Adds docs/mcp-namespace-eof-recovery.md documenting the correct recovery path when a Gitea MCP namespace (gitea-author/reviewer/merger/tools) returns `client is closing: EOF`. Satisfies acceptance criterion 7 of #543: symptom, root cause (closed client transport vs a live-but-stale process), the sanctioned reconnect/relaunch sequence, diagnostics to capture, and how test_mcp_conn.py reproduces the registered-vs-callable gap. Distinguishes this transport-close failure from the ps-based stale-runtime family in #531/#544 and reinforces the no-direct-import guard (#558). Docs-only; no code or test behavior changed. Co-Authored-By: Claude Opus 4.8 (1M context) <[email protected]>
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Recovering from client is closing: EOF on a Gitea MCP namespace (#543)
Symptom
A tool call through a Gitea MCP namespace — gitea-author, gitea-reviewer,
gitea-merger, or the shared gitea-tools namespace — fails immediately with:
client is closing: EOF
Every subsequent call to that same namespace returns the same error, including
cheap read tools such as gitea_whoami and gitea_list_profiles. Other MCP
servers registered with the same client (for example context7) keep working,
so this is not a global MCP-client outage.
Why this is not a code defect
This failure is a transport-level condition in the IDE / MCP client manager, not a missing or broken tool:
- The tool can be present and registered in the Python
FastMCPtool manager. - Direct Python inspection of the server confirms the tool exists.
- Running the server manually and sending JSON-RPC over stdio works fine.
The client manager entered a closed state after the backing subprocess for that
namespace terminated (or was killed) behind its back. Once closed, the client
does not re-spawn the child on the next tool call — it just replays
client is closing: EOF. The OS process may even still be alive if a parent
language-server process is holding the stdio pipes open.
This is the canonical "registered in FastMCP ≠ callable through the namespace"
false-ready state. It is distinct from the stale-runtime family in #531 /
#544, where the process is reachable but running behind master; that case is
detected by the ps-based _check_mcp_runtimes_diagnostics in
gitea_mcp_server.py. The EOF case is a dead/closed transport, not a stale one,
so the ps check alone will not surface it.
Recovery path
Do the steps in order. Stop as soon as a live namespace call succeeds.
-
Confirm the blast radius. Call a cheap read tool on the failing namespace (
gitea_whoamiorgitea_list_profiles). Then call the same tool on a different MCP server (e.g.context7).- Only the Gitea namespace fails → single-namespace transport close. Continue.
- Every server fails → restart the whole MCP client, not just one namespace.
-
Reconnect the namespace through the client, not the shell. Use the IDE / client MCP-reconnect action for that server entry (in Claude Code:
/mcp→ reconnect the affectedgitea-*server). Reconnecting forces the client to spawn a fresh subprocess and re-open the pipe. This clears the closed-client state that a barekill/respawn from a terminal does not. -
Do not "fix" it by importing the server or poking the process. Reaching for
python -c 'import gitea_mcp_server ...', raw JSON-RPC from a shell, or killing PIDs to force a respawn does not restore the client's view of the namespace and violates the daemon-import guard (#558,docs/mcp-daemon-import-guard.md). The only sanctioned repair is a client reconnect / relaunch. -
Verify through the same path the workflow will use. After reconnect, call the specific tool the blocked workflow needs — not just any tool — through the target namespace. For a merge that means calling the merger-authorized adoption/merge tool through
gitea-merger. A greengitea_whoamion one namespace does not prove another namespace or another tool is callable. -
If reconnect does not clear it, relaunch the client entirely, then repeat step 4. If EOF persists after a full relaunch, the backing subprocess is failing to start — inspect its stderr / launch config (command path, venv,
*_MCP_CONFIG,*_MCP_PROFILEenv) rather than retrying the call.
Diagnostics to capture when reporting EOF
Include all of these so the failure is actionable and reproducible:
- Namespace name that returned EOF (
gitea-author/gitea-reviewer/gitea-merger/gitea-tools). - Tool that was called and the exact error string.
- PID of the backing process (if any) and whether it was still alive.
- Profile / env for that namespace (execution profile,
*_MCP_PROFILE, worktree binding such asGITEA_AUTHOR_WORKTREE). - Config path the client launched the server from.
- Result of the cross-server control call (did
context7succeed?).
Reproducing the registered-vs-callable gap
test_mcp_conn.py performs a full JSON-RPC handshake
(initialize → initialized → tools/list) plus a direct tool call against a
namespace, which is what distinguishes "registered in FastMCP" from "callable
through the client." Use it to confirm a namespace is genuinely reachable after
a reconnect. It probes a namespace end-to-end; a namespace that returns EOF at
the client fails this handshake, while ps-only checks still report the process
as present.
Do-not list during EOF recovery
- Do not retry a blocked merge/adoption until the required tool is confirmed callable through the merger-authorized namespace (see #543 canonical handoff).
- Do not clean, reset, or rebind a foreign worktree to work around the error.
- Do not bypass the namespace with direct imports, raw API/curl, or in-memory state restoration.
Related
- #531 / #544 — stale-runtime detection (
ps-based); sibling failure mode. - #558 /
docs/mcp-daemon-import-guard.md— why shell imports are not a repair. docs/mcp-client-registration.md— per-server registration contract.