:: :: XX remove this file in transition to %4 :: /- *sss /+ *mip :: |% ++ mk-subs :: Create sub-map. |* [=(lake) paths=mold] -:+6:(da lake paths) :: ++ mk-pubs :: Create pub-map. |* [=(lake) paths=mold] -:+6:(du lake paths) :: ++ mk-mar :: Create mar. |* =(lake) |_ =(response:poke lake *) ++ grow |% ++ noun response -- ++ grab |% ++ noun (response:poke lake *) -- ++ grad %noun -- ++ fled :: Like +sped but head is a path. |= vax=vase ^- vase :_ q.vax %- ~(play ut p.vax) =- [%wtgr [%wtts - [%& 2]~] [%$ 1]] =/ pax ~| %path-none ;;(path -.q.vax) |- ^- spec ?~ pax [%base %null] [%bccl ~[[%leaf %ta -.pax] $(pax +.pax)]] :: ++ zoom |= =noun ~| %need-path $/sss/;;(path noun) :: ++ da :: Manage subscriptions. |* [=(lake) paths=mold] => |% +$ from (on-rock:poke lake paths) +$ into (response:poke lake paths) +$ result (request:poke paths) +$ fail [paths ship dude] +$ flow [=aeon stale=_| fail=_| =rock:lake] +$ subs [%0 (map [ship dude paths] (unit flow))] -- |= $: sub=subs =bowl:gall result-type=type on-rock-type=type fail-type=type == => .(sub +.sub) |% ++ surf :: Subscribe to [ship dude path]. |= which=[ship dude paths] ^- (quip card:agent:gall subs) ?+ flow=(~(get by sub) which) `0/sub ~ [~[(pine which)] 0/(~(put by sub) which ~)] [~ ~] [~[(pine which)] 0/sub] [~ ~ [* %& * *]] [~[(scry `+(aeon.u.u.flow) which)] 0/sub] == ++ quit (corl (lead %0) ~(del by sub)) :: Unsub from [ship dude path]. ++ read :: See current subscribed states. ^- (map [ship dude paths] [stale=? fail=? =rock:lake]) %- malt %+ murn ~(tap by sub) |= [key=[ship dude paths] val=(unit flow)] ?~ val ~ `[key +.u.val] :: :: Check poke-ack for errors. :: :: If an %sss-on-rock poke nacks, ++ chit :: that state is flagged as failed. |= [[aeon=term ship=term dude=term path=paths] =sign:agent:gall] ^- subs :- %0 ?> ?=(%poke-ack -.sign) ?~ p.sign sub %+ ~(jab by sub) [(slav %p ship) dude path] |= (unit flow) =/ =flow (need +<) ?> =(aeon.flow (slav %ud aeon)) `flow(fail &) :: :: Check poke-ack for errors. :: :: If a scry request nacks, ++ tell :: that state is flagged as stale. |= [[ship=term =dude aeon=term path=paths] =sign:agent:gall] ^- (quip card:agent:gall subs) ?> ?=(%poke-ack -.sign) ?~ p.sign `0/sub =/ current [ship=(slav %p ship) dude=dude path=path] ?+ flow=(~(get by sub) current) `0/sub [~ ~ *] =. stale.u.u.flow & :_ 0/(~(put by sub) current u.flow) ~[(on-rock-poke current u.u.flow ~)] :: [~ ~] :_ 0/(~(del by sub) current) :_ ~ :* %pass (zoom surf-fail/aeon/ship/dude/path) %agent [our dap]:bowl %poke %sss-surf-fail fail-type ^- fail [path ship dude]:current == == :: :: Check if we're still interested :: :: in a wave. If no, no-op. :: :: If yes, scry. ++ behn :: (See https://gist.github.com/belisarius222/7f8452bfea9b199c0ed717ab1778f35b) |= [ship=term =dude aeon=term path=paths] ^- (list card:agent:gall) %- fall :_ ~ %- mole |. =/ ship (slav %p ship) =/ aeon (slav %ud aeon) ?: (lte aeon aeon:(fall (~(got by sub) ship dude path) *flow)) ~ ~[(scry `aeon ship dude path)] :: ++ apply :: Handle response from publisher. |= res=(response:poke lake paths) ^- (quip card:agent:gall subs) %- fall :_ `0/sub %- mole |. =* current [src.bowl dude.res path.res] =/ old=flow (fall (~(got by sub) current) *flow) ?- type.res %tomb =/ =flow old(stale &) :_ 0/(~(put by sub) current `flow) :_ ~ (on-rock-poke current flow ~) :: %yore :_ 0/sub :_ ~ (pine src.bowl dude.res path.res) :: %nigh :_ 0/sub :_ ~ (behn-s25 [dude aeon path]:res) :: %scry =/ [wave=(unit wave:lake) =flow] ?- what.res %rock ?> (gte aeon.res aeon.old) [~ [aeon.res | | rock.res]] %wave ?> =(aeon.res +(aeon.old)) [`wave.res [aeon.res | | (wash:lake rock.old wave.res)]] == :_ 0/(~(put by sub) current `flow) :~ (on-rock-poke current flow wave) (scry `+(aeon.res) src.bowl dude.res path.res) == == :: :: Non-public facing arms below :: ++ behn-s25 |= [=dude =aeon path=noun] ^- card:agent:gall :* %pass (zoom behn/(scot %p src.bowl)^dude^(scot %ud aeon)^path) %arvo %b %wait (add ~s25 now.bowl) == ++ pine |= [ship dude paths] (scry ~ +<) ++ scry |= [when=(unit aeon) who=ship which=dude where=paths] ^- card:agent:gall =/ when ?~ when ~ (scot %ud u.when) :* %pass (zoom scry-request/(scot %p who)^which^when^where) %agent [who which] %poke %sss-to-pub :- result-type ^- result [where dap.bowl ^when] == ++ on-rock-poke |= [[=ship =dude path=paths] flow wave=(unit wave:lake)] ^- card:agent:gall :* %pass (zoom on-rock/(scot %ud aeon)^(scot %p ship)^dude^path) %agent [our dap]:bowl %poke %sss-on-rock on-rock-type ^- from [path ship dude stale fail rock wave] == -- ++ du :: Manage publications. |* [=(lake) paths=mold] => |% +$ into (request:poke paths) +$ result (response:poke lake paths) +$ rule [rocks=_1 waves=_5] :: Retention policy +$ tide $: rok=((mop aeon rock:lake) gte) wav=((mop aeon wave:lake) lte) rul=rule mem=(mip ship dude @da) == +$ buoy $: tid=$~(*tide $@(aeon tide)) alo=(unit (set ship)) == +$ pubs [%0 (map paths buoy)] -- |= [pub=pubs =bowl:gall result-type=type] => .(pub +.pub) =* rok ((on aeon rock:lake) gte) =* wav ((on aeon wave:lake) lte) |% ++ rule :: Set new retention policy. |= [path=paths =^rule] ^- pubs :- %0 %+ ~(jab by pub) path |= =buoy ?@ tid.buoy buoy buoy(tid (form tid.buoy(rul rule))) :: ++ wipe :: Create new rock and wipe rest. |= path=paths ^- pubs :- %0 %+ ~(jab by pub) path |= =buoy ?@ tid.buoy buoy %* . buoy(tid (form tid.buoy(rul [0 1]))) rul.tid rul.tid.buoy wav.tid ~ == ++ give :: Give a wave on a path. |= [path=paths =wave:lake] ^- (quip card:agent:gall pubs) ?~ ((soft ^path) path) ~| %need-path !! =/ buoy (~(gut by pub) path *buoy) =? buoy ?=(@ tid.buoy) %*(. buoy(tid *tide) rok.tid (put:rok ~ +(tid.buoy) *rock:lake)) ?> ?=(^ tid.buoy) =* tide tid.buoy =/ next=aeon +((latest tide)) :- %+ murn ~(tap bi mem.tide) |= [=ship =dude =@da] ?: (lth da now.bowl) ~ `(send scry/wave/wave ship dude next path) :- %0 %+ ~(put by pub) path =/ last=[=aeon =rock:lake] (fall (pry:rok rok.tide) *[key val]:rok) =. wav.tide (put:wav wav.tide next wave) =. mem.tide ~ ?. =(next (add aeon.last waves.rul.tide)) buoy buoy(tid (form tide)) :: ++ fork :: Fork a pub into an empty path. |= [from=paths to=paths] ^- pubs :- %0 ?< (~(has by pub) to) (~(put by pub) to (~(got by pub) from)) :: ++ copy :: Fork a sub into an empty path. |= [sub=_(mk-subs lake *) from=[ship dude *] to=paths] ^- pubs :- %0 ?< (~(has by pub) to) %+ ~(put by pub) to %* . *$<(aeon buoy) rok.tid (put:rok ~ [aeon rock]:(need (~(got by +:sub) from))) == :: ++ perm :: Change permissions with gate. |= [where=(list paths) diff=$-((unit (set ship)) (unit (set ship)))] ^- pubs %+ edit where |= =buoy =/ new=_alo.buoy (diff alo.buoy) ?@ tid.buoy buoy(alo new) %= buoy alo new mem.tid ?~ new mem.tid.buoy %. mem.tid.buoy ~(int by (malt (turn ~(tap in u.new) (late *(map @ @))))) == ++ public (curr perm _~) :: Make list of paths public. ++ secret (curr perm _`~) :: Make list of paths secret. :: :: Block ships from paths. ++ block :: No-ops on public paths. |= [who=(list ship) whence=(list paths)] ^- pubs %+ perm whence |= old=(unit (set ship)) ?~ old ~ `(~(dif in u.old) (sy who)) :: :: Allow ships to paths. ++ allow :: Any public paths will no-op. |= [who=(list ship) where=(list paths)] ^- pubs %+ perm where |= old=(unit (set ship)) ?~ old ~ `(~(gas in u.old) who) :: :: Kill a list of paths, i.e. tell ++ kill :: subs to not expect updates. (curr edit |=(=buoy buoy(tid (latest tid.buoy)))) :: :: Reopen list of killed paths. ++ read :: See current published states. ^- (map paths [allowed=(unit (set ship)) =rock:lake]) %- malt %+ murn ~(tap by pub) |= [path=paths =buoy] ^- (unit [paths (unit (set ship)) rock:lake]) ?@ tide=tid.buoy ~ :^ ~ path alo.buoy =< rock =/ snap=[=aeon =rock:lake] (fall (pry:rok rok.tide) *[key val]:rok) %+ roll (tap:wav (lot:wav wav.tide `aeon.snap ~)) |= [[=aeon =wave:lake] =_snap] ?. =(aeon +(aeon.snap)) snap [aeon (wash:lake rock.snap wave)] :: ++ apply :: Handle request from subscriber. |= req=(request:poke paths) ^- (quip card:agent:gall pubs) =/ =buoy (~(gut by pub) path.req *buoy) ?< &(?=(^ alo.buoy) !(~(has in u.alo.buoy) src.bowl)) ?@ tid.buoy :_ 0/pub :_ ~ (send tomb/~ src.bowl dude.req tid.buoy path.req) ?~ when.req =/ last (fall (pry:rok rok.tid.buoy) *[=key =val]:rok) :_ 0/pub :_ ~ (send scry/rock/val.last src.bowl dude.req key.last path.req) ?^ dat=(get:wav wav.tid.buoy u.when.req) :_ 0/pub :_ ~ (send scry/wave/u.dat src.bowl [dude u.when path]:req) ?: %+ lte u.when.req key::(fall (ram:wav wav.tid.buoy) (pry:rok rok.tid.buoy) [=key val]:wav) :_ 0/pub :_ ~ (send yore/~ src.bowl [dude u.when path]:req) ?> =(u.when.req +((latest tid.buoy))) :- ~[(send nigh/~ src.bowl [dude u.when path]:req)] :- %0 %+ ~(put by pub) path.req %= buoy mem.tid (~(put bi mem.tid.buoy) src.bowl dude.req (add ~s25 now.bowl)) == :: :: Non-public facing arms below :: ++ send |= [payload=_|3:*(response:poke lake paths) =ship =dude =aeon path=paths] ^- card:agent:gall =* mark (cat 3 %sss- name:lake) :* %pass (zoom scry-response/(scot %p ship)^dude^(scot %ud aeon)^path) %agent [ship dude] %poke mark result-type ^- (response:poke lake paths) [path dap.bowl aeon payload] == ++ latest |= =$@(aeon tide) ^- aeon ?@ tide tide %+ max (fall (bind (pry:rok rok.tide) head) 0) (fall (bind (ram:wav wav.tide) head) 0) :: ++ edit |= [ps=(list paths) edit=$-(buoy buoy)] ^- pubs :- %0 %- ~(rep in (sy ps)) |= [path=paths =_pub] %- fall :_ pub %- mole |. (~(jab by pub) path edit) :: ++ form |= =tide ^+ tide =/ max-rock=[=aeon =rock:lake] (fall (pry:rok rok.tide) *[key val]:rok) =/ max-wave (fall (bind (ram:wav wav.tide) head) 0) =. rok.tide %+ gas:rok +<-:gas:rok %- tab:rok :_ [~ +(rocks.rul.tide)] ?: ?| =(waves.rul.tide 0) (lth max-wave (add aeon.max-rock waves.rul.tide)) == rok.tide %+ put:rok rok.tide %+ roll (tab:wav wav.tide `aeon.max-rock max-wave) |: [*[now=aeon =wave:lake] `[prev=aeon =rock:lake]`max-rock] ~| %aeon-awry ?> =(now +(prev)) [now (wash:lake rock wave)] ~| %rock-zero tide(wav (lot:wav wav.tide (bind (ram:rok rok.tide) |=([r=@ *] (dec r))) ~)) -- --