nwaku/waku/v2/protocol/waku_swap.nim

109 lines
2.9 KiB
Nim

## SWAP implements Accounting for Waku. See
## https://github.com/vacp2p/specs/issues/24 for more.
##
## This is based on the SWAP based approach researched by the Swarm team, and
## can be thought of as an economic extension to Bittorrent's tit-for-tat
## economics.
##
## It is quite suitable for accounting for imbalances between peers, and
## specifically for something like the Store protocol.
##
## It is structured as follows:
##
## 1) First a handshake is made, where terms are agreed upon
##
## 2) Then operation occurs as normal with HistoryRequest, HistoryResponse etc
## through store protocol (or otherwise)
##
## 3) When payment threshhold is met, a cheque is sent. This acts as promise to
## pay. Right now it is best thought of as karma points.
##
## Things like settlement is for future work.
##
import
std/[tables, options],
bearssl,
chronos, chronicles, metrics, stew/results,
libp2p/switch,
libp2p/crypto/crypto,
libp2p/protocols/protocol,
libp2p/protobuf/minprotobuf,
libp2p/stream/connection,
./message_notifier,
../waku_types
export waku_types
logScope:
topics = "wakuswap"
const WakuSwapCodec* = "/vac/waku/swap/2.0.0-alpha1"
proc encode*(handshake: Handshake): ProtoBuffer =
result = initProtoBuffer()
result.write(1, handshake.beneficiary)
proc encode*(cheque: Cheque): ProtoBuffer =
result = initProtoBuffer()
result.write(1, cheque.beneficiary)
result.write(2, cheque.date)
result.write(3, cheque.amount)
proc init*(T: type Handshake, buffer: seq[byte]): ProtoResult[T] =
var beneficiary: seq[byte]
var handshake = Handshake()
let pb = initProtoBuffer(buffer)
discard ? pb.getField(1, handshake.beneficiary)
ok(handshake)
proc init*(T: type Cheque, buffer: seq[byte]): ProtoResult[T] =
var beneficiary: seq[byte]
var date: uint32
var amount: uint32
var cheque = Cheque()
let pb = initProtoBuffer(buffer)
discard ? pb.getField(1, cheque.beneficiary)
discard ? pb.getField(2, cheque.date)
discard ? pb.getField(3, cheque.amount)
ok(cheque)
# Accounting
#
proc init*(wakuSwap: WakuSwap) =
info "wakuSwap init 1"
proc handle(conn: Connection, proto: string) {.async, gcsafe, closure.} =
info "NYI swap handle incoming connection"
proc accountFor(peerId: PeerId, n: int) {.gcsafe, closure.} =
info "Accounting for", peerId, n
info "Accounting test", text = wakuSwap.text
# Nicer way to write this?
if wakuSwap.accounting.hasKey(peerId):
wakuSwap.accounting[peerId] += n
else:
wakuSwap.accounting[peerId] = n
info "Accounting state", accounting = wakuSwap.accounting[peerId]
wakuSwap.handler = handle
wakuSwap.codec = WakuSwapCodec
wakuSwap.accountFor = accountFor
proc init*(T: type WakuSwap, switch: Switch, rng: ref BrHmacDrbgContext): T =
info "wakuSwap init 2"
new result
result.rng = rng
result.switch = switch
result.accounting = initTable[PeerId, int]()
result.text = "test"
result.init()
# TODO End to end communication