# TimescaleDB Entity History Tracking ## Overview This plan describes the addition of **TimescaleDB-backed history tables** to track field-level changes on key operational entities in Attune. The goal is to provide an immutable audit log and time-series analytics for status transitions and other field changes, without modifying existing operational tables or application code. ## Motivation Currently, when a field changes on an operational table (e.g., `execution.status` moves from `requested` → `running`), the row is updated in place and only the current state is retained. The `updated` timestamp is bumped, but there is no record of: - What the previous value was - When each transition occurred - How long an entity spent in each state - Historical trends (e.g., failure rate over time, execution throughput per hour) This data is essential for operational dashboards, debugging, SLA tracking, and capacity planning. ## Technology Choice: TimescaleDB [TimescaleDB](https://www.timescale.com/) is a PostgreSQL extension that adds time-series capabilities: - **Hypertables**: Automatic time-based partitioning (chunks by hour/day/week) - **Compression**: 10-20x storage reduction on aged-out chunks - **Retention policies**: Automatic data expiry - **Continuous aggregates**: Auto-refreshing materialized views for dashboard rollups - **`time_bucket()` function**: Efficient time-series grouping It runs as an extension inside the existing PostgreSQL instance — no additional infrastructure. ## Design Decisions ### Separate history tables, not hypertable conversions The operational tables (`execution`, `worker`, `enforcement`, `event`) will **NOT** be converted to hypertables. Reasons: 1. **UNIQUE constraints on hypertables must include the time partitioning column** — this would break `worker.name UNIQUE`, PK references, etc. 2. **Foreign keys INTO hypertables are not supported** — `execution.parent` self-references `execution(id)`, `enforcement` references `rule`, etc. 3. **UPDATE-heavy tables are a poor fit for hypertables** — hypertables are optimized for append-only INSERT workloads. Instead, each tracked entity gets a companion `_history` hypertable that receives append-only change records. ### JSONB diff format (not full row snapshots) Each history row captures only the fields that changed, stored as JSONB: - **Compact**: A status change is `{"status": "running"}`, not a copy of the entire row including large `result`/`config` JSONB blobs. - **Schema-decoupled**: Adding a column to the source table requires no changes to the history table structure — only a new `IS DISTINCT FROM` check in the trigger function. - **Answering "what changed?"**: Directly readable without diffing two full snapshots. A `changed_fields TEXT[]` column enables efficient partial indexes and GIN-indexed queries for filtering by field name. ### PostgreSQL triggers for population History rows are written by `AFTER INSERT OR UPDATE OR DELETE` triggers on the operational tables. This ensures: - Every change is captured regardless of which service (API, executor, worker) made it. - No Rust application code changes are needed for recording. - It's impossible to miss a change path. ### Worker heartbeats excluded `worker.last_heartbeat` is updated frequently by the heartbeat loop and is high-volume/low-value for history purposes. The trigger function explicitly excludes pure heartbeat-only updates. If heartbeat analytics are needed later, a dedicated lightweight table can be added. ## Tracked Entities | Entity | History Table | `entity_ref` Source | Excluded Fields | |--------|--------------|---------------------|-----------------| | `execution` | `execution_history` | `action_ref` | *(none)* | | `worker` | `worker_history` | `name` | `last_heartbeat` (when sole change) | > **Note:** The `event` and `enforcement` tables do **not** have separate `_history` > tables. Both are TimescaleDB hypertables partitioned on `created`: > > - **Events** are immutable after insert (never updated). Compression and retention > policies are applied directly. The `event_volume_hourly` continuous aggregate > queries the `event` table directly. > - **Enforcements** are updated exactly once (status transitions from `created` to > `processed` or `disabled` within ~1 second of creation, well before the 7-day > compression window). The `resolved_at` column records when this transition > occurred. A separate history table added little value for a single deterministic > status change. The `enforcement_volume_hourly` continuous aggregate queries the > `enforcement` table directly. ## Table Schema All four history tables share the same structure: ```sql CREATE TABLE _history ( time TIMESTAMPTZ NOT NULL DEFAULT NOW(), operation TEXT NOT NULL, -- 'INSERT', 'UPDATE', 'DELETE' entity_id BIGINT NOT NULL, -- PK of the source row entity_ref TEXT, -- denormalized ref/name for JOIN-free queries changed_fields TEXT[] NOT NULL DEFAULT '{}', old_values JSONB, -- previous values of changed fields new_values JSONB -- new values of changed fields ); ``` Column details: | Column | Purpose | |--------|---------| | `time` | Hypertable partitioning dimension; when the change occurred | | `operation` | `INSERT`, `UPDATE`, or `DELETE` | | `entity_id` | The source row's `id` (conceptual FK, not enforced on hypertable) | | `entity_ref` | Denormalized human-readable identifier for efficient filtering | | `changed_fields` | Array of field names that changed — enables partial indexes and GIN queries | | `old_values` | JSONB of previous field values (NULL for INSERT) | | `new_values` | JSONB of new field values (NULL for DELETE) | ## Hypertable Configuration | Table | Chunk Interval | Rationale | |-------|---------------|-----------| | `execution_history` | 1 day | Highest expected volume | | `event` (hypertable) | 1 day | Can be high volume from active sensors | | `enforcement` (hypertable) | 1 day | Correlated with execution volume | | `worker_history` | 7 days | Low volume (status changes are infrequent) | ## Indexes Each history table gets: 1. **Entity lookup**: `(entity_id, time DESC)` — "show me history for entity X" 2. **Status change filter**: Partial index on `time DESC` where `'status' = ANY(changed_fields)` — "show me all status changes" 3. **Field filter**: GIN index on `changed_fields` — flexible field-based queries 4. **Ref-based lookup**: `(entity_ref, time DESC)` — "show me all execution history for action `core.http_request`" ## Trigger Functions Each tracked table gets a dedicated trigger function that: 1. On `INSERT`: Records the operation with key initial field values in `new_values`. 2. On `DELETE`: Records the operation with entity identifiers. 3. On `UPDATE`: Checks each mutable field with `IS DISTINCT FROM`. If any fields changed, records the old and new values. If nothing changed, no history row is written. ### Fields tracked per entity **execution**: `status`, `result`, `executor`, `workflow_task`, `env_vars` **worker**: `name`, `status`, `capabilities`, `meta`, `host`, `port` (excludes `last_heartbeat` when it's the only change) **enforcement**: `status`, `payload` **event**: `config`, `payload` ## Compression Policies Applied after data leaves the "hot" query window: | Table | Compress After | `segmentby` | `orderby` | |-------|---------------|-------------|-----------| | `execution_history` | 7 days | `entity_id` | `time DESC` | | `worker_history` | 7 days | `entity_id` | `time DESC` | | `event` (hypertable) | 7 days | `trigger_ref` | `created DESC` | | `enforcement` (hypertable) | 7 days | `rule_ref` | `created DESC` | `segmentby = entity_id` ensures that "show me history for entity X" queries are fast even on compressed chunks. ## Retention Policies | Table | Retain For | Rationale | |-------|-----------|-----------| | `execution_history` | 90 days | Primary operational data | | `event` (hypertable) | 90 days | High volume time-series data | | `enforcement` (hypertable) | 90 days | Tied to execution lifecycle | | `worker_history` | 180 days | Low volume, useful for capacity trends | ## Continuous Aggregates (Future) These are not part of the initial migration but are natural follow-ons: ```sql -- Execution status transitions per hour (for dashboards) CREATE MATERIALIZED VIEW execution_status_transitions_hourly WITH (timescaledb.continuous) AS SELECT time_bucket('1 hour', time) AS bucket, entity_ref AS action_ref, new_values->>'status' AS new_status, COUNT(*) AS transition_count FROM execution_history WHERE 'status' = ANY(changed_fields) GROUP BY bucket, entity_ref, new_values->>'status' WITH NO DATA; -- Event volume per hour by trigger (for throughput monitoring) CREATE MATERIALIZED VIEW event_volume_hourly WITH (timescaledb.continuous) AS SELECT time_bucket('1 hour', time) AS bucket, entity_ref AS trigger_ref, COUNT(*) AS event_count FROM event GROUP BY bucket, trigger_ref WITH NO DATA; ``` ## Infrastructure Changes ### Docker Compose Change the PostgreSQL image from `postgres:16-alpine` to `timescale/timescaledb:latest-pg16` (or a pinned version like `timescale/timescaledb:2.17.2-pg16`). No other infrastructure changes are needed — TimescaleDB is a drop-in extension. ### Local Development For local development (non-Docker), TimescaleDB must be installed as a PostgreSQL extension. On macOS: `brew install timescaledb`. On Linux: follow [TimescaleDB install docs](https://docs.timescale.com/self-hosted/latest/install/). ### Testing The schema-per-test isolation pattern works with TimescaleDB. The `timescaledb` extension is database-level (created once via `CREATE EXTENSION`), and hypertables in different schemas are independent. The test schema setup requires no changes — `create_hypertable()` operates within the active `search_path`. ### SQLx Compatibility No special SQLx support is needed. History tables are standard PostgreSQL tables from SQLx's perspective. `INSERT`, `SELECT`, `time_bucket()`, and array operators all work as regular SQL. TimescaleDB-specific DDL (`create_hypertable`, `add_compression_policy`, etc.) runs in migrations only. ## Implementation Scope ### Phase 1 (migration) ✅ - [x] `CREATE EXTENSION IF NOT EXISTS timescaledb` - [x] Create four `_history` tables - [x] Convert to hypertables with `create_hypertable()` - [x] Create indexes (entity lookup, status change filter, GIN on changed_fields, ref lookup) - [x] Create trigger functions for `execution`, `worker`, `enforcement`, `event` - [x] Attach triggers to operational tables - [x] Configure compression policies - [x] Configure retention policies ### Phase 2 (API & UI) ✅ - [x] History model in `crates/common/src/models.rs` (`EntityHistoryRecord`, `HistoryEntityType`) - [x] History repository in `crates/common/src/repositories/entity_history.rs` (`query`, `count`, `find_by_entity_id`, `find_status_changes`, `find_latest`) - [x] History DTOs in `crates/api/src/dto/history.rs` (`HistoryRecordResponse`, `HistoryQueryParams`) - [x] API endpoints in `crates/api/src/routes/history.rs`: - `GET /api/v1/history/{entity_type}` — generic history query with filters & pagination - `GET /api/v1/executions/{id}/history` — execution-specific history - `GET /api/v1/workers/{id}/history` — worker-specific history - `GET /api/v1/enforcements/{id}/history` — enforcement-specific history - `GET /api/v1/events/{id}/history` — event-specific history - [x] Web UI history panel on entity detail pages - `web/src/hooks/useHistory.ts` — React Query hooks (`useEntityHistory`, `useExecutionHistory`, `useWorkerHistory`, `useEnforcementHistory`, `useEventHistory`) - `web/src/components/common/EntityHistoryPanel.tsx` — Reusable collapsible panel with timeline, field-level diffs, filters (operation, changed_field), and pagination - Integrated into `ExecutionDetailPage`, `EnforcementDetailPage`, `EventDetailPage` (worker detail page does not exist yet) - [x] Continuous aggregates for dashboards - Migration `20260226200000_continuous_aggregates.sql` creates 5 continuous aggregates: `execution_status_hourly`, `execution_throughput_hourly`, `event_volume_hourly`, `worker_status_hourly`, `enforcement_volume_hourly` - Auto-refresh policies (30 min for most, 1 hour for worker) with 7-day lookback ### Phase 3 (analytics) ✅ - [x] Dashboard widgets showing execution throughput, failure rates, worker health trends - `crates/common/src/repositories/analytics.rs` — repository querying continuous aggregates (execution status/throughput, event volume, worker status, enforcement volume, failure rate) - `crates/api/src/dto/analytics.rs` — DTOs (`DashboardAnalyticsResponse`, `TimeSeriesPoint`, `FailureRateResponse`, `AnalyticsQueryParams`, etc.) - `crates/api/src/routes/analytics.rs` — 7 API endpoints under `/api/v1/analytics/` (dashboard, executions/status, executions/throughput, executions/failure-rate, events/volume, workers/status, enforcements/volume) - `web/src/hooks/useAnalytics.ts` — React Query hooks (`useDashboardAnalytics`, `useExecutionStatusAnalytics`, `useFailureRateAnalytics`, etc.) - `web/src/components/common/AnalyticsWidgets.tsx` — Dashboard visualization components (MiniBarChart, StackedBarChart, FailureRateCard with SVG ring gauge, StatCard, TimeRangeSelector with 6h/12h/24h/2d/7d presets) - Integrated into `DashboardPage.tsx` below existing metrics and activity sections - [ ] Configurable retention periods via admin settings - [ ] Export/archival to external storage before retention expiry ## Risks & Mitigations | Risk | Mitigation | |------|-----------| | Trigger overhead on hot paths | Triggers are lightweight (JSONB build + single INSERT into an append-optimized hypertable). Benchmark if execution throughput exceeds 1K/sec. | | Storage growth | Compression (7-day delay) + retention policies bound storage automatically. | | JSONB query performance | Partial indexes on `changed_fields` avoid full scans. Continuous aggregates pre-compute hot queries. | | Schema drift (new columns not tracked) | When adding mutable columns to tracked tables, add a corresponding `IS DISTINCT FROM` check to the trigger function. Document this in the pitfalls section of AGENTS.md. | | Test compatibility | TimescaleDB extension is database-level; schema-per-test isolation is unaffected. Verify in CI. | ## Docker Image Pinning For reproducibility, pin the TimescaleDB image version rather than using `latest`: ```yaml postgres: image: timescale/timescaledb:2.17.2-pg16 ``` Update the pin periodically as new stable versions are released.