# Cosma Nav + QC — Plan de finition > **For agentic workers:** REQUIRED SUB-SKILL: Use superpowers:subagent-driven-development (recommended) or superpowers:executing-plans to implement this plan task-by-task. Steps use checkbox (`- [ ]`) syntax for tracking. **Goal:** Intégrer cosma-nav à cosma-qc sur cosma-vm (.83) : routes /map et /nav, hook post-job, archivage NAS .156, toutes issues Gitea fermées, E2E validé avec données réelles. **Architecture:** cosma-nav (Flask :5051) tourne en service systemd sur .83 derrière Caddy. Le dispatcher cosma-qc appelle un hook post-job qui décime le PLY sur ml-stack (.84) et l'archive sur NAS .156. Le viewer cosma-nav sert des pages HTML par job via routes `/api/job//...`. **Tech Stack:** Python 3, Flask, Leaflet.js (CDN), Chart.js (CDN), Three.js (CDN), open3d, h5py, pyproj, systemd, Caddy, rsync, CIFS --- ## Fichiers créés / modifiés | Fichier (repo cosma-nav) | Action | Rôle | |--------------------------|--------|------| | `viz/server.py` | Modify | Ajouter `_DATA_BASE`, `_load_job_data()`, routes `/map` `/nav` `/api/job//...` | | `viz/templates/map.html` | Create | Page Leaflet GPS/USBL | | `viz/templates/nav.html` | Create | Page Chart.js depth/altitude/RTK | | `viz/static/js/map.js` | Create | Leaflet init, track USV, markers USBL | | `viz/static/js/nav_charts.js` | Create | Chart.js depth + altitude + RTK status | | `scripts/pre_decimate.py` | Create | Décimation PLY open3d + SCP cosma-vm | | `scripts/archive_job.sh` | Create | rsync job → NAS .156 | | `scripts/check_jobs.py` | Create | Vérification intégrité jobs (H5 + PLY présents) | | `deploy/cosma-nav.service` | Create | systemd unit (user=cosma, port 5051) | | `deploy/caddy-fragment.conf` | Create | Routes Caddy /nav /map → :5051 | | `tests/test_server_routes.py` | Create | Tests Flask routes map/nav/api | | `tests/test_pre_decimate.py` | Create | Test décimation PLY | | `tests/test_check_jobs.py` | Create | Test check_jobs | | Fichier (repo cosma-qc, sur .83) | Action | Rôle | |-----------------------------------|--------|------| | `scripts/dispatcher.py` | Modify | Ajouter appel `post_job_hook(job_id)` après statut done | | `scripts/post_job_hook.py` | Create | Orchestre pre_decimate + archive + notif | | `app/templates/_jobs_table.html` | Modify | Bouton "QC →" lien `/nav?job=` | --- ## Task 1 : Audit live .83 **Files:** aucun (inspection uniquement) - [ ] **Step 1.1 : SSH .83, vérifier cosma-qc** ```bash ssh cosma@192.168.0.83 systemctl status cosma-qc-dispatcher docker ps | grep cosma-qc-app ``` Attendu : dispatcher `active (running)`, container `cosma-qc-app` sur port 3849. Noter l'état réel. - [ ] **Step 1.2 : Vérifier Caddy** ```bash systemctl status caddy cat /etc/caddy/Caddyfile ``` Noter si routes `/nav` et `/map` existent déjà. - [ ] **Step 1.3 : Vérifier NAS .156** ```bash mount | grep nas ls /mnt/nas 2>/dev/null || echo "NAS non monté" ``` Si NAS non monté → créer issue `[infra] Monter NAS .156`. - [ ] **Step 1.4 : Vérifier cosma-nav** ```bash ls /home/cosma/cosma-nav 2>/dev/null || echo "cosma-nav absent" systemctl status cosma-nav 2>/dev/null || echo "service absent" ``` - [ ] **Step 1.5 : Vérifier accès workers** ```bash ssh gpu "nvidia-smi | head -5" 2>/dev/null || echo "worker .84 inaccessible" ``` - [ ] **Step 1.6 : Noter les gaps** Remplir cette liste (cocher ce qui manque) : - [ ] NAS .156 non monté - [ ] cosma-nav absent - [ ] systemd cosma-nav absent - [ ] Caddy routes /nav /map absentes - [ ] Hook post-job absent - [ ] pre_decimate.py absent - [ ] archive_job.sh absent --- ## Task 2 : Gitea — labels et issues **Files:** aucun (actions Chrome sur Gitea .82) - [ ] **Step 2.1 : Ouvrir Gitea cosma-qc dans Chrome** URL : `http://192.168.0.82:3000/floppyrj45/cosma-qc` - [ ] **Step 2.2 : Créer les labels manquants** Aller dans Issues → Labels → New Label : | Nom | Couleur hex | |-----|-------------| | `infra` | `#2ecc71` | | `backend` | `#3498db` | | `frontend` | `#f39c12` | | `deploy` | `#e67e22` | | `test` | `#9b59b6` | - [ ] **Step 2.3 : Créer les issues pour chaque gap identifié en Task 1** Pour chaque gap coché en Step 1.6, créer une issue avec ce format : Titre : `[label] Description courte` Corps : ``` ## Contexte ## Critère de done - [ ] ``` Issues standard à créer (si gap confirmé) : 1. `[infra] Monter NAS .156 sur cosma-vm et ml-stack` 2. `[backend] Créer pre_decimate.py (décimation PLY + SCP)` 3. `[backend] Créer archive_job.sh (rsync → NAS .156)` 4. `[backend] Créer check_jobs.py (intégrité jobs)` 5. `[frontend] Routes /map /api/job//map-data + map.html + map.js` 6. `[frontend] Routes /nav /api/job//trajectory + nav.html + nav_charts.js` 7. `[deploy] Cloner cosma-nav sur .83 + requirements` 8. `[deploy] Créer service systemd cosma-nav (port 5051)` 9. `[deploy] Configurer Caddy routes /nav /map → :5051` 10. `[deploy] Intégrer hook post-job dans dispatcher cosma-qc` 11. `[test] Validation E2E avec données réelles` - [ ] **Step 2.4 : Noter les numéros d'issues créées** (ex: #1=infra, #2=pre_decimate, etc.) — utilisés dans les messages de commit. --- ## Task 3 : [infra] Monter NAS .156 **Files:** `/etc/fstab` sur cosma-vm (.83) et ml-stack (.84) *Sauter cette task si NAS déjà monté (Step 1.3 OK).* - [ ] **Step 3.1 : Installer cifs-utils sur .83** ```bash ssh cosma@192.168.0.83 sudo apt-get install -y cifs-utils ``` - [ ] **Step 3.2 : Créer credentials NAS sur .83** ```bash sudo bash -c 'cat > /root/.nas-credentials << EOF username=admin password=vj'"'"']C9yJA-jYt)U EOF chmod 600 /root/.nas-credentials' ``` - [ ] **Step 3.3 : Créer point de montage et ajouter à fstab sur .83** ```bash sudo mkdir -p /mnt/nas echo "//192.168.0.156/cosma /mnt/nas cifs credentials=/root/.nas-credentials,uid=cosma,gid=cosma,iocharset=utf8,_netdev 0 0" | sudo tee -a /etc/fstab sudo mount /mnt/nas ``` - [ ] **Step 3.4 : Vérifier montage** ```bash ls /mnt/nas ``` Attendu : liste des dossiers NAS sans erreur. - [ ] **Step 3.5 : Répéter sur ml-stack (.84)** ```bash ssh root@192.168.0.84 apt-get install -y cifs-utils mkdir -p /mnt/nas-cosma bash -c 'cat > /root/.nas-credentials << EOF username=admin password=vj'"'"']C9yJA-jYt)U EOF chmod 600 /root/.nas-credentials' echo "//192.168.0.156/cosma /mnt/nas-cosma cifs credentials=/root/.nas-credentials,iocharset=utf8,_netdev 0 0" >> /etc/fstab mount /mnt/nas-cosma ls /mnt/nas-cosma ``` - [ ] **Step 3.6 : Commit infra (pas de code — noter dans issue)** Commenter l'issue Gitea #1 : "NAS .156 monté sur .83 (/mnt/nas) et .84 (/mnt/nas-cosma). Vérification OK." Fermer l'issue. --- ## Task 4 : [backend] pre_decimate.py **Files:** - Create: `scripts/pre_decimate.py` - Create: `tests/test_pre_decimate.py` - [ ] **Step 4.1 : Créer le dossier scripts** ```bash mkdir -p scripts touch scripts/__init__.py ``` - [ ] **Step 4.2 : Écrire le test en premier** ```python # tests/test_pre_decimate.py import numpy as np import tempfile from pathlib import Path def _make_tiny_ply(path): """Create a minimal PLY with 1000 points.""" import open3d as o3d pcd = o3d.geometry.PointCloud() pts = np.random.rand(1000, 3).astype(np.float64) pcd.points = o3d.utility.Vector3dVector(pts) o3d.io.write_point_cloud(str(path), pcd) def test_decimate_reduces_points(): from scripts.pre_decimate import decimate_ply with tempfile.TemporaryDirectory() as tmp: src = Path(tmp) / "model.ply" dst = Path(tmp) / "model_decimated.ply" _make_tiny_ply(src) decimate_ply(str(src), str(dst), max_pts=100) import open3d as o3d pcd = o3d.io.read_point_cloud(str(dst)) assert len(pcd.points) <= 100 def test_decimate_small_ply_unchanged(): from scripts.pre_decimate import decimate_ply with tempfile.TemporaryDirectory() as tmp: src = Path(tmp) / "small.ply" dst = Path(tmp) / "small_decimated.ply" _make_tiny_ply(src) decimate_ply(str(src), str(dst), max_pts=5000) import open3d as o3d pcd = o3d.io.read_point_cloud(str(dst)) assert len(pcd.points) == 1000 def test_decimate_missing_src_raises(): from scripts.pre_decimate import decimate_ply import pytest with tempfile.TemporaryDirectory() as tmp: with pytest.raises(FileNotFoundError): decimate_ply("/nonexistent.ply", str(Path(tmp) / "out.ply")) ``` - [ ] **Step 4.3 : Lancer le test — vérifier qu'il échoue** ```bash pytest tests/test_pre_decimate.py -v ``` Attendu : `ImportError: cannot import name 'decimate_ply'` - [ ] **Step 4.4 : Implémenter pre_decimate.py** ```python # scripts/pre_decimate.py """Decimate a PLY point cloud and optionally SCP to cosma-vm.""" import argparse import subprocess import sys from pathlib import Path import numpy as np import open3d as o3d def decimate_ply(src: str, dst: str, max_pts: int = 300_000) -> None: src_path = Path(src) if not src_path.exists(): raise FileNotFoundError(src) pcd = o3d.io.read_point_cloud(str(src_path)) n = len(pcd.points) if n > max_pts: vol = float(np.prod(pcd.get_max_bound() - pcd.get_min_bound())) vox = max((vol / max_pts) ** (1 / 3), 0.02) pcd = pcd.voxel_down_sample(vox) o3d.io.write_point_cloud(dst, pcd) def scp_to_cosma(local_path: str, job_id: int, cosma_host: str = "192.168.0.83", cosma_user: str = "cosma", data_base: str = "/home/cosma/cosma-qc-data/jobs") -> None: remote = f"{cosma_user}@{cosma_host}:{data_base}/{job_id}/" subprocess.run(["ssh", f"{cosma_user}@{cosma_host}", f"mkdir -p {data_base}/{job_id}"], check=True) subprocess.run(["scp", local_path, remote], check=True) def main() -> None: p = argparse.ArgumentParser(description="Decimate PLY and SCP to cosma-vm") p.add_argument("src", help="Source PLY path") p.add_argument("dst", help="Destination PLY path (decimated)") p.add_argument("--job-id", type=int, help="Job ID for SCP destination") p.add_argument("--scp", action="store_true", help="SCP decimated file to cosma-vm after") p.add_argument("--max-pts", type=int, default=300_000) p.add_argument("--cosma-host", default="192.168.0.83") args = p.parse_args() decimate_ply(args.src, args.dst, args.max_pts) print(f"Decimated: {args.dst}") if args.scp and args.job_id: scp_to_cosma(args.dst, args.job_id, args.cosma_host) print(f"SCP done → {args.cosma_host}:{args.job_id}/") if __name__ == "__main__": main() ``` - [ ] **Step 4.5 : Lancer les tests — vérifier qu'ils passent** ```bash pytest tests/test_pre_decimate.py -v ``` Attendu : 3 tests PASSED. - [ ] **Step 4.6 : Commit** ```bash git add scripts/pre_decimate.py scripts/__init__.py tests/test_pre_decimate.py git commit -m "feat: closes #2 — pre_decimate.py décimation PLY + SCP cosma-vm" ``` --- ## Task 5 : [backend] archive_job.sh **Files:** - Create: `scripts/archive_job.sh` *Pas de test unitaire pour bash — vérification manuelle en Step 5.3.* - [ ] **Step 5.1 : Créer archive_job.sh** ```bash #!/usr/bin/env bash # archive_job.sh [data_base] [nas_base] # Rsyncs job data to NAS .156 set -euo pipefail JOB_ID="${1:?Usage: archive_job.sh }" DATA_BASE="${2:-/home/cosma/cosma-qc-data/jobs}" NAS_BASE="${3:-/mnt/nas/archives}" SRC="${DATA_BASE}/${JOB_ID}/" DST="${NAS_BASE}/${JOB_ID}/" mkdir -p "${DST}" rsync -av --progress "${SRC}" "${DST}" echo "Archive done: ${DST}" ``` ```bash # Rendre exécutable chmod +x scripts/archive_job.sh ``` - [ ] **Step 5.2 : Commit** ```bash git add scripts/archive_job.sh git commit -m "feat: closes #3 — archive_job.sh rsync job → NAS .156" ``` - [ ] **Step 5.3 : Test manuel (sur .83 après déploiement)** ```bash # Créer un job factice mkdir -p /tmp/job_test/99 echo "test" > /tmp/job_test/99/dummy.txt mkdir -p /mnt/nas/archives bash scripts/archive_job.sh 99 /tmp/job_test /mnt/nas/archives ls /mnt/nas/archives/99/ ``` Attendu : `dummy.txt` présent dans `/mnt/nas/archives/99/`. --- ## Task 6 : [backend] check_jobs.py **Files:** - Create: `scripts/check_jobs.py` - Create: `tests/test_check_jobs.py` - [ ] **Step 6.1 : Écrire les tests** ```python # tests/test_check_jobs.py import json import tempfile from pathlib import Path def _make_job_dir(base: Path, job_id: int, has_h5: bool = True, has_ply: bool = True) -> Path: job_dir = base / str(job_id) job_dir.mkdir(parents=True) if has_h5: (job_dir / "sparse_fixes.h5").touch() (job_dir / "trajectory_world.h5").touch() if has_ply: (job_dir / "model_decimated.ply").touch() return job_dir def test_complete_job_is_ok(): from scripts.check_jobs import check_job with tempfile.TemporaryDirectory() as tmp: base = Path(tmp) _make_job_dir(base, 1) result = check_job(1, str(base)) assert result["status"] == "ok" assert result["job_id"] == 1 def test_missing_h5_flagged(): from scripts.check_jobs import check_job with tempfile.TemporaryDirectory() as tmp: base = Path(tmp) _make_job_dir(base, 2, has_h5=False) result = check_job(2, str(base)) assert result["status"] == "incomplete" assert "sparse_fixes.h5" in result["missing"] def test_missing_ply_flagged(): from scripts.check_jobs import check_job with tempfile.TemporaryDirectory() as tmp: base = Path(tmp) _make_job_dir(base, 3, has_ply=False) result = check_job(3, str(base)) assert result["status"] == "incomplete" assert "model_decimated.ply" in result["missing"] def test_missing_job_dir(): from scripts.check_jobs import check_job result = check_job(999, "/nonexistent/path") assert result["status"] == "missing" ``` - [ ] **Step 6.2 : Lancer les tests — vérifier échec** ```bash pytest tests/test_check_jobs.py -v ``` Attendu : `ImportError` - [ ] **Step 6.3 : Implémenter check_jobs.py** ```python # scripts/check_jobs.py """Check integrity of processed jobs (H5 + PLY present).""" import argparse import json from pathlib import Path from typing import Any REQUIRED_FILES = ["sparse_fixes.h5", "trajectory_world.h5", "model_decimated.ply"] def check_job(job_id: int, data_base: str = "/home/cosma/cosma-qc-data/jobs") -> dict[str, Any]: job_dir = Path(data_base) / str(job_id) if not job_dir.exists(): return {"job_id": job_id, "status": "missing", "missing": []} missing = [f for f in REQUIRED_FILES if not (job_dir / f).exists()] return { "job_id": job_id, "status": "ok" if not missing else "incomplete", "missing": missing, } def main() -> None: p = argparse.ArgumentParser() p.add_argument("job_ids", nargs="*", type=int) p.add_argument("--data-base", default="/home/cosma/cosma-qc-data/jobs") p.add_argument("--all", action="store_true", help="Check all job dirs") args = p.parse_args() base = Path(args.data_base) if args.all: ids = [int(d.name) for d in base.iterdir() if d.is_dir() and d.name.isdigit()] else: ids = args.job_ids results = [check_job(jid, args.data_base) for jid in sorted(ids)] print(json.dumps(results, indent=2)) if __name__ == "__main__": main() ``` - [ ] **Step 6.4 : Lancer les tests — vérifier succès** ```bash pytest tests/test_check_jobs.py -v ``` Attendu : 4 tests PASSED. - [ ] **Step 6.5 : Commit** ```bash git add scripts/check_jobs.py tests/test_check_jobs.py git commit -m "feat: closes #4 — check_jobs.py vérification intégrité jobs" ``` --- ## Task 7 : [frontend] Route /map + map.html + map.js **Files:** - Modify: `viz/server.py` - Create: `viz/templates/map.html` - Create: `viz/static/js/map.js` - Create: `tests/test_server_routes.py` - [ ] **Step 7.1 : Écrire les tests routes** ```python # tests/test_server_routes.py import h5py import numpy as np import pytest import tempfile from pathlib import Path from viz.server import app, _DATA_BASE import viz.server as srv @pytest.fixture def client(tmp_path): """Flask test client with a synthetic job directory.""" job_dir = tmp_path / "1" job_dir.mkdir() # Create sparse_fixes.h5 with h5py.File(str(job_dir / "sparse_fixes.h5"), "w") as f: f.attrs["utm_zone_number"] = 32 f.attrs["utm_south"] = False grp = f.create_group("usv_gps") n = 20 grp.create_dataset("easting", data=np.linspace(700000, 700500, n)) grp.create_dataset("northing", data=np.linspace(4800000, 4800500, n)) grp.create_dataset("t_ns", data=np.arange(n, dtype=np.int64) * int(1e9)) grp.create_dataset("rtk_status", data=np.ones(n, dtype=np.int32)) srv._DATA_BASE = str(tmp_path) app.config["TESTING"] = True with app.test_client() as c: yield c def test_map_route_returns_200(client): r = client.get("/map?job=1") assert r.status_code == 200 assert b"leaflet" in r.data.lower() def test_nav_route_returns_200(client): r = client.get("/nav?job=1") assert r.status_code == 200 assert b"chart" in r.data.lower() def test_api_map_data_returns_latlon(client): r = client.get("/api/job/1/map-data") assert r.status_code == 200 data = r.get_json() assert "usv_gps" in data assert "lat" in data["usv_gps"] assert len(data["usv_gps"]["lat"]) > 0 # Mediterranean coords sanity check assert 40 < data["usv_gps"]["lat"][0] < 50 ``` - [ ] **Step 7.2 : Lancer les tests — vérifier échec** ```bash pytest tests/test_server_routes.py -v ``` Attendu : `AssertionError` (routes /map /nav inexistantes) - [ ] **Step 7.3 : Modifier viz/server.py — ajouter DATA_BASE + routes map/nav** Ajouter après les imports existants : ```python from pathlib import Path from flask import render_template, request ``` Ajouter après `_PLY_PATH = ""` : ```python _DATA_BASE = "/home/cosma/cosma-qc-data/jobs" ``` Ajouter après la fonction `_load_data()` : ```python def _load_job_map_data(job_id: int) -> dict: from pyproj import Proj job_dir = Path(_DATA_BASE) / str(job_id) fixes_h5 = job_dir / "sparse_fixes.h5" out: dict = {} try: with h5py.File(str(fixes_h5), "r") as f: zone_num = int(f.attrs.get("utm_zone_number", 32)) south = bool(f.attrs.get("utm_south", False)) proj = Proj(proj="utm", zone=zone_num, ellps="WGS84", south=south) if "usv_gps" in f: e = f["usv_gps/easting"][:] n = f["usv_gps/northing"][:] step = max(1, len(e) // 2000) lon, lat = proj(e[::step], n[::step], inverse=True) rtk = f["usv_gps/rtk_status"][::step].tolist() out["usv_gps"] = {"lat": lat.tolist(), "lon": lon.tolist(), "rtk": rtk} except Exception as ex: out["error"] = str(ex) return out ``` Ajouter les routes Flask (avant `_main()`) : ```python @app.route("/map") def map_viewer(): return render_template("map.html") @app.route("/nav") def nav_viewer(): return render_template("nav.html") @app.route("/api/job//map-data") def api_job_map_data(job_id: int): return jsonify(_load_job_map_data(job_id)) @app.route("/api/job//trajectory") def api_job_trajectory(job_id: int): job_dir = Path(_DATA_BASE) / str(job_id) global _TRAJ_H5, _FIXES_H5, _PLY_PATH _TRAJ_H5 = str(job_dir / "trajectory_world.h5") _FIXES_H5 = str(job_dir / "sparse_fixes.h5") _PLY_PATH = str(job_dir / "model_decimated.ply") return jsonify(_load_data()) ``` Modifier `_main()` — ajouter arg `--data-base` : ```python p.add_argument("--data-base", default="/home/cosma/cosma-qc-data/jobs") # après args = p.parse_args(): global _DATA_BASE _DATA_BASE = args.data_base ``` - [ ] **Step 7.4 : Créer viz/templates/map.html** ```html COSMA — Carte GPS/USBL
``` - [ ] **Step 7.5 : Créer viz/static/js/map.js** ```javascript (function () { const params = new URLSearchParams(window.location.search); const jobId = params.get('job') || '1'; document.getElementById('job-id').textContent = jobId; const map = L.map('map', { preferCanvas: true }); L.tileLayer('https://{s}.tile.openstreetmap.org/{z}/{x}/{y}.png', { attribution: '© OpenStreetMap', maxZoom: 19, }).addTo(map); fetch('/api/job/' + jobId + '/map-data') .then(function (r) { return r.json(); }) .then(function (data) { if (data.error) { alert('Erreur données: ' + data.error); return; } // USV GPS track if (data.usv_gps) { const pts = data.usv_gps.lat.map(function (lat, i) { return [lat, data.usv_gps.lon[i]]; }); const line = L.polyline(pts, { color: '#2196f3', weight: 2 }).addTo(map); map.fitBounds(line.getBounds(), { padding: [20, 20] }); // RTK quality markers (show only RTK-fixed = status 1) data.usv_gps.lat.forEach(function (lat, i) { if (data.usv_gps.rtk[i] === 1) { L.circleMarker([lat, data.usv_gps.lon[i]], { radius: 3, color: '#4caf50', fillOpacity: 0.8, weight: 0, }).addTo(map); } }); } // USBL AUV markers if (data.auv_usbl) { data.auv_usbl.lat.forEach(function (lat, i) { L.circleMarker([lat, data.auv_usbl.lon[i]], { radius: 4, color: '#f44336', fillOpacity: 0.7, weight: 0, }).addTo(map); }); } // Legend const legend = L.control({ position: 'bottomright' }); legend.onAdd = function () { const div = L.DomUtil.create('div', 'legend'); div.innerHTML = '
GPS USV
' + '
GPS RTK fixed
' + '
USBL AUV
'; return div; }; legend.addTo(map); }) .catch(function (err) { console.error('map.js:', err); }); }()); ``` - [ ] **Step 7.6 : Lancer les tests** ```bash pytest tests/test_server_routes.py -v ``` Attendu : 3 tests PASSED. - [ ] **Step 7.7 : Lancer tous les tests du projet** ```bash pytest -v ``` Attendu : tous PASSED (anciens + nouveaux). - [ ] **Step 7.8 : Commit** ```bash git add viz/server.py viz/templates/map.html viz/static/js/map.js tests/test_server_routes.py git commit -m "feat: closes #5 — route /map + api/job//map-data + Leaflet viewer" ``` --- ## Task 8 : [frontend] Route /nav + nav.html + nav_charts.js **Files:** - Create: `viz/templates/nav.html` - Create: `viz/static/js/nav_charts.js` *(routes /nav et /api/job//trajectory déjà ajoutées en Task 7)* - [ ] **Step 8.1 : Ajouter test route /nav dans test_server_routes.py** Ajouter dans le fichier existant : ```python def test_api_job_trajectory_returns_profile(client): r = client.get("/api/job/1/trajectory") assert r.status_code == 200 data = r.get_json() # sparse_fixes.h5 has usv_gps — should appear assert "usv_gps" in data or "error_fixes" in data ``` - [ ] **Step 8.2 : Lancer — vérifier que ce test passe déjà** ```bash pytest tests/test_server_routes.py::test_api_job_trajectory_returns_profile -v ``` Attendu : PASSED (route ajoutée en Task 7). - [ ] **Step 8.3 : Créer viz/templates/nav.html** ```html COSMA — Navigation AUV
Chargement…

Profondeur (m)

Altitude fond (m)

``` - [ ] **Step 8.4 : Créer viz/static/js/nav_charts.js** ```javascript (function () { const params = new URLSearchParams(window.location.search); const jobId = params.get('job') || '1'; document.getElementById('job-id').textContent = jobId; const chartDefaults = { type: 'line', options: { responsive: true, maintainAspectRatio: false, animation: false, plugins: { legend: { display: false } }, scales: { x: { ticks: { color: '#888', maxTicksLimit: 8 }, grid: { color: '#333' } }, y: { ticks: { color: '#888' }, grid: { color: '#333' } }, }, }, }; fetch('/api/job/' + jobId + '/trajectory') .then(function (r) { return r.json(); }) .then(function (data) { const status = document.getElementById('status'); if (!data.auv_profile) { status.textContent = 'Aucun profil AUV disponible pour ce job.'; return; } status.textContent = 'Traj status: ' + (data.traj_status || 'unknown'); const labels = data.auv_profile.t_s.map(function (t) { return t.toFixed(1) + 's'; }); new Chart(document.getElementById('depth-chart').getContext('2d'), Object.assign({}, chartDefaults, { data: { labels: labels, datasets: [{ data: data.auv_profile.depth_m, borderColor: '#2196f3', borderWidth: 1.5, pointRadius: 0, fill: false, }], }, options: Object.assign({}, chartDefaults.options, { scales: Object.assign({}, chartDefaults.options.scales, { y: { reverse: true, ticks: { color: '#888' }, grid: { color: '#333' } }, }), }), })); new Chart(document.getElementById('alt-chart').getContext('2d'), Object.assign({}, chartDefaults, { data: { labels: labels, datasets: [{ data: data.auv_profile.altitude_m, borderColor: '#4caf50', borderWidth: 1.5, pointRadius: 0, fill: false, }], }, })); }) .catch(function (err) { document.getElementById('status').textContent = 'Erreur: ' + err; }); }()); ``` - [ ] **Step 8.5 : Lancer tous les tests** ```bash pytest -v ``` Attendu : tous PASSED. - [ ] **Step 8.6 : Commit** ```bash git add viz/templates/nav.html viz/static/js/nav_charts.js tests/test_server_routes.py git commit -m "feat: closes #6 — route /nav + Chart.js depth/altitude viewer" ``` --- ## Task 9 : [deploy] Cloner cosma-nav sur .83 + requirements **Files:** sur cosma-vm (.83) uniquement - [ ] **Step 9.1 : SSH .83, cloner le repo** ```bash ssh cosma@192.168.0.83 cd /home/cosma git clone http://floppyrj45:67e1615fcfd06cf2df7872ac25e824f3afdb2bc1@192.168.0.82:3000/floppyrj45/cosma-nav.git cd cosma-nav ``` - [ ] **Step 9.2 : Créer virtualenv et installer les dépendances** ```bash python3 -m venv .venv source .venv/bin/activate pip install -r requirements.txt ``` - [ ] **Step 9.3 : Vérifier que le serveur démarre** ```bash source .venv/bin/activate python -m viz.server --port 5051 & sleep 2 curl -s http://localhost:5051/ | head -5 kill %1 ``` Attendu : réponse HTTP (redirect ou HTML). - [ ] **Step 9.4 : Créer le fichier deploy/cosma-nav.service** *(en local, puis push)* ```ini # deploy/cosma-nav.service [Unit] Description=COSMA Nav viewer Flask After=network.target [Service] Type=simple User=cosma WorkingDirectory=/home/cosma/cosma-nav ExecStart=/home/cosma/cosma-nav/.venv/bin/python -m viz.server \ --port 5051 \ --data-base /home/cosma/cosma-qc-data/jobs Restart=on-failure RestartSec=5 Environment=PYTHONUNBUFFERED=1 [Install] WantedBy=multi-user.target ``` ```bash git add deploy/cosma-nav.service git commit -m "feat: closes #7,#8 — deploy systemd cosma-nav.service" git push origin master ``` - [ ] **Step 9.5 : Installer le service sur .83** ```bash ssh cosma@192.168.0.83 cd /home/cosma/cosma-nav && git pull sudo cp deploy/cosma-nav.service /etc/systemd/system/ sudo systemctl daemon-reload sudo systemctl enable cosma-nav sudo systemctl start cosma-nav systemctl status cosma-nav ``` Attendu : `active (running)`. - [ ] **Step 9.6 : Vérifier le port** ```bash curl -s http://localhost:5051/ | head -3 ``` Attendu : réponse HTTP. --- ## Task 10 : [deploy] Caddy config routes /nav /map **Files:** - Create: `deploy/caddy-fragment.conf` (local, reference) - Modify: `/etc/caddy/Caddyfile` (sur .83 directement) - [ ] **Step 10.1 : Créer le fragment de config Caddy (local, pour référence)** ``` # deploy/caddy-fragment.conf # À insérer dans le bloc du site cosma-vm dans /etc/caddy/Caddyfile handle_path /nav* { reverse_proxy localhost:5051 } handle_path /map* { reverse_proxy localhost:5051 } handle_path /api/job/* { reverse_proxy localhost:5051 } ``` ```bash git add deploy/caddy-fragment.conf git commit -m "docs: closes #9 — fragment Caddy cosma-nav routes /nav /map" git push origin master ``` - [ ] **Step 10.2 : Modifier /etc/caddy/Caddyfile sur .83** ```bash ssh cosma@192.168.0.83 sudo nano /etc/caddy/Caddyfile ``` Dans le bloc du site (probablement `192.168.0.83` ou le domaine Caddy), ajouter avant le bloc cosma-qc : ``` handle_path /nav* { reverse_proxy localhost:5051 } handle_path /map* { reverse_proxy localhost:5051 } handle /api/job/* { reverse_proxy localhost:5051 } ``` - [ ] **Step 10.3 : Recharger Caddy** ```bash sudo caddy reload --config /etc/caddy/Caddyfile ``` - [ ] **Step 10.4 : Vérifier les routes** ```bash curl -s -o /dev/null -w "%{http_code}" http://localhost/nav?job=1 curl -s -o /dev/null -w "%{http_code}" http://localhost/map?job=1 ``` Attendu : `200` pour les deux. --- ## Task 11 : [deploy] Hook post-job dispatcher cosma-qc **Files (repo cosma-qc sur .83):** - Create: `scripts/post_job_hook.py` - Modify: `scripts/dispatcher.py` - Modify: `app/templates/_jobs_table.html` - Modify: `app/main.py` - [ ] **Step 11.1 : SSH .83, aller dans cosma-qc** ```bash ssh cosma@192.168.0.83 cd /home/cosma/cosma-qc ``` - [ ] **Step 11.2 : Créer scripts/post_job_hook.py** ```python # scripts/post_job_hook.py """Post-job hook: décimation PLY sur ml-stack + SCP + archivage NAS.""" import subprocess import sys from pathlib import Path COSMA_NAV_DIR = "/home/cosma/cosma-nav" DATA_BASE = "/home/cosma/cosma-qc-data/jobs" ML_STACK = "root@192.168.0.84" NAS_ARCHIVE = "/mnt/nas/archives" def run_post_job(job_id: int) -> None: job_dir = Path(DATA_BASE) / str(job_id) ply_src = job_dir / "model.ply" ply_dst = job_dir / "model_decimated.ply" # 1. Décimation PLY sur ml-stack si PLY brut présent if ply_src.exists(): print(f"[post_job] Décimation PLY job {job_id} sur ml-stack...") venv_python = "/home/cosma/cosma-nav/.venv/bin/python" script = f"{COSMA_NAV_DIR}/scripts/pre_decimate.py" # SCP le PLY brut vers ml-stack, décimer là-bas, SCP retour remote_src = f"/tmp/cosma_job_{job_id}_model.ply" subprocess.run(["scp", str(ply_src), f"{ML_STACK}:{remote_src}"], check=True) remote_dst = f"/tmp/cosma_job_{job_id}_decimated.ply" subprocess.run([ "ssh", ML_STACK, f"cd {COSMA_NAV_DIR} && {venv_python} scripts/pre_decimate.py {remote_src} {remote_dst}" ], check=True) subprocess.run(["scp", f"{ML_STACK}:{remote_dst}", str(ply_dst)], check=True) subprocess.run(["ssh", ML_STACK, f"rm -f {remote_src} {remote_dst}"], check=False) print(f"[post_job] PLY décimé : {ply_dst}") # 2. Archivage rsync → NAS print(f"[post_job] Archivage job {job_id} → NAS...") archive_sh = f"{COSMA_NAV_DIR}/scripts/archive_job.sh" subprocess.run(["bash", archive_sh, str(job_id), DATA_BASE, NAS_ARCHIVE], check=True) print(f"[post_job] Job {job_id} archivé.") if __name__ == "__main__": run_post_job(int(sys.argv[1])) ``` - [ ] **Step 11.3 : Trouver et modifier dispatcher.py** ```bash grep -n "done\|status\|complete" scripts/dispatcher.py | head -20 ``` Trouver la ligne où le job passe à "done" (ex: `job.status = "done"` ou `update_job_status(job_id, "done")`). Ajouter après cette ligne : ```python # Post-job hook cosma-nav import threading import subprocess threading.Thread( target=lambda: subprocess.run( ["python", "scripts/post_job_hook.py", str(job_id)], cwd="/home/cosma/cosma-qc" ), daemon=True ).start() ``` - [ ] **Step 11.4 : Ajouter bouton QC dans _jobs_table.html** ```bash grep -n "done\|status\|btn" app/templates/_jobs_table.html | head -20 ``` Dans la ligne/colonne du job, ajouter un bouton lien conditionnel (si status == done) : ```html {% if job.status == 'done' %} QC → {% endif %} ``` - [ ] **Step 11.5 : Redémarrer le dispatcher** ```bash sudo systemctl restart cosma-qc-dispatcher systemctl status cosma-qc-dispatcher ``` Attendu : `active (running)`. - [ ] **Step 11.6 : Commit cosma-qc** ```bash cd /home/cosma/cosma-qc git add scripts/post_job_hook.py scripts/dispatcher.py app/templates/_jobs_table.html git commit -m "feat: closes #10 — hook post-job cosma-nav + bouton QC dashboard" git push ``` --- ## Task 12 : [test] Validation E2E avec données réelles **Files:** aucun (validation opérationnelle) - [ ] **Step 12.1 : Lancer tous les tests unitaires** ```bash # Local (cosma-nav repo) cd /home/cosma/cosma-nav source .venv/bin/activate pytest -v ``` Attendu : tous PASSED. - [ ] **Step 12.2 : Ouvrir le dashboard cosma-qc dans Chrome** URL : `http://192.168.0.83:3849` ou `http://192.168.0.83/cosma-qc` Vérifier qu'un job "done" affiche le bouton "QC →". - [ ] **Step 12.3 : Cliquer "QC →" sur un job done** Le viewer `/nav?job=` doit s'ouvrir avec les graphes depth/altitude. - [ ] **Step 12.4 : Ouvrir /map?job= dans Chrome** URL : `http://192.168.0.83/map?job=` Vérifier : track GPS bleu visible, markers USBL rouges si disponibles. - [ ] **Step 12.5 : Vérifier le NAS** ```bash ssh cosma@192.168.0.83 ls /mnt/nas/archives// ``` Attendu : fichiers du job présents (frames + PLY). - [ ] **Step 12.6 : Vérifier check_jobs.py** ```bash cd /home/cosma/cosma-nav && source .venv/bin/activate python scripts/check_jobs.py --all --data-base /home/cosma/cosma-qc-data/jobs ``` Attendu : jobs done avec `"status": "ok"`. - [ ] **Step 12.7 : Vérifier toutes les issues Gitea fermées** Ouvrir Chrome → `http://192.168.0.82:3000/floppyrj45/cosma-qc/issues` Filtrer par "Closed" — vérifier que les 11 issues sont fermées. - [ ] **Step 12.8 : Commit final cosma-nav** ```bash cd /home/cosma/cosma-nav git add -A git commit -m "feat: closes #11 — E2E validé, produit fini" git push origin master ``` --- ## Critères de succès finaux - [ ] `systemctl is-active cosma-nav` → `active` - [ ] `http://192.168.0.83/nav?job=` → 200 + graphes visibles - [ ] `http://192.168.0.83/map?job=` → 200 + carte GPS/USBL visible - [ ] PLY archivé sur NAS .156 pour au moins un job - [ ] Bouton "QC →" visible dans dashboard cosma-qc sur jobs done - [ ] `pytest -v` → tous PASSED (cosma-nav) - [ ] Toutes issues Gitea cosma-qc fermées