161 lines
5.4 KiB
Nim
161 lines
5.4 KiB
Nim
import pkg/asynctest
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import pkg/chronos
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import pkg/codex/sales
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import ./helpers/mockmarket
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import ./helpers/mockclock
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import ./examples
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suite "Sales":
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let availability = Availability.init(
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size=100.u256,
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duration=60.u256,
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minPrice=42.u256
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)
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var request = StorageRequest(
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ask: StorageAsk(
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duration: 60.u256,
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size: 100.u256,
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reward:42.u256,
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slots: 4
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),
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content: StorageContent(
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cid: "some cid"
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)
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)
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let proof = seq[byte].example
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var sales: Sales
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var market: MockMarket
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var clock: MockClock
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setup:
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market = MockMarket.new()
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clock = MockClock.new()
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sales = Sales.new(market, clock)
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sales.onStore = proc(cid: string, availability: Availability) {.async.} =
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discard
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sales.onProve = proc(cid: string): Future[seq[byte]] {.async.} =
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return proof
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await sales.start()
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request.expiry = (clock.now() + 42).u256
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teardown:
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await sales.stop()
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test "has no availability initially":
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check sales.available.len == 0
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test "can add available storage":
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let availability1 = Availability.example
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let availability2 = Availability.example
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sales.add(availability1)
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check sales.available.contains(availability1)
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sales.add(availability2)
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check sales.available.contains(availability1)
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check sales.available.contains(availability2)
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test "can remove available storage":
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sales.add(availability)
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sales.remove(availability)
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check sales.available.len == 0
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test "generates unique ids for storage availability":
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let availability1 = Availability.init(1.u256, 2.u256, 3.u256)
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let availability2 = Availability.init(1.u256, 2.u256, 3.u256)
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check availability1.id != availability2.id
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test "makes storage unavailable when matching request comes in":
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sales.add(availability)
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discard await market.requestStorage(request)
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check sales.available.len == 0
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test "ignores request when no matching storage is available":
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sales.add(availability)
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var tooBig = request
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tooBig.ask.size = request.ask.size + 1
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discard await market.requestStorage(tooBig)
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check sales.available == @[availability]
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test "retrieves and stores data locally":
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var storingCid: string
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var storingAvailability: Availability
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sales.onStore = proc(cid: string, availability: Availability) {.async.} =
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storingCid = cid
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storingAvailability = availability
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sales.add(availability)
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discard await market.requestStorage(request)
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check storingCid == request.content.cid
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test "makes storage available again when data retrieval fails":
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let error = newException(IOError, "data retrieval failed")
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sales.onStore = proc(cid: string, availability: Availability) {.async.} =
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raise error
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sales.add(availability)
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discard await market.requestStorage(request)
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check sales.available == @[availability]
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test "generates proof of storage":
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var provingCid: string
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sales.onProve = proc(cid: string): Future[seq[byte]] {.async.} = provingCid = cid
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sales.add(availability)
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discard await market.requestStorage(request)
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check provingCid == request.content.cid
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test "fills a slot":
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sales.add(availability)
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discard await market.requestStorage(request)
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check market.filled.len == 1
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check market.filled[0].requestId == request.id
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check market.filled[0].slotIndex < request.ask.slots.u256
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check market.filled[0].proof == proof
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check market.filled[0].host == await market.getSigner()
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test "calls onSale when slot is filled":
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var soldAvailability: Availability
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var soldRequest: StorageRequest
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var soldSlotIndex: UInt256
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sales.onSale = proc(availability: Availability,
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request: StorageRequest,
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slotIndex: UInt256) =
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soldAvailability = availability
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soldRequest = request
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soldSlotIndex = slotIndex
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sales.add(availability)
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discard await market.requestStorage(request)
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check soldAvailability == availability
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check soldRequest == request
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check soldSlotIndex < request.ask.slots.u256
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test "calls onClear when storage becomes available again":
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sales.onProve = proc(cid: string): Future[seq[byte]] {.async.} =
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raise newException(IOError, "proof failed")
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var clearedAvailability: Availability
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var clearedRequest: StorageRequest
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sales.onClear = proc(availability: Availability, request: StorageRequest) =
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clearedAvailability = availability
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clearedRequest = request
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sales.add(availability)
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discard await market.requestStorage(request)
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check clearedAvailability == availability
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check clearedRequest == request
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test "makes storage available again when other host fills the slot":
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let otherHost = Address.example
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sales.onStore = proc(cid: string, availability: Availability) {.async.} =
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await sleepAsync(1.hours)
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sales.add(availability)
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discard await market.requestStorage(request)
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for slotIndex in 0..<request.ask.slots:
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market.fillSlot(request.id, slotIndex.u256, proof, otherHost)
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check sales.available == @[availability]
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test "makes storage available again when request expires":
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sales.onStore = proc(cid: string, availability: Availability) {.async.} =
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await sleepAsync(1.hours)
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sales.add(availability)
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discard await market.requestStorage(request)
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clock.set(request.expiry.truncate(int64))
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await sleepAsync(2.seconds)
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check sales.available == @[availability]
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