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f2ad6dd2ca64e70727f5f60b0acdd384b2c2f8f8
codex/codex-rs/analytics/src/reducer.rs
rhan-oai f2ad6dd2ca analytics: reduce responses api call facts
2026-04-15 17:23:07 -07:00

1130 lines
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use crate::events::AppServerRpcTransport;
use crate::events::CodexAppMentionedEventRequest;
use crate::events::CodexAppServerClientMetadata;
use crate::events::CodexAppUsedEventRequest;
use crate::events::CodexCompactionEventRequest;
use crate::events::CodexPluginEventRequest;
use crate::events::CodexPluginUsedEventRequest;
use crate::events::CodexResponsesApiCallEventParams;
use crate::events::CodexResponsesApiCallEventRequest;
use crate::events::CodexRuntimeMetadata;
use crate::events::CodexTurnEventParams;
use crate::events::CodexTurnEventRequest;
use crate::events::CodexTurnSteerEventParams;
use crate::events::CodexTurnSteerEventRequest;
use crate::events::GuardianReviewEventParams;
use crate::events::GuardianReviewEventPayload;
use crate::events::GuardianReviewEventRequest;
use crate::events::SkillInvocationEventParams;
use crate::events::SkillInvocationEventRequest;
use crate::events::ThreadInitializedEvent;
use crate::events::ThreadInitializedEventParams;
use crate::events::TrackEventRequest;
use crate::events::codex_app_metadata;
use crate::events::codex_compaction_event_params;
use crate::events::codex_plugin_metadata;
use crate::events::codex_plugin_used_metadata;
use crate::events::plugin_state_event_type;
use crate::events::subagent_parent_thread_id;
use crate::events::subagent_source_name;
use crate::events::subagent_thread_started_event_request;
use crate::facts::AnalyticsFact;
use crate::facts::AnalyticsJsonRpcError;
use crate::facts::AppMentionedInput;
use crate::facts::AppUsedInput;
use crate::facts::CodexCompactionEvent;
use crate::facts::CustomAnalyticsFact;
use crate::facts::PluginState;
use crate::facts::PluginStateChangedInput;
use crate::facts::PluginUsedInput;
use crate::facts::SkillInvokedInput;
use crate::facts::SubAgentThreadStartedInput;
use crate::facts::ThreadInitializationMode;
use crate::facts::TurnResolvedConfigFact;
use crate::facts::TurnStatus;
use crate::facts::TurnSteerRejectionReason;
use crate::facts::TurnSteerResult;
use crate::facts::TurnTokenUsageFact;
use crate::now_unix_seconds;
use crate::responses_api::CodexResponsesApiCallFact;
use codex_app_server_protocol::ClientRequest;
use codex_app_server_protocol::ClientResponse;
use codex_app_server_protocol::CodexErrorInfo;
use codex_app_server_protocol::InitializeParams;
use codex_app_server_protocol::RequestId;
use codex_app_server_protocol::ServerNotification;
use codex_app_server_protocol::TurnSteerResponse;
use codex_app_server_protocol::UserInput;
use codex_git_utils::collect_git_info;
use codex_git_utils::get_git_repo_root;
use codex_login::default_client::originator;
use codex_protocol::config_types::ModeKind;
use codex_protocol::config_types::Personality;
use codex_protocol::config_types::ReasoningSummary;
use codex_protocol::protocol::SandboxPolicy;
use codex_protocol::protocol::SessionSource;
use codex_protocol::protocol::SkillScope;
use codex_protocol::protocol::TokenUsage;
use sha1::Digest;
use std::collections::HashMap;
use std::path::Path;
#[derive(Default)]
pub(crate) struct AnalyticsReducer {
requests: HashMap<(u64, RequestId), RequestState>,
turns: HashMap<String, TurnState>,
connections: HashMap<u64, ConnectionState>,
thread_connections: HashMap<String, u64>,
thread_metadata: HashMap<String, ThreadMetadataState>,
}
struct ConnectionState {
app_server_client: CodexAppServerClientMetadata,
runtime: CodexRuntimeMetadata,
}
#[derive(Clone)]
struct ThreadMetadataState {
thread_source: Option<&'static str>,
initialization_mode: ThreadInitializationMode,
subagent_source: Option<String>,
parent_thread_id: Option<String>,
}
impl ThreadMetadataState {
fn from_thread_metadata(
session_source: &SessionSource,
initialization_mode: ThreadInitializationMode,
) -> Self {
let (subagent_source, parent_thread_id) = match session_source {
SessionSource::SubAgent(subagent_source) => (
Some(subagent_source_name(subagent_source)),
subagent_parent_thread_id(subagent_source),
),
SessionSource::Cli
| SessionSource::VSCode
| SessionSource::Exec
| SessionSource::Mcp
| SessionSource::Custom(_)
| SessionSource::Unknown => (None, None),
};
Self {
thread_source: session_source.thread_source_name(),
initialization_mode,
subagent_source,
parent_thread_id,
}
}
}
enum RequestState {
TurnStart(PendingTurnStartState),
TurnSteer(PendingTurnSteerState),
}
struct PendingTurnStartState {
thread_id: String,
num_input_images: usize,
}
struct PendingTurnSteerState {
thread_id: String,
expected_turn_id: String,
num_input_images: usize,
created_at: u64,
}
#[derive(Clone)]
struct CompletedTurnState {
status: Option<TurnStatus>,
turn_error: Option<CodexErrorInfo>,
completed_at: u64,
duration_ms: Option<u64>,
}
struct TurnState {
connection_id: Option<u64>,
thread_id: Option<String>,
num_input_images: Option<usize>,
resolved_config: Option<TurnResolvedConfigFact>,
started_at: Option<u64>,
token_usage: Option<TokenUsage>,
completed: Option<CompletedTurnState>,
steer_count: usize,
}
impl AnalyticsReducer {
pub(crate) async fn ingest(&mut self, input: AnalyticsFact, out: &mut Vec<TrackEventRequest>) {
match input {
AnalyticsFact::Initialize {
connection_id,
params,
product_client_id,
runtime,
rpc_transport,
} => {
self.ingest_initialize(
connection_id,
params,
product_client_id,
runtime,
rpc_transport,
);
}
AnalyticsFact::Request {
connection_id,
request_id,
request,
} => {
self.ingest_request(connection_id, request_id, *request);
}
AnalyticsFact::Response {
connection_id,
response,
} => {
self.ingest_response(connection_id, *response, out);
}
AnalyticsFact::ErrorResponse {
connection_id,
request_id,
error: _,
error_type,
} => {
self.ingest_error_response(connection_id, request_id, error_type, out);
}
AnalyticsFact::Notification(notification) => {
self.ingest_notification(*notification, out);
}
AnalyticsFact::Custom(input) => match input {
CustomAnalyticsFact::SubAgentThreadStarted(input) => {
self.ingest_subagent_thread_started(input, out);
}
CustomAnalyticsFact::Compaction(input) => {
self.ingest_compaction(*input, out);
}
CustomAnalyticsFact::ResponsesApiCall(input) => {
self.ingest_responses_api_call(*input, out);
}
CustomAnalyticsFact::GuardianReview(input) => {
self.ingest_guardian_review(*input, out);
}
CustomAnalyticsFact::TurnResolvedConfig(input) => {
self.ingest_turn_resolved_config(*input, out);
}
CustomAnalyticsFact::TurnTokenUsage(input) => {
self.ingest_turn_token_usage(*input, out);
}
CustomAnalyticsFact::SkillInvoked(input) => {
self.ingest_skill_invoked(input, out).await;
}
CustomAnalyticsFact::AppMentioned(input) => {
self.ingest_app_mentioned(input, out);
}
CustomAnalyticsFact::AppUsed(input) => {
self.ingest_app_used(input, out);
}
CustomAnalyticsFact::PluginUsed(input) => {
self.ingest_plugin_used(input, out);
}
CustomAnalyticsFact::PluginStateChanged(input) => {
self.ingest_plugin_state_changed(input, out);
}
},
}
}
fn ingest_initialize(
&mut self,
connection_id: u64,
params: InitializeParams,
product_client_id: String,
runtime: CodexRuntimeMetadata,
rpc_transport: AppServerRpcTransport,
) {
self.connections.insert(
connection_id,
ConnectionState {
app_server_client: CodexAppServerClientMetadata {
product_client_id,
client_name: Some(params.client_info.name),
client_version: Some(params.client_info.version),
rpc_transport,
experimental_api_enabled: params
.capabilities
.map(|capabilities| capabilities.experimental_api),
},
runtime,
},
);
}
fn ingest_subagent_thread_started(
&mut self,
input: SubAgentThreadStartedInput,
out: &mut Vec<TrackEventRequest>,
) {
out.push(TrackEventRequest::ThreadInitialized(
subagent_thread_started_event_request(input),
));
}
fn ingest_guardian_review(
&mut self,
input: GuardianReviewEventParams,
out: &mut Vec<TrackEventRequest>,
) {
let Some(connection_id) = self.thread_connections.get(&input.thread_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
review_id = %input.review_id,
"dropping guardian analytics event: missing thread connection metadata"
);
return;
};
let Some(connection_state) = self.connections.get(connection_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
review_id = %input.review_id,
connection_id,
"dropping guardian analytics event: missing connection metadata"
);
return;
};
out.push(TrackEventRequest::GuardianReview(Box::new(
GuardianReviewEventRequest {
event_type: "codex_guardian_review",
event_params: GuardianReviewEventPayload {
app_server_client: connection_state.app_server_client.clone(),
runtime: connection_state.runtime.clone(),
guardian_review: input,
},
},
)));
}
fn ingest_request(
&mut self,
connection_id: u64,
request_id: RequestId,
request: ClientRequest,
) {
match request {
ClientRequest::TurnStart { params, .. } => {
self.requests.insert(
(connection_id, request_id),
RequestState::TurnStart(PendingTurnStartState {
thread_id: params.thread_id,
num_input_images: num_input_images(&params.input),
}),
);
}
ClientRequest::TurnSteer { params, .. } => {
self.requests.insert(
(connection_id, request_id),
RequestState::TurnSteer(PendingTurnSteerState {
thread_id: params.thread_id,
expected_turn_id: params.expected_turn_id,
num_input_images: num_input_images(&params.input),
created_at: now_unix_seconds(),
}),
);
}
_ => {}
}
}
fn ingest_turn_resolved_config(
&mut self,
input: TurnResolvedConfigFact,
out: &mut Vec<TrackEventRequest>,
) {
let turn_id = input.turn_id.clone();
let thread_id = input.thread_id.clone();
let num_input_images = input.num_input_images;
let turn_state = self.turns.entry(turn_id.clone()).or_insert(TurnState {
connection_id: None,
thread_id: None,
num_input_images: None,
resolved_config: None,
started_at: None,
token_usage: None,
completed: None,
steer_count: 0,
});
turn_state.thread_id = Some(thread_id);
turn_state.num_input_images = Some(num_input_images);
turn_state.resolved_config = Some(input);
self.maybe_emit_turn_event(&turn_id, out);
}
fn ingest_turn_token_usage(
&mut self,
input: TurnTokenUsageFact,
out: &mut Vec<TrackEventRequest>,
) {
let turn_id = input.turn_id.clone();
let turn_state = self.turns.entry(turn_id.clone()).or_insert(TurnState {
connection_id: None,
thread_id: None,
num_input_images: None,
resolved_config: None,
started_at: None,
token_usage: None,
completed: None,
steer_count: 0,
});
turn_state.thread_id = Some(input.thread_id);
turn_state.token_usage = Some(input.token_usage);
self.maybe_emit_turn_event(&turn_id, out);
}
async fn ingest_skill_invoked(
&mut self,
input: SkillInvokedInput,
out: &mut Vec<TrackEventRequest>,
) {
let SkillInvokedInput {
tracking,
invocations,
} = input;
for invocation in invocations {
let skill_scope = match invocation.skill_scope {
SkillScope::User => "user",
SkillScope::Repo => "repo",
SkillScope::System => "system",
SkillScope::Admin => "admin",
};
let repo_root = get_git_repo_root(invocation.skill_path.as_path());
let repo_url = if let Some(root) = repo_root.as_ref() {
collect_git_info(root)
.await
.and_then(|info| info.repository_url)
} else {
None
};
let skill_id = skill_id_for_local_skill(
repo_url.as_deref(),
repo_root.as_deref(),
invocation.skill_path.as_path(),
invocation.skill_name.as_str(),
);
out.push(TrackEventRequest::SkillInvocation(
SkillInvocationEventRequest {
event_type: "skill_invocation",
skill_id,
skill_name: invocation.skill_name.clone(),
event_params: SkillInvocationEventParams {
thread_id: Some(tracking.thread_id.clone()),
invoke_type: Some(invocation.invocation_type),
model_slug: Some(tracking.model_slug.clone()),
product_client_id: Some(originator().value),
repo_url,
skill_scope: Some(skill_scope.to_string()),
},
},
));
}
}
fn ingest_app_mentioned(&mut self, input: AppMentionedInput, out: &mut Vec<TrackEventRequest>) {
let AppMentionedInput { tracking, mentions } = input;
out.extend(mentions.into_iter().map(|mention| {
let event_params = codex_app_metadata(&tracking, mention);
TrackEventRequest::AppMentioned(CodexAppMentionedEventRequest {
event_type: "codex_app_mentioned",
event_params,
})
}));
}
fn ingest_app_used(&mut self, input: AppUsedInput, out: &mut Vec<TrackEventRequest>) {
let AppUsedInput { tracking, app } = input;
let event_params = codex_app_metadata(&tracking, app);
out.push(TrackEventRequest::AppUsed(CodexAppUsedEventRequest {
event_type: "codex_app_used",
event_params,
}));
}
fn ingest_plugin_used(&mut self, input: PluginUsedInput, out: &mut Vec<TrackEventRequest>) {
let PluginUsedInput { tracking, plugin } = input;
out.push(TrackEventRequest::PluginUsed(CodexPluginUsedEventRequest {
event_type: "codex_plugin_used",
event_params: codex_plugin_used_metadata(&tracking, plugin),
}));
}
fn ingest_plugin_state_changed(
&mut self,
input: PluginStateChangedInput,
out: &mut Vec<TrackEventRequest>,
) {
let PluginStateChangedInput { plugin, state } = input;
let event = CodexPluginEventRequest {
event_type: plugin_state_event_type(state),
event_params: codex_plugin_metadata(plugin),
};
out.push(match state {
PluginState::Installed => TrackEventRequest::PluginInstalled(event),
PluginState::Uninstalled => TrackEventRequest::PluginUninstalled(event),
PluginState::Enabled => TrackEventRequest::PluginEnabled(event),
PluginState::Disabled => TrackEventRequest::PluginDisabled(event),
});
}
fn ingest_response(
&mut self,
connection_id: u64,
response: ClientResponse,
out: &mut Vec<TrackEventRequest>,
) {
match response {
ClientResponse::ThreadStart { response, .. } => {
self.emit_thread_initialized(
connection_id,
response.thread,
response.model,
ThreadInitializationMode::New,
out,
);
}
ClientResponse::ThreadResume { response, .. } => {
self.emit_thread_initialized(
connection_id,
response.thread,
response.model,
ThreadInitializationMode::Resumed,
out,
);
}
ClientResponse::ThreadFork { response, .. } => {
self.emit_thread_initialized(
connection_id,
response.thread,
response.model,
ThreadInitializationMode::Forked,
out,
);
}
ClientResponse::TurnStart {
request_id,
response,
} => {
let turn_id = response.turn.id;
let Some(RequestState::TurnStart(pending_request)) =
self.requests.remove(&(connection_id, request_id))
else {
return;
};
let turn_state = self.turns.entry(turn_id.clone()).or_insert(TurnState {
connection_id: None,
thread_id: None,
num_input_images: None,
resolved_config: None,
started_at: None,
token_usage: None,
completed: None,
steer_count: 0,
});
turn_state.connection_id = Some(connection_id);
turn_state.thread_id = Some(pending_request.thread_id);
turn_state.num_input_images = Some(pending_request.num_input_images);
self.maybe_emit_turn_event(&turn_id, out);
}
ClientResponse::TurnSteer {
request_id,
response,
} => {
self.ingest_turn_steer_response(connection_id, request_id, response, out);
}
_ => {}
}
}
fn ingest_error_response(
&mut self,
connection_id: u64,
request_id: RequestId,
error_type: Option<AnalyticsJsonRpcError>,
out: &mut Vec<TrackEventRequest>,
) {
let Some(request) = self.requests.remove(&(connection_id, request_id)) else {
return;
};
self.ingest_request_error_response(connection_id, request, error_type, out);
}
fn ingest_request_error_response(
&mut self,
connection_id: u64,
request: RequestState,
error_type: Option<AnalyticsJsonRpcError>,
out: &mut Vec<TrackEventRequest>,
) {
match request {
RequestState::TurnStart(_) => {}
RequestState::TurnSteer(pending_request) => {
self.ingest_turn_steer_error_response(
connection_id,
pending_request,
error_type,
out,
);
}
}
}
fn ingest_turn_steer_error_response(
&mut self,
connection_id: u64,
pending_request: PendingTurnSteerState,
error_type: Option<AnalyticsJsonRpcError>,
out: &mut Vec<TrackEventRequest>,
) {
self.emit_turn_steer_event(
connection_id,
pending_request,
/*accepted_turn_id*/ None,
TurnSteerResult::Rejected,
rejection_reason_from_error_type(error_type),
out,
);
}
fn ingest_notification(
&mut self,
notification: ServerNotification,
out: &mut Vec<TrackEventRequest>,
) {
match notification {
ServerNotification::TurnStarted(notification) => {
let turn_state = self.turns.entry(notification.turn.id).or_insert(TurnState {
connection_id: None,
thread_id: None,
num_input_images: None,
resolved_config: None,
started_at: None,
token_usage: None,
completed: None,
steer_count: 0,
});
turn_state.started_at = notification
.turn
.started_at
.and_then(|started_at| u64::try_from(started_at).ok());
}
ServerNotification::TurnCompleted(notification) => {
let turn_state =
self.turns
.entry(notification.turn.id.clone())
.or_insert(TurnState {
connection_id: None,
thread_id: None,
num_input_images: None,
resolved_config: None,
started_at: None,
token_usage: None,
completed: None,
steer_count: 0,
});
turn_state.completed = Some(CompletedTurnState {
status: analytics_turn_status(notification.turn.status),
turn_error: notification
.turn
.error
.and_then(|error| error.codex_error_info),
completed_at: notification
.turn
.completed_at
.and_then(|completed_at| u64::try_from(completed_at).ok())
.unwrap_or_default(),
duration_ms: notification
.turn
.duration_ms
.and_then(|duration_ms| u64::try_from(duration_ms).ok()),
});
let turn_id = notification.turn.id;
self.maybe_emit_turn_event(&turn_id, out);
}
_ => {}
}
}
fn emit_thread_initialized(
&mut self,
connection_id: u64,
thread: codex_app_server_protocol::Thread,
model: String,
initialization_mode: ThreadInitializationMode,
out: &mut Vec<TrackEventRequest>,
) {
let thread_source: SessionSource = thread.source.into();
let thread_id = thread.id;
let Some(connection_state) = self.connections.get(&connection_id) else {
return;
};
let thread_metadata =
ThreadMetadataState::from_thread_metadata(&thread_source, initialization_mode);
self.thread_connections
.insert(thread_id.clone(), connection_id);
self.thread_metadata
.insert(thread_id.clone(), thread_metadata.clone());
out.push(TrackEventRequest::ThreadInitialized(
ThreadInitializedEvent {
event_type: "codex_thread_initialized",
event_params: ThreadInitializedEventParams {
thread_id,
app_server_client: connection_state.app_server_client.clone(),
runtime: connection_state.runtime.clone(),
model,
ephemeral: thread.ephemeral,
thread_source: thread_metadata.thread_source,
initialization_mode,
subagent_source: thread_metadata.subagent_source,
parent_thread_id: thread_metadata.parent_thread_id,
created_at: u64::try_from(thread.created_at).unwrap_or_default(),
},
},
));
}
fn ingest_compaction(&mut self, input: CodexCompactionEvent, out: &mut Vec<TrackEventRequest>) {
let Some(connection_id) = self.thread_connections.get(&input.thread_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
"dropping compaction analytics event: missing thread connection metadata"
);
return;
};
let Some(connection_state) = self.connections.get(connection_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
connection_id,
"dropping compaction analytics event: missing connection metadata"
);
return;
};
let Some(thread_metadata) = self.thread_metadata.get(&input.thread_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
"dropping compaction analytics event: missing thread lifecycle metadata"
);
return;
};
out.push(TrackEventRequest::Compaction(Box::new(
CodexCompactionEventRequest {
event_type: "codex_compaction_event",
event_params: codex_compaction_event_params(
input,
connection_state.app_server_client.clone(),
connection_state.runtime.clone(),
thread_metadata.thread_source,
thread_metadata.subagent_source.clone(),
thread_metadata.parent_thread_id.clone(),
),
},
)));
}
fn ingest_responses_api_call(
&mut self,
input: CodexResponsesApiCallFact,
out: &mut Vec<TrackEventRequest>,
) {
let Some(connection_id) = self.thread_connections.get(&input.thread_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
"dropping responses api call analytics event: missing thread connection metadata"
);
return;
};
let Some(connection_state) = self.connections.get(connection_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
connection_id,
"dropping responses api call analytics event: missing connection metadata"
);
return;
};
let Some(thread_metadata) = self.thread_metadata.get(&input.thread_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
"dropping responses api call analytics event: missing thread lifecycle metadata"
);
return;
};
let Some(turn_state) = self.turns.get(&input.turn_id) else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
"dropping responses api call analytics event: missing turn metadata"
);
return;
};
let Some(resolved_config) = turn_state.resolved_config.as_ref() else {
tracing::warn!(
thread_id = %input.thread_id,
turn_id = %input.turn_id,
"dropping responses api call analytics event: missing turn resolved config"
);
return;
};
out.push(TrackEventRequest::ResponsesApiCall(Box::new(
CodexResponsesApiCallEventRequest {
event_type: "codex_responses_api_call_event",
event_params: CodexResponsesApiCallEventParams {
thread_id: input.thread_id,
turn_id: input.turn_id,
ephemeral: resolved_config.ephemeral,
thread_source: thread_metadata.thread_source.map(str::to_string),
initialization_mode: thread_metadata.initialization_mode,
subagent_source: thread_metadata.subagent_source.clone(),
parent_thread_id: thread_metadata.parent_thread_id.clone(),
app_server_client: connection_state.app_server_client.clone(),
runtime: connection_state.runtime.clone(),
responses_id: input.responses_id,
turn_responses_call_index: input.turn_responses_call_index,
model: Some(resolved_config.model.clone()),
model_provider: Some(resolved_config.model_provider.clone()),
reasoning_effort: resolved_config
.reasoning_effort
.map(|value| value.to_string()),
status: input.status,
error: input.error,
started_at: input.started_at,
completed_at: input.completed_at,
duration_ms: input.duration_ms,
input_item_count: input.input_item_count,
output_item_count: input.output_item_count,
input_tokens: input.input_tokens,
cached_input_tokens: input.cached_input_tokens,
output_tokens: input.output_tokens,
reasoning_output_tokens: input.reasoning_output_tokens,
total_tokens: input.total_tokens,
items: input.items,
},
},
)));
}
fn ingest_turn_steer_response(
&mut self,
connection_id: u64,
request_id: RequestId,
response: TurnSteerResponse,
out: &mut Vec<TrackEventRequest>,
) {
let Some(RequestState::TurnSteer(pending_request)) =
self.requests.remove(&(connection_id, request_id))
else {
return;
};
if let Some(turn_state) = self.turns.get_mut(&response.turn_id) {
turn_state.steer_count += 1;
}
self.emit_turn_steer_event(
connection_id,
pending_request,
Some(response.turn_id),
TurnSteerResult::Accepted,
/*rejection_reason*/ None,
out,
);
}
fn emit_turn_steer_event(
&mut self,
connection_id: u64,
pending_request: PendingTurnSteerState,
accepted_turn_id: Option<String>,
result: TurnSteerResult,
rejection_reason: Option<TurnSteerRejectionReason>,
out: &mut Vec<TrackEventRequest>,
) {
let Some(connection_state) = self.connections.get(&connection_id) else {
return;
};
let Some(thread_metadata) = self.thread_metadata.get(&pending_request.thread_id) else {
tracing::warn!(
thread_id = %pending_request.thread_id,
"dropping turn steer analytics event: missing thread lifecycle metadata"
);
return;
};
out.push(TrackEventRequest::TurnSteer(CodexTurnSteerEventRequest {
event_type: "codex_turn_steer_event",
event_params: CodexTurnSteerEventParams {
thread_id: pending_request.thread_id,
expected_turn_id: Some(pending_request.expected_turn_id),
accepted_turn_id,
app_server_client: connection_state.app_server_client.clone(),
runtime: connection_state.runtime.clone(),
thread_source: thread_metadata.thread_source.map(str::to_string),
subagent_source: thread_metadata.subagent_source.clone(),
parent_thread_id: thread_metadata.parent_thread_id.clone(),
num_input_images: pending_request.num_input_images,
result,
rejection_reason,
created_at: pending_request.created_at,
},
}));
}
fn maybe_emit_turn_event(&mut self, turn_id: &str, out: &mut Vec<TrackEventRequest>) {
let Some(turn_state) = self.turns.get(turn_id) else {
return;
};
if turn_state.thread_id.is_none()
|| turn_state.num_input_images.is_none()
|| turn_state.resolved_config.is_none()
|| turn_state.completed.is_none()
{
return;
}
let connection_metadata = turn_state
.connection_id
.and_then(|connection_id| self.connections.get(&connection_id))
.map(|connection_state| {
(
connection_state.app_server_client.clone(),
connection_state.runtime.clone(),
)
});
let Some((app_server_client, runtime)) = connection_metadata else {
if let Some(connection_id) = turn_state.connection_id {
tracing::warn!(
turn_id,
connection_id,
"dropping turn analytics event: missing connection metadata"
);
}
return;
};
let Some(thread_id) = turn_state.thread_id.as_ref() else {
return;
};
let Some(thread_metadata) = self.thread_metadata.get(thread_id) else {
tracing::warn!(
thread_id,
turn_id,
"dropping turn analytics event: missing thread lifecycle metadata"
);
return;
};
out.push(TrackEventRequest::TurnEvent(Box::new(
CodexTurnEventRequest {
event_type: "codex_turn_event",
event_params: codex_turn_event_params(
app_server_client,
runtime,
turn_id.to_string(),
turn_state,
thread_metadata,
),
},
)));
self.turns.remove(turn_id);
}
}
fn codex_turn_event_params(
app_server_client: CodexAppServerClientMetadata,
runtime: CodexRuntimeMetadata,
turn_id: String,
turn_state: &TurnState,
thread_metadata: &ThreadMetadataState,
) -> CodexTurnEventParams {
let (Some(thread_id), Some(num_input_images), Some(resolved_config), Some(completed)) = (
turn_state.thread_id.clone(),
turn_state.num_input_images,
turn_state.resolved_config.clone(),
turn_state.completed.clone(),
) else {
unreachable!("turn event params require a fully populated turn state");
};
let started_at = turn_state.started_at;
let TurnResolvedConfigFact {
turn_id: _resolved_turn_id,
thread_id: _resolved_thread_id,
num_input_images: _resolved_num_input_images,
submission_type,
ephemeral,
session_source: _session_source,
model,
model_provider,
sandbox_policy,
reasoning_effort,
reasoning_summary,
service_tier,
approval_policy,
approvals_reviewer,
sandbox_network_access,
collaboration_mode,
personality,
is_first_turn,
} = resolved_config;
let token_usage = turn_state.token_usage.clone();
CodexTurnEventParams {
thread_id,
turn_id,
app_server_client,
runtime,
submission_type,
ephemeral,
thread_source: thread_metadata.thread_source.map(str::to_string),
initialization_mode: thread_metadata.initialization_mode,
subagent_source: thread_metadata.subagent_source.clone(),
parent_thread_id: thread_metadata.parent_thread_id.clone(),
model: Some(model),
model_provider,
sandbox_policy: Some(sandbox_policy_mode(&sandbox_policy)),
reasoning_effort: reasoning_effort.map(|value| value.to_string()),
reasoning_summary: reasoning_summary_mode(reasoning_summary),
service_tier: service_tier
.map(|value| value.to_string())
.unwrap_or_else(|| "default".to_string()),
approval_policy: approval_policy.to_string(),
approvals_reviewer: approvals_reviewer.to_string(),
sandbox_network_access,
collaboration_mode: Some(collaboration_mode_mode(collaboration_mode)),
personality: personality_mode(personality),
num_input_images,
is_first_turn,
status: completed.status,
turn_error: completed.turn_error,
steer_count: Some(turn_state.steer_count),
total_tool_call_count: None,
shell_command_count: None,
file_change_count: None,
mcp_tool_call_count: None,
dynamic_tool_call_count: None,
subagent_tool_call_count: None,
web_search_count: None,
image_generation_count: None,
input_tokens: token_usage
.as_ref()
.map(|token_usage| token_usage.input_tokens),
cached_input_tokens: token_usage
.as_ref()
.map(|token_usage| token_usage.cached_input_tokens),
output_tokens: token_usage
.as_ref()
.map(|token_usage| token_usage.output_tokens),
reasoning_output_tokens: token_usage
.as_ref()
.map(|token_usage| token_usage.reasoning_output_tokens),
total_tokens: token_usage
.as_ref()
.map(|token_usage| token_usage.total_tokens),
duration_ms: completed.duration_ms,
started_at,
completed_at: Some(completed.completed_at),
}
}
fn sandbox_policy_mode(sandbox_policy: &SandboxPolicy) -> &'static str {
match sandbox_policy {
SandboxPolicy::DangerFullAccess => "full_access",
SandboxPolicy::ReadOnly { .. } => "read_only",
SandboxPolicy::WorkspaceWrite { .. } => "workspace_write",
SandboxPolicy::ExternalSandbox { .. } => "external_sandbox",
}
}
fn collaboration_mode_mode(mode: ModeKind) -> &'static str {
match mode {
ModeKind::Plan => "plan",
ModeKind::Default | ModeKind::PairProgramming | ModeKind::Execute => "default",
}
}
fn reasoning_summary_mode(summary: Option<ReasoningSummary>) -> Option<String> {
match summary {
Some(ReasoningSummary::None) | None => None,
Some(summary) => Some(summary.to_string()),
}
}
fn personality_mode(personality: Option<Personality>) -> Option<String> {
match personality {
Some(Personality::None) | None => None,
Some(personality) => Some(personality.to_string()),
}
}
fn analytics_turn_status(status: codex_app_server_protocol::TurnStatus) -> Option<TurnStatus> {
match status {
codex_app_server_protocol::TurnStatus::Completed => Some(TurnStatus::Completed),
codex_app_server_protocol::TurnStatus::Failed => Some(TurnStatus::Failed),
codex_app_server_protocol::TurnStatus::Interrupted => Some(TurnStatus::Interrupted),
codex_app_server_protocol::TurnStatus::InProgress => None,
}
}
fn num_input_images(input: &[UserInput]) -> usize {
input
.iter()
.filter(|item| matches!(item, UserInput::Image { .. } | UserInput::LocalImage { .. }))
.count()
}
fn rejection_reason_from_error_type(
error_type: Option<AnalyticsJsonRpcError>,
) -> Option<TurnSteerRejectionReason> {
match error_type? {
AnalyticsJsonRpcError::TurnSteer(error) => Some(error.into()),
AnalyticsJsonRpcError::Input(error) => Some(error.into()),
}
}
pub(crate) fn skill_id_for_local_skill(
repo_url: Option<&str>,
repo_root: Option<&Path>,
skill_path: &Path,
skill_name: &str,
) -> String {
let path = normalize_path_for_skill_id(repo_url, repo_root, skill_path);
let prefix = if let Some(url) = repo_url {
format!("repo_{url}")
} else {
"personal".to_string()
};
let raw_id = format!("{prefix}_{path}_{skill_name}");
let mut hasher = sha1::Sha1::new();
sha1::Digest::update(&mut hasher, raw_id.as_bytes());
format!("{:x}", sha1::Digest::finalize(hasher))
}
/// Returns a normalized path for skill ID construction.
///
/// - Repo-scoped skills use a path relative to the repo root.
/// - User/admin/system skills use an absolute path.
pub(crate) fn normalize_path_for_skill_id(
repo_url: Option<&str>,
repo_root: Option<&Path>,
skill_path: &Path,
) -> String {
let resolved_path =
std::fs::canonicalize(skill_path).unwrap_or_else(|_| skill_path.to_path_buf());
match (repo_url, repo_root) {
(Some(_), Some(root)) => {
let resolved_root = std::fs::canonicalize(root).unwrap_or_else(|_| root.to_path_buf());
resolved_path
.strip_prefix(&resolved_root)
.unwrap_or(resolved_path.as_path())
.to_string_lossy()
.replace('\\', "/")
}
_ => resolved_path.to_string_lossy().replace('\\', "/"),
}
}
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