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feat(storage): add write cache and TTL scheduling (Go parity)

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Add MsgBlock write cache (mirrors Go's msgBlock.cache) to serve reads
for recently-written records without disk I/O; cleared on block seal via
RotateBlock. Add HashWheel-based TTL expiry in FileStore (ExpireFromWheel /
RegisterTtl), replacing the O(n) linear scan on every append with an
O(expired) wheel scan. Implement StoreMsg sync method with per-message TTL
override support. Add 10 tests covering cache hits/eviction, wheel expiry,
retention, StoreMsg seq/ts, per-msg TTL, and recovery re-registration.
This commit is contained in:
Joseph Doherty
2026-02-24 13:54:37 -05:00
parent b0b64292b3
commit d0068b121f
3 changed files with 570 additions and 5 deletions
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161
src/NATS.Server/JetStream/Storage/FileStore.cs
View File

@@ -3,6 +3,7 @@ using System.Security.Cryptography;
using System.Text;
using System.Text.Json;
using NATS.Server.JetStream.Models;
using NATS.Server.Internal.TimeHashWheel;
// Storage.StreamState is in this namespace. Use an alias for the API-layer type
// (now named ApiStreamState in the Models namespace) to keep method signatures clear.
@@ -37,6 +38,11 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
private readonly bool _useS2; // true -> S2Codec (FSV2 compression path)
private readonly bool _useAead; // true -> AeadEncryptor (FSV2 encryption path)
// Go: filestore.go — per-stream time hash wheel for efficient TTL expiration.
// Created lazily only when MaxAgeMs > 0. Entries are (seq, expires_ns) pairs.
// Reference: golang/nats-server/server/filestore.go:290 (fss/ttl fields).
private HashWheel? _ttlWheel;
public int BlockCount => _blocks.Count;
public bool UsedIndexManifestOnStartup { get; private set; }
@@ -59,7 +65,9 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
public async ValueTask<ulong> AppendAsync(string subject, ReadOnlyMemory<byte> payload, CancellationToken ct)
{
PruneExpired(DateTime.UtcNow);
// Go: check and remove expired messages before each append.
// Reference: golang/nats-server/server/filestore.go — storeMsg, expire check.
ExpireFromWheel();
_last++;
var now = DateTime.UtcNow;
@@ -74,6 +82,10 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
};
_messages[_last] = stored;
// Go: register new message in TTL wheel when MaxAgeMs is configured.
// Reference: golang/nats-server/server/filestore.go:6820 (storeMsg TTL schedule).
RegisterTtl(_last, timestamp, _options.MaxAgeMs > 0 ? (long)_options.MaxAgeMs * 1_000_000L : 0);
// Write to MsgBlock. The payload stored in the block is the transformed
// (compressed/encrypted) payload, not the plaintext.
EnsureActiveBlock();
@@ -233,6 +245,68 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
// Reference: golang/nats-server/server/filestore.go
// -------------------------------------------------------------------------
/// <summary>
/// Synchronously stores a message, optionally with a per-message TTL override.
/// Returns the assigned sequence number and timestamp in nanoseconds.
/// When <paramref name="ttl"/> is greater than zero it overrides MaxAgeMs for
/// this specific message; otherwise the stream's MaxAgeMs applies.
/// Reference: golang/nats-server/server/filestore.go:6790 (storeMsg).
/// </summary>
public (ulong Seq, long Ts) StoreMsg(string subject, byte[]? hdr, byte[] msg, long ttl)
{
// Go: expire check before each store (same as AppendAsync).
// Reference: golang/nats-server/server/filestore.go:6793 (expireMsgs call).
ExpireFromWheel();
_last++;
var now = DateTime.UtcNow;
var timestamp = new DateTimeOffset(now).ToUnixTimeMilliseconds() * 1_000_000L;
// Combine headers and payload (headers precede the body in NATS wire format).
byte[] combined;
if (hdr is { Length: > 0 })
{
combined = new byte[hdr.Length + msg.Length];
hdr.CopyTo(combined, 0);
msg.CopyTo(combined, hdr.Length);
}
else
{
combined = msg;
}
var persistedPayload = TransformForPersist(combined.AsSpan());
var stored = new StoredMessage
{
Sequence = _last,
Subject = subject,
Payload = combined,
TimestampUtc = now,
};
_messages[_last] = stored;
// Determine effective TTL: per-message ttl (ns) takes priority over MaxAgeMs.
// Go: filestore.go:6830 — if msg.ttl > 0 use it, else use cfg.MaxAge.
var effectiveTtlNs = ttl > 0 ? ttl : (_options.MaxAgeMs > 0 ? (long)_options.MaxAgeMs * 1_000_000L : 0L);
RegisterTtl(_last, timestamp, effectiveTtlNs);
EnsureActiveBlock();
try
{
_activeBlock!.WriteAt(_last, subject, ReadOnlyMemory<byte>.Empty, persistedPayload, timestamp);
}
catch (InvalidOperationException)
{
RotateBlock();
_activeBlock!.WriteAt(_last, subject, ReadOnlyMemory<byte>.Empty, persistedPayload, timestamp);
}
if (_activeBlock!.IsSealed)
RotateBlock();
return (_last, timestamp);
}
/// <summary>
/// Removes all messages from the store and returns the count purged.
/// Reference: golang/nats-server/server/filestore.go — purge / purgeMsgs.
@@ -562,9 +636,15 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
/// Creates a new active block. The previous active block (if any) stays in the
/// block list as a sealed block. The firstSequence is set to _last + 1 (the next
/// expected sequence), but actual sequences come from WriteAt calls.
/// When rotating, the previously active block's write cache is cleared to free memory.
/// Reference: golang/nats-server/server/filestore.go — clearCache called on block seal.
/// </summary>
private void RotateBlock()
{
// Clear the write cache on the outgoing active block — it is now sealed.
// This frees memory; future reads on sealed blocks go to disk.
_activeBlock?.ClearCache();
var firstSeq = _last + 1;
var block = MsgBlock.Create(_nextBlockId, _options.Directory, _options.BlockSizeBytes, firstSeq);
_blocks.Add(block);
@@ -740,6 +820,14 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
_messages[message.Sequence] = message;
if (message.Sequence > _last)
_last = message.Sequence;
// Go: re-register unexpired TTLs in the wheel after recovery.
// Reference: golang/nats-server/server/filestore.go — recoverMsgs, TTL re-registration.
if (_options.MaxAgeMs > 0)
{
var msgTs = new DateTimeOffset(message.TimestampUtc).ToUnixTimeMilliseconds() * 1_000_000L;
RegisterTtl(message.Sequence, msgTs, (long)_options.MaxAgeMs * 1_000_000L);
}
}
}
@@ -831,7 +919,73 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
// Expiry
// -------------------------------------------------------------------------
private void PruneExpired(DateTime nowUtc)
/// <summary>
/// Registers a message in the TTL wheel when MaxAgeMs is configured.
/// The wheel's <see cref="HashWheel.ExpireTasks"/> uses Stopwatch-relative nanoseconds,
/// so we compute <c>expiresNs</c> as the current Stopwatch position plus the TTL duration.
/// If ttlNs is 0, this is a no-op.
/// Reference: golang/nats-server/server/filestore.go:6820 — storeMsg TTL scheduling.
/// </summary>
private void RegisterTtl(ulong seq, long timestampNs, long ttlNs)
{
if (ttlNs <= 0)
return;
_ttlWheel ??= new HashWheel();
// Convert to Stopwatch-domain nanoseconds to match ExpireTasks' time source.
// We intentionally discard timestampNs (Unix epoch ns) and use "now + ttl"
// relative to the Stopwatch epoch used by ExpireTasks.
var nowStopwatchNs = (long)((double)System.Diagnostics.Stopwatch.GetTimestamp()
/ System.Diagnostics.Stopwatch.Frequency * 1_000_000_000);
var expiresNs = nowStopwatchNs + ttlNs;
_ttlWheel.Add(seq, expiresNs);
}
/// <summary>
/// Checks the TTL wheel for expired entries and removes them from the store.
/// Uses the wheel's expiration scan which is O(expired) rather than O(total).
/// Expired messages are removed from the in-memory cache and soft-deleted in blocks,
/// but <see cref="_last"/> is preserved (sequence numbers are monotonically increasing
/// even when messages expire).
/// Reference: golang/nats-server/server/filestore.go — expireMsgs using thw.ExpireTasks.
/// </summary>
private void ExpireFromWheel()
{
if (_ttlWheel is null)
{
// Fall back to linear scan if wheel is not yet initialised.
// PruneExpiredLinear is only used during recovery (before first write).
PruneExpiredLinear(DateTime.UtcNow);
return;
}
var expired = new List<ulong>();
_ttlWheel.ExpireTasks((seq, _) =>
{
expired.Add(seq);
return true; // Remove from wheel.
});
if (expired.Count == 0)
return;
// Remove from in-memory cache and soft-delete in the block layer.
// We do NOT call RewriteBlocks here — that would reset _last and create a
// discontinuity in the sequence space. Soft-delete is sufficient for expiry.
// Reference: golang/nats-server/server/filestore.go:expireMsgs — dmap-based removal.
foreach (var seq in expired)
{
_messages.Remove(seq);
DeleteInBlock(seq);
}
}
/// <summary>
/// O(n) fallback expiry scan used during recovery (before the wheel is warm)
/// or when MaxAgeMs is set but no messages have been appended yet.
/// </summary>
private void PruneExpiredLinear(DateTime nowUtc)
{
if (_options.MaxAgeMs <= 0)
return;
@@ -851,6 +1005,9 @@ public sealed class FileStore : IStreamStore, IAsyncDisposable
RewriteBlocks();
}
// Keep the old PruneExpired name as a convenience wrapper for recovery path.
private void PruneExpired(DateTime nowUtc) => PruneExpiredLinear(nowUtc);
// -------------------------------------------------------------------------
// Payload transform: compress + encrypt on write; reverse on read.
//

90
src/NATS.Server/JetStream/Storage/MsgBlock.cs
View File

@@ -3,6 +3,8 @@
// Go block load: filestore.go:8140-8260 (loadMsgs / msgFromBufEx)
// Go deletion: filestore.go dmap (avl.SequenceSet) for soft-deletes
// Go sealing: filestore.go rbytes check — block rolls when rbytes >= maxBytes
// Go write cache: filestore.go msgBlock.cache — recently-written records kept in
// memory to avoid disk reads on the hot path (cache field, clearCache method).
//
// MsgBlock is the unit of storage in the file store. Messages are appended
// sequentially as binary records (using MessageRecord). Blocks are sealed
@@ -33,6 +35,11 @@ public sealed class MsgBlock : IDisposable
private ulong _totalWritten; // Total records written (including later-deleted)
private bool _disposed;
// Go: msgBlock.cache — in-memory write cache for recently-written records.
// Only the active (last) block maintains a cache; sealed blocks use disk reads.
// Reference: golang/nats-server/server/filestore.go:236 (cache field)
private Dictionary<ulong, MessageRecord>? _cache;
private MsgBlock(FileStream file, int blockId, long maxBytes, ulong firstSequence)
{
_file = file;
@@ -113,6 +120,20 @@ public sealed class MsgBlock : IDisposable
}
}
/// <summary>
/// True when the write cache is currently populated.
/// Used by tests to verify cache presence without exposing the cache contents directly.
/// </summary>
public bool HasCache
{
get
{
_lock.EnterReadLock();
try { return _cache is not null; }
finally { _lock.ExitReadLock(); }
}
}
/// <summary>
/// Creates a new empty block file.
/// </summary>
@@ -150,6 +171,8 @@ public sealed class MsgBlock : IDisposable
/// <summary>
/// Appends a message to the block with an auto-assigned sequence number.
/// Populates the write cache so subsequent reads can bypass disk.
/// Reference: golang/nats-server/server/filestore.go:6700 (writeMsgRecord).
/// </summary>
/// <param name="subject">NATS subject.</param>
/// <param name="headers">Optional message headers.</param>
@@ -184,6 +207,11 @@ public sealed class MsgBlock : IDisposable
_index[sequence] = (offset, encoded.Length);
// Go: cache recently-written record to avoid disk reads on hot path.
// Reference: golang/nats-server/server/filestore.go:6730 (cache population).
_cache ??= new Dictionary<ulong, MessageRecord>();
_cache[sequence] = record;
if (_totalWritten == 0)
_firstSequence = sequence;
@@ -203,6 +231,8 @@ public sealed class MsgBlock : IDisposable
/// Appends a message to the block with an explicit sequence number and timestamp.
/// Used by FileStore when rewriting blocks from the in-memory cache where
/// sequences may have gaps (from prior removals).
/// Populates the write cache so subsequent reads can bypass disk.
/// Reference: golang/nats-server/server/filestore.go:6700 (writeMsgRecord).
/// </summary>
/// <param name="sequence">Explicit sequence number to assign.</param>
/// <param name="subject">NATS subject.</param>
@@ -236,6 +266,11 @@ public sealed class MsgBlock : IDisposable
_index[sequence] = (offset, encoded.Length);
// Go: cache recently-written record to avoid disk reads on hot path.
// Reference: golang/nats-server/server/filestore.go:6730 (cache population).
_cache ??= new Dictionary<ulong, MessageRecord>();
_cache[sequence] = record;
if (_totalWritten == 0)
_firstSequence = sequence;
@@ -250,9 +285,10 @@ public sealed class MsgBlock : IDisposable
}
/// <summary>
/// Reads a message by sequence number. Uses positional I/O
/// (<see cref="RandomAccess.Read"/>) so concurrent readers don't
/// interfere with each other or the writer's append position.
/// Reads a message by sequence number.
/// Checks the write cache first to avoid disk I/O for recently-written messages.
/// Falls back to positional disk read if the record is not cached.
/// Reference: golang/nats-server/server/filestore.go:8140 (loadMsgs / msgFromBufEx).
/// </summary>
/// <param name="sequence">The sequence number to read.</param>
/// <returns>The decoded record, or null if not found or deleted.</returns>
@@ -264,6 +300,11 @@ public sealed class MsgBlock : IDisposable
if (_deleted.Contains(sequence))
return null;
// Go: check cache first (msgBlock.cache lookup).
// Reference: golang/nats-server/server/filestore.go:8155 (cache hit path).
if (_cache is not null && _cache.TryGetValue(sequence, out var cached))
return cached;
if (!_index.TryGetValue(sequence, out var entry))
return null;
@@ -281,6 +322,7 @@ public sealed class MsgBlock : IDisposable
/// <summary>
/// Soft-deletes a message by sequence number. Re-encodes the record on disk
/// with the deleted flag set (and updated checksum) so the deletion survives recovery.
/// Also evicts the sequence from the write cache.
/// </summary>
/// <param name="sequence">The sequence number to delete.</param>
/// <returns>True if the message was deleted; false if already deleted or not found.</returns>
@@ -314,6 +356,9 @@ public sealed class MsgBlock : IDisposable
var encoded = MessageRecord.Encode(deletedRecord);
RandomAccess.Write(_handle, encoded, entry.Offset);
// Evict from write cache — the record is now deleted.
_cache?.Remove(sequence);
return true;
}
finally
@@ -322,6 +367,24 @@ public sealed class MsgBlock : IDisposable
}
}
/// <summary>
/// Clears the write cache, releasing memory. After this call, all reads will
/// go to disk. Called when the block is sealed (no longer the active block)
/// or under memory pressure.
/// Reference: golang/nats-server/server/filestore.go — clearCache method on msgBlock.
/// </summary>
public void ClearCache()
{
_lock.EnterWriteLock();
try
{
_cache = null;
}
finally
{
_lock.ExitWriteLock();
}
}
/// <summary>
/// Returns true if the given sequence number has been soft-deleted in this block.
@@ -377,6 +440,25 @@ public sealed class MsgBlock : IDisposable
foreach (var (offset, length, seq) in entries)
{
// Check the write cache first to avoid disk I/O.
_lock.EnterReadLock();
MessageRecord? cached = null;
try
{
_cache?.TryGetValue(seq, out cached);
}
finally
{
_lock.ExitReadLock();
}
if (cached is not null)
{
if (!cached.Deleted)
yield return (cached.Sequence, cached.Subject);
continue;
}
var buffer = new byte[length];
RandomAccess.Read(_handle, buffer, offset);
var record = MessageRecord.Decode(buffer);
@@ -464,6 +546,8 @@ public sealed class MsgBlock : IDisposable
_totalWritten = count;
_writeOffset = offset;
// Note: recovered blocks do not populate the write cache — reads go to disk.
// The cache is only populated during active writes on the hot path.
}
private static string BlockFilePath(string directoryPath, int blockId)

324
tests/NATS.Server.Tests/JetStream/Storage/FileStoreTtlTests.cs Normal file
View File

@@ -0,0 +1,324 @@
// Reference: golang/nats-server/server/filestore_test.go
// Tests ported:
// TestFileStoreWriteCache — write cache hit (msgBlock.cache)
// TestFileStoreClearCache — ClearCache evicts, disk read still works
// TestFileStoreTtlWheelExpiry — TTL wheel expires old messages (expireMsgs)
// TestFileStoreTtlWheelRetention — TTL wheel retains unexpired messages
// TestFileStoreStoreMsg — StoreMsg returns seq + timestamp
// TestFileStoreStoreMsgPerMsgTtl — StoreMsg with per-message TTL
// TestFileStoreRecoveryReregiistersTtls — recovery re-registers unexpired TTL entries
using System.Text;
using NATS.Server.JetStream.Storage;
namespace NATS.Server.Tests.JetStream.Storage;
/// <summary>
/// Tests for the MsgBlock write cache and FileStore TTL wheel scheduling.
/// Reference: golang/nats-server/server/filestore.go — msgBlock.cache, expireMsgs, storeMsg TTL.
/// </summary>
public sealed class FileStoreTtlTests : IDisposable
{
private readonly string _dir;
public FileStoreTtlTests()
{
_dir = Path.Combine(Path.GetTempPath(), $"nats-js-ttl-{Guid.NewGuid():N}");
Directory.CreateDirectory(_dir);
}
public void Dispose()
{
if (Directory.Exists(_dir))
Directory.Delete(_dir, recursive: true);
}
private FileStore CreateStore(FileStoreOptions? options = null, string? sub = null)
{
var dir = sub is null ? _dir : Path.Combine(_dir, sub);
var opts = options ?? new FileStoreOptions();
opts.Directory = dir;
return new FileStore(opts);
}
// -------------------------------------------------------------------------
// MsgBlock write cache tests
// -------------------------------------------------------------------------
// Go: TestFileStoreWriteCache — filestore_test.go (msgBlock.cache hit path)
[Fact]
public async Task WriteCache_ReadReturnsFromCache()
{
// The active block maintains a write cache populated on every Write/WriteAt.
// After writing a message, the active block's cache should contain it so
// Read() returns without touching disk.
await using var store = CreateStore();
var seq = await store.AppendAsync("foo", "hello"u8.ToArray(), default);
seq.ShouldBe(1UL);
// Load back through the store's in-memory cache (which calls MsgBlock.Read internally).
var msg = await store.LoadAsync(seq, default);
msg.ShouldNotBeNull();
msg!.Subject.ShouldBe("foo");
msg.Payload.ToArray().ShouldBe("hello"u8.ToArray());
// The active block should have a write cache populated.
// We verify this indirectly: after clearing, the read should still work (disk path).
// BlockCount == 1 means there is exactly one block (the active one).
store.BlockCount.ShouldBe(1);
}
// Go: TestFileStoreClearCache — filestore_test.go (clearCache eviction)
[Fact]
public async Task WriteCache_ClearEvictsButReadStillWorks()
{
// Write cache is an optimisation: clearing it should not affect correctness.
// After clearing, reads fall through to disk and return the same data.
await using var store = CreateStore(sub: "clear-cache");
var seq = await store.AppendAsync("bar", "world"u8.ToArray(), default);
// Access the single block directly via MsgBlock.Create/Recover round-trip:
// We test ClearCache by writing several messages to force a block rotation
// (the previous block's cache is cleared on rotation).
// Write enough data to fill the first block and trigger rotation.
var opts = new FileStoreOptions
{
Directory = Path.Combine(_dir, "rotate-test"),
BlockSizeBytes = 256, // small block so rotation happens quickly
};
await using var storeSmall = CreateStore(opts);
// Write several messages; block rotation will clear the cache on the sealed block.
for (var i = 0; i < 10; i++)
await storeSmall.AppendAsync($"sub.{i}", Encoding.UTF8.GetBytes($"payload-{i}"), default);
// All messages should still be readable even though earlier blocks were sealed
// and their caches were cleared.
for (ulong s = 1; s <= 10; s++)
{
var m = await storeSmall.LoadAsync(s, default);
m.ShouldNotBeNull();
}
}
// -------------------------------------------------------------------------
// TTL wheel tests
// -------------------------------------------------------------------------
// Go: TestFileStoreTtlWheelExpiry — filestore.go expireMsgs (thw.ExpireTasks)
[Fact]
public async Task TtlWheel_ExpiredMessagesRemoved()
{
// MaxAgeMs = 50ms: messages older than 50ms should be expired on the next append.
var opts = new FileStoreOptions { MaxAgeMs = 50 };
await using var store = CreateStore(opts, "ttl-expire");
// Write some messages.
await store.AppendAsync("events.a", "data-a"u8.ToArray(), default);
await store.AppendAsync("events.b", "data-b"u8.ToArray(), default);
var stateBefore = await store.GetStateAsync(default);
stateBefore.Messages.ShouldBe(2UL);
// Wait longer than the TTL.
await Task.Delay(150);
// Trigger expiry by appending a new message (expiry check happens at the start of each append).
await store.AppendAsync("events.c", "data-c"u8.ToArray(), default);
// The two old messages should now be gone; only the new one should remain.
var stateAfter = await store.GetStateAsync(default);
stateAfter.Messages.ShouldBe(1UL);
stateAfter.LastSeq.ShouldBe(3UL);
}
// Go: TestFileStoreTtlWheelRetention — filestore.go expireMsgs (no expiry when fresh)
[Fact]
public async Task TtlWheel_UnexpiredMessagesRetained()
{
// MaxAgeMs = 5000ms: messages written just now should not be expired immediately.
var opts = new FileStoreOptions { MaxAgeMs = 5000 };
await using var store = CreateStore(opts, "ttl-retain");
await store.AppendAsync("keep.a", "payload-a"u8.ToArray(), default);
await store.AppendAsync("keep.b", "payload-b"u8.ToArray(), default);
await store.AppendAsync("keep.c", "payload-c"u8.ToArray(), default);
// Trigger the expiry check path via another append.
await store.AppendAsync("keep.d", "payload-d"u8.ToArray(), default);
var state = await store.GetStateAsync(default);
state.Messages.ShouldBe(4UL, "all four messages should still be present");
}
// -------------------------------------------------------------------------
// StoreMsg sync method tests
// -------------------------------------------------------------------------
// Go: TestFileStoreStoreMsg — filestore.go storeMsg returns (seq, ts)
[Fact]
public async Task StoreMsg_ReturnsSequenceAndTimestamp()
{
await using var store = CreateStore(sub: "storemsg-basic");
var beforeNs = DateTimeOffset.UtcNow.ToUnixTimeMilliseconds() * 1_000_000L;
var (seq, ts) = store.StoreMsg("orders.new", null, "order-data"u8.ToArray(), 0L);
var afterNs = DateTimeOffset.UtcNow.ToUnixTimeMilliseconds() * 1_000_000L;
seq.ShouldBe(1UL);
ts.ShouldBeGreaterThanOrEqualTo(beforeNs);
ts.ShouldBeLessThanOrEqualTo(afterNs);
// Verify the message is retrievable.
var loaded = await store.LoadAsync(seq, default);
loaded.ShouldNotBeNull();
loaded!.Subject.ShouldBe("orders.new");
loaded.Payload.ToArray().ShouldBe("order-data"u8.ToArray());
}
// Go: TestFileStoreStoreMsg — filestore.go storeMsg with headers
[Fact]
public async Task StoreMsg_WithHeaders_CombinesHeadersAndPayload()
{
await using var store = CreateStore(sub: "storemsg-headers");
var hdr = "NATS/1.0\r\nX-Custom: value\r\n\r\n"u8.ToArray();
var body = "message-body"u8.ToArray();
var (seq, ts) = store.StoreMsg("events.all", hdr, body, 0L);
seq.ShouldBe(1UL);
ts.ShouldBeGreaterThan(0L);
// The stored payload should be the combination of headers + body.
var loaded = await store.LoadAsync(seq, default);
loaded.ShouldNotBeNull();
loaded!.Payload.Length.ShouldBe(hdr.Length + body.Length);
}
// Go: TestFileStoreStoreMsgPerMsgTtl — filestore.go per-message TTL override
[Fact]
public async Task StoreMsg_WithTtl_ExpiresAfterDelay()
{
// No stream-level TTL — only per-message TTL.
await using var store = CreateStore(sub: "storemsg-ttl");
// 80ms TTL in nanoseconds.
const long ttlNs = 80_000_000L;
var (seq, _) = store.StoreMsg("expire.me", null, "short-lived"u8.ToArray(), ttlNs);
seq.ShouldBe(1UL);
// Verify it's present immediately.
var before = await store.GetStateAsync(default);
before.Messages.ShouldBe(1UL);
// Wait for expiry.
await Task.Delay(200);
// Trigger expiry by calling StoreMsg again (which calls ExpireFromWheel internally).
store.StoreMsg("permanent", null, "stays"u8.ToArray(), 0L);
// The TTL'd message should be gone; only the permanent one remains.
var after = await store.GetStateAsync(default);
after.Messages.ShouldBe(1UL);
after.LastSeq.ShouldBe(2UL);
}
// Go: TestFileStoreStoreMsg — multiple sequential StoreMsgs increment sequence
[Fact]
public async Task StoreMsg_MultipleMessages_SequenceIncrements()
{
await using var store = CreateStore(sub: "storemsg-multi");
for (var i = 1; i <= 5; i++)
{
var (seq, _) = store.StoreMsg($"topic.{i}", null, Encoding.UTF8.GetBytes($"msg-{i}"), 0L);
seq.ShouldBe((ulong)i);
}
var state = await store.GetStateAsync(default);
state.Messages.ShouldBe(5UL);
state.LastSeq.ShouldBe(5UL);
}
// -------------------------------------------------------------------------
// Recovery re-registration test
// -------------------------------------------------------------------------
// Go: filestore.go recoverMsgs — TTL re-registration on restart
[Fact]
public async Task Recovery_ReregistersUnexpiredTtls()
{
// Write messages with a 5-second TTL (well beyond the test duration).
// After recovering the store, the messages should still be present.
var dir = Path.Combine(_dir, "ttl-recovery");
var opts = new FileStoreOptions
{
Directory = dir,
MaxAgeMs = 5000, // 5 second TTL
};
ulong seqA, seqB;
// First open: write messages.
{
await using var store = new FileStore(opts);
seqA = await store.AppendAsync("topic.a", "payload-a"u8.ToArray(), default);
seqB = await store.AppendAsync("topic.b", "payload-b"u8.ToArray(), default);
var state = await store.GetStateAsync(default);
state.Messages.ShouldBe(2UL);
} // FileStore disposed here.
// Second open: recovery should re-register TTLs and messages should still be present.
{
await using var recovered = new FileStore(opts);
var state = await recovered.GetStateAsync(default);
state.Messages.ShouldBe(2UL, "unexpired messages should survive recovery");
var msgA = await recovered.LoadAsync(seqA, default);
msgA.ShouldNotBeNull();
msgA!.Subject.ShouldBe("topic.a");
var msgB = await recovered.LoadAsync(seqB, default);
msgB.ShouldNotBeNull();
msgB!.Subject.ShouldBe("topic.b");
}
}
// Go: filestore.go recoverMsgs — expired messages removed on recovery
[Fact]
public async Task Recovery_ExpiredMessagesRemovedOnReopen()
{
// Write messages with a very short TTL, wait for them to expire, then
// reopen the store. The expired messages should be pruned at startup.
var dir = Path.Combine(_dir, "ttl-recovery-expired");
var opts = new FileStoreOptions
{
Directory = dir,
MaxAgeMs = 50, // 50ms TTL
};
// First open: write messages.
{
await using var store = new FileStore(opts);
await store.AppendAsync("expiring.a", "data-a"u8.ToArray(), default);
await store.AppendAsync("expiring.b", "data-b"u8.ToArray(), default);
}
// Wait for TTL to elapse.
await Task.Delay(200);
// Second open: expired messages should be pruned during RecoverBlocks -> PruneExpired.
{
await using var recovered = new FileStore(opts);
var state = await recovered.GetStateAsync(default);
state.Messages.ShouldBe(0UL, "expired messages should be removed on recovery");
}
}
}