[marketplace] Availability improvements (#535)

## Problem
When Availabilities are created, the amount of bytes in the Availability are reserved in the repo, so those bytes on disk cannot be written to otherwise. When a request for storage is received by a node, if a previously created Availability is matched, an attempt will be made to fill a slot in the request (more accurately, the request's slots are added to the SlotQueue, and eventually those slots will be processed). During download, bytes that were reserved for the Availability were released (as they were written to disk). To prevent more bytes from being released than were reserved in the Availability, the Availability was marked as used during the download, so that no other requests would match the Availability, and therefore no new downloads (and byte releases) would begin. The unfortunate downside to this, is that the number of Availabilities a node has determines the download concurrency capacity. If, for example, a node creates a single Availability that covers all available disk space the operator is willing to use, that single Availability would mean that only one download could occur at a time, meaning the node could potentially miss out on storage opportunities.

## Solution
To alleviate the concurrency issue, each time a slot is processed, a Reservation is created, which takes size (aka reserved bytes) away from the Availability and stores them in the Reservation object. This can be done as many times as needed as long as there are enough bytes remaining in the Availability. Therefore, concurrent downloads are no longer limited by the number of Availabilities. Instead, they would more likely be limited to the SlotQueue's `maxWorkers`.

From a database design perspective, an Availability has zero or more Reservations.

Reservations are persisted in the RepoStore's metadata, along with Availabilities. The metadata store key path for Reservations is ` meta / sales / reservations / <availabilityId> / <reservationId>`, while Availabilities are stored one level up, eg `meta / sales / reservations / <availabilityId> `, allowing all Reservations for an Availability to be queried (this is not currently needed, but may be useful when work to restore Availability size is implemented, more on this later).

### Lifecycle
When a reservation is created, its size is deducted from the Availability, and when a reservation is deleted, any remaining size (bytes not written to disk) is returned to the Availability. If the request finishes, is cancelled (expired), or an error occurs, the Reservation is deleted (and any undownloaded bytes returned to the Availability). In addition, when the Sales module starts, any Reservations that are not actively being used in a filled slot, are deleted.

Having a Reservation persisted until after a storage request is completed, will allow for the originally set Availability size to be reclaimed once a request contract has been completed. This is a feature that is yet to be implemented, however the work in this PR is a step in the direction towards enabling this.

### Unknowns
Reservation size is determined by the `StorageAsk.slotSize`. If during download, more bytes than `slotSize` are attempted to be downloaded than this, then the Reservation update will fail, and the state machine will move to a `SaleErrored` state, deleting the Reservation. This will likely prevent the slot from being filled.

### Notes
Based on #514
This commit is contained in:
Eric 2023-09-29 14:33:08 +10:00 committed by GitHub
parent 2f1c778d02
commit 570a1f7b67
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
23 changed files with 818 additions and 464 deletions

View File

@ -284,7 +284,13 @@ proc requestStorage*(
let request = StorageRequest( let request = StorageRequest(
ask: StorageAsk( ask: StorageAsk(
slots: nodes + tolerance, slots: nodes + tolerance,
slotSize: (encoded.blockSize.int * encoded.steps).u256, # TODO: Specify slot-specific size (as below) once dispersal is
# implemented. The current implementation downloads the entire dataset, so
# it is currently set to be the size of the entire dataset. This is
# because the slotSize is used to determine the amount of bytes to reserve
# in a Reservations
# TODO: slotSize: (encoded.blockSize.int * encoded.steps).u256,
slotSize: (encoded.blockSize.int * encoded.blocks.len).u256,
duration: duration, duration: duration,
proofProbability: proofProbability, proofProbability: proofProbability,
reward: reward, reward: reward,

View File

@ -340,10 +340,10 @@ proc initRestApi*(node: CodexNodeRef, conf: CodexConf): RestRouter =
without contracts =? node.contracts.host: without contracts =? node.contracts.host:
return RestApiResponse.error(Http503, "Sales unavailable") return RestApiResponse.error(Http503, "Sales unavailable")
without unused =? (await contracts.sales.context.reservations.unused), err: without avails =? (await contracts.sales.context.reservations.all(Availability)), err:
return RestApiResponse.error(Http500, err.msg) return RestApiResponse.error(Http500, err.msg)
let json = %unused let json = %avails
return RestApiResponse.response($json, contentType="application/json") return RestApiResponse.response($json, contentType="application/json")
router.rawApi( router.rawApi(
@ -365,20 +365,21 @@ proc initRestApi*(node: CodexNodeRef, conf: CodexConf): RestRouter =
return RestApiResponse.error(Http400, error.msg) return RestApiResponse.error(Http400, error.msg)
let reservations = contracts.sales.context.reservations let reservations = contracts.sales.context.reservations
# assign id to availability via init
let availability = Availability.init(restAv.size, if not reservations.hasAvailable(restAv.size.truncate(uint)):
return RestApiResponse.error(Http422, "Not enough storage quota")
without availability =? (
await reservations.createAvailability(
restAv.size,
restAv.duration, restAv.duration,
restAv.minPrice, restAv.minPrice,
restAv.maxCollateral) restAv.maxCollateral)
), error:
return RestApiResponse.error(Http500, error.msg)
if not reservations.hasAvailable(availability.size.truncate(uint)): return RestApiResponse.response(availability.toJson,
return RestApiResponse.error(Http422, "Not enough storage quota") contentType="application/json")
if err =? (await reservations.reserve(availability)).errorOption:
return RestApiResponse.error(Http500, err.msg)
let json = %availability
return RestApiResponse.response($json, contentType="application/json")
router.api( router.api(
MethodGet, MethodGet,

View File

@ -1,7 +1,7 @@
import std/sequtils import std/sequtils
import std/sugar import std/sugar
import std/tables
import pkg/questionable import pkg/questionable
import pkg/questionable/results
import pkg/stint import pkg/stint
import pkg/chronicles import pkg/chronicles
import pkg/datastore import pkg/datastore
@ -101,8 +101,49 @@ proc remove(sales: Sales, agent: SalesAgent) {.async.} =
if sales.running: if sales.running:
sales.agents.keepItIf(it != agent) sales.agents.keepItIf(it != agent)
proc filled(sales: Sales, proc cleanUp(sales: Sales,
agent: SalesAgent,
processing: Future[void]) {.async.} =
let data = agent.data
trace "cleaning up sales agent",
requestId = data.requestId,
slotIndex = data.slotIndex,
reservationId = data.reservation.?id |? ReservationId.default,
availabilityId = data.reservation.?availabilityId |? AvailabilityId.default
# TODO: return bytes that were used in the request back to the availability
# as well, which will require removing the bytes from disk (perhaps via
# setting blockTTL to -1 and then running block maintainer?)
# delete reservation and return reservation bytes back to the availability
if reservation =? data.reservation and
deleteErr =? (await sales.context.reservations.deleteReservation(
reservation.id,
reservation.availabilityId
)).errorOption:
error "failure deleting reservation",
error = deleteErr.msg,
reservationId = reservation.id,
availabilityId = reservation.availabilityId
await sales.remove(agent)
# signal back to the slot queue to cycle a worker
if not processing.isNil and not processing.finished():
processing.complete()
proc filled(
sales: Sales,
request: StorageRequest,
slotIndex: UInt256,
processing: Future[void]) = processing: Future[void]) =
if onSale =? sales.context.onSale:
onSale(request, slotIndex)
# signal back to the slot queue to cycle a worker
if not processing.isNil and not processing.finished(): if not processing.isNil and not processing.finished():
processing.complete() processing.complete()
@ -117,15 +158,39 @@ proc processSlot(sales: Sales, item: SlotQueueItem, done: Future[void]) =
none StorageRequest none StorageRequest
) )
agent.context.onCleanUp = proc {.async.} = agent.onCleanUp = proc {.async.} =
await sales.remove(agent) await sales.cleanUp(agent, done)
agent.context.onFilled = some proc(request: StorageRequest, slotIndex: UInt256) = agent.onFilled = some proc(request: StorageRequest, slotIndex: UInt256) =
sales.filled(done) sales.filled(request, slotIndex, done)
agent.start(SalePreparing()) agent.start(SalePreparing())
sales.agents.add agent sales.agents.add agent
proc deleteInactiveReservations(sales: Sales, activeSlots: seq[Slot]) {.async.} =
let reservations = sales.context.reservations
without reservs =? await reservations.all(Reservation):
info "no unused reservations found for deletion"
let unused = reservs.filter(r => (
let slotId = slotId(r.requestId, r.slotIndex)
not activeSlots.any(slot => slot.id == slotId)
))
info "found unused reservations for deletion", unused = unused.len
for reservation in unused:
logScope:
reservationId = reservation.id
availabilityId = reservation.availabilityId
if err =? (await reservations.deleteReservation(
reservation.id, reservation.availabilityId
)).errorOption:
error "failed to delete unused reservation", error = err.msg
else:
trace "deleted unused reservation"
proc mySlots*(sales: Sales): Future[seq[Slot]] {.async.} = proc mySlots*(sales: Sales): Future[seq[Slot]] {.async.} =
let market = sales.context.market let market = sales.context.market
let slotIds = await market.mySlots() let slotIds = await market.mySlots()
@ -139,21 +204,26 @@ proc mySlots*(sales: Sales): Future[seq[Slot]] {.async.} =
return slots return slots
proc load*(sales: Sales) {.async.} = proc load*(sales: Sales) {.async.} =
let slots = await sales.mySlots() let activeSlots = await sales.mySlots()
for slot in slots: await sales.deleteInactiveReservations(activeSlots)
for slot in activeSlots:
let agent = newSalesAgent( let agent = newSalesAgent(
sales.context, sales.context,
slot.request.id, slot.request.id,
slot.slotIndex, slot.slotIndex,
some slot.request) some slot.request)
agent.context.onCleanUp = proc {.async.} = await sales.remove(agent) agent.onCleanUp = proc {.async.} =
let done = newFuture[void]("onCleanUp_Dummy")
await sales.cleanUp(agent, done)
await done # completed in sales.cleanUp
agent.start(SaleUnknown()) agent.start(SaleUnknown())
sales.agents.add agent sales.agents.add agent
proc onReservationAdded(sales: Sales, availability: Availability) {.async.} = proc onAvailabilityAdded(sales: Sales, availability: Availability) {.async.} =
## Query last 256 blocks for new requests, adding them to the queue. `push` ## Query last 256 blocks for new requests, adding them to the queue. `push`
## checks for availability before adding to the queue. If processed, the ## checks for availability before adding to the queue. If processed, the
## sales agent will check if the slot is free. ## sales agent will check if the slot is free.
@ -162,9 +232,9 @@ proc onReservationAdded(sales: Sales, availability: Availability) {.async.} =
let queue = context.slotQueue let queue = context.slotQueue
logScope: logScope:
topics = "marketplace sales onReservationAdded callback" topics = "marketplace sales onAvailabilityAdded callback"
trace "reservation added, querying past storage requests to add to queue" trace "availability added, querying past storage requests to add to queue"
try: try:
let events = await market.queryPastStorageRequests(256) let events = await market.queryPastStorageRequests(256)
@ -384,10 +454,10 @@ proc startSlotQueue(sales: Sales) {.async.} =
asyncSpawn slotQueue.start() asyncSpawn slotQueue.start()
reservations.onReservationAdded = proc onAvailabilityAdded(availability: Availability) {.async.} =
proc(availability: Availability) {.async.} = await sales.onAvailabilityAdded(availability)
await sales.onReservationAdded(availability)
reservations.onAvailabilityAdded = onAvailabilityAdded
proc subscribe(sales: Sales) {.async.} = proc subscribe(sales: Sales) {.async.} =
await sales.subscribeRequested() await sales.subscribeRequested()

View File

@ -6,56 +6,79 @@
## at your option. ## at your option.
## This file may not be copied, modified, or distributed except according to ## This file may not be copied, modified, or distributed except according to
## those terms. ## those terms.
##
## +--------------------------------------+
## | RESERVATION |
## +--------------------------------------+ |--------------------------------------|
## | AVAILABILITY | | ReservationId | id | PK |
## |--------------------------------------| |--------------------------------------|
## | AvailabilityId | id | PK |<-||-------o<-| AvailabilityId | availabilityId | FK |
## |--------------------------------------| |--------------------------------------|
## | UInt256 | size | | | UInt256 | size | |
## |--------------------------------------| |--------------------------------------|
## | UInt256 | duration | | | SlotId | slotId | |
## |--------------------------------------| +--------------------------------------+
## | UInt256 | minPrice | |
## |--------------------------------------|
## | UInt256 | maxCollateral | |
## +--------------------------------------+
import pkg/upraises
push: {.upraises: [].}
import std/typetraits import std/typetraits
import pkg/chronos import pkg/chronos
import pkg/chronicles import pkg/chronicles
import pkg/upraises import pkg/datastore
import pkg/json_serialization
import pkg/json_serialization/std/options
import pkg/stint
import pkg/stew/byteutils
import pkg/nimcrypto import pkg/nimcrypto
import pkg/questionable import pkg/questionable
import pkg/questionable/results import pkg/questionable/results
import ../utils/json import pkg/stint
import pkg/stew/byteutils
push: {.upraises: [].}
import pkg/datastore
import ../stores import ../stores
import ../contracts/requests import ../contracts/requests
import ../utils/json
export requests export requests
export chronicles
logScope: logScope:
topics = "reservations" topics = "sales reservations"
type type
AvailabilityId* = distinct array[32, byte] AvailabilityId* = distinct array[32, byte]
Availability* = object ReservationId* = distinct array[32, byte]
SomeStorableObject = Availability | Reservation
SomeStorableId = AvailabilityId | ReservationId
Availability* = ref object
id* {.serialize.}: AvailabilityId id* {.serialize.}: AvailabilityId
size* {.serialize.}: UInt256 size* {.serialize.}: UInt256
duration* {.serialize.}: UInt256 duration* {.serialize.}: UInt256
minPrice* {.serialize.}: UInt256 minPrice* {.serialize.}: UInt256
maxCollateral* {.serialize.}: UInt256 maxCollateral* {.serialize.}: UInt256
used*: bool Reservation* = ref object
id* {.serialize.}: ReservationId
availabilityId* {.serialize.}: AvailabilityId
size* {.serialize.}: UInt256
requestId* {.serialize.}: RequestId
slotIndex* {.serialize.}: UInt256
Reservations* = ref object Reservations* = ref object
repo: RepoStore repo: RepoStore
onReservationAdded: ?OnReservationAdded onAvailabilityAdded: ?OnAvailabilityAdded
GetNext* = proc(): Future[?Availability] {.upraises: [], gcsafe, closure.} GetNext* = proc(): Future[?seq[byte]] {.upraises: [], gcsafe, closure.}
OnReservationAdded* = proc(availability: Availability): Future[void] {.upraises: [], gcsafe.} OnAvailabilityAdded* = proc(availability: Availability): Future[void] {.upraises: [], gcsafe.}
AvailabilityIter* = ref object StorableIter* = ref object
finished*: bool finished*: bool
next*: GetNext next*: GetNext
AvailabilityError* = object of CodexError ReservationsError* = object of CodexError
AvailabilityAlreadyExistsError* = object of AvailabilityError ReserveFailedError* = object of ReservationsError
AvailabilityReserveFailedError* = object of AvailabilityError ReleaseFailedError* = object of ReservationsError
AvailabilityReleaseFailedError* = object of AvailabilityError DeleteFailedError* = object of ReservationsError
AvailabilityDeleteFailedError* = object of AvailabilityError GetFailedError* = object of ReservationsError
AvailabilityGetFailedError* = object of AvailabilityError NotExistsError* = object of ReservationsError
AvailabilityUpdateFailedError* = object of AvailabilityError SerializationError* = object of ReservationsError
UpdateFailedError* = object of ReservationsError
BytesOutOfBoundsError* = object of ReservationsError
const const
SalesKey = (CodexMetaKey / "sales").tryGet # TODO: move to sales module SalesKey = (CodexMetaKey / "sales").tryGet # TODO: move to sales module
@ -77,10 +100,29 @@ proc init*(
doAssert randomBytes(id) == 32 doAssert randomBytes(id) == 32
Availability(id: AvailabilityId(id), size: size, duration: duration, minPrice: minPrice, maxCollateral: maxCollateral) Availability(id: AvailabilityId(id), size: size, duration: duration, minPrice: minPrice, maxCollateral: maxCollateral)
func toArray*(id: AvailabilityId): array[32, byte] = proc init*(
_: type Reservation,
availabilityId: AvailabilityId,
size: UInt256,
requestId: RequestId,
slotIndex: UInt256
): Reservation =
var id: array[32, byte]
doAssert randomBytes(id) == 32
Reservation(id: ReservationId(id), availabilityId: availabilityId, size: size, requestId: requestId, slotIndex: slotIndex)
func toArray(id: SomeStorableId): array[32, byte] =
array[32, byte](id) array[32, byte](id)
proc `==`*(x, y: AvailabilityId): bool {.borrow.} proc `==`*(x, y: AvailabilityId): bool {.borrow.}
proc `==`*(x, y: ReservationId): bool {.borrow.}
proc `==`*(x, y: Reservation): bool =
x.id == y.id and
x.availabilityId == y.availabilityId and
x.size == y.size and
x.requestId == y.requestId and
x.slotIndex == y.slotIndex
proc `==`*(x, y: Availability): bool = proc `==`*(x, y: Availability): bool =
x.id == y.id and x.id == y.id and
x.size == y.size and x.size == y.size and
@ -88,9 +130,9 @@ proc `==`*(x, y: Availability): bool =
x.maxCollateral == y.maxCollateral and x.maxCollateral == y.maxCollateral and
x.minPrice == y.minPrice x.minPrice == y.minPrice
proc `$`*(id: AvailabilityId): string = id.toArray.toHex proc `$`*(id: SomeStorableId): string = id.toArray.toHex
proc toErr[E1: ref CatchableError, E2: AvailabilityError]( proc toErr[E1: ref CatchableError, E2: ReservationsError](
e1: E1, e1: E1,
_: type E2, _: type E2,
msg: string = e1.msg): ref E2 = msg: string = e1.msg): ref E2 =
@ -99,28 +141,30 @@ proc toErr[E1: ref CatchableError, E2: AvailabilityError](
proc writeValue*( proc writeValue*(
writer: var JsonWriter, writer: var JsonWriter,
value: AvailabilityId) {.upraises:[IOError].} = value: SomeStorableId) {.upraises:[IOError].} =
## used for chronicles' logs
mixin writeValue mixin writeValue
writer.writeValue value.toArray writer.writeValue %value
proc readValue*[T: AvailabilityId]( proc `onAvailabilityAdded=`*(self: Reservations,
reader: var JsonReader, onAvailabilityAdded: OnAvailabilityAdded) =
value: var T) {.upraises: [SerializationError, IOError].} = self.onAvailabilityAdded = some onAvailabilityAdded
mixin readValue func key*(id: AvailabilityId): ?!Key =
value = T reader.readValue(T.distinctBase) ## sales / reservations / <availabilityId>
(ReservationsKey / $id)
proc `onReservationAdded=`*(self: Reservations, func key*(reservationId: ReservationId, availabilityId: AvailabilityId): ?!Key =
onReservationAdded: OnReservationAdded) = ## sales / reservations / <availabilityId> / <reservationId>
self.onReservationAdded = some onReservationAdded (availabilityId.key / $reservationId)
func key(id: AvailabilityId): ?!Key =
(ReservationsKey / id.toArray.toHex)
func key*(availability: Availability): ?!Key = func key*(availability: Availability): ?!Key =
return availability.id.key return availability.id.key
func key*(reservation: Reservation): ?!Key =
return key(reservation.id, reservation.availabilityId)
func available*(self: Reservations): uint = self.repo.available func available*(self: Reservations): uint = self.repo.available
func hasAvailable*(self: Reservations, bytes: uint): bool = func hasAvailable*(self: Reservations, bytes: uint): bool =
@ -128,84 +172,123 @@ func hasAvailable*(self: Reservations, bytes: uint): bool =
proc exists*( proc exists*(
self: Reservations, self: Reservations,
id: AvailabilityId): Future[?!bool] {.async.} = key: Key): Future[bool] {.async.} =
without key =? id.key, err:
return failure(err)
let exists = await self.repo.metaDs.contains(key) let exists = await self.repo.metaDs.contains(key)
return success(exists) return exists
proc getImpl(
self: Reservations,
key: Key): Future[?!seq[byte]] {.async.} =
if exists =? (await self.exists(key)) and not exists:
let err = newException(NotExistsError, "object with key " & $key & " does not exist")
return failure(err)
without serialized =? await self.repo.metaDs.get(key), error:
return failure(error.toErr(GetFailedError))
return success serialized
proc get*( proc get*(
self: Reservations, self: Reservations,
id: AvailabilityId): Future[?!Availability] {.async.} = key: Key,
T: type SomeStorableObject): Future[?!T] {.async.} =
if exists =? (await self.exists(id)) and not exists: without serialized =? await self.getImpl(key), error:
let err = newException(AvailabilityGetFailedError, return failure(error)
"Availability does not exist")
return failure(err)
without key =? id.key, err: without obj =? T.fromJson(serialized), error:
return failure(err.toErr(AvailabilityGetFailedError)) return failure(error.toErr(SerializationError))
without serialized =? await self.repo.metaDs.get(key), err: return success obj
return failure(err.toErr(AvailabilityGetFailedError))
without availability =? Json.decode(serialized, Availability).catch, err:
return failure(err.toErr(AvailabilityGetFailedError))
return success availability
proc update( proc update(
self: Reservations, self: Reservations,
availability: Availability): Future[?!void] {.async.} = obj: SomeStorableObject): Future[?!void] {.async.} =
trace "updating availability", id = availability.id, size = availability.size, trace "updating " & $(obj.type), id = obj.id, size = obj.size
used = availability.used
without key =? availability.key, err: without key =? obj.key, error:
return failure(err) return failure(error)
if err =? (await self.repo.metaDs.put( if err =? (await self.repo.metaDs.put(
key, key,
@(availability.toJson.toBytes))).errorOption: @(obj.toJson.toBytes)
return failure(err.toErr(AvailabilityUpdateFailedError)) )).errorOption:
return failure(err.toErr(UpdateFailedError))
return success() return success()
proc delete( proc delete(
self: Reservations, self: Reservations,
id: AvailabilityId): Future[?!void] {.async.} = key: Key): Future[?!void] {.async.} =
trace "deleting availability", id trace "deleting object", key
without availability =? (await self.get(id)), err: if exists =? (await self.exists(key)) and not exists:
return failure(err) return success()
without key =? availability.key, err:
return failure(err)
if err =? (await self.repo.metaDs.delete(key)).errorOption: if err =? (await self.repo.metaDs.delete(key)).errorOption:
return failure(err.toErr(AvailabilityDeleteFailedError)) return failure(err.toErr(DeleteFailedError))
return success() return success()
proc reserve*( proc deleteReservation*(
self: Reservations, self: Reservations,
availability: Availability): Future[?!void] {.async.} = reservationId: ReservationId,
availabilityId: AvailabilityId): Future[?!void] {.async.} =
if exists =? (await self.exists(availability.id)) and exists: logScope:
let err = newException(AvailabilityAlreadyExistsError, reservationId
"Availability already exists") availabilityId
return failure(err)
without key =? availability.key, err: trace "deleting reservation"
return failure(err) without key =? key(reservationId, availabilityId), error:
return failure(error)
without reservation =? (await self.get(key, Reservation)), error:
if error of NotExistsError:
return success()
else:
return failure(error)
if reservation.size > 0.u256:
trace "returning remaining reservation bytes to availability",
size = reservation.size
without availabilityKey =? availabilityId.key, error:
return failure(error)
without var availability =? await self.get(availabilityKey, Availability), error:
return failure(error)
availability.size += reservation.size
if updateErr =? (await self.update(availability)).errorOption:
return failure(updateErr)
if err =? (await self.repo.metaDs.delete(key)).errorOption:
return failure(err.toErr(DeleteFailedError))
return success()
proc createAvailability*(
self: Reservations,
size: UInt256,
duration: UInt256,
minPrice: UInt256,
maxCollateral: UInt256): Future[?!Availability] {.async.} =
trace "creating availability", size, duration, minPrice, maxCollateral
let availability = Availability.init(
size, duration, minPrice, maxCollateral
)
let bytes = availability.size.truncate(uint) let bytes = availability.size.truncate(uint)
if reserveErr =? (await self.repo.reserve(bytes)).errorOption: if reserveErr =? (await self.repo.reserve(bytes)).errorOption:
return failure(reserveErr.toErr(AvailabilityReserveFailedError)) return failure(reserveErr.toErr(ReserveFailedError))
if updateErr =? (await self.update(availability)).errorOption: if updateErr =? (await self.update(availability)).errorOption:
@ -217,144 +300,192 @@ proc reserve*(
return failure(updateErr) return failure(updateErr)
if onReservationAdded =? self.onReservationAdded: if onAvailabilityAdded =? self.onAvailabilityAdded:
try: try:
await onReservationAdded(availability) await onAvailabilityAdded(availability)
except CatchableError as e: except CatchableError as e:
# we don't have any insight into types of errors that `onProcessSlot` can # we don't have any insight into types of errors that `onProcessSlot` can
# throw because it is caller-defined # throw because it is caller-defined
warn "Unknown error during 'onReservationAdded' callback", warn "Unknown error during 'onAvailabilityAdded' callback",
availabilityId = availability.id, error = e.msg availabilityId = availability.id, error = e.msg
return success() return success(availability)
proc createReservation*(
self: Reservations,
availabilityId: AvailabilityId,
slotSize: UInt256,
requestId: RequestId,
slotIndex: UInt256
): Future[?!Reservation] {.async.} =
trace "creating reservation", availabilityId, slotSize, requestId, slotIndex
let reservation = Reservation.init(availabilityId, slotSize, requestId, slotIndex)
without availabilityKey =? availabilityId.key, error:
return failure(error)
without var availability =? await self.get(availabilityKey, Availability), error:
return failure(error)
if availability.size < slotSize:
let error = newException(BytesOutOfBoundsError, "trying to reserve an " &
"amount of bytes that is greater than the total size of the Availability")
return failure(error)
if createResErr =? (await self.update(reservation)).errorOption:
return failure(createResErr)
# reduce availability size by the slot size, which is now accounted for in
# the newly created Reservation
availability.size -= slotSize
# update availability with reduced size
if updateErr =? (await self.update(availability)).errorOption:
trace "rolling back reservation creation"
without key =? reservation.key, keyError:
keyError.parent = updateErr
return failure(keyError)
# rollback the reservation creation
if rollbackErr =? (await self.delete(key)).errorOption:
rollbackErr.parent = updateErr
return failure(rollbackErr)
return failure(updateErr)
return success(reservation)
proc release*( proc release*(
self: Reservations, self: Reservations,
id: AvailabilityId, reservationId: ReservationId,
availabilityId: AvailabilityId,
bytes: uint): Future[?!void] {.async.} = bytes: uint): Future[?!void] {.async.} =
trace "releasing bytes and updating availability", bytes, id logScope:
topics = "release"
bytes
reservationId
availabilityId
without var availability =? (await self.get(id)), err: trace "releasing bytes and updating reservation"
return failure(err)
without key =? id.key, err: without key =? key(reservationId, availabilityId), error:
return failure(err) return failure(error)
without var reservation =? (await self.get(key, Reservation)), error:
return failure(error)
if reservation.size < bytes.u256:
let error = newException(BytesOutOfBoundsError,
"trying to release an amount of bytes that is greater than the total " &
"size of the Reservation")
return failure(error)
if releaseErr =? (await self.repo.release(bytes)).errorOption: if releaseErr =? (await self.repo.release(bytes)).errorOption:
return failure(releaseErr.toErr(AvailabilityReleaseFailedError)) return failure(releaseErr.toErr(ReleaseFailedError))
availability.size = (availability.size.truncate(uint) - bytes).u256 reservation.size -= bytes.u256
template rollbackRelease(e: ref CatchableError) = # persist partially used Reservation with updated size
if err =? (await self.update(reservation)).errorOption:
# rollback release if an update error encountered
trace "rolling back release" trace "rolling back release"
if rollbackErr =? (await self.repo.reserve(bytes)).errorOption: if rollbackErr =? (await self.repo.reserve(bytes)).errorOption:
rollbackErr.parent = e rollbackErr.parent = err
return failure(rollbackErr) return failure(rollbackErr)
# remove completely used availabilities
if availability.size == 0.u256:
if err =? (await self.delete(availability.id)).errorOption:
rollbackRelease(err)
return failure(err) return failure(err)
return success() return success()
# persist partially used availability with updated size iterator items(self: StorableIter): Future[?seq[byte]] =
if err =? (await self.update(availability)).errorOption:
rollbackRelease(err)
return failure(err)
return success()
proc markUsed*(
self: Reservations,
id: AvailabilityId): Future[?!void] {.async.} =
without var availability =? (await self.get(id)), err:
return failure(err)
availability.used = true
let r = await self.update(availability)
if r.isOk:
trace "availability marked used", id = id.toArray.toHex
return r
proc markUnused*(
self: Reservations,
id: AvailabilityId): Future[?!void] {.async.} =
without var availability =? (await self.get(id)), err:
return failure(err)
availability.used = false
let r = await self.update(availability)
if r.isOk:
trace "availability marked unused", id = id.toArray.toHex
return r
iterator items*(self: AvailabilityIter): Future[?Availability] =
while not self.finished: while not self.finished:
yield self.next() yield self.next()
proc availabilities*( proc storables(
self: Reservations): Future[?!AvailabilityIter] {.async.} = self: Reservations,
T: type SomeStorableObject
): Future[?!StorableIter] {.async.} =
var iter = AvailabilityIter() var iter = StorableIter()
let query = Query.init(ReservationsKey) let query = Query.init(ReservationsKey)
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.query(query), err: without results =? await self.repo.metaDs.query(query), error:
return failure(err) return failure(error)
proc next(): Future[?Availability] {.async.} = proc next(): Future[?seq[byte]] {.async.} =
await idleAsync() await idleAsync()
iter.finished = results.finished iter.finished = results.finished
if not results.finished and if not results.finished and
r =? (await results.next()) and res =? (await results.next()) and
serialized =? r.data and res.data.len > 0 and
serialized.len > 0: key =? res.key and
key.namespaces.len == defaultKey.namespaces.len:
return some Json.decode(string.fromBytes(serialized), Availability) return some res.data
return none Availability return none seq[byte]
iter.next = next iter.next = next
return success iter return success iter
proc unused*(r: Reservations): Future[?!seq[Availability]] {.async.} = proc all*(
var ret: seq[Availability] = @[] self: Reservations,
T: type SomeStorableObject
): Future[?!seq[T]] {.async.} =
without availabilities =? (await r.availabilities), err: var ret: seq[T] = @[]
return failure(err)
for a in availabilities: without storables =? (await self.storables(T)), error:
if availability =? (await a) and not availability.used: return failure(error)
ret.add availability
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) return success(ret)
proc find*( proc findAvailability*(
self: Reservations, self: Reservations,
size, duration, minPrice, collateral: UInt256, size, duration, minPrice, collateral: UInt256
used: bool): Future[?Availability] {.async.} = ): Future[?Availability] {.async.} =
without storables =? (await self.storables(Availability)), e:
without availabilities =? (await self.availabilities), err: error "failed to get all storables", error = e.msg
error "failed to get all availabilities", error = err.msg
return none Availability return none Availability
for a in availabilities: for item in storables.items:
if availability =? (await a): if bytes =? (await item) and
availability =? Availability.fromJson(bytes):
if used == availability.used and if size <= availability.size and
size <= availability.size and
duration <= availability.duration and duration <= availability.duration and
collateral <= availability.maxCollateral and collateral <= availability.maxCollateral and
minPrice >= availability.minPrice: minPrice >= availability.minPrice:
trace "availability matched", trace "availability matched",
used, availUsed = availability.used,
size, availsize = availability.size, size, availsize = availability.size,
duration, availDuration = availability.duration, duration, availDuration = availability.duration,
minPrice, availMinPrice = availability.minPrice, minPrice, availMinPrice = availability.minPrice,
@ -363,7 +494,6 @@ proc find*(
return some availability return some availability
trace "availiability did not match", trace "availiability did not match",
used, availUsed = availability.used,
size, availsize = availability.size, size, availsize = availability.size,
duration, availDuration = availability.duration, duration, availDuration = availability.duration,
minPrice, availMinPrice = availability.minPrice, minPrice, availMinPrice = availability.minPrice,

View File

@ -21,6 +21,14 @@ type
context*: SalesContext context*: SalesContext
data*: SalesData data*: SalesData
subscribed: bool subscribed: bool
# Slot-level callbacks.
onCleanUp*: OnCleanUp
onFilled*: ?OnFilled
OnCleanUp* = proc: Future[void] {.gcsafe, upraises: [].}
OnFilled* = proc(request: StorageRequest,
slotIndex: UInt256) {.gcsafe, upraises: [].}
SalesAgentError = object of CodexError SalesAgentError = object of CodexError
AllSlotsFilledError* = object of SalesAgentError AllSlotsFilledError* = object of SalesAgentError

View File

@ -11,11 +11,11 @@ type
SalesContext* = ref object SalesContext* = ref object
market*: Market market*: Market
clock*: Clock clock*: Clock
# Sales-level callbacks. Closure will be overwritten each time a slot is
# processed.
onStore*: ?OnStore onStore*: ?OnStore
onClear*: ?OnClear onClear*: ?OnClear
onSale*: ?OnSale onSale*: ?OnSale
onFilled*: ?OnFilled
onCleanUp*: OnCleanUp
onProve*: ?OnProve onProve*: ?OnProve
reservations*: Reservations reservations*: Reservations
slotQueue*: SlotQueue slotQueue*: SlotQueue
@ -29,11 +29,3 @@ type
slotIndex: UInt256) {.gcsafe, upraises: [].} slotIndex: UInt256) {.gcsafe, upraises: [].}
OnSale* = proc(request: StorageRequest, OnSale* = proc(request: StorageRequest,
slotIndex: UInt256) {.gcsafe, upraises: [].} slotIndex: UInt256) {.gcsafe, upraises: [].}
# OnFilled has same function as OnSale, but is kept for internal purposes and should not be set by any external
# purposes as it is used for freeing Queue Workers after slot is filled. And the callbacks allows only
# one callback to be set, so if some other component would use it, it would override the Slot Queue freeing
# mechanism which would lead to blocking of the queue.
OnFilled* = proc(request: StorageRequest,
slotIndex: UInt256) {.gcsafe, upraises: [].}
OnCleanUp* = proc: Future[void] {.gcsafe, upraises: [].}

View File

@ -10,3 +10,4 @@ type
request*: ?StorageRequest request*: ?StorageRequest
slotIndex*: UInt256 slotIndex*: UInt256
cancelled*: Future[void] cancelled*: Future[void]
reservation*: ?Reservation

View File

@ -14,7 +14,6 @@ import ./errored
type type
SaleDownloading* = ref object of ErrorHandlingState SaleDownloading* = ref object of ErrorHandlingState
availability*: Availability
logScope: logScope:
topics = "marketplace sales downloading" topics = "marketplace sales downloading"
@ -36,7 +35,6 @@ method run*(state: SaleDownloading, machine: Machine): Future[?State] {.async.}
let data = agent.data let data = agent.data
let context = agent.context let context = agent.context
let reservations = context.reservations let reservations = context.reservations
let availability = state.availability
without onStore =? context.onStore: without onStore =? context.onStore:
raiseAssert "onStore callback not set" raiseAssert "onStore callback not set"
@ -47,9 +45,14 @@ method run*(state: SaleDownloading, machine: Machine): Future[?State] {.async.}
without slotIndex =? data.slotIndex: without slotIndex =? data.slotIndex:
raiseAssert("no slot index assigned") raiseAssert("no slot index assigned")
# mark availability as used so that it is not matched to other requests without reservation =? data.reservation:
if markUsedErr =? (await reservations.markUsed(availability.id)).errorOption: raiseAssert("no reservation")
return some State(SaleErrored(error: markUsedErr))
logScope:
requestId = request.id
slotIndex
reservationId = reservation.id
availabilityId = reservation.availabilityId
proc onBatch(blocks: seq[bt.Block]) {.async.} = proc onBatch(blocks: seq[bt.Block]) {.async.} =
# release batches of blocks as they are written to disk and # release batches of blocks as they are written to disk and
@ -59,25 +62,19 @@ method run*(state: SaleDownloading, machine: Machine): Future[?State] {.async.}
bytes += blk.data.len.uint bytes += blk.data.len.uint
trace "Releasing batch of bytes written to disk", bytes trace "Releasing batch of bytes written to disk", bytes
let r = await reservations.release(availability.id, bytes) let r = await reservations.release(reservation.id,
reservation.availabilityId,
bytes)
# `tryGet` will raise the exception that occurred during release, if there # `tryGet` will raise the exception that occurred during release, if there
# was one. The exception will be caught in the closure and sent to the # was one. The exception will be caught in the closure and sent to the
# SaleErrored state. # SaleErrored state.
r.tryGet() r.tryGet()
template markUnused(id: AvailabilityId) =
if markUnusedErr =? (await reservations.markUnused(id)).errorOption:
return some State(SaleErrored(error: markUnusedErr))
trace "Starting download" trace "Starting download"
if err =? (await onStore(request, if err =? (await onStore(request,
slotIndex, slotIndex,
onBatch)).errorOption: onBatch)).errorOption:
markUnused(availability.id)
return some State(SaleErrored(error: err)) return some State(SaleErrored(error: err))
trace "Download complete" trace "Download complete"
markUnused(availability.id)
return some State(SaleInitialProving()) return some State(SaleInitialProving())

View File

@ -4,6 +4,7 @@ import pkg/upraises
import pkg/chronicles import pkg/chronicles
import ../statemachine import ../statemachine
import ../salesagent import ../salesagent
import ../../utils/exceptions
logScope: logScope:
topics = "marketplace sales errored" topics = "marketplace sales errored"
@ -21,13 +22,13 @@ method run*(state: SaleErrored, machine: Machine): Future[?State] {.async.} =
let data = agent.data let data = agent.data
let context = agent.context let context = agent.context
error "Sale error", error=state.error.msg, requestId = $data.requestId error "Sale error", error=state.error.msgDetail, requestId = data.requestId, slotIndex = data.slotIndex
if onClear =? context.onClear and if onClear =? context.onClear and
request =? data.request and request =? data.request and
slotIndex =? data.slotIndex: slotIndex =? data.slotIndex:
onClear(request, slotIndex) onClear(request, slotIndex)
if onCleanUp =? context.onCleanUp: if onCleanUp =? agent.onCleanUp:
await onCleanUp() await onCleanUp()

View File

@ -26,8 +26,9 @@ method onFailed*(state: SaleFilled, request: StorageRequest): ?State =
method `$`*(state: SaleFilled): string = "SaleFilled" method `$`*(state: SaleFilled): string = "SaleFilled"
method run*(state: SaleFilled, machine: Machine): Future[?State] {.async.} = method run*(state: SaleFilled, machine: Machine): Future[?State] {.async.} =
let data = SalesAgent(machine).data let agent = SalesAgent(machine)
let context = SalesAgent(machine).context let data = agent.data
let context = agent.context
let market = context.market let market = context.market
without slotIndex =? data.slotIndex: without slotIndex =? data.slotIndex:
@ -39,9 +40,7 @@ method run*(state: SaleFilled, machine: Machine): Future[?State] {.async.} =
info "Slot succesfully filled", requestId = $data.requestId, slotIndex info "Slot succesfully filled", requestId = $data.requestId, slotIndex
if request =? data.request and slotIndex =? data.slotIndex: if request =? data.request and slotIndex =? data.slotIndex:
if onSale =? context.onSale: if onFilled =? agent.onFilled:
onSale(request, slotIndex)
if onFilled =? context.onFilled:
onFilled(request, slotIndex) onFilled(request, slotIndex)
when codex_enable_proof_failures: when codex_enable_proof_failures:

View File

@ -23,7 +23,6 @@ method onFailed*(state: SaleFinished, request: StorageRequest): ?State =
method run*(state: SaleFinished, machine: Machine): Future[?State] {.async.} = method run*(state: SaleFinished, machine: Machine): Future[?State] {.async.} =
let agent = SalesAgent(machine) let agent = SalesAgent(machine)
let data = agent.data let data = agent.data
let context = agent.context
without request =? data.request: without request =? data.request:
raiseAssert "no sale request" raiseAssert "no sale request"
@ -33,5 +32,5 @@ method run*(state: SaleFinished, machine: Machine): Future[?State] {.async.} =
info "Slot finished and paid out", requestId = $data.requestId, slotIndex info "Slot finished and paid out", requestId = $data.requestId, slotIndex
if onCleanUp =? context.onCleanUp: if onCleanUp =? agent.onCleanUp:
await onCleanUp() await onCleanUp()

View File

@ -14,7 +14,6 @@ method `$`*(state: SaleIgnored): string = "SaleIgnored"
method run*(state: SaleIgnored, machine: Machine): Future[?State] {.async.} = method run*(state: SaleIgnored, machine: Machine): Future[?State] {.async.} =
let agent = SalesAgent(machine) let agent = SalesAgent(machine)
let context = agent.context
if onCleanUp =? context.onCleanUp: if onCleanUp =? agent.onCleanUp:
await onCleanUp() await onCleanUp()

View File

@ -10,6 +10,7 @@ import ./failed
import ./filled import ./filled
import ./ignored import ./ignored
import ./downloading import ./downloading
import ./errored
type type
SalePreparing* = ref object of ErrorHandlingState SalePreparing* = ref object of ErrorHandlingState
@ -50,20 +51,33 @@ method run*(state: SalePreparing, machine: Machine): Future[?State] {.async.} =
# TODO: Once implemented, check to ensure the host is allowed to fill the slot, # TODO: Once implemented, check to ensure the host is allowed to fill the slot,
# due to the [sliding window mechanism](https://github.com/codex-storage/codex-research/blob/master/design/marketplace.md#dispersal) # due to the [sliding window mechanism](https://github.com/codex-storage/codex-research/blob/master/design/marketplace.md#dispersal)
logScope:
slotIndex = data.slotIndex
slotSize = request.ask.slotSize
duration = request.ask.duration
pricePerSlot = request.ask.pricePerSlot
# availability was checked for this slot when it entered the queue, however # availability was checked for this slot when it entered the queue, however
# check to the ensure that there is still availability as they may have # check to the ensure that there is still availability as they may have
# changed since being added (other slots may have been processed in that time) # changed since being added (other slots may have been processed in that time)
without availability =? await reservations.find( without availability =? await reservations.findAvailability(
request.ask.slotSize, request.ask.slotSize,
request.ask.duration, request.ask.duration,
request.ask.pricePerSlot, request.ask.pricePerSlot,
request.ask.collateral, request.ask.collateral):
used = false): debug "no availability found for request, ignoring"
info "no availability found for request, ignoring",
slotSize = request.ask.slotSize,
duration = request.ask.duration,
pricePerSlot = request.ask.pricePerSlot,
used = false
return some State(SaleIgnored()) return some State(SaleIgnored())
return some State(SaleDownloading(availability: availability)) info "availability found for request, creating reservation"
without reservation =? await reservations.createReservation(
availability.id,
request.ask.slotSize,
request.id,
data.slotIndex
), error:
return some State(SaleErrored(error: error))
data.reservation = some reservation
return some State(SaleDownloading())

View File

@ -103,6 +103,8 @@ proc stop*(machine: Machine) {.async.} =
if not machine.started: if not machine.started:
return return
trace "stopping state machine"
machine.started = false machine.started = false
await machine.trackedFutures.cancelTracked() await machine.trackedFutures.cancelTracked()

View File

@ -0,0 +1,7 @@
import std/strformat
proc msgDetail*(e: ref CatchableError): string =
var msg = e.msg
if e.parent != nil:
msg = fmt"{msg} Inner exception: {e.parent.msg}"
return msg

View File

@ -234,6 +234,13 @@ proc fromJson*[T: object](
let json = ?catch parseJson(string.fromBytes(bytes)) let json = ?catch parseJson(string.fromBytes(bytes))
T.fromJson(json) T.fromJson(json)
proc fromJson*[T: ref object](
_: type T,
bytes: seq[byte]
): ?!T =
let json = ?catch parseJson(string.fromBytes(bytes))
T.fromJson(json)
func `%`*(s: string): JsonNode = newJString(s) func `%`*(s: string): JsonNode = newJString(s)
func `%`*(n: uint): JsonNode = func `%`*(n: uint): JsonNode =
@ -307,6 +314,9 @@ func `%`*[T: distinct](id: T): JsonNode =
type baseType = T.distinctBase type baseType = T.distinctBase
% baseType(id) % baseType(id)
func toJson*(obj: object): string = $(%obj)
func toJson*(obj: ref object): string = $(%obj)
proc toJsnImpl(x: NimNode): NimNode = proc toJsnImpl(x: NimNode): NimNode =
case x.kind case x.kind
of nnkBracket: # array of nnkBracket: # array

View File

@ -16,14 +16,12 @@ proc len*(self: TrackedFutures): int = self.futures.len
proc removeFuture(self: TrackedFutures, future: FutureBase) = proc removeFuture(self: TrackedFutures, future: FutureBase) =
if not self.cancelling and not future.isNil: if not self.cancelling and not future.isNil:
trace "removing tracked future"
self.futures.del(future.id) self.futures.del(future.id)
proc track*[T](self: TrackedFutures, fut: Future[T]): Future[T] = proc track*[T](self: TrackedFutures, fut: Future[T]): Future[T] =
if self.cancelling: if self.cancelling:
return fut return fut
trace "tracking future", id = fut.id
self.futures[fut.id] = FutureBase(fut) self.futures[fut.id] = FutureBase(fut)
fut fut
@ -42,6 +40,8 @@ proc track*[T, U](future: Future[T], self: U): Future[T] =
proc cancelTracked*(self: TrackedFutures) {.async.} = proc cancelTracked*(self: TrackedFutures) {.async.} =
self.cancelling = true self.cancelling = true
trace "cancelling tracked futures"
for future in self.futures.values: for future in self.futures.values:
if not future.isNil and not future.finished: if not future.isNil and not future.finished:
trace "cancelling tracked future", id = future.id trace "cancelling tracked future", id = future.id

View File

@ -60,3 +60,11 @@ proc example*(_: type Availability): Availability =
minPrice = uint64.example.u256, minPrice = uint64.example.u256,
maxCollateral = uint16.example.u256 maxCollateral = uint16.example.u256
) )
proc example*(_: type Reservation): Reservation =
Reservation.init(
availabilityId = AvailabilityId(array[32, byte].example),
size = uint16.example.u256,
slotId = SlotId.example
)

View File

@ -1,17 +0,0 @@
import pkg/chronos
import pkg/questionable
import pkg/questionable/results
import pkg/codex/sales/reservations
import ../helpers
export checktest
proc allAvailabilities*(r: Reservations): Future[seq[Availability]] {.async.} =
var ret: seq[Availability] = @[]
without availabilities =? (await r.availabilities), err:
raiseAssert "failed to get availabilities, error: " & err.msg
for a in availabilities:
if availability =? (await a):
ret.add availability
return ret

View File

@ -1,40 +1,60 @@
import std/random
import pkg/questionable import pkg/questionable
import pkg/questionable/results import pkg/questionable/results
import pkg/chronos import pkg/chronos
import pkg/asynctest import pkg/asynctest
import pkg/datastore import pkg/datastore
import pkg/json_serialization
import pkg/json_serialization/std/options
import pkg/codex/stores import pkg/codex/stores
import pkg/codex/sales import pkg/codex/sales
import pkg/codex/utils/json
import ../examples import ../examples
import ./helpers import ../helpers
asyncchecksuite "Reservations module": asyncchecksuite "Reservations module":
var var
repo: RepoStore repo: RepoStore
repoDs: Datastore repoDs: Datastore
metaDs: SQLiteDatastore metaDs: SQLiteDatastore
availability: Availability
reservations: Reservations reservations: Reservations
setup: setup:
randomize(1.int64) # create reproducible results
repoDs = SQLiteDatastore.new(Memory).tryGet() repoDs = SQLiteDatastore.new(Memory).tryGet()
metaDs = SQLiteDatastore.new(Memory).tryGet() metaDs = SQLiteDatastore.new(Memory).tryGet()
repo = RepoStore.new(repoDs, metaDs) repo = RepoStore.new(repoDs, metaDs)
reservations = Reservations.new(repo) reservations = Reservations.new(repo)
availability = Availability.example
proc createAvailability(): Availability =
let example = Availability.example
let size = rand(100000..200000)
let availability = waitFor reservations.createAvailability(
size.u256,
example.duration,
example.minPrice,
example.maxCollateral
)
return availability.get
proc createReservation(availability: Availability): Reservation =
let size = rand(1..<availability.size.truncate(int))
let reservation = waitFor reservations.createReservation(
availability.id,
size.u256,
RequestId.example,
UInt256.example
)
return reservation.get
test "availability can be serialised and deserialised": test "availability can be serialised and deserialised":
let availability = Availability.example let availability = Availability.example
let serialised = availability.toJson let serialised = %availability
check Json.decode(serialised, Availability) == availability check Availability.fromJson(serialised).get == availability
test "has no availability initially": test "has no availability initially":
check (await reservations.allAvailabilities()).len == 0 check (await reservations.all(Availability)).get.len == 0
test "generates unique ids for storage availability": test "generates unique ids for storage availability":
let availability1 = Availability.init(1.u256, 2.u256, 3.u256, 4.u256) let availability1 = Availability.init(1.u256, 2.u256, 3.u256, 4.u256)
@ -42,12 +62,18 @@ asyncchecksuite "Reservations module":
check availability1.id != availability2.id check availability1.id != availability2.id
test "can reserve available storage": test "can reserve available storage":
let availability1 = Availability.example let availability = createAvailability()
let availability2 = Availability.example check availability.id != AvailabilityId.default
check isOk await reservations.reserve(availability1)
check isOk await reservations.reserve(availability2)
let availabilities = await reservations.allAvailabilities() test "creating availability reserves bytes in repo":
let orig = repo.available
let availability = createAvailability()
check repo.available == (orig.u256 - availability.size).truncate(uint)
test "can get all availabilities":
let availability1 = createAvailability()
let availability2 = createAvailability()
let availabilities = !(await reservations.all(Availability))
check: check:
# perform unordered checks # perform unordered checks
availabilities.len == 2 availabilities.len == 2
@ -55,132 +81,198 @@ asyncchecksuite "Reservations module":
availabilities.contains(availability2) availabilities.contains(availability2)
test "reserved availability exists": test "reserved availability exists":
check isOk await reservations.reserve(availability) let availability = createAvailability()
without exists =? await reservations.exists(availability.id): without exists =? await reservations.exists(availability.key.get):
fail() fail()
check exists check exists
test "reserved availability can be partially released": test "reservation can be created":
let size = availability.size.truncate(uint) let availability = createAvailability()
check isOk await reservations.reserve(availability) let reservation = createReservation(availability)
check isOk await reservations.release(availability.id, size - 1) check reservation.id != ReservationId.default
without a =? await reservations.get(availability.id): test "can get all reservations":
fail() let availability1 = createAvailability()
let availability2 = createAvailability()
let reservation1 = createReservation(availability1)
let reservation2 = createReservation(availability2)
let availabilities = !(await reservations.all(Availability))
let reservations = !(await reservations.all(Reservation))
check:
# perform unordered checks
availabilities.len == 2
reservations.len == 2
reservations.contains(reservation1)
reservations.contains(reservation2)
check a.size == 1 test "cannot create reservation with non-existant availability":
let availability = Availability.example
let created = await reservations.createReservation(
availability.id,
UInt256.example,
RequestId.example,
UInt256.example
)
check created.isErr
check created.error of NotExistsError
test "availability is deleted after being fully released": test "cannot create reservation larger than availability size":
let size = availability.size.truncate(uint) let availability = createAvailability()
check isOk await reservations.reserve(availability) let created = await reservations.createReservation(
check isOk await reservations.release(availability.id, size) availability.id,
availability.size + 1,
RequestId.example,
UInt256.example
)
check created.isErr
check created.error of BytesOutOfBoundsError
without exists =? await reservations.exists(availability.id): test "creating reservation reduces availability size":
fail() let availability = createAvailability()
let orig = availability.size
let reservation = createReservation(availability)
let key = availability.id.key.get
let updated = (await reservations.get(key, Availability)).get
check updated.size == orig - reservation.size
check not exists test "can check if reservation exists":
let availability = createAvailability()
let reservation = createReservation(availability)
let key = reservation.key.get
check await reservations.exists(key)
test "non-existant availability cannot be released": test "non-existant availability does not exist":
let size = availability.size.truncate(uint) let key = AvailabilityId.example.key.get
let r = await reservations.release(availability.id, size - 1) check not (await reservations.exists(key))
check r.error of AvailabilityGetFailedError
check r.error.msg == "Availability does not exist"
test "added availability is not used initially": test "non-existant reservation does not exist":
check isOk await reservations.reserve(availability) let key = key(ReservationId.example, AvailabilityId.example).get
check not (await reservations.exists(key))
without available =? await reservations.get(availability.id): test "can check if availability exists":
fail() let availability = createAvailability()
let key = availability.key.get
check await reservations.exists(key)
check not available.used test "can delete reservation":
let availability = createAvailability()
let reservation = createReservation(availability)
check isOk (await reservations.deleteReservation(
reservation.id, reservation.availabilityId)
)
let key = reservation.key.get
check not (await reservations.exists(key))
test "availability can be marked used": test "deleting reservation returns bytes back to availability":
check isOk await reservations.reserve(availability) let availability = createAvailability()
let orig = availability.size
let reservation = createReservation(availability)
discard await reservations.deleteReservation(
reservation.id, reservation.availabilityId
)
let key = availability.key.get
let updated = !(await reservations.get(key, Availability))
check updated.size == orig
check isOk await reservations.markUsed(availability.id) test "reservation can be partially released":
let availability = createAvailability()
let reservation = createReservation(availability)
check isOk await reservations.release(
reservation.id,
reservation.availabilityId,
1
)
let key = reservation.key.get
let updated = !(await reservations.get(key, Reservation))
check updated.size == reservation.size - 1
without available =? await reservations.get(availability.id): test "cannot release more bytes than size of reservation":
fail() let availability = createAvailability()
let reservation = createReservation(availability)
let updated = await reservations.release(
reservation.id,
reservation.availabilityId,
(reservation.size + 1).truncate(uint)
)
check updated.isErr
check updated.error of BytesOutOfBoundsError
check available.used test "cannot release bytes from non-existant reservation":
let availability = createAvailability()
let reservation = createReservation(availability)
let updated = await reservations.release(
ReservationId.example,
availability.id,
1
)
check updated.isErr
check updated.error of NotExistsError
test "availability can be marked unused": test "onAvailabilityAdded called when availability is reserved":
check isOk await reservations.reserve(availability) var added: Availability
reservations.onAvailabilityAdded = proc(a: Availability) {.async.} =
added = a
check isOk await reservations.markUsed(availability.id) let availability = createAvailability()
check isOk await reservations.markUnused(availability.id)
without available =? await reservations.get(availability.id): check added == availability
fail()
check not available.used test "availabilities can be found":
let availability = createAvailability()
test "used availability can be found": let found = await reservations.findAvailability(
check isOk await reservations.reserve(availability) availability.size,
availability.duration,
availability.minPrice,
availability.maxCollateral)
check isOk await reservations.markUsed(availability.id) check found.isSome
check found.get == availability
without available =? await reservations.find(availability.size, test "non-matching availabilities are not found":
availability.duration, availability.minPrice, availability.maxCollateral, used = true): let availability = createAvailability()
fail() let found = await reservations.findAvailability(
availability.size + 1,
availability.duration,
availability.minPrice,
availability.maxCollateral)
test "unused availability can be found": check found.isNone
check isOk await reservations.reserve(availability)
without available =? await reservations.find(availability.size,
availability.duration, availability.minPrice, availability.maxCollateral, used = false):
fail()
test "non-existant availability cannot be found": test "non-existant availability cannot be found":
check isNone (await reservations.find(availability.size, let availability = Availability.example
availability.duration, availability.minPrice, availability.maxCollateral, used = false)) let found = (await reservations.findAvailability(
availability.size,
availability.duration,
availability.minPrice,
availability.maxCollateral
))
check found.isNone
test "non-existant availability cannot be retrieved": test "non-existant availability cannot be retrieved":
let r = await reservations.get(availability.id) let key = AvailabilityId.example.key.get
check r.error of AvailabilityGetFailedError let got = await reservations.get(key, Availability)
check r.error.msg == "Availability does not exist" check got.error of NotExistsError
test "same availability cannot be reserved twice":
check isOk await reservations.reserve(availability)
let r = await reservations.reserve(availability)
check r.error of AvailabilityAlreadyExistsError
test "can get available bytes in repo": test "can get available bytes in repo":
check reservations.available == DefaultQuotaBytes check reservations.available == DefaultQuotaBytes
test "reserving availability reduces available bytes":
check isOk await reservations.reserve(availability)
check reservations.available ==
DefaultQuotaBytes - availability.size.truncate(uint)
test "reports quota available to be reserved": test "reports quota available to be reserved":
check reservations.hasAvailable(availability.size.truncate(uint)) check reservations.hasAvailable(DefaultQuotaBytes - 1)
test "reports quota not available to be reserved": test "reports quota not available to be reserved":
repo = RepoStore.new(repoDs, metaDs, check not reservations.hasAvailable(DefaultQuotaBytes + 1)
quotaMaxBytes = availability.size.truncate(uint) - 1)
reservations = Reservations.new(repo)
check not reservations.hasAvailable(availability.size.truncate(uint))
test "fails to reserve availability with size that is larger than available quota": test "fails to create availability with size that is larger than available quota":
repo = RepoStore.new(repoDs, metaDs, let created = await reservations.createAvailability(
quotaMaxBytes = availability.size.truncate(uint) - 1) (DefaultQuotaBytes + 1).u256,
reservations = Reservations.new(repo) UInt256.example,
let r = await reservations.reserve(availability) UInt256.example,
check r.error of AvailabilityReserveFailedError UInt256.example
check r.error.parent of QuotaNotEnoughError )
check exists =? (await reservations.exists(availability.id)) and not exists check created.isErr
check created.error of ReserveFailedError
test "fails to release availability size that is larger than available quota": check created.error.parent of QuotaNotEnoughError
let size = availability.size.truncate(uint)
repo = RepoStore.new(repoDs, metaDs,
quotaMaxBytes = size)
reservations = Reservations.new(repo)
discard await reservations.reserve(availability)
let r = await reservations.release(availability.id, size + 1)
check r.error of AvailabilityReleaseFailedError
check r.error.parent.msg == "Cannot release this many bytes"

View File

@ -1,4 +1,3 @@
import std/sets
import std/sequtils import std/sequtils
import std/sugar import std/sugar
import std/times import std/times
@ -15,11 +14,11 @@ import pkg/codex/sales/slotqueue
import pkg/codex/stores/repostore import pkg/codex/stores/repostore
import pkg/codex/blocktype as bt import pkg/codex/blocktype as bt
import pkg/codex/node import pkg/codex/node
import ../helpers
import ../helpers/mockmarket import ../helpers/mockmarket
import ../helpers/mockclock import ../helpers/mockclock
import ../helpers/always import ../helpers/always
import ../examples import ../examples
import ./helpers
asyncchecksuite "Sales - start": asyncchecksuite "Sales - start":
let proof = exampleProof() let proof = exampleProof()
@ -122,11 +121,11 @@ asyncchecksuite "Sales":
var itemsProcessed: seq[SlotQueueItem] var itemsProcessed: seq[SlotQueueItem]
setup: setup:
availability = Availability.init( availability = Availability(
size=100.u256, size: 100.u256,
duration=60.u256, duration: 60.u256,
minPrice=600.u256, minPrice: 600.u256,
maxCollateral=400.u256 maxCollateral: 400.u256
) )
request = StorageRequest( request = StorageRequest(
ask: StorageAsk( ask: StorageAsk(
@ -169,8 +168,18 @@ asyncchecksuite "Sales":
await sales.stop() await sales.stop()
await repo.stop() await repo.stop()
proc getAvailability: ?!Availability = proc getAvailability: Availability =
waitFor reservations.get(availability.id) let key = availability.id.key.get
(waitFor reservations.get(key, Availability)).get
proc createAvailability() =
let a = waitFor reservations.createAvailability(
availability.size,
availability.duration,
availability.minPrice,
availability.maxCollateral
)
availability = a.get # update id
proc notProcessed(itemsProcessed: seq[SlotQueueItem], proc notProcessed(itemsProcessed: seq[SlotQueueItem],
request: StorageRequest): bool = request: StorageRequest): bool =
@ -188,7 +197,7 @@ asyncchecksuite "Sales":
var request1 = StorageRequest.example var request1 = StorageRequest.example
request1.ask.collateral = request.ask.collateral + 1 request1.ask.collateral = request.ask.collateral + 1
discard await reservations.reserve(availability) createAvailability()
# saturate queue # saturate queue
while queue.len < queue.size - 1: while queue.len < queue.size - 1:
await market.requestStorage(StorageRequest.example) await market.requestStorage(StorageRequest.example)
@ -197,11 +206,19 @@ asyncchecksuite "Sales":
await sleepAsync(5.millis) # wait for request slots to be added to queue await sleepAsync(5.millis) # wait for request slots to be added to queue
return request1 return request1
proc wasIgnored(): bool =
let run = proc(): Future[bool] {.async.} =
always (
getAvailability().size == availability.size and
(waitFor reservations.all(Reservation)).get.len == 0
)
waitFor run()
test "processes all request's slots once StorageRequested emitted": test "processes all request's slots once StorageRequested emitted":
queue.onProcessSlot = proc(item: SlotQueueItem, done: Future[void]) {.async.} = queue.onProcessSlot = proc(item: SlotQueueItem, done: Future[void]) {.async.} =
itemsProcessed.add item itemsProcessed.add item
done.complete() done.complete()
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
let items = SlotQueueItem.init(request) let items = SlotQueueItem.init(request)
check eventually items.allIt(itemsProcessed.contains(it)) check eventually items.allIt(itemsProcessed.contains(it))
@ -232,7 +249,7 @@ asyncchecksuite "Sales":
itemsProcessed.add item itemsProcessed.add item
done.complete() done.complete()
check isOk await reservations.reserve(availability) createAvailability()
market.requested.add request # "contract" must be able to return request market.requested.add request # "contract" must be able to return request
market.emitSlotFreed(request.id, 2.u256) market.emitSlotFreed(request.id, 2.u256)
@ -241,82 +258,89 @@ asyncchecksuite "Sales":
test "adds past requests to queue once availability added": test "adds past requests to queue once availability added":
var itemsProcessed: seq[SlotQueueItem] = @[] var itemsProcessed: seq[SlotQueueItem] = @[]
# ignore all
queue.onProcessSlot = proc(item: SlotQueueItem, done: Future[void]) {.async.} =
done.complete()
await market.requestStorage(request)
await sleepAsync(10.millis)
# check how many slots were processed by the queue
queue.onProcessSlot = proc(item: SlotQueueItem, done: Future[void]) {.async.} = queue.onProcessSlot = proc(item: SlotQueueItem, done: Future[void]) {.async.} =
itemsProcessed.add item itemsProcessed.add item
done.complete() done.complete()
await market.requestStorage(request)
# now add matching availability # now add matching availability
check isOk await reservations.reserve(availability) createAvailability()
check eventually itemsProcessed.len == request.ask.slots.int check eventually itemsProcessed.len == request.ask.slots.int
test "makes storage unavailable when downloading a matched request": test "availability size is reduced by request slot size when fully downloaded":
var used = false
sales.onStore = proc(request: StorageRequest, sales.onStore = proc(request: StorageRequest,
slot: UInt256, slot: UInt256,
onBatch: BatchProc): Future[?!void] {.async.} = onBatch: BatchProc): Future[?!void] {.async.} =
without avail =? await reservations.get(availability.id): let blk = bt.Block.new( @[1.byte] ).get
fail() onBatch( blk.repeat(request.ask.slotSize.truncate(int)) )
used = avail.used
return success() return success()
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually used check eventually getAvailability().size == availability.size - request.ask.slotSize
test "reduces remaining availability size after download": test "non-downloaded bytes are returned to availability once finished":
let blk = bt.Block.example var slotIndex = 0.u256
request.ask.slotSize = blk.data.len.u256
availability.size = request.ask.slotSize + 1
sales.onStore = proc(request: StorageRequest, sales.onStore = proc(request: StorageRequest,
slot: UInt256, slot: UInt256,
onBatch: BatchProc): Future[?!void] {.async.} = onBatch: BatchProc): Future[?!void] {.async.} =
await onBatch(@[blk]) slotIndex = slot
let blk = bt.Block.new( @[1.byte] ).get
onBatch(@[ blk ])
return success() return success()
check isOk await reservations.reserve(availability)
createAvailability()
let origSize = availability.size
await market.requestStorage(request) await market.requestStorage(request)
check eventually getAvailability().?size == success 1.u256 await sleepAsync(2.millis) # allow proving to start
# complete request
market.slotState[request.slotId(slotIndex)] = SlotState.Finished
clock.advance(request.ask.duration.truncate(int64))
check eventually getAvailability().size == origSize - 1
test "ignores download when duration not long enough": test "ignores download when duration not long enough":
availability.duration = request.ask.duration - 1 availability.duration = request.ask.duration - 1
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check getAvailability().?size == success availability.size check wasIgnored()
test "ignores request when slot size is too small": test "ignores request when slot size is too small":
availability.size = request.ask.slotSize - 1 availability.size = request.ask.slotSize - 1
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check getAvailability().?size == success availability.size check wasIgnored()
test "ignores request when reward is too low": test "ignores request when reward is too low":
availability.minPrice = request.ask.pricePerSlot + 1 availability.minPrice = request.ask.pricePerSlot + 1
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check getAvailability().?size == success availability.size check wasIgnored()
test "availability remains unused when request is ignored":
availability.minPrice = request.ask.pricePerSlot + 1
check isOk await reservations.reserve(availability)
await market.requestStorage(request)
check getAvailability().?used == success false
test "ignores request when asked collateral is too high": test "ignores request when asked collateral is too high":
var tooBigCollateral = request var tooBigCollateral = request
tooBigCollateral.ask.collateral = availability.maxCollateral + 1 tooBigCollateral.ask.collateral = availability.maxCollateral + 1
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(tooBigCollateral) await market.requestStorage(tooBigCollateral)
check getAvailability().?size == success availability.size check wasIgnored()
test "ignores request when slot state is not free": test "ignores request when slot state is not free":
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
market.slotState[request.slotId(0.u256)] = SlotState.Filled market.slotState[request.slotId(0.u256)] = SlotState.Filled
market.slotState[request.slotId(1.u256)] = SlotState.Filled market.slotState[request.slotId(1.u256)] = SlotState.Filled
market.slotState[request.slotId(2.u256)] = SlotState.Filled market.slotState[request.slotId(2.u256)] = SlotState.Filled
market.slotState[request.slotId(3.u256)] = SlotState.Filled market.slotState[request.slotId(3.u256)] = SlotState.Filled
check getAvailability().?size == success availability.size check wasIgnored()
test "retrieves and stores data locally": test "retrieves and stores data locally":
var storingRequest: StorageRequest var storingRequest: StorageRequest
@ -327,7 +351,7 @@ asyncchecksuite "Sales":
storingRequest = request storingRequest = request
storingSlot = slot storingSlot = slot
return success() return success()
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually storingRequest == request check eventually storingRequest == request
check storingSlot < request.ask.slots.u256 check storingSlot < request.ask.slots.u256
@ -342,7 +366,7 @@ asyncchecksuite "Sales":
sales.onClear = proc(request: StorageRequest, sales.onClear = proc(request: StorageRequest,
idx: UInt256) = idx: UInt256) =
saleFailed = true saleFailed = true
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually saleFailed check eventually saleFailed
@ -352,10 +376,9 @@ asyncchecksuite "Sales":
slot: UInt256, slot: UInt256,
onBatch: BatchProc): Future[?!void] {.async.} = onBatch: BatchProc): Future[?!void] {.async.} =
return failure(error) return failure(error)
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually getAvailability().?used == success false check getAvailability().size == availability.size
check getAvailability().?size == success availability.size
test "generates proof of storage": test "generates proof of storage":
var provingRequest: StorageRequest var provingRequest: StorageRequest
@ -363,13 +386,13 @@ asyncchecksuite "Sales":
sales.onProve = proc(slot: Slot): Future[seq[byte]] {.async.} = sales.onProve = proc(slot: Slot): Future[seq[byte]] {.async.} =
provingRequest = slot.request provingRequest = slot.request
provingSlot = slot.slotIndex provingSlot = slot.slotIndex
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually provingRequest == request check eventually provingRequest == request
check provingSlot < request.ask.slots.u256 check provingSlot < request.ask.slots.u256
test "fills a slot": test "fills a slot":
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually market.filled.len > 0 check eventually market.filled.len > 0
check market.filled[0].requestId == request.id check market.filled[0].requestId == request.id
@ -378,19 +401,15 @@ asyncchecksuite "Sales":
check market.filled[0].host == await market.getSigner() check market.filled[0].host == await market.getSigner()
test "calls onFilled when slot is filled": test "calls onFilled when slot is filled":
var soldAvailability: Availability var soldRequest = StorageRequest.default
var soldRequest: StorageRequest var soldSlotIndex = UInt256.high
var soldSlotIndex: UInt256
sales.onSale = proc(request: StorageRequest, sales.onSale = proc(request: StorageRequest,
slotIndex: UInt256) = slotIndex: UInt256) =
if a =? availability:
soldAvailability = a
soldRequest = request soldRequest = request
soldSlotIndex = slotIndex soldSlotIndex = slotIndex
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually soldAvailability == availability check eventually soldRequest == request
check soldRequest == request
check soldSlotIndex < request.ask.slots.u256 check soldSlotIndex < request.ask.slots.u256
test "calls onClear when storage becomes available again": test "calls onClear when storage becomes available again":
@ -404,7 +423,7 @@ asyncchecksuite "Sales":
slotIndex: UInt256) = slotIndex: UInt256) =
clearedRequest = request clearedRequest = request
clearedSlotIndex = slotIndex clearedSlotIndex = slotIndex
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
check eventually clearedRequest == request check eventually clearedRequest == request
check clearedSlotIndex < request.ask.slots.u256 check clearedSlotIndex < request.ask.slots.u256
@ -416,22 +435,24 @@ asyncchecksuite "Sales":
onBatch: BatchProc): Future[?!void] {.async.} = onBatch: BatchProc): Future[?!void] {.async.} =
await sleepAsync(chronos.hours(1)) await sleepAsync(chronos.hours(1))
return success() return success()
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
for slotIndex in 0..<request.ask.slots: for slotIndex in 0..<request.ask.slots:
market.fillSlot(request.id, slotIndex.u256, proof, otherHost) market.fillSlot(request.id, slotIndex.u256, proof, otherHost)
check eventually (await reservations.allAvailabilities) == @[availability] check eventually (await reservations.all(Availability)).get == @[availability]
test "makes storage available again when request expires": test "makes storage available again when request expires":
let origSize = availability.size
sales.onStore = proc(request: StorageRequest, sales.onStore = proc(request: StorageRequest,
slot: UInt256, slot: UInt256,
onBatch: BatchProc): Future[?!void] {.async.} = onBatch: BatchProc): Future[?!void] {.async.} =
await sleepAsync(chronos.hours(1)) await sleepAsync(chronos.hours(1))
return success() return success()
check isOk await reservations.reserve(availability) createAvailability()
await market.requestStorage(request) await market.requestStorage(request)
clock.set(request.expiry.truncate(int64)) clock.set(request.expiry.truncate(int64))
check eventually (await reservations.allAvailabilities) == @[availability] check eventually (await reservations.all(Availability)).get == @[availability]
check getAvailability().size == origSize
test "loads active slots from market": test "loads active slots from market":
let me = await market.getSigner() let me = await market.getSigner()
@ -469,3 +490,15 @@ asyncchecksuite "Sales":
check eventually sales.agents.len == 2 check eventually sales.agents.len == 2
check sales.agents.any(agent => agent.data.requestId == request.id and agent.data.slotIndex == 0.u256) check sales.agents.any(agent => agent.data.requestId == request.id and agent.data.slotIndex == 0.u256)
check sales.agents.any(agent => agent.data.requestId == request.id and agent.data.slotIndex == 1.u256) check sales.agents.any(agent => agent.data.requestId == request.id and agent.data.slotIndex == 1.u256)
test "deletes inactive reservations on load":
createAvailability()
discard await reservations.createReservation(
availability.id,
100.u256,
RequestId.example,
UInt256.example)
check (await reservations.all(Reservation)).get.len == 1
await sales.load()
check (await reservations.all(Reservation)).get.len == 0
check getAvailability().size == availability.size # was restored

View File

@ -211,7 +211,7 @@ checksuite "json serialization":
}, },
"expiry": "1691545330" "expiry": "1691545330"
}""".flatten }""".flatten
check $(%request) == expected check request.toJson == expected
test "deserializes UInt256 from non-hex string representation": test "deserializes UInt256 from non-hex string representation":
let json = newJString("100000") let json = newJString("100000")

View File

@ -1,6 +1,7 @@
import std/random import std/random
import std/sequtils import std/sequtils
import std/times import std/times
import std/typetraits
import pkg/codex/contracts/requests import pkg/codex/contracts/requests
import pkg/codex/sales/slotqueue import pkg/codex/sales/slotqueue
import pkg/stint import pkg/stint
@ -19,8 +20,9 @@ proc example*[T](_: type seq[T]): seq[T] =
proc example*(_: type UInt256): UInt256 = proc example*(_: type UInt256): UInt256 =
UInt256.fromBytes(array[32, byte].example) UInt256.fromBytes(array[32, byte].example)
proc example*[T: RequestId | SlotId | Nonce](_: type T): T = proc example*[T: distinct](_: type T): T =
T(array[32, byte].example) type baseType = T.distinctBase
T(baseType.example)
proc example*(_: type StorageRequest): StorageRequest = proc example*(_: type StorageRequest): StorageRequest =
StorageRequest( StorageRequest(