nim-sds/tests/in_memory_persistence.nim

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import std/tables
import chronos
import sds
## Test-only Persistence backend backed by Nim tables. Lets tests verify the
## full write → restart → read-back loop without depending on SQLite (or any
## real storage technology). Exposes the underlying store so tests can assert
## on what got saved.
type InMemoryStore* = ref object
lamports*: Table[SdsChannelID, int64]
log*: Table[SdsChannelID, OrderedTable[SdsMessageID, SdsMessage]]
hints*: Table[SdsMessageID, seq[byte]]
outgoing*: Table[SdsChannelID, OrderedTable[SdsMessageID, UnacknowledgedMessage]]
incoming*: Table[SdsChannelID, OrderedTable[SdsMessageID, IncomingMessage]]
outgoingRepair*: Table[SdsChannelID, OrderedTable[SdsMessageID, OutgoingRepairEntry]]
incomingRepair*: Table[SdsChannelID, OrderedTable[SdsMessageID, IncomingRepairEntry]]
dropChannelCalls*: Table[SdsChannelID, int]
## Per-channel counter; lets tests assert dropChannel is invoked exactly
## once per logical drop (not N times — see PR #66 review).
proc newInMemoryStore*(): InMemoryStore =
InMemoryStore()
proc newInMemoryPersistence*(store: InMemoryStore): Persistence =
Persistence(
saveLamport: proc(
channelId: SdsChannelID, lamport: int64
): Future[void] {.async: (raises: []), gcsafe.} =
store.lamports[channelId] = lamport,
appendLogEntry: proc(
channelId: SdsChannelID, msg: SdsMessage
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId notin store.log:
store.log[channelId] = initOrderedTable[SdsMessageID, SdsMessage]()
store.log[channelId][msg.messageId] = msg,
removeLogEntry: proc(
channelId: SdsChannelID, msgId: SdsMessageID
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId in store.log:
store.log[channelId].del(msgId),
setRetrievalHint: proc(
msgId: SdsMessageID, hint: seq[byte]
): Future[void] {.async: (raises: []), gcsafe.} =
store.hints[msgId] = hint,
saveOutgoing: proc(
channelId: SdsChannelID, msg: UnacknowledgedMessage
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId notin store.outgoing:
store.outgoing[channelId] =
initOrderedTable[SdsMessageID, UnacknowledgedMessage]()
store.outgoing[channelId][msg.message.messageId] = msg,
removeOutgoing: proc(
channelId: SdsChannelID, msgId: SdsMessageID
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId in store.outgoing:
store.outgoing[channelId].del(msgId),
saveIncoming: proc(
channelId: SdsChannelID, msg: IncomingMessage
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId notin store.incoming:
store.incoming[channelId] =
initOrderedTable[SdsMessageID, IncomingMessage]()
store.incoming[channelId][msg.message.messageId] = msg,
removeIncoming: proc(
channelId: SdsChannelID, msgId: SdsMessageID
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId in store.incoming:
store.incoming[channelId].del(msgId),
saveOutgoingRepair: proc(
channelId: SdsChannelID, msgId: SdsMessageID, entry: OutgoingRepairEntry
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId notin store.outgoingRepair:
store.outgoingRepair[channelId] =
initOrderedTable[SdsMessageID, OutgoingRepairEntry]()
store.outgoingRepair[channelId][msgId] = entry,
removeOutgoingRepair: proc(
channelId: SdsChannelID, msgId: SdsMessageID
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId in store.outgoingRepair:
store.outgoingRepair[channelId].del(msgId),
saveIncomingRepair: proc(
channelId: SdsChannelID, msgId: SdsMessageID, entry: IncomingRepairEntry
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId notin store.incomingRepair:
store.incomingRepair[channelId] =
initOrderedTable[SdsMessageID, IncomingRepairEntry]()
store.incomingRepair[channelId][msgId] = entry,
removeIncomingRepair: proc(
channelId: SdsChannelID, msgId: SdsMessageID
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
if channelId in store.incomingRepair:
store.incomingRepair[channelId].del(msgId),
dropChannel: proc(
channelId: SdsChannelID
): Future[void] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
store.lamports.del(channelId)
store.log.del(channelId)
store.outgoing.del(channelId)
store.incoming.del(channelId)
store.outgoingRepair.del(channelId)
store.incomingRepair.del(channelId)
store.dropChannelCalls[channelId] =
store.dropChannelCalls.getOrDefault(channelId) + 1,
loadAllForChannel: proc(
channelId: SdsChannelID
): Future[ChannelSnapshot] {.async: (raises: []), gcsafe.} =
{.cast(raises: []).}:
var snap = ChannelSnapshot()
if channelId in store.lamports:
snap.lamportTimestamp = store.lamports[channelId]
if channelId in store.log:
for msg in store.log[channelId].values:
snap.messageHistory.add(msg)
if channelId in store.outgoing:
for unack in store.outgoing[channelId].values:
snap.outgoingBuffer.add(unack)
if channelId in store.incoming:
for incoming in store.incoming[channelId].values:
snap.incomingBuffer.add(incoming)
if channelId in store.outgoingRepair:
for msgId, entry in store.outgoingRepair[channelId]:
snap.outgoingRepairBuffer.add((msgId, entry))
if channelId in store.incomingRepair:
for msgId, entry in store.incomingRepair[channelId]:
snap.incomingRepairBuffer.add((msgId, entry))
return snap,
)