storage

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Published: Apr 10, 2021 License: Apache-2.0 Imports: 18 Imported by: 0

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Index

Constants

View Source
const (
	DelimiterSegmentLength = -1
	VariadicSegmentLength  = 0
)

Variables

View Source
var (
	ErrInvalidLengthStorage        = fmt.Errorf("proto: negative length found during unmarshaling")
	ErrIntOverflowStorage          = fmt.Errorf("proto: integer overflow")
	ErrUnexpectedEndOfGroupStorage = fmt.Errorf("proto: unexpected end of group")
)

Functions

func AddTreePrintTree

func AddTreePrintTree(edge string, tree treeprint.Tree, rwt KVCallbackIterableReader)

func CompareKeys

func CompareKeys(k1, k2 []byte) int

Sorts the keys as if they were compared lexicographically with their KeyOrder prepended

func EnsureKeyFormatStore

func EnsureKeyFormatStore(ks interface{}) ([][]byte, error)

Checks that a struct containing KeyFormat fields has no collisions on prefix and so acts as a sane 'KeyFormatStore'

func KeyOrder

func KeyOrder(key []byte) int

KeyOrder maps []byte{} -> -1, []byte(nil) -> 1, and everything else to 0. This encodes the assumptions of the KVIterator domain endpoints

func NormaliseDomain

func NormaliseDomain(low, high []byte) ([]byte, []byte)

NormaliseDomain encodes the assumption that when nil is used as a lower bound is interpreted as low rather than high

Types

type ByteSlicable

type ByteSlicable interface {
	Bytes() []byte
}

type CommitID

type CommitID struct {
	Version              int64    `protobuf:"varint,1,opt,name=Version,proto3" json:"Version,omitempty"`
	Hash                 []byte   `protobuf:"bytes,2,opt,name=Hash,proto3" json:"Hash,omitempty"`
	XXX_NoUnkeyedLiteral struct{} `json:"-"`
	XXX_unrecognized     []byte   `json:"-"`
	XXX_sizecache        int32    `json:"-"`
}

This is the object that is stored in the leaves of the commitsTree - it captures the sub-tree hashes so that the commitsTree's hash becomes a mixture of the hashes of all the sub-trees.

func (*CommitID) Descriptor

func (*CommitID) Descriptor() ([]byte, []int)

func (*CommitID) GetHash

func (m *CommitID) GetHash() []byte

func (*CommitID) GetVersion

func (m *CommitID) GetVersion() int64

func (*CommitID) Marshal

func (m *CommitID) Marshal() (dAtA []byte, err error)

func (*CommitID) MarshalBinary

func (cid *CommitID) MarshalBinary() ([]byte, error)

func (*CommitID) MarshalTo

func (m *CommitID) MarshalTo(dAtA []byte) (int, error)

func (*CommitID) MarshalToSizedBuffer

func (m *CommitID) MarshalToSizedBuffer(dAtA []byte) (int, error)

func (*CommitID) ProtoMessage

func (*CommitID) ProtoMessage()

func (*CommitID) Reset

func (m *CommitID) Reset()

func (*CommitID) Size

func (m *CommitID) Size() (n int)

func (CommitID) String

func (cid CommitID) String() string

func (*CommitID) Unmarshal

func (m *CommitID) Unmarshal(dAtA []byte) error

func (*CommitID) UnmarshalBinary

func (cid *CommitID) UnmarshalBinary(data []byte) error

func (*CommitID) XXX_DiscardUnknown

func (m *CommitID) XXX_DiscardUnknown()

func (*CommitID) XXX_Marshal

func (m *CommitID) XXX_Marshal(b []byte, deterministic bool) ([]byte, error)

func (*CommitID) XXX_Merge

func (m *CommitID) XXX_Merge(src proto.Message)

func (*CommitID) XXX_MessageName

func (*CommitID) XXX_MessageName() string

func (*CommitID) XXX_Size

func (m *CommitID) XXX_Size() int

func (*CommitID) XXX_Unmarshal

func (m *CommitID) XXX_Unmarshal(b []byte) error

type ForestOption

type ForestOption func(*ImmutableForest)
var WithOverwriting ForestOption = func(imf *ImmutableForest) { imf.overwriting = true }

type ForestReader

type ForestReader interface {
	Reader(prefix []byte) (KVCallbackIterableReader, error)
}

Access the read path of a forest

type ImmutableForest

type ImmutableForest struct {
	// contains filtered or unexported fields
}

ImmutableForest contains much of the implementation for MutableForest yet it's external API is immutable

func NewImmutableForest

func NewImmutableForest(commitsTree KVCallbackIterableReader, treeDB dbm.DB, cacheSize int,
	options ...ForestOption) (*ImmutableForest, error)

func (*ImmutableForest) Dump

func (imf *ImmutableForest) Dump() string

func (*ImmutableForest) Iterate

func (imf *ImmutableForest) Iterate(start, end []byte, ascending bool, fn func(prefix []byte, tree KVCallbackIterableReader) error) error

func (*ImmutableForest) Reader

func (imf *ImmutableForest) Reader(prefix []byte) (KVCallbackIterableReader, error)

Get the tree at prefix for making reads

type ImmutableTree

type ImmutableTree struct {
	*iavl.ImmutableTree
}

func (*ImmutableTree) Get

func (imt *ImmutableTree) Get(key []byte) ([]byte, error)

func (*ImmutableTree) Has

func (imt *ImmutableTree) Has(key []byte) (bool, error)

func (*ImmutableTree) Iterate

func (imt *ImmutableTree) Iterate(start, end []byte, ascending bool, fn func(key []byte, value []byte) error) error

type KVCallbackIterable

type KVCallbackIterable interface {
	// low must be lexicographically less than high. high is exclusive unless it is nil in which case it is inclusive.
	// ascending == false reverses order.
	Iterate(low, high []byte, ascending bool, fn func(key []byte, value []byte) error) error
}

Provides the native iteration for IAVLTree

type KVCallbackIterableReader

type KVCallbackIterableReader interface {
	KVReader
	KVCallbackIterable
}

type KVIterable

type KVIterable interface {
	// Iterator over a domain of keys in ascending order. high is exclusive.
	// low must be less than high, or the Iterator is invalid.
	// Iterator must be closed by caller.
	// To iterate over entire domain, use store.Iterator(nil, nil)
	// CONTRACT: No writes may happen within a domain while an iterator exists over it.
	Iterator(low, high []byte) (KVIterator, error)

	// Iterator over a domain of keys in descending order. high is exclusive.
	//  must be less than high, or the Iterator is invalid.
	// Iterator must be closed by caller.
	// CONTRACT: No writes may happen within a domain while an iterator exists over it.
	ReverseIterator(low, high []byte) (KVIterator, error)
}

This is partially extracted from Cosmos SDK for alignment but is more minimal, we should suggest this becomes an embedded interface

type KVIterableReader

type KVIterableReader interface {
	KVReader
	KVIterable
}

type KVIterator

type KVIterator = dbm.Iterator

type KVReader

type KVReader interface {
	// Get returns nil iff key doesn't exist. Panics on nil key.
	Get(key []byte) ([]byte, error)
	// Has checks if a key exists. Panics on nil key.
	Has(key []byte) (bool, error)
}

type KVReaderWriter

type KVReaderWriter interface {
	KVReader
	KVWriter
}

KVStore is a simple interface to get/set data

type KVStore

type KVStore interface {
	KVReaderWriter
	KVIterable
}

type KVWriter

type KVWriter interface {
	// Set sets the key. Panics on nil key.
	Set(key, value []byte) error
	// Delete deletes the key. Panics on nil key.
	Delete(key []byte) error
}

type KeyFormat

type KeyFormat struct {
	// contains filtered or unexported fields
}

Provides a fixed-width lexicographically sortable []byte key format

func NewKeyFormat

func NewKeyFormat(prefix string, layout ...int) (*KeyFormat, error)

Create a []byte key format based on a single byte prefix and fixed width key segments each of whose length is specified by by the corresponding element of layout. A final segment length of 0 can be used to indicate a variadic final element that may be of arbitrary length.

For example, to store keys that could index some objects by a version number and their SHA256 hash using the form: 'c<version uint64><hash [32]byte>' then you would define the KeyFormat with:

var keyFormat = NewKeyFormat('c', 8, 32)

Then you can create a key with:

func ObjectKey(version uint64, objectBytes []byte) []byte {
	hasher := sha256.New()
	hasher.Sum(nil)
	return keyFormat.Key(version, hasher.Sum(nil))
}}

func (*KeyFormat) Fix

func (kf *KeyFormat) Fix(args ...interface{}) (*KeyFormat, error)

Fixes the first args many segments as the prefix of a new KeyFormat by using the args to generate a key that becomes that prefix. Any remaining unassigned segments become the layout of the new KeyFormat.

func (*KeyFormat) Iterator

func (kf *KeyFormat) Iterator(iterable KVIterable, start, end []byte, reverse ...bool) (KVIterator, error)

Returns an iterator over the underlying iterable using this KeyFormat's prefix. This is to support proper iteration over the prefix in the presence of nil start or end which requests iteration to the inclusive edges of the domain. An optional argument for reverse can be passed to get reverse iteration.

func (*KeyFormat) Key

func (kf *KeyFormat) Key(args ...interface{}) ([]byte, error)

Format the args passed into the key format - will panic if the arguments passed do not match the length of the segment to which they correspond. When called with no arguments returns the raw prefix (useful as a start element of the entire keys space when sorted lexicographically).

func (*KeyFormat) KeyBytes

func (kf *KeyFormat) KeyBytes(segments ...[]byte) ([]byte, error)

Format the byte segments into the key format - will panic if the segment lengths do not match the layout.

func (*KeyFormat) KeyNoPrefix

func (kf *KeyFormat) KeyNoPrefix(args ...interface{}) (Prefix, error)

Like Key but removes the prefix string

func (*KeyFormat) Layout

func (kf *KeyFormat) Layout() []int

func (*KeyFormat) NumSegments

func (kf *KeyFormat) NumSegments() int

func (*KeyFormat) Prefix

func (kf *KeyFormat) Prefix() Prefix

Return the Key as a prefix - may just be the literal prefix, or an entire key

func (*KeyFormat) Scan

func (kf *KeyFormat) Scan(key []byte, args ...interface{}) error

Extracts the segments into the values pointed to by each of args. Each arg must be a pointer to int64, uint64, or []byte, and the width of the args must match layout.

func (*KeyFormat) ScanBytes

func (kf *KeyFormat) ScanBytes(key []byte) [][]byte

Reads out the bytes associated with each segment of the key format from key.

func (*KeyFormat) ScanNoPrefix

func (kf *KeyFormat) ScanNoPrefix(key []byte, args ...interface{}) error

Like Scan but adds expects a key with the KeyFormat's prefix trimmed

func (*KeyFormat) String

func (kf *KeyFormat) String() string

func (*KeyFormat) Unprefixed

func (kf *KeyFormat) Unprefixed() *KeyFormat

type MustKeyFormat

type MustKeyFormat struct {
	KeyFormat
}

MustKeyFormat for panicking early when a KeyFormat does not parse

func NewMustKeyFormat

func NewMustKeyFormat(prefix string, layout ...int) *MustKeyFormat

func (*MustKeyFormat) Fix

func (kf *MustKeyFormat) Fix(args ...interface{}) *MustKeyFormat

func (*MustKeyFormat) Key

func (kf *MustKeyFormat) Key(args ...interface{}) []byte

func (*MustKeyFormat) KeyBytes

func (kf *MustKeyFormat) KeyBytes(segments ...[]byte) []byte

func (*MustKeyFormat) KeyNoPrefix

func (kf *MustKeyFormat) KeyNoPrefix(args ...interface{}) Prefix

func (*MustKeyFormat) Unprefixed

func (kf *MustKeyFormat) Unprefixed() *MustKeyFormat

type MutableForest

type MutableForest struct {

	// Much of the implementation of MutableForest is contained in ImmutableForest which is embedded here and used
	// mutable via its private API. This embedded instance holds a reference to commitsTree above.
	*ImmutableForest
	// contains filtered or unexported fields
}

func NewMutableForest

func NewMutableForest(db dbm.DB, cacheSize int) (*MutableForest, error)

func (*MutableForest) Delete

func (muf *MutableForest) Delete(prefix []byte) (*CommitID, error)

Delete a tree - if the tree exists will return the CommitID of the latest saved version

func (*MutableForest) GetImmutable

func (muf *MutableForest) GetImmutable(version int64) (*ImmutableForest, error)

func (*MutableForest) Hash

func (muf *MutableForest) Hash() []byte

Get the current global hash for all trees in this forest

func (*MutableForest) IterateRWTree

func (muf *MutableForest) IterateRWTree(start, end []byte, ascending bool, fn func(prefix []byte, tree *RWTree) error) error

func (*MutableForest) Load

func (muf *MutableForest) Load(version int64) error

Load mutable forest from database

func (*MutableForest) Save

func (muf *MutableForest) Save() (hash []byte, version int64, _ error)

func (*MutableForest) Version

func (muf *MutableForest) Version() int64

Get the current global version for all versions of all trees in this forest

func (*MutableForest) Writer

func (muf *MutableForest) Writer(prefix []byte) (*RWTree, error)

Calls to writer should be serialised as should writes to the tree

type MutableTree

type MutableTree struct {
	*iavl.MutableTree
}

We wrap IAVL's tree types in order to implement standard DB interface and iteration helpers

func NewMutableTree

func NewMutableTree(db dbm.DB, cacheSize int) (*MutableTree, error)

func (*MutableTree) Get

func (mut *MutableTree) Get(key []byte) ([]byte, error)

func (*MutableTree) GetImmutable

func (mut *MutableTree) GetImmutable(version int64) (*ImmutableTree, error)

func (*MutableTree) Has

func (mut *MutableTree) Has(key []byte) (bool, error)

func (*MutableTree) Iterate

func (mut *MutableTree) Iterate(start, end []byte, ascending bool, fn func(key []byte, value []byte) error) error

func (*MutableTree) IterateWriteTree

func (mut *MutableTree) IterateWriteTree(start, end []byte, ascending bool, fn func(key []byte, value []byte) error) error

func (*MutableTree) Load

func (mut *MutableTree) Load(version int64, overwriting bool) error

type Prefix

type Prefix []byte

func NewPrefix

func NewPrefix(bs []byte) Prefix

func (Prefix) Above

func (p Prefix) Above() []byte

Get the lexicographical sibling above this prefix (i.e. the fixed length integer plus one)

func (Prefix) Below

func (p Prefix) Below() []byte

Get the lexicographical sibling below this prefix (i.e. the fixed length integer minus one)

func (Prefix) CallbackIterable

func (p Prefix) CallbackIterable(source KVCallbackIterable) *prefixCallbackIterable

func (Prefix) HexString

func (p Prefix) HexString() string

func (Prefix) Iterable

func (p Prefix) Iterable(source KVIterable) KVIterable

func (Prefix) Iterator

func (p Prefix) Iterator(iteratorFn func(start, end []byte) (dbm.Iterator, error), start, end []byte) (KVIterator, error)

func (Prefix) Key

func (p Prefix) Key(key []byte) []byte

func (Prefix) Length

func (p Prefix) Length() int

func (Prefix) Store

func (p Prefix) Store(source KVStore) KVStore

func (Prefix) String

func (p Prefix) String() string

func (Prefix) Suffix

func (p Prefix) Suffix(key []byte) []byte

type PrefixDB

type PrefixDB struct {
	// contains filtered or unexported fields
}

func NewPrefixDB

func NewPrefixDB(db dbm.DB, prefix string) *PrefixDB

func (*PrefixDB) Close

func (pdb *PrefixDB) Close() error

func (*PrefixDB) Delete

func (pdb *PrefixDB) Delete(key []byte) error

func (*PrefixDB) DeleteSync

func (pdb *PrefixDB) DeleteSync(key []byte) error

func (*PrefixDB) Get

func (pdb *PrefixDB) Get(key []byte) ([]byte, error)

DB implementation

func (*PrefixDB) Has

func (pdb *PrefixDB) Has(key []byte) (bool, error)

func (*PrefixDB) Iterator

func (pdb *PrefixDB) Iterator(low, high []byte) (KVIterator, error)

func (*PrefixDB) NewBatch

func (pdb *PrefixDB) NewBatch() dbm.Batch

func (*PrefixDB) Print

func (pdb *PrefixDB) Print() error

func (*PrefixDB) ReverseIterator

func (pdb *PrefixDB) ReverseIterator(low, high []byte) (KVIterator, error)

func (*PrefixDB) Set

func (pdb *PrefixDB) Set(key, value []byte) error

func (*PrefixDB) SetSync

func (pdb *PrefixDB) SetSync(key, value []byte) error

func (*PrefixDB) Stats

func (pdb *PrefixDB) Stats() map[string]string

type RWTree

type RWTree struct {
	// Synchronise 'write side access' - i.e. to the write tree and updated flag (which only read-locks this mutex)
	sync.RWMutex
	// contains filtered or unexported fields
}

RWTree provides an abstraction over IAVL that maintains separate read and write paths. Reads are routed to the most recently saved version of the tree - which provides immutable access. Writes are routed to a working tree that is mutable. On save the working tree is saved to DB, frozen, and replaces the previous immutable read tree.

func NewRWTree

func NewRWTree(db dbm.DB, cacheSize int) (*RWTree, error)

Creates a concurrency safe version of an IAVL tree whereby reads are routed to the last saved tree. Writes must be serialised (as they are within a commit for example).

func (*RWTree) Delete

func (rwt *RWTree) Delete(key []byte) ([]byte, bool)

func (*RWTree) Dump

func (rwt *RWTree) Dump() string

func (*RWTree) Get

func (rwt *RWTree) Get(key []byte) ([]byte, error)

func (*RWTree) GetImmutable

func (rwt *RWTree) GetImmutable(version int64) (*ImmutableTree, error)

func (*RWTree) Has

func (rwt *RWTree) Has(key []byte) (bool, error)

func (*RWTree) Hash

func (rwt *RWTree) Hash() []byte

func (*RWTree) Iterate

func (rwt *RWTree) Iterate(low, high []byte, ascending bool, fn func(key []byte, value []byte) error) error

func (*RWTree) IterateWriteTree

func (rwt *RWTree) IterateWriteTree(start, end []byte, ascending bool, fn func(key []byte, value []byte) error) error

func (*RWTree) Load

func (rwt *RWTree) Load(version int64, overwriting bool) error

Tries to load the execution state from DB, returns nil with no error if no state found

func (*RWTree) Save

func (rwt *RWTree) Save() ([]byte, int64, error)

Save the current write tree making writes accessible from read tree.

func (*RWTree) Set

func (rwt *RWTree) Set(key, value []byte) bool

func (*RWTree) Updated

func (rwt *RWTree) Updated() bool

Returns true if there have been any writes since last save

func (*RWTree) Version

func (rwt *RWTree) Version() int64

type SortOrder

type SortOrder byte
const (
	AscendingSort SortOrder = iota
	DescendingSort
)

type Versioned

type Versioned interface {
	Hash() []byte
	Version() int64
}

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