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nwaku/tests/v2/test_message_store_queue.nim

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{.used.}
import
std/[sequtils, strutils],
stew/results,
testutils/unittests,
nimcrypto/hash
import
../../waku/v2/node/storage/message/waku_store_queue,
../../waku/v2/protocol/waku_message,
../../waku/v2/protocol/waku_store,
../../waku/v2/utils/time,
../../waku/v2/utils/pagination
# Helper functions
proc genIndexedWakuMessage(i: int8): IndexedWakuMessage =
## Use i to generate an IndexedWakuMessage
var data {.noinit.}: array[32, byte]
for x in data.mitems: x = i.byte
let
message = WakuMessage(payload: @[byte i], timestamp: Timestamp(i))
cursor = Index(
receiverTime: Timestamp(i),
senderTime: Timestamp(i),
digest: MDigest[256](data: data),
pubsubTopic: "test-pubsub-topic"
)
IndexedWakuMessage(msg: message, index: cursor)
proc getPrepopulatedTestStore(unsortedSet: auto, capacity: int): StoreQueueRef =
let store = StoreQueueRef.new(capacity)
for i in unsortedSet:
let message = genIndexedWakuMessage(i.int8)
discard store.add(message)
store
procSuite "Sorted store queue":
test "Store capacity - add a message over the limit":
## Given
let capacity = 5
let store = StoreQueueRef.new(capacity)
## When
# Fill up the queue
for i in 1..capacity:
let message = genIndexedWakuMessage(i.int8)
require(store.add(message).isOk())
# Add one more. Capacity should not be exceeded
let message = genIndexedWakuMessage(capacity.int8 + 1)
require(store.add(message).isOk())
## Then
check:
store.len == capacity
test "Store capacity - add message older than oldest in the queue":
## Given
let capacity = 5
let store = StoreQueueRef.new(capacity)
## When
# Fill up the queue
for i in 1..capacity:
let message = genIndexedWakuMessage(i.int8)
require(store.add(message).isOk())
# Attempt to add message with older value than oldest in queue should fail
let
oldestTimestamp = store.first().get().index.senderTime
message = genIndexedWakuMessage(oldestTimestamp.int8 - 1)
addRes = store.add(message)
## Then
check:
addRes.isErr()
addRes.error() == "too_old"
check:
store.len == capacity
test "Sender time can't be more than MaxTimeVariance in future":
## Given
let capacity = 5
let store = StoreQueueRef.new(capacity)
let
receiverTime = getNanoSecondTime(10)
senderTimeOk = receiverTime + MaxTimeVariance
senderTimeErr = senderTimeOk + 1
let invalidMessage = IndexedWakuMessage(
msg: WakuMessage(
payload: @[byte 1],
timestamp: senderTimeErr
),
index: Index(
receiverTime: receiverTime,
senderTime: senderTimeErr
)
)
## When
let addRes = store.add(invalidMessage)
## Then
check:
addRes.isErr()
addRes.error() == "future_sender_timestamp"
test "Store queue sort-on-insert works":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
# Walk forward through the set and verify ascending order
var prevSmaller = genIndexedWakuMessage(min(unsortedSet).int8 - 1).index
for i in store.fwdIterator:
let (index, indexedWakuMessage) = i
check cmp(index, prevSmaller) > 0
prevSmaller = index
# Walk backward through the set and verify descending order
var prevLarger = genIndexedWakuMessage(max(unsortedSet).int8 + 1).index
for i in store.bwdIterator:
let (index, indexedWakuMessage) = i
check cmp(index, prevLarger) < 0
prevLarger = index
test "access first item from store queue":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
## When
let firstRes = store.first()
## Then
check:
firstRes.isOk()
let first = firstRes.tryGet()
check:
first.msg.timestamp == Timestamp(1)
test "get first item from empty store should fail":
## Given
let capacity = 5
let store = StoreQueueRef.new(capacity)
## When
let firstRes = store.first()
## Then
check:
firstRes.isErr()
firstRes.error() == "Not found"
test "access last item from store queue":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
## When
let lastRes = store.last()
## Then
check:
lastRes.isOk()
let last = lastRes.tryGet()
check:
last.msg.timestamp == Timestamp(5)
test "get last item from empty store should fail":
## Given
let capacity = 5
let store = StoreQueueRef.new(capacity)
## When
let lastRes = store.last()
## Then
check:
lastRes.isErr()
lastRes.error() == "Not found"
test "forward pagination":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
proc predicate(i: IndexedWakuMessage): bool = true # no filtering
let pagingInfo = PagingInfo(pageSize: 3, direction: PagingDirection.FORWARD)
## When
let pageRes1 = store.getPage(predicate, pagingInfo)
let pageRes2 = store.getPage(predicate, pageRes1[1])
let pageRes3 = store.getPage(predicate, pageRes2[1])
## Then
# First page
var (res, pInfo, err) = pageRes1
check:
pInfo.pageSize == 3
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(3)
err == HistoryResponseError.NONE
res.mapIt(it.timestamp.int) == @[1,2,3]
# Second page
(res, pInfo, err) = pageRes2
check:
pInfo.pageSize == 2
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(5)
err == HistoryResponseError.NONE
res.mapIt(it.timestamp.int) == @[4,5]
# Empty last page
(res, pInfo, err) = pageRes3
check:
pInfo.pageSize == 0
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(5)
err == HistoryResponseError.NONE
res.len == 0
test "backward pagination":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
proc predicate(i: IndexedWakuMessage): bool = true # no filtering
let pagingInfo = PagingInfo(pageSize: 3, direction: PagingDirection.BACKWARD)
## When
let pageRes1 = store.getPage(predicate, pagingInfo)
let pageRes2 = store.getPage(predicate, pageRes1[1])
let pageRes3 = store.getPage(predicate, pageRes2[1])
## Then
# First page
var (res, pInfo, err) = pageRes1
check:
pInfo.pageSize == 3
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(3)
err == HistoryResponseError.NONE
res.mapIt(it.timestamp.int) == @[3,4,5]
# Second page
(res, pInfo, err) = pageRes2
check:
pInfo.pageSize == 2
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(1)
err == HistoryResponseError.NONE
res.mapIt(it.timestamp.int) == @[1,2]
# Empty last page
(res, pInfo, err) = pageRes3
check:
pInfo.pageSize == 0
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(1)
err == HistoryResponseError.NONE
res.len == 0
test "Store queue pagination works with predicate - fwd direction":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
proc onlyEvenTimes(i: IndexedWakuMessage): bool = i.msg.timestamp.int64 mod 2 == 0
## When
let resPage1 = store.getPage(onlyEvenTimes, PagingInfo(pageSize: 2, direction: PagingDirection.FORWARD))
let resPage2 = store.getPage(onlyEvenTimes, resPage1[1])
## Then
# First page
var (res, pInfo, err) = resPage1
check:
pInfo.pageSize == 2
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(4)
err == HistoryResponseError.NONE
res.mapIt(it.timestamp.int) == @[2,4]
(res, pInfo, err) = resPage2
# Empty next page
check:
pInfo.pageSize == 0
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(4)
err == HistoryResponseError.NONE
res.len == 0
test "Store queue pagination works with predicate - bwd direction":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
proc onlyOddTimes(i: IndexedWakuMessage): bool = i.msg.timestamp.int64 mod 2 != 0
## When
let resPage1 = store.getPage(onlyOddTimes, PagingInfo(pageSize: 2, direction: PagingDirection.BACKWARD))
let resPage2 = store.getPage(onlyOddTimes, resPage1[1])
let resPage3 = store.getPage(onlyOddTimes, resPage2[1])
## Then
# First page
var (res, pInfo, err) = resPage1
check:
pInfo.pageSize == 2
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(3)
err == HistoryResponseError.NONE
res.mapIt(it.timestamp.int) == @[3,5]
# Next page
(res, pInfo, err) = resPage2
check:
pInfo.pageSize == 1
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(1)
err == HistoryResponseError.NONE
res.mapIt(it.timestamp.int) == @[1]
# Empty last page
(res, pInfo, err) = resPage3
check:
pInfo.pageSize == 0
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(1)
err == HistoryResponseError.NONE
res.len == 0
test "handle pagination on empty store - fwd direction":
## Given
let capacity = 5
var store = StoreQueueRef.new(capacity)
proc predicate(i: IndexedWakuMessage): bool = true # no filtering
let pagingInfo = PagingInfo(pageSize: 3, direction: PagingDirection.FORWARD)
## When
# Get page from empty queue in fwd dir
let (res, pInfo, err) = store.getPage(predicate, pagingInfo)
## Then
# Empty response
check:
pInfo.pageSize == 0
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(0)
err == HistoryResponseError.NONE
res.len == 0
test "handle pagination on empty store - bwd direction":
let capacity = 5
var store = StoreQueueRef.new(capacity)
proc predicate(i: IndexedWakuMessage): bool = true # no filtering
# Get page from empty queue in bwd dir
var (res, pInfo, err) = store.getPage(predicate,
PagingInfo(pageSize: 3,
direction: PagingDirection.BACKWARD))
check:
# Empty response
pInfo.pageSize == 0
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(0)
err == HistoryResponseError.NONE
res.len == 0
# Get page from empty queue in fwd dir
(res, pInfo, err) = store.getPage(predicate,
PagingInfo(pageSize: 3,
direction: PagingDirection.FORWARD))
check:
# Empty response
pInfo.pageSize == 0
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(0)
err == HistoryResponseError.NONE
res.len == 0
test "handle invalid cursor - fwd direction":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
proc predicate(i: IndexedWakuMessage): bool = true # no filtering
let cursor = Index(receiverTime: Timestamp(3), senderTime: Timestamp(3), digest: MDigest[256]())
let pagingInfo = PagingInfo(pageSize: 3, cursor: cursor, direction: PagingDirection.FORWARD)
## When
let (res, pInfo, err) = store.getPage(predicate, pagingInfo)
## Then
# Empty response with error
check:
res.len == 0
pInfo.pageSize == 0
pInfo.direction == PagingDirection.FORWARD
pInfo.cursor.senderTime == Timestamp(3)
err == HistoryResponseError.INVALID_CURSOR
test "handle invalid cursor - bwd direction":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
proc predicate(i: IndexedWakuMessage): bool = true # no filtering
let cursor = Index(receiverTime: Timestamp(3), senderTime: Timestamp(3), digest: MDigest[256]())
let pagingInfo = PagingInfo(pageSize: 3, cursor: cursor, direction: PagingDirection.BACKWARD)
## When
let (res, pInfo, err) = store.getPage(predicate, pagingInfo)
## Then
# Empty response with error
check:
res.len == 0
pInfo.pageSize == 0
pInfo.direction == PagingDirection.BACKWARD
pInfo.cursor.senderTime == Timestamp(3)
err == HistoryResponseError.INVALID_CURSOR
test "verify if store queue contains an index":
## Given
let
capacity = 5
unsortedSet = [5,1,3,2,4]
let store = getPrepopulatedTestStore(unsortedSet, capacity)
let
existingIndex = genIndexedWakuMessage(4).index
nonExistingIndex = genIndexedWakuMessage(99).index
## Then
check:
store.contains(existingIndex) == true
store.contains(nonExistingIndex) == false
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