391 lines
13 KiB
Nim
391 lines
13 KiB
Nim
# SPDX-FileCopyrightText: ☭ 2021 Emery Hemingway
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# SPDX-License-Identifier: Unlicense
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import std/[asyncdispatch, options, tables]
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import preserves, preserves/parse
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import ./actors, ./durings, ./membranes, ./protocols/[protocol, sturdy]
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from ./patterns import grab
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when defined(traceSyndicate):
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template trace(args: varargs[untyped]): untyped = stderr.writeLine(args)
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else:
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template trace(args: varargs[untyped]): untyped = discard
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type Oid = sturdy.Oid
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type
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Assertion = Preserve[Ref]
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WireRef = sturdy.WireRef[Ref]
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WireAssertion = Preserve[WireRef]
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Event = protocol.Event[WireRef]
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TurnEvent = protocol.TurnEvent[WireRef]
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Packet = protocol.Packet[WireRef]
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Turn = actors.Turn
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type
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PacketWriter = proc (pkt: sink Packet): Future[void] {.gcsafe.}
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RelaySetup = proc (turn: var Turn; relay: Relay) {.gcsafe.}
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Relay = ref object of RootObj
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facet: Facet
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inboundAssertions: Table[Handle,
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tuple[localHandle: Handle, imported: seq[WireSymbol]]]
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outboundAssertions: Table[Handle, seq[WireSymbol]]
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exported: Membrane
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imported: Membrane
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nextLocalOid: Oid
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pendingTurn: protocol.Turn[WireRef]
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packetWriter: PacketWriter
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untrusted: bool
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SyncPeerEntity = ref object of Entity
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relay: Relay
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peer: Ref
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handleMap: Table[Handle, Handle]
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e: WireSymbol
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RelayEntity = ref object of Entity
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label: string
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relay: Relay
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proc releaseRefOut(r: Relay; e: WireSymbol) =
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r.exported.drop e
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method publish(spe: SyncPeerEntity; t: var Turn; v: Assertion; h: Handle) =
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spe.handleMap[h] = publish(t, spe.peer, v)
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method retract(se: SyncPeerEntity; t: var Turn; h: Handle) =
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var other: Handle
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if se.handleMap.pop(h, other):
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retract(t, other)
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method message(se: SyncPeerEntity; t: var Turn; v: Assertion) =
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if not se.e.isNil:
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se.relay.releaseRefOut(se.e)
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message(t, se.peer, v)
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method sync(se: SyncPeerEntity; t: var Turn; peer: Ref) =
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sync(t, se.peer, peer)
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proc newSyncPeerEntity(r: Relay; p: Ref): SyncPeerEntity =
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SyncPeerEntity(relay: r, peer: p)
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proc rewriteRefOut(relay: Relay; `ref`: Ref; transient: bool; exported: var seq[WireSymbol]): WireRef =
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if `ref`.target of RelayEntity and `ref`.target.RelayEntity.relay == relay:
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trace "do the rewriteRefOut that wasn't being done before"
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result = WireRef(
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orKind: WirerefKind.yours,
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yours: WireRefYours[Ref](oid: `ref`.target.oid))
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else:
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var ws = grab(relay.exported, `ref`)
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if ws.isNil:
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assert(not transient, "Cannot send transient reference")
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inc relay.nextLocalOid
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ws = newWireSymbol(relay.exported, relay.nextLocalOid, `ref`)
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exported.add ws
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result = WireRef(
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orKind: WireRefKind.mine,
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mine: WireRefMine(oid: ws.oid))
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proc rewriteOut(relay: Relay; v: Assertion; transient: bool):
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tuple[rewritten: WireAssertion, exported: seq[WireSymbol]] =
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var exported: seq[WireSymbol]
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var rewritten = mapEmbeds[Ref, WireRef](v) do (r: Ref) -> WireRef:
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result = rewriteRefOut(relay, r, transient, exported)
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(rewritten, exported)
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proc register(relay: Relay; v: Assertion; h: Handle): WireAssertion =
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var (rewritten, exported) = rewriteOut(relay, v, false)
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relay.outboundAssertions[h] = exported
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rewritten
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proc deregister(relay: Relay; h: Handle) =
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var outbound: seq[WireSymbol]
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if relay.outboundAssertions.pop(h, outbound):
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for e in outbound: releaseRefOut(relay, e)
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proc send(r: Relay; pkt: sink Packet): Future[void] =
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assert(not r.packetWriter.isNil, "missing packetWriter proc")
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r.packetWriter(pkt)
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proc send(r: Relay; rOid: protocol.Oid; m: Event) =
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if r.pendingTurn.len == 0:
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callSoon:
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r.facet.run do (turn: var Turn):
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var pkt = Packet(
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orKind: PacketKind.Turn,
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turn: move r.pendingTurn)
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trace "C: ", pkt
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asyncCheck(turn, r.send(pkt))
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r.pendingTurn.add TurnEvent(oid: rOid, event: m)
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proc send(re: RelayEntity; ev: Event) =
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send(re.relay, protocol.Oid re.oid, ev)
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method publish(re: RelayEntity; t: var Turn; v: Assertion; h: Handle) =
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re.send Event(
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orKind: EventKind.Assert,
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`assert`: protocol.Assert[WireRef](
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assertion: re.relay.register(v, h),
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handle: h))
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method retract(re: RelayEntity; t: var Turn; h: Handle) =
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re.relay.deregister h
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re.send Event(
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orKind: EventKind.Retract,
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retract: Retract(handle: h))
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method message(re: RelayEntity; turn: var Turn; msg: Assertion) =
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var
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ev = Event(orKind: EventKind.Message)
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(body, _) = rewriteOut(re.relay, msg, true)
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ev.message = Message[WireRef](body: body)
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re.send ev
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method sync(re: RelayEntity; turn: var Turn; peer: Ref) =
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var
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peerEntity = newSyncPeerEntity(re.relay, peer)
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exported: seq[WireSymbol]
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discard rewriteRefOut(re.relay, turn.newRef(peerEntity), false, exported)
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# TODO: discard?
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peerEntity.e = exported[0]
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re.send Event(
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orKind: EventKind.Sync,
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sync: Sync[WireRef](peer: embed toPreserve(false, WireRef))) # TODO: send the WireRef?
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proc newRelayEntity(label: string; r: Relay; o: Oid): RelayEntity =
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RelayEntity(label: label, relay: r, oid: o)
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using
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relay: Relay
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facet: Facet
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proc lookupLocal(relay; oid: Oid): Ref =
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let sym = relay.exported.grab oid
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if sym.isNil: newInertRef()
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else: sym.`ref`
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proc isInert(r: Ref): bool =
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r.target.isNil
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proc rewriteRefIn(relay; facet; n: WireRef, imported: var seq[WireSymbol]): Ref =
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case n.orKind
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of WireRefKind.mine:
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var e = relay.imported.grab(n.mine.oid)
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if e.isNil: e = newWireSymbol(
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relay.imported,
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n.mine.oid,
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newRef(facet, newRelayEntity("rewriteRefIn", relay, n.mine.oid)))
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imported.add e
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result = e.`ref`
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of WireRefKind.yours:
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let r = relay.lookupLocal(n.yours.oid)
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if n.yours.attenuation.len == 0 or r.isInert:
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result = r
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else:
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raiseAssert "attenuation not implemented"
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proc rewriteIn(relay; facet; a: Preserve[WireRef]):
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tuple[rewritten: Assertion; imported: seq[WireSymbol]] =
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var
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imported: seq[WireSymbol]
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rewritten = mapEmbeds(a) do (wr: WireRef) -> Ref:
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rewriteRefIn(relay, facet, wr, imported)
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(rewritten, imported)
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proc close(r: Relay) = discard
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proc dispatch(relay: Relay; turn: var Turn; `ref`: Ref; event: Event) =
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case event.orKind
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of EventKind.Assert:
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let (a, imported) = rewriteIn(relay, turn.facet, event.assert.assertion)
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relay.inboundAssertions[event.assert.handle] = (publish(turn, `ref`, a), imported,)
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of EventKind.Retract:
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let remoteHandle = event.retract.handle
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var outbound: tuple[localHandle: Handle, imported: seq[WireSymbol]]
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if relay.inboundAssertions.pop(remoteHandle, outbound):
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for e in outbound.imported: relay.imported.drop e
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turn.retract(outbound.localHandle)
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of EventKind.Message:
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let (a, imported) = rewriteIn(relay, turn.facet, event.message.body)
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assert imported.len == 0, "Cannot receive transient reference"
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turn.message(`ref`, a)
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of EventKind.Sync:
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discard # TODO
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#[
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var imported: seq[WireSymbol]
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let k = relay.rewriteRefIn(turn, evenr.sync.peer, imported)
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turn.sync(`ref`) do (turn: var Turn):
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turn.message(k, true)
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for e in imported: relay.imported.del e
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]#
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proc dispatch(relay: Relay; v: Preserve[WireRef]) =
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trace "S: ", v
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run(relay.facet) do (t: var Turn):
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var pkt: Packet
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if fromPreserve(pkt, v):
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case pkt.orKind
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of PacketKind.Turn:
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for te in pkt.turn:
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dispatch(relay, t, lookupLocal(relay, te.oid.Oid), te.event)
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of PacketKind.Error:
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stderr.writeLine ("Error from server: ", pkt.error.message, " (detail: ", pkt.error.detail, ")")
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close relay
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of PacketKind.Extension:
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discard
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else:
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stderr.writeLine "discarding unparsed packet ", v
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type
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RelayOptions = object of RootObj
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packetWriter: PacketWriter
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untrusted: bool
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RelayActorOptions = object of RelayOptions
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initialOid: Option[Oid]
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initialRef: Ref
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nextLocalOid: Option[Oid]
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proc newRelay(turn: var Turn; opts: RelayOptions; setup: RelaySetup): Relay =
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result = Relay(
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facet: turn.facet,
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packetWriter: opts.packetWriter,
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untrusted: opts.untrusted)
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discard result.facet.preventInertCheck()
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setup(turn, result)
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proc spawnRelay(name: string; turn: var Turn; opts: RelayActorOptions; setup: RelaySetup): Future[Ref] =
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var fut = newFuture[Ref]"spawnRelay"
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spawn(name, turn) do (turn: var Turn):
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let relay = newRelay(turn, opts, setup)
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if not opts.initialRef.isNil:
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var exported: seq[WireSymbol]
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discard rewriteRefOut(relay, opts.initialRef, false, exported)
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if opts.initialOid.isSome:
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var imported: seq[WireSymbol]
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var wr = WireRef(
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orKind: WireRefKind.mine,
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mine: WireRefMine(oid: opts.initialOid.get))
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fut.complete rewriteRefIn(relay, turn.facet, wr, imported)
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else:
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fut.complete(nil)
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opts.nextLocalOid.map do (oid: Oid):
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relay.nextLocalOid =
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if oid == 0.Oid: 1.Oid
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else: oid
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fut
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import std/asyncnet
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from std/nativesockets import AF_UNIX, SOCK_STREAM, Protocol
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import protocols/gatekeeper
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type ShutdownEntity = ref object of Entity
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method retract(e: ShutdownEntity; turn: var Turn; h: Handle) =
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stopActor(turn)
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type
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SturdyRef = sturdy.SturdyRef[Ref]
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Resolve = gatekeeper.Resolve[Ref]
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proc connectUnix*(turn: var Turn; path: string; cap: SturdyRef; bootProc: DuringProc) =
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var socket = newAsyncSocket(
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domain = AF_UNIX,
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sockType = SOCK_STREAM,
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protocol = cast[Protocol](0),
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buffered = false)
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proc socketWriter(packet: sink Packet): Future[void] =
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socket.send($packet)
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const recvSize = 1 shl 18
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# this is an excessive buffer size but the PEG parser
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# can only read complete documents
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# TODO: use a binary protocol and improve that
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# parser to stream data in chunks
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var shutdownRef: Ref
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let reenable = turn.facet.preventInertCheck()
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let connectionClosedRef = newRef(turn, ShutdownEntity())
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var fut = newFuture[void]"connectUnix"
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connectUnix(socket, path).addCallback do (f: Future[void]):
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read f
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discard bootActor("unix") do (turn: var Turn):
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var ops = RelayActorOptions(
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packetWriter: socketWriter,
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initialOid: 0.Oid.some)
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let relayFut = spawnRelay("unix", turn, ops) do (turn: var Turn; relay: Relay):
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let facet = turn.facet
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proc recvCb(pktFut: Future[string]) {.gcsafe.} =
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if pktFut.failed:
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run(facet) do (turn: var Turn): stopActor(turn)
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else:
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let buf = pktFut.read
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if buf.len == 0:
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run(facet) do (turn: var Turn): stopActor(turn)
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else:
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var pr = parsePreserves(buf, sturdy.WireRef[void])
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dispatch(relay, cast[Preserve[WireRef]](pr))
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socket.recv(recvSize).addCallback(recvCb)
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# TODO: should this need be callSoon?
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socket.recv(recvSize).addCallback(recvCb)
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turn.facet.actor.atExit do (turn: var Turn): close(socket)
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discard publish(turn, connectionClosedRef, true)
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shutdownRef = newRef(turn, ShutdownEntity())
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relayFut.addCallback do (refFut: Future[Ref]):
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let gatekeeper = read refFut
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run(gatekeeper.relay) do (turn: var Turn):
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reenable()
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discard publish(turn, shutdownRef, true)
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proc duringCallback(turn: var Turn; ds: Preserve[Ref]): TurnAction =
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let facet = facet(turn) do (turn: var Turn):
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discard bootProc(turn, ds) # TODO: what to do with this?
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proc action(turn: var Turn) =
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stop(turn, facet)
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result = action
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var res = Resolve(
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sturdyref: cap,
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observer: embed newRef(turn, during(duringCallback)))
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discard publish(turn, gatekeeper, res)
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fut.complete()
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asyncCheck(turn, fut)
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import std/asyncfile
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proc connectStdio*(ds: Ref; turn: var Turn) =
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## Connect to an external dataspace over stdin and stdout.
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proc stdoutWriter(packet: sink Packet): Future[void] {.async.} =
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# var buf = encode(packet)
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# doAssert writeBytes(stdout, buf, 0, buf.len) == buf.len
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write(stdout, packet)
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flushFile(stdout)
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var opts = RelayActorOptions(
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packetWriter: stdoutWriter,
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initialRef: ds,
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initialOid: 0.Oid.some)
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asyncCheck spawnRelay("stdio", turn, opts) do (turn: var Turn; relay: Relay):
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let
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facet = turn.facet
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asyncStdin = openAsync("/dev/stdin")
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observer = observe(turn, ds, grab(), newRelayEntity("stdio", relay, Oid 1))
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# publish an observe in the local dataspace
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# so that everything is relayed to stdout
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facet.actor.atExit do (turn: var Turn):
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retract(turn, observer)
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close(asyncStdin)
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proc recvCb(pktFut: Future[string]) {.gcsafe.} =
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if pktFut.failed: quit()
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else:
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let buf = pktFut.read
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if buf.len == 0:
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run(facet) do (turn: var Turn): stopActor(turn)
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else:
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var v = parsePreserves(buf)
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dispatch(relay, cast[Preserve[WireRef]](v))
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callSoon: asyncStdin.readLine().addCallback(recvCb)
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# do not process the next line immediately
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asyncStdin.readLine().addCallback(recvCb)
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