mitgliederverwaltung/docs/roles-and-permissions-architecture.md

1640 lines
67 KiB
Markdown
Raw Permalink Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

# Roles and Permissions Architecture - Technical Specification
**Version:** 2.0 (Clean Rewrite)
**Date:** 2025-01-13
**Last Updated:** 2026-01-13
**Status:** ✅ Implemented (2026-01-08, PR #346, closes #345)
**Related Documents:**
- [Overview](./roles-and-permissions-overview.md) - High-level concepts for stakeholders
- [Implementation Plan](./roles-and-permissions-implementation-plan.md) - Step-by-step implementation guide
---
## Table of Contents
- [Overview](#overview)
- [Requirements Analysis](#requirements-analysis)
- [Selected Architecture](#selected-architecture)
- [Database Schema (MVP)](#database-schema-mvp)
- [Permission System Design (MVP)](#permission-system-design-mvp)
- [Resource Policies](#resource-policies)
- [Page Permission System](#page-permission-system)
- [UI-Level Authorization](#ui-level-authorization)
- [Special Cases](#special-cases)
- [User-Member Linking](#user-member-linking)
- [Future: Phase 2 - Field-Level Permissions](#future-phase-2---field-level-permissions)
- [Future: Phase 3 - Database-Backed Permissions](#future-phase-3---database-backed-permissions)
- [Migration Strategy](#migration-strategy)
- [Security Considerations](#security-considerations)
- [Appendix](#appendix)
---
## Overview
This document provides the complete technical specification for the **Roles and Permissions system** in the Mila membership management application. The system controls who can access what data and which actions they can perform.
### Key Design Principles
1. **Security First:** Authorization is enforced at multiple layers (database policies, page access, UI rendering)
2. **Performance:** MVP uses hardcoded permissions for < 1 microsecond checks
3. **Maintainability:** Clear separation between roles (data) and permissions (logic)
4. **Extensibility:** Clean migration path to database-backed permissions (Phase 3)
5. **User Experience:** Consistent authorization across backend and frontend
6. **Test-Driven:** All components fully tested with behavior-focused tests
### Architecture Approach
**MVP (Phase 1) - Hardcoded Permission Sets:**
- Permission logic in Elixir module (`Mv.Authorization.PermissionSets`)
- Role data in database (`roles` table)
- Roles reference permission sets by name (string)
- Zero database queries for permission checks
- Implementation time: 2-3 weeks
**Future (Phase 2) - Field-Level Permissions:**
- Extend PermissionSets with field-level granularity
- Ash Calculations for read filtering
- Custom Validations for write protection
- No database schema changes
**Future (Phase 3) - Database-Backed Permissions:**
- Move permission data to database tables
- Runtime permission configuration
- ETS cache for performance
- Migration from hardcoded module
---
## Requirements Analysis
### Core Requirements
**1. Predefined Permission Sets**
Four hardcoded permission sets that define access patterns:
- **own_data** - User can only access their own data (default for members)
- **read_only** - Read access to all member data, no modifications
- **normal_user** - Create/Read/Update on members (no delete), full CRUD on custom fields
- **admin** - Unrestricted access including user/role management
**2. Roles Stored in Database**
Five predefined roles stored in the `roles` table:
- **Mitglied** (Member) uses "own_data" permission set
- **Vorstand** (Board) uses "read_only" permission set
- **Kassenwart** (Treasurer) uses "normal_user" permission set
- **Buchhaltung** (Accounting) uses "read_only" permission set
- **Admin** uses "admin" permission set
**3. Resource-Level Permissions**
Control CRUD operations on:
- User (credentials, profile)
- Member (member data)
- CustomFieldValue (custom field values)
- CustomField (custom field definitions)
- Role (role management)
- Group (group definitions; read all, create/update/destroy normal_user and admin)
- MemberGroup (membergroup associations; own_data read :linked, read_only read :all, normal_user/admin create/destroy)
- MembershipFeeType (fee type definitions; all read, admin-only create/update/destroy)
- MembershipFeeCycle (fee cycles; own_data read :linked, read_only read :all, normal_user/admin read+create+update+destroy; manual "Regenerate Cycles" for normal_user and admin)
- JoinRequest (membership join requests; normal_user read+update, admin full CRUD)
**4. Page-Level Permissions**
Control access to LiveView pages:
- Index pages (list views)
- Show pages (detail views)
- Form pages (create/edit)
- Admin pages
- Settings pages: `/settings` and `/membership_fee_settings` are admin-only (explicit in PermissionSets)
**5. Granular Scopes**
Three scope levels for permissions:
- **:own** - Only records where `record.id == user.id` (for User resource)
- **:linked** - Only records linked to user via relationships
- Member: `id == user.member_id` (User.member_id Member.id, inverse relationship)
- CustomFieldValue: `member_id == user.member_id` (traverses Member User relationship)
- **:all** - All records, no filtering
**6. Special Cases**
- **Own Credentials:** Every user can always read/update their own credentials
- **Linked Member Email:** Only administrators or the linked user can change the email for members linked to users (see `Mv.Membership.Member.Validations.EmailChangePermission`)
- **System Roles:** "Mitglied" role cannot be deleted (is_system_role flag)
- **User-Member Linking:** Only admins can link/unlink users and members
- **User Role Assignment:** Only admins can change a user's role (via `update_user` with `role_id`). Last-admin validation ensures at least one user keeps the Admin role.
- **Settings Pages:** `/settings` and `/membership_fee_settings` are admin-only (explicit in PermissionSets pages).
**7. UI Consistency**
- UI elements (buttons, links) only shown if user has permission
- Page access controlled before LiveView mounts
- Consistent authorization logic between backend and frontend
---
## Selected Architecture
### Approach: Hardcoded Permission Sets with Database Roles
**Core Concept:**
```
PermissionSets Module (hardcoded in code)
↓ (referenced by permission_set_name)
Role (stored in DB: "Vorstand" → "read_only")
↓ (assigned to user via role_id)
User (each user has one role)
```
**Why This Approach?** Fast (2-3 weeks vs. 4-5 for DB-backed), maximum performance (< 1μs per
check, no permission queries/joins/cache), Git-tracked permission changes, deterministic
functional tests, and a well-defined Phase 3 migration path.
**Trade-offs:** Permission changes need a code deployment and new sets cannot be added without
a code change acceptable for the MVP, which specifies 4 fixed sets with rare changes.
### System Architecture Diagram
```
┌─────────────────────────────────────────────────────────────┐
│ Authorization System │
└─────────────────────────────────────────────────────────────┘
┌──────────────────┐
│ LiveView │
│ (UI Layer) │
└────────┬─────────┘
│ 1. Page Access Check
┌──────────────────────────────────┐
│ CheckPagePermission Plug │
│ - Reads PermissionSets module │
│ - Matches page pattern │
│ - Redirects if unauthorized │
└────────┬─────────────────────────┘
│ 2. UI Element Check
┌──────────────────────────────────┐
│ MvWeb.Authorization │
│ - can?/3 │
│ - can_access_page?/2 │
│ - Uses PermissionSets module │
└────────┬─────────────────────────┘
│ 3. Resource Action
┌──────────────────────────────────┐
│ Ash Resource (Member, User...) │
│ - Policies block │
└────────┬─────────────────────────┘
│ 4. Policy Evaluation
┌──────────────────────────────────┐
│ HasPermission Policy Check │
│ - Reads actor.role │
│ - Calls PermissionSets.get_permissions/1 │
│ - Applies scope filter │
└────────┬─────────────────────────┘
│ 5. Permission Lookup
┌──────────────────────────────────┐
│ PermissionSets Module │
│ (Hardcoded in code) │
│ - get_permissions/1 │
│ - Returns {resources, pages} │
└──────────────────────────────────┘
┌──────────────────────────────────┐
│ Database │
│ - roles table │
│ - users.role_id → roles.id │
└──────────────────────────────────┘
```
**Authorization Flow:**
1. **Page Request:** Plug checks if user can access page
2. **UI Rendering:** Helper checks which buttons/links to show
3. **User Action:** Ash receives action request (create, read, update, destroy)
4. **Policy Check:** `HasPermission` evaluates permission
5. **Permission Lookup:** Reads from `PermissionSets` module (in-memory)
6. **Scope Application:** Filters query based on scope (:own, :linked, :all)
7. **Result:** Action succeeds or fails with Forbidden error
---
## Database Schema (MVP)
### Overview
The MVP requires **only ONE new table**: `roles`
- Stores role definitions (name, description, permission_set_name)
- Links to users via foreign key
- NO permission tables (permissions are hardcoded)
### Entity Relationship Diagram
```
┌─────────────────────────────────┐
│ users │
├─────────────────────────────────┤
│ id (PK, UUID) │
│ email │
│ hashed_password │
│ role_id (FK → roles.id) ◄───┼──┐
│ ... │ │
└─────────────────────────────────┘ │
┌─────────────────────────────────┐ │
│ roles │ │
├─────────────────────────────────┤ │
│ id (PK, UUID) │──┘
│ name (unique) │
│ description │
│ permission_set_name (String) │───┐
│ is_system_role (Boolean) │ │
│ inserted_at │ │
│ updated_at │ │
└─────────────────────────────────┘ │
│ References one of:
┌─────────────────────────────────┐ │ - "own_data"
│ PermissionSets Module │◄──┘ - "read_only"
│ (Hardcoded in Code) │ - "normal_user"
├─────────────────────────────────┤ - "admin"
│ get_permissions(:own_data) │
│ get_permissions(:read_only) │
│ get_permissions(:normal_user) │
│ get_permissions(:admin) │
└─────────────────────────────────┘
```
### Table Definitions
#### roles
Stores role definitions that reference permission sets by name. The SQL below is
**illustrative** see `priv/repo/migrations/*_add_authorization_domain.exs` for the exact DDL
(notably the primary key uses the custom `uuid_generate_v7()` SQL function, and the unique index
is named `roles_unique_name_index`).
```sql
CREATE TABLE roles (
id UUID PRIMARY KEY DEFAULT uuid_generate_v7(),
name VARCHAR(255) NOT NULL UNIQUE,
description TEXT,
permission_set_name VARCHAR(50) NOT NULL,
is_system_role BOOLEAN NOT NULL DEFAULT false,
inserted_at TIMESTAMP NOT NULL DEFAULT now(),
updated_at TIMESTAMP NOT NULL DEFAULT now(),
CONSTRAINT check_valid_permission_set
CHECK (permission_set_name IN ('own_data', 'read_only', 'normal_user', 'admin'))
);
CREATE UNIQUE INDEX roles_unique_name_index ON roles (name);
CREATE INDEX roles_permission_set_name_index ON roles (permission_set_name);
```
**Fields:**
- `name` - Display name (e.g., "Vorstand", "Admin")
- `description` - Human-readable description
- `permission_set_name` - References hardcoded permission set
- `is_system_role` - If true, role cannot be deleted (protects "Mitglied")
**Constraints:**
- `name` must be unique
- `permission_set_name` must be one of 4 valid values
- System roles cannot be deleted (enforced in Ash resource)
#### users (modified)
Add foreign key to roles table.
```sql
ALTER TABLE users
ADD COLUMN role_id UUID REFERENCES roles(id) ON DELETE RESTRICT;
CREATE INDEX users_role_id_index ON users (role_id);
```
**ON DELETE RESTRICT:** Prevents deleting a role if users are assigned to it.
### Seed Data
The five predefined roles are seeded in `priv/repo/seeds_bootstrap.exs` (the canonical source
do not duplicate the data here). Each role is created idempotently via the Role resource's
`:create_role_with_system_flag` action, and the seeds map roles to permission sets as:
| Role | permission_set_name | is_system_role |
|------|---------------------|----------------|
| Mitglied | own_data | true (cannot be deleted) |
| Vorstand | read_only | false |
| Kassenwart | normal_user | false |
| Buchhaltung | read_only | false |
| Admin | admin | false |
Assigning the default "Mitglied" role to users that have no role is handled separately by the
`assign_mitglied_role_to_existing_users` migration, not by the seed script.
---
## Permission System Design (MVP)
### PermissionSets Module
**Location:** `lib/mv/authorization/permission_sets.ex`
This module is the **single source of truth** for all permissions in the MVP. It defines what
each permission set can do, as pure compile-time functions (lookups < 1μs).
**Types & public API:**
- `@type scope :: :own | :linked | :all`, `@type action :: :read | :create | :update | :destroy`
- A `resource_permission` is `%{resource: String.t(), action:, scope:, granted: boolean}`;
a `permission_set` is `%{resources: [resource_permission], pages: [String.t()]}`.
- `all_permission_sets/0` `[:own_data, :read_only, :normal_user, :admin]`.
- `get_permissions/1` one function clause per set returning its `%{resources, pages}` map.
An unknown atom raises `ArgumentError` (callers always go through the conversion below).
- `valid_permission_set?/1` accepts string or atom; the string clause delegates to the
converter; the atom clause checks membership in `all_permission_sets/0`.
- `permission_set_name_to_atom/1` `String.to_existing_atom/1` guarded by validity, and
**rescues `ArgumentError`** (unknown string never-created atom) returning
`{:error, :invalid_permission_set}`. This is the safe entry point used everywhere.
**Resource permissions per set** are exactly the Permission Matrix below. Note `normal_user`
intentionally omits `Member :destroy` (safety); `own_data` has full CRUD on its linked
CustomFieldValues; all four sets grant `User read/update :own`.
**Pages per set:** the exact `pages` lists live in the `get_permissions/1` clauses of
`Mv.Authorization.PermissionSets` (single source of truth). Key facts that shape the lists:
- **own_data:** deliberately does **not** include `/` (Mitglied must not see the member index at
root, which has the same content as `/members`). Self-service pages are `/users/:id`,
`/users/:id/edit`, `/users/:id/show/edit`; linked-member pages are `/members/:id`,
`/members/:id/edit`, `/members/:id/show/edit` (data access filtered by policy scope `:linked`).
- **read_only / normal_user:** include `/` plus the self-service `/users/:id…` pages and their
respective member / custom-field-value / group pages; normal_user additionally has the create/edit
pages and the `/join_requests` approval pages.
- **admin:** `"*"` wildcard (all pages), with `/settings` and `/membership_fee_settings` also listed
explicitly.
There is no `/profile` route; the self-service profile pages are the `/users/:id…` routes above.
#### Permission Matrix
Quick reference table showing what each permission set allows:
| Resource | own_data | read_only | normal_user | admin |
|----------|----------|-----------|-------------|-------|
| **User** (own) | R, U | R, U | R, U | R, U |
| **User** (all) | - | - | - | R, C, U, D |
| **Member** (linked) | R, U | - | - | - |
| **Member** (all) | - | R | R, C, U | R, C, U, D |
| **CustomFieldValue** (linked) | R, U, C, D | - | - | - |
| **CustomFieldValue** (all) | - | R | R, C, U, D | R, C, U, D |
| **CustomField** (all) | R | R | R | R, C, U, D |
| **Role** (all) | - | - | - | R, C, U, D |
| **Group** (all) | R | R | R, C, U, D | R, C, U, D |
| **MemberGroup** (linked) | R | - | - | - |
| **MemberGroup** (all) | - | R | R, C, D | R, C, D |
| **MembershipFeeType** (all) | R | R | R | R, C, U, D |
| **MembershipFeeCycle** (linked) | R | - | - | - |
| **MembershipFeeCycle** (all) | - | R | R, C, U, D | R, C, U, D |
| **JoinRequest** (all) | - | - | R, U | R, C, U, D |
**Legend:** R=Read, C=Create, U=Update, D=Destroy
### HasPermission Policy Check
**Location:** `lib/mv/authorization/checks/has_permission.ex`
This is a custom Ash Policy Check that evaluates permissions from the `PermissionSets` module.
```elixir
defmodule Mv.Authorization.Checks.HasPermission do
@moduledoc """
Custom Ash Policy Check that evaluates permissions from the PermissionSets module.
This check:
1. Reads the actor's role and permission_set_name
2. Looks up permissions from PermissionSets.get_permissions/1
3. Finds matching permission for current resource + action
4. Applies scope filter (:own, :linked, :all)
## Usage in Ash Resource
policies do
policy action_type(:read) do
authorize_if Mv.Authorization.Checks.HasPermission
end
end
## Scope Behavior
- **:all** - Authorizes without filtering (returns all records)
- **:own** - Filters to records where record.id == actor.id
- **:linked** - Filters based on resource type:
- Member: `id == actor.member_id` (User.member_id → Member.id, inverse relationship)
- CustomFieldValue: `member_id == actor.member_id` (CustomFieldValue.member_id → Member.id → User.member_id)
## Error Handling
Returns `{:error, reason}` for:
- Missing actor
- Actor without role
- Invalid permission_set_name
- No matching permission found
All errors result in Forbidden (policy fails).
"""
use Ash.Policy.Check
# ...
end
```
**`match?/3` logic.** With-chain: read `actor.role.permission_set_name` (non-nil)
`PermissionSets.permission_set_name_to_atom/1` `get_permissions/1` resource name via
`Module.split() |> List.last()`. Find the granted permission matching resource+action; if none,
`{:error, :no_permission}`; otherwise apply the scope filter. The `else` clauses log and return a
specific reason `{:error, :no_role}` (role nil), `{:error, :no_permission_set}`
(permission_set_name nil), `{:error, :invalid_permission_set}`, or `{:error, :no_permission}`
(no actor/missing data). Every error results in Forbidden (fail-closed).
**Scope filters (`apply_scope/3`):**
- `:all` `:authorized` (no filter)
- `:own` `{:filter, expr(id == ^actor.id)}` (User: own record)
- `:linked` resource-specific:
- `"Member"` `{:filter, expr(id == ^actor.member_id)}` (User.member_id Member.id, inverse)
- `"CustomFieldValue"` `{:filter, expr(member_id == ^actor.member_id)}` (traverses CFV.member_id Member User.member_id)
- fallback `{:filter, expr(user_id == ^actor.id)}`
**Key Design Decisions:**
1. **Resource-Specific :linked Scope:** CustomFieldValue needs to traverse `member` relationship to check `user_id`
2. **Error Handling:** All errors log for debugging but return generic forbidden to user
3. **Module Name Extraction:** Uses `Module.split() |> List.last()` to match against PermissionSets strings
4. **Pure Function:** No side effects, deterministic, easily testable
---
## Resource Policies
Each Ash resource defines policies that use the `HasPermission` check. This section documents the policy structure for each resource.
### General Policy Pattern
**All resources follow this pattern:**
```elixir
policies do
# 1. Special cases first (most specific)
policy action_type(:read) do
authorize_if expr(condition_for_special_case)
end
# 2. General authorization (uses PermissionSets)
policy action_type([:read, :create, :update, :destroy]) do
authorize_if Mv.Authorization.Checks.HasPermission
end
# 3. Default: Forbid
policy action_type([:read, :create, :update, :destroy]) do
forbid_if always()
end
end
```
**Policy Order Matters!** Ash evaluates policies top-to-bottom, first match wins.
---
## Bypass vs. HasPermission
For filter-based permissions (`scope :own`, `scope :linked`) the resources use a two-tier
pattern: **bypass with `expr()` for READ** (Ash does not reliably trigger `auto_filter`
when `HasPermission`'s `strict_check` returns `{:ok, false}` on record-less list queries),
and **HasPermission for UPDATE/CREATE/DESTROY** (a changeset record is present, so scope is
evaluated correctly). The scope concept stays meaningful bypass is only a workaround for
Ash's auto_filter limitation, not a replacement for it.
The full rationale, the per-operation decision table, and why both `User` and `Member`
follow this pattern are documented in the canonical
[policy-bypass-vs-haspermission.md](./policy-bypass-vs-haspermission.md).
---
### User Resource Policies
**Location:** `lib/accounts/user.ex`
**Pattern:** Bypass for READ (list queries), HasPermission for UPDATE (with scope :own).
**Key Insight:** Bypass with `expr()` is needed ONLY for READ list queries because HasPermission's strict_check cannot properly trigger auto_filter. UPDATE operations work correctly via HasPermission because a changeset with record is available.
```elixir
defmodule Mv.Accounts.User do
use Ash.Resource, ...
policies do
# 1. AshAuthentication Bypass (registration/login without actor)
bypass AshAuthentication.Checks.AshAuthenticationInteraction do
authorize_if always()
end
# 2. SPECIAL CASE: Users can always READ their own account
# Bypass needed for list queries (expr() triggers auto_filter in Ash)
# UPDATE is handled by HasPermission below (scope :own works with changesets)
bypass action_type(:read) do
description "Users can always read their own account"
authorize_if expr(id == ^actor(:id))
end
# 3. GENERAL: Check permissions from user's role
# - :own_data → can UPDATE own user (scope :own via HasPermission)
# - :read_only → can UPDATE own user (scope :own via HasPermission)
# - :normal_user → can UPDATE own user (scope :own via HasPermission)
# - :admin → can read/create/update/destroy all users (scope :all)
policy action_type([:read, :create, :update, :destroy]) do
description "Check permissions from user's role and permission set"
authorize_if Mv.Authorization.Checks.HasPermission
end
# 4. DEFAULT: Ash implicitly forbids if no policy authorizes (fail-closed)
end
# ...
end
```
**Why Bypass for READ but not UPDATE?**
- **READ list queries** (`Ash.read(User, actor: user)`): No record at strict_check time HasPermission returns `{:ok, false}` auto_filter not called bypass with `expr()` needed
- **UPDATE operations** (`Ash.update(changeset, actor: user)`): Changeset contains record HasPermission can evaluate `scope :own` correctly works via HasPermission
**Permission Matrix:**
| Action | Mitglied | Vorstand | Kassenwart | Buchhaltung | Admin |
|--------|----------|----------|------------|-------------|-------|
| Read own | (bypass) | (bypass) | (bypass) | (bypass) | (scope :all) |
| Update own | (scope :own) | (scope :own) | (scope :own) | (scope :own) | (scope :all) |
| Read others | | | | | (scope :all) |
| Update others | | | | | (scope :all) |
| Create | | | | | (scope :all) |
| Destroy | | | | | (scope :all) |
**Note:** This pattern is consistent with Member resource policies (bypass for READ, HasPermission for UPDATE).
### Member Resource Policies
**Location:** `lib/membership/member.ex`
**Pattern:** Bypass for READ (list queries), HasPermission for UPDATE (with scope :linked).
**Key Insight:** Same pattern as User - bypass with `expr()` is needed ONLY for READ list queries. UPDATE operations work correctly via HasPermission because a changeset with record is available.
```elixir
defmodule Mv.Membership.Member do
use Ash.Resource, ...
policies do
# 1. SPECIAL CASE: Users can always READ their linked member
# Bypass needed for list queries (expr() triggers auto_filter in Ash)
# UPDATE is handled by HasPermission below (scope :linked works with changesets)
bypass action_type(:read) do
description "Users can always read member linked to their account"
authorize_if expr(id == ^actor(:member_id))
end
# 2. READ/DESTROY: Check permissions only (no :user argument on these actions)
policy action_type([:read, :destroy]) do
description "Check permissions from user's role"
authorize_if Mv.Authorization.Checks.HasPermission
end
# 3. CREATE/UPDATE: Forbid user link unless admin; then check permissions
# ForbidMemberUserLinkUnlessAdmin: only admins may pass :user (link or unlink via nil/empty).
# HasPermission: :own_data → update linked; :read_only → no update; :normal_user/admin → update all
policy action_type([:create, :update]) do
description "Forbid user link unless admin; then check permissions"
forbid_if Mv.Authorization.Checks.ForbidMemberUserLinkUnlessAdmin
authorize_if Mv.Authorization.Checks.HasPermission
end
# 4. DEFAULT: Ash implicitly forbids if no policy authorizes (fail-closed)
end
# Linked-member email editing is enforced by a dedicated Validations module
# (see Special Cases section)
validations do
validate Mv.Membership.Member.Validations.EmailChangePermission, on: [:update]
end
# ...
end
```
**Why Bypass for READ but not UPDATE?**
- **READ list queries**: No record at strict_check time bypass with `expr(id == ^actor(:member_id))` needed for auto_filter
- **UPDATE operations**: Changeset contains record HasPermission evaluates `scope :linked` correctly
**Usermember link:** Only admins may pass the `:user` argument on create_member or update_member (link or unlink via `user: nil`/`user: %{}`). The check uses **argument presence** (key in arguments), not value, to avoid bypass (see [User-Member Linking](#user-member-linking)).
**Permission Matrix:**
| Action | Mitglied | Vorstand | Kassenwart | Buchhaltung | Admin |
|--------|----------|----------|------------|-------------|-------|
| Read linked | (special) | (if linked) | | (if linked) | |
| Update linked | (special)* | | ✅* | | |
| Read all | | | | | |
| Create | | | | | |
| Destroy | | | | | |
*Email editing has additional validation (see Special Cases)
### CustomFieldValue Resource Policies
**Location:** `lib/membership/custom_field_value.ex`
**Pattern:** Bypass for READ (list queries), CustomFieldValueCreateScope for create (no filter), HasPermission for read/update/destroy. Create uses a dedicated check because Ash cannot apply filters to create actions.
The bypass `action_type(:read)` is a production-side rule: reading own CFVs (where `member_id == actor.member_id`) is always allowed and overrides Permission-Sets; no further policies are needed for that. It applies to all read actions (get, list, load).
```elixir
defmodule Mv.Membership.CustomFieldValue do
use Ash.Resource, ...
policies do
# Bypass for READ (list queries; expr triggers auto_filter)
bypass action_type(:read) do
description "Users can read custom field values of their linked member"
authorize_if expr(member_id == ^actor(:member_id))
end
# CREATE: CustomFieldValueCreateScope (no filter; Ash rejects filters on create)
# own_data -> create when member_id == actor.member_id; normal_user/admin -> create (scope :all)
policy action_type(:create) do
authorize_if Mv.Authorization.Checks.CustomFieldValueCreateScope
end
# READ/UPDATE/DESTROY: HasPermission (scope :linked / :all)
policy action_type([:read, :update, :destroy]) do
authorize_if Mv.Authorization.Checks.HasPermission
end
# DEFAULT: Ash implicitly forbids if no policy authorized (fail-closed)
end
end
```
**Permission Matrix:**
| Action | Mitglied | Vorstand | Kassenwart | Buchhaltung | Admin |
|--------|----------|----------|------------|-------------|-------|
| Read linked | (bypass) | (if linked) | | (if linked) | |
| Update linked | (scope :linked) | | | | |
| Create linked | (CustomFieldValueCreateScope) | | | | |
| Destroy linked | (scope :linked) | | | | |
| Read all | | | | | |
| Create all | | | | | |
| Destroy all | | | | | |
### CustomField Resource Policies
**Location:** `lib/membership/custom_field.ex`
**No Special Cases:** All users can read, only admin can write.
```elixir
defmodule Mv.Membership.CustomField do
use Ash.Resource,
domain: Mv.Membership,
data_layer: AshPostgres.DataLayer,
authorizers: [Ash.Policy.Authorizer]
policies do
policy action_type([:read, :create, :update, :destroy]) do
description "Check permissions from user's role"
authorize_if Mv.Authorization.Checks.HasPermission
end
end
# ...
end
```
**Permission Matrix:**
| Action | Mitglied | Vorstand | Kassenwart | Buchhaltung | Admin |
|--------|----------|----------|------------|-------------|-------|
| Read | | | | | |
| Create | | | | | |
| Update | | | | | |
| Destroy | | | | | |
### Role Resource Policies
**Location:** `lib/mv/authorization/role.ex`
**Defense-in-depth:** The Role resource uses `authorizers: [Ash.Policy.Authorizer]` and policies with `Mv.Authorization.Checks.HasPermission`. **Read** is allowed for all permission sets (own_data, read_only, normal_user, admin) via `perm("Role", :read, :all)` in PermissionSets; reading roles is not a security concern. **Create, update, and destroy** are allowed only for admin (admin has full Role CRUD in PermissionSets). Seeds and bootstrap use `authorize?: false` where necessary.
**Special Protection:** System roles cannot be deleted (validation on destroy).
```elixir
defmodule Mv.Authorization.Role do
use Ash.Resource,
authorizers: [Ash.Policy.Authorizer]
policies do
policy action_type([:read, :create, :update, :destroy]) do
description "Check permissions from user's role (read all, create/update/destroy admin only)"
authorize_if Mv.Authorization.Checks.HasPermission
end
end
# Prevent deletion of system roles
validations do
validate action(:destroy) do
validate fn _changeset, %{data: role} ->
if role.is_system_role do
{:error, "Cannot delete system role"}
else
:ok
end
end
end
end
# Validate permission_set_name
validations do
validate attribute(:permission_set_name) do
validate fn _changeset, value ->
if PermissionSets.valid_permission_set?(value) do
:ok
else
{:error, "Invalid permission set name. Must be one of: #{Enum.join(PermissionSets.all_permission_sets(), ", ")}"}
end
end
end
end
# ...
end
```
**Permission Matrix:**
| Action | Mitglied | Vorstand | Kassenwart | Buchhaltung | Admin |
|--------|----------|----------|------------|-------------|-------|
| Read | | | | | |
| Create | | | | | |
| Update | | | | | |
| Destroy* | | | | | |
*Cannot destroy if `is_system_role=true`
### User Role Assignment (Admin-Only)
**Location:** `lib/accounts/user.ex` (update_user action), `lib/mv_web/live/user_live/form.ex`
Only admins can change a user's role. The `update_user` action accepts `role_id`; the User form shows a role dropdown when `can?(actor, :update, Mv.Authorization.Role)`. **Last-admin validation:** If the only non-system admin tries to change their role, the change is rejected with "At least one user must keep the Admin role." (System user is excluded from the admin count.) See [User-Member Linking](#user-member-linking) for the same admin-only pattern.
### Group Resource Policies
**Location:** `lib/membership/group.ex`
Policies use `HasPermission` for read/create/update/destroy. All permission sets can read; normal_user and admin can create, update, destroy. No bypass (scope :all only in PermissionSets).
### MemberGroup Resource Policies
**Location:** `lib/membership/member_group.ex`
Bypass for read restricted to own_data (MemberGroupReadLinkedForOwnData check: own_data only, filter `member_id == actor.member_id`); HasPermission for read (read_only/normal_user/admin :all) and create/destroy (normal_user + admin only). Admin with member_id set still gets :all from HasPermission (bypass does not apply).
### MembershipFeeType Resource Policies
**Location:** `lib/membership_fees/membership_fee_type.ex`
Policies use `HasPermission` for read/create/update/destroy. All permission sets can read; only admin can create, update, destroy.
### MembershipFeeCycle Resource Policies
**Location:** `lib/membership_fees/membership_fee_cycle.ex`
Bypass for read restricted to own_data (MembershipFeeCycleReadLinkedForOwnData: own_data only, filter `member_id == actor.member_id`); HasPermission for read (read_only/normal_user/admin :all) and create/update/destroy. own_data can only read cycles of the linked member; read_only can read all; normal_user and admin can read, create, update, and destroy (including mark_as_paid and manual "Regenerate Cycles"; UI button when `can_create_cycle`). Regenerate-cycles handler enforces `can?(:create, MembershipFeeCycle)` server-side.
---
## Page Permission System
Page permissions control which LiveView pages a user can access. This is enforced **before** the LiveView mounts via a Phoenix Plug.
### CheckPagePermission Plug
**Location:** `lib/mv_web/plugs/check_page_permission.ex`
This plug runs in the router pipeline and checks if the current user has permission to access
the requested page, **before** the LiveView mounts.
**Behavior (`lib/mv_web/plugs/check_page_permission.ex`):**
1. Extracts the page path as the **route template** (e.g. `/members/:id`) via
`Phoenix.Router.route_info/4`, falling back to `conn.request_path`. Using the template,
not the concrete path, is what lets the permission `pages` lists stay parameterized.
(Public paths such as `/sign-in`, `/register`, `/auth/*` are exempt and pass through.)
2. Reads `current_user` from `conn.assigns`, resolves its `permission_set_name`, and looks up
the allowed `pages` via `PermissionSets.get_permissions/1`.
3. Matches the path against allowed patterns: `*` wildcard (admin), exact match, or
segment-wise dynamic match where a `:`-prefixed pattern segment matches any path segment
(same segment count required).
4. On no match (including nil user, no role, or invalid permission set false): logs the
denial and **redirects to `/users/:id`** (the logged-in user's own profile) or, when there is
no user, to **`/sign-in`**, then halts. The `"You don't have permission to access this page."`
flash is set only for a logged-in user; an unauthenticated visitor is redirected without a flash.
### Router Integration
Add plug to protected routes:
```elixir
defmodule MvWeb.Router do
use MvWeb, :router
pipeline :require_page_permission do
plug MvWeb.Plugs.CheckPagePermission
end
# Public routes (no authentication)
scope "/", MvWeb do
pipe_through :browser
live "/", PageController, :home
get "/login", AuthController, :new
post "/login", AuthController, :create
end
# Protected routes (authentication + page permission)
scope "/members", MvWeb do
pipe_through [:browser, :require_authenticated_user, :require_page_permission]
live "/", MemberLive.Index, :index
live "/new", MemberLive.Form, :new
live "/:id", MemberLive.Show, :show
live "/:id/edit", MemberLive.Form, :edit
end
# Admin routes
scope "/admin", MvWeb do
pipe_through [:browser, :require_authenticated_user, :require_page_permission]
live "/roles", RoleLive.Index, :index
live "/roles/:id", RoleLive.Show, :show
end
end
```
### Page Permission Examples
**Mitglied (own_data):**
- Can access: `/users/123` (own profile), `/members/123` (if 123 is their linked member)
- Cannot access: `/` (root member index is excluded for own_data), `/members`, `/members/new`, `/settings`
**Vorstand (read_only):**
- Can access: `/`, `/members`, `/members/123`, `/custom_field_values`, `/users/123` (own profile)
- Cannot access: `/members/new`, `/members/123/edit`, `/settings`
**Kassenwart (normal_user):**
- Can access: `/`, `/members`, `/members/new`, `/members/123/edit`, `/custom_field_values`, `/join_requests`, `/users/123` (own profile)
- Cannot access: `/settings`, `/membership_fee_settings`
**Admin:**
- Can access: `*` (all pages, including `/settings` and `/membership_fee_settings`)
---
## UI-Level Authorization
UI-level authorization ensures that users only see buttons, links, and form fields they have permission to use. This provides a consistent user experience and prevents confusing "forbidden" errors.
### MvWeb.Authorization Helper Module
**Location:** `lib/mv_web/authorization.ex`
This module provides helper functions for conditional rendering in LiveView templates,
reading from the **same** `PermissionSets` module as the backend policies so UI and backend
stay consistent (pure function calls, no DB queries). Imported into `mv_web.ex` `html_helpers`
so every LiveView has it: `import MvWeb.Authorization, only: [can?: 3, can_access_page?: 2]`.
**Public functions:**
- `can?/3` (resource atom) `can?(user, action, Mv.Membership.Member)`: true iff the user's
permission set grants `action` on that resource (any scope).
- `can?/3` (record struct) `can?(user, action, %Member{})`: finds the matching permission,
then applies the scope check against the record:
- `:all` always true
- `:own` `record.id == user.id`
- `:linked` resource-specific: Member checks `record.user_id == user.id`; CustomFieldValue
traverses `record.member.user_id == user.id` (member must be preloaded), with a `user_id`
fallback for other resources.
- `can_access_page?/2` matches the path against the permission set's `pages` list using the
same rules as the plug: `*` wildcard, exact match, or dynamic segment match (`:id`).
All three return **false** for a nil user, a user without a role, or an invalid
`permission_set_name` (graceful, fail-closed no crash). The scope/page-matching logic mirrors
`HasPermission` and `CheckPagePermission` exactly; resource names come from
`Module.split() |> List.last()`.
### UI Usage Pattern
LiveView templates gate elements with the helpers: page-level links use
`can_access_page?(@current_user, path)` (e.g. the `/members` link and the admin
dropdown), resource-level buttons use `can?(@current_user, :create, Resource)`
(e.g. "New Member"), and per-record buttons use `can?(@current_user, action, record)`
(e.g. Edit/Delete in a member row, or the edit button on a show page). The navbar has
since been replaced by the sidebar (`lib/mv_web/components/layouts/sidebar.ex`).
---
## Special Cases
### 1. Own Credentials Access
**Requirement:** Every user can ALWAYS read and update their own credentials (email, password), regardless of their role.
**Implementation:**
Policy in `User` resource uses a two-tier approach:
- **READ**: Bypass with `expr()` for list queries (auto_filter)
- **UPDATE**: HasPermission with `scope :own` (evaluates PermissionSets)
```elixir
policies do
# SPECIAL CASE: Users can always READ their own account
# Bypass needed for list queries (expr() triggers auto_filter in Ash)
bypass action_type(:read) do
description "Users can always read their own account"
authorize_if expr(id == ^actor(:id))
end
# GENERAL: Check permissions from user's role
# UPDATE uses scope :own from PermissionSets (all sets grant User.update :own)
policy action_type([:read, :create, :update, :destroy]) do
authorize_if Mv.Authorization.Checks.HasPermission
end
end
```
**Why this works:**
- READ bypass handles list queries correctly (auto_filter)
- UPDATE is handled by HasPermission with `scope :own` from PermissionSets
- All permission sets (`:own_data`, `:read_only`, `:normal_user`, `:admin`) grant `User.update :own`
- Even a user with `read_only` (read-only for member data) can update their own credentials
**Important:** UPDATE is NOT an immovable special case (hardcoded bypass). It is controlled by PermissionSets. If a permission set is changed to remove `User.update :own`, users with that set will lose the ability to update their credentials. See "User Credentials: Why read_only Can Still Update" below for details.
### 1a. User Credentials: Why read_only Can Still Update
**Question:** If `read_only` means "read-only", why can users with this permission set still update their own credentials?
**Answer:** The `read_only` permission set refers to **member data**, NOT user credentials. All permission sets grant `User.update :own` to allow password changes and profile updates.
**Implementation Details:**
1. **UPDATE is controlled by PermissionSets**, not a hardcoded bypass
2. **All 4 permission sets** (`:own_data`, `:read_only`, `:normal_user`, `:admin`) explicitly grant:
```elixir
%{resource: "User", action: :update, scope: :own, granted: true}
```
3. **HasPermission** evaluates `scope :own` for UPDATE operations (when a changeset with record is present)
4. **No special bypass** is needed for UPDATE - it works correctly via HasPermission
**Why This Design?**
- **Flexibility:** Permission sets can be modified to change UPDATE behavior
- **Consistency:** All permissions are centralized in PermissionSets
- **Clarity:** The name "read_only" refers to member data, not user credentials
- **Maintainability:** Easy to see what each role can do in PermissionSets module
**Warning:** If a permission set is changed to remove `User.update :own`, users with that set will **lose the ability to update their credentials**. This is intentional — UPDATE is controlled by PermissionSets, not hardcoded. Every set's `get_permissions/...` therefore carries both `%{resource: "User", action: :read, scope: :own}` and `%{... action: :update, scope: :own}`; the "read_only" label applies to member data (no `Member :update`), not credentials.
### 2. Linked Member Email Editing
**Requirement:** For a member linked to a user account (has a linked user), only administrators **or the linked user themselves** can change the email. This prevents breaking the Member↔User email synchronization while still letting a user update their own email.
**Implementation:** The `Mv.Membership.Member.Validations.EmailChangePermission` module (registered as `validate Mv.Membership.Member.Validations.EmailChangePermission, on: [:update]`) runs **after** the policy check (so a `normal_user` may update the member but is still blocked on the email field). It only acts when the email is changing: if the member has no linked user it allows the change; otherwise it allows the change when the actor is admin (`Mv.Authorization.Actor.admin?/1`, which also treats the system actor as admin) **or** owns the linked member (`actor.member_id == member.id`), and otherwise returns `{:error, "Only administrators or the linked user can change the email for members linked to users"}`. A missing actor is not allowed.
### 3. System Role Protection
**Requirement:** The "Mitglied" role cannot be deleted (it's the default role for all users).
**Implementation:** The `Role` resource has an `is_system_role` boolean (default false); a destroy validation returns `{:error, "Cannot delete system role. ..."}` when `role.is_system_role` is true. Seeds set `is_system_role: true` only on "Mitglied". The UI also hides the delete button: `can?(@current_user, :destroy, role) and not role.is_system_role`.
### 4. User Without Role (Edge Case)
**Requirement:** Users without a role are denied all access (except logout).
**Implementation:** Seeds assign "Mitglied" to all users where `role_id` is nil. At runtime every check handles a missing role gracefully — `HasPermission` returns `{:error, :no_role}` (and the UI helpers/plug return false) rather than crashing.
**Result:** A user with no role sees an empty UI, cannot access pages, and is forbidden on all actions.
### 5. Invalid permission_set_name (Edge Case)
**Requirement:** If a role has an invalid `permission_set_name`, fail gracefully without crashing.
**Implementation:** Prevented up front by a `Role` attribute validation that rejects any value not in `PermissionSets.all_permission_sets/0` (`"Invalid permission set name. Must be one of: ..."`). At runtime, every lookup goes through `permission_set_name_to_atom/1`, which rescues the `ArgumentError` from `String.to_existing_atom/1` (see PermissionSets above), so an invalid name yields `{:error, :invalid_permission_set}`.
**Result:** Invalid `permission_set_name` → authorization fails → forbidden (safe default).
---
## User-Member Linking
### Requirement
Users and Members are separate entities that can be linked. Special rules:
- Only admins can link/unlink users and members
- A user cannot link themselves to an existing member
- A user CAN create a new member and be directly linked to it (self-service)
**Enforcement:**
- **User side:** The User resource restricts the `update_user` action (which accepts the `member` argument for link/unlink) to admins only via `Mv.Authorization.Checks.ActorIsAdmin`. The UserLive.Form shows the Member-Linking UI and runs member link/unlink on save only when the current user is admin; non-admins use the `:update` action (email only) for profile edit.
- **Member side:** Only admins may set or change the usermember link on **Member** create or update. When creating or updating a member, the `:user` argument (which links the member to a user account) is forbidden for non-admins. This is enforced by `Mv.Authorization.Checks.ForbidMemberUserLinkUnlessAdmin` in the Member resource policies (`forbid_if` before `authorize_if HasPermission`). Non-admins can still create and update members as long as they do **not** pass the `:user` argument. The Member resource uses **`on_missing: :ignore`** for the `:user` relationship on update_member, so **omitting** `:user` from params does **not** change the link (no "unlink by omission"); unlink is only possible by explicitly passing `:user` (e.g. `user: nil`), which is admin-only.
### Approach: One Pair of Actions Plus an Admin-Only `:user` Argument
Linking is **not** modelled as separate per-operation actions. The `Mv.Membership.Member`
resource (`lib/membership/member.ex`) exposes the actions `create_member`, `update_member`,
`set_vereinfacht_contact_id`, `search`, and `available_for_linking` (plus the default
`:read`/`:destroy`). Linking and unlinking happen through the optional **`:user` argument** on
`create_member` / `update_member`, not through dedicated `link_*`/`unlink_*` actions. (`user_id`
is deliberately **not** in the accept list, so the foreign key cannot be set directly.)
### Implementation
The usermember link is governed by two facts about `create_member` / `update_member`:
- The `:user` argument drives the relationship via `manage_relationship(:user, ...)` with
`on_lookup: :relate`, `on_no_match: :error`, `on_match: :error`, and **`on_missing: :ignore`**.
Because of `on_missing: :ignore`, **omitting** `:user` leaves the link unchanged (no "unlink by
omission"); unlink is explicit (`user: nil`/`user: %{}`), handled on update via the
`UnrelateUserWhenArgumentNil` change.
- Whether the `:user` argument may be used at all is gated by the policy check
`Mv.Authorization.Checks.ForbidMemberUserLinkUnlessAdmin` (`forbid_if` before
`authorize_if HasPermission` on `action_type([:create, :update])`). It forbids the action for a
non-admin whenever the `:user` argument **key is present** (any value), so only admins may set or
change the link. Non-admins can still create/update members as long as they do not pass `:user`.
Self-service ("a user creates a member and is linked to it") is handled on the **User** side, not
by a special Member action: the admin-only `update_user` action takes a `:member` argument for
link/unlink (see Enforcement above), and the UI gates the linking controls on admin status.
### Why This Design?
Keeping the link on a single `:user` argument (rather than a fan-out of `link_*`/`unlink_*`
actions) means there is exactly one create and one update path to reason about, the
admin-only rule lives in one reusable policy check (`ForbidMemberUserLinkUnlessAdmin`) instead of
being duplicated per action, and `user_id` can never be mass-assigned because it is not accepted —
only the argument-driven relationship management can change it.
---
## Future: Phase 2 - Field-Level Permissions
**Status:** Not in MVP, planned for future enhancement
**Goal:** Control which fields a user can read or write, beyond resource-level permissions.
### Strategy
**Extend PermissionSets module with `:fields` key:**
```elixir
def get_permissions(:read_only) do
%{
resources: [...],
pages: [...],
fields: [
# Vorstand can read all member fields except sensitive payment info
%{
resource: "Member",
action: :read,
fields: [:all],
excluded_fields: [:payment_method, :bank_account]
},
# Vorstand cannot write any member fields
%{
resource: "Member",
action: :update,
fields: [] # Empty = no fields writable
}
]
}
end
```
**Read filtering** via an Ash calculation that takes `allowed_fields` from PermissionSets and
`Map.take/2`s each record to those fields. **Write protection** via an update validation that
diffs `Map.keys(changeset.attributes)` against the allowed write fields and returns
`{:error, "You do not have permission to modify: ..."}` for any forbidden field.
**Benefits:** No database schema changes, still uses hardcoded PermissionSets, granular control over sensitive fields, clear error messages.
**Estimated Effort:** 2-3 weeks
---
## Future: Phase 3 - Database-Backed Permissions
**Status:** Not in MVP, planned for future when runtime configuration is needed
**Goal:** Move permission definitions from code to database for runtime configuration.
### High-Level Design
**New Tables:**
```sql
CREATE TABLE permission_sets (
id UUID PRIMARY KEY,
name VARCHAR(50) UNIQUE,
description TEXT,
is_system BOOLEAN
);
CREATE TABLE permission_set_resources (
id UUID PRIMARY KEY,
permission_set_id UUID REFERENCES permission_sets(id),
resource_name VARCHAR(100),
action VARCHAR(20),
scope VARCHAR(20),
granted BOOLEAN
);
CREATE TABLE permission_set_pages (
id UUID PRIMARY KEY,
permission_set_id UUID REFERENCES permission_sets(id),
page_pattern VARCHAR(255)
);
```
**Migration Strategy:**
1. Create new tables
2. Seed from current `PermissionSets` module
3. Create new `HasResourcePermission` check that queries DB
4. Add ETS cache for performance
5. Replace `HasPermission` with `HasResourcePermission` in policies
6. Test thoroughly
7. Deploy
8. Eventually remove `PermissionSets` module
**ETS Cache:**
```elixir
defmodule Mv.Authorization.PermissionCache do
def get_permissions(permission_set_id) do
case :ets.lookup(:permission_cache, permission_set_id) do
[{^permission_set_id, permissions}] ->
permissions
[] ->
permissions = load_from_db(permission_set_id)
:ets.insert(:permission_cache, {permission_set_id, permissions})
permissions
end
end
def invalidate(permission_set_id) do
:ets.delete(:permission_cache, permission_set_id)
end
end
```
**Benefits:** Runtime permission configuration, more flexible than hardcoded, can add new permission sets without code changes.
**Trade-offs:** More complex (DB queries, cache, invalidation), slightly slower (mitigated by cache), more testing needed.
**Estimated Effort:** 3-4 weeks
**Decision Point:** Migrate to Phase 3 only if:
- Need to add permission sets frequently
- Need per-tenant permission customization
- MVP hardcoded approach is limiting business
See [Migration Strategy](#migration-strategy) for detailed migration plan.
---
## Migration Strategy
### Three-Phase Approach
**Phase 1: MVP (2-3 weeks) - CURRENT** (shipped 2026-01-08, PR #346, closes #345)
- Hardcoded PermissionSets module
- `HasPermission` check reads from module
- Role table with `permission_set_name` string
- Zero DB queries for permission checks
**What's NOT in MVP (deferred to Phase 3):**
- `PermissionSetResource` database table
- `PermissionSetPage` database table
- ETS Permission Cache
- Database-backed dynamic permissions / runtime permission editing
**MVP DB migration & rollback.** Issue #1 adds a single migration: create the `roles` table (`name` unique, `permission_set_name`, `is_system_role`, timestamps; indexes on `name` and `permission_set_name`) and add nullable `users.role_id` FK (`ON DELETE RESTRICT`) with its index. The migration is additive only — no existing table is modified destructively. The 5 roles are created by `priv/repo/seeds_bootstrap.exs`, and the `assign_mitglied_role_to_existing_users` migration assigns "Mitglied" to users without a role.
Rollback options, in order of escalation:
1. **DB rollback:** the `down` migration drops the `users.role_id` index, removes the `role_id` column, and drops the `roles` table — `mix ecto.rollback --step 1`. Existing tables are untouched.
2. **Code rollback:** revert the commit and redeploy the previous version.
**Phase 2: Field-Level (2-3 weeks) - FUTURE**
- Extend PermissionSets with `:fields` key
- Ash Calculations for read filtering
- Custom Validations for write protection
- No database schema changes
**Phase 3: Database-Backed (3-4 weeks) - FUTURE**
- New tables: `permission_sets`, `permission_set_resources`, `permission_set_pages`
- New `HasResourcePermission` check queries DB
- ETS cache for performance
- Runtime permission configuration
### When to Migrate?
**Stay with MVP if:**
- 4 permission sets are sufficient
- Permission changes are rare (quarterly or less)
- Code deployments for permission changes are acceptable
- Performance is critical (< 1μs checks)
**Migrate to Phase 2 if:**
- Need field-level granularity
- Different roles need access to different fields
- Still OK with hardcoded permissions
**Migrate to Phase 3 if:**
- Need frequent permission changes
- Need per-tenant customization
- Want non-technical users to configure permissions
- OK with slightly more complex system
### Migration from MVP to Phase 3
Sequence (~3-4 weeks): create the three permission tables + indexes; seed them from
`PermissionSets.get_permissions/1`; add a `HasResourcePermission` check that queries the DB
(same logic as `HasPermission`, different data source) backed by the ETS cache with
invalidation on update; swap `HasPermission` → `HasResourcePermission` in all resources and
point the UI helper + page plug at the DB/cache; integration + performance/load test; deploy
behind the feature flag (run both systems in parallel to compare) then gradually to production;
finally remove the old `HasPermission` check and `PermissionSets` module.
---
## Security Considerations
### Threat Model
**Threats Addressed:**
1. **Unauthorized Data Access:** Policies prevent users from accessing data outside their permissions
2. **Privilege Escalation:** Role-based system prevents users from granting themselves higher privileges
3. **UI Tampering:** Backend policies enforce authorization even if UI is bypassed
4. **Session Hijacking:** Mitigation handled by existing authentication system (not in scope)
**Threats NOT Addressed:**
1. **SQL Injection:** Ash Framework handles query building securely
2. **XSS:** Phoenix LiveView handles HTML escaping
3. **CSRF:** Phoenix CSRF tokens (existing)
### Defense in Depth
**Three Layers of Authorization:**
1. **Page Access Layer (Plug):**
- Blocks unauthorized page access
- Runs before LiveView mounts
- Fast fail for obvious violations
2. **UI Layer (Authorization Helpers):**
- Hides buttons/links user can't use
- Prevents confusing "forbidden" errors
- Improves UX
3. **Resource Layer (Ash Policies):**
- **Primary enforcement point**
- Cannot be bypassed
- Filters queries automatically
**Even if attacker:**
- Tampers with UI → Backend policies still enforce
- Calls API directly → Policies apply
- Modifies page JavaScript → Policies apply
### Authorization Best Practices
**DO:**
- ✅ Always preload `:role` relationship for actor
- ✅ Log authorization failures for debugging
- ✅ Use explicit policies (no implicit allow)
- ✅ Test policies with all role types
- ✅ Test special cases (nil role, invalid permission_set_name)
**DON'T:**
- ❌ Trust UI-level checks alone
- ❌ Skip policy checks for "admin"
- ❌ Use `bypass` or `skip_authorization` in production
- ❌ Expose raw permission logic in API responses
### Audit Logging (Future)
Not in MVP, but planned: persist authorization failures (user id, resource, action, outcome,
reason, IP, timestamp) to an `AuditLog` resource — for tracking suspicious attempts, GDPR access
logs, and production debugging. Currently failures are only `Logger`-logged.
---
## Appendix
### Glossary
- **Permission Set:** Named collection of permissions (e.g., "admin", "read_only")
- **Role:** Database entity linking users to a permission set; **system role** cannot be deleted (`is_system_role=true`)
- **Scope:** Range of records a permission applies to (`:own`, `:linked`, `:all`)
- **Actor:** Currently authenticated user in Ash context
- **Special Case:** Authorization rule that takes precedence over general permissions
### Resource Name Mapping
The `HasPermission` check extracts resource names via `Module.split() |> List.last()`:
| Ash Module | Resource Name (String) |
|------------|------------------------|
| `Mv.Accounts.User` | "User" |
| `Mv.Membership.Member` | "Member" |
| `Mv.Membership.CustomFieldValue` | "CustomFieldValue" |
| `Mv.Membership.CustomField` | "CustomField" |
| `Mv.Authorization.Role` | "Role" |
These strings must match exactly in `PermissionSets` module.
### Permission Set Summary
| Permission Set | Typical Roles | Key Characteristics |
|----------------|---------------|---------------------|
| **own_data** | Mitglied | Can only access own data and linked member |
| **read_only** | Vorstand, Buchhaltung | Read all data, no modifications |
| **normal_user** | Kassenwart | Create/Read/Update members (no delete), full CRUD on properties, no admin |
| **admin** | Admin | Unrestricted access, wildcard pages |
### Edge Case Reference
| Edge Case | Behavior | Implementation |
|-----------|----------|----------------|
| User without role | Access denied everywhere | Seeds assign default role, runtime checks handle gracefully |
| Invalid permission_set_name | Access denied | Validation on Role, runtime safety checks |
| System role deletion | Forbidden | Validation prevents deletion if `is_system_role=true` |
| Linked member email | Admin or linked user may edit | `Member.Validations.EmailChangePermission` |
| Own credentials | Always accessible | Special policy before general check |
---
## Authorization Bootstrap Patterns
This section clarifies three different mechanisms for bypassing standard authorization, their purposes, and when to use each.
### Overview
The codebase uses two authorization bypass mechanisms:
1. **system_actor** - Admin user for systemic operations
2. **authorize?: false** - Bootstrap bypass for circular dependencies
**Both are necessary and serve different purposes.**
**Note:** The NoActor bypass has been removed to prevent masking authorization bugs in tests. All tests now explicitly use `system_actor` for authorization.
### 1. System Actor
**Purpose:** Admin user for systemic operations that must always succeed regardless of user permissions.
**Implementation:**
```elixir
system_actor = Mv.Helpers.SystemActor.get_system_actor()
# => %User{email: "system@mila.local", role: %{permission_set_name: "admin"}}
```
**Security:**
- No password (hashed_password = nil) → cannot login
- No OIDC ID (oidc_id = nil) → cannot authenticate
- Cached in Agent for performance
- Created automatically in test environment if missing
**Use Cases:**
- **Email synchronization** (User ↔ Member email sync)
- **Email uniqueness validation** (cross-resource checks)
- **Cycle generation** (mandatory side effect)
- **OIDC account linking** (user not yet logged in)
- **Cross-resource validations** (must work regardless of actor)
**Example:**
```elixir
def get_linked_member(%{member_id: id}) do
system_actor = SystemActor.get_system_actor()
opts = Helpers.ash_actor_opts(system_actor)
# Email sync must work regardless of user permissions
Ash.get(Mv.Membership.Member, id, opts)
end
```
**Why not `authorize?: false`?**
- System actor is explicit (clear intent: "systemic operation")
- Policies are evaluated (with admin rights)
- Audit trail (actor.email = "system@mila.local")
- Consistent authorization flow
- Testable
### 2. authorize?: false
**Purpose:** Skip policies for bootstrap scenarios with circular dependencies.
**Use Cases:**
**1. Seeds** - No admin exists yet to use as actor:
```elixir
# priv/repo/seeds.exs
Accounts.create_user!(%{email: admin_email},
authorize?: false # Bootstrap: no admin exists yet
)
```
**2. SystemActor Bootstrap** - Chicken-and-egg problem:
```elixir
# lib/mv/helpers/system_actor.ex
defp find_user_by_email(email) do
# Need to find system actor, but loading requires system actor!
Mv.Accounts.User
|> Ash.Query.filter(email == ^email)
|> Ash.read_one(authorize?: false) # Bootstrap only
end
```
**3. Actor.ensure_loaded** - Circular dependency:
```elixir
# lib/mv/authorization/actor.ex
defp load_role(actor) do
# Actor needs role for authorization,
# but loading role requires authorization!
Ash.load(actor, :role, authorize?: false) # Bootstrap only
end
```
**4. assign_default_role** - User creation:
```elixir
# User doesn't have actor during creation
Mv.Authorization.Role
|> Ash.Query.filter(name == "Mitglied")
|> Ash.read_one(authorize?: false) # Bootstrap only
```
**Security:**
- Very powerful - skips ALL policies
- Use sparingly and document every usage
- Only for bootstrap scenarios
- All current usages are legitimate
### Comparison
| Aspect | system_actor | authorize?: false |
|--------|--------------|-------------------|
| **Environment** | All | All |
| **Actor** | Admin user | nil |
| **Policies** | Evaluated | Skipped |
| **Audit Trail** | Yes (system@mila.local) | No |
| **Use Case** | Systemic operations, test fixtures | Bootstrap |
| **Explicit?** | Function call | Query option |
### Decision Guide
**Use system_actor when:**
- ✅ Systemic operation must always succeed
- ✅ Email synchronization
- ✅ Cycle generation
- ✅ Cross-resource validations
- ✅ OIDC flows (user not logged in)
**Use authorize?: false when:**
- ✅ Bootstrap scenario (seeds)
- ✅ Circular dependency (SystemActor bootstrap, Actor.ensure_loaded)
- ⚠️ Document with comment explaining why
**DON'T:**
- ❌ Use `authorize?: false` for user-initiated actions
- ❌ Use `authorize?: false` when `system_actor` would work
- ❌ Skip actor in tests (always use system_actor)
### The Circular Dependency Problem
**SystemActor Bootstrap:**
```
SystemActor.get_system_actor()
↓ calls find_user_by_email()
↓ needs to query User
↓ User policies require actor
↓ but we're loading the actor!
Solution: authorize?: false for bootstrap query
```
**Actor.ensure_loaded:**
```
Authorization check (HasPermission)
↓ needs actor.role.permission_set_name
↓ but role is %Ash.NotLoaded{}
↓ load role with Ash.load(actor, :role)
↓ but loading requires authorization
↓ which needs actor.role!
Solution: authorize?: false for role load
```
**Why this is safe:**
- Actor is loading their OWN data (role relationship)
- Actor already passed authentication boundary
- Role contains no sensitive data (just permission_set reference)
- Alternative (denormalize permission_set_name) adds complexity
### Examples
**Good - system_actor for systemic operation:**
```elixir
defp check_if_email_used(email) do
system_actor = SystemActor.get_system_actor()
opts = Helpers.ash_actor_opts(system_actor)
# Validation must work regardless of current actor
Ash.read(User, opts)
end
```
**Good - authorize?: false for bootstrap:**
```elixir
# Seeds - no admin exists yet
Accounts.create_user!(%{email: admin_email}, authorize?: false)
```
**Bad - authorize?: false for user action:**
```elixir
# WRONG: Bypasses all policies for user-initiated action
def delete_member(member) do
Ash.destroy(member, authorize?: false) # ❌ Don't do this!
end
# CORRECT: Use actor
def delete_member(member, actor) do
Ash.destroy(member, actor: actor) # ✅ Policies enforced
end
```
---
**Document Version:** 2.0 (Clean Rewrite)
**Last Updated:** 2026-01-23
**Implementation Status:** ✅ Complete (2026-01-08)
**Status:** Ready for Implementation
**Changes from V1:**
- Complete rewrite focused on MVP (hardcoded permissions)
- Removed all database-backed permission details from MVP sections
- Unified naming (HasPermission for MVP)
- Added Role resource policies
- Clarified resource-specific :linked scope
- Moved Phase 2 and Phase 3 to clearly marked "Future" sections
- Fixed Buchhaltung inconsistency (read_only everywhere)
- Added comprehensive security section
- Enhanced edge case documentation
**Changes from V2.0:**
- Added "Authorization Bootstrap Patterns" section explaining system_actor and authorize?: false
- Removed NoActor bypass (all tests now use system_actor for explicit authorization)
---
**End of Architecture Document**