Documentation ¶
Overview ¶
Package merkle computes a deterministic minimal height Merkle tree hash. If the number of items is not a power of two, some leaves will be at different levels. Tries to keep both sides of the tree the same size, but the left may be one greater.
Use this for short deterministic trees, such as the validator list. For larger datasets, use IAVLTree.
Be aware that the current implementation by itself does not prevent second pre-image attacks. Hence, use this library with caution. Otherwise you might run into similar issues as, e.g., in early Bitcoin: https://bitcointalk.org/?topic=102395
* / \ / \ / \ / \ * * / \ / \ / \ / \ / \ / \ * * * h6 / \ / \ / \ h0 h1 h2 h3 h4 h5
TODO(ismail): add 2nd pre-image protection or clarify further on how we use this and why this secure.
Index ¶
- Constants
- Variables
- func KeyPathToKeys(path string) (keys [][]byte, err error)
- func SimpleHashFromByteSlices(items [][]byte) []byte
- func SimpleHashFromMap(m map[string][]byte) []byte
- func SimpleProofsFromMap(m map[string][]byte) (rootHash []byte, proofs map[string]*SimpleProof, keys []string)
- type KVPair
- type Key
- type KeyPath
- type OpDecoder
- type Proof
- func (*Proof) Descriptor() ([]byte, []int)
- func (this *Proof) Equal(that interface{}) bool
- func (m *Proof) GetOps() []ProofOp
- func (m *Proof) Marshal() (dAtA []byte, err error)
- func (m *Proof) MarshalTo(dAtA []byte) (int, error)
- func (*Proof) ProtoMessage()
- func (m *Proof) Reset()
- func (m *Proof) Size() (n int)
- func (m *Proof) String() string
- func (m *Proof) Unmarshal(dAtA []byte) error
- func (m *Proof) XXX_DiscardUnknown()
- func (m *Proof) XXX_Marshal(b []byte, deterministic bool) ([]byte, error)
- func (dst *Proof) XXX_Merge(src proto.Message)
- func (m *Proof) XXX_Size() int
- func (m *Proof) XXX_Unmarshal(b []byte) error
- type ProofOp
- func (*ProofOp) Descriptor() ([]byte, []int)
- func (this *ProofOp) Equal(that interface{}) bool
- func (m *ProofOp) GetData() []byte
- func (m *ProofOp) GetKey() []byte
- func (m *ProofOp) GetType() string
- func (m *ProofOp) Marshal() (dAtA []byte, err error)
- func (m *ProofOp) MarshalTo(dAtA []byte) (int, error)
- func (*ProofOp) ProtoMessage()
- func (m *ProofOp) Reset()
- func (m *ProofOp) Size() (n int)
- func (m *ProofOp) String() string
- func (m *ProofOp) Unmarshal(dAtA []byte) error
- func (m *ProofOp) XXX_DiscardUnknown()
- func (m *ProofOp) XXX_Marshal(b []byte, deterministic bool) ([]byte, error)
- func (dst *ProofOp) XXX_Merge(src proto.Message)
- func (m *ProofOp) XXX_Size() int
- func (m *ProofOp) XXX_Unmarshal(b []byte) error
- type ProofOperator
- type ProofOperators
- type ProofRuntime
- func (prt *ProofRuntime) Decode(pop ProofOp) (ProofOperator, error)
- func (prt *ProofRuntime) DecodeProof(proof *Proof) (ProofOperators, error)
- func (prt *ProofRuntime) RegisterOpDecoder(typ string, dec OpDecoder)
- func (prt *ProofRuntime) Verify(proof *Proof, root []byte, keypath string, args [][]byte) (err error)
- func (prt *ProofRuntime) VerifyAbsence(proof *Proof, root []byte, keypath string) (err error)
- func (prt *ProofRuntime) VerifyValue(proof *Proof, root []byte, keypath string, value []byte) (err error)
- type SimpleProof
- type SimpleProofNode
- type SimpleValueOp
- type Tree
Constants ¶
const ( KeyEncodingURL keyEncoding = iota KeyEncodingHex KeyEncodingMax // Number of known encodings. Used for testing )
const ProofOpSimpleValue = "simple:v"
Variables ¶
var ( ErrInvalidLengthMerkle = fmt.Errorf("proto: negative length found during unmarshaling") ErrIntOverflowMerkle = fmt.Errorf("proto: integer overflow") )
Functions ¶
func KeyPathToKeys ¶ added in v0.26.0
Decode a path to a list of keys. Path must begin with `/`. Each key must use a known encoding.
func SimpleHashFromByteSlices ¶ added in v0.26.0
SimpleHashFromByteSlices computes a Merkle tree where the leaves are the byte slice, in the provided order.
func SimpleHashFromMap ¶
SimpleHashFromMap computes a Merkle tree from sorted map. Like calling SimpleHashFromHashers with `item = []byte(Hash(key) | Hash(value))`, sorted by `item`.
func SimpleProofsFromMap ¶
func SimpleProofsFromMap(m map[string][]byte) (rootHash []byte, proofs map[string]*SimpleProof, keys []string)
SimpleProofsFromMap generates proofs from a map. The keys/values of the map will be used as the keys/values in the underlying key-value pairs. The keys are sorted before the proofs are computed.
Types ¶
type KVPair ¶
A local extension to KVPair that can be hashed. Key and value are length prefixed and concatenated, then hashed.
type OpDecoder ¶ added in v0.26.0
type OpDecoder func(ProofOp) (ProofOperator, error)
type Proof ¶ added in v0.26.0
type Proof struct { Ops []ProofOp `protobuf:"bytes,1,rep,name=ops" json:"ops"` XXX_NoUnkeyedLiteral struct{} `json:"-"` XXX_unrecognized []byte `json:"-"` XXX_sizecache int32 `json:"-"` }
Proof is Merkle proof defined by the list of ProofOps
func NewPopulatedProof ¶ added in v0.26.0
func (*Proof) Descriptor ¶ added in v0.26.0
func (*Proof) ProtoMessage ¶ added in v0.26.0
func (*Proof) ProtoMessage()
func (*Proof) XXX_DiscardUnknown ¶ added in v0.26.0
func (m *Proof) XXX_DiscardUnknown()
func (*Proof) XXX_Marshal ¶ added in v0.26.0
func (*Proof) XXX_Unmarshal ¶ added in v0.26.0
type ProofOp ¶ added in v0.26.0
type ProofOp struct { Type string `protobuf:"bytes,1,opt,name=type,proto3" json:"type,omitempty"` Key []byte `protobuf:"bytes,2,opt,name=key,proto3" json:"key,omitempty"` Data []byte `protobuf:"bytes,3,opt,name=data,proto3" json:"data,omitempty"` XXX_NoUnkeyedLiteral struct{} `json:"-"` XXX_unrecognized []byte `json:"-"` XXX_sizecache int32 `json:"-"` }
ProofOp defines an operation used for calculating Merkle root The data could be arbitrary format, providing nessecary data for example neighbouring node hash
func NewPopulatedProofOp ¶ added in v0.26.0
func (*ProofOp) Descriptor ¶ added in v0.26.0
func (*ProofOp) ProtoMessage ¶ added in v0.26.0
func (*ProofOp) ProtoMessage()
func (*ProofOp) XXX_DiscardUnknown ¶ added in v0.26.0
func (m *ProofOp) XXX_DiscardUnknown()
func (*ProofOp) XXX_Marshal ¶ added in v0.26.0
func (*ProofOp) XXX_Unmarshal ¶ added in v0.26.0
type ProofOperator ¶ added in v0.26.0
ProofOperator is a layer for calculating intermediate Merkle roots when a series of Merkle trees are chained together. Run() takes leaf values from a tree and returns the Merkle root for the corresponding tree. It takes and returns a list of bytes to allow multiple leaves to be part of a single proof, for instance in a range proof. ProofOp() encodes the ProofOperator in a generic way so it can later be decoded with OpDecoder.
func SimpleValueOpDecoder ¶ added in v0.26.0
func SimpleValueOpDecoder(pop ProofOp) (ProofOperator, error)
type ProofOperators ¶ added in v0.26.0
type ProofOperators []ProofOperator
ProofOperators is a slice of ProofOperator(s). Each operator will be applied to the input value sequentially and the last Merkle root will be verified with already known data
func (ProofOperators) Verify ¶ added in v0.26.0
func (poz ProofOperators) Verify(root []byte, keypath string, args [][]byte) (err error)
func (ProofOperators) VerifyValue ¶ added in v0.26.0
func (poz ProofOperators) VerifyValue(root []byte, keypath string, value []byte) (err error)
type ProofRuntime ¶ added in v0.26.0
type ProofRuntime struct {
// contains filtered or unexported fields
}
func DefaultProofRuntime ¶ added in v0.26.0
func DefaultProofRuntime() (prt *ProofRuntime)
DefaultProofRuntime only knows about Simple value proofs. To use e.g. IAVL proofs, register op-decoders as defined in the IAVL package.
func NewProofRuntime ¶ added in v0.26.0
func NewProofRuntime() *ProofRuntime
func (*ProofRuntime) Decode ¶ added in v0.26.0
func (prt *ProofRuntime) Decode(pop ProofOp) (ProofOperator, error)
func (*ProofRuntime) DecodeProof ¶ added in v0.26.0
func (prt *ProofRuntime) DecodeProof(proof *Proof) (ProofOperators, error)
func (*ProofRuntime) RegisterOpDecoder ¶ added in v0.26.0
func (prt *ProofRuntime) RegisterOpDecoder(typ string, dec OpDecoder)
func (*ProofRuntime) VerifyAbsence ¶ added in v0.26.0
func (prt *ProofRuntime) VerifyAbsence(proof *Proof, root []byte, keypath string) (err error)
TODO In the long run we'll need a method of classifcation of ops, whether existence or absence or perhaps a third?
func (*ProofRuntime) VerifyValue ¶ added in v0.26.0
type SimpleProof ¶
type SimpleProof struct { Total int `json:"total"` // Total number of items. Index int `json:"index"` // Index of item to prove. LeafHash []byte `json:"leaf_hash"` // Hash of item value. Aunts [][]byte `json:"aunts"` // Hashes from leaf's sibling to a root's child. }
SimpleProof represents a simple Merkle proof. NOTE: The convention for proofs is to include leaf hashes but to exclude the root hash. This convention is implemented across IAVL range proofs as well. Keep this consistent unless there's a very good reason to change everything. This also affects the generalized proof system as well.
func SimpleProofsFromByteSlices ¶ added in v0.26.0
func SimpleProofsFromByteSlices(items [][]byte) (rootHash []byte, proofs []*SimpleProof)
SimpleProofsFromByteSlices computes inclusion proof for given items. proofs[0] is the proof for items[0].
func (*SimpleProof) ComputeRootHash ¶ added in v0.26.0
func (sp *SimpleProof) ComputeRootHash() []byte
Compute the root hash given a leaf hash. Does not verify the result.
func (*SimpleProof) String ¶
func (sp *SimpleProof) String() string
String implements the stringer interface for SimpleProof. It is a wrapper around StringIndented.
func (*SimpleProof) StringIndented ¶
func (sp *SimpleProof) StringIndented(indent string) string
StringIndented generates a canonical string representation of a SimpleProof.
type SimpleProofNode ¶
type SimpleProofNode struct { Hash []byte Parent *SimpleProofNode Left *SimpleProofNode // Left sibling (only one of Left,Right is set) Right *SimpleProofNode // Right sibling (only one of Left,Right is set) }
SimpleProofNode is a helper structure to construct merkle proof. The node and the tree is thrown away afterwards. Exactly one of node.Left and node.Right is nil, unless node is the root, in which case both are nil. node.Parent.Hash = hash(node.Hash, node.Right.Hash) or hash(node.Left.Hash, node.Hash), depending on whether node is a left/right child.
func (*SimpleProofNode) FlattenAunts ¶
func (spn *SimpleProofNode) FlattenAunts() [][]byte
FlattenAunts will return the inner hashes for the item corresponding to the leaf, starting from a leaf SimpleProofNode.
type SimpleValueOp ¶ added in v0.26.0
type SimpleValueOp struct { // To encode in ProofOp.Data Proof *SimpleProof `json:"simple_proof"` // contains filtered or unexported fields }
SimpleValueOp takes a key and a single value as argument and produces the root hash. The corresponding tree structure is the SimpleMap tree. SimpleMap takes a Hasher, and currently Tendermint uses aminoHasher. SimpleValueOp should support the hash function as used in aminoHasher. TODO support additional hash functions here as options/args to this operator.
If the produced root hash matches the expected hash, the proof is good.
func NewSimpleValueOp ¶ added in v0.26.0
func NewSimpleValueOp(key []byte, proof *SimpleProof) SimpleValueOp
func (SimpleValueOp) GetKey ¶ added in v0.26.0
func (op SimpleValueOp) GetKey() []byte
func (SimpleValueOp) ProofOp ¶ added in v0.26.0
func (op SimpleValueOp) ProofOp() ProofOp
func (SimpleValueOp) Run ¶ added in v0.26.0
func (op SimpleValueOp) Run(args [][]byte) ([][]byte, error)
func (SimpleValueOp) String ¶ added in v0.26.0
func (op SimpleValueOp) String() string
type Tree ¶
type Tree interface { Size() (size int) Height() (height int8) Has(key []byte) (has bool) Proof(key []byte) (value []byte, proof []byte, exists bool) // TODO make it return an index Get(key []byte) (index int, value []byte, exists bool) GetByIndex(index int) (key []byte, value []byte) Set(key []byte, value []byte) (updated bool) Remove(key []byte) (value []byte, removed bool) HashWithCount() (hash []byte, count int) Hash() (hash []byte) Save() (hash []byte) Load(hash []byte) Copy() Tree Iterate(func(key []byte, value []byte) (stop bool)) (stopped bool) IterateRange(start []byte, end []byte, ascending bool, fx func(key []byte, value []byte) (stop bool)) (stopped bool) }
Tree is a Merkle tree interface.