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Agentic-Reliability-Framework-API / tests /test_models.py
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"""
Unit tests for Pydantic models with validation and security tests
"""
import pytest
from datetime import datetime, timezone
from pydantic import ValidationError
from models import (
 ReliabilityEvent,
 EventSeverity,
 HealingPolicy,
 HealingAction,
 PolicyCondition,
 AnomalyResult,
 ForecastResult
)
class TestReliabilityEventValidation:
 """Test ReliabilityEvent validation"""
def test_valid_event_creation(self):
 """Test creating a valid event"""
 event = ReliabilityEvent(
 component="api-service",
 latency_p99=150.0,
 error_rate=0.05,
 throughput=1000.0,
 cpu_util=0.7,
 memory_util=0.6
 )
assert event.component == "api-service"
 assert event.latency_p99 == 150.0
 assert event.error_rate == 0.05
 assert isinstance(event.timestamp, datetime)
 assert event.severity == EventSeverity.LOW
def test_component_validation_valid(self):
 """Test valid component IDs"""
 valid_ids = ["api-service", "auth-service", "payment-service-v2", "db-01"]
for component_id in valid_ids:
 event = ReliabilityEvent(
 component=component_id,
 latency_p99=100.0,
 error_rate=0.01,
 throughput=1000.0
 )
 assert event.component == component_id
def test_component_validation_invalid(self):
 """Test invalid component IDs are rejected"""
 invalid_ids = [
 "API-SERVICE", # Uppercase
 "api_service", # Underscore
 "api service", # Space
 "api@service", # Special char
 "", # Empty
 ]
for component_id in invalid_ids:
 with pytest.raises(ValidationError) as exc_info:
 ReliabilityEvent(
 component=component_id,
 latency_p99=100.0,
 error_rate=0.01,
 throughput=1000.0
 )
 assert "component" in str(exc_info.value).lower()
def test_latency_bounds(self):
 """Test latency validation bounds"""
 # Valid latency
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.01,
 throughput=1000.0
 )
 assert event.latency_p99 == 100.0
# Negative latency should fail
 with pytest.raises(ValidationError):
 ReliabilityEvent(
 component="test-service",
 latency_p99=-10.0,
 error_rate=0.01,
 throughput=1000.0
 )
# Extremely high latency should fail (> 5 minutes)
 with pytest.raises(ValidationError):
 ReliabilityEvent(
 component="test-service",
 latency_p99=400000.0, # > 300000ms limit
 error_rate=0.01,
 throughput=1000.0
 )
def test_error_rate_bounds(self):
 """Test error rate validation"""
 # Valid error rate
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.5,
 throughput=1000.0
 )
 assert event.error_rate == 0.5
# Negative error rate should fail
 with pytest.raises(ValidationError):
 ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=-0.1,
 throughput=1000.0
 )
# Error rate > 1 should fail
 with pytest.raises(ValidationError):
 ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=1.5,
 throughput=1000.0
 )
def test_resource_utilization_bounds(self):
 """Test CPU and memory utilization bounds"""
 # Valid utilization
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.01,
 throughput=1000.0,
 cpu_util=0.85,
 memory_util=0.75
 )
 assert event.cpu_util == 0.85
 assert event.memory_util == 0.75
# CPU > 1 should fail
 with pytest.raises(ValidationError):
 ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.01,
 throughput=1000.0,
 cpu_util=1.5
 )
# Memory < 0 should fail
 with pytest.raises(ValidationError):
 ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.01,
 throughput=1000.0,
 memory_util=-0.1
 )
class TestEventFingerprint:
 """Test event fingerprint generation (SHA-256)"""
def test_fingerprint_is_sha256(self):
 """Test that fingerprint uses SHA-256 (64 hex chars)"""
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
# SHA-256 produces 64 hex characters
 assert len(event.fingerprint) == 64
 assert all(c in '0123456789abcdef' for c in event.fingerprint)
def test_fingerprint_deterministic(self):
 """Test that same inputs produce same fingerprint"""
 event1 = ReliabilityEvent(
 component="test-service",
 service_mesh="default",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
event2 = ReliabilityEvent(
 component="test-service",
 service_mesh="default",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
# Should produce same fingerprint (timestamp not included)
 assert event1.fingerprint == event2.fingerprint
def test_fingerprint_different_for_different_events(self):
 """Test that different events produce different fingerprints"""
 event1 = ReliabilityEvent(
 component="service-1",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
event2 = ReliabilityEvent(
 component="service-2",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
assert event1.fingerprint != event2.fingerprint
def test_fingerprint_not_md5(self):
 """Test that fingerprint is NOT MD5 (security fix verification)"""
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
# MD5 produces 32 hex chars, SHA-256 produces 64
 assert len(event.fingerprint) != 32
 assert len(event.fingerprint) == 64
class TestEventImmutability:
 """Test that events are immutable (frozen)"""
def test_event_is_frozen(self):
 """Test that ReliabilityEvent is frozen"""
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
# Attempting to modify should raise ValidationError
 with pytest.raises(ValidationError):
 event.latency_p99 = 200.0
def test_model_copy_with_update(self):
 """Test that model_copy creates new instance with updates"""
 event1 = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0,
 severity=EventSeverity.LOW
 )
# Create modified copy
 event2 = event1.model_copy(update={'severity': EventSeverity.HIGH})
# Original unchanged
 assert event1.severity == EventSeverity.LOW
 # Copy updated
 assert event2.severity == EventSeverity.HIGH
 # Other fields same
 assert event2.component == event1.component
 assert event2.latency_p99 == event1.latency_p99
class TestDependencyValidation:
 """Test dependency cycle detection"""
def test_valid_dependencies(self):
 """Test valid dependency configuration"""
 event = ReliabilityEvent(
 component="api-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0,
 upstream_deps=["auth-service", "database"],
 downstream_deps=["frontend", "mobile-app"]
 )
assert "auth-service" in event.upstream_deps
 assert "frontend" in event.downstream_deps
def test_circular_dependency_detected(self):
 """Test that circular dependencies are detected"""
 with pytest.raises(ValidationError) as exc_info:
 ReliabilityEvent(
 component="api-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0,
 upstream_deps=["auth-service", "database"],
 downstream_deps=["database", "frontend"] # 'database' in both
 )
error_msg = str(exc_info.value).lower()
 assert "circular" in error_msg or "database" in error_msg
def test_dependency_name_validation(self):
 """Test that dependency names follow same rules as component IDs"""
 # Valid dependency names
 event = ReliabilityEvent(
 component="api-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0,
 upstream_deps=["auth-service", "db-01", "cache-v2"]
 )
 assert len(event.upstream_deps) == 3
# Invalid dependency names
 with pytest.raises(ValidationError):
 ReliabilityEvent(
 component="api-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0,
 upstream_deps=["AUTH_SERVICE"] # Uppercase/underscore
 )
class TestPolicyConditionModel:
 """Test PolicyCondition structured model"""
def test_valid_policy_condition(self):
 """Test creating valid policy conditions"""
 condition = PolicyCondition(
 metric="latency_p99",
 operator="gt",
 threshold=150.0
 )
assert condition.metric == "latency_p99"
 assert condition.operator == "gt"
 assert condition.threshold == 150.0
def test_policy_condition_frozen(self):
 """Test that PolicyCondition is immutable"""
 condition = PolicyCondition(
 metric="error_rate",
 operator="gt",
 threshold=0.1
 )
with pytest.raises(ValidationError):
 condition.threshold = 0.2
def test_invalid_metric(self):
 """Test that invalid metrics are rejected"""
 with pytest.raises(ValidationError):
 PolicyCondition(
 metric="invalid_metric",
 operator="gt",
 threshold=100.0
 )
def test_invalid_operator(self):
 """Test that invalid operators are rejected"""
 with pytest.raises(ValidationError):
 PolicyCondition(
 metric="latency_p99",
 operator="invalid_op",
 threshold=100.0
 )
def test_negative_threshold(self):
 """Test that negative thresholds are rejected"""
 with pytest.raises(ValidationError):
 PolicyCondition(
 metric="latency_p99",
 operator="gt",
 threshold=-100.0
 )
class TestHealingPolicyModel:
 """Test HealingPolicy model"""
def test_valid_healing_policy(self):
 """Test creating valid healing policy"""
 policy = HealingPolicy(
 name="high_latency_restart",
 conditions=[
 PolicyCondition(metric="latency_p99", operator="gt", threshold=300.0)
 ],
 actions=[HealingAction.RESTART_CONTAINER, HealingAction.ALERT_TEAM],
 priority=1,
 cool_down_seconds=300
 )
assert policy.name == "high_latency_restart"
 assert len(policy.conditions) == 1
 assert len(policy.actions) == 2
 assert policy.priority == 1
def test_policy_frozen(self):
 """Test that HealingPolicy is immutable"""
 policy = HealingPolicy(
 name="test_policy",
 conditions=[
 PolicyCondition(metric="error_rate", operator="gt", threshold=0.1)
 ],
 actions=[HealingAction.ROLLBACK],
 priority=2
 )
with pytest.raises(ValidationError):
 policy.priority = 5
def test_empty_conditions_rejected(self):
 """Test that policies must have at least one condition"""
 with pytest.raises(ValidationError):
 HealingPolicy(
 name="empty_policy",
 conditions=[], # Empty
 actions=[HealingAction.ALERT_TEAM],
 priority=3
 )
def test_empty_actions_rejected(self):
 """Test that policies must have at least one action"""
 with pytest.raises(ValidationError):
 HealingPolicy(
 name="empty_actions",
 conditions=[
 PolicyCondition(metric="latency_p99", operator="gt", threshold=100.0)
 ],
 actions=[], # Empty
 priority=3
 )
def test_priority_bounds(self):
 """Test priority validation (1-5)"""
 # Valid priority
 policy = HealingPolicy(
 name="test",
 conditions=[PolicyCondition(metric="latency_p99", operator="gt", threshold=100.0)],
 actions=[HealingAction.ALERT_TEAM],
 priority=3
 )
 assert policy.priority == 3
# Priority < 1 should fail
 with pytest.raises(ValidationError):
 HealingPolicy(
 name="test",
 conditions=[PolicyCondition(metric="latency_p99", operator="gt", threshold=100.0)],
 actions=[HealingAction.ALERT_TEAM],
 priority=0
 )
# Priority > 5 should fail
 with pytest.raises(ValidationError):
 HealingPolicy(
 name="test",
 conditions=[PolicyCondition(metric="latency_p99", operator="gt", threshold=100.0)],
 actions=[HealingAction.ALERT_TEAM],
 priority=10
 )
class TestAnomalyResultModel:
 """Test AnomalyResult model"""
def test_valid_anomaly_result(self):
 """Test creating valid anomaly result"""
 result = AnomalyResult(
 is_anomaly=True,
 confidence=0.85,
 anomaly_score=0.75,
 affected_metrics=["latency", "error_rate"]
 )
assert result.is_anomaly is True
 assert result.confidence == 0.85
 assert isinstance(result.detection_timestamp, datetime)
def test_confidence_bounds(self):
 """Test confidence is bounded 0-1"""
 # Valid
 result = AnomalyResult(
 is_anomaly=True,
 confidence=0.5,
 anomaly_score=0.6
 )
 assert result.confidence == 0.5
# Confidence > 1 should fail
 with pytest.raises(ValidationError):
 AnomalyResult(
 is_anomaly=True,
 confidence=1.5,
 anomaly_score=0.5
 )
class TestForecastResultModel:
 """Test ForecastResult model"""
def test_valid_forecast(self):
 """Test creating valid forecast"""
 result = ForecastResult(
 metric="latency",
 predicted_value=250.0,
 confidence=0.75,
 trend="increasing",
 time_to_threshold=15.5,
 risk_level="high"
 )
assert result.metric == "latency"
 assert result.trend == "increasing"
 assert result.risk_level == "high"
def test_trend_validation(self):
 """Test that only valid trends are accepted"""
 valid_trends = ["increasing", "decreasing", "stable"]
for trend in valid_trends:
 result = ForecastResult(
 metric="latency",
 predicted_value=200.0,
 confidence=0.7,
 trend=trend,
 risk_level="medium"
 )
 assert result.trend == trend
# Invalid trend
 with pytest.raises(ValidationError):
 ForecastResult(
 metric="latency",
 predicted_value=200.0,
 confidence=0.7,
 trend="invalid_trend",
 risk_level="medium"
 )
def test_risk_level_validation(self):
 """Test that only valid risk levels are accepted"""
 valid_levels = ["low", "medium", "high", "critical"]
for level in valid_levels:
 result = ForecastResult(
 metric="error_rate",
 predicted_value=0.08,
 confidence=0.8,
 trend="stable",
 risk_level=level
 )
 assert result.risk_level == level
# Invalid risk level
 with pytest.raises(ValidationError):
 ForecastResult(
 metric="error_rate",
 predicted_value=0.08,
 confidence=0.8,
 trend="stable",
 risk_level="extreme"
 )
class TestTimestampHandling:
 """Test datetime timestamp handling"""
def test_timestamp_is_datetime(self):
 """Test that timestamp is datetime, not string"""
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
# Should be datetime object
 assert isinstance(event.timestamp, datetime)
# Should have timezone
 assert event.timestamp.tzinfo is not None
def test_timestamp_is_utc(self):
 """Test that timestamp uses UTC"""
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
assert event.timestamp.tzinfo == timezone.utc
def test_timestamp_serialization(self):
 """Test that timestamp can be serialized"""
 event = ReliabilityEvent(
 component="test-service",
 latency_p99=100.0,
 error_rate=0.05,
 throughput=1000.0
 )
# Can convert to ISO format
 iso_str = event.timestamp.isoformat()
 assert isinstance(iso_str, str)
 assert 'T' in iso_str # ISO format
if __name__ == "__main__":
 pytest.main([__file__, "-v", "--tb=short"])