ stadandard greater or equal to C++17. also, before v10,
the `fmt::formatter<std::string_view>::format()` is defined so it accepts
`std::string_view`. after v10, `fmt::formatter<std::string_view>` still
exists, but it is now defined using `format_as()` machinery, so it's
`format()` method does not actually accept `std::string_view`, it
accepts `fmt::string_view`, as the former can be converted to
`fmt::string_view`.
this is why we can inherit from `fmt::formatter<std::string_view>` and
use `formatter<std::string_view>::format(foo, ctx);` to implement the
`format()` method with {fmt} v9, but we cannot do this with {fmt} v10,
and we would have following compilation failure:
```
FAILED: service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o
/home/kefu/.local/bin/clang++ -DFMT_DEPRECATED_OSTREAM -DFMT_SHARED -DSCYLLA_BUILD_MODE=release -DSEASTAR_API_LEVEL=7 -DSEASTAR_LOGGER_COMPILE_TIME_FMT -DSEASTAR_LOGGER_TYPE_STDOUT -DSEASTAR_SCHEDULING_GROUPS_COUNT=16 -DSEASTAR_SSTRING -DXXH_PRIVATE_API -DCMAKE_INTDIR=\"RelWithDebInfo\" -I/home/kefu/dev/scylladb -I/home/kefu/dev/scylladb/build/gen -I/home/kefu/dev/scylladb/seastar/include -I/home/kefu/dev/scylladb/build/seastar/gen/include -I/home/kefu/dev/scylladb/build/seastar/gen/src -ffunction-sections -fdata-sections -O3 -g -gz -std=gnu++20 -fvisibility=hidden -Wall -Werror -Wextra -Wno-error=deprecated-declarations -Wimplicit-fallthrough -Wno-c++11-narrowing -Wno-deprecated-copy -Wno-mismatched-tags -Wno-missing-field-initializers -Wno-overloaded-virtual -Wno-unsupported-friend -Wno-enum-constexpr-conversion -Wno-unused-parameter -ffile-prefix-map=/home/kefu/dev/scylladb=. -march=westmere -mllvm -inline-threshold=2500 -fno-slp-vectorize -U_FORTIFY_SOURCE -Werror=unused-result -MD -MT service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o -MF service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o.d -o service/CMakeFiles/service.dir/RelWithDebInfo/topology_state_machine.cc.o -c /home/kefu/dev/scylladb/service/topology_state_machine.cc
/home/kefu/dev/scylladb/service/topology_state_machine.cc:254:41: error: no matching member function for call to 'format'
254 | return formatter<std::string_view>::format(it->second, ctx);
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~^~~~~~
/usr/include/fmt/core.h:2759:22: note: candidate function template not viable: no known conversion from 'seastar::basic_sstring<char, unsigned int, 15>' to 'const fmt::basic_string_view<char>' for 1st argument
2759 | FMT_CONSTEXPR auto format(const T& val, FormatContext& ctx) const
| ^ ~~~~~~~~~~~~
```
because the inherited `format()` method actually comes from
`fmt::formatter<fmt::string_view>`. to reduce the confusion, in this
change, we just inherit from `fmt::format<string_view>`, where
`string_view` is actually `fmt::string_view`. this follows
the document at
https://fmt.dev/latest/api.html#formatting-user-defined-types,
and since there is less indirection under the hood -- we do not
use the specialization created by `FMT_FORMAT_AS` which inherit
from `formatter<fmt::string_view>`, hopefully this can improve
the compilation speed a little bit. also, this change addresses
the build failure with {fmt} v10.
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
Closesscylladb/scylladb#18299
The formatted_sstables_list is auxiliary class that collects a bunch of
sstables::to_string(shared_sstable)-generated strings. One of bad side
effects of this helper is that it allocates memory for the vector of
strings.
This patch achieves the same goal with the help of fmt::join() equipped
with transformed boost adaptor.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Closesscylladb/scylladb#18160
This change adds the missing Cassandra compaction option unchecked_tombstone_compaction.
Setting this option to true causes the compaction to ignore tombstone_threshold,
and decide whether to do a compaction only on the value of tombstone_compaction_interval
It was observed that some use cases might append old data constantly to
memtable, blocking GC of expired tombstones.
That's because timestamp of memtable is unconditionally used for
calculating max purgeable, even when the memtable doesn't contain the
key of the tombstone we're trying to GC.
The idea is to treat memtable as we treat L0 sstables, i.e. it will
only prevent GC if it contains data that is possibly shadowed by the
expired tombstone (after checking for key presence and timestamp).
Memtable will usually have a small subset of keys in largest tier,
so after this change, a large fraction of keys containing expired
tombstones can be GCed when memtable contains old data.
Fixes#17599.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
Closesscylladb/scylladb#17835
There is no point in checking `sst->filter_has_key(*hk)`
if the sstable contains no data older than the running
minimum timestamp, since even if it matches, it won't change
the minimum.
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
Closesscylladb/scylladb#17839
The inject_with_handler() method accepts a coroutine that can be called
wiht injection_handler. With such function as an argument, there's no
need in distinctive inject_with_handler() name for a method, it can be
overload of all the existing inject()-s
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
For tables using tablet based replication strategies, the sstables should be reshaped only within the compaction groups they belong to. The shard_reshaping_compaction_task_impl now groups the sstables based on their compaction groups before reshaping them.
Fixes https://github.com/scylladb/scylladb/issues/16966Closesscylladb/scylladb#17395
* github.com:scylladb/scylladb:
test/topology_custom: add testcase to verify reshape with tablets
test/pylib/rest_client: add get_sstable_info, enable/disable_autocompaction
replica/distributed_loader: enable reshape for sstables
compaction: reshape sstables within compaction groups
replica/table : add method to get compaction group id for an sstable
compaction: reshape: update total reshaped size only on success
compaction: simplify exception handling in shard_reshaping_compaction_task_impl::run
Since commit f1bbf70, many compaction types can do cleanup work, but turns out
we forgot to invalidate cache on their completion.
So if a node regains ownership of token that had partition deleted in its previous
owner (and tombstone is already gone), data can be resurrected.
Tablet is not affected, as it explicitly invalidates cache during migration
cleanup stage.
Scylla 5.4 is affected.
Fixes#17501.
Fixes#17452.
Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
Closesscylladb/scylladb#17502
For tables using tablet based replication strategies, the sstables
should be reshaped only within the compaction groups they belong to.
Updated shard_reshaping_compaction_task_impl to group the sstables based
on their compaction groups before reshaping them within the groups.
Fixes#16966
Signed-off-by: Lakshmi Narayanan Sreethar <lakshmi.sreethar@scylladb.com>
The total reshaped size should only be updated on reshape success and
not after reshape has been failed due to some exception.
Signed-off-by: Lakshmi Narayanan Sreethar <lakshmi.sreethar@scylladb.com>
Catch and handle the exceptions directly instead of rethrowing and
catching again.
Signed-off-by: Lakshmi Narayanan Sreethar <lakshmi.sreethar@scylladb.com>
before this change, we rely on the default-generated fmt::formatter
created from operator<<, but fmt v10 dropped the default-generated
formatter.
in this change, we define formatters for `formatted_sstables_list`,
and drop its operator<<.
Refs #13245
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
