#[test]
fn validation_accepts_unknown_mcp_server_artifact_from_concrete_tool_receipt() {
let workspace_root = std::env::temp_dir().join(format!(
"tandem-dynamic-mcp-artifact-{}",
uuid::Uuid::new_v4()
));
std::fs::create_dir_all(&workspace_root).expect("create workspace");
let mut node = bare_node();
node.node_id = "confirm_acme_target".to_string();
node.objective = "Use the Acme MCP connector to confirm the external destination.".to_string();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "text_summary".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::GenericArtifact),
enforcement: None,
schema: None,
summary_guidance: None,
});
node.metadata = Some(json!({
"builder": {
"output_path": ".tandem/artifacts/confirm-acme-target.md"
},
"tool_allowlist": [
"mcp.acme_connector.fetch_destination",
"write"
]
}));
let artifact = "Confirmed the external target using `mcp.acme_connector.fetch_destination`.\n\nThe connector returned a concrete destination record for `destination://primary` with a display name, writable status, and no connector limitation. This is enough for downstream publishing to proceed without relying on connector inventory.";
let session = Session::new(Some("dynamic mcp confirmation".to_string()), None);
let snapshot = std::collections::BTreeSet::new();
let (accepted, validation, rejected) = validate_automation_artifact_output(
&node,
&session,
workspace_root.to_str().expect("workspace root"),
"{\"status\":\"completed\"}",
&json!({
"executed_tools": [
"mcp_list",
"mcp.acme_connector.fetch_destination",
"write"
],
"requested_tools": [
"mcp_list",
"mcp.acme_connector.fetch_destination",
"write"
],
"capability_resolution": {
"mcp_tool_diagnostics": {
"selected_servers": ["acme-connector"]
}
},
"verified_output_materialized_by_current_attempt": true
}),
None,
Some((
".tandem/artifacts/confirm-acme-target.md".to_string(),
artifact.to_string(),
)),
&snapshot,
);
assert!(accepted.is_some());
assert_eq!(validation["validation_outcome"], "passed");
assert!(!validation["unmet_requirements"]
.as_array()
.expect("unmet array")
.iter()
.any(|value| value.as_str() == Some("mcp_connector_source_artifact_missing")));
assert!(rejected.is_none());
let _ = std::fs::remove_dir_all(&workspace_root);
}
#[test]
fn outbound_connector_mutation_failure_requires_retry_even_with_failure_artifact() {
let workspace_root = std::env::temp_dir().join(format!(
"tandem-external-mutation-failure-{}",
uuid::Uuid::new_v4()
));
std::fs::create_dir_all(&workspace_root).expect("create workspace");
let mut node = bare_node();
node.node_id = "save_notion_report".to_string();
node.objective = "Save the completed report into the existing Notion database.".to_string();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "report_markdown".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::GenericArtifact),
enforcement: None,
schema: None,
summary_guidance: None,
});
node.metadata = Some(json!({
"builder": {
"output_path": ".tandem/artifacts/save-notion-report.md",
"task_kind": "publish"
},
"tool_allowlist": [
"mcp.any_user_name.notion_create_pages",
"write"
]
}));
let artifact = "# Notion Publication Report\n\nThe Notion create failed with schema validation; no row was created.";
let session = Session::new(Some("failed notion publication".to_string()), None);
let snapshot = std::collections::BTreeSet::new();
let (accepted, validation, rejected) = validate_automation_artifact_output(
&node,
&session,
workspace_root.to_str().expect("workspace root"),
"{\"status\":\"completed\"}",
&json!({
"executed_tools": [
"mcp_list",
"mcp.any_user_name.notion_create_pages",
"write"
],
"failed_tools": [
"mcp.any_user_name.notion_create_pages"
],
"external_mutation_attempted": true,
"external_mutation_succeeded": false,
"latest_external_mutation_failure": "Property \"Report Date\" not found in the data source",
"requested_tools": [
"mcp_list",
"mcp.any_user_name.notion_create_pages",
"write"
],
"capability_resolution": {
"mcp_tool_diagnostics": {
"selected_servers": ["any-user-name"]
}
},
"verified_output_materialized_by_current_attempt": true
}),
None,
Some((
".tandem/artifacts/save-notion-report.md".to_string(),
artifact.to_string(),
)),
&snapshot,
);
assert!(accepted.is_none(), "{validation}");
assert_eq!(validation["validation_outcome"], "needs_repair");
assert!(validation["unmet_requirements"]
.as_array()
.expect("unmet array")
.iter()
.any(|value| value.as_str() == Some("external_mutation_failed")));
assert!(rejected
.as_deref()
.unwrap_or_default()
.contains("external delivery mutation failed"));
let _ = std::fs::remove_dir_all(&workspace_root);
}
#[test]
fn validation_rejects_connector_source_inventory_only_artifact() {
let workspace_root = std::env::temp_dir().join(format!(
"tandem-connector-inventory-only-artifact-{}",
uuid::Uuid::new_v4()
));
std::fs::create_dir_all(&workspace_root).expect("create workspace");
let mut node = bare_node();
node.node_id = "collect_reddit_signals".to_string();
node.objective = "Use reddit-gmail MCP to collect Reddit posts and comments.".to_string();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "structured_json".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StructuredJson),
enforcement: None,
schema: None,
summary_guidance: None,
});
node.metadata = Some(json!({
"builder": {
"output_path": ".tandem/artifacts/collect-reddit-signals.json"
},
"tool_allowlist": [
"mcp.reddit_gmail.reddit_search_across_subreddits"
]
}));
let artifact = serde_json::to_string_pretty(&json!({
"connected_server_names": ["reddit-gmail"],
"enabled_server_names": ["reddit-gmail"],
"inventory_version": 1,
"registered_tools": ["mcp.reddit_gmail.reddit_search_across_subreddits"],
"remote_tools": [],
"servers": [{
"name": "reddit-gmail",
"connected": true,
"registered_tools": ["mcp.reddit_gmail.reddit_search_across_subreddits"]
}]
}))
.expect("serialize inventory");
let session = Session::new(Some("inventory only connector artifact".to_string()), None);
let snapshot = std::collections::BTreeSet::new();
let (accepted, validation, rejected) = validate_automation_artifact_output(
&node,
&session,
workspace_root.to_str().expect("workspace root"),
"",
&json!({
"executed_tools": [
"mcp_list",
"mcp.reddit_gmail.reddit_search_across_subreddits",
"write"
],
"requested_tools": [
"mcp_list",
"mcp.reddit_gmail.reddit_search_across_subreddits",
"write"
],
"capability_resolution": {
"mcp_tool_diagnostics": {
"selected_servers": ["reddit-gmail"]
}
},
"verified_output_materialized_by_current_attempt": true
}),
None,
Some((
".tandem/artifacts/collect-reddit-signals.json".to_string(),
artifact,
)),
&snapshot,
);
assert!(accepted.is_none());
assert!(validation["unmet_requirements"]
.as_array()
.expect("unmet array")
.iter()
.any(|value| value.as_str() == Some("mcp_connector_source_artifact_missing")));
assert!(rejected
.as_deref()
.unwrap_or_default()
.contains("connector inventory"));
let _ = std::fs::remove_dir_all(&workspace_root);
}
#[test]
fn validation_requires_declared_concrete_mcp_tools() {
let workspace_root =
std::env::temp_dir().join(format!("tandem-required-mcp-tool-{}", uuid::Uuid::new_v4()));
std::fs::create_dir_all(&workspace_root).expect("create workspace");
let mut node = bare_node();
node.objective =
"Use mcp.githubcopilot.get_me and mcp.githubcopilot.search_repositories.".to_string();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "structured_json".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StructuredJson),
enforcement: None,
schema: None,
summary_guidance: None,
});
node.metadata = Some(json!({
"allowed_tools": [
"mcp.githubcopilot.get_me",
"mcp.githubcopilot.search_repositories"
],
"builder": {
"task_class": "connector_preflight",
"output_path": ".tandem/artifacts/establish-github-context.json"
}
}));
let artifact = serde_json::to_string_pretty(&json!({
"status": "completed",
"confirmed_authenticated_user": false,
"confirmed_target_repository": false
}))
.expect("serialize artifact");
let session = Session::new(Some("mcp required tool validation".to_string()), None);
let snapshot = std::collections::BTreeSet::new();
let (accepted, validation, _rejected) = validate_automation_artifact_output(
&node,
&session,
workspace_root.to_str().expect("workspace root"),
"",
&json!({
"executed_tools": ["mcp_list", "write"],
"requested_tools": [
"mcp.githubcopilot.get_me",
"mcp.githubcopilot.search_repositories",
"write"
],
"verified_output_materialized_by_current_attempt": true
}),
None,
Some((
".tandem/artifacts/establish-github-context.json".to_string(),
artifact,
)),
&snapshot,
);
assert!(accepted.is_none());
assert_eq!(validation["validation_outcome"], "blocked");
assert!(validation["unmet_requirements"]
.as_array()
.expect("unmet array")
.iter()
.any(|value| value.as_str() == Some("mcp_required_tool_missing")));
let _ = std::fs::remove_dir_all(&workspace_root);
}
#[test]
fn validation_blocks_read_only_source_mutations_without_retry() {
let workspace_root = std::env::temp_dir().join(format!(
"tandem-read-only-source-mutation-{}",
uuid::Uuid::new_v4()
));
std::fs::create_dir_all(&workspace_root).expect("create workspace");
let source_rel_path = "packages/tandem-control-panel/src/app/store.js";
let source_path = workspace_root.join(source_rel_path);
std::fs::create_dir_all(source_path.parent().expect("source parent"))
.expect("create source parent");
std::fs::write(&source_path, "export const routes = [];\n").expect("write source file");
let mut snapshot = std::collections::BTreeMap::new();
snapshot.insert(
source_path.to_string_lossy().to_string(),
std::fs::read(&source_path).expect("snapshot source file"),
);
std::fs::write(&source_path, "export const routes = ['bug-monitor'];\n")
.expect("mutate source file");
let mut node = bare_node();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "structured_json".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StructuredJson),
enforcement: None,
schema: None,
summary_guidance: None,
});
node.metadata = Some(json!({
"builder": {
"output_path": ".tandem/artifacts/read-control-panel-store.json"
}
}));
let artifact = serde_json::to_string_pretty(&json!({
"status": "completed",
"summary": "Read control panel store"
}))
.expect("serialize artifact");
let session = Session::new(Some("read only source mutation".to_string()), None);
let workspace_snapshot_before = std::collections::BTreeSet::new();
let (accepted, validation, rejected) =
super::logic::validate_automation_artifact_output_with_context(
&AutomationV2Spec {
automation_id: "validation".to_string(),
name: "validation".to_string(),
description: None,
status: crate::AutomationV2Status::Draft,
schedule: AutomationV2Schedule {
schedule_type: crate::AutomationV2ScheduleType::Manual,
cron_expression: None,
interval_seconds: None,
timezone: "UTC".to_string(),
misfire_policy: crate::RoutineMisfirePolicy::RunOnce,
},
knowledge: tandem_orchestrator::KnowledgeBinding::default(),
agents: Vec::new(),
flow: crate::AutomationFlowSpec { nodes: Vec::new() },
execution: crate::AutomationExecutionPolicy {
profile: None,
max_parallel_agents: None,
max_total_runtime_ms: None,
max_total_tool_calls: None,
max_total_tokens: None,
max_total_cost_usd: None,
},
output_targets: Vec::new(),
created_at_ms: 0,
updated_at_ms: 0,
creator_id: "test".to_string(),
workspace_root: Some(workspace_root.to_string_lossy().to_string()),
metadata: None,
next_fire_at_ms: None,
last_fired_at_ms: None,
scope_policy: None,
watch_conditions: Vec::new(),
handoff_config: None,
},
&node,
&session,
workspace_root.to_str().expect("workspace root"),
None,
None,
"",
&json!({
"executed_tools": ["read"],
"requested_tools": ["read"],
"verified_output_materialized_by_current_attempt": true
}),
None,
Some((
".tandem/artifacts/read-control-panel-store.json".to_string(),
artifact,
)),
&workspace_snapshot_before,
None,
Some(&snapshot),
);
assert!(accepted.is_none());
assert_eq!(validation["validation_outcome"], "blocked");
assert!(validation["unmet_requirements"]
.as_array()
.expect("unmet array")
.iter()
.any(|value| value.as_str() == Some("read_only_source_mutations")));
assert!(rejected
.as_deref()
.unwrap_or_default()
.contains("read-only source-of-truth mutation"));
let _ = std::fs::remove_dir_all(&workspace_root);
}
#[test]
fn validation_repair_state_uses_node_attempt_budget() {
let tool_telemetry = json!({
"node_attempt": 3,
"node_max_attempts": 3,
"tool_call_counts": {}
});
let (repair_attempt, repair_attempts_remaining, repair_exhausted) =
super::logic::infer_artifact_repair_state(
None,
false,
false,
Some("required output was not created in the current attempt"),
&tool_telemetry,
Some(5),
);
assert_eq!(repair_attempt, 2);
assert_eq!(repair_attempts_remaining, 0);
assert!(repair_exhausted);
}
#[test]
fn assess_evidence_anchors_count_upstream_path_and_url_mentions() {
let assessment = assess_artifact_candidate(
&bare_node(),
"/workspace",
"tool",
"See /workspace/docs/product-capabilities.md and https://example.com/source-1 for details.",
&[],
&[],
&[
"/workspace/docs/product-capabilities.md".to_string(),
"/workspace/README.md".to_string(),
],
&["https://example.com/source-1".to_string()],
);
assert!(
assessment.evidence_anchor_count >= 2,
"expected to match at least two upstream evidence anchors, got {}",
assessment.evidence_anchor_count
);
}
fn standup_participant_input(node_id: &str, yesterday: &str, today: &str) -> Value {
json!({
"alias": node_id,
"from_step_id": node_id,
"output": {
"status": "completed",
"content": {
"text": serde_json::to_string(&json!({
"yesterday": yesterday,
"today": today,
"status": "completed"
})).unwrap()
}
}
})
}
#[test]
fn standup_filler_detection_catches_standup_specific_phrases() {
use super::node_output::detect_automation_node_status;
let mut node = bare_node();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "standup_update".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StandupUpdate),
enforcement: None,
schema: None,
summary_guidance: None,
});
let session_text = serde_json::to_string(&json!({
"yesterday": "reviewed workspace artifacts and tandem memory; identified relevant context",
"today": "prepare the daily standup report from available context",
"status": "completed"
}))
.unwrap();
let (status, reason, _) =
detect_automation_node_status(&node, &session_text, None, &json!({}), None);
assert_eq!(
status, "needs_repair",
"standup-specific filler phrases should trigger needs_repair"
);
assert!(
reason.is_some(),
"filler rejection should include a repair reason"
);
}
#[test]
fn standup_filler_detection_catches_generic_placeholder_phrases() {
use super::node_output::detect_automation_node_status;
let mut node = bare_node();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "standup_update".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StandupUpdate),
enforcement: None,
schema: None,
summary_guidance: None,
});
let session_text = serde_json::to_string(&json!({
"yesterday": "completed",
"today": "write completion",
"status": "completed"
}))
.unwrap();
let (status, _reason, _) =
detect_automation_node_status(&node, &session_text, None, &json!({}), None);
assert_eq!(
status, "needs_repair",
"generic placeholder phrases should also trigger needs_repair via consolidated detection"
);
}
#[test]
fn standup_filler_detection_accepts_concrete_updates() {
use super::node_output::detect_automation_node_status;
let mut node = bare_node();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "standup_update".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StandupUpdate),
enforcement: None,
schema: None,
summary_guidance: None,
});
let session_text = serde_json::to_string(&json!({
"yesterday": "Drafted homepage headline copy in outputs/homepage-copy.md and refined the H1 variant list.",
"today": "Update the campaign brief with the new audience segment based on outputs/research-brief.md.",
"status": "completed"
}))
.unwrap();
let (status, _reason, _) =
detect_automation_node_status(&node, &session_text, None, &json!({}), None);
assert_eq!(
status, "completed",
"concrete standup update with file references should be accepted"
);
}
#[test]
fn successful_external_mutation_is_terminal_without_status_json() {
use super::node_output::detect_automation_node_status;
let mut node = bare_node();
node.objective = "Save the completed report to Notion.".to_string();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "text_summary".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::GenericArtifact),
enforcement: None,
schema: None,
summary_guidance: None,
});
let tool_telemetry = json!({
"external_mutation_attempted": true,
"external_mutation_succeeded": true,
"executed_tools": [
"mcp_list",
"mcp.some_user_named_server.notion_create_pages",
"mcp.some_user_named_server.notion_fetch"
]
});
let artifact_validation = json!({
"validation_outcome": "passed",
"unmet_requirements": []
});
let session_text = "Created the Notion page and verified it by fetching the page back.";
let (status, reason, _) = detect_automation_node_status(
&node,
session_text,
None,
&tool_telemetry,
Some(&artifact_validation),
);
assert_eq!(status, "completed");
assert!(
reason.is_none(),
"successful side effects should not be retried because of missing compact status JSON"
);
}
#[test]
fn standup_filler_repair_reason_includes_tool_telemetry_context() {
use super::node_output::detect_automation_node_status;
let mut node = bare_node();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "standup_update".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StandupUpdate),
enforcement: None,
schema: None,
summary_guidance: None,
});
let session_text = serde_json::to_string(&json!({
"yesterday": "reviewed workspace artifacts and tandem memory",
"today": "prepare the daily standup report from available context",
"status": "completed"
}))
.unwrap();
let tool_telemetry = json!({
"executed_tools": ["glob", "read", "memory_search"],
"glob_directories": ["outputs/", "content/"],
"read_paths": ["outputs/homepage-copy.md", "content/article-draft.md"]
});
let (status, reason, _) =
detect_automation_node_status(&node, &session_text, None, &tool_telemetry, None);
assert_eq!(status, "needs_repair");
let reason = reason.expect("filler rejection should include a reason");
assert!(
reason.contains("glob") || reason.contains("read"),
"repair reason should mention tools used, got: {reason}"
);
assert!(
reason.contains("outputs/") || reason.contains("content/"),
"repair reason should mention directories searched, got: {reason}"
);
assert!(
reason.contains("homepage-copy") || reason.contains("article-draft"),
"repair reason should mention files read, got: {reason}"
);
}
#[test]
fn standup_filler_repair_reason_handles_missing_telemetry_gracefully() {
use super::node_output::detect_automation_node_status;
let mut node = bare_node();
node.output_contract = Some(AutomationFlowOutputContract {
kind: "standup_update".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::StandupUpdate),
enforcement: None,
schema: None,
summary_guidance: None,
});
let session_text = serde_json::to_string(&json!({
"yesterday": "reviewed workspace",
"today": "workspace context",
"status": "completed"
}))
.unwrap();
let (status, reason, _) =
detect_automation_node_status(&node, &session_text, None, &json!({}), None);
assert_eq!(status, "needs_repair");
let reason = reason.expect("filler rejection should always include a reason");
assert!(
reason.contains("none recorded"),
"missing telemetry should not cause panic; got: {reason}"
);
}
#[test]
fn standup_receipt_path_derived_from_report_path() {
let report = "docs/standups/2026-04-05.md";
let receipt = super::standup_receipt_path_for_report(report);
assert_eq!(receipt, "docs/standups/receipt-2026-04-05.json");
}
#[test]
fn standup_receipt_path_handles_root_level_report() {
let report = "standup.md";
let receipt = super::standup_receipt_path_for_report(report);
assert_eq!(receipt, "docs/standups/receipt-standup.json");
}
#[test]
fn standup_receipt_path_handles_nested_report() {
let report = "team/standups/weekly/2026-04-05.md";
let receipt = super::standup_receipt_path_for_report(report);
assert_eq!(receipt, "team/standups/weekly/receipt-2026-04-05.json");
}
#[test]
fn standup_synthesis_effective_required_output_path_uses_report_template() {
let automation = AutomationV2Spec {
automation_id: "automation-standup".to_string(),
name: "Daily Standup".to_string(),
description: None,
status: crate::AutomationV2Status::Active,
schedule: crate::AutomationV2Schedule {
schedule_type: crate::AutomationV2ScheduleType::Manual,
cron_expression: None,
interval_seconds: None,
timezone: "UTC".to_string(),
misfire_policy: crate::RoutineMisfirePolicy::RunOnce,
},
knowledge: tandem_orchestrator::KnowledgeBinding::default(),
agents: Vec::new(),
flow: crate::AutomationFlowSpec { nodes: Vec::new() },
execution: crate::AutomationExecutionPolicy {
profile: None,
max_parallel_agents: Some(1),
max_total_runtime_ms: None,
max_total_tool_calls: None,
max_total_tokens: None,
max_total_cost_usd: None,
},
output_targets: vec!["docs/standups/{{date}}.md".to_string()],
created_at_ms: 0,
updated_at_ms: 0,
creator_id: "test".to_string(),
workspace_root: Some("/tmp".to_string()),
metadata: Some(json!({
"feature": "agent_standup",
"standup": {
"report_path_template": "docs/standups/{{date}}.md"
}
})),
next_fire_at_ms: None,
last_fired_at_ms: None,
scope_policy: None,
watch_conditions: Vec::new(),
handoff_config: None,
};
let node = AutomationFlowNode {
knowledge: tandem_orchestrator::KnowledgeBinding::default(),
node_id: "standup_synthesis".to_string(),
agent_id: "coordinator".to_string(),
objective: "Write the standup report".to_string(),
depends_on: vec!["participant_0".to_string()],
input_refs: vec![AutomationFlowInputRef {
from_step_id: "participant_0".to_string(),
alias: "participant_0".to_string(),
}],
output_contract: Some(AutomationFlowOutputContract {
kind: "report_markdown".to_string(),
validator: Some(crate::AutomationOutputValidatorKind::GenericArtifact),
enforcement: None,
schema: None,
summary_guidance: None,
}),
tool_policy: None,
mcp_policy: None,
retry_policy: None,
timeout_ms: None,
max_tool_calls: None,
stage_kind: Some(crate::AutomationNodeStageKind::Orchestrator),
gate: None,
metadata: None,
};
let started_at_ms = chrono::DateTime::parse_from_rfc3339("2026-04-14T09:00:00Z")
.expect("timestamp")
.timestamp_millis() as u64;
let output_path = super::automation_effective_required_output_path_for_run(
&automation,
&node,
"automation-v2-run-standup",
started_at_ms,
);
assert_eq!(output_path.as_deref(), Some("docs/standups/2026-04-14.md"));
}
#[test]
fn parse_status_json_accepts_standup_completion_metadata() {
let raw = "Standup report written to `docs/standups/2026-04-14.md` for 3 participants.\n\n{\"status\":\"completed\",\"approved\":true,\"report_path\":\"docs/standups/2026-04-14.md\",\"participant_count\":3}";
let parsed = super::parse_status_json(raw).expect("standup status payload should parse");
assert_eq!(
parsed.get("status").and_then(Value::as_str),
Some("completed")
);
assert_eq!(
parsed.get("report_path").and_then(Value::as_str),
Some("docs/standups/2026-04-14.md")
);
assert_eq!(
parsed.get("participant_count").and_then(Value::as_u64),
Some(3)
);
}
#[test]
fn bug_monitor_context_artifacts_do_not_require_workspace_output_paths() {
let node = AutomationFlowNode {
knowledge: tandem_orchestrator::KnowledgeBinding::default(),
node_id: "research_likely_root_cause".to_string(),
agent_id: "bug_monitor_triage_agent".to_string(),
objective: "Research the failure".to_string(),
depends_on: Vec::new(),
input_refs: Vec::new(),
output_contract: Some(AutomationFlowOutputContract {
kind: "structured_json".to_string(),
validator: Some(AutomationOutputValidatorKind::StructuredJson),
enforcement: None,
schema: None,
summary_guidance: None,
}),
tool_policy: None,
mcp_policy: None,
retry_policy: None,
timeout_ms: None,
max_tool_calls: None,
stage_kind: None,
gate: None,
metadata: Some(json!({
"builder": {
"output_path": ".tandem/artifacts/bug_monitor.research.json"
},
"bug_monitor": {
"artifact_type": "bug_monitor_research",
"context_artifact_path": "artifacts/bug_monitor.research.json"
}
})),
};
assert_eq!(super::automation_node_required_output_path(&node), None);
assert_eq!(
super::automation_node_required_output_path_for_run(&node, Some("automation-v2-run-test")),
None
);
}
#[test]
fn bug_monitor_recovery_rejects_mcp_inventory_json() {
let payload = json!({
"connected_server_names": ["githubcopilot"],
"registered_tools": ["mcp.githubcopilot.get_me"],
"servers": [{"name": "githubcopilot", "connected": true}]
});
assert!(!super::recoverable_json_matches_required_output(
&payload,
".tandem/artifacts/bug_monitor.research.json"
));
}
#[test]
fn bug_monitor_recovery_accepts_matching_research_artifact_json() {
let payload = json!({
"status": "completed",
"research_summary": {
"likely_root_cause": "The required artifact was recovered from unrelated tool output."
},
"file_references": [{
"path": "crates/tandem-server/src/app/state/automation/extraction.rs",
"line": 289
}]
});
assert!(super::recoverable_json_matches_required_output(
&payload,
".tandem/artifacts/bug_monitor.research.json"
));
}
#[test]
fn extract_standup_participant_update_finds_nested_json_in_content_text() {
let input = standup_participant_input(
"participant_0_copywriter",
"Drafted homepage headline copy in outputs/homepage-copy.md",
"Refine the H1 variants based on the new positioning brief",
);
let update = super::prompting_impl::extract_standup_participant_update_pub(&input);
assert!(
update.is_some(),
"should extract standup update from content.text JSON"
);
let update = update.unwrap();
assert!(
update.get("yesterday").is_some(),
"extracted update should have yesterday field"
);
assert!(
update.get("today").is_some(),
"extracted update should have today field"
);
}
#[test]
fn extract_standup_participant_update_returns_none_for_non_standup_output() {
let input = json!({
"alias": "research_brief",
"from_step_id": "research_brief",
"output": {
"status": "completed",
"content": {
"text": "The research findings indicate three key market opportunities..."
}
}
});
let update = super::prompting_impl::extract_standup_participant_update_pub(&input);
assert!(
update.is_none(),
"non-standup output text should not be mistaken for a participant update"
);
}