forked from cerc-io/plugeth
3ff2f75636
Co-authored-by: Janos Guljas <janos@resenje.org> Co-authored-by: Balint Gabor <balint.g@gmail.com> Co-authored-by: Anton Evangelatov <anton.evangelatov@gmail.com> Co-authored-by: Viktor Trón <viktor.tron@gmail.com>
188 lines
7.8 KiB
Go
188 lines
7.8 KiB
Go
// Copyright 2018 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package mru
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import (
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"encoding/binary"
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"hash"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/swarm/storage"
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)
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// ResourceMetadata encapsulates the immutable information about a mutable resource :)
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// once serialized into a chunk, the resource can be retrieved by knowing its content-addressed rootAddr
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type ResourceMetadata struct {
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StartTime Timestamp // time at which the resource starts to be valid
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Frequency uint64 // expected update frequency for the resource
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Name string // name of the resource, for the reference of the user or to disambiguate resources with same starttime, frequency, owneraddr
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Owner common.Address // public address of the resource owner
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}
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const frequencyLength = 8 // sizeof(uint64)
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const nameLengthLength = 1
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// Resource metadata chunk layout:
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// 4 prefix bytes (chunkPrefixLength). The first two set to zero. The second two indicate the length
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// Timestamp: timestampLength bytes
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// frequency: frequencyLength bytes
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// name length: nameLengthLength bytes
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// name (variable length, can be empty, up to 255 bytes)
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// ownerAddr: common.AddressLength
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const minimumMetadataLength = chunkPrefixLength + timestampLength + frequencyLength + nameLengthLength + common.AddressLength
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// binaryGet populates the resource metadata from a byte array
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func (r *ResourceMetadata) binaryGet(serializedData []byte) error {
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if len(serializedData) < minimumMetadataLength {
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return NewErrorf(ErrInvalidValue, "Metadata chunk to deserialize is too short. Expected at least %d. Got %d.", minimumMetadataLength, len(serializedData))
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}
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// first two bytes must be set to zero to indicate metadata chunks, so enforce this.
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if serializedData[0] != 0 || serializedData[1] != 0 {
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return NewError(ErrCorruptData, "Invalid metadata chunk")
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}
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cursor := 2
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metadataLength := int(binary.LittleEndian.Uint16(serializedData[cursor : cursor+2])) // metadataLength does not include the 4 prefix bytes
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if metadataLength+chunkPrefixLength != len(serializedData) {
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return NewErrorf(ErrCorruptData, "Incorrect declared metadata length. Expected %d, got %d.", metadataLength+chunkPrefixLength, len(serializedData))
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}
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cursor += 2
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if err := r.StartTime.binaryGet(serializedData[cursor : cursor+timestampLength]); err != nil {
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return err
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}
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cursor += timestampLength
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r.Frequency = binary.LittleEndian.Uint64(serializedData[cursor : cursor+frequencyLength])
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cursor += frequencyLength
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nameLength := int(serializedData[cursor])
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if nameLength+minimumMetadataLength > len(serializedData) {
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return NewErrorf(ErrInvalidValue, "Metadata chunk to deserialize is too short when decoding resource name. Expected at least %d. Got %d.", nameLength+minimumMetadataLength, len(serializedData))
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}
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cursor++
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r.Name = string(serializedData[cursor : cursor+nameLength])
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cursor += nameLength
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copy(r.Owner[:], serializedData[cursor:])
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cursor += common.AddressLength
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if cursor != len(serializedData) {
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return NewErrorf(ErrInvalidValue, "Metadata chunk has leftover data after deserialization. %d left to read", len(serializedData)-cursor)
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}
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return nil
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}
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// binaryPut encodes the metadata into a byte array
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func (r *ResourceMetadata) binaryPut(serializedData []byte) error {
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metadataChunkLength := r.binaryLength()
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if len(serializedData) != metadataChunkLength {
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return NewErrorf(ErrInvalidValue, "Need a slice of exactly %d bytes to serialize this metadata, but got a slice of size %d.", metadataChunkLength, len(serializedData))
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}
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// root chunk has first two bytes both set to 0, which distinguishes from update bytes
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// therefore, skip the first two bytes of a zero-initialized array.
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cursor := 2
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binary.LittleEndian.PutUint16(serializedData[cursor:cursor+2], uint16(metadataChunkLength-chunkPrefixLength)) // metadataLength does not include the 4 prefix bytes
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cursor += 2
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r.StartTime.binaryPut(serializedData[cursor : cursor+timestampLength])
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cursor += timestampLength
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binary.LittleEndian.PutUint64(serializedData[cursor:cursor+frequencyLength], r.Frequency)
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cursor += frequencyLength
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// Encode the name string as a 1 byte length followed by the encoded string.
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// Longer strings will be truncated.
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nameLength := len(r.Name)
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if nameLength > 255 {
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nameLength = 255
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}
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serializedData[cursor] = uint8(nameLength)
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cursor++
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copy(serializedData[cursor:cursor+nameLength], []byte(r.Name[:nameLength]))
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cursor += nameLength
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copy(serializedData[cursor:cursor+common.AddressLength], r.Owner[:])
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cursor += common.AddressLength
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return nil
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}
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func (r *ResourceMetadata) binaryLength() int {
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return minimumMetadataLength + len(r.Name)
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}
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// serializeAndHash returns the root chunk addr and metadata hash that help identify and ascertain ownership of this resource
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// returns the serialized metadata as a byproduct of having to hash it.
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func (r *ResourceMetadata) serializeAndHash() (rootAddr, metaHash []byte, chunkData []byte, err error) {
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chunkData = make([]byte, r.binaryLength())
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if err := r.binaryPut(chunkData); err != nil {
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return nil, nil, nil, err
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}
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rootAddr, metaHash = metadataHash(chunkData)
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return rootAddr, metaHash, chunkData, nil
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}
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// creates a metadata chunk out of a resourceMetadata structure
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func (metadata *ResourceMetadata) newChunk() (chunk storage.Chunk, metaHash []byte, err error) {
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// the metadata chunk contains a timestamp of when the resource starts to be valid
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// and also how frequently it is expected to be updated
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// from this we know at what time we should look for updates, and how often
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// it also contains the name of the resource, so we know what resource we are working with
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// the key (rootAddr) of the metadata chunk is content-addressed
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// if it wasn't we couldn't replace it later
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// resolving this relationship is left up to external agents (for example ENS)
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rootAddr, metaHash, chunkData, err := metadata.serializeAndHash()
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if err != nil {
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return nil, nil, err
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}
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// make the chunk and send it to swarm
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chunk = storage.NewChunk(rootAddr, chunkData)
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return chunk, metaHash, nil
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}
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// metadataHash returns the metadata chunk root address and metadata hash
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// that help identify and ascertain ownership of this resource
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// We compute it as rootAddr = H(ownerAddr, H(metadata))
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// Where H() is SHA3
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// metadata are all the metadata fields, except ownerAddr
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// ownerAddr is the public address of the resource owner
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// Update chunks must carry a rootAddr reference and metaHash in order to be verified
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// This way, a node that receives an update can check the signature, recover the public address
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// and check the ownership by computing H(ownerAddr, metaHash) and comparing it to the rootAddr
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// the resource is claiming to update without having to lookup the metadata chunk.
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// see verifyResourceOwnerhsip in signedupdate.go
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func metadataHash(chunkData []byte) (rootAddr, metaHash []byte) {
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hasher := hashPool.Get().(hash.Hash)
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defer hashPool.Put(hasher)
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hasher.Reset()
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hasher.Write(chunkData[:len(chunkData)-common.AddressLength])
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metaHash = hasher.Sum(nil)
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hasher.Reset()
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hasher.Write(metaHash)
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hasher.Write(chunkData[len(chunkData)-common.AddressLength:])
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rootAddr = hasher.Sum(nil)
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return
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}
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