04c1782e52
### 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>
218 lines
6.5 KiB
Rust
218 lines
6.5 KiB
Rust
use serde_json::Value;
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use wiremock::BodyPrintLimit;
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use wiremock::Mock;
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use wiremock::MockServer;
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use wiremock::Respond;
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use wiremock::ResponseTemplate;
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use wiremock::matchers::method;
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use wiremock::matchers::path;
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/// Build an SSE stream body from a list of JSON events.
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pub fn sse(events: Vec<Value>) -> String {
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use std::fmt::Write as _;
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let mut out = String::new();
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for ev in events {
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let kind = ev.get("type").and_then(|v| v.as_str()).unwrap();
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writeln!(&mut out, "event: {kind}").unwrap();
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if !ev.as_object().map(|o| o.len() == 1).unwrap_or(false) {
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write!(&mut out, "data: {ev}\n\n").unwrap();
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} else {
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out.push('\n');
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}
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}
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out
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}
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/// Convenience: SSE event for a completed response with a specific id.
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pub fn ev_completed(id: &str) -> Value {
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serde_json::json!({
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"type": "response.completed",
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"response": {
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"id": id,
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"usage": {"input_tokens":0,"input_tokens_details":null,"output_tokens":0,"output_tokens_details":null,"total_tokens":0}
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}
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})
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}
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pub fn ev_completed_with_tokens(id: &str, total_tokens: u64) -> Value {
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serde_json::json!({
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"type": "response.completed",
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"response": {
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"id": id,
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"usage": {
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"input_tokens": total_tokens,
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"input_tokens_details": null,
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"output_tokens": 0,
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"output_tokens_details": null,
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"total_tokens": total_tokens
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}
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}
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})
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}
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/// Convenience: SSE event for a single assistant message output item.
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pub fn ev_assistant_message(id: &str, text: &str) -> Value {
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serde_json::json!({
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"type": "response.output_item.done",
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"item": {
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"type": "message",
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"role": "assistant",
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"id": id,
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"content": [{"type": "output_text", "text": text}]
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}
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})
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}
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pub fn ev_function_call(call_id: &str, name: &str, arguments: &str) -> Value {
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serde_json::json!({
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"type": "response.output_item.done",
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"item": {
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"type": "function_call",
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"call_id": call_id,
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"name": name,
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"arguments": arguments
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}
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})
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}
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pub fn ev_custom_tool_call(call_id: &str, name: &str, input: &str) -> Value {
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serde_json::json!({
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"type": "response.output_item.done",
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"item": {
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"type": "custom_tool_call",
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"call_id": call_id,
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"name": name,
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"input": input
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}
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})
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}
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pub fn ev_local_shell_call(call_id: &str, status: &str, command: Vec<&str>) -> Value {
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serde_json::json!({
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"type": "response.output_item.done",
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"item": {
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"type": "local_shell_call",
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"call_id": call_id,
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"status": status,
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"action": {
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"type": "exec",
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"command": command,
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}
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}
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})
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}
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/// Convenience: SSE event for an `apply_patch` custom tool call with raw patch
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/// text. This mirrors the payload produced by the Responses API when the model
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/// invokes `apply_patch` directly (before we convert it to a function call).
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pub fn ev_apply_patch_custom_tool_call(call_id: &str, patch: &str) -> Value {
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serde_json::json!({
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"type": "response.output_item.done",
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"item": {
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"type": "custom_tool_call",
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"name": "apply_patch",
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"input": patch,
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"call_id": call_id
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}
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})
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}
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/// Convenience: SSE event for an `apply_patch` function call. The Responses API
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/// wraps the patch content in a JSON string under the `input` key; we recreate
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/// the same structure so downstream code exercises the full parsing path.
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pub fn ev_apply_patch_function_call(call_id: &str, patch: &str) -> Value {
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let arguments = serde_json::json!({ "input": patch });
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let arguments = serde_json::to_string(&arguments).expect("serialize apply_patch arguments");
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serde_json::json!({
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"type": "response.output_item.done",
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"item": {
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"type": "function_call",
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"name": "apply_patch",
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"arguments": arguments,
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"call_id": call_id
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}
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})
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}
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pub fn sse_response(body: String) -> ResponseTemplate {
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ResponseTemplate::new(200)
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.insert_header("content-type", "text/event-stream")
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.set_body_raw(body, "text/event-stream")
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}
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pub async fn mount_sse_once_match<M>(server: &MockServer, matcher: M, body: String)
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where
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M: wiremock::Match + Send + Sync + 'static,
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{
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Mock::given(method("POST"))
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.and(path("/v1/responses"))
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.and(matcher)
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.respond_with(sse_response(body))
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.up_to_n_times(1)
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.mount(server)
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.await;
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}
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pub async fn mount_sse_once(server: &MockServer, body: String) {
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Mock::given(method("POST"))
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.and(path("/v1/responses"))
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.respond_with(sse_response(body))
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.expect(1)
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.mount(server)
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.await;
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}
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pub async fn mount_sse(server: &MockServer, body: String) {
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Mock::given(method("POST"))
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.and(path("/v1/responses"))
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.respond_with(sse_response(body))
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.mount(server)
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.await;
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}
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pub async fn start_mock_server() -> MockServer {
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MockServer::builder()
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.body_print_limit(BodyPrintLimit::Limited(80_000))
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.start()
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.await
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}
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/// Mounts a sequence of SSE response bodies and serves them in order for each
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/// POST to `/v1/responses`. Panics if more requests are received than bodies
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/// provided. Also asserts the exact number of expected calls.
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pub async fn mount_sse_sequence(server: &MockServer, bodies: Vec<String>) {
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use std::sync::atomic::AtomicUsize;
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use std::sync::atomic::Ordering;
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struct SeqResponder {
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num_calls: AtomicUsize,
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responses: Vec<String>,
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}
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impl Respond for SeqResponder {
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fn respond(&self, _: &wiremock::Request) -> ResponseTemplate {
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let call_num = self.num_calls.fetch_add(1, Ordering::SeqCst);
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match self.responses.get(call_num) {
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Some(body) => ResponseTemplate::new(200)
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.insert_header("content-type", "text/event-stream")
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.set_body_string(body.clone()),
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None => panic!("no response for {call_num}"),
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}
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}
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}
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let num_calls = bodies.len();
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let responder = SeqResponder {
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num_calls: AtomicUsize::new(0),
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responses: bodies,
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};
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Mock::given(method("POST"))
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.and(path("/v1/responses"))
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.respond_with(responder)
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.expect(num_calls as u64)
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.mount(server)
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.await;
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}
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