94da385ff4
Drives the full post-handshake flow on a live ACE server. After the
3-way handshake completes, acdream:
1. Reassembles CharacterList and parses out every character on the
account (tested against testaccount which has two: +Acdream and
+Wdw). Full field decode: GUIDs, names, delete-delta, slotCount,
accountName, turbine chat, ToD flag.
2. Picks the first character and builds a single-fragment
CharacterEnterWorldRequest (opcode 0xF7C8, empty body beyond opcode)
on the UIQueue, wraps it with EncryptedChecksum + BlobFragments,
consumes one outbound ISAAC keystream word, and sends.
3. Waits for CharacterEnterWorldServerReady (opcode 0xF7DF) to confirm
the server accepted our encrypted outbound packet.
4. Builds CharacterEnterWorld (opcode 0xF657, body = u32 guid +
String16L accountName) and sends as a second fragment with
fragment_sequence 2, packet sequence 3.
5. Drains 10 seconds of post-login traffic: 101 GameMessages assembled,
68 of which are CreateObject (0xF745) — the entities around
+Acdream spawning into our session. Also saw DeleteObject (0xF746),
ObjectDescription (0xF74C), SetState (0xF755), GameEvent (0xF7B0),
LoginCharacterSet (0xF7E0), and a 0x02CD smaller opcode.
This is the Phase 4.7 win: acdream is authenticated, connected,
character-selected, logged in, and actively receiving the world state
stream, all with ZERO protocol errors. Every byte of every packet we
sent to the server was correct — the first bit wrong in our outbound
ISAAC math would have produced silent disconnect instead of 101
successful replies.
Added to AcDream.Core.Net:
- Messages/CharacterList.cs: full parser for opcode 0xF658, ported
from ACE's GameMessageCharacterList writer. Returns structured
record with Characters[], SlotCount, AccountName, UseTurbineChat,
HasThroneOfDestiny. Tested offline with hand-assembled bodies
matching ACE's writer format.
- Messages/CharacterEnterWorld.cs: outbound builders for
CharacterEnterWorldRequest (0xF7C8, opcode-only) and
CharacterEnterWorld (0xF657, opcode + guid + String16L account).
- Messages/GameMessageFragment.cs: helper to wrap a GameMessage body
in a single MessageFragment with correct Id/Count/Index/Queue and
Sequence. Also a Serialize helper to turn a MessageFragment into
packet-body bytes for PacketCodec.Encode. Throws on oversize
(>448 byte) messages; multi-fragment outbound split is TBD.
- GameMessageGroup enum mirroring ACE byte-for-byte (UIQueue = 0x09
is the one we use for enter-world).
Fixed: FragmentAssembler was keying on MessageFragmentHeader.Id, but
ACE's outbound fragment Id is ALWAYS the constant 0x80000000 — the
unique-per-message key is Sequence, matching how ACE's own
NetworkSession.HandleFragment keys its partialFragments dict. Our
live tests happened to work before because every GameMessage we'd
seen was single-fragment (hitting the Count==1 shortcut), but
multi-fragment CreateObject bodies would have silently mixed. Fixed
now and all 7 FragmentAssembler tests still pass with the Sequence-key.
Tests: 9 new offline (4 CharacterList, 2 CharacterEnterWorld, 3
GameMessageFragment), 1 new live (gated by ACDREAM_LIVE=1). Total
77 core + 83 net = 160 passing.
LIVE RUN OUTPUT:
step 4: CharacterList received account=testaccount count=2
character: id=0x5000000A name=+Acdream
character: id=0x50000008 name=+Wdw
choosing character: 0x5000000A +Acdream
sent CharacterEnterWorldRequest: packet.seq=2 frag.seq=1 bytes=40
step 6: CharacterEnterWorldServerReady received
sent CharacterEnterWorld(guid=0x5000000A): packet.seq=3 frag.seq=2 bytes=60
step 8 summary: 101 GameMessages assembled, 68 CreateObject
unique opcodes seen: 0xF7B0, 0xF7E0, 0xF746, 0xF745, 0x02CD,
0xF755, 0xF74C
Phase 4.7 next: start decoding CreateObject bodies to extract GUID +
world position + setup/GfxObj id, so these entities can flow into
IGameState and render in the acdream game window. The foundry statue
is waiting in one of those 68 spawns.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
89 lines
3.3 KiB
C#
89 lines
3.3 KiB
C#
using AcDream.Core.Net.Packets;
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namespace AcDream.Core.Net.Messages;
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/// <summary>
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/// Helper to wrap a single GameMessage (opcode + body) in one
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/// <see cref="MessageFragment"/>. Only handles the common "small message
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/// fits in one fragment" case — the >448-byte multi-fragment split is
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/// deferred until we actually need it for outbound traffic.
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///
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/// <para>
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/// Callers build the message body via <see cref="PacketWriter"/>
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/// (starting with a 4-byte opcode, then the fields), pick a
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/// <see cref="GameMessageGroup"/> for the queue, pick a fragment sequence
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/// number for this message, and receive a fully-formed
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/// <see cref="MessageFragment"/> ready to embed in a packet body.
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/// </para>
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/// </summary>
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public static class GameMessageFragment
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{
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/// <summary>
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/// Constant Id used on every outbound fragment. ACE's server-side
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/// code uses the same literal — the per-message uniqueness lives in
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/// the <c>Sequence</c> field, not the <c>Id</c> field.
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/// </summary>
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public const uint OutboundFragmentId = 0x80000000u;
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/// <summary>
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/// Build a single fragment that carries an entire GameMessage in its
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/// payload. Throws if the payload exceeds the max single-fragment
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/// body size (448 bytes).
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/// </summary>
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public static MessageFragment BuildSingleFragment(
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uint fragmentSequence,
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GameMessageGroup queue,
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ReadOnlySpan<byte> gameMessageBytes)
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{
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if (gameMessageBytes.Length > MessageFragmentHeader.MaxFragmentDataSize)
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throw new ArgumentException(
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$"game message body ({gameMessageBytes.Length} bytes) exceeds single-fragment capacity " +
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$"({MessageFragmentHeader.MaxFragmentDataSize} bytes). Multi-fragment split TBD.",
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nameof(gameMessageBytes));
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var header = new MessageFragmentHeader
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{
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Sequence = fragmentSequence,
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Id = OutboundFragmentId,
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Count = 1,
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TotalSize = (ushort)(MessageFragmentHeader.Size + gameMessageBytes.Length),
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Index = 0,
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Queue = (ushort)queue,
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};
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return new MessageFragment(header, gameMessageBytes.ToArray());
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}
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/// <summary>
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/// Concatenate a fragment's header + payload into the bytes that go
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/// into a packet's body. Use when building the full <c>body</c> span
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/// passed to <see cref="PacketCodec.Encode"/>.
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/// </summary>
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public static byte[] Serialize(in MessageFragment fragment)
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{
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byte[] buffer = new byte[MessageFragmentHeader.Size + fragment.Payload.Length];
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fragment.Header.Pack(buffer);
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fragment.Payload.CopyTo(buffer.AsSpan(MessageFragmentHeader.Size));
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return buffer;
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}
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}
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/// <summary>
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/// AC's per-queue routing for GameMessages. Matches ACE's GameMessageGroup
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/// enum byte-for-byte so ported handlers are unambiguous.
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/// </summary>
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public enum GameMessageGroup : ushort
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{
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InvalidQueue = 0x00,
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EventQueue = 0x01,
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ControlQueue = 0x02,
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WeenieQueue = 0x03,
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LoginQueue = 0x04,
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DatabaseQueue = 0x05,
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SecureControlQueue = 0x06,
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SecureWeenieQueue = 0x07,
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SecureLoginQueue = 0x08,
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UIQueue = 0x09,
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SmartboxQueue = 0x0A,
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ObserverQueue = 0x0B,
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}
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