--- status: draft last_updated: 2026-05-28 --- # @alkdev/storage — Overview Typed graph storage with dual database hosts. Deno-first, published via JSR. ## Purpose `@alkdev/storage` provides a **metagraph** storage model: graph types define schemas, node types define data shapes within those graphs, and edge types define typed relationships. Instances of these type definitions become actual graphs populated with nodes and edges. This pattern replaces domain-specific table proliferation with a small number of general-purpose tables that can model anything — call graphs, ACL rules, task dependencies, encrypted secrets — while enforcing schema integrity through TypeBox validation. The package evolved from `@ade/ade-v0/packages/core/graphs` and `@ade/ade-v0/packages/storage_sqlite`, simplified and refactored for the @alkdev ecosystem. ## Architecture ``` @alkdev/storage/ ├── mod.ts → re-exports graphs/ (zero db deps) ├── src/ │ ├── graphs/ → schema types + SchemaBuilder (no db deps) │ ├── sqlite/ → SQLite host (drizzle-orm/libsql) │ │ ├── tables/ → drizzle table definitions │ │ ├── relations.ts → drizzle relational mappings │ │ ├── schema.ts → barrel re-export │ │ └── client.ts → injectable createSqliteDatabase() │ └── pg/ → PostgreSQL host (NOT YET IMPLEMENTED) └── test/ → empty — tests not yet written ``` ### Subpath Exports (JSR/npm) | Export | Contents | Dependencies | | ------------------------ | --------------------------------------- | --------------------------------------- | | `@alkdev/storage` | Graph schema types, SchemaBuilder | `@alkdev/typebox`, `@alkdev/drizzlebox` | | `@alkdev/storage/graphs` | Same as `.` — alias for the main export | Same as `.` | | `@alkdev/storage/sqlite` | SQLite tables, relations, client | + `drizzle-orm`, `@libsql/client` | | `@alkdev/storage/pg` | PostgreSQL tables, relations, client | ⚠️ NOT YET IMPLEMENTED | The `./graphs` subpath exists because the source code lives in `src/graphs/` and the main `mod.ts` re-exports it. Importing from either `@alkdev/storage` or `@alkdev/storage/graphs` yields the same types and SchemaBuilder. ## Terminology | Term | Definition | | ----------------------- | ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | **Metagraph** | A type system where graph types define schemas, node types define data shapes within those graphs, and edge types define typed relationships. Graph instances are concrete data conforming to these type definitions. | | **Hub** | The central service in the hub-spoke architecture. A consumer of `@alkdev/storage` — uses the PostgreSQL host for persistent graph storage. The hub also depends on `@alkdev/operations`, `@alkdev/pubsub`, `@alkdev/flowgraph`. | | **Spoke** | A local/embedded instance that runs per-project or per-session. A consumer of `@alkdev/storage` — uses the SQLite host for local graph storage. | | **Graph type** | A class of graphs (e.g., "call-graph", "acl"). Defines structural constraints (directed/undirected/mixed, multi-edges, self-loops) and the valid node/edge type vocabularies. Stored in the `graph_types` table. | | **Node type** | A category of node within a graph type. Defines the attribute schema for nodes of that type. Stored in the `node_types` table. | | **Edge type** | A category of edge within a graph type. Defines the attribute schema and optionally restricts which node types can be source/target. Stored in the `edge_types` table. | | **Graph instance** | A concrete graph belonging to a graph type. Contains nodes and edges conforming to its type definitions. Stored in the `graphs` table. | | **Consumer** | Code that imports `@alkdev/storage` (or a subpath) to define graph types and persist graph data. The hub, spokes, and other @alkdev packages are consumers. | | **Repository layer** | ⚠️ Not yet implemented. The typed CRUD functions (insert, find, update, delete) that sit between consumer code and raw Drizzle queries. Performs schema validation before writes. No dependency on `@alkdev/operations` — the consumer wires CRUD into the registry. | | **Validation boundary** | The line where schema validation is enforced. In this package, validation happens in the SchemaBuilder (at type definition time) and the repository layer (at mutation time), NOT in the database. | ## Design Decisions ### D1: Deno-first, JSR publishes, npm comes free The package is published to JSR (`deno publish`). npm compatibility is automatic via JSR's npm layer (`@jsr/alkdev__storage`). No separate dnt build step. ### D2: Metagraph over domain-specific tables Instead of a table per domain concept (call graphs, ACL rules, task trees), we define graph types with typed node and edge schemas. A "call graph" is a graph type with specific node types (operation call, subcall) and edge types (triggered, depends_on). An "ACL graph" is a graph type with node types (account, resource) and edge types (can_read, can_write). This trades some query convenience for generality. Domain-specific queries are built on top of the graph query layer, not baked into table schemas. ### D3: SchemaBuilder as the primary API surface The `SchemaBuilder` fluent API is the intended way to construct graph type definitions. It validates against TypeBox schemas at build time, ensuring that graph/node/edge type definitions are structurally sound before they're persisted to the database. ### D4: Injectable clients, no module-level side effects `createSqliteDatabase(client)` receives a pre-created client. Module-level side effects (auto-connections, env-based configuration) are forbidden. This enables testing with in-memory databases and containerized deployment patterns. ### D5: Drizzle + TypeBox (via drizzlebox) as the table definition pattern Drizzle table definitions are the single source of truth for database schema. `@alkdev/drizzlebox` generates TypeBox `Select*` and `Insert*` schemas from Drizzle tables, enabling runtime validation without manual schema duplication. ### D6: Enumeration pattern — `as const` objects, not TypeScript enums All enumerations use the `as const` object pattern (e.g., `GRAPH_STATUS = { Active: "active", ... } as const`) rather than TypeScript `enum`. This avoids JSR slow-type issues and provides a consistent pattern across the codebase. The TypeBox schemas use `Type.Union` of `Type.Literal` values derived from the const object. ### D7: No comments in code Per project convention across @alkdev packages, source files contain no inline comments. Documentation lives in architecture docs and TypeBox schema descriptions. ### D8: Common columns pattern All tables share `id` (text PK), `metadata` (JSON text defaulting to `{}`), `createdAt`, and `updatedAt` (integer timestamps in SQLite, will be timestamptz in PG). This ensures every row has auditability and extensibility. ## Dependencies | Package | Purpose | Layer | | -------------------- | ------------------------------------ | ------------------------ | | `@alkdev/typebox` | Runtime schema validation | graphs/ | | `@alkdev/drizzlebox` | Generate TypeBox from Drizzle tables | sqlite/ | | `drizzle-orm` | ORM, table definitions, queries | sqlite/ (and future pg/) | | `@libsql/client` | SQLite client (libsql/turso) | sqlite/ | | `postgres` | PostgreSQL client | pg/ (not yet used) | `@alkdev/typebox` and `@alkdev/drizzlebox` are npm packages (not yet on JSR). JSR handles npm dependencies natively. **Ecosystem packages are not runtime dependencies of `@alkdev/storage`.** All ecosystem references in this document describe consumer-side data shapes and integration patterns, not import dependencies. The `@alkdev/operations`, `@alkdev/pubsub`, `@alkdev/flowgraph`, and `@alkdev/taskgraph` packages are consumed by the hub and spokes, not by storage itself. ## What Exists vs. What's Needed ### Implemented - Graph schema types and SchemaBuilder - SQLite host: 6 metagraph tables + actors table + Drizzle relations + client factory - TypeBox select/insert schemas generated from Drizzle tables (drizzlebox) ### Not Yet Implemented | Gap | Priority | Notes | | ----------------------------------------- | ------------ | --------------------------------------------------------------------------------------------------- | | Encrypted data node type + crypto utility | **Critical** | ⚠️ Not yet implemented. API keys and secrets at rest. See [encrypted-data.md](./encrypted-data.md). | | Repository/CRUD layer | High | ⚠️ Not yet implemented. Typed insert, find, update, delete functions for graphs, nodes, edges. No dependency on `@alkdev/operations` — consumer wires CRUD into registry. | | Tests | High | Zero tests exist. Needed before any real use. | | PostgreSQL host | Medium | Same table shapes, `pgTable` + `jsonb` + `timestamp` + `pgEnum`. Stub only. | | Call graph type | Medium | Informed by `@alkdev/flowgraph`'s `CallNodeAttrs`/`CallEdgeAttrs` schemas and `@alkdev/operations`' call protocol events. Not hub-specific — any consumer that tracks call invocations needs this. | | ACL graph type | Medium | Access control as a graph. Informed by `@alkdev/operations`' `Identity` and `AccessControl`. Depends on encrypted data and CRUD layer. | | Task graph type | Low | Informed by `@alkdev/taskgraph`'s `TaskGraphNodeAttributes` and `DependencyEdge` schemas. | ## Ecosystem Integration `@alkdev/storage` is a **data layer package** consumed by other packages in the @alkdev ecosystem. It does not depend on the hub — the dependency flows the other way. The hub consumes storage (along with operations, pubsub, flowgraph, and taskgraph) as part of its architecture. ### Dependency Direction ``` @alkdev/pubsub ← transport only (no storage dependency) ↑ @alkdev/operations ← call protocol, registry, identity, access control ↑ (depends on: @alkdev/pubsub, @alkdev/typebox) @alkdev/flowgraph ← call graph schema, operation graph, workflow templates ↑ (depends on: @alkdev/operations [peer], @alkdev/typebox) @alkdev/taskgraph ← task dependency graph schema, cost-benefit analysis (depends on: @alkdev/typebox) @alkdev/storage ← YOU ARE HERE — typed graph persistence (depends on: @alkdev/typebox, @alkdev/drizzlebox) ↑ ↑ | | Hub / Spoke Any consumer that needs (consumes all) persistent graph storage ``` The key insight: `@alkdev/storage` provides the **persistence primitives** (schemas, tables, repository layer). The **domain semantics** (what a call graph means, what identity looks like, how access control works) are defined by the packages above. Storage stores the shapes those packages define; it does not define the semantics itself. ### What Comes from Where | Concept | Source package | Storage's role | |---------|---------------|----------------| | Call protocol events (`call.requested`, `call.responded`, etc.) | `@alkdev/operations` | Storage persists the outcomes — graphs with `CallNodeAttrs` nodes | | Identity (`id`, `scopes`, `resources`) | `@alkdev/operations` | Storage stores identity as node attributes; `Identity` is a data shape, not a storage concept | | Access control (`AccessControl`, `requiredScopes`) | `@alkdev/operations` | Storage's ACL graph type mirrors the operations `AccessControl` schema as graph structure | | Call graph schema (`CallNodeAttrs`, `CallEdgeAttrs`, `CallStatus`) | `@alkdev/flowgraph` | Storage persists these in-memory shapes to the database | | Task graph schema (`TaskGraphNodeAttributes`, `DependencyEdge`) | `@alkdev/taskgraph` | Storage persists task dependency shapes | | Event transport (`TypedEventTarget`, `EventEnvelope`) | `@alkdev/pubsub` | Storage is not involved in event routing; it stores the events' outcomes | ### Repository Layer Bridging Pattern (Consumer-Side Concern) The repository layer in `@alkdev/storage` provides typed CRUD — no `@alkdev/operations` dependency. A **consumer-side** bridging module can then wire these CRUD functions into the `@alkdev/operations` registry, analogous to how `drizzle-graphql` auto-generates a GraphQL schema from Drizzle tables — but using operations (queries, mutations, subscriptions) instead of GraphQL resolvers. This works because: 1. `@alkdev/operations` already maps closely to GraphQL's queries/mutations/subscriptions (it was modeled after that pattern) 2. `@alkdev/pubsub` provides the subscription transport (forked from graphql-yoga's pubsub with additions) 3. `@alkdev/storage`'s metagraph tables are the data source, analogous to Drizzle tables for drizzle-graphql The bridging module would live in a consumer package (e.g., the hub or a dedicated `@alkdev/storage-operations` adapter), not in `@alkdev/storage` itself, to avoid circular dependencies: ``` @alkdev/storage → defines types + tables (no operations dependency) @alkdev/operations → defines call protocol + registry (no storage dependency) Consumer (hub / adapter) → imports both, generates operations from schemas ``` ### Avoiding Circular Dependencies Neither `@alkdev/storage` nor `@alkdev/operations` should depend on each other directly. Storage defines the schema types and database tables; operations defines the call protocol and execution model. The consumer (hub, spoke, or adapter package) imports both and bridges them. This preserves the single-responsibility principle and allows each package to evolve independently. If shared type definitions are needed (e.g., `Identity` referenced in both storage node attributes and operations call events), they should either: 1. Be duplicated in each package with a documented correspondence (acceptable for small, stable types) 2. Be extracted to a minimal shared types package if the duplication becomes burdensome ## Open Questions 1. **Should `actors` be a node type or a standalone table?** Currently `actors` is a standalone table in the SQLite host that isn't referenced by any relation. If identity/authentication is a graph (ACL nodes based on `@alkdev/operations`'s `Identity` interface), actors become node types. If identity is a domain concept that needs special query patterns (auth lookups, session joins), standalone tables may be better. Decision: defer until ACL design, informed by `@alkdev/operations`'s `AccessControl` model. 2. **Should the repository layer be host-specific or host-agnostic?** A host-agnostic repository (insert graph, find nodes by type) requires an abstraction over Drizzle's query builder. A host-specific repository is simpler but means duplicating query logic for PG. Decision: start host-specific in SQLite, extract common patterns later. 3. **Encrypted data scope**: Should encryption be per-attribute, per-node, or per-graph? Per-attribute (like hub's `client_secrets.value`) allows selective encryption. Per-node encrypts the entire `attributes` blob. Per-graph is overkill. Decision: per-attribute, modeled as an encrypted node type with a dedicated attribute for the ciphertext. 4. **Key management scope**: `@alkdev/storage` should provide the encryption/decryption primitives but NOT key management. The consuming application provides the key ring. This keeps the storage package agnostic to deployment-specific secret management. 5. **Migration strategy**: When graph type schemas evolve (new node types, changed attribute schemas), who handles migration? The repository layer should support schema version checking, but actual migration scripts are application-level. See [metagraph.md](./metagraph.md) for the versioning approach. 6. **~~Should the repository layer live in `@alkdev/storage` or in a consumer package?~~** Decision: the repository CRUD layer (host-specific typed queries, schema validation before writes) belongs in `@alkdev/storage`. The operations bridging layer (generating `OperationSpec`s from metagraph schemas) belongs in a consumer or adapter package. These are separate concerns — CRUD is a storage concern; call protocol integration is an application concern. The repository layer in `@alkdev/storage` has **no dependency on `@alkdev/operations`**. It performs typed inserts, finds, updates, and deletes with schema validation. The consumer then wires these CRUD functions into the operations registry if desired. ## References - Operations architecture: `/workspace/@alkdev/operations/docs/architecture/README.md` - Pubsub architecture: `/workspace/@alkdev/pubsub/docs/architecture/README.md` - Flowgraph architecture: `/workspace/@alkdev/flowgraph/docs/architecture/README.md` - Taskgraph architecture: `/workspace/@alkdev/taskgraph_ts/docs/architecture/README.md` - drizzle-graphql (reference for repo bridging pattern): `/workspace/drizzle-graphql/` - Source heritage: `@ade/ade-v0/packages/core/graphs` and `@ade/ade-v0/packages/storage_sqlite` - Drizzle ORM: https://orm.drizzle.team/ - TypeBox: https://github.com/sinclairzx/typebox - JSR: https://jsr.io/