Commit Graph

11 Commits

  • OpenTelemetry events (#2103)
    ### Title
    
    ## otel
    
    Codex can emit [OpenTelemetry](https://opentelemetry.io/) **log events**
    that
    describe each run: outbound API requests, streamed responses, user
    input,
    tool-approval decisions, and the result of every tool invocation. Export
    is
    **disabled by default** so local runs remain self-contained. Opt in by
    adding an
    `[otel]` table and choosing an exporter.
    
    ```toml
    [otel]
    environment = "staging"   # defaults to "dev"
    exporter = "none"          # defaults to "none"; set to otlp-http or otlp-grpc to send events
    log_user_prompt = false    # defaults to false; redact prompt text unless explicitly enabled
    ```
    
    Codex tags every exported event with `service.name = "codex-cli"`, the
    CLI
    version, and an `env` attribute so downstream collectors can distinguish
    dev/staging/prod traffic. Only telemetry produced inside the
    `codex_otel`
    crate—the events listed below—is forwarded to the exporter.
    
    ### Event catalog
    
    Every event shares a common set of metadata fields: `event.timestamp`,
    `conversation.id`, `app.version`, `auth_mode` (when available),
    `user.account_id` (when available), `terminal.type`, `model`, and
    `slug`.
    
    With OTEL enabled Codex emits the following event types (in addition to
    the
    metadata above):
    
    - `codex.api_request`
      - `cf_ray` (optional)
      - `attempt`
      - `duration_ms`
      - `http.response.status_code` (optional)
      - `error.message` (failures)
    - `codex.sse_event`
      - `event.kind`
      - `duration_ms`
      - `error.message` (failures)
      - `input_token_count` (completion only)
      - `output_token_count` (completion only)
      - `cached_token_count` (completion only, optional)
      - `reasoning_token_count` (completion only, optional)
      - `tool_token_count` (completion only)
    - `codex.user_prompt`
      - `prompt_length`
      - `prompt` (redacted unless `log_user_prompt = true`)
    - `codex.tool_decision`
      - `tool_name`
      - `call_id`
    - `decision` (`approved`, `approved_for_session`, `denied`, or `abort`)
      - `source` (`config` or `user`)
    - `codex.tool_result`
      - `tool_name`
      - `call_id`
      - `arguments`
      - `duration_ms` (execution time for the tool)
      - `success` (`"true"` or `"false"`)
      - `output`
    
    ### Choosing an exporter
    
    Set `otel.exporter` to control where events go:
    
    - `none` – leaves instrumentation active but skips exporting. This is
    the
      default.
    - `otlp-http` – posts OTLP log records to an OTLP/HTTP collector.
    Specify the
      endpoint, protocol, and headers your collector expects:
    
      ```toml
      [otel]
      exporter = { otlp-http = {
        endpoint = "https://otel.example.com/v1/logs",
        protocol = "binary",
        headers = { "x-otlp-api-key" = "${OTLP_TOKEN}" }
      }}
      ```
    
    - `otlp-grpc` – streams OTLP log records over gRPC. Provide the endpoint
    and any
      metadata headers:
    
      ```toml
      [otel]
      exporter = { otlp-grpc = {
        endpoint = "https://otel.example.com:4317",
        headers = { "x-otlp-meta" = "abc123" }
      }}
      ```
    
    If the exporter is `none` nothing is written anywhere; otherwise you
    must run or point to your
    own collector. All exporters run on a background batch worker that is
    flushed on
    shutdown.
    
    If you build Codex from source the OTEL crate is still behind an `otel`
    feature
    flag; the official prebuilt binaries ship with the feature enabled. When
    the
    feature is disabled the telemetry hooks become no-ops so the CLI
    continues to
    function without the extra dependencies.
    
    ---------
    
    Co-authored-by: Anton Panasenko <apanasenko@openai.com>
  • [MCP] Introduce an experimental official rust sdk based mcp client (#4252)
    The [official Rust
    SDK](https://github.com/modelcontextprotocol/rust-sdk/tree/57fc428c578a1a3fe851ee0838bf068bda120eb3)
    has come a long way since we first started our mcp client implementation
    5 months ago and, today, it is much more complete than our own
    stdio-only implementation.
    
    This PR introduces a new config flag `experimental_use_rmcp_client`
    which will use a new mcp client powered by the sdk instead of our own.
    
    To keep this PR simple, I've only implemented the same stdio MCP
    functionality that we had but will expand on it with future PRs.
    
    ---------
    
    Co-authored-by: pakrym-oai <pakrym@openai.com>
  • ref: state - 2 (#4229)
    Extracting tasks in a module and start abstraction behind a Trait (more
    to come on this but each task will be tackled in a dedicated PR)
    The goal was to drop the ActiveTask and to have a (potentially) set of
    tasks during each turn
  • Add exec output-schema parameter (#4079)
    Adds structured output to `exec` via the `--structured-output`
    parameter.
  • Add notifier tests (#4064)
    Proposal:
    1. Use anyhow for tests and avoid unwrap
    2. Extract a helper for starting a test instance of codex
  • enable-resume (#3537)
    Adding the ability to resume conversations.
    we have one verb `resume`. 
    
    Behavior:
    
    `tui`:
    `codex resume`: opens session picker
    `codex resume --last`: continue last message
    `codex resume <session id>`: continue conversation with `session id`
    
    `exec`:
    `codex resume --last`: continue last conversation
    `codex resume <session id>`: continue conversation with `session id`
    
    Implementation:
    - I added a function to find the path in `~/.codex/sessions/` with a
    `UUID`. This is helpful in resuming with session id.
    - Added the above mentioned flags
    - Added lots of testing
  • Handle resuming/forking after compact (#3533)
    We need to construct the history different when compact happens. For
    this, we need to just consider the history after compact and convert
    compact to a response item.
    
    This needs to change and use `build_compact_history` when this #3446 is
    merged.
  • Review Mode (Core) (#3401)
    ## 📝 Review Mode -- Core
    
    This PR introduces the Core implementation for Review mode:
    
    - New op `Op::Review { prompt: String }:` spawns a child review task
    with isolated context, a review‑specific system prompt, and a
    `Config.review_model`.
    - `EnteredReviewMode`: emitted when the child review session starts.
    Every event from this point onwards reflects the review session.
    - `ExitedReviewMode(Option<ReviewOutputEvent>)`: emitted when the review
    finishes or is interrupted, with optional structured findings:
    
    ```json
    {
      "findings": [
        {
          "title": "<≤ 80 chars, imperative>",
          "body": "<valid Markdown explaining *why* this is a problem; cite files/lines/functions>",
          "confidence_score": <float 0.0-1.0>,
          "priority": <int 0-3>,
          "code_location": {
            "absolute_file_path": "<file path>",
            "line_range": {"start": <int>, "end": <int>}
          }
        }
      ],
      "overall_correctness": "patch is correct" | "patch is incorrect",
      "overall_explanation": "<1-3 sentence explanation justifying the overall_correctness verdict>",
      "overall_confidence_score": <float 0.0-1.0>
    }
    ```
    
    ## Questions
    
    ### Why separate out its own message history?
    
    We want the review thread to match the training of our review models as
    much as possible -- that means using a custom prompt, removing user
    instructions, and starting a clean chat history.
    
    We also want to make sure the review thread doesn't leak into the parent
    thread.
    
    ### Why do this as a mode, vs. sub-agents?
    
    1. We want review to be a synchronous task, so it's fine for now to do a
    bespoke implementation.
    2. We're still unclear about the final structure for sub-agents. We'd
    prefer to land this quickly and then refactor into sub-agents without
    rushing that implementation.
  • bug: fix model save (#3525)
    Fix those 2 behaviors:
    1. The model does not get saved if we don't CTRL + S
    2. The reasoning effort get saved
  • chore: unify history loading (#2736)
    We have two ways of loading conversation with a previous history. Fork
    conversation and the experimental resume that we had before. In this PR,
    I am unifying their code path. The path is getting the history items and
    recording them in a brand new conversation. This PR also constraint the
    rollout recorder responsibilities to be only recording to the disk and
    loading from the disk.
    
    The PR also fixes a current bug when we have two forking in a row:
    History 1:
    <Environment Context>
    UserMessage_1
    UserMessage_2
    UserMessage_3
    
    **Fork with n = 1 (only remove one element)**
    History 2:
    <Environment Context>
    UserMessage_1
    UserMessage_2
    <Environment Context>
    
    **Fork with n = 1 (only remove one element)**
    History 2:
    <Environment Context>
    UserMessage_1
    UserMessage_2
    **<Environment Context>**
    
    This shouldn't happen but because we were appending the `<Environment
    Context>` after each spawning and it's considered as _user message_.
    Now, we don't add this message if restoring and old conversation.
  • test: faster test execution in codex-core (#2633)
    this dramatically improves time to run `cargo test -p codex-core` (~25x
    speedup).
    
    before:
    ```
    cargo test -p codex-core  35.96s user 68.63s system 19% cpu 8:49.80 total
    ```
    
    after:
    ```
    cargo test -p codex-core  5.51s user 8.16s system 63% cpu 21.407 total
    ```
    
    both tests measured "hot", i.e. on a 2nd run with no filesystem changes,
    to exclude compile times.
    
    approach inspired by [Delete Cargo Integration
    Tests](https://matklad.github.io/2021/02/27/delete-cargo-integration-tests.html),
    we move all test cases in tests/ into a single suite in order to have a
    single binary, as there is significant overhead for each test binary
    executed, and because test execution is only parallelized with a single
    binary.