## DISCLAIMER
This is experimental and no production service must rely on this
## Why
Built-in MCPs are product-owned runtime capabilities, but they were
previously flattened into the same config-backed stdio path as
user-configured servers. That made them depend on a hidden `codex
builtin-mcp` re-exec path, exposed them through config-oriented CLI
flows, and erased distinctions the runtime needs to preserve—most
notably whether an MCP call should count as external context for
memory-mode pollution.
## What changed
- Model product-owned built-ins separately from config-backed MCP
servers via `BuiltinMcpServer` and `EffectiveMcpServer`.
- Launch built-ins in process through a reusable async transport instead
of the hidden `builtin-mcp` stdio subcommand.
- Keep config-oriented CLI operations such as `codex mcp
list/get/login/logout` scoped to configured servers, while merging
built-ins only into the effective runtime server set.
- Retain server metadata after launch so parallel-tool support and
context classification come from the live server set; built-in
`memories` is now classified as local Codex state rather than external
context.
## Test plan
- `cargo test -p codex-mcp`
- `cargo test -p codex-core --test suite
builtin_memories_mcp_call_does_not_mark_thread_memory_mode_polluted_when_configured`
---------
Co-authored-by: Codex <noreply@openai.com>
## Summary
- make the builtin MCP config test derive the expected `--codex-home`
argument from `AbsolutePathBuf`
## Why
`AbsolutePathBuf::try_from("/tmp/codex-home")` is rendered as
`D:\\tmp\\codex-home` on Windows, but the test asserted the Unix literal
`"/tmp/codex-home"`. That made the Windows Bazel job fail even though
the production code was behaving correctly.
## Impact
This keeps the test cross-platform while preserving the same transport
assertion on Unix and Windows.
## Validation
- `cargo test -p codex-builtin-mcps`
Co-authored-by: Codex <noreply@openai.com>
