670 lines
22 KiB
Nim
670 lines
22 KiB
Nim
## Nim-Codex
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## Copyright (c) 2022 Status Research & Development GmbH
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## Licensed under either of
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## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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## * MIT license ([LICENSE-MIT](LICENSE-MIT))
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## at your option.
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## This file may not be copied, modified, or distributed except according to
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## those terms.
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##
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## +--------------------------------------+
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## | RESERVATION |
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## +----------------------------------------+ |--------------------------------------|
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## | AVAILABILITY | | ReservationId | id | PK |
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## |----------------------------------------| |--------------------------------------|
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## | AvailabilityId | id | PK |<-||-------o<-| AvailabilityId | availabilityId | FK |
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## |----------------------------------------| |--------------------------------------|
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## | UInt256 | totalSize | | | UInt256 | size | |
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## |----------------------------------------| |--------------------------------------|
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## | UInt256 | freeSize | | | UInt256 | slotIndex | |
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## |----------------------------------------| +--------------------------------------+
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## | UInt256 | duration | |
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## |----------------------------------------|
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## | UInt256 | minPrice | |
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## |----------------------------------------|
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## | UInt256 | maxCollateral | |
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## +----------------------------------------+
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import pkg/upraises
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push: {.upraises: [].}
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import std/sequtils
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import std/sugar
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import std/typetraits
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import std/sequtils
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import pkg/chronos
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import pkg/datastore
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import pkg/nimcrypto
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import pkg/questionable
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import pkg/questionable/results
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import pkg/stint
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import pkg/stew/byteutils
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import ../codextypes
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import ../logutils
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import ../clock
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import ../stores
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import ../market
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import ../contracts/requests
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import ../utils/json
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import ../units
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export requests
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export logutils
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logScope:
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topics = "sales reservations"
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type
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AvailabilityId* = distinct array[32, byte]
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ReservationId* = distinct array[32, byte]
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SomeStorableObject = Availability | Reservation
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SomeStorableId = AvailabilityId | ReservationId
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Availability* = ref object
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id* {.serialize.}: AvailabilityId
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totalSize* {.serialize.}: UInt256
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freeSize* {.serialize.}: UInt256
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duration* {.serialize.}: UInt256
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minPrice* {.serialize.}: UInt256 # minimal price paid for the whole hosted slot for the request's duration
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maxCollateral* {.serialize.}: UInt256
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Reservation* = ref object
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id* {.serialize.}: ReservationId
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availabilityId* {.serialize.}: AvailabilityId
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size* {.serialize.}: UInt256
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requestId* {.serialize.}: RequestId
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slotIndex* {.serialize.}: UInt256
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Reservations* = ref object of RootObj
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availabilityLock: AsyncLock # Lock for protecting assertions of availability's sizes when searching for matching availability
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repo: RepoStore
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onAvailabilityAdded: ?OnAvailabilityAdded
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GetNext* = proc(): Future[?seq[byte]] {.upraises: [], gcsafe, closure.}
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IterDispose* = proc(): Future[?!void] {.gcsafe, closure.}
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OnAvailabilityAdded* = proc(availability: Availability): Future[void] {.upraises: [], gcsafe.}
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StorableIter* = ref object
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finished*: bool
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next*: GetNext
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dispose*: IterDispose
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ReservationsError* = object of CodexError
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ReserveFailedError* = object of ReservationsError
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ReleaseFailedError* = object of ReservationsError
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DeleteFailedError* = object of ReservationsError
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GetFailedError* = object of ReservationsError
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NotExistsError* = object of ReservationsError
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SerializationError* = object of ReservationsError
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UpdateFailedError* = object of ReservationsError
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BytesOutOfBoundsError* = object of ReservationsError
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const
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SalesKey = (CodexMetaKey / "sales").tryGet # TODO: move to sales module
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ReservationsKey = (SalesKey / "reservations").tryGet
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proc hash*(x: AvailabilityId): Hash {.borrow.}
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proc all*(self: Reservations, T: type SomeStorableObject): Future[?!seq[T]] {.async.}
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template withLock(lock, body) =
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try:
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await lock.acquire()
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body
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finally:
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if lock.locked:
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lock.release()
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proc new*(T: type Reservations,
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repo: RepoStore): Reservations =
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T(availabilityLock: newAsyncLock(),repo: repo)
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proc init*(
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_: type Availability,
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totalSize: UInt256,
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freeSize: UInt256,
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duration: UInt256,
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minPrice: UInt256,
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maxCollateral: UInt256): Availability =
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var id: array[32, byte]
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doAssert randomBytes(id) == 32
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Availability(id: AvailabilityId(id), totalSize:totalSize, freeSize: freeSize, duration: duration, minPrice: minPrice, maxCollateral: maxCollateral)
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proc init*(
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_: type Reservation,
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availabilityId: AvailabilityId,
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size: UInt256,
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requestId: RequestId,
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slotIndex: UInt256
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): Reservation =
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var id: array[32, byte]
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doAssert randomBytes(id) == 32
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Reservation(id: ReservationId(id), availabilityId: availabilityId, size: size, requestId: requestId, slotIndex: slotIndex)
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func toArray(id: SomeStorableId): array[32, byte] =
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array[32, byte](id)
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proc `==`*(x, y: AvailabilityId): bool {.borrow.}
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proc `==`*(x, y: ReservationId): bool {.borrow.}
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proc `==`*(x, y: Reservation): bool =
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x.id == y.id
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proc `==`*(x, y: Availability): bool =
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x.id == y.id
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proc `$`*(id: SomeStorableId): string = id.toArray.toHex
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proc toErr[E1: ref CatchableError, E2: ReservationsError](
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e1: E1,
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_: type E2,
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msg: string = e1.msg): ref E2 =
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return newException(E2, msg, e1)
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logutils.formatIt(LogFormat.textLines, SomeStorableId): it.short0xHexLog
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logutils.formatIt(LogFormat.json, SomeStorableId): it.to0xHexLog
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proc `onAvailabilityAdded=`*(self: Reservations,
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onAvailabilityAdded: OnAvailabilityAdded) =
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self.onAvailabilityAdded = some onAvailabilityAdded
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func key*(id: AvailabilityId): ?!Key =
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## sales / reservations / <availabilityId>
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(ReservationsKey / $id)
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func key*(reservationId: ReservationId, availabilityId: AvailabilityId): ?!Key =
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## sales / reservations / <availabilityId> / <reservationId>
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(availabilityId.key / $reservationId)
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func key*(availability: Availability): ?!Key =
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return availability.id.key
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func key*(reservation: Reservation): ?!Key =
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return key(reservation.id, reservation.availabilityId)
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func available*(self: Reservations): uint = self.repo.available.uint
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func hasAvailable*(self: Reservations, bytes: uint): bool =
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self.repo.available(bytes.NBytes)
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proc exists*(
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self: Reservations,
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key: Key): Future[bool] {.async.} =
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let exists = await self.repo.metaDs.ds.contains(key)
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return exists
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proc getImpl(
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self: Reservations,
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key: Key): Future[?!seq[byte]] {.async.} =
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if not await self.exists(key):
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let err = newException(NotExistsError, "object with key " & $key & " does not exist")
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return failure(err)
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without serialized =? await self.repo.metaDs.ds.get(key), error:
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return failure(error.toErr(GetFailedError))
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return success serialized
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proc get*(
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self: Reservations,
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key: Key,
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T: type SomeStorableObject): Future[?!T] {.async.} =
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without serialized =? await self.getImpl(key), error:
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return failure(error)
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without obj =? T.fromJson(serialized), error:
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return failure(error.toErr(SerializationError))
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return success obj
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proc updateImpl(
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self: Reservations,
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obj: SomeStorableObject): Future[?!void] {.async.} =
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trace "updating " & $(obj.type), id = obj.id
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without key =? obj.key, error:
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return failure(error)
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if err =? (await self.repo.metaDs.ds.put(
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key,
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@(obj.toJson.toBytes)
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)).errorOption:
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return failure(err.toErr(UpdateFailedError))
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return success()
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proc updateAvailability(
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self: Reservations,
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obj: Availability): Future[?!void] {.async.} =
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logScope:
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availabilityId = obj.id
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without key =? obj.key, error:
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return failure(error)
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without oldAvailability =? await self.get(key, Availability), err:
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if err of NotExistsError:
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trace "Creating new Availability"
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let res = await self.updateImpl(obj)
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# inform subscribers that Availability has been added
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if onAvailabilityAdded =? self.onAvailabilityAdded:
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# when chronos v4 is implemented, and OnAvailabilityAdded is annotated
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# with async:(raises:[]), we can remove this try/catch as we know, with
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# certainty, that nothing will be raised
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try:
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await onAvailabilityAdded(obj)
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except CancelledError as e:
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raise e
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except CatchableError as e:
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# we don't have any insight into types of exceptions that
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# `onAvailabilityAdded` can raise because it is caller-defined
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warn "Unknown error during 'onAvailabilityAdded' callback", error = e.msg
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return res
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else:
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return failure(err)
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# Sizing of the availability changed, we need to adjust the repo reservation accordingly
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if oldAvailability.totalSize != obj.totalSize:
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trace "totalSize changed, updating repo reservation"
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if oldAvailability.totalSize < obj.totalSize: # storage added
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if reserveErr =? (await self.repo.reserve((obj.totalSize - oldAvailability.totalSize).truncate(uint).NBytes)).errorOption:
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return failure(reserveErr.toErr(ReserveFailedError))
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elif oldAvailability.totalSize > obj.totalSize: # storage removed
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if reserveErr =? (await self.repo.release((oldAvailability.totalSize - obj.totalSize).truncate(uint).NBytes)).errorOption:
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return failure(reserveErr.toErr(ReleaseFailedError))
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let res = await self.updateImpl(obj)
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if oldAvailability.freeSize < obj.freeSize: # availability added
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# inform subscribers that Availability has been modified (with increased
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# size)
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if onAvailabilityAdded =? self.onAvailabilityAdded:
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# when chronos v4 is implemented, and OnAvailabilityAdded is annotated
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# with async:(raises:[]), we can remove this try/catch as we know, with
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# certainty, that nothing will be raised
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try:
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await onAvailabilityAdded(obj)
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except CancelledError as e:
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raise e
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except CatchableError as e:
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# we don't have any insight into types of exceptions that
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# `onAvailabilityAdded` can raise because it is caller-defined
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warn "Unknown error during 'onAvailabilityAdded' callback", error = e.msg
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return res
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proc update*(
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self: Reservations,
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obj: Reservation): Future[?!void] {.async.} =
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return await self.updateImpl(obj)
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proc update*(
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self: Reservations,
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obj: Availability): Future[?!void] {.async.} =
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withLock(self.availabilityLock):
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return await self.updateAvailability(obj)
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proc delete(
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self: Reservations,
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key: Key): Future[?!void] {.async.} =
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trace "deleting object", key
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if not await self.exists(key):
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return success()
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if err =? (await self.repo.metaDs.ds.delete(key)).errorOption:
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return failure(err.toErr(DeleteFailedError))
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return success()
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proc deleteReservation*(
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self: Reservations,
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reservationId: ReservationId,
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availabilityId: AvailabilityId): Future[?!void] {.async.} =
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logScope:
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reservationId
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availabilityId
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trace "deleting reservation"
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without key =? key(reservationId, availabilityId), error:
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return failure(error)
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withLock(self.availabilityLock):
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without reservation =? (await self.get(key, Reservation)), error:
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if error of NotExistsError:
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return success()
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else:
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return failure(error)
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if reservation.size > 0.u256:
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trace "returning remaining reservation bytes to availability",
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size = reservation.size
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without availabilityKey =? availabilityId.key, error:
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return failure(error)
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without var availability =? await self.get(availabilityKey, Availability), error:
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return failure(error)
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availability.freeSize += reservation.size
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if updateErr =? (await self.updateAvailability(availability)).errorOption:
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return failure(updateErr)
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if err =? (await self.repo.metaDs.ds.delete(key)).errorOption:
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return failure(err.toErr(DeleteFailedError))
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return success()
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# TODO: add support for deleting availabilities
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# To delete, must not have any active sales.
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proc createAvailability*(
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self: Reservations,
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size: UInt256,
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duration: UInt256,
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minPrice: UInt256,
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maxCollateral: UInt256): Future[?!Availability] {.async.} =
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trace "creating availability", size, duration, minPrice, maxCollateral
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let availability = Availability.init(
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size, size, duration, minPrice, maxCollateral
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)
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let bytes = availability.freeSize.truncate(uint)
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if reserveErr =? (await self.repo.reserve(bytes.NBytes)).errorOption:
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return failure(reserveErr.toErr(ReserveFailedError))
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if updateErr =? (await self.update(availability)).errorOption:
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# rollback the reserve
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trace "rolling back reserve"
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if rollbackErr =? (await self.repo.release(bytes.NBytes)).errorOption:
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rollbackErr.parent = updateErr
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return failure(rollbackErr)
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return failure(updateErr)
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return success(availability)
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method createReservation*(
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self: Reservations,
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availabilityId: AvailabilityId,
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slotSize: UInt256,
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requestId: RequestId,
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slotIndex: UInt256
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): Future[?!Reservation] {.async, base.} =
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withLock(self.availabilityLock):
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without availabilityKey =? availabilityId.key, error:
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return failure(error)
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without availability =? await self.get(availabilityKey, Availability), error:
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return failure(error)
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# Check that the found availability has enough free space after the lock has been acquired, to prevent asynchronous Availiability modifications
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if availability.freeSize < slotSize:
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let error = newException(
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BytesOutOfBoundsError,
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"trying to reserve an amount of bytes that is greater than the total size of the Availability")
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return failure(error)
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trace "Creating reservation", availabilityId, slotSize, requestId, slotIndex
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let reservation = Reservation.init(availabilityId, slotSize, requestId, slotIndex)
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if createResErr =? (await self.update(reservation)).errorOption:
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return failure(createResErr)
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# reduce availability freeSize by the slot size, which is now accounted for in
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# the newly created Reservation
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availability.freeSize -= slotSize
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# update availability with reduced size
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trace "Updating availability with reduced size"
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if updateErr =? (await self.updateAvailability(availability)).errorOption:
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trace "Updating availability failed, rolling back reservation creation"
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without key =? reservation.key, keyError:
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keyError.parent = updateErr
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return failure(keyError)
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# rollback the reservation creation
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if rollbackErr =? (await self.delete(key)).errorOption:
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rollbackErr.parent = updateErr
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return failure(rollbackErr)
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return failure(updateErr)
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trace "Reservation succesfully created"
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return success(reservation)
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proc returnBytesToAvailability*(
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self: Reservations,
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availabilityId: AvailabilityId,
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reservationId: ReservationId,
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bytes: UInt256): Future[?!void] {.async.} =
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logScope:
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reservationId
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availabilityId
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withLock(self.availabilityLock):
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without key =? key(reservationId, availabilityId), error:
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return failure(error)
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without var reservation =? (await self.get(key, Reservation)), error:
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return failure(error)
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# We are ignoring bytes that are still present in the Reservation because
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# they will be returned to Availability through `deleteReservation`.
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let bytesToBeReturned = bytes - reservation.size
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if bytesToBeReturned == 0:
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trace "No bytes are returned", requestSizeBytes = bytes, returningBytes = bytesToBeReturned
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return success()
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trace "Returning bytes", requestSizeBytes = bytes, returningBytes = bytesToBeReturned
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# First lets see if we can re-reserve the bytes, if the Repo's quota
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# is depleted then we will fail-fast as there is nothing to be done atm.
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if reserveErr =? (await self.repo.reserve(bytesToBeReturned.truncate(uint).NBytes)).errorOption:
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return failure(reserveErr.toErr(ReserveFailedError))
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without availabilityKey =? availabilityId.key, error:
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return failure(error)
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without var availability =? await self.get(availabilityKey, Availability), error:
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return failure(error)
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availability.freeSize += bytesToBeReturned
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# Update availability with returned size
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if updateErr =? (await self.updateAvailability(availability)).errorOption:
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trace "Rolling back returning bytes"
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if rollbackErr =? (await self.repo.release(bytesToBeReturned.truncate(uint).NBytes)).errorOption:
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rollbackErr.parent = updateErr
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return failure(rollbackErr)
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return failure(updateErr)
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return success()
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proc release*(
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self: Reservations,
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reservationId: ReservationId,
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availabilityId: AvailabilityId,
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bytes: uint): Future[?!void] {.async.} =
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logScope:
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topics = "release"
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bytes
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reservationId
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availabilityId
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trace "releasing bytes and updating reservation"
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without key =? key(reservationId, availabilityId), error:
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return failure(error)
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without var reservation =? (await self.get(key, Reservation)), error:
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return failure(error)
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if reservation.size < bytes.u256:
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let error = newException(
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BytesOutOfBoundsError,
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"trying to release an amount of bytes that is greater than the total size of the Reservation")
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return failure(error)
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if releaseErr =? (await self.repo.release(bytes.NBytes)).errorOption:
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return failure(releaseErr.toErr(ReleaseFailedError))
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reservation.size -= bytes.u256
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# persist partially used Reservation with updated size
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if err =? (await self.update(reservation)).errorOption:
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|
|
|
# rollback release if an update error encountered
|
|
trace "rolling back release"
|
|
if rollbackErr =? (await self.repo.reserve(bytes.NBytes)).errorOption:
|
|
rollbackErr.parent = err
|
|
return failure(rollbackErr)
|
|
return failure(err)
|
|
|
|
return success()
|
|
|
|
iterator items(self: StorableIter): Future[?seq[byte]] =
|
|
while not self.finished:
|
|
yield self.next()
|
|
|
|
proc storables(
|
|
self: Reservations,
|
|
T: type SomeStorableObject,
|
|
queryKey: Key = ReservationsKey
|
|
): Future[?!StorableIter] {.async.} =
|
|
|
|
var iter = StorableIter()
|
|
let query = Query.init(queryKey)
|
|
when T is Availability:
|
|
# should indicate key length of 4, but let the .key logic determine it
|
|
without defaultKey =? AvailabilityId.default.key, error:
|
|
return failure(error)
|
|
elif T is Reservation:
|
|
# should indicate key length of 5, but let the .key logic determine it
|
|
without defaultKey =? key(ReservationId.default, AvailabilityId.default), error:
|
|
return failure(error)
|
|
else:
|
|
raiseAssert "unknown type"
|
|
|
|
without results =? await self.repo.metaDs.ds.query(query), error:
|
|
return failure(error)
|
|
|
|
# /sales/reservations
|
|
proc next(): Future[?seq[byte]] {.async.} =
|
|
await idleAsync()
|
|
iter.finished = results.finished
|
|
if not results.finished and
|
|
res =? (await results.next()) and
|
|
res.data.len > 0 and
|
|
key =? res.key and
|
|
key.namespaces.len == defaultKey.namespaces.len:
|
|
|
|
return some res.data
|
|
|
|
return none seq[byte]
|
|
|
|
proc dispose(): Future[?!void] {.async.} =
|
|
return await results.dispose()
|
|
|
|
iter.next = next
|
|
iter.dispose = dispose
|
|
return success iter
|
|
|
|
proc allImpl(
|
|
self: Reservations,
|
|
T: type SomeStorableObject,
|
|
queryKey: Key = ReservationsKey
|
|
): Future[?!seq[T]] {.async.} =
|
|
|
|
var ret: seq[T] = @[]
|
|
|
|
without storables =? (await self.storables(T, queryKey)), error:
|
|
return failure(error)
|
|
|
|
for storable in storables.items:
|
|
without bytes =? (await storable):
|
|
continue
|
|
|
|
without obj =? T.fromJson(bytes), error:
|
|
error "json deserialization error",
|
|
json = string.fromBytes(bytes),
|
|
error = error.msg
|
|
continue
|
|
|
|
ret.add obj
|
|
|
|
return success(ret)
|
|
|
|
proc all*(
|
|
self: Reservations,
|
|
T: type SomeStorableObject
|
|
): Future[?!seq[T]] {.async.} =
|
|
return await self.allImpl(T)
|
|
|
|
proc all*(
|
|
self: Reservations,
|
|
T: type SomeStorableObject,
|
|
availabilityId: AvailabilityId
|
|
): Future[?!seq[T]] {.async.} =
|
|
without key =? (ReservationsKey / $availabilityId):
|
|
return failure("no key")
|
|
|
|
return await self.allImpl(T, key)
|
|
|
|
proc findAvailability*(
|
|
self: Reservations,
|
|
size, duration, minPrice, collateral: UInt256
|
|
): Future[?Availability] {.async.} =
|
|
|
|
without storables =? (await self.storables(Availability)), e:
|
|
error "failed to get all storables", error = e.msg
|
|
return none Availability
|
|
|
|
for item in storables.items:
|
|
if bytes =? (await item) and
|
|
availability =? Availability.fromJson(bytes):
|
|
|
|
if size <= availability.freeSize and
|
|
duration <= availability.duration and
|
|
collateral <= availability.maxCollateral and
|
|
minPrice >= availability.minPrice:
|
|
|
|
trace "availability matched",
|
|
id = availability.id,
|
|
size, availFreeSize = availability.freeSize,
|
|
duration, availDuration = availability.duration,
|
|
minPrice, availMinPrice = availability.minPrice,
|
|
collateral, availMaxCollateral = availability.maxCollateral
|
|
|
|
# TODO: As soon as we're on ARC-ORC, we can use destructors
|
|
# to automatically dispose our iterators when they fall out of scope.
|
|
# For now:
|
|
if err =? (await storables.dispose()).errorOption:
|
|
error "failed to dispose storables iter", error = err.msg
|
|
return none Availability
|
|
return some availability
|
|
|
|
trace "availability did not match",
|
|
id = availability.id,
|
|
size, availFreeSize = availability.freeSize,
|
|
duration, availDuration = availability.duration,
|
|
minPrice, availMinPrice = availability.minPrice,
|
|
collateral, availMaxCollateral = availability.maxCollateral
|