mirror of
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724 lines
16 KiB
Plaintext
724 lines
16 KiB
Plaintext
# Test repeated seeks into the same range key, while TrySeekUsingNext=true.
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# Test for regression fixed in #1849.
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reset
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----
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batch commit
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range-key-set a c @5 boop
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range-key-set c e @5 beep
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----
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committed 2 keys
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combined-iter
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seek-ge a
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seek-ge b
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----
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a: (., [a-c) @5=boop UPDATED)
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b: (., [a-c) @5=boop)
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# Ensure that no-op optimizations do not reuse range key iterator state across
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# SetOptions calls. No-op optimizations have the potential to fail to update
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# RangeKeyChanged().
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reset
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----
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batch commit
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range-key-set p s @1 foo
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----
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committed 1 keys
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combined-iter lower=n@9 upper=x@5
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seek-lt y@3
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set-options lower=n@9 upper=x@5
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seek-lt-limit t o
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----
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p: (., [p-s) @1=foo UPDATED)
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.
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p: valid (., [p-s) @1=foo UPDATED)
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combined-iter lower=n@9 upper=x@5
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seek-ge o
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set-options lower=n@9 upper=x@5
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seek-ge oat
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----
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p: (., [p-s) @1=foo UPDATED)
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.
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p: (., [p-s) @1=foo UPDATED)
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combined-iter lower=n@9 upper=x@5
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seek-prefix-ge p@5
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set-options lower=n@9 upper=x@5
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seek-prefix-ge p
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----
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p@5: (., [p-"p\x00") @1=foo UPDATED)
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.
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p: (., [p-"p\x00") @1=foo UPDATED)
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# Regression test for #1963 / cockroachdb/cockroach#88296.
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#
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# The iterators in this test move their bounds monotonically forward
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# [a,b)→[b,e). This enables the sstable iterator optimization for monotonically
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# moving bounds (see boundsCmp in sstable/reader.go). With this optimization,
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# the first seek after the SetBounds may use the fact that the bounds moved
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# forward monotonically to avoid re-seeking within the index.
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#
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# The test cases below exercise a seek to a key, followed by a seek to a smaller
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# key. The second seek should not make use of the bounds optimization because
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# doing so may incorrectly skip all keys between the lower bound and the first
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# seek key. Previously, the code paths that handled block-property filtering on
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# a two-level iterator could leave the iterator in a state such that the second
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# seek would improperly also exercise the monotonic bounds optimization. In the
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# test cases below, this would result in the key 'b' not being found. Each test
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# case exercises a different combination of seek-ge and seek-prefix-ge.
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reset block-size=1 index-block-size=1
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----
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batch commit
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set a a
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set b b
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set b@4 b@4
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set z@6 z@6
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----
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committed 4 keys
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flush
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----
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combined-iter lower=a upper=b point-key-filter=(1,4)
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seek-ge a
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set-bounds lower=b upper=e
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seek-prefix-ge d@5
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seek-prefix-ge b
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----
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a: (a, .)
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.
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.
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b: (b, .)
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combined-iter lower=a upper=b point-key-filter=(1,4)
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seek-ge a
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set-bounds lower=b upper=e
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seek-ge d@5
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seek-prefix-ge b
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----
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a: (a, .)
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.
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.
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b: (b, .)
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combined-iter lower=a upper=b point-key-filter=(1,4)
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seek-ge a
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set-bounds lower=b upper=e
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seek-ge d@5
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seek-ge b
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----
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a: (a, .)
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.
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.
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b: (b, .)
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combined-iter lower=a upper=b point-key-filter=(1,4)
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seek-ge a
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set-bounds lower=b upper=e
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seek-prefix-ge d@5
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seek-ge b
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----
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a: (a, .)
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.
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.
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b: (b, .)
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# Test a similar case with range key masking. The previous bug did not apply to
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# this case, because range-key masking never skips blocks on a seek.
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reset block-size=1 index-block-size=1
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----
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batch commit
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set a a
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set b b
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set b@4 b@4
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set z@6 z@6
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range-key-set a z @9 v
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----
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committed 5 keys
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flush
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----
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combined-iter lower=a upper=b mask-suffix=@10 mask-filter
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seek-ge a
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set-bounds lower=b upper=e
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seek-prefix-ge d@5
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seek-ge b
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----
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a: (a, [a-b) @9=v UPDATED)
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.
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d@5: (., [d-"d\x00") @9=v UPDATED)
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b: (b, [b-e) @9=v UPDATED)
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# Test TrySeekUsingNext across no-op SetOptions when reading through an indexed
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# batch with modifications. The seek-prefix-ges after the first should make use
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# of the TrySeekUsingNext optimization.
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#
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# TODO(jackson): The iterator stats don't signal the use of try-seek-using-next,
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# so we inspect lastPositioningOp as a proxy since that's the
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# try-seek-using-next prerequisite that previously regressed. Is there a way to
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# adapt to this test so that the absence of the try-seek-using-next optimization
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# is visible in the iterator statistics?
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#
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# Regression test for cockroachdb/cockroach#88819.
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reset
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----
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batch commit
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set b@5 b@5
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set c@3 c@3
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set d@9 d@9
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set e@8 e@8
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set f@8 f@8
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----
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committed 5 keys
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flush
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----
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batch name=foo
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set g@4 g@4
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----
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wrote 1 keys to batch "foo"
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combined-iter reader=foo name=fooiter
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inspect lastPositioningOp
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seek-prefix-ge b@10
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stats
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----
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lastPositioningOp="unknown"
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b@5: (b@5, .)
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stats: (interface (dir, seek, step): (fwd, 1, 0), (rev, 0, 0)), (internal (dir, seek, step): (fwd, 1, 0), (rev, 0, 0)),
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(internal-stats: (block-bytes: (total 119B, cached 0B, read-time 0s)), (points: (count 1, key-bytes 3B, value-bytes 3B, tombstoned 0)))
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mutate batch=foo
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set h@2 h@2
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----
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iter iter=fooiter
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set-options
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inspect lastPositioningOp
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seek-prefix-ge c@10
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stats
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----
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.
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lastPositioningOp="seekprefixge"
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c@3: (c@3, .)
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stats: (interface (dir, seek, step): (fwd, 2, 0), (rev, 0, 0)), (internal (dir, seek, step): (fwd, 2, 0), (rev, 0, 0)),
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(internal-stats: (block-bytes: (total 119B, cached 0B, read-time 0s)), (points: (count 2, key-bytes 6B, value-bytes 6B, tombstoned 0)))
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mutate batch=foo
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set i@1 i@1
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----
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iter iter=fooiter
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set-options
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inspect lastPositioningOp
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seek-prefix-ge d@10
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stats
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----
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.
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lastPositioningOp="seekprefixge"
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d@9: (d@9, .)
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stats: (interface (dir, seek, step): (fwd, 3, 0), (rev, 0, 0)), (internal (dir, seek, step): (fwd, 3, 0), (rev, 0, 0)),
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(internal-stats: (block-bytes: (total 119B, cached 0B, read-time 0s)), (points: (count 3, key-bytes 9B, value-bytes 9B, tombstoned 0)))
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mutate batch=foo
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set j@6 j@6
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----
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iter iter=fooiter
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set-options
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inspect lastPositioningOp
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seek-prefix-ge e@10
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stats
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----
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.
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lastPositioningOp="seekprefixge"
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e@8: (e@8, .)
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stats: (interface (dir, seek, step): (fwd, 4, 0), (rev, 0, 0)), (internal (dir, seek, step): (fwd, 4, 0), (rev, 0, 0)),
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(internal-stats: (block-bytes: (total 119B, cached 0B, read-time 0s)), (points: (count 4, key-bytes 12B, value-bytes 12B, tombstoned 0)))
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# Ensure that a case eligible for TrySeekUsingNext across a SetOptions correctly
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# sees new batch mutations. The batch iterator should ignore the
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# TrySeekUsingNext designation.
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reset
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----
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batch commit
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set b@3 b@3
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set c@3 c@3
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----
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committed 2 keys
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batch name=b1
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----
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wrote 0 keys to batch "b1"
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combined-iter name=i1 reader=b1
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seek-prefix-ge b@6
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----
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b@3: (b@3, .)
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mutate batch=b1
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set b@4 b@4
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----
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iter iter=i1
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set-options
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inspect lastPositioningOp
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seek-prefix-ge b@5
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----
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.
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lastPositioningOp="seekprefixge"
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b@4: (b@4, .)
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# Similar case with SeekGE.
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iter iter=i1
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seek-ge b@2
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----
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c@3: (c@3, .)
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mutate batch=b1
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set c@9 c@9
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----
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iter iter=i1
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set-options
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inspect lastPositioningOp
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seek-ge b@1
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----
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.
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lastPositioningOp="seekge"
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c@9: (c@9, .)
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# Test a case similar to the above, but with an intermediate switch to
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# range-key-only iteration, so that the batchIter is not re-seeked.
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reset
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----
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batch commit
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set b@5 b@5
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set c@3 c@3
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----
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committed 2 keys
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batch name=b1
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----
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wrote 0 keys to batch "b1"
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combined-iter name=i1 reader=b1
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seek-ge b@9
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----
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b@5: (b@5, .)
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mutate batch=b1
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set b@6 b@6
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----
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iter iter=i1
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set-options key-types=range
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seek-ge b@8
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set-options key-types=both
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inspect lastPositioningOp
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seek-ge b@7
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----
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.
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.
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.
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lastPositioningOp="invalidate"
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b@6: (b@6, .)
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reset
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----
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batch commit
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set b@2 b@2
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set c@3 c@3
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----
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committed 2 keys
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batch name=b1
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----
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wrote 0 keys to batch "b1"
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combined-iter name=i1 reader=b1
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seek-prefix-ge b@1
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----
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.
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mutate batch=b1
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set c@4 c@4
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----
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iter iter=i1
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set-options
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inspect lastPositioningOp
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seek-prefix-ge c@8
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----
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.
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lastPositioningOp="seekprefixge"
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c@4: (c@4, .)
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# Regression test for #2084.
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#
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# The optimization added in #2058 began using an enabled TrySeekUsingNext flag
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# to avoid re-seeking within a level's file metadata. This optimization was
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# dependent on the invariant that the iterator remained positioned at the
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# previous seek key, so that a subsequent seek to a larger key does not need to
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# backtrack.
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#
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# This invariant wasn't strictly preserved by the levelIter during SeekPrefixGE
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# calls. During a SeekPrefixGE, the sstable iterator may return nil despite the
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# existence of sstable keys greater than the seek key if the sstable's bloom
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# filter excludes the seek prefix. If the sstable DOES NOT contain any range
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# tombstones, the levelIter does not advance to the next file if the file's
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# largest bound has a prefix larger than the seek prefix, returning nil, else it
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# does advance since the next file could contain the seek prefix.
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#
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# However, if the file DOES contain range tombstones, the levelIter returns a
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# synthetic largest boundary key so that the file remains open until the merging
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# iterator passes beyond its bounds. This ensures the file's range deletions'
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# effects on other keys are observed. If another level returned a key greater
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# than this largest boundary key (eg, because the other level doesn't restrict
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# results to the seek prefix), the merging iterator could step beyond the
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# level's synthetic boundary key. This step could advance the levelIter to the
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# next file, despite its irrelevance to the current prefix. This step would also
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# break the invariant that the level iterator remained positioned at the seek
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# key.
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#
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# The bug was fixed by comparing the synthetic boundary key to the seek prefix,
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# avoiding ever Next-ing the level iterator beyond the seek prefix.
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# Set 100 bloom-filter bits per key to ensure the bloom-filter exclusivity
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# checks successfully exclude prefixes that aren't present.
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reset bloom-bits-per-key=100
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----
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# [a -d)
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# b@3 d@1
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batch commit
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del-range a d
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set b@3 b@3
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set d@1 d@1
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----
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committed 3 keys
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flush
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----
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# c@0 e@0
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batch commit
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del c@0
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set e@0 e@0
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----
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committed 2 keys
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flush
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----
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lsm
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----
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0.1:
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000007:[c@0#13,DEL-e@0#14,SET]
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0.0:
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000005:[a#10,RANGEDEL-d@1#12,SET]
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# The first SeekPrefixGE(b@3) positions each level iterator over their
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# respective files and correctly finds b@3.
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#
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# The second SeekPrefixGE(c@5) seeks in both files. The 0.0 level iterator finds
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# that its file does not contain the prefix 'c', so it returns nil. Since the file
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# contains a range deletion, it returns a synthetic boundary key with user key
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# d@1 to ensure the file stays open until the iterator has moved beyond the
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# file's bounds. The seek in level 0.1 finds a key with the prefix 'c': a point
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# tombstone c@0#4,DEL. This gets bubbled up to the Iterator, which skips it
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# because it's a point tombstone, nexting within 000007 to e@0#5.
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#
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# Previously, in the bug highlighted by #2084, the merging iterator would then
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# see that level 0.0's synthetic boundary key at d@1 was at the top of the heap
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# and move to the next file in 0.0. The subsequent call to SeekPrefixGE(d@1,
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# TrySeekUsingNext=true) would incorrectly use the current position within the
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# 0.0 file metadata (nil), and miss the d@1 key.
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combined-iter
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seek-prefix-ge b@3
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seek-prefix-ge c@5
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seek-prefix-ge d@1
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----
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b@3: (b@3, .)
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.
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d@1: (d@1, .)
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# Test an instance where unequal application of TrySeekUsingNext optimizations
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# among a merging iterator's levels can result in surfacing deleted keys.
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# Regression test for #2101.
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reset
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----
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batch commit
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set b b
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----
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committed 1 keys
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flush
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----
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compact a-h
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----
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6:
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000005:[b#10,SET-b#10,SET]
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batch commit
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set g g
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----
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committed 1 keys
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flush
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----
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compact a-h
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----
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6:
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000005:[b#10,SET-b#10,SET]
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000007:[g#11,SET-g#11,SET]
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batch commit
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del-range b d
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----
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committed 1 keys
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flush
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----
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batch commit
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set e e
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----
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committed 1 keys
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flush
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----
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lsm
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----
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0.0:
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000009:[b#12,RANGEDEL-d#inf,RANGEDEL]
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000011:[e#13,SET-e#13,SET]
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6:
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000005:[b#10,SET-b#10,SET]
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000007:[g#11,SET-g#11,SET]
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# The `seek-ge b` could incorrectly return `b` if the level 0.0 levelIter obeys
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# the TrySeekUsingNext optimization but the level 6 levelIter does not. The
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# TrySeekUsingNext optimization must be applied equally across all the levels of
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# a merging iterator.
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combined-iter
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seek-ge a
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seek-ge b
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----
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e: (e, .)
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e: (e, .)
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|
|
# Regression test for #2118, where a MERGE pushes child iterators to the next
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# key, and possibly past a file that contained a range tombstone that we
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# should have paused at in a SeekPrefixGE, affecting future TrySeekUsingNexts.
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# This test constructs this example (suffixes ignored), where square brackets
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# consist of one SST:
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#
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# L0: [(b, MERGE) (c-d, RANGEDEL)] [(m, DEL)]
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# L6: [(c, SET) (c-e, RANGEKEYSET)] [(j, SET)]
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#
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# We create an iterator with L6 filters enabled and create relatively large
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# bloom filter blocks to reduce the false positive rate. Then we SeekPrefixGE(b)
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# and end up with the L0 levelIter landing on the (b, MERGE), and the L6 iterator
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# is exhausted as no SST filter blocks match the prefix. The top-level iterator
|
|
# then Next()s to find the next internal key at b if there is any, we land
|
|
# on the pause key at (d, RANGEDELSENTINEL). Crucially since there are no
|
|
# more items in the mergingIter heap and the merging iter is set to elide
|
|
# range tombstones, we Next() the level iter again as part of the same top-level
|
|
# iterator Next(), and land on (m, DEL). The type of the key here doesn't really
|
|
# matter.
|
|
#
|
|
# We then do a SeekPrefixGE(c), and since c > b, in the buggy scenario we
|
|
# TrySeekUsingNext. The bottom levelIter correctly finds the sstable containing
|
|
# the set, but the upper levelIter is already past the sstable containing the
|
|
# rangedel, so it just returns (m, DEL) again, and we surface the (c, SET) that
|
|
# should have been deleted.
|
|
|
|
reset bloom-bits-per-key=100
|
|
----
|
|
|
|
batch commit
|
|
set c@2 foo
|
|
range-key-set c e @5 bar
|
|
----
|
|
committed 2 keys
|
|
|
|
flush
|
|
----
|
|
|
|
compact a-z
|
|
----
|
|
6:
|
|
000005:[c#11,RANGEKEYSET-e#inf,RANGEKEYSET]
|
|
|
|
batch commit
|
|
set j k
|
|
----
|
|
committed 1 keys
|
|
|
|
flush
|
|
----
|
|
|
|
compact a-z
|
|
----
|
|
6:
|
|
000005:[c#11,RANGEKEYSET-e#inf,RANGEKEYSET]
|
|
000007:[j#12,SET-j#12,SET]
|
|
|
|
batch commit
|
|
del-range c@2 d
|
|
merge b@2 g
|
|
----
|
|
committed 2 keys
|
|
|
|
flush
|
|
----
|
|
|
|
batch commit
|
|
del m
|
|
----
|
|
committed 1 keys
|
|
|
|
flush
|
|
----
|
|
|
|
lsm
|
|
----
|
|
0.0:
|
|
000009:[b@2#14,MERGE-d#inf,RANGEDEL]
|
|
000011:[m#15,DEL-m#15,DEL]
|
|
6:
|
|
000005:[c#11,RANGEKEYSET-e#inf,RANGEKEYSET]
|
|
000007:[j#12,SET-j#12,SET]
|
|
|
|
combined-iter upper=z@3 mask-suffix=@3 mask-filter use-l6-filter
|
|
seek-prefix-ge b@2
|
|
seek-prefix-ge c@2
|
|
----
|
|
b@2: (g, .)
|
|
c@2: (., [c-"c\x00") @5=bar UPDATED)
|
|
|
|
# Regression test for Cockroachdb#92205. This test constructs this scenario:
|
|
#
|
|
# A DEL in a middle level (L0.0) that we SeekPrefixGE directly for. Note that
|
|
# this DEL is not deleted by any range deletes; it gets exposed to the
|
|
# Iterator. There's a key after this DEL in the L0.0 levelIter, and there's a
|
|
# level above it (L0.1) that has a rangedel deleting that key, but not the DEL
|
|
# we SeekPrefixGE for. In the lowest level, there's a SET at L6 that is to the
|
|
# right of the DEL in L0.0, but is also not deleted by the RANGEDEL in L0.1.
|
|
# Our second SeekPrefixGE will be for this SET. Visualization, where square
|
|
# brackets are files:
|
|
#
|
|
# L0.1 [dd-ee#RANGEDEL]
|
|
# L0.0 [b#DEL e#SET]
|
|
# L6 [d#SET] [f#SET g#SET]
|
|
#
|
|
# When the Iterator encounters the above DEL internal key in the SeekPrefixGE, it
|
|
# calls Iterator.nextUserKey in the Iterator.findNextEntry call that was part of the
|
|
# SeekPrefixGE call. While Iterator.findNextEntry has a conditional to exit
|
|
# out of the loop if we're in prefix iteration and have gone past the prefix,
|
|
# this break only happens _after_ nextUserKey() has run. As a result we Next()
|
|
# the levelIter in L0.0, land on e#SET, and the mergingIter realizes that it
|
|
# is deleted by the rangedel in a higher level (L0.1). The mergingIter does not
|
|
# see d#SET because that sstable was excluded by the bloom filter. We then do a relative
|
|
# seek of all levels below L0.1 to ee (the end key of the rangedel), and in that
|
|
# process we advance the L6 levelIter to the second file.
|
|
#
|
|
# When we do the second SeekPrefixGE for d, the outer Iterator thinks d > b and
|
|
# so TrySeekUsingNext can work. However, the L6 levelIter has already advanced
|
|
# past the file containing d#SET, so we don't surface it even though we should
|
|
# have.
|
|
|
|
reset bloom-bits-per-key=100
|
|
----
|
|
|
|
batch commit
|
|
set d@4 foo
|
|
----
|
|
committed 1 keys
|
|
|
|
flush
|
|
----
|
|
|
|
compact a-f
|
|
----
|
|
6:
|
|
000005:[d@4#10,SET-d@4#10,SET]
|
|
|
|
batch commit
|
|
set f@5 bar
|
|
set g@5 baz
|
|
----
|
|
committed 2 keys
|
|
|
|
flush
|
|
----
|
|
|
|
compact e-k
|
|
----
|
|
6:
|
|
000005:[d@4#10,SET-d@4#10,SET]
|
|
000007:[f@5#11,SET-g@5#12,SET]
|
|
|
|
batch commit
|
|
del b@5
|
|
set e@4 foobar
|
|
----
|
|
committed 2 keys
|
|
|
|
flush
|
|
----
|
|
|
|
batch commit
|
|
del-range dd ee
|
|
----
|
|
committed 1 keys
|
|
|
|
flush
|
|
----
|
|
|
|
lsm
|
|
----
|
|
0.1:
|
|
000011:[dd#15,RANGEDEL-ee#inf,RANGEDEL]
|
|
0.0:
|
|
000009:[b@5#13,DEL-e@4#14,SET]
|
|
6:
|
|
000005:[d@4#10,SET-d@4#10,SET]
|
|
000007:[f@5#11,SET-g@5#12,SET]
|
|
|
|
combined-iter upper=z@3 use-l6-filter
|
|
seek-prefix-ge b@6
|
|
seek-prefix-ge d@5
|
|
----
|
|
.
|
|
d@4: (foo, .)
|