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//! The runner: orchestrates a test case into a conversation, drives the
//! provider across turns, scores the transcript with evals, and fans out over
//! the configured platform × model matrix.
use std::ops::ControlFlow;
use crate::config::Config;
use crate::conversation::{Message, ToolEvent, Transcript};
use crate::error::{Error, Result};
use crate::eval::{Eval, JudgeValue};
use crate::mock::{describe_records, where_matches, MockCall, MockPlan, MockSet};
use crate::provider::{JudgeKind, JudgeQuery, Provider, SkillRef, Usage};
use crate::report::{CaseRun, Report};
use crate::skill::{load_skill, SkillDefinition};
use crate::testcase::TestCase;
/// One streamed tool event, tagged with the run it belongs to, delivered live to
/// a [`Runner::run_all_streaming`] sink so a consumer can watch what a skill does
/// and short-circuit.
pub struct StreamEvent<'a> {
/// The test case's name.
pub case: &'a str,
/// The platform (harness) under test.
pub platform: &'a str,
/// The model under test.
pub model: &'a str,
/// 1-based assistant-turn index within this run.
pub turn: usize,
/// The normalized tool event.
pub event: &'a ToolEvent,
}
/// The streaming knobs threaded through a run: whether to drive turns live (via
/// [`Provider::respond_streaming`]) and the sink each tool event is delivered to.
struct Streaming<'s> {
on: bool,
sink: &'s mut (dyn FnMut(&StreamEvent) -> ControlFlow<()> + 's),
}
/// Runs test cases against a provider using a configuration.
pub struct Runner<'a> {
provider: &'a dyn Provider,
config: &'a Config,
}
impl<'a> Runner<'a> {
/// Build a runner.
#[must_use]
pub fn new(provider: &'a dyn Provider, config: &'a Config) -> Self {
Self { provider, config }
}
/// Run every supplied case across the full platform × model matrix and
/// collect a [`Report`].
///
/// # Errors
/// Propagates the first [`crate::Error`] from loading a skill or a provider
/// failure. Eval *failures* are not errors — they are recorded in the report.
pub fn run_all(&self, cases: &[TestCase]) -> Result<Report> {
let mut sink = |_: &StreamEvent| ControlFlow::Continue(());
self.run_all_inner(
cases,
&mut Streaming {
on: false,
sink: &mut sink,
},
)
}
/// Like [`Runner::run_all`], but drives each turn through
/// [`Provider::respond_streaming`] and delivers each skill tool event to
/// `on_event` the instant it is observed. `on_event` returns
/// [`ControlFlow::Break`] to short-circuit: the current run is torn down (the
/// provider kills the harness), no further runs start, and the partial
/// [`Report`] built so far is returned.
///
/// # Errors
/// As [`Runner::run_all`].
pub fn run_all_streaming(
&self,
cases: &[TestCase],
on_event: &mut dyn FnMut(&StreamEvent) -> ControlFlow<()>,
) -> Result<Report> {
self.run_all_inner(
cases,
&mut Streaming {
on: true,
sink: on_event,
},
)
}
/// The matrix loop shared by the buffered and streaming entry points.
/// `streaming.on` selects the buffered [`Provider::respond`] (`false`) or the
/// live [`Provider::respond_streaming`] (`true`) per turn.
fn run_all_inner(&self, cases: &[TestCase], streaming: &mut Streaming) -> Result<Report> {
let mut runs = Vec::new();
for case in cases {
let skill = load_skill(&case.skill)?;
for platform in &self.config.platforms {
for model in &self.config.models {
let (run, flow) = self.run_case_on(case, &skill, platform, model, streaming)?;
runs.push(run);
if flow.is_break() {
return Ok(Report::new(runs));
}
}
}
}
Ok(Report::new(runs))
}
/// Run a single case across the matrix.
///
/// # Errors
/// As [`Runner::run_all`].
pub fn run_case(&self, case: &TestCase) -> Result<Vec<CaseRun>> {
let skill = load_skill(&case.skill)?;
let mut runs = Vec::new();
let mut sink = |_: &StreamEvent| ControlFlow::Continue(());
let mut streaming = Streaming {
on: false,
sink: &mut sink,
};
for platform in &self.config.platforms {
for model in &self.config.models {
let (run, _flow) =
self.run_case_on(case, &skill, platform, model, &mut streaming)?;
runs.push(run);
}
}
Ok(runs)
}
/// Run a single case on one platform/model pair. Returns the run plus whether
/// the streaming sink asked to short-circuit ([`ControlFlow::Break`]).
fn run_case_on(
&self,
case: &TestCase,
skill: &SkillDefinition,
platform: &str,
model: &str,
streaming: &mut Streaming,
) -> Result<(CaseRun, ControlFlow<()>)> {
let mut totals = Usage::default();
// The effective mock/spy set: CLI/SDK declarations first (first match
// wins, so the most local rule shadows), then the case's own.
let mock_set =
MockSet::build(&self.config.mocks, &case.mocks, self.config.spy || case.spy)?;
let (transcript, mock_calls, flow) = self.converse(
case,
skill,
platform,
model,
&mock_set,
&mut totals,
streaming,
)?;
let mock_calls = mock_calls.map(|records| mock_set.resolve(records));
// On an abort we don't spend judge calls scoring a torn-off transcript.
let evals = if flow.is_break() {
Vec::new()
} else {
self.score(
case,
&transcript,
&mock_set,
mock_calls.as_deref(),
&mut totals,
)?
};
let passed = flow.is_continue() && evals.iter().all(|e| e.passed);
Ok((
CaseRun {
case: case.name.clone(),
skill: skill.dir.to_string_lossy().into_owned(),
platform: platform.to_string(),
model: model.to_string(),
passed,
turns: transcript.assistant_turns(),
evals,
transcript,
usage: (!totals.is_empty()).then_some(totals),
mock_calls,
},
flow,
))
}
/// Drive the conversation: a single assistant turn for single-turn cases, or
/// a simulated-user loop for multi-turn cases. Streams each turn's tool
/// events to `on_event`; returns the transcript plus whether the sink asked
/// to short-circuit.
#[allow(clippy::too_many_arguments)]
fn converse(
&self,
case: &TestCase,
skill: &SkillDefinition,
platform: &str,
model: &str,
mock_set: &MockSet,
totals: &mut Usage,
streaming: &mut Streaming,
) -> Result<(Transcript, Option<Vec<MockCall>>, ControlFlow<()>)> {
let dir = skill.dir.to_string_lossy().into_owned();
let skill_ref = SkillRef {
name: &skill.name,
dir: &dir,
instructions: &skill.instructions,
};
let judge_model = self.config.effective_judge_model();
let max_turns = case
.user
.as_ref()
.and_then(|u| u.max_turns)
.unwrap_or(self.config.max_turns) as usize;
let resume_supported = self.provider.supports_resume(platform);
let mut transcript = Transcript::from_input(&case.input);
// On harnesses that support it, thread the session_id from each
// respond into the next one so the harness keeps real state instead of
// being re-prompted with a stringified transcript.
let mut session: Option<String> = None;
// The mock/spy plan, handed to every skill turn (never to the judge or
// the simulated user), and the records accumulated across turns.
// `None` until some turn reports a channel, so "channel off" and
// "channel on, zero calls" stay distinguishable.
let plan = mock_set.active().then(|| MockPlan {
rules: mock_set.rules(),
});
let mut mock_calls: Option<Vec<MockCall>> = None;
loop {
let session_arg = if resume_supported {
session.as_deref()
} else {
None
};
// In streaming mode, drive the turn through `respond_streaming` and
// tag each event with the run it belongs to; if the sink breaks, the
// provider tears the harness down and returns the partial turn, and we
// stop the run below. The buffered path uses the plain `respond` so a
// non-streaming run keeps oneharness's buffered (`--compact`) contract.
let case_name = case.name.as_str();
let turn_index = transcript.assistant_turns() + 1;
let mut turn_flow = ControlFlow::Continue(());
let turn = if streaming.on {
let sink = &mut streaming.sink;
self.provider.respond_streaming_with_mocks(
platform,
model,
&skill_ref,
&transcript.messages,
session_arg,
plan.as_ref(),
&mut |event| {
let flow = sink(&StreamEvent {
case: case_name,
platform,
model,
turn: turn_index,
event,
});
if flow.is_break() {
turn_flow = ControlFlow::Break(());
}
flow
},
)?
} else {
self.provider.respond_with_mocks(
platform,
model,
&skill_ref,
&transcript.messages,
session_arg,
plan.as_ref(),
)?
};
if let Some(records) = turn.mock_calls {
mock_calls.get_or_insert_with(Vec::new).extend(records);
}
if let Some(u) = &turn.usage {
totals.add(u);
}
// Capture or refresh the session handle for the next turn.
if let Some(id) = turn.session_id {
session = Some(id);
}
let skill_done = turn.done;
// Carry the turn's normalized tool events onto its assistant message
// so consumers can analyze what the skill did.
transcript.push(Message::assistant(turn.message).with_events(turn.events));
// The streaming sink asked to short-circuit: stop the run now.
if turn_flow.is_break() {
return Ok((transcript, mock_calls, ControlFlow::Break(())));
}
// Single-turn cases stop after the first assistant turn.
let Some(user) = &case.user else {
break;
};
if skill_done || transcript.assistant_turns() >= max_turns {
break;
}
// Stop early if the configured done-condition holds.
if let Some(done_when) = &user.done_when {
let query = JudgeQuery {
kind: JudgeKind::Boolean,
criterion: done_when,
scale: None,
};
let verdict = self
.provider
.judge(judge_model, &query, &transcript.messages)?;
if let Some(u) = &verdict.usage {
totals.add(u);
}
if matches!(verdict.value, JudgeValue::Bool(true)) {
break;
}
}
// Otherwise the simulated user replies and the loop continues.
let user_turn =
self.provider
.simulate_user(judge_model, &user.persona, &transcript.messages)?;
if let Some(u) = &user_turn.usage {
totals.add(u);
}
let stop = user_turn.stop;
transcript.push(Message::user(user_turn.message));
if stop {
break;
}
}
Ok((transcript, mock_calls, ControlFlow::Continue(())))
}
/// Run every eval against the finished transcript: judge-backed kinds go
/// to the provider's judge; `called`/`not_called` are scored
/// deterministically against the mock/spy channel's records.
fn score(
&self,
case: &TestCase,
transcript: &Transcript,
mock_set: &MockSet,
mock_calls: Option<&[MockCall]>,
totals: &mut Usage,
) -> Result<Vec<crate::eval::EvalOutcome>> {
let judge_model = self.config.effective_judge_model();
let mut outcomes = Vec::with_capacity(case.evals.len());
for eval in &case.evals {
let query = match eval {
Eval::Boolean { criterion, .. } => JudgeQuery {
kind: JudgeKind::Boolean,
criterion,
scale: None,
},
Eval::Numeric {
criterion,
min,
max,
..
} => JudgeQuery {
kind: JudgeKind::Numeric,
criterion,
scale: Some((*min, *max)),
},
Eval::Called { mock, r#where, .. } | Eval::NotCalled { mock, r#where, .. } => {
// Deterministic: no judge call. A missing channel is loud —
// a `not_called` scored against nothing must never pass.
let records = mock_calls.ok_or_else(|| {
Error::Invalid(format!(
"eval `{}` needs the mock/spy channel, but the provider reported no observations for this run",
eval.label()
))
})?;
let matching = mock_set
.records_for(mock, records)?
.into_iter()
.filter(|r| where_matches(r#where, r.input.as_ref()))
.count();
outcomes.push(eval.outcome_for_calls(matching, &describe_records(records))?);
continue;
}
};
let verdict = self
.provider
.judge(judge_model, &query, &transcript.messages)?;
if let Some(u) = &verdict.usage {
totals.add(u);
}
outcomes.push(eval.outcome(&verdict.value, verdict.reason)?);
}
Ok(outcomes)
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::conversation::Message;
use crate::provider::{AssistantTurn, JudgeVerdict, UserTurn};
use std::cell::RefCell;
/// An in-memory provider scripted with canned turns and verdicts, so the
/// runner's orchestration can be tested without any subprocess.
struct ScriptedProvider {
assistant: Vec<AssistantTurn>,
user: Vec<UserTurn>,
judge: Vec<JudgeVerdict>,
calls: RefCell<Calls>,
}
#[derive(Default)]
struct Calls {
assistant: usize,
user: usize,
judge: usize,
}
impl Provider for ScriptedProvider {
fn respond(
&self,
_platform: &str,
_model: &str,
_skill: &SkillRef<'_>,
_messages: &[Message],
_session: Option<&str>,
) -> Result<AssistantTurn> {
let i = self.calls.borrow().assistant;
self.calls.borrow_mut().assistant += 1;
Ok(self.assistant[i.min(self.assistant.len() - 1)].clone())
}
fn simulate_user(
&self,
_model: &str,
_persona: &str,
_messages: &[Message],
) -> Result<UserTurn> {
let i = self.calls.borrow().user;
self.calls.borrow_mut().user += 1;
Ok(self.user[i.min(self.user.len() - 1)].clone())
}
fn judge(
&self,
_model: &str,
_query: &JudgeQuery<'_>,
_messages: &[Message],
) -> Result<JudgeVerdict> {
let i = self.calls.borrow().judge;
self.calls.borrow_mut().judge += 1;
let v = &self.judge[i.min(self.judge.len() - 1)];
Ok(JudgeVerdict {
value: v.value,
reason: v.reason.clone(),
usage: v.usage.clone(),
})
}
}
/// Create a throwaway skill directory with a minimal SKILL.md so the runner
/// (which loads the skill from disk) has something real to read.
fn temp_skill(tag: &str) -> std::path::PathBuf {
let dir = std::env::temp_dir().join(format!("skilltest-ut-{}-{tag}", std::process::id()));
std::fs::create_dir_all(&dir).unwrap();
std::fs::write(
dir.join("SKILL.md"),
"---\nname: greeter\ndescription: a test skill\n---\nfake-reply: hi\n",
)
.unwrap();
dir
}
fn boolean_case(skill: std::path::PathBuf) -> TestCase {
TestCase {
name: "greets".into(),
skill,
input: "Greet Dr. Smith".into(),
user: None,
mocks: Vec::new(),
spy: false,
evals: vec![Eval::Boolean {
criterion: "greets Dr. Smith".into(),
expected: true,
name: None,
}],
}
}
#[test]
fn single_turn_runs_one_assistant_turn_and_scores() {
let provider = ScriptedProvider {
assistant: vec![AssistantTurn {
message: "Hello, Dr. Smith!".into(),
done: false,
..Default::default()
}],
user: vec![],
judge: vec![JudgeVerdict {
value: JudgeValue::Bool(true),
reason: "names her".into(),
usage: None,
}],
calls: RefCell::new(Calls::default()),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let runs = runner
.run_case(&boolean_case(temp_skill("single")))
.unwrap();
assert_eq!(runs.len(), 1);
assert!(runs[0].passed);
assert_eq!(runs[0].turns, 1);
assert_eq!(provider.calls.borrow().assistant, 1);
}
#[test]
fn multi_turn_stops_when_done_when_holds() {
let mut case = boolean_case(temp_skill("multi"));
case.user = Some(crate::testcase::SimulatedUser {
persona: "a terse patient".into(),
done_when: Some("the assistant has greeted".into()),
max_turns: Some(5),
});
let provider = ScriptedProvider {
assistant: vec![AssistantTurn {
message: "Hi there".into(),
done: false,
..Default::default()
}],
user: vec![UserTurn {
message: "continue".into(),
stop: false,
..Default::default()
}],
// First judge call is the done_when check (true -> stop), second is
// the eval.
judge: vec![
JudgeVerdict {
value: JudgeValue::Bool(true),
reason: "done".into(),
usage: None,
},
JudgeVerdict {
value: JudgeValue::Bool(true),
reason: "greeted".into(),
usage: None,
},
],
calls: RefCell::new(Calls::default()),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let runs = runner.run_case(&case).unwrap();
assert!(runs[0].passed);
// One assistant turn, the simulated user never had to speak.
assert_eq!(provider.calls.borrow().assistant, 1);
assert_eq!(provider.calls.borrow().user, 0);
}
#[test]
fn failing_eval_marks_run_failed() {
let provider = ScriptedProvider {
assistant: vec![AssistantTurn {
message: "Hello".into(),
done: false,
..Default::default()
}],
user: vec![],
judge: vec![JudgeVerdict {
value: JudgeValue::Bool(false),
reason: "no name".into(),
usage: None,
}],
calls: RefCell::new(Calls::default()),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let report = runner
.run_all(&[boolean_case(temp_skill("faileval"))])
.unwrap();
assert!(!report.passed);
assert_eq!(report.summary.failed, 1);
}
#[test]
fn matrix_fans_out_over_platforms_and_models() {
let provider = ScriptedProvider {
assistant: vec![AssistantTurn {
message: "Hello".into(),
done: false,
..Default::default()
}],
user: vec![],
judge: vec![JudgeVerdict {
value: JudgeValue::Bool(true),
reason: String::new(),
usage: None,
}],
calls: RefCell::new(Calls::default()),
};
let config = Config {
platforms: vec!["a".into(), "b".into()],
models: vec!["m1".into(), "m2".into()],
..Config::default()
};
let runner = Runner::new(&provider, &config);
let runs = runner
.run_case(&boolean_case(temp_skill("matrix")))
.unwrap();
assert_eq!(runs.len(), 4);
}
#[test]
fn run_all_streaming_short_circuits_on_break() {
use crate::conversation::ToolEvent;
// A turn that took a disallowed action; the streaming sink breaks on it.
let provider = ScriptedProvider {
assistant: vec![AssistantTurn {
message: "did a bad thing".into(),
done: false,
usage: None,
session_id: None,
mock_calls: None,
events: vec![ToolEvent {
kind: "tool_call".into(),
name: Some("bash".into()),
input: Some(serde_json::json!({ "command": "rm -rf /" })),
output: None,
index: 0,
}],
}],
user: vec![],
judge: vec![JudgeVerdict {
value: JudgeValue::Bool(true),
reason: String::new(),
usage: None,
}],
calls: RefCell::new(Calls::default()),
};
let config = Config {
platforms: vec!["a".into(), "b".into()],
..Config::default()
};
let runner = Runner::new(&provider, &config);
let mut seen = 0usize;
let report = runner
.run_all_streaming(
&[boolean_case(temp_skill("stream-abort"))],
&mut |ev: &StreamEvent| {
seen += 1;
assert_eq!(ev.event.name.as_deref(), Some("bash"));
assert_eq!(ev.turn, 1);
ControlFlow::Break(())
},
)
.unwrap();
// The sink saw the first event and aborted; only the first matrix cell
// ran, and it is not passing.
assert_eq!(seen, 1);
assert_eq!(report.runs.len(), 1);
assert!(!report.runs[0].passed);
// No judge call was spent scoring the torn-off run.
assert_eq!(provider.calls.borrow().judge, 0);
}
fn usage(input: u64) -> Option<Usage> {
Some(Usage {
input_tokens: Some(input),
output_tokens: None,
cost_usd: None,
})
}
#[test]
fn multi_turn_loops_through_simulated_user_and_aggregates_usage() {
// No early stop: the done_when check returns false, so the simulated
// user speaks after turn 1, then turn 2 satisfies done_when and the loop
// ends. Every provider call reports usage, so totals must accumulate.
let mut case = boolean_case(temp_skill("loop"));
case.user = Some(crate::testcase::SimulatedUser {
persona: "a chatty patient".into(),
done_when: Some("the booking is confirmed".into()),
max_turns: Some(8),
});
let provider = ScriptedProvider {
assistant: vec![
AssistantTurn {
message: "Hello, how can I help?".into(),
done: false,
usage: usage(3),
// A session id the runner should capture for the next turn.
session_id: Some("sess-1".into()),
events: Vec::new(),
mock_calls: None,
},
AssistantTurn {
message: "Booked!".into(),
done: false,
usage: usage(4),
session_id: Some("sess-2".into()),
events: Vec::new(),
mock_calls: None,
},
],
user: vec![UserTurn {
message: "Please book me in.".into(),
stop: false,
usage: usage(2),
}],
judge: vec![
// done_when after assistant turn 1 -> not done yet.
JudgeVerdict {
value: JudgeValue::Bool(false),
reason: "not yet".into(),
usage: usage(1),
},
// done_when after assistant turn 2 -> done, the loop ends.
JudgeVerdict {
value: JudgeValue::Bool(true),
reason: "confirmed".into(),
usage: usage(1),
},
// The final eval.
JudgeVerdict {
value: JudgeValue::Bool(true),
reason: "greeted".into(),
usage: usage(5),
},
],
calls: RefCell::new(Calls::default()),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let runs = runner.run_case(&case).unwrap();
assert!(runs[0].passed);
// Two assistant turns; the user spoke exactly once between them.
assert_eq!(provider.calls.borrow().assistant, 2);
assert_eq!(provider.calls.borrow().user, 1);
assert_eq!(provider.calls.borrow().judge, 3);
// Usage across every call:
// 3(resp) + 1(done_when) + 2(user) + 4(resp) + 1(done_when) + 5(eval) = 16.
assert_eq!(runs[0].usage.as_ref().unwrap().input_tokens, Some(16));
}
/// A provider with mock support: records the plan it was handed and
/// returns scripted mock records, so the runner's threading, resolution,
/// and deterministic scoring can be tested without a subprocess.
struct MockingProvider {
records: Vec<crate::mock::MockCall>,
seen_rules: RefCell<Vec<Option<serde_json::Value>>>,
judge_calls: RefCell<usize>,
}
impl Provider for MockingProvider {
fn respond(
&self,
_platform: &str,
_model: &str,
_skill: &SkillRef<'_>,
_messages: &[Message],
_session: Option<&str>,
) -> Result<AssistantTurn> {
unreachable!("the runner must route through respond_with_mocks")
}
fn respond_with_mocks(
&self,
_platform: &str,
_model: &str,
_skill: &SkillRef<'_>,
_messages: &[Message],
_session: Option<&str>,
mocks: Option<&crate::mock::MockPlan<'_>>,
) -> Result<AssistantTurn> {
self.seen_rules
.borrow_mut()
.push(mocks.and_then(|p| p.rules.cloned()));
Ok(AssistantTurn {
message: "did things".into(),
mock_calls: mocks.map(|_| self.records.clone()),
..Default::default()
})
}
fn simulate_user(
&self,
_model: &str,
_persona: &str,
_messages: &[Message],
) -> Result<UserTurn> {
unreachable!("single-turn case")
}
fn judge(
&self,
_model: &str,
_query: &JudgeQuery<'_>,
_messages: &[Message],
) -> Result<JudgeVerdict> {
*self.judge_calls.borrow_mut() += 1;
Ok(JudgeVerdict {
value: JudgeValue::Bool(true),
reason: "fine".into(),
usage: None,
})
}
}
fn mock_record(
tool: &str,
command: &str,
action: &str,
rule: Option<usize>,
) -> crate::mock::MockCall {
crate::mock::MockCall {
tool: Some(tool.into()),
input: Some(serde_json::json!({ "command": command })),
action: action.into(),
rule,
mock: None,
}
}
#[test]
fn mocked_case_scores_call_evals_deterministically() {
let mut case = boolean_case(temp_skill("mocked"));
case.mocks = serde_yaml::from_str(
r#"
- name: push
match: { tool: bash, pattern: "git push( --force)?\\b" }
stub: Everything up-to-date
- name: danger
match: { contains: "rm -rf" }
deny: blocked
- name: git
match: { tool: bash, pattern: "\\bgit\\b" }
"#,
)
.unwrap();
case.evals = vec![
serde_yaml::from_str("type: called\nmock: push\ntimes: 1\n").unwrap(),
serde_yaml::from_str("type: not_called\nmock: danger\n").unwrap(),
serde_yaml::from_str(
"type: called\nmock: git\nwhere: { command: { contains: status } }\n",
)
.unwrap(),
];
let provider = MockingProvider {
records: vec![
mock_record("bash", "git push origin", "stub", Some(0)),
mock_record("bash", "git status", "allow", None),
],
seen_rules: RefCell::new(Vec::new()),
judge_calls: RefCell::new(0),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let report = runner.run_all(&[case]).unwrap();
assert!(report.passed, "all call evals hold: {report:?}");
// No judge was ever consulted — the call evals are deterministic.
assert_eq!(*provider.judge_calls.borrow(), 0);
// The provider received the compiled ruleset (two action rules; the
// spy is matched locally, never compiled).
let seen = provider.seen_rules.borrow();
let rules = seen[0].as_ref().expect("plan carried rules");
assert_eq!(rules["rules"].as_array().unwrap().len(), 2);
// The report's records got their mock names resolved.
let run = &report.runs[0];
let records = run.mock_calls.as_ref().expect("channel was on");
assert_eq!(records[0].mock.as_deref(), Some("push"));
assert_eq!(records[1].mock, None);
}
#[test]
fn failing_not_called_eval_reports_the_observed_calls() {
let mut case = boolean_case(temp_skill("mock-violate"));
case.mocks = serde_yaml::from_str(
"- name: danger\n match: { contains: \"rm -rf\" }\n deny: blocked\n",
)
.unwrap();
case.evals = vec![serde_yaml::from_str("type: not_called\nmock: danger\n").unwrap()];
let provider = MockingProvider {
records: vec![mock_record("bash", "rm -rf /", "deny", Some(0))],
seen_rules: RefCell::new(Vec::new()),
judge_calls: RefCell::new(0),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let report = runner.run_all(&[case]).unwrap();
assert!(!report.passed);
let outcome = &report.runs[0].evals[0];
assert!(!outcome.passed);
// The failure reason lists what actually ran, verdict included.
assert!(
outcome.reason.contains("rm -rf /") && outcome.reason.contains("[deny]"),
"reason: {}",
outcome.reason
);
}
#[test]
fn call_eval_without_a_channel_is_loud_never_vacuous() {
// A `not_called` eval on a case with no mocks/spy: there is no
// observation channel, so the run must error, not pass on zero records.
let mut case = boolean_case(temp_skill("mock-nochannel"));
case.evals = vec![serde_yaml::from_str("type: not_called\nmock: danger\n").unwrap()];
let provider = ScriptedProvider {
assistant: vec![AssistantTurn {
message: "hi".into(),
..Default::default()
}],
user: vec![],
judge: vec![],
calls: RefCell::new(Calls::default()),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let err = runner.run_all(&[case]).unwrap_err();
assert!(
err.to_string().contains("needs the mock/spy channel"),
"{err}"
);
}
#[test]
fn spy_flag_activates_channel_without_declarations() {
// `spy: true` turns the channel on with no mocks: the plan carries no
// rules, and the records land on the run for SDK spies to bind.
let mut case = boolean_case(temp_skill("spy-flag"));
case.spy = true;
let provider = MockingProvider {
records: vec![mock_record("bash", "ls", "allow", None)],
seen_rules: RefCell::new(Vec::new()),
judge_calls: RefCell::new(0),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let report = runner.run_all(&[case]).unwrap();
// The plan was present but rule-less.
assert_eq!(provider.seen_rules.borrow()[0], None);
let records = report.runs[0].mock_calls.as_ref().unwrap();
assert_eq!(records.len(), 1);
assert_eq!(records[0].action, "allow");
}
#[test]
fn multi_turn_threads_session_when_resume_supported() {
// A provider that supports resume should be handed the session id the
// previous respond returned. Capture the session arg each respond sees.
#[derive(Default)]
struct Sessions(RefCell<Vec<Option<String>>>);
struct ResumeProvider {
sessions: Sessions,
}
impl Provider for ResumeProvider {
fn respond(
&self,
_platform: &str,
_model: &str,
_skill: &SkillRef<'_>,
_messages: &[Message],
session: Option<&str>,
) -> Result<AssistantTurn> {
self.sessions
.0
.borrow_mut()
.push(session.map(str::to_string));
let n = self.sessions.0.borrow().len();
Ok(AssistantTurn {
message: format!("turn {n}"),
done: false,
usage: None,
session_id: Some(format!("sess-{n}")),
events: Vec::new(),
mock_calls: None,
})
}
fn simulate_user(
&self,
_model: &str,
_persona: &str,
_messages: &[Message],
) -> Result<UserTurn> {
Ok(UserTurn {
message: "go on".into(),
stop: false,
usage: None,
})
}
fn judge(
&self,
_model: &str,
_query: &JudgeQuery<'_>,
_messages: &[Message],
) -> Result<JudgeVerdict> {
Ok(JudgeVerdict {
value: JudgeValue::Bool(true),
reason: String::new(),
usage: None,
})
}
fn supports_resume(&self, _platform: &str) -> bool {
true
}
}
let mut case = boolean_case(temp_skill("resume"));
case.user = Some(crate::testcase::SimulatedUser {
persona: "a patient".into(),
// No done_when, so the loop runs to max_turns.
done_when: None,
max_turns: Some(2),
});
let provider = ResumeProvider {
sessions: Sessions::default(),
};
let config = Config::default();
let runner = Runner::new(&provider, &config);
let runs = runner.run_case(&case).unwrap();
assert_eq!(runs[0].turns, 2);
// First respond saw no session; the second saw the id from the first.
let seen = provider.sessions.0.borrow();
assert_eq!(seen[0], None);
assert_eq!(seen[1].as_deref(), Some("sess-1"));
}
}