2017-11-03 20:29:49 +00:00
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// Copyright 2016 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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// Contains the Whisper protocol Envelope element.
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package whisperv6
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import (
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"crypto/ecdsa"
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"encoding/binary"
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"fmt"
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gmath "math"
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"math/big"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/math"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/crypto/ecies"
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"github.com/ethereum/go-ethereum/rlp"
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)
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// Envelope represents a clear-text data packet to transmit through the Whisper
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// network. Its contents may or may not be encrypted and signed.
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type Envelope struct {
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Expiry uint32
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TTL uint32
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Topic TopicType
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Data []byte
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Nonce uint64
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2018-01-12 11:11:22 +00:00
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pow float64 // Message-specific PoW as described in the Whisper specification.
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// the following variables should not be accessed directly, use the corresponding function instead: Hash(), Bloom()
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hash common.Hash // Cached hash of the envelope to avoid rehashing every time.
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bloom []byte
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}
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// size returns the size of envelope as it is sent (i.e. public fields only)
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func (e *Envelope) size() int {
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return EnvelopeHeaderLength + len(e.Data)
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}
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// rlpWithoutNonce returns the RLP encoded envelope contents, except the nonce.
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func (e *Envelope) rlpWithoutNonce() []byte {
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res, _ := rlp.EncodeToBytes([]interface{}{e.Expiry, e.TTL, e.Topic, e.Data})
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return res
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}
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// NewEnvelope wraps a Whisper message with expiration and destination data
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// included into an envelope for network forwarding.
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func NewEnvelope(ttl uint32, topic TopicType, msg *sentMessage) *Envelope {
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env := Envelope{
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Expiry: uint32(time.Now().Add(time.Second * time.Duration(ttl)).Unix()),
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TTL: ttl,
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Topic: topic,
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Data: msg.Raw,
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Nonce: 0,
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}
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return &env
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}
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// Seal closes the envelope by spending the requested amount of time as a proof
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// of work on hashing the data.
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func (e *Envelope) Seal(options *MessageParams) error {
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if options.PoW == 0 {
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// PoW is not required
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return nil
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}
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var target, bestBit int
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if options.PoW < 0 {
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// target is not set - the function should run for a period
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// of time specified in WorkTime param. Since we can predict
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// the execution time, we can also adjust Expiry.
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e.Expiry += options.WorkTime
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} else {
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target = e.powToFirstBit(options.PoW)
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}
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buf := make([]byte, 64)
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h := crypto.Keccak256(e.rlpWithoutNonce())
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copy(buf[:32], h)
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finish := time.Now().Add(time.Duration(options.WorkTime) * time.Second).UnixNano()
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for nonce := uint64(0); time.Now().UnixNano() < finish; {
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for i := 0; i < 1024; i++ {
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binary.BigEndian.PutUint64(buf[56:], nonce)
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d := new(big.Int).SetBytes(crypto.Keccak256(buf))
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firstBit := math.FirstBitSet(d)
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if firstBit > bestBit {
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e.Nonce, bestBit = nonce, firstBit
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if target > 0 && bestBit >= target {
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return nil
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}
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}
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nonce++
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}
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}
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if target > 0 && bestBit < target {
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return fmt.Errorf("failed to reach the PoW target, specified pow time (%d seconds) was insufficient", options.WorkTime)
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}
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return nil
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}
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2018-01-26 11:45:10 +00:00
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// PoW computes (if necessary) and returns the proof of work target
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// of the envelope.
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func (e *Envelope) PoW() float64 {
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if e.pow == 0 {
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e.calculatePoW(0)
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}
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return e.pow
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}
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func (e *Envelope) calculatePoW(diff uint32) {
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buf := make([]byte, 64)
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h := crypto.Keccak256(e.rlpWithoutNonce())
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copy(buf[:32], h)
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binary.BigEndian.PutUint64(buf[56:], e.Nonce)
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d := new(big.Int).SetBytes(crypto.Keccak256(buf))
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firstBit := math.FirstBitSet(d)
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x := gmath.Pow(2, float64(firstBit))
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x /= float64(e.size())
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x /= float64(e.TTL + diff)
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e.pow = x
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}
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func (e *Envelope) powToFirstBit(pow float64) int {
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x := pow
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x *= float64(e.size())
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x *= float64(e.TTL)
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bits := gmath.Log2(x)
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bits = gmath.Ceil(bits)
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res := int(bits)
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if res < 1 {
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res = 1
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}
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return res
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}
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// Hash returns the SHA3 hash of the envelope, calculating it if not yet done.
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func (e *Envelope) Hash() common.Hash {
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if (e.hash == common.Hash{}) {
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encoded, _ := rlp.EncodeToBytes(e)
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e.hash = crypto.Keccak256Hash(encoded)
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}
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return e.hash
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}
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// DecodeRLP decodes an Envelope from an RLP data stream.
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func (e *Envelope) DecodeRLP(s *rlp.Stream) error {
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raw, err := s.Raw()
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if err != nil {
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return err
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}
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// The decoding of Envelope uses the struct fields but also needs
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// to compute the hash of the whole RLP-encoded envelope. This
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// type has the same structure as Envelope but is not an
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// rlp.Decoder (does not implement DecodeRLP function).
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// Only public members will be encoded.
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type rlpenv Envelope
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if err := rlp.DecodeBytes(raw, (*rlpenv)(e)); err != nil {
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return err
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}
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e.hash = crypto.Keccak256Hash(raw)
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return nil
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}
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// OpenAsymmetric tries to decrypt an envelope, potentially encrypted with a particular key.
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func (e *Envelope) OpenAsymmetric(key *ecdsa.PrivateKey) (*ReceivedMessage, error) {
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message := &ReceivedMessage{Raw: e.Data}
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err := message.decryptAsymmetric(key)
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switch err {
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case nil:
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return message, nil
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case ecies.ErrInvalidPublicKey: // addressed to somebody else
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return nil, err
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default:
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return nil, fmt.Errorf("unable to open envelope, decrypt failed: %v", err)
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}
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}
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// OpenSymmetric tries to decrypt an envelope, potentially encrypted with a particular key.
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func (e *Envelope) OpenSymmetric(key []byte) (msg *ReceivedMessage, err error) {
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msg = &ReceivedMessage{Raw: e.Data}
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err = msg.decryptSymmetric(key)
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if err != nil {
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msg = nil
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}
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return msg, err
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}
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// Open tries to decrypt an envelope, and populates the message fields in case of success.
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func (e *Envelope) Open(watcher *Filter) (msg *ReceivedMessage) {
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if watcher == nil {
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return nil
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}
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2018-01-30 08:55:08 +00:00
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// The API interface forbids filters doing both symmetric and asymmetric encryption.
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if watcher.expectsAsymmetricEncryption() && watcher.expectsSymmetricEncryption() {
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return nil
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}
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if watcher.expectsAsymmetricEncryption() {
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msg, _ = e.OpenAsymmetric(watcher.KeyAsym)
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if msg != nil {
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msg.Dst = &watcher.KeyAsym.PublicKey
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}
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} else if watcher.expectsSymmetricEncryption() {
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msg, _ = e.OpenSymmetric(watcher.KeySym)
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if msg != nil {
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msg.SymKeyHash = crypto.Keccak256Hash(watcher.KeySym)
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}
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}
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if msg != nil {
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ok := msg.ValidateAndParse()
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if !ok {
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return nil
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}
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msg.Topic = e.Topic
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msg.PoW = e.PoW()
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msg.TTL = e.TTL
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msg.Sent = e.Expiry - e.TTL
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msg.EnvelopeHash = e.Hash()
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}
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return msg
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}
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2018-01-12 11:11:22 +00:00
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// Bloom maps 4-bytes Topic into 64-byte bloom filter with 3 bits set (at most).
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func (e *Envelope) Bloom() []byte {
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if e.bloom == nil {
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e.bloom = TopicToBloom(e.Topic)
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}
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return e.bloom
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}
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// TopicToBloom converts the topic (4 bytes) to the bloom filter (64 bytes)
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func TopicToBloom(topic TopicType) []byte {
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b := make([]byte, BloomFilterSize)
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var index [3]int
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for j := 0; j < 3; j++ {
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index[j] = int(topic[j])
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if (topic[3] & (1 << uint(j))) != 0 {
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index[j] += 256
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}
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}
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for j := 0; j < 3; j++ {
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byteIndex := index[j] / 8
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bitIndex := index[j] % 8
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b[byteIndex] = (1 << uint(bitIndex))
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}
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return b
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}
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2018-03-06 22:37:43 +00:00
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// GetEnvelope retrieves an envelope from the message queue by its hash.
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// It returns nil if the envelope can not be found.
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func (w *Whisper) GetEnvelope(hash common.Hash) *Envelope {
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w.poolMu.RLock()
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defer w.poolMu.RUnlock()
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return w.envelopes[hash]
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}
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