mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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415 lines
20 KiB
Go
415 lines
20 KiB
Go
// Copyright 2019 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package base
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import (
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"context"
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"fmt"
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"time"
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)
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// InternalIterator iterates over a DB's key/value pairs in key order. Unlike
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// the Iterator interface, the returned keys are InternalKeys composed of the
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// user-key, a sequence number and a key kind. In forward iteration, key/value
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// pairs for identical user-keys are returned in descending sequence order. In
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// reverse iteration, key/value pairs for identical user-keys are returned in
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// ascending sequence order.
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//
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// InternalIterators provide 5 absolute positioning methods and 2 relative
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// positioning methods. The absolute positioning methods are:
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//
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// - SeekGE
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// - SeekPrefixGE
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// - SeekLT
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// - First
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// - Last
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//
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// The relative positioning methods are:
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//
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// - Next
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// - Prev
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//
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// The relative positioning methods can be used in conjunction with any of the
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// absolute positioning methods with one exception: SeekPrefixGE does not
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// support reverse iteration via Prev. It is undefined to call relative
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// positioning methods without ever calling an absolute positioning method.
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//
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// InternalIterators can optionally implement a prefix iteration mode. This
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// mode is entered by calling SeekPrefixGE and exited by any other absolute
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// positioning method (SeekGE, SeekLT, First, Last). When in prefix iteration
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// mode, a call to Next will advance to the next key which has the same
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// "prefix" as the one supplied to SeekPrefixGE. Note that "prefix" in this
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// context is not a strict byte prefix, but defined by byte equality for the
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// result of the Comparer.Split method. An InternalIterator is not required to
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// support prefix iteration mode, and can implement SeekPrefixGE by forwarding
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// to SeekGE. When the iteration prefix is exhausted, it is not valid to call
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// Next on an internal iterator that's already returned (nil,nilv) or a key
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// beyond the prefix.
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//
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// Bounds, [lower, upper), can be set on iterators, either using the SetBounds()
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// function in the interface, or in implementation specific ways during iterator
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// creation. The forward positioning routines (SeekGE, First, and Next) only
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// check the upper bound. The reverse positioning routines (SeekLT, Last, and
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// Prev) only check the lower bound. It is up to the caller to ensure that the
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// forward positioning routines respect the lower bound and the reverse
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// positioning routines respect the upper bound (i.e. calling SeekGE instead of
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// First if there is a lower bound, and SeekLT instead of Last if there is an
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// upper bound). This imposition is done in order to elevate that enforcement to
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// the caller (generally pebble.Iterator or pebble.mergingIter) rather than
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// having it duplicated in every InternalIterator implementation.
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//
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// Additionally, the caller needs to ensure that SeekGE/SeekPrefixGE are not
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// called with a key > the upper bound, and SeekLT is not called with a key <
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// the lower bound. InternalIterator implementations are required to respect
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// the iterator bounds, never returning records outside of the bounds with one
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// exception: an iterator may generate synthetic RANGEDEL marker records. See
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// levelIter.syntheticBoundary for the sole existing example of this behavior.
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// Specifically, levelIter can return synthetic keys whose user key is equal to
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// the lower/upper bound.
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//
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// The bounds provided to an internal iterator must remain valid until a
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// subsequent call to SetBounds has returned. This requirement exists so that
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// iterator implementations may compare old and new bounds to apply low-level
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// optimizations. The pebble.Iterator satisfies this requirement by maintaining
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// two bound buffers and switching between them.
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//
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// An iterator must be closed after use, but it is not necessary to read an
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// iterator until exhaustion.
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//
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// An iterator is not goroutine-safe, but it is safe to use multiple iterators
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// concurrently, either in separate goroutines or switching between the
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// iterators in a single goroutine.
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//
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// It is also safe to use an iterator concurrently with modifying its
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// underlying DB, if that DB permits modification. However, the resultant
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// key/value pairs are not guaranteed to be a consistent snapshot of that DB
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// at a particular point in time.
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//
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// InternalIterators accumulate errors encountered during operation, exposing
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// them through the Error method. All of the absolute positioning methods
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// reset any accumulated error before positioning. Relative positioning
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// methods return without advancing if the iterator has accumulated an error.
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//
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// nilv == shorthand for LazyValue{}, which represents a nil value.
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type InternalIterator interface {
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// SeekGE moves the iterator to the first key/value pair whose key is greater
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// than or equal to the given key. Returns the key and value if the iterator
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// is pointing at a valid entry, and (nil, nilv) otherwise. Note that SeekGE
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// only checks the upper bound. It is up to the caller to ensure that key
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// is greater than or equal to the lower bound.
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SeekGE(key []byte, flags SeekGEFlags) (*InternalKey, LazyValue)
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// SeekPrefixGE moves the iterator to the first key/value pair whose key is
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// greater than or equal to the given key. Returns the key and value if the
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// iterator is pointing at a valid entry, and (nil, nilv) otherwise. Note that
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// SeekPrefixGE only checks the upper bound. It is up to the caller to ensure
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// that key is greater than or equal to the lower bound.
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//
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// The prefix argument is used by some InternalIterator implementations (e.g.
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// sstable.Reader) to avoid expensive operations. A user-defined Split
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// function must be supplied to the Comparer for the DB. The supplied prefix
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// will be the prefix of the given key returned by that Split function. If
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// the iterator is able to determine that no key with the prefix exists, it
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// can return (nil,nilv). Unlike SeekGE, this is not an indication that
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// iteration is exhausted.
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//
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// Note that the iterator may return keys not matching the prefix. It is up
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// to the caller to check if the prefix matches.
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//
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// Calling SeekPrefixGE places the receiver into prefix iteration mode. Once
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// in this mode, reverse iteration may not be supported and will return an
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// error. Note that pebble/Iterator.SeekPrefixGE has this same restriction on
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// not supporting reverse iteration in prefix iteration mode until a
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// different positioning routine (SeekGE, SeekLT, First or Last) switches the
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// iterator out of prefix iteration.
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SeekPrefixGE(prefix, key []byte, flags SeekGEFlags) (*InternalKey, LazyValue)
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// SeekLT moves the iterator to the last key/value pair whose key is less
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// than the given key. Returns the key and value if the iterator is pointing
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// at a valid entry, and (nil, nilv) otherwise. Note that SeekLT only checks
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// the lower bound. It is up to the caller to ensure that key is less than
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// the upper bound.
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SeekLT(key []byte, flags SeekLTFlags) (*InternalKey, LazyValue)
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// First moves the iterator the the first key/value pair. Returns the key and
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// value if the iterator is pointing at a valid entry, and (nil, nilv)
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// otherwise. Note that First only checks the upper bound. It is up to the
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// caller to ensure that First() is not called when there is a lower bound,
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// and instead call SeekGE(lower).
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First() (*InternalKey, LazyValue)
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// Last moves the iterator the the last key/value pair. Returns the key and
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// value if the iterator is pointing at a valid entry, and (nil, nilv)
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// otherwise. Note that Last only checks the lower bound. It is up to the
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// caller to ensure that Last() is not called when there is an upper bound,
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// and instead call SeekLT(upper).
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Last() (*InternalKey, LazyValue)
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// Next moves the iterator to the next key/value pair. Returns the key and
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// value if the iterator is pointing at a valid entry, and (nil, nilv)
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// otherwise. Note that Next only checks the upper bound. It is up to the
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// caller to ensure that key is greater than or equal to the lower bound.
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//
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// It is valid to call Next when the iterator is positioned before the first
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// key/value pair due to either a prior call to SeekLT or Prev which returned
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// (nil, nilv). It is not allowed to call Next when the previous call to SeekGE,
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// SeekPrefixGE or Next returned (nil, nilv).
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Next() (*InternalKey, LazyValue)
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// NextPrefix moves the iterator to the next key/value pair with a different
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// prefix than the key at the current iterator position. Returns the key and
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// value if the iterator is pointing at a valid entry, and (nil, nil)
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// otherwise. Note that NextPrefix only checks the upper bound. It is up to
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// the caller to ensure that key is greater than or equal to the lower
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// bound.
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//
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// NextPrefix is passed the immediate successor to the current prefix key. A
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// valid implementation of NextPrefix is to call SeekGE with succKey.
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//
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// It is not allowed to call NextPrefix when the previous call was a reverse
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// positioning operation or a call to a forward positioning method that
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// returned (nil, nilv). It is also not allowed to call NextPrefix when the
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// iterator is in prefix iteration mode.
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NextPrefix(succKey []byte) (*InternalKey, LazyValue)
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// Prev moves the iterator to the previous key/value pair. Returns the key
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// and value if the iterator is pointing at a valid entry, and (nil, nilv)
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// otherwise. Note that Prev only checks the lower bound. It is up to the
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// caller to ensure that key is less than the upper bound.
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//
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// It is valid to call Prev when the iterator is positioned after the last
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// key/value pair due to either a prior call to SeekGE or Next which returned
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// (nil, nilv). It is not allowed to call Prev when the previous call to SeekLT
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// or Prev returned (nil, nilv).
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Prev() (*InternalKey, LazyValue)
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// Error returns any accumulated error. It may not include errors returned
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// to the client when calling LazyValue.Value().
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Error() error
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// Close closes the iterator and returns any accumulated error. Exhausting
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// all the key/value pairs in a table is not considered to be an error.
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// It is valid to call Close multiple times. Other methods should not be
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// called after the iterator has been closed.
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Close() error
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// SetBounds sets the lower and upper bounds for the iterator. Note that the
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// result of Next and Prev will be undefined until the iterator has been
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// repositioned with SeekGE, SeekPrefixGE, SeekLT, First, or Last.
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//
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// The bounds provided must remain valid until a subsequent call to
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// SetBounds has returned. This requirement exists so that iterator
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// implementations may compare old and new bounds to apply low-level
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// optimizations.
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SetBounds(lower, upper []byte)
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// SetContext replaces the context provided at iterator creation, or the
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// last one provided by SetContext.
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SetContext(ctx context.Context)
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fmt.Stringer
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}
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// SeekGEFlags holds flags that may configure the behavior of a forward seek.
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// Not all flags are relevant to all iterators.
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type SeekGEFlags uint8
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const (
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seekGEFlagTrySeekUsingNext uint8 = iota
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seekGEFlagRelativeSeek
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seekGEFlagBatchJustRefreshed
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)
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// SeekGEFlagsNone is the default value of SeekGEFlags, with all flags disabled.
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const SeekGEFlagsNone = SeekGEFlags(0)
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// TrySeekUsingNext indicates whether a performance optimization was enabled
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// by a caller, indicating the caller has not done any action to move this
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// iterator beyond the first key that would be found if this iterator were to
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// honestly do the intended seek. For example, say the caller did a
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// SeekGE(k1...), followed by SeekGE(k2...) where k1 <= k2, without any
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// intermediate positioning calls. The caller can safely specify true for this
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// parameter in the second call. As another example, say the caller did do one
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// call to Next between the two Seek calls, and k1 < k2. Again, the caller can
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// safely specify a true value for this parameter. Note that a false value is
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// always safe. The callee is free to ignore the true value if its
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// implementation does not permit this optimization.
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//
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// We make the caller do this determination since a string comparison of k1, k2
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// is not necessarily cheap, and there may be many iterators in the iterator
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// stack. Doing it once at the root of the iterator stack is cheaper.
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//
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// This optimization could also be applied to SeekLT (where it would be
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// trySeekUsingPrev). We currently only do it for SeekPrefixGE and SeekGE
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// because this is where this optimization helps the performance of CockroachDB.
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// The SeekLT cases in CockroachDB are typically accompanied with bounds that
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// change between seek calls, and is optimized inside certain iterator
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// implementations, like singleLevelIterator, without any extra parameter
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// passing (though the same amortization of string comparisons could be done to
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// improve that optimization, by making the root of the iterator stack do it).
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func (s SeekGEFlags) TrySeekUsingNext() bool { return (s & (1 << seekGEFlagTrySeekUsingNext)) != 0 }
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// RelativeSeek is set when in the course of a forward positioning operation, a
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// higher-level iterator seeks a lower-level iterator to a larger key than the
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// one at the current iterator position.
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//
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// Concretely, this occurs when the merging iterator observes a range deletion
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// covering the key at a level's current position, and the merging iterator
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// seeks the level to the range deletion's end key. During lazy-combined
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// iteration, this flag signals to the level iterator that the seek is NOT an
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// absolute-positioning operation from the perspective of the pebble.Iterator,
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// and the level iterator must look for range keys in tables between the current
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// iterator position and the new seeked position.
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func (s SeekGEFlags) RelativeSeek() bool { return (s & (1 << seekGEFlagRelativeSeek)) != 0 }
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// BatchJustRefreshed is set by Seek[Prefix]GE when an iterator's view of an
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// indexed batch was just refreshed. It serves as a signal to the batch iterator
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// to ignore the TrySeekUsingNext optimization, because the external knowledge
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// imparted by the TrySeekUsingNext flag does not apply to the batch iterator's
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// position. See (pebble.Iterator).batchJustRefreshed.
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func (s SeekGEFlags) BatchJustRefreshed() bool { return (s & (1 << seekGEFlagBatchJustRefreshed)) != 0 }
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// EnableTrySeekUsingNext returns the provided flags with the
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// try-seek-using-next optimization enabled. See TrySeekUsingNext for an
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// explanation of this optimization.
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func (s SeekGEFlags) EnableTrySeekUsingNext() SeekGEFlags {
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return s | (1 << seekGEFlagTrySeekUsingNext)
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}
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// DisableTrySeekUsingNext returns the provided flags with the
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// try-seek-using-next optimization disabled.
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func (s SeekGEFlags) DisableTrySeekUsingNext() SeekGEFlags {
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return s &^ (1 << seekGEFlagTrySeekUsingNext)
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}
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// EnableRelativeSeek returns the provided flags with the relative-seek flag
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// enabled. See RelativeSeek for an explanation of this flag's use.
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func (s SeekGEFlags) EnableRelativeSeek() SeekGEFlags {
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return s | (1 << seekGEFlagRelativeSeek)
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}
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// DisableRelativeSeek returns the provided flags with the relative-seek flag
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// disabled.
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func (s SeekGEFlags) DisableRelativeSeek() SeekGEFlags {
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return s &^ (1 << seekGEFlagRelativeSeek)
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}
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// EnableBatchJustRefreshed returns the provided flags with the
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// batch-just-refreshed bit set. See BatchJustRefreshed for an explanation of
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// this flag.
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func (s SeekGEFlags) EnableBatchJustRefreshed() SeekGEFlags {
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return s | (1 << seekGEFlagBatchJustRefreshed)
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}
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// DisableBatchJustRefreshed returns the provided flags with the
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// batch-just-refreshed bit unset.
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func (s SeekGEFlags) DisableBatchJustRefreshed() SeekGEFlags {
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return s &^ (1 << seekGEFlagBatchJustRefreshed)
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}
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// SeekLTFlags holds flags that may configure the behavior of a reverse seek.
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// Not all flags are relevant to all iterators.
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type SeekLTFlags uint8
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const (
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seekLTFlagRelativeSeek uint8 = iota
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)
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// SeekLTFlagsNone is the default value of SeekLTFlags, with all flags disabled.
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const SeekLTFlagsNone = SeekLTFlags(0)
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// RelativeSeek is set when in the course of a reverse positioning operation, a
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// higher-level iterator seeks a lower-level iterator to a smaller key than the
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// one at the current iterator position.
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//
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// Concretely, this occurs when the merging iterator observes a range deletion
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// covering the key at a level's current position, and the merging iterator
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// seeks the level to the range deletion's start key. During lazy-combined
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// iteration, this flag signals to the level iterator that the seek is NOT an
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// absolute-positioning operation from the perspective of the pebble.Iterator,
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// and the level iterator must look for range keys in tables between the current
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// iterator position and the new seeked position.
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func (s SeekLTFlags) RelativeSeek() bool { return s&(1<<seekLTFlagRelativeSeek) != 0 }
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// EnableRelativeSeek returns the provided flags with the relative-seek flag
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// enabled. See RelativeSeek for an explanation of this flag's use.
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func (s SeekLTFlags) EnableRelativeSeek() SeekLTFlags {
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return s | (1 << seekLTFlagRelativeSeek)
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}
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// DisableRelativeSeek returns the provided flags with the relative-seek flag
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// disabled.
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func (s SeekLTFlags) DisableRelativeSeek() SeekLTFlags {
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return s &^ (1 << seekLTFlagRelativeSeek)
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}
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// InternalIteratorStats contains miscellaneous stats produced by
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// InternalIterators that are part of the InternalIterator tree. Not every
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// field is relevant for an InternalIterator implementation. The field values
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// are aggregated as one goes up the InternalIterator tree.
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type InternalIteratorStats struct {
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// Bytes in the loaded blocks. If the block was compressed, this is the
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// compressed bytes. Currently, only the index blocks, data blocks
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// containing points, and filter blocks are included.
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BlockBytes uint64
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// Subset of BlockBytes that were in the block cache.
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BlockBytesInCache uint64
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// BlockReadDuration accumulates the duration spent fetching blocks
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// due to block cache misses.
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// TODO(sumeer): this currently excludes the time spent in Reader creation,
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// and in reading the rangedel and rangekey blocks. Fix that.
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BlockReadDuration time.Duration
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// The following can repeatedly count the same points if they are iterated
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// over multiple times. Additionally, they may count a point twice when
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// switching directions. The latter could be improved if needed.
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// Bytes in keys that were iterated over. Currently, only point keys are
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// included.
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KeyBytes uint64
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// Bytes in values that were iterated over. Currently, only point values are
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// included. For separated values, this is the size of the handle.
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ValueBytes uint64
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// The count of points iterated over.
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PointCount uint64
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// Points that were iterated over that were covered by range tombstones. It
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// can be useful for discovering instances of
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// https://github.com/cockroachdb/pebble/issues/1070.
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PointsCoveredByRangeTombstones uint64
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// Stats related to points in value blocks encountered during iteration.
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// These are useful to understand outliers, since typical user facing
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// iteration should tend to only look at the latest point, and hence have
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// the following stats close to 0.
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SeparatedPointValue struct {
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// Count is a count of points that were in value blocks. This is not a
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// subset of PointCount: PointCount is produced by mergingIter and if
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// positioned once, and successful in returning a point, will have a
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// PointCount of 1, regardless of how many sstables (and memtables etc.)
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// in the heap got positioned. The count here includes every sstable
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// iterator that got positioned in the heap.
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Count uint64
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// ValueBytes represent the total byte length of the values (in value
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// blocks) of the points corresponding to Count.
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ValueBytes uint64
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// ValueBytesFetched is the total byte length of the values (in value
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// blocks) that were retrieved.
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ValueBytesFetched uint64
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}
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}
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// Merge merges the stats in from into the given stats.
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func (s *InternalIteratorStats) Merge(from InternalIteratorStats) {
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s.BlockBytes += from.BlockBytes
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s.BlockBytesInCache += from.BlockBytesInCache
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s.BlockReadDuration += from.BlockReadDuration
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s.KeyBytes += from.KeyBytes
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s.ValueBytes += from.ValueBytes
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s.PointCount += from.PointCount
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s.PointsCoveredByRangeTombstones += from.PointsCoveredByRangeTombstones
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s.SeparatedPointValue.Count += from.SeparatedPointValue.Count
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s.SeparatedPointValue.ValueBytes += from.SeparatedPointValue.ValueBytes
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s.SeparatedPointValue.ValueBytesFetched += from.SeparatedPointValue.ValueBytesFetched
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}
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