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Author	SHA1	Message	Date
Ettore Di Giacinto	f5eb13d3c2	feat(insightface): add antispoofing (liveness) detection (#9515 ) * feat(insightface): add antispoofing (liveness) detection Light up the anti_spoofing flag that was parked during the first pass. Both FaceVerify and FaceAnalyze now run the Silent-Face MiniFASNetV2 + MiniFASNetV1SE ensemble (~4 MB, Apache 2.0, CPU <10ms) when the flag is set. Failed liveness on either image vetoes FaceVerify regardless of embedding similarity. Every insightface* gallery entry now ships the MiniFASNet ONNX weights so existing packs light up after reinstall. Setting the flag against a model without the MiniFASNet files returns FAILED_PRECONDITION (HTTP 412) with a clear install message — no silent is_real=false. FaceVerifyResponse gained per-image img{1,2}_is_real and img{1,2}_antispoof_score (proto 9-12); FaceAnalysis's existing is_real/antispoof_score fields are now populated. Schema fields are pointers so they are fully absent from the JSON response when anti_spoofing was not requested — avoids collapsing "not checked" with "checked and fake" under Go's omitempty on bool. Validated end-to-end over HTTP against a local install: - verify + anti_spoofing, both real -> verified=true, score ~0.76 - verify + anti_spoofing, img2 spoof -> verified=false, img2_is_real=false - analyze + anti_spoofing -> is_real and score per face - flag against model without MiniFASNet -> HTTP 412 fail-loud Assisted-by: Claude:claude-opus-4-7 go vet * test(insightface): wire test target into test-extra The root Makefile's `test-extra` already runs `$(MAKE) -C backend/python/insightface test`, but the backend's Makefile never defined the target — so the command silently errored and the suite was never executed in CI. Adding the two-line target (matching ace-step/Makefile) hooks `test.sh` → `runUnittests` → `python -m unittest test.py`, which discovers both the pre-existing engine classes (InsightFaceEngineTest, OnnxDirectEngineTest) and the new AntispoofingTest. Each class skips gracefully when its weights can't be downloaded from a network-restricted runner. Assisted-by: Claude:claude-opus-4-7 * test(insightface): exercise antispoofing in e2e-backends (both paths) Add a `face_antispoof` capability to the Ginkgo e2e suite and extend the existing FaceVerify + FaceAnalyze specs with liveness assertions covering BOTH paths: real fixture -> is_real=true, score>0, verified stays true spoof fixture -> is_real=false, verified vetoed to false The spoof fixture is upstream's own `image_F2.jpg` (via the yakhyo mirror) — verified locally against the MiniFASNetV2+V1SE ensemble to classify as is_real=false with score ~0.013. That makes the assertion deterministic across CI runs; synthetic/derived spoofs fool the model unpredictably and would be flaky. Makefile wires it up end-to-end: - New INSIGHTFACE_ANTISPOOF_* cache dir + two ONNX downloads with pinned SHAs, matching the gallery entries. - insightface-antispoof-models target shared by both backend configs. - FACE_SPOOF_IMAGE_URL passed via BACKEND_TEST_FACE_SPOOF_IMAGE_URL. - Both e2e targets (buffalo-sc + opencv) now: * depend on insightface-antispoof-models * pass antispoof_v2_onnx / antispoof_v1se_onnx in BACKEND_TEST_OPTIONS * include face_antispoof in BACKEND_TEST_CAPS backend_test.go adds the new capability constant and a faceSpoofFile fixture resolved the same way as faceFile1/2/3. Spoof assertions are gated on both capFaceAntispoof AND faceSpoofFile being set, so a test config that omits the spoof fixture degrades gracefully to "real path only" instead of failing. Assisted-by: Claude:claude-opus-4-7 go vet	2026-04-23 18:28:15 +02:00
Ettore Di Giacinto	20baec77ab	feat(face-recognition): add insightface/onnx backend for 1:1 verify, 1:N identify, embedding, detection, analysis (#9480 ) * feat(face-recognition): add insightface backend for 1:1 verify, 1:N identify, embedding, detection, analysis Adds face recognition as a new first-class capability in LocalAI via the `insightface` Python backend, with a pluggable two-engine design so non-commercial (insightface model packs) and commercial-safe (OpenCV Zoo YuNet + SFace) models share the same gRPC/HTTP surface. New gRPC RPCs (backend/backend.proto): * FaceVerify(FaceVerifyRequest) returns FaceVerifyResponse * FaceAnalyze(FaceAnalyzeRequest) returns FaceAnalyzeResponse Existing Embedding and Detect RPCs are reused (face image in PredictOptions.Images / DetectOptions.src) for face embedding and face detection respectively. New HTTP endpoints under /v1/face/: * verify — 1:1 image pair same-person decision * analyze — per-face age + gender (emotion/race reserved) * register — 1:N enrollment; stores embedding in vector store * identify — 1:N recognition; detect → embed → StoresFind * forget — remove a registered face by opaque ID Service layer (core/services/facerecognition/) introduces a `Registry` interface with one in-memory `storeRegistry` impl backed by LocalAI's existing local-store gRPC vector backend. HTTP handlers depend on the interface, not on StoresSet/StoresFind directly, so a persistent PostgreSQL/pgvector implementation can be slotted in via a single constructor change in core/application (TODO marker in the package doc). New usecase flag FLAG_FACE_RECOGNITION; insightface is also wired into FLAG_DETECTION so /v1/detection works for face bounding boxes. Gallery (backend/index.yaml) ships three entries: * insightface-buffalo-l — SCRFD-10GF + ArcFace R50 + genderage (~326MB pre-baked; non-commercial research use only) * insightface-opencv — YuNet + SFace (~40MB pre-baked; Apache 2.0) * insightface-buffalo-s — SCRFD-500MF + MBF (runtime download; non-commercial) Python backend (backend/python/insightface/): * engines.py — FaceEngine protocol with InsightFaceEngine and OnnxDirectEngine; resolves model paths relative to the backend directory so the same gallery config works in docker-scratch and in the e2e-backends rootfs-extraction harness. * backend.py — gRPC servicer implementing Health, LoadModel, Status, Embedding, Detect, FaceVerify, FaceAnalyze. * install.sh — pre-bakes buffalo_l + OpenCV YuNet/SFace inside the backend directory so first-run is offline-clean (the final scratch image only preserves files under /<backend>/). * test.py — parametrized unit tests over both engines. Tests: * Registry unit tests (go test -race ./core/services/facerecognition/...) — in-memory fake grpc.Backend, table-driven, covers register/ identify/forget/error paths + concurrent access. * tests/e2e-backends/backend_test.go extended with face caps (face_detect, face_embed, face_verify, face_analyze); relative ordering + configurable verifyCeiling per engine. * Makefile targets: test-extra-backend-insightface-buffalo-l, -opencv, and the -all aggregate. * CI: .github/workflows/test-extra.yml gains tests-insightface-grpc, auto-triggered by changes under backend/python/insightface/. Docs: * docs/content/features/face-recognition.md — feature page with license table, quickstart (defaults to the commercial-safe model), models matrix, API reference, 1:N workflow, storage caveats. * Cross-refs in object-detection.md, stores.md, embeddings.md, and whats-new.md. * Contributor README at backend/python/insightface/README.md. Verified end-to-end: * buffalo_l: 6/6 specs (health, load, face_detect, face_embed, face_verify, face_analyze). * opencv: 5/5 specs (same minus face_analyze — SFace has no demographic head; correctly skipped via BACKEND_TEST_CAPS). Assisted-by: Claude:claude-opus-4-7 * fix(face-recognition): move engine selection to model gallery, collapse backend entries The previous commit put engine/model_pack options on backend gallery entries (`backend/index.yaml`). That was wrong — `GalleryBackend` (core/gallery/backend_types.go:32) has no `options` field, so the YAML decoder silently dropped those keys and all three "different insightface-" backend entries resolved to the same container image with no distinguishing configuration. Correct split: `backend/index.yaml` now has ONE `insightface` backend entry shipping the CPU + CUDA 12 container images. The Python backend bundles both the non-commercial insightface model packs (buffalo_l / buffalo_s) and the commercial-safe OpenCV Zoo weights (YuNet + SFace); the active engine is selected at LoadModel time via `options: ["engine:..."]`. * `gallery/index.yaml` gains three model entries — `insightface-buffalo-l`, `insightface-opencv`, `insightface-buffalo-s` — each setting the appropriate `overrides.backend` + `overrides.options` so installing one actually gives the user the intended engine. This matches how `rfdetr-base` lives in the model gallery against the `rfdetr` backend. The earlier e2e tests passed despite this bug because the Makefile targets pass `BACKEND_TEST_OPTIONS` directly to LoadModel via gRPC, bypassing any gallery resolution entirely. No code changes needed. Assisted-by: Claude:claude-opus-4-7 * feat(face-recognition): cover all supported models in the gallery + drop weight baking Follows up on the model-gallery split: adds entries for every model configuration either engine actually supports, and switches weight delivery from image-baked to LocalAI's standard gallery mechanism. Gallery now has seven `insightface-` model entries (gallery/index.yaml): insightface (family) — non-commercial research use • buffalo-l (326MB) — SCRFD-10GF + ResNet50 + genderage, default • buffalo-m (313MB) — SCRFD-2.5GF + ResNet50 + genderage • buffalo-s (159MB) — SCRFD-500MF + MBF + genderage • buffalo-sc (16MB) — SCRFD-500MF + MBF, recognition only (no landmarks, no demographics — analyze returns empty attributes) • antelopev2 (407MB) — SCRFD-10GF + ResNet100@Glint360K + genderage OpenCV Zoo family — Apache 2.0 commercial-safe • opencv — YuNet + SFace fp32 (~40MB) • opencv-int8 — YuNet + SFace int8 (~12MB, ~3x smaller, faster on CPU) Model weights are no longer baked into the backend image. The image now ships only the Python runtime + libraries (~275MB content size, ~1.18GB disk vs ~1.21GB when weights were baked). Weights flow through LocalAI's gallery mechanism: OpenCV variants list `files:` with ONNX URIs + SHA-256, so `local-ai models install insightface-opencv` pulls them into the models directory exactly like any other gallery-managed model. * insightface packs (upstream distributes .zip archives only, not individual ONNX files) auto-download on first LoadModel via FaceAnalysis' built-in machinery, rooted at the LocalAI models directory so they live alongside everything else — same pattern `rfdetr` uses with `inference.get_model()`. Backend changes (backend/python/insightface/): * backend.py — LoadModel propagates `ModelOptions.ModelPath` (the LocalAI models directory) to engines via a `_model_dir` hint. This replaces the earlier ModelFile-dirname approach; ModelPath is the canonical "models directory" variable set by the Go loader (pkg/model/initializers.go:144) and is always populated. * engines.py::_resolve_model_path — picks up `model_dir` and searches it (plus basename-in-model-dir) before falling back to the dev script-dir. This is how OnnxDirectEngine finds gallery-downloaded YuNet/SFace files by filename only. * engines.py::_flatten_insightface_pack — new helper that works around an upstream packaging inconsistency: buffalo_l/s/sc zips expand flat, but buffalo_m and antelopev2 zips wrap their ONNX files in a redundant `<name>/` directory. insightface's own loader looks one level too shallow and fails. We call `ensure_available()` explicitly, flatten if nested, then hand to FaceAnalysis. * engines.py::InsightFaceEngine.prepare — root-resolution order now includes the `_model_dir` hint so packs download into the LocalAI models directory by default. * install.sh — no longer pre-downloads any weights. Everything is gallery-managed now. * smoke.py (new) — parametrized smoke test that iterates over every gallery configuration, simulating the LocalAI install flow (creates a models dir, fetches OpenCV files with checksum verification, lets insightface auto-download its packs), then runs detect + embed + verify (+ analyze where supported) through the in-process BackendServicer. * test.py — OnnxDirectEngineTest no longer hardcodes `/models/opencv/` paths; downloads ONNX files to a temp dir at setUpClass time and passes ModelPath accordingly. Registry change (core/services/facerecognition/store_registry.go): * `dim=0` in NewStoreRegistry now means "accept whatever dimension arrives" — needed because the backend supports 512-d ArcFace/MBF and 128-d SFace via the same Registry. A non-zero dim still fails fast with ErrDimensionMismatch. * core/application plumbs `faceEmbeddingDim = 0`, explaining the rationale in the comment. Backend gallery description updated to reflect that the image carries no weights — it's just Python + engines. Smoke-tested all 7 configurations against the rebuilt image (with the flatten fix applied), exit 0: PASS: insightface-buffalo-l faces=6 dim=512 same-dist=0.000 PASS: insightface-buffalo-sc faces=6 dim=512 same-dist=0.000 PASS: insightface-buffalo-s faces=6 dim=512 same-dist=0.000 PASS: insightface-buffalo-m faces=6 dim=512 same-dist=0.000 PASS: insightface-antelopev2 faces=6 dim=512 same-dist=0.000 PASS: insightface-opencv faces=6 dim=128 same-dist=0.000 PASS: insightface-opencv-int8 faces=6 dim=128 same-dist=0.000 7/7 passed Assisted-by: Claude:claude-opus-4-7 * fix(face-recognition): pre-fetch OpenCV ONNX for e2e target; drop stale pre-baked claim CI regression from the previous commit: I moved OpenCV Zoo weight delivery to LocalAI's gallery `files:` mechanism, but the test-extra-backend-insightface-opencv target was still passing relative paths `detector_onnx:models/opencv/yunet.onnx` in BACKEND_TEST_OPTIONS. The e2e suite drives LoadModel directly over gRPC without going through the gallery, so those relative paths resolved to nothing and OpenCV's ONNXImporter failed: LoadModel failed: Failed to load face engine: OpenCV(4.13.0) ... Can't read ONNX file: models/opencv/yunet.onnx Fix: add an `insightface-opencv-models` prerequisite target that fetches the two ONNX files (YuNet + SFace) to a deterministic host cache at /tmp/localai-insightface-opencv-cache/, verifies SHA-256, and skips the download on re-runs. The opencv test target depends on it and passes absolute paths in BACKEND_TEST_OPTIONS, so the backend finds the files via its normal absolute-path resolution branch. Also refresh the buffalo_l comment: it no longer says "pre-baked" (nothing is — the pack auto-downloads from upstream's GitHub release on first LoadModel, same as in CI). Locally verified: `make test-extra-backend-insightface-opencv` passes 5/5 specs (health, load, face_detect, face_embed, face_verify). Assisted-by: Claude:claude-opus-4-7 * feat(face-recognition): add POST /v1/face/embed + correct /v1/embeddings docs The docs promised that /v1/embeddings returns face vectors when you send an image data-URI. That was never true: /v1/embeddings is OpenAI-compatible and text-only by contract — its handler goes through `core/backend/embeddings.go::ModelEmbedding`, which sets `predictOptions.Embeddings = s` (a string of TEXT to embed) and never populates `predictOptions.Images[]`. The Python backend's Embedding gRPC method does handle Images[] (that's how /v1/face/register reaches it internally via `backend.FaceEmbed`), but the HTTP embeddings endpoint wasn't wired to populate it. Rather than overload /v1/embeddings with image-vs-text detection — messy, and the endpoint is OpenAI-compatible by design — add a dedicated /v1/face/embed endpoint that wraps `backend.FaceEmbed` (already used internally by /v1/face/register and /v1/face/identify). Matches LocalAI's convention of a dedicated path per non-standard flow (/v1/rerank, /v1/detection, /v1/face/verify etc.). Response: { "embedding": [<dim> floats, L2-normed], "dim": int, // 512 for ArcFace R50 / MBF, 128 for SFace "model": "<name>" } Live-tested on the opencv engine: returns a 128-d L2-normalized vector (sum(x^2) = 1.0000). Sentinel in docs updated to note /v1/embeddings is text-only and point image users at /v1/face/embed instead. Assisted-by: Claude:claude-opus-4-7 * fix(http): map malformed image input + gRPC status codes to proper 4xx Image-input failures on LocalAI's single-image endpoints (/v1/detection, /v1/face/{verify,analyze,embed,register,identify}) have historically returned 500 — even when the client was the one who sent garbage. Classic example: you POST an "image" that isn't a URL, isn't a data-URI, and isn't a valid JPEG/PNG — the server shouldn't claim that's its fault. Two helpers land in core/http/endpoints/localai/images.go and every single-image handler is switched over: * decodeImageInput(s) Wraps utils.GetContentURIAsBase64 and turns any failure (invalid URL, not a data-URI, download error, etc.) into echo.NewHTTPError(400, "invalid image input: ..."). * mapBackendError(err) Inspects the gRPC status on a backend call error and maps: INVALID_ARGUMENT → 400 Bad Request NOT_FOUND → 404 Not Found FAILED_PRECONDITION → 412 Precondition Failed Unimplemented → 501 Not Implemented All other codes fall through unchanged (still 500). Before, my 1×1 PNG error-path test returned: HTTP 500 "rpc error: code = InvalidArgument desc = failed to decode one or both images" After: HTTP 400 "failed to decode one or both images" Scope-limited to the LocalAI single-image endpoints. The multi-modal paths (middleware/request.go, openresponses/responses.go, openai/realtime.go) intentionally log-and-skip individual media parts when decoding fails — different design intent (graceful degradation of a multi-part message), not a 400-worthy failure. Left untouched. Live-verified: every error case in /tmp/face_errors.py now returns 4xx with a meaningful message; the "image with no face (1x1 PNG)" case specifically went from 500 → 400. Assisted-by: Claude:claude-opus-4-7 * refactor(face-recognition): insightface packs go through gallery files:, drop FaceAnalysis Follows up on the discovery that LocalAI's gallery `files:` mechanism handles archives (zip, tar.gz, …) via mholt/archiver/v3 — the rhasspy piper voices use exactly this pattern. Insightface packs are zip archives, so we can now deliver them the same way every other gallery-managed model gets delivered: declaratively, checksum-verified, through LocalAI's standard download+extract pipeline. Two changes: 1. Gallery (gallery/index.yaml) — every insightface-* entry gains a `files:` list with the pack zip's URI + SHA-256. `local-ai models install insightface-buffalo-l` now fetches the zip, verifies the hash, and extracts it into the models directory. No more reliance on insightface's library-internal `ensure_available()` auto-download or its hardcoded `BASE_REPO_URL`. 2. InsightFaceEngine (backend/python/insightface/engines.py) — drops the FaceAnalysis wrapper and drives insightface's `model_zoo` directly. The ~50 lines FaceAnalysis provides — glob ONNX files, route each through `model_zoo.get_model()`, build a `{taskname: model}` dict, loop per-face at inference — are reimplemented in `InsightFaceEngine`. The actual inference classes (RetinaFace, ArcFaceONNX, Attribute, Landmark) are still insightface's — we only replicate the glue, so drift risk against upstream is minimal. Why drop FaceAnalysis: it hard-codes a `<root>/models/<name>/.onnx` layout that doesn't match what LocalAI's zip extraction produces. LocalAI unpacks archives flat into `<models_dir>`. Upstream packs are inconsistent — buffalo_l/s/sc ship ONNX at the zip root (lands at `<models_dir>/.onnx`), buffalo_m/antelopev2 wrap in a redundant `<name>/` dir (lands at `<models_dir>/<name>/.onnx`). The new `_locate_insightface_pack` helper searches both locations plus legacy paths and returns whichever has ONNX files. Replaces the earlier `_flatten_insightface_pack` helper (which tried to fight FaceAnalysis's layout expectations; now we just find the files wherever they are). Net effect for users: install once via LocalAI's managed flow, weights live alongside every other model, progress shows in the jobs endpoint, no first-load network call. Same API surface, cleaner plumbing. Assisted-by: Claude:claude-opus-4-7 fix(face-recognition): CI's insightface e2e path needs the pack pre-fetched The e2e suite drives LoadModel over gRPC without going through LocalAI's gallery flow, so the engine's `_model_dir` option (normally populated from ModelPath) is empty. Previously the insightface target relied on FaceAnalysis auto-download to paper over this, but we dropped FaceAnalysis in favor of direct model_zoo calls — so the buffalo_l target started failing at LoadModel with "no insightface pack found". Mirror the opencv target's pre-fetch pattern: download buffalo_sc.zip (same SHA as the gallery entry), extract it on the host, and pass `root:<dir>` so the engine locates the pack without needing ModelPath. Switched to buffalo_sc (smallest pack, ~16MB) to keep CI fast; it covers the same insightface engine code path as buffalo_l. Face analyze cap dropped since buffalo_sc has no age/gender head. Assisted-by: Claude:claude-opus-4-7[1m] * feat(face-recognition): surface face-recognition in advertised feature maps The six /v1/face/* endpoints were missing from every place LocalAI advertises its feature surface to clients: * api_instructions — the machine-readable capability index at GET /api/instructions. Added `face-recognition` as a dedicated instruction area with an intro that calls out the in-memory registry caveat and the /v1/face/embed vs /v1/embeddings split. * auth/permissions — added FeatureFaceRecognition constant, routed all six face endpoints through it so admins can gate them per-user like any other API feature. Default ON (matches the other API features). * React UI capabilities — CAP_FACE_RECOGNITION symbol mapped to FLAG_FACE_RECOGNITION. Declared only for now; the Face page is a follow-up (noted in the plan). Instruction count bumped 9 → 10; test updated. Assisted-by: Claude:claude-opus-4-7[1m] * docs(agents): capture advertising-surface steps in the endpoint guide Before this change, adding a new /v1/* endpoint reliably missed one or more of: the swagger @Tags annotation, the /api/instructions registry, the auth RouteFeatureRegistry, and the React UI CAP_* symbol. The endpoint would work but be invisible to API consumers, admins, and the UI — and nothing in the existing docs said to look in those places. Extend .agents/api-endpoints-and-auth.md with a new "Advertising surfaces" section covering all four surfaces (swagger tags, /api/ instructions, capabilities.js, docs/), and expand the closing checklist so it's impossible to ship a feature without visiting each one. Hoist a one-liner reminder into AGENTS.md's Quick Reference so agents skim it before diving in. Assisted-by: Claude:claude-opus-4-7[1m]	2026-04-22 21:55:41 +02:00

Author

SHA1

Message

Date

Ettore Di Giacinto

f5eb13d3c2

feat(insightface): add antispoofing (liveness) detection (#9515 )

* feat(insightface): add antispoofing (liveness) detection

Light up the anti_spoofing flag that was parked during the first pass.
Both FaceVerify and FaceAnalyze now run the Silent-Face MiniFASNetV2 +
MiniFASNetV1SE ensemble (~4 MB, Apache 2.0, CPU <10ms) when the flag is
set. Failed liveness on either image vetoes FaceVerify regardless of
embedding similarity. Every insightface* gallery entry now ships the
MiniFASNet ONNX weights so existing packs light up after reinstall.

Setting the flag against a model without the MiniFASNet files returns
FAILED_PRECONDITION (HTTP 412) with a clear install message — no
silent is_real=false.

FaceVerifyResponse gained per-image img{1,2}_is_real and
img{1,2}_antispoof_score (proto 9-12); FaceAnalysis's existing
is_real/antispoof_score fields are now populated. Schema fields are
pointers so they are fully absent from the JSON response when
anti_spoofing was not requested — avoids collapsing "not checked" with
"checked and fake" under Go's omitempty on bool.

Validated end-to-end over HTTP against a local install:
- verify + anti_spoofing, both real -> verified=true, score ~0.76
- verify + anti_spoofing, img2 spoof -> verified=false, img2_is_real=false
- analyze + anti_spoofing -> is_real and score per face
- flag against model without MiniFASNet -> HTTP 412 fail-loud

Assisted-by: Claude:claude-opus-4-7 go vet

* test(insightface): wire test target into test-extra

The root Makefile's `test-extra` already runs
`$(MAKE) -C backend/python/insightface test`, but the backend's
Makefile never defined the target — so the command silently errored
and the suite was never executed in CI. Adding the two-line target
(matching ace-step/Makefile) hooks `test.sh` → `runUnittests` →
`python -m unittest test.py`, which discovers both the pre-existing
engine classes (InsightFaceEngineTest, OnnxDirectEngineTest) and the
new AntispoofingTest. Each class skips gracefully when its weights
can't be downloaded from a network-restricted runner.

Assisted-by: Claude:claude-opus-4-7

* test(insightface): exercise antispoofing in e2e-backends (both paths)

Add a `face_antispoof` capability to the Ginkgo e2e suite and extend
the existing FaceVerify + FaceAnalyze specs with liveness assertions
covering BOTH paths:

  real fixture -> is_real=true, score>0, verified stays true
  spoof fixture -> is_real=false, verified vetoed to false

The spoof fixture is upstream's own `image_F2.jpg` (via the yakhyo
mirror) — verified locally against the MiniFASNetV2+V1SE ensemble to
classify as is_real=false with score ~0.013. That makes the assertion
deterministic across CI runs; synthetic/derived spoofs fool the model
unpredictably and would be flaky.

Makefile wires it up end-to-end:
- New INSIGHTFACE_ANTISPOOF_* cache dir + two ONNX downloads with
  pinned SHAs, matching the gallery entries.
- insightface-antispoof-models target shared by both backend configs.
- FACE_SPOOF_IMAGE_URL passed via BACKEND_TEST_FACE_SPOOF_IMAGE_URL.
- Both e2e targets (buffalo-sc + opencv) now:
  * depend on insightface-antispoof-models
  * pass antispoof_v2_onnx / antispoof_v1se_onnx in BACKEND_TEST_OPTIONS
  * include face_antispoof in BACKEND_TEST_CAPS

backend_test.go adds the new capability constant and a faceSpoofFile
fixture resolved the same way as faceFile1/2/3. Spoof assertions are
gated on both capFaceAntispoof AND faceSpoofFile being set, so a test
config that omits the spoof fixture degrades gracefully to "real path
only" instead of failing.

Assisted-by: Claude:claude-opus-4-7 go vet

2026-04-23 18:28:15 +02:00

Ettore Di Giacinto

20baec77ab

feat(face-recognition): add insightface/onnx backend for 1:1 verify, 1:N identify, embedding, detection, analysis (#9480 )

* feat(face-recognition): add insightface backend for 1:1 verify, 1:N identify, embedding, detection, analysis

Adds face recognition as a new first-class capability in LocalAI via the
`insightface` Python backend, with a pluggable two-engine design so
non-commercial (insightface model packs) and commercial-safe
(OpenCV Zoo YuNet + SFace) models share the same gRPC/HTTP surface.

New gRPC RPCs (backend/backend.proto):
* FaceVerify(FaceVerifyRequest) returns FaceVerifyResponse
* FaceAnalyze(FaceAnalyzeRequest) returns FaceAnalyzeResponse

Existing Embedding and Detect RPCs are reused (face image in
PredictOptions.Images / DetectOptions.src) for face embedding and
face detection respectively.

New HTTP endpoints under /v1/face/:
* verify — 1:1 image pair same-person decision
* analyze — per-face age + gender (emotion/race reserved)
* register — 1:N enrollment; stores embedding in vector store
* identify — 1:N recognition; detect → embed → StoresFind
* forget — remove a registered face by opaque ID

Service layer (core/services/facerecognition/) introduces a
`Registry` interface with one in-memory `storeRegistry` impl backed
by LocalAI's existing local-store gRPC vector backend. HTTP handlers
depend on the interface, not on StoresSet/StoresFind directly, so a
persistent PostgreSQL/pgvector implementation can be slotted in via a
single constructor change in core/application (TODO marker in the
package doc).

New usecase flag FLAG_FACE_RECOGNITION; insightface is also wired
into FLAG_DETECTION so /v1/detection works for face bounding boxes.

Gallery (backend/index.yaml) ships three entries:
* insightface-buffalo-l — SCRFD-10GF + ArcFace R50 + genderage
(~326MB pre-baked; non-commercial research use only)
* insightface-opencv — YuNet + SFace (~40MB pre-baked; Apache 2.0)
* insightface-buffalo-s — SCRFD-500MF + MBF (runtime download; non-commercial)

Python backend (backend/python/insightface/):
* engines.py — FaceEngine protocol with InsightFaceEngine and
OnnxDirectEngine; resolves model paths relative to the backend
directory so the same gallery config works in docker-scratch and
in the e2e-backends rootfs-extraction harness.
* backend.py — gRPC servicer implementing Health, LoadModel, Status,
Embedding, Detect, FaceVerify, FaceAnalyze.
* install.sh — pre-bakes buffalo_l + OpenCV YuNet/SFace inside the
backend directory so first-run is offline-clean (the final scratch
image only preserves files under /<backend>/).
* test.py — parametrized unit tests over both engines.

Tests:
* Registry unit tests (go test -race ./core/services/facerecognition/...)
— in-memory fake grpc.Backend, table-driven, covers register/
identify/forget/error paths + concurrent access.
* tests/e2e-backends/backend_test.go extended with face caps
(face_detect, face_embed, face_verify, face_analyze); relative
ordering + configurable verifyCeiling per engine.
* Makefile targets: test-extra-backend-insightface-buffalo-l,
-opencv, and the -all aggregate.
* CI: .github/workflows/test-extra.yml gains tests-insightface-grpc,
auto-triggered by changes under backend/python/insightface/.

Docs:
* docs/content/features/face-recognition.md — feature page with
license table, quickstart (defaults to the commercial-safe model),
models matrix, API reference, 1:N workflow, storage caveats.
* Cross-refs in object-detection.md, stores.md, embeddings.md, and
whats-new.md.
* Contributor README at backend/python/insightface/README.md.

Verified end-to-end:
* buffalo_l: 6/6 specs (health, load, face_detect, face_embed,
face_verify, face_analyze).
* opencv: 5/5 specs (same minus face_analyze — SFace has no
demographic head; correctly skipped via BACKEND_TEST_CAPS).

Assisted-by: Claude:claude-opus-4-7

* fix(face-recognition): move engine selection to model gallery, collapse backend entries

The previous commit put engine/model_pack options on backend gallery
entries (`backend/index.yaml`). That was wrong — `GalleryBackend`
(core/gallery/backend_types.go:32) has no `options` field, so the
YAML decoder silently dropped those keys and all three "different
insightface-*" backend entries resolved to the same container image
with no distinguishing configuration.

Correct split:

* `backend/index.yaml` now has ONE `insightface` backend entry
shipping the CPU + CUDA 12 container images. The Python backend
bundles both the non-commercial insightface model packs
(buffalo_l / buffalo_s) and the commercial-safe OpenCV Zoo
weights (YuNet + SFace); the active engine is selected at
LoadModel time via `options: ["engine:..."]`.

* `gallery/index.yaml` gains three model entries —
`insightface-buffalo-l`, `insightface-opencv`,
`insightface-buffalo-s` — each setting the appropriate
`overrides.backend` + `overrides.options` so installing one
actually gives the user the intended engine. This matches how
`rfdetr-base` lives in the model gallery against the `rfdetr`
backend.

The earlier e2e tests passed despite this bug because the Makefile
targets pass `BACKEND_TEST_OPTIONS` directly to LoadModel via gRPC,
bypassing any gallery resolution entirely. No code changes needed.

Assisted-by: Claude:claude-opus-4-7

* feat(face-recognition): cover all supported models in the gallery + drop weight baking

Follows up on the model-gallery split: adds entries for every model
configuration either engine actually supports, and switches weight
delivery from image-baked to LocalAI's standard gallery mechanism.

Gallery now has seven `insightface-*` model entries (gallery/index.yaml):

insightface (family) — non-commercial research use
• buffalo-l (326MB) — SCRFD-10GF + ResNet50 + genderage, default
• buffalo-m (313MB) — SCRFD-2.5GF + ResNet50 + genderage
• buffalo-s (159MB) — SCRFD-500MF + MBF + genderage
• buffalo-sc (16MB) — SCRFD-500MF + MBF, recognition only
(no landmarks, no demographics — analyze
returns empty attributes)
• antelopev2 (407MB) — SCRFD-10GF + ResNet100@Glint360K + genderage

OpenCV Zoo family — Apache 2.0 commercial-safe
• opencv — YuNet + SFace fp32 (~40MB)
• opencv-int8 — YuNet + SFace int8 (~12MB, ~3x smaller, faster on CPU)

Model weights are no longer baked into the backend image. The image
now ships only the Python runtime + libraries (~275MB content size,
~1.18GB disk vs ~1.21GB when weights were baked). Weights flow through
LocalAI's gallery mechanism:

* OpenCV variants list `files:` with ONNX URIs + SHA-256, so
`local-ai models install insightface-opencv` pulls them into the
models directory exactly like any other gallery-managed model.

* insightface packs (upstream distributes .zip archives only, not
individual ONNX files) auto-download on first LoadModel via
FaceAnalysis' built-in machinery, rooted at the LocalAI models
directory so they live alongside everything else — same pattern
`rfdetr` uses with `inference.get_model()`.

Backend changes (backend/python/insightface/):

* backend.py — LoadModel propagates `ModelOptions.ModelPath` (the
LocalAI models directory) to engines via a `_model_dir` hint.
This replaces the earlier ModelFile-dirname approach; ModelPath
is the canonical "models directory" variable set by the Go loader
(pkg/model/initializers.go:144) and is always populated.

* engines.py::_resolve_model_path — picks up `model_dir` and searches
it (plus basename-in-model-dir) before falling back to the dev
script-dir. This is how OnnxDirectEngine finds gallery-downloaded
YuNet/SFace files by filename only.

* engines.py::_flatten_insightface_pack — new helper that works
around an upstream packaging inconsistency: buffalo_l/s/sc zips
expand flat, but buffalo_m and antelopev2 zips wrap their ONNX
files in a redundant `<name>/` directory. insightface's own
loader looks one level too shallow and fails. We call
`ensure_available()` explicitly, flatten if nested, then hand to
FaceAnalysis.

* engines.py::InsightFaceEngine.prepare — root-resolution order now
includes the `_model_dir` hint so packs download into the LocalAI
models directory by default.

* install.sh — no longer pre-downloads any weights. Everything is
gallery-managed now.

* smoke.py (new) — parametrized smoke test that iterates over every
gallery configuration, simulating the LocalAI install flow
(creates a models dir, fetches OpenCV files with checksum
verification, lets insightface auto-download its packs), then
runs detect + embed + verify (+ analyze where supported) through
the in-process BackendServicer.

* test.py — OnnxDirectEngineTest no longer hardcodes `/models/opencv/`
paths; downloads ONNX files to a temp dir at setUpClass time and
passes ModelPath accordingly.

Registry change (core/services/facerecognition/store_registry.go):

* `dim=0` in NewStoreRegistry now means "accept whatever dimension
arrives" — needed because the backend supports 512-d ArcFace/MBF
and 128-d SFace via the same Registry. A non-zero dim still fails
fast with ErrDimensionMismatch.

* core/application plumbs `faceEmbeddingDim = 0`, explaining the
rationale in the comment.

Backend gallery description updated to reflect that the image carries
no weights — it's just Python + engines.

Smoke-tested all 7 configurations against the rebuilt image (with the
flatten fix applied), exit 0:

PASS: insightface-buffalo-l faces=6 dim=512 same-dist=0.000
PASS: insightface-buffalo-sc faces=6 dim=512 same-dist=0.000
PASS: insightface-buffalo-s faces=6 dim=512 same-dist=0.000
PASS: insightface-buffalo-m faces=6 dim=512 same-dist=0.000
PASS: insightface-antelopev2 faces=6 dim=512 same-dist=0.000
PASS: insightface-opencv faces=6 dim=128 same-dist=0.000
PASS: insightface-opencv-int8 faces=6 dim=128 same-dist=0.000
7/7 passed

Assisted-by: Claude:claude-opus-4-7

* fix(face-recognition): pre-fetch OpenCV ONNX for e2e target; drop stale pre-baked claim

CI regression from the previous commit: I moved OpenCV Zoo weight
delivery to LocalAI's gallery `files:` mechanism, but the
test-extra-backend-insightface-opencv target was still passing
relative paths `detector_onnx:models/opencv/yunet.onnx` in
BACKEND_TEST_OPTIONS. The e2e suite drives LoadModel directly over
gRPC without going through the gallery, so those relative paths
resolved to nothing and OpenCV's ONNXImporter failed:

LoadModel failed: Failed to load face engine:
OpenCV(4.13.0) ... Can't read ONNX file: models/opencv/yunet.onnx

Fix: add an `insightface-opencv-models` prerequisite target that
fetches the two ONNX files (YuNet + SFace) to a deterministic host
cache at /tmp/localai-insightface-opencv-cache/, verifies SHA-256,
and skips the download on re-runs. The opencv test target depends on
it and passes absolute paths in BACKEND_TEST_OPTIONS, so the backend
finds the files via its normal absolute-path resolution branch.

Also refresh the buffalo_l comment: it no longer says "pre-baked"
(nothing is — the pack auto-downloads from upstream's GitHub release
on first LoadModel, same as in CI).

Locally verified: `make test-extra-backend-insightface-opencv` passes
5/5 specs (health, load, face_detect, face_embed, face_verify).

Assisted-by: Claude:claude-opus-4-7

* feat(face-recognition): add POST /v1/face/embed + correct /v1/embeddings docs

The docs promised that /v1/embeddings returns face vectors when you
send an image data-URI. That was never true: /v1/embeddings is
OpenAI-compatible and text-only by contract — its handler goes
through `core/backend/embeddings.go::ModelEmbedding`, which sets
`predictOptions.Embeddings = s` (a string of TEXT to embed) and never
populates `predictOptions.Images[]`. The Python backend's Embedding
gRPC method does handle Images[] (that's how /v1/face/register reaches
it internally via `backend.FaceEmbed`), but the HTTP embeddings
endpoint wasn't wired to populate it.

Rather than overload /v1/embeddings with image-vs-text detection —
messy, and the endpoint is OpenAI-compatible by design — add a
dedicated /v1/face/embed endpoint that wraps `backend.FaceEmbed`
(already used internally by /v1/face/register and /v1/face/identify).

Matches LocalAI's convention of a dedicated path per non-standard flow
(/v1/rerank, /v1/detection, /v1/face/verify etc.).

Response:

{
"embedding": [<dim> floats, L2-normed],
"dim": int, // 512 for ArcFace R50 / MBF, 128 for SFace
"model": "<name>"
}

Live-tested on the opencv engine: returns a 128-d L2-normalized vector
(sum(x^2) = 1.0000). Sentinel in docs updated to note /v1/embeddings
is text-only and point image users at /v1/face/embed instead.

Assisted-by: Claude:claude-opus-4-7

* fix(http): map malformed image input + gRPC status codes to proper 4xx

Image-input failures on LocalAI's single-image endpoints (/v1/detection,
/v1/face/{verify,analyze,embed,register,identify}) have historically
returned 500 — even when the client was the one who sent garbage.
Classic example: you POST an "image" that isn't a URL, isn't a
data-URI, and isn't a valid JPEG/PNG — the server shouldn't claim
that's its fault.

Two helpers land in core/http/endpoints/localai/images.go and every
single-image handler is switched over:

* decodeImageInput(s)
Wraps utils.GetContentURIAsBase64 and turns any failure
(invalid URL, not a data-URI, download error, etc.) into
echo.NewHTTPError(400, "invalid image input: ...").

* mapBackendError(err)
Inspects the gRPC status on a backend call error and maps:
INVALID_ARGUMENT → 400 Bad Request
NOT_FOUND → 404 Not Found
FAILED_PRECONDITION → 412 Precondition Failed
Unimplemented → 501 Not Implemented
All other codes fall through unchanged (still 500).

Before, my 1×1 PNG error-path test returned:
HTTP 500 "rpc error: code = InvalidArgument desc = failed to decode one or both images"
After:
HTTP 400 "failed to decode one or both images"

Scope-limited to the LocalAI single-image endpoints. The multi-modal
paths (middleware/request.go, openresponses/responses.go,
openai/realtime.go) intentionally log-and-skip individual media parts
when decoding fails — different design intent (graceful degradation
of a multi-part message), not a 400-worthy failure. Left untouched.

Live-verified: every error case in /tmp/face_errors.py now returns
4xx with a meaningful message; the "image with no face (1x1 PNG)"
case specifically went from 500 → 400.

Assisted-by: Claude:claude-opus-4-7

* refactor(face-recognition): insightface packs go through gallery files:, drop FaceAnalysis

Follows up on the discovery that LocalAI's gallery `files:` mechanism
handles archives (zip, tar.gz, …) via mholt/archiver/v3 — the rhasspy
piper voices use exactly this pattern. Insightface packs are zip
archives, so we can now deliver them the same way every other
gallery-managed model gets delivered: declaratively, checksum-verified,
through LocalAI's standard download+extract pipeline.

Two changes:

1. Gallery (gallery/index.yaml) — every insightface-* entry gains a
`files:` list with the pack zip's URI + SHA-256. `local-ai models
install insightface-buffalo-l` now fetches the zip, verifies the
hash, and extracts it into the models directory. No more reliance
on insightface's library-internal `ensure_available()` auto-download
or its hardcoded `BASE_REPO_URL`.

2. InsightFaceEngine (backend/python/insightface/engines.py) — drops
the FaceAnalysis wrapper and drives insightface's `model_zoo`
directly. The ~50 lines FaceAnalysis provides — glob ONNX files,
route each through `model_zoo.get_model()`, build a
`{taskname: model}` dict, loop per-face at inference — are
reimplemented in `InsightFaceEngine`. The actual inference classes
(RetinaFace, ArcFaceONNX, Attribute, Landmark) are still
insightface's — we only replicate the glue, so drift risk against
upstream is minimal.

Why drop FaceAnalysis: it hard-codes a `<root>/models/<name>/*.onnx`
layout that doesn't match what LocalAI's zip extraction produces.
LocalAI unpacks archives flat into `<models_dir>`. Upstream packs
are inconsistent — buffalo_l/s/sc ship ONNX at the zip root (lands
at `<models_dir>/*.onnx`), buffalo_m/antelopev2 wrap in a redundant
`<name>/` dir (lands at `<models_dir>/<name>/*.onnx`). The new
`_locate_insightface_pack` helper searches both locations plus
legacy paths and returns whichever has ONNX files. Replaces the
earlier `_flatten_insightface_pack` helper (which tried to fight
FaceAnalysis's layout expectations; now we just find the files
wherever they are).

Net effect for users: install once via LocalAI's managed flow,
weights live alongside every other model, progress shows in the
jobs endpoint, no first-load network call. Same API surface,
cleaner plumbing.

Assisted-by: Claude:claude-opus-4-7

* fix(face-recognition): CI's insightface e2e path needs the pack pre-fetched

The e2e suite drives LoadModel over gRPC without going through LocalAI's
gallery flow, so the engine's `_model_dir` option (normally populated
from ModelPath) is empty. Previously the insightface target relied on
FaceAnalysis auto-download to paper over this, but we dropped
FaceAnalysis in favor of direct model_zoo calls — so the buffalo_l
target started failing at LoadModel with "no insightface pack found".

Mirror the opencv target's pre-fetch pattern: download buffalo_sc.zip
(same SHA as the gallery entry), extract it on the host, and pass
`root:<dir>` so the engine locates the pack without needing
ModelPath. Switched to buffalo_sc (smallest pack, ~16MB) to keep CI
fast; it covers the same insightface engine code path as buffalo_l.

Face analyze cap dropped since buffalo_sc has no age/gender head.

Assisted-by: Claude:claude-opus-4-7[1m]

* feat(face-recognition): surface face-recognition in advertised feature maps

The six /v1/face/* endpoints were missing from every place LocalAI
advertises its feature surface to clients:

* api_instructions — the machine-readable capability index at
GET /api/instructions. Added `face-recognition` as a dedicated
instruction area with an intro that calls out the in-memory
registry caveat and the /v1/face/embed vs /v1/embeddings split.
* auth/permissions — added FeatureFaceRecognition constant, routed
all six face endpoints through it so admins can gate them per-user
like any other API feature. Default ON (matches the other API
features).
* React UI capabilities — CAP_FACE_RECOGNITION symbol mapped to
FLAG_FACE_RECOGNITION. Declared only for now; the Face page is a
follow-up (noted in the plan).

Instruction count bumped 9 → 10; test updated.

Assisted-by: Claude:claude-opus-4-7[1m]

* docs(agents): capture advertising-surface steps in the endpoint guide

Before this change, adding a new /v1/* endpoint reliably missed one or
more of: the swagger @Tags annotation, the /api/instructions registry,
the auth RouteFeatureRegistry, and the React UI CAP_* symbol. The
endpoint would work but be invisible to API consumers, admins, and the
UI — and nothing in the existing docs said to look in those places.

Extend .agents/api-endpoints-and-auth.md with a new "Advertising
surfaces" section covering all four surfaces (swagger tags, /api/
instructions, capabilities.js, docs/), and expand the closing checklist
so it's impossible to ship a feature without visiting each one. Hoist a
one-liner reminder into AGENTS.md's Quick Reference so agents skim it
before diving in.

Assisted-by: Claude:claude-opus-4-7[1m]

2026-04-22 21:55:41 +02:00

2 Commits