:: aggregator: 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 remaining general work: :: - hook up timer callbacks :: ::TODO questions: :: - it's a bit weird how we just assume the raw and tx in raw-tx to match... :: /- *aggregator /+ azimuth, naive, default-agent, ethereum, dbug, verb, lib=naive-transactions :: |% +$ state-0 $: %0 :: pending: the next l2 txs to be sent :: sending: the l2 txs currently sending/awaiting l2 confirmation :: finding: raw-tx-hash reverse lookup for sending map :: next-nonce: next l1 nonce to use :: next-batch: when then next l2 batch will be sent :: pre: predicted l2 state :: pending=(list pend-tx) :: $= sending %+ map l1-tx-pointer [next-gas-price=@ud txs=(list raw-tx:naive)] :: finding=(map keccak $?(%confirmed %failed l1-tx-pointer)) next-nonce=(unit @ud) next-batch=time pre=^state:naive :: :: pk: private key to send the roll :: frequency: time to wait between sending batches (TODO fancier) :: endpoint: ethereum rpc endpoint to use :: contract: ethereum contract address :: chain-id: mainnet, ropsten, local (https://chainid.network/) :: pk=@ frequency=@dr endpoint=(unit @t) contract=@ux chain-id=@ == :: +$ config $% [%frequency frequency=@dr] [%setkey pk=@] [%endpoint endpoint=@t] [%network net=?(%mainnet %ropsten %local)] == :: +$ action $% [%submit force=? sig=@ tx=part-tx] [%cancel sig=@ keccak=@] [%commit ~] ::TODO maybe pk=(unit @) later [%config config] == :: +$ card card:agent:gall :: ++ resend-time ~m5 :: ++ lverb & :: ++ orm ((ordered-map ship point:naive) aor) -- :: =| state-0 =* state - :: %- agent:dbug %+ verb | ^- agent:gall :: =< |_ =bowl:gall +* this . do ~(. +> bowl) def ~(. (default-agent this %|) bowl) :: ++ on-init ^- (quip card _this) =. frequency ~h1 =. contract naive:local-contracts:azimuth =. chain-id chain-id:local-contracts:azimuth =^ card next-batch set-timer :_ this :~ card [%pass /azimuth-txs %agent [our.bowl %azimuth] %watch /txs] == :: ++ on-save !>(state) ++ on-load |= old=vase ^- (quip card _this) [~ this(state !<(state-0 old))] :: ++ on-poke |= [=mark =vase] ^- (quip card _this) =^ cards state ?+ mark (on-poke:def mark vase) %aggregator-action =+ !<(poke=action vase) (on-action:do poke) == [cards this] :: +on-peek: scry paths ::TODO reevaluate wrt recent flow changes :: :: /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/nonce/[~ship]/[0xadd.ress] -> %atom @ :: /x/next-batch -> %atom time :: ++ on-peek |= =path ^- (unit (unit cage)) |^ ?+ path ~ [%x %pending ~] ``noun+!>(pending) [%x %pending @ ~] (pending-by i.t.t.path) [%x %tx @ %status ~] (status i.t.t.path) [%x %nonce @ @ ~] (nonce i.t.t.path i.t.t.t.path) [%x %spawned @ ~] (spawned i.t.t.path) [%x %next-batch ~] ``noun+!>(next-batch) == :: ++ 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 deduce address from sig.raw-tx ? !! :: 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 status] ::TODO potentially slow! =; known=? [?:(known %pending %unknown) ~] %+ lien pending |= [* raw-tx:naive] =(u.keccak (hash-tx raw)) :: ++ nonce |= [who=@t proxy=@t] ?~ who=(slaw %p who) [~ ~] ?. ?=(proxy:naive proxy) [~ ~] :: uses cached naive state :: ::TODO or should we ~ when !(~(has by points.pre) who) ? =/ =point:naive (~(gut by points.pre) u.who *point:naive) =+ (proxy-from-point:naive proxy point) ``atom+!>(nonce) :: ++ spawned |= wat=@t :+ ~ ~ :- %noun !> ^- (list [=^ship =address:ethereum]) ?~ star=(slaw %p wat) ~ :: TODO: move to /lib/naive :: =/ points (gas:orm ~ ~(tap by points.pre)) =/ range %+ subset:orm points.pre :: range exclusive [star first-planet-next-star] :: TODO: make range inclusive? [first-planet last-planet] :: [`u.star `(cat 3 +(u.star) 0x1)] %+ turn (tap:orm range) |= [=ship =point:naive] ^- [=^ship =address:ethereum] :- ship address:(proxy-from-point:naive %own point) -- :: ++ 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]) == :: [%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 on-watch:def ++ 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-txs ~] (azimuth-update sign) [%nonce ~] (nonce 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 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^'thread failed') [cards this] :: %thread-done =+ !<(result=(each @ud @t) q.cage.sign) =^ cards state (on-batch-result:do address nonce result) [cards this] == == :: ++ azimuth-update |= =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 :: cache naive state, received upon innitializing subscription :: ~& > %get-naive-state :: this assumes that %azimuth has already processed eth data :: =^ pending pre (predicted-state !<(^state:naive q.cage.sign)) [~ this(pending pending)] == == :: ++ 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 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)] == == -- -- :: |_ =bowl:gall ::TODO /lib/sys.hoon? ++ sys |% ++ b |% ++ wait |= [=wire =time] ^- card [%pass wire %arvo %b %wait time] -- -- ::TODO /lib/spider.hoon? ++ spider |% ++ start-thread |= [=wire thread=term arg=vase] ^- (list card) =/ tid=@ta (rap 3 thread '--' (scot %uv eny.bowl) ~) =/ args [~ `tid thread arg] :~ [%pass wire %agent [our.bowl %spider] %watch /thread-result/[tid]] [%pass wire %agent [our.bowl %spider] %poke %spider-start !>(args)] == :: ++ leave |= =path ^- card [%pass path %agent [our.bowl %spider] %leave ~] -- :: ++ hash-tx keccak-256:keccak:crypto :: ++ hash-raw-tx |= =raw-tx:naive ^- @ux (hash-tx raw.raw-tx) :: ++ part-tx-to-full |= =part-tx ^- [octs tx:naive] ?- -.part-tx %raw ?~ batch=(parse-raw-tx:naive q.raw.part-tx) ~& %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 == :: +canonical-state: load current state instead of cached state :: ++ canonical-state .^ ^state:naive %gx (scot %p our.bowl) %azimuth (scot %da now.bowl) /nas/nas == :: +predicted-state :: :: derives predicted state from pending/sending txs and :: canonical state, discarding invalid txs in the process. :: ++ predicted-state |= nas=^state:naive ^- [_pending _nas] :: apply our pending transactions :: |^ =^ new-sending nas apply-sending =. sending new-sending (update-txs pending) :: ++ apply-sending =| valid=_sending =+ sending=~(tap by sending) |- ^+ [valid nas] ?~ sending [valid nas] :: =* key p.i.sending =* val q.i.sending =^ new-valid nas :: prepends force=%.n to all txs :: (update-txs (turn txs.val (lead |))) =. valid %+ ~(put by valid) key val(txs (turn new-valid tail)) $(sending t.sending) :: ++ update-txs |= txs=(list [force=? =raw-tx:naive]) =/ valid=_txs ~ |- ^+ [valid nas] ?~ txs [valid nas] =* tx i.txs =^ gud=? nas (try-apply nas tx) =? valid gud (snoc valid tx) =? finding =(gud %.n) %- ~(put by finding) [(hash-raw-tx raw-tx.tx) %failed] $(txs t.txs) -- :: +try-apply: :: ++ try-apply |= [nas=^state:naive force=? =raw-tx:naive] ^- [success=? _nas] =/ chain-t=@t (ud-to-ascii:naive chain-id) ?. (verify-sig-and-nonce:naive verifier:lib chain-t nas raw-tx) ~& [%verify-sig-and-nonce %failed] [force nas] :: =^ * points.nas (increment-nonce:naive nas from.tx.raw-tx) :: ?~ nex=(receive-tx:naive nas tx.raw-tx) [force nas] [& +.u.nex] :: ++ get-l1-address |= [=tx:naive nas=^state:naive] ^- address:ethereum ?~ point=(~(get by points.nas) ship.from.tx) !! =< address (proxy-from-point:naive proxy.from.tx u.point) :: ++ on-action |= =action ^- (quip card _state) ?- -.action %commit on-timer %config (on-config +.action) %cancel !! ::TODO :: %submit =^ success state ^- [? _state] %^ take-tx force.action sig.action (part-tx-to-full tx.action) ~? =(success |) [dap.bowl %submit-failed action] [~ state] == :: ++ on-config |= =config ^- (quip card _state) ?- -.config %frequency [~ state(frequency frequency.config)] %endpoint [~ state(endpoint `endpoint.config)] :: %network :- ~ =/ [contract=@ux chain-id=@] =< [naive chain-id] =, azimuth ?- net.config %mainnet mainnet-contracts %ropsten ropsten-contracts %local local-contracts == state(contract contract, chain-id chain-id) :: %setkey ?~ pk=(de:base16:mimes:html pk.config) `state [(get-nonce q.u.pk) state(pk q.u.pk)] == :: TODO: move address to state? :: ++ get-address ^- address:ethereum (address-from-prv:key:ethereum pk) :: +take-tx: accept submitted l2 tx into the :pending list ::TODO rewrite :: ++ take-tx |= [force=? =raw-tx:naive] ^- [success=? _state] =^ nep pre (predicted-state canonical-state) =^ success pre (try-apply pre force raw-tx) ::TODO want to notify about dropped pendings, or no? client prolly polls... =? pending success (snoc nep [force raw-tx]) [success state] :: +set-timer: %wait until next whole :frequency :: ++ set-timer ^- [=card =time] =+ time=(mul +((div now.bowl frequency)) frequency) [(wait:b:sys /timer time) time] :: +on-timer: every :frequency, freeze :pending txs roll and start sending it :: ++ on-timer ^- (quip card _state) =^ cards state ?: =(~ pending) [~ state] ?~ next-nonce ~&([dap.bowl %no-nonce] [~ state]) =/ nonce=@ud u.next-nonce =: pending ~ next-nonce `+(u.next-nonce) :: sending %+ ~(put by sending) [get-address nonce] [0 (turn pending tail)] :: finding %- ~(gas by finding) %+ turn pending |= [* =raw-tx:naive] :- (hash-raw-tx raw-tx) [(get-l1-address tx.raw-tx pre) nonce] == [(send-roll get-address nonce) state] =^ card next-batch set-timer [[card cards] state] :: +get-nonce: retrieves the latest nonce :: ++ get-nonce |= pk=@ ^- (list card) ?~ endpoint ~&([dap.bowl %no-endpoint] ~) (start-thread:spider /nonce [%aggregator-nonce !>([u.endpoint pk])]) :: :: +send-roll: start thread to submit roll from :sending to l1 :: ++ send-roll |= [=address:ethereum nonce=@ud] ^- (list card) :: if this nonce isn't in the sending queue anymore, it's done :: ?. (~(has by sending) [address nonce]) ~? lverb [dap.bowl %done-sending [address nonce]] ~ :: start the thread, passing in the l2 txs to use :: ?~ endpoint ~&([dap.bowl %no-endpoint] ~) ::TODO should go ahead and set resend timer in case thread hangs, or nah? %+ start-thread:spider /send/(scot %ux address)/(scot %ud nonce) :- %aggregator-send !> ^- rpc-send-roll :* u.endpoint contract chain-id pk nonce (~(got by sending) [address nonce]) == :: +on-batch-result: await resend after thread success or failure :: ++ on-batch-result |= [=address:ethereum nonce=@ud result=(each @ud @t)] ^- (quip card _state) :: update gas price for this tx in state :: =? sending ?=(%& -.result) %+ ~(jab by sending) [address nonce] (cork tail (lead p.result)) :: print error if there was one :: ~? ?=(%| -.result) [dap.bowl %send-error p.result] :: resend the l1 tx in five minutes :: :_ state :_ ~ %+ 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) ?. ?=(%tx -.diff) [~ state] =/ =keccak (hash-raw-tx raw-tx.diff) ?~ wer=(~(get by finding) keccak) [~ state] :: if we had already seen the tx, no-op :: ?@ u.wer ~? &(?=(%confirmed u.wer) ?=(~ err.diff)) [dap.bowl %weird-double-confirm from.tx.raw-tx.diff] [~ state] =* nonce nonce.u.wer :: remove the tx from the sending map :: =. sending ?~ sen=(~(get by sending) [get-address nonce]) ~& [dap.bowl %weird-double-remove] sending ?~ nin=(find [raw-tx.diff]~ txs.u.sen) ~& [dap.bowl %weird-unknown] sending =. txs.u.sen (oust [u.nin 1] txs.u.sen) ?~ txs.u.sen ~? lverb [dap.bowl %done-with-nonce [get-address nonce]] (~(del by sending) [get-address nonce]) (~(put by sending) [get-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 :: because we update the predicted state upon receiving :: a new L2 tx via the rpc-api, this will only succeed when :: we hear about a L2 tx that hasn't been submitted by us :: =^ nep pre (predicted-state canonical-state) [~ state(pending nep)] :: --