2016-09-29 19:51:33 +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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package network
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import (
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"fmt"
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"net"
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"time"
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"github.com/ethereum/go-ethereum/contracts/chequebook"
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"github.com/ethereum/go-ethereum/p2p/discover"
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"github.com/ethereum/go-ethereum/swarm/network/kademlia"
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"github.com/ethereum/go-ethereum/swarm/services/swap"
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"github.com/ethereum/go-ethereum/swarm/storage"
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)
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/*
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BZZ protocol Message Types and Message Data Types
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*/
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// bzz protocol message codes
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const (
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statusMsg = iota // 0x01
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storeRequestMsg // 0x02
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retrieveRequestMsg // 0x03
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peersMsg // 0x04
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syncRequestMsg // 0x05
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deliveryRequestMsg // 0x06
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unsyncedKeysMsg // 0x07
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paymentMsg // 0x08
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)
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/*
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Handshake
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* Version: 8 byte integer version of the protocol
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* ID: arbitrary byte sequence client identifier human readable
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* Addr: the address advertised by the node, format similar to DEVp2p wire protocol
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* Swap: info for the swarm accounting protocol
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* NetworkID: 8 byte integer network identifier
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* Caps: swarm-specific capabilities, format identical to devp2p
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* SyncState: syncronisation state (db iterator key and address space etc) persisted about the peer
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*/
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type statusMsgData struct {
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Version uint64
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ID string
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Addr *peerAddr
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Swap *swap.SwapProfile
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NetworkId uint64
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}
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func (self *statusMsgData) String() string {
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return fmt.Sprintf("Status: Version: %v, ID: %v, Addr: %v, Swap: %v, NetworkId: %v", self.Version, self.ID, self.Addr, self.Swap, self.NetworkId)
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}
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/*
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store requests are forwarded to the peers in their kademlia proximity bin
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if they are distant
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if they are within our storage radius or have any incentive to store it
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then attach your nodeID to the metadata
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if the storage request is sufficiently close (within our proxLimit, i. e., the
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last row of the routing table)
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*/
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type storeRequestMsgData struct {
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Key storage.Key // hash of datasize | data
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SData []byte // the actual chunk Data
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// optional
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Id uint64 // request ID. if delivery, the ID is retrieve request ID
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requestTimeout *time.Time // expiry for forwarding - [not serialised][not currently used]
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storageTimeout *time.Time // expiry of content - [not serialised][not currently used]
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from *peer // [not serialised] protocol registers the requester
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}
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func (self storeRequestMsgData) String() string {
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var from string
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if self.from == nil {
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from = "self"
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} else {
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from = self.from.Addr().String()
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}
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end := len(self.SData)
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if len(self.SData) > 10 {
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end = 10
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}
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return fmt.Sprintf("from: %v, Key: %v; ID: %v, requestTimeout: %v, storageTimeout: %v, SData %x", from, self.Key, self.Id, self.requestTimeout, self.storageTimeout, self.SData[:end])
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}
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/*
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Retrieve request
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Timeout in milliseconds. Note that zero timeout retrieval requests do not request forwarding, but prompt for a peers message response. therefore they serve also
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as messages to retrieve peers.
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MaxSize specifies the maximum size that the peer will accept. This is useful in
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particular if we allow storage and delivery of multichunk payload representing
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the entire or partial subtree unfolding from the requested root key.
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So when only interested in limited part of a stream (infinite trees) or only
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testing chunk availability etc etc, we can indicate it by limiting the size here.
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Request ID can be newly generated or kept from the request originator.
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If request ID Is missing or zero, the request is handled as a lookup only
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prompting a peers response but not launching a search. Lookup requests are meant
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to be used to bootstrap kademlia tables.
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In the special case that the key is the zero value as well, the remote peer's
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address is assumed (the message is to be handled as a self lookup request).
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The response is a PeersMsg with the peers in the kademlia proximity bin
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corresponding to the address.
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*/
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type retrieveRequestMsgData struct {
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Key storage.Key // target Key address of chunk to be retrieved
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Id uint64 // request id, request is a lookup if missing or zero
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MaxSize uint64 // maximum size of delivery accepted
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MaxPeers uint64 // maximum number of peers returned
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Timeout uint64 // the longest time we are expecting a response
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timeout *time.Time // [not serialied]
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from *peer //
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}
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2017-10-10 09:38:49 +00:00
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func (self *retrieveRequestMsgData) String() string {
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var from string
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if self.from == nil {
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from = "ourselves"
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} else {
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from = self.from.Addr().String()
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}
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var target []byte
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if len(self.Key) > 3 {
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target = self.Key[:4]
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}
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return fmt.Sprintf("from: %v, Key: %x; ID: %v, MaxSize: %v, MaxPeers: %d", from, target, self.Id, self.MaxSize, self.MaxPeers)
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}
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// lookups are encoded by missing request ID
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func (self *retrieveRequestMsgData) isLookup() bool {
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return self.Id == 0
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}
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// sets timeout fields
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func (self *retrieveRequestMsgData) setTimeout(t *time.Time) {
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self.timeout = t
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if t != nil {
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self.Timeout = uint64(t.UnixNano())
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} else {
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self.Timeout = 0
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}
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}
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2017-10-10 09:38:49 +00:00
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func (self *retrieveRequestMsgData) getTimeout() (t *time.Time) {
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if self.Timeout > 0 && self.timeout == nil {
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timeout := time.Unix(int64(self.Timeout), 0)
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t = &timeout
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self.timeout = t
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}
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return
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}
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// peerAddr is sent in StatusMsg as part of the handshake
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type peerAddr struct {
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IP net.IP
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Port uint16
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ID []byte // the 64 byte NodeID (ECDSA Public Key)
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Addr kademlia.Address
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}
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// peerAddr pretty prints as enode
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func (self *peerAddr) String() string {
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var nodeid discover.NodeID
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copy(nodeid[:], self.ID)
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return discover.NewNode(nodeid, self.IP, 0, self.Port).String()
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}
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/*
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peers Msg is one response to retrieval; it is always encouraged after a retrieval
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request to respond with a list of peers in the same kademlia proximity bin.
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The encoding of a peer is identical to that in the devp2p base protocol peers
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messages: [IP, Port, NodeID]
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note that a node's DPA address is not the NodeID but the hash of the NodeID.
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Timeout serves to indicate whether the responder is forwarding the query within
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the timeout or not.
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NodeID serves as the owner of payment contracts and signer of proofs of transfer.
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The Key is the target (if response to a retrieval request) or missing (zero value)
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peers address (hash of NodeID) if retrieval request was a self lookup.
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Peers message is requested by retrieval requests with a missing or zero value request ID
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*/
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type peersMsgData struct {
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Peers []*peerAddr //
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Timeout uint64 //
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timeout *time.Time // indicate whether responder is expected to deliver content
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Key storage.Key // present if a response to a retrieval request
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Id uint64 // present if a response to a retrieval request
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from *peer
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}
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// peers msg pretty printer
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func (self *peersMsgData) String() string {
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var from string
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if self.from == nil {
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from = "ourselves"
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} else {
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from = self.from.Addr().String()
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}
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var target []byte
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if len(self.Key) > 3 {
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target = self.Key[:4]
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}
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return fmt.Sprintf("from: %v, Key: %x; ID: %v, Peers: %v", from, target, self.Id, self.Peers)
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}
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2017-10-10 09:38:49 +00:00
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func (self *peersMsgData) setTimeout(t *time.Time) {
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self.timeout = t
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if t != nil {
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self.Timeout = uint64(t.UnixNano())
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} else {
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self.Timeout = 0
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}
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}
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/*
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syncRequest
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is sent after the handshake to initiate syncing
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the syncState of the remote node is persisted in kaddb and set on the
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peer/protocol instance when the node is registered by hive as online{
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*/
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type syncRequestMsgData struct {
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SyncState *syncState `rlp:"nil"`
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}
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func (self *syncRequestMsgData) String() string {
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return fmt.Sprintf("%v", self.SyncState)
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}
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/*
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deliveryRequest
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is sent once a batch of sync keys is filtered. The ones not found are
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sent as a list of syncReuest (hash, priority) in the Deliver field.
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When the source receives the sync request it continues to iterate
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and fetch at most N items as yet unsynced.
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At the same time responds with deliveries of the items.
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*/
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type deliveryRequestMsgData struct {
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Deliver []*syncRequest
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}
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func (self *deliveryRequestMsgData) String() string {
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return fmt.Sprintf("sync request for new chunks\ndelivery request for %v chunks", len(self.Deliver))
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}
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/*
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unsyncedKeys
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is sent first after the handshake if SyncState iterator brings up hundreds, thousands?
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and subsequently sent as a response to deliveryRequestMsgData.
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Syncing is the iterative process of exchanging unsyncedKeys and deliveryRequestMsgs
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both ways.
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State contains the sync state sent by the source. When the source receives the
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sync state it continues to iterate and fetch at most N items as yet unsynced.
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At the same time responds with deliveries of the items.
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*/
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type unsyncedKeysMsgData struct {
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Unsynced []*syncRequest
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State *syncState
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}
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func (self *unsyncedKeysMsgData) String() string {
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return fmt.Sprintf("sync: keys of %d new chunks (state %v) => synced: %v", len(self.Unsynced), self.State, self.State.Synced)
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}
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/*
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payment
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is sent when the swap balance is tilted in favour of the remote peer
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and in absolute units exceeds the PayAt parameter in the remote peer's profile
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*/
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type paymentMsgData struct {
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Units uint // units actually paid for (checked against amount by swap)
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Promise *chequebook.Cheque // payment with cheque
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}
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func (self *paymentMsgData) String() string {
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return fmt.Sprintf("payment for %d units: %v", self.Units, self.Promise)
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}
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