Aegis/backend/app/services/risk_intelligence_service.py

"""Phase 12: Risk Intelligence service — compute and query per-technique risk scores."""

import time
from datetime import datetime, timedelta
from typing import List, Optional
from uuid import UUID

from sqlalchemy.orm import Session

from app.domain.errors import EntityNotFoundError
from app.models.risk_intelligence import TechniqueRiskProfile
from app.models.technique import Technique
from app.models.threat_actor import ThreatActorTechnique
from app.models.osint_item import OsintItem
from app.models.test import Test
from app.models.detection_lifecycle import (
    TechniqueConfidenceScore,
    DetectionTechniqueMapping,
)
from app.models.enums import TechniqueStatus, TestResult


# ── Scoring weights & thresholds ───────────────────────────────────────────────

WEIGHT_DETECTION_GAP   = 0.35
WEIGHT_THREAT_ACTORS   = 0.30
WEIGHT_OSINT           = 0.20
WEIGHT_TEST_FAILURES   = 0.15

MAX_THREAT_ACTORS  = 5
MAX_OSINT_SIGNALS  = 10
OSINT_LOOKBACK_DAYS = 30

LEVEL_CRITICAL = 75.0
LEVEL_HIGH     = 50.0
LEVEL_MEDIUM   = 25.0
LEVEL_LOW      = 10.0


def _risk_level(score: float) -> str:
    if score >= LEVEL_CRITICAL: return "critical"
    if score >= LEVEL_HIGH:     return "high"
    if score >= LEVEL_MEDIUM:   return "medium"
    if score >= LEVEL_LOW:      return "low"
    return "info"


def _clamp(v: float, lo: float = 0.0, hi: float = 1.0) -> float:
    return max(lo, min(hi, v))


# ── Per-technique computation ──────────────────────────────────────────────────

def _compute_for_technique(db: Session, tech: Technique) -> TechniqueRiskProfile:
    breakdown: dict = {}
    recs: list = []

    # ── Factor 1: Detection gap ───────────────────────────────────────────────
    # Count how many assets map this technique
    mapping_count = db.query(DetectionTechniqueMapping).filter(
        DetectionTechniqueMapping.technique_id == tech.id,
    ).count()

    # DLC confidence score (unique per technique — no order_by needed)
    dlc_conf = db.query(TechniqueConfidenceScore).filter(
        TechniqueConfidenceScore.technique_id == tech.id,
    ).first()
    confidence_level: float = float(dlc_conf.confidence_score or 0.0) if dlc_conf else 0.0

    # Map technique status_global to coverage factor
    status = tech.status_global
    if status == TechniqueStatus.validated:
        status_coverage = 1.0
    elif status == TechniqueStatus.partial:
        status_coverage = 0.5
    elif status == TechniqueStatus.in_progress:
        status_coverage = 0.25
    else:
        status_coverage = 0.0

    if mapping_count > 0:
        raw_coverage = max(status_coverage, _clamp(confidence_level))
    else:
        raw_coverage = status_coverage   # rely on status alone if no asset mapping

    detection_gap = 1.0 - raw_coverage
    breakdown["detection_gap"] = {
        "mapping_count":   mapping_count,
        "status":          str(status.value) if status else None,
        "status_coverage": status_coverage,
        "confidence_level": round(confidence_level, 3),
        "detection_gap":   round(detection_gap, 3),
        "contribution":    round(detection_gap * WEIGHT_DETECTION_GAP * 100, 2),
    }
    if detection_gap >= 0.8:
        recs.append("Implement detection coverage — technique is largely undetected.")
    elif detection_gap >= 0.5:
        recs.append("Improve detection quality — coverage is partial.")

    # ── Factor 2: Threat actor relevance ─────────────────────────────────────
    actor_count = db.query(ThreatActorTechnique).filter(
        ThreatActorTechnique.technique_id == tech.id,
    ).count()
    ta_factor = _clamp(actor_count / MAX_THREAT_ACTORS)
    breakdown["threat_actor"] = {
        "actor_count":  actor_count,
        "max_cap":      MAX_THREAT_ACTORS,
        "normalised":   round(ta_factor, 3),
        "contribution": round(ta_factor * WEIGHT_THREAT_ACTORS * 100, 2),
    }
    if actor_count >= 3:
        recs.append(
            f"High threat-actor relevance — {actor_count} tracked actors use this technique."
        )
    elif actor_count >= 1:
        recs.append(
            f"{actor_count} threat actor(s) use this technique — monitor closely."
        )

    # ── Factor 3: OSINT signals (last 30 days) ────────────────────────────────
    cutoff = datetime.utcnow() - timedelta(days=OSINT_LOOKBACK_DAYS)
    osint_count = db.query(OsintItem).filter(
        OsintItem.technique_id == tech.id,
        OsintItem.discovered_at >= cutoff,
    ).count()
    osint_factor = _clamp(osint_count / MAX_OSINT_SIGNALS)
    breakdown["osint"] = {
        "signal_count_30d": osint_count,
        "max_cap":          MAX_OSINT_SIGNALS,
        "normalised":       round(osint_factor, 3),
        "contribution":     round(osint_factor * WEIGHT_OSINT * 100, 2),
    }
    if osint_count >= 5:
        recs.append(
            f"High OSINT activity — {osint_count} signals in last 30 days. Review urgently."
        )
    elif osint_count >= 1:
        recs.append(
            f"{osint_count} OSINT signal(s) in last 30 days. Review for IoCs."
        )

    # ── Factor 4: Test failure rate ───────────────────────────────────────────
    # Use Test.result (TestResult enum) to determine not-detected count
    tech_tests = db.query(Test).filter(Test.technique_id == tech.id).all()
    test_total = len([t for t in tech_tests if t.result is not None])
    test_not_detected = sum(
        1 for t in tech_tests
        if t.result == TestResult.not_detected
    )
    test_failure_rate = (test_not_detected / test_total) if test_total > 0 else 0.0
    # No tests → moderate unknown risk factor
    test_factor = test_failure_rate if test_total > 0 else 0.3

    breakdown["test_failures"] = {
        "total_tests":    test_total,
        "not_detected":   test_not_detected,
        "failure_rate":   round(test_failure_rate, 3),
        "factor_used":    round(test_factor, 3),
        "contribution":   round(test_factor * WEIGHT_TEST_FAILURES * 100, 2),
    }
    if test_total == 0:
        recs.append("No purple-team tests found — add tests to validate detection.")
    elif test_failure_rate >= 0.5:
        recs.append(
            f"High test failure rate ({test_failure_rate:.0%}) — blue team misses this technique."
        )

    # ── Aggregate scores ──────────────────────────────────────────────────────
    raw_score = (
        detection_gap * WEIGHT_DETECTION_GAP
        + ta_factor   * WEIGHT_THREAT_ACTORS
        + osint_factor * WEIGHT_OSINT
        + test_factor * WEIGHT_TEST_FAILURES
    )
    risk_score = _clamp(raw_score) * 100.0
    likelihood = _clamp(
        detection_gap * 0.5 + ta_factor * 0.35 + osint_factor * 0.15
    ) * 100.0
    impact = _clamp(
        test_factor * 0.6 + osint_factor * 0.25 + detection_gap * 0.15
    ) * 100.0
    level = _risk_level(risk_score)

    breakdown["total"] = {
        "risk_score": round(risk_score, 2),
        "likelihood": round(likelihood, 2),
        "impact":     round(impact, 2),
        "risk_level": level,
    }

    return TechniqueRiskProfile(
        technique_id       = tech.id,
        risk_score         = round(risk_score, 4),
        likelihood         = round(likelihood, 4),
        impact             = round(impact, 4),
        risk_level         = level,
        detection_gap      = round(detection_gap, 4),
        threat_actor_count = actor_count,
        osint_signal_count = osint_count,
        test_fail_count    = test_not_detected,
        test_total_count   = test_total,
        test_failure_rate  = round(test_failure_rate, 4),
        confidence_level   = round(confidence_level, 4),
        scoring_breakdown  = breakdown,
        recommendations    = recs or ["Risk profile looks healthy — continue monitoring."],
        computed_at        = datetime.utcnow(),
        is_stale           = False,
    )


# ── Upsert ─────────────────────────────────────────────────────────────────────

def _upsert_profile(db: Session, profile: TechniqueRiskProfile) -> TechniqueRiskProfile:
    existing = db.query(TechniqueRiskProfile).filter(
        TechniqueRiskProfile.technique_id == profile.technique_id,
    ).first()
    if existing:
        for attr in (
            "risk_score", "likelihood", "impact", "risk_level",
            "detection_gap", "threat_actor_count", "osint_signal_count",
            "test_fail_count", "test_total_count", "test_failure_rate",
            "confidence_level", "scoring_breakdown", "recommendations",
            "computed_at", "is_stale",
        ):
            setattr(existing, attr, getattr(profile, attr))
        db.commit()
        db.refresh(existing)
        return existing
    db.add(profile)
    db.commit()
    db.refresh(profile)
    return profile


# ── Public API ────────────────────────────────────────────────────────────────

def compute_technique_risk(db: Session, technique_id: UUID) -> TechniqueRiskProfile:
    tech = db.query(Technique).filter(Technique.id == technique_id).first()
    if not tech:
        raise EntityNotFoundError("Technique", str(technique_id))
    profile = _compute_for_technique(db, tech)
    return _upsert_profile(db, profile)


def compute_all_risk_scores(db: Session) -> dict:
    t0 = time.monotonic()
    techniques = db.query(Technique).all()
    computed = 0
    errors = 0
    for tech in techniques:
        try:
            profile = _compute_for_technique(db, tech)
            _upsert_profile(db, profile)
            computed += 1
        except Exception:
            errors += 1
    return {
        "computed":         computed,
        "skipped":          0,
        "errors":           errors,
        "duration_seconds": round(time.monotonic() - t0, 2),
    }


def get_risk_profile(db: Session, technique_id: UUID) -> TechniqueRiskProfile:
    profile = db.query(TechniqueRiskProfile).filter(
        TechniqueRiskProfile.technique_id == technique_id,
    ).first()
    if not profile:
        raise EntityNotFoundError("TechniqueRiskProfile", str(technique_id))
    return profile


def list_risk_profiles(
    db: Session,
    risk_level: Optional[str]   = None,
    min_score:  Optional[float] = None,
    max_score:  Optional[float] = None,
    stale_only: bool = False,
    limit:      int  = 100,
    offset:     int  = 0,
) -> List[TechniqueRiskProfile]:
    q = db.query(TechniqueRiskProfile)
    if risk_level:
        q = q.filter(TechniqueRiskProfile.risk_level == risk_level)
    if min_score is not None:
        q = q.filter(TechniqueRiskProfile.risk_score >= min_score)
    if max_score is not None:
        q = q.filter(TechniqueRiskProfile.risk_score <= max_score)
    if stale_only:
        q = q.filter(TechniqueRiskProfile.is_stale == True)
    return (
        q.order_by(TechniqueRiskProfile.risk_score.desc())
        .offset(offset).limit(limit).all()
    )


def get_risk_matrix(db: Session) -> list:
    rows = (
        db.query(TechniqueRiskProfile, Technique)
        .join(Technique, TechniqueRiskProfile.technique_id == Technique.id)
        .order_by(TechniqueRiskProfile.risk_score.desc())
        .all()
    )
    return [
        {
            "technique_id":   str(p.technique_id),
            "technique_name": t.name,
            "technique_tid":  t.mitre_id,
            "risk_score":     p.risk_score,
            "likelihood":     p.likelihood,
            "impact":         p.impact,
            "risk_level":     p.risk_level,
            "detection_gap":  p.detection_gap,
            "computed_at":    p.computed_at.isoformat() if p.computed_at else None,
        }
        for p, t in rows
    ]


def get_risk_summary(db: Session) -> dict:
    all_profiles = db.query(TechniqueRiskProfile).all()
    total_tech   = db.query(Technique).count()
    scored       = len(all_profiles)
    stale        = sum(1 for p in all_profiles if p.is_stale)

    by_level: dict = {l: 0 for l in ("critical", "high", "medium", "low", "info")}
    score_sum = 0.0
    for p in all_profiles:
        by_level[p.risk_level] = by_level.get(p.risk_level, 0) + 1
        score_sum += p.risk_score
    avg_score = (score_sum / scored) if scored > 0 else 0.0

    top_rows = (
        db.query(TechniqueRiskProfile, Technique)
        .join(Technique, TechniqueRiskProfile.technique_id == Technique.id)
        .order_by(TechniqueRiskProfile.risk_score.desc())
        .limit(5).all()
    )
    top_risks = [
        {
            "technique_id":   str(p.technique_id),
            "technique_name": t.name,
            "technique_tid":  t.mitre_id,
            "risk_score":     p.risk_score,
            "risk_level":     p.risk_level,
            "likelihood":     p.likelihood,
            "impact":         p.impact,
            "detection_gap":  p.detection_gap,
            "computed_at":    p.computed_at.isoformat() if p.computed_at else None,
        }
        for p, t in top_rows
    ]
    return {
        "total_techniques":  total_tech,
        "scored_techniques": scored,
        "stale_count":       stale,
        "by_level":          by_level,
        "avg_risk_score":    round(avg_score, 2),
        "top_risks":         top_risks,
    }


def get_recommendations(db: Session, limit: int = 20) -> list:
    rows = (
        db.query(TechniqueRiskProfile, Technique)
        .join(Technique, TechniqueRiskProfile.technique_id == Technique.id)
        .filter(TechniqueRiskProfile.risk_score > 0)
        .order_by(TechniqueRiskProfile.risk_score.desc())
        .limit(limit).all()
    )
    return [
        {
            "technique_id":    str(p.technique_id),
            "technique_name":  t.name,
            "technique_tid":   t.technique_id,
            "risk_level":      p.risk_level,
            "risk_score":      p.risk_score,
            "recommendations": p.recommendations or [],
            "priority":        i,
        }
        for i, (p, t) in enumerate(rows, start=1)
    ]