DataBlockHashIndex: avoiding expensive iiter->Next when handling hash kNoEntry (#4296)

Summary:
When returning `kNoEntry` from HashIndex lookup, previously we invalidate the
`biter` by set `current_=restarts_`, so that the search can continue to the next
block in case the search result may reside in the next block.

There is one problem: when we are searching for a missing key, if the search
finds a `kNoEntry` and continue the search to the next block, there is also a
non-trivial possibility that the HashIndex return `kNoEntry` too, and the
expensive index iterator `Next()` will happen several times for nothing.

The solution is that if the hash table returns `kNoEntry`, `SeekForGetImpl()` just search the last restart interval for the key. It will stop at the first key that is large than the seek_key, or to the end of the block, and each case will be handled correctly.

Microbenchmark script:
```
TEST_TMPDIR=/dev/shm ./db_bench --benchmarks=fillseq,readtocache,readmissing \
          --cache_size=20000000000  --use_data_block_hash_index={true|false}
```

`readmissing` performance (lower is better):
```
binary:                      3.6098 micros/op
hash (before applying diff): 4.1048 micros/op
hash (after  applying diff): 3.3502 micros/op
```
Pull Request resolved: https://github.com/facebook/rocksdb/pull/4296

Differential Revision: D9419159

Pulled By: fgwu

fbshipit-source-id: 21e3eedcccbc47a249aa8eb4bf405c9def0b8a05
main
Fenggang Wu 6 years ago committed by Facebook Github Bot
parent bb5dcea98e
commit da40d45267
  1. 53
      table/block.cc

@ -235,7 +235,7 @@ void DataBlockIter::Seek(const Slice& target) {
//
// If the return value is FALSE, iter location is undefined, and it means:
// 1) there is no key in this block falling into the range:
// ["seek_user_key @ type | seqno", "seek_user_key @ type | 0"],
// ["seek_user_key @ type | seqno", "seek_user_key @ kTypeDeletion | 0"],
// inclusive; AND
// 2) the last key of this block has a greater user_key from seek_user_key
//
@ -243,13 +243,21 @@ void DataBlockIter::Seek(const Slice& target) {
// 1) If iter is valid, it is set to a location as if set by BinarySeek. In
// this case, it points to the first key_ with a larger user_key or a
// matching user_key with a seqno no greater than the seeking seqno.
// 2) If the iter is invalid, it means either the block has no such user_key,
// or the block ends with a matching user_key but with a larger seqno.
// 2) If the iter is invalid, it means that either all the user_key is less
// than the seek_user_key, or the block ends with a matching user_key but
// with a smaller [ type | seqno ] (i.e. a larger seqno, or the same seqno
// but larger type).
bool DataBlockIter::SeekForGetImpl(const Slice& target) {
Slice user_key = ExtractUserKey(target);
uint32_t map_offset = restarts_ + num_restarts_ * sizeof(uint32_t);
uint8_t entry = data_block_hash_index_->Lookup(data_, map_offset, user_key);
if (entry == kCollision) {
// HashSeek not effective, falling back
Seek(target);
return true;
}
if (entry == kNoEntry) {
// Even if we cannot find the user_key in this block, the result may
// exist in the next block. Consider this exmpale:
@ -260,16 +268,13 @@ bool DataBlockIter::SeekForGetImpl(const Slice& target) {
//
// If seek_key = axy@60, the search will starts from Block N.
// Even if the user_key is not found in the hash map, the caller still
// have to conntinue searching the next block. So we invalidate the
// iterator to tell the caller to go on.
current_ = restarts_; // Invalidate the iter
return true;
}
if (entry == kCollision) {
// HashSeek not effective, falling back
Seek(target);
return true;
// have to conntinue searching the next block.
//
// In this case, we pretend the key is the the last restart interval.
// The while-loop below will search the last restart interval for the
// key. It will stop at the first key that is larger than the seek_key,
// or to the end of the block if no one is larger.
entry = static_cast<uint8_t>(num_restarts_ - 1);
}
uint32_t restart_index = entry;
@ -299,24 +304,26 @@ bool DataBlockIter::SeekForGetImpl(const Slice& target) {
}
if (current_ == restarts_) {
// Search reaches to the end of the block. There are two possibilites;
// Search reaches to the end of the block. There are three possibilites:
// 1) there is only one user_key match in the block (otherwise collsion).
// the matching user_key resides in the last restart interval.
// it is the last key of the restart interval and of the block too.
// ParseNextDataKey() skiped it as its seqno is newer.
// the matching user_key resides in the last restart interval, and it
// is the last key of the restart interval and of the block as well.
// ParseNextDataKey() skiped it as its [ type | seqno ] is smaller.
//
// 2) The seek_key is not found in the HashIndex Lookup(), i.e. kNoEntry,
// AND all existing user_keys in the restart interval are smaller than
// seek_user_key.
//
// 2) The seek_key is a false positive and got hashed to the last restart
// interval.
// All existing keys in the restart interval are less than seek_key.
// 3) The seek_key is a false positive and happens to be hashed to the
// last restart interval, AND all existing user_keys in the restart
// interval are smaller than seek_user_key.
//
// The result may exist in the next block in either case, so may_exist is
// returned as true.
// The result may exist in the next block each case, so we return true.
return true;
}
if (user_comparator_->Compare(key_.GetUserKey(), user_key) != 0) {
// the key is not in this block and cannot be at the next block either.
// return false to tell the caller to break from the top-level for-loop
return false;
}

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