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// Copyright (c) Meta Platforms, Inc. and affiliates.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
#include "memtable/wbwi_memtable.h"
#include "db/memtable.h"
namespace ROCKSDB_NAMESPACE {
const std::unordered_map<WriteType, ValueType>
WBWIMemTableIterator::WriteTypeToValueTypeMap = {
{kPutRecord, kTypeValue},
{kMergeRecord, kTypeMerge},
{kDeleteRecord, kTypeDeletion},
{kSingleDeleteRecord, kTypeSingleDeletion},
{kDeleteRangeRecord, kTypeRangeDeletion},
{kPutEntityRecord, kTypeWideColumnEntity},
// Only the above record types are added to WBWI.
// kLogDataRecord, kXIDRecord, kUnknownRecord
};
InternalIterator* WBWIMemTable::NewIterator(
const ReadOptions&, UnownedPtr<const SeqnoToTimeMapping>, Arena* arena,
const SliceTransform* /* prefix_extractor */, bool for_flush) {
// Ingested WBWIMemTable should have an assigned seqno
assert(assigned_seqno_.upper_bound != kMaxSequenceNumber);
assert(assigned_seqno_.lower_bound != kMaxSequenceNumber);
assert(arena);
auto mem = arena->AllocateAligned(sizeof(WBWIMemTableIterator));
return new (mem) WBWIMemTableIterator(
std::unique_ptr<WBWIIterator>(wbwi_->NewIterator(cf_id_)),
assigned_seqno_, comparator_, for_flush);
}
inline InternalIterator* WBWIMemTable::NewIterator() const {
assert(assigned_seqno_.upper_bound != kMaxSequenceNumber);
assert(assigned_seqno_.lower_bound != kMaxSequenceNumber);
return new WBWIMemTableIterator(
std::unique_ptr<WBWIIterator>(wbwi_->NewIterator(cf_id_)),
assigned_seqno_, comparator_, /*for_flush=*/false);
}
bool WBWIMemTable::Get(const LookupKey& key, std::string* value,
PinnableWideColumns* columns, std::string* timestamp,
Status* s, MergeContext* merge_context,
SequenceNumber* max_covering_tombstone_seq,
SequenceNumber* out_seq, const ReadOptions&,
bool immutable_memtable, ReadCallback* callback,
bool* is_blob_index, bool do_merge,
const BlobFetcher* blob_fetcher) {
assert(s->ok() || s->IsMergeInProgress());
(void)immutable_memtable;
(void)timestamp;
(void)columns;
(void)blob_fetcher;
assert(immutable_memtable);
assert(!timestamp); // TODO: support UDT
// IngestWriteBatchWithIndex() is rejected while any live column family has
// blob direct write enabled, so WBWI should never need blob resolution.
assert(blob_fetcher == nullptr);
assert(assigned_seqno_.upper_bound != kMaxSequenceNumber);
assert(assigned_seqno_.lower_bound != kMaxSequenceNumber);
// WBWI does not support DeleteRange yet.
assert(!wbwi_->GetWriteBatch()->HasDeleteRange());
assert(merge_context);
*out_seq = kMaxSequenceNumber;
[[maybe_unused]] SequenceNumber read_seq =
GetInternalKeySeqno(key.internal_key());
// This is memtable is a single write batch, no snapshot can be taken within
// assigned seqnos for this memtable.
assert(read_seq >= assigned_seqno_.upper_bound ||
read_seq < assigned_seqno_.lower_bound);
std::unique_ptr<InternalIterator> iter{NewIterator()};
iter->Seek(key.internal_key());
const Slice lookup_user_key = key.user_key();
bool merge_in_progress = s->IsMergeInProgress();
while (iter->Valid() && comparator_->EqualWithoutTimestamp(
ExtractUserKey(iter->key()), lookup_user_key)) {
uint64_t tag = ExtractInternalKeyFooter(iter->key());
ValueType type;
SequenceNumber seq;
UnPackSequenceAndType(tag, &seq, &type);
// Unsupported operations.
assert(type != kTypeBlobIndex);
assert(type != kTypeWideColumnEntity);
assert(type != kTypeValuePreferredSeqno);
assert(type != kTypeDeletionWithTimestamp);
if (!callback || callback->IsVisible(seq)) {
if (*out_seq == kMaxSequenceNumber) {
*out_seq = std::max(seq, *max_covering_tombstone_seq);
}
if (*max_covering_tombstone_seq > seq) {
type = kTypeRangeDeletion;
}
switch (type) {
case kTypeValue: {
HandleTypeValue(lookup_user_key, iter->value(), iter->IsValuePinned(),
do_merge, merge_in_progress, merge_context,
moptions_.merge_operator, clock_,
moptions_.statistics, moptions_.info_log, s, value,
columns, is_blob_index);
assert(seq <= read_seq);
return /*found_final_value=*/true;
}
case kTypeDeletion:
case kTypeSingleDeletion:
case kTypeRangeDeletion: {
HandleTypeDeletion(lookup_user_key, merge_in_progress, merge_context,
moptions_.merge_operator, clock_,
moptions_.statistics, moptions_.info_log, s, value,
columns);
assert(seq <= read_seq);
return /*found_final_value=*/true;
}
case kTypeMerge: {
merge_in_progress = true;
if (ReadOnlyMemTable::HandleTypeMerge(
lookup_user_key, iter->value(), iter->IsValuePinned(),
do_merge, merge_context, moptions_.merge_operator, clock_,
moptions_.statistics, moptions_.info_log, s, value,
columns)) {
return true;
}
break;
}
default: {
std::string msg(
"Unrecognized or unsupported value type for "
"WBWI-based memtable: " +
std::to_string(static_cast<int>(type)) + ". ");
msg.append("User key: " +
ExtractUserKey(iter->key()).ToString(/*hex=*/true) + ". ");
msg.append("seq: " + std::to_string(seq) + ".");
*s = Status::Corruption(msg.c_str());
return /*found_final_value=*/true;
}
}
}
// Current key is a merge key or not visible
assert(merge_in_progress || (callback && !callback->IsVisible(seq)));
iter->Next();
}
if (!iter->status().ok() &&
(s->ok() || s->IsMergeInProgress() || s->IsNotFound())) {
*s = iter->status();
// stop further look up
return true;
}
if (merge_in_progress) {
assert(s->ok() || s->IsMergeInProgress());
*s = Status::MergeInProgress();
}
return /*found_final_value=*/false;
}
void WBWIMemTable::MultiGet(const ReadOptions& read_options,
MultiGetRange* range, ReadCallback* callback,
bool immutable_memtable,
const BlobFetcher* blob_fetcher) {
(void)immutable_memtable;
(void)blob_fetcher;
// Should only be used as immutable memtable.
assert(immutable_memtable);
// IngestWriteBatchWithIndex() is rejected while any live column family has
// blob direct write enabled, so WBWI should never need blob resolution.
assert(blob_fetcher == nullptr);
// TODO: reuse the InternalIterator created in Get().
for (auto iter = range->begin(); iter != range->end(); ++iter) {
SequenceNumber dummy_seq = 0;
bool found_final_value =
Get(*iter->lkey, iter->value ? iter->value->GetSelf() : nullptr,
iter->columns, iter->timestamp, iter->s, &(iter->merge_context),
&(iter->max_covering_tombstone_seq), &dummy_seq, read_options, true,
callback, nullptr, true);
if (found_final_value) {
if (iter->s->ok() || iter->s->IsNotFound()) {
if (iter->value) {
iter->value->PinSelf();
range->AddValueSize(iter->value->size());
} else {
assert(iter->columns);
range->AddValueSize(iter->columns->serialized_size());
}
}
range->MarkKeyDone(iter);
if (range->GetValueSize() > read_options.value_size_soft_limit) {
// Set all remaining keys in range to Abort
for (auto range_iter = range->begin(); range_iter != range->end();
++range_iter) {
range->MarkKeyDone(range_iter);
*(range_iter->s) = Status::Aborted();
}
break;
}
}
}
}
} // namespace ROCKSDB_NAMESPACE