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media-player-server/media_server/services/display_service.py
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alexei.dolgolyov 57fdeb70fb feat(displays): expose DDC/CI contrast, input source, color preset, picture mode 
Backend (routes/display.py, services/display_service.py):
- Probe DDC/CI capabilities per monitor at enumeration time
- New endpoints POST /api/display/{contrast,input_source,color_preset,picture_mode}/{id}
- Picture mode goes through raw VCP 0xDC since monitorcontrol has no
  high-level wrapper; labels follow MCCS spec with vendor-friendly fallbacks
- Each capability reports a *_supported flag so the UI can hide rows that
  the hardware does not advertise

Frontend (links.js, app.js, styles.css, locales):
- Monitor cards grow a contrast slider (same editorial copper treatment
  as brightness) and a "PICTURE TUNING" section beneath
- Picture tuning uses the IconSelect widget (matching the audio device
  selector): per-port icons (HDMI, DisplayPort, DVI, VGA, USB-C),
  thermometer for color temps, per-mode icons (movie reel, gamepad,
  ball, etc.) for picture modes
- Humanizers turn SHOUT_CASE enum names into readable labels
  (COLOR_TEMP_6500K -> "6500 K", HDMI1 -> "HDMI 1")
- 14 new i18n keys per locale (en/ru)

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-15 14:28:04 +03:00

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"""Display brightness, power, contrast, input-source and color-preset control."""
import ctypes
import ctypes.wintypes
import logging
import platform
import struct
import time
from dataclasses import dataclass, field
logger = logging.getLogger(__name__)
# VCP 0xDC "Display Application" — picture / scene mode.
# Vendors deviate from the MCCS spec, but these labels match the standard
# meanings and cover what most monitors report through their capability
# string. Unknown codes fall back to "Mode <n>".
PICTURE_MODE_VCP = 0xDC
PICTURE_MODE_LABELS: dict[int, str] = {
0x00: "Default",
0x01: "Standalone",
0x02: "Mixed",
0x03: "Productivity",
0x04: "Movie",
0x05: "Game",
0x06: "Sports",
0x07: "Professional",
0x08: "Standard",
0x09: "Default",
0x0A: "Movie (Reduced Effects)",
0x0B: "Movie (Enhanced)",
0x0C: "User 1",
0x0D: "User 2",
0x0E: "User 3",
}
_sbc = None
_monitorcontrol = None
def _load_sbc():
global _sbc
if _sbc is None:
try:
import screen_brightness_control as sbc
_sbc = sbc
except ImportError:
logger.warning("screen_brightness_control not installed - brightness control unavailable")
return _sbc
def _load_monitorcontrol():
global _monitorcontrol
if _monitorcontrol is None:
try:
import monitorcontrol
_monitorcontrol = monitorcontrol
except ImportError:
logger.warning("monitorcontrol not installed - DDC/CI control unavailable")
return _monitorcontrol
def _parse_edid_resolution(edid_hex: str) -> str | None:
"""Parse resolution from EDID hex string (first detailed timing descriptor)."""
try:
edid = bytes.fromhex(edid_hex)
if len(edid) < 58:
return None
dtd = edid[54:]
pixel_clock = struct.unpack('<H', dtd[0:2])[0]
if pixel_clock == 0:
return None
h_active = dtd[2] | ((dtd[4] >> 4) << 8)
v_active = dtd[5] | ((dtd[7] >> 4) << 8)
return f"{h_active}x{v_active}"
except Exception:
return None
@dataclass
class MonitorInfo:
id: int
name: str
brightness: int | None
power_supported: bool
power_on: bool = True
model: str = ""
manufacturer: str = ""
resolution: str | None = None
is_primary: bool = False
contrast: int | None = None
contrast_supported: bool = False
input_source: str | None = None
available_input_sources: list[str] = field(default_factory=list)
input_source_supported: bool = False
color_preset: str | None = None
available_color_presets: list[str] = field(default_factory=list)
color_preset_supported: bool = False
picture_mode: str | None = None
picture_mode_code: int | None = None
available_picture_modes: list[dict] = field(default_factory=list)
picture_mode_supported: bool = False
def to_dict(self) -> dict:
return {
"id": self.id,
"name": self.name,
"brightness": self.brightness,
"power_supported": self.power_supported,
"power_on": self.power_on,
"model": self.model,
"manufacturer": self.manufacturer,
"resolution": self.resolution,
"is_primary": self.is_primary,
"contrast": self.contrast,
"contrast_supported": self.contrast_supported,
"input_source": self.input_source,
"available_input_sources": self.available_input_sources,
"input_source_supported": self.input_source_supported,
"color_preset": self.color_preset,
"available_color_presets": self.available_color_presets,
"color_preset_supported": self.color_preset_supported,
"picture_mode": self.picture_mode,
"picture_mode_code": self.picture_mode_code,
"available_picture_modes": self.available_picture_modes,
"picture_mode_supported": self.picture_mode_supported,
}
def _detect_primary_resolution() -> str | None:
"""Detect the primary display resolution via Windows API."""
if platform.system() != "Windows":
return None
try:
class MONITORINFO(ctypes.Structure):
_fields_ = [
("cbSize", ctypes.wintypes.DWORD),
("rcMonitor", ctypes.wintypes.RECT),
("rcWork", ctypes.wintypes.RECT),
("dwFlags", ctypes.wintypes.DWORD),
]
MONITORINFOF_PRIMARY = 1
primary_res = None
def callback(hmon, hdc, rect, data):
nonlocal primary_res
mi = MONITORINFO()
mi.cbSize = ctypes.sizeof(mi)
ctypes.windll.user32.GetMonitorInfoW(hmon, ctypes.byref(mi))
if mi.dwFlags & MONITORINFOF_PRIMARY:
w = mi.rcMonitor.right - mi.rcMonitor.left
h = mi.rcMonitor.bottom - mi.rcMonitor.top
primary_res = f"{w}x{h}"
return True
MONITORENUMPROC = ctypes.WINFUNCTYPE(
ctypes.c_int,
ctypes.wintypes.HMONITOR,
ctypes.wintypes.HDC,
ctypes.POINTER(ctypes.wintypes.RECT),
ctypes.wintypes.LPARAM,
)
ctypes.windll.user32.EnumDisplayMonitors(
None, None, MONITORENUMPROC(callback), 0
)
return primary_res
except Exception:
return None
def _mark_primary(monitors: list[MonitorInfo]) -> None:
"""Mark the primary display in the monitor list."""
if not monitors:
return
primary_res = _detect_primary_resolution()
if primary_res:
for m in monitors:
if m.resolution == primary_res:
m.is_primary = True
return
# Fallback: mark first monitor as primary
monitors[0].is_primary = True
# Short TTL cache of the assembled monitor list (full response).
_monitor_cache: list[MonitorInfo] | None = None
_cache_time: float = 0
_CACHE_TTL = 5.0 # seconds
# Per-monitor cache of static capabilities (option lists + support flags).
# DDC/CI capability discovery is the slow part — it only changes when a
# monitor is replaced or rewired, so we probe it once per monitor and reuse
# it across refreshes. Cleared on explicit `rediscover` or when the monitor
# count changes (cheap stale-detection for hot-plug events).
_static_cache: dict[int, dict] = {}
_static_cache_monitor_count: int = -1
def _enum_name(value, enum_cls=None) -> str | None:
"""Best-effort name for an enum or raw int returned by monitorcontrol.
monitorcontrol's getters sometimes hand back raw ints when the monitor
reports a value the library wraps incompletely. Re-map those through the
matching enum class so HA selects still receive symbolic option names.
"""
if value is None:
return None
name = getattr(value, "name", None)
if name:
return name
if enum_cls is not None:
try:
return enum_cls(value).name
except (ValueError, KeyError):
pass
return str(value)
def _probe_static_open(mon, mc, monitor_id: int) -> dict:
"""Probe per-monitor static capabilities.
Must be called inside an open `with mon:` DDC/CI context. Tries each
feature once to confirm the monitor responds, and enumerates option
lists from the capability string. Heavy: this is what the cache is for.
"""
static = {
"contrast_supported": False,
"input_source_supported": False,
"available_input_sources": [],
"color_preset_supported": False,
"available_color_presets": [],
"picture_mode_supported": False,
"available_picture_modes": [],
}
try:
caps = mon.get_vcp_capabilities() or {}
except Exception as e:
caps = {}
logger.debug("Monitor %d: get_vcp_capabilities failed: %s", monitor_id, e)
try:
mon.get_contrast()
static["contrast_supported"] = True
except Exception as e:
logger.debug("Monitor %d: contrast unsupported: %s", monitor_id, e)
try:
mon.get_input_source()
static["input_source_supported"] = True
except Exception as e:
logger.debug("Monitor %d: input_source unsupported: %s", monitor_id, e)
inputs = caps.get("inputs") or []
input_enum = mc.InputSource if mc else None
static["available_input_sources"] = [
n for n in (_enum_name(s, input_enum) for s in inputs) if n is not None
]
try:
mon.get_color_preset()
static["color_preset_supported"] = True
if mc is not None:
static["available_color_presets"] = [p.name for p in mc.ColorPreset]
except Exception as e:
logger.debug("Monitor %d: color_preset unsupported: %s", monitor_id, e)
# Picture / scene mode (VCP 0xDC) — not exposed by monitorcontrol's
# high-level API, so probe via raw VCP transport.
try:
mon.vcp.get_vcp_feature(PICTURE_MODE_VCP)
static["picture_mode_supported"] = True
cmds = caps.get("cmds") or {}
declared = cmds.get(PICTURE_MODE_VCP)
codes = sorted(declared) if declared else sorted(PICTURE_MODE_LABELS.keys())
static["available_picture_modes"] = [
{"code": c, "label": PICTURE_MODE_LABELS.get(c, f"Mode {c}")}
for c in codes
]
except Exception as e:
logger.debug("Monitor %d: picture_mode unsupported: %s", monitor_id, e)
return static
def _probe_dynamic_open(mon, mc, monitor_id: int, static: dict) -> dict:
"""Read current values for features known to be supported.
Must be called inside an open `with mon:` context. Skips reads for
unsupported features (saves one I2C roundtrip each), so the warm path
only touches features the monitor actually responds to.
"""
dynamic = {
"power_on": True,
"contrast": None,
"input_source": None,
"color_preset": None,
"picture_mode": None,
"picture_mode_code": None,
}
try:
dynamic["power_on"] = mon.get_power_mode() == mc.PowerMode.on
except Exception as e:
logger.debug("Monitor %d: power readback failed: %s", monitor_id, e)
if static.get("contrast_supported"):
try:
dynamic["contrast"] = mon.get_contrast()
except Exception as e:
logger.debug("Monitor %d: contrast readback failed: %s", monitor_id, e)
if static.get("input_source_supported"):
try:
src = mon.get_input_source()
dynamic["input_source"] = _enum_name(src, mc.InputSource if mc else None)
except Exception as e:
logger.debug("Monitor %d: input_source readback failed: %s", monitor_id, e)
if static.get("color_preset_supported"):
try:
preset = mon.get_color_preset()
dynamic["color_preset"] = _enum_name(preset, mc.ColorPreset if mc else None)
except Exception as e:
logger.debug("Monitor %d: color_preset readback failed: %s", monitor_id, e)
if static.get("picture_mode_supported"):
try:
current, _maximum = mon.vcp.get_vcp_feature(PICTURE_MODE_VCP)
dynamic["picture_mode_code"] = current
dynamic["picture_mode"] = PICTURE_MODE_LABELS.get(current, f"Mode {current}")
except Exception as e:
logger.debug("Monitor %d: picture_mode readback failed: %s", monitor_id, e)
return dynamic
def list_monitors(force_refresh: bool = False, rediscover: bool = False) -> list[MonitorInfo]:
"""List all connected monitors with their current state.
Args:
force_refresh: bypass the short TTL response cache.
rediscover: also drop the per-monitor static capability cache, so the
next probe re-runs DDC/CI capability discovery. Use after hot-plug
or when a monitor's reported capabilities change.
"""
global _monitor_cache, _cache_time, _static_cache_monitor_count
if (
not force_refresh
and not rediscover
and _monitor_cache is not None
and (time.time() - _cache_time) < _CACHE_TTL
):
return _monitor_cache
sbc = _load_sbc()
if sbc is None:
return []
monitors = []
try:
info_list = sbc.list_monitors_info()
brightnesses = sbc.get_brightness()
# Invalidate the static cache on explicit rediscover OR on topology
# change (hot-plug / disconnect). Both indicate the cached probe is
# potentially stale.
if rediscover or len(info_list) != _static_cache_monitor_count:
_static_cache.clear()
_static_cache_monitor_count = len(info_list)
mc = _load_monitorcontrol()
ddc_monitors = []
if mc:
try:
ddc_monitors = mc.get_monitors()
except Exception:
pass
for i, info in enumerate(info_list):
name = info.get("name", f"Monitor {i}")
model = info.get("model", "")
manufacturer = info.get("manufacturer", "")
brightness = brightnesses[i] if i < len(brightnesses) else None
# VCP method monitors support DDC/CI power control
method = str(info.get("method", "")).lower()
power_supported = "vcp" in method
# Parse resolution from EDID
edid = info.get("edid", "")
resolution = _parse_edid_resolution(edid) if edid else None
static: dict = {}
dynamic: dict = {}
# Open the DDC handle ONCE; do static probe (if needed) + dynamic
# readback inside the same context. Opening the handle is the
# expensive part — keep both phases under one open.
if power_supported and i < len(ddc_monitors):
try:
with ddc_monitors[i] as mon:
if i not in _static_cache:
_static_cache[i] = _probe_static_open(mon, mc, i)
static = _static_cache[i]
dynamic = _probe_dynamic_open(mon, mc, i, static)
except Exception as e:
logger.debug("Monitor %d: DDC/CI session failed: %s", i, e)
static = _static_cache.get(i, {})
monitors.append(MonitorInfo(
id=i,
name=name,
brightness=brightness,
power_supported=power_supported,
power_on=dynamic.get("power_on", True),
model=model,
manufacturer=manufacturer,
resolution=resolution,
contrast=dynamic.get("contrast"),
contrast_supported=static.get("contrast_supported", False),
input_source=dynamic.get("input_source"),
available_input_sources=static.get("available_input_sources", []),
input_source_supported=static.get("input_source_supported", False),
color_preset=dynamic.get("color_preset"),
available_color_presets=static.get("available_color_presets", []),
color_preset_supported=static.get("color_preset_supported", False),
picture_mode=dynamic.get("picture_mode"),
picture_mode_code=dynamic.get("picture_mode_code"),
available_picture_modes=static.get("available_picture_modes", []),
picture_mode_supported=static.get("picture_mode_supported", False),
))
except Exception as e:
logger.error("Failed to enumerate monitors: %s", e)
_mark_primary(monitors)
_monitor_cache = monitors
_cache_time = time.time()
return monitors
def get_brightness(monitor_id: int) -> int | None:
"""Get brightness for a specific monitor."""
sbc = _load_sbc()
if sbc is None:
return None
try:
result = sbc.get_brightness(display=monitor_id)
if isinstance(result, list):
return result[0] if result else None
return result
except Exception as e:
logger.error("Failed to get brightness for monitor %d: %s", monitor_id, e)
return None
def set_brightness(monitor_id: int, value: int) -> bool:
"""Set brightness for a specific monitor (0-100)."""
sbc = _load_sbc()
if sbc is None:
return False
value = max(0, min(100, value))
try:
sbc.set_brightness(value, display=monitor_id)
_invalidate_cache()
return True
except Exception as e:
logger.error("Failed to set brightness for monitor %d: %s", monitor_id, e)
return False
def set_power(monitor_id: int, on: bool) -> bool:
"""Turn a monitor on or off via DDC/CI."""
mc = _load_monitorcontrol()
if mc is None:
logger.error("monitorcontrol not available for power control")
return False
try:
ddc_monitors = mc.get_monitors()
if monitor_id >= len(ddc_monitors):
logger.error("Monitor %d not found in DDC/CI monitors", monitor_id)
return False
with ddc_monitors[monitor_id] as monitor:
if on:
monitor.set_power_mode(mc.PowerMode.on)
else:
monitor.set_power_mode(mc.PowerMode.off_soft)
_invalidate_cache()
return True
except Exception as e:
logger.error("Failed to set power for monitor %d: %s", monitor_id, e)
return False
def set_contrast(monitor_id: int, value: int) -> bool:
"""Set contrast for a specific monitor (0-100) via DDC/CI."""
mc = _load_monitorcontrol()
if mc is None:
return False
value = max(0, min(100, value))
try:
ddc_monitors = mc.get_monitors()
if monitor_id >= len(ddc_monitors):
return False
with ddc_monitors[monitor_id] as monitor:
monitor.set_contrast(value)
_invalidate_cache()
return True
except Exception as e:
logger.error("Failed to set contrast for monitor %d: %s", monitor_id, e)
return False
def set_input_source(monitor_id: int, source: str) -> bool:
"""Set the DDC/CI input source by enum name (e.g. 'HDMI1', 'DP1')."""
mc = _load_monitorcontrol()
if mc is None:
return False
try:
target = mc.InputSource[source]
except KeyError:
logger.error("Unknown input source: %s", source)
return False
try:
ddc_monitors = mc.get_monitors()
if monitor_id >= len(ddc_monitors):
return False
with ddc_monitors[monitor_id] as monitor:
monitor.set_input_source(target)
_invalidate_cache()
return True
except Exception as e:
logger.error("Failed to set input source for monitor %d: %s", monitor_id, e)
return False
def set_color_preset(monitor_id: int, preset: str) -> bool:
"""Set the DDC/CI color preset by enum name (e.g. 'COLOR_TEMP_6500K')."""
mc = _load_monitorcontrol()
if mc is None:
return False
try:
target = mc.ColorPreset[preset]
except KeyError:
logger.error("Unknown color preset: %s", preset)
return False
try:
ddc_monitors = mc.get_monitors()
if monitor_id >= len(ddc_monitors):
return False
with ddc_monitors[monitor_id] as monitor:
monitor.set_color_preset(target)
_invalidate_cache()
return True
except Exception as e:
logger.error("Failed to set color preset for monitor %d: %s", monitor_id, e)
return False
def set_picture_mode(monitor_id: int, code: int) -> bool:
"""Set the DDC/CI picture/scene mode (VCP 0xDC) by raw code."""
mc = _load_monitorcontrol()
if mc is None:
return False
if not 0 <= code <= 255:
logger.error("Picture mode code %d out of range", code)
return False
try:
ddc_monitors = mc.get_monitors()
if monitor_id >= len(ddc_monitors):
return False
with ddc_monitors[monitor_id] as monitor:
monitor.vcp.set_vcp_feature(PICTURE_MODE_VCP, code)
_invalidate_cache()
return True
except Exception as e:
logger.error("Failed to set picture mode for monitor %d: %s", monitor_id, e)
return False
def _invalidate_cache() -> None:
global _monitor_cache
_monitor_cache = None
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