"""Print scheduler service - processes the print queue.""" import asyncio import json import logging import zipfile from datetime import datetime from pathlib import Path import defusedxml.ElementTree as ET from sqlalchemy import func, select from sqlalchemy.ext.asyncio import AsyncSession from backend.app.core.config import settings from backend.app.core.database import async_session from backend.app.models.archive import PrintArchive from backend.app.models.library import LibraryFile from backend.app.models.print_queue import PrintQueueItem from backend.app.models.printer import Printer from backend.app.models.smart_plug import SmartPlug from backend.app.services.bambu_ftp import delete_file_async, get_ftp_retry_settings, upload_file_async, with_ftp_retry from backend.app.services.notification_service import notification_service from backend.app.services.printer_manager import printer_manager from backend.app.services.smart_plug_manager import smart_plug_manager from backend.app.utils.printer_models import normalize_printer_model from backend.app.utils.threemf_tools import extract_nozzle_mapping_from_3mf logger = logging.getLogger(__name__) class PrintScheduler: """Background scheduler that processes the print queue.""" def __init__(self): self._running = False self._check_interval = 30 # seconds self._power_on_wait_time = 180 # seconds to wait for printer after power on (3 min) self._power_on_check_interval = 10 # seconds between connection checks async def run(self): """Main loop - check queue every interval.""" self._running = True logger.info("Print scheduler started") while self._running: try: await self.check_queue() except Exception as e: logger.error("Scheduler error: %s", e) await asyncio.sleep(self._check_interval) def stop(self): """Stop the scheduler.""" self._running = False logger.info("Print scheduler stopped") async def check_queue(self): """Check for prints ready to start.""" async with async_session() as db: # Get all pending items, ordered by printer and position result = await db.execute( select(PrintQueueItem) .where(PrintQueueItem.status == "pending") .order_by(PrintQueueItem.printer_id, PrintQueueItem.position) ) items = list(result.scalars().all()) if not items: return logger.info( "Queue check: found %d pending items: %s", len(items), [(i.id, i.printer_id, i.archive_id, i.library_file_id) for i in items], ) # Track busy printers to avoid assigning multiple items to same printer busy_printers: set[int] = set() for item in items: # Check scheduled time first (scheduled_time is stored in UTC from ISO string) if item.scheduled_time and item.scheduled_time > datetime.utcnow(): continue # Skip items that require manual start if item.manual_start: continue if item.printer_id: # Specific printer assignment (existing behavior) if item.printer_id in busy_printers: continue # Check if printer is idle printer_idle = self._is_printer_idle(item.printer_id) printer_connected = printer_manager.is_connected(item.printer_id) # If printer not connected, try to power on via smart plug if not printer_connected: plug = await self._get_smart_plug(db, item.printer_id) if plug and plug.auto_on and plug.enabled: logger.info("Printer %s offline, attempting to power on via smart plug", item.printer_id) powered_on = await self._power_on_and_wait(plug, item.printer_id, db) if powered_on: printer_connected = True printer_idle = self._is_printer_idle(item.printer_id) else: logger.warning("Could not power on printer %s via smart plug", item.printer_id) busy_printers.add(item.printer_id) continue else: # No plug or auto_on disabled busy_printers.add(item.printer_id) continue # Check if printer is idle (busy with another print) if not printer_idle: busy_printers.add(item.printer_id) continue # Check condition (previous print success) if item.require_previous_success: if not await self._check_previous_success(db, item): item.status = "skipped" item.error_message = "Previous print failed or was aborted" item.completed_at = datetime.now() await db.commit() logger.info("Skipped queue item %s - previous print failed", item.id) # Send notification job_name = await self._get_job_name(db, item) printer = await self._get_printer(db, item.printer_id) await notification_service.on_queue_job_skipped( job_name=job_name, printer_id=item.printer_id, printer_name=printer.name if printer else "Unknown", reason="Previous print failed or was aborted", db=db, ) continue # Start the print await self._start_print(db, item) busy_printers.add(item.printer_id) elif item.target_model: # Model-based assignment - find any idle printer of matching model # Parse required filament types if present required_types = None if item.required_filament_types: try: required_types = json.loads(item.required_filament_types) except json.JSONDecodeError: pass # Ignore malformed filament types; treat as no constraint # Parse filament overrides if present filament_overrides = None if item.filament_overrides: try: filament_overrides = json.loads(item.filament_overrides) except json.JSONDecodeError: pass # If overrides exist, use override types for validation instead effective_types = required_types if filament_overrides: override_types = sorted({o["type"] for o in filament_overrides if "type" in o}) if override_types: # Merge: keep original types for non-overridden slots, add override types effective_types = sorted(set(required_types or []) | set(override_types)) printer_id, waiting_reason = await self._find_idle_printer_for_model( db, item.target_model, busy_printers, effective_types, item.target_location, filament_overrides=filament_overrides, ) # Update waiting_reason if changed and send notification when first waiting if item.waiting_reason != waiting_reason: was_waiting = item.waiting_reason is not None item.waiting_reason = waiting_reason await db.commit() # Send waiting notification only when transitioning to waiting state if waiting_reason and not was_waiting: job_name = await self._get_job_name(db, item) await notification_service.on_queue_job_waiting( job_name=job_name, target_model=item.target_model, waiting_reason=waiting_reason, db=db, ) if printer_id: # Check condition (previous print success) before assigning if item.require_previous_success: if not await self._check_previous_success(db, item): item.status = "skipped" item.error_message = "Previous print failed or was aborted" item.completed_at = datetime.now() await db.commit() logger.info("Skipped queue item %s - previous print failed", item.id) # Send notification job_name = await self._get_job_name(db, item) printer = await self._get_printer(db, printer_id) await notification_service.on_queue_job_skipped( job_name=job_name, printer_id=printer_id, printer_name=printer.name if printer else "Unknown", reason="Previous print failed or was aborted", db=db, ) continue # Assign printer and start - clear waiting reason item.printer_id = printer_id item.waiting_reason = None logger.info("Model-based assignment: queue item %s assigned to printer %s", item.id, printer_id) # Send assignment notification job_name = await self._get_job_name(db, item) printer = await self._get_printer(db, printer_id) await notification_service.on_queue_job_assigned( job_name=job_name, printer_id=printer_id, printer_name=printer.name if printer else "Unknown", target_model=item.target_model, db=db, ) # Compute AMS mapping for the assigned printer if not already set # This is critical for model-based jobs where mapping wasn't computed upfront if not item.ams_mapping: computed_mapping = await self._compute_ams_mapping_for_printer(db, printer_id, item) if computed_mapping: item.ams_mapping = json.dumps(computed_mapping) logger.info( f"Queue item {item.id}: Computed AMS mapping for printer {printer_id}: {computed_mapping}" ) await db.commit() await self._start_print(db, item) busy_printers.add(printer_id) async def _find_idle_printer_for_model( self, db: AsyncSession, model: str, exclude_ids: set[int], required_filament_types: list[str] | None = None, target_location: str | None = None, filament_overrides: list[dict] | None = None, ) -> tuple[int | None, str | None]: """Find an idle, connected printer matching the model with compatible filaments. Args: db: Database session model: Printer model to match (e.g., "X1C", "P1S") exclude_ids: Printer IDs to exclude (already busy) required_filament_types: Optional list of filament types needed (e.g., ["PLA", "PETG"]) If provided, only printers with all required types loaded will match. target_location: Optional location filter. If provided, only printers in this location are considered. Returns: Tuple of (printer_id, waiting_reason): - (printer_id, None) if a matching printer was found - (None, reason) if no printer is available, with explanation """ # Normalize model name and use case-insensitive matching normalized_model = normalize_printer_model(model) or model query = ( select(Printer) .where(func.lower(Printer.model) == normalized_model.lower()) .where(Printer.is_active == True) # noqa: E712 ) # Add location filter if specified if target_location: query = query.where(Printer.location == target_location) result = await db.execute(query) printers = list(result.scalars().all()) location_suffix = f" in {target_location}" if target_location else "" if not printers: return None, f"No active {normalized_model} printers{location_suffix} configured" # Track reasons for skipping printers printers_busy = [] printers_offline = [] printers_missing_filament = [] candidates: list[tuple[int, int]] = [] # (printer_id, color_match_count) for printer in printers: if printer.id in exclude_ids: printers_busy.append(printer.name) continue is_connected = printer_manager.is_connected(printer.id) is_idle = self._is_printer_idle(printer.id) if is_connected else False if not is_connected: printers_offline.append(printer.name) continue if not is_idle: printers_busy.append(printer.name) continue # Validate filament compatibility if required types are specified if required_filament_types: missing = self._get_missing_filament_types(printer.id, required_filament_types) if missing: printers_missing_filament.append((printer.name, missing)) logger.debug("Skipping printer %s (%s) - missing filaments: %s", printer.id, printer.name, missing) continue # If filament overrides with colors, prefer printers with exact color matches if filament_overrides: color_matches = self._count_override_color_matches(printer.id, filament_overrides) candidates.append((printer.id, color_matches)) else: # No overrides - take first available (existing behavior) return printer.id, None # If we have candidates from override matching, pick the one with most color matches if candidates: candidates.sort(key=lambda c: c[1], reverse=True) return candidates[0][0], None # Build waiting reason from what we found reasons = [] if printers_missing_filament: # Filament mismatch is most actionable - show first names_and_missing = [f"{name} (needs {', '.join(missing)})" for name, missing in printers_missing_filament] reasons.append(f"Waiting for filament: {'; '.join(names_and_missing)}") if printers_busy: reasons.append(f"Busy: {', '.join(printers_busy)}") if printers_offline: reasons.append(f"Offline: {', '.join(printers_offline)}") return None, " | ".join(reasons) if reasons else f"No available {model} printers{location_suffix}" def _get_missing_filament_types(self, printer_id: int, required_types: list[str]) -> list[str]: """Get the list of required filament types that are not loaded on the printer. Args: printer_id: The printer ID required_types: List of filament types needed (e.g., ["PLA", "PETG"]) Returns: List of missing filament types (empty if all are loaded) """ status = printer_manager.get_status(printer_id) if not status: return required_types # Can't determine, assume all missing # Collect all filament types loaded on this printer (AMS units + external spool) loaded_types: set[str] = set() # Check AMS units (stored in raw_data["ams"]) ams_data = status.raw_data.get("ams", []) if ams_data: for ams_unit in ams_data: for tray in ams_unit.get("tray", []): tray_type = tray.get("tray_type") if tray_type: loaded_types.add(tray_type.upper()) # Check external spool(s) (virtual tray, stored in raw_data["vt_tray"] as list) for vt in status.raw_data.get("vt_tray") or []: vt_type = vt.get("tray_type") if vt_type: loaded_types.add(vt_type.upper()) # Find which required types are missing (case-insensitive comparison) missing = [] for req_type in required_types: if req_type.upper() not in loaded_types: missing.append(req_type) return missing def _count_override_color_matches(self, printer_id: int, overrides: list[dict]) -> int: """Count how many filament overrides have an exact color match on the printer. Used to prefer printers that already have the desired override colors loaded. """ status = printer_manager.get_status(printer_id) if not status: return 0 # Collect loaded filaments' type+color pairs loaded: set[tuple[str, str]] = set() for ams_unit in status.raw_data.get("ams", []): for tray in ams_unit.get("tray", []): tray_type = tray.get("tray_type") tray_color = tray.get("tray_color", "") if tray_type: color_norm = tray_color.replace("#", "").lower()[:6] loaded.add((tray_type.upper(), color_norm)) for vt in status.raw_data.get("vt_tray") or []: vt_type = vt.get("tray_type") if vt_type: color_norm = (vt.get("tray_color", "") or "").replace("#", "").lower()[:6] loaded.add((vt_type.upper(), color_norm)) matches = 0 for o in overrides: o_type = (o.get("type") or "").upper() o_color = (o.get("color") or "").replace("#", "").lower()[:6] if (o_type, o_color) in loaded: matches += 1 return matches async def _compute_ams_mapping_for_printer( self, db: AsyncSession, printer_id: int, item: PrintQueueItem ) -> list[int] | None: """Compute AMS mapping for a printer based on filament requirements. This is called for model-based queue items after a printer is assigned, to compute the correct AMS slot mapping for that specific printer's hardware. Args: db: Database session printer_id: The assigned printer ID item: The queue item (contains archive_id or library_file_id) Returns: AMS mapping array or None if no mapping needed/possible """ # Get printer status status = printer_manager.get_status(printer_id) if not status: logger.warning("Cannot compute AMS mapping: printer %s status unavailable", printer_id) return None # Get filament requirements from source file filament_reqs = await self._get_filament_requirements(db, item) if not filament_reqs: logger.debug("No filament requirements found for queue item %s", item.id) return None # Apply filament overrides if present if item.filament_overrides: try: overrides = json.loads(item.filament_overrides) override_map = {o["slot_id"]: o for o in overrides} for req in filament_reqs: if req["slot_id"] in override_map: override = override_map[req["slot_id"]] req["type"] = override["type"] req["color"] = override["color"] # Clear tray_info_idx so matching uses type+color instead of # the original 3MF's tray_info_idx (which would match the old filament) req["tray_info_idx"] = "" logger.debug( "Queue item %s: Override slot %d -> %s %s", item.id, req["slot_id"], override["type"], override["color"], ) except (json.JSONDecodeError, KeyError, TypeError) as e: logger.warning("Failed to apply filament overrides for queue item %s: %s", item.id, e) # Build loaded filaments from printer status loaded_filaments = self._build_loaded_filaments(status) if not loaded_filaments: logger.debug("No filaments loaded on printer %s", printer_id) return None # Compute mapping: match required filaments to available slots return self._match_filaments_to_slots(filament_reqs, loaded_filaments) async def _get_filament_requirements(self, db: AsyncSession, item: PrintQueueItem) -> list[dict] | None: """Extract filament requirements from the source 3MF file. Args: db: Database session item: Queue item with archive_id or library_file_id Returns: List of filament requirement dicts with slot_id, type, color, used_grams """ file_path: Path | None = None if item.archive_id: result = await db.execute(select(PrintArchive).where(PrintArchive.id == item.archive_id)) archive = result.scalar_one_or_none() if archive: file_path = settings.base_dir / archive.file_path elif item.library_file_id: result = await db.execute(select(LibraryFile).where(LibraryFile.id == item.library_file_id)) library_file = result.scalar_one_or_none() if library_file: lib_path = Path(library_file.file_path) file_path = lib_path if lib_path.is_absolute() else settings.base_dir / library_file.file_path if not file_path or not file_path.exists(): return None filaments = [] try: with zipfile.ZipFile(file_path, "r") as zf: if "Metadata/slice_info.config" not in zf.namelist(): return None content = zf.read("Metadata/slice_info.config").decode() root = ET.fromstring(content) # Check if plate_id is specified - use that plate's filaments plate_id = item.plate_id if plate_id: for plate_elem in root.findall("./plate"): plate_index = None for meta in plate_elem.findall("metadata"): if meta.get("key") == "index": plate_index = int(meta.get("value", "0")) break if plate_index == plate_id: for filament_elem in plate_elem.findall("./filament"): filament_id = filament_elem.get("id") filament_type = filament_elem.get("type", "") filament_color = filament_elem.get("color", "") # tray_info_idx identifies the specific spool selected when slicing tray_info_idx = filament_elem.get("tray_info_idx", "") used_g = filament_elem.get("used_g", "0") try: used_grams = float(used_g) if used_grams > 0 and filament_id: filaments.append( { "slot_id": int(filament_id), "type": filament_type, "color": filament_color, "tray_info_idx": tray_info_idx, "used_grams": round(used_grams, 1), } ) except (ValueError, TypeError): pass # Skip filament entry with unparseable usage data break else: # No plate_id - extract all filaments with used_g > 0 for filament_elem in root.findall("./filament"): filament_id = filament_elem.get("id") filament_type = filament_elem.get("type", "") filament_color = filament_elem.get("color", "") # tray_info_idx identifies the specific spool selected when slicing tray_info_idx = filament_elem.get("tray_info_idx", "") used_g = filament_elem.get("used_g", "0") try: used_grams = float(used_g) if used_grams > 0 and filament_id: filaments.append( { "slot_id": int(filament_id), "type": filament_type, "color": filament_color, "tray_info_idx": tray_info_idx, "used_grams": round(used_grams, 1), } ) except (ValueError, TypeError): pass # Skip filament entry with unparseable usage data filaments.sort(key=lambda x: x["slot_id"]) # Enrich with nozzle mapping for dual-nozzle printers nozzle_mapping = extract_nozzle_mapping_from_3mf(zf) if nozzle_mapping: for filament in filaments: filament["nozzle_id"] = nozzle_mapping.get(filament["slot_id"]) except Exception as e: logger.warning("Failed to parse filament requirements: %s", e) return None return filaments if filaments else None def _build_loaded_filaments(self, status) -> list[dict]: """Build list of loaded filaments from printer status. Args: status: PrinterState from printer_manager Returns: List of loaded filament dicts with type, color, ams_id, tray_id, global_tray_id """ filaments = [] # Get ams_extruder_map for dual-nozzle printers (H2D, H2D Pro) ams_extruder_map = status.raw_data.get("ams_extruder_map", {}) # Parse AMS units from raw_data ams_data = status.raw_data.get("ams", []) for ams_unit in ams_data: ams_id = int(ams_unit.get("id", 0)) trays = ams_unit.get("tray", []) is_ht = len(trays) == 1 # AMS-HT has single tray for tray in trays: tray_type = tray.get("tray_type") if tray_type: tray_id = int(tray.get("id", 0)) tray_color = tray.get("tray_color", "") # tray_info_idx identifies the specific spool (e.g., "GFA00", "P4d64437") tray_info_idx = tray.get("tray_info_idx", "") # Normalize color: remove alpha, add hash color = self._normalize_color(tray_color) # Calculate global tray ID # AMS-HT units have IDs starting at 128 with a single tray global_tray_id = ams_id if ams_id >= 128 else ams_id * 4 + tray_id filaments.append( { "type": tray_type, "color": color, "tray_info_idx": tray_info_idx, "ams_id": ams_id, "tray_id": tray_id, "is_ht": is_ht, "is_external": False, "global_tray_id": global_tray_id, "extruder_id": ams_extruder_map.get(str(ams_id)), } ) # Check external spool(s) (vt_tray is a list) for idx, vt in enumerate(status.raw_data.get("vt_tray") or []): if vt.get("tray_type"): color = self._normalize_color(vt.get("tray_color", "")) tray_id = int(vt.get("id", 254)) filaments.append( { "type": vt["tray_type"], "color": color, "tray_info_idx": vt.get("tray_info_idx", ""), "ams_id": -1, "tray_id": idx, "is_ht": False, "is_external": True, "global_tray_id": tray_id, "extruder_id": (255 - tray_id) if ams_extruder_map else None, } ) return filaments def _normalize_color(self, color: str | None) -> str: """Normalize color to #RRGGBB format.""" if not color: return "#808080" hex_color = color.replace("#", "")[:6] return f"#{hex_color}" def _normalize_color_for_compare(self, color: str | None) -> str: """Normalize color for comparison (lowercase, no hash).""" if not color: return "" return color.replace("#", "").lower()[:6] def _colors_are_similar(self, color1: str | None, color2: str | None, threshold: int = 40) -> bool: """Check if two colors are visually similar within a threshold.""" hex1 = self._normalize_color_for_compare(color1) hex2 = self._normalize_color_for_compare(color2) if not hex1 or not hex2 or len(hex1) < 6 or len(hex2) < 6: return False try: r1 = int(hex1[0:2], 16) g1 = int(hex1[2:4], 16) b1 = int(hex1[4:6], 16) r2 = int(hex2[0:2], 16) g2 = int(hex2[2:4], 16) b2 = int(hex2[4:6], 16) return abs(r1 - r2) <= threshold and abs(g1 - g2) <= threshold and abs(b1 - b2) <= threshold except ValueError: return False def _match_filaments_to_slots(self, required: list[dict], loaded: list[dict]) -> list[int] | None: """Match required filaments to loaded filaments and build AMS mapping. Priority: unique tray_info_idx match > exact color match > similar color match > type-only match The tray_info_idx is a filament type identifier stored in the 3MF file when the user slices (e.g., "GFA00" for generic PLA, "P4d64437" for custom presets). If the same tray_info_idx appears in only ONE available tray, we use that tray. If multiple trays have the same tray_info_idx (e.g., two spools of generic PLA), we fall back to color matching among those trays. Args: required: List of required filaments with slot_id, type, color, tray_info_idx loaded: List of loaded filaments with type, color, tray_info_idx, global_tray_id Returns: AMS mapping array (position = slot_id - 1, value = global_tray_id or -1) """ if not required: return None # Track used trays to avoid duplicate assignment used_tray_ids: set[int] = set() comparisons = [] for req in required: req_type = (req.get("type") or "").upper() req_color = req.get("color", "") req_tray_info_idx = req.get("tray_info_idx", "") # Find best match: unique tray_info_idx > exact color > similar color > type-only idx_match = None exact_match = None similar_match = None type_only_match = None # Get available trays (not already used) available = [f for f in loaded if f["global_tray_id"] not in used_tray_ids] # Nozzle-aware filtering: restrict to trays on the correct nozzle. # Hard filter — cross-nozzle assignment causes print failures # ("position of left hotend is abnormal"), so never fall back. req_nozzle_id = req.get("nozzle_id") if req_nozzle_id is not None: available = [f for f in available if f.get("extruder_id") == req_nozzle_id] # Check if tray_info_idx is unique among available trays if req_tray_info_idx: idx_matches = [f for f in available if f.get("tray_info_idx") == req_tray_info_idx] if len(idx_matches) == 1: # Unique tray_info_idx - use it as definitive match idx_match = idx_matches[0] logger.debug( f"Matched filament slot {req.get('slot_id')} by unique tray_info_idx={req_tray_info_idx} " f"-> tray {idx_match['global_tray_id']}" ) elif len(idx_matches) > 1: # Multiple trays with same tray_info_idx - use color matching among them logger.debug( f"Non-unique tray_info_idx={req_tray_info_idx} found in {len(idx_matches)} trays, " f"using color matching among trays: {[f['global_tray_id'] for f in idx_matches]}" ) # Use color matching within this subset for f in idx_matches: f_color = f.get("color", "") if self._normalize_color_for_compare(f_color) == self._normalize_color_for_compare(req_color): if not exact_match: exact_match = f elif self._colors_are_similar(f_color, req_color): if not similar_match: similar_match = f elif not type_only_match: type_only_match = f # If no idx_match yet, do standard type/color matching on all available trays if not idx_match and not exact_match and not similar_match and not type_only_match: for f in available: f_type = (f.get("type") or "").upper() if f_type != req_type: continue # Type matches - check color f_color = f.get("color", "") if self._normalize_color_for_compare(f_color) == self._normalize_color_for_compare(req_color): if not exact_match: exact_match = f elif self._colors_are_similar(f_color, req_color): if not similar_match: similar_match = f elif not type_only_match: type_only_match = f match = idx_match or exact_match or similar_match or type_only_match if match: used_tray_ids.add(match["global_tray_id"]) comparisons.append({"slot_id": req.get("slot_id", 0), "global_tray_id": match["global_tray_id"]}) else: comparisons.append({"slot_id": req.get("slot_id", 0), "global_tray_id": -1}) # Build mapping array if not comparisons: return None max_slot_id = max(c["slot_id"] for c in comparisons) if max_slot_id <= 0: return None mapping = [-1] * max_slot_id for c in comparisons: slot_id = c["slot_id"] if slot_id and slot_id > 0: mapping[slot_id - 1] = c["global_tray_id"] return mapping def _is_printer_idle(self, printer_id: int) -> bool: """Check if a printer is connected and idle.""" if not printer_manager.is_connected(printer_id): return False state = printer_manager.get_status(printer_id) if not state: return False # IDLE = ready for next print # FINISH/FAILED = ready only if user confirmed plate is cleared return state.state == "IDLE" or ( state.state in ("FINISH", "FAILED") and printer_manager.is_plate_cleared(printer_id) ) async def _get_smart_plug(self, db: AsyncSession, printer_id: int) -> SmartPlug | None: """Get the smart plug associated with a printer.""" result = await db.execute(select(SmartPlug).where(SmartPlug.printer_id == printer_id)) return result.scalar_one_or_none() async def _power_on_and_wait(self, plug: SmartPlug, printer_id: int, db: AsyncSession) -> bool: """Turn on smart plug and wait for printer to connect. Returns True if printer connected successfully within timeout. """ # Get the appropriate service for the plug type (Tasmota or Home Assistant) service = await smart_plug_manager.get_service_for_plug(plug, db) # Check current plug state status = await service.get_status(plug) if not status.get("reachable"): logger.warning("Smart plug '%s' is not reachable", plug.name) return False # Turn on if not already on if status.get("state") != "ON": success = await service.turn_on(plug) if not success: logger.warning("Failed to turn on smart plug '%s'", plug.name) return False logger.info("Powered on smart plug '%s' for printer %s", plug.name, printer_id) # Get printer from database for connection result = await db.execute(select(Printer).where(Printer.id == printer_id)) printer = result.scalar_one_or_none() if not printer: logger.error("Printer %s not found in database", printer_id) return False # Wait for printer to boot (give it some time before trying to connect) logger.info("Waiting 30s for printer %s to boot...", printer_id) await asyncio.sleep(30) # Try to connect to the printer periodically elapsed = 30 # Already waited 30s while elapsed < self._power_on_wait_time: # Try to connect logger.info("Attempting to connect to printer %s...", printer_id) try: connected = await printer_manager.connect_printer(printer) if connected: logger.info("Printer %s connected after %ss", printer_id, elapsed) # Give it a moment to stabilize and get status await asyncio.sleep(5) return True except Exception as e: logger.debug("Connection attempt failed: %s", e) await asyncio.sleep(self._power_on_check_interval) elapsed += self._power_on_check_interval logger.debug("Waiting for printer %s to connect... (%ss)", printer_id, elapsed) logger.warning("Printer %s did not connect within %ss after power on", printer_id, self._power_on_wait_time) return False async def _check_previous_success(self, db: AsyncSession, item: PrintQueueItem) -> bool: """Check if the previous print on this printer succeeded.""" # Find the most recent completed queue item for this printer result = await db.execute( select(PrintQueueItem) .where(PrintQueueItem.printer_id == item.printer_id) .where(PrintQueueItem.id != item.id) .where(PrintQueueItem.status.in_(["completed", "failed", "skipped", "aborted"])) .order_by(PrintQueueItem.completed_at.desc()) .limit(1) ) prev_item = result.scalar_one_or_none() # If no previous item, assume success (first in queue) if not prev_item: return True return prev_item.status == "completed" async def _power_off_if_needed(self, db: AsyncSession, item: PrintQueueItem): """Power off printer if auto_off_after is enabled (waits for cooldown).""" if not item.auto_off_after: return plug = await self._get_smart_plug(db, item.printer_id) if plug and plug.enabled: logger.info("Auto-off: Waiting for printer %s to cool down before power off...", item.printer_id) # Wait for cooldown (up to 10 minutes) await printer_manager.wait_for_cooldown(item.printer_id, target_temp=50.0, timeout=600) logger.info("Auto-off: Powering off printer %s", item.printer_id) service = await smart_plug_manager.get_service_for_plug(plug, db) await service.turn_off(plug) async def _get_job_name(self, db: AsyncSession, item: PrintQueueItem) -> str: """Get a human-readable name for a queue item.""" if item.archive_id: result = await db.execute(select(PrintArchive).where(PrintArchive.id == item.archive_id)) archive = result.scalar_one_or_none() if archive: return archive.filename.replace(".gcode.3mf", "").replace(".3mf", "") if item.library_file_id: result = await db.execute(select(LibraryFile).where(LibraryFile.id == item.library_file_id)) library_file = result.scalar_one_or_none() if library_file: return library_file.filename.replace(".gcode.3mf", "").replace(".3mf", "") return f"Job #{item.id}" async def _get_printer(self, db: AsyncSession, printer_id: int) -> Printer | None: """Get printer by ID.""" result = await db.execute(select(Printer).where(Printer.id == printer_id)) return result.scalar_one_or_none() async def _start_print(self, db: AsyncSession, item: PrintQueueItem): """Upload file and start print for a queue item. Supports two sources: - archive_id: Print from an existing archive - library_file_id: Print from a library file (file manager) """ logger.info("Starting queue item %s", item.id) # Get printer first (needed for both paths) result = await db.execute(select(Printer).where(Printer.id == item.printer_id)) printer = result.scalar_one_or_none() if not printer: item.status = "failed" item.error_message = "Printer not found" item.completed_at = datetime.utcnow() await db.commit() logger.error("Queue item %s: Printer %s not found", item.id, item.printer_id) await self._power_off_if_needed(db, item) return # Check printer is connected if not printer_manager.is_connected(item.printer_id): item.status = "failed" item.error_message = "Printer not connected" item.completed_at = datetime.utcnow() await db.commit() logger.error("Queue item %s: Printer %s not connected", item.id, item.printer_id) await self._power_off_if_needed(db, item) return # Determine source: archive or library file archive = None library_file = None file_path = None filename = None if item.archive_id: # Print from archive result = await db.execute(select(PrintArchive).where(PrintArchive.id == item.archive_id)) archive = result.scalar_one_or_none() if not archive: item.status = "failed" item.error_message = "Archive not found" item.completed_at = datetime.utcnow() await db.commit() logger.error("Queue item %s: Archive %s not found", item.id, item.archive_id) await self._power_off_if_needed(db, item) return file_path = settings.base_dir / archive.file_path filename = archive.filename elif item.library_file_id: # Print from library file (file manager) result = await db.execute(select(LibraryFile).where(LibraryFile.id == item.library_file_id)) library_file = result.scalar_one_or_none() if not library_file: item.status = "failed" item.error_message = "Library file not found" item.completed_at = datetime.utcnow() await db.commit() logger.error("Queue item %s: Library file %s not found", item.id, item.library_file_id) await self._power_off_if_needed(db, item) return # Library files store absolute paths lib_path = Path(library_file.file_path) file_path = lib_path if lib_path.is_absolute() else settings.base_dir / library_file.file_path filename = library_file.filename # Create archive from library file so usage tracking has access to the 3MF try: from backend.app.services.archive import ArchiveService archive_service = ArchiveService(db) archive = await archive_service.archive_print( printer_id=item.printer_id, source_file=file_path, original_filename=filename, ) if archive: item.archive_id = archive.id await db.flush() logger.info( "Queue item %s: Created archive %s from library file %s", item.id, archive.id, item.library_file_id, ) except Exception as e: logger.warning("Queue item %s: Failed to create archive from library file: %s", item.id, e) else: # Neither archive nor library file specified item.status = "failed" item.error_message = "No source file specified" item.completed_at = datetime.utcnow() await db.commit() logger.error("Queue item %s: No archive_id or library_file_id specified", item.id) await self._power_off_if_needed(db, item) return # Check file exists on disk if not file_path.exists(): item.status = "failed" item.error_message = "Source file not found on disk" item.completed_at = datetime.utcnow() await db.commit() logger.error("Queue item %s: File not found: %s", item.id, file_path) await self._power_off_if_needed(db, item) return # Upload file to printer via FTP # Use a clean filename to avoid issues with double extensions like .gcode.3mf base_name = filename if base_name.endswith(".gcode.3mf"): base_name = base_name[:-10] # Remove .gcode.3mf elif base_name.endswith(".3mf"): base_name = base_name[:-4] # Remove .3mf remote_filename = f"{base_name}.3mf" # Upload to root directory (not /cache/) - the start_print command references # files by name only (ftp://{filename}), so they must be in the root remote_path = f"/{remote_filename}" # Get FTP retry settings ftp_retry_enabled, ftp_retry_count, ftp_retry_delay, ftp_timeout = await get_ftp_retry_settings() logger.info( f"Queue item {item.id}: FTP upload starting - printer={printer.name} ({printer.model}), " f"ip={printer.ip_address}, file={remote_filename}, local_path={file_path}, " f"retry_enabled={ftp_retry_enabled}, retry_count={ftp_retry_count}, timeout={ftp_timeout}" ) # Delete existing file if present (avoids 553 error on overwrite) try: logger.debug("Queue item %s: Deleting existing file %s if present...", item.id, remote_path) delete_result = await delete_file_async( printer.ip_address, printer.access_code, remote_path, socket_timeout=ftp_timeout, printer_model=printer.model, ) logger.debug("Queue item %s: Delete result: %s", item.id, delete_result) except Exception as e: logger.debug("Queue item %s: Delete failed (may not exist): %s", item.id, e) try: if ftp_retry_enabled: uploaded = await with_ftp_retry( upload_file_async, printer.ip_address, printer.access_code, file_path, remote_path, socket_timeout=ftp_timeout, printer_model=printer.model, max_retries=ftp_retry_count, retry_delay=ftp_retry_delay, operation_name=f"Upload print to {printer.name}", ) else: uploaded = await upload_file_async( printer.ip_address, printer.access_code, file_path, remote_path, socket_timeout=ftp_timeout, printer_model=printer.model, ) except Exception as e: uploaded = False logger.error("Queue item %s: FTP error: %s (type: %s)", item.id, e, type(e).__name__) if not uploaded: error_msg = ( "Failed to upload file to printer. Check if SD card is inserted and properly formatted (FAT32/exFAT). " "See server logs for detailed diagnostics." ) item.status = "failed" item.error_message = error_msg item.completed_at = datetime.utcnow() await db.commit() logger.error( f"Queue item {item.id}: FTP upload failed - printer={printer.name}, model={printer.model}, " f"ip={printer.ip_address}. Check logs above for storage diagnostics and specific error codes." ) # Send failure notification await notification_service.on_queue_job_failed( job_name=filename.replace(".gcode.3mf", "").replace(".3mf", ""), printer_id=printer.id, printer_name=printer.name, reason="Failed to upload file to printer", db=db, ) await self._power_off_if_needed(db, item) return # Parse AMS mapping if stored ams_mapping = None if item.ams_mapping: try: ams_mapping = json.loads(item.ams_mapping) except json.JSONDecodeError: logger.warning("Queue item %s: Invalid AMS mapping JSON, ignoring", item.id) # Register as expected print so we don't create a duplicate archive # Only applicable for archive-based prints if archive: from backend.app.main import register_expected_print register_expected_print(item.printer_id, remote_filename, archive.id, ams_mapping=ams_mapping) # IMPORTANT: Set status to "printing" BEFORE sending the print command. # This prevents phantom reprints if the backend crashes/restarts after the # print command is sent but before the status update is committed. # If we crash after this commit but before start_print(), the item will be # in "printing" status without actually printing - but that's safer than # accidentally reprinting the same file hours later. item.status = "printing" item.started_at = datetime.utcnow() await db.commit() # Consume the plate-cleared flag now that we're starting a print printer_manager.consume_plate_cleared(item.printer_id) logger.info("Queue item %s: Status set to 'printing', sending print command...", item.id) # Start the print with AMS mapping, plate_id and print options started = printer_manager.start_print( item.printer_id, remote_filename, plate_id=item.plate_id or 1, ams_mapping=ams_mapping, bed_levelling=item.bed_levelling, flow_cali=item.flow_cali, vibration_cali=item.vibration_cali, layer_inspect=item.layer_inspect, timelapse=item.timelapse, use_ams=item.use_ams, ) if started: logger.info("Queue item %s: Print started successfully - %s", item.id, filename) # Get estimated time for notification estimated_time = None if archive and archive.print_time_seconds: estimated_time = archive.print_time_seconds elif library_file and library_file.print_time_seconds: estimated_time = library_file.print_time_seconds # Send job started notification await notification_service.on_queue_job_started( job_name=filename.replace(".gcode.3mf", "").replace(".3mf", ""), printer_id=printer.id, printer_name=printer.name, db=db, estimated_time=estimated_time, ) # MQTT relay - publish queue job started try: from backend.app.services.mqtt_relay import mqtt_relay await mqtt_relay.on_queue_job_started( job_id=item.id, filename=filename, printer_id=printer.id, printer_name=printer.name, printer_serial=printer.serial_number, ) except Exception: pass # Don't fail if MQTT fails else: # Clean up uploaded file from SD card to prevent phantom prints try: await delete_file_async( printer.ip_address, printer.access_code, remote_path, printer_model=printer.model, ) except Exception: pass # Best-effort — don't fail the error handler # Print command failed - revert status item.status = "failed" item.error_message = "Failed to send print command to printer" item.completed_at = datetime.utcnow() await db.commit() logger.error( f"Queue item {item.id}: Failed to start print on {printer.name} ({printer.model}) - " f"printer_manager.start_print() returned False. " f"This may indicate: printer not connected, MQTT error, unsupported model configuration, or firmware issue. " f"Check printer status and backend logs for details." ) # Send failure notification await notification_service.on_queue_job_failed( job_name=filename.replace(".gcode.3mf", "").replace(".3mf", ""), printer_id=printer.id, printer_name=printer.name, reason="Failed to send print command to printer - check printer connection and status", db=db, ) await self._power_off_if_needed(db, item) # Global scheduler instance scheduler = PrintScheduler()