omnigraph/docs/dev/invariants.md

Architectural Invariants

Type: standing review checklist Status: living document Audience: anyone proposing, reviewing, or implementing an OmniGraph change

This file is intentionally short. It records the rules that should be in working memory for every non-trivial change. Detailed mechanics live in the area docs linked below.

Use it this way:

• Review the change against Hard Invariants and the Deny-list.
• If code and docs disagree, either fix the code or add/update a Known Gap.
• Keep implementation ledgers, roadmap detail, and historical MR notes in the per-area docs. This file is the filter, not the encyclopedia.

Hard Invariants

1. Respect the substrate. Lance owns columnar storage, per-dataset versioning, fragments, branches, compaction, cleanup, and index primitives. DataFusion should own relational execution where it fits. Do not add custom WALs, transaction managers, buffer pools, page formats, or local clones of substrate behavior. Read lance.md before guessing.

2. Graph visibility is manifest-atomic. Lance commits are per dataset. OmniGraph's graph-level atomicity comes from publishing one manifest update for the whole graph, guarded by expected table versions and sidecar recovery. No write path may make a subset of touched node/edge tables visible as a graph commit.

3. A query reads one snapshot. Query execution captures a manifest snapshot for its lifetime. Do not re-read branch head mid-query to discover newer table versions.

4. Mutations publish at one boundary. A mutate_as or load operation accumulates constructive writes, commits each touched table at the end, then publishes one manifest update. Do not commit per statement. Delete-only queries are the documented inline residual; the parse-time D2 rule prevents mixing deletes with insert/update until Lance exposes two-phase delete. Read writes.md and execution.md.

5. Recovery is part of the commit protocol. Writers that can advance Lance HEAD before manifest publish must write __recovery/{ulid}.json sidecars. Omnigraph::open in read-write mode runs the all-or-nothing sweep, and refresh runs roll-forward-only recovery for long-lived processes. Do not add a new writer kind without sidecar coverage or an explicit proof that no Lance HEAD can move before manifest publish.

6. Strong consistency is the default. Reads are snapshot-isolated, writes are durable before acknowledgement, and branch reads observe the current committed graph state. Any eventual-consistency mode must be explicit, read-only, auditable, and non-default.

7. Indexes are derived state. Reads must see the correct result for the branch they read even when index coverage is partial. Expensive index work should converge from manifest state instead of extending the critical write path. Scalar staged index builds and vector inline residuals are documented in writes.md and indexes.md.

8. Schema identity survives renames. Accepted schema identity must remain stable across type and property renames. Rename support belongs in migration planning, not in "drop and recreate" behavior. See the known gap below.

9. Schema/data integrity failures are loud. Type errors, required-field misses, invalid edge endpoints, cardinality violations, and unsupported mixed mutation modes fail before a graph commit is published. The system must not invent placeholder nodes or silently weaken integrity.

10. Query semantics are first-class IR concepts. Search modes, mutations, polymorphism, traversal, retrieval scores, imports, and policy predicates belong in typed AST/IR/planner structures. Do not smuggle semantics through strings, side tables, global state, or transport-specific flags.

11. Transport/auth stay at the boundary. Kernel crates should not depend on HTTP, OpenAPI, bearer-token parsing, or future transport protocols. The server resolves bearer tokens to actors; clients cannot set actor identity directly.

12. Bearer-token plaintext is not retained. Server startup hashes bearer tokens, authentication uses constant-time comparison, and request handling carries only the resolved actor identity and hash-derived match state.

13. Operational failures are bounded and observable. Timeout, memory, OOM, partial result, recovery, and conflict paths must fail loudly or degrade in a documented way. If a metric affects plan choice or operator behavior, it must be exposed through the relevant trait or observability surface.

14. Tests match the boundary being changed. Prefer extending the existing test that owns the area. Planner changes need planner-level coverage, storage changes need storage/recovery coverage, and end-to-end tests are not a substitute for missing lower-level assertions. Read testing.md before adding tests.

Current Truth Matrix

Area	Current state	Source
Multi-table commit	Manifest CAS plus recovery sidecars; not a single Lance primitive	writes.md, architecture.md
Constructive mutations	In-memory MutationStaging, one end-of-query table commit per touched table, then one manifest publish	writes.md, execution.md
Deletes	Inline-commit residual; delete-only queries allowed, mixed insert/update/delete rejected by D2	query-language.md, writes.md
Branch delete	Manifest is the single authority, flipped atomically first; per-table forks + commit-graph branch are derived state, reclaimed best-effort (force_delete_branch) with the cleanup reconciler as the guaranteed backstop. Reusing a name whose reclaim failed before cleanup surfaces an actionable error	branches-commits.md, maintenance.md
Schema validation	Type checks, required fields, defaults, edge endpoint checks, and edge cardinality are enforced on write paths	schema-language.md, execution.md
Unique constraints	Intra-batch and write-path checks exist; full cross-version uniqueness is still a gap	schema-language.md
Storage trait	TableStorage exists as the sealed staged-write surface; full call-site migration and capability/stat surfaces are incomplete	writes.md, architecture.md
Index lifecycle	ensure_indices is explicit today; reconciler-based convergence is roadmap	indexes.md, maintenance.md
Traversal IDs	Runtime still builds TypeIndex; Lance stable row-id based graph IDs are roadmap	architecture.md, query-language.md
Auth	Bearer token hashing and server-side actor resolution are implemented at the HTTP boundary	server.md, policy.md
Tests	Tempdir-backed Lance tests are the current substrate; there is no MemStorage test backend	testing.md

The branch-delete reconciler is authority-derived: it reclaims orphaned forks today and degrades to a no-op if Lance ships an atomic multi-dataset branch operation, so the design composes with that future rather than blocking it. This is the same shape as invariant 7 (indexes are derived state); prefer it over a recovery-sidecar-style approach for any new multi-dataset metadata operation, since the sidecar would be scaffolding to remove once the substrate closes the gap.

Known Gaps

Do not hide these behind invariant wording. Either move them forward or keep them explicit.

• Rename-stable schema identity: the invariant is that accepted IDs survive renames. The current compiler still derives type IDs from kind:name; this must be fixed before relying on renamed IDs across accepted schemas.
• Storage abstraction: TableStorage is present, sealed, and canonical for staged writes, but older inherent TableStore call sites and inline residuals remain. New write paths should use the staged shape unless a documented Lance blocker applies.
• Deletes and vector indexes: delete_where and vector index creation still advance Lance HEAD inline because the required public Lance APIs are missing. Keep D2 and recovery coverage in place until those residuals are removed.
• Blob-column compaction: Lance compact_files mis-decodes blob-v2 columns under its forced BlobHandling::AllBinary read ("more fields in the schema than provided column indices"), so optimize skips any table with a Blob property — reporting SkipReason::BlobColumnsUnsupportedByLance (loud, not a silent drop) behind the LANCE_SUPPORTS_BLOB_COMPACTION gate. Reads and writes are unaffected; only space/fragment reclamation on blob tables is deferred. Remove the skip when the upstream Lance fix lands — the lance_surface_guards.rs::compact_files_still_fails_on_blob_columns guard turns red on that bump to force it.
• Manifest→commit-graph publish atomicity: a graph commit advances __manifest (the visibility authority) and then appends _graph_commits as two separate writes (commit_updates_with_actor_with_expected, failpoint graph_publish.before_commit_append). A crash between them leaves the manifest at version N with no commit-graph row for N. Live reads and durability are unaffected — the live version resolves via the manifest (GraphCoordinator::version()), not the commit-graph head — and the open-time recovery sweep does NOT repair it (lance_head == manifest_pinned classifies NoMovement; a recovery sidecar would not change this). Impact is bounded to commit history: commit list misses N, time-travel by commit id to N fails, and merge-base loses a node (a likely-benign off-by-one re-merge). This affects every publish, not the optimize drift-reconcile specifically. Eventual fix: make the commit graph reconcilable from the manifest (or the two writes atomic) — not a recovery-sidecar concern.
• Planner capability/stat surfaces: cost-aware planning, complete capability advertisement, and explain-with-cost are roadmap. Do not describe them as implemented.
• Traversal execution: current multi-hop execution still uses TypeIndex, ad-hoc ID filtering, and eager materialization in places. Stable row IDs, SIP, and factorization are target patterns, not current fact.
• Retrieval ranks: hybrid search works, but rank/score are not yet carried everywhere as ordinary columns through the plan.
• Policy pushdown and Source: Cedar enforcement is at the HTTP boundary today, and imports are still loader-shaped. Planner predicates and a unified Source operator are roadmap.
• Resource bounds: some operations still lack enforced per-query memory or time budgets. New long-running work should add explicit bounds rather than widening the gap.

Deny-list

If a proposal fits one of these, the burden is on the proposer to prove why the case is exceptional.

• Custom WAL, transaction manager, buffer pool, page format, or storage engine.
• Per-table graph publishing outside the manifest publisher.
• Re-reading current branch head during a query instead of using the captured snapshot.
• New write paths that can advance Lance HEAD before manifest publish without a recovery sidecar.
• Cross-query BEGIN/COMMIT transactions in the OSS engine. Use branches and merges for multi-query workflows.
• Acknowledging writes before durable Lance and manifest persistence.
• Silent fallback to eventual consistency, partial results, or dropped rows.
• State that drifts from Lance or the manifest when it can be derived.
• Job queues for manifest-derivable state where a reconciler is the right shape.
• Synchronous inline vector/FTS index rebuilds on the query commit path, except for documented Lance API residuals.
• Side-channels for query semantics: hidden globals, magic strings, transport flags, or out-of-band metadata.
• Cost-blind plan choice when statistics are available or required.
• Hidden statistics for behavior that affects planning or operator choice.
• Hash-map iteration order in result ordering, plan choice, or migration output.
• String-flattened SQL/filter generation when a structured pushdown API is available.
• Eager multi-hop cross-product materialization when factorization fits.
• Ad-hoc IN-list filtering where SIP or another structured selectivity path fits.
• Discarding retrieval score/rank before fusion or projection decisions.
• Auto-creating placeholder nodes for orphan edges.
• Wire-protocol-specific code in compiler or engine crates.
• Cloud-only correctness fixes or forks of the OSS engine for correctness.
• Mutating immutable substrate state in place, including Lance fragments or index segments.
• Shipping observable behavior as if it were not part of the contract. Output ordering, error text, timestamp precision, defaults, and latency profiles all become dependencies once exposed.

Review Checklist

Use this as yes/no/NA for any non-trivial design or PR:

• Does it respect Lance/DataFusion instead of rebuilding them?
• Does it preserve manifest-atomic graph visibility?
• Does every query keep one snapshot for its lifetime?
• Do mutations publish once at the commit boundary?
• Can every Lance-HEAD-before-manifest gap recover all-or-nothing?
• Are schema and edge integrity checks strict by default?
• Are query semantics represented in AST/IR/planner structures?
• Are transport, auth, and policy boundaries preserved?
• Are failures bounded, typed, and observable?
• Are result ordering and plan choices deterministic within a snapshot?
• Are stats/capabilities exposed when behavior depends on them?
• Are existing known gaps left no worse and documented if touched?
• Does the test live at the same boundary as the change?
• Does the change avoid every deny-list pattern, or justify the exception?

Maintenance Policy

Update this file when an invariant changes, a known gap opens or closes, or a new review anti-pattern deserves deny-list treatment. Prefer stable headings over numbered sections so other docs can link here without churn.

Removing or relaxing a hard invariant requires the same review process as code. Adding a known gap is acceptable when it makes reality explicit; leaving stale claims is not.