{.used.} import unittest import chronos import ../beacon_chain/sync_manager type SomeTPeer = ref object proc `$`*(peer: SomeTPeer): string = "SomeTPeer" proc updateScore(peer: SomeTPeer, score: int) = discard proc getFirstSlotAtFinalizedEpoch(): Slot = Slot(0) suite "SyncManager test suite": proc createChain(start, finish: Slot): seq[SignedBeaconBlock] = doAssert(start <= finish) let count = int(finish - start + 1'u64) result = newSeq[SignedBeaconBlock](count) var curslot = start for item in result.mitems(): item.message.slot = curslot curslot = curslot + 1'u64 test "[SyncQueue] Start and finish slots equal": let p1 = SomeTPeer() let aq = newAsyncQueue[SyncBlock](1) var queue = SyncQueue.init(SomeTPeer, Slot(0), Slot(0), 1'u64, getFirstSlotAtFinalizedEpoch, aq) check len(queue) == 1 var r11 = queue.pop(Slot(0), p1) check len(queue) == 0 queue.push(r11) check len(queue) == 1 var r11e = queue.pop(Slot(0), p1) check: len(queue) == 0 r11e == r11 r11.item == p1 r11e.item == r11.item r11.slot == Slot(0) and r11.count == 1'u64 and r11.step == 1'u64 test "[SyncQueue] Two full requests success/fail": let aq = newAsyncQueue[SyncBlock](1) var queue = SyncQueue.init(SomeTPeer, Slot(0), Slot(1), 1'u64, getFirstSlotAtFinalizedEpoch, aq) let p1 = SomeTPeer() let p2 = SomeTPeer() check len(queue) == 2 var r21 = queue.pop(Slot(1), p1) check len(queue) == 1 var r22 = queue.pop(Slot(1), p2) check len(queue) == 0 queue.push(r22) check len(queue) == 1 queue.push(r21) check len(queue) == 2 var r21e = queue.pop(Slot(1), p1) check len(queue) == 1 var r22e = queue.pop(Slot(1), p2) check: len(queue) == 0 r21 == r21e r22 == r22e r21.item == p1 r22.item == p2 r21.item == r21e.item r22.item == r22e.item r21.slot == Slot(0) and r21.count == 1'u64 and r21.step == 1'u64 r22.slot == Slot(1) and r22.count == 1'u64 and r22.step == 1'u64 test "[SyncQueue] Full and incomplete success/fail start from zero": let aq = newAsyncQueue[SyncBlock](1) var queue = SyncQueue.init(SomeTPeer, Slot(0), Slot(4), 2'u64, getFirstSlotAtFinalizedEpoch, aq) let p1 = SomeTPeer() let p2 = SomeTPeer() let p3 = SomeTPeer() check len(queue) == 5 var r31 = queue.pop(Slot(4), p1) check len(queue) == 3 var r32 = queue.pop(Slot(4), p2) check len(queue) == 1 var r33 = queue.pop(Slot(4), p3) check len(queue) == 0 queue.push(r33) check len(queue) == 1 queue.push(r32) check len(queue) == 3 queue.push(r31) check len(queue) == 5 var r31e = queue.pop(Slot(4), p1) check len(queue) == 3 var r32e = queue.pop(Slot(4), p2) check len(queue) == 1 var r33e = queue.pop(Slot(4), p3) check: len(queue) == 0 r31 == r31e r32 == r32e r33 == r33e r31.item == r31e.item r32.item == r32e.item r33.item == r33e.item r31.item == p1 r32.item == p2 r33.item == p3 r31.slot == Slot(0) and r31.count == 2'u64 and r31.step == 1'u64 r32.slot == Slot(2) and r32.count == 2'u64 and r32.step == 1'u64 r33.slot == Slot(4) and r33.count == 1'u64 and r33.step == 1'u64 test "[SyncQueue] Full and incomplete success/fail start from non-zero": let aq = newAsyncQueue[SyncBlock](1) var queue = SyncQueue.init(SomeTPeer, Slot(1), Slot(5), 3'u64, getFirstSlotAtFinalizedEpoch, aq) let p1 = SomeTPeer() let p2 = SomeTPeer() check len(queue) == 5 var r41 = queue.pop(Slot(5), p1) check len(queue) == 2 var r42 = queue.pop(Slot(5), p2) check len(queue) == 0 queue.push(r42) check len(queue) == 2 queue.push(r41) check len(queue) == 5 var r41e = queue.pop(Slot(5), p1) check len(queue) == 2 var r42e = queue.pop(Slot(5), p2) check: len(queue) == 0 r41 == r41e r42 == r42e r41.item == r41e.item r42.item == r42e.item r41.item == p1 r42.item == p2 r41.slot == Slot(1) and r41.count == 3'u64 and r41.step == 1'u64 r42.slot == Slot(4) and r42.count == 2'u64 and r42.step == 1'u64 test "[SyncQueue] Smart and stupid success/fail": let aq = newAsyncQueue[SyncBlock](1) var queue = SyncQueue.init(SomeTPeer, Slot(0), Slot(4), 5'u64, getFirstSlotAtFinalizedEpoch, aq) let p1 = SomeTPeer() let p2 = SomeTPeer() check len(queue) == 5 var r51 = queue.pop(Slot(3), p1) check len(queue) == 1 var r52 = queue.pop(Slot(4), p2) check len(queue) == 0 queue.push(r52) check len(queue) == 1 queue.push(r51) check len(queue) == 5 var r51e = queue.pop(Slot(3), p1) check len(queue) == 1 var r52e = queue.pop(Slot(4), p2) check: len(queue) == 0 r51 == r51e r52 == r52e r51.item == r51e.item r52.item == r52e.item r51.item == p1 r52.item == p2 r51.slot == Slot(0) and r51.count == 4'u64 and r51.step == 1'u64 r52.slot == Slot(4) and r52.count == 1'u64 and r52.step == 1'u64 test "[SyncQueue] One smart and one stupid + debt split + empty": let aq = newAsyncQueue[SyncBlock](1) var queue = SyncQueue.init(SomeTPeer, Slot(0), Slot(4), 5'u64, getFirstSlotAtFinalizedEpoch, aq) let p1 = SomeTPeer() let p2 = SomeTPeer() let p3 = SomeTPeer() let p4 = SomeTPeer() check len(queue) == 5 var r61 = queue.pop(Slot(4), p1) check len(queue) == 0 queue.push(r61) var r61e = queue.pop(Slot(2), p1) check len(queue) == 2 var r62e = queue.pop(Slot(2), p2) check len(queue) == 2 check r62e.isEmpty() var r63e = queue.pop(Slot(3), p3) check len(queue) == 1 var r64e = queue.pop(Slot(4), p4) check: len(queue) == 0 r61.slot == Slot(0) and r61.count == 5'u64 and r61.step == 1'u64 r61e.slot == Slot(0) and r61e.count == 3'u64 and r61e.step == 1'u64 r62e.isEmpty() r63e.slot == Slot(3) and r63e.count == 1'u64 and r63e.step == 1'u64 r64e.slot == Slot(4) and r64e.count == 1'u64 and r64e.step == 1'u64 r61.item == p1 r61e.item == p1 isNil(r62e.item) == true r63e.item == p3 r64e.item == p4 test "[SyncQueue] Async unordered push start from zero": proc test(): Future[bool] {.async.} = var counter = 0 proc simpleValidator(aq: AsyncQueue[SyncBlock]) {.async.} = while true: let sblock = await aq.popFirst() if sblock.blk.message.slot == Slot(counter): inc(counter) else: sblock.fail(BlockError.Invalid) sblock.done() var aq = newAsyncQueue[SyncBlock](1) var chain = createChain(Slot(0), Slot(2)) var queue = SyncQueue.init(SomeTPeer, Slot(0), Slot(2), 1'u64, getFirstSlotAtFinalizedEpoch, aq, 1) var validatorFut = simpleValidator(aq) let p1 = SomeTPeer() let p2 = SomeTPeer() let p3 = SomeTPeer() var r11 = queue.pop(Slot(2), p1) var r12 = queue.pop(Slot(2), p2) var r13 = queue.pop(Slot(2), p3) var f13 = queue.push(r13, @[chain[2]]) # await sleepAsync(100.milliseconds) # doAssert(f12.finished == false) doAssert(f13.finished == false) doAssert(counter == 0) var f11 = queue.push(r11, @[chain[0]]) await sleepAsync(100.milliseconds) doAssert(counter == 1) doAssert(f11.finished == true and f11.failed == false) var f12 = queue.push(r12, @[chain[1]]) await sleepAsync(100.milliseconds) doAssert(f12.finished == true and f12.failed == false) doAssert(f13.finished == true and f13.failed == false) doAssert(counter == 3) doAssert(r11.item == p1) doAssert(r12.item == p2) doAssert(r13.item == p3) await validatorFut.cancelAndWait() result = true check waitFor(test()) test "[SyncQueue] Async unordered push with not full start from non-zero": proc test(): Future[bool] {.async.} = var counter = 5 proc simpleValidator(aq: AsyncQueue[SyncBlock]) {.async.} = while true: let sblock = await aq.popFirst() if sblock.blk.message.slot == Slot(counter): inc(counter) else: sblock.fail(BlockError.Invalid) sblock.done() var aq = newAsyncQueue[SyncBlock](1) var chain = createChain(Slot(5), Slot(11)) var queue = SyncQueue.init(SomeTPeer, Slot(5), Slot(11), 2'u64, getFirstSlotAtFinalizedEpoch, aq, 2) let p1 = SomeTPeer() let p2 = SomeTPeer() let p3 = SomeTPeer() let p4 = SomeTPeer() var validatorFut = simpleValidator(aq) var r21 = queue.pop(Slot(11), p1) var r22 = queue.pop(Slot(11), p2) var r23 = queue.pop(Slot(11), p3) var r24 = queue.pop(Slot(11), p4) var f24 = queue.push(r24, @[chain[6]]) var f22 = queue.push(r22, @[chain[2], chain[3]]) doAssert(f24.finished == false) doAssert(f22.finished == true and f22.failed == false) doAssert(counter == 5) var f21 = queue.push(r21, @[chain[0], chain[1]]) await sleepAsync(100.milliseconds) doAssert(f21.finished == true and f21.failed == false) doAssert(f24.finished == true and f24.failed == false) doAssert(counter == 9) var f23 = queue.push(r23, @[chain[4], chain[5]]) await sleepAsync(100.milliseconds) doAssert(f23.finished == true and f23.failed == false) doAssert(counter == 12) doAssert(counter == 12) doAssert(r21.item == p1) doAssert(r22.item == p2) doAssert(r23.item == p3) doAssert(r24.item == p4) await validatorFut.cancelAndWait() result = true check waitFor(test()) test "[SyncQueue] Async pending and resetWait() test": proc test(): Future[bool] {.async.} = var counter = 5 proc simpleValidator(aq: AsyncQueue[SyncBlock]) {.async.} = while true: let sblock = await aq.popFirst() if sblock.blk.message.slot == Slot(counter): inc(counter) else: sblock.fail(BlockError.Invalid) sblock.done() var aq = newAsyncQueue[SyncBlock](1) var chain = createChain(Slot(5), Slot(18)) var queue = SyncQueue.init(SomeTPeer, Slot(5), Slot(18), 2'u64, getFirstSlotAtFinalizedEpoch, aq, 2) let p1 = SomeTPeer() let p2 = SomeTPeer() let p3 = SomeTPeer() let p4 = SomeTPeer() let p5 = SomeTPeer() let p6 = SomeTPeer() let p7 = SomeTPeer() var validatorFut = simpleValidator(aq) var r21 = queue.pop(Slot(20), p1) var r22 = queue.pop(Slot(20), p2) var r23 = queue.pop(Slot(20), p3) var r24 = queue.pop(Slot(20), p4) var r25 = queue.pop(Slot(20), p5) var r26 = queue.pop(Slot(20), p6) var r27 = queue.pop(Slot(20), p7) var f21 = queue.push(r21, @[chain[0], chain[1]]) # This should be silently ignored, because r21 is already processed. var e21 = queue.push(r21, @[chain[0], chain[1]]) queue.push(r22) queue.push(r23) var f26 = queue.push(r26, @[chain[10], chain[11]]) var f27 = queue.push(r27, @[chain[12], chain[13]]) await sleepAsync(100.milliseconds) doAssert(f21.finished == true and f21.failed == false) doAssert(e21.finished == true and e21.failed == false) doAssert(f26.finished == false) doAssert(f27.finished == false) await queue.resetWait(none[Slot]()) await sleepAsync(100.milliseconds) doAssert(f26.finished == true and f26.failed == false) doAssert(f27.finished == true and f27.failed == false) doAssert(queue.inpSlot == Slot(7) and queue.outSlot == Slot(7)) doAssert(counter == 7) doAssert(len(queue) == 12) # This should be silently ignored, because r21 is already processed. var o21 = queue.push(r21, @[chain[0], chain[1]]) var o22 = queue.push(r22, @[chain[2], chain[3]]) queue.push(r23) queue.push(r24) var o25 = queue.push(r25, @[chain[8], chain[9]]) var o26 = queue.push(r26, @[chain[10], chain[11]]) var o27 = queue.push(r27, @[chain[12], chain[13]]) await sleepAsync(100.milliseconds) doAssert(o21.finished == true and o21.failed == false) doAssert(o22.finished == true and o22.failed == false) doAssert(o25.finished == true and o25.failed == false) doAssert(o26.finished == true and o26.failed == false) doAssert(o27.finished == true and o27.failed == false) doAssert(len(queue) == 12) await validatorFut.cancelAndWait() result = true check waitFor(test()) test "[SyncQueue] hasEndGap() test": let chain1 = createChain(Slot(1), Slot(1)) let chain2 = newSeq[SignedBeaconBlock]() for counter in countdown(32'u64, 2'u64): let req = SyncRequest[SomeTPeer](slot: Slot(1), count: counter, step: 1'u64) let sr = SyncResult[SomeTPeer](request: req, data: chain1) check sr.hasEndGap() == true let req = SyncRequest[SomeTPeer](slot: Slot(1), count: 1'u64, step: 1'u64) let sr1 = SyncResult[SomeTPeer](request: req, data: chain1) let sr2 = SyncResult[SomeTPeer](request: req, data: chain2) check: sr1.hasEndGap() == false sr2.hasEndGap() == true test "[SyncQueue] getLastNonEmptySlot() test": let chain1 = createChain(Slot(10), Slot(10)) let chain2 = newSeq[SignedBeaconBlock]() for counter in countdown(32'u64, 2'u64): let req = SyncRequest[SomeTPeer](slot: Slot(10), count: counter, step: 1'u64) let sr = SyncResult[SomeTPeer](request: req, data: chain1) check sr.getLastNonEmptySlot() == Slot(10) let req = SyncRequest[SomeTPeer](slot: Slot(100), count: 1'u64, step: 1'u64) let sr = SyncResult[SomeTPeer](request: req, data: chain2) check sr.getLastNonEmptySlot() == Slot(100) test "[SyncQueue] contains() test": proc checkRange[T](req: SyncRequest[T]): bool = var slot = req.slot var counter = 0'u64 while counter < req.count: if not(req.contains(slot)): return false slot = slot + req.step counter = counter + 1'u64 return true var req1 = SyncRequest[SomeTPeer](slot: Slot(5), count: 10'u64, step: 1'u64) var req2 = SyncRequest[SomeTPeer](slot: Slot(1), count: 10'u64, step: 2'u64) var req3 = SyncRequest[SomeTPeer](slot: Slot(2), count: 10'u64, step: 3'u64) var req4 = SyncRequest[SomeTPeer](slot: Slot(3), count: 10'u64, step: 4'u64) var req5 = SyncRequest[SomeTPeer](slot: Slot(4), count: 10'u64, step: 5'u64) check: req1.checkRange() == true req2.checkRange() == true req3.checkRange() == true req4.checkRange() == true req5.checkRange() == true req1.contains(Slot(4)) == false req1.contains(Slot(15)) == false req2.contains(Slot(0)) == false req2.contains(Slot(21)) == false req2.contains(Slot(20)) == false req3.contains(Slot(0)) == false req3.contains(Slot(1)) == false req3.contains(Slot(32)) == false req3.contains(Slot(31)) == false req3.contains(Slot(30)) == false req4.contains(Slot(0)) == false req4.contains(Slot(1)) == false req4.contains(Slot(2)) == false req4.contains(Slot(43)) == false req4.contains(Slot(42)) == false req4.contains(Slot(41)) == false req4.contains(Slot(40)) == false req5.contains(Slot(0)) == false req5.contains(Slot(1)) == false req5.contains(Slot(2)) == false req5.contains(Slot(3)) == false req5.contains(Slot(54)) == false req5.contains(Slot(53)) == false req5.contains(Slot(52)) == false req5.contains(Slot(51)) == false req5.contains(Slot(50)) == false test "[SyncQueue] checkResponse() test": let chain = createChain(Slot(10), Slot(20)) let r1 = SyncRequest[SomeTPeer](slot: Slot(11), count: 1'u64, step: 1'u64) let r21 = SyncRequest[SomeTPeer](slot: Slot(11), count: 2'u64, step: 1'u64) let r22 = SyncRequest[SomeTPeer](slot: Slot(11), count: 2'u64, step: 2'u64) check: checkResponse(r1, @[chain[1]]) == true checkResponse(r1, @[]) == true checkResponse(r1, @[chain[1], chain[1]]) == false checkResponse(r1, @[chain[0]]) == false checkResponse(r1, @[chain[2]]) == false checkResponse(r21, @[chain[1]]) == true checkResponse(r21, @[]) == true checkResponse(r21, @[chain[1], chain[2]]) == true checkResponse(r21, @[chain[2]]) == true checkResponse(r21, @[chain[1], chain[2], chain[3]]) == false checkResponse(r21, @[chain[0], chain[1]]) == false checkResponse(r21, @[chain[0]]) == false checkResponse(r21, @[chain[2], chain[1]]) == false checkResponse(r21, @[chain[2], chain[1]]) == false checkResponse(r21, @[chain[2], chain[3]]) == false checkResponse(r21, @[chain[3]]) == false checkResponse(r22, @[chain[1]]) == true checkResponse(r22, @[]) == true checkResponse(r22, @[chain[1], chain[3]]) == true checkResponse(r22, @[chain[3]]) == true checkResponse(r22, @[chain[1], chain[3], chain[5]]) == false checkResponse(r22, @[chain[0], chain[1]]) == false checkResponse(r22, @[chain[1], chain[2]]) == false checkResponse(r22, @[chain[2], chain[3]]) == false checkResponse(r22, @[chain[3], chain[4]]) == false checkResponse(r22, @[chain[4], chain[5]]) == false checkResponse(r22, @[chain[4]]) == false checkResponse(r22, @[chain[3], chain[1]]) == false