!: :: :: %gall, agent execution !? 163 :: :::: |= our=ship =, gall => |% +| %main :: :: $move: Arvo-level move :: +$ move [=duct move=(wind note-arvo gift-arvo)] :: $state-7: overall gall state, versioned :: +$ state-7 [%7 state] :: $state: overall gall state :: :: system-duct: TODO document :: outstanding: outstanding request queue :: contacts: other ships we're in communication with :: yokes: running agents :: blocked: moves to agents that haven't been started yet :: +$ state $: system-duct=duct outstanding=(map [wire duct] (qeu remote-request)) contacts=(set ship) yokes=(map term yoke) blocked=(map term (qeu blocked-move)) == :: $watches: subscribers and publications :: :: TODO: rename this, to $ties? :: TODO: rename $boat and $bitt and document :: +$ watches [inbound=bitt outbound=boat] :: $routes: new cuff; TODO: document :: +$ routes $: disclosing=(unit (set ship)) attributing=ship == :: $yoke: agent runner state :: :: control-duct: TODO document :: live: is this agent running? TODO document better :: stats: TODO document :: watches: incoming and outgoing subscription state :: agent: agent core :: beak: compilation source :: marks: mark conversion requests :: +$ yoke $: control-duct=duct nonce=@t live=? =stats =watches agent=(each agent vase) =beak marks=(map duct mark) == :: $blocked-move: enqueued move to an agent :: +$ blocked-move [=duct =routes move=(each deal sign:agent)] :: $stats: statistics :: :: change: how many moves this agent has processed :: eny: entropy :: time: date of current event processing :: +$ stats [change=@ud eny=@uvJ time=@da] :: $ames-response: network response message (%boon) :: :: %d: fact :: %x: quit :: +$ ames-response $% [%d =mark noun=*] [%x ~] == :: $ames-request: network request (%plea) :: :: %m: poke :: %l: watch-as :: %s: watch :: %u: leave :: +$ ames-request-all $% [%0 ames-request] == +$ ames-request $% [%m =mark noun=*] [%l =mark =path] [%s =path] [%u ~] == :: $remote-request: kinds of agent actions that can cross the network :: :: Used in wires to identify the kind of remote request we made. :: Bijective with the tags of $ames-request. :: +$ remote-request $? %watch %watch-as %poke %leave %missing == :: |migrate: data structures for upgrades :: +| %migrate :: :: $spore: structures for update, produced by +stay :: +$ spore $: %7 wipe-eyre-subs=_| ::NOTE band-aid for #3196, remove on next upgrade system-duct=duct outstanding=(map [wire duct] (qeu remote-request)) contacts=(set ship) eggs=(map term egg) blocked=(map term (qeu blocked-move)) == :: $egg: migratory agent state; $yoke with .old-state instead of .agent :: +$ egg $: control-duct=duct nonce=@t live=? =stats =watches old-state=(each vase vase) =beak marks=(map duct mark) == -- :: pupal gall core, on upgrade :: =< =* adult-gate . =| =spore |= [now=@da eny=@uvJ rof=roof] =* pupal-gate . =* adult-core (adult-gate +<) =< |% ++ call ^call ++ load ^load ++ scry ^scry ++ stay ^stay ++ take ^take -- |% ++ molt |= [=duct fec=(unit move)] ^- [(list move) _adult-gate] ~> %slog.[0 leaf+"gall: molting"] ~< %slog.[0 leaf+"gall: molted"] :: +molt should never notify its client about agent changes :: =- [(skip -< |=(move ?=([* %give %onto *] +<))) ->] =/ adult adult-core =. state.adult [%7 system-duct outstanding contacts yokes=~ blocked]:spore =/ mo-core (mo-abed:mo:adult duct) =. mo-core =/ apps=(list [dap=term =egg]) ~(tap by eggs.spore) ~? wipe-eyre-subs.spore [%g %wiping-eyre-subs] |- ^+ mo-core ?~ apps mo-core ~> %slog.[0 leaf+"gall: upgrading {}"] =/ ap-core (ap-abut:ap:mo-core i.apps) =? ap-core ?=(%& -.old-state.egg.i.apps) =^ tan ap-core (ap-install:ap-core `p.old-state.egg.i.apps) ?^ tan (mean u.tan) ap-core =? ap-core wipe-eyre-subs.spore =/ ducts=(list ^duct) %+ skim ~(tap in ~(key by inbound.watches.egg.i.apps)) |= =^duct %+ lien duct |= =path ?=(^ (find /e/channel/subscription path)) |- ?~ ducts ap-core =. ap-core ap-load-delete:ap-core(agent-duct i.ducts) $(ducts t.ducts) $(apps t.apps, mo-core ap-abet:ap-core) =. mo-core (mo-subscribe-to-agent-builds:mo-core now) =^ moves adult-gate mo-abet:mo-core =? moves ?=(^ fec) (weld moves [u.fec]~) [moves adult-gate] :: ++ call |= [=duct dud=(unit goof) wrapped-task=(hobo task)] =* call-args +< ?: =(~ eggs.spore) ~> %slog.[0 leaf+"gall: direct morphogenesis"] =. state.adult-gate [- +>]:spore(eggs *(map term yoke)) (call:adult-core call-args) ?^ dud ~> %slog.[0 leaf+"gall: pupa call dud"] (mean >mote.u.dud< tang.u.dud) =/ task ((harden task:gall) wrapped-task) ?: ?=(%vega -.task) [~ pupal-gate] (molt duct `[duct %slip %g task]) :: ++ scry scry:adult-core ++ stay ~|(%gall-subinvolution !!) ++ take |= [=wire =duct dud=(unit goof) sign=sign-arvo] =* take-args +< ?: =(~ eggs.spore) ~> %slog.[0 leaf+"gall: direct morphogenesis"] =. state.adult-gate [- +>]:spore(eggs *(map term yoke)) (take:adult-core take-args) ?^ dud ~> %slog.[0 leaf+"gall: pupa take dud"] (mean >mote.u.dud< tang.u.dud) ?: =(/sys/lyv wire) (molt duct ~) (molt duct `[duct %pass wire %b %huck sign]) :: ++ load |= old=^spore =. spore old ?. =(~ eggs.spore) pupal-gate ~> %slog.[0 leaf+"gall: direct morphogenesis"] %_ adult-gate state [- +>]:spore(eggs *(map term yoke)) == -- :: adult gall vane interface, for type compatibility with pupa :: =| state=state-7 |= [now=@da eny=@uvJ rof=roof] =* gall-payload . =< ~% %gall-wrap ..mo ~ |% ++ call ^call ++ load ^load ++ scry ^scry ++ stay ^stay ++ take ^take -- ~% %gall-top ..part ~ |% :: +mo: Arvo-level move handling :: :: An outer core responsible for routing moves to and from Arvo; it calls :: an inner core, +ap, to route internal moves to and from agents. :: ++ mo ~% %gall-mo +> ~ |_ [hen=duct moves=(list move)] :: +mo-abed: initialise state with the provided duct :: +mo-abet: finalize, reversing moves :: +mo-pass: prepend a standard %pass to the current list of moves :: +mo-give: prepend a standard %give to the current list of moves :: ++ mo-core . ++ mo-abed |=(hun=duct mo-core(hen hun)) ++ mo-abet [(flop moves) gall-payload] ++ mo-pass |=(p=[wire note-arvo] mo-core(moves [[hen pass+p] moves])) ++ mo-give |=(g=gift mo-core(moves [[hen give+g] moves])) :: +mo-boot: ask %ford to build us a core for the specified agent. :: ++ mo-boot |= [dap=term =ship =desk] ^+ mo-core =/ =case [%da now] =/ =wire /sys/cor/[dap]/(scot %p ship)/[desk]/(scot case) (mo-pass wire %c %warp ship desk ~ %sing %a case /app/[dap]/hoon) :: +mo-reboot: ask %ford to rebuild the specified agent :: ++ mo-reboot |= [dap=term =ship] ^+ mo-core =/ gent (~(got by yokes.state) dap) =* desk q.beak.gent (mo-boot:(mo-abed control-duct.gent) dap ship desk) :: +mo-goad: rebuild agent(s) :: ++ mo-goad |= agent=(unit dude) ^+ mo-core ?^ agent ~| goad-gone+u.agent (mo-reboot u.agent our) =/ agents=(list term) ~(tap in ~(key by yokes.state)) |- ^+ mo-core ?~ agents mo-core $(agents t.agents, mo-core (mo-reboot i.agents our)) :: +mo-receive-core: receives an app core built by %ford. :: :: Presuming we receive a good core, we first check to see if the agent :: is already running. If so, we update its beak in %gall's state, :: initialise an +ap core for the agent, install the core we got from :: %ford, and then resolve any moves associated with it. :: :: If we're dealing with a new agent, we create one using the result we :: got from %ford, add it to the collection of agents %gall is keeping :: track of, and then do more or less the same procedure as we did for the :: running agent case. :: ++ mo-receive-core ~/ %mo-receive-core |= [dap=term bek=beak =agent] ^+ mo-core :: =/ existing (~(get by yokes.state) dap) =/ re ?~(existing "" "re") ~> %slog.[0 leaf+"gall: {re}loading {}"] :: ?^ existing =. yokes.state (~(put by yokes.state) dap u.existing(beak bek)) =/ =routes [disclosing=~ attributing=our] =/ ap-core (ap-abed:ap dap routes) =. ap-core (ap-reinstall:ap-core agent) =. mo-core ap-abet:ap-core (mo-clear-queue dap) :: =. yokes.state %+ ~(put by yokes.state) dap %* . *yoke control-duct hen beak bek agent &+agent nonce (scot %uw (end 5 (shas %yoke-nonce eny))) == :: =/ old mo-core =/ wag =/ =routes [disclosing=~ attributing=our] =/ ap-core (ap-abed:ap dap routes) (ap-upgrade-state:ap-core ~) :: =/ maybe-tang -.wag =/ ap-core +.wag ?^ maybe-tang =. mo-core old (mo-give %onto %.n u.maybe-tang) :: =. mo-core ap-abet:ap-core =. mo-core (mo-clear-queue dap) =/ =suss [dap %boot now] (mo-give %onto [%.y suss]) :: +mo-subscribe-to-agent-builds: request agent update notices :: :: Also subscribe to our own source path, in case we get reloaded :: but none of the agents do. This way, Clay will still notify us, :: and we'll be able to exit the chrysalis. :: ++ mo-subscribe-to-agent-builds |= date=@da ^+ mo-core =. mo-core (mo-abed system-duct.state) =/ =wire /sys/lyv =. mo-core (mo-pass /sys/lyv %c %warp our %home ~) =/ =mool:clay :- da+date %- ~(gas in *(set [care:clay path])) :* [%z /sys/hoon/hoon] [%z /sys/arvo/hoon] [%z /sys/lull/hoon] [%z /sys/zuse/hoon] [%z /sys/vane/gall/hoon] %+ murn ~(tap by yokes.state) |= [dap=term =yoke] ^- (unit [care:clay path]) ?: ?=(%| -.agent.yoke) ~ `[%a /app/[dap]/hoon] == (mo-pass wire %c %warp our %home ~ %mult mool) :: +mo-scry-agent-cage: read $agent core from clay :: ++ mo-scry-agent-cage |= [dap=term =case:clay] ^- (each agent tang) =/ bek=beak [our %home case] =/ sky (rof ~ %ca bek /app/[dap]/hoon) ?~ sky |+[leaf+"gall: {} scry blocked"]~ ?~ u.sky |+[leaf+"gall: {} scry failed"]~ =/ =cage u.u.sky ?. =(%vase p.cage) |+[leaf+"gall: bad mark {} for agent {}"]~ =/ res (mule |.(!<(agent !<(vase q.cage)))) ?: ?=(%& -.res) &+p.res |+[[leaf+"gall: {} not valid agent"] p.res] :: +mo-send-foreign-request: handle local request to .ship :: ++ mo-send-foreign-request ~/ %mo-send-foreign-request |= [=ship foreign-agent=term =deal] ^+ mo-core :: =. mo-core (mo-track-ship ship) ?< ?=(?(%raw-poke %poke-as) -.deal) =/ =ames-request-all :- %0 ?- -.deal %poke [%m p.cage.deal q.q.cage.deal] %leave [%u ~] %watch-as [%l [mark path]:deal] %watch [%s path.deal] == :: =/ wire /sys/way/(scot %p ship)/[foreign-agent] :: =/ =note-arvo =/ =path /ge/[foreign-agent] [%a %plea ship %g path ames-request-all] :: =. outstanding.state =/ stand (~(gut by outstanding.state) [wire hen] *(qeu remote-request)) (~(put by outstanding.state) [wire hen] (~(put to stand) -.deal)) (mo-pass wire note-arvo) :: +mo-track-ship: subscribe to ames and jael for notices about .ship :: ++ mo-track-ship |= =ship ^+ mo-core :: if already contacted, no-op :: ?: (~(has in contacts.state) ship) mo-core :: first contact; update state and subscribe to notifications :: =. contacts.state (~(put in contacts.state) ship) :: ask ames to track .ship's connectivity :: =. moves [[system-duct.state %pass /sys/lag %a %heed ship] moves] :: ask jael to track .ship's breaches :: =/ =note-arvo [%j %public-keys (silt ship ~)] =. moves [[system-duct.state %pass /sys/era note-arvo] moves] mo-core :: +mo-untrack-ship: cancel subscriptions to ames and jael for .ship :: ++ mo-untrack-ship |= =ship ^+ mo-core :: if already canceled, no-op :: ?. (~(has in contacts.state) ship) mo-core :: delete .ship from state and kill subscriptions :: =. contacts.state (~(del in contacts.state) ship) :: =. moves [[system-duct.state %pass /sys/lag %a %jilt ship] moves] :: =/ =note-arvo [%j %nuke (silt ship ~)] =. moves [[system-duct.state %pass /sys/era note-arvo] moves] mo-core :: +mo-breach: ship breached, so forget about them :: ++ mo-breach |= =ship ^+ mo-core =. mo-core (mo-untrack-ship ship) =. mo-core (mo-filter-queue ship) =/ agents=(list [name=term =yoke]) ~(tap by yokes.state) =. outstanding.state %- malt %+ skip ~(tap by outstanding.state) |= [[=wire duct] (qeu remote-request)] =(/sys/way/(scot %p ship) (scag 3 wire)) :: |- ^+ mo-core ?~ agents mo-core =. mo-core =/ =routes [disclosing=~ attributing=ship] =/ app (ap-abed:ap name.i.agents routes) ap-abet:(ap-breach:app ship) $(agents t.agents) :: +mo-handle-sys: handle a +sign incoming over /sys. :: :: (Note that /sys implies the +sign should be routed to a vane.) :: ++ mo-handle-sys ~/ %mo-handle-sys |= [=path =sign-arvo] ^+ mo-core :: ?+ -.path !! %lyv (mo-handle-sys-lyv path sign-arvo) %era (mo-handle-sys-era path sign-arvo) %cor (mo-handle-sys-cor path sign-arvo) %lag (mo-handle-sys-lag path sign-arvo) %req (mo-handle-sys-req path sign-arvo) %way (mo-handle-sys-way path sign-arvo) == :: +mo-handle-sys-era: receive update about contact :: ++ mo-handle-sys-era |= [=path =sign-arvo] ^+ mo-core ?> ?=([%jael %public-keys *] sign-arvo) ?> ?=([%era ~] path) ?. ?=(%breach -.public-keys-result.sign-arvo) mo-core (mo-breach who.public-keys-result.sign-arvo) :: +mo-handle-sys-cor: receive a built agent from %clay :: ++ mo-handle-sys-cor |= [=path =sign-arvo] ^+ mo-core :: ?> ?=([%cor @ @ @ @ ~] path) =/ [dap=term her=@ta desk=@ta dat=@ta ~] t.path =/ tim (slav da+dat) =/ =beak [(slav %p her) desk da+tim] ?> ?=([?(%behn %clay) %writ *] sign-arvo) |^ ^+ mo-core ?~ p.sign-arvo (fail leaf+"gall: failed to build agent {}" ~) =/ cag=cage r.u.p.sign-arvo ?. =(%vase p.cag) (fail leaf+"gall: bad %writ {} for {}" ~) =/ res (mule |.(!<(agent !<(vase q.cag)))) ?: ?=(%| -.res) (fail leaf+["gall: bad agent {}"] p.res) =. mo-core (mo-receive-core dap beak p.res) (mo-subscribe-to-agent-builds tim) :: ++ fail |= =tang ^+ mo-core =. mo-core (mo-give %onto |+tang) =/ =case [%da tim] =/ =wire /sys/cor/[dap]/[her]/[desk]/(scot case) (mo-pass wire %c %warp p.beak desk ~ %next %a case /app/[dap]/hoon) -- :: +mo-handle-sys-lyv: handle notice that agents have been rebuilt :: ++ mo-handle-sys-lyv |= [=path =sign-arvo] ^+ mo-core ?> ?=([%lyv ~] path) ?> ?=([?(%behn %clay) %wris *] sign-arvo) =/ bek=beak [our %home p.sign-arvo] =/ nex=(list [=care:clay =^path]) ~(tap in q.sign-arvo) ~> %slog.[0 leaf+"gall: reloading agents"] ~< %slog.[0 leaf+"gall: reloaded agents"] =; cor (mo-subscribe-to-agent-builds:cor p.p.sign-arvo) %+ roll nex |= [[=care:clay =^path] cor=_mo-core] ^+ cor :: We throw away %z results because we only have them to guarantee :: molting. Clay will tell us if e.g. changing hoon.hoon affects :: the result of a particular app (usually it will). :: ?. =(%a care) cor =/ dap dap:;;([%app dap=@tas %hoon ~] path) =/ rag (mo-scry-agent-cage dap p.sign-arvo) ?: ?=(%| -.rag) (mean p.rag) (mo-receive-core:cor dap bek p.rag) :: +mo-handle-sys-lag: handle an ames %clog notification :: ++ mo-handle-sys-lag |= [=path =sign-arvo] ^+ mo-core :: ?> ?=([%lag ~] path) ?> ?=([%ames %clog *] sign-arvo) :: =/ agents=(list term) ~(tap in ~(key by yokes.state)) |- ^+ mo-core ?~ agents mo-core :: =. mo-core =/ =routes [disclosing=~ attributing=our] =/ app (ap-abed:ap i.agents routes) ap-abet:(ap-clog:app ship.sign-arvo) :: $(agents t.agents) :: +mo-handle-sys-req: TODO description :: :: TODO: what should we do if the remote nacks our %pull? ++ mo-handle-sys-req |= [=path =sign-arvo] ^+ mo-core :: ?> ?=([%req @ @ ~] path) =/ him (slav %p i.t.path) =/ dap i.t.t.path :: ?> ?=([?(%gall %behn) %unto *] sign-arvo) =/ =sign:agent +>.sign-arvo :: ?- -.sign %poke-ack =/ err=(unit error:ames) ?~ p.sign ~ `[%poke-ack u.p.sign] (mo-give %done err) :: %fact =+ [mark noun]=[p q.q]:cage.sign (mo-give %boon %d mark noun) :: %kick (mo-give %boon %x ~) :: %watch-ack =/ err=(unit error:ames) ?~ p.sign ~ `[%watch-ack u.p.sign] (mo-give %done err) == :: +mo-handle-sys-way: handle response to outgoing remote request :: ++ mo-handle-sys-way |= [=wire =sign-arvo] ^+ mo-core ?> ?=([%way @ @ $@(~ [@ ~])] wire) =/ =ship (slav %p i.t.wire) =/ foreign-agent i.t.t.wire :: ?+ sign-arvo !! [%ames %done *] =^ remote-request outstanding.state ?~ t.t.t.wire =/ full-wire sys+wire =/ stand (~(gut by outstanding.state) [full-wire hen] ~) :: :: default is to send both ack types; should only hit if :: cleared queue in +load 3-to-4 or +load-4-to-5 :: =? stand ?=(~ stand) (~(put to *(qeu remote-request)) %missing) ~| [full-wire=full-wire hen=hen stand=stand] =^ rr stand ~(get to stand) [rr (~(put by outstanding.state) [full-wire hen] stand)] :: non-null case of wire is old, remove on next breach after :: 2019/12 :: [;;(remote-request i.t.t.t.wire) outstanding.state] :: =/ err=(unit tang) ?~ error=error.sign-arvo ~ `[[%leaf (trip tag.u.error)] tang.u.error] :: ?- remote-request %watch-as (mo-give %unto %watch-ack err) %watch (mo-give %unto %watch-ack err) %poke (mo-give %unto %poke-ack err) %leave mo-core %missing (mo-give:(mo-give %unto %watch-ack err) %unto %poke-ack err) == :: [%ames %boon *] ?^ t.t.t.wire :: kill subscriptions which use the old wire format :: !! =/ =ames-response ;;(ames-response payload.sign-arvo) (mo-handle-ames-response ames-response) :: [%ames %lost *] :: note this should only happen on reverse bones, so only facts :: and kicks :: =/ sys-wire [%sys wire] :: TODO: %drip %kick so app crash can't kill the remote %pull :: =/ =ames-request-all [%0 %u ~] =. mo-core (mo-pass sys-wire %a %plea ship %g /ge/[foreign-agent] ames-request-all) =. mo-core (mo-give %unto %kick ~) mo-core == :: +mo-handle-use: handle a typed +sign incoming on /use. :: :: (Note that /use implies the +sign should be routed to an agent.) :: :: Initialises the specified agent and then performs an agent-level :: +take on the supplied +sign. :: ++ mo-handle-use ~/ %mo-handle-use |= [=path =sign-arvo] ^+ mo-core :: ?. ?=([@ @ @ *] path) ~& [%mo-handle-use-bad-path path] !! :: =/ dap=term i.path =/ yoke (~(get by yokes.state) dap) ?~ yoke %- (slog leaf+"gall: {} dead, got {<+<.sign-arvo>}" ~) mo-core ?. =(nonce.u.yoke i.t.path) %- (slog leaf+"gall: got old {<+<.sign-arvo>} for {}" ~) mo-core ?. ?=([?(%gall %behn) %unto *] sign-arvo) ?: ?=(%| -.agent.u.yoke) %- (slog leaf+"gall: {} dozing, dropping {<+<.sign-arvo>}" ~) mo-core =/ app =/ =ship (slav %p i.t.t.path) =/ =routes [disclosing=~ attributing=ship] (ap-abed:ap dap routes) :: =. app (ap-generic-take:app t.t.t.path sign-arvo) ap-abet:app ?> ?=([%out @ @ *] t.t.path) =/ =ship (slav %p i.t.t.t.path) =/ =routes [disclosing=~ attributing=ship] =/ =sign:agent +>.sign-arvo ?: ?=(%| -.agent.u.yoke) =/ blocked=(qeu blocked-move) =/ waiting (~(get by blocked.state) dap) =/ deals (fall waiting *(qeu blocked-move)) =/ deal [hen routes |+sign] (~(put to deals) deal) :: %- (slog leaf+"gall: {} dozing, got {<-.sign>}" ~) %_ mo-core blocked.state (~(put by blocked.state) dap blocked) == =/ app (ap-abed:ap dap routes) =. app (ap-specific-take:app t.t.path sign) ap-abet:app :: +mo-clear-queue: clear blocked tasks from the specified running agent. :: ++ mo-clear-queue |= dap=term ^+ mo-core ?. (~(has by yokes.state) dap) mo-core ?~ maybe-blocked=(~(get by blocked.state) dap) mo-core =/ blocked=(qeu blocked-move) u.maybe-blocked |- ^+ mo-core ?: =(~ blocked) =. blocked.state (~(del by blocked.state) dap) mo-core =^ [=duct =routes blocker=(each deal sign:agent)] blocked ~(get to blocked) =/ =move =/ =sock [attributing.routes our] =/ card ?: ?=(%& -.blocker) [%slip %g %deal sock dap p.blocker] [%pass /clear-huck %b %huck `sign-arvo`[%gall %unto p.blocker]] [duct card] $(moves [move moves]) :: +mo-filter-queue: remove all blocked tasks from ship. :: ++ mo-filter-queue |= =ship =/ agents=(list [name=term blocked=(qeu blocked-move)]) ~(tap by blocked.state) =| new-agents=(map term (qeu blocked-move)) |- ^+ mo-core ?~ agents mo-core(blocked.state new-agents) =| new-blocked=(qeu blocked-move) |- ^+ mo-core ?: =(~ blocked.i.agents) ?~ new-blocked ^$(agents t.agents) %= ^$ agents t.agents new-agents (~(put by new-agents) name.i.agents new-blocked) == =^ mov=blocked-move blocked.i.agents ~(get to blocked.i.agents) =? new-blocked !=(ship attributing.routes.mov) (~(put to new-blocked) mov) $ :: +mo-fade: put app to sleep :: ++ mo-fade |= [dap=term style=?(%slay %idle %jolt)] ^+ mo-core =/ =routes [disclosing=~ attributing=our] =/ app (ap-abed:ap dap routes) =. mo-core ap-abet:(ap-fade:app style) =. mo-core ?- style %slay mo-core(yokes.state (~(del by yokes.state) dap)) %idle mo-core %jolt (mo-boot dap our %home) == =? mo-core !?=(%jolt style) (mo-subscribe-to-agent-builds now) mo-core :: +mo-beak: assemble a beak for the specified agent. :: ++ mo-beak |= dap=term ^- beak ?^ yoke=(~(get by yokes.state) dap) beak.u.yoke :: XX this fallback is necessary, as .term could be either the source :: or the destination app. ie, it might not exist locally ... :: [our %home %da now] :: +mo-peek: call to +ap-peek (which is not accessible outside of +mo). :: ++ mo-peek ~/ %mo-peek |= [dap=term =routes care=term =path] ^- (unit (unit cage)) :: =/ app (ap-abed:ap dap routes) (ap-peek:app care path) :: ++ mo-apply |= [dap=term =routes =deal] ^+ mo-core ?- -.deal ?(%watch %watch-as %leave %poke) (mo-apply-sure dap routes deal) :: %raw-poke =/ =case:clay da+now =/ sky (rof ~ %cb [our %home case] /[mark.deal]) ?- sky ?(~ [~ ~]) =/ ror "gall: raw-poke fail :{(trip dap)} {}" (mo-give %unto %poke-ack `[leaf+ror]~) :: [~ ~ *] =+ !<(=dais:clay q.u.u.sky) =/ res (mule |.((vale:dais noun.deal))) ?: ?=(%| -.res) =/ ror "gall: raw-poke vale fail :{(trip dap)} {}" (mo-give %unto %poke-ack `[leaf+ror p.res]) =. mo-core %+ mo-pass /nowhere [%c %warp our %home ~ %sing %b case /[mark.deal]] (mo-apply-sure dap routes [%poke mark.deal p.res]) == :: %poke-as =/ =case:clay da+now =/ =mars:clay [p.cage mark]:deal =/ mars-path /[a.mars]/[b.mars] =/ sky (rof ~ %cc [our %home case] mars-path) ?- sky ?(~ [~ ~]) =/ ror "gall: poke cast fail :{(trip dap)} {}" (mo-give %unto %poke-ack `[leaf+ror]~) :: [~ ~ *] =+ !<(=tube:clay q.u.u.sky) =/ res (mule |.((tube q.cage.deal))) ?: ?=(%| -.res) =/ ror "gall: poke-as cast fail :{(trip dap)} {}" (mo-give %unto %poke-ack `[leaf+ror p.res]) =. mo-core %+ mo-pass /nowhere [%c %warp our %home ~ %sing %c case /[a.mars]/[b.mars]] (mo-apply-sure dap routes [%poke mark.deal p.res]) == == :: ++ mo-apply-sure |= [dap=term =routes =deal] ^+ mo-core =/ app (ap-abed:ap dap routes) =. app (ap-apply:app deal) ap-abet:app :: +mo-handle-local: handle locally. :: :: If the agent is not running or blocked, assign it the supplied :: +deal. Otherwise simply apply the action to the agent. :: ++ mo-handle-local |= [=ship agent=term =deal] ^+ mo-core :: =/ =routes [disclosing=~ attributing=ship] =/ running (~(get by yokes.state) agent) =/ is-running ?~(running %| ?=(%& -.agent.u.running)) =/ is-blocked (~(has by blocked.state) agent) :: ?: |(!is-running is-blocked) =/ blocked=(qeu blocked-move) =/ waiting (~(get by blocked.state) agent) =/ deals (fall waiting *(qeu blocked-move)) =/ deal [hen routes &+deal] (~(put to deals) deal) :: %- (slog leaf+"gall: not running {} yet, got {<-.deal>}" ~) %_ mo-core blocked.state (~(put by blocked.state) agent blocked) == (mo-apply agent routes deal) :: +mo-handle-ames-request: handle %ames request message. :: ++ mo-handle-ames-request |= [=ship agent-name=term =ames-request] ^+ mo-core :: %u/%leave gets automatically acked :: =. mo-core (mo-track-ship ship) =? mo-core ?=(%u -.ames-request) (mo-give %done ~) :: =/ =wire /sys/req/(scot %p ship)/[agent-name] :: =/ =deal ?- -.ames-request %m [%raw-poke [mark noun]:ames-request] %l [%watch-as [mark path]:ames-request] %s [%watch path.ames-request] %u [%leave ~] == (mo-pass wire %g %deal [ship our] agent-name deal) :: +mo-handle-ames-response: handle ames response message. :: ++ mo-handle-ames-response |= =ames-response ^+ mo-core ?- -.ames-response :: %d: diff; ask clay to validate .noun as .mark :: %d =/ =case:clay da+now =/ sky (rof ~ %cb [our %home case] /[mark.ames-response]) ?- sky ?(~ [~ ~]) =/ ror "gall: ames mark fail {}" (mo-give %done `vale+[leaf+ror]~) :: [~ ~ *] =+ !<(=dais:clay q.u.u.sky) =/ res (mule |.((vale:dais noun.ames-response))) ?: ?=(%| -.res) =/ ror "gall: ames vale fail {}" (mo-give %done `vale+[leaf+ror p.res]) =. mo-core %+ mo-pass /nowhere [%c %warp our %home ~ %sing %b case /[mark.ames-response]] (mo-give %unto %fact mark.ames-response p.res) == :: :: %x: kick; tell agent the publisher canceled the subscription :: %x (mo-give %unto %kick ~) == :: +ap: agent engine :: :: An inner, agent-level core. The sample refers to the agent we're :: currently focused on. :: ++ ap ~% %gall-ap +> ~ |_ $: agent-name=term agent-routes=routes agent-duct=duct agent-moves=(list move) agent-config=(list (each suss tang)) current-agent=yoke == ++ ap-core . :: +ap-abed: initialise state for an agent, with the supplied routes. :: :: The agent must already be running in +gall -- here we simply update :: +ap's state to focus on it. :: ++ ap-abed ~/ %ap-abed |= [dap=term =routes] ^+ ap-core (ap-yoke dap routes (~(got by yokes.state) dap)) :: +ap-hatch: initialize agent state from $egg, after upgrade :: ++ ap-abut |= [dap=term =egg] ^+ ap-core =/ =yoke ?: ?=(%| -.old-state.egg) egg =/ res (mo-scry-agent-cage dap da+now) ?: ?=(%| -.res) (mean p.res) egg(p.old-state `agent`p.res) =/ =routes [disclosing=~ attributing=our] (ap-yoke dap routes yoke) :: +ap-yoke: initialize agent state, starting from a $yoke :: ++ ap-yoke |= [dap=term =routes =yoke] ^+ ap-core =. stats.yoke :+ +(change.stats.yoke) (shaz (mix (add dap change.stats.yoke) eny)) now =. agent-name dap =. agent-routes routes =. current-agent yoke =. agent-duct hen ap-core :: +ap-abet: resolve moves. :: ++ ap-abet ^+ mo-core :: =/ running (~(put by yokes.state) agent-name current-agent) =/ moves =/ giver |=(report=(each suss tang) [hen %give %onto report]) =/ from-suss (turn agent-config giver) :(weld agent-moves from-suss moves) :: %_ mo-core yokes.state running moves moves == :: +ap-fade: put affairs in order. :: :: For %gone, remove all incoming and outgoing subscriptions. :: ++ ap-fade |= style=?(%slay %idle %jolt) ^+ ap-core ?- style %jolt ap-core %idle =. agent.current-agent |+on-save:ap-agent-core ap-core :: %slay =/ out=(list [[=wire =ship =term] ? =path]) ~(tap by outbound.watches.current-agent) =/ inbound-paths=(set path) %- silt %+ turn ~(tap by inbound.watches.current-agent) |= [=duct =ship =path] path =/ will=(list card:agent:gall) %+ welp ?: =(~ inbound-paths) ~ [%give %kick ~(tap in inbound-paths) ~]~ %+ turn ~(tap by outbound.watches.current-agent) |= [[=wire =ship =term] ? =path] [%pass wire %agent [ship term] %leave ~] =^ maybe-tang ap-core (ap-ingest ~ |.([will *agent])) ap-core == :: +ap-from-internal: internal move to move. :: :: We convert from cards to duct-indexed moves when resolving :: them in Arvo. :: :: We accept %huck to "fake" being a message to a ship but :: actually send it to a vane. :: +$ neet $% neat [%huck [=ship name=term] =note-arvo] == :: ++ ap-from-internal ~/ %ap-from-internal |= card=(wind neet gift:agent) ^- (list move) :: ?- -.card %slip !! :: %give =/ =gift:agent p.card ?: ?=(%kick -.gift) =/ ducts=(list duct) (ap-ducts-from-paths paths.gift ship.gift) %+ turn ducts |= =duct ~? &(=(duct system-duct.state) !=(agent-name %hood)) [%agent-giving-on-system-duct agent-name -.gift] [duct %give %unto %kick ~] :: ?. ?=(%fact -.gift) [agent-duct %give %unto gift]~ :: =/ ducts=(list duct) (ap-ducts-from-paths paths.gift ~) =/ =cage cage.gift %- zing %+ turn ducts |= =duct ~? &(=(duct system-duct.state) !=(agent-name %hood)) [%agent-giving-on-system-duct agent-name -.gift] ^- (list move) =/ =mark (~(gut by marks.current-agent) duct p.cage) :: ?: =(mark p.cage) [duct %give %unto %fact cage.gift]~ =/ =mars:clay [p.cage mark] =/ =case:clay da+now =/ bek=beak [our %home case] =/ mars-path /[a.mars]/[b.mars] =/ sky (rof ~ %cc bek mars-path) ?- sky ?(~ [~ ~]) %- (slog leaf+"watch-as fact conversion find-fail" >sky< ~) (ap-kill-up-slip duct) :: [~ ~ *] =+ !<(=tube:clay q.u.u.sky) =/ res (mule |.((tube q.cage))) ?: ?=(%| -.res) %- (slog leaf+"watch-as fact conversion failure" p.res) (ap-kill-up-slip duct) :~ [duct %pass /nowhere %c %warp our %home ~ %sing %c case mars-path] [duct %give %unto %fact b.mars p.res] == == :: %pass =/ =duct system-duct.state =/ =wire p.card =/ =neet q.card =. wire ?- -.neet %agent [%out (scot %p ship.neet) name.neet wire] %huck [%out (scot %p ship.neet) name.neet wire] %arvo [(scot %p attributing.agent-routes) wire] == =. wire [%use agent-name nonce.current-agent wire] =/ =note-arvo ?- -.neet %arvo note-arvo.neet %huck note-arvo.neet %agent [%g %deal [our ship.neet] [name deal]:neet] == [duct %pass wire note-arvo]~ == :: +ap-breach: ship breached, so forget about them :: ++ ap-breach |= =ship ^+ ap-core =/ in=(list [=duct =^ship =path]) ~(tap by inbound.watches.current-agent) |- ^+ ap-core ?^ in =? ap-core =(ship ship.i.in) =/ core ap-load-delete(agent-duct duct.i.in) core(agent-duct agent-duct) $(in t.in) :: =/ out=(list [[=wire =^ship =term] ? =path]) ~(tap by outbound.watches.current-agent) |- ^+ ap-core ?~ out ap-core =? ap-core =(ship ship.i.out) =/ core =. agent-duct system-duct.state =/ way [%out (scot %p ship) term.i.out wire.i.out] (ap-specific-take way %kick ~) core(agent-duct agent-duct) $(out t.out) :: +ap-clog: handle %clog notification from ames :: :: Kills subscriptions from .ship in both directions: :: - notifies local app that subscription is dead :: - gives remote %quit to notify subscriber ship :: TODO: %drip local app notification for error isolation :: ++ ap-clog |= =ship ^+ ap-core :: =/ in=(list [=duct =^ship =path]) ~(tap by inbound.watches.current-agent) |- ^+ ap-core ?~ in ap-core :: =? ap-core =(ship ship.i.in) =/ core ap-kill-up(agent-duct duct.i.in) core(agent-duct agent-duct) $(in t.in) :: +ap-agent-core: agent core with current bowl and state :: ++ ap-agent-core ?> ?=(%& -.agent.current-agent) ~(. p.agent.current-agent ap-construct-bowl) :: +ap-ducts-from-paths: get ducts subscribed to paths :: ++ ap-ducts-from-paths |= [target-paths=(list path) target-ship=(unit ship)] ^- (list duct) ?~ target-paths ?~ target-ship ~[agent-duct] %+ murn ~(tap by inbound.watches.current-agent) |= [=duct =ship =path] ^- (unit ^duct) ?: =(target-ship `ship) `duct ~ %- zing %+ turn target-paths |= =path (ap-ducts-from-path path target-ship) :: +ap-ducts-from-path: get ducts subscribed to path :: ++ ap-ducts-from-path |= [target-path=path target-ship=(unit ship)] ^- (list duct) %+ murn ~(tap by inbound.watches.current-agent) |= [=duct =ship =path] ^- (unit ^duct) ?: ?& =(target-path path) |(=(target-ship ~) =(target-ship `ship)) == `duct ~ :: +ap-apply: apply effect. :: ++ ap-apply |= =deal ^+ ap-core ?- -.deal %watch-as (ap-subscribe-as +.deal) %poke (ap-poke +.deal) %watch (ap-subscribe +.deal) %raw-poke !! %poke-as !! %leave ap-load-delete == :: +ap-peek: peek. :: ++ ap-peek ~/ %ap-peek |= [care=term tyl=path] ^- (unit (unit cage)) :: take trailing mark off path for %x scrys :: =^ want=mark tyl ?. ?=(%x care) [%$ tyl] =. tyl (flop tyl) [(head tyl) (flop (tail tyl))] :: call the app's +on-peek, producing [~ ~] if it crashes :: =/ peek-result=(each (unit (unit cage)) tang) (ap-mule-peek |.((on-peek:ap-agent-core [care tyl]))) ?: ?=(%| -.peek-result) ((slog leaf+"peek bad result" p.peek-result) [~ ~]) :: for non-%x scries, or failed %x scries, or %x results that already :: have the requested mark, produce the result as-is :: ?. ?& ?=(%x care) ?=([~ ~ *] p.peek-result) !=(mark p.u.u.p.peek-result) == p.peek-result :: for %x scries, attempt to convert to the requested mark if needed :: =* have p.u.u.p.peek-result =* vase q.u.u.p.peek-result =/ tub=(unit tube:clay) ?: =(have want) `(bake same ^vase) =/ tuc=(unit (unit cage)) (rof ~ %cc [our %home da+now] /[have]/[want]) ?. ?=([~ ~ *] tuc) ~ `!<(tube:clay q.u.u.tuc) ?~ tub ((slog leaf+"peek no tube from {(trip have)} to {(trip want)}" ~) ~) =/ res (mule |.((u.tub vase))) ?: ?=(%& -.res) ``want^p.res ((slog leaf+"peek failed tube from {(trip have)} to {(trip want)}" ~) ~) :: +ap-update-subscription: update subscription. :: ++ ap-update-subscription ~/ %ap-update-subscription |= [is-ok=? =other=ship other-agent=term =wire] ^+ ap-core ?: is-ok ap-core (ap-kill-down wire [other-ship other-agent]) :: +ap-give: return result. :: ++ ap-give |= =gift:agent ^+ ap-core =/ internal-moves (weld (ap-from-internal %give gift) agent-moves) ap-core(agent-moves internal-moves) :: +ap-construct-bowl: set up bowl. :: ++ ap-construct-bowl ^- bowl :* :* our :: host attributing.agent-routes :: guest agent-name :: agent == :: :* wex=outbound.watches.current-agent :: outgoing sup=inbound.watches.current-agent :: incoming == :: :* act=change.stats.current-agent :: tick eny=eny.stats.current-agent :: nonce now=time.stats.current-agent :: time byk=beak.current-agent :: source == == :: +ap-pass: request action. :: ++ ap-pass |= [=path =neet] ^+ ap-core =/ internal-moves (ap-from-internal %pass path neet) ap-core(agent-moves (weld internal-moves agent-moves)) :: +ap-reinstall: reinstall. :: ++ ap-reinstall ~/ %ap-reinstall |= =agent ^+ ap-core =/ old-state=vase ?: ?=(%& -.agent.current-agent) on-save:ap-agent-core p.agent.current-agent =^ error ap-core (ap-install(agent.current-agent &+agent) `old-state) ?~ error ap-core (mean >%load-failed< u.error) :: +ap-subscribe-as: apply %watch-as. :: ++ ap-subscribe-as |= [=mark =path] ^+ ap-core =. marks.current-agent (~(put by marks.current-agent) agent-duct mark) (ap-subscribe path) :: +ap-subscribe: apply %watch. :: ++ ap-subscribe ~/ %ap-subscribe |= pax=path ^+ ap-core =/ incoming [attributing.agent-routes pax] =. inbound.watches.current-agent (~(put by inbound.watches.current-agent) agent-duct incoming) =^ maybe-tang ap-core %+ ap-ingest %watch-ack |. (on-watch:ap-agent-core pax) ?^ maybe-tang ap-silent-delete ap-core :: +ap-poke: apply %poke. :: ++ ap-poke ~/ %ap-poke |= =cage ^+ ap-core =^ maybe-tang ap-core %+ ap-ingest %poke-ack |. (on-poke:ap-agent-core cage) ap-core :: +ap-error: pour error. :: ++ ap-error |= [=term =tang] ^+ ap-core =/ form |=(=tank [%rose [~ "! " ~] tank ~]) =^ maybe-tang ap-core %+ ap-ingest ~ |. (on-fail:ap-agent-core term (turn tang form)) ap-core :: +ap-generic-take: generic take. :: ++ ap-generic-take ~/ %ap-generic-take |= [=wire =sign-arvo] ^+ ap-core =^ maybe-tang ap-core %+ ap-ingest ~ |. (on-arvo:ap-agent-core wire sign-arvo) ?^ maybe-tang (ap-error %arvo-response u.maybe-tang) ap-core :: +ap-specific-take: specific take. :: ++ ap-specific-take |= [=wire =sign:agent] ^+ ap-core ~| wire=wire ?> ?=([%out @ @ *] wire) =/ other-ship (slav %p i.t.wire) =/ other-agent i.t.t.wire =/ =dock [other-ship other-agent] =/ agent-wire t.t.t.wire :: if subscription ack or close, handle before calling user code :: =? outbound.watches.current-agent ?=(%kick -.sign) %- ~(del by outbound.watches.current-agent) [agent-wire dock] ?: ?& ?=(%watch-ack -.sign) !(~(has by outbound.watches.current-agent) [agent-wire dock]) == %- %: slog leaf+"{}: got ack for nonexistent subscription" leaf+"{}: {}" >wire=wire< ~ == ap-core :: =? outbound.watches.current-agent ?=(%watch-ack -.sign) ?^ p.sign %- ~(del by outbound.watches.current-agent) [agent-wire dock] %+ ~(jab by outbound.watches.current-agent) [agent-wire dock] |= [acked=? =path] =. . ?. acked . %- =/ =tape "{}: received 2nd watch-ack on {}" (slog leaf+tape ~) . [& path] :: =^ maybe-tang ap-core %+ ap-ingest ~ |. (on-agent:ap-agent-core agent-wire sign) :: if failed %fact handling, kill subscription :: =? ap-core ?=(%fact -.sign) (ap-update-subscription =(~ maybe-tang) p.dock q.dock agent-wire) ?^ maybe-tang (ap-error -.sign leaf/"closing subscription" u.maybe-tang) ap-core :: +ap-install: install wrapper. :: ++ ap-install |= old-agent-state=(unit vase) ^- [(unit tang) _ap-core] :: =^ maybe-tang ap-core (ap-upgrade-state old-agent-state) :: =. agent-config =/ =term ?~(old-agent-state %boot %bump) =/ possibly-suss ?~ maybe-tang =/ =suss [agent-name term now] [%.y suss] [%.n u.maybe-tang] [possibly-suss agent-config] :: [maybe-tang ap-core] :: +ap-upgrade-state: low-level install. :: ++ ap-upgrade-state ~/ %ap-upgrade-state |= maybe-vase=(unit vase) ^- [(unit tang) _ap-core] :: =^ maybe-tang ap-core %+ ap-ingest ~ ?~ maybe-vase |. on-init:ap-agent-core |. (on-load:ap-agent-core u.maybe-vase) [maybe-tang ap-core] :: +ap-silent-delete: silent delete. :: ++ ap-silent-delete ^+ ap-core :: %= ap-core inbound.watches.current-agent (~(del by inbound.watches.current-agent) agent-duct) == :: +ap-load-delete: load delete. :: ++ ap-load-delete ^+ ap-core :: =/ maybe-incoming (~(get by inbound.watches.current-agent) agent-duct) ?~ maybe-incoming ap-core :: =/ incoming u.maybe-incoming =. inbound.watches.current-agent (~(del by inbound.watches.current-agent) agent-duct) :: =^ maybe-tang ap-core %+ ap-ingest ~ |. (on-leave:ap-agent-core q.incoming) ?^ maybe-tang (ap-error %leave u.maybe-tang) ap-core :: +ap-kill-up: 2-sided kill from publisher side :: ++ ap-kill-up ^+ ap-core :: => ap-load-delete (ap-give %kick ~ ~) :: +ap-kill-up-slip: 2-sided kill from publisher side by slip :: :: +ap-kill-up is reentrant if you call it in the :: middle of processing another deal :: :: Should probably call +ap-error with error message :: ++ ap-kill-up-slip |= =duct ^- (list move) :: :~ [duct %slip %g %deal [our our] agent-name %leave ~] [duct %give %unto %kick ~] == :: +ap-kill-down: 2-sided kill from subscriber side :: :: Must process leave first in case kick handler rewatches. :: ++ ap-kill-down |= [=wire =dock] ^+ ap-core :: =. ap-core (ap-pass wire %agent dock %leave ~) (ap-pass wire %huck dock %b %huck `sign-arvo`[%gall %unto %kick ~]) :: +ap-mule: run virtualized with intercepted scry, preserving type :: :: Compare +mute and +mule. Those pass through scry, which :: doesn't allow us to catch crashes due to blocking scry. If :: you intercept scry, you can't preserve the type :: polymorphically. By monomorphizing, we are able to do so :: safely. :: ++ ap-mule |= run=_^?(|.(*step:agent)) ^- (each step:agent tang) =/ res (mock [run %9 2 %0 1] (look rof ~)) ?- -.res %0 [%& !<(step:agent [-:!>(*step:agent) p.res])] %1 [%| (smyt ;;(path p.res)) ~] %2 [%| p.res] == :: +ap-mule-peek: same as +ap-mule but for (unit (unit cage)) :: ++ ap-mule-peek |= run=_^?(|.(*(unit (unit cage)))) ^- (each (unit (unit cage)) tang) =/ res (mock [run %9 2 %0 1] (look rof ~)) ?- -.res %0 [%& !<((unit (unit cage)) [-:!>(*(unit (unit cage))) p.res])] %1 [%| (smyt ;;(path p.res)) ~] %2 [%| p.res] == :: +ap-ingest: call agent arm :: :: Handle acks here because they need to be emitted before the :: rest of the moves. :: ++ ap-ingest |= [ack=?(%poke-ack %watch-ack ~) run=_^?(|.(*step:agent))] ^- [(unit tang) _ap-core] =/ result (ap-mule run) =^ new-moves ap-core (ap-handle-result result) =/ maybe-tang=(unit tang) ?: ?=(%& -.result) ~ `p.result =/ ack-moves=(list move) %- zing %- turn :_ ap-from-internal ^- (list card:agent) ?- ack ~ ~ %poke-ack [%give %poke-ack maybe-tang]~ %watch-ack [%give %watch-ack maybe-tang]~ == :: =. agent-moves :(weld (flop new-moves) ack-moves agent-moves) [maybe-tang ap-core] :: +ap-handle-result: handle result. :: ++ ap-handle-result ~/ %ap-handle-result |= result=(each step:agent tang) ^- [(list move) _ap-core] ?: ?=(%| -.result) `ap-core :: =. agent.current-agent &++.p.result =/ moves (zing (turn -.p.result ap-from-internal)) =. inbound.watches.current-agent (ap-handle-kicks moves) (ap-handle-peers moves) :: +ap-handle-kicks: handle cancels of inbound.watches :: ++ ap-handle-kicks ~/ %ap-handle-kicks |= moves=(list move) ^- bitt =/ quits=(list duct) %+ murn moves |= =move ^- (unit duct) ?. ?=([* %give %unto %kick *] move) ~ `duct.move :: =/ quit-map=bitt (malt (turn quits |=(=duct [duct *[ship path]]))) (~(dif by inbound.watches.current-agent) quit-map) :: +ap-handle-peers: handle new outbound.watches :: ++ ap-handle-peers ~/ %ap-handle-peers |= moves=(list move) ^- [(list move) _ap-core] =| new-moves=(list move) |- ^- [(list move) _ap-core] ?~ moves [(flop new-moves) ap-core] =/ =move i.moves ?: ?=([* %pass * %g %deal * * %leave *] move) =/ =wire p.move.move ?> ?=([%use @ @ %out @ @ *] wire) =/ short-wire t.t.t.t.t.t.wire =/ =dock [q.p q]:q.move.move =. outbound.watches.current-agent (~(del by outbound.watches.current-agent) [short-wire dock]) $(moves t.moves, new-moves [move new-moves]) ?. ?=([* %pass * %g %deal * * ?(%watch %watch-as) *] move) $(moves t.moves, new-moves [move new-moves]) =/ =wire p.move.move ?> ?=([%use @ @ %out @ @ *] wire) =/ short-wire t.t.t.t.t.t.wire =/ =dock [q.p q]:q.move.move =/ =path ?- -.r.q.move.move %watch path.r.q.move.move %watch-as path.r.q.move.move == ?: (~(has by outbound.watches.current-agent) short-wire dock) =. ap-core =/ =tang ~[leaf+"subscribe wire not unique" >agent-name< >short-wire< >dock<] =/ have (~(got by outbound.watches.current-agent) short-wire dock) %- (slog >out=have< tang) (ap-error %watch-not-unique tang) :: reentrant, maybe bad? $(moves t.moves) =. outbound.watches.current-agent (~(put by outbound.watches.current-agent) [short-wire dock] [| path]) $(moves t.moves, new-moves [move new-moves]) -- -- :: +call: request :: ++ call ~% %gall-call +> ~ |= [=duct dud=(unit goof) hic=(hobo task)] ^- [(list move) _gall-payload] ?^ dud ~|(%gall-call-dud (mean tang.u.dud)) :: ~| [%gall-call-failed duct hic] =/ =task ((harden task) hic) :: =/ mo-core (mo-abed:mo duct) ?- -.task %conf mo-abet:(mo-boot:mo-core dap.task our %home) %deal =/ [=sock =term =deal] [p q r]:task ?. =(q.sock our) ?> =(p.sock our) mo-abet:(mo-send-foreign-request:mo-core q.sock term deal) mo-abet:(mo-handle-local:mo-core p.sock term deal) :: %goad mo-abet:(mo-goad:mo-core agent.task) %init [~ gall-payload(system-duct.state duct)] %plea =/ =ship ship.task =/ =path path.plea.task =/ =noun payload.plea.task :: ~| [ship=ship plea-path=path] ?> ?=([%ge @ ~] path) =/ agent-name i.t.path :: =+ ;;(=ames-request-all noun) ?> ?=(%0 -.ames-request-all) => (mo-handle-ames-request:mo-core ship agent-name +.ames-request-all) mo-abet :: %sear mo-abet:(mo-filter-queue:mo-core ship.task) %fade mo-abet:(mo-fade:mo-core dap.task style.task) %trim [~ gall-payload] %vega [~ gall-payload] == :: +load: recreate vane; note, only valid if called from pupa :: ++ load !! :: +scry: standard scry :: ++ scry ~/ %gall-scry ^- roon |= [lyc=gang care=term bem=beam] ^- (unit (unit cage)) =/ =shop &/p.bem =* dap q.bem =/ =coin $/r.bem =* path s.bem :: ?. ?=(%.y -.shop) ~ =/ =ship p.shop ?: &(=(care %$) =(path /whey)) =/ blocked =/ queued (~(run by blocked.state) |=((qeu blocked-move) [%.y +<])) (sort ~(tap by queued) aor) :: =/ running =/ active (~(run by yokes.state) |=(yoke [%.y +<])) (sort ~(tap by active) aor) :: =/ maz=(list mass) :~ [%foreign %.y contacts.state] [%blocked %.n blocked] [%active %.n running] == ``mass+!>(maz) :: ?: ?& =(%u care) =(~ path) =([%$ %da now] coin) =(our ship) == [~ ~ noun+!>((~(has by yokes.state) dap))] :: ?. =(our ship) ~ ?. =([%$ %da now] coin) ~ ?. (~(has by yokes.state) dap) [~ ~] ?. ?=(^ path) ~ =/ =routes [~ ship] (mo-peek:mo dap routes care path) :: +stay: save without cache :: ++ stay ^- spore =; eggs=(map term egg) [- | +]:state(yokes eggs) %- ~(run by yokes.state) |= =yoke ^- egg %= yoke agent ?: ?=(%& -.agent.yoke) [%& on-save:p.agent.yoke] [%| p.agent.yoke] == :: +take: response :: ++ take ~/ %gall-take |= [=wire =duct dud=(unit goof) syn=sign-arvo] ^- [(list move) _gall-payload] ?^ dud ~&(%gall-take-dud ((slog tang.u.dud) [~ gall-payload])) ?: =(/nowhere wire) [~ gall-payload] :: ~| [%gall-take-failed wire] ?> ?=([?(%sys %use) *] wire) =< mo-abet %. [t.wire ?:(?=([%behn %heck *] syn) syn.syn syn)] ?- i.wire %sys mo-handle-sys:(mo-abed:mo duct) %use mo-handle-use:(mo-abed:mo duct) == --