:: roller: Azimuth L2 roll aggregator :: :: general flow is as described below, to ensure transactions actually go :: through once we start sending it out, in the dumbest reasonable way. :: :: periodic timer fires: :: if there are no pending l2 txs, do nothing. :: else kick off tx submission flow: :: "freeze" pending txs, store alongside nonce, then increment nonce, :: kick off thread for sending the corresponding l1 tx: :: if nonce doesn't match on-chain expected nonce, bail. :: if we can't afford the tx fee, bail. :: construct, sign, submit the l1 tx. :: if thread bailed, retry in five minutes. :: if thread succeeded, retry in five minutes with higher gas price. :: when retrying, only do so if l2 txs remain in the "frozen" txs group. :: on %tx diff from naive, remove the matching tx from the frozen group. :: ::TODO questions: :: - it's a bit weird how we just assume the raw and tx in raw-tx to match... :: /- *dice /+ azimuth, naive, dice, lib=naive-transactions, default-agent, ethereum, dbug, verb :: |% +$ app-state $: %4 :: pending: the next l2 txs to be sent :: sending: l2 txs awaiting l2 confirmation, ordered by nonce :: finding: sig+raw-tx hash reverse lookup for txs in sending map :: history: status of l2 txs by ethereum address, timestamp sorted :: ship-quota: number of txs submited per ship in the current slice :: allowances: specific no of allowed transactions per given ship :: next-nonce: next l1 nonce to use :: next-batch: when then next l2 batch will be sent :: next-slice: when the global quota will be reset :: pre: predicted l2 state :: own: ownership of azimuth points :: spo: residents and escapees, per sponsor :: pending=(list pend-tx) sending=(tree [l1-tx-pointer send-tx]) finding=(map keccak ?(%confirmed %failed [=time l1-tx-pointer])) history=(map address:ethereum (tree hist-tx)) ship-quota=(map ship @ud) allowances=(map ship (unit @ud)) next-nonce=(unit @ud) next-batch=time next-slice=time pre=^state:naive own=owners spo=sponsors :: :: pk: private key to send the roll :: quota: max numbers of transactions per unit of time (slice) :: slice: unit of time where txs are allowed to be added to pending :: derive: defer derivation of predicted/ownership state :: frequency: time to wait between sending batches (TODO fancier) :: endpoint: ethereum rpc endpoint to use :: contract: ethereum contract address :: chain-id: mainnet, ropsten, local (https://chainid.network/) :: resend-time: time to resend a batch with higher gas prie :: update-rate: frequency to update the roller's predicted state :: fallback-gas-price: default batch gas price :: pk=@ slice=@dr quota=@ud derive=? frequency=@dr endpoint=(unit @t) contract=@ux chain-id=@ resend-time=@dr update-rate=@dr fallback-gas-price=@ud == :: +$ action $% :: submit: request to add a l2 tx to the pending queue :: [%submit force=? =address:naive sig=@ tx=part-tx] :: cancel: cancels a pending transaction :: :: a signed message ("cancel: 0xkeccak") is used as ownership validation :: [%cancel sig=@ keccak=@ =l2-tx =ship] :: commit: manually commit a batch of pending txs :: :: TODO: maybe pk=(unit @) later :: [%commit ~] :: config: configure the roller :: [%config config] :: assign: assign an allowance to a ship for submitting l2 txs :: [%assign =ship quota=(unit @ud)] :: refuel: bumps the next-gas-price of a sending tx :: [%refuel nonce=@ address=(unit address:ethereum) gas=@ud] == :: +$ card card:agent:gall ++ lverb & -- :: Helpers :: => |% :: TODO /lib/sys.hoon? :: ++ sys |% ++ b |% ++ wait |= [=wire =time] ^- card [%pass wire %arvo %b %wait time] -- -- :: TODO /lib/spider.hoon? :: ++ spider |% ++ start-thread |= [=bowl:gall =wire thread=term arg=vase] ^- (list card) =/ =beak byk.bowl(r da+now.bowl) =/ tid=@ta (rap 3 thread '--' (scot %uv eny.bowl) ~) =/ args [~ `tid beak thread arg] :~ [%pass wire %agent [our.bowl %spider] %watch /thread-result/[tid]] [%pass wire %agent [our.bowl %spider] %poke %spider-start !>(args)] == :: ++ leave |= [agent=@p =path] ^- card [%pass path %agent [agent %spider] %leave ~] -- :: ++ get-l1-address |= [=tx:naive nas=^state:naive] ^- (unit address:ethereum) ?~ point=(get:orp:dice points.nas ship.from.tx) ~ =< `address (proxy-from-point:naive proxy.from.tx u.point) :: ++ timer |% :: +set-roller: %wait until next whole frequency :: ++ set-roller |= [frequency=@dr now=@da] ^- [=card =time] =+ time=(mul +((div now frequency)) frequency) [(wait:b:sys /timer time) time] :: +set-roller: %wait until next whole :slice :: ++ set-quota |= [slice=@dr now=@da] ^- [=card =time] =+ time=(mul +((div now slice)) slice) [(wait:b:sys /quota-timer time) time] -- :: TODO: move address to state? :: ++ get-address |= pk=@ ^- address:ethereum (address-from-prv:key:ethereum pk) -- :: Cards :: => |% ++ emit |= updates=(list update) =| cards=(list card) |- ^- (list card) ?~ updates (flop cards) =* up i.updates =/ [address=@t last-owner=(unit @t)] ?- -.up %tx :_ ~ (scot %ux address.pend-tx.up) :: %point :- (scot %ux address.to.up) ?~(from.up ~ `(scot %ux address.u.from.up)) == =. cards %+ welp ^- (list card) ?- -.i.updates %tx [%give %fact ~[/txs/[address]] tx+!>(up)]~ :: %point =/ =cage point+!>(up) %+ weld [%give %fact ~[/points/[address]] cage]~ ?~ last-owner ~ [%give %fact ~[/points/[u.last-owner]] cage]~ == cards :: $(updates t.updates) -- :: =| app-state =* state - :: %- agent:dbug %+ verb | ^- agent:gall :: =< |_ =bowl:gall +* this . do ~(. +> bowl) def ~(. (default-agent this %|) bowl) :: ++ on-init ^- (quip card _this) =: frequency ~h1 quota 25 slice ~d7 resend-time ~m5 update-rate ~m5 contract naive:local-contracts:azimuth chain-id chain-id:local-contracts:azimuth fallback-gas-price 10.000.000.000 == =^ card-1 next-batch (set-roller:timer frequency now.bowl) =^ card-2 next-slice (set-quota:timer slice now.bowl) :_ this :~ card-1 card-2 [%pass /azimuth-events %agent [our.bowl %azimuth] %watch /event] == :: ++ on-save !>(state) ++ on-load |= old=vase ^- (quip card _this) =| cards=(list card) |^ =+ !<(old-state=app-states old) =? cards ?=(%0 -.old-state) [card:(set-quota:timer slice now.bowl)]~ =? old-state ?=(%0 -.old-state) ^- state-1 =| ship-quota=(map ship @ud) =/ [slice=@dr quota=@ud resend-time=@dr update-rate=@dr] [~d7 7 ~m5 ~m1] =, old-state :* %1 pending sending finding history ship-quota next-nonce next-batch pre own pk slice quota derive frequency endpoint contract chain-id resend-time update-rate == =? old-state ?=(%1 -.old-state) ^- state-2 =| spo=(map ship [residents=(set ship) requests=(set ship)]) =, old-state :* %2 pending sending finding history ship-quota next-nonce next-batch pre own spo pk slice quota derive frequency endpoint contract chain-id resend-time update-rate == =? old-state ?=(%2 -.old-state) ^- state-3 =, old-state =| allowances=(map ship (unit @ud)) =/ next-slice=time (mul +((div now.bowl slice)) slice) :* %3 pending sending finding history ship-quota allowances next-nonce next-batch next-slice pre own spo pk slice quota derive frequency endpoint contract chain-id resend-time update-rate == =? old-state ?=(%3 -.old-state) ^- app-state =, old-state =/ fallback-gas-price=@ud 10.000.000.000 :* %4 pending sending finding history ship-quota allowances next-nonce next-batch next-slice pre own spo pk slice quota derive frequency endpoint contract chain-id resend-time update-rate fallback-gas-price == ?> ?=(%4 -.old-state) [cards this(state old-state)] :: ++ app-states $%(state-0 state-1 state-2 state-3 app-state) ++ state-0 $: %0 pending=(list pend-tx) sending=(tree [l1-tx-pointer send-tx]) finding=(map keccak ?(%confirmed %failed [=time l1-tx-pointer])) history=(map address:ethereum (tree hist-tx)) next-nonce=(unit @ud) next-batch=time pre=^state:naive own=owners derive=? pk=@ frequency=@dr endpoint=(unit @t) contract=@ux chain-id=@ == :: ++ state-1 $: %1 pending=(list pend-tx) sending=(tree [l1-tx-pointer send-tx]) finding=(map keccak ?(%confirmed %failed [=time l1-tx-pointer])) history=(map address:ethereum (tree hist-tx)) ship-quota=(map ship @ud) next-nonce=(unit @ud) next-batch=time pre=^state:naive own=owners pk=@ slice=@dr quota=@ud derive=? frequency=@dr endpoint=(unit @t) contract=@ux chain-id=@ resend-time=@dr update-rate=@dr == :: ++ state-2 $: %2 pending=(list pend-tx) sending=(tree [l1-tx-pointer send-tx]) finding=(map keccak ?(%confirmed %failed [=time l1-tx-pointer])) history=(map address:ethereum (tree hist-tx)) ship-quota=(map ship @ud) next-nonce=(unit @ud) next-batch=time pre=^state:naive own=owners spo=sponsors pk=@ slice=@dr quota=@ud derive=? frequency=@dr endpoint=(unit @t) contract=@ux chain-id=@ resend-time=@dr update-rate=@dr == ++ state-3 $: %3 pending=(list pend-tx) sending=(tree [l1-tx-pointer send-tx]) finding=(map keccak ?(%confirmed %failed [=time l1-tx-pointer])) history=(map address:ethereum (tree hist-tx)) ship-quota=(map ship @ud) allowances=(map ship (unit @ud)) next-nonce=(unit @ud) next-batch=time next-slice=time pre=^state:naive own=owners spo=sponsors pk=@ slice=@dr quota=@ud derive=? frequency=@dr endpoint=(unit @t) contract=@ux chain-id=@ resend-time=@dr update-rate=@dr == -- :: ++ on-poke |= [=mark =vase] ^- (quip card _this) =^ cards state ?+ mark (on-poke:def mark vase) %roller-action =+ !<(poke=action vase) (on-action:do poke) == [cards this] :: +on-peek: scry paths :: :: /x/pending -> %noun (list pend-tx) :: /x/pending/[~ship] -> %noun (list pend-tx) :: /x/pending/[0xadd.ress] -> %noun (list pend-tx) :: /x/tx/[0xke.ccak]/status -> %noun tx-status :: /x/history/[0xadd.ress] -> %noun (list hist-tx) :: /x/nonce/[~ship]/[proxy] -> %noun (unit @) :: /x/spawned/[~star] -> %noun (list ship) :: /x/unspawned/[~star] -> %noun (list ship) :: /x/sponsored/[~point] -> %noun [(list ship) (list ship)] :: /x/next-batch -> %atom time :: /x/next-slice -> %atom time :: /x/point/[~ship] -> %noun point:naive :: /x/ships/[0xadd.ress] -> %noun (list ship) :: /x/config -> %noun config :: /x/chain-id -> %atom @ :: /x/owned/[0xadd.ress] -> %noun (list ship) :: /x/transfers/[0xadd.ress] -> %noun (list ship) :: /x/manager/[0xadd.ress] -> %noun (list ship) :: /x/voting/[0xadd.ress] -> %noun (list ship) :: /x/spawning/[0xadd.ress] -> %noun (list ship) :: /x/predicted -> %noun state:naive :: /x/quota -> %atom @ud :: /x/slice -> %atom @dr :: /x/over-quota/[~ship] -> %atom ? :: /x/ship-quota/[~ship] -> %atom @ud :: /x/allowances -> %noun (map @p (unit @ud)) :: /x/allowance/[~ship] -> %noun (unit @ud) :: /x/ready -> %atom ? :: ++ on-peek |= =path ^- (unit (unit cage)) ?+ path ~ [%x %pending ~] ``noun+!>(pending) [%x %pending @ ~] (pending-by:on-peek:do i.t.t.path) [%x %tx @ %status ~] (status:on-peek:do i.t.t.path) [%x %pending-tx @ ~] (transaction:on-peek:do i.t.t.path) [%x %history @ ~] (history:on-peek:do i.t.t.path) [%x %nonce @ @ ~] (nonce:on-peek:do i.t.t.path i.t.t.t.path) [%x %spawned @ ~] (spawned:on-peek:do i.t.t.path) [%x %unspawned @ ~] (unspawned:on-peek:do i.t.t.path) [%x %sponsored @ ~] (sponsored:on-peek:do i.t.t.path) [%x %next-batch ~] ``atom+!>(next-batch) [%x %next-slice ~] ``atom+!>(next-slice) [%x %point @ ~] (point:on-peek:do i.t.t.path) [%x %ships @ ~] (ships:on-peek:do i.t.t.path) [%x %config ~] config:on-peek:do [%x %chain-id ~] ``atom+!>(chain-id) [%x %owned @ ~] (points-proxy:on-peek:do %own i.t.t.path) [%x %transfers @ ~] (points-proxy:on-peek:do %transfer i.t.t.path) [%x %manager @ ~] (points-proxy:on-peek:do %manage i.t.t.path) [%x %voting @ ~] (points-proxy:on-peek:do %vote i.t.t.path) [%x %spawning @ ~] (points-proxy:on-peek:do %spawn i.t.t.path) [%x %predicted ~] ``noun+!>(pre) [%x %quota ~] ``atom+!>(quota) [%x %slice ~] ``atom+!>(slice) [%x %over-quota @ ~] (over-quota:on-peek:do i.t.t.path) [%x %ship-quota @ ~] (ship-quota:on-peek:do i.t.t.path) [%x %allowances ~] ``noun+!>(allowances) [%x %allowance @ ~] (allowance:on-peek:do i.t.t.path) [%x %ready ~] ``atom+!>(?=(^ points.pre)) == :: ++ on-arvo |= [=wire =sign-arvo] ^- (quip card _this) ?+ wire (on-arvo:def wire sign-arvo) [%timer ~] ?+ +<.sign-arvo (on-arvo:def wire sign-arvo) %wake =^(cards state (on-timer:do &) [cards this]) == [%quota-timer ~] ?+ +<.sign-arvo (on-arvo:def wire sign-arvo) %wake =^(cards state on-quota-timer:do [cards this]) == :: [%predict ~] ?+ +<.sign-arvo (on-arvo:def wire sign-arvo) %wake =^ effects state (predicted-state canonical):do [(emit effects) this(derive &)] == :: [%resend @ @ ~] =/ [address=@ux nonce=@ud] [(slav %ux i.t.wire) (rash i.t.t.wire dem)] ?+ +<.sign-arvo (on-arvo:def wire sign-arvo) %wake [(send-roll:do address nonce) this] == == :: ++ on-fail |= [=term =tang] ::TODO if crashed during timer, set new timer? how to detect? (on-fail:def term tang) :: ++ on-watch |= =path ^- (quip card _this) :_ this |^ ?+ path (on-watch:def path) [%txs @ ~] ?>(?=(^ (slaw %ux i.t.path)) ~) [%points @ ~] ?>(?=(^ (slaw %ux i.t.path)) ~) [%connect @ ~] [%give %fact ~ (init i.t.path)]~ == :: ++ init |= wat=@t ^- cage :- %roller-data !> ^- roller-data ?~ addr=(slaw %ux wat) !! =/ [=owners =sponsors =points:naive] (give-points u.addr) =/ txs=(tree hist-tx) (give-history u.addr) [chain-id points txs owners sponsors] :: ++ give-points |= =address:ethereum ^- [owners sponsors points:naive] =/ controlled=(list [proxy:naive ship]) (controlled-ships:dice address own) %+ roll controlled |= [[=proxy:naive =ship] =owners =sponsors =points:naive] =/ sponsoring (~(get by spo.state) ship) :+ (~(put ju owners) [proxy address] ship) :: ?~ sponsoring sponsors (~(put by sponsors) ship u.sponsoring) :: %+ put:orp:dice points [ship (need (get:orp:dice points.pre ship))] :: ++ give-history |= =address:ethereum ^- (tree hist-tx) ?~ hist=(~(get by history) address) ~ u.hist -- :: ++ on-leave on-leave:def :: ++ on-agent |= [=wire =sign:agent:gall] ^- (quip card _this) |^ ?+ wire (on-agent:def wire sign) [%send @ @ *] (send-batch i.t.wire i.t.t.wire sign) [%azimuth-events ~] (azimuth-event sign) [%nonce ~] (nonce sign) [%refresh-nonce @ ~] (refresh i.t.wire sign) == :: ++ send-batch |= [address=@t nonce=@t =sign:agent:gall] ^- (quip card _this) =/ [address=@ux nonce=@ud] [(slav %ux address) (rash nonce dem)] ?- -.sign %poke-ack ?~ p.sign %- (slog leaf+"Send batch thread started successfully" ~) [~ this] %- (slog leaf+"{(trip dap.bowl)} couldn't start thread" u.p.sign) :_ this [(leave:spider:do our.bowl wire)]~ :: %watch-ack ?~ p.sign [~ this] =/ =tank leaf+"{(trip dap.bowl)} couldn't start listen to thread" %- (slog tank u.p.sign) [~ this] :: %kick [~ this] :: %fact ?+ p.cage.sign (on-agent:def wire sign) %thread-fail =+ !<([=term =tang] q.cage.sign) %- (slog leaf+"{(trip dap.bowl)} failed" leaf+ tang) =^ cards state (on-batch-result:do address nonce %.n^[%crash 'thread failed']) [cards this] :: %thread-done =+ !<(result=(each @ud [term @t]) q.cage.sign) =^ cards state (on-batch-result:do address nonce result) [cards this] == == :: ++ azimuth-event |= =sign:agent:gall ^- (quip card _this) ?+ -.sign [~ this] %watch-ack ?~ p.sign [~ this] =/ =tank leaf+"{(trip dap.bowl)} couldn't start listen to %azimuth" %- (slog tank u.p.sign) [~ this] :: %fact ?+ p.cage.sign (on-agent:def wire sign) %naive-diffs =+ !<(=diff:naive q.cage.sign) =^ cards state (on-naive-diff:do diff) [cards this] :: %naive-state ~& > %received-azimuth-state =+ !<([nas=^state:naive =indices] q.cage.sign) =^ effects state (predicted-state:do nas indices) [(emit effects) this] == == :: ++ nonce |= =sign:agent:gall ^- (quip card _this) ?- -.sign %poke-ack ?~ p.sign %- (slog leaf+"Nonce thread started successfully" ~) [~ this] %- (slog leaf+"{(trip dap.bowl)} couldn't start thread" u.p.sign) :_ this [(leave:spider:do our.bowl wire)]~ :: %watch-ack ?~ p.sign [~ this] =/ =tank leaf+"{(trip dap.bowl)} couldn't start listen to thread" %- (slog tank u.p.sign) [~ this] :: %kick [~ this] :: %fact ?+ p.cage.sign (on-agent:def wire sign) %thread-fail =+ !<([=term =tang] q.cage.sign) %- (slog leaf+"{(trip dap.bowl)} failed" leaf+ tang) [~ this] :: %thread-done =+ !<(nonce=@ud q.cage.sign) [~ this(next-nonce `nonce)] == == :: ++ refresh |= [nonce=@t =sign:agent:gall] ^- (quip card _this) =/ failed-nonce=@ud (rash nonce dem) ?- -.sign %poke-ack ?~ p.sign %- (slog leaf+"Refresh Nonce thread started successfully" ~) [~ this] %- (slog leaf+"{(trip dap.bowl)} couldn't start thread" u.p.sign) :_ this [(leave:spider:do our.bowl wire)]~ :: %watch-ack ?~ p.sign [~ this] =/ =tank leaf+"{(trip dap.bowl)} couldn't start listen to thread" %- (slog tank u.p.sign) [~ this] :: %kick [~ this] :: %fact ?+ p.cage.sign (on-agent:def wire sign) %thread-fail =+ !<([=term =tang] q.cage.sign) %- (slog leaf+"{(trip dap.bowl)} failed" leaf+ tang) [~ this] :: %thread-done =+ !<(nonce=@ud q.cage.sign) =^ cards state (on-out-of-sync:do nonce failed-nonce) [cards this] == == -- -- :: |_ =bowl:gall :: +canonical: current naive, ownership, and sponsorship state :: ++ canonical |^ nas^own^spo :: ++ nas .^ ^state:naive %gx (scot %p our.bowl) %azimuth (scot %da now.bowl) /nas/noun == :: ++ own .^ owners %gx (scot %p our.bowl) %azimuth (scot %da now.bowl) /own/noun == :: ++ spo .^ sponsors %gx (scot %p our.bowl) %azimuth (scot %da now.bowl) /spo/noun == -- :: +predicted-state :: :: derives predicted state from applying pending & sending txs to :: the provided naive state, discarding invalid txs in the process :: ++ predicted-state |= [nas=^state:naive =indices] ^- (quip update _state) =: pre nas own own.indices spo spo.indices == |^ =^ [nes=_sending updates-1=(list update)] state apply-sending =^ [nep=_pending updates-2=(list update)] state apply-pending :- (welp updates-1 updates-2) state(sending nes, pending nep) :: ++ apply-pending (apply-txs pending %pending next-nonce.state) :: ++ apply-sending =| ups=(list update) =/ valid=_sending ~ =+ sorted=(tap:ors:dice sending) |- ^+ [[valid ups] state] ?~ sorted [[valid ups] state] :: =* key key.i.sorted =* val val.i.sorted =+ txs=(turn txs.val |=(=raw-tx:naive [| 0x0 *time raw-tx])) =^ [new-valid=_txs nups=_ups] state (apply-txs txs %sending `nonce.key) :: we only hear updates for this nonce if it has been sent :: =. valid ::=? valid sent.val %^ put:ors:dice valid key :: TODO: too much functional hackery? val(txs (turn new-valid (cork tail (cork tail tail)))) $(sorted t.sorted, ups (welp ups nups)) :: ++ apply-txs |= [txs=(list pend-tx) type=?(%pending %sending) nonce=(unit @ud)] =/ valid=_txs ~ =| updates=(list update) |- ^+ [[valid updates] state] ?~ txs :_ state [(flop valid) (flop updates)] :: =* tx i.txs =* raw-tx raw-tx.i.txs =* ship ship.from.tx.raw-tx.i.txs =/ =keccak (hash-raw-tx:lib raw-tx) =^ [gud=? up-1=_updates] state (try-apply pre force.tx raw-tx) =/ =roll-tx [ship type keccak (l2-tx +<.tx.raw-tx)] =? valid gud [tx valid] =^ up-2 history ?: gud [~ history] =. time.tx ?: ?=(%pending type) time.tx =+ wer=(~(got by finding) keccak) ?>(?=(^ wer) time.wer) (update-history:dice history [tx]~ %failed) =? finding !gud (~(put by finding) keccak %failed) =. updates :(welp up-2 up-1 updates) $(txs t.txs) -- :: +try-apply: maybe apply the given l2 tx to the naive state :: ++ try-apply |= [nas=^state:naive force=? =raw-tx:naive] ^- [[? ups=(list update)] _state] =/ [success=? updates=(list update) predicted=_nas =indices] (apply-raw-tx:dice force chain-id raw-tx nas own spo) =: pre predicted own own.indices spo spo.indices == [[success updates] state] :: ++ on-action |= =action ^- (quip card _state) =+ local=(team:title our.bowl src.bowl) |^ ?- -.action %commit ?>(local (on-timer |)) %config ?>(local (on-config +.action)) %assign ?>(local `state(allowances (~(put by allowances) +.action))) %refuel ?>(local (refuel-tx +.action)) %cancel (cancel-tx +.action) :: %submit :: TODO: return [~ state] instead of crashing :: if naive state hasn't being retrieved yet? :: ?> ?=(^ points.pre) %- take-tx :* force.action address.action now.bowl sig.action (part-tx-to-full tx.action) == == :: ++ part-tx-to-full |= =part-tx ^- [octs tx:naive] ?- -.part-tx %raw ?~ batch=(parse-raw-tx:naive 0 q.raw.part-tx) ~? lverb [dap.bowl %parse-failed] :: TODO: maybe return a unit if parsing fails? :: !! [raw tx]:-.u.batch :: %don [(gen-tx-octs:lib +.part-tx) +.part-tx] %ful +.part-tx == -- :: ++ on-config |= =config ^- (quip card _state) ?- -.config %frequency [~ state(frequency frequency.config)] %fallback [~ state(fallback-gas-price gas.config)] %resend-time [~ state(resend-time time.config)] %update-rate [~ state(update-rate rate.config)] %slice [~ state(slice slice.config)] %quota [~ state(quota quota.config)] :: %endpoint :- ~ =/ [contract=@ux chain-id=@] =< [naive chain-id] =, azimuth ?- net.config %mainnet mainnet-contracts %ropsten ropsten-contracts %local local-contracts %default contracts == %_ state contract contract chain-id chain-id endpoint `endpoint.config == :: %setkey =? pk.config =((end [3 2] pk.config) '0x') (rsh [3 2] pk.config) ?~ pk=(de:base16:mimes:html pk.config) `state [(get-nonce q.u.pk /nonce) state(pk q.u.pk)] == :: +cancel-tx: cancel a pending transaction :: ++ cancel-tx |= [sig=@ =keccak =l2-tx =ship] ^- (quip card _state) ?^ status=(~(get by finding) keccak) ~? lverb [dap.bowl %tx-not-pending status+u.status] [~ state] :: "cancel: 0x1234abcd" :: =/ message=octs %: cad:naive 3 8^'cancel: ' :: =; hash=@t (met 3 hash)^hash (crip "0x{((x-co:co 65) keccak)}") :: ~ == ?~ addr=(verify-sig:lib sig message) ~? lverb [dap.bowl %cancel-sig-fail] [~ state] =^ time pending =| nep=(list pend-tx) |- ^- [(unit time) _nep] ?~ pending [~ (flop nep)] ?: =(keccak (hash-raw-tx:lib raw-tx.i.pending)) [`time.i.pending (weld (flop nep) t.pending)] $(pending t.pending, nep [i.pending nep]) ?~ time ~? lverb [dap.bowl %weird-tx-not-pending] [~ state] :- ~ %_ state history =+ txs=(~(got by history) u.addr) =. txs +:(del:orh:dice txs u.time) %+ ~(put by history) u.addr %^ put:orh:dice txs u.time [ship %cancelled keccak l2-tx] == :: +refuel-tx: bumps the gas price for a sending tx :: ++ refuel-tx |= [nonce=@ud address=(unit address:ethereum) gas=@ud] ^- (quip card _state) =/ batch=[address:ethereum @ud] :_ nonce ?^(address u.address (get-address pk.state)) =. sending ?~ send-tx=(get:ors:dice sending batch) sending %^ put:ors:dice sending batch u.send-tx(next-gas-price gas) `state :: +take-tx: accept submitted l2 tx into the :pending list :: ++ take-tx |= =pend-tx ^- (quip card _state) =* ship ship.from.tx.raw-tx.pend-tx =/ [exceeded=? next-quota=@] (quota-exceeded ship) ?: exceeded [~ state] =/ sign-address=(unit @ux) (extract-address:lib raw-tx.pend-tx pre chain-id) =? address.pend-tx ?=(^ sign-address) (need sign-address) =^ [gud=? cards-1=(list update)] state (try-apply pre [force raw-tx]:pend-tx) =^ cards-2 history (update-history:dice history [pend-tx]~ ?:(gud %pending %failed)) ?. gud :_ state :: %point and (%failed) %tx updates :: (emit cards-1) =: pending (snoc pending pend-tx) ship-quota (~(put by ship-quota) ship next-quota) == :: toggle derivation :: :_ state(derive ?:(derive | derive)) ;: welp (emit cards-1) :: %point updates (emit cards-2) :: %tx updates :: ?. derive ~ :: defer updating predicted state from canonical :: [(wait:b:sys /predict (add update-rate now.bowl))]~ == :: +on-timer: every :frequency, freeze :pending txs roll and start sending it :: ++ on-timer |= new=? ^- (quip card _state) =^ updates-1 state (predicted-state canonical) =^ cards state ?: =(~ pending) [~ state] ?~ next-nonce ~? lverb [dap.bowl %missing-roller-nonce] [~ state] :: this guarantees that next-nonce is only incremented :: when the thread that's sending the previous batch :: has come back and confirms that it was sent to L1 :: ?: pending-batch :: this would postpone sending the batch for a whole "frequency" :: TODO: set up a timer to retry this in ~mX ? :: ~? lverb [dap.bowl %nonce-out-sync] [~ state] =/ nonce=@ud u.next-nonce =^ updates-2 history (update-history:dice history pending %sending) =/ =address:ethereum (get-address pk) =: pending ~ derive & next-nonce `+(u.next-nonce) :: sending %^ put:ors:dice sending [address nonce] [0 | (turn pending (cork tail (cork tail tail)))] :: finding %- ~(gas by finding) %+ turn pending |= pend-tx (hash-raw-tx:lib raw-tx)^[time address nonce] == :_ state ;: welp (emit updates-1) (emit updates-2) (send-roll address nonce) == ?. new cards^state =^ card next-batch (set-roller:timer frequency now.bowl) [card cards]^state :: +on-quota-timer: resets tx quota for all ships :: ++ on-quota-timer ^- (quip card _state) =^ card next-slice (set-quota:timer slice now.bowl) :- [card]~ state(ship-quota *(map ship @ud)) :: +get-nonce: retrieves the latest nonce :: ++ get-nonce |= [pk=@ =wire] ^- (list card) ?~ endpoint ~?(lverb [dap.bowl %no-endpoint] ~) (start-thread:spider bowl wire [%roller-nonce !>([u.endpoint pk])]) :: ++ quota-exceeded |= =ship ^- [exceeded=? next-quota=@ud] =/ quota=(unit @ud) (~(get by ship-quota) ship) =/ allow=(unit (unit @ud)) (~(get by allowances) ship) ?~ quota :_ 1 ?~ allow | ?~(u.allow | =(u.u.allow 0)) :_ +(u.quota) ?~ allow (gte u.quota quota.state) :: ship has been whitelisted ("?~ u.allow" means no quota restrictions) :: ?~(u.allow | (gte u.quota u.u.allow)) :: +pending-batch: checks if the previous nonce has been sent :: :: If %.y, the roller has been trying to send a batch for a whole frequency. :: :: The cause of not sending the previous batch can happen because :: of thread failure (see line 1251) or because the private key loaded onto :: the roller was used for something other than signing L2 batches right :: after the send-batch thread started. :: :: After reaching this state, any subsequents attempts have failed (L: 1251) :: (prior to updating the sending nonce if we hit the on-out-of-sync case) :: which would possibly require a manual intervention (e.g. changing the :: ethereum node URL, adding funds to the roller's address, manually bumping :: the fall-back-gas-price or refueling the current batch with higher gas) :: ++ pending-batch ^- ? ?~ newest-batch=(ram:ors:dice sending) | !=(sent.val.u.newest-batch &) :: +on-out-of-sync: handles a mismatch between current and expected l1 nonce :: ++ on-out-of-sync |= [nonce=@ud failed-nonce=@ud] ^- (quip card _state) ~& > %begin-on-out-of-sync =/ =address:ethereum (get-address pk) :: we only consider nonces >= than the one that failed :: =/ failed-sending=(list [l1-tx-pointer send-tx]) %- tap:ors:dice :: (range exclusive) :: (lot:ors:dice sending [`[address (dec failed-nonce)] ~]) =/ confirmed-sending=_sending (lot:ors:dice sending [~ `[address failed-nonce]]) =/ [nes=_sending nif=_finding sih=_history] %- tail %+ roll failed-sending |= $: [p=l1-tx-pointer q=send-tx] new-nonce=_nonce sending=_confirmed-sending finding=_finding history=_history == |^ =* nonce nonce.p =* txs txs.q :: TODO: this shouldn't be needed ?: (lth nonce.p failed-nonce) ~& >>> [%on-out-of-sync nonce+nonce.p failed+failed-nonce] [new-nonce sending finding history] :+ +(new-nonce) fix-sending process-l2-txs :: ++ fix-sending (put:ors:dice sending [p(nonce new-nonce) q(sent %.n)]) :: ++ process-l2-txs %+ roll txs.q |= [=raw-tx:naive nif=_finding sih=_history] =/ =keccak (hash-raw-tx:lib raw-tx) |^ ?~ val=(~(get by nif) keccak) [nif sih] ?. ?=(^ u.val) [nif sih] :- (fix-finding u.val) (fix-history time.u.val address.u.val) :: ++ fix-finding |= val=[time l1-tx-pointer] ^+ nif (~(put by nif) keccak val(nonce.+ new-nonce)) :: ++ fix-history |= [=time =address:ethereum] ^+ sih =* ship ship.from.tx.raw-tx =/ l2-tx (l2-tx +<.tx.raw-tx) =/ =roll-tx [ship %sending keccak l2-tx] =+ txs=(~(got by sih) address) =. txs +:(del:orh:dice txs time) %+ ~(put by sih) address (put:orh:dice txs [time roll-tx]) -- -- =: sending nes finding nif history sih next-nonce `+(nonce) == ~& > %end-on-out-of-sync [(send-roll address nonce) state] :: +send-roll: start thread to submit roll from :sending to l1 :: ++ send-roll |= [=address:ethereum =nonce:naive] ^- (list card) ?~ endpoint ~? lverb [dap.bowl %no-endpoint] ~ :: if this nonce isn't in the sending queue anymore, it's done :: ?. (has:ors:dice sending [address nonce]) ~? lverb [dap.bowl %done-sending [address nonce]] ~ :: if there are no txs for this nonce, don't send it :: ?: =(0 (lent txs:(got:ors:dice sending [address nonce]))) ~& >>> [dap.bowl %empty-nonce] ~ :: start the thread, passing in the l2 txs to use :: TODO should go ahead and set resend timer in case thread hangs, or nah? :: %^ start-thread:spider bowl /send/(scot %ux address)/(scot %ud nonce) :- %roller-send !> ^- rpc-send-roll :* u.endpoint contract chain-id pk nonce fallback-gas-price :: =< [next-gas-price txs] (got:ors:dice sending [address nonce]) == :: +on-batch-result: await resend after thread success or failure :: ++ on-batch-result |= [=address:ethereum nonce=@ud result=(each @ud [term @t])] ^- (quip card _state) :: print error if there was one :: ~? ?=(%| -.result) [dap.bowl %send-error +.p.result] :: if this nonce was removed from the queue by a :: previous resend-with-higher-gas thread, it's done :: ?. (has:ors:dice sending [address nonce]) ~? lverb [dap.bowl %done-sending [address nonce]] `state ?: ?=([%| %not-sent %batch-parse-error] result) :: if we tried to send a malformed batch, remove it from the queue :: ~& >>> [dap.bowl %removing-malformed-batch] =^ * sending (del:ors:dice sending [address nonce]) `state =/ =send-tx (got:ors:dice sending [address nonce]) =? sending ?| ?=(%& -.result) ?=([%| %crash *] result) == %^ put:ors:dice sending [address nonce] :: update gas price for this tx in state :: ?: ?=(%& -.result) send-tx(next-gas-price p.result, sent &) :: if the thread crashed, we don't know the gas used, :: so we udpate it manually, same as the thread would do :: %_ send-tx next-gas-price ?: =(0 next-gas-price.send-tx) fallback-gas-price (add next-gas-price.send-tx 5.000.000.000) == :_ state ?: ?& !sent.send-tx ?=([%| %not-sent %behind-nonce] result) == :: start out-of-sync flow if our L1 nonce is behind :: and this transaction hasn't been sent out yet :: ~& > [dap.bowl %start-refresh-nonce-thread] (get-nonce pk.state /refresh-nonce/(scot %ud nonce)) :: resend the l1 tx in five minutes if: :: :: - the thread succeeds and returns the next gas price :: - the thread failed because: :: - the roll's eth addres doesn't have enough funds to pay :: - the thread crashes :: - the sending L1 nonce is ahead of the expected one :: - a general ethereum error :: :_ ~ %+ wait:b:sys /resend/(scot %ux address)/(scot %ud nonce) (add resend-time now.bowl) :: +on-naive-diff: process l2 tx confirmations :: ++ on-naive-diff |= =diff:naive ^- (quip card _state) ?. |(?=(%point -.diff) ?=(%tx -.diff)) [~ state] =; [cards=(list card) =_state] :_ state(derive ?:(derive | derive)) %+ weld cards ?. derive ~ :: defer updating state from canonical :: [(wait:b:sys /predict (add update-rate now.bowl))]~ :: ?: ?=(%point -.diff) [~ state] ?> ?=(%tx -.diff) =/ =keccak (hash-raw-tx:lib raw-tx.diff) ?~ wer=(~(get by finding) keccak) :: tx not submitted by this roller :: [~ state] ?@ u.wer ~? &(?=(%confirmed u.wer) ?=(~ err.diff)) [dap.bowl %weird-double-confirm from.tx.raw-tx.diff] [~ state] =* nonce nonce.u.wer =* tx-address address.u.wer =* ship ship.from.tx.raw-tx.diff =* time time.u.wer =* tx tx.raw-tx.diff =/ l2-tx (l2-tx +<.tx) :: remove the tx from the sending map :: =. sending =/ =address:ethereum (get-address pk) ?~ sen=(get:ors:dice sending [address nonce]) ~? lverb [dap.bowl %weird-double-remove nonce+nonce] sending ?~ nin=(find [raw-tx.diff]~ txs.u.sen) ~? lverb [dap.bowl %weird-unknown nonce+nonce] sending =. txs.u.sen (oust [u.nin 1] txs.u.sen) ?~ txs.u.sen ~? lverb [dap.bowl %done-with-nonce [address nonce]] =^ * sending (del:ors:dice sending [address nonce]) sending ^+ sending (put:ors:dice sending [address nonce] u.sen) :: update the finding map with the new status :: =. finding %+ ~(put by finding) keccak ?~ err.diff %confirmed :: if we kept the forced flag around for longer, we could notify of :: unexpected tx failures here. would that be useful? probably not? :: ~? !forced [dap.bowl %aggregated-tx-failed-anyway err.diff] %failed :: =^ updates history %^ update-history:dice history [| tx-address time raw-tx.diff]~ ?~(err.diff %confirmed %failed) [(emit updates) state] :: ++ on-peek |% ++ pending-by |= wat=@t ?~ who=(slaw %p wat) :: by-address :: ?~ wer=(slaw %ux wat) [~ ~] =; pending=(list pend-tx) ``noun+!>(pending) %+ skim pending |= pend-tx :: TODO: use this instead? =(u.wer address) :: ?~ addr=(get-l1-address tx.raw-tx pre) | =(u.wer u.addr) :: by-ship :: =; pending=(list pend-tx) ``noun+!>(pending) %+ skim pending |= pend-tx =(u.who ship.from.tx.raw-tx) :: ++ status |= wat=@t ?~ keccak=(slaw %ux wat) [~ ~] :+ ~ ~ :- %noun !> ^- tx-status ?^ status=(~(get by finding) u.keccak) ?@ u.status [u.status ~] [%sending `+.u.status] :: TODO: potentially slow! =; known=? [?:(known %pending %unknown) ~] %+ lien pending |= pend-tx =(u.keccak (hash-raw-tx:lib raw-tx)) :: ++ transaction |= wat=@t ?~ keccak=(slaw %ux wat) [~ ~] :+ ~ ~ :- %noun !> ^- (unit pend-tx) :: TODO: potentially slow! |- ?~ pending ~ =* tx i.pending ?: =(u.keccak (hash-tx:lib raw.raw-tx.tx)) `tx $(pending t.pending) :: ++ history |= wat=@t :+ ~ ~ :- %noun !> ^- (list hist-tx) ?~ addr=(slaw %ux wat) ~ ?~ hist=(~(get by ^history) u.addr) ~ (tap:orh:dice u.hist) :: ++ nonce |= [who=@t proxy=@t] ?~ who=(slaw %p who) [~ ~] ?. ?=(proxy:naive proxy) [~ ~] :+ ~ ~ :- %noun !> ^- (unit @) ?~ point=(get:orp:dice points.pre u.who) ~ =< `nonce (proxy-from-point:naive proxy u.point) :: ++ spawned |= wat=@t :+ ~ ~ :- %noun !> ^- (list @p) ?~ star=(slaw %p wat) ~ =; range (turn range head) :: range exclusive [star first-moon-last-planet] :: %- tap:orp:dice (lot:orp:dice points.pre [`u.star `(cat 3 u.star 0x1.ffff)]) :: ++ unspawned |= wat=@t :+ ~ ~ :- %noun !> ^- (list @p) ?~ star=(slaw %p wat) ~ =/ spawned=(set @p) =; points (~(gas in *(set @p)) (turn points head)) %- tap:orp:dice (lot:orp:dice points.pre [`u.star `(cat 3 u.star 0x1.ffff)]) =/ children=(list @p) (turn (gulf 0x1 0xffff) |=(a=@ (cat 3 u.star a))) %+ murn children |= =ship ?: (~(has in spawned) ship) ~ `ship :: ++ sponsored |= wat=@t :+ ~ ~ :- %noun !> ^- [(list ship) (list ship)] ?~ who=(slaw %p wat) [~ ~] ?~ sponsor=(~(get by spo) u.who) [~ ~] :- ~(tap in residents.u.sponsor) ~(tap in requests.u.sponsor) :: ++ point |= wat=@t ?~ ship=(rush wat ;~(pfix sig fed:ag)) ``noun+!>(*(unit point:naive)) ``noun+!>((get:orp:dice points.pre u.ship)) :: ++ ships |= wat=@t :+ ~ ~ :- %noun !> ^- (list ship) ?~ addr=(slaw %ux wat) ~ (turn (controlled-ships:dice u.addr own) tail) :: ++ config :+ ~ ~ :- %noun !> ^- roller-config :* next-batch frequency resend-time update-rate contract chain-id slice quota == :: ++ points-proxy |= [=proxy:naive wat=@t] :+ ~ ~ :- %noun !> ^- (list ship) ?~ addr=(slaw %ux wat) ~ ~(tap in (~(get ju own) [proxy u.addr])) :: ++ over-quota |= wat=@t ?~ who=(slaw %p wat) [~ ~] =/ [exceeded=? *] (quota-exceeded u.who) ``atom+!>(exceeded) :: ++ ship-quota |= wat=@t ?~ who=(slaw %p wat) [~ ~] =/ [exceeded=? next-quota=@ud] (quota-exceeded u.who) =/ allow=(unit (unit @ud)) (~(get by allowances) u.who) :+ ~ ~ :- %atom !> ^- @ud ?: exceeded 0 =/ max-quota=@ quota.state ?: &(?=(^ allow) ?=(~ u.allow)) max-quota =? max-quota &(?=(^ allow) ?=(^ u.allow)) u.u.allow (sub max-quota (dec next-quota)) :: ++ allowance |= wat=@t ?~ who=(slaw %p wat) [~ ~] :+ ~ ~ :- %noun !> ^- (unit @ud) ?^ allow=(~(get by allowances) u.who) u.allow `quota.state -- --