Compare commits

...

4 Commits

Author SHA1 Message Date
jessey 31178bace8 Merge pull request 'feat(memory): flag RAM below rated speed (XMP/EXPO not enabled) — 0.40.0' (#44) from feat/ram-speed into main
release / test (push) Successful in 13s
release / release (push) Successful in 16s
Reviewed-on: #44
2026-05-22 15:00:25 +00:00
jessey 04e8d72bce feat(memory): flag RAM below rated speed (XMP/EXPO not enabled) — 0.40.0
tests / core (pull_request) Successful in 12s
tests / gui-smoke (pull_request) Successful in 27s
Inventory shows configured RAM speed + the rated speed when lower
('4800 MT/s (rated 5600)'); System Health flags it with the fix (enable
XMP/EXPO in BIOS). With the profile off dmidecode only reports the JEDEC base,
so the rated speed comes from dmidecode's max OR the part number, matched against
known DDR5 speed grades to avoid false positives. inventory.module_speed() shared
by both; needs dmidecode (root/launch elevation). +tests (incl. the user's
CMK..5600 kit → (4800, 5600)). Completes the underperforming-hardware trio with
PCIe gen + refresh rate.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-22 17:00:02 +02:00
jessey fb468e83c2 Merge pull request 'feat(displays): monitors w/ resolution+refresh in Inventory; flag sub-max refresh in Health — 0.39.0' (#43) from feat/displays into main
release / test (push) Successful in 12s
release / release (push) Successful in 15s
Reviewed-on: #43
2026-05-22 14:56:15 +00:00
jessey b006fa6b8d feat(displays): monitors w/ resolution+refresh in Inventory; flag sub-max refresh in Health — 0.39.0
tests / core (pull_request) Successful in 12s
tests / gui-smoke (pull_request) Successful in 27s
New core/displays.py reads connected monitors via GNOME Mutter DisplayConfig over
D-Bus (busctl --json; works on X11 + Wayland), falling back to xrandr on other X11
desktops. Inventory's Display section now lists each monitor's resolution + current
refresh (e.g. 'DP-1 · Samsung LC34G55T: 3440x1440 @ 165 Hz'). System Health
(check_displays) flags a monitor running below its max refresh AT THE CURRENT
resolution (e.g. 165 Hz panel set to 60 Hz) — never suggests lowering resolution.
+tests (Mutter JSON + xrandr parsers, health check).

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-22 16:55:33 +02:00
9 changed files with 381 additions and 7 deletions
+20
View File
@@ -5,6 +5,26 @@ All notable changes to RigDoctor are recorded here. Format follows
(`MAJOR.MINOR.PATCH`, pre-1.0). `__version__` and `pyproject.toml` must match the git (`MAJOR.MINOR.PATCH`, pre-1.0). `__version__` and `pyproject.toml` must match the git
release tag (so the auto-updater, D18, can compare versions). release tag (so the auto-updater, D18, can compare versions).
## [0.40.0] - 2026-05-22
### Added
- **RAM speed / XMP-EXPO check.** Inventory now shows each module's configured speed and, when it's
below the rated speed, the rating (e.g. `4800 MT/s (rated 5600)`); **System Health** flags it
("RAM at 4800 MT/s (rated 5600 MT/s)") with the fix — enable XMP/EXPO in BIOS. With the profile
off, dmidecode only reports the JEDEC base, so the rated speed is read from both dmidecode and
the part number (matched against known DDR5 speed grades, so no false positives). Needs dmidecode
(root / launch elevation). Completes the "underperforming hardware" trio with PCIe gen + refresh.
## [0.39.0] - 2026-05-22
### Added
- **Displays in the Inventory.** A new `core/displays.py` lists each connected monitor with its
resolution and current/max refresh — e.g. `DP-1 · Samsung LC34G55T → 3440x1440 @ 165 Hz`. Reads
GNOME's Mutter `DisplayConfig` over D-Bus (works on X11 *and* Wayland), falling back to `xrandr`
on other X11 desktops.
- **System Health flags monitors below their max refresh.** If a monitor supports a higher refresh
at its current resolution (e.g. a 165 Hz panel set to 60 Hz — an easily-missed gaming setting),
Health reports it with the fix (raise it in Display settings). Max is computed at the *current*
resolution, so it never suggests dropping resolution.
## [0.38.0] - 2026-05-22 ## [0.38.0] - 2026-05-22
### Added ### Added
- **PCIe link in the Inventory.** Each NVMe drive now shows its negotiated PCIe link next to the - **PCIe link in the Inventory.** Each NVMe drive now shows its negotiated PCIe link next to the
+1 -1
View File
@@ -4,7 +4,7 @@ build-backend = "setuptools.build_meta"
[project] [project]
name = "rigdoctor" name = "rigdoctor"
version = "0.38.0" version = "0.40.0"
description = "Modular hardware monitoring & crash diagnostics for Linux gamers." description = "Modular hardware monitoring & crash diagnostics for Linux gamers."
readme = "README.md" readme = "README.md"
requires-python = ">=3.11" requires-python = ">=3.11"
+1 -1
View File
@@ -1,3 +1,3 @@
"""RigDoctor — modular hardware monitoring & crash diagnostics for Linux gamers.""" """RigDoctor — modular hardware monitoring & crash diagnostics for Linux gamers."""
__version__ = "0.38.0" __version__ = "0.40.0"
+148
View File
@@ -0,0 +1,148 @@
"""Connected displays (M5): resolution + current/max refresh per monitor.
GNOME exposes the authoritative data over D-Bus (Mutter `DisplayConfig.GetCurrentState`),
which works on both X11 and Wayland — read via `busctl --json`. Plain X11 desktops fall back
to `xrandr`. Other Wayland compositors (sway/KDE) aren't covered yet and degrade to empty.
Stdlib only; every probe fails soft. Max refresh is computed at the *current* resolution, so
"can go faster" never suggests dropping resolution.
"""
from __future__ import annotations
import json
import re
import shutil
import subprocess
from dataclasses import dataclass
# A few common PNP monitor-vendor IDs → friendly names (best-effort; unknown codes pass through).
_PNP = {
"SAM": "Samsung", "DEL": "Dell", "GSM": "LG", "LGD": "LG", "AUS": "ASUS", "ACR": "Acer",
"BNQ": "BenQ", "MSI": "MSI", "AOC": "AOC", "VSC": "ViewSonic", "HWP": "HP", "HPN": "HP",
"PHL": "Philips", "GBT": "Gigabyte", "APP": "Apple", "DGC": "Dell",
}
@dataclass
class Monitor:
connector: str # e.g. "DP-1"
name: str # e.g. "Samsung LC34G55T" ("" if unknown, e.g. xrandr)
width: int
height: int
refresh: float # current Hz
max_refresh: float # max Hz available at the current resolution
@property
def can_go_faster(self) -> bool:
"""True if a meaningfully higher refresh is available at the current resolution."""
return self.max_refresh - self.refresh > 1.0
def label(self) -> str:
return f"{self.connector} · {self.name}".rstrip(" ·") if self.name else self.connector
def _run(cmd: list[str], timeout: float = 8.0) -> str:
try:
proc = subprocess.run(cmd, capture_output=True, text=True, timeout=timeout)
if proc.returncode == 0:
return proc.stdout
except (subprocess.SubprocessError, OSError):
pass
return ""
def _parse_mutter(out: str) -> list[Monitor]:
"""Parse `busctl --json` output of Mutter DisplayConfig.GetCurrentState.
data = [serial, monitors, logical_monitors, props]; each monitor is
[[connector, vendor, product, serial], [modes], props]; each mode is
[id, width, height, refresh, scale, [scales], {props}] where props may hold is-current.
"""
try:
data = json.loads(out)["data"]
raw_monitors = data[1]
except (json.JSONDecodeError, KeyError, IndexError, TypeError):
return []
monitors: list[Monitor] = []
for mon in raw_monitors:
try:
connector, vendor, product = mon[0][0], mon[0][1], mon[0][2]
modes = mon[1]
except (IndexError, TypeError):
continue
current = None
for m in modes:
props = m[6] if len(m) > 6 and isinstance(m[6], dict) else {}
if (props.get("is-current") or {}).get("data"):
current = m
break
if current is None:
continue
w, h, r = int(current[1]), int(current[2]), float(current[3])
max_r = max((float(m[3]) for m in modes if int(m[1]) == w and int(m[2]) == h), default=r)
name = f"{_PNP.get(vendor, vendor)} {product}".strip()
monitors.append(Monitor(connector, name, w, h, r, max_r))
return monitors
def _parse_xrandr(out: str) -> list[Monitor]:
"""Parse `xrandr --query`: an output line with the active WxH+x+y, then indented mode lines
whose rates carry `*` for the current one."""
monitors: list[Monitor] = []
out_re = re.compile(r"^(\S+) connected.*?(\d+)x(\d+)\+\d+\+\d+")
mode_re = re.compile(r"^\s+(\d+)x(\d+)\s+(.+)$")
name = ""
cw = ch = 0
cur_r = max_r = 0.0
def flush() -> None:
if name and cw and cur_r:
monitors.append(Monitor(name, "", cw, ch, cur_r, max_r or cur_r))
for line in out.splitlines():
mo = out_re.match(line)
if mo:
flush()
name, cw, ch = mo.group(1), int(mo.group(2)), int(mo.group(3))
cur_r = max_r = 0.0
continue
mm = mode_re.match(line)
if mm and name and int(mm.group(1)) == cw and int(mm.group(2)) == ch:
for tok in mm.group(3).split():
try:
rate = float(tok.rstrip("*+"))
except ValueError:
continue
max_r = max(max_r, rate)
if "*" in tok:
cur_r = rate
flush()
return monitors
def _mutter() -> list[Monitor]:
exe = shutil.which("busctl")
if not exe:
return []
out = _run([exe, "--user", "--json=short", "call", "org.gnome.Mutter.DisplayConfig",
"/org/gnome/Mutter/DisplayConfig", "org.gnome.Mutter.DisplayConfig",
"GetCurrentState"])
return _parse_mutter(out) if out.strip() else []
def _xrandr() -> list[Monitor]:
if not shutil.which("xrandr"):
return []
return _parse_xrandr(_run(["xrandr", "--query"]))
def collect() -> list[Monitor]:
"""Connected monitors, via the first backend that returns any (Mutter, then xrandr)."""
for backend in (_mutter, _xrandr):
try:
monitors = backend()
except Exception:
monitors = []
if monitors:
return monitors
return []
+42
View File
@@ -283,6 +283,46 @@ def check_pcie_links() -> list[Finding]:
return findings return findings
def check_displays() -> list[Finding]:
"""Flag monitors running below their max refresh rate at the current resolution — e.g. a
165 Hz panel set to 60 Hz, a common and easily-missed gaming setting (read-only suggestion)."""
from . import displays
findings: list[Finding] = []
for m in displays.collect():
if m.can_go_faster:
findings.append(Finding(
INFO, "Display",
f"{m.connector} at {round(m.refresh)} Hz (supports {round(m.max_refresh)} Hz)",
f"{m.name or m.connector} is running at {round(m.refresh)} Hz at "
f"{m.width}x{m.height}, but supports {round(m.max_refresh)} Hz at that resolution.",
"Raise the refresh rate in your desktop's Display settings (GNOME: Settings → Displays)."))
return findings
def check_memory_speed() -> list[Finding]:
"""Flag RAM running below its rated speed — i.e. the XMP (Intel) / EXPO (AMD) profile isn't
enabled, leaving memory bandwidth on the table. Needs dmidecode (root); silent without it."""
from . import elevation, inventory
priv = elevation.privileged()
dmi = priv["dmidecode"] if (priv and priv.get("dmidecode")) else inventory._dmidecode()
worst: tuple[int, int] | None = None # (configured, rated) with the biggest gap
for m in dmi.get("memory", []):
configured, rated = inventory.module_speed(m)
if configured and rated and configured < rated:
if worst is None or (rated - configured) > (worst[1] - worst[0]):
worst = (configured, rated)
if worst is None:
return []
configured, rated = worst
return [Finding(
INFO, "Memory", f"RAM at {configured} MT/s (rated {rated} MT/s)",
f"Memory is running at {configured} MT/s but the modules are rated {rated} MT/s — the "
"XMP/EXPO profile isn't enabled, so you're leaving memory bandwidth on the table.",
"Enable XMP (Intel) or EXPO (AMD) in your BIOS/UEFI to run at the rated speed.")]
def run_health_checks(include_journal: bool = True) -> list[Finding]: def run_health_checks(include_journal: bool = True) -> list[Finding]:
"""Run all checks and return findings sorted by severity (worst first). """Run all checks and return findings sorted by severity (worst first).
@@ -306,5 +346,7 @@ def run_health_checks(include_journal: bool = True) -> list[Finding]:
findings += check_smart() findings += check_smart()
findings += check_live_temps() findings += check_live_temps()
findings += check_pcie_links() findings += check_pcie_links()
findings += check_displays()
findings += check_memory_speed() # uses elevation data if present, else dmidecode (root)
findings.sort(key=lambda f: _ORDER.get(f.severity, 9)) findings.sort(key=lambda f: _ORDER.get(f.severity, 9))
return findings return findings
+45 -4
View File
@@ -86,6 +86,35 @@ def _firmware(dmi: dict) -> Section:
return Section("Firmware", items) return Section("Firmware", items)
# Common DDR5 XMP/EXPO speed grades (MT/s) — used to read a kit's rated speed from its part
# number, since with XMP/EXPO off dmidecode only reports the JEDEC base (e.g. 4800).
_DDR_SPEEDS = {4800, 5200, 5600, 6000, 6200, 6400, 6600, 6800, 7000, 7200, 7600, 8000, 8200, 8400}
def _mts(value: str) -> int | None:
"""Parse a dmidecode speed like '4800 MT/s' (or 'MHz') to its integer MT/s."""
m = re.match(r"\s*(\d+)", value or "")
return int(m.group(1)) if m else None
def _rated_from_part(part: str) -> int | None:
"""The highest known DDR speed-grade appearing as a 4-digit token in a part number."""
grades = [int(n) for n in re.findall(r"(?<!\d)(\d{4})(?!\d)", part or "") if int(n) in _DDR_SPEEDS]
return max(grades) if grades else None
def module_speed(m: dict) -> tuple[int | None, int | None]:
"""(configured, rated) MT/s for a dmidecode Memory Device.
Configured = what it's actually running at; rated = the highest of dmidecode's reported max
and the part-number speed-grade (so an unapplied XMP/EXPO profile is still detected).
"""
configured = _mts(m.get("Configured Memory Speed") or m.get("Configured Clock Speed") or m.get("Speed", ""))
candidates = [s for s in (_mts(m.get("Speed", "")), _rated_from_part(m.get("Part Number", ""))) if s]
rated = max(candidates) if candidates else None
return configured, rated
def _memory(dmi: dict) -> Section: def _memory(dmi: dict) -> Section:
items: list[tuple[str, str]] = [] items: list[tuple[str, str]] = []
try: try:
@@ -99,8 +128,12 @@ def _memory(dmi: dict) -> Section:
if modules: if modules:
items.append(("Modules", str(len(modules)))) items.append(("Modules", str(len(modules))))
for i, m in enumerate(modules): for i, m in enumerate(modules):
desc = " · ".join(p for p in (m.get("Size"), m.get("Type"), m.get("Speed"), m.get("Part Number")) if p) configured, rated = module_speed(m)
items.append((f"Slot {i}", desc)) speed = f"{configured} MT/s" if configured else m.get("Speed", "")
if rated and configured and rated > configured: # XMP/EXPO not applied
speed += f" (rated {rated})"
parts = (m.get("Size"), m.get("Type"), speed, m.get("Part Number"))
items.append((f"Slot {i}", " · ".join(p for p in parts if p)))
elif shutil.which("dmidecode"): elif shutil.which("dmidecode"):
items.append(("Modules", "run with admin for module details")) items.append(("Modules", "run with admin for module details"))
return Section("Memory", items) return Section("Memory", items)
@@ -201,10 +234,18 @@ def _storage() -> Section:
def _display() -> Section: def _display() -> Section:
return Section("Display", [ from . import displays
items = [
("Session", os.environ.get("XDG_SESSION_TYPE", "unknown")), ("Session", os.environ.get("XDG_SESSION_TYPE", "unknown")),
("Desktop", os.environ.get("XDG_CURRENT_DESKTOP") or os.environ.get("DESKTOP_SESSION", "unknown")), ("Desktop", os.environ.get("XDG_CURRENT_DESKTOP") or os.environ.get("DESKTOP_SESSION", "unknown")),
]) ]
for m in displays.collect():
val = f"{m.width}x{m.height} @ {round(m.refresh)} Hz"
if m.can_go_faster:
val += f" (supports {round(m.max_refresh)} Hz)"
items.append((m.label(), val))
return Section("Display", items)
def _dmidecode() -> dict: def _dmidecode() -> dict:
+67
View File
@@ -0,0 +1,67 @@
"""Tests for display detection (Mutter D-Bus JSON + xrandr parsers)."""
import unittest
from rigdoctor.core import displays
# Minimal Mutter GetCurrentState (busctl --json) shape: current mode is 60 Hz, panel max 165 Hz.
_MUTTER_60 = (
'{"type":"x","data":[1,[[["DP-1","SAM","LC34G55T","S"],['
'["3440x1440@60",3440,1440,60.0,1.0,[1.0],{"is-current":{"type":"b","data":true}}],'
'["3440x1440@165",3440,1440,165.0,1.0,[1.0],{"is-preferred":{"type":"b","data":true}}]'
'],{}]],[],{}]}'
)
_MUTTER_MAX = (
'{"type":"x","data":[1,[[["DP-1","SAM","LC34G55T","S"],['
'["3440x1440@165",3440,1440,165.0,1.0,[1.0],{"is-current":{"type":"b","data":true}}],'
'["3440x1440@60",3440,1440,60.0,1.0,[1.0],{}]'
'],{}]],[],{}]}'
)
_XRANDR_60 = """Screen 0: minimum 8 x 8, current 3440 x 1440, maximum 16384 x 16384
DP-1 connected primary 3440x1440+0+0 (normal left inverted right x axis y axis) 800mm x 335mm
3440x1440 60.00*+ 165.00 100.00
2560x1440 165.00 60.00
HDMI-1 disconnected (normal left inverted right x axis y axis)
"""
class MutterParseTests(unittest.TestCase):
def test_parses_and_flags_higher_refresh(self):
mons = displays._parse_mutter(_MUTTER_60)
self.assertEqual(len(mons), 1)
m = mons[0]
self.assertEqual(m.connector, "DP-1")
self.assertEqual(m.name, "Samsung LC34G55T") # PNP code SAM mapped
self.assertEqual((m.width, m.height), (3440, 1440))
self.assertEqual(round(m.refresh), 60)
self.assertEqual(round(m.max_refresh), 165)
self.assertTrue(m.can_go_faster)
def test_at_max_is_not_flagged(self):
m = displays._parse_mutter(_MUTTER_MAX)[0]
self.assertEqual(round(m.refresh), 165)
self.assertFalse(m.can_go_faster)
def test_garbage_returns_empty(self):
self.assertEqual(displays._parse_mutter("not json"), [])
self.assertEqual(displays._parse_mutter("{}"), [])
class XrandrParseTests(unittest.TestCase):
def test_current_and_max_refresh(self):
mons = displays._parse_xrandr(_XRANDR_60)
self.assertEqual(len(mons), 1) # disconnected output ignored
m = mons[0]
self.assertEqual(m.connector, "DP-1")
self.assertEqual((m.width, m.height), (3440, 1440))
self.assertEqual(round(m.refresh), 60)
self.assertEqual(round(m.max_refresh), 165)
self.assertTrue(m.can_go_faster)
def test_empty_returns_empty(self):
self.assertEqual(displays._parse_xrandr(""), [])
if __name__ == "__main__":
unittest.main()
+39 -1
View File
@@ -4,11 +4,13 @@ import unittest
from pathlib import Path from pathlib import Path
from unittest import mock from unittest import mock
from rigdoctor.core import health from rigdoctor.core import displays, health
from rigdoctor.core.health import ( from rigdoctor.core.health import (
CRITICAL, CRITICAL,
INFO, INFO,
WARNING, WARNING,
check_displays,
check_memory_speed,
check_pcie_links, check_pcie_links,
run_health_checks, run_health_checks,
scan_journal_text, scan_journal_text,
@@ -81,5 +83,41 @@ class PcieLinkCheckTests(unittest.TestCase):
self.assertEqual(check_pcie_links(), []) self.assertEqual(check_pcie_links(), [])
class DisplayCheckTests(unittest.TestCase):
def test_lower_than_max_refresh_is_flagged(self):
mon = displays.Monitor("DP-1", "Samsung LC34G55T", 3440, 1440, 60.0, 165.0)
with mock.patch("rigdoctor.core.displays.collect", return_value=[mon]):
findings = check_displays()
self.assertEqual(len(findings), 1)
self.assertEqual(findings[0].severity, INFO)
self.assertIn("165", findings[0].title)
def test_at_max_refresh_no_finding(self):
mon = displays.Monitor("DP-1", "Samsung LC34G55T", 3440, 1440, 165.0, 165.0)
with mock.patch("rigdoctor.core.displays.collect", return_value=[mon]):
self.assertEqual(check_displays(), [])
class MemorySpeedCheckTests(unittest.TestCase):
def _dmi(self, configured, part):
return {"memory": [{"Configured Memory Speed": configured, "Speed": configured,
"Part Number": part}]}
def test_flags_unapplied_expo(self):
dmi = self._dmi("4800 MT/s", "CMK32GX5M2B5600Z36")
with mock.patch("rigdoctor.core.elevation.privileged", return_value=None), \
mock.patch("rigdoctor.core.inventory._dmidecode", return_value=dmi):
findings = check_memory_speed()
self.assertEqual(len(findings), 1)
self.assertEqual(findings[0].severity, INFO)
self.assertIn("5600", findings[0].title)
def test_no_flag_at_rated(self):
dmi = self._dmi("5600 MT/s", "CMK32GX5M2B5600Z36")
with mock.patch("rigdoctor.core.elevation.privileged", return_value=None), \
mock.patch("rigdoctor.core.inventory._dmidecode", return_value=dmi):
self.assertEqual(check_memory_speed(), [])
if __name__ == "__main__": if __name__ == "__main__":
unittest.main() unittest.main()
+18
View File
@@ -54,5 +54,23 @@ class PcieLinkTests(unittest.TestCase):
self.assertEqual(inventory._nvme_link("sda"), "") self.assertEqual(inventory._nvme_link("sda"), "")
class MemorySpeedTests(unittest.TestCase):
def test_rated_speed_from_part_number(self):
self.assertEqual(inventory._rated_from_part("CMK32GX5M2B5600Z36"), 5600)
self.assertEqual(inventory._rated_from_part("F5-6000J3038F16G"), 6000)
self.assertIsNone(inventory._rated_from_part("NoSpeedHere"))
def test_detects_unapplied_expo(self):
# XMP/EXPO off: dmidecode only sees JEDEC 4800; the 5600 is in the part number.
m = {"Configured Memory Speed": "4800 MT/s", "Speed": "4800 MT/s",
"Part Number": "CMK32GX5M2B5600Z36"}
self.assertEqual(inventory.module_speed(m), (4800, 5600))
def test_at_rated_speed(self):
m = {"Configured Memory Speed": "5600 MT/s", "Speed": "5600 MT/s",
"Part Number": "CMK32GX5M2B5600Z36"}
self.assertEqual(inventory.module_speed(m), (5600, 5600))
if __name__ == "__main__": if __name__ == "__main__":
unittest.main() unittest.main()