Merge pull request 'feature/oidc-login' (#17 ) from feature/oidc-login into main

Reviewed-on: #17
fix(security): block OIDC-binding privilege escalation
2026-05-17 21:27:39 +00:00 · 2026-05-17 22:07:43 +01:00 · 2026-05-17 21:05:39 +01:00 · 2026-05-17 20:50:59 +01:00 · 2026-05-17 20:40:26 +01:00 · 2026-05-17 20:29:15 +01:00
34 changed files with 628 additions and 3122 deletions
--- a/.env.example
+++ b/.env.example
@@ -1,34 +1,11 @@
-# HarborForge Backend Environment Variables (v0.4.0+ — wizard removed)
+# HarborForge Environment Variables
-# --- Database (used by both the mysql container and the backend) -----------
+# Database
 MYSQL_ROOT_PASSWORD=harborforge_root
 MYSQL_DATABASE=harborforge
 MYSQL_USER=harborforge
 MYSQL_PASSWORD=harborforge_pass
 # Full DSN used by the backend container. Default points to a service
 # named "mysql" on the same docker network. Override if your DB is elsewhere.
 DATABASE_URL=mysql+pymysql://harborforge:harborforge_pass@mysql:3306/harborforge
-# --- Application ----------------------------------------------------------
+# Application
 # Must be 32+ chars and not a placeholder; use: openssl rand -hex 32
 SECRET_KEY=change-me-use-openssl-rand-hex-32
 LOG_LEVEL=INFO
 # When true: password login is disabled, all sign-in goes through OIDC,
 # user creation ignores any password (passwordless users that can only
 # authenticate via OIDC binding or API keys). Frontend hides password UI.
 HARBORFORGE_OIDC_ONLY=false
 # --- Discord wakeup (optional; previously in wizard config) ---------------
 # Used by /agents/{id}/wakeup to spin a private Discord channel + DM.
 HARBORFORGE_DISCORD_GUILD_ID=
 HARBORFORGE_DISCORD_BOT_TOKEN=
 # --- OIDC issuer / client_id / client_secret / redirect_uri ---------------
 # NOT env vars in v0.4.0+. Configure via:
 #   docker exec hf-backend hf-cli config oidc \
 #     --issuer https://login.example.com/realms/foo \
 #     --client-id harborforge --client-secret <s> \
 #     --redirect-uri https://hf-api.example.com/auth/oidc/callback \
 #     --post-login-redirect https://hf.example.com/oidc/callback \
 #     --enabled true
--- a/6
+++ b/6
@@ -42,12 +42,6 @@ COPY requirements.txt ./
 COPY entrypoint.sh .
 RUN chmod +x entrypoint.sh
 # Install hf-cli as a /usr/local/bin shim that re-enters the app package
 # (so `docker exec hf-backend hf-cli admin create-user ...` works). The
 # CLI reads the same DATABASE_URL / SECRET_KEY env as the backend.
 RUN printf '#!/bin/sh\nexec python -m app.cli "$@"\n' > /usr/local/bin/hf-cli && \
    chmod +x /usr/local/bin/hf-cli
 # OIDC-only mode: when "true", password login is rejected, user creation
 # ignores passwords (passwordless users that sign in via a bound OIDC
 # identity / API keys). Overridable at runtime via the same env var.
--- a/app/api/deps.py
+++ b/app/api/deps.py
@@ -59,43 +59,22 @@ async def get_current_user(token: str = Depends(oauth2_scheme), db: Session = De
    return user
 def _lookup_api_key(db: Session, key: str) -> models.User | None:
    """Resolve an API key string to a User; mark last_used_at on hit."""
    if not key:
        return None
    key_obj = db.query(APIKey).filter(APIKey.key == key, APIKey.is_active == True).first()  # noqa: E712
    if not key_obj:
        return None
    key_obj.last_used_at = datetime.utcnow()
    db.commit()
    return db.query(models.User).filter(models.User.id == key_obj.user_id).first()
 async def get_current_user_or_apikey(
    token: str = Depends(oauth2_scheme),
    api_key: str = Depends(apikey_header),
    db: Session = Depends(get_db)
 ):
-    """Authenticate via JWT token (Authorization: Bearer <jwt>) OR API key
+    """Authenticate via JWT token OR API key."""
    (X-API-Key: <key>, OR — as a convenience for CLI clients that only know
    Bearer — Authorization: Bearer <api-key>; falls back when JWT decode fails).
    """
    # Native X-API-Key header
    if api_key:
-        user = _lookup_api_key(db, api_key)
+        key_obj = db.query(APIKey).filter(APIKey.key == api_key, APIKey.is_active == True).first()
        if key_obj:
            key_obj.last_used_at = datetime.utcnow()
            db.commit()
            user = db.query(models.User).filter(models.User.id == key_obj.user_id).first()
            if user:
                return user
    # Bearer header — try JWT first, then API key on decode failure
    if token:
        try:
        return await get_current_user(token=token, db=db)
        except HTTPException:
            user = _lookup_api_key(db, token)
            if user:
                return user
            raise
    raise HTTPException(status_code=401, detail="Not authenticated")
--- a/app/api/routers/auth.py
+++ b/app/api/routers/auth.py
@@ -11,7 +11,7 @@ from app.core.config import get_db, settings
 from app.models import models
 from app.models.role_permission import Permission, Role, RolePermission
 from app.schemas import schemas
-from app.api.deps import Token, verify_password, create_access_token, get_current_user, get_current_user_or_apikey
+from app.api.deps import Token, verify_password, create_access_token, get_current_user
 router = APIRouter(prefix="/auth", tags=["Auth"])
@@ -80,7 +80,7 @@ class PermissionIntrospectionResponse(BaseModel):
@router.get("/me/permissions", response_model=PermissionIntrospectionResponse)
 async def get_my_permissions(
-    current_user: models.User = Depends(get_current_user_or_apikey),
+    current_user: models.User = Depends(get_current_user),
    db: Session = Depends(get_db),
 ):
    """Return the current user's effective permissions for CLI help introspection."""
--- a/app/api/routers/calendar.py
+++ b/app/api/routers/calendar.py
@@ -21,11 +21,6 @@ from app.core.config import get_db
 from app.models.calendar import SchedulePlan, SlotStatus, SlotType, TimeSlot
 from app.models.models import User
 from app.models.agent import Agent, AgentStatus, ExhaustReason
 from app.models.schedule_type import ScheduleType
 from app.services.special_slot_materialiser import (
    materialise_special_slots_for_claw,
    materialise_special_slots_for_user,
 )
 from app.schemas.calendar import (
    AgentHeartbeatResponse,
    AgentStatusUpdateRequest,
@@ -52,7 +47,6 @@ from app.schemas.calendar import (
 )
 from app.services.agent_heartbeat import get_pending_slots_for_agent
 from app.services.agent_status import (
    AgentStatusError,
    record_heartbeat,
    transition_to_busy,
    transition_to_idle,
@@ -149,8 +143,6 @@ def _slot_to_response(slot: TimeSlot) -> TimeSlotResponse:
        priority=slot.priority,
        status=slot.status.value if hasattr(slot.status, "value") else str(slot.status),
        plan_id=slot.plan_id,
        is_admin_locked=bool(getattr(slot, "is_admin_locked", False)),
        special_slot_id=getattr(slot, "special_slot_id", None),
        created_at=slot.created_at,
        updated_at=slot.updated_at,
    )
@@ -176,48 +168,6 @@ def create_slot(
    """
    target_date = payload.date or date_type.today()
    # --- Maintenance-window guard ---
    # Non-`system` slots may not be placed inside the schedule_type's
    # 1-hour maintenance window. The window is admin-territory, reserved
    # for materialised special slots from `schedule_type_special_slots`.
    # `system` slot_type is itself reserved server-side (the materialiser
    # is the only legitimate caller) — refuse it here outright so the
    # public API cannot manufacture a fake admin-locked slot.
    if payload.slot_type == SlotType.SYSTEM:
        raise HTTPException(
            status_code=422,
            detail=(
                "slot_type='system' is reserved for schedule_type special slots "
                "and cannot be created via this endpoint"
            ),
        )
    _agent_for_user = (
        db.query(Agent).filter(Agent.user_id == current_user.id).first()
    )
    if _agent_for_user and _agent_for_user.schedule_type_id:
        st = (
            db.query(ScheduleType)
            .filter(ScheduleType.id == _agent_for_user.schedule_type_id)
            .first()
        )
        if st and _scheduled_inside_window(
            payload.scheduled_at,
            payload.estimated_duration,
            st.maintenance_from,
            st.maintenance_to,
        ):
            mf_h, mf_m = divmod(st.maintenance_from, 60)
            mt_h, mt_m = divmod(st.maintenance_to, 60)
            raise HTTPException(
                status_code=422,
                detail=(
                    f"slot at {payload.scheduled_at} duration {payload.estimated_duration}min "
                    f"intersects the maintenance window "
                    f"{mf_h:02d}:{mf_m:02d}-{mt_h:02d}:{mt_m:02d} UTC of "
                    f"schedule_type '{st.name}' — that window is admin-reserved"
                ),
            )
    # --- Overlap check (hard reject) ---
    conflicts = check_overlap_for_create(
        db,
@@ -286,8 +236,6 @@ def _real_slot_to_item(slot: TimeSlot) -> CalendarSlotItem:
        priority=slot.priority,
        status=slot.status.value if hasattr(slot.status, "value") else str(slot.status),
        plan_id=slot.plan_id,
        is_admin_locked=bool(getattr(slot, "is_admin_locked", False)),
        special_slot_id=getattr(slot, "special_slot_id", None),
        created_at=slot.created_at,
        updated_at=slot.updated_at,
    )
@@ -341,47 +289,7 @@ def _require_agent(db: Session, agent_id: str, claw_identifier: str) -> Agent:
    return agent
 def _scheduled_inside_window(
    scheduled_at,
    estimated_duration_minutes: int,
    window_from_min: int,
    window_to_min: int,
 ) -> bool:
    """True if [scheduled_at, scheduled_at+duration] intersects [from, to).
    Window bounds are minutes-since-UTC-midnight (0-1439). Handles the
    case where the window crosses UTC midnight (e.g. 23:30→01:00).
    """
    start_min = scheduled_at.hour * 60 + scheduled_at.minute
    end_min = start_min + max(estimated_duration_minutes, 1)
    if window_to_min > window_from_min:
        # normal same-day window
        return start_min < window_to_min and end_min > window_from_min
    # wrap-around: window = [from..1440) ∪ [0..to)
    return (start_min < 1440 and end_min > window_from_min) or end_min > window_to_min
 # Admin-locked special slots accept only these agent-driven status
 # transitions; movement / cancellation / arbitrary status edits are
 # rejected because the schedule_type owner is the source of truth.
 _ADMIN_LOCKED_ALLOWED_STATUSES = {
    SlotStatusEnum.ONGOING,
    SlotStatusEnum.PAUSED,
    SlotStatusEnum.FINISHED,
    SlotStatusEnum.ABORTED,
 }
 def _apply_agent_slot_update(slot: TimeSlot, payload: SlotAgentUpdate) -> None:
    if getattr(slot, "is_admin_locked", False):
        if payload.status not in _ADMIN_LOCKED_ALLOWED_STATUSES:
            raise HTTPException(
                status_code=423,
                detail=(
                    f"slot {slot.id} is admin-locked (special slot); only "
                    f"ongoing/paused/finished/aborted are allowed via agent-update"
                ),
            )
    slot.status = payload.status.value
    if payload.started_at is not None:
        slot.started_at = payload.started_at
@@ -469,12 +377,6 @@ def sync_schedules(
    """
    today = date_type.today()
    # Materialise today's special slots for every agent on this claw
    # before reading. This is idempotent — re-runs against an already-
    # materialised (agent, date, template) are no-ops. Plugin's runSync
    # picks them up like any other slot via the normal real_slots query.
    materialise_special_slots_for_claw(db, x_claw_identifier, today, commit=True)
    # Find all agents on this claw instance
    agents = (
        db.query(Agent)
@@ -562,29 +464,6 @@ def agent_update_virtual_slot(
    return TimeSlotEditResponse(slot=_slot_to_response(slot), warnings=[])
@router.get(
    "/agent/status",
    summary="Read an agent's current runtime status (no side effects)",
 )
 def get_agent_status(
    agent_id: str = Query(..., description="Target agent_id"),
    x_claw_identifier: str = Header(..., alias="X-Claw-Identifier"),
    db: Session = Depends(get_db),
 ):
    """Return `{agent_id, status}` so callers (Fabric.OpenclawPlugin's
    triage on-call gate, etc.) can decide whether the agent is currently
    eligible without flipping their state.
    No-op for unknown agents — returns 404 with `{detail: 'Agent not
    found'}` so the caller can decide whether to fail-open or fail-closed.
    """
    agent = _require_agent(db, agent_id, x_claw_identifier)
    return {
        "agent_id": agent.agent_id,
        "status": agent.status.value if hasattr(agent.status, 'value') else str(agent.status),
    }
@router.post(
    "/agent/status",
    summary="Update agent runtime status from plugin",
@@ -595,13 +474,6 @@ def update_agent_status(
 ):
    agent = _require_agent(db, payload.agent_id, payload.claw_identifier)
    target = (payload.status or '').lower().strip()
    # Idempotent same-state transition: a 'busy → busy' request is a
    # no-op rather than a 500. Lets plugin status gates / cli `--set`
    # be safe to fire-and-forget without first reading current state.
    current = agent.status.value if hasattr(agent.status, 'value') else str(agent.status)
    if current == target:
        return {"ok": True, "agent_id": agent.agent_id, "status": current, "no_change": True}
    try:
    if target == AgentStatus.IDLE.value:
        transition_to_idle(db, agent)
    elif target == AgentStatus.BUSY.value:
@@ -615,11 +487,6 @@ def update_agent_status(
        transition_to_exhausted(db, agent, reason=reason, recovery_at=payload.recovery_at)
    else:
        raise HTTPException(status_code=400, detail="Unsupported agent status")
    except AgentStatusError as e:
        # State-machine violation (e.g. busy → busy via wrong precondition)
        # → 409 with the rejected transition explained, instead of a 500.
        db.rollback()
        raise HTTPException(status_code=409, detail=str(e))
    db.commit()
    return {"ok": True, "agent_id": agent.agent_id, "status": agent.status.value if hasattr(agent.status, 'value') else str(agent.status)}
@@ -647,10 +514,6 @@ def get_calendar_day(
    """
    target_date = date or date_type.today()
    # Materialise today's special slots for this user before reading,
    # so the day-view returns them alongside any user-created slots.
    materialise_special_slots_for_user(db, current_user.id, target_date, commit=True)
    # 1. Fetch real slots for the day
    real_slots = (
        db.query(TimeSlot)
@@ -726,20 +589,6 @@ def edit_real_slot(
    if slot is None:
        raise HTTPException(status_code=404, detail="Slot not found")
    # --- Admin-locked guard ---
    # Special slots materialised from a schedule_type template are
    # admin-owned; agents may complete/abort/pause/resume via the
    # plugin-facing agent-update endpoint but cannot edit time/type/
    # duration/event-data via this user-facing edit endpoint.
    if getattr(slot, "is_admin_locked", False):
        raise HTTPException(
            status_code=423,
            detail=(
                f"slot {slot.id} is admin-locked (materialised from a special "
                f"slot template); only the schedule_type owner can edit it"
            ),
        )
    # --- Past-slot guard ---
    try:
        guard_edit_real_slot(db, slot)
@@ -907,16 +756,6 @@ def cancel_real_slot(
    if slot is None:
        raise HTTPException(status_code=404, detail="Slot not found")
    # --- Admin-locked guard ---
    if getattr(slot, "is_admin_locked", False):
        raise HTTPException(
            status_code=423,
            detail=(
                f"slot {slot.id} is admin-locked (materialised from a special "
                f"slot template); only the schedule_type owner can cancel it"
            ),
        )
    # --- Past-slot guard ---
    try:
        guard_cancel_real_slot(db, slot)
--- a/app/api/routers/knowledge.py
+++ b/app/api/routers/knowledge.py
@@ -1,735 +0,0 @@
 """Knowledge Base router with global-permission RBAC.
 Permissions (global, granted via the Role Editor; admins auto-pass):
    knowledge-base.create   create a knowledge base
    knowledge-base.read     read any knowledge base / topic / category / fact
    knowledge-base.update   edit a KB and its topic/category/fact structure,
                            and link/unlink knowledge bases to projects
    knowledge-base.delete   delete a knowledge base
 There is no per-KB membership model (unlike projects) — access is purely by
 the four global permissions above.
 """
 import re
 from typing import List, Optional
 from fastapi import APIRouter, Depends, HTTPException, status
 from sqlalchemy.orm import Session
 from app.core.config import get_db
 from app.models import models
 from app.models import knowledge as kb_models
 from app.schemas import knowledge as kb_schemas
 from app.api.deps import get_current_user_or_apikey
 router = APIRouter(tags=["KnowledgeBase"])
 PERM_CREATE = "knowledge-base.create"
 PERM_READ = "knowledge-base.read"
 PERM_UPDATE = "knowledge-base.update"
 PERM_DELETE = "knowledge-base.delete"
 # ---------------------------------------------------------------------------
 # Permission helper (global perms only)
 # ---------------------------------------------------------------------------
 def _require_perm(db: Session, user: models.User, perm_name: str) -> None:
    if user.is_admin:
        return
    from app.models.role_permission import Permission, RolePermission
    has = (
        db.query(Permission.id)
        .join(RolePermission, RolePermission.permission_id == Permission.id)
        .filter(
            RolePermission.role_id == user.role_id,
            Permission.name == perm_name,
        )
        .first()
        if user.role_id
        else None
    )
    if not has:
        raise HTTPException(
            status_code=status.HTTP_403_FORBIDDEN,
            detail=f"Permission denied: {perm_name} required",
        )
 # ---------------------------------------------------------------------------
 # Knowledge-base code generation (same rules as project_code)
 # ---------------------------------------------------------------------------
 WORD_SEGMENT_RE = re.compile(r"[A-Za-z]+")
 CAMEL_RE = re.compile(r"[A-Z]+(?=[A-Z][a-z])|[A-Z]?[a-z]+|[A-Z]+")
 def _split_words(name: str):
    segments = WORD_SEGMENT_RE.findall(name or "")
    words = []
    for seg in segments:
        for part in CAMEL_RE.findall(seg):
            if part.isupper() and len(part) > 1:
                words.extend(list(part))
            else:
                words.append(part)
    return words
 def _code_exists(db: Session, code: str) -> bool:
    return (
        db.query(kb_models.KnowledgeBase)
        .filter(kb_models.KnowledgeBase.knowledge_base_code == code)
        .first()
        is not None
    )
 def _next_counter(db: Session, prefix: str, width: int) -> str:
    if width <= 0:
        return ""
    counter = (
        db.query(kb_models.KnowledgeBaseCodeCounter)
        .filter(kb_models.KnowledgeBaseCodeCounter.prefix == prefix)
        .first()
    )
    if not counter:
        counter = kb_models.KnowledgeBaseCodeCounter(prefix=prefix, next_value=0)
        db.add(counter)
        db.flush()
    value = counter.next_value
    counter.next_value += 1
    db.flush()
    return format(value, "x").upper().zfill(width)
 def _generate_with_counter(db: Session, prefix: str, width: int) -> str:
    while True:
        suffix = _next_counter(db, prefix, width)
        code = (prefix + suffix).upper()
        if not _code_exists(db, code):
            return code
 def _generate_kb_code(db: Session, title: str) -> str:
    words = _split_words(title)
    if not words:
        return _generate_with_counter(db, "UN", 4)
    if len(words) == 1:
        letters = "".join(c for c in words[0] if c.isalpha()).upper()
        if not letters:
            return _generate_with_counter(db, "UN", 4)
        if len(letters) >= 6:
            code = letters[:6]
            if _code_exists(db, code):
                return _generate_with_counter(db, letters[:2], 4)
            return code
        prefix = letters
        return _generate_with_counter(db, prefix, 6 - len(prefix))
    total_letters = sum(len(w) for w in words)
    if len(words) > 6:
        code = "".join(w[0] for w in words[:6]).upper()
        if _code_exists(db, code):
            return _generate_with_counter(db, code[:2], 4)
        return code
    if total_letters < 6:
        prefix = "".join(words).upper()
        return _generate_with_counter(db, prefix, 6 - len(prefix))
    if total_letters == 6:
        code = "".join(words).upper()
        if _code_exists(db, code):
            return _generate_with_counter(db, code[:2], 4)
        return code
    # total_letters > 6: initials, then fill from a counter on collision
    code = "".join(w[0] for w in words).upper()[:6]
    if not _code_exists(db, code):
        return code
    return _generate_with_counter(db, code[:2], 4)
 # ---------------------------------------------------------------------------
 # Resolvers
 # ---------------------------------------------------------------------------
 def _resolve_kb(db: Session, identifier: str) -> kb_models.KnowledgeBase:
    kb = None
    try:
        kb = db.query(kb_models.KnowledgeBase).filter(kb_models.KnowledgeBase.id == int(identifier)).first()
    except (ValueError, TypeError):
        kb = (
            db.query(kb_models.KnowledgeBase)
            .filter(kb_models.KnowledgeBase.knowledge_base_code == str(identifier))
            .first()
        )
    if not kb:
        raise HTTPException(status_code=404, detail="Knowledge base not found")
    return kb
 def _resolve_project(db: Session, identifier: str) -> models.Project:
    project = None
    try:
        project = db.query(models.Project).filter(models.Project.id == int(identifier)).first()
    except (ValueError, TypeError):
        project = db.query(models.Project).filter(models.Project.project_code == str(identifier)).first()
    if not project:
        raise HTTPException(status_code=404, detail="Project not found")
    return project
 def _get_topic(db: Session, topic_id: int) -> kb_models.KnowledgeTopic:
    topic = db.query(kb_models.KnowledgeTopic).filter(kb_models.KnowledgeTopic.id == topic_id).first()
    if not topic:
        raise HTTPException(status_code=404, detail="Topic not found")
    return topic
 def _get_category(db: Session, category_id: int) -> kb_models.KnowledgeCategory:
    cat = db.query(kb_models.KnowledgeCategory).filter(kb_models.KnowledgeCategory.id == category_id).first()
    if not cat:
        raise HTTPException(status_code=404, detail="Category not found")
    return cat
 def _descendant_category_ids(db: Session, category_id: int) -> List[int]:
    """Return [category_id, ...all nested descendants] (deepest last)."""
    collected = [category_id]
    frontier = [category_id]
    while frontier:
        children = (
            db.query(kb_models.KnowledgeCategory.id)
            .filter(kb_models.KnowledgeCategory.parent.in_(frontier))
            .all()
        )
        child_ids = [c.id for c in children]
        if not child_ids:
            break
        collected.extend(child_ids)
        frontier = child_ids
    return collected
 # ===========================================================================
 # Knowledge Base CRUD
 # ===========================================================================
@router.post("/knowledge-bases", response_model=kb_schemas.KnowledgeBaseResponse, status_code=status.HTTP_201_CREATED)
 def create_knowledge_base(
    payload: kb_schemas.KnowledgeBaseCreate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_CREATE)
    kb = kb_models.KnowledgeBase(
        title=payload.title,
        description=payload.description,
        created_by=current_user.id,
        knowledge_base_code=_generate_kb_code(db, payload.title),
    )
    db.add(kb)
    db.commit()
    db.refresh(kb)
    return kb
@router.get("/knowledge-bases", response_model=List[kb_schemas.KnowledgeBaseResponse])
 def list_knowledge_bases(
    skip: int = 0,
    limit: int = 100,
    project: Optional[str] = None,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    q = db.query(kb_models.KnowledgeBase)
    if project is not None:
        proj = _resolve_project(db, project)
        linked_ids = [
            row.knowledge_base_id
            for row in db.query(kb_models.ProjectKnowledgeBase.knowledge_base_id)
            .filter(kb_models.ProjectKnowledgeBase.project_id == proj.id)
            .all()
        ]
        if not linked_ids:
            return []
        q = q.filter(kb_models.KnowledgeBase.id.in_(linked_ids))
    return q.order_by(kb_models.KnowledgeBase.id).offset(skip).limit(limit).all()
@router.get("/knowledge-bases/{kb_id}", response_model=kb_schemas.KnowledgeBaseResponse)
 def get_knowledge_base(
    kb_id: str,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    return _resolve_kb(db, kb_id)
@router.patch("/knowledge-bases/{kb_id}", response_model=kb_schemas.KnowledgeBaseResponse)
 def update_knowledge_base(
    kb_id: str,
    payload: kb_schemas.KnowledgeBaseUpdate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    kb = _resolve_kb(db, kb_id)
    data = payload.model_dump(exclude_unset=True)
    for field, value in data.items():
        setattr(kb, field, value)
    db.commit()
    db.refresh(kb)
    return kb
@router.delete("/knowledge-bases/{kb_id}", status_code=status.HTTP_204_NO_CONTENT)
 def delete_knowledge_base(
    kb_id: str,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_DELETE)
    kb = _resolve_kb(db, kb_id)
    topic_ids = [
        t.id
        for t in db.query(kb_models.KnowledgeTopic.id)
        .filter(kb_models.KnowledgeTopic.knowledge_base_id == kb.id)
        .all()
    ]
    if topic_ids:
        db.query(kb_models.KnowledgeFact).filter(kb_models.KnowledgeFact.topic_id.in_(topic_ids)).delete(synchronize_session=False)
        db.query(kb_models.KnowledgeCategory).filter(kb_models.KnowledgeCategory.topic_id.in_(topic_ids)).delete(synchronize_session=False)
        db.query(kb_models.KnowledgeTopic).filter(kb_models.KnowledgeTopic.id.in_(topic_ids)).delete(synchronize_session=False)
    db.query(kb_models.ProjectKnowledgeBase).filter(kb_models.ProjectKnowledgeBase.knowledge_base_id == kb.id).delete(synchronize_session=False)
    db.delete(kb)
    db.commit()
    return None
 # ===========================================================================
 # Tree (read-only aggregate)
 # ===========================================================================
@router.get("/knowledge-bases/{kb_id}/tree", response_model=kb_schemas.KnowledgeBaseTree)
 def get_knowledge_base_tree(
    kb_id: str,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    kb = _resolve_kb(db, kb_id)
    topics = db.query(kb_models.KnowledgeTopic).filter(kb_models.KnowledgeTopic.knowledge_base_id == kb.id).all()
    topic_ids = [t.id for t in topics]
    cats = (
        db.query(kb_models.KnowledgeCategory).filter(kb_models.KnowledgeCategory.topic_id.in_(topic_ids)).all()
        if topic_ids else []
    )
    facts = (
        db.query(kb_models.KnowledgeFact).filter(kb_models.KnowledgeFact.topic_id.in_(topic_ids)).all()
        if topic_ids else []
    )
    # Index facts by (topic_id, category_id) and categories by (topic_id, parent)
    facts_by_cat: dict = {}
    facts_topic_direct: dict = {}
    for f in facts:
        fr = kb_schemas.KnowledgeFactResponse.model_validate(f)
        if f.category_id is None:
            facts_topic_direct.setdefault(f.topic_id, []).append(fr)
        else:
            facts_by_cat.setdefault(f.category_id, []).append(fr)
    cats_by_parent: dict = {}
    for c in cats:
        cats_by_parent.setdefault((c.topic_id, c.parent), []).append(c)
    def build_category(cat) -> kb_schemas.CategoryTreeNode:
        children = cats_by_parent.get((cat.topic_id, cat.id), [])
        return kb_schemas.CategoryTreeNode(
            id=cat.id,
            name=cat.name,
            parent=cat.parent,
            topic_id=cat.topic_id,
            description=cat.description,
            categories=[build_category(ch) for ch in children],
            facts=facts_by_cat.get(cat.id, []),
        )
    topic_nodes = []
    for t in topics:
        top_level_cats = cats_by_parent.get((t.id, None), [])
        topic_nodes.append(
            kb_schemas.TopicTreeNode(
                id=t.id,
                topic=t.topic,
                knowledge_base_id=t.knowledge_base_id,
                description=t.description,
                categories=[build_category(c) for c in top_level_cats],
                facts=facts_topic_direct.get(t.id, []),
            )
        )
    return kb_schemas.KnowledgeBaseTree(
        id=kb.id,
        knowledge_base_code=kb.knowledge_base_code,
        title=kb.title,
        description=kb.description,
        topics=topic_nodes,
    )
 # ===========================================================================
 # Topics
 # ===========================================================================
@router.get("/knowledge-bases/{kb_id}/topics", response_model=List[kb_schemas.KnowledgeTopicResponse])
 def list_topics(
    kb_id: str,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    kb = _resolve_kb(db, kb_id)
    return db.query(kb_models.KnowledgeTopic).filter(kb_models.KnowledgeTopic.knowledge_base_id == kb.id).all()
@router.post("/knowledge-bases/{kb_id}/topics", response_model=kb_schemas.KnowledgeTopicResponse, status_code=status.HTTP_201_CREATED)
 def create_topic(
    kb_id: str,
    payload: kb_schemas.KnowledgeTopicCreate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    kb = _resolve_kb(db, kb_id)
    existing = (
        db.query(kb_models.KnowledgeTopic)
        .filter(
            kb_models.KnowledgeTopic.knowledge_base_id == kb.id,
            kb_models.KnowledgeTopic.topic == payload.topic,
        )
        .first()
    )
    if existing:
        raise HTTPException(status_code=400, detail="A topic with this name already exists in this knowledge base")
    topic = kb_models.KnowledgeTopic(
        topic=payload.topic,
        description=payload.description,
        knowledge_base_id=kb.id,
        created_by=current_user.id,
    )
    db.add(topic)
    db.commit()
    db.refresh(topic)
    return topic
@router.get("/knowledge-topics/{topic_id}", response_model=kb_schemas.KnowledgeTopicResponse)
 def get_topic(
    topic_id: int,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    return _get_topic(db, topic_id)
@router.patch("/knowledge-topics/{topic_id}", response_model=kb_schemas.KnowledgeTopicResponse)
 def update_topic(
    topic_id: int,
    payload: kb_schemas.KnowledgeTopicUpdate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    topic = _get_topic(db, topic_id)
    data = payload.model_dump(exclude_unset=True)
    if "topic" in data and data["topic"] and data["topic"] != topic.topic:
        clash = (
            db.query(kb_models.KnowledgeTopic)
            .filter(
                kb_models.KnowledgeTopic.knowledge_base_id == topic.knowledge_base_id,
                kb_models.KnowledgeTopic.topic == data["topic"],
                kb_models.KnowledgeTopic.id != topic.id,
            )
            .first()
        )
        if clash:
            raise HTTPException(status_code=400, detail="A topic with this name already exists in this knowledge base")
    for field, value in data.items():
        setattr(topic, field, value)
    db.commit()
    db.refresh(topic)
    return topic
@router.delete("/knowledge-topics/{topic_id}", status_code=status.HTTP_204_NO_CONTENT)
 def delete_topic(
    topic_id: int,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    topic = _get_topic(db, topic_id)
    db.query(kb_models.KnowledgeFact).filter(kb_models.KnowledgeFact.topic_id == topic.id).delete(synchronize_session=False)
    db.query(kb_models.KnowledgeCategory).filter(kb_models.KnowledgeCategory.topic_id == topic.id).delete(synchronize_session=False)
    db.delete(topic)
    db.commit()
    return None
 # ===========================================================================
 # Categories
 # ===========================================================================
 def _check_category_unique(db: Session, topic_id: int, parent: Optional[int], name: str, exclude_id: Optional[int] = None):
    q = db.query(kb_models.KnowledgeCategory).filter(
        kb_models.KnowledgeCategory.topic_id == topic_id,
        kb_models.KnowledgeCategory.name == name,
    )
    if parent is None:
        q = q.filter(kb_models.KnowledgeCategory.parent.is_(None))
    else:
        q = q.filter(kb_models.KnowledgeCategory.parent == parent)
    if exclude_id is not None:
        q = q.filter(kb_models.KnowledgeCategory.id != exclude_id)
    if q.first():
        raise HTTPException(status_code=400, detail="A category with this name already exists under the same parent")
@router.get("/knowledge-topics/{topic_id}/categories", response_model=List[kb_schemas.KnowledgeCategoryResponse])
 def list_categories(
    topic_id: int,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    _get_topic(db, topic_id)
    return db.query(kb_models.KnowledgeCategory).filter(kb_models.KnowledgeCategory.topic_id == topic_id).all()
@router.post("/knowledge-categories", response_model=kb_schemas.KnowledgeCategoryResponse, status_code=status.HTTP_201_CREATED)
 def create_category(
    payload: kb_schemas.KnowledgeCategoryCreate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    _get_topic(db, payload.topic_id)
    if payload.parent is not None:
        parent_cat = _get_category(db, payload.parent)
        if parent_cat.topic_id != payload.topic_id:
            raise HTTPException(status_code=400, detail="Parent category belongs to a different topic")
    _check_category_unique(db, payload.topic_id, payload.parent, payload.name)
    cat = kb_models.KnowledgeCategory(
        name=payload.name,
        description=payload.description,
        parent=payload.parent,
        topic_id=payload.topic_id,
        created_by=current_user.id,
        last_updated_by=current_user.id,
    )
    db.add(cat)
    db.commit()
    db.refresh(cat)
    return cat
@router.get("/knowledge-categories/{category_id}", response_model=kb_schemas.KnowledgeCategoryResponse)
 def get_category(
    category_id: int,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    return _get_category(db, category_id)
@router.patch("/knowledge-categories/{category_id}", response_model=kb_schemas.KnowledgeCategoryResponse)
 def update_category(
    category_id: int,
    payload: kb_schemas.KnowledgeCategoryUpdate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    cat = _get_category(db, category_id)
    data = payload.model_dump(exclude_unset=True)
    new_parent = data.get("parent", cat.parent) if "parent" in data else cat.parent
    if "parent" in data and data["parent"] is not None:
        if data["parent"] == cat.id:
            raise HTTPException(status_code=400, detail="A category cannot be its own parent")
        parent_cat = _get_category(db, data["parent"])
        if parent_cat.topic_id != cat.topic_id:
            raise HTTPException(status_code=400, detail="Parent category belongs to a different topic")
        # Prevent cycles: new parent must not be a descendant of this category
        if data["parent"] in _descendant_category_ids(db, cat.id):
            raise HTTPException(status_code=400, detail="Cannot move a category under one of its own descendants")
    new_name = data.get("name", cat.name)
    if ("name" in data and data["name"] != cat.name) or ("parent" in data and new_parent != cat.parent):
        _check_category_unique(db, cat.topic_id, new_parent, new_name, exclude_id=cat.id)
    for field, value in data.items():
        setattr(cat, field, value)
    cat.last_updated_by = current_user.id
    db.commit()
    db.refresh(cat)
    return cat
@router.delete("/knowledge-categories/{category_id}", status_code=status.HTTP_204_NO_CONTENT)
 def delete_category(
    category_id: int,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    cat = _get_category(db, category_id)
    ids = _descendant_category_ids(db, cat.id)
    db.query(kb_models.KnowledgeFact).filter(kb_models.KnowledgeFact.category_id.in_(ids)).delete(synchronize_session=False)
    db.query(kb_models.KnowledgeCategory).filter(kb_models.KnowledgeCategory.id.in_(ids)).delete(synchronize_session=False)
    db.commit()
    return None
 # ===========================================================================
 # Facts
 # ===========================================================================
@router.post("/knowledge-facts", response_model=kb_schemas.KnowledgeFactResponse, status_code=status.HTTP_201_CREATED)
 def create_fact(
    payload: kb_schemas.KnowledgeFactCreate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    _get_topic(db, payload.topic_id)
    if payload.category_id is not None:
        cat = _get_category(db, payload.category_id)
        if cat.topic_id != payload.topic_id:
            raise HTTPException(status_code=400, detail="Category belongs to a different topic")
    fact = kb_models.KnowledgeFact(
        fact=payload.fact,
        topic_id=payload.topic_id,
        category_id=payload.category_id,
    )
    db.add(fact)
    db.commit()
    db.refresh(fact)
    return fact
@router.get("/knowledge-facts/{fact_id}", response_model=kb_schemas.KnowledgeFactResponse)
 def get_fact(
    fact_id: int,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    fact = db.query(kb_models.KnowledgeFact).filter(kb_models.KnowledgeFact.id == fact_id).first()
    if not fact:
        raise HTTPException(status_code=404, detail="Fact not found")
    return fact
@router.patch("/knowledge-facts/{fact_id}", response_model=kb_schemas.KnowledgeFactResponse)
 def update_fact(
    fact_id: int,
    payload: kb_schemas.KnowledgeFactUpdate,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    fact = db.query(kb_models.KnowledgeFact).filter(kb_models.KnowledgeFact.id == fact_id).first()
    if not fact:
        raise HTTPException(status_code=404, detail="Fact not found")
    data = payload.model_dump(exclude_unset=True)
    if "category_id" in data and data["category_id"] is not None:
        cat = _get_category(db, data["category_id"])
        if cat.topic_id != fact.topic_id:
            raise HTTPException(status_code=400, detail="Category belongs to a different topic")
    for field, value in data.items():
        setattr(fact, field, value)
    db.commit()
    db.refresh(fact)
    return fact
@router.delete("/knowledge-facts/{fact_id}", status_code=status.HTTP_204_NO_CONTENT)
 def delete_fact(
    fact_id: int,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    fact = db.query(kb_models.KnowledgeFact).filter(kb_models.KnowledgeFact.id == fact_id).first()
    if not fact:
        raise HTTPException(status_code=404, detail="Fact not found")
    db.delete(fact)
    db.commit()
    return None
 # ===========================================================================
 # Project <-> KnowledgeBase links
 # ===========================================================================
@router.get("/projects/{project_id}/knowledge-bases", response_model=List[kb_schemas.KnowledgeBaseResponse])
 def list_project_knowledge_bases(
    project_id: str,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_READ)
    project = _resolve_project(db, project_id)
    linked_ids = [
        row.knowledge_base_id
        for row in db.query(kb_models.ProjectKnowledgeBase.knowledge_base_id)
        .filter(kb_models.ProjectKnowledgeBase.project_id == project.id)
        .all()
    ]
    if not linked_ids:
        return []
    return db.query(kb_models.KnowledgeBase).filter(kb_models.KnowledgeBase.id.in_(linked_ids)).all()
@router.post("/projects/{project_id}/knowledge-bases", response_model=kb_schemas.KnowledgeBaseResponse, status_code=status.HTTP_201_CREATED)
 def link_knowledge_base_to_project(
    project_id: str,
    payload: kb_schemas.ProjectKnowledgeBaseLink,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    project = _resolve_project(db, project_id)
    kb = _resolve_kb(db, payload.knowledge_base)
    existing = (
        db.query(kb_models.ProjectKnowledgeBase)
        .filter(
            kb_models.ProjectKnowledgeBase.project_id == project.id,
            kb_models.ProjectKnowledgeBase.knowledge_base_id == kb.id,
        )
        .first()
    )
    if not existing:
        db.add(kb_models.ProjectKnowledgeBase(project_id=project.id, knowledge_base_id=kb.id))
        db.commit()
    return kb
@router.delete("/projects/{project_id}/knowledge-bases/{kb_id}", status_code=status.HTTP_204_NO_CONTENT)
 def unlink_knowledge_base_from_project(
    project_id: str,
    kb_id: str,
    db: Session = Depends(get_db),
    current_user: models.User = Depends(get_current_user_or_apikey),
 ):
    _require_perm(db, current_user, PERM_UPDATE)
    project = _resolve_project(db, project_id)
    kb = _resolve_kb(db, kb_id)
    db.query(kb_models.ProjectKnowledgeBase).filter(
        kb_models.ProjectKnowledgeBase.project_id == project.id,
        kb_models.ProjectKnowledgeBase.knowledge_base_id == kb.id,
    ).delete(synchronize_session=False)
    db.commit()
    return None
--- a/app/api/routers/oidc.py
+++ b/app/api/routers/oidc.py
@@ -1,11 +1,8 @@
 """OIDC (OpenID Connect) login + admin-configurable provider settings.
-Provider config (issuer / client_id / client_secret / redirect_uri /
+The OIDC provider can be configured at runtime from the admin UI
-scopes / post_login_redirect / admin_role / enabled) lives entirely in
+(persisted in the oidc_settings table). A stored row's non-empty fields
-the `oidc_settings` DB table (single row, id=1) and is set via either
+override the OIDC_* env vars; env values act as bootstrap defaults.
 the admin UI or `docker exec hf-backend hf-cli config oidc ...`.
 HARBORFORGE_OIDC_ONLY is the only OIDC-related env var (deploy-time
 policy: when true, password login is disabled).
 Sign-in policy: an OIDC identity must already be bound to an hf user
 (see PUT /users/{id}/oidc-binding). Unbound identities are rejected.
@@ -54,20 +51,27 @@ class EffectiveOidc:
 def get_effective_oidc(db: Session) -> EffectiveOidc:
    """DB row is the only source of truth — no env fallback. If the row is
    absent OIDC is treated as unconfigured (login attempts will 503)."""
    row = db.query(OidcSettings).filter(OidcSettings.id == 1).first()
    def pick(db_val, env_val):
        return db_val if (db_val is not None and db_val != "") else env_val
    if row is None:
-        return EffectiveOidc(False, "", "", "", "", "", "", "admin")
+        return EffectiveOidc(
            settings.OIDC_ENABLED, settings.OIDC_ISSUER, settings.OIDC_CLIENT_ID,
            settings.OIDC_CLIENT_SECRET, settings.OIDC_REDIRECT_URI,
            settings.OIDC_SCOPES, settings.OIDC_POST_LOGIN_REDIRECT,
            settings.OIDC_ADMIN_ROLE,
        )
    return EffectiveOidc(
        bool(row.enabled),
-        row.issuer or "",
+        pick(row.issuer, settings.OIDC_ISSUER),
-        row.client_id or "",
+        pick(row.client_id, settings.OIDC_CLIENT_ID),
-        row.client_secret or "",
+        pick(row.client_secret, settings.OIDC_CLIENT_SECRET),
-        row.redirect_uri or "",
+        pick(row.redirect_uri, settings.OIDC_REDIRECT_URI),
-        row.scopes or "",
+        pick(row.scopes, settings.OIDC_SCOPES),
-        row.post_login_redirect or "",
+        pick(row.post_login_redirect, settings.OIDC_POST_LOGIN_REDIRECT),
-        getattr(row, "admin_role", None) or "admin",
+        pick(getattr(row, "admin_role", None), settings.OIDC_ADMIN_ROLE),
    )
@@ -301,17 +305,17 @@ def get_oidc_settings(db: Session = Depends(get_db), _: models.User = Depends(_r
    row = db.query(OidcSettings).filter(OidcSettings.id == 1).first()
    cfg = get_effective_oidc(db)
    return OidcSettingsOut(
-        enabled=bool(row.enabled) if row else False,
+        enabled=bool(row.enabled) if row else bool(settings.OIDC_ENABLED),
-        issuer=(row.issuer if row else None) or None,
+        issuer=(row.issuer if row else None) or settings.OIDC_ISSUER or None,
-        client_id=(row.client_id if row else None) or None,
+        client_id=(row.client_id if row else None) or settings.OIDC_CLIENT_ID or None,
-        has_client_secret=bool(row.client_secret if row else None),
+        has_client_secret=bool((row.client_secret if row else None) or settings.OIDC_CLIENT_SECRET),
-        redirect_uri=(row.redirect_uri if row else None) or None,
+        redirect_uri=(row.redirect_uri if row else None) or settings.OIDC_REDIRECT_URI or None,
-        scopes=(row.scopes if row else None) or None,
+        scopes=(row.scopes if row else None) or settings.OIDC_SCOPES or None,
-        post_login_redirect=(row.post_login_redirect if row else None) or None,
+        post_login_redirect=(row.post_login_redirect if row else None) or settings.OIDC_POST_LOGIN_REDIRECT or None,
        admin_role=cfg.admin_role,
        oidc_only=bool(settings.HARBORFORGE_OIDC_ONLY),
        effective_enabled=cfg.configured,
-        source="db",
+        source="db" if row else "env",
    )
--- a/app/api/routers/projects.py
+++ b/app/api/routers/projects.py
@@ -153,27 +153,9 @@ def _generate_project_code(db, name: str) -> str:
@router.post("", response_model=schemas.ProjectResponse, status_code=status.HTTP_201_CREATED)
 def create_project(project: schemas.ProjectCreate, db: Session = Depends(get_db), current_user: models.User = Depends(get_current_user_or_apikey)):
-    # Project creation is gated by the `project.create` global permission
+    # Check if user is admin
    # (admin auto-grants by virtue of is_admin). Any role granted that perm
    # via the Role Editor can create projects.
    if not current_user.is_admin:
-        from app.models.role_permission import Permission, RolePermission
+        raise HTTPException(status_code=403, detail="Only admins can create projects")
        has = (
            db.query(Permission.id)
            .join(RolePermission, RolePermission.permission_id == Permission.id)
            .filter(
                RolePermission.role_id == current_user.role_id,
                Permission.name == "project.create",
            )
            .first()
            if current_user.role_id
            else None
        )
        if not has:
            raise HTTPException(
                status_code=403,
                detail="Permission denied: project.create required",
            )
    # Auto-fill owner_name from owner_id
    user = db.query(models.User).filter(models.User.id == project.owner_id).first()
    if not user:
--- a/app/api/routers/schedule_type.py
+++ b/app/api/routers/schedule_type.py
@@ -9,7 +9,7 @@ from sqlalchemy.orm import Session
 from typing import List
 from app.core.config import get_db
-from app.api.deps import get_current_user_or_apikey
+from app.api.deps import get_current_user
 from app.models.models import User
 from app.models.agent import Agent
 from app.models.schedule_type import ScheduleType
@@ -57,18 +57,6 @@ def _require_schedule_manage(db: Session, user: User) -> User:
    return user
 def _attach_derived(st: ScheduleType) -> ScheduleType:
    """Attach derived fields (maintenance_duration_minutes) so the
    pydantic ScheduleTypeResponse picks them up via from_attributes.
    Pydantic with from_attributes reads attributes off the ORM object;
    setting a transient attr here avoids having to convert through dict.
    """
    if st is not None:
        st.maintenance_duration_minutes = st.compute_maintenance_duration()
    return st
 # ---------------------------------------------------------------------------
 # Schedule Type CRUD
 # ---------------------------------------------------------------------------
@@ -80,10 +68,10 @@ def _attach_derived(st: ScheduleType) -> ScheduleType:
 )
 def list_schedule_types(
    db: Session = Depends(get_db),
-    current_user: User = Depends(get_current_user_or_apikey),
+    current_user: User = Depends(get_current_user),
 ):
    _require_schedule_read(db, current_user)
-    return [_attach_derived(st) for st in db.query(ScheduleType).all()]
+    return db.query(ScheduleType).all()
@router.post(
@@ -94,7 +82,7 @@ def list_schedule_types(
 def create_schedule_type(
    payload: ScheduleTypeCreate,
    db: Session = Depends(get_db),
-    current_user: User = Depends(get_current_user_or_apikey),
+    current_user: User = Depends(get_current_user),
 ):
    _require_schedule_manage(db, current_user)
@@ -108,13 +96,11 @@ def create_schedule_type(
        work_to=payload.work_to,
        entertainment_from=payload.entertainment_from,
        entertainment_to=payload.entertainment_to,
        maintenance_from=payload.maintenance_from,
        maintenance_to=payload.maintenance_to,
    )
    db.add(st)
    db.commit()
    db.refresh(st)
-    return _attach_derived(st)
+    return st
@router.patch(
@@ -126,7 +112,7 @@ def update_schedule_type(
    schedule_type_id: int,
    payload: ScheduleTypeUpdate,
    db: Session = Depends(get_db),
-    current_user: User = Depends(get_current_user_or_apikey),
+    current_user: User = Depends(get_current_user),
 ):
    _require_schedule_manage(db, current_user)
@@ -134,23 +120,12 @@ def update_schedule_type(
    if not st:
        raise HTTPException(404, "Schedule type not found")
-    update_fields = payload.model_dump(exclude_unset=True)
+    for field, value in payload.model_dump(exclude_unset=True).items():
    for field, value in update_fields.items():
        setattr(st, field, value)
    # Re-validate maintenance after merge (partial updates can put the row
    # into an invalid window combo that the pydantic schema couldn't catch
    # because it only saw one field).
    from app.schemas.schedule_type import _validate_maintenance_window
    try:
        _validate_maintenance_window(st.maintenance_from, st.maintenance_to)
    except ValueError as e:
        db.rollback()
        raise HTTPException(422, str(e))
    db.commit()
    db.refresh(st)
-    return _attach_derived(st)
+    return st
@router.delete(
@@ -160,7 +135,7 @@ def update_schedule_type(
 def delete_schedule_type(
    schedule_type_id: int,
    db: Session = Depends(get_db),
-    current_user: User = Depends(get_current_user_or_apikey),
+    current_user: User = Depends(get_current_user),
 ):
    _require_schedule_manage(db, current_user)
@@ -206,8 +181,7 @@ def get_my_schedule_type(
    if not agent.schedule_type_id:
        return None
-    st = db.query(ScheduleType).filter(ScheduleType.id == agent.schedule_type_id).first()
+    return db.query(ScheduleType).filter(ScheduleType.id == agent.schedule_type_id).first()
    return _attach_derived(st) if st else None
@router.put(
@@ -218,7 +192,7 @@ def assign_schedule_type(
    agent_id: str,
    payload: AgentScheduleTypeAssign,
    db: Session = Depends(get_db),
-    current_user: User = Depends(get_current_user_or_apikey),
+    current_user: User = Depends(get_current_user),
 ):
    _require_schedule_manage(db, current_user)
--- a/app/api/routers/schedule_type_special_slot.py
+++ b/app/api/routers/schedule_type_special_slot.py
@@ -1,226 +0,0 @@
 """Special-slot CRUD for a ScheduleType (admin-only).
 A "special slot" is a recurring slot template tied to a ScheduleType.
 The system materialises one `time_slots` row per agent on that
 schedule_type per date, scheduled inside the schedule_type's
 maintenance window. Materialised rows are `is_admin_locked=true` —
 agents can complete / abort / pause / resume them but cannot move
 or cancel them.
 All endpoints require `schedule_type.manage` (admin auto-grants).
 """
 from typing import List
 from fastapi import APIRouter, Depends, HTTPException
 from sqlalchemy.orm import Session
 from app.core.config import get_db
 from app.api.deps import get_current_user_or_apikey
 from app.models.models import User
 from app.models.role_permission import Permission, RolePermission
 from app.models.schedule_type import ScheduleType
 from app.models.schedule_type_special_slot import ScheduleTypeSpecialSlot
 from app.schemas.schedule_type_special_slot import (
    SpecialSlotCreate,
    SpecialSlotUpdate,
    SpecialSlotResponse,
 )
 router = APIRouter(prefix="/schedule-types", tags=["ScheduleTypes"])
 # ---------------------------------------------------------------------------
 # Permission helpers — mirror schedule_type.py's local helpers so this router
 # doesn't have to depend on internal symbols of the other router.
 # ---------------------------------------------------------------------------
 def _has_permission(db: Session, user: User, permission_name: str) -> bool:
    if user.is_admin:
        return True
    if not user.role_id:
        return False
    return (
        db.query(RolePermission)
        .join(Permission)
        .filter(
            RolePermission.role_id == user.role_id,
            Permission.name == permission_name,
        )
        .first()
        is not None
    )
 def _require_schedule_manage(db: Session, user: User) -> User:
    if not _has_permission(db, user, "schedule_type.manage"):
        raise HTTPException(403, "Permission denied: schedule_type.manage")
    return user
 def _require_schedule_read(db: Session, user: User) -> User:
    if not _has_permission(db, user, "schedule_type.read"):
        raise HTTPException(403, "Permission denied: schedule_type.read")
    return user
 def _fetch_schedule_type(db: Session, schedule_type_id: int) -> ScheduleType:
    st = db.query(ScheduleType).filter(ScheduleType.id == schedule_type_id).first()
    if not st:
        raise HTTPException(404, f"ScheduleType {schedule_type_id} not found")
    return st
 def _validate_fits_window(
    minute_in_window: int,
    estimated_duration: int,
    maintenance_duration_minutes: int,
 ) -> None:
    """Reject special slots that wouldn't fit inside the parent's maintenance window."""
    if minute_in_window + estimated_duration > maintenance_duration_minutes:
        raise HTTPException(
            422,
            (
                f"special slot does not fit in maintenance window: "
                f"minute_in_window={minute_in_window} + "
                f"estimated_duration={estimated_duration} > "
                f"maintenance window {maintenance_duration_minutes}min"
            ),
        )
 # ---------------------------------------------------------------------------
 # Endpoints
 # ---------------------------------------------------------------------------
@router.get(
    "/{schedule_type_id}/special-slots",
    response_model=List[SpecialSlotResponse],
    summary="List special slots for a schedule type",
 )
 def list_special_slots(
    schedule_type_id: int,
    db: Session = Depends(get_db),
    current_user: User = Depends(get_current_user_or_apikey),
 ):
    _require_schedule_read(db, current_user)
    _fetch_schedule_type(db, schedule_type_id)
    return (
        db.query(ScheduleTypeSpecialSlot)
        .filter(ScheduleTypeSpecialSlot.schedule_type_id == schedule_type_id)
        .order_by(
            ScheduleTypeSpecialSlot.minute_in_window.asc(),
            ScheduleTypeSpecialSlot.id.asc(),
        )
        .all()
    )
@router.post(
    "/{schedule_type_id}/special-slots",
    response_model=SpecialSlotResponse,
    summary="Create a special slot for a schedule type (admin)",
 )
 def create_special_slot(
    schedule_type_id: int,
    payload: SpecialSlotCreate,
    db: Session = Depends(get_db),
    current_user: User = Depends(get_current_user_or_apikey),
 ):
    _require_schedule_manage(db, current_user)
    st = _fetch_schedule_type(db, schedule_type_id)
    _validate_fits_window(payload.minute_in_window, payload.estimated_duration, st.compute_maintenance_duration())
    dup = (
        db.query(ScheduleTypeSpecialSlot)
        .filter(
            ScheduleTypeSpecialSlot.schedule_type_id == schedule_type_id,
            ScheduleTypeSpecialSlot.name == payload.name,
        )
        .first()
    )
    if dup:
        raise HTTPException(
            409,
            f"special slot '{payload.name}' already exists for schedule_type {schedule_type_id}",
        )
    slot = ScheduleTypeSpecialSlot(
        schedule_type_id=schedule_type_id,
        name=payload.name,
        description=payload.description,
        minute_in_window=payload.minute_in_window,
        estimated_duration=payload.estimated_duration,
        priority=payload.priority,
        event_data=payload.event_data,
        is_active=payload.is_active,
        created_by_user_id=current_user.id,
    )
    db.add(slot)
    db.commit()
    db.refresh(slot)
    return slot
@router.patch(
    "/{schedule_type_id}/special-slots/{slot_id}",
    response_model=SpecialSlotResponse,
    summary="Update a special slot (admin)",
 )
 def update_special_slot(
    schedule_type_id: int,
    slot_id: int,
    payload: SpecialSlotUpdate,
    db: Session = Depends(get_db),
    current_user: User = Depends(get_current_user_or_apikey),
 ):
    _require_schedule_manage(db, current_user)
    slot = (
        db.query(ScheduleTypeSpecialSlot)
        .filter(
            ScheduleTypeSpecialSlot.id == slot_id,
            ScheduleTypeSpecialSlot.schedule_type_id == schedule_type_id,
        )
        .first()
    )
    if not slot:
        raise HTTPException(404, "Special slot not found")
    update_fields = payload.model_dump(exclude_unset=True)
    next_min = update_fields.get("minute_in_window", slot.minute_in_window)
    next_dur = update_fields.get("estimated_duration", slot.estimated_duration)
    parent = _fetch_schedule_type(db, schedule_type_id)
    _validate_fits_window(next_min, next_dur, parent.compute_maintenance_duration())
    for field, value in update_fields.items():
        setattr(slot, field, value)
    db.commit()
    db.refresh(slot)
    return slot
@router.delete(
    "/{schedule_type_id}/special-slots/{slot_id}",
    summary="Delete a special slot (admin)",
 )
 def delete_special_slot(
    schedule_type_id: int,
    slot_id: int,
    db: Session = Depends(get_db),
    current_user: User = Depends(get_current_user_or_apikey),
 ):
    _require_schedule_manage(db, current_user)
    slot = (
        db.query(ScheduleTypeSpecialSlot)
        .filter(
            ScheduleTypeSpecialSlot.id == slot_id,
            ScheduleTypeSpecialSlot.schedule_type_id == schedule_type_id,
        )
        .first()
    )
    if not slot:
        raise HTTPException(404, "Special slot not found")
    db.delete(slot)
    db.commit()
    return {"ok": True, "deleted": slot_id}
--- a/app/api/routers/users.py
+++ b/app/api/routers/users.py
@@ -9,7 +9,7 @@ from sqlalchemy.orm import Session
 from app.api.deps import get_current_user, get_current_user_or_apikey, get_password_hash
 from app.core.config import get_db, settings
-from app.init_bootstrap import DELETED_USER_USERNAME
+from app.init_wizard import DELETED_USER_USERNAME
 from app.models import models
 from app.models.agent import Agent
 from app.models.role_permission import Permission, Role, RolePermission
@@ -39,11 +39,7 @@ def _user_response(user: models.User) -> dict:
    return data
-def require_admin(current_user: models.User = Depends(get_current_user_or_apikey)):
+def require_admin(current_user: models.User = Depends(get_current_user)):
    # Accept either OAuth2 JWT or X-API-Key (incl. Bearer-as-apikey fallback)
    # so CLI clients using their provisioned api-key can hit admin-gated user
    # routes (list / get / update / patch). The admin gate still reads
    # User.is_admin — only the auth carrier broadens.
    if not current_user.is_admin:
        raise HTTPException(status_code=403, detail="Admin required")
    return current_user
@@ -72,29 +68,11 @@ def require_account_creator(
    raise HTTPException(status_code=403, detail="Account creation permission required")
-def _resolve_user_role(db: Session, role_id: int | None, *, is_agent: bool = False) -> Role:
+def _resolve_user_role(db: Session, role_id: int | None) -> Role:
    """Resolve target role for user creation.
    Default policy when caller didn't pin role_id:
      - is_agent (i.e. payload had agent_id/claw_identifier) → general-agent
      - human user                                            → guest
    general-agent ≈ guest + user.reset-self-apikey so agents can rotate
    their own API key without admin intervention. Created in
    init_bootstrap.py on every startup; falls back to guest if absent
    (e.g. very old DB that hasn't been re-seeded yet).
    """
    if role_id is None:
        default_name = "general-agent" if is_agent else "guest"
        role = db.query(Role).filter(Role.name == default_name).first()
        if not role and is_agent:
            # general-agent missing from this DB → fall back to guest, log warn
        role = db.query(Role).filter(Role.name == "guest").first()
        if not role:
-            raise HTTPException(
+            raise HTTPException(status_code=500, detail="Default guest role is missing")
                status_code=500,
                detail=f"Default role '{default_name}' is missing (DB not seeded)",
            )
        return role
    role = db.query(Role).filter(Role.id == role_id).first()
@@ -134,7 +112,7 @@ def create_user(
        if existing_agent:
            raise HTTPException(status_code=400, detail="agent_id already in use")
-    assigned_role = _resolve_user_role(db, user.role_id, is_agent=has_agent_id)
+    assigned_role = _resolve_user_role(db, user.role_id)
    # In OIDC-only mode, ignore any supplied password: the user is created
    # passwordless (cannot password-login) and is expected to sign in via a
    # bound OIDC identity. API keys still work for such users.
@@ -243,71 +221,6 @@ def update_user(
    return _user_response(user)
@router.patch("/{identifier}/bind-agent", response_model=schemas.UserResponse)
 def bind_agent(
    identifier: str,
    payload: schemas.UserBindAgentRequest,
    db: Session = Depends(get_db),
    _: models.User = Depends(require_account_creator),
 ):
    """Bind an existing user to (agent_id, claw_identifier).
    Backfill path for users that were created via `hf user create` before
    the cli supported `--agent-id` / `--claw-identifier` flags. Creates
    the `agents` row that should have been written at user-create time.
    Idempotent: if the user is already bound to the same
    (agent_id, claw_identifier), returns the user unchanged (200, no-op).
    Rejects (409) if:
      - the user is bound to a DIFFERENT (agent_id, claw_identifier)
      - the requested agent_id is already in use by another user
    Permission: account.create (admin auto-grants) — same gate as
    POST /users so the surface stays symmetric.
    """
    user = _find_user_by_id_or_username(db, identifier)
    if not user:
        raise HTTPException(status_code=404, detail="User not found")
    existing_agent_for_user = db.query(Agent).filter(Agent.user_id == user.id).first()
    if existing_agent_for_user:
        if (
            existing_agent_for_user.agent_id == payload.agent_id
            and existing_agent_for_user.claw_identifier == payload.claw_identifier
        ):
            # idempotent re-bind
            return _user_response(user)
        raise HTTPException(
            status_code=409,
            detail=(
                f"User '{user.username}' is already bound to agent "
                f"'{existing_agent_for_user.agent_id}' on claw "
                f"'{existing_agent_for_user.claw_identifier}'"
            ),
        )
    existing_for_agent_id = (
        db.query(Agent).filter(Agent.agent_id == payload.agent_id).first()
    )
    if existing_for_agent_id:
        raise HTTPException(
            status_code=409,
            detail=f"agent_id '{payload.agent_id}' already in use by another user",
        )
    db.add(
        Agent(
            user_id=user.id,
            agent_id=payload.agent_id,
            claw_identifier=payload.claw_identifier,
        )
    )
    db.commit()
    db.refresh(user)
    return _user_response(user)
 _BUILTIN_USERNAMES = {"acc-mgr", DELETED_USER_USERNAME}
@@ -413,7 +326,7 @@ def delete_user(
    if not deleted_user:
        raise HTTPException(
            status_code=500,
-            detail="Built-in deleted-user account not found. Backend startup failed to seed it; restart the container.",
+            detail="Built-in deleted-user account not found. Run init_wizard first.",
        )
    _reassign_user_references(db, user.id, deleted_user.id)
--- a/app/cli/init.py
+++ b/app/cli/init.py
@@ -1,10 +0,0 @@
 """hf-cli — operator commands run inside the backend container.
 Subjects:
  admin   — bootstrap / manage the initial admin user
  config  — runtime config (OIDC, etc.)
 Invoked via the shim at /usr/local/bin/hf-cli (Dockerfile-installed):
  docker exec hf-backend hf-cli admin create-user --email me@example.com --password '...'
  docker exec hf-backend hf-cli config oidc --issuer ... --client-id ... --enabled true
 """
--- a/app/cli/main.py
+++ b/app/cli/main.py
@@ -1,68 +0,0 @@
 """hf-cli entry point. Dispatches to subject-specific modules."""
 import sys
 def _load_all_models() -> None:
    """Import every model module so SQLAlchemy's declarative registry
    resolves cross-table relationships (e.g. User.role, User.agent).
    main.py's startup() does the same thing for the web server; the CLI
    skips startup() but still queries User → would otherwise hit
    `KeyError: 'Agent'` when SA tries to resolve relationship targets.
    Keep this list in sync with main.py's startup import list.
    """
    from app.models import (  # noqa: F401
        models, webhook, apikey, activity, milestone, notification, worklog,
        monitor, role_permission, task, support, meeting, proposal, propose,
        essential, agent, calendar, minimum_workload, schedule_type,
        schedule_type_special_slot, oidc_settings,
    )
 _load_all_models()
 USAGE = """Usage:
  hf-cli admin create-user --email <e> [--username <u>] [--full-name <n>]
                           [--password <p>] [--oidc-issuer <url> --oidc-subject <sub>]
  hf-cli admin list
  hf-cli admin set-role  --username <u> --role <admin|mgr|dev|guest|account-manager>
  hf-cli admin reset-password --username <u> --password <p>
  hf-cli admin bind-oidc      --username <u> --oidc-issuer <url> --oidc-subject <sub>
  hf-cli config oidc [--issuer <url>] [--client-id <id>] [--client-secret <s>]
                     [--redirect-uri <url>] [--post-login-redirect <url>]
                     [--scopes "openid email profile"] [--admin-role <role>]
                     [--enabled true|false] [--show-secret]
 Reads DATABASE_URL + SECRET_KEY from the same env as the backend. Run
 inside the backend container: `docker exec hf-backend hf-cli ...`.
 """
 def main() -> int:
    args = sys.argv[1:]
    if len(args) < 1:
        sys.stderr.write(USAGE)
        return 1
    subject = args[0]
    rest = args[1:]
    if subject == "admin":
        from app.cli import admin
        return admin.dispatch(rest)
    if subject == "config":
        from app.cli import config
        return config.dispatch(rest)
    if subject in ("-h", "--help", "help"):
        sys.stdout.write(USAGE)
        return 0
    sys.stderr.write(f"unknown subject: {subject}\n\n")
    sys.stderr.write(USAGE)
    return 1
 if __name__ == "__main__":
    sys.exit(main())
--- a/app/cli/admin.py
+++ b/app/cli/admin.py
@@ -1,269 +0,0 @@
 """hf-cli admin … — bootstrap and manage the deployment's admin user."""
 import argparse
 import json
 import sys
 from sqlalchemy.exc import IntegrityError
 from app.api.deps import get_password_hash
 from app.core.config import SessionLocal, settings
 from app.models import models
 from app.models.role_permission import Role
 def _open_db():
    return SessionLocal()
 def _emit(payload: dict) -> None:
    sys.stdout.write(json.dumps(payload, indent=2) + "\n")
 # ---------------------------------------------------------------------------
 # create-user
 # ---------------------------------------------------------------------------
 def _cmd_create_user(argv: list[str]) -> int:
    p = argparse.ArgumentParser(prog="hf-cli admin create-user")
    p.add_argument("--email", required=True)
    p.add_argument("--username", default=None,
                   help="Defaults to email's local-part if omitted.")
    p.add_argument("--full-name", default="Admin")
    p.add_argument("--password", default=None,
                   help="Required when HARBORFORGE_OIDC_ONLY=false. Ignored "
                        "when OIDC_ONLY=true (use --oidc-issuer/--oidc-subject).")
    p.add_argument("--oidc-issuer", default=None,
                   help="Bind the new admin to this OIDC issuer at creation. "
                        "Required in OIDC_ONLY mode for the bootstrap admin.")
    p.add_argument("--oidc-subject", default=None,
                   help="OIDC subject claim (sub) to bind the new admin to.")
    args = p.parse_args(argv)
    username = args.username or args.email.split("@", 1)[0]
    oidc_only = bool(settings.HARBORFORGE_OIDC_ONLY)
    if oidc_only:
        if not (args.oidc_issuer and args.oidc_subject):
            sys.stderr.write(
                "HARBORFORGE_OIDC_ONLY=true: must pass --oidc-issuer and "
                "--oidc-subject so the new admin can sign in.\n"
            )
            return 2
        hashed_password = None
    else:
        if not args.password:
            sys.stderr.write("--password is required when OIDC_ONLY is false.\n")
            return 2
        hashed_password = get_password_hash(args.password)
    if (args.oidc_issuer and not args.oidc_subject) or (args.oidc_subject and not args.oidc_issuer):
        sys.stderr.write("--oidc-issuer and --oidc-subject must be passed together.\n")
        return 2
    db = _open_db()
    try:
        existing = db.query(models.User).filter(models.User.username == username).first()
        if existing:
            sys.stderr.write(f"user '{username}' already exists (id={existing.id})\n")
            return 3
        admin_role = db.query(Role).filter(Role.name == "admin").first()
        if not admin_role:
            sys.stderr.write(
                "admin role not found — backend startup seed should create it. "
                "Restart the container then retry.\n"
            )
            return 4
        user = models.User(
            username=username,
            email=args.email,
            full_name=args.full_name,
            hashed_password=hashed_password,
            is_admin=True,
            is_active=True,
            role_id=admin_role.id,
            oidc_issuer=(args.oidc_issuer or None),
            oidc_subject=(args.oidc_subject or None),
        )
        db.add(user)
        try:
            db.commit()
        except IntegrityError as e:
            db.rollback()
            sys.stderr.write(f"DB integrity error: {e.orig}\n")
            return 5
        db.refresh(user)
        _emit({
            "ok": True,
            "created": True,
            "user": {
                "id": user.id,
                "username": user.username,
                "email": user.email,
                "full_name": user.full_name,
                "is_admin": user.is_admin,
                "role_id": user.role_id,
                "oidc_issuer": user.oidc_issuer,
                "oidc_subject": user.oidc_subject,
                "has_password": user.hashed_password is not None,
            },
        })
        return 0
    finally:
        db.close()
 # ---------------------------------------------------------------------------
 # list
 # ---------------------------------------------------------------------------
 def _cmd_list(_argv: list[str]) -> int:
    db = _open_db()
    try:
        admins = (
            db.query(models.User)
            .filter(models.User.is_admin == True)  # noqa: E712
            .order_by(models.User.id.asc())
            .all()
        )
        _emit({
            "ok": True,
            "count": len(admins),
            "admins": [
                {
                    "id": u.id,
                    "username": u.username,
                    "email": u.email,
                    "is_active": u.is_active,
                    "oidc_bound": bool(u.oidc_issuer and u.oidc_subject),
                    "has_password": u.hashed_password is not None,
                }
                for u in admins
            ],
        })
        return 0
    finally:
        db.close()
 # ---------------------------------------------------------------------------
 # set-role
 # ---------------------------------------------------------------------------
 def _cmd_set_role(argv: list[str]) -> int:
    p = argparse.ArgumentParser(prog="hf-cli admin set-role")
    p.add_argument("--username", required=True)
    p.add_argument("--role", required=True)
    args = p.parse_args(argv)
    db = _open_db()
    try:
        user = db.query(models.User).filter(models.User.username == args.username).first()
        if not user:
            sys.stderr.write(f"user '{args.username}' not found\n")
            return 3
        role = db.query(Role).filter(Role.name == args.role).first()
        if not role:
            sys.stderr.write(f"role '{args.role}' not found\n")
            return 4
        user.role_id = role.id
        user.is_admin = (args.role == "admin")
        db.commit()
        _emit({
            "ok": True,
            "user": {"id": user.id, "username": user.username, "role": role.name, "is_admin": user.is_admin},
        })
        return 0
    finally:
        db.close()
 # ---------------------------------------------------------------------------
 # reset-password
 # ---------------------------------------------------------------------------
 def _cmd_reset_password(argv: list[str]) -> int:
    p = argparse.ArgumentParser(prog="hf-cli admin reset-password")
    p.add_argument("--username", required=True)
    p.add_argument("--password", required=True)
    args = p.parse_args(argv)
    if settings.HARBORFORGE_OIDC_ONLY:
        sys.stderr.write("HARBORFORGE_OIDC_ONLY=true: password login is disabled.\n")
        return 2
    db = _open_db()
    try:
        user = db.query(models.User).filter(models.User.username == args.username).first()
        if not user:
            sys.stderr.write(f"user '{args.username}' not found\n")
            return 3
        user.hashed_password = get_password_hash(args.password)
        db.commit()
        _emit({"ok": True, "user": {"id": user.id, "username": user.username, "password_reset": True}})
        return 0
    finally:
        db.close()
 # ---------------------------------------------------------------------------
 # bind-oidc — attach an OIDC identity to an existing admin
 # ---------------------------------------------------------------------------
 def _cmd_bind_oidc(argv: list[str]) -> int:
    p = argparse.ArgumentParser(prog="hf-cli admin bind-oidc")
    p.add_argument("--username", required=True)
    p.add_argument("--oidc-issuer", required=True)
    p.add_argument("--oidc-subject", required=True)
    args = p.parse_args(argv)
    db = _open_db()
    try:
        user = db.query(models.User).filter(models.User.username == args.username).first()
        if not user:
            sys.stderr.write(f"user '{args.username}' not found\n")
            return 3
        clash = db.query(models.User).filter(
            models.User.oidc_issuer == args.oidc_issuer,
            models.User.oidc_subject == args.oidc_subject,
            models.User.id != user.id,
        ).first()
        if clash:
            sys.stderr.write(f"OIDC subject already bound to '{clash.username}' (id={clash.id})\n")
            return 4
        user.oidc_issuer = args.oidc_issuer
        user.oidc_subject = args.oidc_subject
        db.commit()
        _emit({
            "ok": True,
            "user": {
                "id": user.id,
                "username": user.username,
                "oidc_issuer": user.oidc_issuer,
                "oidc_subject": user.oidc_subject,
            },
        })
        return 0
    finally:
        db.close()
 # ---------------------------------------------------------------------------
 # dispatcher
 # ---------------------------------------------------------------------------
 ACTIONS = {
    "create-user": _cmd_create_user,
    "list": _cmd_list,
    "set-role": _cmd_set_role,
    "reset-password": _cmd_reset_password,
    "bind-oidc": _cmd_bind_oidc,
 }
 def dispatch(argv: list[str]) -> int:
    if not argv:
        sys.stderr.write("admin: missing action; one of: " + ", ".join(ACTIONS) + "\n")
        return 1
    action, rest = argv[0], argv[1:]
    fn = ACTIONS.get(action)
    if not fn:
        sys.stderr.write(f"admin: unknown action '{action}'; valid: {', '.join(ACTIONS)}\n")
        return 1
    return fn(rest)
--- a/app/cli/config.py
+++ b/app/cli/config.py
@@ -1,108 +0,0 @@
 """hf-cli config … — runtime configuration stored in DB.
 Currently only the OIDC provider config has a CLI surface (it used to
 live in the AbstractWizard config). Mirrors dialectic-cli's
 `config oidc` shape: only the flags you pass are mutated, the rest stays
 unchanged. Prints the post-update row with client_secret masked unless
 --show-secret is given.
 """
 import argparse
 import json
 import sys
 from app.core.config import SessionLocal
 from app.models.oidc_settings import OidcSettings
 def _emit(payload: dict) -> None:
    sys.stdout.write(json.dumps(payload, indent=2) + "\n")
 def _bool(v: str) -> bool:
    return v.lower() in ("1", "true", "yes", "on")
 def _cmd_oidc(argv: list[str]) -> int:
    p = argparse.ArgumentParser(prog="hf-cli config oidc")
    p.add_argument("--issuer", default=None)
    p.add_argument("--client-id", default=None)
    p.add_argument("--client-secret", default=None)
    p.add_argument("--redirect-uri", default=None)
    p.add_argument("--post-login-redirect", default=None)
    p.add_argument("--scopes", default=None,
                   help='Default: "openid email profile"')
    p.add_argument("--admin-role", default=None,
                   help="OIDC role name that bootstraps an unbound hf admin "
                        "on first OIDC-only login. Default: admin.")
    p.add_argument("--enabled", default=None,
                   help="true|false. Without this flag the row's existing "
                        "value is preserved.")
    p.add_argument("--show-secret", action="store_true",
                   help="Reveal client_secret in the output (local audit "
                        "only — never paste into chat).")
    args = p.parse_args(argv)
    db = SessionLocal()
    try:
        row = db.query(OidcSettings).filter(OidcSettings.id == 1).first()
        if row is None:
            row = OidcSettings(id=1, enabled=False)
            db.add(row)
        if args.issuer is not None:
            row.issuer = args.issuer.strip() or None
        if args.client_id is not None:
            row.client_id = args.client_id.strip() or None
        if args.client_secret is not None:
            row.client_secret = args.client_secret or None
        if args.redirect_uri is not None:
            row.redirect_uri = args.redirect_uri.strip() or None
        if args.post_login_redirect is not None:
            row.post_login_redirect = args.post_login_redirect.strip() or None
        if args.scopes is not None:
            row.scopes = args.scopes.strip() or None
        if args.admin_role is not None:
            row.admin_role = args.admin_role.strip() or None
        if args.enabled is not None:
            row.enabled = _bool(args.enabled)
        db.commit()
        db.refresh(row)
        out: dict = {
            "enabled": bool(row.enabled),
            "issuer": row.issuer,
            "client_id": row.client_id,
            "redirect_uri": row.redirect_uri,
            "post_login_redirect": row.post_login_redirect,
            "scopes": row.scopes,
            "admin_role": row.admin_role,
        }
        if args.show_secret:
            out["client_secret"] = row.client_secret
        elif row.client_secret:
            out["client_secret"] = "***set***"
        else:
            out["client_secret"] = None
        _emit({"ok": True, "config": out})
        return 0
    finally:
        db.close()
 ACTIONS = {
    "oidc": _cmd_oidc,
 }
 def dispatch(argv: list[str]) -> int:
    if not argv:
        sys.stderr.write("config: missing action; one of: " + ", ".join(ACTIONS) + "\n")
        return 1
    action, rest = argv[0], argv[1:]
    fn = ACTIONS.get(action)
    if not fn:
        sys.stderr.write(f"config: unknown action '{action}'; valid: {', '.join(ACTIONS)}\n")
        return 1
    return fn(rest)
--- a/app/core/config.py
+++ b/app/core/config.py
@@ -1,13 +1,34 @@
-"""Backend runtime settings — env-only (no wizard / no config volume).
+import os
-
+import json
 OIDC issuer/client_id/etc. live in the `oidc_settings` DB table set
 via `hf-cli config oidc ...`. The OIDC_ONLY flag remains env-driven
 because it's a deploy-time policy, not a per-tenant runtime config.
 """
 from sqlalchemy import create_engine
 from sqlalchemy.ext.declarative import declarative_base
 from sqlalchemy.orm import sessionmaker
 from pydantic_settings import BaseSettings
 from typing import Optional
 def _resolve_db_url(env_url: str) -> str:
    """Read DB config from wizard config volume if available, else use env."""
    config_dir = os.getenv("CONFIG_DIR", "/config")
    config_file = os.getenv("CONFIG_FILE", "harborforge.json")
    config_path = os.path.join(config_dir, config_file)
    if os.path.exists(config_path):
        try:
            with open(config_path, "r") as f:
                cfg = json.load(f)
            db_cfg = cfg.get("database")
            if db_cfg:
                host = db_cfg.get("host", "mysql")
                port = db_cfg.get("port", 3306)
                user = db_cfg.get("user", "harborforge")
                password = db_cfg.get("password", "harborforge_pass")
                database = db_cfg.get("database", "harborforge")
                return f"mysql+pymysql://{user}:{password}@{host}:{port}/{database}"
        except Exception:
            pass
    return env_url
 class Settings(BaseSettings):
@@ -17,9 +38,19 @@ class Settings(BaseSettings):
    ALGORITHM: str = "HS256"
    ACCESS_TOKEN_EXPIRE_MINUTES: int = 30
    # --- OIDC (generic, OpenID Connect discovery) ---
    OIDC_ENABLED: bool = False
    OIDC_ISSUER: str = ""            # e.g. https://idp.example.com (we use {issuer}/.well-known/openid-configuration)
    OIDC_CLIENT_ID: str = ""
    OIDC_CLIENT_SECRET: str = ""
    OIDC_REDIRECT_URI: str = ""      # backend callback, e.g. https://hf-api.example.com/auth/oidc/callback
    OIDC_SCOPES: str = "openid email profile"
    OIDC_POST_LOGIN_REDIRECT: str = ""   # frontend URL to return to (token in fragment). Falls back to "/"
    OIDC_ADMIN_ROLE: str = "admin"       # OIDC role name that bootstraps the unbound hf admin (OIDC-only)
    # When true: no password login at all. Password login endpoint rejects,
-    # user creation ignores any password (passwordless users that only sign
+    # user creation ignores any password (passwordless user that can only use
-    # in via a bound OIDC identity / API keys), frontend hides password UI.
+    # API keys / OIDC), and the frontend hides all password UI.
    HARBORFORGE_OIDC_ONLY: bool = False
    class Config:
@@ -44,7 +75,9 @@ if settings.SECRET_KEY in _WEAK_SECRETS or len(settings.SECRET_KEY) < 32:
        "Refusing to start with a default/short key."
    )
-engine = create_engine(settings.DATABASE_URL, pool_pre_ping=True)
+# Resolve DB URL: wizard config volume > env > default
 _db_url = _resolve_db_url(settings.DATABASE_URL)
 engine = create_engine(_db_url, pool_pre_ping=True)
 SessionLocal = sessionmaker(autocommit=False, autoflush=False, bind=engine)
 Base = declarative_base()
--- a/app/init_bootstrap.py
+++ b/app/init_bootstrap.py
@@ -1,286 +0,0 @@
 """
 HarborForge unconditional startup seeds — runs every time backend boots.
 Seeds default permissions, default roles, the `acc-mgr` built-in (account
 provisioning agent), and the `deleted-user` foreign-key sink. Idempotent;
 existing rows are left alone.
 Wizard/.json config bootstrap has been removed entirely as of v0.4.0.
 First-deploy admin user, OIDC settings, and discord webhook config all
 moved to operator-driven flows:
  docker exec hf-backend hf-cli admin create-user --email ... --password ...
  docker exec hf-backend hf-cli config oidc --issuer ... --client-id ...
 Builtin accounts created here:
  - acc-mgr (account-manager role) — cannot log in, used by the
    account-creation API as a system principal
  - deleted-user — FK sink so user delete doesn't cascade
 The bootstrap admin user is NOT created here — that's CLI-driven so
 operators pick the email/password themselves.
 """
 import logging
 from sqlalchemy.orm import Session
 from app.models import models
 from app.models.role_permission import Role, Permission, RolePermission
 logger = logging.getLogger("harborforge.bootstrap")
 # ---------------------------------------------------------------------------
 # Permissions catalog (canonical; new perms get added on every release)
 # ---------------------------------------------------------------------------
 DEFAULT_PERMISSIONS = [
    # Project permissions
    ("project.read", "View project", "project"),
    ("project.write", "Edit project", "project"),
    ("project.create", "Create a project", "project"),
    ("project.delete", "Delete project", "project"),
    ("project.manage_members", "Manage project members", "project"),
    # Knowledge base permissions
    ("knowledge-base.read", "View knowledge bases", "knowledge-base"),
    ("knowledge-base.create", "Create a knowledge base", "knowledge-base"),
    ("knowledge-base.update", "Edit a knowledge base and its structure", "knowledge-base"),
    ("knowledge-base.delete", "Delete a knowledge base", "knowledge-base"),
    # Task/Milestone permissions
    ("task.create", "Create tasks", "task"),
    ("task.read", "View tasks", "task"),
    ("task.write", "Edit tasks", "task"),
    ("task.delete", "Delete tasks", "task"),
    ("milestone.create", "Create milestones", "milestone"),
    ("milestone.read", "View milestones", "milestone"),
    ("milestone.write", "Edit milestones", "milestone"),
    ("milestone.delete", "Delete milestones", "milestone"),
    # Milestone actions
    ("milestone.freeze", "Freeze milestone scope", "milestone"),
    ("milestone.start", "Start milestone execution", "milestone"),
    ("milestone.close", "Close / abort milestone", "milestone"),
    # Task actions
    ("task.close", "Close / cancel a task", "task"),
    ("task.reopen_closed", "Reopen a closed task", "task"),
    ("task.reopen_completed", "Reopen a completed task", "task"),
    # Proposal actions (permission names kept as propose.* for DB compat)
    ("propose.accept", "Accept a proposal into a milestone", "propose"),
    ("propose.reject", "Reject a proposal", "propose"),
    ("propose.reopen", "Reopen a rejected proposal", "propose"),
    # Role/Permission management
    ("role.manage", "Manage roles and permissions", "admin"),
    ("account.create", "Create HarborForge accounts", "account"),
    # User management
    ("user.manage", "Manage users", "admin"),
    # API key management
    ("user.reset-self-apikey", "Reset own API key", "user"),
    ("user.reset-apikey", "Reset any user's API key", "admin"),
    # Monitor
    ("monitor.read", "View monitor", "monitor"),
    ("monitor.manage", "Manage monitor", "monitor"),
    # Calendar
    ("calendar.read", "View calendar slots and plans", "calendar"),
    ("calendar.write", "Create and edit calendar slots and plans", "calendar"),
    ("calendar.manage", "Manage calendar settings and workload policies", "calendar"),
    # Webhook
    ("webhook.manage", "Manage webhooks", "admin"),
    # Project member management (used by DELETE /projects/{id}/members/{user_id})
    ("member.remove", "Remove a project member", "project"),
    # Schedule type (calendar templates) — read covers list+detail, manage covers
    # create/edit/delete on schedule_types AND their special slots.
    ("schedule_type.read",   "View schedule types and special slots",            "calendar"),
    ("schedule_type.manage", "Create / edit / delete schedule types and slots", "calendar"),
 ]
 def init_default_permissions(db: Session) -> list[Permission]:
    """Insert any missing perms from DEFAULT_PERMISSIONS. Returns all rows."""
    created = []
    for name, description, category in DEFAULT_PERMISSIONS:
        existing = db.query(Permission).filter(Permission.name == name).first()
        if not existing:
            perm = Permission(name=name, description=description, category=category)
            db.add(perm)
            created.append(perm)
            logger.info("Created permission '%s'", name)
    if created:
        db.commit()
    return db.query(Permission).all()
 # ---------------------------------------------------------------------------
 # Default roles + permission set per role
 # ---------------------------------------------------------------------------
 _MGR_PERMISSIONS = {
    "project.read", "project.write", "project.create", "project.manage_members",
    "knowledge-base.read", "knowledge-base.create", "knowledge-base.update", "knowledge-base.delete",
    "task.create", "task.read", "task.write", "task.delete",
    "milestone.create", "milestone.read", "milestone.write", "milestone.delete",
    "milestone.freeze", "milestone.start", "milestone.close",
    "task.close", "task.reopen_closed", "task.reopen_completed",
    "propose.accept", "propose.reject", "propose.reopen",
    "monitor.read",
    "calendar.read", "calendar.write", "calendar.manage",
    "user.reset-self-apikey",
 }
 _DEV_PERMISSIONS = {
    "project.read",
    "knowledge-base.read", "knowledge-base.update",
    "task.create", "task.read", "task.write",
    "milestone.read",
    "task.close", "task.reopen_closed", "task.reopen_completed",
    "monitor.read",
    "calendar.read", "calendar.write",
    "user.reset-self-apikey",
 }
 _ACCOUNT_MANAGER_PERMISSIONS = {
    "account.create",
    "user.reset-apikey",
 }
 # Default role for agents (assigned automatically by POST /users when
 # the create-user payload carries agent_id/claw_identifier — see
 # app/api/routers/users.py:_resolve_user_role). Guest-tier reads +
 # self-service API-key rotation so agents can manage their own creds
 # without admin intervention.
 _GENERAL_AGENT_PERMISSIONS = {
    "project.read",
    "knowledge-base.read",
    "task.read",
    "milestone.read",
    "monitor.read",
    "calendar.read",
    "user.reset-self-apikey",
 }
 _DEFAULT_ROLES = [
    ("admin", "Administrator - full access to all features", None),     # None ⇒ all perms
    ("account-manager", "Account manager - can only create accounts", _ACCOUNT_MANAGER_PERMISSIONS),
    ("mgr",   "Manager - project & milestone management",    _MGR_PERMISSIONS),
    ("dev",   "Developer - task execution & daily work",     _DEV_PERMISSIONS),
    ("general-agent", "General agent - read-only + self API key rotation", _GENERAL_AGENT_PERMISSIONS),
    ("guest", "Guest - read-only access",                    None),     # special: *.read only
 ]
 def _ensure_role(db: Session, name: str, description: str, is_global: bool = True) -> Role:
    role = db.query(Role).filter(Role.name == name).first()
    if not role:
        role = Role(name=name, description=description, is_global=is_global)
        db.add(role)
        db.commit()
        db.refresh(role)
        logger.info("Created role '%s' (id=%d)", name, role.id)
    return role
 def _sync_role_permissions(db: Session, role: Role, target_perm_names: set[str] | None) -> None:
    """Additive: grants missing perms, never revokes manually-granted ones.
    ``target_perm_names is None`` means **all** perms (admin)."""
    all_perms = db.query(Permission).all()
    perm_by_name = {p.name: p for p in all_perms}
    if target_perm_names is None:
        wanted_ids = {p.id for p in all_perms}
    else:
        wanted_ids = {perm_by_name[n].id for n in target_perm_names if n in perm_by_name}
    existing_ids = {rp.permission_id for rp in role.permissions}
    added = 0
    for pid in wanted_ids - existing_ids:
        db.add(RolePermission(role_id=role.id, permission_id=pid))
        added += 1
    if added:
        db.commit()
        logger.info("Assigned %d new permissions to role '%s'", added, role.name)
 def init_default_roles(db: Session) -> None:
    """Create default roles (admin/account-manager/mgr/dev/guest) + permissions."""
    all_perms = db.query(Permission).all()
    read_perm_names = {p.name for p in all_perms if p.name.endswith(".read")}
    for name, description, perm_set in _DEFAULT_ROLES:
        role = _ensure_role(db, name, description)
        if name == "guest":
            _sync_role_permissions(db, role, read_perm_names)
        else:
            _sync_role_permissions(db, role, perm_set)
    logger.info("Default roles ready (admin / account-manager / mgr / dev / guest)")
 # ---------------------------------------------------------------------------
 # Built-in user accounts (system principals, cannot log in)
 # ---------------------------------------------------------------------------
 DELETED_USER_USERNAME = "deleted-user"
 def init_acc_mgr_user(db: Session) -> models.User | None:
    """The account-manager system principal. Holds the `account-manager`
    role so the account-creation API can attribute new users to it. No
    password, no OIDC binding — cannot log in."""
    username = "acc-mgr"
    existing = db.query(models.User).filter(models.User.username == username).first()
    if existing:
        return existing
    acc_mgr_role = db.query(Role).filter(Role.name == "account-manager").first()
    if not acc_mgr_role:
        logger.warning("account-manager role not found, skipping acc-mgr user creation")
        return None
    user = models.User(
        username=username,
        email="acc-mgr@harborforge.internal",
        full_name="Account Manager",
        hashed_password=None,
        is_admin=False,
        is_active=True,
        role_id=acc_mgr_role.id,
    )
    db.add(user)
    db.commit()
    db.refresh(user)
    logger.info("Created acc-mgr user (id=%d) with account-manager role", user.id)
    return user
 def init_deleted_user(db: Session) -> models.User | None:
    """FK sink for deleted users — when a real user is deleted, all FK
    references reassign here instead of cascading."""
    existing = db.query(models.User).filter(
        models.User.username == DELETED_USER_USERNAME
    ).first()
    if existing:
        return existing
    user = models.User(
        username=DELETED_USER_USERNAME,
        email="deleted-user@harborforge.internal",
        full_name="Deleted User",
        hashed_password=None,
        is_admin=False,
        is_active=False,
        role_id=None,
    )
    db.add(user)
    db.commit()
    db.refresh(user)
    logger.info("Created deleted-user (id=%d)", user.id)
    return user
 # ---------------------------------------------------------------------------
 # Top-level bootstrap entry point — called from main.py startup
 # ---------------------------------------------------------------------------
 def run_bootstrap(db: Session) -> None:
    """Idempotent startup seed. Safe to call on every boot.
    Does NOT create the admin user — that's CLI-driven (see hf-cli admin
    create-user) so operators pick credentials.
    """
    init_default_permissions(db)
    init_default_roles(db)
    init_acc_mgr_user(db)
    init_deleted_user(db)
    logger.info("Bootstrap seeds complete")
--- a/app/init_wizard.py
+++ b/app/init_wizard.py
@@ -0,0 +1,411 @@
 """
 HarborForge initialization from AbstractWizard config volume.
 Reads config from shared volume (written by AbstractWizard).
 On startup, creates admin user and default project if not exists.
 """
 import os
 import json
 import logging
 from sqlalchemy.orm import Session
 from app.models import models
 from app.models.role_permission import Role, Permission, RolePermission
 from app.models.oidc_settings import OidcSettings
 from app.api.deps import get_password_hash
 logger = logging.getLogger("harborforge.init")
 CONFIG_DIR = os.getenv("CONFIG_DIR", "/config")
 CONFIG_FILE = os.getenv("CONFIG_FILE", "harborforge.json")
 def load_config() -> dict | None:
    """Load initialization config from shared volume."""
    config_path = os.path.join(CONFIG_DIR, CONFIG_FILE)
    if not os.path.exists(config_path):
        logger.info("No config file at %s, skipping initialization", config_path)
        return None
    try:
        with open(config_path, "r") as f:
            return json.load(f)
    except Exception as e:
        logger.warning("Failed to read config %s: %s", config_path, e)
        return None
 def get_db_url(config: dict) -> str | None:
    """Build DATABASE_URL from wizard config, or fall back to env."""
    db_cfg = config.get("database")
    if not db_cfg:
        return os.getenv("DATABASE_URL")
    host = db_cfg.get("host", "mysql")
    port = db_cfg.get("port", 3306)
    user = db_cfg.get("user", "harborforge")
    password = db_cfg.get("password", "harborforge_pass")
    database = db_cfg.get("database", "harborforge")
    return f"mysql+pymysql://{user}:{password}@{host}:{port}/{database}"
 def init_admin_user(db: Session, admin_cfg: dict) -> models.User | None:
    """Create admin user if not exists."""
    username = admin_cfg.get("username", "admin")
    existing = db.query(models.User).filter(models.User.username == username).first()
    if existing:
        logger.info("Admin user '%s' already exists (id=%d), skipping", username, existing.id)
        return existing
    password = admin_cfg.get("password", "changeme")
    user = models.User(
        username=username,
        email=admin_cfg.get("email", f"{username}@harborforge.local"),
        full_name=admin_cfg.get("full_name", "Admin"),
        hashed_password=get_password_hash(password),
        is_admin=True,
        is_active=True,
    )
    db.add(user)
    db.commit()
    db.refresh(user)
    logger.info("Created admin user '%s' (id=%d)", username, user.id)
    return user
 def init_default_project(db: Session, project_cfg: dict, owner_id: int, owner_name: str = "") -> None:
    """Create default project if configured and not exists."""
    name = project_cfg.get("name")
    if not name:
        return
    existing = db.query(models.Project).filter(models.Project.name == name).first()
    if existing:
        logger.info("Project '%s' already exists (id=%d), skipping", name, existing.id)
        return
    project = models.Project(
        name=name,
        description=project_cfg.get("description", ""),
        owner_name=project_cfg.get("owner") or owner_name or "",
        owner_id=owner_id,
    )
    db.add(project)
    db.commit()
    db.refresh(project)
    logger.info("Created default project '%s' (id=%d)", name, project.id)
 # Default permissions that will be created if not exist
 DEFAULT_PERMISSIONS = [
    # Project permissions
    ("project.read", "View project", "project"),
    ("project.write", "Edit project", "project"),
    ("project.delete", "Delete project", "project"),
    ("project.manage_members", "Manage project members", "project"),
    # Task/Milestone permissions
    ("task.create", "Create tasks", "task"),
    ("task.read", "View tasks", "task"),
    ("task.write", "Edit tasks", "task"),
    ("task.delete", "Delete tasks", "task"),
    ("milestone.create", "Create milestones", "milestone"),
    ("milestone.read", "View milestones", "milestone"),
    ("milestone.write", "Edit milestones", "milestone"),
    ("milestone.delete", "Delete milestones", "milestone"),
    # Milestone actions
    ("milestone.freeze", "Freeze milestone scope", "milestone"),
    ("milestone.start", "Start milestone execution", "milestone"),
    ("milestone.close", "Close / abort milestone", "milestone"),
    # Task actions
    ("task.close", "Close / cancel a task", "task"),
    ("task.reopen_closed", "Reopen a closed task", "task"),
    ("task.reopen_completed", "Reopen a completed task", "task"),
    # Proposal actions (permission names kept as propose.* for DB compat)
    ("propose.accept", "Accept a proposal into a milestone", "propose"),
    ("propose.reject", "Reject a proposal", "propose"),
    ("propose.reopen", "Reopen a rejected proposal", "propose"),
    # Role/Permission management
    ("role.manage", "Manage roles and permissions", "admin"),
    ("account.create", "Create HarborForge accounts", "account"),
    # User management
    ("user.manage", "Manage users", "admin"),
    # API key management
    ("user.reset-self-apikey", "Reset own API key", "user"),
    ("user.reset-apikey", "Reset any user's API key", "admin"),
    # Monitor
    ("monitor.read", "View monitor", "monitor"),
    ("monitor.manage", "Manage monitor", "monitor"),
    # Calendar
    ("calendar.read", "View calendar slots and plans", "calendar"),
    ("calendar.write", "Create and edit calendar slots and plans", "calendar"),
    ("calendar.manage", "Manage calendar settings and workload policies", "calendar"),
    # Webhook
    ("webhook.manage", "Manage webhooks", "admin"),
 ]
 def init_default_permissions(db: Session) -> list[Permission]:
    """Create default permissions if they don't exist. Returns all permissions."""
    created = []
    for name, description, category in DEFAULT_PERMISSIONS:
        existing = db.query(Permission).filter(Permission.name == name).first()
        if not existing:
            perm = Permission(name=name, description=description, category=category)
            db.add(perm)
            created.append(perm)
            logger.info("Created permission '%s'", name)
    if created:
        db.commit()
    # Return all permissions
    return db.query(Permission).all()
 # ---------------------------------------------------------------------------
 # Default role → permission mapping
 # ---------------------------------------------------------------------------
 # mgr: project management + all milestone/task/proposal actions
 _MGR_PERMISSIONS = {
    "project.read", "project.write", "project.manage_members",
    "task.create", "task.read", "task.write", "task.delete",
    "milestone.create", "milestone.read", "milestone.write", "milestone.delete",
    "milestone.freeze", "milestone.start", "milestone.close",
    "task.close", "task.reopen_closed", "task.reopen_completed",
    "propose.accept", "propose.reject", "propose.reopen",
    "monitor.read",
    "calendar.read", "calendar.write", "calendar.manage",
    "user.reset-self-apikey",
 }
 # dev: day-to-day development work — no freeze/start/close milestone, no accept/reject proposal
 _DEV_PERMISSIONS = {
    "project.read",
    "task.create", "task.read", "task.write",
    "milestone.read",
    "task.close", "task.reopen_closed", "task.reopen_completed",
    "monitor.read",
    "calendar.read", "calendar.write",
    "user.reset-self-apikey",
 }
 _ACCOUNT_MANAGER_PERMISSIONS = {
    "account.create",
    "user.reset-apikey",
 }
 # Role definitions: (name, description, permission_set)
 _DEFAULT_ROLES = [
    ("admin", "Administrator - full access to all features", None),       # None ⇒ all perms
    ("account-manager", "Account manager - can only create accounts", _ACCOUNT_MANAGER_PERMISSIONS),
    ("mgr",   "Manager - project & milestone management",    _MGR_PERMISSIONS),
    ("dev",   "Developer - task execution & daily work",     _DEV_PERMISSIONS),
    ("guest", "Guest - read-only access",                    None),       # special: *.read only
 ]
 def _ensure_role(db: Session, name: str, description: str, is_global: bool = True) -> Role:
    """Get or create a role by name."""
    role = db.query(Role).filter(Role.name == name).first()
    if not role:
        role = Role(name=name, description=description, is_global=is_global)
        db.add(role)
        db.commit()
        db.refresh(role)
        logger.info("Created role '%s' (id=%d)", name, role.id)
    return role
 def _sync_role_permissions(db: Session, role: Role, target_perm_names: set[str] | None) -> None:
    """Ensure *role* has exactly the permissions in *target_perm_names*.
    * ``None`` means **all** permissions (admin).
    * The special sentinel ``"__read_only__"`` is handled by the caller passing
      just the ``*.read`` names.
    Only adds missing permissions; never removes manually-granted ones (additive).
    """
    all_perms = db.query(Permission).all()
    perm_by_name = {p.name: p for p in all_perms}
    if target_perm_names is None:
        wanted_ids = {p.id for p in all_perms}
    else:
        wanted_ids = {perm_by_name[n].id for n in target_perm_names if n in perm_by_name}
    existing_ids = {rp.permission_id for rp in role.permissions}
    added = 0
    for pid in wanted_ids - existing_ids:
        db.add(RolePermission(role_id=role.id, permission_id=pid))
        added += 1
    if added:
        db.commit()
        logger.info("Assigned %d new permissions to role '%s'", added, role.name)
 def init_admin_role(db: Session, admin_user: models.User) -> None:
    """Create default roles (admin / mgr / dev / guest) with preset permissions."""
    all_perms = db.query(Permission).all()
    read_perm_names = {p.name for p in all_perms if p.name.endswith(".read")}
    for name, description, perm_set in _DEFAULT_ROLES:
        role = _ensure_role(db, name, description)
        if name == "guest":
            _sync_role_permissions(db, role, read_perm_names)
        else:
            _sync_role_permissions(db, role, perm_set)
    logger.info("Default roles setup complete (admin, mgr, dev, guest)")
 def init_acc_mgr_user(db: Session) -> models.User | None:
    """Create the built-in acc-mgr user if not exists.
    This user:
    - Has role 'account-manager' (can only create accounts)
    - Cannot log in (no password, hashed_password=None)
    - Cannot be deleted (enforced in delete endpoint)
    - Is created automatically after wizard initialization
    """
    username = "acc-mgr"
    existing = db.query(models.User).filter(models.User.username == username).first()
    if existing:
        logger.info("acc-mgr user already exists (id=%d), skipping", existing.id)
        return existing
    # Find account-manager role
    acc_mgr_role = db.query(Role).filter(Role.name == "account-manager").first()
    if not acc_mgr_role:
        logger.warning("account-manager role not found, skipping acc-mgr user creation")
        return None
    user = models.User(
        username=username,
        email="acc-mgr@harborforge.internal",
        full_name="Account Manager",
        hashed_password=None,  # Cannot log in — no password
        is_admin=False,
        is_active=True,
        role_id=acc_mgr_role.id,
    )
    db.add(user)
    db.commit()
    db.refresh(user)
    logger.info("Created acc-mgr user (id=%d) with account-manager role", user.id)
    return user
 DELETED_USER_USERNAME = "deleted-user"
 def init_deleted_user(db: Session) -> models.User | None:
    """Create the built-in deleted-user if not exists.
    This user serves as a foreign key sink: when a real user is deleted,
    all references are reassigned here instead of cascading deletes.
    It has no role (no permissions) and cannot log in.
    """
    existing = db.query(models.User).filter(
        models.User.username == DELETED_USER_USERNAME
    ).first()
    if existing:
        logger.info("deleted-user already exists (id=%d), skipping", existing.id)
        return existing
    user = models.User(
        username=DELETED_USER_USERNAME,
        email="deleted-user@harborforge.internal",
        full_name="Deleted User",
        hashed_password=None,
        is_admin=False,
        is_active=False,
        role_id=None,
    )
    db.add(user)
    db.commit()
    db.refresh(user)
    logger.info("Created deleted-user (id=%d)", user.id)
    return user
 def init_oidc_settings(db: Session, oidc_cfg: dict, admin_user: models.User | None) -> None:
    """Bootstrap OIDC from the wizard config (first init only).
    Creates the single oidc_settings row if absent so the deployment comes
    up with OIDC configured. If admin_subject is given, binds the bootstrap
    admin so it can sign in (critical in OIDC-only mode). Idempotent: an
    existing row / existing admin binding is left untouched so later admin
    edits via the API are not clobbered on restart."""
    if not oidc_cfg:
        return
    existing = db.query(OidcSettings).filter(OidcSettings.id == 1).first()
    if existing is None:
        db.add(OidcSettings(
            id=1,
            enabled=bool(oidc_cfg.get("enabled", True)),
            issuer=(oidc_cfg.get("issuer") or "").strip() or None,
            client_id=(oidc_cfg.get("client_id") or "").strip() or None,
            client_secret=oidc_cfg.get("client_secret") or None,
            redirect_uri=(oidc_cfg.get("redirect_uri") or "").strip() or None,
            scopes=(oidc_cfg.get("scopes") or "").strip() or None,
            post_login_redirect=(oidc_cfg.get("post_login_redirect") or "").strip() or None,
            admin_role=(oidc_cfg.get("admin_role") or "").strip() or None,
        ))
        db.commit()
        logger.info("OIDC settings bootstrapped from wizard config")
    admin_subject = (oidc_cfg.get("admin_subject") or "").strip()
    issuer = (oidc_cfg.get("issuer") or "").strip()
    if admin_user and admin_subject and issuer and not admin_user.oidc_subject:
        clash = db.query(models.User).filter(
            models.User.oidc_issuer == issuer,
            models.User.oidc_subject == admin_subject,
            models.User.id != admin_user.id,
        ).first()
        if clash:
            logger.warning("Admin OIDC subject already bound to '%s'; skipping admin bind", clash.username)
        else:
            admin_user.oidc_issuer = issuer
            admin_user.oidc_subject = admin_subject
            db.commit()
            logger.info("Bootstrap admin '%s' bound to OIDC subject", admin_user.username)
 def run_init(db: Session) -> None:
    """Main initialization entry point. Reads config from shared volume."""
    config = load_config()
    if not config:
        return
    logger.info("Running HarborForge initialization from wizard config")
    # Initialize default permissions and admin role (always run)
    all_perms = init_default_permissions(db)
    logger.info("Default permissions initialized: %d total", len(all_perms))
    # Admin user
    admin_cfg = config.get("admin")
    admin_user = None
    if admin_cfg:
        admin_user = init_admin_user(db, admin_cfg)
        # Create admin role and assign to admin user
        if admin_user:
            init_admin_role(db, admin_user)
    # Built-in acc-mgr user (after roles are created)
    init_acc_mgr_user(db)
    # Built-in deleted-user (foreign key sink for deleted accounts)
    init_deleted_user(db)
    # Default project
    project_cfg = config.get("default_project")
    if project_cfg and admin_user:
        init_default_project(db, project_cfg, admin_user.id, admin_user.username)
    # OIDC bootstrap (provider config + optional bootstrap-admin binding)
    init_oidc_settings(db, config.get("oidc") or {}, admin_user)
    logger.info("Initialization complete")
--- a/app/main.py
+++ b/app/main.py
@@ -42,22 +42,24 @@ def version():
@app.get("/config/status", tags=["System"])
 def config_status():
-    """Has the deployment been bootstrapped (admin user exists)?
+    """Check if HarborForge has been initialized (reads from config volume).
-
+    Frontend uses this instead of contacting the wizard directly."""
-    Frontend hits this on mount to decide whether to show login or a
+    import os, json
-    "no admin yet, run hf-cli admin create-user" placeholder. With the
+    config_dir = os.getenv("CONFIG_DIR", "/config")
-    wizard removed in v0.4.0 the only deploy-time bootstrap step is the
+    config_file = os.getenv("CONFIG_FILE", "harborforge.json")
-    operator running `docker exec hf-backend hf-cli admin create-user ...`
+    config_path = os.path.join(config_dir, config_file)
-    once; this endpoint just reports whether that has happened.
+    if not os.path.exists(config_path):
-    """
+        return {"initialized": False}
    from app.core.config import SessionLocal
    from app.models import models
    db = SessionLocal()
    try:
-        admin_count = db.query(models.User).filter(models.User.is_admin == True).count()  # noqa: E712
+        with open(config_path, "r") as f:
-        return {"initialized": admin_count > 0}
+            cfg = json.load(f)
-    finally:
+        return {
-        db.close()
+            "initialized": cfg.get("initialized", False),
            "backend_url": cfg.get("backend_url"),
            "discord": cfg.get("discord") or {},
        }
    except Exception:
        return {"initialized": False}
 # Register routers
 from app.api.routers.auth import router as auth_router
@@ -76,10 +78,8 @@ from app.api.routers.milestone_actions import router as milestone_actions_router
 from app.api.routers.meetings import router as meetings_router
 from app.api.routers.essentials import router as essentials_router
 from app.api.routers.schedule_type import router as schedule_type_router
 from app.api.routers.schedule_type_special_slot import router as schedule_type_special_slot_router
 from app.api.routers.calendar import router as calendar_router
 from app.api.routers.oidc import router as oidc_router
 from app.api.routers.knowledge import router as knowledge_router
 app.include_router(auth_router)
 app.include_router(oidc_router)
@@ -98,9 +98,7 @@ app.include_router(milestone_actions_router)
 app.include_router(meetings_router)
 app.include_router(essentials_router)
 app.include_router(schedule_type_router)
 app.include_router(schedule_type_special_slot_router)
 app.include_router(calendar_router)
 app.include_router(knowledge_router)
 # Auto schema migration for lightweight deployments
@@ -399,63 +397,6 @@ def _migrate_schema():
        if _has_table(db, "agents") and not _has_column(db, "agents", "schedule_type_id"):
            db.execute(text("ALTER TABLE agents ADD COLUMN schedule_type_id INTEGER NULL"))
        # --- schedule_types: add maintenance_from / maintenance_to ---
        # Default 8:00–9:00 UTC for existing rows; the maintenance
        # duration invariant (1-180min) is enforced at the schema
        # level for any NEW rows by ScheduleTypeCreate validator.
        if _has_table(db, "schedule_types"):
            if not _has_column(db, "schedule_types", "maintenance_from"):
                db.execute(text(
                    "ALTER TABLE schedule_types ADD COLUMN maintenance_from INT NOT NULL DEFAULT 8"
                ))
            if not _has_column(db, "schedule_types", "maintenance_to"):
                db.execute(text(
                    "ALTER TABLE schedule_types ADD COLUMN maintenance_to INT NOT NULL DEFAULT 9"
                ))
            # --- minutes-since-midnight migration (PR #21+) ---
            # The 6 schedule_type window columns used to hold *hours*
            # (0-23). PR #21 changed semantics to *minutes since UTC
            # midnight* (0-1439). Detect the legacy regime by checking
            # if ANY row has all 6 values ≤ 23 — if so, multiply each
            # by 60 to convert. Idempotent: post-conversion values are
            # all ≥ 0 and usually well above 23, so guard never fires
            # twice.
            row = db.execute(text(
                "SELECT MAX(GREATEST(work_from, work_to, entertainment_from, entertainment_to, maintenance_from, maintenance_to)) AS m "
                "FROM schedule_types"
            )).fetchone()
            if row is not None and row.m is not None and row.m <= 23:
                db.execute(text(
                    "UPDATE schedule_types SET "
                    "  work_from = work_from * 60, "
                    "  work_to = work_to * 60, "
                    "  entertainment_from = entertainment_from * 60, "
                    "  entertainment_to = entertainment_to * 60, "
                    "  maintenance_from = maintenance_from * 60, "
                    "  maintenance_to = maintenance_to * 60"
                ))
        # --- time_slots: admin-locked + special_slot pointer ---
        if _has_table(db, "time_slots"):
            if not _has_column(db, "time_slots", "is_admin_locked"):
                db.execute(text(
                    "ALTER TABLE time_slots ADD COLUMN is_admin_locked TINYINT(1) NOT NULL DEFAULT 0"
                ))
            if not _has_column(db, "time_slots", "special_slot_id"):
                db.execute(text(
                    "ALTER TABLE time_slots ADD COLUMN special_slot_id INTEGER NULL"
                ))
                # Index for the materialiser's idempotency lookup
                db.execute(text(
                    "CREATE INDEX idx_time_slots_special_slot_id ON time_slots (special_slot_id)"
                ))
        # --- schedule_type_special_slots: create-table is handled by
        # Base.metadata.create_all on first boot; no migration needed here
        # because there is no legacy table to evolve. Future schema bumps
        # to that table go in this block.
        db.commit()
    except Exception as e:
        db.rollback()
@@ -490,17 +431,15 @@ def _sync_default_user_roles(db):
@app.on_event("startup")
 def startup():
    from app.core.config import Base, engine, SessionLocal
-    from app.models import models, webhook, apikey, activity, milestone, notification, worklog, monitor, role_permission, task, support, meeting, proposal, propose, essential, agent, calendar, minimum_workload, schedule_type, schedule_type_special_slot, oidc_settings, knowledge
+    from app.models import models, webhook, apikey, activity, milestone, notification, worklog, monitor, role_permission, task, support, meeting, proposal, propose, essential, agent, calendar, minimum_workload, schedule_type, oidc_settings
    Base.metadata.create_all(bind=engine)
    _migrate_schema()
-    # Idempotent startup seed: permissions, default roles, built-in
+    # Initialize from AbstractWizard (admin user, default project, etc.)
-    # accounts (acc-mgr, deleted-user). The admin user + OIDC config are
+    from app.init_wizard import run_init
    # NOT created here — they're operator-driven via hf-cli.
    from app.init_bootstrap import run_bootstrap
    db = SessionLocal()
    try:
-        run_bootstrap(db)
+        run_init(db)
        _sync_default_user_roles(db)
    finally:
        db.close()
--- a/app/models/calendar.py
+++ b/app/models/calendar.py
@@ -178,37 +178,11 @@ class TimeSlot(Base):
        comment="Source plan if materialized from a SchedulePlan; set NULL on edit/cancel",
    )
    # -----------------------------------------------------------------
    # Admin-locked slots are materialised from a ScheduleTypeSpecialSlot
    # template. The agent can complete / abort / pause / resume them but
    # cannot edit their time, type, duration, or cancel them outright —
    # the slot exists because admin decided every agent on the parent
    # schedule_type should run it. See `_apply_agent_slot_update` for
    # the enforcement.
    # -----------------------------------------------------------------
    is_admin_locked = Column(
        Boolean,
        nullable=False,
        server_default="0",
        comment="True for slots materialised from a schedule_type special slot template.",
    )
    # Pointer back to the template that materialised this slot. NULL for
    # all user-created or plan-generated slots. Lets us cascade updates
    # and surface 'why is this on my calendar' to the agent.
    special_slot_id = Column(
        Integer,
        ForeignKey("schedule_type_special_slots.id", ondelete="SET NULL"),
        nullable=True,
        index=True,
    )
    created_at = Column(DateTime(timezone=True), server_default=func.now())
    updated_at = Column(DateTime(timezone=True), onupdate=func.now())
    # relationship ----------------------------------------------------------
    plan = relationship("SchedulePlan", back_populates="materialized_slots")
    special_slot = relationship("ScheduleTypeSpecialSlot")
 # ---------------------------------------------------------------------------
--- a/app/models/knowledge.py
+++ b/app/models/knowledge.py
@@ -1,101 +0,0 @@
 """Knowledge Base models.
 Mirrors the Project feature's shape (human-friendly *code*, creator FK,
 created/updated timestamps). Hierarchy is:
    knowledge_base
      └─ knowledge_topic            (unique per (topic, knowledge_base_id))
           ├─ knowledge_fact        (category_id NULL → fact lives on the topic)
           └─ knowledge_category    (parent NULL → top-level category in topic)
                ├─ knowledge_fact
                └─ knowledge_category (parent → nested)
 `project_knowledge_base` is the M2M link between projects and knowledge bases.
 Relationships are intentionally kept minimal (no ORM cascade on the
 self-referential category tree); deletion ordering is handled explicitly in
 the router to stay clear of FK-ordering surprises under MySQL.
 """
 from sqlalchemy import Column, Integer, String, Text, DateTime, ForeignKey, UniqueConstraint
 from sqlalchemy.orm import relationship
 from sqlalchemy.sql import func
 from app.core.config import Base
 class KnowledgeBase(Base):
    __tablename__ = "knowledge_bases"
    id = Column(Integer, primary_key=True, index=True)
    knowledge_base_code = Column(String(16), unique=True, index=True, nullable=True)
    title = Column(String(200), nullable=False)
    description = Column(Text, nullable=True)
    created_by = Column(Integer, ForeignKey("users.id"), nullable=False)
    created_at = Column(DateTime(timezone=True), server_default=func.now())
    last_updated_at = Column(DateTime(timezone=True), server_default=func.now(), onupdate=func.now())
    creator = relationship("User", foreign_keys=[created_by])
 class KnowledgeTopic(Base):
    __tablename__ = "knowledge_topics"
    __table_args__ = (
        UniqueConstraint("topic", "knowledge_base_id", name="uq_knowledge_topic_kb"),
    )
    id = Column(Integer, primary_key=True, index=True)
    topic = Column(String(200), nullable=False)
    knowledge_base_id = Column(Integer, ForeignKey("knowledge_bases.id"), nullable=False, index=True)
    description = Column(Text, nullable=True)
    created_by = Column(Integer, ForeignKey("users.id"), nullable=False)
    created_at = Column(DateTime(timezone=True), server_default=func.now())
    last_updated_at = Column(DateTime(timezone=True), server_default=func.now(), onupdate=func.now())
    creator = relationship("User", foreign_keys=[created_by])
 class KnowledgeCategory(Base):
    __tablename__ = "knowledge_categories"
    __table_args__ = (
        # NOTE: MySQL treats NULLs as distinct in a UNIQUE index, so this only
        # enforces uniqueness for non-NULL `parent`. Top-level categories
        # (parent IS NULL) are de-duped in the router (application-level check).
        UniqueConstraint("topic_id", "parent", "name", name="uq_knowledge_category_triple"),
    )
    id = Column(Integer, primary_key=True, index=True)
    name = Column(String(200), nullable=False)
    parent = Column(Integer, ForeignKey("knowledge_categories.id"), nullable=True, index=True)
    topic_id = Column(Integer, ForeignKey("knowledge_topics.id"), nullable=False, index=True)
    description = Column(Text, nullable=True)
    created_by = Column(Integer, ForeignKey("users.id"), nullable=True)
    last_updated_by = Column(Integer, ForeignKey("users.id"), nullable=True)
 class KnowledgeFact(Base):
    __tablename__ = "knowledge_facts"
    id = Column(Integer, primary_key=True, index=True)
    category_id = Column(Integer, ForeignKey("knowledge_categories.id"), nullable=True, index=True)
    topic_id = Column(Integer, ForeignKey("knowledge_topics.id"), nullable=False, index=True)
    fact = Column(Text, nullable=False)
    last_updated_at = Column(DateTime(timezone=True), server_default=func.now(), onupdate=func.now())
 class ProjectKnowledgeBase(Base):
    __tablename__ = "project_knowledge_bases"
    __table_args__ = (
        UniqueConstraint("project_id", "knowledge_base_id", name="uq_project_knowledge_base"),
    )
    id = Column(Integer, primary_key=True, index=True)
    project_id = Column(Integer, ForeignKey("projects.id"), nullable=False, index=True)
    knowledge_base_id = Column(Integer, ForeignKey("knowledge_bases.id"), nullable=False, index=True)
 class KnowledgeBaseCodeCounter(Base):
    __tablename__ = "knowledge_base_code_counters"
    id = Column(Integer, primary_key=True, index=True)
    prefix = Column(String(16), unique=True, index=True, nullable=False)
    next_value = Column(Integer, default=0)
--- a/app/models/schedule_type.py
+++ b/app/models/schedule_type.py
@@ -1,27 +1,17 @@
-"""ScheduleType model — defines work/entertainment/maintenance time periods.
+"""ScheduleType model — defines work/entertainment time periods.
-Each ScheduleType defines the daily work, entertainment, and maintenance
+Each ScheduleType defines the daily work and entertainment windows.
-windows for agents who reference this type. All bounds are stored as
+Agents reference a schedule_type to know when they should be working
-**minutes-since-UTC-midnight** (0-1439 inclusive) so half-hour and other
+vs when they can engage in entertainment activities.
 sub-hour boundaries are exact.
 Maintenance window length is variable (1-180 minutes) and admin-owned;
 agent slots cannot intersect it (see `app/api/routers/calendar.py`).
 Historical note: pre-PR #21 the columns held *hours* (0-23) and the
 maintenance window was hard-fixed at exactly 1 hour. The additive
 migration in `_migrate_schema()` multiplies legacy values by 60 so
 existing rows convert transparently.
 """
 from sqlalchemy import Column, Integer, String, DateTime
 from sqlalchemy.orm import relationship
 from sqlalchemy.sql import func
 from app.core.config import Base
 class ScheduleType(Base):
-    """Work/entertainment/maintenance period definition."""
+    """Work/entertainment period definition."""
    __tablename__ = "schedule_types"
@@ -34,50 +24,29 @@ class ScheduleType(Base):
        comment="Human-readable schedule type name (e.g., 'standard', 'night-shift')",
    )
-    # Minutes since UTC midnight, 0-1439 inclusive.
+    work_from = Column(
    work_from = Column(Integer, nullable=False, comment="Work period start (minutes since UTC midnight)")
    work_to = Column(Integer, nullable=False, comment="Work period end (minutes since UTC midnight)")
    entertainment_from = Column(Integer, nullable=False, comment="Entertainment start (minutes since UTC midnight)")
    entertainment_to = Column(Integer, nullable=False, comment="Entertainment end (minutes since UTC midnight)")
    # Maintenance window — admin-owned, variable length (1-180 min).
    # Default 8:00–9:00 UTC = 480–540 minutes for existing rows.
    maintenance_from = Column(
        Integer,
        nullable=False,
-        server_default="480",
+        comment="Work period start hour (0-23, UTC)",
        comment="Maintenance start (minutes since UTC midnight, default 480 = 8:00 UTC).",
    )
-    maintenance_to = Column(
+
    work_to = Column(
        Integer,
        nullable=False,
-        server_default="540",
+        comment="Work period end hour (0-23, UTC)",
-        comment="Maintenance end (minutes since UTC midnight, default 540 = 9:00 UTC). Duration ((to-from) mod 1440) must be in [1, 180].",
+    )
    entertainment_from = Column(
        Integer,
        nullable=False,
        comment="Entertainment period start hour (0-23, UTC)",
    )
    entertainment_to = Column(
        Integer,
        nullable=False,
        comment="Entertainment period end hour (0-23, UTC)",
    )
    created_at = Column(DateTime(timezone=True), server_default=func.now())
    updated_at = Column(DateTime(timezone=True), onupdate=func.now())
    # relationship ---------------------------------------------------
    special_slots = relationship(
        "ScheduleTypeSpecialSlot",
        back_populates="schedule_type",
        cascade="all, delete-orphan",
    )
    # ---------------------------------------------------------------
    # Convenience methods used by the API layer + materialiser.
    # ---------------------------------------------------------------
    def compute_maintenance_duration(self) -> int:
        """Maintenance window length in minutes (handles 23→0 wrap)."""
        return (self.maintenance_to - self.maintenance_from) % 1440 or 1440
    def window_contains(self, start_min: int, end_min: int, win_from: int, win_to: int) -> bool:
        """True if [start_min, end_min) intersects [win_from, win_to) (handles wrap)."""
        # Normalise into [0, 1440) — same logic as the helper in calendar.py.
        if win_to > win_from:
            return start_min < win_to and end_min > win_from
        # wrap window crosses midnight: [win_from..1440) ∪ [0..win_to)
        return start_min < win_to or end_min > win_from
--- a/app/models/schedule_type_special_slot.py
+++ b/app/models/schedule_type_special_slot.py
@@ -1,116 +0,0 @@
 """ScheduleTypeSpecialSlot — admin-managed slot template tied to a ScheduleType.
 A "special slot" is a recurring slot template that the system materializes
 into every matching agent's `time_slots` row each day. It exists for tasks
 that admin wants to enforce across an entire schedule type cohort, e.g.:
  * `plan-schedule` — daily planning slot all agents on this type must run
  * `secret-rotation-window` — security maintenance
  * `policy-update` — read updated agent policies
 Rules:
  * Only admins (`schedule_type.manage` permission) may create / edit /
    delete special slots.
  * The slot's `minute_in_window` offset must place it inside the parent
    schedule_type's maintenance window (`maintenance_from..maintenance_from+59`).
  * Materialised `time_slots` rows from a special slot carry
    `is_admin_locked=true` so the agent-side `PATCH .../agent-update`
    refuses status/time edits other than complete/abort/pause/resume.
  * Materialisation produces one `time_slots` row per agent using this
    schedule_type per date, with `slot_type=system`, `event_type=system_event`,
    `event_data={"special_slot_id": <id>, "special_slot_name": "<name>",
                  "source": "schedule_type_special_slot", ...admin-supplied...}`.
 """
 from sqlalchemy import Column, Integer, String, ForeignKey, JSON, DateTime, Boolean, UniqueConstraint
 from sqlalchemy.orm import relationship
 from sqlalchemy.sql import func
 from app.core.config import Base
 class ScheduleTypeSpecialSlot(Base):
    """Admin-managed daily slot template attached to a ScheduleType."""
    __tablename__ = "schedule_type_special_slots"
    __table_args__ = (
        # One slot template per (schedule_type, name) so admin can use the
        # `name` field as a stable, human-readable identifier for the cohort.
        UniqueConstraint("schedule_type_id", "name", name="uq_special_slot_type_name"),
    )
    id = Column(Integer, primary_key=True, index=True)
    schedule_type_id = Column(
        Integer,
        ForeignKey("schedule_types.id", ondelete="CASCADE"),
        nullable=False,
        index=True,
    )
    name = Column(
        String(64),
        nullable=False,
        comment="Short identifier, e.g. 'plan-schedule', 'secret-rotation'",
    )
    description = Column(
        String(512),
        nullable=True,
        comment="Human-readable note on what this slot is for",
    )
    minute_in_window = Column(
        Integer,
        nullable=False,
        server_default="0",
        comment=(
            "Minute offset (0-59) inside the schedule_type maintenance window. "
            "The materialised time_slot's scheduled_at becomes "
            "maintenance_from:minute_in_window:00 UTC."
        ),
    )
    estimated_duration = Column(
        Integer,
        nullable=False,
        server_default="15",
        comment="Duration in minutes. Must fit inside the maintenance window.",
    )
    priority = Column(
        Integer,
        nullable=False,
        server_default="50",
        comment="Wake priority — higher value wakes first if multiple slots are due.",
    )
    event_data = Column(
        JSON,
        nullable=True,
        comment=(
            "Admin-supplied JSON payload that gets merged into every "
            "materialised slot's event_data. Use this to pass a workflow "
            "tag, suggested_workload, or any other context the agent "
            "should see in its wakeup message."
        ),
    )
    is_active = Column(
        Boolean,
        nullable=False,
        server_default="1",
        comment="Soft-disable without deleting; inactive templates are skipped during materialisation.",
    )
    created_by_user_id = Column(
        Integer,
        ForeignKey("users.id"),
        nullable=False,
    )
    created_at = Column(DateTime(timezone=True), server_default=func.now())
    updated_at = Column(DateTime(timezone=True), onupdate=func.now())
    # relationship ---------------------------------------------------
    schedule_type = relationship("ScheduleType", back_populates="special_slots")
--- a/app/schemas/calendar.py
+++ b/app/schemas/calendar.py
@@ -144,8 +144,6 @@ class TimeSlotResponse(BaseModel):
    priority: int
    status: str
    plan_id: Optional[int] = None
    is_admin_locked: bool = False
    special_slot_id: Optional[int] = None
    created_at: Optional[dt_datetime] = None
    updated_at: Optional[dt_datetime] = None
@@ -228,8 +226,6 @@ class CalendarSlotItem(BaseModel):
    priority: int
    status: str
    plan_id: Optional[int] = None
    is_admin_locked: bool = False
    special_slot_id: Optional[int] = None
    created_at: Optional[dt_datetime] = None
    updated_at: Optional[dt_datetime] = None
--- a/app/schemas/knowledge.py
+++ b/app/schemas/knowledge.py
@@ -1,166 +0,0 @@
 """Pydantic schemas for the Knowledge Base feature."""
 from pydantic import BaseModel
 from typing import Optional, List
 from datetime import datetime
 # --------------------------------------------------------------------------
 # Knowledge Base
 # --------------------------------------------------------------------------
 class KnowledgeBaseBase(BaseModel):
    title: str
    description: Optional[str] = None
 class KnowledgeBaseCreate(KnowledgeBaseBase):
    pass
 class KnowledgeBaseUpdate(BaseModel):
    title: Optional[str] = None
    description: Optional[str] = None
 class KnowledgeBaseResponse(BaseModel):
    id: int
    knowledge_base_code: Optional[str] = None
    title: str
    description: Optional[str] = None
    created_by: int
    created_at: Optional[datetime] = None
    last_updated_at: Optional[datetime] = None
    class Config:
        from_attributes = True
 # --------------------------------------------------------------------------
 # Topic
 # --------------------------------------------------------------------------
 class KnowledgeTopicBase(BaseModel):
    topic: str
    description: Optional[str] = None
 class KnowledgeTopicCreate(KnowledgeTopicBase):
    pass
 class KnowledgeTopicUpdate(BaseModel):
    topic: Optional[str] = None
    description: Optional[str] = None
 class KnowledgeTopicResponse(BaseModel):
    id: int
    topic: str
    knowledge_base_id: int
    description: Optional[str] = None
    created_by: int
    created_at: Optional[datetime] = None
    last_updated_at: Optional[datetime] = None
    class Config:
        from_attributes = True
 # --------------------------------------------------------------------------
 # Category
 # --------------------------------------------------------------------------
 class KnowledgeCategoryBase(BaseModel):
    name: str
    description: Optional[str] = None
 class KnowledgeCategoryCreate(KnowledgeCategoryBase):
    topic_id: int
    parent: Optional[int] = None
 class KnowledgeCategoryUpdate(BaseModel):
    name: Optional[str] = None
    description: Optional[str] = None
    parent: Optional[int] = None
 class KnowledgeCategoryResponse(BaseModel):
    id: int
    name: str
    parent: Optional[int] = None
    topic_id: int
    description: Optional[str] = None
    created_by: Optional[int] = None
    last_updated_by: Optional[int] = None
    class Config:
        from_attributes = True
 # --------------------------------------------------------------------------
 # Fact
 # --------------------------------------------------------------------------
 class KnowledgeFactBase(BaseModel):
    fact: str
 class KnowledgeFactCreate(KnowledgeFactBase):
    topic_id: int
    category_id: Optional[int] = None
 class KnowledgeFactUpdate(BaseModel):
    fact: Optional[str] = None
    category_id: Optional[int] = None
 class KnowledgeFactResponse(BaseModel):
    id: int
    category_id: Optional[int] = None
    topic_id: int
    fact: str
    last_updated_at: Optional[datetime] = None
    class Config:
        from_attributes = True
 # --------------------------------------------------------------------------
 # Project <-> KnowledgeBase link
 # --------------------------------------------------------------------------
 class ProjectKnowledgeBaseLink(BaseModel):
    # Accept either a numeric id or a knowledge_base_code (mirrors how
    # projects are referenced elsewhere).
    knowledge_base: str
 # --------------------------------------------------------------------------
 # Nested tree (read-only aggregate)
 # --------------------------------------------------------------------------
 class CategoryTreeNode(BaseModel):
    id: int
    name: str
    parent: Optional[int] = None
    topic_id: int
    description: Optional[str] = None
    categories: List["CategoryTreeNode"] = []
    facts: List[KnowledgeFactResponse] = []
 class TopicTreeNode(BaseModel):
    id: int
    topic: str
    knowledge_base_id: int
    description: Optional[str] = None
    categories: List[CategoryTreeNode] = []
    facts: List[KnowledgeFactResponse] = []
 class KnowledgeBaseTree(BaseModel):
    id: int
    knowledge_base_code: Optional[str] = None
    title: str
    description: Optional[str] = None
    topics: List[TopicTreeNode] = []
 CategoryTreeNode.model_rebuild()
--- a/app/schemas/schedule_type.py
+++ b/app/schemas/schedule_type.py
@@ -1,67 +1,23 @@
-"""Schemas for ScheduleType CRUD.
+"""Schemas for ScheduleType CRUD."""
-All `*_from` / `*_to` values are **minutes since UTC midnight** (0-1439).
+from pydantic import BaseModel, Field
 A maintenance window of variable length is allowed (1-180 minutes,
 handles 23→0 wrap).
 """
 from pydantic import BaseModel, Field, model_validator
 from typing import Optional
 _MAX_MIN = 1440  # 24 * 60 — exclusive upper bound
 def _maintenance_duration(maint_from: int, maint_to: int) -> int:
    """Maintenance window length in minutes; treats from==to as 24h (invalid)."""
    return (maint_to - maint_from) % _MAX_MIN or _MAX_MIN
 def _validate_maintenance_window(maint_from: int, maint_to: int) -> None:
    dur = _maintenance_duration(maint_from, maint_to)
    if dur < 1 or dur > 180:
        raise ValueError(
            f"maintenance window duration must be in [1, 180] minutes; "
            f"got {dur} (from={maint_from}, to={maint_to})"
        )
 def _validate_minute_field(name: str, value: int) -> None:
    if value < 0 or value >= _MAX_MIN:
        raise ValueError(f"{name} must be in [0, {_MAX_MIN}); got {value}")
 class ScheduleTypeCreate(BaseModel):
    name: str = Field(..., min_length=1, max_length=64)
-    work_from: int = Field(..., ge=0, lt=_MAX_MIN, description="Work start (minutes since UTC midnight, 0-1439)")
+    work_from: int = Field(..., ge=0, le=23)
-    work_to: int = Field(..., ge=0, lt=_MAX_MIN)
+    work_to: int = Field(..., ge=0, le=23)
-    entertainment_from: int = Field(..., ge=0, lt=_MAX_MIN)
+    entertainment_from: int = Field(..., ge=0, le=23)
-    entertainment_to: int = Field(..., ge=0, lt=_MAX_MIN)
+    entertainment_to: int = Field(..., ge=0, le=23)
    maintenance_from: int = Field(480, ge=0, lt=_MAX_MIN, description="Maintenance start (default 480 = 8:00 UTC)")
    maintenance_to: int = Field(540, ge=0, lt=_MAX_MIN, description="Maintenance end; (to-from) mod 1440 in [1,180]")
    @model_validator(mode="after")
    def _check_maintenance(self):
        _validate_maintenance_window(self.maintenance_from, self.maintenance_to)
        return self
 class ScheduleTypeUpdate(BaseModel):
    name: Optional[str] = Field(None, min_length=1, max_length=64)
-    work_from: Optional[int] = Field(None, ge=0, lt=_MAX_MIN)
+    work_from: Optional[int] = Field(None, ge=0, le=23)
-    work_to: Optional[int] = Field(None, ge=0, lt=_MAX_MIN)
+    work_to: Optional[int] = Field(None, ge=0, le=23)
-    entertainment_from: Optional[int] = Field(None, ge=0, lt=_MAX_MIN)
+    entertainment_from: Optional[int] = Field(None, ge=0, le=23)
-    entertainment_to: Optional[int] = Field(None, ge=0, lt=_MAX_MIN)
+    entertainment_to: Optional[int] = Field(None, ge=0, le=23)
    maintenance_from: Optional[int] = Field(None, ge=0, lt=_MAX_MIN)
    maintenance_to: Optional[int] = Field(None, ge=0, lt=_MAX_MIN)
    @model_validator(mode="after")
    def _check_maintenance(self):
        # Only validate when both fields are present together; partial-
        # update validation against the merged row happens at apply time.
        if self.maintenance_from is not None and self.maintenance_to is not None:
            _validate_maintenance_window(self.maintenance_from, self.maintenance_to)
        return self
 class ScheduleTypeResponse(BaseModel):
@@ -71,9 +27,6 @@ class ScheduleTypeResponse(BaseModel):
    work_to: int
    entertainment_from: int
    entertainment_to: int
    maintenance_from: int
    maintenance_to: int
    maintenance_duration_minutes: Optional[int] = None  # derived; populated by router
    class Config:
        from_attributes = True
--- a/app/schemas/schedule_type_special_slot.py
+++ b/app/schemas/schedule_type_special_slot.py
@@ -1,43 +0,0 @@
 """Schemas for ScheduleTypeSpecialSlot CRUD (admin-only)."""
 from datetime import datetime
 from typing import Any, Optional
 from pydantic import BaseModel, Field
 class SpecialSlotCreate(BaseModel):
    name: str = Field(..., min_length=1, max_length=64)
    description: Optional[str] = Field(None, max_length=512)
    minute_in_window: int = Field(0, ge=0, le=179, description="Minute offset (0-179) inside the schedule_type maintenance window")
    estimated_duration: int = Field(15, ge=1, le=180, description="Duration in minutes; must fit inside the maintenance window (1-180min)")
    priority: int = Field(50, ge=0, le=99)
    event_data: Optional[dict[str, Any]] = Field(None, description="JSON payload merged into every materialised slot's event_data")
    is_active: bool = True
 class SpecialSlotUpdate(BaseModel):
    name: Optional[str] = Field(None, min_length=1, max_length=64)
    description: Optional[str] = Field(None, max_length=512)
    minute_in_window: Optional[int] = Field(None, ge=0, le=179)
    estimated_duration: Optional[int] = Field(None, ge=1, le=180)
    priority: Optional[int] = Field(None, ge=0, le=99)
    event_data: Optional[dict[str, Any]] = None
    is_active: Optional[bool] = None
 class SpecialSlotResponse(BaseModel):
    id: int
    schedule_type_id: int
    name: str
    description: Optional[str]
    minute_in_window: int
    estimated_duration: int
    priority: int
    event_data: Optional[dict[str, Any]]
    is_active: bool
    created_by_user_id: int
    created_at: datetime
    class Config:
        from_attributes = True
--- a/app/schemas/schemas.py
+++ b/app/schemas/schemas.py
@@ -1,4 +1,4 @@
-from pydantic import BaseModel, Field
+from pydantic import BaseModel
 from typing import Optional, List
 from datetime import datetime, time
 from enum import Enum
@@ -186,19 +186,6 @@ class UserUpdate(BaseModel):
    discord_user_id: Optional[str] = None
 class UserBindAgentRequest(BaseModel):
    """Request body for PATCH /users/{identifier}/bind-agent.
    Binds an existing user to (agent_id, claw_identifier) by inserting a
    row in the `agents` table. Both fields required (mirrors the
    create-time invariant in UserCreate). Idempotent: re-binding the same
    user to the same (agent_id, claw_identifier) returns the existing
    Agent row instead of 409.
    """
    agent_id: str = Field(..., min_length=1, max_length=128)
    claw_identifier: str = Field(..., min_length=1, max_length=128)
 class UserResponse(UserBase):
    id: int
    is_active: bool
--- a/app/services/discord_wakeup.py
+++ b/app/services/discord_wakeup.py
@@ -1,25 +1,17 @@
 from __future__ import annotations
 import os
 from datetime import datetime, timezone
 from typing import Any
 import requests
 from fastapi import HTTPException
 from app.services.harborforge_config import get_discord_wakeup_config
 DISCORD_API_BASE = "https://discord.com/api/v10"
 WAKEUP_CATEGORY_NAME = "HarborForge Wakeup"
 def _discord_config() -> dict[str, str | None]:
    """Discord wakeup is configured via env vars (previously read from the
    AbstractWizard config file). Returns guild_id+bot_token or Nones."""
    return {
        "guild_id": os.getenv("HARBORFORGE_DISCORD_GUILD_ID") or None,
        "bot_token": os.getenv("HARBORFORGE_DISCORD_BOT_TOKEN") or None,
    }
 def _headers(bot_token: str) -> dict[str, str]:
    return {
        "Authorization": f"Bot {bot_token}",
@@ -42,7 +34,7 @@ def _ensure_category(guild_id: str, bot_token: str) -> str | None:
 def create_private_wakeup_channel(discord_user_id: str, title: str, message: str) -> dict[str, Any]:
-    cfg = _discord_config()
+    cfg = get_discord_wakeup_config()
    guild_id = cfg.get("guild_id")
    bot_token = cfg.get("bot_token")
    if not guild_id or not bot_token:
--- a/app/services/harborforge_config.py
+++ b/app/services/harborforge_config.py
@@ -0,0 +1,26 @@
 import json
 import os
 from typing import Any
 CONFIG_DIR = os.getenv("CONFIG_DIR", "/config")
 CONFIG_FILE = os.getenv("CONFIG_FILE", "harborforge.json")
 def load_runtime_config() -> dict[str, Any]:
    config_path = os.path.join(CONFIG_DIR, CONFIG_FILE)
    if not os.path.exists(config_path):
        return {}
    try:
        with open(config_path, "r") as f:
            return json.load(f)
    except Exception:
        return {}
 def get_discord_wakeup_config() -> dict[str, str | None]:
    cfg = load_runtime_config()
    discord_cfg = cfg.get("discord") or {}
    return {
        "guild_id": discord_cfg.get("guild_id"),
        "bot_token": discord_cfg.get("bot_token"),
    }
--- a/app/services/special_slot_materialiser.py
+++ b/app/services/special_slot_materialiser.py
@@ -1,175 +0,0 @@
 """Materialise schedule_type special slots into per-agent time_slots rows.
 A ScheduleTypeSpecialSlot is a template — it lives on the schedule_type.
 For an agent on that schedule_type to actually be woken, the system must
 emit a row in `time_slots` with `slot_type=system`, `is_admin_locked=true`,
 `special_slot_id=<template_id>` for the agent's `user_id` on the target
 date. This module is the single materialisation point.
 Called from:
  * GET /calendar/day — before returning slots, materialise today's special
    slots for the calling user.
  * GET /calendar/sync — before returning per-claw schedules, materialise
    today's special slots for every agent on this claw whose schedule_type
    has any active special slot template.
 Idempotent: re-running on the same (agent, date, special_slot_template)
 is a no-op — uniqueness is enforced via SELECT-then-insert. We do not add
 a DB-level unique constraint because the time_slots table is already
 indexed by (user_id, date) and an extra composite index is overkill for
 the low cardinality of (agents × special-slot-templates) per day.
 """
 from __future__ import annotations
 from datetime import date as date_type, time as time_type
 from typing import Iterable
 from sqlalchemy.orm import Session
 from app.models.agent import Agent
 from app.models.calendar import TimeSlot, SlotType, SlotStatus, EventType
 from app.models.schedule_type import ScheduleType
 from app.models.schedule_type_special_slot import ScheduleTypeSpecialSlot
 def materialise_special_slots_for_user(
    db: Session,
    user_id: int,
    target_date: date_type,
    commit: bool = True,
 ) -> list[TimeSlot]:
    """Materialise today's special slots for one agent (identified by user_id).
    Returns the list of newly created rows (may be empty if all already exist
    or the agent has no schedule_type / no active templates).
    """
    agent = db.query(Agent).filter(Agent.user_id == user_id).first()
    if not agent or not agent.schedule_type_id:
        return []
    return _materialise_for_agent(db, agent, target_date, commit=commit)
 def materialise_special_slots_for_claw(
    db: Session,
    claw_identifier: str,
    target_date: date_type,
    commit: bool = True,
 ) -> list[TimeSlot]:
    """Materialise today's special slots for every agent on a claw instance.
    Used by the multi-agent `/calendar/sync` endpoint so plugin-driven
    `runSync` cycles see the special slots without each agent having to
    hit `/calendar/day` first.
    """
    agents = (
        db.query(Agent)
        .filter(
            Agent.claw_identifier == claw_identifier,
            Agent.schedule_type_id.isnot(None),
        )
        .all()
    )
    created: list[TimeSlot] = []
    for agent in agents:
        created.extend(_materialise_for_agent(db, agent, target_date, commit=False))
    if commit and created:
        db.commit()
    return created
 def _materialise_for_agent(
    db: Session,
    agent: Agent,
    target_date: date_type,
    commit: bool,
 ) -> list[TimeSlot]:
    st: ScheduleType | None = (
        db.query(ScheduleType).filter(ScheduleType.id == agent.schedule_type_id).first()
    )
    if not st:
        return []
    templates: Iterable[ScheduleTypeSpecialSlot] = (
        db.query(ScheduleTypeSpecialSlot)
        .filter(
            ScheduleTypeSpecialSlot.schedule_type_id == st.id,
            ScheduleTypeSpecialSlot.is_active.is_(True),
        )
        .all()
    )
    created: list[TimeSlot] = []
    for tpl in templates:
        if _already_materialised(db, agent.user_id, target_date, tpl.id):
            continue
        slot = _build_time_slot_from_template(
            user_id=agent.user_id,
            target_date=target_date,
            schedule_type=st,
            template=tpl,
        )
        db.add(slot)
        created.append(slot)
    if commit and created:
        db.commit()
        for slot in created:
            db.refresh(slot)
    return created
 def _already_materialised(
    db: Session,
    user_id: int,
    target_date: date_type,
    template_id: int,
 ) -> bool:
    return (
        db.query(TimeSlot.id)
        .filter(
            TimeSlot.user_id == user_id,
            TimeSlot.date == target_date,
            TimeSlot.special_slot_id == template_id,
        )
        .first()
        is not None
    )
 def _build_time_slot_from_template(
    *,
    user_id: int,
    target_date: date_type,
    schedule_type: ScheduleType,
    template: ScheduleTypeSpecialSlot,
 ) -> TimeSlot:
    # schedule_type.maintenance_from is minutes-since-UTC-midnight; the
    # template's minute_in_window is an offset inside that window. Combined
    # offset must fit in [0, 1440) and produce a wall-clock time_type.
    total_min = (schedule_type.maintenance_from + template.minute_in_window) % 1440
    scheduled_at = time_type(hour=total_min // 60, minute=total_min % 60, second=0)
    # Merge admin-supplied event_data with bookkeeping pointers so the
    # agent (and ARD) can identify the template at wake time.
    merged_event_data = dict(template.event_data or {})
    merged_event_data.setdefault("source", "schedule_type_special_slot")
    merged_event_data["special_slot_id"] = template.id
    merged_event_data["special_slot_name"] = template.name
    merged_event_data["schedule_type_id"] = schedule_type.id
    merged_event_data["schedule_type_name"] = schedule_type.name
    return TimeSlot(
        user_id=user_id,
        date=target_date,
        slot_type=SlotType.SYSTEM,
        estimated_duration=template.estimated_duration,
        scheduled_at=scheduled_at,
        attended=False,
        event_type=EventType.SYSTEM_EVENT,
        event_data=merged_event_data,
        priority=template.priority,
        status=SlotStatus.NOT_STARTED,
        is_admin_locked=True,
        special_slot_id=template.id,
    )
--- a/entrypoint.sh
+++ b/entrypoint.sh
@@ -1,5 +1,19 @@
 #!/bin/sh
-# HarborForge backend entrypoint. All config comes from env vars (DATABASE_URL,
+# Wait for wizard config before starting uvicorn
-# SECRET_KEY, HARBORFORGE_OIDC_ONLY, etc.). First-deploy admin user + OIDC
+CONFIG_DIR="${CONFIG_DIR:-/config}"
-# issuer config are operator-driven via `docker exec hf-backend hf-cli ...`.
+CONFIG_FILE="${CONFIG_FILE:-harborforge.json}"
 CONFIG_PATH="$CONFIG_DIR/$CONFIG_FILE"
 echo "HarborForge Backend - waiting for config..."
 echo "  Config path: $CONFIG_PATH"
 while true; do
  if [ -f "$CONFIG_PATH" ]; then
    echo "  Config found! Starting backend..."
    break
  fi
  echo "  Config not ready, waiting 5s... (run setup wizard via SSH tunnel)"
  sleep 5
 done
 exec uvicorn app.main:app --host 0.0.0.0 --port 8000
--- a/tests/conftest.py
+++ b/tests/conftest.py
@@ -15,7 +15,7 @@ from fastapi.testclient import TestClient
 # ---------------------------------------------------------------------------
 # Patch the production engine/SessionLocal BEFORE importing app so that
-# startup events (Base.metadata.create_all, init_bootstrap, etc.) use the
+# startup events (Base.metadata.create_all, init_wizard, etc.) use the
 # in-memory SQLite database instead of trying to connect to MySQL.
 # ---------------------------------------------------------------------------
--- a/tests/test_knowledge_base.py
+++ b/tests/test_knowledge_base.py
@@ -1,147 +0,0 @@
 """Knowledge Base API tests — CRUD, hierarchy, uniqueness, tree, links, RBAC."""
 from tests.conftest import auth_header
 def _create_kb(client, token, title="Infra Runbook", description="ops notes"):
    r = client.post(
        "/knowledge-bases",
        json={"title": title, "description": description},
        headers=auth_header(token),
    )
    assert r.status_code == 201, r.text
    return r.json()
 class TestKnowledgeBaseCRUD:
    def test_create_generates_code(self, client, seed):
        kb = _create_kb(client, seed["admin_token"], title="Infra Runbook")
        assert kb["title"] == "Infra Runbook"
        assert kb["knowledge_base_code"]  # auto-generated, non-empty
        assert kb["created_by"] == seed["admin_user"].id
    def test_create_requires_permission(self, client, seed):
        # dev role has no knowledge-base.create
        r = client.post(
            "/knowledge-bases",
            json={"title": "Nope"},
            headers=auth_header(seed["dev_token"]),
        )
        assert r.status_code == 403
    def test_get_by_id_and_code(self, client, seed):
        kb = _create_kb(client, seed["admin_token"])
        by_id = client.get(f"/knowledge-bases/{kb['id']}", headers=auth_header(seed["admin_token"]))
        by_code = client.get(f"/knowledge-bases/{kb['knowledge_base_code']}", headers=auth_header(seed["admin_token"]))
        assert by_id.status_code == 200 and by_code.status_code == 200
        assert by_id.json()["id"] == by_code.json()["id"] == kb["id"]
    def test_update_and_list(self, client, seed):
        kb = _create_kb(client, seed["admin_token"])
        r = client.patch(
            f"/knowledge-bases/{kb['id']}",
            json={"description": "updated"},
            headers=auth_header(seed["admin_token"]),
        )
        assert r.status_code == 200 and r.json()["description"] == "updated"
        lst = client.get("/knowledge-bases", headers=auth_header(seed["admin_token"]))
        assert lst.status_code == 200 and any(k["id"] == kb["id"] for k in lst.json())
    def test_delete_cascades(self, client, seed):
        token = seed["admin_token"]
        kb = _create_kb(client, token)
        topic = client.post(f"/knowledge-bases/{kb['id']}/topics", json={"topic": "Net"}, headers=auth_header(token)).json()
        client.post("/knowledge-facts", json={"topic_id": topic["id"], "fact": "x"}, headers=auth_header(token))
        r = client.delete(f"/knowledge-bases/{kb['id']}", headers=auth_header(token))
        assert r.status_code == 204
        assert client.get(f"/knowledge-bases/{kb['id']}", headers=auth_header(token)).status_code == 404
        assert client.get(f"/knowledge-topics/{topic['id']}", headers=auth_header(token)).status_code == 404
 class TestHierarchy:
    def test_topic_unique_per_kb(self, client, seed):
        token = seed["admin_token"]
        kb = _create_kb(client, token)
        r1 = client.post(f"/knowledge-bases/{kb['id']}/topics", json={"topic": "Routing"}, headers=auth_header(token))
        r2 = client.post(f"/knowledge-bases/{kb['id']}/topics", json={"topic": "Routing"}, headers=auth_header(token))
        assert r1.status_code == 201 and r2.status_code == 400
    def test_category_triple_unique_and_nesting(self, client, seed):
        token = seed["admin_token"]
        kb = _create_kb(client, token)
        topic = client.post(f"/knowledge-bases/{kb['id']}/topics", json={"topic": "T"}, headers=auth_header(token)).json()
        # top-level category
        c1 = client.post("/knowledge-categories", json={"topic_id": topic["id"], "name": "DNS"}, headers=auth_header(token))
        assert c1.status_code == 201
        # duplicate top-level (parent NULL) rejected at app level
        dup = client.post("/knowledge-categories", json={"topic_id": topic["id"], "name": "DNS"}, headers=auth_header(token))
        assert dup.status_code == 400
        # nested category with same name under different parent is allowed
        child = client.post(
            "/knowledge-categories",
            json={"topic_id": topic["id"], "name": "DNS", "parent": c1.json()["id"]},
            headers=auth_header(token),
        )
        assert child.status_code == 201
    def test_no_cycle_on_reparent(self, client, seed):
        token = seed["admin_token"]
        kb = _create_kb(client, token)
        topic = client.post(f"/knowledge-bases/{kb['id']}/topics", json={"topic": "T"}, headers=auth_header(token)).json()
        a = client.post("/knowledge-categories", json={"topic_id": topic["id"], "name": "A"}, headers=auth_header(token)).json()
        b = client.post("/knowledge-categories", json={"topic_id": topic["id"], "name": "B", "parent": a["id"]}, headers=auth_header(token)).json()
        # try to move A under its descendant B -> rejected
        r = client.patch(f"/knowledge-categories/{a['id']}", json={"parent": b["id"]}, headers=auth_header(token))
        assert r.status_code == 400
    def test_tree_shape(self, client, seed):
        token = seed["admin_token"]
        kb = _create_kb(client, token)
        topic = client.post(f"/knowledge-bases/{kb['id']}/topics", json={"topic": "T"}, headers=auth_header(token)).json()
        cat = client.post("/knowledge-categories", json={"topic_id": topic["id"], "name": "C"}, headers=auth_header(token)).json()
        # fact directly on topic
        client.post("/knowledge-facts", json={"topic_id": topic["id"], "fact": "topic-fact"}, headers=auth_header(token))
        # fact under category
        client.post("/knowledge-facts", json={"topic_id": topic["id"], "category_id": cat["id"], "fact": "cat-fact"}, headers=auth_header(token))
        tree = client.get(f"/knowledge-bases/{kb['id']}/tree", headers=auth_header(token)).json()
        assert len(tree["topics"]) == 1
        t = tree["topics"][0]
        assert [f["fact"] for f in t["facts"]] == ["topic-fact"]
        assert len(t["categories"]) == 1
        assert [f["fact"] for f in t["categories"][0]["facts"]] == ["cat-fact"]
 class TestProjectLinks:
    def test_link_unlink(self, client, seed):
        token = seed["admin_token"]
        kb = _create_kb(client, token)
        # link by code
        r = client.post(
            "/projects/TPRJ/knowledge-bases",
            json={"knowledge_base": kb["knowledge_base_code"]},
            headers=auth_header(token),
        )
        assert r.status_code == 201
        linked = client.get("/projects/TPRJ/knowledge-bases", headers=auth_header(token)).json()
        assert any(k["id"] == kb["id"] for k in linked)
        # filter list by project
        filtered = client.get(f"/knowledge-bases?project=TPRJ", headers=auth_header(token)).json()
        assert any(k["id"] == kb["id"] for k in filtered)
        # unlink
        r = client.delete(f"/projects/TPRJ/knowledge-bases/{kb['id']}", headers=auth_header(token))
        assert r.status_code == 204
        linked = client.get("/projects/TPRJ/knowledge-bases", headers=auth_header(token)).json()
        assert not any(k["id"] == kb["id"] for k in linked)
    def test_link_is_idempotent(self, client, seed):
        token = seed["admin_token"]
        kb = _create_kb(client, token)
        for _ in range(2):
            r = client.post(
                "/projects/TPRJ/knowledge-bases",
                json={"knowledge_base": str(kb["id"])},
                headers=auth_header(token),
            )
            assert r.status_code == 201
        linked = client.get("/projects/TPRJ/knowledge-bases", headers=auth_header(token)).json()
        assert sum(1 for k in linked if k["id"] == kb["id"]) == 1
Author	SHA1	Message	Date
h z	4675ab7201	Merge pull request 'feature/oidc-login' (#17 ) from feature/oidc-login into main Reviewed-on: #17	2026-05-17 21:27:39 +00:00
hzhang	a9d075bc19	fix(security): block OIDC-binding privilege escalation The oidc-binding PUT/DELETE endpoints allowed any account.create holder (non-admin role 'account-manager') to bind an attacker-controlled OIDC identity to the admin account (or unbind admin, reopening the OIDC-only bootstrap window) — full admin takeover. Non-admin callers may now only manage bindings of non-privileged accounts: requests targeting an is_admin user, the built-in acc-mgr/deleted-user, or any holder of account.create / user.reset-apikey are rejected with 403. Global admins remain unrestricted, so the intended "account-manager binds normal users" capability is preserved. Found by post-feature security audit. Verified locally. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-17 22:07:43 +01:00
hzhang	9429e37542	feat(auth): OIDC-only admin-role bootstrap auto-connect In OIDC-only mode, before any admin is linked, an IdP user whose token carries the configured admin role (default "admin"; OIDC_ADMIN_ROLE / oidc_settings.admin_role) auto-connects to the unbound hf admin on first OIDC sign-in, then the window self-closes once any admin is bound. Roles are scanned across userinfo + the (unverified) access token: realm_access.roles, resource_access.*.roles, roles/role/groups. Adds admin_role to settings model/env/effective/API and to the wizard bootstrap config. Replaces the manual admin-subject approach. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-17 21:05:39 +01:00
hzhang	0229fbb54c	feat(init): bootstrap OIDC from wizard config init_wizard applies config['oidc'] on first init: creates the oidc_settings row and, when admin_subject is given, binds the bootstrap admin so OIDC-only deployments are reachable. Idempotent — an existing row / admin binding is preserved (later admin edits via the API survive restarts). Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-17 20:50:59 +01:00
hzhang	ffce4298c8	docs: OIDC feature test plan / test points Test points for OIDC login, user binding, HARBORFORGE_OIDC_ONLY mode, and the admin OIDC settings page, with local verification status. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-17 20:40:26 +01:00
hzhang	a115e380cb	feat(auth): admin-configurable OIDC provider (oidc_settings) Persist OIDC config in a single-row oidc_settings table; non-empty DB fields override the OIDC_* env vars (env = bootstrap default). The Authlib client is rebuilt when config changes. - GET/PUT /auth/oidc/settings — admin only, via JWT OR API key. The API-key path is the recovery channel when OIDC-only mode is on and OIDC is misconfigured (avoids total lockout). - client_secret is write-only: never returned (has_client_secret bool), preserved when the field is left blank on update. - /auth/config, login/link/callback now use the effective (DB\|env) config so enabling OIDC needs no redeploy. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-17 20:29:15 +01:00
hzhang	94155614f5	feat(auth): OIDC login + identity binding + HARBORFORGE_OIDC_ONLY - Generic OIDC (Authlib discovery) Authorization Code flow; backend issues the existing HS256 JWT on success. Unbound identities are rejected (no auto-provisioning). - User.oidc_issuer/oidc_subject (unique together) + startup migration. - PUT/DELETE /users/{id}/oidc-binding (admin or account-manager; JWT or API key; 409 on conflict). Self-link /auth/oidc/link (non-OIDC_ONLY only). Public GET /auth/config. - HARBORFORGE_OIDC_ONLY: /auth/token rejected, create/update ignore password (passwordless users; API keys + OIDC still work). - Dockerfile ARG/ENV HARBORFORGE_OIDC_ONLY; authlib+itsdangerous deps; SessionMiddleware for OIDC state. Fixed _user_response to expose the new binding fields. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-17 20:22:04 +01:00
hzhang	90b494f097	Merge security/critical-auth-fixes into main Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-16 17:55:59 +01:00
hzhang	e7d3cbe07b	docs: README accuracy pass + Security section Document the auth/RBAC/SSRF hardening in this branch: mandatory strong SECRET_KEY (server refuses weak/default), admin-only + masked /api-keys, admin-only /webhooks with SSRF guard, project role hierarchy, and auth added to previously-open endpoints. Fixed stale Issues→tasks model. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-16 17:50:25 +01:00
hzhang	51fb8ca073	fix(security): close critical auth/SSRF/RBAC holes Verified locally end-to-end (before: exploitable, after: blocked). - config: refuse to start on weak/default/short SECRET_KEY (was trivially forgeable JWT -> full admin) - deps: add reusable require_admin dependency (JWT or API key) - api-keys: require admin to mint/list/revoke; mask key on list (was unauthenticated -> instant admin API key) - webhooks: whole router now admin-only (was fully unauthenticated CRUD + readable logs) - webhook delivery: validate URL scheme + reject hosts resolving to private/loopback/link-local/reserved IPs; disable redirects (was a readable SSRF primitive) - rbac: implement a real project-role hierarchy in check_project_role (was a no-op: any member, even guest, passed admin/mgr gates) - misc: auth on delete_milestone (+ensure_can_edit_milestone), worklog create/delete (force caller user_id, owner-only delete), /activity and /export/tasks (were unauthenticated data exposure) - tasks: auth + ensure_can_edit_task on assign_task and batch_assign Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-05-16 16:53:14 +01:00
h z	1cb924451b	Merge pull request 'zhi-2026-04-18' (#16 ) from zhi-2026-04-18 into main Reviewed-on: #16	2026-05-01 07:24:35 +00:00
h z	c011e334a0	Merge branch 'main' into zhi-2026-04-18	2026-05-01 07:24:28 +00:00
zhi	d52861fd9c	feat: schedule type system for work/entertainment periods - New model: ScheduleType (name, work_from/to, entertainment_from/to) - Agent.schedule_type_id FK to schedule_types - CRUD API: GET/POST/PATCH/DELETE /schedule-types/ - Agent assignment: PUT /schedule-types/agent/{agent_id}/assign - Agent self-query: GET /schedule-types/agent/me - Permissions: schedule_type.read, schedule_type.manage - Migration: adds schedule_type_id column to agents table Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>	2026-04-21 09:20:51 +00:00
zhi	3aa6dd2d6e	feat: add /calendar/sync endpoint for multi-agent schedule sync Returns today's slots for all agents on a claw instance, keyed by agent_id. Used by HF Plugin to maintain a local schedule cache instead of per-agent heartbeat. Also records heartbeat for all agents on the instance. Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>	2026-04-19 09:30:57 +00:00
hzhang	c3199d0cd0	fix: Essential model uses created_by_id not user_id Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-04-16 23:17:32 +01:00
hzhang	d3f72962c0	fix: correct ActivityLog import name in user deletion Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-04-16 23:15:45 +01:00
hzhang	4643a73c60	feat: add deleted-user builtin and safe user deletion - Add deleted-user as a built-in account (no permissions, cannot log in) created during init_wizard, protected from deletion like acc-mgr - On user delete, reassign all foreign key references to deleted-user then delete the original user, instead of failing on IntegrityError - API keys, notifications, and project memberships are deleted outright since they're meaningless without the real user Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-04-16 23:08:19 +01:00
h z	eae947d9b6	Merge pull request 'feat(Dockerfile): multi-stage build to reduce image size from 852MB to ~200MB' (#15 ) from multi-stage into main Reviewed-on: #15	2026-04-16 21:23:04 +00:00
h z	a2f626557e	Merge branch 'main' into multi-stage	2026-04-16 21:22:54 +00:00
h z	c5827db872	Merge pull request 'dev-2026-03-29' (#14 ) from dev-2026-03-29 into main Reviewed-on: #14	2026-04-16 21:22:03 +00:00
orion	7326cadfec	feat: grant user.reset-apikey permission to account-manager role Allows acc-mgr to reset user API keys, enabling automated provisioning workflows via the CLI. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-04-16 21:19:13 +00:00
orion	1b10c97099	feat: allow API key auth for reset-apikey endpoint Change dependency from get_current_user (OAuth2 only) to get_current_user_or_apikey, enabling account-manager API key to reset user API keys for provisioning workflows. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-04-16 21:17:13 +00:00
orion	8434a5d226	feat(Dockerfile): multi-stage build to reduce image size from 852MB to ~200MB Stage 1 (builder): install build deps and pre-download wheels Stage 2 (runtime): copy only installed packages + runtime deps, no build tools	2026-04-15 01:27:44 +00:00
h z	a2ab541b73	Merge pull request 'HarborForge.Backend: dev-2026-03-29 -> main' (#13 ) from dev-2026-03-29 into main Reviewed-on: #13	2026-04-05 22:08:14 +00:00