fix(swig): detect and recover from BOARD proxy dehydration (#173)

KiCAD nightly builds occasionally return a SwigPyObject from
pcbnew.LoadBoard, and SaveBoard can leave self.board with no method
dispatch as a side-effect of certain sequences (delete_trace + auto-save
is the one users have hit in the wild). Before this fix, open_project
would keep reporting "Opened project: foo.kicad_pcb" while every
subsequent board operation failed with AttributeError on
GetDesignSettings / GetBoardEdgesBoundingBox / GetCurrentViaSize, with
no path to recovery short of restarting the MCP server.

Add two helpers in KiCADInterface:

* _is_board_healthy(board=None) probes for stable BOARD methods
  (GetDesignSettings, GetBoardEdgesBoundingBox, GetFileName) — these
  are missing on a dehydrated SwigPyObject, so hasattr() catches the
  state without segfaulting.
* _safe_load_board(path) wraps pcbnew.LoadBoard, checks health, and
  on dehydration reloads the pcbnew module via importlib.reload and
  retries once. Returns None when recovery is impossible so callers
  surface real failure rather than fake success.

Wire the helpers in:

* handle_command's open_project / create_project path validates the
  loaded board and either recovers (with a warnings[] entry) or
  returns success=False with an explicit "restart the MCP server"
  errorDetails — never claims success when the board is unusable.
* _auto_save_board now detects dehydration introduced by SaveBoard
  itself and reloads from disk so the next command sees a usable
  proxy. This is the post-delete_trace failure mode users hit.
* _handle_place_component, _handle_sync_schematic_to_board,
  _handle_import_svg_logo and _handle_refill_zones all go through
  _safe_load_board instead of bare LoadBoard, surfacing real errors
  consistently.

Also fix two adjacent issues observed in the same incident:

* _handle_check_kicad_ui used to call manager.is_running() and
  manager.get_process_info() separately, with different detection
  methods. They could disagree, producing the confusing
  running=True, processes=[] state users hit after manually
  quitting KiCAD. processes is now the single source of truth and
  running is derived from len().
* run_drc accepts a timeoutSec param (default 600s, clamped to
  [10, 1800]) so callers with smaller MCP transport budgets can
  bound the kicad-cli subprocess. Same timeout is applied to the
  optional report-generation subprocess. Error message names the
  actual timeout that fired.

Tests: tests/test_swig_dehydration.py adds 17 unit tests covering
detection, recovery, the open_project surfacing path, the auto-save
post-recovery path, the check_kicad_ui consistency, and the run_drc
timeout clamping. Full suite: same 12 pre-existing failures both
before and after this change, +17 new tests passing.

Note: the SWIG dehydration is fundamentally a pcbnew memory bug
exposed by repeated LoadBoard calls in a single Python process;
this PR is a defensive recovery layer, not a fix to the underlying
binding. Complementary to PR #151 (auto-save-guard), which expands
the LoadBoard call rate by refusing saves on external file change
and forcing re-open_project cycles.
This commit is contained in:
Matthew Runo
2026-05-22 14:38:59 -07:00
committed by GitHub
parent fa6cdcc0cd
commit f65eaf2798
3 changed files with 567 additions and 24 deletions

View File

@@ -187,6 +187,13 @@ class DesignRuleCommands:
}
report_path = params.get("reportPath")
# Caller-overridable timeout (seconds). Defaults to 600s for big boards
# but smaller MCP transport budgets (e.g. 120s) can lower it explicitly.
try:
timeout_sec = int(params.get("timeoutSec", 600))
except (TypeError, ValueError):
timeout_sec = 600
timeout_sec = max(10, min(timeout_sec, 1800)) # clamp to [10, 1800]
# Get the board file path
board_file = self.board.GetFileName()
@@ -225,14 +232,14 @@ class DesignRuleCommands:
board_file,
]
logger.info(f"Running DRC command: {' '.join(cmd)}")
logger.info(f"Running DRC command (timeout={timeout_sec}s): {' '.join(cmd)}")
# Run DRC
# Run DRC. subprocess.run kills the child on TimeoutExpired.
result = subprocess.run(
cmd,
capture_output=True,
text=True,
timeout=600, # 10 minute timeout for large boards (21MB PCB needs time)
timeout=timeout_sec,
)
if result.returncode != 0:
@@ -318,7 +325,7 @@ class DesignRuleCommands:
"mm",
board_file,
]
subprocess.run(cmd_report, capture_output=True, timeout=600)
subprocess.run(cmd_report, capture_output=True, timeout=timeout_sec)
# Return summary only (not full violations list)
return {
@@ -339,11 +346,14 @@ class DesignRuleCommands:
os.unlink(json_output)
except subprocess.TimeoutExpired:
logger.error("DRC command timed out")
logger.error(f"DRC command timed out after {timeout_sec}s")
return {
"success": False,
"message": "DRC command timed out",
"errorDetails": "Command took longer than 600 seconds (10 minutes)",
"errorDetails": (
f"Command took longer than {timeout_sec} seconds; "
"raise timeoutSec param for very large boards"
),
}
except Exception as e:
logger.error(f"Error running DRC: {str(e)}")

View File

@@ -567,6 +567,47 @@ class KiCADInterface:
logger.info("Updating board reference...")
# Get board from the project commands handler
self.board = self.project_commands.board
# Detect SWIG dehydration before claiming success.
# Without this, every later board op sees a raw
# SwigPyObject and raises AttributeError, while the
# MCP keeps reporting "Opened project" — the exact
# symptom users hit on KiCAD nightlies.
if not self._is_board_healthy():
board_path = (result.get("project") or {}).get("boardPath")
recovered = None
if board_path:
logger.warning(
"Board after %s is SWIG-dehydrated; attempting recovery",
command,
)
recovered = self._safe_load_board(board_path)
if recovered is not None:
self.board = recovered
self.project_commands.board = recovered
result.setdefault("warnings", []).append(
"SWIG board proxy was dehydrated on load; "
"recovered via pcbnew module reload"
)
else:
# Surface the truth — never claim success when
# the board is unusable.
return {
"success": False,
"message": (
f"{command} loaded the board but the SWIG "
"proxy is dehydrated and recovery failed"
),
"errorDetails": (
"pcbnew.LoadBoard returned a BOARD whose "
"method dispatch is missing (raw SwigPyObject). "
"This indicates SWIG state corruption in the "
"current Python process — restart the MCP "
"server to recover."
),
"_backend": "swig",
"_realtime": False,
}
self._update_command_handlers()
# Record the file's signature so subsequent auto-saves
# can detect external modifications and refuse to
@@ -694,6 +735,9 @@ class KiCADInterface:
(rotating, keeps the most recent `_auto_save_backup_keep`),
then call pcbnew.SaveBoard().
* Update the recorded signature on success.
* If SaveBoard leaves the in-memory BOARD dehydrated (observed on
KiCAD nightlies after delete_trace + auto-save), reload from disk
so the next command sees a usable proxy instead of a SwigPyObject.
Returns a status dict that handle_command merges into the caller's
response so warnings about refused saves are visible:
@@ -772,11 +816,30 @@ class KiCADInterface:
pcbnew.SaveBoard(board_path, self.board)
logger.debug(f"Auto-saved board to: {board_path}")
self._board_disk_signature = self._disk_signature(board_path)
return {"saved": True, "boardPath": board_path, "backup": backup_path}
except Exception as e:
logger.warning(f"Auto-save failed: {e}")
return {"saved": False, "error": str(e), "backup": backup_path}
# Post-save dehydration check. If the BOARD lost its bindings during
# save, reload from disk while we still know the path. board_path is
# guaranteed non-empty here (we returned early above otherwise).
if not self._is_board_healthy():
logger.warning(
"Board became dehydrated during auto-save; reloading from %s",
board_path,
)
recovered = self._safe_load_board(board_path)
if recovered is not None:
self.board = recovered
self._update_command_handlers()
else:
logger.error(
"Board dehydration after auto-save is unrecoverable — "
"subsequent commands will fail until MCP restart"
)
return {"saved": True, "boardPath": board_path, "backup": backup_path}
def _update_command_handlers(self) -> None:
"""Update board reference in all command handlers"""
logger.debug("Updating board reference in command handlers")
@@ -788,6 +851,70 @@ class KiCADInterface:
self.export_commands.board = self.board
self.freerouting_commands.board = self.board
# Stable BOARD methods used to detect SWIG dehydration. Newer KiCAD nightly
# builds occasionally return a raw SwigPyObject from pcbnew.LoadBoard after
# certain mutating sequences (delete_trace, refill_zones, …) — the proxy
# type-checks but every method access raises AttributeError. Probing for
# these methods catches that state without segfaulting.
_BOARD_HEALTH_METHODS = (
"GetDesignSettings",
"GetBoardEdgesBoundingBox",
"GetFileName",
)
def _is_board_healthy(self, board: Optional[Any] = None) -> bool:
"""Return True if the board (default self.board) has live SWIG dispatch."""
target = board if board is not None else self.board
if target is None:
return False
return all(hasattr(target, m) for m in self._BOARD_HEALTH_METHODS)
def _safe_load_board(self, path: str) -> Optional[Any]:
"""Load a board from disk, recovering from SWIG dehydration if pcbnew is broken.
If pcbnew.LoadBoard returns a dehydrated proxy, reload the pcbnew
module once and retry. Returns the new board, or None if recovery
is impossible (caller must surface a real failure rather than fake
success).
"""
global pcbnew
try:
board = pcbnew.LoadBoard(path)
except Exception as e:
logger.error(f"LoadBoard({path!r}) raised: {e}")
return None
if self._is_board_healthy(board):
return board
logger.warning(
f"LoadBoard({path!r}) returned a dehydrated SWIG proxy; "
"reloading pcbnew module and retrying"
)
try:
import importlib
pcbnew = importlib.reload(pcbnew)
except Exception as e:
logger.error(f"pcbnew module reload failed: {e}")
return None
try:
board = pcbnew.LoadBoard(path)
except Exception as e:
logger.error(f"LoadBoard retry after pcbnew reload failed: {e}")
return None
if not self._is_board_healthy(board):
logger.error(
"Board still dehydrated after pcbnew reload; SWIG state is "
"unrecoverable in this process — restart the MCP server"
)
return None
logger.info("Recovered from SWIG dehydration via pcbnew reload")
return board
# Schematic command handlers
def _handle_create_schematic(self, params: Dict[str, Any]) -> Dict[str, Any]:
"""Create a new schematic"""
@@ -921,17 +1048,19 @@ class KiCADInterface:
current_board_file = str(Path(self.board.GetFileName()).resolve()) if self.board else ""
if board_path_norm != current_board_file:
logger.info(f"boardPath differs from current board — reloading: {board_path}")
try:
self.board = pcbnew.LoadBoard(board_path)
self._update_command_handlers()
logger.info("Board reloaded from boardPath")
except Exception as e:
logger.error(f"Failed to reload board from boardPath: {e}")
reloaded = self._safe_load_board(board_path)
if reloaded is None:
return {
"success": False,
"message": f"Could not load board from boardPath: {board_path}",
"errorDetails": str(e),
"errorDetails": (
"pcbnew.LoadBoard failed or returned a dehydrated "
"SWIG proxy that could not be recovered"
),
}
self.board = reloaded
self._update_command_handlers()
logger.info("Board reloaded from boardPath")
project_path = Path(board_path).parent
if project_path != getattr(self, "_current_project_path", None):
@@ -4197,7 +4326,16 @@ class KiCADInterface:
# Determine board to work with
board = None
if board_path:
board = pcbnew.LoadBoard(board_path)
board = self._safe_load_board(board_path)
if board is None:
return {
"success": False,
"message": f"Could not load board from {board_path}",
"errorDetails": (
"pcbnew.LoadBoard failed or returned a dehydrated "
"SWIG proxy that could not be recovered"
),
}
elif self.board:
board = self.board
board_path = board.GetFileName() if not board_path else board_path
@@ -4764,14 +4902,15 @@ class KiCADInterface:
# call would overwrite the file with the stale in-memory state, erasing the
# logo. Reload the board from disk so pcbnew's memory matches the file.
if result.get("success") and self.board:
try:
self.board = pcbnew.LoadBoard(pcb_path)
# Propagate updated board reference to all command handlers
reloaded = self._safe_load_board(pcb_path)
if reloaded is not None:
self.board = reloaded
self._update_command_handlers()
logger.info("Reloaded board into pcbnew after SVG logo import")
except Exception as reload_err:
else:
logger.warning(
f"Board reload after SVG import failed (non-fatal): {reload_err}"
"Board reload after SVG import failed (non-fatal); "
"next mutation may operate on stale in-memory state"
)
return result
@@ -4868,12 +5007,19 @@ class KiCADInterface:
return {"success": False, "message": str(e)}
def _handle_check_kicad_ui(self, params: Dict[str, Any]) -> Dict[str, Any]:
"""Check if KiCAD UI is running"""
"""Check if KiCAD UI is running.
`processes` is the single source of truth — `running` is derived from
its length so the two fields cannot disagree. Previously they came
from separate detection methods (pgrep regex vs. ps-aux substring) and
could race or use different filters, producing the confusing
`running=True, processes=[]` state users hit after quitting KiCAD.
"""
logger.info("Checking if KiCAD UI is running")
try:
manager = KiCADProcessManager()
is_running = manager.is_running()
processes = manager.get_process_info() if is_running else []
processes = manager.get_process_info()
is_running = len(processes) > 0
return {
"success": True,
@@ -4956,7 +5102,18 @@ print("ok")
)
if result.returncode == 0 and "ok" in result.stdout:
# Reload board after subprocess modified it
self.board = pcbnew.LoadBoard(board_path)
reloaded = self._safe_load_board(board_path)
if reloaded is None:
return {
"success": False,
"message": (
"Zone fill subprocess succeeded but the board "
"could not be reloaded into pcbnew (SWIG state "
"is corrupt — restart the MCP server)"
),
"zoneCount": zone_count,
}
self.board = reloaded
self._update_command_handlers()
logger.info("Zone fill subprocess succeeded")
return {

View File

@@ -0,0 +1,376 @@
"""
Tests for SWIG board-dehydration detection and recovery in KiCADInterface.
Reproduces the failure mode users hit on KiCAD nightly builds: after sequences
like delete_trace + add_via, pcbnew.LoadBoard returns a "dehydrated" BOARD —
a SWIG proxy whose method dispatch table is missing, so every method access
raises AttributeError. Without recovery, every subsequent call fails and
open_project keeps reporting fake success because LoadBoard didn't raise.
Also covers the check_kicad_ui consistency fix where running and processes
could disagree.
"""
import sys
from pathlib import Path
from typing import Any
from unittest.mock import MagicMock, patch
import pytest
sys.path.insert(0, str(Path(__file__).parent.parent / "python"))
# ---------------------------------------------------------------------------
# Fixtures: stand-ins for SWIG BOARD proxies
# ---------------------------------------------------------------------------
def _make_dehydrated_board() -> Any:
"""A bare object simulating the post-dehydration SwigPyObject — no methods."""
class _Dehydrated:
# Intentionally empty: hasattr(...) for the health-check methods
# returns False, matching the symptom users hit.
pass
return _Dehydrated()
def _make_healthy_board() -> Any:
"""A MagicMock that satisfies _is_board_healthy."""
board = MagicMock(name="HealthyBoard")
board.GetDesignSettings = MagicMock(return_value=MagicMock())
board.GetBoardEdgesBoundingBox = MagicMock(return_value=MagicMock())
board.GetFileName = MagicMock(return_value="/tmp/test.kicad_pcb")
return board
def _make_iface() -> Any:
"""Build a KiCADInterface skipping __init__ — same pattern as test_erc_handler.
handle_command reads `use_ipc` and `ipc_board_api` early; set them so a
test exercising the routing layer doesn't crash on the IPC short-circuit.
"""
with patch("kicad_interface.USE_IPC_BACKEND", False):
from kicad_interface import KiCADInterface
iface = KiCADInterface.__new__(KiCADInterface)
iface.use_ipc = False
iface.ipc_board_api = None
return iface
# ---------------------------------------------------------------------------
# _is_board_healthy
# ---------------------------------------------------------------------------
def test_is_board_healthy_returns_false_for_none():
iface = _make_iface()
iface.board = None
assert iface._is_board_healthy() is False
def test_is_board_healthy_returns_false_for_dehydrated_proxy():
iface = _make_iface()
iface.board = _make_dehydrated_board()
assert iface._is_board_healthy() is False
def test_is_board_healthy_returns_true_for_real_board():
iface = _make_iface()
iface.board = _make_healthy_board()
assert iface._is_board_healthy() is True
def test_is_board_healthy_accepts_explicit_target():
iface = _make_iface()
iface.board = None # self.board is broken
healthy = _make_healthy_board()
# Explicit argument bypasses self.board
assert iface._is_board_healthy(healthy) is True
assert iface._is_board_healthy(_make_dehydrated_board()) is False
# ---------------------------------------------------------------------------
# _safe_load_board
# ---------------------------------------------------------------------------
def test_safe_load_board_returns_loaded_board_when_healthy():
iface = _make_iface()
healthy = _make_healthy_board()
with patch("kicad_interface.pcbnew") as mock_pcbnew:
mock_pcbnew.LoadBoard = MagicMock(return_value=healthy)
result = iface._safe_load_board("/tmp/x.kicad_pcb")
assert result is healthy
def test_safe_load_board_retries_after_pcbnew_reload_when_dehydrated():
iface = _make_iface()
dehydrated = _make_dehydrated_board()
healthy = _make_healthy_board()
# First LoadBoard returns dehydrated → reload pcbnew → second LoadBoard returns healthy
with patch("kicad_interface.pcbnew") as mock_pcbnew, patch("importlib.reload") as mock_reload:
mock_pcbnew.LoadBoard = MagicMock(side_effect=[dehydrated, healthy])
mock_reload.return_value = mock_pcbnew # reload returns the (mock) module
result = iface._safe_load_board("/tmp/x.kicad_pcb")
assert result is healthy
assert mock_pcbnew.LoadBoard.call_count == 2
mock_reload.assert_called_once()
def test_safe_load_board_returns_none_when_recovery_fails():
iface = _make_iface()
dehydrated = _make_dehydrated_board()
with patch("kicad_interface.pcbnew") as mock_pcbnew, patch("importlib.reload") as mock_reload:
mock_pcbnew.LoadBoard = MagicMock(return_value=dehydrated) # always dehydrated
mock_reload.return_value = mock_pcbnew
result = iface._safe_load_board("/tmp/x.kicad_pcb")
assert result is None
def test_safe_load_board_returns_none_when_loadboard_raises():
iface = _make_iface()
with patch("kicad_interface.pcbnew") as mock_pcbnew:
mock_pcbnew.LoadBoard = MagicMock(side_effect=RuntimeError("io error"))
result = iface._safe_load_board("/tmp/missing.kicad_pcb")
assert result is None
# ---------------------------------------------------------------------------
# handle_command("open_project") — surfacing dehydration vs. recovery
# ---------------------------------------------------------------------------
def _wire_open_project(iface: Any, board_to_assign: Any, board_path: str) -> None:
"""Make iface.project_commands.open_project return success and assign a board."""
iface.project_commands = MagicMock()
def _fake(params):
iface.project_commands.board = board_to_assign
return {
"success": True,
"message": f"Opened project: {Path(board_path).name}",
"project": {
"name": Path(board_path).stem,
"path": board_path,
"boardPath": board_path,
},
}
iface.project_commands.open_project = _fake
# Stub the rest of _update_command_handlers' targets
for attr in (
"board_commands",
"component_commands",
"routing_commands",
"design_rule_commands",
"export_commands",
"freerouting_commands",
):
setattr(iface, attr, MagicMock())
# Provide minimal command_routes so handle_command can route
iface.command_routes = {"open_project": iface.project_commands.open_project}
def test_handle_open_project_surfaces_dehydration_when_recovery_fails():
"""If LoadBoard returns a dehydrated proxy and recovery fails, the MCP must
return success=False — never claim "Opened project" while the board is
unusable. This is the fix for the silent-success bug users hit."""
iface = _make_iface()
dehydrated = _make_dehydrated_board()
_wire_open_project(iface, dehydrated, "/tmp/test.kicad_pcb")
iface._safe_load_board = MagicMock(return_value=None) # recovery impossible
result = iface.handle_command("open_project", {"filename": "/tmp/test.kicad_pro"})
assert result["success"] is False, f"Expected failure, got: {result}"
combined = (result.get("errorDetails", "") + result.get("message", "")).lower()
assert "dehydrated" in combined or "swigpyobject" in combined
def test_handle_open_project_recovers_via_safe_load_board():
"""When _safe_load_board succeeds, open_project should report success
with a warning and the recovered board should be installed."""
iface = _make_iface()
dehydrated = _make_dehydrated_board()
healthy = _make_healthy_board()
_wire_open_project(iface, dehydrated, "/tmp/test.kicad_pcb")
iface._safe_load_board = MagicMock(return_value=healthy)
result = iface.handle_command("open_project", {"filename": "/tmp/test.kicad_pro"})
assert result["success"] is True, f"Expected recovery success, got: {result}"
assert iface.board is healthy
iface._safe_load_board.assert_called_once_with("/tmp/test.kicad_pcb")
warnings = result.get("warnings", [])
assert any("dehydrated" in w.lower() for w in warnings)
def test_handle_open_project_passes_through_when_already_healthy():
"""The fast path: LoadBoard returned a healthy board, no recovery needed."""
iface = _make_iface()
healthy = _make_healthy_board()
_wire_open_project(iface, healthy, "/tmp/test.kicad_pcb")
iface._safe_load_board = MagicMock(
side_effect=AssertionError("should not be called when board is healthy")
)
result = iface.handle_command("open_project", {"filename": "/tmp/test.kicad_pro"})
assert result["success"] is True
assert iface.board is healthy
assert "warnings" not in result # no recovery happened
# ---------------------------------------------------------------------------
# _auto_save_board — recover if save dehydrates the board in-memory
# ---------------------------------------------------------------------------
def test_auto_save_recovers_when_save_leaves_board_dehydrated():
"""If pcbnew.SaveBoard somehow corrupts the in-memory BOARD (observed on
nightlies after delete_trace + auto-save), _auto_save_board reloads from
disk so the next command sees a usable proxy."""
iface = _make_iface()
# Start with a healthy board that becomes dehydrated after SaveBoard runs
healthy = _make_healthy_board()
healthy.GetFileName = MagicMock(return_value="/tmp/test.kicad_pcb")
iface.board = healthy
recovered = _make_healthy_board()
iface._safe_load_board = MagicMock(return_value=recovered)
# Stub _update_command_handlers' downstream targets
for attr in (
"project_commands",
"board_commands",
"component_commands",
"routing_commands",
"design_rule_commands",
"export_commands",
"freerouting_commands",
):
setattr(iface, attr, MagicMock())
def _save_then_dehydrate(path, board):
# SaveBoard succeeds but leaves iface.board unusable
iface.board = _make_dehydrated_board()
iface.board.GetFileName = MagicMock(return_value="/tmp/test.kicad_pcb")
with patch("kicad_interface.pcbnew") as mock_pcbnew:
mock_pcbnew.SaveBoard = MagicMock(side_effect=_save_then_dehydrate)
iface._auto_save_board()
assert iface.board is recovered
iface._safe_load_board.assert_called_once_with("/tmp/test.kicad_pcb")
# ---------------------------------------------------------------------------
# check_kicad_ui consistency fix
# ---------------------------------------------------------------------------
def test_check_kicad_ui_running_false_when_no_processes():
iface = _make_iface()
with patch("kicad_interface.KiCADProcessManager") as MockMgr:
MockMgr.return_value.get_process_info.return_value = []
result = iface._handle_check_kicad_ui({})
assert result["success"] is True
assert result["running"] is False
assert result["processes"] == []
def test_check_kicad_ui_running_true_when_processes_present():
iface = _make_iface()
with patch("kicad_interface.KiCADProcessManager") as MockMgr:
MockMgr.return_value.get_process_info.return_value = [
{"pid": "1234", "name": "kicad", "command": "/Applications/KiCad/.../kicad"}
]
result = iface._handle_check_kicad_ui({})
assert result["success"] is True
assert result["running"] is True
assert len(result["processes"]) == 1
def test_check_kicad_ui_running_and_processes_never_disagree():
"""Regression test for the old race where running=True coexisted with
processes=[] because is_running() and get_process_info() used different
detection methods."""
iface = _make_iface()
with patch("kicad_interface.KiCADProcessManager") as MockMgr:
# Even if some hypothetical separate is_running() returned True,
# only get_process_info matters now.
MockMgr.return_value.is_running.return_value = True
MockMgr.return_value.get_process_info.return_value = []
result = iface._handle_check_kicad_ui({})
assert result["running"] is False
assert result["processes"] == []
# ---------------------------------------------------------------------------
# run_drc — caller-overridable timeout
# ---------------------------------------------------------------------------
def test_run_drc_honors_timeout_sec_param():
"""timeoutSec param must be passed to the subprocess.run timeout argument."""
import subprocess as _sp
from commands.design_rules import DesignRuleCommands
cmds = DesignRuleCommands(board=_make_healthy_board())
cmds.board.GetFileName = MagicMock(return_value="/tmp/exists.kicad_pcb")
captured: dict = {}
def _fake_run(cmd, **kwargs):
captured["timeout"] = kwargs.get("timeout")
# Raise TimeoutExpired so we don't need to fake JSON output
raise _sp.TimeoutExpired(cmd, kwargs.get("timeout", 0))
with (
patch("os.path.exists", return_value=True),
patch("subprocess.run", side_effect=_fake_run),
patch.object(cmds, "_find_kicad_cli", return_value="/usr/bin/kicad-cli"),
):
result = cmds.run_drc({"timeoutSec": 45})
assert captured["timeout"] == 45
assert result["success"] is False
assert "45" in result["errorDetails"]
def test_run_drc_clamps_extreme_timeout_values():
"""Bad timeoutSec values must be clamped, not crash."""
import subprocess as _sp
from commands.design_rules import DesignRuleCommands
cmds = DesignRuleCommands(board=_make_healthy_board())
cmds.board.GetFileName = MagicMock(return_value="/tmp/exists.kicad_pcb")
captured: dict = {}
def _fake_run(cmd, **kwargs):
captured.setdefault("timeouts", []).append(kwargs.get("timeout"))
raise _sp.TimeoutExpired(cmd, kwargs.get("timeout", 0))
with (
patch("os.path.exists", return_value=True),
patch("subprocess.run", side_effect=_fake_run),
patch.object(cmds, "_find_kicad_cli", return_value="/usr/bin/kicad-cli"),
):
cmds.run_drc({"timeoutSec": -100}) # below clamp
cmds.run_drc({"timeoutSec": 99999}) # above clamp
cmds.run_drc({"timeoutSec": "garbage"}) # unparseable → default 600
assert captured["timeouts"][0] == 10 # clamped to min
assert captured["timeouts"][1] == 1800 # clamped to max
assert captured["timeouts"][2] == 600 # fallback default