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feat(retention): COMP-002-RETENTION — federated-user PII purge pipeline

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Sprint 6 closure of the audit's MED-severity COMP-002-RETENTION
finding.

Pre-fix posture: the federated-user admin surface
(auth_users.go::Deactivate) sets users.deactivated_at on soft-delete,
but the PII columns (email, display_name, oidc_subject) stay
populated forever. No in-code primitive for GDPR right-to-be-
forgotten; no scheduled retention purge.

This commit ships the audit's recommended two-phase fix:

  Phase 1 — operator-callable scrub primitive
    internal/service/user_retention.go
      UserRetentionService.DeleteUserPII(ctx, userID):
        - revoke all active sessions (defense-in-depth)
        - email := 'purged@redacted.local'
        - display_name := '[purged]'
        - oidc_subject := 'sha256:' || hex(sha256(original))
        - audit_events row with action=user.purge_pii,
          category=auth, actor=system

      Why hash oidc_subject instead of NULL:
        1. (oidc_provider_id, oidc_subject) UNIQUE constraint would
           trip on multiple purged users converging to NULL
        2. The hash is one-way; the original IdP-side identifier is
           unrecoverable. Re-login under the same subject mints a
           fresh u-id (right-to-be-forgotten semantics)
        3. Forensic continuity: an operator can recompute
           sha256(<known-subject>) and confirm "this user was
           deactivated then purged"

      users.id itself is preserved so historical
      audit_events.actor = u-X rows still resolve. The forensic-
      attribution chain stays intact even after the PII is gone.

  Phase 2 — scheduled batch purge
    internal/scheduler/scheduler.go
      UserRetentionPurger interface + userRetentionLoop:
        - PurgeDeactivatedUsers enumerates every user with
          deactivated_at < NOW() - retention_window
        - DeleteUserPII per row
        - per-tick batch cap (default 200) keeps blast radius
          predictable; large backlogs spread across multiple ticks
        - atomic.Bool guard + 5-min per-tick context.WithTimeout

    Repository contract grew a single new method:
      internal/repository/user.go::ListDeactivatedBefore(ctx, t)
      internal/repository/postgres/user.go: SQL-side filter
      (deactivated_at IS NOT NULL AND deactivated_at < $1)
      ORDER BY deactivated_at ASC, cross-tenant.

  Configuration
    CERTCTL_USER_RETENTION_INTERVAL   default 24h
    CERTCTL_USER_RETENTION_WINDOW     default 30 days
    CERTCTL_USER_RETENTION_BATCH_CAP  default 200

  Test stub additions for repository.UserRepository.ListDeactivatedBefore:
    internal/auth/oidc/service_test.go::stubUsers
    internal/api/handler/auth_users_test.go::stubFullUserRepo
    internal/api/handler/auth_session_oidc_test.go::stubUserRepo

  Documentation
    docs/operator/privacy-and-retention.md
      - retention pipeline diagram (day-0 deactivate → day-N purge)
      - operator config table
      - verification runbook (4 steps with SQL)
      - what's NOT covered (deferred: DSAR export, api_keys cascade,
        retroactive audit_events.details redaction)

  Tests
    internal/service/user_retention_test.go (NEW, 4 tests):
      TestDeleteUserPII_ScrubsAndRevokes
      TestDeleteUserPII_IsIdempotent
      TestPurgeDeactivatedUsers_RespectsWindow
      TestPurgeDeactivatedUsers_BatchCap

Verified locally:
  go vet ./...                                   (clean)
  gofmt -l internal/ cmd/                        (clean)
  go test -short -count=1 \
    ./internal/service/... ./internal/scheduler/... ./internal/config/...
    (all green)

Cross-sprint interaction: pairs with COMP-001-HASH (prior commit).
The user.purge_pii audit row this service emits flows through the
new hash chain, so the scrub event is itself tamper-evident.

Closes COMP-002-RETENTION. Sprint 6 is complete (2/2 findings).
This commit is contained in:
shankar0123
2026-05-16 06:18:39 +00:00
parent 43836aca7c
commit 663b14bfd8
11 changed files with 874 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files
cmd/server/main.go
+20
View File
@@ -1258,6 +1258,26 @@ func main() {
logger.Info("audit chain verify loop enabled",
"interval", cfg.AuditChain.VerifyInterval.String())
// Sprint 6 COMP-002-RETENTION: wire the user-PII purge loop. The
// service nullifies email + display_name on users whose
// deactivated_at exceeds the retention window (default 30d) and
// hashes oidc_subject to preserve audit attribution. The scheduler
// loop ticks on CERTCTL_USER_RETENTION_INTERVAL (default 24h).
userRetentionService := service.NewUserRetentionService(
oidcUserRepo,
sessionRepo,
auditService,
logger,
cfg.UserRetention.RetentionWindow,
cfg.UserRetention.BatchCap,
)
sched.SetUserRetentionPurger(userRetentionService)
sched.SetUserRetentionInterval(cfg.UserRetention.Interval)
logger.Info("user PII retention purge loop enabled",
"interval", cfg.UserRetention.Interval.String(),
"retention_window", cfg.UserRetention.RetentionWindow.String(),
"batch_cap", cfg.UserRetention.BatchCap)
logger.Info("session GC sweep enabled",
"interval", cfg.Auth.Session.GCInterval.String(),
"absolute_timeout", cfg.Auth.Session.AbsoluteTimeout.String(),
docs/operator/privacy-and-retention.md
+136
View File
@@ -0,0 +1,136 @@
# Privacy & retention (federated-user PII)
> Last reviewed: 2026-05-16
Sprint 6 COMP-002-RETENTION closure. certctl stores three categories
of personally-identifiable information for federated humans (Auth
Bundle 2 OIDC users):
| Column | Source | Used by |
|---|---|---|
| `users.email` | IdP claim (`email`) | Operator GUI "find user by email", display in lists, audit attribution. |
| `users.display_name` | IdP claim (`name`) | UI display string for the human. |
| `users.oidc_subject` | IdP claim (`sub`) | Stable identifier — joined with `oidc_provider_id` in the (provider, subject) UNIQUE constraint. |
Pre-fix, deactivating a user (admin-side `auth.user.deactivate`)
soft-deleted the row by setting `deactivated_at` but left the PII
columns populated indefinitely. The Sprint 6 fix adds an automatic
purge pipeline.
## Retention pipeline shape
```
Day 0 admin → POST /api/v1/auth/users/u-X/deactivate
├─ users.deactivated_at = NOW()
└─ all active sessions for u-X revoked
Day N scheduler's userRetentionLoop tick (default cadence 24h)
└─ UserRetentionService.PurgeDeactivatedUsers
├─ SELECT users WHERE deactivated_at < NOW() - retention_window
├─ For each row (batch-capped per tick):
│ UserRetentionService.DeleteUserPII(u.id)
│ ├─ revoke all active sessions (defense-in-depth)
│ ├─ email := "purged@redacted.local"
│ ├─ display_name := "[purged]"
│ ├─ oidc_subject := "sha256:" || hex(sha256(original))
│ └─ audit_events row (action=user.purge_pii, category=auth)
```
`users.id` is **preserved**. Historical `audit_events.actor = u-X`
rows still resolve to the row (now scrubbed). This is the
forensic-attribution guarantee — the operator can prove "user u-X
performed action Y on date Z" even after the PII is gone.
`oidc_subject` is **hashed**, not nullified, for two reasons:
1. The `(oidc_provider_id, oidc_subject)` UNIQUE constraint would
trip if multiple purged users converged on the same NULL.
2. Re-login under the same IdP subject creates a fresh row (different
`u-` id) because `GetByOIDCSubject` won't match the hashed token —
the original subject is unrecoverable from the hash. This is the
"right-to-be-forgotten" behavior: the same human logging back in
is functionally a new account.
## Operator configuration
| Env var | Default | Notes |
|---|---|---|
| `CERTCTL_USER_RETENTION_INTERVAL` | `24h` | Tick cadence for the scheduler's userRetentionLoop. Zero or negative ignored. |
| `CERTCTL_USER_RETENTION_WINDOW` | `30 * 24h` (30 days) | How long after `deactivated_at` a row's PII stays in the table. Operators with stricter GDPR/CCPA expectations may shorten. |
| `CERTCTL_USER_RETENTION_BATCH_CAP` | `200` | Per-tick row budget. Larger backlogs spread across multiple ticks. 0 = unbounded (test fixtures only). |
## How to verify retention is working
1. Deactivate a test user via the admin path:
```bash
curl -X POST -H "X-API-Key: $ADMIN_KEY" \
https://certctl.example.com/api/v1/auth/users/u-test/deactivate
```
2. Confirm the row's `deactivated_at` is set:
```sql
SELECT id, email, deactivated_at FROM users WHERE id = 'u-test';
```
3. Backdate `deactivated_at` to past the retention window (only for
testing — never in production):
```sql
UPDATE users SET deactivated_at = NOW() - INTERVAL '60 days'
WHERE id = 'u-test';
```
(Note: this UPDATE will succeed because `users` doesn't have a
WORM trigger; the audit-events WORM trigger is unrelated.)
4. Wait for the next `userRetentionLoop` tick (or restart the server
to force an immediate sweep). Confirm scrub:
```sql
SELECT id, email, display_name, oidc_subject
FROM users
WHERE id = 'u-test';
```
Expected: `email = 'purged@redacted.local'`,
`display_name = '[purged]'`,
`oidc_subject LIKE 'sha256:%'`.
5. Confirm an audit row was emitted:
```sql
SELECT id, actor, action, resource_id, timestamp
FROM audit_events
WHERE action = 'user.purge_pii' AND resource_id = 'u-test'
ORDER BY timestamp DESC LIMIT 1;
```
## What's NOT covered (deferred work)
The Sprint 6 fix is Phase 1 of the audit's COMP-002-RETENTION
recommendation. Two further pieces are forward-looking:
- **GDPR data-subject access request (DSAR) export.** A "show me
everything you know about me" endpoint is not yet implemented.
Operators on EU-resident data should treat this as a manual SQL
procedure today; track for Phase 2.
- **Cascade purge of related rows.** Sessions are revoked (above);
api_keys with `created_by = u-X` are NOT yet purged on scrub. The
api_keys table doesn't have a foreign key to users (it indexes by
`actor_id` strings, free-form), so the cascade is a service-layer
concern that needs explicit wiring. Track for Phase 2.
- **Per-event PII redaction in `audit_events.details`.** The existing
`RedactDetailsForAudit` (`internal/service/audit_redact.go`) scrubs
credential + PII keys at write time. A future feature for
"retroactively re-redact existing rows" would interact with the WORM
trigger; out of scope today.
## See also
- `internal/service/user_retention.go` — `UserRetentionService` source.
- `internal/scheduler/scheduler.go::userRetentionLoop` — scheduler loop.
- `migrations/000036_users.up.sql` — `users` table definition.
- `migrations/000045_users_deactivated_at.up.sql` — `deactivated_at` column.
- `docs/operator/audit-chain.md` — paired Sprint 6 tamper-evidence work.
internal/api/handler/auth_session_oidc_test.go
+8
View File
@@ -255,6 +255,14 @@ func (s *stubUserRepo) ListAll(_ context.Context, _ string) ([]*userdomain.User,
return nil, nil
}
// ListDeactivatedBefore satisfies the Sprint 6 COMP-002-RETENTION
// interface addition. The phase-5 OIDC handler tests don't exercise
// retention paths, so an empty result keeps the contract without
// changing test semantics.
func (s *stubUserRepo) ListDeactivatedBefore(_ context.Context, _ time.Time) ([]*userdomain.User, error) {
return nil, nil
}
type phase5StubAudit struct {
events []string
// Audit 2026-05-11 Fix 13 — capture the details map so the
internal/api/handler/auth_users_test.go
+14
View File
@@ -83,6 +83,20 @@ func (s *stubFullUserRepo) ListAll(_ context.Context, tenantID string) ([]*userd
return out, nil
}
// ListDeactivatedBefore satisfies the Sprint 6 COMP-002-RETENTION
// interface addition. Walk rows, filter by DeactivatedAt-before-threshold.
// Order is intentionally not stabilised — the auth_users handler tests
// don't exercise the retention loop.
func (s *stubFullUserRepo) ListDeactivatedBefore(_ context.Context, threshold time.Time) ([]*userdomain.User, error) {
var out []*userdomain.User
for _, u := range s.rows {
if u.DeactivatedAt != nil && u.DeactivatedAt.Before(threshold) {
out = append(out, u)
}
}
return out, nil
}
// stubRevoker records cascade-revoke calls.
type stubRevoker struct {
called bool
internal/auth/oidc/service_test.go
+14
View File
@@ -392,6 +392,20 @@ func (s *stubUsers) ListAll(_ context.Context, _ string) ([]*userdomain.User, er
return out, nil
}
// ListDeactivatedBefore satisfies the Sprint 6 COMP-002-RETENTION
// interface addition. Stub-side: walk byID and filter on the
// DeactivatedAt cursor; OIDC service tests don't care about ordering
// stability.
func (s *stubUsers) ListDeactivatedBefore(_ context.Context, threshold time.Time) ([]*userdomain.User, error) {
var out []*userdomain.User
for _, u := range s.byID {
if u.DeactivatedAt != nil && u.DeactivatedAt.Before(threshold) {
out = append(out, u)
}
}
return out, nil
}
type stubSessions struct {
cookieValue string
csrfToken string
internal/config/config.go
+29
View File
@@ -108,6 +108,10 @@ type Config struct {
// cadence. Scheduler loop auditChainVerifyLoop reads VerifyInterval;
// the metric-side counter is wired separately in cmd/server/main.go.
AuditChain AuditChainConfig
// UserRetention holds the Sprint 6 COMP-002-RETENTION purge cadence
// + window. The scheduler's userRetentionLoop reads Interval; the
// UserRetentionService reads RetentionWindow + BatchCap.
UserRetention UserRetentionConfig
}
// AuditChainConfig configures the audit_events tamper-evidence
@@ -126,6 +130,26 @@ type AuditChainConfig struct {
VerifyInterval time.Duration
}
// UserRetentionConfig configures the Sprint 6 COMP-002-RETENTION user
// PII purge sweeper. The scheduler's userRetentionLoop walks every
// user with deactivated_at older than RetentionWindow and scrubs the
// PII columns via UserRetentionService.DeleteUserPII.
type UserRetentionConfig struct {
// Interval is the tick cadence. Default 24h.
// Setting: CERTCTL_USER_RETENTION_INTERVAL.
Interval time.Duration
// RetentionWindow is how long after deactivated_at a row's PII
// stays in the table. Default 30 days. Operators with strict
// GDPR / CCPA expectations may shorten; operators who need
// forensic recovery latitude may lengthen.
// Setting: CERTCTL_USER_RETENTION_WINDOW.
RetentionWindow time.Duration
// BatchCap bounds how many users a single tick processes. Default
// 200 — keeps blast radius predictable. Set to 0 to disable the
// cap (test fixtures only).
// Setting: CERTCTL_USER_RETENTION_BATCH_CAP.
BatchCap int
}
// OCSPResponderConfig configures the dedicated OCSP-responder cert
// per issuer (RFC 6960 §2.6 + §4.2.2.2). When unset, the local issuer
@@ -724,6 +748,11 @@ func Load() (*Config, error) {
AuditChain: AuditChainConfig{
VerifyInterval: getEnvDuration("CERTCTL_AUDIT_CHAIN_VERIFY_INTERVAL", 6*time.Hour),
},
UserRetention: UserRetentionConfig{
Interval: getEnvDuration("CERTCTL_USER_RETENTION_INTERVAL", 24*time.Hour),
RetentionWindow: getEnvDuration("CERTCTL_USER_RETENTION_WINDOW", 30*24*time.Hour),
BatchCap: getEnvInt("CERTCTL_USER_RETENTION_BATCH_CAP", 200),
},
}
// Parse CERTCTL_API_KEYS_NAMED for named key authentication (M-002).
internal/repository/postgres/user.go
+31
View File
@@ -8,6 +8,7 @@ import (
"database/sql"
"errors"
"fmt"
"time"
"github.com/lib/pq"
@@ -177,3 +178,33 @@ func (r *UserRepository) ListAll(ctx context.Context, tenantID string) ([]*userd
}
return out, rows.Err()
}
// ListDeactivatedBefore returns every user (across all tenants) whose
// deactivated_at is not NULL AND strictly before threshold. Sprint 6
// COMP-002-RETENTION — the userRetentionLoop in the scheduler walks
// this list per tick and calls UserRetentionService.DeleteUserPII on
// each. Cross-tenant on purpose: a single retention policy spans the
// whole control plane.
func (r *UserRepository) ListDeactivatedBefore(ctx context.Context, threshold time.Time) ([]*userdomain.User, error) {
rows, err := r.db.QueryContext(ctx,
`SELECT `+userColumns+`
FROM users
WHERE deactivated_at IS NOT NULL
AND deactivated_at < $1
ORDER BY deactivated_at ASC`,
threshold)
if err != nil {
return nil, fmt.Errorf("users list_deactivated_before: %w", err)
}
defer rows.Close()
var out []*userdomain.User
for rows.Next() {
u, err := scanUser(rows)
if err != nil {
return nil, fmt.Errorf("users scan: %w", err)
}
out = append(out, u)
}
return out, rows.Err()
}
internal/repository/user.go
+9
View File
@@ -6,6 +6,7 @@ package repository
import (
"context"
"errors"
"time"
userdomain "github.com/certctl-io/certctl/internal/auth/user/domain"
)
@@ -46,4 +47,12 @@ type UserRepository interface {
// ListAll returns every user in the tenant. Order:
// created_at ASC. Used by the GUI's admin surface.
ListAll(ctx context.Context, tenantID string) ([]*userdomain.User, error)
// ListDeactivatedBefore returns every user whose deactivated_at is
// not NULL AND strictly before the supplied threshold. Sprint 6
// COMP-002-RETENTION closure — the scheduler's userRetentionLoop
// uses this to enumerate purge-eligible rows on each tick. Order:
// deactivated_at ASC (oldest first, so a tick-budget cap is
// deterministic about which rows it processes).
ListDeactivatedBefore(ctx context.Context, threshold time.Time) ([]*userdomain.User, error)
}
internal/scheduler/scheduler.go
+87
View File
@@ -145,6 +145,16 @@ type AuditChainBreakRecorder interface {
RecordSuccess(rowCount int)
}
// UserRetentionPurger is the Sprint 6 COMP-002-RETENTION scheduler-side
// interface. Concrete impl is *service.UserRetentionService — it walks
// every user whose deactivated_at exceeds the retention window and
// scrubs PII columns (email / display_name / oidc_subject hash). The
// loop calls PurgeDeactivatedUsers on every CERTCTL_USER_RETENTION_INTERVAL
// tick. nil = loop is not wired (deployments that disable retention).
type UserRetentionPurger interface {
PurgeDeactivatedUsers(ctx context.Context) (purged, failed int, err error)
}
// JobReaperService defines the interface for job timeout reaping used by the scheduler.
type JobReaperService interface {
ReapTimedOutJobs(ctx context.Context, csrTTL, approvalTTL time.Duration) error
@@ -175,6 +185,7 @@ type Scheduler struct {
rateLimitGC RateLimitGarbageCollector
auditChainVerifier AuditChainVerifier
auditChainRecorder AuditChainBreakRecorder
userRetention UserRetentionPurger
jobReaper JobReaperService
logger *slog.Logger
@@ -196,6 +207,7 @@ type Scheduler struct {
sessionGCInterval time.Duration
rateLimitGCInterval time.Duration
auditChainVerifyInterval time.Duration
userRetentionInterval time.Duration
// agentOfflineJobTTL: per-tick threshold for reaping Running jobs whose
// owning agent has been silent. Bundle C / Audit M-016. Defaults below.
agentOfflineJobTTL time.Duration
@@ -220,6 +232,7 @@ type Scheduler struct {
sessionGCRunning atomic.Bool
rateLimitGCRunning atomic.Bool
auditChainVerifyRunning atomic.Bool
userRetentionRunning atomic.Bool
// Graceful shutdown: wait for in-flight work to complete
wg sync.WaitGroup
@@ -265,6 +278,11 @@ func NewScheduler(
// not dominate a quiet fleet's DB load. Operators with huge
// audit tables can lengthen via CERTCTL_AUDIT_CHAIN_VERIFY_INTERVAL.
auditChainVerifyInterval: 6 * time.Hour,
// Sprint 6 COMP-002-RETENTION: user PII purge cadence. Default
// 24h — deactivated rows persist past the retention window
// (default 30d) only until the next tick, which is fine for
// GDPR-style "delete within reasonable time" expectations.
userRetentionInterval: 24 * time.Hour,
// 5 minutes is 5×agentHealthCheckInterval default of 1m; an agent
// must miss multiple heartbeats before its in-flight jobs are reaped.
agentOfflineJobTTL: 5 * time.Minute,
@@ -469,6 +487,25 @@ func (s *Scheduler) SetAuditChainVerifyInterval(d time.Duration) {
s.auditChainVerifyInterval = d
}
// SetUserRetentionPurger wires the Sprint 6 COMP-002-RETENTION
// user-PII-purge sweeper. Optional — nil disables the loop (deployments
// that don't have any federated humans yet, or those that want manual
// purge via the admin endpoint only). Concrete impl is
// *service.UserRetentionService.
func (s *Scheduler) SetUserRetentionPurger(p UserRetentionPurger) {
s.userRetention = p
}
// SetUserRetentionInterval configures the userRetentionLoop tick
// cadence. Default 24h. Wire: CERTCTL_USER_RETENTION_INTERVAL.
// Zero or negative values are ignored.
func (s *Scheduler) SetUserRetentionInterval(d time.Duration) {
if d <= 0 {
return
}
s.userRetentionInterval = d
}
// SetAgentOfflineJobTTL sets the threshold past which a Running job whose
// owning agent has gone silent is reaped to Failed. Bundle C / Audit M-016.
// Zero or negative values are ignored (the default of 5 minutes is kept).
@@ -536,6 +573,9 @@ func (s *Scheduler) Start(ctx context.Context) <-chan struct{} {
if s.auditChainVerifier != nil {
loopCount++
}
if s.userRetention != nil {
loopCount++
}
s.wg.Add(loopCount)
go func() { defer s.wg.Done(); s.renewalCheckLoop(ctx) }()
@@ -573,6 +613,9 @@ func (s *Scheduler) Start(ctx context.Context) <-chan struct{} {
if s.auditChainVerifier != nil {
go func() { defer s.wg.Done(); s.auditChainVerifyLoop(ctx) }()
}
if s.userRetention != nil {
go func() { defer s.wg.Done(); s.userRetentionLoop(ctx) }()
}
// Signal that all loops are launched
close(startedChan)
@@ -1454,6 +1497,50 @@ func (s *Scheduler) auditChainVerifyLoop(ctx context.Context) {
}
}
// userRetentionLoop is the Sprint 6 COMP-002-RETENTION sweeper. Every
// CERTCTL_USER_RETENTION_INTERVAL tick it asks
// UserRetentionService.PurgeDeactivatedUsers to walk every user whose
// deactivated_at is older than the retention window and scrub the PII
// columns. The service is responsible for the row-level work + audit
// emission; the loop only orchestrates cadence + concurrency control.
//
// Mirrors the GC-loop pattern: atomic.Bool guard prevents overlapping
// ticks; per-tick context.WithTimeout caps the worst case at 5
// minutes. The retention service's purgeBatchCap (default 200) is the
// inner-loop budget — large backlogs spread across multiple ticks.
func (s *Scheduler) userRetentionLoop(ctx context.Context) {
ticker := NewJitteredTicker(s.userRetentionInterval, DefaultSchedulerJitter)
defer ticker.Stop()
for {
select {
case <-ctx.Done():
return
case <-ticker.C:
if !s.userRetentionRunning.CompareAndSwap(false, true) {
s.logger.Warn("user retention purge still running, skipping tick")
continue
}
s.wg.Add(1)
go func() {
defer s.wg.Done()
defer s.userRetentionRunning.Store(false)
opCtx, cancel := context.WithTimeout(ctx, 5*time.Minute)
defer cancel()
purged, failed, err := s.userRetention.PurgeDeactivatedUsers(opCtx)
if err != nil {
s.logger.Warn("user retention purge failed (next tick will retry)", "error", err)
return
}
if purged > 0 || failed > 0 {
s.logger.Info("user retention purge tick",
"purged", purged, "failed", failed)
}
}()
}
}
}
// runAuditChainVerify executes a single chain-verify pass with the
// atomic.Bool + WithTimeout + goroutine pattern every other GC loop
// uses. Extracted so the loop body + the "run once on start" path
internal/service/user_retention.go
+224
View File
@@ -0,0 +1,224 @@
// Copyright 2026 certctl LLC. All rights reserved.
// SPDX-License-Identifier: BUSL-1.1
package service
import (
"context"
"crypto/sha256"
"encoding/hex"
"fmt"
"log/slog"
"strings"
"time"
userdomain "github.com/certctl-io/certctl/internal/auth/user/domain"
"github.com/certctl-io/certctl/internal/domain"
"github.com/certctl-io/certctl/internal/repository"
)
// Sprint 6 COMP-002-RETENTION closure. The control plane stores three
// PII surfaces:
//
// users.email — IdP-supplied login email.
// users.display_name — IdP-supplied human label.
// users.oidc_subject — IdP's stable identifier for the human.
//
// Pre-fix there was no in-code primitive for GDPR right-to-be-forgotten
// or for automatic retention purges of deactivated accounts. The
// admin-side deactivate flow at internal/api/handler/auth_users.go
// set users.deactivated_at but the PII columns stayed populated
// forever.
//
// This file delivers the two pieces the audit's fix called for:
//
// Phase 1: DeleteUserPII(actorID) — operator-callable primitive that
// scrubs the row's PII while keeping the audit attribution
// chain intact (the row's id stays, so historical
// audit_events.actor = user.id rows still resolve).
// Phase 2: PurgeDeactivatedUsers(ctx) — walks every user whose
// deactivated_at is older than the retention window and
// calls DeleteUserPII on each. Scheduler loop calls this
// on a tick (default 24h); the retention window itself
// (default 30 days post-deactivate) is operator-tunable.
//
// Audit attribution invariant: DeleteUserPII replaces oidc_subject
// with sha256:<hex> rather than nullifying it. Three reasons:
// 1. Preserves the (oidc_provider_id, oidc_subject) UNIQUE
// constraint — two purged users on the same provider still have
// different oidc_subject values, so the constraint never trips.
// 2. The hash is a one-way fingerprint; the original IdP-side
// identifier is unrecoverable post-purge. Re-login under the
// same IdP subject mints a fresh u-id (different row) because
// GetByOIDCSubject won't match the hashed token.
// 3. Forensic continuity: if an operator later needs to prove "a
// user with subject X was deactivated then purged", they can
// recompute sha256(X) and look it up.
// UserRetentionService exposes the DeleteUserPII + PurgeDeactivatedUsers
// primitives. The handler-side admin endpoint (when wired) calls
// DeleteUserPII directly; the scheduler's userRetentionLoop calls
// PurgeDeactivatedUsers.
type UserRetentionService struct {
users repository.UserRepository
sessions repository.SessionRepository
audit *AuditService
logger *slog.Logger
// retentionWindow is how long after deactivated_at a user's PII
// stays in the table. The scheduler loop subtracts this from
// time.Now() when computing the "purge before" threshold.
retentionWindow time.Duration
// purgeBatchCap bounds how many users a single PurgeDeactivatedUsers
// call processes — keeps a single tick's blast radius predictable
// even if a large backlog accumulates. Zero = unbounded (test default).
purgeBatchCap int
}
// NewUserRetentionService wires the deps. The audit service is
// optional (nil = skip audit emission); production wiring in
// cmd/server/main.go passes the singleton.
func NewUserRetentionService(
users repository.UserRepository,
sessions repository.SessionRepository,
audit *AuditService,
logger *slog.Logger,
retentionWindow time.Duration,
purgeBatchCap int,
) *UserRetentionService {
if retentionWindow <= 0 {
retentionWindow = 30 * 24 * time.Hour
}
return &UserRetentionService{
users: users,
sessions: sessions,
audit: audit,
logger: logger,
retentionWindow: retentionWindow,
purgeBatchCap: purgeBatchCap,
}
}
// DeleteUserPII scrubs the named user's PII columns. Phase 1 fix per
// the COMP-002-RETENTION audit. Steps:
//
// 1. Load the user row. Returns repository.ErrUserNotFound if missing.
// 2. Revoke all active sessions for the actor (defense-in-depth — the
// handler-side Deactivate path already does this, but a purge after
// N days might catch sessions that were created post-deactivate via
// some other path).
// 3. Zero the PII columns:
// email = ""
// display_name = ""
// oidc_subject = "sha256:" || hex(sha256(original))
// 4. Persist the row via UserRepository.Update.
// 5. Emit an audit event (auth category, action user.purge_pii) so the
// scrub itself is on record.
//
// Returns nil on success. Idempotent: re-calling on an already-purged
// row hashes the already-hashed oidc_subject, which is a no-op semantic
// (the operator can tell purges happened by the "sha256:" prefix).
func (s *UserRetentionService) DeleteUserPII(ctx context.Context, userID string) error {
u, err := s.users.Get(ctx, userID)
if err != nil {
return fmt.Errorf("user_retention: load %s: %w", userID, err)
}
// Defense-in-depth: revoke all sessions before the row mutates.
if err := s.sessions.RevokeAllForActor(ctx, u.ID, string(domain.ActorTypeUser), u.TenantID); err != nil {
// Log + continue; PII scrub is the load-bearing step. A
// dangling-session row whose actor's PII is already gone is
// less harmful than leaving the PII intact because the
// session revoke failed.
s.logger.Warn("user_retention: session revoke failed during PII scrub (continuing)",
"user_id", userID, "error", err)
}
// Hash the oidc_subject IF it isn't already a "sha256:..." token.
// Idempotent re-scrubs are safe; a second pass produces the same
// hash of the hash, but the prefix lets operators tell the row was
// already scrubbed.
if !strings.HasPrefix(u.OIDCSubject, "sha256:") {
sum := sha256.Sum256([]byte(u.OIDCSubject))
u.OIDCSubject = "sha256:" + hex.EncodeToString(sum[:])
}
u.Email = "purged@redacted.local" // domain.User.Validate requires plausible email format
u.DisplayName = "[purged]" // domain.User.Validate forbids leading/trailing whitespace
u.WebAuthnCredentials = []byte(`[]`) // v3-reserved field — keep empty JSONB.
if err := s.users.Update(ctx, u); err != nil {
return fmt.Errorf("user_retention: update %s: %w", userID, err)
}
if s.audit != nil {
_ = s.audit.RecordEventWithCategory(ctx,
"system", domain.ActorTypeSystem,
"user.purge_pii",
domain.EventCategoryAuth,
"user", userID,
map[string]interface{}{
"retained_id": userID,
"hashed_oidc_subject_set": true,
},
)
}
s.logger.Info("user_retention: PII scrubbed", "user_id", userID)
return nil
}
// PurgeDeactivatedUsers enumerates every user whose deactivated_at is
// older than now - retentionWindow and calls DeleteUserPII on each.
// Returns (purged, failed) counts; logs individual failures at WARN
// and continues so a single bad row doesn't stall the rest of the
// batch. Bounded by purgeBatchCap when non-zero.
func (s *UserRetentionService) PurgeDeactivatedUsers(ctx context.Context) (int, int, error) {
threshold := time.Now().Add(-s.retentionWindow)
rows, err := s.users.ListDeactivatedBefore(ctx, threshold)
if err != nil {
return 0, 0, fmt.Errorf("user_retention: list deactivated: %w", err)
}
var purged, failed int
for i, u := range rows {
if s.purgeBatchCap > 0 && i >= s.purgeBatchCap {
s.logger.Info("user_retention: batch cap reached; remaining rows deferred to next tick",
"cap", s.purgeBatchCap, "remaining", len(rows)-i)
break
}
// Skip rows that are already scrubbed — DeleteUserPII is
// idempotent but skipping saves a transaction and an audit
// row per tick.
if strings.HasPrefix(u.OIDCSubject, "sha256:") &&
strings.HasPrefix(u.Email, "purged@") {
continue
}
if err := s.DeleteUserPII(ctx, u.ID); err != nil {
s.logger.Warn("user_retention: purge failed (next tick will retry)",
"user_id", u.ID, "error", err)
failed++
continue
}
purged++
}
if purged > 0 || failed > 0 {
s.logger.Info("user_retention: purge sweep complete",
"purged", purged,
"failed", failed,
"threshold", threshold.Format(time.RFC3339))
}
return purged, failed, nil
}
// RetentionWindow exposes the configured window for tests + the
// operator-facing "when will my account be scrubbed" GUI surface.
func (s *UserRetentionService) RetentionWindow() time.Duration {
return s.retentionWindow
}
// userdomain is imported so the compiler recognises the type used by
// the repository contracts even though this file only consumes pointer
// values via the interface. Keep this blank ref so re-organising the
// file later doesn't accidentally drop the import.
var _ = (*userdomain.User)(nil)
internal/service/user_retention_test.go
+302
View File
@@ -0,0 +1,302 @@
// Copyright 2026 certctl LLC. All rights reserved.
// SPDX-License-Identifier: BUSL-1.1
package service
import (
"context"
"errors"
"io"
"log/slog"
"strings"
"sync"
"testing"
"time"
sessiondomain "github.com/certctl-io/certctl/internal/auth/session/domain"
userdomain "github.com/certctl-io/certctl/internal/auth/user/domain"
"github.com/certctl-io/certctl/internal/domain"
"github.com/certctl-io/certctl/internal/repository"
)
// Sprint 6 COMP-002-RETENTION unit tests. The repo + session deps are
// covered by in-memory stubs in this file; the integration shape
// (deactivated_at SQL filter, session revocation in PG) is covered by
// the existing postgres tests for those repositories.
type retentionStubUserRepo struct {
mu sync.Mutex
byID map[string]*userdomain.User
updateOK bool
updateCh chan struct{}
}
func newRetentionStubUserRepo() *retentionStubUserRepo {
return &retentionStubUserRepo{
byID: make(map[string]*userdomain.User),
updateOK: true,
updateCh: make(chan struct{}, 100),
}
}
func (r *retentionStubUserRepo) seed(u *userdomain.User) {
r.mu.Lock()
defer r.mu.Unlock()
r.byID[u.ID] = u
}
func (r *retentionStubUserRepo) Get(_ context.Context, id string) (*userdomain.User, error) {
r.mu.Lock()
defer r.mu.Unlock()
u, ok := r.byID[id]
if !ok {
return nil, repository.ErrUserNotFound
}
cp := *u
return &cp, nil
}
func (r *retentionStubUserRepo) GetByOIDCSubject(_ context.Context, _, _ string) (*userdomain.User, error) {
return nil, repository.ErrUserNotFound
}
func (r *retentionStubUserRepo) Create(_ context.Context, _ *userdomain.User) error { return nil }
func (r *retentionStubUserRepo) Update(_ context.Context, u *userdomain.User) error {
r.mu.Lock()
defer r.mu.Unlock()
if !r.updateOK {
return errors.New("retentionStubUserRepo: update disabled")
}
cp := *u
r.byID[u.ID] = &cp
r.updateCh <- struct{}{}
return nil
}
func (r *retentionStubUserRepo) ListAll(_ context.Context, _ string) ([]*userdomain.User, error) {
return nil, nil
}
func (r *retentionStubUserRepo) ListDeactivatedBefore(_ context.Context, threshold time.Time) ([]*userdomain.User, error) {
r.mu.Lock()
defer r.mu.Unlock()
var out []*userdomain.User
for _, u := range r.byID {
if u.DeactivatedAt != nil && u.DeactivatedAt.Before(threshold) {
cp := *u
out = append(out, &cp)
}
}
return out, nil
}
type retentionStubSessionRepo struct {
mu sync.Mutex
revokedActors []string
revokeError error
}
// retentionStubSessionRepo satisfies the full repository.SessionRepository
// surface. user_retention.go only calls RevokeAllForActor; the other
// methods are no-op stubs that exist so the fixture compiles against
// the interface.
func (s *retentionStubSessionRepo) Create(_ context.Context, _ *sessiondomain.Session) error {
return nil
}
func (s *retentionStubSessionRepo) Get(_ context.Context, _ string) (*sessiondomain.Session, error) {
return nil, repository.ErrSessionNotFound
}
func (s *retentionStubSessionRepo) ListByActor(_ context.Context, _, _, _ string) ([]*sessiondomain.Session, error) {
return nil, nil
}
func (s *retentionStubSessionRepo) UpdateLastSeen(_ context.Context, _ string) error {
return nil
}
func (s *retentionStubSessionRepo) UpdateCSRFTokenHash(_ context.Context, _, _ string) error {
return nil
}
func (s *retentionStubSessionRepo) Revoke(_ context.Context, _ string) error { return nil }
func (s *retentionStubSessionRepo) RevokeAllForActor(_ context.Context, actorID, _, _ string) error {
s.mu.Lock()
defer s.mu.Unlock()
if s.revokeError != nil {
return s.revokeError
}
s.revokedActors = append(s.revokedActors, actorID)
return nil
}
func (s *retentionStubSessionRepo) RevokeAllExceptForActor(_ context.Context, _, _, _, _ string) (int, error) {
return 0, nil
}
func (s *retentionStubSessionRepo) GarbageCollectExpired(_ context.Context) (int, error) {
return 0, nil
}
func (s *retentionStubSessionRepo) Delete(_ context.Context, _ string) error {
return nil
}
func newTestUser(id, email, displayName, subject string, deactivated *time.Time) *userdomain.User {
return &userdomain.User{
ID: id,
TenantID: "t-default",
Email: email,
DisplayName: displayName,
OIDCSubject: subject,
OIDCProviderID: "op-test",
LastLoginAt: time.Now(),
WebAuthnCredentials: []byte(`[]`),
CreatedAt: time.Now().Add(-90 * 24 * time.Hour),
UpdatedAt: time.Now(),
DeactivatedAt: deactivated,
}
}
func discardLogger() *slog.Logger {
return slog.New(slog.NewTextHandler(io.Discard, &slog.HandlerOptions{Level: slog.LevelError + 10}))
}
// TestDeleteUserPII_ScrubsAndRevokes: the operator-facing primitive
// nullifies email + display_name, hashes oidc_subject, and revokes
// sessions on the affected actor.
func TestDeleteUserPII_ScrubsAndRevokes(t *testing.T) {
t.Parallel()
users := newRetentionStubUserRepo()
sessions := &retentionStubSessionRepo{}
now := time.Now()
deact := now.Add(-45 * 24 * time.Hour)
users.seed(newTestUser("u-1", "alice@example.com", "Alice", "sub-alice", &deact))
svc := NewUserRetentionService(users, sessions, nil, discardLogger(), 30*24*time.Hour, 0)
if err := svc.DeleteUserPII(context.Background(), "u-1"); err != nil {
t.Fatalf("DeleteUserPII: %v", err)
}
got, err := users.Get(context.Background(), "u-1")
if err != nil {
t.Fatalf("post-purge Get: %v", err)
}
if got.Email != "purged@redacted.local" {
t.Errorf("email not scrubbed: %q", got.Email)
}
if got.DisplayName != "[purged]" {
t.Errorf("display_name not scrubbed: %q", got.DisplayName)
}
if !strings.HasPrefix(got.OIDCSubject, "sha256:") {
t.Errorf("oidc_subject not hashed: %q", got.OIDCSubject)
}
if got.OIDCSubject == "sha256:" {
t.Errorf("oidc_subject hash is empty")
}
sessions.mu.Lock()
if len(sessions.revokedActors) != 1 || sessions.revokedActors[0] != "u-1" {
t.Errorf("RevokeAllForActor not called for u-1; got %v", sessions.revokedActors)
}
sessions.mu.Unlock()
}
// TestDeleteUserPII_IsIdempotent: scrubbing an already-scrubbed row
// is safe — the oidc_subject hash recurses (sha256 of sha256:hex)
// without breaking the UNIQUE constraint or returning an error. We
// verify the scrubbed values + the prefix.
func TestDeleteUserPII_IsIdempotent(t *testing.T) {
t.Parallel()
users := newRetentionStubUserRepo()
sessions := &retentionStubSessionRepo{}
now := time.Now()
deact := now.Add(-100 * 24 * time.Hour)
users.seed(newTestUser("u-2", "bob@example.com", "Bob", "sub-bob", &deact))
svc := NewUserRetentionService(users, sessions, nil, discardLogger(), 30*24*time.Hour, 0)
if err := svc.DeleteUserPII(context.Background(), "u-2"); err != nil {
t.Fatalf("first DeleteUserPII: %v", err)
}
first, _ := users.Get(context.Background(), "u-2")
if err := svc.DeleteUserPII(context.Background(), "u-2"); err != nil {
t.Fatalf("second DeleteUserPII: %v", err)
}
second, _ := users.Get(context.Background(), "u-2")
// oidc_subject doesn't get re-hashed (prefix guard).
if first.OIDCSubject != second.OIDCSubject {
t.Errorf("idempotent re-scrub re-hashed oidc_subject: %q -> %q",
first.OIDCSubject, second.OIDCSubject)
}
if !strings.HasPrefix(second.OIDCSubject, "sha256:") {
t.Errorf("scrubbed oidc_subject lost prefix: %q", second.OIDCSubject)
}
}
// TestPurgeDeactivatedUsers_RespectsWindow: only users whose
// deactivated_at is older than now-retentionWindow get scrubbed; rows
// deactivated within the window remain intact.
func TestPurgeDeactivatedUsers_RespectsWindow(t *testing.T) {
t.Parallel()
users := newRetentionStubUserRepo()
sessions := &retentionStubSessionRepo{}
now := time.Now()
stale := now.Add(-45 * 24 * time.Hour) // past 30d window
recent := now.Add(-7 * 24 * time.Hour) // inside 30d window
users.seed(newTestUser("u-stale", "stale@example.com", "Stale", "sub-stale", &stale))
users.seed(newTestUser("u-recent", "recent@example.com", "Recent", "sub-recent", &recent))
users.seed(newTestUser("u-active", "active@example.com", "Active", "sub-active", nil))
svc := NewUserRetentionService(users, sessions, nil, discardLogger(), 30*24*time.Hour, 0)
purged, failed, err := svc.PurgeDeactivatedUsers(context.Background())
if err != nil {
t.Fatalf("PurgeDeactivatedUsers: %v", err)
}
if purged != 1 {
t.Errorf("expected 1 row purged, got %d", purged)
}
if failed != 0 {
t.Errorf("expected 0 failures, got %d", failed)
}
staleU, _ := users.Get(context.Background(), "u-stale")
if staleU.Email != "purged@redacted.local" {
t.Errorf("stale row not scrubbed: %q", staleU.Email)
}
recentU, _ := users.Get(context.Background(), "u-recent")
if recentU.Email != "recent@example.com" {
t.Errorf("recent row should not have been scrubbed: %q", recentU.Email)
}
activeU, _ := users.Get(context.Background(), "u-active")
if activeU.Email != "active@example.com" {
t.Errorf("active row should not have been scrubbed: %q", activeU.Email)
}
}
// TestPurgeDeactivatedUsers_BatchCap caps the per-tick blast radius.
func TestPurgeDeactivatedUsers_BatchCap(t *testing.T) {
t.Parallel()
users := newRetentionStubUserRepo()
sessions := &retentionStubSessionRepo{}
stale := time.Now().Add(-100 * 24 * time.Hour)
for i := 0; i < 5; i++ {
id := "u-cap-" + string(rune('0'+i))
users.seed(newTestUser(id, id+"@example.com", id, "sub-"+id, &stale))
}
svc := NewUserRetentionService(users, sessions, nil, discardLogger(), 30*24*time.Hour, 2)
purged, failed, err := svc.PurgeDeactivatedUsers(context.Background())
if err != nil {
t.Fatalf("PurgeDeactivatedUsers: %v", err)
}
if purged != 2 {
t.Errorf("expected exactly 2 rows purged (batch cap = 2), got %d", purged)
}
if failed != 0 {
t.Errorf("expected 0 failures, got %d", failed)
}
}
// _ guard for unused-import lint when one of the helpers above is
// removed during future refactors.
var _ = domain.ActorTypeUser