Third frame in the burst, per prod TurnEnd -> Judge pairing observed in
battle-traffic_tk2_regular.ndjson (positions 10->11, 17->18, etc.).
The client's TurnEndOperation sends its own Judge and gates the next turn
on a server-pushed Judge via JudgeOperation -> ControlTurnStartPlayer.
Closes the v1.1 'Opponent's turn... forever' hang caught during smoke.
Both single-cycle and consecutive-cycles tests now assert the v1.2
three-frame burst (TurnStart + TurnEnd + Judge). Currently failing —
ComputeResponses still pushes only two frames. Implementation follows.
Adds the third frame of the burst. Wire shape from prod (spin + resultCode).
OpponentJudgeSpin const next to OpponentTurnStartSpin for consistency.
Single test locks uri, ViewerId, Cat, and body shape.
Final-review follow-ups:
- BuildOpponentTurnStart's doc comment claimed the v1 client sits
indefinitely — true before the loop closure, false after. Updated
to describe the pair with BuildOpponentTurnEnd.
- TypedBodyWireShapeTests had no coverage for BuildOpponentTurnEnd;
added the literal-JSON test so a future JsonPropertyName rename
on TurnEndBody is caught.
End-to-end through the real WS pump: after Ready, the test sends two
consecutive TurnEnd msgs and asserts the server pushes
TurnStart+TurnEnd for each. Exercises OutboundSequencer's playSeq
assignment across multiple cycles.
Locks the loop invariant: after the first cycle the phase resets to
AfterReady, so the next player TurnEnd matches the same case arm and
produces the same two-frame burst.
The TurnEnd/TurnEndFinal case in ComputeResponses now returns two envelopes
back-to-back — opponent TurnStart followed by opponent TurnEnd. Phase enters
OpponentTurn transiently then resets to AfterReady within the same call so
the next player TurnEnd can fire the cycle again. Closes the v1 'stays at
Opponent's turn… forever' stall.
Replaces the v1.0 single-envelope/OpponentTurn-phase invariant with
the v1.1 two-envelope/AfterReady invariant. Currently failing —
ComputeResponses still does the v1.0 thing. Implementation follows.
Audit Md4 cleanup: the prior long[] allowed in-place modification by any
caller with the field reference. ImmutableArray<long> enforces the constant
contract at the type level. ComputeHandAfterSwap uses ToArray() to produce
its mutable working copy.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Player-side fictions (dummy deck, classId=1) removed; the section now
documents which fields are real (deck, leader, cosmetics) vs still hardcoded
(rank, battlePoint, cardMaster, fieldId, seed) with a pointer to the spec's
§Deferred plumbing for each. "Where to extend" table loses the two done
items and gains a row for wiring future modes via IMatchContextBuilder.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Seeds a viewer + completed TK2 run, drives the WS handshake to Matched, and
asserts every cardId in selfDeck matches the run's SelectedCardIdsJson. Read
from RawBody (codec's wire-form deserialization) — not from MatchedBody —
since the test client gets the JSON-roundtripped envelope.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
ClassId/CharaId/CardMasterName/BattleType flow from ctx. PlayerBattleStart
Profile removed; Rank/BattlePoint remain as standalone consts pending real
per-viewer rank tracker. One test updated, one new test added.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
selfInfo cosmetics + 30-card selfDeck now read from MatchContext. Opponent
half stays in ScriptedProfiles. DummyCardId / BuildDummyDeck / PlayerMatched
Profile removed. Two new tests lock the deck-idx pairing and cosmetic
flow-through; TypedBodyWireShapeTests + lifecycle tests thread a fixture ctx.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
IMatchingBridge.RegisterPendingBattle now takes a MatchContext; PendingBattle
carries it; BattleSession stores it. ArenaTwoPickBattleController builds ctx
from IMatchContextBuilder. ScriptedLifecycle still uses ScriptedProfiles for
the player half — Tasks 5/6 migrate the lifecycle.
Existing tests updated: MatchingBridgeTests, BattleNodeFlowTests,
InMemoryBattleSessionStoreTests, BattleSessionDispatchTests, BattleSession
PumpTests, ArenaTwoPickBattleControllerTests (which now seeds a TK2 run +
adds a no-active-run 400 case).
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Focused AsNoTracking load with Info.SelectedEmblem/SelectedDegree includes
for the new MatchContextBuilder. Single test locks the include graph.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Public contract between HTTP-side do_matching controllers (assemble) and
SVSim.BattleNode (consume). First piece of the real-drafted-deck wiring;
nothing references it yet.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Client RealTimeNetworkAgent.SetNetworkInfo iterates the synchronize-data
dict in insertion order. The "uri" key, when recognized as Matched, calls
GameMgr.InitializeSelfInfo which sets _selfDeck = null. Any "selfDeck"
processed before "uri" gets wiped; Matching.StartBattleLoad then crashes
on null.Select(...). Pre-refactor ToJson built a Dictionary envelope-first
then appended body keys, so the bug never surfaced. The typed-body rewrite
inverted the order — restoring envelope-first matches the prod wire.
Regression test BuildMatched_KeyOrder_PutsUriBeforeSelfDeckAndSelfInfo
locks the contract.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Add a per-project README in SVSim.BattleNode/ that covers:
- Architecture (the six concern folders)
- The connect-handshake sequence verified end-to-end at smoke
- A wire-format-gotchas table for the spec divergences caught during
v1 (headers vs query for credentials, schemeless node URL with
/socket.io/ path, required card_master_id, required resultCode=1,
Matched in response to InitBattle not InitNetwork, EIO3 0x04 prefix
on binary frames, FromJson conditional-expression number-boxing)
- What the v1 scripted opponent does and what is hardcoded
- A "where to extend" table for v2 work
- The full test layout and cross-references to specs/plans
Fill in XML docs on the public surface that previously had none:
- BattleNodeExtensions.AddBattleNode / UseBattleNode (DI + middleware
wiring, including the pipeline-order note that auth runs before
UseWebSockets)
- BattleNodeWebSocketHandler class + HandleAsync (the validation chain)
- BattleSession.ComputeResponses (the lifecycle state machine, with
the NoStock flag's meaning)
- ScriptedLifecycle class (v1 scope, resultCode injection rule,
pointer to the "where to extend" section)
- MatchingBridge class (mint-id + register flow)
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Root cause for the lingering mulligan failure: the inline conditional
expression in MsgEnvelope.ToObject
JsonValueKind.Number => el.TryGetInt64(out var l) ? l : el.GetDouble(),
unified its branches to the common implicit-convertible type. long→double
is implicit, so both branches collapsed to double and the integer value
silently widened. Inside an array (idxList:[2]), each element came back
as boxed double; OfType<long> in ExtractIdxList then filtered every
entry out, so swapIndices arrived empty and BuildSwapResponse echoed
the unchanged hand — exactly the diff-against-Deal mismatch the client
flagged as "Card swap failed: AbandonCards[2]/DrawCards[]".
Extract a ParseNumber helper that returns object explicitly so each
branch boxes its own runtime type. Also harden ExtractIdxList to accept
any boxed numeric type (long/int/double/decimal/string) so a future
JSON-parser drift can't silently regress this path again.
Two regression tests:
- FromJson_NumericArray_PreservesLongTypeOnEachElement: confirms the
fix at the JSON-parse layer with a hardcoded "{\"idxList\":[2,3]}".
- Swap_WithIdxListContainingTwo_ProducesHandWithFreshIdxAtPosition1:
exercises the dispatch end-to-end with a Body holding a real boxed
long; asserts position 1 of the response hand is the fresh deck idx 4.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Two issues caught during v1 smoke at the mulligan / first-turn boundary:
1) BuildSwapResponse ignored the player's idxList and echoed the same
3-card hand back. The client diffs the new self[] against the Deal
to compute "drawn cards" — empty diff against the same hand throws
"Card swap failed: AbandonCards[X]/DrawCards[]". Replace swapped
idxs with fresh deck idxs (initial hand was 1/2/3, deck has 4..30
still available). Same hand must flow into Ready since the client
diffs again there. Move the hand computation into a new helper
ComputeHandAfterSwap and have ComputeResponses thread it through
both BuildSwapResponse and BuildReady.
2) The client doesn't transition to the "Opponent's turn…" display
on its own after sending TurnEnd — it waits for the server to push
an opponent TurnStart (per prod TK2 capture line 14). Without it
the UI just sits on the end-of-turn frame. Add a TurnEnd handler
that pushes a minimal TurnStart{spin} and transitions to a new
OpponentTurn phase, which IS the documented v1 stopping point.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Pushing Matched in response to InitNetwork lands it before
MatchingInitBattle() finishes wiring up the OnReceivedEvent handler
and setting status=Connect. The client's Matched-case in
ReactionReceiveUri only transitions to StartLoad when status is
Connect at the moment of receipt; otherwise the frame is silently
dropped at the state machine and the matchmaking UI never advances.
The real connect-handshake sequence (per MatchingNetworkConnectChecker
+ Matching.cs):
1. WS opens.
2. Client emits InitNetwork (cat=general).
3. Server replies InitNetwork ack → _initNetworkSuccess = true.
4. MatchingInitBattle: status=Connect; emit InitBattle; subscribe
OnReceivedEvent matching handler.
5. Server replies Matched → status=StartLoad, StartBattleLoad.
6. Asset load done → client emits Loaded.
7. Server replies BattleStart + Deal → status=Prepared, GotoBattle.
Add AwaitingInitBattle phase, gate Matched on InitBattle receipt, and
gate BattleStart+Deal on Loaded receipt. Update dispatch and
integration tests to walk the new sequence; InitBattle's wire cat is
Matching(2), not Battle(1).
Caught during v1 smoke walkthrough — battle-traffic.ndjson showed the
client receiving Matched/BattleStart at sub-millisecond gaps after
InitNetwork ack, but never advancing past matchmaking.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
GameStart already detects the Steam-vs-UDID mismatch produced by
wipe-and-resignup; it now also reclaims the orphan. New
ViewerRepository.MergeAnonymousViewerInto transfers the fresh UDID
from V_new onto V_old in one save (freeing the unique-index slot),
then deletes V_new in a second save. Partial-failure mode is a
benign null-UDID viewer; two rows never contend for the same UDID.
Side benefit: future GetViewerByUdid lookups now short-circuit to
V_old without going through the Steam handler.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
The client's OnReceived routing drops any synchronize push whose
resultCode != Success(1) — and absent counts as 0(None), which is
also dropped. Our InitNetwork ack and BattleFinish already included
resultCode=1, but the five lifecycle bodies (Matched, BattleStart,
Deal, Swap response, Ready) didn't, so the client silently dropped
every one of them.
Symptom: battle-traffic.ndjson capture showed the client receiving
InitNetwork/Matched/BattleStart, but the UI stayed at the matchmaking
screen until timeout — Matched/BattleStart were dropped at the
routing layer before they ever reached the state machine. Move the
resultCode injection into the shared EnvelopeForPush helper so every
scripted push gets it.
Caught during v1 smoke walkthrough.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Wipe-and-resignup left the client stuck with the blank V_new's id in
Certification.ViewerId. /tool/signup is anonymous, so it can't see the
Steam ticket and creates a fresh anonymous viewer keyed on the new UDID;
the Steam handler on the next request resolves to V_old and serves its
data, but no normal-response hook overwrites Certification.ViewerId.
GameStart now compares the UDID-keyed viewer to the auth-resolved one
and emits rewrite_viewer_id when they differ, which Cute/GameStartCheckTask
writes back into Certification.ViewerId.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
