# Testing

This file is the always-on map of the test surface. **Consult it before every task** so you know what tests already cover the area you're about to change, what helpers to reuse, and where a new test belongs. The architectural invariant for boundary-matched tests lives in [docs/dev/invariants.md](invariants.md).

## Where tests live, per crate

| Crate | Path | Style |
|---|---|---|
| `omnigraph` (engine) | `crates/omnigraph/tests/` | Integration tests (21 files), fixture-driven, share `tests/helpers/mod.rs` |
| `omnigraph-cli` | `crates/omnigraph-cli/tests/` | `cli.rs` (unit-ish; includes the `cluster_e2e_*` lifecycle compositions over the spawned binary — lost-state re-import recovery, out-of-band drift, graph-root destruction, multi-graph mixed-disposition convergence), `system_local.rs` (incl. the full-cycle cluster lifecycle with a spawned `--cluster` server — declare→serve→evolve→drift-heal→approved-delete — and applied-policy enforcement over HTTP), `system_remote.rs`, share `tests/support/mod.rs` |
| `omnigraph-cluster` | mostly in-source `#[cfg(test)] mod tests`; `tests/failpoints.rs` (feature-gated) | Cluster config parser, local JSON state diff, state CAS/lock handling/recovery, read-only validate/plan/status plus explicit refresh/import graph observations, config-only apply (content-addressed payload publish, disposition gating, composite-digest convergence, idempotent re-apply), catalog payload verification (status read-only, refresh drift + self-heal), failpoint crash-mid-apply / CAS-race coverage, Stage 4A graph creation (create executor, recovery sidecars + sweep rows, create crash windows), Stage 4B schema apply (migration previews in plan, schema executor, schema-apply sweep classification, schema crash windows), Stage 4C gated deletes (digest-bound approvals, delete executor + tombstones, delete sweep rows, delete crash windows), and 5A policy binding metadata (applies_to in the applied revision, binding-change diffing + convergence, pre-5A backfill), and the 5B serving-snapshot read API (converged read, refusal rows) |
| `omnigraph-server` | `crates/omnigraph-server/tests/` | `server.rs` (HTTP-level; incl. cluster-mode boot — converged-dir serving, policy binding wiring, boot refusals), `openapi.rs` (OpenAPI drift / regeneration) |
| `omnigraph-compiler` | mostly in-source `#[cfg(test)] mod tests` | Parser, type-checker, IR lowering, lint |

The engine's `tests/` is the principal coverage surface; most graph-shaped behavior is exercised there.

## Engine integration tests (`crates/omnigraph/tests/`)

| File | Covers |
|---|---|
| `end_to_end.rs` | Full init → load → query/mutate flow |
| `branching.rs` | Branch create / list / delete, lazy fork |
| `merge_truth_table.rs` | Merge-pair truth table (MR-786): all 9×9 `(left_op, right_op)` cells from `{noop, addNode, removeNode, addEdge, removeEdge, setProperty, dropProperty, addLabel, removeLabel}`. Adding a new op to `OpVariant` forces a compile error in `build_case` until the new row + column are dispositioned. 36 executable cells run through real `branch_merge` with a structured oracle (`MergeOutcome` / `MergeConflictKind` + graph-state assert); 45 cells involving `dropProperty`/`addLabel`/`removeLabel` are recorded as `Unsupported` until the mutation grammar grows. |
| `writes.rs` | Direct-publish writes: cancellation, non-strict insert/merge rebase under the per-table queue, strict stale-write conflicts, multi-statement atomicity, MR-794 staged-write rewire (D₂ rejection, insert+update coalesce, multi-append coalesce, partial-failure recovery, load RI/cardinality recovery) |
| `staged_writes.rs` | TableStore staged-write primitives (`stage_append`, `stage_merge_insert`, `commit_staged`, `scan_with_staged`, `count_rows_with_staged`) — primitive-level only; engine code uses the in-memory `MutationStaging` accumulator instead |
| `lifecycle.rs` | Graph lifecycle, schema state |
| `point_in_time.rs` | Snapshots, time travel (`snapshot_at_version`, `entity_at`) |
| `changes.rs` | `diff_between` / `diff_commits` |
| `consistency.rs` | Cross-table snapshot isolation, atomic publish |
| `schema_apply.rs` | Migration plan + apply, schema-apply lock |
| `search.rs` | FTS / vector / hybrid (`bm25`, `nearest`, `rrf`) |
| `traversal.rs` | `Expand`, variable-length hops, anti-join |
| `aggregation.rs` | `count`, `sum`, `avg`, `min`, `max` |
| `export.rs` | NDJSON streaming export filters |
| `s3_storage.rs` | S3-backed graph (skipped unless `OMNIGRAPH_S3_TEST_BUCKET` is set) |
| `lance_version_columns.rs` | Per-row `_row_last_updated_at_version` behavior |
| `validators.rs` | Schema constraint enforcement (enum, range, unique, cardinality) across JSONL, insert, update paths |
| `maintenance.rs` | `optimize` (compaction), `repair` (explicit uncovered-drift publish), and `cleanup` (version GC): empty/idempotent/no-op edges, policy validation, head preservation; `optimize` publishes its own compaction (`optimize_publishes_compaction_to_manifest_so_schema_apply_succeeds`), skips pre-existing uncovered drift (`optimize_skips_preexisting_manifest_head_drift`), and refuses to run while a `__recovery` sidecar is pending (`optimize_defers_when_recovery_sidecar_is_pending`); `repair` previews/heals verified maintenance drift, refuses raw semantic drift without `--force`, and forced repair publishes only by explicit operator choice |
| `failpoints.rs` | Failure-injection coverage (gated on `failpoints` feature). Includes the five per-writer Phase B → recovery integration tests (`recovery_rolls_forward_after_finalize_publisher_failure`, `schema_apply_phase_b_failure_recovered_on_next_open`, `branch_merge_phase_b_failure_recovered_on_next_open`, `ensure_indices_phase_b_failure_recovered_on_next_open`, `optimize_phase_b_failure_recovered_on_next_open`). |
| `recovery.rs` | Open-time recovery sweep — sidecar I/O, classifier dispatch (NoMovement / RolledPastExpected / UnexpectedAtP1 / UnexpectedMultistep / InvariantViolation), all-or-nothing decision, roll-forward via `ManifestBatchPublisher::publish`, roll-back via `Dataset::restore`, audit row in `_graph_commit_recoveries.lance`, `OpenMode::ReadOnly` skip path |
| `composite_flow.rs` | Compositional/narrative end-to-end stories — multi-step flows that compose mechanics covered by other test files. Catches integration regressions where individual operations all pass their unit tests but their composition breaks (sequential merges, post-merge main writes, time-travel through merge DAG, reopen consistency over multi-merge histories, post-optimize and post-cleanup strict writes). |

## Fixtures

`crates/omnigraph/tests/fixtures/` holds the canonical schema (`.pg`), seed data (`.jsonl`), and queries (`.gq`) shared across tests. Reuse these before inventing new ones — the helpers harness already knows how to load them.

## Test helpers

- **Engine** — `crates/omnigraph/tests/helpers/mod.rs`: `init_and_load()` (bootstrap a temp graph + load standard fixture), `snapshot_main()`, `snapshot_branch()`, query/mutation runners, row collection and counting. Use these instead of hand-rolling.
- **CLI** — `crates/omnigraph-cli/tests/support/mod.rs`: `Command`-style wrapper for invoking `omnigraph`, server-process spawning, fixture resolution, output assertion helpers.
- **Server** — no shared helpers; server tests call the `Omnigraph` engine API directly and exercise endpoints over the wire.

> Note: there is **no `MemStorage` or in-memory backend** today. Tests use `tempfile::tempdir()` for local FS. If you find yourself needing one for layer isolation, that's an architectural ask — keep it explicit in [docs/dev/invariants.md](invariants.md) under known gaps.

## Failpoints (fault injection)

- Cargo feature: `failpoints = ["dep:fail", "fail/failpoints"]` (in `crates/omnigraph/Cargo.toml` **and** `crates/omnigraph-cluster/Cargo.toml`; the cluster feature does not enable the engine's).
- Wrappers: `crates/omnigraph/src/failpoints.rs` and `crates/omnigraph-cluster/src/failpoints.rs` expose `maybe_fail("name")` and `ScopedFailPoint` for tests.
- Call sites are inserted at sensitive transaction boundaries (branch create, graph publish commit, cluster apply's payload→state-write window, etc.).
- Activated tests: `crates/omnigraph/tests/failpoints.rs` and `crates/omnigraph-cluster/tests/failpoints.rs` (crash-mid-apply + state CAS race via `fail::cfg_callback`; integration binaries, never in-source — the fail registry is process-global). Run with `cargo test -p omnigraph-engine --features failpoints --test failpoints` / `cargo test -p omnigraph-cluster --features failpoints --test failpoints`.

## RustFS / S3 integration

CI runs three S3-backed tests against a containerized RustFS server (`.github/workflows/ci.yml` → `rustfs_integration` job):

- `cargo test -p omnigraph-engine --test s3_storage`
- `cargo test -p omnigraph-server --test server server_opens_s3_graph_directly_and_serves_snapshot_and_read`
- `cargo test -p omnigraph-cli --test system_local local_cli_s3_end_to_end_init_load_read_flow`

Locally, set `OMNIGRAPH_S3_TEST_BUCKET` (and the usual `AWS_*` vars including `AWS_ENDPOINT_URL_S3` for non-AWS) before running. Without those, S3 tests skip gracefully.

## System e2e requirements and suppression

The CLI system tests (`system_local.rs`) spawn the workspace-built `omnigraph` and `omnigraph-server` binaries (cargo provides paths via `CARGO_BIN_EXE_*`), bind ephemeral localhost ports, and use local-FS temp dirs — no external services, no env vars required; they run in the default `cargo test --workspace`. The comprehensive cluster lifecycle e2es (multi-server-restart flows) honor an opt-out for constrained sandboxes: set `OMNIGRAPH_SKIP_SYSTEM_E2E=1` to skip them with a logged message (the same graceful-skip pattern as the S3 gate). Cargo-native filtering also works: `cargo test --test system_local -- --skip local_cluster`.

## OpenAPI drift

`crates/omnigraph-server/tests/openapi.rs` regenerates `openapi.json` and diffs against the checked-in copy. CI auto-commits the regeneration on same-repository PRs and otherwise runs in strict-check mode (env: `OMNIGRAPH_UPDATE_OPENAPI`).

## Examples & benches

- `crates/omnigraph/examples/bench_expand.rs` — runnable example (not part of CI).
- No `benches/` directories. Add `benches/` per crate when you ship a perf-driven change, and include the motivating workload with the optimization.

## Coverage tooling — what's missing

There is **no** coverage tooling in the repository today: no `tarpaulin.toml`, no `codecov.yml`, no coverage CI step. If you want to know whether your change is covered, the answer comes from reading and running the relevant integration tests, not from a tool.

If introducing coverage tooling is in scope for your task, the natural first step is `cargo-llvm-cov` wired into a separate CI job, and a per-crate threshold rather than a global one.

## First principle: check what already covers it

**Before writing any new test, check whether an existing test already covers the case.** The cost of duplicating coverage is high: more code to read, more places to keep in sync when behavior changes, and more drift when one copy lags. The cost of *extending* an existing test is usually one extra assertion or one extra fixture row.

How to check:

1. **Map the change to an area** — use the engine integration-test table above (`branching.rs`, `writes.rs`, `search.rs`, etc.). The filename usually names the area.
2. **Open the file and skim every test fn name.** Test fn names are the index — read them all, not just the first few.
3. **Grep for the symbol or path you're changing.** `rg <FunctionName>` or `rg <enum_variant>` across all `tests/` directories surfaces existing coverage you might miss.
4. **Decide one of three outcomes**, in this order of preference:
   - *Existing test already asserts the new behavior* → no new test needed; this PR is a refactor or no-op behaviorally. Confirm by running the existing test against the change.
   - *Existing test covers the area but not your case* → **add an assertion or a fixture row to the existing test**, don't write a new function with `init_and_load()` again.
   - *No existing coverage in any test file* → only then write a new test; put it in the file that owns the area, or open a new file only if the area itself is new.

Three duplicated `init_and_load() → run_query → assert_eq` blocks where one parameterized test would do is the most common form of test rot in this repository. Don't add to it.

## Before-every-task checklist

When you pick up any change, walk through this:

1. **Find existing coverage** (per the principle above). Don't just look at the first test file by name — grep for the symbol you're touching across every crate's `tests/`.
2. **Run those tests locally before editing.** `cargo test --workspace --locked` for the broad pass; `-p <crate> --test <file>` for a focused loop. Confirm a clean baseline.
3. **Decide extend-vs-new** explicitly. If you can extend an existing test (assertion, fixture row, parameterization), do that. Only add a new test fn or new file if no existing one owns the area.
4. **Reuse the helpers.** `init_and_load()`, fixture files, the CLI `support` harness — re-use them. Don't bootstrap a fresh graph by hand if a helper exists.
5. **Mind the boundary.** Per [docs/dev/invariants.md](invariants.md), test at the layer the change lives at — planner-level changes deserve planner-level tests, not just end-to-end.
6. **For substrate-touching changes** (Lance behavior), reach for `failpoints` or fixture-driven scenarios, not stubbed-out mocks.
7. **For server / API changes**, confirm the OpenAPI regeneration happens in `openapi.rs` and that the diff lands in `openapi.json`.
8. **Verify your change makes an existing test fail before it makes the new one pass.** If you can break the code without breaking a test, your coverage gap is the problem to fix first.

When in doubt, re-read [docs/dev/invariants.md](invariants.md) — quality gates apply to every change.