mirror of
https://github.com/mjl-/mox.git
synced 2024-12-28 01:13:47 +03:00
226 lines
7.6 KiB
Go
226 lines
7.6 KiB
Go
package bbolt
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import (
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"encoding/hex"
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"fmt"
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)
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// Check performs several consistency checks on the database for this transaction.
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// An error is returned if any inconsistency is found.
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//
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// It can be safely run concurrently on a writable transaction. However, this
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// incurs a high cost for large databases and databases with a lot of subbuckets
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// because of caching. This overhead can be removed if running on a read-only
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// transaction, however, it is not safe to execute other writer transactions at
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// the same time.
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func (tx *Tx) Check() <-chan error {
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return tx.CheckWithOptions()
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}
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// CheckWithOptions allows users to provide a customized `KVStringer` implementation,
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// so that bolt can generate human-readable diagnostic messages.
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func (tx *Tx) CheckWithOptions(options ...CheckOption) <-chan error {
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chkConfig := checkConfig{
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kvStringer: HexKVStringer(),
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}
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for _, op := range options {
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op(&chkConfig)
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}
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ch := make(chan error)
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go tx.check(chkConfig.kvStringer, ch)
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return ch
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}
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func (tx *Tx) check(kvStringer KVStringer, ch chan error) {
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// Force loading free list if opened in ReadOnly mode.
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tx.db.loadFreelist()
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// Check if any pages are double freed.
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freed := make(map[pgid]bool)
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all := make([]pgid, tx.db.freelist.count())
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tx.db.freelist.copyall(all)
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for _, id := range all {
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if freed[id] {
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ch <- fmt.Errorf("page %d: already freed", id)
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}
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freed[id] = true
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}
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// Track every reachable page.
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reachable := make(map[pgid]*page)
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reachable[0] = tx.page(0) // meta0
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reachable[1] = tx.page(1) // meta1
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if tx.meta.freelist != pgidNoFreelist {
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for i := uint32(0); i <= tx.page(tx.meta.freelist).overflow; i++ {
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reachable[tx.meta.freelist+pgid(i)] = tx.page(tx.meta.freelist)
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}
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}
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// Recursively check buckets.
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tx.checkBucket(&tx.root, reachable, freed, kvStringer, ch)
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// Ensure all pages below high water mark are either reachable or freed.
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for i := pgid(0); i < tx.meta.pgid; i++ {
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_, isReachable := reachable[i]
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if !isReachable && !freed[i] {
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ch <- fmt.Errorf("page %d: unreachable unfreed", int(i))
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}
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}
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// Close the channel to signal completion.
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close(ch)
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}
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func (tx *Tx) checkBucket(b *Bucket, reachable map[pgid]*page, freed map[pgid]bool,
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kvStringer KVStringer, ch chan error) {
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// Ignore inline buckets.
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if b.root == 0 {
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return
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}
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// Check every page used by this bucket.
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b.tx.forEachPage(b.root, func(p *page, _ int, stack []pgid) {
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if p.id > tx.meta.pgid {
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ch <- fmt.Errorf("page %d: out of bounds: %d (stack: %v)", int(p.id), int(b.tx.meta.pgid), stack)
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}
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// Ensure each page is only referenced once.
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for i := pgid(0); i <= pgid(p.overflow); i++ {
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var id = p.id + i
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if _, ok := reachable[id]; ok {
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ch <- fmt.Errorf("page %d: multiple references (stack: %v)", int(id), stack)
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}
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reachable[id] = p
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}
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// We should only encounter un-freed leaf and branch pages.
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if freed[p.id] {
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ch <- fmt.Errorf("page %d: reachable freed", int(p.id))
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} else if (p.flags&branchPageFlag) == 0 && (p.flags&leafPageFlag) == 0 {
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ch <- fmt.Errorf("page %d: invalid type: %s (stack: %v)", int(p.id), p.typ(), stack)
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}
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})
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tx.recursivelyCheckPages(b.root, kvStringer.KeyToString, ch)
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// Check each bucket within this bucket.
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_ = b.ForEachBucket(func(k []byte) error {
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if child := b.Bucket(k); child != nil {
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tx.checkBucket(child, reachable, freed, kvStringer, ch)
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}
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return nil
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})
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}
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// recursivelyCheckPages confirms database consistency with respect to b-tree
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// key order constraints:
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// - keys on pages must be sorted
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// - keys on children pages are between 2 consecutive keys on the parent's branch page).
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func (tx *Tx) recursivelyCheckPages(pgId pgid, keyToString func([]byte) string, ch chan error) {
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tx.recursivelyCheckPagesInternal(pgId, nil, nil, nil, keyToString, ch)
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}
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// recursivelyCheckPagesInternal verifies that all keys in the subtree rooted at `pgid` are:
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// - >=`minKeyClosed` (can be nil)
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// - <`maxKeyOpen` (can be nil)
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// - Are in right ordering relationship to their parents.
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// `pagesStack` is expected to contain IDs of pages from the tree root to `pgid` for the clean debugging message.
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func (tx *Tx) recursivelyCheckPagesInternal(
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pgId pgid, minKeyClosed, maxKeyOpen []byte, pagesStack []pgid,
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keyToString func([]byte) string, ch chan error) (maxKeyInSubtree []byte) {
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p := tx.page(pgId)
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pagesStack = append(pagesStack, pgId)
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switch {
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case p.flags&branchPageFlag != 0:
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// For branch page we navigate ranges of all subpages.
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runningMin := minKeyClosed
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for i := range p.branchPageElements() {
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elem := p.branchPageElement(uint16(i))
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verifyKeyOrder(elem.pgid, "branch", i, elem.key(), runningMin, maxKeyOpen, ch, keyToString, pagesStack)
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maxKey := maxKeyOpen
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if i < len(p.branchPageElements())-1 {
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maxKey = p.branchPageElement(uint16(i + 1)).key()
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}
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maxKeyInSubtree = tx.recursivelyCheckPagesInternal(elem.pgid, elem.key(), maxKey, pagesStack, keyToString, ch)
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runningMin = maxKeyInSubtree
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}
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return maxKeyInSubtree
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case p.flags&leafPageFlag != 0:
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runningMin := minKeyClosed
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for i := range p.leafPageElements() {
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elem := p.leafPageElement(uint16(i))
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verifyKeyOrder(pgId, "leaf", i, elem.key(), runningMin, maxKeyOpen, ch, keyToString, pagesStack)
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runningMin = elem.key()
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}
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if p.count > 0 {
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return p.leafPageElement(p.count - 1).key()
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}
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default:
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ch <- fmt.Errorf("unexpected page type for pgId:%d", pgId)
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}
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return maxKeyInSubtree
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}
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/***
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* verifyKeyOrder checks whether an entry with given #index on pgId (pageType: "branch|leaf") that has given "key",
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* is within range determined by (previousKey..maxKeyOpen) and reports found violations to the channel (ch).
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*/
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func verifyKeyOrder(pgId pgid, pageType string, index int, key []byte, previousKey []byte, maxKeyOpen []byte, ch chan error, keyToString func([]byte) string, pagesStack []pgid) {
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if index == 0 && previousKey != nil && compareKeys(previousKey, key) > 0 {
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ch <- fmt.Errorf("the first key[%d]=(hex)%s on %s page(%d) needs to be >= the key in the ancestor (%s). Stack: %v",
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index, keyToString(key), pageType, pgId, keyToString(previousKey), pagesStack)
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}
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if index > 0 {
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cmpRet := compareKeys(previousKey, key)
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if cmpRet > 0 {
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ch <- fmt.Errorf("key[%d]=(hex)%s on %s page(%d) needs to be > (found <) than previous element (hex)%s. Stack: %v",
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index, keyToString(key), pageType, pgId, keyToString(previousKey), pagesStack)
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}
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if cmpRet == 0 {
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ch <- fmt.Errorf("key[%d]=(hex)%s on %s page(%d) needs to be > (found =) than previous element (hex)%s. Stack: %v",
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index, keyToString(key), pageType, pgId, keyToString(previousKey), pagesStack)
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}
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}
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if maxKeyOpen != nil && compareKeys(key, maxKeyOpen) >= 0 {
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ch <- fmt.Errorf("key[%d]=(hex)%s on %s page(%d) needs to be < than key of the next element in ancestor (hex)%s. Pages stack: %v",
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index, keyToString(key), pageType, pgId, keyToString(previousKey), pagesStack)
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}
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}
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// ===========================================================================================
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type checkConfig struct {
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kvStringer KVStringer
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}
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type CheckOption func(options *checkConfig)
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func WithKVStringer(kvStringer KVStringer) CheckOption {
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return func(c *checkConfig) {
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c.kvStringer = kvStringer
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}
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}
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// KVStringer allows to prepare human-readable diagnostic messages.
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type KVStringer interface {
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KeyToString([]byte) string
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ValueToString([]byte) string
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}
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// HexKVStringer serializes both key & value to hex representation.
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func HexKVStringer() KVStringer {
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return hexKvStringer{}
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}
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type hexKvStringer struct{}
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func (_ hexKvStringer) KeyToString(key []byte) string {
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return hex.EncodeToString(key)
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}
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func (_ hexKvStringer) ValueToString(value []byte) string {
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return hex.EncodeToString(value)
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}
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