ceremonyclient/pebble/testdata/indexed_batch_mutation
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2024-01-03 01:31:42 -06:00

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# Set a key within the indexed batch.
new-batch
set foo foo
----
# Construct an iterator over the indexed batch.
new-batch-iter i0
----
# The key we set should be visible.
iter iter=i0
first
next
----
foo: (foo, .)
.
# Same behavior with a batch-only iterator.
new-batch-only-iter i-bo0
----
iter iter=i-bo0
first
next
----
foo: (foo, .)
.
# Set a new key, while the above iterator is still open.
mutate
set bar bar
----
# The new key should be invisible.
iter iter=i0
prev
next
----
foo: (foo, .)
.
# Same behavior with a batch-only iterator.
iter iter=i-bo0
prev
next
----
foo: (foo, .)
.
# A set-options operation should refresh the Iterator's view of the batch. The
# bar key should now be visibile.
iter iter=i0
set-options
first
next
next
----
.
bar: (bar, .)
foo: (foo, .)
.
# Same behavior with a batch-only iterator.
iter iter=i-bo0
set-options
first
next
next
----
.
bar: (bar, .)
foo: (foo, .)
.
# Delete foo with a range deletion.
mutate
del-range f g
----
# Both keys should still be visible.
iter iter=i0
prev
prev
----
foo: (foo, .)
bar: (bar, .)
# Same behavior with a batch-only iterator.
iter iter=i-bo0
prev
prev
----
foo: (foo, .)
bar: (bar, .)
# After refreshing the iterator's view of the batch, foo should be deleted.
iter iter=i0
set-options
seek-ge foo
seek-lt foo
----
.
.
bar: (bar, .)
# Same behavior with a batch-only iterator.
iter iter=i-bo0
set-options
seek-ge foo
seek-lt foo
----
.
.
bar: (bar, .)
# Write a range key set and a point key.
mutate
range-key-set a c @1 boop
set b b
----
# The mutations should not be visible.
iter iter=i0
prev
next
----
.
bar: (bar, .)
# Same behavior with a batch-only iterator.
iter iter=i-bo0
prev
next
----
.
bar: (bar, .)
# But refreshing the batch through a call to SetOptions should surface them.
iter iter=i0
set-options
first
next
next
----
.
a: (., [a-c) @1=boop UPDATED)
b: (b, [a-c) @1=boop)
bar: (bar, [a-c) @1=boop)
# Same behavior with a batch-only iterator.
iter iter=i-bo0
set-options
first
next
next
----
.
a: (., [a-c) @1=boop UPDATED)
b: (b, [a-c) @1=boop)
bar: (bar, [a-c) @1=boop)
# Remove part of the range key to fragment it.
mutate
range-key-del ace arc
----
iter iter=i0
next
prev
prev
prev
prev
----
.
bar: (bar, [a-c) @1=boop UPDATED)
b: (b, [a-c) @1=boop)
a: (., [a-c) @1=boop)
.
# Same behavior with a batch-only iterator.
iter iter=i-bo0
next
prev
prev
prev
prev
----
.
bar: (bar, [a-c) @1=boop UPDATED)
b: (b, [a-c) @1=boop)
a: (., [a-c) @1=boop)
.
iter iter=i0
set-options
first
next
next
next
----
.
a: (., [a-ace) @1=boop UPDATED)
arc: (., [arc-c) @1=boop UPDATED)
b: (b, [arc-c) @1=boop)
bar: (bar, [arc-c) @1=boop)
# Same behavior with a batch-only iterator.
iter iter=i-bo0
set-options
first
next
next
next
----
.
a: (., [a-ace) @1=boop UPDATED)
arc: (., [arc-c) @1=boop UPDATED)
b: (b, [arc-c) @1=boop)
bar: (bar, [arc-c) @1=boop)
# Create a new indexed batch and a new iterator over it.
new-batch
set foo foo
----
new-batch-iter i1
----
iter iter=i1
first
next
----
foo: (foo, .)
.
# Test interactions with cloned iterators.
# First, apply mutations to the batch. They should remain invisible.
mutate
set bar bar
range-key-set a z @1 boop
del-range f g
----
iter iter=i1
first
next
----
foo: (foo, .)
.
# Clone i1 to create i2.
clone from=i1 to=i2 refresh-batch=false
----
# i1 unchanged.
iter iter=i1
first
next
----
foo: (foo, .)
.
# i2 sees exactly the same stale state as i1 until SetOptions is called to
# explicitly refresh the view of the underlying batch.
iter iter=i2
first
next
set-options
first
next
next
----
foo: (foo, .)
.
.
a: (., [a-z) @1=boop UPDATED)
bar: (bar, [a-z) @1=boop)
.
# Clone i1 to create i3, this time passing RefreshBatchView: true. This clone
# should view the updated view of the underlying batch.
clone from=i1 to=i3 refresh-batch=true
----
iter iter=i3
first
next
----
a: (., [a-z) @1=boop UPDATED)
bar: (bar, [a-z) @1=boop)
# i1 should still have the old, stale view of the batch.
iter iter=i1
first
next
----
foo: (foo, .)
.
# Mutate the underlying batch again.
mutate
set foo foo
range-key-set a z @2 bax
del-range b c
----
# The new mutations should be invisible until SetOptions is called.
iter iter=i1
first
next
set-options
first
next
next
----
foo: (foo, .)
.
.
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
iter iter=i2
first
next
next
set-options
first
next
next
----
a: (., [a-z) @1=boop UPDATED)
bar: (bar, [a-z) @1=boop)
.
.
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
# Commit a separate batch to the underlying engine.
batch
range-key-set a z @5 poi
set apple apple
----
# The writes to the underlying engine should be invisible.
iter iter=i1
first
next
next
----
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
# Clone i1 to create i4.
clone from=i1 to=i4 refresh-batch=false
----
iter iter=i4
first
next
next
----
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
# Refresh i4's view of its batch. It should still not see the newly committed
# writes.
iter iter=i4
set-options
first
next
next
----
.
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
# Create a new iterator i5 over the indexed batch [not a Clone]. It should see
# all committed writes and uncommitted writes.
new-batch-iter i5
----
iter iter=i5
first
next
next
next
----
a: (., [a-z) @5=poi, @2=bax, @1=boop UPDATED)
apple: (apple, [a-z) @5=poi, @2=bax, @1=boop)
foo: (foo, [a-z) @5=poi, @2=bax, @1=boop)
.
# The batch-only iter only sees the contents of the batch.
new-batch-only-iter i-bo1
----
iter iter=i-bo1
first
next
next
----
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
# Mutate all the open iterators' underlying batch.
mutate
range-key-set a z @6 yaya
set c c
----
# The iterators should still not see the committed writes, even after refreshing
# to observe more recent batch writes.
iter iter=i1
first
next
next
----
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
iter iter=i4
first
next
next
set-options
first
next
next
----
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
.
a: (., [a-z) @6=yaya, @2=bax, @1=boop UPDATED)
c: (c, [a-z) @6=yaya, @2=bax, @1=boop)
foo: (foo, [a-z) @6=yaya, @2=bax, @1=boop)
# The batch-only iter sees the more recent batch writes after refreshing.
iter iter=i-bo1
first
next
next
set-options
first
next
next
next
----
a: (., [a-z) @2=bax, @1=boop UPDATED)
foo: (foo, [a-z) @2=bax, @1=boop)
.
.
a: (., [a-z) @6=yaya, @2=bax, @1=boop UPDATED)
c: (c, [a-z) @6=yaya, @2=bax, @1=boop)
foo: (foo, [a-z) @6=yaya, @2=bax, @1=boop)
.
# Test a scenario where constructing an Iterator should NOT use the cached
# fragmented tombstones / range keys, because the new Iterator is a Clone which
# must read at an earlier batch sequence number.
# Reset and start a new batch.
reset
----
new-batch
set foo foo
----
new-batch-iter i1
----
iter iter=i1
first
next
----
foo: (foo, .)
.
# Apply a range deletion and a range key.
mutate
del-range a z
range-key-set a z @1 foo
----
# Create a new iterator which will see both the range deletion and the range
# key, and cache both on the batch so that future iterators constructed over the
# batch do not need to.
new-batch-iter i2
----
iter iter=i2
first
next
----
a: (., [a-z) @1=foo UPDATED)
.
# Clone the original iterator from before the delete range and the range key
# were created. It should not use the cached fragments of range deletions or
# range keys, and should not see the effects of either.
clone from=i1 to=i3 refresh-batch=false
----
iter iter=i3
first
next
----
foo: (foo, .)
.
reset
----
new-batch
range-key-set a c @1 poi
range-key-set b d @2 yaya
----
new-batch-iter i1
----
# The batch contains 2 range keys, but the skiplist of fragmented range keys
# contains 3 elements (a-b, b-c, c-d).
iter iter=i1
first
next
next
----
a: (., [a-b) @1=poi UPDATED)
b: (., [b-c) @2=yaya, @1=poi UPDATED)
c: (., [c-d) @2=yaya UPDATED)
# Add a new range key to the batch. The batch contains 3 internal range keys,
# and the skiplist of fragmented range keys contains 3 elements.
mutate
range-key-set e f @3 foo
----
# Refreshing the iterator's view of the batch through SetOptions should surface
# the new range key. An earlier bug incorrectly compared the number of
# fragmented range keys to the number of internal batch range keys in order to
# determine when to refresh the iterator.
iter iter=i1
first
next
next
set-options
first
next
next
next
seek-ge bat
----
a: (., [a-b) @1=poi UPDATED)
b: (., [b-c) @2=yaya, @1=poi UPDATED)
c: (., [c-d) @2=yaya UPDATED)
.
a: (., [a-b) @1=poi UPDATED)
b: (., [b-c) @2=yaya, @1=poi UPDATED)
c: (., [c-d) @2=yaya UPDATED)
e: (., [e-f) @3=foo UPDATED)
bat: (., [b-c) @2=yaya, @1=poi UPDATED)
# Mutate the range key under the interleaving iterator's current position in the
# indexed batch.
#
# The last `seek-ge` operation landed on the range key [b-c). The top-level
# *pebble.Iterator needs to step the iterator again to see if there's a
# coincident point key at (`bat`), which would've advanced the interleaving
# iterator to the range key with bounds [c,d), so the underlying interleaving
# iterator is positioned ahead at:
#
# c: (., [c-d) @2=yaya)
#
# If we call set-options to refresh the iterator's view of the indexed batch,
# the range-key-unset [c,d)@2 becomes visible, and the range key that the
# underlying interleaving iterator is positioned over should not be visible.
#
# A bug previously allowed this range key to be visible when seeking into this
# span's bounds (see the optimization in InterleavingIter.SeekGE). Now, the call
# to SetOptions clears the interleaving iterator's positional state to avoid the
# SeekGE optimization.
mutate
range-key-unset b d @2
----
iter iter=i1
set-options
seek-ge cat
----
.
e: (., [e-f) @3=foo UPDATED)
reset
----
batch
range-key-set a e @1 foo
----
flush
----
new-batch
----
new-batch-iter batchiter
----
new-db-iter dbiter
----
# Test RangeKeyChanged() semantics.
# Seeking to the same prefix returns RangeKeyChanged()=false.
# Seeking to a new prefix returns RangeKeyChanged()=true.
# Seeking to the same prefix with a SetOptions call in between returns
# RangeKeyChanged()=true.
iter iter=dbiter
seek-prefix-ge b@3
seek-prefix-ge b@4
seek-prefix-ge c@3
seek-prefix-ge d@3
set-options
seek-prefix-ge d@1
----
b@3: (., [b-"b\x00") @1=foo UPDATED)
b@4: (., [b-"b\x00") @1=foo)
c@3: (., [c-"c\x00") @1=foo UPDATED)
d@3: (., [d-"d\x00") @1=foo UPDATED)
.
d@1: (., [d-"d\x00") @1=foo UPDATED)
# Test the same semantics on a batch iterator.
iter iter=batchiter
seek-prefix-ge b@3
seek-prefix-ge b@4
seek-prefix-ge c@3
seek-prefix-ge d@3
set-options
seek-prefix-ge d@1
----
b@3: (., [b-"b\x00") @1=foo UPDATED)
b@4: (., [b-"b\x00") @1=foo)
c@3: (., [c-"c\x00") @1=foo UPDATED)
d@3: (., [d-"d\x00") @1=foo UPDATED)
.
d@1: (., [d-"d\x00") @1=foo UPDATED)
# Test mutating the indexed batch's range keys, overlapping the existing seek
# position. It should not see the new mutations, but after a call to SetOptions
# it should AND it should return RangeKeyChanged()=true.
mutate
range-key-set d e @2 foo
----
iter iter=batchiter
seek-prefix-ge d@2
set-options
seek-prefix-ge d@2
----
d@2: (., [d-"d\x00") @1=foo)
.
d@2: (., [d-"d\x00") @2=foo, @1=foo UPDATED)
# Test cloning an iterator with a range-key mask block property filter
# configured. If the cloned and the clonee iterators have different suffixes
# configured, their suffixes should be respected. Previously, the
# RangeKeyMasking.Filter option was a footgun, because it was a single mutable
# instance. Cloning the iterator without supplying new iterator options would
# result in two iterators using the same filter.
reset
----
batch
range-key-set a e @5 foo
set b@4 b@4
----
new-db-iter iter-a
----
iter iter=iter-a
set-options mask-suffix=@3 mask-filter=true
seek-ge a
next
next
----
.
a: (., [a-e) @5=foo UPDATED)
b@4: (b@4, [a-e) @5=foo)
.
clone from=iter-a to=iter-b refresh-batch=false
----
iter iter=iter-b
set-options mask-suffix=@6
seek-ge a
next
----
.
a: (., [a-e) @5=foo UPDATED)
.
iter iter=iter-a
seek-ge a
next
next
----
a: (., [a-e) @5=foo UPDATED)
b@4: (b@4, [a-e) @5=foo)
.