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HartOMat/backend/app/services/render_blender.py
T
Hartmut 7a1329958d feat(J): WebSocket live-events + replace polling + fix ffmpeg turntable timeout 
- fix(render): ffmpeg overlay=0:0 -> overlay=0:0:shortest=1 to prevent hang on finite PNG sequences
- feat(ws): add core/websocket.py ConnectionManager + Redis Pub/Sub subscriber loop
- feat(ws): add /api/ws WebSocket endpoint with JWT query-param auth in main.py
- feat(ws): emit render_complete/failed + cad_processing_complete events from step_tasks.py
- feat(ws): emit order_status_change events from orders router
- feat(ws): add beat_tasks.py broadcast_queue_status task (every 10s via Redis __broadcast__)
- feat(frontend): add useWebSocket hook with auto-reconnect (exponential backoff, 25s ping)
- feat(frontend): add WebSocketContext + WebSocketProvider wrapping App
- refactor(frontend): remove polling from WorkerActivity (was 5s/3s) + OrderDetail (was 5s)
- refactor(frontend): reduce polling in Layout (8s->60s) + NotificationCenter (15s->60s)
- docs: add ffmpeg shortest=1 + WebSocket JWT auth learnings to LEARNINGS.md

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-03-06 20:49:34 +01:00

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"""Direct Blender rendering service — runs Blender as a subprocess.
Used by the render-worker Celery container (which has BLENDER_BIN set and
cadquery installed). The backend and standard workers fall back to the Pillow
placeholder when this service is unavailable.
"""
import json
import logging
import os
import shutil
import signal
import subprocess
from pathlib import Path
logger = logging.getLogger(__name__)
MIN_BLENDER_VERSION = (5, 0, 1)
def find_blender() -> str:
"""Locate the Blender binary via $BLENDER_BIN or PATH."""
env_bin = os.environ.get("BLENDER_BIN", "")
if env_bin and Path(env_bin).exists():
return env_bin
found = shutil.which("blender")
return found or ""
def is_blender_available() -> bool:
"""Return True if a Blender binary is reachable from this process."""
return bool(find_blender())
def convert_step_to_stl(step_path: Path, stl_path: Path, quality: str = "low") -> None:
"""Convert a STEP file to STL using cadquery.
Raises ImportError if cadquery is not installed (not available in backend
container — only in render-worker container).
"""
import cadquery as cq # only available in render-worker
if quality == "high":
shape = cq.importers.importStep(str(step_path))
cq.exporters.export(shape, str(stl_path), tolerance=0.01, angularTolerance=0.02)
else:
shape = cq.importers.importStep(str(step_path))
cq.exporters.export(shape, str(stl_path), tolerance=0.3, angularTolerance=0.3)
if not stl_path.exists() or stl_path.stat().st_size == 0:
raise RuntimeError("cadquery produced empty STL")
def export_per_part_stls(step_path: Path, parts_dir: Path, quality: str = "low") -> list:
"""Export one STL per named STEP leaf shape using OCP XCAF.
Returns the manifest list (may be empty on failure — non-fatal).
"""
tol = 0.01 if quality == "high" else 0.3
angular_tol = 0.05 if quality == "high" else 0.3
try:
from OCP.STEPCAFControl import STEPCAFControl_Reader
from OCP.XCAFDoc import XCAFDoc_DocumentTool, XCAFDoc_ShapeTool
from OCP.TDataStd import TDataStd_Name
from OCP.TDF import TDF_Label as TDF_Label_cls, TDF_LabelSequence
from OCP.XCAFApp import XCAFApp_Application
from OCP.TDocStd import TDocStd_Document
from OCP.TCollection import TCollection_ExtendedString
from OCP.IFSelect import IFSelect_RetDone
import cadquery as cq
except ImportError as e:
logger.warning("per-part export skipped (import error): %s", e)
return []
app = XCAFApp_Application.GetApplication_s()
doc = TDocStd_Document(TCollection_ExtendedString("XmlOcaf"))
app.InitDocument(doc)
reader = STEPCAFControl_Reader()
reader.SetNameMode(True)
status = reader.ReadFile(str(step_path))
if status != IFSelect_RetDone:
logger.warning("XCAF reader failed with status %s", status)
return []
if not reader.Transfer(doc):
logger.warning("XCAF transfer failed")
return []
shape_tool = XCAFDoc_DocumentTool.ShapeTool_s(doc.Main())
name_id = TDataStd_Name.GetID_s()
leaves = []
def _get_label_name(label):
name_attr = TDataStd_Name()
if label.FindAttribute(name_id, name_attr):
return name_attr.Get().ToExtString()
return ""
def _collect_leaves(label):
if XCAFDoc_ShapeTool.IsAssembly_s(label):
components = TDF_LabelSequence()
XCAFDoc_ShapeTool.GetComponents_s(label, components)
for i in range(1, components.Length() + 1):
comp_label = components.Value(i)
if XCAFDoc_ShapeTool.IsReference_s(comp_label):
ref_label = TDF_Label_cls()
XCAFDoc_ShapeTool.GetReferredShape_s(comp_label, ref_label)
comp_name = _get_label_name(comp_label)
ref_name = _get_label_name(ref_label)
name = ref_name or comp_name
if XCAFDoc_ShapeTool.IsAssembly_s(ref_label):
_collect_leaves(ref_label)
elif XCAFDoc_ShapeTool.IsSimpleShape_s(ref_label):
shape = XCAFDoc_ShapeTool.GetShape_s(comp_label)
leaves.append((name or f"unnamed_{len(leaves)}", shape))
else:
_collect_leaves(comp_label)
elif XCAFDoc_ShapeTool.IsSimpleShape_s(label):
name = _get_label_name(label)
shape = XCAFDoc_ShapeTool.GetShape_s(label)
leaves.append((name or f"unnamed_{len(leaves)}", shape))
top_labels = TDF_LabelSequence()
shape_tool.GetFreeShapes(top_labels)
for i in range(1, top_labels.Length() + 1):
_collect_leaves(top_labels.Value(i))
if not leaves:
logger.warning("no leaf shapes found via XCAF")
return []
parts_dir.mkdir(parents=True, exist_ok=True)
manifest = []
for idx, (name, shape) in enumerate(leaves):
safe_name = name.replace("/", "_").replace("\\", "_").replace(" ", "_")
filename = f"{idx:02d}_{safe_name}.stl"
filepath = str(parts_dir / filename)
try:
cq_shape = cq.Shape(shape)
cq_shape.exportStl(filepath, tolerance=tol, angularTolerance=angular_tol)
manifest.append({"index": idx, "name": name, "file": filename})
except Exception as e:
logger.warning("failed to export part '%s': %s", name, e)
manifest_path = parts_dir / "manifest.json"
with open(manifest_path, "w") as f:
json.dump({"parts": manifest}, f, indent=2)
return manifest
def render_still(
step_path: Path,
output_path: Path,
width: int = 512,
height: int = 512,
engine: str = "cycles",
samples: int = 256,
stl_quality: str = "low",
smooth_angle: int = 30,
cycles_device: str = "auto",
transparent_bg: bool = False,
part_colors: dict | None = None,
template_path: str | None = None,
target_collection: str = "Product",
material_library_path: str | None = None,
material_map: dict | None = None,
part_names_ordered: list | None = None,
lighting_only: bool = False,
shadow_catcher: bool = False,
rotation_x: float = 0.0,
rotation_y: float = 0.0,
rotation_z: float = 0.0,
noise_threshold: str = "",
denoiser: str = "",
denoising_input_passes: str = "",
denoising_prefilter: str = "",
denoising_quality: str = "",
denoising_use_gpu: str = "",
mesh_attributes: dict | None = None,
) -> dict:
"""Convert STEP → STL (cadquery) → PNG (Blender subprocess).
Returns a dict with timing, sizes, engine_used, and log_lines.
Raises RuntimeError on failure.
"""
import time
blender_bin = find_blender()
if not blender_bin:
raise RuntimeError("Blender binary not found — check BLENDER_BIN env or PATH")
script_path = Path(os.environ.get("RENDER_SCRIPTS_DIR", "/render-scripts")) / "blender_render.py"
if not script_path.exists():
# Fallback: look next to this file (development mode)
alt = Path(__file__).parent.parent.parent.parent / "render-worker" / "scripts" / "blender_render.py"
if alt.exists():
script_path = alt
else:
raise RuntimeError(f"blender_render.py not found at {script_path}")
t0 = time.monotonic()
# 1. STL conversion (cadquery)
stl_path = step_path.parent / f"{step_path.stem}_{stl_quality}.stl"
parts_dir = step_path.parent / f"{step_path.stem}_{stl_quality}_parts"
t_stl = time.monotonic()
if not stl_path.exists() or stl_path.stat().st_size == 0:
logger.info("STL cache miss — converting: %s", step_path.name)
convert_step_to_stl(step_path, stl_path, stl_quality)
else:
logger.info("STL cache hit: %s (%d KB)", stl_path.name, stl_path.stat().st_size // 1024)
stl_size_bytes = stl_path.stat().st_size if stl_path.exists() else 0
if not (parts_dir / "manifest.json").exists():
try:
export_per_part_stls(step_path, parts_dir, stl_quality)
except Exception as exc:
logger.warning("per-part STL export failed (non-fatal): %s", exc)
stl_duration_s = round(time.monotonic() - t_stl, 2)
# 2. Blender render
output_path.parent.mkdir(parents=True, exist_ok=True)
env = dict(os.environ)
if engine == "eevee":
env.update({
"VK_ICD_FILENAMES": "/usr/share/vulkan/icd.d/lvp_icd.x86_64.json",
"LIBGL_ALWAYS_SOFTWARE": "1",
"MESA_GL_VERSION_OVERRIDE": "4.5",
"EGL_PLATFORM": "surfaceless",
})
else:
env["EGL_PLATFORM"] = "surfaceless"
def _build_cmd(eng: str) -> list:
cmd = [
blender_bin,
"--background",
"--python", str(script_path),
"--",
str(stl_path),
str(output_path),
str(width), str(height),
eng, str(samples), str(smooth_angle),
cycles_device,
"1" if transparent_bg else "0",
template_path or "",
target_collection,
material_library_path or "",
json.dumps(material_map) if material_map else "{}",
json.dumps(part_names_ordered) if part_names_ordered else "[]",
"1" if lighting_only else "0",
"1" if shadow_catcher else "0",
str(rotation_x), str(rotation_y), str(rotation_z),
noise_threshold or "", denoiser or "",
denoising_input_passes or "", denoising_prefilter or "",
denoising_quality or "", denoising_use_gpu or "",
]
if mesh_attributes:
cmd += ["--mesh-attributes", json.dumps(mesh_attributes)]
return cmd
def _run(eng: str) -> subprocess.CompletedProcess:
proc = subprocess.Popen(
_build_cmd(eng),
stdout=subprocess.PIPE, stderr=subprocess.PIPE,
text=True, env=env, start_new_session=True,
)
try:
stdout, stderr = proc.communicate(timeout=600)
except subprocess.TimeoutExpired:
try:
os.killpg(os.getpgid(proc.pid), signal.SIGTERM)
except (ProcessLookupError, OSError):
pass
stdout, stderr = proc.communicate()
return subprocess.CompletedProcess(_build_cmd(eng), proc.returncode, stdout, stderr)
t_render = time.monotonic()
result = _run(engine)
engine_used = engine
log_lines = []
for line in (result.stdout or "").splitlines():
logger.info("[blender] %s", line)
if "[blender_render]" in line:
log_lines.append(line)
for line in (result.stderr or "").splitlines():
logger.warning("[blender stderr] %s", line)
# EEVEE fallback to Cycles on non-signal error
if result.returncode > 0 and engine == "eevee":
logger.warning("EEVEE failed (exit %d) — retrying with Cycles", result.returncode)
result = _run("cycles")
engine_used = "cycles (eevee fallback)"
for line in (result.stdout or "").splitlines():
logger.info("[blender-fallback] %s", line)
if "[blender_render]" in line:
log_lines.append(line)
if result.returncode != 0:
raise RuntimeError(
f"Blender exited with code {result.returncode}.\n"
f"stdout: {(result.stdout or '')[-2000:]}\n"
f"stderr: {(result.stderr or '')[-500:]}"
)
render_duration_s = round(time.monotonic() - t_render, 2)
parts_count = 0
manifest_file = parts_dir / "manifest.json"
if manifest_file.exists():
try:
data = json.loads(manifest_file.read_text())
parts_count = len(data.get("parts", []))
except Exception:
pass
return {
"total_duration_s": round(time.monotonic() - t0, 2),
"stl_duration_s": stl_duration_s,
"render_duration_s": render_duration_s,
"stl_size_bytes": stl_size_bytes,
"output_size_bytes": output_path.stat().st_size if output_path.exists() else 0,
"parts_count": parts_count,
"engine_used": engine_used,
"log_lines": log_lines,
}
def render_turntable_to_file(
step_path: Path,
output_path: Path,
frame_count: int = 24,
fps: int = 25,
width: int = 1920,
height: int = 1920,
engine: str = "cycles",
samples: int = 128,
stl_quality: str = "low",
smooth_angle: int = 30,
cycles_device: str = "auto",
transparent_bg: bool = False,
bg_color: str = "",
turntable_axis: str = "world_z",
part_colors: dict | None = None,
template_path: str | None = None,
target_collection: str = "Product",
material_library_path: str | None = None,
material_map: dict | None = None,
part_names_ordered: list | None = None,
lighting_only: bool = False,
shadow_catcher: bool = False,
rotation_x: float = 0.0,
rotation_y: float = 0.0,
rotation_z: float = 0.0,
) -> dict:
"""Render a turntable animation: STEP → STL → N frames (Blender) → mp4 (ffmpeg).
Returns a dict with timing, frame count, engine_used, log_lines.
Raises RuntimeError on failure.
"""
import shutil as _shutil
import tempfile
import time
blender_bin = find_blender()
if not blender_bin:
raise RuntimeError("Blender binary not found — check BLENDER_BIN env or PATH")
script_path = Path(os.environ.get("RENDER_SCRIPTS_DIR", "/render-scripts")) / "turntable_render.py"
if not script_path.exists():
alt = Path(__file__).parent.parent.parent.parent / "render-worker" / "scripts" / "turntable_render.py"
if alt.exists():
script_path = alt
else:
raise RuntimeError(f"turntable_render.py not found at {script_path}")
ffmpeg_bin = _shutil.which("ffmpeg")
if not ffmpeg_bin:
raise RuntimeError("ffmpeg not found — install ffmpeg in the render-worker container")
t0 = time.monotonic()
# 1. STL conversion
stl_path = step_path.parent / f"{step_path.stem}_{stl_quality}.stl"
parts_dir = step_path.parent / f"{step_path.stem}_{stl_quality}_parts"
t_stl = time.monotonic()
if not stl_path.exists() or stl_path.stat().st_size == 0:
logger.info("STL cache miss — converting: %s", step_path.name)
convert_step_to_stl(step_path, stl_path, stl_quality)
else:
logger.info("STL cache hit: %s (%d KB)", stl_path.name, stl_path.stat().st_size // 1024)
stl_size_bytes = stl_path.stat().st_size if stl_path.exists() else 0
if not (parts_dir / "manifest.json").exists():
try:
export_per_part_stls(step_path, parts_dir, stl_quality)
except Exception as exc:
logger.warning("per-part STL export failed (non-fatal): %s", exc)
stl_duration_s = round(time.monotonic() - t_stl, 2)
# 2. Render frames with Blender
frames_dir = output_path.parent / f"_frames_{output_path.stem}"
frames_dir.mkdir(parents=True, exist_ok=True)
output_path.parent.mkdir(parents=True, exist_ok=True)
env = dict(os.environ)
env["EGL_PLATFORM"] = "surfaceless"
cmd = [
blender_bin,
"--background",
"--python", str(script_path),
"--",
str(stl_path),
str(frames_dir),
str(frame_count),
"360", # degrees
str(width), str(height),
engine, str(samples),
json.dumps(part_colors or {}),
template_path or "",
target_collection,
material_library_path or "",
json.dumps(material_map) if material_map else "{}",
json.dumps(part_names_ordered) if part_names_ordered else "[]",
"1" if lighting_only else "0",
cycles_device,
"1" if shadow_catcher else "0",
str(rotation_x), str(rotation_y), str(rotation_z),
turntable_axis,
bg_color or "",
"1" if transparent_bg else "0",
]
log_lines: list[str] = []
t_render = time.monotonic()
proc = subprocess.Popen(
cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE,
text=True, env=env, start_new_session=True,
)
try:
stdout, stderr = proc.communicate(timeout=3600) # 1hr max for full animation
except subprocess.TimeoutExpired:
try:
os.killpg(os.getpgid(proc.pid), signal.SIGTERM)
except (ProcessLookupError, OSError):
pass
stdout, stderr = proc.communicate()
for line in (stdout or "").splitlines():
logger.info("[turntable] %s", line)
if "[turntable_render]" in line:
log_lines.append(line)
for line in (stderr or "").splitlines():
logger.warning("[turntable stderr] %s", line)
if proc.returncode != 0:
raise RuntimeError(
f"turntable_render.py exited with code {proc.returncode}.\n"
f"stdout: {(stdout or '')[-2000:]}\n"
f"stderr: {(stderr or '')[-500:]}"
)
render_duration_s = round(time.monotonic() - t_render, 2)
# Check frames were written
frame_files = sorted(frames_dir.glob("frame_*.png"))
if not frame_files:
raise RuntimeError(f"No frames rendered in {frames_dir}")
logger.info("Rendered %d frames in %.1fs", len(frame_files), render_duration_s)
# 3. Compose frames → mp4 with ffmpeg
t_ffmpeg = time.monotonic()
ffmpeg_cmd = [
ffmpeg_bin,
"-y",
"-framerate", str(fps),
"-i", str(frames_dir / "frame_%04d.png"),
"-vcodec", "libx264",
"-pix_fmt", "yuv420p",
"-crf", "18",
"-movflags", "+faststart",
str(output_path),
]
# If bg_color is set and transparent_bg is True, overlay frames on solid bg
if bg_color and transparent_bg:
hex_color = bg_color.lstrip("#")
r, g, b = int(hex_color[0:2], 16), int(hex_color[2:4], 16), int(hex_color[4:6], 16)
ffmpeg_cmd = [
ffmpeg_bin, "-y",
"-framerate", str(fps),
"-i", str(frames_dir / "frame_%04d.png"),
"-f", "lavfi", "-i", f"color=c=0x{hex_color}:size={width}x{height}:rate={fps}",
"-filter_complex", "[1:v][0:v]overlay=0:0:shortest=1",
"-vcodec", "libx264",
"-pix_fmt", "yuv420p",
"-crf", "18",
"-movflags", "+faststart",
str(output_path),
]
ffmpeg_proc = subprocess.run(
ffmpeg_cmd, capture_output=True, text=True, timeout=300
)
ffmpeg_duration_s = round(time.monotonic() - t_ffmpeg, 2)
for line in (ffmpeg_proc.stdout or "").splitlines():
logger.info("[ffmpeg] %s", line)
for line in (ffmpeg_proc.stderr or "").splitlines():
logger.debug("[ffmpeg stderr] %s", line)
if ffmpeg_proc.returncode != 0:
raise RuntimeError(
f"ffmpeg exited with code {ffmpeg_proc.returncode}.\n"
f"stderr: {(ffmpeg_proc.stderr or '')[-1000:]}"
)
# Clean up frames directory
try:
_shutil.rmtree(frames_dir)
except Exception:
pass
return {
"total_duration_s": round(time.monotonic() - t0, 2),
"stl_duration_s": stl_duration_s,
"render_duration_s": render_duration_s,
"ffmpeg_duration_s": ffmpeg_duration_s,
"stl_size_bytes": stl_size_bytes,
"output_size_bytes": output_path.stat().st_size if output_path.exists() else 0,
"frame_count": len(frame_files),
"engine_used": engine,
"log_lines": log_lines,
}
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