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map.go
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map.go
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/*
* Atree - Scalable Arrays and Ordered Maps
*
* Copyright Flow Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package atree
import (
"encoding/binary"
"errors"
"fmt"
"math"
"strings"
"github.com/fxamacker/cbor/v2"
"github.com/fxamacker/circlehash"
)
// NOTE: we use encoding size (in bytes) instead of Go type size for slab operations,
// such as merge and split, so size constants here are related to encoding size.
const (
digestSize = 8
// Encoded size of single element prefix size: CBOR array header (1 byte)
singleElementPrefixSize = 1
// Encoded size of inline collision group prefix size: CBOR tag number (2 bytes)
inlineCollisionGroupPrefixSize = 2
// Encoded size of external collision group prefix size: CBOR tag number (2 bytes)
externalCollisionGroupPrefixSize = 2
// Encoded size of digests: CBOR byte string head (3 bytes)
digestPrefixSize = 3
// Encoded size of number of elements: CBOR array head (3 bytes).
elementPrefixSize = 3
// hkey elements prefix size:
// CBOR array header (1 byte) + level (1 byte) + hkeys byte string header (3 bytes) + elements array header (3 bytes)
// Support up to 8,191 elements in the map per data slab.
hkeyElementsPrefixSize = 1 + 1 + digestPrefixSize + elementPrefixSize
// single elements prefix size:
// CBOR array header (1 byte) + encoded level (1 byte) + hkeys byte string header (1 bytes) + elements array header (3 bytes)
// Support up to 65,535 elements in the map per data slab.
singleElementsPrefixSize = 1 + 1 + 1 + elementPrefixSize
// slab header size: slab index (8 bytes) + size (2 bytes) + first digest (8 bytes)
// Support up to 65,535 bytes for slab size limit (default limit is 1536 max bytes).
mapSlabHeaderSize = slabIndexSize + 2 + digestSize
// meta data slab prefix size: version (1 byte) + flag (1 byte) + address (8 bytes) + child header count (2 bytes)
// Support up to 65,535 children per metadata slab.
mapMetaDataSlabPrefixSize = versionAndFlagSize + slabAddressSize + 2
// version (1 byte) + flag (1 byte) + next id (16 bytes)
mapDataSlabPrefixSize = versionAndFlagSize + slabIDSize
// version (1 byte) + flag (1 byte)
mapRootDataSlabPrefixSize = versionAndFlagSize
// maxDigestLevel is max levels of 64-bit digests allowed
maxDigestLevel = 8
// typicalRandomConstant is a 64-bit value that has qualities
// of a typical random value (e.g. hamming weight, number of
// consecutive groups of 1-bits, etc.) so it can be useful as
// a const part of a seed, round constant inside a permutation, etc.
// CAUTION: We only store 64-bit seed, so some hashes with 64-bit seed like
// CircleHash64f don't use this const. However, other hashes such as
// CircleHash64fx and SipHash might use this const as part of their
// 128-bit seed (when they don't use 64-bit -> 128-bit seed expansion func).
typicalRandomConstant = uint64(0x1BD11BDAA9FC1A22) // DO NOT MODIFY
// inlined map data slab prefix size:
// tag number (2 bytes) +
// 3-element array head (1 byte) +
// extra data ref index (2 bytes) [0, 255] +
// value index head (1 byte) +
// value index (8 bytes)
inlinedMapDataSlabPrefixSize = inlinedTagNumSize +
inlinedCBORArrayHeadSize +
inlinedExtraDataIndexSize +
inlinedCBORValueIDHeadSize +
inlinedValueIDSize
)
// MaxCollisionLimitPerDigest is the noncryptographic hash collision limit
// (per digest per map) we enforce in the first level. In the same map
// for the same digest, having a non-intentional collision should be rare and
// several collisions should be extremely rare. The default limit should
// be high enough to ignore accidental collisions while mitigating attacks.
var MaxCollisionLimitPerDigest = uint32(255)
type MapKey Storable
type MapValue Storable
// element is one indivisible unit that must stay together (e.g. collision group)
type element interface {
fmt.Stringer
getElementAndNextKey(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, MapKey, error)
Get(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, error)
// Set returns updated element, which may be a different type of element because of hash collision.
Set(
storage SlabStorage,
address Address,
b DigesterBuilder,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
hip HashInputProvider,
key Value,
value Value,
) (newElem element, keyStorable MapKey, existingMapValueStorable MapValue, err error)
// Remove returns matched key, value, and updated element.
// Updated element may be nil, modified, or a different type of element.
Remove(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, element, error)
Encode(*Encoder) error
hasPointer() bool
Size() uint32
Count(storage SlabStorage) (uint32, error)
PopIterate(SlabStorage, MapPopIterationFunc) error
}
// elementGroup is a group of elements that must stay together during splitting or rebalancing.
type elementGroup interface {
element
Inline() bool
// Elements returns underlying elements.
Elements(storage SlabStorage) (elements, error)
}
// elements is a list of elements.
type elements interface {
fmt.Stringer
getElementAndNextKey(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, MapKey, error)
Get(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, error)
Set(
storage SlabStorage,
address Address,
b DigesterBuilder,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
hip HashInputProvider,
key Value,
value Value,
) (MapKey, MapValue, error)
Remove(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, error)
Merge(elements) error
Split() (elements, elements, error)
LendToRight(elements) error
BorrowFromRight(elements) error
CanLendToLeft(size uint32) bool
CanLendToRight(size uint32) bool
Element(int) (element, error)
Encode(*Encoder) error
hasPointer() bool
firstKey() Digest
Count() uint32
Size() uint32
PopIterate(SlabStorage, MapPopIterationFunc) error
}
type singleElement struct {
key MapKey
value MapValue
size uint32
}
var _ element = &singleElement{}
type inlineCollisionGroup struct {
elements
}
var _ element = &inlineCollisionGroup{}
var _ elementGroup = &inlineCollisionGroup{}
type externalCollisionGroup struct {
slabID SlabID
size uint32
}
var _ element = &externalCollisionGroup{}
var _ elementGroup = &externalCollisionGroup{}
type hkeyElements struct {
hkeys []Digest // sorted list of unique hashed keys
elems []element // elements corresponding to hkeys
size uint32 // total byte sizes
level uint
}
var _ elements = &hkeyElements{}
type singleElements struct {
elems []*singleElement // list of key+value pairs
size uint32 // total key+value byte sizes
level uint
}
var _ elements = &singleElements{}
type MapSlabHeader struct {
slabID SlabID // id is used to retrieve slab from storage
size uint32 // size is used to split and merge; leaf: size of all element; internal: size of all headers
firstKey Digest // firstKey (first hashed key) is used to lookup value
}
type MapExtraData struct {
TypeInfo TypeInfo
Count uint64
Seed uint64
}
var _ ExtraData = &MapExtraData{}
// MapDataSlab is leaf node, implementing MapSlab.
// anySize is true for data slab that isn't restricted by size requirement.
type MapDataSlab struct {
next SlabID
header MapSlabHeader
elements
// extraData is data that is prepended to encoded slab data.
// It isn't included in slab size calculation for splitting and merging.
extraData *MapExtraData
anySize bool
collisionGroup bool
inlined bool
}
var _ MapSlab = &MapDataSlab{}
var _ ContainerStorable = &MapDataSlab{}
// MapMetaDataSlab is internal node, implementing MapSlab.
type MapMetaDataSlab struct {
header MapSlabHeader
childrenHeaders []MapSlabHeader
// extraData is data that is prepended to encoded slab data.
// It isn't included in slab size calculation for splitting and merging.
extraData *MapExtraData
}
var _ MapSlab = &MapMetaDataSlab{}
type MapSlab interface {
Slab
getElementAndNextKey(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, MapKey, error)
Get(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, error)
Set(
storage SlabStorage,
b DigesterBuilder,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
hip HashInputProvider,
key Value,
value Value,
) (MapKey, MapValue, error)
Remove(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, error)
IsData() bool
IsFull() bool
IsUnderflow() (uint32, bool)
CanLendToLeft(size uint32) bool
CanLendToRight(size uint32) bool
SetSlabID(SlabID)
Header() MapSlabHeader
ExtraData() *MapExtraData
RemoveExtraData() *MapExtraData
SetExtraData(*MapExtraData)
PopIterate(SlabStorage, MapPopIterationFunc) error
Inlined() bool
Inlinable(maxInlineSize uint64) bool
Inline(SlabStorage) error
Uninline(SlabStorage) error
}
// OrderedMap is an ordered map of key-value pairs; keys can be any hashable type
// and values can be any serializable value type. It supports heterogeneous key
// or value types (e.g. first key storing a boolean and second key storing a string).
// OrderedMap keeps values in specific sorted order and operations are deterministic
// so the state of the segments after a sequence of operations are always unique.
//
// OrderedMap key-value pairs can be stored in one or more relatively fixed-sized segments.
//
// OrderedMap can be inlined into its parent container when the entire content fits in
// parent container's element size limit. Specifically, OrderedMap with one segment
// which fits in size limit can be inlined, while OrderedMap with multiple segments
// can't be inlined.
type OrderedMap struct {
Storage SlabStorage
root MapSlab
digesterBuilder DigesterBuilder
// parentUpdater is a callback that notifies parent container when this map is modified.
// If this callback is nil, this map has no parent. Otherwise, this map has parent
// and this callback must be used when this map is changed by Set and Remove.
//
// parentUpdater acts like "parent pointer". It is not stored physically and is only in memory.
// It is setup when child map is returned from parent's Get. It is also setup when
// new child is added to parent through Set or Insert.
parentUpdater parentUpdater
}
var _ Value = &OrderedMap{}
var _ mutableValueNotifier = &OrderedMap{}
const mapExtraDataLength = 3
// newMapExtraDataFromData decodes CBOR array to extra data:
//
// [type info, count, seed]
func newMapExtraDataFromData(
data []byte,
decMode cbor.DecMode,
decodeTypeInfo TypeInfoDecoder,
) (
*MapExtraData,
[]byte,
error,
) {
dec := decMode.NewByteStreamDecoder(data)
extraData, err := newMapExtraData(dec, decodeTypeInfo)
if err != nil {
return nil, data, err
}
return extraData, data[dec.NumBytesDecoded():], nil
}
func newMapExtraData(dec *cbor.StreamDecoder, decodeTypeInfo TypeInfoDecoder) (*MapExtraData, error) {
length, err := dec.DecodeArrayHead()
if err != nil {
return nil, NewDecodingError(err)
}
if length != mapExtraDataLength {
return nil, NewDecodingError(
fmt.Errorf(
"data has invalid length %d, want %d",
length,
mapExtraDataLength,
))
}
typeInfo, err := decodeTypeInfo(dec)
if err != nil {
// Wrap err as external error (if needed) because err is returned by TypeInfoDecoder callback.
return nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to decode type info")
}
count, err := dec.DecodeUint64()
if err != nil {
return nil, NewDecodingError(err)
}
seed, err := dec.DecodeUint64()
if err != nil {
return nil, NewDecodingError(err)
}
return &MapExtraData{
TypeInfo: typeInfo,
Count: count,
Seed: seed,
}, nil
}
func (m *MapExtraData) isExtraData() bool {
return true
}
func (m *MapExtraData) Type() TypeInfo {
return m.TypeInfo
}
// Encode encodes extra data as CBOR array:
//
// [type info, count, seed]
func (m *MapExtraData) Encode(enc *Encoder, encodeTypeInfo encodeTypeInfo) error {
err := enc.CBOR.EncodeArrayHead(mapExtraDataLength)
if err != nil {
return NewEncodingError(err)
}
err = encodeTypeInfo(enc, m.TypeInfo)
if err != nil {
// Wrap err as external error (if needed) because err is returned by TypeInfo interface.
return wrapErrorfAsExternalErrorIfNeeded(err, "failed to encode type info")
}
err = enc.CBOR.EncodeUint64(m.Count)
if err != nil {
return NewEncodingError(err)
}
err = enc.CBOR.EncodeUint64(m.Seed)
if err != nil {
return NewEncodingError(err)
}
err = enc.CBOR.Flush()
if err != nil {
return NewEncodingError(err)
}
return nil
}
func newElementFromData(cborDec *cbor.StreamDecoder, decodeStorable StorableDecoder, slabID SlabID, inlinedExtraData []ExtraData) (element, error) {
nt, err := cborDec.NextType()
if err != nil {
return nil, NewDecodingError(err)
}
switch nt {
case cbor.ArrayType:
// Don't need to wrap error as external error because err is already categorized by newSingleElementFromData().
return newSingleElementFromData(cborDec, decodeStorable, slabID, inlinedExtraData)
case cbor.TagType:
tagNum, err := cborDec.DecodeTagNumber()
if err != nil {
return nil, NewDecodingError(err)
}
switch tagNum {
case CBORTagInlineCollisionGroup:
// Don't need to wrap error as external error because err is already categorized by newInlineCollisionGroupFromData().
return newInlineCollisionGroupFromData(cborDec, decodeStorable, slabID, inlinedExtraData)
case CBORTagExternalCollisionGroup:
// Don't need to wrap error as external error because err is already categorized by newExternalCollisionGroupFromData().
return newExternalCollisionGroupFromData(cborDec, decodeStorable, slabID, inlinedExtraData)
default:
return nil, NewDecodingError(fmt.Errorf("failed to decode element: unrecognized tag number %d", tagNum))
}
default:
return nil, NewDecodingError(fmt.Errorf("failed to decode element: unrecognized CBOR type %s", nt))
}
}
func newSingleElement(storage SlabStorage, address Address, key Value, value Value) (*singleElement, error) {
ks, err := key.Storable(storage, address, maxInlineMapKeySize)
if err != nil {
// Wrap err as external error (if needed) because err is returned by Value interface.
return nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to get key's storable")
}
vs, err := value.Storable(storage, address, maxInlineMapValueSize(uint64(ks.ByteSize())))
if err != nil {
// Wrap err as external error (if needed) because err is returned by Value interface.
return nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to get value's storable")
}
return &singleElement{
key: ks,
value: vs,
size: singleElementPrefixSize + ks.ByteSize() + vs.ByteSize(),
}, nil
}
func newSingleElementFromData(cborDec *cbor.StreamDecoder, decodeStorable StorableDecoder, slabID SlabID, inlinedExtraData []ExtraData) (*singleElement, error) {
elemCount, err := cborDec.DecodeArrayHead()
if err != nil {
return nil, NewDecodingError(err)
}
if elemCount != 2 {
return nil, NewDecodingError(fmt.Errorf("failed to decode single element: expect array of 2 elements, got %d elements", elemCount))
}
key, err := decodeStorable(cborDec, slabID, inlinedExtraData)
if err != nil {
// Wrap err as external error (if needed) because err is returned by StorableDecoder callback.
return nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to decode key's storable")
}
value, err := decodeStorable(cborDec, slabID, inlinedExtraData)
if err != nil {
// Wrap err as external error (if needed) because err is returned by StorableDecoder callback.
return nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to decode value's storable")
}
return &singleElement{
key: key,
value: value,
size: singleElementPrefixSize + key.ByteSize() + value.ByteSize(),
}, nil
}
// Encode encodes singleElement to the given encoder.
//
// CBOR encoded array of 2 elements (key, value).
func (e *singleElement) Encode(enc *Encoder) error {
// Encode CBOR array head for 2 elements
err := enc.CBOR.EncodeRawBytes([]byte{0x82})
if err != nil {
return NewEncodingError(err)
}
// Encode key
err = e.key.Encode(enc)
if err != nil {
// Wrap err as external error (if needed) because err is returned by Storable interface.
return wrapErrorfAsExternalErrorIfNeeded(err, "failed to encode map key storable")
}
// Encode value
err = e.value.Encode(enc)
if err != nil {
// Wrap err as external error (if needed) because err is returned by Storable interface.
return wrapErrorfAsExternalErrorIfNeeded(err, "failed to encode map value storable")
}
err = enc.CBOR.Flush()
if err != nil {
return NewEncodingError(err)
}
return nil
}
func (e *singleElement) getElementAndNextKey(
storage SlabStorage,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, MapKey, error) {
k, v, err := e.Get(storage, digester, level, hkey, comparator, key)
nextKey := MapKey(nil)
return k, v, nextKey, err
}
func (e *singleElement) Get(storage SlabStorage, _ Digester, _ uint, _ Digest, comparator ValueComparator, key Value) (MapKey, MapValue, error) {
equal, err := comparator(storage, key, e.key)
if err != nil {
// Wrap err as external error (if needed) because err is returned by ValueComparator callback.
return nil, nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to compare keys")
}
if equal {
return e.key, e.value, nil
}
return nil, nil, NewKeyNotFoundError(key)
}
// Set updates value if key matches, otherwise returns inlineCollisionGroup with existing and new elements.
// NOTE: Existing key needs to be rehashed because we store minimum digest for non-collision element.
//
// Rehashing only happens when we create new inlineCollisionGroup.
// Adding new element to existing inlineCollisionGroup doesn't require rehashing.
func (e *singleElement) Set(
storage SlabStorage,
address Address,
b DigesterBuilder,
digester Digester,
level uint,
hkey Digest,
comparator ValueComparator,
hip HashInputProvider,
key Value,
value Value,
) (element, MapKey, MapValue, error) {
equal, err := comparator(storage, key, e.key)
if err != nil {
// Wrap err as external error (if needed) because err is returned by ValueComparator callback.
return nil, nil, nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to compare keys")
}
// Key matches, overwrite existing value
if equal {
existingMapValueStorable := e.value
valueStorable, err := value.Storable(storage, address, maxInlineMapValueSize(uint64(e.key.ByteSize())))
if err != nil {
// Wrap err as external error (if needed) because err is returned by Value interface.
return nil, nil, nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to get value's storable")
}
e.value = valueStorable
e.size = singleElementPrefixSize + e.key.ByteSize() + e.value.ByteSize()
return e, e.key, existingMapValueStorable, nil
}
// Hash collision detected
// Create collision group with existing and new elements
if level+1 == digester.Levels() {
// Create singleElements group
group := &inlineCollisionGroup{
elements: newSingleElementsWithElement(level+1, e),
}
// Add new key and value to collision group
// Don't need to wrap error as external error because err is already categorized by inlineCollisionGroup.Set().
return group.Set(storage, address, b, digester, level, hkey, comparator, hip, key, value)
}
// Generate digest for existing key (see function comment)
kv, err := e.key.StoredValue(storage)
if err != nil {
// Wrap err as external error (if needed) because err is returned by Storable interface.
return nil, nil, nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to get key's stored value")
}
existingKeyDigest, err := b.Digest(hip, kv)
if err != nil {
// Wrap err as external error (if needed) because err is returned by DigestBuilder interface.
return nil, nil, nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to get key's digester")
}
defer putDigester(existingKeyDigest)
d, err := existingKeyDigest.Digest(level + 1)
if err != nil {
// Wrap err as external error (if needed) because err is returned by Digester interface.
return nil, nil, nil, wrapErrorfAsExternalErrorIfNeeded(err, fmt.Sprintf("failed to get key's digest at level %d", level+1))
}
group := &inlineCollisionGroup{
elements: newHkeyElementsWithElement(level+1, d, e),
}
// Add new key and value to collision group
// Don't need to wrap error as external error because err is already categorized by inlineCollisionGroup.Set().
return group.Set(storage, address, b, digester, level, hkey, comparator, hip, key, value)
}
// Remove returns key, value, and nil element if key matches, otherwise returns error.
func (e *singleElement) Remove(storage SlabStorage, _ Digester, _ uint, _ Digest, comparator ValueComparator, key Value) (MapKey, MapValue, element, error) {
equal, err := comparator(storage, key, e.key)
if err != nil {
// Wrap err as external error (if needed) because err is returned by ValueComparator callback.
return nil, nil, nil, wrapErrorfAsExternalErrorIfNeeded(err, "failed to compare keys")
}
if equal {
return e.key, e.value, nil, nil
}
return nil, nil, nil, NewKeyNotFoundError(key)
}
func (e *singleElement) hasPointer() bool {
return hasPointer(e.key) || hasPointer(e.value)
}
func (e *singleElement) Size() uint32 {
return e.size
}
func (e *singleElement) Count(_ SlabStorage) (uint32, error) {
return 1, nil
}
func (e *singleElement) PopIterate(_ SlabStorage, fn MapPopIterationFunc) error {
fn(e.key, e.value)
return nil
}
func (e *singleElement) String() string {
return fmt.Sprintf("%s:%s", e.key, e.value)
}
func newInlineCollisionGroupFromData(cborDec *cbor.StreamDecoder, decodeStorable StorableDecoder, slabID SlabID, inlinedExtraData []ExtraData) (*inlineCollisionGroup, error) {
elements, err := newElementsFromData(cborDec, decodeStorable, slabID, inlinedExtraData)
if err != nil {
// Don't need to wrap error as external error because err is already categorized by newElementsFromData().
return nil, err
}
return &inlineCollisionGroup{elements}, nil
}
// Encode encodes inlineCollisionGroup to the given encoder.
//
// CBOR tag (number: CBORTagInlineCollisionGroup, content: elements)
func (e *inlineCollisionGroup) Encode(enc *Encoder) error {
err := enc.CBOR.EncodeRawBytes([]byte{
// tag number CBORTagInlineCollisionGroup
0xd8, CBORTagInlineCollisionGroup,
})
if err != nil {
return NewEncodingError(err)
}
err = e.elements.Encode(enc)
if err != nil {
// Don't need to wrap error as external error because err is already categorized by elements.Encode().
return err
}
// TODO: is Flush necessary?
err = enc.CBOR.Flush()
if err != nil {
return NewEncodingError(err)
}
return nil
}
func (e *inlineCollisionGroup) getElementAndNextKey(
storage SlabStorage,
digester Digester,
level uint,
_ Digest,
comparator ValueComparator,
key Value,
) (MapKey, MapValue, MapKey, error) {
// Adjust level and hkey for collision group.
level++
if level > digester.Levels() {
return nil, nil, nil, NewHashLevelErrorf("inline collision group digest level is %d, want <= %d", level, digester.Levels())
}
hkey, _ := digester.Digest(level)
// Search key in collision group with adjusted hkeyPrefix and hkey.
// Don't need to wrap error as external error because err is already categorized by elements.Get().
return e.elements.getElementAndNextKey(storage, digester, level, hkey, comparator, key)
}
func (e *inlineCollisionGroup) Get(storage SlabStorage, digester Digester, level uint, _ Digest, comparator ValueComparator, key Value) (MapKey, MapValue, error) {
// Adjust level and hkey for collision group
level++
if level > digester.Levels() {
return nil, nil, NewHashLevelErrorf("inline collision group digest level is %d, want <= %d", level, digester.Levels())
}
hkey, _ := digester.Digest(level)
// Search key in collision group with adjusted hkeyPrefix and hkey
// Don't need to wrap error as external error because err is already categorized by elements.Get().
return e.elements.Get(storage, digester, level, hkey, comparator, key)
}
func (e *inlineCollisionGroup) Set(
storage SlabStorage,
address Address,
b DigesterBuilder,
digester Digester,
level uint,
_ Digest,
comparator ValueComparator,
hip HashInputProvider,
key Value,
value Value,
) (element, MapKey, MapValue, error) {
// Adjust level and hkey for collision group
level++
if level > digester.Levels() {
return nil, nil, nil, NewHashLevelErrorf("inline collision group digest level is %d, want <= %d", level, digester.Levels())
}
hkey, _ := digester.Digest(level)
keyStorable, existingMapValueStorable, err := e.elements.Set(storage, address, b, digester, level, hkey, comparator, hip, key, value)
if err != nil {
// Don't need to wrap error as external error because err is already categorized by elements.Set().
return nil, nil, nil, err
}
if level == 1 {
// Export oversized inline collision group to separate slab (external collision group)
// for first level collision.
if e.Size() > uint32(maxInlineMapElementSize) {
id, err := storage.GenerateSlabID(address)
if err != nil {
// Wrap err as external error (if needed) because err is returned by SlabStorage interface.
return nil, nil, nil, wrapErrorfAsExternalErrorIfNeeded(
err,
fmt.Sprintf("failed to generate slab ID for address 0x%x", address))
}
// Create MapDataSlab
slab := &MapDataSlab{
header: MapSlabHeader{
slabID: id,
size: mapDataSlabPrefixSize + e.elements.Size(),
firstKey: e.elements.firstKey(),
},
elements: e.elements, // elems shouldn't be copied
anySize: true,
collisionGroup: true,
}
err = storeSlab(storage, slab)
if err != nil {
return nil, nil, nil, err
}
// Create and return externalCollisionGroup (wrapper of newly created MapDataSlab)
return &externalCollisionGroup{
slabID: id,
size: externalCollisionGroupPrefixSize + SlabIDStorable(id).ByteSize(),
}, keyStorable, existingMapValueStorable, nil
}
}
return e, keyStorable, existingMapValueStorable, nil
}
// Remove returns key, value, and updated element if key is found.
// Updated element can be modified inlineCollisionGroup, or singleElement.
func (e *inlineCollisionGroup) Remove(storage SlabStorage, digester Digester, level uint, _ Digest, comparator ValueComparator, key Value) (MapKey, MapValue, element, error) {
// Adjust level and hkey for collision group
level++
if level > digester.Levels() {
return nil, nil, nil, NewHashLevelErrorf("inline collision group digest level is %d, want <= %d", level, digester.Levels())
}
hkey, _ := digester.Digest(level)
k, v, err := e.elements.Remove(storage, digester, level, hkey, comparator, key)
if err != nil {
// Don't need to wrap error as external error because err is already categorized by elements.Remove().
return nil, nil, nil, err
}
// If there is only one single element in this group, return the single element (no collision).
if e.elements.Count() == 1 {
elem, err := e.elements.Element(0)
if err != nil {
// Don't need to wrap error as external error because err is already categorized by elements.Element().
return nil, nil, nil, err
}
if _, ok := elem.(elementGroup); !ok {
return k, v, elem, nil
}
}
return k, v, e, nil
}
func (e *inlineCollisionGroup) hasPointer() bool {
return e.elements.hasPointer()
}
func (e *inlineCollisionGroup) Size() uint32 {
return inlineCollisionGroupPrefixSize + e.elements.Size()
}
func (e *inlineCollisionGroup) Inline() bool {
return true
}
func (e *inlineCollisionGroup) Elements(_ SlabStorage) (elements, error) {
return e.elements, nil
}
func (e *inlineCollisionGroup) Count(_ SlabStorage) (uint32, error) {
return e.elements.Count(), nil
}
func (e *inlineCollisionGroup) PopIterate(storage SlabStorage, fn MapPopIterationFunc) error {
// Don't need to wrap error as external error because err is already categorized by elements.PopIterate().
return e.elements.PopIterate(storage, fn)
}
func (e *inlineCollisionGroup) String() string {
return "inline[" + e.elements.String() + "]"
}
func newExternalCollisionGroupFromData(cborDec *cbor.StreamDecoder, decodeStorable StorableDecoder, slabID SlabID, inlinedExtraData []ExtraData) (*externalCollisionGroup, error) {